auto-apply clang-format

- including vl.c & kvm-all.c
2022-10-16 23:34:23 +02:00 · 2022-10-16 23:34:23 +02:00 · 8a88edc2a1
commit 8a88edc2a1
parent 976d8e8329
74 changed files with 9616 additions and 7849 deletions
--- a/accel/kvm/kvm-all.c
+++ b/accel/kvm/kvm-all.c
@ -48,15 +48,15 @@

 #ifdef QEMU_NYX
 // clang-format on
-#include "nyx/pt.h"
-#include "nyx/hypercall/hypercall.h"
-#include "nyx/synchronization.h"
 #include "nyx/debug.h"
-#include "nyx/state/state.h"
-#include "nyx/interface.h"
 #include "nyx/fast_vm_reload_sync.h"
-#include "nyx/snapshot/memory/backend/nyx_dirty_ring.h"
 #include "nyx/helpers.h"
+#include "nyx/hypercall/hypercall.h"
+#include "nyx/interface.h"
+#include "nyx/pt.h"
+#include "nyx/snapshot/memory/backend/nyx_dirty_ring.h"
+#include "nyx/state/state.h"
+#include "nyx/synchronization.h"
 // clang-format off
 #endif

@ -93,7 +93,7 @@ struct KVMState
    AccelState parent_obj;

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    bool nyx_no_pt_mode;
 // clang-format off
 #endif
@ -387,11 +387,13 @@ static int kvm_get_vcpu(KVMState *s, unsigned long vcpu_id)

 #ifdef QEMU_NYX
 // clang-format on
-int kvm_get_vm_fd(KVMState *s){
+int kvm_get_vm_fd(KVMState *s)
+{
    return s->vmfd;
 }

-KVMMemoryListener* kvm_get_kml(int as_id){  
+KVMMemoryListener *kvm_get_kml(int as_id)
+{
    return kvm_state->as[as_id].ml;
 }
 // clang-format off
@ -416,9 +418,9 @@ int kvm_init_vcpu(CPUState *cpu)
    cpu->vcpu_dirty = true;

 #ifdef QEMU_NYX
-// clang-format on
-    if(s->nyx_no_pt_mode){
-        if(!getenv("NYX_DISABLE_DIRTY_RING")){
+    // clang-format on
+    if (s->nyx_no_pt_mode) {
+        if (!getenv("NYX_DISABLE_DIRTY_RING")) {
            nyx_dirty_ring_pre_init(cpu->kvm_fd, s->vmfd);
        }
    }
@ -450,7 +452,7 @@ int kvm_init_vcpu(CPUState *cpu)
    ret = kvm_arch_init_vcpu(cpu);

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    unblock_signals();
 // clang-format off
 #endif
@ -1928,28 +1930,34 @@ static int kvm_init(MachineState *ms)
        goto err;
    }
 #ifdef QEMU_NYX
-// clang-format on
-    if (ioctl(s->fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_PT) != 1 && ioctl(s->fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_FDL) != 1) {
-
+    // clang-format on
+    if (ioctl(s->fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_PT) != 1 &&
+        ioctl(s->fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_FDL) != 1)
+    {
        /* fallback -> use vanilla KVM module instead (no Intel-PT tracing or nested hypercalls at this point) */
-        fprintf(stderr, "[QEMU-Nyx] Could not access KVM-PT kernel module!\n[QEMU-Nyx] Trying vanilla KVM...\n");
+        fprintf(stderr, "[QEMU-Nyx] Could not access KVM-PT kernel "
+                        "module!\n[QEMU-Nyx] Trying vanilla KVM...\n");
        if (s->fd == -1) {
-            fprintf(stderr, "[QEMU-Nyx] Error: NYX fallback failed: Could not access vanilla KVM module!\n");
+            fprintf(stderr, "[QEMU-Nyx] Error: NYX fallback failed: Could not "
+                            "access vanilla KVM module!\n");
            ret = -errno;
            goto err;
        }

        int ret_val = ioctl(s->fd, KVM_CHECK_EXTENSION, KVM_CAP_DIRTY_LOG_RING);
-	    if(ret_val == -1 || ret_val == 0){
-            fprintf(stderr, "[QEMU-Nyx] Error: NYX requires support for KVM_CAP_DIRTY_LOG_RING in fallback mode!\n");
+        if (ret_val == -1 || ret_val == 0) {
+            fprintf(stderr, "[QEMU-Nyx] Error: NYX requires support for "
+                            "KVM_CAP_DIRTY_LOG_RING in fallback mode!\n");
            ret = -errno;
            goto err;
        }

        /* check for vmware_backdoor support */
        int fd = open("/sys/module/kvm/parameters/enable_vmware_backdoor", O_RDONLY);
-        if(fd == -1){
-            fprintf(stderr, "ERROR: /sys/module/kvm/parameters/enable_vmware_backdoor file not found...\n");
+        if (fd == -1) {
+            fprintf(stderr,
+                    "ERROR: /sys/module/kvm/parameters/enable_vmware_backdoor file "
+                    "not found...\n");
            ret = -errno;
            goto err;
        }
@ -1958,27 +1966,31 @@ static int kvm_init(MachineState *ms)
        assert(read(fd, &vmware_backdoor_option, 1) == 1);
        close(fd);

-        if(vmware_backdoor_option == 'N'){
-            fprintf(stderr, "\n[QEMU-Nyx] ERROR: vmware backdoor is not enabled...\n");
+        if (vmware_backdoor_option == 'N') {
+            fprintf(stderr,
+                    "\n[QEMU-Nyx] ERROR: vmware backdoor is not enabled...\n");
            fprintf(stderr, "\n\tRun the following commands to fix the issue:\n");
            fprintf(stderr, "\t-----------------------------------------\n");
            fprintf(stderr, "\tsudo modprobe -r kvm-intel\n");
            fprintf(stderr, "\tsudo modprobe -r kvm\n");
            fprintf(stderr, "\tsudo modprobe  kvm enable_vmware_backdoor=y\n");
            fprintf(stderr, "\tsudo modprobe  kvm-intel\n");
-            fprintf(stderr, "\tcat /sys/module/kvm/parameters/enable_vmware_backdoor\n");
+            fprintf(stderr,
+                    "\tcat /sys/module/kvm/parameters/enable_vmware_backdoor\n");
            fprintf(stderr, "\t-----------------------------------------\n\n");
            ret = -errno;
            goto err;
        }

-        fprintf(stderr, "[QEMU-Nyx] NYX runs in fallback mode (no Intel-PT tracing or nested hypercall support)!\n");
+        fprintf(stderr, "[QEMU-Nyx] NYX runs in fallback mode (no Intel-PT tracing "
+                        "or nested hypercall support)!\n");
        s->nyx_no_pt_mode           = true;
        GET_GLOBAL_STATE()->nyx_fdl = false;
-        GET_GLOBAL_STATE()->pt_trace_mode = false; // Intel PT is not available in this mode 
-        fast_reload_set_mode(get_fast_reload_snapshot(), RELOAD_MEMORY_MODE_DIRTY_RING);
-    }
-    else{
+        GET_GLOBAL_STATE()->pt_trace_mode =
+            false; // Intel PT is not available in this mode
+        fast_reload_set_mode(get_fast_reload_snapshot(),
+                             RELOAD_MEMORY_MODE_DIRTY_RING);
+    } else {
        s->nyx_no_pt_mode           = false;
        GET_GLOBAL_STATE()->nyx_fdl = true;
        fast_reload_set_mode(get_fast_reload_snapshot(), RELOAD_MEMORY_MODE_FDL);
@ -2050,13 +2062,16 @@ static int kvm_init(MachineState *ms)
    s->vmfd = ret;

 #ifdef QEMU_NYX
-// clang-format on
-    if(s->nyx_no_pt_mode){
-        if(getenv("NYX_DISABLE_DIRTY_RING")){
-		    fprintf(stderr, "WARNING: Nyx has disabled KVM's dirty-ring (required to enable full VGA support during pre-snapshot creation procedure)\n");
-            fast_reload_set_mode(get_fast_reload_snapshot(), RELOAD_MEMORY_MODE_DEBUG_QUIET); /* required to create snapshot */
-        }
-        else{
+    // clang-format on
+    if (s->nyx_no_pt_mode) {
+        if (getenv("NYX_DISABLE_DIRTY_RING")) {
+            fprintf(stderr,
+                    "WARNING: Nyx has disabled KVM's dirty-ring (required to enable "
+                    "full VGA support during pre-snapshot creation procedure)\n");
+            fast_reload_set_mode(
+                get_fast_reload_snapshot(),
+                RELOAD_MEMORY_MODE_DEBUG_QUIET); /* required to create snapshot */
+        } else {
            nyx_dirty_ring_early_init(s->fd, s->vmfd);
        }
    }
@ -2105,11 +2120,10 @@ static int kvm_init(MachineState *ms)
 #ifndef QEMU_NYX
        ret = kvm_vm_enable_cap(s, KVM_CAP_MANUAL_DIRTY_LOG_PROTECT2, 0, 1);
 #else
-// clang-format on
-        if(s->nyx_no_pt_mode){
+        // clang-format on
+        if (s->nyx_no_pt_mode) {
            ret = kvm_vm_enable_cap(s, KVM_CAP_MANUAL_DIRTY_LOG_PROTECT2, 0, 1);
-        }
-        else{
+        } else {
            ret = 0;
        }
 // clang-format off
@ -2405,13 +2419,14 @@ static void kvm_eat_signals(CPUState *cpu)

 #ifdef QEMU_NYX
 // clang-format on
-static int handle_vmware_hypercall(struct kvm_run *run, CPUState *cpu){
+static int handle_vmware_hypercall(struct kvm_run *run, CPUState *cpu)
+{
    kvm_arch_get_registers_fast(cpu);

    X86CPU      *x86_cpu = X86_CPU(cpu);
    CPUX86State *env     = &x86_cpu->env;

-    return handle_kafl_hypercall(run, cpu, env->regs[R_EBX]+100, env->regs[R_ECX]);
+    return handle_kafl_hypercall(run, cpu, env->regs[R_EBX] + 100, env->regs[R_ECX]);
 }
 // clang-format off
 #endif
@ -2432,9 +2447,9 @@ int kvm_cpu_exec(CPUState *cpu)
    cpu_exec_start(cpu);

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    static bool timeout_reload_pending = false;
-    if(timeout_reload_pending){
+    if (timeout_reload_pending) {
        synchronization_lock_timeout_found();
    }
    timeout_reload_pending = false;
@ -2462,8 +2477,8 @@ int kvm_cpu_exec(CPUState *cpu)
        }

 #ifdef QEMU_NYX
-// clang-format on
-        if(!kvm_state->nyx_no_pt_mode){
+        // clang-format on
+        if (!kvm_state->nyx_no_pt_mode) {
            pt_pre_kvm_run(cpu);
        }
 // clang-format off
@ -2475,7 +2490,7 @@ int kvm_cpu_exec(CPUState *cpu)
        smp_rmb();

 #ifdef QEMU_NYX
-// clang-format on
+        // clang-format on
        arm_sigprof_timer(&GET_GLOBAL_STATE()->timeout_detector);
 // clang-format off
 #endif
@ -2483,8 +2498,8 @@ int kvm_cpu_exec(CPUState *cpu)
        run_ret = kvm_vcpu_ioctl(cpu, KVM_RUN, 0);

 #ifdef QEMU_NYX
-// clang-format on
-        if (disarm_sigprof_timer(&GET_GLOBAL_STATE()->timeout_detector)){
+        // clang-format on
+        if (disarm_sigprof_timer(&GET_GLOBAL_STATE()->timeout_detector)) {
            timeout_reload_pending = true;
        }
 // clang-format off
@ -2493,8 +2508,8 @@ int kvm_cpu_exec(CPUState *cpu)
        attrs = kvm_arch_post_run(cpu, run);

 #ifdef QEMU_NYX
-// clang-format on
-        if(!kvm_state->nyx_no_pt_mode){
+        // clang-format on
+        if (!kvm_state->nyx_no_pt_mode) {
            pt_post_kvm_run(cpu);
        }
 // clang-format off
@ -2522,24 +2537,25 @@ int kvm_cpu_exec(CPUState *cpu)
            fprintf(stderr, "error: kvm run failed %s\n",
                    strerror(-run_ret));
 #else
-// clang-format on
-            if(run_ret == -EFAULT){
-                if(GET_GLOBAL_STATE()->protect_payload_buffer){
-                    if (GET_GLOBAL_STATE()->in_fuzzing_mode){
+            // clang-format on
+            if (run_ret == -EFAULT) {
+                if (GET_GLOBAL_STATE()->protect_payload_buffer) {
+                    if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
                        /* Fuzzing is enabled at this point -> don't exit */
                        synchronization_payload_buffer_write_detected();
                        ret = 0;
                        break;
-                    }
-                    else{
-                        fprintf(stderr, "ERROR: invalid write to input buffer detected before harness was ready (write protection is enabled)!\n");
+                    } else {
+                        fprintf(
+                            stderr,
+                            "ERROR: invalid write to input buffer detected before "
+                            "harness was ready (write protection is enabled)!\n");
                        exit(1);
                    }
                }
            }

-            fprintf(stderr, "QEMU-PT: error: kvm run failed %s\n",
-                    strerror(-run_ret));
+            fprintf(stderr, "QEMU-PT: error: kvm run failed %s\n", strerror(-run_ret));
            qemu_backtrace();
 // clang-format off
 #endif
@ -2562,8 +2578,10 @@ int kvm_cpu_exec(CPUState *cpu)
            DPRINTF("handle_io\n");

 #ifdef QEMU_NYX
-// clang-format on
-            if(run->io.port == 0x5658 && run->io.size == 4 && *((uint32_t*)((uint8_t *)run + run->io.data_offset)) == 0x8080801f) {
+            // clang-format on
+            if (run->io.port == 0x5658 && run->io.size == 4 &&
+                *((uint32_t *)((uint8_t *)run + run->io.data_offset)) == 0x8080801f)
+            {
                assert(kvm_state->nyx_no_pt_mode);
                ret = handle_vmware_hypercall(run, cpu);
                break;
@ -2598,20 +2616,23 @@ int kvm_cpu_exec(CPUState *cpu)
            qemu_system_reset_request(SHUTDOWN_CAUSE_GUEST_RESET);
            ret = EXCP_INTERRUPT;
 #else
-// clang-format on
-            if(GET_GLOBAL_STATE()->in_fuzzing_mode){
+            // clang-format on
+            if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
 #define CONFIG_KVM_EXIT_SHUTODWN_IS_PANIC // consider triple-fault etc as crash?
 #ifndef CONFIG_KVM_EXIT_SHUTODWN_IS_PANIC
                /* Fuzzing is enabled at this point -> don't exit */
-				fprintf(stderr, "Got KVM_EXIT_SHUTDOWN while in fuzzing mode => reload\n",);
-                handle_hypercall_kafl_release(run, cpu, (uint64_t)run->hypercall.args[0]);
+                fprintf(stderr,
+                        "Got KVM_EXIT_SHUTDOWN while in fuzzing mode => reload\n", );
+                handle_hypercall_kafl_release(run, cpu,
+                                              (uint64_t)run->hypercall.args[0]);
                ret = 0;
 #else
                nyx_debug("Got KVM_EXIT_SHUTDOWN while in fuzzing mode => panic\n");
-				handle_hypercall_kafl_panic(run, cpu, (uint64_t)run->hypercall.args[0]);
+                handle_hypercall_kafl_panic(run, cpu,
+                                            (uint64_t)run->hypercall.args[0]);
                ret = 0;
 #endif
-            } else{
+            } else {
                qemu_system_reset_request(SHUTDOWN_CAUSE_GUEST_RESET);
                ret = EXCP_INTERRUPT;
            }
@ -2623,7 +2644,7 @@ int kvm_cpu_exec(CPUState *cpu)
                    (uint64_t)run->hw.hardware_exit_reason);

 #ifdef QEMU_NYX
-// clang-format on
+            // clang-format on
            assert(false);
 // clang-format off
 #endif
@ -2635,23 +2656,24 @@ int kvm_cpu_exec(CPUState *cpu)
            break;

 #ifdef QEMU_NYX
-// clang-format on
+            // clang-format on
        case KVM_EXIT_DIRTY_RING_FULL:
-            //printf("[*] WARNING: KVM_EXIT_DIRTY_RING_FULL\n");
+            // printf("[*] WARNING: KVM_EXIT_DIRTY_RING_FULL\n");
            fast_reload_handle_dirty_ring_full(get_fast_reload_snapshot());
            ret = 0;
            break;

-        case KVM_EXIT_KAFL_ACQUIRE ... (KVM_EXIT_KAFL_ACQUIRE+100):
-            ret = handle_kafl_hypercall(run, cpu, (uint64_t)run->exit_reason, (uint64_t)run->hypercall.args[0]);
+        case KVM_EXIT_KAFL_ACQUIRE ...(KVM_EXIT_KAFL_ACQUIRE + 100):
+            ret = handle_kafl_hypercall(run, cpu, (uint64_t)run->exit_reason,
+                                        (uint64_t)run->hypercall.args[0]);
            break;

        case KVM_EXIT_DEBUG:
            kvm_arch_get_registers(cpu);
-            if(!handle_hypercall_kafl_hook(run, cpu, (uint64_t)run->hypercall.args[0])){      
+            if (!handle_hypercall_kafl_hook(run, cpu, (uint64_t)run->hypercall.args[0]))
+            {
                ret = kvm_arch_handle_exit(cpu, run);
-            }                                                                                                                                                      
-            else {     
+            } else {
                ret = 0;
            }
            break;
@ -2665,14 +2687,16 @@ int kvm_cpu_exec(CPUState *cpu)
                qemu_system_shutdown_request(SHUTDOWN_CAUSE_GUEST_SHUTDOWN);
                ret = EXCP_INTERRUPT;
 #else
-// clang-format on
-                fprintf(stderr, "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_SHUTDOWN)!\n");
-                if(GET_GLOBAL_STATE()->in_fuzzing_mode){
+                // clang-format on
+                fprintf(
+                    stderr,
+                    "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_SHUTDOWN)!\n");
+                if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
                    /* Fuzzing is enabled at this point -> don't exit */
-                    handle_hypercall_kafl_release(run, cpu, (uint64_t)run->hypercall.args[0]);
+                    handle_hypercall_kafl_release(run, cpu,
+                                                  (uint64_t)run->hypercall.args[0]);
                    ret = 0;
-                }
-                else{
+                } else {
                    qemu_system_shutdown_request(SHUTDOWN_CAUSE_GUEST_SHUTDOWN);
                    ret = EXCP_INTERRUPT;
                }
@ -2684,14 +2708,15 @@ int kvm_cpu_exec(CPUState *cpu)
                qemu_system_reset_request(SHUTDOWN_CAUSE_GUEST_RESET);
                ret = EXCP_INTERRUPT;
 #else
-// clang-format on
-                fprintf(stderr, "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_RESET)!\n");
-                if(GET_GLOBAL_STATE()->in_fuzzing_mode){
+                // clang-format on
+                fprintf(stderr,
+                        "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_RESET)!\n");
+                if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
                    /* Fuzzing is enabled at this point -> don't exit */
-                    handle_hypercall_kafl_release(run, cpu, (uint64_t)run->hypercall.args[0]);
+                    handle_hypercall_kafl_release(run, cpu,
+                                                  (uint64_t)run->hypercall.args[0]);
                    ret = 0;
-                }
-                else{
+                } else {
                    qemu_system_reset_request(SHUTDOWN_CAUSE_GUEST_RESET);
                    ret = EXCP_INTERRUPT;
                }
@ -2706,14 +2731,15 @@ int kvm_cpu_exec(CPUState *cpu)
                qemu_mutex_unlock_iothread();
                ret = 0;
 #else
-// clang-format on
-                fprintf(stderr, "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_CRASH)!\n");
-                if(GET_GLOBAL_STATE()->in_fuzzing_mode){
+                // clang-format on
+                fprintf(stderr,
+                        "ATTEMPT TO SHUTDOWN MACHINE (KVM_SYSTEM_EVENT_CRASH)!\n");
+                if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
                    /* Fuzzing is enabled at this point -> don't exit */
-                    handle_hypercall_kafl_release(run, cpu, (uint64_t)run->hypercall.args[0]);
+                    handle_hypercall_kafl_release(run, cpu,
+                                                  (uint64_t)run->hypercall.args[0]);
                    ret = 0;
-                }
-                else{
+                } else {
                    kvm_cpu_synchronize_state(cpu);
                    qemu_mutex_lock_iothread();
                    qemu_system_guest_panicked(cpu_get_crash_info(cpu));
@ -2743,7 +2769,8 @@ int kvm_cpu_exec(CPUState *cpu)
            nyx_debug("kvm_arch_handle_exit(%d) => panic\n", run->exit_reason);
            ret = kvm_arch_handle_exit(cpu, run);
            if (ret != 0)
-				handle_hypercall_kafl_panic(run, cpu, (uint64_t)run->hypercall.args[0]);
+                handle_hypercall_kafl_panic(run, cpu,
+                                            (uint64_t)run->hypercall.args[0]);
 #endif
 // clang-format off
 #endif
@ -2752,30 +2779,34 @@ int kvm_cpu_exec(CPUState *cpu)
        }

 #ifdef QEMU_NYX
-// clang-format on
-        if(GET_GLOBAL_STATE()->in_fuzzing_mode && GET_GLOBAL_STATE()->cow_cache_full){
+        // clang-format on
+        if (GET_GLOBAL_STATE()->in_fuzzing_mode && GET_GLOBAL_STATE()->cow_cache_full)
+        {
            synchronization_cow_full_detected();
            GET_GLOBAL_STATE()->cow_cache_full = false;
            ret                                = 0;
-        }
-        else{
-            if(GET_GLOBAL_STATE()->in_fuzzing_mode && cpu->halted){
+        } else {
+            if (GET_GLOBAL_STATE()->in_fuzzing_mode && cpu->halted) {
                fprintf(stderr, "%s: Attempt to halt CPU -> FUCK OFF!\n", __func__);
                cpu->halted                            = 0;
                GET_GLOBAL_STATE()->shutdown_requested = true;
            }

-            if(GET_GLOBAL_STATE()->in_fuzzing_mode && GET_GLOBAL_STATE()->shutdown_requested){
+            if (GET_GLOBAL_STATE()->in_fuzzing_mode &&
+                GET_GLOBAL_STATE()->shutdown_requested)
+            {
                /* Fuzzing is enabled at this point -> don't exit */
-                fprintf(stderr, "shutdown_requested -> calling handle_hypercall_kafl_release\n");
+                fprintf(
+                    stderr,
+                    "shutdown_requested -> calling handle_hypercall_kafl_release\n");

-                //synchronization_lock_shutdown_detected();
+                // synchronization_lock_shutdown_detected();
                synchronization_lock_crash_found();
                GET_GLOBAL_STATE()->shutdown_requested = false;
                ret                                    = 0;
            }
        }
-        if(reload_request_exists(GET_GLOBAL_STATE()->reload_state)){
+        if (reload_request_exists(GET_GLOBAL_STATE()->reload_state)) {
            break;
        }
 // clang-format off
@ -2788,7 +2819,7 @@ int kvm_cpu_exec(CPUState *cpu)

    if (ret < 0) {
 #ifdef QEMU_NYX
-// clang-format on
+        // clang-format on
        fprintf(stderr, "ATTEMPT TO SHUTDOWN MACHINE (ret < 0)!\n");
 // clang-format off
 #endif
@ -2799,8 +2830,8 @@ int kvm_cpu_exec(CPUState *cpu)
    atomic_set(&cpu->exit_request, 0);

 #ifdef QEMU_NYX
-// clang-format on
-    if(check_if_relood_request_exists_pre(GET_GLOBAL_STATE()->reload_state)){
+    // clang-format on
+    if (check_if_relood_request_exists_pre(GET_GLOBAL_STATE()->reload_state)) {
        pause_all_vcpus(); /* performance boost ??? */
    }
 // clang-format off
@ -3203,7 +3234,7 @@ void kvm_init_cpu_signals(CPUState *cpu)
 #endif
    sigdelset(&set, SIG_IPI);
 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    sigdelset(&set, SIGALRM);
 // clang-format off
 #endif
--- a/nyx/auxiliary_buffer.c
+++ b/nyx/auxiliary_buffer.c
@ -19,89 +19,95 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 */

-#include <string.h>
-#include <stdio.h>
-#include <stdbool.h>
 #include "qemu/osdep.h"
 #include "nyx/auxiliary_buffer.h"
-#include "nyx/state/state.h"
 #include "nyx/debug.h"
+#include "nyx/state/state.h"
 #include "nyx/trace_dump.h"
+#include <stdbool.h>
+#include <stdio.h>
+#include <string.h>

 /* experimental feature (currently broken)
 * enabled via trace mode
 */
-//#define SUPPORT_COMPILE_TIME_REDQUEEN
+// #define SUPPORT_COMPILE_TIME_REDQUEEN

-#define VOLATILE_WRITE_64(dst, src) *((volatile uint64_t*)&dst) = (uint64_t)src
-#define VOLATILE_WRITE_32(dst, src) *((volatile uint32_t*)&dst) = (uint32_t)src
-#define VOLATILE_WRITE_16(dst, src) *((volatile uint16_t*)&dst) = (uint16_t)src
-#define VOLATILE_WRITE_8(dst, src) *((volatile uint8_t*)&dst) = (uint8_t)src
+#define VOLATILE_WRITE_64(dst, src) *((volatile uint64_t *)&dst) = (uint64_t)src
+#define VOLATILE_WRITE_32(dst, src) *((volatile uint32_t *)&dst) = (uint32_t)src
+#define VOLATILE_WRITE_16(dst, src) *((volatile uint16_t *)&dst) = (uint16_t)src
+#define VOLATILE_WRITE_8(dst, src)  *((volatile uint8_t *)&dst) = (uint8_t)src

-#define VOLATILE_READ_64(dst, src) dst = *((volatile uint64_t*)(&src)) 
-#define VOLATILE_READ_32(dst, src) dst = *((volatile uint32_t*)(&src)) 
-#define VOLATILE_READ_16(dst, src) dst = *((volatile uint16_t*)(&src)) 
-#define VOLATILE_READ_8(dst, src) dst = *((volatile uint8_t*)(&src)) 
+#define VOLATILE_READ_64(dst, src) dst = *((volatile uint64_t *)(&src))
+#define VOLATILE_READ_32(dst, src) dst = *((volatile uint32_t *)(&src))
+#define VOLATILE_READ_16(dst, src) dst = *((volatile uint16_t *)(&src))
+#define VOLATILE_READ_8(dst, src)  dst = *((volatile uint8_t *)(&src))

-static void volatile_memset(void* dst, uint8_t ch, size_t count){
-  for (size_t i = 0; i < count; i++){
-    VOLATILE_WRITE_8(((uint8_t*)dst)[i], ch);
+static void volatile_memset(void *dst, uint8_t ch, size_t count)
+{
+    for (size_t i = 0; i < count; i++) {
+        VOLATILE_WRITE_8(((uint8_t *)dst)[i], ch);
    }
 }

-static void volatile_memcpy(void* dst, void* src, size_t size){
-  for (size_t i = 0; i < size; i++){
-    VOLATILE_WRITE_8(((uint8_t*)dst)[i], ((uint8_t*)src)[i]);
+static void volatile_memcpy(void *dst, void *src, size_t size)
+{
+    for (size_t i = 0; i < size; i++) {
+        VOLATILE_WRITE_8(((uint8_t *)dst)[i], ((uint8_t *)src)[i]);
    }
 }

-void init_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer){
+void init_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    nyx_trace();
-  volatile_memset((void*) auxilary_buffer, 0, sizeof(auxilary_buffer_t));
+    volatile_memset((void *)auxilary_buffer, 0, sizeof(auxilary_buffer_t));

    VOLATILE_WRITE_16(auxilary_buffer->header.version, QEMU_PT_VERSION);

-  uint16_t hash = (sizeof(auxilary_buffer_header_t) + 
-                  sizeof(auxilary_buffer_cap_t) + 
-                  sizeof(auxilary_buffer_config_t) + 
-                  sizeof(auxilary_buffer_result_t) + 
-                  sizeof(auxilary_buffer_misc_t)) % 0xFFFF;
+    uint16_t hash =
+        (sizeof(auxilary_buffer_header_t) + sizeof(auxilary_buffer_cap_t) +
+         sizeof(auxilary_buffer_config_t) + sizeof(auxilary_buffer_result_t) +
+         sizeof(auxilary_buffer_misc_t)) %
+        0xFFFF;

    VOLATILE_WRITE_16(auxilary_buffer->header.hash, hash);

    VOLATILE_WRITE_64(auxilary_buffer->header.magic, AUX_MAGIC);
 }

-void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_buffer_config_t* shadow_config){
+void check_auxiliary_config_buffer(auxilary_buffer_t        *auxilary_buffer,
+                                   auxilary_buffer_config_t *shadow_config)
+{
    uint8_t changed = 0;
    VOLATILE_READ_8(changed, auxilary_buffer->configuration.changed);
-  if (changed){
-
-  
+    if (changed) {
        uint8_t aux_byte;

        VOLATILE_READ_8(aux_byte, auxilary_buffer->configuration.redqueen_mode);
-    if(aux_byte){
+        if (aux_byte) {
            /* enable redqueen mode */
-      if(aux_byte != shadow_config->redqueen_mode){
+            if (aux_byte != shadow_config->redqueen_mode) {
                GET_GLOBAL_STATE()->in_redqueen_reload_mode = true;
                GET_GLOBAL_STATE()->redqueen_enable_pending = true;
-	      GET_GLOBAL_STATE()->redqueen_instrumentation_mode = REDQUEEN_LIGHT_INSTRUMENTATION;
+                GET_GLOBAL_STATE()->redqueen_instrumentation_mode =
+                    REDQUEEN_LIGHT_INSTRUMENTATION;
            }
-    }
-    else{
+        } else {
            /* disable redqueen mode */
-      if(aux_byte != shadow_config->redqueen_mode){
+            if (aux_byte != shadow_config->redqueen_mode) {
                GET_GLOBAL_STATE()->in_redqueen_reload_mode  = false;
                GET_GLOBAL_STATE()->redqueen_disable_pending = true;
-	      GET_GLOBAL_STATE()->redqueen_instrumentation_mode = REDQUEEN_NO_INSTRUMENTATION;
+                GET_GLOBAL_STATE()->redqueen_instrumentation_mode =
+                    REDQUEEN_NO_INSTRUMENTATION;
            }
        }

        VOLATILE_READ_8(aux_byte, auxilary_buffer->configuration.trace_mode);
-    if(aux_byte){
+        if (aux_byte) {
            /* enable trace mode */
-      if(aux_byte != shadow_config->trace_mode && GET_GLOBAL_STATE()->redqueen_state){
+            if (aux_byte != shadow_config->trace_mode &&
+                GET_GLOBAL_STATE()->redqueen_state)
+            {
 #ifdef SUPPORT_COMPILE_TIME_REDQUEEN
                GET_GLOBAL_STATE()->pt_trace_mode_force = true;
 #endif
@ -109,10 +115,11 @@ void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_
                redqueen_set_trace_mode();
                pt_trace_dump_enable(true);
            }
-    }
-    else {
+        } else {
            /* disable trace mode */
-      if(aux_byte != shadow_config->trace_mode && GET_GLOBAL_STATE()->redqueen_state){
+            if (aux_byte != shadow_config->trace_mode &&
+                GET_GLOBAL_STATE()->redqueen_state)
+            {
 #ifdef SUPPORT_COMPILE_TIME_REDQUEEN
                GET_GLOBAL_STATE()->pt_trace_mode_force = false;
 #endif
@ -123,12 +130,12 @@ void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_
        }

        VOLATILE_READ_8(aux_byte, auxilary_buffer->configuration.page_dump_mode);
-    if(aux_byte){
+        if (aux_byte) {
            GET_GLOBAL_STATE()->dump_page = true;
            uint64_t data;
            VOLATILE_READ_64(data, auxilary_buffer->configuration.page_addr);
            GET_GLOBAL_STATE()->dump_page_addr = data;
-      //fprintf(stderr, "%s dump_page_addr => 0x%lx\n", __func__, GET_GLOBAL_STATE()->dump_page_addr);
+            // fprintf(stderr, "%s dump_page_addr => 0x%lx\n", __func__, GET_GLOBAL_STATE()->dump_page_addr);
            VOLATILE_WRITE_8(auxilary_buffer->configuration.page_dump_mode, 0);
            VOLATILE_WRITE_64(auxilary_buffer->configuration.page_addr, 0);
        }
@ -138,8 +145,9 @@ void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_
        GET_GLOBAL_STATE()->in_reload_mode = aux_byte;

        /* modify protect_payload_buffer */
-    VOLATILE_READ_8(aux_byte, auxilary_buffer->configuration.protect_payload_buffer);
-    if (GET_GLOBAL_STATE()->protect_payload_buffer == 0 && aux_byte == 1){
+        VOLATILE_READ_8(aux_byte,
+                        auxilary_buffer->configuration.protect_payload_buffer);
+        if (GET_GLOBAL_STATE()->protect_payload_buffer == 0 && aux_byte == 1) {
            GET_GLOBAL_STATE()->protect_payload_buffer = aux_byte;
        }

@ -149,46 +157,62 @@ void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_
        VOLATILE_WRITE_8(auxilary_buffer->configuration.discard_tmp_snapshot, 0);

        /* copy to shodow */
-    VOLATILE_READ_8(shadow_config->timeout_sec, auxilary_buffer->configuration.timeout_sec);
-    VOLATILE_READ_32(shadow_config->timeout_usec, auxilary_buffer->configuration.timeout_usec);
+        VOLATILE_READ_8(shadow_config->timeout_sec,
+                        auxilary_buffer->configuration.timeout_sec);
+        VOLATILE_READ_32(shadow_config->timeout_usec,
+                         auxilary_buffer->configuration.timeout_usec);

-    //if(shadow_config->timeout_sec || shadow_config->timeout_usec){
+        // if(shadow_config->timeout_sec || shadow_config->timeout_usec){
        /* apply only non-zero values */
-      update_itimer(&(GET_GLOBAL_STATE()->timeout_detector), shadow_config->timeout_sec, shadow_config->timeout_usec);
+        update_itimer(&(GET_GLOBAL_STATE()->timeout_detector),
+                      shadow_config->timeout_sec, shadow_config->timeout_usec);
        //}

-    VOLATILE_READ_8(shadow_config->redqueen_mode, auxilary_buffer->configuration.redqueen_mode);
-    VOLATILE_READ_8(shadow_config->trace_mode, auxilary_buffer->configuration.trace_mode);
-    VOLATILE_READ_8(shadow_config->reload_mode, auxilary_buffer->configuration.reload_mode);
+        VOLATILE_READ_8(shadow_config->redqueen_mode,
+                        auxilary_buffer->configuration.redqueen_mode);
+        VOLATILE_READ_8(shadow_config->trace_mode,
+                        auxilary_buffer->configuration.trace_mode);
+        VOLATILE_READ_8(shadow_config->reload_mode,
+                        auxilary_buffer->configuration.reload_mode);

-    VOLATILE_READ_8(shadow_config->verbose_level, auxilary_buffer->configuration.verbose_level);
+        VOLATILE_READ_8(shadow_config->verbose_level,
+                        auxilary_buffer->configuration.verbose_level);

        /* reset the 'changed' byte */
        VOLATILE_WRITE_8(auxilary_buffer->configuration.changed, 0);
    }
 }

-void set_crash_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void set_crash_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_crash);
 }

-void set_asan_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void set_asan_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_sanitizer);
 }

-void set_timeout_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void set_timeout_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_timeout);
 }

-void set_reload_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void set_reload_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.reloaded, 1);
 }

-void set_pt_overflow_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void set_pt_overflow_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.pt_overflow, 1);
 }

-void set_exec_done_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint32_t sec, uint32_t usec, uint32_t num_dirty_pages){
+void set_exec_done_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                           uint32_t           sec,
+                                           uint32_t           usec,
+                                           uint32_t           num_dirty_pages)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_done, 1);

    VOLATILE_WRITE_32(auxilary_buffer->result.runtime_sec, sec);
@ -197,45 +221,62 @@ void set_exec_done_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, u
 }


-
-void set_hprintf_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len){
-  VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE-2));
-  volatile_memcpy((void*)&auxilary_buffer->misc.data, (void*)msg, (size_t)MIN(len, MISC_SIZE-2));
+void set_hprintf_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                  char              *msg,
+                                  uint32_t           len)
+{
+    VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE - 2));
+    volatile_memcpy((void *)&auxilary_buffer->misc.data, (void *)msg,
+                    (size_t)MIN(len, MISC_SIZE - 2));
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_hprintf);
 }

-void set_crash_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len){
-  VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE-2));
-  volatile_memcpy((void*)&auxilary_buffer->misc.data, (void*)msg, (size_t) MIN(len, MISC_SIZE-2));
+void set_crash_reason_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       char              *msg,
+                                       uint32_t           len)
+{
+    VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE - 2));
+    volatile_memcpy((void *)&auxilary_buffer->misc.data, (void *)msg,
+                    (size_t)MIN(len, MISC_SIZE - 2));
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_crash);
 }

-void set_abort_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len){
-  VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE-2));
-  volatile_memcpy((void*)&auxilary_buffer->misc.data, (void*)msg, (size_t) MIN(len, MISC_SIZE-2));
+void set_abort_reason_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       char              *msg,
+                                       uint32_t           len)
+{
+    VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE - 2));
+    volatile_memcpy((void *)&auxilary_buffer->misc.data, (void *)msg,
+                    (size_t)MIN(len, MISC_SIZE - 2));
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_aborted);
 }

-void set_state_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint8_t state){
-  if(auxilary_buffer){
+void set_state_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       uint8_t            state)
+{
+    if (auxilary_buffer) {
        VOLATILE_WRITE_8(auxilary_buffer->result.state, state);
-  }
-  else{
+    } else {
        nyx_error("WARNING: auxilary_buffer pointer is zero\n");
    }
 }

-void set_page_not_found_result_buffer(auxilary_buffer_t* auxilary_buffer, uint64_t page_addr){
+void set_page_not_found_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                      uint64_t           page_addr)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.page_not_found, 1);
    VOLATILE_WRITE_64(auxilary_buffer->result.page_addr, page_addr);
 }

-void reset_page_not_found_result_buffer(auxilary_buffer_t* auxilary_buffer){
+void reset_page_not_found_result_buffer(auxilary_buffer_t *auxilary_buffer)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.page_not_found, 0);
 }

-void set_success_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint8_t success){
-  //TODO refactor to let caller directly set the result codes
+void set_success_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                         uint8_t            success)
+{
+    // TODO refactor to let caller directly set the result codes
    if (success == 2) {
        VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_starved);
    } else {
@ -243,35 +284,44 @@ void set_success_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uin
    }
 }

-void set_payload_buffer_write_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len){
-  VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE-2));
-  volatile_memcpy((void*)&auxilary_buffer->misc.data, (void*)msg, (size_t) MIN(len, MISC_SIZE-2));
+void set_payload_buffer_write_reason_auxiliary_buffer(
+    auxilary_buffer_t *auxilary_buffer, char *msg, uint32_t len)
+{
+    VOLATILE_WRITE_16(auxilary_buffer->misc.len, MIN(len, MISC_SIZE - 2));
+    volatile_memcpy((void *)&auxilary_buffer->misc.data, (void *)msg,
+                    (size_t)MIN(len, MISC_SIZE - 2));
    VOLATILE_WRITE_8(auxilary_buffer->result.exec_result_code, rc_input_buffer_write);
 }


-void set_tmp_snapshot_created(auxilary_buffer_t* auxilary_buffer, uint8_t value){
+void set_tmp_snapshot_created(auxilary_buffer_t *auxilary_buffer, uint8_t value)
+{
    VOLATILE_WRITE_8(auxilary_buffer->result.tmp_snapshot_created, value);
 }

-void set_cap_agent_trace_bitmap(auxilary_buffer_t* auxilary_buffer, bool value){
+void set_cap_agent_trace_bitmap(auxilary_buffer_t *auxilary_buffer, bool value)
+{
    VOLATILE_WRITE_8(auxilary_buffer->capabilites.agent_trace_bitmap, value);
 }

-void set_cap_agent_ijon_trace_bitmap(auxilary_buffer_t* auxilary_buffer, bool value){
+void set_cap_agent_ijon_trace_bitmap(auxilary_buffer_t *auxilary_buffer, bool value)
+{
    VOLATILE_WRITE_8(auxilary_buffer->capabilites.agent_ijon_trace_bitmap, value);
 }

-void set_result_dirty_pages(auxilary_buffer_t* auxilary_buffer, uint32_t value){
+void set_result_dirty_pages(auxilary_buffer_t *auxilary_buffer, uint32_t value)
+{
    VOLATILE_WRITE_32(auxilary_buffer->result.dirty_pages, value);
 }

-void set_result_pt_trace_size(auxilary_buffer_t* auxilary_buffer, uint32_t value){
+void set_result_pt_trace_size(auxilary_buffer_t *auxilary_buffer, uint32_t value)
+{
    VOLATILE_WRITE_32(auxilary_buffer->result.pt_trace_size, value);
 }

-void set_result_bb_coverage(auxilary_buffer_t* auxilary_buffer, uint32_t value){
-  if (value != auxilary_buffer->result.bb_coverage){
+void set_result_bb_coverage(auxilary_buffer_t *auxilary_buffer, uint32_t value)
+{
+    if (value != auxilary_buffer->result.bb_coverage) {
        VOLATILE_WRITE_32(auxilary_buffer->result.bb_coverage, value);
    }
 }
--- a/nyx/auxiliary_buffer.h
+++ b/nyx/auxiliary_buffer.h
@ -21,22 +21,23 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 #pragma once

-#include <stdint.h>
 #include <stdbool.h>
+#include <stdint.h>

 #define AUX_BUFFER_SIZE 4096

 #define AUX_MAGIC 0x54502d554d4551

-#define QEMU_PT_VERSION 3 /* let's start at 1 for the initial version using the aux buffer */
+#define QEMU_PT_VERSION \
+    3 /* let's start at 1 for the initial version using the aux buffer */

 #define HEADER_SIZE 128
 #define CAP_SIZE    256
 #define CONFIG_SIZE 512
 #define STATE_SIZE  512
-#define MISC_SIZE 4096-(HEADER_SIZE+CAP_SIZE+CONFIG_SIZE+STATE_SIZE)
+#define MISC_SIZE   4096 - (HEADER_SIZE + CAP_SIZE + CONFIG_SIZE + STATE_SIZE)

-#define ADD_PADDING(max, type) uint8_t type ## _padding [max - sizeof(type)]
+#define ADD_PADDING(max, type) uint8_t type##_padding[max - sizeof(type)]

 enum nyx_result_codes {
    rc_success            = 0,
@ -49,25 +50,28 @@ enum nyx_result_codes {
    rc_starved            = 7,
 };

-typedef struct auxilary_buffer_header_s{
+typedef struct auxilary_buffer_header_s {
    uint64_t magic;
    uint16_t version;
    uint16_t hash;
    /* more to come */
 } __attribute__((packed)) auxilary_buffer_header_t;

-typedef struct auxilary_buffer_cap_s{
+typedef struct auxilary_buffer_cap_s {
    uint8_t redqueen;
-  uint8_t agent_timeout_detection;  /* agent implements its own timeout detection; host timeout detection is still in used, but treshold is increased by x2; */
+    uint8_t agent_timeout_detection; /* agent implements its own timeout detection;
+                                        host timeout detection is still in used, but treshold is increased by x2; */
    uint8_t agent_trace_bitmap; /* agent implements its own tracing mechanism; PT tracing is disabled */
    uint8_t agent_ijon_trace_bitmap; /* agent uses the ijon shm buffer */

-  uint32_t agent_input_buffer_size;     /* agent requests a custom input buffer size (if the size is 0, the minimum buffer size is used) */
-  uint32_t agent_coverage_bitmap_size;  /* agent requests a custom coverage bitmap size (if the size is 0, the minimum buffer size is used) */
+    uint32_t agent_input_buffer_size; /* agent requests a custom input buffer size (if
+                                         the size is 0, the minimum buffer size is used) */
+    uint32_t agent_coverage_bitmap_size; /* agent requests a custom coverage bitmap
+                                            size (if the size is 0, the minimum buffer size is used) */
    /* more to come */
 } __attribute__((packed)) auxilary_buffer_cap_t;

-typedef struct auxilary_buffer_config_s{
+typedef struct auxilary_buffer_config_s {
    uint8_t changed; /* set this byte to kick in a rescan of this buffer */

    uint8_t  timeout_sec;
@ -90,7 +94,7 @@ typedef struct auxilary_buffer_config_s{
        1 -> decoding
        2 -> decoding + full disassembling
    */
-  //uint8_t pt_processing_mode; 
+    // uint8_t pt_processing_mode;

    /* snapshot extension */
    uint8_t discard_tmp_snapshot;
@ -98,7 +102,7 @@ typedef struct auxilary_buffer_config_s{
    /* more to come */
 } __attribute__((packed)) auxilary_buffer_config_t;

-typedef struct auxilary_buffer_result_s{
+typedef struct auxilary_buffer_result_s {
    /*  0 -> booting,
        1 -> loader level 1,
        2 -> loader level 2,
@ -124,13 +128,13 @@ typedef struct auxilary_buffer_result_s{
    /* more to come */
 } __attribute__((packed)) auxilary_buffer_result_t;

-typedef struct auxilary_buffer_misc_s{
+typedef struct auxilary_buffer_misc_s {
    uint16_t len;
    uint8_t  data;
    /* non yet */
 } __attribute__((packed)) auxilary_buffer_misc_t;

-typedef struct auxilary_buffer_s{
+typedef struct auxilary_buffer_s {
    auxilary_buffer_header_t header;
    ADD_PADDING(HEADER_SIZE, auxilary_buffer_header_t);

@ -148,33 +152,47 @@ typedef struct auxilary_buffer_s{

 } __attribute__((packed)) auxilary_buffer_t;

-void init_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer);
-void check_auxiliary_config_buffer(auxilary_buffer_t* auxilary_buffer, auxilary_buffer_config_t* shadow_config);
+void init_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer);
+void check_auxiliary_config_buffer(auxilary_buffer_t        *auxilary_buffer,
+                                   auxilary_buffer_config_t *shadow_config);

-void set_crash_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_asan_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_timeout_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_reload_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_pt_overflow_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_exec_done_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint32_t sec, uint32_t usec, uint32_t num_dirty_pages);
-void set_state_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint8_t state);
-void set_hprintf_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len);
+void set_crash_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_asan_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_timeout_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_reload_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_pt_overflow_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_exec_done_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                           uint32_t           sec,
+                                           uint32_t           usec,
+                                           uint32_t           num_dirty_pages);
+void set_state_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       uint8_t            state);
+void set_hprintf_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                  char              *msg,
+                                  uint32_t           len);

-void set_page_not_found_result_buffer(auxilary_buffer_t* auxilary_buffer, uint64_t page_addr);
-void reset_page_not_found_result_buffer(auxilary_buffer_t* auxilary_buffer);
-void set_success_auxiliary_result_buffer(auxilary_buffer_t* auxilary_buffer, uint8_t success);
-void set_crash_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len);
-void set_abort_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len);
+void set_page_not_found_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                      uint64_t           page_addr);
+void reset_page_not_found_result_buffer(auxilary_buffer_t *auxilary_buffer);
+void set_success_auxiliary_result_buffer(auxilary_buffer_t *auxilary_buffer,
+                                         uint8_t            success);
+void set_crash_reason_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       char              *msg,
+                                       uint32_t           len);
+void set_abort_reason_auxiliary_buffer(auxilary_buffer_t *auxilary_buffer,
+                                       char              *msg,
+                                       uint32_t           len);

-void set_tmp_snapshot_created(auxilary_buffer_t* auxilary_buffer, uint8_t value);
+void set_tmp_snapshot_created(auxilary_buffer_t *auxilary_buffer, uint8_t value);

-void set_cap_agent_trace_bitmap(auxilary_buffer_t* auxilary_buffer, bool value);
-void set_cap_agent_ijon_trace_bitmap(auxilary_buffer_t* auxilary_buffer, bool value);
+void set_cap_agent_trace_bitmap(auxilary_buffer_t *auxilary_buffer, bool value);
+void set_cap_agent_ijon_trace_bitmap(auxilary_buffer_t *auxilary_buffer, bool value);


-void set_result_dirty_pages(auxilary_buffer_t* auxilary_buffer, uint32_t value);
-void set_result_pt_trace_size(auxilary_buffer_t* auxilary_buffer, uint32_t value);
+void set_result_dirty_pages(auxilary_buffer_t *auxilary_buffer, uint32_t value);
+void set_result_pt_trace_size(auxilary_buffer_t *auxilary_buffer, uint32_t value);

-void set_result_bb_coverage(auxilary_buffer_t* auxilary_buffer, uint32_t value);
+void set_result_bb_coverage(auxilary_buffer_t *auxilary_buffer, uint32_t value);

-void set_payload_buffer_write_reason_auxiliary_buffer(auxilary_buffer_t* auxilary_buffer, char* msg, uint32_t len);
+void set_payload_buffer_write_reason_auxiliary_buffer(
+    auxilary_buffer_t *auxilary_buffer, char *msg, uint32_t len);
--- a/nyx/debug.c
+++ b/nyx/debug.c
@ -1,8 +1,8 @@

+#include <execinfo.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <unistd.h>
-#include <execinfo.h>

 #include "qemu/osdep.h"
 #include "nyx/debug.h"
@ -11,7 +11,8 @@
 #ifdef ENABLE_BACKTRACES
 #define BT_BUF_SIZE 100

-void qemu_backtrace(void){
+void qemu_backtrace(void)
+{
    void *buffer[BT_BUF_SIZE];
    int   nptrs = 0;
    int   j;
@ -24,7 +25,7 @@ void qemu_backtrace(void){
    if (strings == NULL) {
        fprintf(stderr, "backtrace_symbols failed!\n");
        return;
-      //exit(EXIT_FAILURE);
+        // exit(EXIT_FAILURE);
    }

    for (j = 0; j < nptrs; j++)
@ -33,30 +34,36 @@ void qemu_backtrace(void){
    free(strings);
 }

-static void sigsegfault_handler(int signo, siginfo_t *info, void *extra) {
-  fprintf(stderr, "[qemu-nyx] crash detected (pid: %d / signal: %d)\n", getpid(), signo);
+static void sigsegfault_handler(int signo, siginfo_t *info, void *extra)
+{
+    fprintf(stderr, "[qemu-nyx] crash detected (pid: %d / signal: %d)\n", getpid(),
+            signo);
    qemu_backtrace();
    fprintf(stderr, "WAITING FOR GDB ATTACH (PID: %d...\n", getpid());
-  while(1){
+    while (1) {
        sleep(1);
    }
 }

-static void sigabrt_handler(int signo, siginfo_t *info, void *extra) {
-  fprintf(stderr, "[qemu-nyx] crash detected (pid: %d / signal: %d)\n", getpid(), signo);
+static void sigabrt_handler(int signo, siginfo_t *info, void *extra)
+{
+    fprintf(stderr, "[qemu-nyx] crash detected (pid: %d / signal: %d)\n", getpid(),
+            signo);
    qemu_backtrace();
    fprintf(stderr, "WAITING FOR GDB ATTACH (PID: %d...\n", getpid());
-  while(1){
+    while (1) {
        sleep(1);
    }
 }

-static void sigint_handler(int signo, siginfo_t *info, void *extra) {
+static void sigint_handler(int signo, siginfo_t *info, void *extra)
+{
    fprintf(stderr, "[qemu-nyx] bye! (pid: %d / signal: %d)\n", getpid(), signo);
    exit(0);
 }

-void init_crash_handler(void){
+void init_crash_handler(void)
+{
    struct sigaction action;
    action.sa_flags     = SA_SIGINFO;
    action.sa_sigaction = sigsegfault_handler;
@ -67,7 +74,6 @@ void init_crash_handler(void){
    }


-  
    action.sa_sigaction = sigabrt_handler;

    if (sigaction(SIGABRT, &action, NULL) == -1) {
@ -76,7 +82,7 @@ void init_crash_handler(void){
    }

    /* don't install a SIGINT handler if the nyx block cow cache layer is disabled */
-	if(!getenv("NYX_DISABLE_BLOCK_COW")){
+    if (!getenv("NYX_DISABLE_BLOCK_COW")) {
        action.sa_sigaction = sigint_handler;
        if (sigaction(SIGINT, &action, NULL) == -1) {
            fprintf(stderr, "SIGINT: sigaction failed");
@ -85,27 +91,28 @@ void init_crash_handler(void){
    }
 }

-void hexdump_kafl(const void* data, size_t size) {
+void hexdump_kafl(const void *data, size_t size)
+{
    char   ascii[17];
    size_t i, j;
    ascii[16] = '\0';
    for (i = 0; i < size; ++i) {
-		printf("%02X ", ((unsigned char*)data)[i]);
-		if (((unsigned char*)data)[i] >= ' ' && ((unsigned char*)data)[i] <= '~') {
-			ascii[i % 16] = ((unsigned char*)data)[i];
+        printf("%02X ", ((unsigned char *)data)[i]);
+        if (((unsigned char *)data)[i] >= ' ' && ((unsigned char *)data)[i] <= '~') {
+            ascii[i % 16] = ((unsigned char *)data)[i];
        } else {
            ascii[i % 16] = '.';
        }
-		if ((i+1) % 8 == 0 || i+1 == size) {
+        if ((i + 1) % 8 == 0 || i + 1 == size) {
            printf(" ");
-			if ((i+1) % 16 == 0) {
+            if ((i + 1) % 16 == 0) {
                printf("|  %s \n", ascii);
-			} else if (i+1 == size) {
-				ascii[(i+1) % 16] = '\0';
-				if ((i+1) % 16 <= 8) {
+            } else if (i + 1 == size) {
+                ascii[(i + 1) % 16] = '\0';
+                if ((i + 1) % 16 <= 8) {
                    printf(" ");
                }
-				for (j = (i+1) % 16; j < 16; ++j) {
+                for (j = (i + 1) % 16; j < 16; ++j) {
                    printf("   ");
                }
                printf("|  %s \n", ascii);
--- a/nyx/debug.h
+++ b/nyx/debug.h
@ -5,9 +5,9 @@
 #include <stdlib.h>
 #include <unistd.h>

-#include "qemu-common.h"
-#include "qemu/log.h"
 #include "qemu/error-report.h"
+#include "qemu/log.h"
+#include "qemu-common.h"

 #define ENABLE_BACKTRACES

@ -27,9 +27,12 @@
 * qemu_log() is the standard logging enabled with -D
 * qemu_log_mask() is activated with additional -t nyx option
 */
-//#define nyx_debug(format, ...)         qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX "(%s#:%d)\t"format, __BASE_FILE__, __LINE__, ##__VA_ARGS__)
-#define nyx_debug(format, ...)           qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX format, ##__VA_ARGS__)
-#define nyx_debug_p(PREFIX, format, ...) qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX PREFIX format, ##__VA_ARGS__)
+// #define nyx_debug(format, ...)         qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX
+// "(%s#:%d)\t"format, __BASE_FILE__, __LINE__, ##__VA_ARGS__)
+#define nyx_debug(format, ...) \
+    qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX format, ##__VA_ARGS__)
+#define nyx_debug_p(PREFIX, format, ...) \
+    qemu_log_mask(LOG_NYX, NYX_LOG_PREFIX PREFIX format, ##__VA_ARGS__)
 #else
 #define nyx_debug(...)
 #define nyx_debug_p(...)
@ -43,5 +46,5 @@
 #ifdef ENABLE_BACKTRACES
 void qemu_backtrace(void);
 void init_crash_handler(void);
-void hexdump_kafl(const void* data, size_t size);
+void hexdump_kafl(const void *data, size_t size);
 #endif
--- a/nyx/fast_vm_reload.c
+++ b/nyx/fast_vm_reload.c
@ -19,69 +19,72 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 */

-#include"qemu/osdep.h"
+#include "qemu/osdep.h"

-#include<stdint.h>
-#include<sys/mman.h>
-#include<sys/stat.h>
-#include<sys/types.h>
+#include <stdint.h>
+#include <sys/mman.h>
+#include <sys/stat.h>
+#include <sys/types.h>

-#include<immintrin.h>
+#include <immintrin.h>

-#include"block/qapi.h"
-#include"exec/ram_addr.h"
+#include "block/qapi.h"
+#include "exec/ram_addr.h"

-#include"migration/global_state.h"
-#include"migration/migration.h"
-#include"migration/qemu-file.h"
-#include"migration/register.h"
-#include"migration/savevm.h"
-#include"migration/vmstate.h"
+#include "migration/global_state.h"
+#include "migration/migration.h"
+#include "migration/qemu-file.h"
+#include "migration/register.h"
+#include "migration/savevm.h"
+#include "migration/vmstate.h"

-#include"qemu/main-loop.h"
-#include"qemu/rcu_queue.h"
+#include "qemu/main-loop.h"
+#include "qemu/rcu_queue.h"

-#include"sysemu/block-backend.h"
-#include"sysemu/cpus.h"
-#include"sysemu/kvm_int.h"
-#include"sysemu/reset.h"
-#include"sysemu/runstate.h"
-#include"sysemu/sysemu.h"
+#include "sysemu/block-backend.h"
+#include "sysemu/cpus.h"
+#include "sysemu/kvm_int.h"
+#include "sysemu/reset.h"
+#include "sysemu/runstate.h"
+#include "sysemu/sysemu.h"

-#include"nyx/debug.h"
-#include"nyx/fast_vm_reload.h"
-#include"nyx/state/snapshot_state.h"
-#include"nyx/state/state.h"
+#include "nyx/debug.h"
+#include "nyx/fast_vm_reload.h"
+#include "nyx/state/snapshot_state.h"
+#include "nyx/state/state.h"

-#include"nyx/helpers.h"
-#include"nyx/memory_access.h"
+#include "nyx/helpers.h"
+#include "nyx/memory_access.h"

-#include"nyx/snapshot/helper.h"
-#include"nyx/snapshot/memory/block_list.h"
-#include"nyx/snapshot/memory/shadow_memory.h"
-#include"nyx/snapshot/block/nyx_block_snapshot.h"
-#include"nyx/snapshot/devices/nyx_device_state.h"
-#include"nyx/snapshot/memory/backend/nyx_debug.h"
+#include "nyx/snapshot/block/nyx_block_snapshot.h"
+#include "nyx/snapshot/devices/nyx_device_state.h"
+#include "nyx/snapshot/helper.h"
+#include "nyx/snapshot/memory/backend/nyx_debug.h"
+#include "nyx/snapshot/memory/block_list.h"
+#include "nyx/snapshot/memory/shadow_memory.h"

 FastReloadMemoryMode mode = RELOAD_MEMORY_MODE_DEBUG;

 /* basic operations */

-static void fast_snapshot_init_operation(fast_reload_t* self, const char* snapshot_folder, bool pre_snapshot){
-
+static void fast_snapshot_init_operation(fast_reload_t *self,
+                                         const char    *snapshot_folder,
+                                         bool           pre_snapshot)
+{
    assert((snapshot_folder == NULL && pre_snapshot == false) || snapshot_folder);

-    if (snapshot_folder){
-        self->device_state = nyx_device_state_init_from_snapshot(snapshot_folder, pre_snapshot);
-        self->shadow_memory_state = shadow_memory_init_from_snapshot(snapshot_folder, pre_snapshot);
-    }
-    else{
+    if (snapshot_folder) {
+        self->device_state =
+            nyx_device_state_init_from_snapshot(snapshot_folder, pre_snapshot);
+        self->shadow_memory_state =
+            shadow_memory_init_from_snapshot(snapshot_folder, pre_snapshot);
+    } else {
        self->device_state        = nyx_device_state_init();
        self->shadow_memory_state = shadow_memory_init();
    }

-    if(!pre_snapshot){
-        switch(mode){
+    if (!pre_snapshot) {
+        switch (mode) {
        case RELOAD_MEMORY_MODE_DEBUG:
            break;
        case RELOAD_MEMORY_MODE_DEBUG_QUIET:
@ -104,51 +107,68 @@ static void fast_snapshot_init_operation(fast_reload_t* self, const char* snapsh
        nyx_fdl_user_enable(self->fdl_user_state);
    }

-    if (snapshot_folder){
-        self->block_state = nyx_block_snapshot_init_from_file(snapshot_folder, pre_snapshot);
-    }
-    else{
+    if (snapshot_folder) {
+        self->block_state =
+            nyx_block_snapshot_init_from_file(snapshot_folder, pre_snapshot);
+    } else {
        self->block_state = nyx_block_snapshot_init();
    }

    memory_global_dirty_log_start();
-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        self->root_snapshot_created = true;
    }
 }

-static void fast_snapshot_restore_operation(fast_reload_t* self){
-
+static void fast_snapshot_restore_operation(fast_reload_t *self)
+{
    uint32_t num_dirty_pages = 0;

-    switch(mode){
+    switch (mode) {
    case RELOAD_MEMORY_MODE_DEBUG:
-            num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state, self->blocklist, true);
+        num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state,
+                                                      self->blocklist, true);
        break;
    case RELOAD_MEMORY_MODE_DEBUG_QUIET:
-            num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state, self->blocklist, false);
+        num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state,
+                                                      self->blocklist, false);
        break;
    case RELOAD_MEMORY_MODE_FDL:
-            num_dirty_pages += nyx_snapshot_nyx_fdl_restore(self->fdl_state, self->shadow_memory_state, self->blocklist);
+        num_dirty_pages += nyx_snapshot_nyx_fdl_restore(self->fdl_state,
+                                                        self->shadow_memory_state,
+                                                        self->blocklist);
        break;
    case RELOAD_MEMORY_MODE_FDL_DEBUG:
-            num_dirty_pages += nyx_snapshot_nyx_fdl_restore(self->fdl_state, self->shadow_memory_state, self->blocklist);
-            num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state, self->blocklist, true);
+        num_dirty_pages += nyx_snapshot_nyx_fdl_restore(self->fdl_state,
+                                                        self->shadow_memory_state,
+                                                        self->blocklist);
+        num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state,
+                                                      self->blocklist, true);
        break;
    case RELOAD_MEMORY_MODE_DIRTY_RING:
-            num_dirty_pages += nyx_snapshot_nyx_dirty_ring_restore(self->dirty_ring_state, self->shadow_memory_state, self->blocklist);
+        num_dirty_pages +=
+            nyx_snapshot_nyx_dirty_ring_restore(self->dirty_ring_state,
+                                                self->shadow_memory_state,
+                                                self->blocklist);
        break;
    case RELOAD_MEMORY_MODE_DIRTY_RING_DEBUG:
-            num_dirty_pages += nyx_snapshot_nyx_dirty_ring_restore(self->dirty_ring_state, self->shadow_memory_state, self->blocklist);
-            num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state, self->blocklist, true);
+        num_dirty_pages +=
+            nyx_snapshot_nyx_dirty_ring_restore(self->dirty_ring_state,
+                                                self->shadow_memory_state,
+                                                self->blocklist);
+        num_dirty_pages += nyx_snapshot_debug_restore(self->shadow_memory_state,
+                                                      self->blocklist, true);
        break;
    }

-    num_dirty_pages += nyx_snapshot_user_fdl_restore(self->fdl_user_state, self->shadow_memory_state, self->blocklist);
+    num_dirty_pages += nyx_snapshot_user_fdl_restore(self->fdl_user_state,
+                                                     self->shadow_memory_state,
+                                                     self->blocklist);
    GET_GLOBAL_STATE()->num_dirty_pages = num_dirty_pages;
 }

-static inline void fast_snapshot_pre_create_incremental_operation(fast_reload_t* self){
+static inline void fast_snapshot_pre_create_incremental_operation(fast_reload_t *self)
+{
    /* flush all pending block writes */
    bdrv_drain_all();
    memory_global_dirty_log_sync();
@ -157,34 +177,49 @@ static inline void fast_snapshot_pre_create_incremental_operation(fast_reload_t*
    nyx_block_snapshot_switch_incremental(self->block_state);
 }

-static inline void fast_snapshot_create_incremental_operation(fast_reload_t* self){
+static inline void fast_snapshot_create_incremental_operation(fast_reload_t *self)
+{
    shadow_memory_prepare_incremental(self->shadow_memory_state);
    nyx_device_state_save_tsc_incremental(self->device_state);

-    switch(mode){
+    switch (mode) {
    case RELOAD_MEMORY_MODE_DEBUG:
-            nyx_snapshot_debug_save_root_pages(self->shadow_memory_state, self->blocklist, true);
+        nyx_snapshot_debug_save_root_pages(self->shadow_memory_state,
+                                           self->blocklist, true);
        break;
    case RELOAD_MEMORY_MODE_DEBUG_QUIET:
-            nyx_snapshot_debug_save_root_pages(self->shadow_memory_state, self->blocklist, false);
+        nyx_snapshot_debug_save_root_pages(self->shadow_memory_state,
+                                           self->blocklist, false);
        break;
    case RELOAD_MEMORY_MODE_FDL:
-            nyx_snapshot_nyx_fdl_save_root_pages(self->fdl_state, self->shadow_memory_state, self->blocklist);
+        nyx_snapshot_nyx_fdl_save_root_pages(self->fdl_state,
+                                             self->shadow_memory_state,
+                                             self->blocklist);
        break;
    case RELOAD_MEMORY_MODE_FDL_DEBUG:
-            nyx_snapshot_nyx_fdl_save_root_pages(self->fdl_state, self->shadow_memory_state, self->blocklist);
-            nyx_snapshot_debug_save_root_pages(self->shadow_memory_state, self->blocklist, true);
+        nyx_snapshot_nyx_fdl_save_root_pages(self->fdl_state,
+                                             self->shadow_memory_state,
+                                             self->blocklist);
+        nyx_snapshot_debug_save_root_pages(self->shadow_memory_state,
+                                           self->blocklist, true);
        break;
    case RELOAD_MEMORY_MODE_DIRTY_RING:
-            nyx_snapshot_nyx_dirty_ring_save_root_pages(self->dirty_ring_state, self->shadow_memory_state, self->blocklist);
+        nyx_snapshot_nyx_dirty_ring_save_root_pages(self->dirty_ring_state,
+                                                    self->shadow_memory_state,
+                                                    self->blocklist);
        break;
    case RELOAD_MEMORY_MODE_DIRTY_RING_DEBUG:
-            nyx_snapshot_nyx_dirty_ring_save_root_pages(self->dirty_ring_state, self->shadow_memory_state, self->blocklist);
-            nyx_snapshot_debug_save_root_pages(self->shadow_memory_state, self->blocklist, true);
+        nyx_snapshot_nyx_dirty_ring_save_root_pages(self->dirty_ring_state,
+                                                    self->shadow_memory_state,
+                                                    self->blocklist);
+        nyx_snapshot_debug_save_root_pages(self->shadow_memory_state,
+                                           self->blocklist, true);
        break;
    }

-    nyx_snapshot_nyx_fdl_user_save_root_pages(self->fdl_user_state, self->shadow_memory_state, self->blocklist);
+    nyx_snapshot_nyx_fdl_user_save_root_pages(self->fdl_user_state,
+                                              self->shadow_memory_state,
+                                              self->blocklist);
    shadow_memory_switch_snapshot(self->shadow_memory_state, true);

    kvm_arch_put_registers(qemu_get_cpu(0), KVM_PUT_FULL_STATE_FAST);
@ -192,8 +227,9 @@ static inline void fast_snapshot_create_incremental_operation(fast_reload_t* sel
 }


-fast_reload_t* fast_reload_new(void){
-	fast_reload_t* self = malloc(sizeof(fast_reload_t));
+fast_reload_t *fast_reload_new(void)
+{
+    fast_reload_t *self = malloc(sizeof(fast_reload_t));
    memset(self, 0x0, sizeof(fast_reload_t));

    self->root_snapshot_created        = false;
@ -204,49 +240,52 @@ fast_reload_t* fast_reload_new(void){
    return self;
 }

-void fast_reload_set_mode(fast_reload_t* self, FastReloadMemoryMode m){
+void fast_reload_set_mode(fast_reload_t *self, FastReloadMemoryMode m)
+{
    assert(!self->root_snapshot_created);
    mode = m;
 }

-FastReloadMemoryMode fast_reload_get_mode(fast_reload_t* self){
+FastReloadMemoryMode fast_reload_get_mode(fast_reload_t *self)
+{
    return mode;
 }

-void fast_reload_init(fast_reload_t* self){
+void fast_reload_init(fast_reload_t *self)
+{
    self->blocklist = snapshot_page_blocklist_init();
 }

 /* fix this */
-void fast_reload_destroy(fast_reload_t* self){
-
+void fast_reload_destroy(fast_reload_t *self)
+{
    /* TODO: complete me */

-    //close(self->vmx_fdl_fd);
-    //munmap(self->fdl_data, (self->guest_ram_size/0x1000)*8);
+    // close(self->vmx_fdl_fd);
+    // munmap(self->fdl_data, (self->guest_ram_size/0x1000)*8);

-/*
+    /*
        munmap(self->ptr, self->guest_ram_size);

        free(self->black_list_pages);

        free(self);
-*/
+    */
 }

-inline static void unlock_snapshot(const char* folder){
-    char* info_file;
-    char* lock_file;
+inline static void unlock_snapshot(const char *folder)
+{
+    char *info_file;
+    char *lock_file;

    /* info file */
    assert(asprintf(&info_file, "%s/INFO.txt", folder) != -1);
-    FILE* f_info = fopen(info_file, "w+b");
-    if(GET_GLOBAL_STATE()->fast_reload_pre_image){
-        const char* msg = "THIS IS A NYX PRE IMAGE SNAPSHOT FOLDER!\n";
+    FILE *f_info = fopen(info_file, "w+b");
+    if (GET_GLOBAL_STATE()->fast_reload_pre_image) {
+        const char *msg = "THIS IS A NYX PRE IMAGE SNAPSHOT FOLDER!\n";
        fwrite(msg, strlen(msg), 1, f_info);
-    }
-    else{
-        const char* msg = "THIS IS A NYX SNAPSHOT FOLDER!\n";
+    } else {
+        const char *msg = "THIS IS A NYX SNAPSHOT FOLDER!\n";
        fwrite(msg, strlen(msg), 1, f_info);
    }
    fclose(f_info);
@ -258,23 +297,26 @@ inline static void unlock_snapshot(const char* folder){
    free(lock_file);
 }

-inline static void wait_for_snapshot(const char* folder){
-    char* lock_file;
+inline static void wait_for_snapshot(const char *folder)
+{
+    char *lock_file;

    assert(asprintf(&lock_file, "%s/ready.lock", folder) != -1);
-    while( access(lock_file, F_OK ) == -1 ) {
+    while (access(lock_file, F_OK) == -1) {
        sleep(1);
-
    }
    free(lock_file);
 }

-void fast_reload_serialize_to_file(fast_reload_t* self, const char* folder, bool is_pre_snapshot){
+void fast_reload_serialize_to_file(fast_reload_t *self,
+                                   const char    *folder,
+                                   bool           is_pre_snapshot)
+{
    nyx_trace();

    /* sanity check */
-    if(!folder_exits(folder)){
-        nyx_debug_p(RELOAD_PREFIX,"Folder %s does not exist...failed!", folder);
+    if (!folder_exits(folder)) {
+        nyx_debug_p(RELOAD_PREFIX, "Folder %s does not exist...failed!", folder);
        assert(0);
    }

@ -295,14 +337,18 @@ void fast_reload_serialize_to_file(fast_reload_t* self, const char* folder, bool
 }


-
-static void fast_reload_create_from_snapshot(fast_reload_t* self, const char* folder, bool lock_iothread, bool pre_snapshot){
+static void fast_reload_create_from_snapshot(fast_reload_t *self,
+                                             const char    *folder,
+                                             bool           lock_iothread,
+                                             bool           pre_snapshot)
+{
    nyx_trace();

    assert(self != NULL);
    wait_for_snapshot(folder);

-    nyx_debug_p(RELOAD_PREFIX,"=> CREATING FAST RELOAD SNAPSHOT FROM DUMP (located in: %s)", folder);
+    nyx_debug_p(RELOAD_PREFIX,
+                "=> CREATING FAST RELOAD SNAPSHOT FROM DUMP (located in: %s)", folder);

    rcu_read_lock();

@ -311,7 +357,7 @@ static void fast_reload_create_from_snapshot(fast_reload_t* self, const char* fo

    cpu_synchronize_all_pre_loadvm();

-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        memory_global_dirty_log_stop();
        memory_global_dirty_log_sync();
    }
@ -320,30 +366,36 @@ static void fast_reload_create_from_snapshot(fast_reload_t* self, const char* fo

    rcu_read_unlock();

-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        deserialize_state(folder);
    }

    cpu_synchronize_all_post_init();
    qemu_get_cpu(0)->vcpu_dirty = true;
    kvm_arch_put_registers(qemu_get_cpu(0), KVM_PUT_FULL_STATE);
-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        nyx_device_state_save_tsc(self->device_state);
    }
 }

-void fast_reload_create_from_file(fast_reload_t* self, const char* folder, bool lock_iothread){
+void fast_reload_create_from_file(fast_reload_t *self,
+                                  const char    *folder,
+                                  bool           lock_iothread)
+{
    nyx_trace();
    fast_reload_create_from_snapshot(self, folder, lock_iothread, false);
 }

-void fast_reload_create_from_file_pre_image(fast_reload_t* self, const char* folder, bool lock_iothread){
+void fast_reload_create_from_file_pre_image(fast_reload_t *self,
+                                            const char    *folder,
+                                            bool           lock_iothread)
+{
    nyx_trace();
    fast_reload_create_from_snapshot(self, folder, lock_iothread, true);
 }

-void fast_reload_create_in_memory(fast_reload_t* self){
-
+void fast_reload_create_in_memory(fast_reload_t *self)
+{
    nyx_trace();
    assert(self != NULL);

@ -363,7 +415,8 @@ void fast_reload_create_in_memory(fast_reload_t* self){
    cpu_synchronize_all_post_init();
 }

-void fast_reload_restore(fast_reload_t* self){
+void fast_reload_restore(fast_reload_t *self)
+{
    assert(self != NULL);
    self->dirty_pages = 0;

@ -387,13 +440,15 @@ void fast_reload_restore(fast_reload_t* self){
 }


-bool read_snapshot_memory(fast_reload_t* self, uint64_t address, void* ptr, size_t size){
-    return shadow_memory_read_physical_memory(self->shadow_memory_state, address, ptr, size);
+bool read_snapshot_memory(fast_reload_t *self, uint64_t address, void *ptr, size_t size)
+{
+    return shadow_memory_read_physical_memory(self->shadow_memory_state, address,
+                                              ptr, size);
 }

 /* fix this */
-void* fast_reload_get_physmem_shadow_ptr(fast_reload_t* self, uint64_t physaddr){
-
+void *fast_reload_get_physmem_shadow_ptr(fast_reload_t *self, uint64_t physaddr)
+{
    abort(); /* TODO: fix this function first -> pc_piix memory split issue */

    /*
@ -401,8 +456,9 @@ void* fast_reload_get_physmem_shadow_ptr(fast_reload_t* self, uint64_t physaddr)
    assert(!(physaddr&0xFFF));  // physaddr must be 4kb align !
    if (self->shadow_memory_regions){
        for(uint64_t j = 0; j < self->shadow_memory_regions; j++){
-            if(physaddr >= self->ram_block_array[j]->offset && physaddr < (self->ram_block_array[j]->offset+self->ram_block_array[j]->used_length)){
-                return self->shadow_memory[j]+(physaddr-self->ram_block_array[j]->offset);
+            if(physaddr >= self->ram_block_array[j]->offset && physaddr <
+    (self->ram_block_array[j]->offset+self->ram_block_array[j]->used_length)){ return
+    self->shadow_memory[j]+(physaddr-self->ram_block_array[j]->offset);
            }
        }
    }
@ -410,26 +466,28 @@ void* fast_reload_get_physmem_shadow_ptr(fast_reload_t* self, uint64_t physaddr)
    return NULL; // not found ... sorry :(
 }

-void fast_reload_blacklist_page(fast_reload_t* self, uint64_t physaddr){
-
+void fast_reload_blacklist_page(fast_reload_t *self, uint64_t physaddr)
+{
    assert(self->blocklist);
    snapshot_page_blocklist_add(self->blocklist, physaddr);
 }

-bool fast_reload_snapshot_exists(fast_reload_t* self){
-	if(!self){ 
+bool fast_reload_snapshot_exists(fast_reload_t *self)
+{
+    if (!self) {
        return false;
    }
    return true;
 }

-void fast_reload_create_tmp_snapshot(fast_reload_t* self){
+void fast_reload_create_tmp_snapshot(fast_reload_t *self)
+{
    assert(self);

    self->dirty_pages = 0;
    fast_snapshot_pre_create_incremental_operation(self);

-    if(!self->bitmap_copy){
+    if (!self->bitmap_copy) {
        self->bitmap_copy = new_coverage_bitmaps();
    }
    coverage_bitmap_copy_to_buffer(self->bitmap_copy);
@ -438,7 +496,8 @@ void fast_reload_create_tmp_snapshot(fast_reload_t* self){
    self->incremental_snapshot_enabled = true;
 }

-void fast_reload_discard_tmp_snapshot(fast_reload_t* self){
+void fast_reload_discard_tmp_snapshot(fast_reload_t *self)
+{
    assert(self && self->incremental_snapshot_enabled);

    self->dirty_pages = 0;
@ -459,45 +518,53 @@ void fast_reload_discard_tmp_snapshot(fast_reload_t* self){
    self->incremental_snapshot_enabled = false;
 }

-bool fast_reload_root_created(fast_reload_t* self){
+bool fast_reload_root_created(fast_reload_t *self)
+{
    return self->root_snapshot_created;
 }

-bool fast_reload_tmp_created(fast_reload_t* self){
+bool fast_reload_tmp_created(fast_reload_t *self)
+{
    return self->incremental_snapshot_enabled;
 }

-uint32_t get_dirty_page_num(fast_reload_t* self){
-    if(self){
+uint32_t get_dirty_page_num(fast_reload_t *self)
+{
+    if (self) {
        return self->dirty_pages;
-    }
-    else{
-
+    } else {
        return 0;
    }
 }

-bool fast_reload_set_bitmap(fast_reload_t* self){
-    if(self->incremental_snapshot_enabled){
+bool fast_reload_set_bitmap(fast_reload_t *self)
+{
+    if (self->incremental_snapshot_enabled) {
        coverage_bitmap_copy_from_buffer(self->bitmap_copy);
        return true;
    }
    return false;
 }

-void fast_reload_qemu_user_fdl_set_dirty(fast_reload_t* self, MemoryRegion *mr, uint64_t addr, uint64_t length){
+void fast_reload_qemu_user_fdl_set_dirty(fast_reload_t *self,
+                                         MemoryRegion  *mr,
+                                         uint64_t       addr,
+                                         uint64_t       length)
+{
    /* works only with PC.RAM's memory region */
    assert(mr->alias_offset == 0);

-    nyx_fdl_user_set(self->fdl_user_state, self->shadow_memory_state, self->fdl_state, addr, length);
+    nyx_fdl_user_set(self->fdl_user_state, self->shadow_memory_state,
+                     self->fdl_state, addr, length);
 }

-void fast_reload_handle_dirty_ring_full(fast_reload_t* self){
-    if(self->dirty_ring_state){
-        nyx_snapshot_nyx_dirty_ring_flush_and_collect(self->dirty_ring_state, self->shadow_memory_state, self->blocklist);
-    }
-    else{
+void fast_reload_handle_dirty_ring_full(fast_reload_t *self)
+{
+    if (self->dirty_ring_state) {
+        nyx_snapshot_nyx_dirty_ring_flush_and_collect(self->dirty_ring_state,
+                                                      self->shadow_memory_state,
+                                                      self->blocklist);
+    } else {
        nyx_snapshot_nyx_dirty_ring_flush();
    }
-    
 }
--- a/nyx/fast_vm_reload.h
+++ b/nyx/fast_vm_reload.h
@ -21,19 +21,19 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 #pragma once

-#include"monitor/monitor.h"
-#include"sysemu/runstate.h"
-#include"qemu-common.h"
+#include "monitor/monitor.h"
+#include "sysemu/runstate.h"
+#include "qemu-common.h"

-#include"nyx/snapshot/block/nyx_block_snapshot.h"
-#include"nyx/snapshot/devices/nyx_device_state.h"
-#include"nyx/snapshot/memory/backend/nyx_dirty_ring.h"
-#include"nyx/snapshot/memory/backend/nyx_fdl.h"
-#include"nyx/snapshot/memory/block_list.h"
-#include"nyx/snapshot/memory/nyx_fdl_user.h"
-#include"nyx/snapshot/memory/shadow_memory.h"
+#include "nyx/snapshot/block/nyx_block_snapshot.h"
+#include "nyx/snapshot/devices/nyx_device_state.h"
+#include "nyx/snapshot/memory/backend/nyx_dirty_ring.h"
+#include "nyx/snapshot/memory/backend/nyx_fdl.h"
+#include "nyx/snapshot/memory/block_list.h"
+#include "nyx/snapshot/memory/nyx_fdl_user.h"
+#include "nyx/snapshot/memory/shadow_memory.h"

-#include"nyx/helpers.h"
+#include "nyx/helpers.h"


 typedef enum FastReloadMemoryMode {
@ -46,43 +46,40 @@ typedef enum FastReloadMemoryMode {
 } FastReloadMemoryMode;


-
-typedef struct fast_reload_dump_head_s{
+typedef struct fast_reload_dump_head_s {
    uint32_t shadow_memory_regions;
    uint32_t ram_region_index;
 } fast_reload_dump_head_t;


-typedef struct fast_reload_s{
-
+typedef struct fast_reload_s {
    FastReloadMemoryMode mode;

    /* memory snapshot */
-	shadow_memory_t* shadow_memory_state;
+    shadow_memory_t *shadow_memory_state;

    /* state of page frame blocklist */
-	snapshot_page_blocklist_t* blocklist;
+    snapshot_page_blocklist_t *blocklist;

    /* state of FDL */
-	nyx_fdl_t* fdl_state;
+    nyx_fdl_t *fdl_state;

    /* dirty ring state */
-	nyx_dirty_ring_t* dirty_ring_state;
+    nyx_dirty_ring_t *dirty_ring_state;

    /* state of user-level FDL */
-	nyx_fdl_user_t* fdl_user_state;
+    nyx_fdl_user_t *fdl_user_state;

    /* nyx's serialized device state */
-	nyx_device_state_t* device_state;
+    nyx_device_state_t *device_state;

-	nyx_block_t* block_state;
+    nyx_block_t *block_state;

    bool root_snapshot_created;
    bool incremental_snapshot_enabled;

    /* copy of the fuzzing bitmap & ijon state buffer */
-	nyx_coverage_bitmap_copy_t* bitmap_copy;
-
+    nyx_coverage_bitmap_copy_t *bitmap_copy;


    uint32_t dirty_pages;
@ -90,46 +87,57 @@ typedef struct fast_reload_s{
 } fast_reload_t;


-fast_reload_t* fast_reload_new(void);
+fast_reload_t *fast_reload_new(void);


 /* TODO: get rid of this */
-void fast_reload_create_to_file(fast_reload_t* self, const char* folder, bool lock_iothread);
-void fast_reload_create_from_file(fast_reload_t* self, const char* folder, bool lock_iothread);
-void fast_reload_create_from_file_pre_image(fast_reload_t* self, const char* folder, bool lock_iothread);
+void fast_reload_create_to_file(fast_reload_t *self,
+                                const char    *folder,
+                                bool           lock_iothread);
+void fast_reload_create_from_file(fast_reload_t *self,
+                                  const char    *folder,
+                                  bool           lock_iothread);
+void fast_reload_create_from_file_pre_image(fast_reload_t *self,
+                                            const char    *folder,
+                                            bool           lock_iothread);


 /* keep this */
-void fast_reload_create_in_memory(fast_reload_t* self);
+void fast_reload_create_in_memory(fast_reload_t *self);


-void fast_reload_serialize_to_file(fast_reload_t* self, const char* folder, bool is_pre_snapshot);
+void fast_reload_serialize_to_file(fast_reload_t *self,
+                                   const char    *folder,
+                                   bool           is_pre_snapshot);


-void fast_reload_restore(fast_reload_t* self);
-void fast_reload_blacklist_page(fast_reload_t* self, uint64_t physaddr);
-void* fast_reload_get_physmem_shadow_ptr(fast_reload_t* self, uint64_t physaddr);
-bool fast_reload_snapshot_exists(fast_reload_t* self);
+void  fast_reload_restore(fast_reload_t *self);
+void  fast_reload_blacklist_page(fast_reload_t *self, uint64_t physaddr);
+void *fast_reload_get_physmem_shadow_ptr(fast_reload_t *self, uint64_t physaddr);
+bool  fast_reload_snapshot_exists(fast_reload_t *self);

-bool read_snapshot_memory(fast_reload_t* self, uint64_t address, void* ptr, size_t size);
+bool read_snapshot_memory(fast_reload_t *self, uint64_t address, void *ptr, size_t size);

-void fast_reload_destroy(fast_reload_t* self);
+void fast_reload_destroy(fast_reload_t *self);

-void fast_reload_qemu_user_fdl_set_dirty(fast_reload_t* self, MemoryRegion *mr, uint64_t addr, uint64_t length);
+void fast_reload_qemu_user_fdl_set_dirty(fast_reload_t *self,
+                                         MemoryRegion  *mr,
+                                         uint64_t       addr,
+                                         uint64_t       length);

-void fast_reload_create_tmp_snapshot(fast_reload_t* self);
-void fast_reload_discard_tmp_snapshot(fast_reload_t* self);
+void fast_reload_create_tmp_snapshot(fast_reload_t *self);
+void fast_reload_discard_tmp_snapshot(fast_reload_t *self);

-bool fast_reload_root_created(fast_reload_t* self);
-bool fast_reload_tmp_created(fast_reload_t* self);
+bool fast_reload_root_created(fast_reload_t *self);
+bool fast_reload_tmp_created(fast_reload_t *self);

-bool fast_reload_set_bitmap(fast_reload_t* self);
+bool fast_reload_set_bitmap(fast_reload_t *self);

-uint32_t get_dirty_page_num(fast_reload_t* self);
+uint32_t get_dirty_page_num(fast_reload_t *self);

-void fast_reload_init(fast_reload_t* self);
+void fast_reload_init(fast_reload_t *self);

-void fast_reload_set_mode(fast_reload_t* self, FastReloadMemoryMode m);
+void fast_reload_set_mode(fast_reload_t *self, FastReloadMemoryMode m);

-void fast_reload_handle_dirty_ring_full(fast_reload_t* self);
-FastReloadMemoryMode fast_reload_get_mode(fast_reload_t* self);
+void                 fast_reload_handle_dirty_ring_full(fast_reload_t *self);
+FastReloadMemoryMode fast_reload_get_mode(fast_reload_t *self);
--- a/nyx/fast_vm_reload_sync.c
+++ b/nyx/fast_vm_reload_sync.c
@ -1,30 +1,31 @@
-#include"qemu/osdep.h"
+#include "qemu/osdep.h"

-#include<assert.h>
-#include<stdint.h>
-#include<stdio.h>
+#include <assert.h>
+#include <stdint.h>
+#include <stdio.h>

-#include"exec/memory.h"
-#include"qapi/error.h"
-#include"qapi/qapi-types-run-state.h"
-#include"qemu/main-loop.h"
-#include"qemu-common.h"
+#include "exec/memory.h"
+#include "qapi/error.h"
+#include "qapi/qapi-types-run-state.h"
+#include "qemu/main-loop.h"
+#include "qemu-common.h"

-#include"sysemu/kvm.h"
-#include"sysemu/kvm_int.h"
-#include"sysemu/runstate.h"
+#include "sysemu/kvm.h"
+#include "sysemu/kvm_int.h"
+#include "sysemu/runstate.h"

-#include"fast_vm_reload_sync.h"
-#include"nyx/debug.h"
-#include"nyx/fast_vm_reload.h"
-#include"nyx/kvm_nested.h"
-#include"nyx/state/state.h"
+#include "fast_vm_reload_sync.h"
+#include "nyx/debug.h"
+#include "nyx/fast_vm_reload.h"
+#include "nyx/kvm_nested.h"
+#include "nyx/state/state.h"

 extern int save_snapshot(const char *name, Error **errp);
 extern int load_snapshot(const char *name, Error **errp);

-static void adjust_rip(CPUX86State *env, fast_reload_t* snapshot){
-  switch(fast_reload_get_mode(snapshot)){
+static void adjust_rip(CPUX86State *env, fast_reload_t *snapshot)
+{
+    switch (fast_reload_get_mode(snapshot)) {
    case RELOAD_MEMORY_MODE_DEBUG:
    case RELOAD_MEMORY_MODE_DEBUG_QUIET:
        env->eip -= 1; /* out */
@ -40,8 +41,9 @@ static void adjust_rip(CPUX86State *env, fast_reload_t* snapshot){
    }
 }

-fast_vm_reload_sync_t* init_fast_vm_reload_sync(void){
-  fast_vm_reload_sync_t* self = malloc(sizeof(fast_vm_reload_sync_t));
+fast_vm_reload_sync_t *init_fast_vm_reload_sync(void)
+{
+    fast_vm_reload_sync_t *self = malloc(sizeof(fast_vm_reload_sync_t));
    memset(self, 0, sizeof(fast_vm_reload_sync_t));

    self->request_exists     = false;
@ -55,11 +57,11 @@ fast_vm_reload_sync_t* init_fast_vm_reload_sync(void){
    return self;
 }

-bool fast_snapshot_exists(fast_vm_reload_sync_t* self, FastReloadRequest type){
-
+bool fast_snapshot_exists(fast_vm_reload_sync_t *self, FastReloadRequest type)
+{
    assert(self->mode != RELOAD_MODE_DEBUG);

-  switch(type){
+    switch (type) {
    case REQUEST_PRE_EXISTS:
        abort();
    case REQUEST_ROOT_EXISTS:
@ -72,11 +74,12 @@ bool fast_snapshot_exists(fast_vm_reload_sync_t* self, FastReloadRequest type){
 }


+static inline void perform_task_debug_mode(fast_vm_reload_sync_t *self,
+                                           FastReloadRequest      request)
+{
+    struct Error *errp = NULL;

-static inline void perform_task_debug_mode(fast_vm_reload_sync_t* self, FastReloadRequest request){
-  struct Error* errp = NULL;
-
-  switch(request){
+    switch (request) {
    case REQUEST_SAVE_SNAPSHOT_PRE_FIX_RIP:
        abort();
    case REQUEST_SAVE_SNAPSHOT_PRE:
@ -120,39 +123,42 @@ static inline void perform_task_debug_mode(fast_vm_reload_sync_t* self, FastRelo
    vm_start();
 }

-static inline void create_root_snapshot(void){
-  if (GET_GLOBAL_STATE()->fast_reload_enabled){
+static inline void create_root_snapshot(void)
+{
+    if (GET_GLOBAL_STATE()->fast_reload_enabled) {
        nyx_debug("===> GET_GLOBAL_STATE()->fast_reload_enabled: TRUE\n");
-		if (GET_GLOBAL_STATE()->fast_reload_mode){
+        if (GET_GLOBAL_STATE()->fast_reload_mode) {
            nyx_debug("===> GET_GLOBAL_STATE()->fast_reload_mode: TRUE\n");
            /* we've loaded an external snapshot folder - so do nothing and don't create any new snapshot files */
-		}
-		else{
+        } else {
            nyx_debug("===> GET_GLOBAL_STATE()->fast_reload_mode: FALSE\n");
            /* store the current state as a snapshot folder */
            fast_reload_create_in_memory(get_fast_reload_snapshot());
-      fast_reload_serialize_to_file(get_fast_reload_snapshot(), GET_GLOBAL_STATE()->fast_reload_path, false);
+            fast_reload_serialize_to_file(get_fast_reload_snapshot(),
+                                          GET_GLOBAL_STATE()->fast_reload_path, false);
        }
-	}
-	else{
+    } else {
        nyx_debug("===> GET_GLOBAL_STATE()->fast_reload_enabled: FALSE\n");
        /* so we haven't set a path for our snapshot files - just store everything in memory */
        fast_reload_create_in_memory(get_fast_reload_snapshot());
    }
 }

-static inline void perform_task_no_block_mode(fast_vm_reload_sync_t* self, FastReloadRequest request){
-  CPUState* cpu = qemu_get_cpu(0);
+static inline void perform_task_no_block_mode(fast_vm_reload_sync_t *self,
+                                              FastReloadRequest      request)
+{
+    CPUState    *cpu     = qemu_get_cpu(0);
    X86CPU      *x86_cpu = X86_CPU(cpu);
    CPUX86State *env     = &x86_cpu->env;

    qemu_mutex_lock_iothread();

-  switch(request){
+    switch (request) {
    case REQUEST_SAVE_SNAPSHOT_PRE:
        vm_stop(RUN_STATE_SAVE_VM);
        fast_reload_create_in_memory(get_fast_reload_snapshot());
-      fast_reload_serialize_to_file(get_fast_reload_snapshot(), GET_GLOBAL_STATE()->fast_reload_pre_path, true);
+        fast_reload_serialize_to_file(get_fast_reload_snapshot(),
+                                      GET_GLOBAL_STATE()->fast_reload_pre_path, true);

        qemu_system_shutdown_request(SHUTDOWN_CAUSE_GUEST_SHUTDOWN);
        qemu_mutex_unlock_iothread();
@ -203,13 +209,16 @@ static inline void perform_task_no_block_mode(fast_vm_reload_sync_t* self, FastR
    qemu_mutex_unlock_iothread();
 }

-static inline void perform_task_block_mode(fast_vm_reload_sync_t* self, FastReloadRequest request){
-  switch(request){
+static inline void perform_task_block_mode(fast_vm_reload_sync_t *self,
+                                           FastReloadRequest      request)
+{
+    switch (request) {
    case REQUEST_SAVE_SNAPSHOT_PRE_FIX_RIP:
    case REQUEST_SAVE_SNAPSHOT_PRE:
        vm_stop(RUN_STATE_SAVE_VM);
        fast_reload_create_in_memory(get_fast_reload_snapshot());
-      fast_reload_serialize_to_file(get_fast_reload_snapshot(), GET_GLOBAL_STATE()->fast_reload_pre_path, true);
+        fast_reload_serialize_to_file(get_fast_reload_snapshot(),
+                                      GET_GLOBAL_STATE()->fast_reload_pre_path, true);
        qemu_system_shutdown_request(SHUTDOWN_CAUSE_GUEST_SHUTDOWN);
        return; /* return here to skip the vm_start call */
    case REQUEST_SAVE_SNAPSHOT_ROOT_FIX_RIP:
@ -237,8 +246,9 @@ static inline void perform_task_block_mode(fast_vm_reload_sync_t* self, FastRelo
    vm_start();
 }

-static inline void perform_task(fast_vm_reload_sync_t* self, FastReloadRequest request){
-  switch(self->mode){
+static inline void perform_task(fast_vm_reload_sync_t *self, FastReloadRequest request)
+{
+    switch (self->mode) {
    case RELOAD_MODE_DEBUG:
        abort();
        perform_task_debug_mode(self, request);
@ -252,45 +262,47 @@ static inline void perform_task(fast_vm_reload_sync_t* self, FastReloadRequest r
    }
 }

-void request_fast_vm_reload(fast_vm_reload_sync_t* self, FastReloadRequest request){
+void request_fast_vm_reload(fast_vm_reload_sync_t *self, FastReloadRequest request)
+{
    assert(!self->request_exists);
    assert(self->current_request == REQUEST_VOID);

-  if(self->mode == RELOAD_MODE_NO_BLOCK){
-    CPUState* cpu = qemu_get_cpu(0);
+    if (self->mode == RELOAD_MODE_NO_BLOCK) {
+        CPUState *cpu = qemu_get_cpu(0);
        kvm_arch_get_registers(cpu);
-    //perform_task(self, request);
+        // perform_task(self, request);
        perform_task_no_block_mode(self, request);
-  }
-  else{
+    } else {
        self->current_request    = request;
        self->request_exists     = true;
        self->request_exists_pre = true;
    }
 }

-bool reload_request_exists(fast_vm_reload_sync_t* self){
+bool reload_request_exists(fast_vm_reload_sync_t *self)
+{
    return self->request_exists_pre;
 }

-void reload_request_discard_tmp(fast_vm_reload_sync_t* self){
+void reload_request_discard_tmp(fast_vm_reload_sync_t *self)
+{
    fast_reload_discard_tmp_snapshot(get_fast_reload_snapshot());
 }

-bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t* self){
-
+bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t *self)
+{
    /* TODO: always returns false or abort() ? */
-  if(self->request_exists_pre){
+    if (self->request_exists_pre) {
        self->request_exists_pre = false;
        abort();

-    CPUState* cpu = qemu_get_cpu(0);
+        CPUState    *cpu     = qemu_get_cpu(0);
        X86CPU      *x86_cpu = X86_CPU(cpu);
        CPUX86State *env     = &x86_cpu->env;

        kvm_arch_get_registers(cpu);

-    switch(self->current_request){
+        switch (self->current_request) {
        case REQUEST_VOID:
            fprintf(stderr, "%s: REQUEST_VOID requested!\n", __func__);
            abort();
@ -323,7 +335,8 @@ bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t* self){
            break;

        default:
-        fprintf(stderr, "%s: Unkown request: %d\n", __func__, self->current_request);
+            fprintf(stderr, "%s: Unkown request: %d\n", __func__,
+                    self->current_request);
            abort();
        }
        return true;
@ -331,8 +344,9 @@ bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t* self){
    return false;
 }

-bool check_if_relood_request_exists_post(fast_vm_reload_sync_t* self){
-  if(self->request_exists){
+bool check_if_relood_request_exists_post(fast_vm_reload_sync_t *self)
+{
+    if (self->request_exists) {
        FastReloadRequest request = self->current_request;
        self->request_exists      = false;

--- a/nyx/fast_vm_reload_sync.h
+++ b/nyx/fast_vm_reload_sync.h
@ -29,7 +29,7 @@ typedef enum FastReloadRequest {
    REQUEST_ROOT_EXISTS,
    REQUEST_TMP_EXISTS,

-  //REQUEST_DISCARD_SNAPSHOT_TMP,
+    // REQUEST_DISCARD_SNAPSHOT_TMP,
 } FastReloadRequest;

 typedef enum FastReloadMode {
@ -39,9 +39,7 @@ typedef enum FastReloadMode {
 } FastReloadMode;


-
-typedef struct fast_vm_reload_sync_s{
-
+typedef struct fast_vm_reload_sync_s {
    bool              request_exists;
    bool              request_exists_pre;
    bool              debug_mode;
@ -50,12 +48,12 @@ typedef struct fast_vm_reload_sync_s{
 } fast_vm_reload_sync_t;


-fast_vm_reload_sync_t* init_fast_vm_reload_sync(void);
-void request_fast_vm_reload(fast_vm_reload_sync_t* self, FastReloadRequest request);
-bool reload_request_exists(fast_vm_reload_sync_t* self);
-bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t* self);
-bool check_if_relood_request_exists_post(fast_vm_reload_sync_t* self);
+fast_vm_reload_sync_t *init_fast_vm_reload_sync(void);
+void request_fast_vm_reload(fast_vm_reload_sync_t *self, FastReloadRequest request);
+bool reload_request_exists(fast_vm_reload_sync_t *self);
+bool check_if_relood_request_exists_pre(fast_vm_reload_sync_t *self);
+bool check_if_relood_request_exists_post(fast_vm_reload_sync_t *self);


-bool fast_snapshot_exists(fast_vm_reload_sync_t* self, FastReloadRequest type);
-void reload_request_discard_tmp(fast_vm_reload_sync_t* self);
+bool fast_snapshot_exists(fast_vm_reload_sync_t *self, FastReloadRequest type);
+void reload_request_discard_tmp(fast_vm_reload_sync_t *self);
--- a/nyx/file_helper.c
+++ b/nyx/file_helper.c
@ -1,13 +1,13 @@
 #include <assert.h>
 #include <string.h>

-#include <sys/stat.h> 
-#include <fcntl.h>
-#include <unistd.h>
 #include <errno.h>
+#include <fcntl.h>
+#include <sys/stat.h>
+#include <unistd.h>

 #include "nyx/redqueen.h"
-//#include "debug.h"
+// #include "debug.h"
 #include "nyx/file_helper.h"


@ -15,15 +15,16 @@
 * Private Helper Functions Declarations
 */

-size_t _count_lines_in_file(FILE* fp);
+size_t _count_lines_in_file(FILE *fp);

-void _parse_addresses_in_file(FILE* fp, size_t num_addrs, uint64_t* addrs);
+void _parse_addresses_in_file(FILE *fp, size_t num_addrs, uint64_t *addrs);

 /*
 * Public Functions
 */

-void write_debug_result(char* buf){
+void write_debug_result(char *buf)
+{
    int unused __attribute__((unused));
    int fd = open("/tmp/qemu_debug.txt", O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
    assert(fd > 0);
@ -31,25 +32,26 @@ void write_debug_result(char* buf){
    close(fd);
 }

-void parse_address_file(char* path, size_t* num_addrs, uint64_t** addrs){
-  FILE* fp = fopen(path,"r");
-  if(!fp){
+void parse_address_file(char *path, size_t *num_addrs, uint64_t **addrs)
+{
+    FILE *fp = fopen(path, "r");
+    if (!fp) {
        *num_addrs = 0;
        *addrs     = NULL;
        return;
    }

    *num_addrs = _count_lines_in_file(fp);
-  if(*num_addrs == 0){
+    if (*num_addrs == 0) {
        *addrs = NULL;
        goto exit_function;
    }

    assert(*num_addrs < 0xffff);
-  *addrs = malloc(sizeof(uint64_t)*(*num_addrs));
+    *addrs = malloc(sizeof(uint64_t) * (*num_addrs));
    _parse_addresses_in_file(fp, *num_addrs, *addrs);

-  exit_function:
+exit_function:
    fclose(fp);
 }

@ -57,37 +59,45 @@ void parse_address_file(char* path, size_t* num_addrs, uint64_t** addrs){
 int re_fd = 0;
 int se_fd = 0;

-void write_re_result(char* buf){
+void write_re_result(char *buf)
+{
    int unused __attribute__((unused));
    if (!re_fd)
-	  re_fd = open(redqueen_workdir.redqueen_results, O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
+        re_fd = open(redqueen_workdir.redqueen_results,
+                     O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
    unused = write(re_fd, buf, strlen(buf));
 }

-void fsync_redqueen_files(void){
-  if (!se_fd){
+void fsync_redqueen_files(void)
+{
+    if (!se_fd) {
        fsync(se_fd);
    }
-  if (!re_fd){
+    if (!re_fd) {
        fsync(re_fd);
    }
 }

-void write_se_result(char* buf){
-	//int fd;
+void write_se_result(char *buf)
+{
+    // int fd;
    int unused __attribute__((unused));
    if (!se_fd)
-		se_fd = open(redqueen_workdir.symbolic_results, O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
+        se_fd = open(redqueen_workdir.symbolic_results,
+                     O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
    unused = write(se_fd, buf, strlen(buf));
-	//close(fd);
+    // close(fd);
 }

-void delete_redqueen_files(void){
+void delete_redqueen_files(void)
+{
    int unused __attribute__((unused));
    if (!re_fd)
-		re_fd = open(redqueen_workdir.redqueen_results, O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
+        re_fd = open(redqueen_workdir.redqueen_results,
+                     O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
    if (!se_fd)
-		se_fd = open(redqueen_workdir.symbolic_results, O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
+        se_fd = open(redqueen_workdir.symbolic_results,
+                     O_WRONLY | O_CREAT | O_APPEND, S_IRWXU);
    unused = ftruncate(re_fd, 0);
    unused = ftruncate(se_fd, 0);
 }
@ -96,25 +106,28 @@ void delete_redqueen_files(void){
 * Private Helper Functions Definitions
 */

-size_t _count_lines_in_file(FILE* fp){
+size_t _count_lines_in_file(FILE *fp)
+{
    size_t val   = 0;
    size_t count = 0;
-  while(1){
+    while (1) {
        int scanres = fscanf(fp, "%lx", &val);
-    if(scanres == 0){
+        if (scanres == 0) {
            printf("WARNING, invalid line in address file");
            assert(scanres != 0);
        }
-    if(scanres == -1){break;}
-    count+=1;
+        if (scanres == -1) {
+            break;
+        }
+        count += 1;
    }
    rewind(fp);
    return count;
 }

-void _parse_addresses_in_file(FILE* fp, size_t num_addrs, uint64_t* addrs){
-  for(size_t i = 0; i < num_addrs; i++){
+void _parse_addresses_in_file(FILE *fp, size_t num_addrs, uint64_t *addrs)
+{
+    for (size_t i = 0; i < num_addrs; i++) {
        assert(fscanf(fp, "%lx", &addrs[i]) == 1);
    }
 }
-
--- a/nyx/file_helper.h
+++ b/nyx/file_helper.h
@ -1,20 +1,21 @@
-#include <stdio.h>
-#include <stdint.h>
-#include <stdlib.h>
-
 #pragma once

-//doesn't take ownership of path, num_addrs or addrs
-void parse_address_file(char* path, size_t* num_addrs, uint64_t** addrs);
+#include <stdint.h>
+#include <stdio.h>
+#include <stdlib.h>

-//doesn't take ownership of buf
-void write_re_result(char* buf);

-//doesn't take ownership of buf
-void write_se_result(char* buf);
+// doesn't take ownership of path, num_addrs or addrs
+void parse_address_file(char *path, size_t *num_addrs, uint64_t **addrs);

-//doesn' take ownership of buf
-void write_debug_result(char* buf);
+// doesn't take ownership of buf
+void write_re_result(char *buf);
+
+// doesn't take ownership of buf
+void write_se_result(char *buf);
+
+// doesn' take ownership of buf
+void write_debug_result(char *buf);

 void delete_redqueen_files(void);

--- a/nyx/helpers.c
+++ b/nyx/helpers.c
@ -12,30 +12,34 @@
 #include "sysemu/kvm_int.h"
 #include "qemu-common.h"

-#include "nyx/helpers.h"
 #include "nyx/debug.h"
 #include "nyx/helpers.h"
 #include "nyx/memory_access.h"
 #include "nyx/state/state.h"

-void nyx_abort(char* msg){
-	set_abort_reason_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer, msg, strlen(msg));
+void nyx_abort(char *msg)
+{
+    set_abort_reason_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer, msg,
+                                      strlen(msg));
    synchronization_lock();
    exit(1);
 }

-bool is_called_in_fuzzing_mode(const char* hypercall){
-	if(GET_GLOBAL_STATE()->in_fuzzing_mode){
-		char* tmp = NULL;
-		assert(asprintf(&tmp, "Hypercall <%s> called during fuzzing...", hypercall) != -1);
-		nyx_abort((char*)tmp);
+bool is_called_in_fuzzing_mode(const char *hypercall)
+{
+    if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
+        char *tmp = NULL;
+        assert(asprintf(&tmp, "Hypercall <%s> called during fuzzing...", hypercall) !=
+               -1);
+        nyx_abort((char *)tmp);
        free(tmp);
        return true;
    }
    return false;
 }

-uint64_t get_rip(CPUState *cpu){
+uint64_t get_rip(CPUState *cpu)
+{
    kvm_arch_get_registers(cpu);
    X86CPU      *x86_cpu = X86_CPU(cpu);
    CPUX86State *env     = &x86_cpu->env;
@ -43,8 +47,9 @@ uint64_t get_rip(CPUState *cpu){
    return env->eip;
 }

-int get_capstone_mode(int word_width_in_bits){
-	switch(word_width_in_bits){
+int get_capstone_mode(int word_width_in_bits)
+{
+    switch (word_width_in_bits) {
    case 64:
        return CS_MODE_64;
    case 32:
@ -54,8 +59,9 @@ int get_capstone_mode(int word_width_in_bits){
    }
 }

-nyx_coverage_bitmap_copy_t* new_coverage_bitmaps(void){
-	nyx_coverage_bitmap_copy_t* bitmaps = malloc(sizeof(nyx_coverage_bitmap_copy_t));
+nyx_coverage_bitmap_copy_t *new_coverage_bitmaps(void)
+{
+    nyx_coverage_bitmap_copy_t *bitmaps = malloc(sizeof(nyx_coverage_bitmap_copy_t));
    memset(bitmaps, 0, sizeof(nyx_coverage_bitmap_copy_t));

    assert(GET_GLOBAL_STATE()->shared_bitmap_size);
@ -67,36 +73,46 @@ nyx_coverage_bitmap_copy_t* new_coverage_bitmaps(void){
    return bitmaps;
 }

-void coverage_bitmap_reset(void){
-	if(GET_GLOBAL_STATE()->shared_bitmap_ptr){
-		memset(GET_GLOBAL_STATE()->shared_bitmap_ptr, 0x00, GET_GLOBAL_STATE()->shared_bitmap_real_size);
+void coverage_bitmap_reset(void)
+{
+    if (GET_GLOBAL_STATE()->shared_bitmap_ptr) {
+        memset(GET_GLOBAL_STATE()->shared_bitmap_ptr, 0x00,
+               GET_GLOBAL_STATE()->shared_bitmap_real_size);
    }
-	if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr && GET_GLOBAL_STATE()->shared_ijon_bitmap_size){
-		memset(GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr, 0x00, GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
+    if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr &&
+        GET_GLOBAL_STATE()->shared_ijon_bitmap_size)
+    {
+        memset(GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr, 0x00,
+               GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
    }
 }

-void coverage_bitmap_copy_to_buffer(nyx_coverage_bitmap_copy_t* buffer){
-
-	if(GET_GLOBAL_STATE()->shared_bitmap_ptr){
-		memcpy(buffer->coverage_bitmap, GET_GLOBAL_STATE()->shared_bitmap_ptr, GET_GLOBAL_STATE()->shared_bitmap_real_size);
+void coverage_bitmap_copy_to_buffer(nyx_coverage_bitmap_copy_t *buffer)
+{
+    if (GET_GLOBAL_STATE()->shared_bitmap_ptr) {
+        memcpy(buffer->coverage_bitmap, GET_GLOBAL_STATE()->shared_bitmap_ptr,
+               GET_GLOBAL_STATE()->shared_bitmap_real_size);
    }
-	if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr){
-		memcpy(buffer->ijon_bitmap_buffer, GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr, GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
+    if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr) {
+        memcpy(buffer->ijon_bitmap_buffer, GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr,
+               GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
    }
 }

-void coverage_bitmap_copy_from_buffer(nyx_coverage_bitmap_copy_t* buffer){
-
-	if(GET_GLOBAL_STATE()->shared_bitmap_ptr){
-		memcpy(GET_GLOBAL_STATE()->shared_bitmap_ptr, buffer->coverage_bitmap, GET_GLOBAL_STATE()->shared_bitmap_real_size);
+void coverage_bitmap_copy_from_buffer(nyx_coverage_bitmap_copy_t *buffer)
+{
+    if (GET_GLOBAL_STATE()->shared_bitmap_ptr) {
+        memcpy(GET_GLOBAL_STATE()->shared_bitmap_ptr, buffer->coverage_bitmap,
+               GET_GLOBAL_STATE()->shared_bitmap_real_size);
    }
-	if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr){
-		memcpy(GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr, buffer->ijon_bitmap_buffer, GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
+    if (GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr) {
+        memcpy(GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr, buffer->ijon_bitmap_buffer,
+               GET_GLOBAL_STATE()->shared_ijon_bitmap_size);
    }
 }

-static void resize_coverage_bitmap(uint32_t new_bitmap_size){
+static void resize_coverage_bitmap(uint32_t new_bitmap_size)
+{
    uint32_t new_bitmap_shm_size = new_bitmap_size;

    if (new_bitmap_shm_size % 64 > 0) {
@ -104,83 +120,118 @@ static void resize_coverage_bitmap(uint32_t new_bitmap_size){
    }

    GET_GLOBAL_STATE()->shared_bitmap_real_size = new_bitmap_shm_size;
-	resize_shared_memory(new_bitmap_shm_size, &GET_GLOBAL_STATE()->shared_bitmap_size, &GET_GLOBAL_STATE()->shared_bitmap_ptr, GET_GLOBAL_STATE()->shared_bitmap_fd);
+    resize_shared_memory(new_bitmap_shm_size, &GET_GLOBAL_STATE()->shared_bitmap_size,
+                         &GET_GLOBAL_STATE()->shared_bitmap_ptr,
+                         GET_GLOBAL_STATE()->shared_bitmap_fd);

    /* pass the actual bitmap buffer size to the front-end */
-	GET_GLOBAL_STATE()->auxilary_buffer->capabilites.agent_coverage_bitmap_size = new_bitmap_size;
+    GET_GLOBAL_STATE()->auxilary_buffer->capabilites.agent_coverage_bitmap_size =
+        new_bitmap_size;

-	if(new_bitmap_size & (PAGE_SIZE-1)){
-        GET_GLOBAL_STATE()->shared_bitmap_size = (new_bitmap_size & ~(PAGE_SIZE-1)) + PAGE_SIZE;
+    if (new_bitmap_size & (PAGE_SIZE - 1)) {
+        GET_GLOBAL_STATE()->shared_bitmap_size =
+            (new_bitmap_size & ~(PAGE_SIZE - 1)) + PAGE_SIZE;
    }
 }

-bool apply_capabilities(CPUState *cpu){
+bool apply_capabilities(CPUState *cpu)
+{
+    nyx_debug("%s: agent supports timeout detection: %d\n", __func__,
+              GET_GLOBAL_STATE()->cap_timeout_detection);
+    nyx_debug("%s: agent supports only-reload mode: %d\n", __func__,
+              GET_GLOBAL_STATE()->cap_only_reload_mode);
+    nyx_debug("%s: agent supports compile-time tracing: %d\n", __func__,
+              GET_GLOBAL_STATE()->cap_compile_time_tracing);

-	nyx_debug("%s: agent supports timeout detection: %d\n", __func__, GET_GLOBAL_STATE()->cap_timeout_detection);
-	nyx_debug("%s: agent supports only-reload mode: %d\n", __func__, GET_GLOBAL_STATE()->cap_only_reload_mode);
-	nyx_debug("%s: agent supports compile-time tracing: %d\n", __func__, GET_GLOBAL_STATE()->cap_compile_time_tracing );
-
-	if(GET_GLOBAL_STATE()->cap_compile_time_tracing){
+    if (GET_GLOBAL_STATE()->cap_compile_time_tracing) {
        GET_GLOBAL_STATE()->pt_trace_mode = false;

-		nyx_debug("%s: agent trace buffer at vaddr: %lx\n", __func__, GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
+        nyx_debug("%s: agent trace buffer at vaddr: %lx\n", __func__,
+                  GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
        kvm_arch_get_registers_fast(cpu);

        nyx_debug("--------------------------\n");
-		nyx_debug("GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr: %lx\n", GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
-		nyx_debug("GET_GLOBAL_STATE()->shared_bitmap_fd: %d\n", GET_GLOBAL_STATE()->shared_bitmap_fd);
-		nyx_debug("GET_GLOBAL_STATE()->shared_bitmap_size: %x\n", GET_GLOBAL_STATE()->shared_bitmap_size);
+        nyx_debug("GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr: %lx\n",
+                  GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
+        nyx_debug("GET_GLOBAL_STATE()->shared_bitmap_fd: %d\n",
+                  GET_GLOBAL_STATE()->shared_bitmap_fd);
+        nyx_debug("GET_GLOBAL_STATE()->shared_bitmap_size: %x\n",
+                  GET_GLOBAL_STATE()->shared_bitmap_size);
        nyx_debug("GET_GLOBAL_STATE()->cap_cr3: %lx\n", GET_GLOBAL_STATE()->cap_cr3);
        nyx_debug("--------------------------\n");

-		if (GET_GLOBAL_STATE()->input_buffer_size != GET_GLOBAL_STATE()->shared_payload_buffer_size){
-			resize_shared_memory(GET_GLOBAL_STATE()->input_buffer_size, &GET_GLOBAL_STATE()->shared_payload_buffer_size, NULL, GET_GLOBAL_STATE()->shared_payload_buffer_fd);
-			GET_GLOBAL_STATE()->shared_payload_buffer_size = GET_GLOBAL_STATE()->input_buffer_size;
+        if (GET_GLOBAL_STATE()->input_buffer_size !=
+            GET_GLOBAL_STATE()->shared_payload_buffer_size)
+        {
+            resize_shared_memory(GET_GLOBAL_STATE()->input_buffer_size,
+                                 &GET_GLOBAL_STATE()->shared_payload_buffer_size,
+                                 NULL, GET_GLOBAL_STATE()->shared_payload_buffer_fd);
+            GET_GLOBAL_STATE()->shared_payload_buffer_size =
+                GET_GLOBAL_STATE()->input_buffer_size;
        }

-		if(GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr&0xfff){
-			fprintf(stderr, "[QEMU-Nyx] Error: guest's trace bitmap v_addr (0x%lx) is not page aligned!\n", GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
+        if (GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr & 0xfff) {
+            fprintf(stderr, "[QEMU-Nyx] Error: guest's trace bitmap v_addr (0x%lx) is not page aligned!\n",
+                    GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr);
            return false;
        }

-		if (GET_GLOBAL_STATE()->cap_coverage_bitmap_size){
+        if (GET_GLOBAL_STATE()->cap_coverage_bitmap_size) {
            resize_coverage_bitmap(GET_GLOBAL_STATE()->cap_coverage_bitmap_size);
        }

-		for(uint64_t i = 0; i < GET_GLOBAL_STATE()->shared_bitmap_size; i += 0x1000){
-			assert(remap_slot(GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr+ i, i/0x1000, cpu, GET_GLOBAL_STATE()->shared_bitmap_fd, GET_GLOBAL_STATE()->shared_bitmap_size, true, GET_GLOBAL_STATE()->cap_cr3));
+        for (uint64_t i = 0; i < GET_GLOBAL_STATE()->shared_bitmap_size; i += 0x1000)
+        {
+            assert(remap_slot(GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr +
+                                  i,
+                              i / 0x1000, cpu, GET_GLOBAL_STATE()->shared_bitmap_fd,
+                              GET_GLOBAL_STATE()->shared_bitmap_size, true,
+                              GET_GLOBAL_STATE()->cap_cr3));
        }
        set_cap_agent_trace_bitmap(GET_GLOBAL_STATE()->auxilary_buffer, true);
    }

-	if(GET_GLOBAL_STATE()->cap_ijon_tracing){
-		nyx_debug("%s: agent trace buffer at vaddr: %lx\n", __func__, GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr);
+    if (GET_GLOBAL_STATE()->cap_ijon_tracing) {
+        nyx_debug("%s: agent trace buffer at vaddr: %lx\n", __func__,
+                  GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr);

-		if(GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr&0xfff){
-			error_printf("[QEMU-Nyx] Error: guest's ijon buffer v_addr (0x%lx) is not page aligned!\n", GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr);
+        if (GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr & 0xfff) {
+            error_printf("[QEMU-Nyx] Error: guest's ijon buffer v_addr (0x%lx) is "
+                         "not page aligned!\n",
+                         GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr);
            return false;
        }

        kvm_arch_get_registers_fast(cpu);
-		for(uint64_t i = 0; i < GET_GLOBAL_STATE()->shared_ijon_bitmap_size; i += 0x1000){
-			assert(remap_slot(GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr + i, i/0x1000, cpu, GET_GLOBAL_STATE()->shared_ijon_bitmap_fd, GET_GLOBAL_STATE()->shared_ijon_bitmap_size+GET_GLOBAL_STATE()->shared_ijon_bitmap_size, true, GET_GLOBAL_STATE()->cap_cr3));
+        for (uint64_t i = 0; i < GET_GLOBAL_STATE()->shared_ijon_bitmap_size;
+             i += 0x1000)
+        {
+            assert(remap_slot(GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr + i,
+                              i / 0x1000, cpu,
+                              GET_GLOBAL_STATE()->shared_ijon_bitmap_fd,
+                              GET_GLOBAL_STATE()->shared_ijon_bitmap_size +
+                                  GET_GLOBAL_STATE()->shared_ijon_bitmap_size,
+                              true, GET_GLOBAL_STATE()->cap_cr3));
        }
        set_cap_agent_ijon_trace_bitmap(GET_GLOBAL_STATE()->auxilary_buffer, true);
    }


    /* pass the actual input buffer size to the front-end */
-	GET_GLOBAL_STATE()->auxilary_buffer->capabilites.agent_input_buffer_size = GET_GLOBAL_STATE()->shared_payload_buffer_size;
+    GET_GLOBAL_STATE()->auxilary_buffer->capabilites.agent_input_buffer_size =
+        GET_GLOBAL_STATE()->shared_payload_buffer_size;

    return true;
 }

-bool folder_exits(const char* path){
+bool folder_exits(const char *path)
+{
    struct stat sb;
    return (stat(path, &sb) == 0 && S_ISDIR(sb.st_mode));
 }

-bool file_exits(const char* path){
+bool file_exits(const char *path)
+{
    struct stat sb;
-	return (stat (path, &sb) == 0);
+    return (stat(path, &sb) == 0);
 }
--- a/nyx/helpers.h
+++ b/nyx/helpers.h
@ -2,22 +2,22 @@

 uint64_t get_rip(CPUState *cpu);

-typedef struct nyx_coverage_bitmap_copy_s{
-    void* coverage_bitmap;
-    void* ijon_bitmap_buffer;
-}nyx_coverage_bitmap_copy_t;
+typedef struct nyx_coverage_bitmap_copy_s {
+    void *coverage_bitmap;
+    void *ijon_bitmap_buffer;
+} nyx_coverage_bitmap_copy_t;

-void nyx_abort(char* msg);
-bool is_called_in_fuzzing_mode(const char* hypercall);
+void nyx_abort(char *msg);
+bool is_called_in_fuzzing_mode(const char *hypercall);

-nyx_coverage_bitmap_copy_t* new_coverage_bitmaps(void);
+nyx_coverage_bitmap_copy_t *new_coverage_bitmaps(void);
 void                        coverage_bitmap_reset(void);
-void coverage_bitmap_copy_to_buffer(nyx_coverage_bitmap_copy_t* buffer);
-void coverage_bitmap_copy_from_buffer(nyx_coverage_bitmap_copy_t* buffer);
+void coverage_bitmap_copy_to_buffer(nyx_coverage_bitmap_copy_t *buffer);
+void coverage_bitmap_copy_from_buffer(nyx_coverage_bitmap_copy_t *buffer);

 int get_capstone_mode(int word_width_in_bits);

 bool apply_capabilities(CPUState *cpu);

-bool folder_exits(const char* path);
-bool file_exits(const char* path);
+bool folder_exits(const char *path);
+bool file_exits(const char *path);
--- a/nyx/hypercall/configuration.c
+++ b/nyx/hypercall/configuration.c
@ -1,24 +1,27 @@
 #include "qemu/osdep.h"

-#include "nyx/state/state.h"
+#include "nyx/helpers.h"
 #include "nyx/hypercall/configuration.h"
 #include "nyx/memory_access.h"
-#include "nyx/helpers.h"
+#include "nyx/state/state.h"

-void handle_hypercall_kafl_get_host_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_get_host_config(struct kvm_run *run,
+                                           CPUState       *cpu,
+                                           uint64_t        hypercall_arg)
+{
    uint64_t      vaddr = hypercall_arg;
    host_config_t config;

-	if(is_called_in_fuzzing_mode("KVM_EXIT_KAFL_GET_HOST_CONFIG")){
+    if (is_called_in_fuzzing_mode("KVM_EXIT_KAFL_GET_HOST_CONFIG")) {
        return;
    }

-	if (GET_GLOBAL_STATE()->get_host_config_done){
-		nyx_abort((char*)"KVM_EXIT_KAFL_GET_HOST_CONFIG called twice...");
+    if (GET_GLOBAL_STATE()->get_host_config_done) {
+        nyx_abort((char *)"KVM_EXIT_KAFL_GET_HOST_CONFIG called twice...");
        return;
    }

-	memset((void*)&config, 0, sizeof(host_config_t));
+    memset((void *)&config, 0, sizeof(host_config_t));

    config.host_magic          = NYX_HOST_MAGIC;
    config.host_version        = NYX_HOST_VERSION;
@ -27,34 +30,38 @@ void handle_hypercall_kafl_get_host_config(struct kvm_run *run, CPUState *cpu, u
    config.payload_buffer_size = GET_GLOBAL_STATE()->shared_payload_buffer_size;
    config.worker_id           = GET_GLOBAL_STATE()->worker_id;

-	write_virtual_memory(vaddr, (uint8_t*)&config, sizeof(host_config_t), cpu);
+    write_virtual_memory(vaddr, (uint8_t *)&config, sizeof(host_config_t), cpu);
    GET_GLOBAL_STATE()->get_host_config_done = true;
 }

-void handle_hypercall_kafl_set_agent_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_set_agent_config(struct kvm_run *run,
+                                            CPUState       *cpu,
+                                            uint64_t        hypercall_arg)
+{
    uint64_t       vaddr = hypercall_arg;
    agent_config_t config;

-	if(is_called_in_fuzzing_mode("KVM_EXIT_KAFL_SET_AGENT_CONFIG")){
+    if (is_called_in_fuzzing_mode("KVM_EXIT_KAFL_SET_AGENT_CONFIG")) {
        return;
    }

-	if (GET_GLOBAL_STATE()->set_agent_config_done){
-		nyx_abort((char*)"KVM_EXIT_KAFL_SET_AGENT_CONFIG called twice...");
+    if (GET_GLOBAL_STATE()->set_agent_config_done) {
+        nyx_abort((char *)"KVM_EXIT_KAFL_SET_AGENT_CONFIG called twice...");
        return;
    }

    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

-	if(read_virtual_memory(vaddr, (uint8_t*)&config, sizeof(agent_config_t), cpu)){
-
-		if (config.agent_magic != NYX_AGENT_MAGIC){
-			fprintf(stderr, "[QEMU-Nyx] Error: NYX_AGENT_MAGIC not found in agent configuration - You are probably using an outdated agent...\n");
+    if (read_virtual_memory(vaddr, (uint8_t *)&config, sizeof(agent_config_t), cpu)) {
+        if (config.agent_magic != NYX_AGENT_MAGIC) {
+            fprintf(stderr,
+                    "[QEMU-Nyx] Error: NYX_AGENT_MAGIC not found in agent "
+                    "configuration - You are probably using an outdated agent...\n");
            exit(1);
        }

-		if (config.agent_version != NYX_AGENT_VERSION){
+        if (config.agent_version != NYX_AGENT_VERSION) {
            fprintf(stderr,
                    "[QEMU-Nyx] Error: NYX_AGENT_VERSION does not match in agent "
                    "configuration (%d != %d) - "
@ -64,44 +71,54 @@ void handle_hypercall_kafl_set_agent_config(struct kvm_run *run, CPUState *cpu,
        }

        GET_GLOBAL_STATE()->cap_timeout_detection = config.agent_timeout_detection;
-		GET_GLOBAL_STATE()->cap_only_reload_mode = !!!config.agent_non_reload_mode; /* fix this */
+        GET_GLOBAL_STATE()->cap_only_reload_mode =
+            !!!config.agent_non_reload_mode; /* fix this */
        GET_GLOBAL_STATE()->cap_compile_time_tracing = config.agent_tracing;

-		if(!GET_GLOBAL_STATE()->cap_compile_time_tracing && !GET_GLOBAL_STATE()->nyx_fdl){
-			fprintf(stderr, "[QEMU-Nyx] Error: Attempt to fuzz target without compile-time instrumentation - Intel PT is not supported on this KVM build!\n");
+        if (!GET_GLOBAL_STATE()->cap_compile_time_tracing &&
+            !GET_GLOBAL_STATE()->nyx_fdl)
+        {
+            fprintf(
+                stderr,
+                "[QEMU-Nyx] Error: Attempt to fuzz target without compile-time "
+                "instrumentation - Intel PT is not supported on this KVM build!\n");
            exit(1);
        }

        GET_GLOBAL_STATE()->cap_ijon_tracing = config.agent_ijon_tracing;

-		if(config.agent_tracing){
-			GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr = config.trace_buffer_vaddr;
+        if (config.agent_tracing) {
+            GET_GLOBAL_STATE()->cap_compile_time_tracing_buffer_vaddr =
+                config.trace_buffer_vaddr;
            GET_GLOBAL_STATE()->pt_trace_mode = false;
        }
-		if(config.agent_ijon_tracing){
-			GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr = config.ijon_trace_buffer_vaddr;
+        if (config.agent_ijon_tracing) {
+            GET_GLOBAL_STATE()->cap_ijon_tracing_buffer_vaddr =
+                config.ijon_trace_buffer_vaddr;
        }

        GET_GLOBAL_STATE()->cap_cr3                  = env->cr[3];
        GET_GLOBAL_STATE()->cap_coverage_bitmap_size = config.coverage_bitmap_size;
-		GET_GLOBAL_STATE()->input_buffer_size = GET_GLOBAL_STATE()->shared_payload_buffer_size;
+        GET_GLOBAL_STATE()->input_buffer_size =
+            GET_GLOBAL_STATE()->shared_payload_buffer_size;

-		if (config.input_buffer_size){
+        if (config.input_buffer_size) {
            abort();
        }

-		if(apply_capabilities(cpu) == false){
-			nyx_abort((char*)"applying agent configuration failed...");
+        if (apply_capabilities(cpu) == false) {
+            nyx_abort((char *)"applying agent configuration failed...");
        }

-		if(getenv("DUMP_PAYLOAD_MODE")){
+        if (getenv("DUMP_PAYLOAD_MODE")) {
            config.dump_payloads = 1;
-			write_virtual_memory(vaddr, (uint8_t*)&config, sizeof(agent_config_t), cpu);
+            write_virtual_memory(vaddr, (uint8_t *)&config, sizeof(agent_config_t),
+                                 cpu);
        }

-	}
-	else{
-		fprintf(stderr, "[QEMU-Nyx] Error: %s - failed (vaddr: 0x%lx)!\n", __func__, vaddr);
+    } else {
+        fprintf(stderr, "[QEMU-Nyx] Error: %s - failed (vaddr: 0x%lx)!\n", __func__,
+                vaddr);
        exit(1);
    }
    GET_GLOBAL_STATE()->set_agent_config_done = true;
--- a/nyx/hypercall/configuration.h
+++ b/nyx/hypercall/configuration.h
@ -5,9 +5,13 @@

 #include "sysemu/kvm.h"

-void handle_hypercall_kafl_get_host_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+void handle_hypercall_kafl_get_host_config(struct kvm_run *run,
+                                           CPUState       *cpu,
+                                           uint64_t        hypercall_arg);

-void handle_hypercall_kafl_set_agent_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+void handle_hypercall_kafl_set_agent_config(struct kvm_run *run,
+                                            CPUState       *cpu,
+                                            uint64_t        hypercall_arg);


 #define NYX_HOST_MAGIC  0x4878794e
@ -16,7 +20,7 @@ void handle_hypercall_kafl_set_agent_config(struct kvm_run *run, CPUState *cpu,
 #define NYX_HOST_VERSION  2
 #define NYX_AGENT_VERSION 1

-typedef struct host_config_s{
+typedef struct host_config_s {
    uint32_t host_magic;
    uint32_t host_version;
    uint32_t bitmap_size;
@ -26,7 +30,7 @@ typedef struct host_config_s{
    /* more to come */
 } __attribute__((packed)) host_config_t;

-typedef struct agent_config_s{
+typedef struct agent_config_s {
    uint32_t agent_magic;
    uint32_t agent_version;
    uint8_t  agent_timeout_detection;
--- a/nyx/hypercall/debug.c
+++ b/nyx/hypercall/debug.c
@ -1,88 +1,102 @@
 #include "qemu/osdep.h"

-#include <sys/time.h>
 #include "sysemu/kvm.h"
+#include <sys/time.h>

-#include "nyx/synchronization.h"
 #include "nyx/fast_vm_reload.h"
-#include "nyx/state/state.h"
 #include "nyx/hypercall/debug.h"
+#include "nyx/state/state.h"
+#include "nyx/synchronization.h"

-//#define NYX_ENABLE_DEBUG_HYPERCALLS
+// #define NYX_ENABLE_DEBUG_HYPERCALLS
 #ifdef NYX_ENABLE_DEBUG_HYPERCALLS

-static double get_time(void){
+static double get_time(void)
+{
    struct timeval  t;
    struct timezone tzp;
    gettimeofday(&t, &tzp);
-	return t.tv_sec + t.tv_usec*1e-6;
+    return t.tv_sec + t.tv_usec * 1e-6;
 }

-static void print_time_diff(int iterations){
-
+static void print_time_diff(int iterations)
+{
    static bool   init       = true;
    static double start_time = 0.0;
    static double end_time   = 0.0;

-	if(init){
+    if (init) {
        init = false;
        printf("start time is zero!\n");
        start_time = get_time();
-	}
-	else{
+    } else {
        end_time            = get_time();
        double elapsed_time = end_time - start_time;
        printf("Done in %f seconds\n", elapsed_time);
-		printf("Performance: %f\n", iterations/elapsed_time);
+        printf("Performance: %f\n", iterations / elapsed_time);
        start_time = get_time();
    }
 }

-static void meassure_performance(void){
+static void meassure_performance(void)
+{
    static int perf_counter = 0;
-	if ((perf_counter%1000) == 0){
+    if ((perf_counter % 1000) == 0) {
        print_time_diff(1000);
    }
    perf_counter++;
 }

-void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run,
+                                              CPUState       *cpu,
+                                              uint64_t        hypercall_arg)
+{
    static bool first = true;

-	switch(hypercall_arg&0xFFF){
+    switch (hypercall_arg & 0xFFF) {
    case 0: /* create root snapshot */
-			if(!fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_ROOT_EXISTS)){
-				request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_ROOT);
+        if (!fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state,
+                                  REQUEST_ROOT_EXISTS))
+        {
+            request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                                   REQUEST_SAVE_SNAPSHOT_ROOT);
        }
        break;
    case 1: /* create tmp snapshot */
-			if(!fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS)){
-				request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_TMP);
+        if (!fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS))
+        {
+            request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                                   REQUEST_SAVE_SNAPSHOT_TMP);
        }
        break;
    case 2: /* load root snapshot (+ discard tmp snapshot) */
-			if(fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS)){
+        if (fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS))
+        {
            reload_request_discard_tmp(GET_GLOBAL_STATE()->reload_state);
        }
-			request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_LOAD_SNAPSHOT_ROOT);
+        request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                               REQUEST_LOAD_SNAPSHOT_ROOT);
        meassure_performance();
        break;
    case 3: /* load tmp snapshot */
-			if(fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS)){
-				request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_LOAD_SNAPSHOT_TMP);
+        if (fast_snapshot_exists(GET_GLOBAL_STATE()->reload_state, REQUEST_TMP_EXISTS))
+        {
+            request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                                   REQUEST_LOAD_SNAPSHOT_TMP);
            meassure_performance();
        }
        break;
    case 5: // firefox debug hypercall
-			if(first){
+        if (first) {
            first = false;
-				request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_ROOT);
-				//request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_TMP);
+            request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                                   REQUEST_SAVE_SNAPSHOT_ROOT);
+            // request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_TMP);

            break;
-			}
-			else{
-				request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_LOAD_SNAPSHOT_ROOT);
+        } else {
+            request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                                   REQUEST_LOAD_SNAPSHOT_ROOT);
            break;
        }
    default:
@ -91,8 +105,10 @@ void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run, CPUState *cpu
 }
 #else /* NYX_ENABLE_DEBUG_HYPERCALLS */

-void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
-
+void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run,
+                                              CPUState       *cpu,
+                                              uint64_t        hypercall_arg)
+{
    fprintf(stderr, "[QEMU-Nyx] Error: HYPERCALL_KAFL_DEBUG_TMP not enabled!\n");
    set_abort_reason_auxiliary_buffer(
        GET_GLOBAL_STATE()->auxilary_buffer,
--- a/nyx/hypercall/debug.h
+++ b/nyx/hypercall/debug.h
@ -1,6 +1,8 @@
 #pragma once

-#include <stdint.h>
 #include "sysemu/kvm.h"
+#include <stdint.h>

-void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+void handle_hypercall_kafl_debug_tmp_snapshot(struct kvm_run *run,
+                                              CPUState       *cpu,
+                                              uint64_t        hypercall_arg);
--- a/nyx/hypercall/hypercall.c
+++ b/nyx/hypercall/hypercall.c
--- a/nyx/hypercall/hypercall.h
+++ b/nyx/hypercall/hypercall.h
@ -31,7 +31,7 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #define KAFL_MODE_32 1
 #define KAFL_MODE_16 2

-typedef struct{
+typedef struct {
    uint64_t ip[4];
    uint64_t size[4];
    uint8_t  enabled[4];
@ -39,7 +39,7 @@ typedef struct{

 bool check_bitmap_byte(uint32_t value);

-//#define PANIC_DEBUG
+// #define PANIC_DEBUG

 /*
 * Panic Notifier Payload (x86-64)
@ -50,7 +50,9 @@ bool check_bitmap_byte(uint32_t value);
 * 0f 01 c1                vmcall
 * f4                      hlt
 */
-#define PANIC_PAYLOAD_64 "\xFA\x48\xC7\xC0\x1F\x00\x00\x00\x48\xC7\xC3\x08\x00\x00\x00\x48\xC7\xC1\x00\x00\x00\x00\x0F\x01\xC1\xF4"
+#define PANIC_PAYLOAD_64                                                           \
+    "\xFA\x48\xC7\xC0\x1F\x00\x00\x00\x48\xC7\xC3\x08\x00\x00\x00\x48\xC7\xC1\x00" \
+    "\x00\x00\x00\x0F\x01\xC1\xF4"

 /*
 * Panic Notifier Payload (x86-32)
@ -61,7 +63,9 @@ bool check_bitmap_byte(uint32_t value);
 * 0f 01 c1                vmcall
 * f4                      hlt
 */
-#define PANIC_PAYLOAD_32 "\xFA\xB8\x1F\x00\x00\x00\xBB\x08\x00\x00\x00\xB9\x00\x00\x00\x00\x0F\x01\xC1\xF4"
+#define PANIC_PAYLOAD_32                                                           \
+    "\xFA\xB8\x1F\x00\x00\x00\xBB\x08\x00\x00\x00\xB9\x00\x00\x00\x00\x0F\x01\xC1" \
+    "\xF4"

 /*
 * KASAN Notifier Payload (x86-64)
@ -72,7 +76,9 @@ bool check_bitmap_byte(uint32_t value);
 * 0f 01 c1                vmcall
 * f4                      hlt
 */
-#define KASAN_PAYLOAD_64 "\xFA\x48\xC7\xC0\x1F\x00\x00\x00\x48\xC7\xC3\x09\x00\x00\x00\x48\xC7\xC1\x00\x00\x00\x00\x0F\x01\xC1\xF4"
+#define KASAN_PAYLOAD_64                                                           \
+    "\xFA\x48\xC7\xC0\x1F\x00\x00\x00\x48\xC7\xC3\x09\x00\x00\x00\x48\xC7\xC1\x00" \
+    "\x00\x00\x00\x0F\x01\xC1\xF4"

 /*
 * KASAN Notifier Payload (x86-32)
@ -83,10 +89,12 @@ bool check_bitmap_byte(uint32_t value);
 * 0f 01 c1                vmcall
 * f4                      hlt
 */
-#define KASAN_PAYLOAD_32 "\xFA\xB8\x1F\x00\x00\x00\xBB\x09\x00\x00\x00\xB9\x00\x00\x00\x00\x0F\x01\xC1\xF4"
+#define KASAN_PAYLOAD_32                                                           \
+    "\xFA\xB8\x1F\x00\x00\x00\xBB\x09\x00\x00\x00\xB9\x00\x00\x00\x00\x0F\x01\xC1" \
+    "\xF4"

-void pt_setup_program(void* ptr);
-void pt_setup_snd_handler(void (*tmp)(char, void*), void* tmp_s);
+void pt_setup_program(void *ptr);
+void pt_setup_snd_handler(void (*tmp)(char, void *), void *tmp_s);
 void pt_setup_ip_filters(uint8_t filter_id, uint64_t start, uint64_t end);
 void pt_setup_enable_hypercalls(void);

@ -107,38 +115,56 @@ bool pt_hypercalls_enabled(void);
 void hypercall_unlock(void);
 void hypercall_reload(void);

-void handle_hypercall_kafl_acquire(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_release(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_panic(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+void handle_hypercall_kafl_acquire(struct kvm_run *run,
+                                   CPUState       *cpu,
+                                   uint64_t        hypercall_arg);
+void handle_hypercall_kafl_release(struct kvm_run *run,
+                                   CPUState       *cpu,
+                                   uint64_t        hypercall_arg);
+void handle_hypercall_kafl_panic(struct kvm_run *run,
+                                 CPUState       *cpu,
+                                 uint64_t        hypercall_arg);

-void handle_hypercall_kafl_page_dump_bp(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg, uint64_t page);
+void handle_hypercall_kafl_page_dump_bp(struct kvm_run *run,
+                                        CPUState       *cpu,
+                                        uint64_t        hypercall_arg,
+                                        uint64_t        page);


-void hprintf(char* msg);
+void hprintf(char *msg);

-bool handle_hypercall_kafl_next_payload(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+bool handle_hypercall_kafl_next_payload(struct kvm_run *run,
+                                        CPUState       *cpu,
+                                        uint64_t        hypercall_arg);
 void hypercall_reset_hprintf_counter(void);

-bool handle_hypercall_kafl_hook(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_mtf(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+bool handle_hypercall_kafl_hook(struct kvm_run *run,
+                                CPUState       *cpu,
+                                uint64_t        hypercall_arg);
+void handle_hypercall_kafl_mtf(struct kvm_run *run,
+                               CPUState       *cpu,
+                               uint64_t        hypercall_arg);
 void pt_enable_rqo(CPUState *cpu);
 void pt_disable_rqo(CPUState *cpu);
 void pt_enable_rqi(CPUState *cpu);
 void pt_disable_rqi(CPUState *cpu);
-void pt_set_redqueen_instrumentation_mode(CPUState *cpu, int redqueen_instruction_mode);
+void pt_set_redqueen_instrumentation_mode(CPUState *cpu,
+                                          int       redqueen_instruction_mode);
 void pt_set_redqueen_update_blacklist(CPUState *cpu, bool newval);
 void pt_set_enable_patches_pending(CPUState *cpu);
 void pt_set_disable_patches_pending(CPUState *cpu);

 void create_fast_snapshot(CPUState *cpu, bool nested);
-int handle_kafl_hypercall(struct kvm_run *run, CPUState *cpu, uint64_t hypercall, uint64_t arg);
+int  handle_kafl_hypercall(struct kvm_run *run,
+                           CPUState       *cpu,
+                           uint64_t        hypercall,
+                           uint64_t        arg);

 void skip_init(void);

-typedef struct kafl_dump_file_s{
+typedef struct kafl_dump_file_s {
    uint64_t file_name_str_ptr;
    uint64_t data_ptr;
    uint64_t bytes;
    uint8_t  append;
 } __attribute__((packed)) kafl_dump_file_t;
-
--- a/nyx/interface.c
+++ b/nyx/interface.c
@ -26,43 +26,42 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #include <sys/stat.h>
 #include <time.h>

-#include "qapi/error.h"
-#include "qemu/cutils.h"
-#include "hw/qdev-properties.h"
+#include "chardev/char-fe.h"
+#include "exec/ram_addr.h"
 #include "hw/hw.h"
 #include "hw/i386/pc.h"
-#include "hw/pci/pci.h"
 #include "hw/pci/msi.h"
 #include "hw/pci/msix.h"
-#include "sysemu/kvm.h"
+#include "hw/pci/pci.h"
+#include "hw/qdev-properties.h"
 #include "migration/migration.h"
+#include "qapi/error.h"
+#include "qapi/visitor.h"
+#include "qemu/cutils.h"
 #include "qemu/error-report.h"
 #include "qemu/event_notifier.h"
 #include "qom/object_interfaces.h"
-#include "chardev/char-fe.h"
 #include "sysemu/hostmem.h"
+#include "sysemu/kvm.h"
 #include "sysemu/qtest.h"
-#include "qapi/visitor.h"
-#include "exec/ram_addr.h"
-#include "pt.h"
+#include "nyx/debug.h"
+#include "nyx/helpers.h"
 #include "nyx/hypercall/hypercall.h"
 #include "nyx/interface.h"
-#include "nyx/debug.h"
-#include "nyx/synchronization.h"
-#include "nyx/snapshot/devices/state_reallocation.h"
 #include "nyx/memory_access.h"
-#include "nyx/state/state.h"
 #include "nyx/sharedir.h"
-#include "nyx/helpers.h"
+#include "nyx/snapshot/devices/state_reallocation.h"
+#include "nyx/state/state.h"
+#include "nyx/synchronization.h"
 #include "nyx/trace_dump.h"
+#include "pt.h"

 #include "redqueen.h"

 #define CONVERT_UINT64(x) (uint64_t)(strtoull(x, NULL, 16))

 #define TYPE_NYX_MEM "nyx"
-#define NYX_MEM(obj) \
-		OBJECT_CHECK(nyx_interface_state, (obj), TYPE_NYX_MEM)
+#define NYX_MEM(obj) OBJECT_CHECK(nyx_interface_state, (obj), TYPE_NYX_MEM)

 static void nyx_realize(DeviceState *dev, Error **errp);

@ -72,20 +71,20 @@ typedef struct nyx_interface_state {
    Chardev    *nyx_chr_drv_state;
    CharBackend chr;

-	char* sharedir;
+    char *sharedir;

-	char* workdir; 
+    char    *workdir;
    uint32_t worker_id;
    uint64_t cow_primary_size;

-	char* redqueen_workdir;
-	char* data_bar_fd_0;
-	char* data_bar_fd_1;
-	char* data_bar_fd_2;
-	char* bitmap_file;
+    char *redqueen_workdir;
+    char *data_bar_fd_0;
+    char *data_bar_fd_1;
+    char *data_bar_fd_2;
+    char *bitmap_file;

-	char* filter_bitmap[4];
-	char* ip_filter[4][2];
+    char *filter_bitmap[4];
+    char *ip_filter[4][2];

    uint32_t bitmap_size;
    uint32_t input_buffer_size;
@ -97,41 +96,46 @@ typedef struct nyx_interface_state {

 } nyx_interface_state;

-static void nyx_interface_event(void *opaque, int event){
+static void nyx_interface_event(void *opaque, int event)
+{
 }

-static void send_char(char val, void* tmp_s){
+static void send_char(char val, void *tmp_s)
+{
    nyx_interface_state *s = tmp_s;

    assert(val == NYX_INTERFACE_PING);
    __sync_synchronize();

-	qemu_chr_fe_write(&s->chr, (const uint8_t *) &val, 1);
+    qemu_chr_fe_write(&s->chr, (const uint8_t *)&val, 1);
 }

-static int nyx_interface_can_receive(void * opaque){
+static int nyx_interface_can_receive(void *opaque)
+{
    return sizeof(int64_t);
 }

-static nyx_interface_state* state = NULL;
+static nyx_interface_state *state = NULL;

-static void init_send_char(nyx_interface_state* s){
+static void init_send_char(nyx_interface_state *s)
+{
    state = s;
 }

-bool interface_send_char(char val){
-
-	if(state){
+bool interface_send_char(char val)
+{
+    if (state) {
        send_char(val, state);
        return true;
    }
    return false;
 }

-static void nyx_interface_receive(void *opaque, const uint8_t * buf, int size){
+static void nyx_interface_receive(void *opaque, const uint8_t *buf, int size)
+{
    int i;
-	for(i = 0; i < size; i++){
-		switch(buf[i]){
+    for (i = 0; i < size; i++) {
+        switch (buf[i]) {
        case NYX_INTERFACE_PING:
            synchronization_unlock();
            break;
@ -146,15 +150,20 @@ static void nyx_interface_receive(void *opaque, const uint8_t * buf, int size){
    }
 }

-static int nyx_create_payload_buffer(nyx_interface_state *s, uint64_t buffer_size, const char* file, Error **errp){
-	void * ptr;
+static int nyx_create_payload_buffer(nyx_interface_state *s,
+                                     uint64_t             buffer_size,
+                                     const char          *file,
+                                     Error              **errp)
+{
+    void       *ptr;
    int         fd;
    struct stat st;

-	fd = open(file, O_CREAT|O_RDWR, S_IRWXU|S_IRWXG|S_IRWXO);
+    fd = open(file, O_CREAT | O_RDWR, S_IRWXU | S_IRWXG | S_IRWXO);
    assert(ftruncate(fd, buffer_size) == 0);
    stat(file, &st);
-	nyx_debug_p(INTERFACE_PREFIX, "new shm file: (max size: %lx) %lx", buffer_size, st.st_size);
+    nyx_debug_p(INTERFACE_PREFIX, "new shm file: (max size: %lx) %lx", buffer_size,
+                st.st_size);

    assert(buffer_size == st.st_size);
    ptr = mmap(0, buffer_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
@ -172,46 +181,51 @@ static int nyx_create_payload_buffer(nyx_interface_state *s, uint64_t buffer_siz
    return 0;
 }

-static void nyx_guest_setup_bitmap(nyx_interface_state *s, char* filename, uint32_t bitmap_size){
-	void * ptr;
+static void nyx_guest_setup_bitmap(nyx_interface_state *s,
+                                   char                *filename,
+                                   uint32_t             bitmap_size)
+{
+    void       *ptr;
    int         fd;
    struct stat st;

-	fd = open(filename, O_CREAT|O_RDWR, S_IRWXU|S_IRWXG|S_IRWXO);
+    fd = open(filename, O_CREAT | O_RDWR, S_IRWXU | S_IRWXG | S_IRWXO);
    assert(ftruncate(fd, bitmap_size) == 0);
    stat(filename, &st);
    assert(bitmap_size == st.st_size);
-	ptr = mmap(0, bitmap_size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
-	GET_GLOBAL_STATE()->shared_bitmap_ptr = (void*)ptr;
+    ptr = mmap(0, bitmap_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
+    GET_GLOBAL_STATE()->shared_bitmap_ptr       = (void *)ptr;
    GET_GLOBAL_STATE()->shared_bitmap_fd        = fd;
    GET_GLOBAL_STATE()->shared_bitmap_size      = bitmap_size;
    GET_GLOBAL_STATE()->shared_bitmap_real_size = bitmap_size;
 }


-static void nyx_guest_setup_ijon_buffer(nyx_interface_state *s, char* filename){
-	void * ptr;
+static void nyx_guest_setup_ijon_buffer(nyx_interface_state *s, char *filename)
+{
+    void       *ptr;
    int         fd;
    struct stat st;

-	fd = open(filename, O_CREAT|O_RDWR, S_IRWXU|S_IRWXG|S_IRWXO);
+    fd = open(filename, O_CREAT | O_RDWR, S_IRWXU | S_IRWXG | S_IRWXO);
    assert(ftruncate(fd, DEFAULT_NYX_IJON_BITMAP_SIZE) == 0);
    stat(filename, &st);
    assert(DEFAULT_NYX_IJON_BITMAP_SIZE == st.st_size);
-	ptr = mmap(0, DEFAULT_NYX_IJON_BITMAP_SIZE, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
+    ptr = mmap(0, DEFAULT_NYX_IJON_BITMAP_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED,
+               fd, 0);

-	GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr = (void*)ptr;
+    GET_GLOBAL_STATE()->shared_ijon_bitmap_ptr  = (void *)ptr;
    GET_GLOBAL_STATE()->shared_ijon_bitmap_fd   = fd;
    GET_GLOBAL_STATE()->shared_ijon_bitmap_size = DEFAULT_NYX_IJON_BITMAP_SIZE;
 }

-static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
-
-	char* workdir = s->workdir;
+static bool verify_workdir_state(nyx_interface_state *s, Error **errp)
+{
+    char    *workdir = s->workdir;
    uint32_t id      = s->worker_id;
-	char* tmp;
+    char    *tmp;

-	if (!folder_exits(workdir)){
+    if (!folder_exits(workdir)) {
        nyx_error("Error: %s does not exist...\n", workdir);
        return false;
    }
@ -219,13 +233,13 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    set_workdir_path(workdir);

    assert(asprintf(&tmp, "%s/dump/", workdir) != -1);
-	if (!folder_exits(tmp)){
+    if (!folder_exits(tmp)) {
        mkdir(tmp, S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH);
    }
    free(tmp);

    assert(asprintf(&tmp, "%s/interface_%d", workdir, id) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
@ -233,18 +247,17 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    free(tmp);

    assert(asprintf(&tmp, "%s/payload_%d", workdir, id) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
-	}
-	else {
+    } else {
        nyx_create_payload_buffer(s, s->input_buffer_size, tmp, errp);
    }
    free(tmp);

    assert(asprintf(&tmp, "%s/bitmap_%d", workdir, id) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
@ -254,7 +267,7 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    free(tmp);

    assert(asprintf(&tmp, "%s/ijon_%d", workdir, id) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
@ -264,7 +277,7 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    free(tmp);

    assert(asprintf(&tmp, "%s/page_cache.lock", workdir) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...", tmp);
        free(tmp);
        return false;
@ -272,7 +285,7 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    free(tmp);

    assert(asprintf(&tmp, "%s/page_cache.addr", workdir) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
@ -280,7 +293,7 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    free(tmp);

    assert(asprintf(&tmp, "%s/page_cache.dump", workdir) != -1);
-	if (!file_exits(tmp)){
+    if (!file_exits(tmp)) {
        nyx_error("Error: %s does not exist...\n", tmp);
        free(tmp);
        return false;
@ -291,25 +304,24 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){
    init_page_cache(tmp);

    assert(asprintf(&tmp, "%s/redqueen_workdir_%d/", workdir, id) != -1);
-	if (!folder_exits(tmp)){
+    if (!folder_exits(tmp)) {
        nyx_error("%s does not exist...\n", tmp);
        free(tmp);
        return false;
-	}
-	else {
+    } else {
        setup_redqueen_workdir(tmp);
    }
    free(tmp);

    init_redqueen_state();

-  if(s->dump_pt_trace){
+    if (s->dump_pt_trace) {
        assert(asprintf(&tmp, "%s/pt_trace_dump_%d", workdir, id) != -1);
        pt_trace_dump_init(tmp);
        free(tmp);
    }

-  if(s->edge_cb_trace){
+    if (s->edge_cb_trace) {
        redqueen_trace_init();
    }

@ -324,24 +336,26 @@ static bool verify_workdir_state(nyx_interface_state *s, Error **errp){

 #define KVM_VMX_PT_GET_ADDRN _IO(KVMIO, 0xe9)

-static void check_ipt_range(uint8_t i){
+static void check_ipt_range(uint8_t i)
+{
    int ret = 0;
    int kvm = open("/dev/kvm", O_RDWR | O_CLOEXEC);
    ret     = ioctl(kvm, KVM_VMX_PT_GET_ADDRN, NULL);

-	if(ret == -1){
+    if (ret == -1) {
        nyx_error("Error: Multi range tracing is not supported!\n");
        exit(1);
    }

-	if(ret < (i+1)){
+    if (ret < (i + 1)) {
        nyx_error("Error: CPU supports only %d IP filters!\n", ret);
        exit(1);
    }
    close(kvm);
 }

-static void check_available_ipt_ranges(nyx_interface_state* s){
+static void check_available_ipt_ranges(nyx_interface_state *s)
+{
    uint64_t addr_a, addr_b;

    int kvm_fd = qemu_open("/dev/kvm", O_RDWR);
@ -350,15 +364,17 @@ static void check_available_ipt_ranges(nyx_interface_state* s){
        exit(1);
    }

-	if (ioctl(kvm_fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_PT) == 1 && ioctl(kvm_fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_FDL) == 1) {
-		for(uint8_t i = 0; i < INTEL_PT_MAX_RANGES; i++){
-			if(s->ip_filter[i][0] && s->ip_filter[i][1]){
-				if(i >= 1){
+    if (ioctl(kvm_fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_PT) == 1 &&
+        ioctl(kvm_fd, KVM_CHECK_EXTENSION, KVM_CAP_NYX_FDL) == 1)
+    {
+        for (uint8_t i = 0; i < INTEL_PT_MAX_RANGES; i++) {
+            if (s->ip_filter[i][0] && s->ip_filter[i][1]) {
+                if (i >= 1) {
                    check_ipt_range(i);
                }
                addr_a = CONVERT_UINT64(s->ip_filter[i][0]);
                addr_b = CONVERT_UINT64(s->ip_filter[i][1]);
-				if (addr_a < addr_b){
+                if (addr_a < addr_b) {
                    pt_setup_ip_filters(i, addr_a, addr_b);
                }
            }
@ -367,49 +383,51 @@ static void check_available_ipt_ranges(nyx_interface_state* s){
    close(kvm_fd);
 }

-static bool verify_sharedir_state(nyx_interface_state *s, Error **errp){
+static bool verify_sharedir_state(nyx_interface_state *s, Error **errp)
+{
+    char *sharedir = s->sharedir;

-	char* sharedir = s->sharedir;
-
-	if (!folder_exits(sharedir)){
+    if (!folder_exits(sharedir)) {
        return false;
    }
    return true;
 }


-static void nyx_realize(DeviceState *dev, Error **errp){
+static void nyx_realize(DeviceState *dev, Error **errp)
+{
    nyx_interface_state *s = NYX_MEM(dev);

-	if(s->bitmap_size <= 0){
+    if (s->bitmap_size <= 0) {
        s->bitmap_size = DEFAULT_NYX_BITMAP_SIZE;
    }


-	if(s->worker_id == 0xFFFF){
+    if (s->worker_id == 0xFFFF) {
        nyx_error("Error: Invalid worker id...\n");
        exit(1);
    }

-	if(s->cow_primary_size){
+    if (s->cow_primary_size) {
        set_global_cow_cache_primary_size(s->cow_primary_size);
    }
    GET_GLOBAL_STATE()->worker_id = s->worker_id;

-	if (!s->workdir || !verify_workdir_state(s, errp)){
+    if (!s->workdir || !verify_workdir_state(s, errp)) {
        nyx_error("Error: Invalid work dir...\n");
        exit(1);
    }

-	if (!s->sharedir || !verify_sharedir_state(s, errp)){
+    if (!s->sharedir || !verify_sharedir_state(s, errp)) {
        nyx_error("Warning: Invalid sharedir...\n");
-	}
-	else{
+    } else {
        sharedir_set_dir(GET_GLOBAL_STATE()->sharedir, s->sharedir);
    }

-	if(&s->chr){
-		qemu_chr_fe_set_handlers(&s->chr, nyx_interface_can_receive, nyx_interface_receive, nyx_interface_event, NULL, s, NULL, true);
+    if (&s->chr) {
+        qemu_chr_fe_set_handlers(&s->chr, nyx_interface_can_receive,
+                                 nyx_interface_receive, nyx_interface_event, NULL, s,
+                                 NULL, true);
    }

    check_available_ipt_ranges(s);
@ -439,8 +457,14 @@ static Property nyx_interface_properties[] = {
    DEFINE_PROP_STRING("ip3_b", nyx_interface_state, ip_filter[3][1]),


-	DEFINE_PROP_UINT32("bitmap_size", nyx_interface_state, bitmap_size, DEFAULT_NYX_BITMAP_SIZE),
-	DEFINE_PROP_UINT32("input_buffer_size", nyx_interface_state, input_buffer_size, DEFAULT_NYX_BITMAP_SIZE),
+    DEFINE_PROP_UINT32("bitmap_size",
+                       nyx_interface_state,
+                       bitmap_size,
+                       DEFAULT_NYX_BITMAP_SIZE),
+    DEFINE_PROP_UINT32("input_buffer_size",
+                       nyx_interface_state,
+                       input_buffer_size,
+                       DEFAULT_NYX_BITMAP_SIZE),
    DEFINE_PROP_BOOL("dump_pt_trace", nyx_interface_state, dump_pt_trace, false),
    DEFINE_PROP_BOOL("edge_cb_trace", nyx_interface_state, edge_cb_trace, false),

@ -448,7 +472,8 @@ static Property nyx_interface_properties[] = {
    DEFINE_PROP_END_OF_LIST(),
 };

-static void nyx_interface_class_init(ObjectClass *klass, void *data){
+static void nyx_interface_class_init(ObjectClass *klass, void *data)
+{
    DeviceClass *dc = DEVICE_CLASS(klass);
    dc->realize     = nyx_realize;
    dc->props       = nyx_interface_properties;
@ -456,7 +481,8 @@ static void nyx_interface_class_init(ObjectClass *klass, void *data){
    dc->desc = "Nyx Interface";
 }

-static void nyx_interface_init(Object *obj){
+static void nyx_interface_init(Object *obj)
+{
 }

 static const TypeInfo nyx_interface_info = {
@ -467,7 +493,8 @@ static const TypeInfo nyx_interface_info = {
    .class_init    = nyx_interface_class_init,
 };

-static void nyx_interface_register_types(void){
+static void nyx_interface_register_types(void)
+{
    type_register_static(&nyx_interface_info);
 }

--- a/nyx/kvm_nested.c
+++ b/nyx/kvm_nested.c
@ -1,13 +1,13 @@
 #include "qemu/osdep.h"
-#include <linux/kvm.h>
 #include "sysemu/kvm.h"
+#include <linux/kvm.h>

-#include "qemu-common.h"
-#include "nyx/kvm_nested.h"
-#include "cpu.h"
-#include "nyx/debug.h"
 #include "exec/ram_addr.h"
 #include "qemu/rcu_queue.h"
+#include "qemu-common.h"
+#include "cpu.h"
+#include "nyx/debug.h"
+#include "nyx/kvm_nested.h"
 #include "nyx/state/state.h"
 #include "pt.h"

@ -20,12 +20,12 @@
 #define SIGN_EXTEND_TRESHOLD 0x100
 #define SIGN_EXTEND          0xFFFF000000000000ULL
 #define PAGETABLE_MASK       0xFFFFFFFFFF000ULL
-#define CHECK_BIT(var,pos) !!(((var) & (1ULL<<(pos))))
+#define CHECK_BIT(var, pos)  !!(((var) & (1ULL << (pos))))


 struct vmcs_hdr {
-	uint32_t revision_id:31;
-	uint32_t shadow_vmcs:1;
+    uint32_t revision_id : 31;
+    uint32_t shadow_vmcs : 1;
 };

 struct __attribute__((__packed__)) vmcs12 {
@ -193,82 +193,120 @@ struct __attribute__((__packed__)) vmcs12 {
 };


-static void write_address(uint64_t address, uint64_t size, uint64_t prot){
+static void write_address(uint64_t address, uint64_t size, uint64_t prot)
+{
    static uint64_t next_address = PAGETABLE_MASK;
    static uint64_t last_address = 0x0;
    static uint64_t last_prot    = 0;
-	if(address != next_address || prot != last_prot){
+    if (address != next_address || prot != last_prot) {
        /* do not print guard pages or empty pages without any permissions */
-		if(last_address && (CHECK_BIT(last_prot, 1) || !CHECK_BIT(last_prot, 63))){
-			if(CHECK_BIT(last_prot, 1) && !CHECK_BIT(last_prot, 63)){
+        if (last_address && (CHECK_BIT(last_prot, 1) || !CHECK_BIT(last_prot, 63))) {
+            if (CHECK_BIT(last_prot, 1) && !CHECK_BIT(last_prot, 63)) {
                nyx_debug_p(NESTED_VM_PREFIX, "%016lx - %016lx %c%c%c [WARNING]",
                            last_address, next_address,
                            CHECK_BIT(last_prot, 1) ? 'W' : '-',
                            CHECK_BIT(last_prot, 2) ? 'U' : 'K',
-		            !CHECK_BIT(last_prot, 63)? 'X' : '-');
-			}
-			else{
-				nyx_debug_p(NESTED_VM_PREFIX, "%016lx - %016lx %c%c%c",
-					last_address, next_address,
-		            CHECK_BIT(last_prot, 1) ? 'W' : '-', 
+                            !CHECK_BIT(last_prot, 63) ? 'X' : '-');
+            } else {
+                nyx_debug_p(NESTED_VM_PREFIX, "%016lx - %016lx %c%c%c", last_address,
+                            next_address, CHECK_BIT(last_prot, 1) ? 'W' : '-',
                            CHECK_BIT(last_prot, 2) ? 'U' : 'K',
-		            !CHECK_BIT(last_prot, 63)? 'X' : '-');
+                            !CHECK_BIT(last_prot, 63) ? 'X' : '-');
            }
        }
        last_address = address;
    }
-	next_address = address+size;
+    next_address = address + size;
    last_prot    = prot;
-	
 }

-void print_48_paging(uint64_t cr3){
+void print_48_paging(uint64_t cr3)
+{
    uint64_t paging_entries_level_1[PENTRIES];
    uint64_t paging_entries_level_2[PENTRIES];
    uint64_t paging_entries_level_3[PENTRIES];
    uint64_t paging_entries_level_4[PENTRIES];

-    uint64_t address_identifier_1, address_identifier_2, address_identifier_3, address_identifier_4;
-    uint32_t i1, i2, i3,i4;
+    uint64_t address_identifier_1, address_identifier_2, address_identifier_3,
+        address_identifier_4;
+    uint32_t i1, i2, i3, i4;

-    cpu_physical_memory_rw((cr3&PAGETABLE_MASK), (uint8_t *) paging_entries_level_1, PPAGE_SIZE, false);
-    for(i1 = 0; i1 < 512; i1++){
-        if(paging_entries_level_1[i1]){
+    cpu_physical_memory_rw((cr3 & PAGETABLE_MASK), (uint8_t *)paging_entries_level_1,
+                           PPAGE_SIZE, false);
+    for (i1 = 0; i1 < 512; i1++) {
+        if (paging_entries_level_1[i1]) {
            address_identifier_1 = ((uint64_t)i1) << PLEVEL_1_SHIFT;
-            if (i1 & SIGN_EXTEND_TRESHOLD){
+            if (i1 & SIGN_EXTEND_TRESHOLD) {
                address_identifier_1 |= SIGN_EXTEND;
            }
-            if(CHECK_BIT(paging_entries_level_1[i1], 0)){ /* otherwise swapped out */ 
-                cpu_physical_memory_rw((paging_entries_level_1[i1]&PAGETABLE_MASK), (uint8_t *) paging_entries_level_2, PPAGE_SIZE, false);
-                for(i2 = 0; i2 < PENTRIES; i2++){
-                    if(paging_entries_level_2[i2]){
-                        address_identifier_2 = (((uint64_t)i2) << PLEVEL_2_SHIFT) + address_identifier_1;
-                        if (CHECK_BIT(paging_entries_level_2[i2], 0)){ /* otherwise swapped out */ 
-                            if((paging_entries_level_2[i2]&PAGETABLE_MASK) == (paging_entries_level_1[i1]&PAGETABLE_MASK)){
+            if (CHECK_BIT(paging_entries_level_1[i1], 0))
+            { /* otherwise swapped out */
+                cpu_physical_memory_rw((paging_entries_level_1[i1] & PAGETABLE_MASK),
+                                       (uint8_t *)paging_entries_level_2, PPAGE_SIZE,
+                                       false);
+                for (i2 = 0; i2 < PENTRIES; i2++) {
+                    if (paging_entries_level_2[i2]) {
+                        address_identifier_2 = (((uint64_t)i2) << PLEVEL_2_SHIFT) +
+                                               address_identifier_1;
+                        if (CHECK_BIT(paging_entries_level_2[i2], 0))
+                        { /* otherwise swapped out */
+                            if ((paging_entries_level_2[i2] & PAGETABLE_MASK) ==
+                                (paging_entries_level_1[i1] & PAGETABLE_MASK))
+                            {
                                /* loop */
                                continue;
                            }

-                            if (CHECK_BIT(paging_entries_level_2[i2], 7)){
-                                    write_address(address_identifier_2, 0x40000000, (uint64_t)paging_entries_level_2[i2] & ((1ULL<<63) | (1ULL<<2) | (1ULL<<1)));
-                            }
-                            else{
+                            if (CHECK_BIT(paging_entries_level_2[i2], 7)) {
+                                write_address(address_identifier_2, 0x40000000,
+                                              (uint64_t)paging_entries_level_2[i2] &
+                                                  ((1ULL << 63) | (1ULL << 2) |
+                                                   (1ULL << 1)));
+                            } else {
                                /* otherwise this PDPE references a 1GB page */
-                                cpu_physical_memory_rw((paging_entries_level_2[i2]&PAGETABLE_MASK), (uint8_t *) paging_entries_level_3, PPAGE_SIZE, false);
-								for(i3 = 0; i3 < PENTRIES; i3++){
-									if(paging_entries_level_3[i3]){
-									    address_identifier_3 = (((uint64_t)i3) << PLEVEL_3_SHIFT) + address_identifier_2;
-									    if (CHECK_BIT(paging_entries_level_3[i3], 0)){ /* otherwise swapped out */ 
-									        if (CHECK_BIT(paging_entries_level_3[i3], 7)){
-									        	write_address(address_identifier_3, 0x200000, (uint64_t)paging_entries_level_3[i3] & ((1ULL<<63) | (1ULL<<2) | (1ULL<<1)));
-									        }
-									        else{
-												cpu_physical_memory_rw((paging_entries_level_3[i3]&PAGETABLE_MASK), (uint8_t *) paging_entries_level_4, PPAGE_SIZE, false);
-											    for(i4 = 0; i4 < PENTRIES; i4++){
-											        if(paging_entries_level_4[i4]){
-											            address_identifier_4 = (((uint64_t)i4) << PLEVEL_4_SHIFT) + address_identifier_3;
-											            if (CHECK_BIT(paging_entries_level_4[i4], 0)){
-											                write_address(address_identifier_4, 0x1000, (uint64_t)paging_entries_level_4[i4] & ((1ULL<<63) | (1ULL<<2) | (1ULL<<1)));
+                                cpu_physical_memory_rw((paging_entries_level_2[i2] &
+                                                        PAGETABLE_MASK),
+                                                       (uint8_t *)paging_entries_level_3,
+                                                       PPAGE_SIZE, false);
+                                for (i3 = 0; i3 < PENTRIES; i3++) {
+                                    if (paging_entries_level_3[i3]) {
+                                        address_identifier_3 =
+                                            (((uint64_t)i3) << PLEVEL_3_SHIFT) +
+                                            address_identifier_2;
+                                        if (CHECK_BIT(paging_entries_level_3[i3], 0))
+                                        { /* otherwise swapped out */
+                                            if (CHECK_BIT(paging_entries_level_3[i3],
+                                                          7))
+                                            {
+                                                write_address(
+                                                    address_identifier_3, 0x200000,
+                                                    (uint64_t)paging_entries_level_3[i3] &
+                                                        ((1ULL << 63) | (1ULL << 2) |
+                                                         (1ULL << 1)));
+                                            } else {
+                                                cpu_physical_memory_rw(
+                                                    (paging_entries_level_3[i3] &
+                                                     PAGETABLE_MASK),
+                                                    (uint8_t *)paging_entries_level_4,
+                                                    PPAGE_SIZE, false);
+                                                for (i4 = 0; i4 < PENTRIES; i4++) {
+                                                    if (paging_entries_level_4[i4]) {
+                                                        address_identifier_4 =
+                                                            (((uint64_t)i4)
+                                                             << PLEVEL_4_SHIFT) +
+                                                            address_identifier_3;
+                                                        if (CHECK_BIT(
+                                                                paging_entries_level_4[i4],
+                                                                0))
+                                                        {
+                                                            write_address(
+                                                                address_identifier_4,
+                                                                0x1000,
+                                                                (uint64_t)paging_entries_level_4
+                                                                        [i4] &
+                                                                    ((1ULL << 63) |
+                                                                     (1ULL << 2) |
+                                                                     (1ULL << 1)));
                                                        }
                                                    }
                                                }
@ -276,7 +314,6 @@ void print_48_paging(uint64_t cr3){
                                        }
                                    }
                                }
-
                            }
                        }
                    }
@ -287,60 +324,62 @@ void print_48_paging(uint64_t cr3){
    write_address(0, 0x1000, 0);
 }

-uint64_t get_nested_guest_rip(CPUState *cpu){
-
+uint64_t get_nested_guest_rip(CPUState *cpu)
+{
    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

    kvm_vcpu_ioctl(cpu, KVM_GET_NESTED_STATE, env->nested_state);
-	struct vmcs12* saved_vmcs = (struct vmcs12*)&(env->nested_state->data);
+    struct vmcs12 *saved_vmcs = (struct vmcs12 *)&(env->nested_state->data);

    return saved_vmcs->guest_rip;
 }

-uint64_t get_nested_host_rip(CPUState *cpu){
-
+uint64_t get_nested_host_rip(CPUState *cpu)
+{
    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

    kvm_vcpu_ioctl(cpu, KVM_GET_NESTED_STATE, env->nested_state);
-	struct vmcs12* saved_vmcs = (struct vmcs12*)&(env->nested_state->data);
+    struct vmcs12 *saved_vmcs = (struct vmcs12 *)&(env->nested_state->data);

    return saved_vmcs->host_rip;
 }

-uint64_t get_nested_host_cr3(CPUState *cpu){
-
+uint64_t get_nested_host_cr3(CPUState *cpu)
+{
    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

    kvm_vcpu_ioctl(cpu, KVM_GET_NESTED_STATE, env->nested_state);
-	struct vmcs12* saved_vmcs = (struct vmcs12*)&(env->nested_state->data);
+    struct vmcs12 *saved_vmcs = (struct vmcs12 *)&(env->nested_state->data);

    return saved_vmcs->host_cr3;
 }

-void set_nested_rip(CPUState *cpu, uint64_t rip){
-
+void set_nested_rip(CPUState *cpu, uint64_t rip)
+{
    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

-	struct vmcs12* saved_vmcs = (struct vmcs12*)&(env->nested_state->data);
+    struct vmcs12 *saved_vmcs = (struct vmcs12 *)&(env->nested_state->data);

    saved_vmcs->guest_rip = rip;
 }

-void kvm_nested_get_info(CPUState *cpu){
-
+void kvm_nested_get_info(CPUState *cpu)
+{
    X86CPU      *cpux86 = X86_CPU(cpu);
    CPUX86State *env    = &cpux86->env;

    kvm_vcpu_ioctl(cpu, KVM_GET_NESTED_STATE, env->nested_state);

-	__attribute__((unused)) struct vmcs12* saved_vmcs = (struct vmcs12*)&(env->nested_state->data);
+    __attribute__((unused)) struct vmcs12 *saved_vmcs =
+        (struct vmcs12 *)&(env->nested_state->data);
    nyx_debug_p(NESTED_VM_PREFIX, "VMCS host_cr3:\t%lx", saved_vmcs->host_cr3);
    nyx_debug_p(NESTED_VM_PREFIX, "VMCS host_cr4:\t%lx", saved_vmcs->host_cr4);
-	nyx_debug_p(NESTED_VM_PREFIX, "VMCS host_ia32_efer:\t%lx", saved_vmcs->host_ia32_efer);
+    nyx_debug_p(NESTED_VM_PREFIX, "VMCS host_ia32_efer:\t%lx",
+                saved_vmcs->host_ia32_efer);
    nyx_debug_p(NESTED_VM_PREFIX, "VMCS host_cr0:\t%lx", saved_vmcs->host_cr0);

    return;
@ -354,7 +393,7 @@ typedef struct {
    uint32_t size;
    uint32_t virtual_base;
    char     desc[AREA_DESC_LEN];
-}area_t_export_t;
+} area_t_export_t;

 typedef struct {
    uint32_t magic;
@ -362,29 +401,39 @@ typedef struct {
    uint8_t  num_io_areas;
    uint8_t  num_alloc_areas;
    uint8_t  padding;
-}config_t;
+} config_t;

-void print_configuration(FILE *stream, void* configuration, size_t size){
+void print_configuration(FILE *stream, void *configuration, size_t size)
+{
    fprintf(stream, "%s: size: %lx\n", __func__, size);
-	assert((size-sizeof(config_t))%sizeof(area_t_export_t) == 0);
+    assert((size - sizeof(config_t)) % sizeof(area_t_export_t) == 0);

-	assert(((config_t*)configuration)->magic == MAGIC_NUMBER);
+    assert(((config_t *)configuration)->magic == MAGIC_NUMBER);

-	fprintf(stream, "%s: num_mmio_areas: %x\n", __func__, ((config_t*)configuration)->num_mmio_areas);
-	fprintf(stream, "%s: num_io_areas: %x\n", __func__, ((config_t*)configuration)->num_io_areas);
-	fprintf(stream, "%s: num_alloc_areas: %x\n", __func__, ((config_t*)configuration)->num_alloc_areas);
+    fprintf(stream, "%s: num_mmio_areas: %x\n", __func__,
+            ((config_t *)configuration)->num_mmio_areas);
+    fprintf(stream, "%s: num_io_areas: %x\n", __func__,
+            ((config_t *)configuration)->num_io_areas);
+    fprintf(stream, "%s: num_alloc_areas: %x\n", __func__,
+            ((config_t *)configuration)->num_alloc_areas);


-	for(int i = 0; i < ((config_t*)configuration)->num_mmio_areas; i++){
-	fprintf(stream, "\t-> MMIO: 0x%x (V: 0x%x) [0x%x]\t%s\n",       ((area_t_export_t*)(configuration+sizeof(config_t)))[i].base,
-																													((area_t_export_t*)(configuration+sizeof(config_t)))[i].virtual_base,
-																													((area_t_export_t*)(configuration+sizeof(config_t)))[i].size,
-																													((area_t_export_t*)(configuration+sizeof(config_t)))[i].desc );
+    for (int i = 0; i < ((config_t *)configuration)->num_mmio_areas; i++) {
+        fprintf(stream, "\t-> MMIO: 0x%x (V: 0x%x) [0x%x]\t%s\n",
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].base,
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].virtual_base,
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].size,
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].desc);
    }

-	for(int i = ((config_t*)configuration)->num_mmio_areas; i < (((config_t*)configuration)->num_mmio_areas+((config_t*)configuration)->num_io_areas); i++){
-	fprintf(stream, "\t->   IO: 0x%x [0x%x]\t%s\n",       ((area_t_export_t*)(configuration+sizeof(config_t)))[i].base,
-																													((area_t_export_t*)(configuration+sizeof(config_t)))[i].size,
-																													((area_t_export_t*)(configuration+sizeof(config_t)))[i].desc );
+    for (int i = ((config_t *)configuration)->num_mmio_areas;
+         i < (((config_t *)configuration)->num_mmio_areas +
+              ((config_t *)configuration)->num_io_areas);
+         i++)
+    {
+        fprintf(stream, "\t->   IO: 0x%x [0x%x]\t%s\n",
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].base,
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].size,
+                ((area_t_export_t *)(configuration + sizeof(config_t)))[i].desc);
    }
 }
--- a/nyx/kvm_nested.h
+++ b/nyx/kvm_nested.h
@ -10,4 +10,4 @@ uint64_t get_nested_host_rip(CPUState *cpu);
 uint64_t get_nested_host_cr3(CPUState *cpu);

 void set_nested_rip(CPUState *cpu, uint64_t rip);
-void print_configuration(FILE *stream, void* configuration, size_t size);
+void print_configuration(FILE *stream, void *configuration, size_t size);
--- a/nyx/memory_access.c
+++ b/nyx/memory_access.c
@ -20,29 +20,32 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include "qemu/osdep.h"

-#include <errno.h>
 #include "exec/gdbstub.h"
+#include <errno.h>

-#include "sysemu/sysemu.h"
-#include "cpu.h"
 #include "exec/ram_addr.h"
 #include "qemu/rcu_queue.h"
+#include "sysemu/sysemu.h"
+#include "cpu.h"

-#include "memory_access.h"
-#include "nyx/hypercall/hypercall.h"
 #include "debug.h"
+#include "memory_access.h"
 #include "nyx/fast_vm_reload.h"
-#include "nyx/state/state.h"
 #include "nyx/helpers.h"
+#include "nyx/hypercall/hypercall.h"
+#include "nyx/state/state.h"

 #define INVALID_ADDRESS 0xFFFFFFFFFFFFFFFFULL

-static uint64_t get_48_paging_phys_addr(uint64_t cr3, uint64_t addr, bool read_from_snapshot);
+static uint64_t get_48_paging_phys_addr(uint64_t cr3,
+                                        uint64_t addr,
+                                        bool     read_from_snapshot);

 #define x86_64_PAGE_SIZE 0x1000
 #define x86_64_PAGE_MASK ~(x86_64_PAGE_SIZE - 1)

-mem_mode_t get_current_mem_mode(CPUState *cpu){
+mem_mode_t get_current_mem_mode(CPUState *cpu)
+{
    kvm_arch_get_registers(cpu);

    X86CPU      *cpux86 = X86_CPU(cpu);
@ -50,8 +53,7 @@ mem_mode_t get_current_mem_mode(CPUState *cpu){

    if (!(env->cr[0] & CR0_PG_MASK)) {
        return mm_32_protected;
-    }
-    else{
+    } else {
        if (env->cr[4] & CR4_PAE_MASK) {
            if (env->hflags & HF_LMA_MASK) {
                if (env->cr[4] & CR4_LA57_MASK) {
@ -59,12 +61,10 @@ mem_mode_t get_current_mem_mode(CPUState *cpu){
                } else {
                    return mm_64_l4_paging;
                }
-	        } 
-	        else{
+            } else {
                return mm_32_pae;
            }
-	    } 
-	    else {
+        } else {
            return mm_32_paging;
        }
    }
@ -72,17 +72,19 @@ mem_mode_t get_current_mem_mode(CPUState *cpu){
    return mm_unkown;
 }

-static void set_mem_mode(CPUState *cpu){
+static void set_mem_mode(CPUState *cpu)
+{
    GET_GLOBAL_STATE()->mem_mode = get_current_mem_mode(cpu);
 }

 /*  Warning: This might break memory handling for hypervisor fuzzing => FIXME LATER */
-uint64_t get_paging_phys_addr(CPUState *cpu, uint64_t cr3, uint64_t addr){
-    if(GET_GLOBAL_STATE()->mem_mode == mm_unkown){
+uint64_t get_paging_phys_addr(CPUState *cpu, uint64_t cr3, uint64_t addr)
+{
+    if (GET_GLOBAL_STATE()->mem_mode == mm_unkown) {
        set_mem_mode(cpu);
    }

-    switch(GET_GLOBAL_STATE()->mem_mode){
+    switch (GET_GLOBAL_STATE()->mem_mode) {
    case mm_32_protected:
        return addr & 0xFFFFFFFFULL;
    case mm_32_paging:
@ -103,12 +105,13 @@ uint64_t get_paging_phys_addr(CPUState *cpu, uint64_t cr3, uint64_t addr){
    return 0;
 }

-static uint64_t get_paging_phys_addr_snapshot(CPUState *cpu, uint64_t cr3, uint64_t addr){
-    if(GET_GLOBAL_STATE()->mem_mode == mm_unkown){
+static uint64_t get_paging_phys_addr_snapshot(CPUState *cpu, uint64_t cr3, uint64_t addr)
+{
+    if (GET_GLOBAL_STATE()->mem_mode == mm_unkown) {
        set_mem_mode(cpu);
    }

-    switch(GET_GLOBAL_STATE()->mem_mode){
+    switch (GET_GLOBAL_STATE()->mem_mode) {
    case mm_32_protected:
        return addr & 0xFFFFFFFFULL;
    case mm_32_paging:
@ -129,43 +132,52 @@ static uint64_t get_paging_phys_addr_snapshot(CPUState *cpu, uint64_t cr3, uint6
    return 0;
 }

-bool read_physical_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu){
+bool read_physical_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu)
+{
    kvm_arch_get_registers(cpu);
    cpu_physical_memory_read(address, data, size);
    return true;
 }

-bool write_physical_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu){
+bool write_physical_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu)
+{
    kvm_arch_get_registers(cpu);
    cpu_physical_memory_write(address, data, size);
    return true;
 }

-static void refresh_kvm(CPUState *cpu){
+static void refresh_kvm(CPUState *cpu)
+{
    if (!cpu->vcpu_dirty) {
        kvm_arch_get_registers(cpu);
    }
 }

-static void refresh_kvm_non_dirty(CPUState *cpu){
+static void refresh_kvm_non_dirty(CPUState *cpu)
+{
    if (!cpu->vcpu_dirty) {
        kvm_arch_get_registers_fast(cpu);
    }
 }

-bool remap_payload_slot(uint64_t phys_addr, uint32_t slot, CPUState *cpu){
-    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd && GET_GLOBAL_STATE()->shared_payload_buffer_size);
+bool remap_payload_slot(uint64_t phys_addr, uint32_t slot, CPUState *cpu)
+{
+    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd &&
+           GET_GLOBAL_STATE()->shared_payload_buffer_size);
    RAMBlock *block;
    refresh_kvm_non_dirty(cpu);

    uint32_t i                    = slot;
    uint64_t phys_addr_ram_offset = address_to_ram_offset(phys_addr);

-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        if(!memcmp(block->idstr, "pc.ram", 6)){
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        if (!memcmp(block->idstr, "pc.ram", 6)) {
            /* TODO: put assert calls here */
-            munmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), x86_64_PAGE_SIZE);
-            mmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, GET_GLOBAL_STATE()->shared_payload_buffer_fd, (i*x86_64_PAGE_SIZE));
+            munmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                   x86_64_PAGE_SIZE);
+            mmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000,
+                 PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED,
+                 GET_GLOBAL_STATE()->shared_payload_buffer_fd, (i * x86_64_PAGE_SIZE));

            fast_reload_blacklist_page(get_fast_reload_snapshot(), phys_addr);
            break;
@ -175,9 +187,16 @@ bool remap_payload_slot(uint64_t phys_addr, uint32_t slot, CPUState *cpu){
    return true;
 }

-bool remap_slot(uint64_t addr, uint32_t slot, CPUState *cpu, int fd, uint64_t shm_size, bool virtual, uint64_t cr3){
+bool remap_slot(uint64_t  addr,
+                uint32_t  slot,
+                CPUState *cpu,
+                int       fd,
+                uint64_t  shm_size,
+                bool virtual,
+                uint64_t cr3)
+{
    assert(fd && shm_size);
-    assert((slot*x86_64_PAGE_SIZE) < shm_size);
+    assert((slot * x86_64_PAGE_SIZE) < shm_size);

    RAMBlock *block;
    refresh_kvm_non_dirty(cpu);
@ -185,12 +204,14 @@ bool remap_slot(uint64_t addr, uint32_t slot, CPUState *cpu, int fd, uint64_t sh
    uint32_t i = slot;

    uint64_t phys_addr = addr;
-    if(virtual){
+    if (virtual) {
        phys_addr = get_paging_phys_addr(cpu, cr3, (addr & x86_64_PAGE_MASK));

-        if(phys_addr == INVALID_ADDRESS){
-			fprintf(stderr, "[QEMU-Nyx] Error: failed to translate v_addr (0x%lx) to p_addr!\n", addr);
-            fprintf(stderr, "[QEMU-Nyx] Check if the buffer is present in the guest's memory...\n");
+        if (phys_addr == INVALID_ADDRESS) {
+            fprintf(stderr, "[QEMU-Nyx] Error: failed to translate v_addr (0x%lx) to p_addr!\n",
+                    addr);
+            fprintf(stderr, "[QEMU-Nyx] Check if the buffer is present in the "
+                            "guest's memory...\n");
            exit(1);
        }
    }
@ -198,14 +219,19 @@ bool remap_slot(uint64_t addr, uint32_t slot, CPUState *cpu, int fd, uint64_t sh

    nyx_debug("%s: addr => %lx phys_addr => %lx\n", __func__, addr, phys_addr);

-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        if(!memcmp(block->idstr, "pc.ram", 6)){
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        if (!memcmp(block->idstr, "pc.ram", 6)) {
            /* TODO: put assert calls here */
-      if (munmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), x86_64_PAGE_SIZE) == -1) {
+            if (munmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                       x86_64_PAGE_SIZE) == -1)
+            {
                nyx_error("%s: munmap failed!\n", __func__);
                assert(false);
            }
-            if (mmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fd, (i*x86_64_PAGE_SIZE)) == MAP_FAILED) {
+            if (mmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                     0x1000, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fd,
+                     (i * x86_64_PAGE_SIZE)) == MAP_FAILED)
+            {
                nyx_error("%s: mmap failed!\n", __func__);
                assert(false);
            }
@ -218,8 +244,10 @@ bool remap_slot(uint64_t addr, uint32_t slot, CPUState *cpu, int fd, uint64_t sh
    return true;
 }

-bool remap_payload_slot_protected(uint64_t phys_addr, uint32_t slot, CPUState *cpu){
-    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd && GET_GLOBAL_STATE()->shared_payload_buffer_size);
+bool remap_payload_slot_protected(uint64_t phys_addr, uint32_t slot, CPUState *cpu)
+{
+    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd &&
+           GET_GLOBAL_STATE()->shared_payload_buffer_size);
    RAMBlock *block;
    refresh_kvm_non_dirty(cpu);

@ -227,12 +255,14 @@ bool remap_payload_slot_protected(uint64_t phys_addr, uint32_t slot, CPUState *c

    uint64_t phys_addr_ram_offset = address_to_ram_offset(phys_addr);

-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        if(!memcmp(block->idstr, "pc.ram", 6)){
-
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        if (!memcmp(block->idstr, "pc.ram", 6)) {
            /* TODO: put assert calls here */
-            munmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), x86_64_PAGE_SIZE);
-            mmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000, PROT_READ , MAP_SHARED | MAP_FIXED, GET_GLOBAL_STATE()->shared_payload_buffer_fd, (i*x86_64_PAGE_SIZE));
+            munmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                   x86_64_PAGE_SIZE);
+            mmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000,
+                 PROT_READ, MAP_SHARED | MAP_FIXED,
+                 GET_GLOBAL_STATE()->shared_payload_buffer_fd, (i * x86_64_PAGE_SIZE));

            fast_reload_blacklist_page(get_fast_reload_snapshot(), phys_addr);
            break;
@ -242,15 +272,16 @@ bool remap_payload_slot_protected(uint64_t phys_addr, uint32_t slot, CPUState *c
    return true;
 }

-void resize_shared_memory(uint32_t new_size, uint32_t* shm_size, void** shm_ptr, int fd){
+void resize_shared_memory(uint32_t new_size, uint32_t *shm_size, void **shm_ptr, int fd)
+{
    assert(fd && *shm_size);

    /* check if the new_size is a multiple of PAGE_SIZE */
-    if(new_size & (PAGE_SIZE-1)){
-        new_size = (new_size & ~(PAGE_SIZE-1)) + PAGE_SIZE;
+    if (new_size & (PAGE_SIZE - 1)) {
+        new_size = (new_size & ~(PAGE_SIZE - 1)) + PAGE_SIZE;
    }

-    if(*shm_size >= new_size){
+    if (*shm_size >= new_size) {
        /* no need no resize the buffer -> early exit */
        return;
    }
@ -258,42 +289,56 @@ void resize_shared_memory(uint32_t new_size, uint32_t* shm_size, void** shm_ptr,
    assert(!GET_GLOBAL_STATE()->in_fuzzing_mode);
    assert(ftruncate(fd, new_size) == 0);

-    if(shm_ptr){
-        munmap(*shm_ptr , *shm_size);
-	    *shm_ptr = (void*)mmap(0, new_size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
+    if (shm_ptr) {
+        munmap(*shm_ptr, *shm_size);
+        *shm_ptr =
+            (void *)mmap(0, new_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
        assert(*shm_ptr != MAP_FAILED);
    }

    *shm_size = new_size;
 }

-bool remap_payload_buffer(uint64_t virt_guest_addr, CPUState *cpu){    
-    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd && GET_GLOBAL_STATE()->shared_payload_buffer_size);
+bool remap_payload_buffer(uint64_t virt_guest_addr, CPUState *cpu)
+{
+    assert(GET_GLOBAL_STATE()->shared_payload_buffer_fd &&
+           GET_GLOBAL_STATE()->shared_payload_buffer_size);
    assert(GET_GLOBAL_STATE()->shared_payload_buffer_size % x86_64_PAGE_SIZE == 0);
    RAMBlock *block;
    refresh_kvm_non_dirty(cpu);

-    for(uint32_t i = 0; i < (GET_GLOBAL_STATE()->shared_payload_buffer_size/x86_64_PAGE_SIZE); i++){
-        uint64_t phys_addr = get_paging_phys_addr(cpu, GET_GLOBAL_STATE()->parent_cr3, ((virt_guest_addr+(i*x86_64_PAGE_SIZE)) & x86_64_PAGE_MASK));
+    for (uint32_t i = 0;
+         i < (GET_GLOBAL_STATE()->shared_payload_buffer_size / x86_64_PAGE_SIZE); i++)
+    {
+        uint64_t phys_addr =
+            get_paging_phys_addr(cpu, GET_GLOBAL_STATE()->parent_cr3,
+                                 ((virt_guest_addr + (i * x86_64_PAGE_SIZE)) &
+                                  x86_64_PAGE_MASK));

        assert(phys_addr != INVALID_ADDRESS);

        uint64_t phys_addr_ram_offset = address_to_ram_offset(phys_addr);

-        QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-            if(!memcmp(block->idstr, "pc.ram", 6)){
-                if(munmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), x86_64_PAGE_SIZE) == -1){
+        QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+            if (!memcmp(block->idstr, "pc.ram", 6)) {
+                if (munmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                           x86_64_PAGE_SIZE) == -1)
+                {
                    nyx_error("munmap failed!\n");
                    assert(false);
                }
-                if(mmap((void*)(((uint64_t)block->host) + phys_addr_ram_offset), 0x1000, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, GET_GLOBAL_STATE()->shared_payload_buffer_fd, (i*x86_64_PAGE_SIZE)) == MAP_FAILED){
+                if (mmap((void *)(((uint64_t)block->host) + phys_addr_ram_offset),
+                         0x1000, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED,
+                         GET_GLOBAL_STATE()->shared_payload_buffer_fd,
+                         (i * x86_64_PAGE_SIZE)) == MAP_FAILED)
+                {
                    nyx_error("mmap failed!\n");
                    assert(false);
                }

                memset((block->host) + phys_addr_ram_offset, 0xab, 0x1000);

-                if(GET_GLOBAL_STATE()->protect_payload_buffer){
+                if (GET_GLOBAL_STATE()->protect_payload_buffer) {
                    mprotect((block->host) + phys_addr_ram_offset, 0x1000, PROT_READ);
                }

@ -305,7 +350,7 @@ bool remap_payload_buffer(uint64_t virt_guest_addr, CPUState *cpu){
    return true;
 }

-bool write_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu)
+bool write_virtual_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu)
 {
    /* TODO: later &address_space_memory + phys_addr -> mmap SHARED */
    int         asidx;
@ -316,7 +361,7 @@ bool write_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUSta
    uint64_t counter, l, i;

    counter = size;
-    while(counter != 0){
+    while (counter != 0) {
        l = x86_64_PAGE_SIZE;
        if (l > counter)
            l = counter;
@ -324,16 +369,18 @@ bool write_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUSta
        refresh_kvm(cpu);
        asidx = cpu_asidx_from_attrs(cpu, MEMTXATTRS_UNSPECIFIED);
        attrs = MEMTXATTRS_UNSPECIFIED;
-        phys_addr = cpu_get_phys_page_attrs_debug(cpu, (address & x86_64_PAGE_MASK), &attrs);
+        phys_addr =
+            cpu_get_phys_page_attrs_debug(cpu, (address & x86_64_PAGE_MASK), &attrs);

-        if (phys_addr == INVALID_ADDRESS){
+        if (phys_addr == INVALID_ADDRESS) {
            nyx_debug_p(MEM_PREFIX, "phys_addr == -1:\t%lx", address);
            return false;
        }

        phys_addr += (address & ~x86_64_PAGE_MASK);
-        res = address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, data, l, true);
-        if (res != MEMTX_OK){
+        res = address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr,
+                               MEMTXATTRS_UNSPECIFIED, data, l, true);
+        if (res != MEMTX_OK) {
            nyx_debug_p(MEM_PREFIX, "!MEMTX_OK:\t%lx", address);
            return false;
        }
@ -348,22 +395,23 @@ bool write_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUSta
 }


-void hexdump_virtual_memory(uint64_t address, uint32_t size, CPUState *cpu){
+void hexdump_virtual_memory(uint64_t address, uint32_t size, CPUState *cpu)
+{
    assert(size < 0x100000); // 1MB max
    uint64_t i = 0;
    uint8_t  tmp[17];
-    uint8_t* data = malloc(size);
+    uint8_t *data    = malloc(size);
    bool     success = read_virtual_memory(address, data, size, cpu);

-    if(success){
-        for (i = 0; i < size; i++){
-            if(!(i % 16)){
-                if (i != 0){
-                    printf ("  %s\n", tmp);
+    if (success) {
+        for (i = 0; i < size; i++) {
+            if (!(i % 16)) {
+                if (i != 0) {
+                    printf("  %s\n", tmp);
                }
-                printf ("  %04lx ", i);
+                printf("  %04lx ", i);
            }
-            printf (" %02x", data[i]);
+            printf(" %02x", data[i]);

            if ((data[i] < 0x20) || (data[i] > 0x7e))
                tmp[i % 16] = '.';
@ -373,10 +421,10 @@ void hexdump_virtual_memory(uint64_t address, uint32_t size, CPUState *cpu){
        }

        while ((i % 16) != 0) {
-            printf ("   ");
+            printf("   ");
            i++;
        }
-        printf ("  %s\n", tmp);
+        printf("  %s\n", tmp);
    }

    free(data);
@ -387,12 +435,16 @@ static int redqueen_insert_sw_breakpoint(CPUState *cs, struct kvm_sw_breakpoint
 {
    static const uint8_t int3 = 0xcc;

-    hwaddr phys_addr = (hwaddr) get_paging_phys_addr(cs, GET_GLOBAL_STATE()->parent_cr3, bp->pc);
+    hwaddr phys_addr =
+        (hwaddr)get_paging_phys_addr(cs, GET_GLOBAL_STATE()->parent_cr3, bp->pc);
    int asidx = cpu_asidx_from_attrs(cs, MEMTXATTRS_UNSPECIFIED);

-    if (address_space_rw(cpu_get_address_space(cs, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, (uint8_t *)&bp->saved_insn, 1, 0) ||
-        address_space_rw(cpu_get_address_space(cs, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, (uint8_t *)&int3, 1, 1)) {
-        //fprintf(stderr, "%s WRITTE AT %lx %lx failed!\n", __func__, bp->pc, phys_addr);
+    if (address_space_rw(cpu_get_address_space(cs, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, (uint8_t *)&bp->saved_insn, 1, 0) ||
+        address_space_rw(cpu_get_address_space(cs, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, (uint8_t *)&int3, 1, 1))
+    {
+        // fprintf(stderr, "%s WRITTE AT %lx %lx failed!\n", __func__, bp->pc, phys_addr);
        return -EINVAL;
    }

@ -403,22 +455,29 @@ static int redqueen_remove_sw_breakpoint(CPUState *cs, struct kvm_sw_breakpoint
 {
    uint8_t int3;

-    hwaddr phys_addr = (hwaddr) get_paging_phys_addr(cs, GET_GLOBAL_STATE()->parent_cr3, bp->pc);
+    hwaddr phys_addr =
+        (hwaddr)get_paging_phys_addr(cs, GET_GLOBAL_STATE()->parent_cr3, bp->pc);
    int asidx = cpu_asidx_from_attrs(cs, MEMTXATTRS_UNSPECIFIED);

-    if (address_space_rw(cpu_get_address_space(cs, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, (uint8_t *)&int3, 1, 0) || int3 != 0xcc ||
-        address_space_rw(cpu_get_address_space(cs, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, (uint8_t *)&bp->saved_insn, 1, 1)) {
-        //fprintf(stderr, "%s failed\n", __func__);
+    if (address_space_rw(cpu_get_address_space(cs, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, (uint8_t *)&int3, 1, 0) ||
+        int3 != 0xcc ||
+        address_space_rw(cpu_get_address_space(cs, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, (uint8_t *)&bp->saved_insn, 1, 1))
+    {
+        // fprintf(stderr, "%s failed\n", __func__);
        return -EINVAL;
    }

    return 0;
 }

-static struct kvm_sw_breakpoint *redqueen_find_breakpoint(CPUState *cpu, target_ulong pc){
+static struct kvm_sw_breakpoint *redqueen_find_breakpoint(CPUState    *cpu,
+                                                          target_ulong pc)
+{
    struct kvm_sw_breakpoint *bp;

-    QTAILQ_FOREACH(bp, &GET_GLOBAL_STATE()->redqueen_breakpoints, entry) {
+    QTAILQ_FOREACH (bp, &GET_GLOBAL_STATE()->redqueen_breakpoints, entry) {
        if (bp->pc == pc) {
            return bp;
        }
@ -426,7 +485,8 @@ static struct kvm_sw_breakpoint *redqueen_find_breakpoint(CPUState *cpu, target_
    return NULL;
 }

-static int redqueen_breakpoints_active(CPUState *cpu){
+static int redqueen_breakpoints_active(CPUState *cpu)
+{
    return !QTAILQ_EMPTY(&GET_GLOBAL_STATE()->redqueen_breakpoints);
 }

@ -435,7 +495,8 @@ struct kvm_set_guest_debug_data {
    int                    err;
 };

-static int redqueen_update_guest_debug(CPUState *cpu) {
+static int redqueen_update_guest_debug(CPUState *cpu)
+{
    struct kvm_set_guest_debug_data data;

    data.dbg.control = 0;
@ -447,10 +508,11 @@ static int redqueen_update_guest_debug(CPUState *cpu) {
    return kvm_vcpu_ioctl(cpu, KVM_SET_GUEST_DEBUG, &data.dbg);
 }

-static void redqueen_remove_all_breakpoints(CPUState *cpu) {
+static void redqueen_remove_all_breakpoints(CPUState *cpu)
+{
    struct kvm_sw_breakpoint *bp, *next;

-    QTAILQ_FOREACH_SAFE(bp, &GET_GLOBAL_STATE()->redqueen_breakpoints, entry, next) {
+    QTAILQ_FOREACH_SAFE (bp, &GET_GLOBAL_STATE()->redqueen_breakpoints, entry, next) {
        redqueen_remove_sw_breakpoint(cpu, bp);
        QTAILQ_REMOVE(&GET_GLOBAL_STATE()->redqueen_breakpoints, bp, entry);
        g_free(bp);
@ -459,7 +521,8 @@ static void redqueen_remove_all_breakpoints(CPUState *cpu) {
    redqueen_update_guest_debug(cpu);
 }

-static int redqueen_insert_breakpoint(CPUState *cpu, target_ulong addr, target_ulong len){
+static int redqueen_insert_breakpoint(CPUState *cpu, target_ulong addr, target_ulong len)
+{
    struct kvm_sw_breakpoint *bp;
    int                       err;

@ -482,14 +545,15 @@ static int redqueen_insert_breakpoint(CPUState *cpu, target_ulong addr, target_u
    QTAILQ_INSERT_HEAD(&GET_GLOBAL_STATE()->redqueen_breakpoints, bp, entry);

    err = redqueen_update_guest_debug(cpu);
-    if(err){
+    if (err) {
        return err;
    }

    return 0;
 }

-static int redqueen_remove_breakpoint(CPUState *cpu, target_ulong addr, target_ulong len){
+static int redqueen_remove_breakpoint(CPUState *cpu, target_ulong addr, target_ulong len)
+{
    struct kvm_sw_breakpoint *bp;
    int                       err;

@ -512,27 +576,30 @@ static int redqueen_remove_breakpoint(CPUState *cpu, target_ulong addr, target_u
    g_free(bp);

    err = redqueen_update_guest_debug(cpu);
-    if(err){
+    if (err) {
        return err;
    }

    return 0;
 }

-int insert_breakpoint(CPUState *cpu, uint64_t addr, uint64_t len){
+int insert_breakpoint(CPUState *cpu, uint64_t addr, uint64_t len)
+{
    redqueen_insert_breakpoint(cpu, addr, len);
    redqueen_update_guest_debug(cpu);
    return 0;
 }


-int remove_breakpoint(CPUState *cpu, uint64_t addr, uint64_t len){
+int remove_breakpoint(CPUState *cpu, uint64_t addr, uint64_t len)
+{
    redqueen_remove_breakpoint(cpu, addr, len);
    redqueen_update_guest_debug(cpu);
    return 0;
 }

-void remove_all_breakpoints(CPUState *cpu){
+void remove_all_breakpoints(CPUState *cpu)
+{
    redqueen_remove_all_breakpoints(cpu);
 }

@ -540,15 +607,18 @@ void remove_all_breakpoints(CPUState *cpu){
 #define PENTRIES   0x200
 #define PPAGE_SIZE 0x1000

-static bool read_memory(uint64_t address, uint64_t* buffer, size_t size, bool read_from_snapshot) {
+static bool read_memory(uint64_t  address,
+                        uint64_t *buffer,
+                        size_t    size,
+                        bool      read_from_snapshot)
+{
    if (unlikely(address == INVALID_ADDRESS)) {
        return false;
    }

    if (unlikely(read_from_snapshot)) {
-        return read_snapshot_memory(
-            get_fast_reload_snapshot(),
-            address, (uint8_t *)buffer, size);
+        return read_snapshot_memory(get_fast_reload_snapshot(), address,
+                                    (uint8_t *)buffer, size);
    }

    // NB: This API exposed by exec.h doesn't signal failure, although it can
@ -556,24 +626,29 @@ static bool read_memory(uint64_t address, uint64_t* buffer, size_t size, bool re
    // we can actually check the return value here. Until then, will clear the
    // buffer contents first.
    memset(buffer, 0, size);
-    cpu_physical_memory_rw(address, (uint8_t*)buffer, size, false);
+    cpu_physical_memory_rw(address, (uint8_t *)buffer, size, false);
    return true;
 }

-__attribute__((always_inline)) inline
-static bool bit(uint64_t value, uint8_t lsb) {
+__attribute__((always_inline)) inline static bool bit(uint64_t value, uint8_t lsb)
+{
    return (value >> lsb) & 1;
 }

-__attribute__((always_inline)) inline
-static uint64_t bits(uint64_t value, uint8_t lsb, uint8_t msb) {
+__attribute__((always_inline)) inline static uint64_t bits(uint64_t value,
+                                                           uint8_t  lsb,
+                                                           uint8_t  msb)
+{
    return (value & ((0xffffffffffffffffull >> (64 - (msb - lsb + 1))) << lsb)) >> lsb;
 }

 // Helper function to load an entire pagetable table. These are PENTRIES
 // 64-bit entries, so entries must point to a sufficiently large buffer.
-static bool load_table(uint64_t address, uint64_t* entries, bool read_from_snapshot) {
-    if (unlikely(!read_memory(address, entries, 512 * sizeof(*entries), read_from_snapshot))) {
+static bool load_table(uint64_t address, uint64_t *entries, bool read_from_snapshot)
+{
+    if (unlikely(!read_memory(address, entries, 512 * sizeof(*entries),
+                              read_from_snapshot)))
+    {
        return false;
    }

@ -584,11 +659,12 @@ static bool load_table(uint64_t address, uint64_t* entries, bool read_from_snaps
 // returning the same invalid value (0) for both non-present entries and
 // any other error conditions, since we don't need to handle these cases
 // differently.
-static uint64_t load_entry(uint64_t address, uint64_t index,
-                           bool read_from_snapshot) {
+static uint64_t load_entry(uint64_t address, uint64_t index, bool read_from_snapshot)
+{
    uint64_t entry = 0;
-    if (unlikely(!read_memory(address + (index * sizeof(entry)), &entry, sizeof(entry),
-            read_from_snapshot))) {
+    if (unlikely(!read_memory(address + (index * sizeof(entry)), &entry,
+                              sizeof(entry), read_from_snapshot)))
+    {
        return 0;
    }

@ -600,14 +676,20 @@ static uint64_t load_entry(uint64_t address, uint64_t index,
    return entry;
 }

-static void print_page(uint64_t address, uint64_t entry, size_t size, bool s, bool w, bool x) {
-    fprintf(stderr, " %c%c%c %016lx %zx",
-        s ? 's' : 'u', w ? 'w' : 'r', x ? 'x' : '-',
-        (bits(entry, 12, 51) << 12) & ~(size - 1), size);
+static void print_page(
+    uint64_t address, uint64_t entry, size_t size, bool s, bool w, bool x)
+{
+    fprintf(stderr, " %c%c%c %016lx %zx", s ? 's' : 'u', w ? 'w' : 'r',
+            x ? 'x' : '-', (bits(entry, 12, 51) << 12) & ~(size - 1), size);
 }

-static void print_48_pte(uint64_t address, uint64_t pde_entry, bool read_from_snapshot,
-        bool s, bool w, bool x) {
+static void print_48_pte(uint64_t address,
+                         uint64_t pde_entry,
+                         bool     read_from_snapshot,
+                         bool     s,
+                         bool     w,
+                         bool     x)
+{
    uint64_t pte_address = bits(pde_entry, 12, 51) << 12;
    uint64_t pte_table[PENTRIES];

@ -625,14 +707,19 @@ static void print_48_pte(uint64_t address, uint64_t pde_entry, bool read_from_sn
        if (!bit(entry, 0)) {
            // Not present.
        } else {
-            print_page(address | i << 12, entry, 0x1000,
-                s & !bit(entry, 2), w & bit(entry, 1), x & !bit(entry, 63));
+            print_page(address | i << 12, entry, 0x1000, s & !bit(entry, 2),
+                       w & bit(entry, 1), x & !bit(entry, 63));
        }
    }
 }

-static void print_48_pde(uint64_t address, uint64_t pdpte_entry, bool read_from_snapshot,
-        bool s, bool w, bool x) {
+static void print_48_pde(uint64_t address,
+                         uint64_t pdpte_entry,
+                         bool     read_from_snapshot,
+                         bool     s,
+                         bool     w,
+                         bool     x)
+{
    uint64_t pde_address = bits(pdpte_entry, 12, 51) << 12;
    uint64_t pde_table[PENTRIES];

@ -650,8 +737,8 @@ static void print_48_pde(uint64_t address, uint64_t pdpte_entry, bool read_from_
        if (!bit(entry, 0)) {
            // Not present.
        } else if (bit(entry, 7)) {
-            print_page(address | i << 21, entry, 0x200000,
-                s & !bit(entry, 2), w & bit(entry, 1), x & !bit(entry, 63));
+            print_page(address | i << 21, entry, 0x200000, s & !bit(entry, 2),
+                       w & bit(entry, 1), x & !bit(entry, 63));
        } else {
            print_48_pte(address | i << 21, entry, read_from_snapshot,
                         s & !bit(entry, 2), w & bit(entry, 1), x & !bit(entry, 63));
@ -659,8 +746,13 @@ static void print_48_pde(uint64_t address, uint64_t pdpte_entry, bool read_from_
    }
 }

-static void print_48_pdpte(uint64_t address, uint64_t pml4_entry, bool read_from_snapshot,
-        bool s, bool w, bool x) {
+static void print_48_pdpte(uint64_t address,
+                           uint64_t pml4_entry,
+                           bool     read_from_snapshot,
+                           bool     s,
+                           bool     w,
+                           bool     x)
+{
    uint64_t pdpte_address = bits(pml4_entry, 12, 51) << 12;
    uint64_t pdpte_table[PENTRIES];

@ -678,8 +770,8 @@ static void print_48_pdpte(uint64_t address, uint64_t pml4_entry, bool read_from
        if (!bit(entry, 0)) {
            // Not present.
        } else if (bit(entry, 7)) {
-            print_page(address | i << 30, entry, 0x40000000,
-                s & !bit(entry, 2), w & bit(entry, 1), x & !bit(entry, 63));
+            print_page(address | i << 30, entry, 0x40000000, s & !bit(entry, 2),
+                       w & bit(entry, 1), x & !bit(entry, 63));
        } else {
            print_48_pde(address | i << 30, entry, read_from_snapshot,
                         s & !bit(entry, 2), w & bit(entry, 1), x & !bit(entry, 63));
@ -687,7 +779,8 @@ static void print_48_pdpte(uint64_t address, uint64_t pml4_entry, bool read_from
    }
 }

-static void print_48_pagetables_(uint64_t cr3, bool read_from_snapshot) {
+static void print_48_pagetables_(uint64_t cr3, bool read_from_snapshot)
+{
    uint64_t pml4_address = bits(cr3, 12, 51) << 12;
    uint64_t pml4_table[PENTRIES];

@ -708,13 +801,14 @@ static void print_48_pagetables_(uint64_t cr3, bool read_from_snapshot) {
        }

        if (bit(entry, 0)) {
-            print_48_pdpte(address, entry, read_from_snapshot,
-                !bit(entry, 2), bit(entry, 1), !bit(entry, 63));
+            print_48_pdpte(address, entry, read_from_snapshot, !bit(entry, 2),
+                           bit(entry, 1), !bit(entry, 63));
        }
    }
 }

-void print_48_pagetables(uint64_t cr3) {
+void print_48_pagetables(uint64_t cr3)
+{
    static bool printed = false;
    if (!printed) {
        fprintf(stderr, "pagetables for cr3 %lx", cr3);
@ -724,7 +818,10 @@ void print_48_pagetables(uint64_t cr3) {
    }
 }

-static uint64_t get_48_paging_phys_addr(uint64_t cr3, uint64_t addr, bool read_from_snapshot) {
+static uint64_t get_48_paging_phys_addr(uint64_t cr3,
+                                        uint64_t addr,
+                                        bool     read_from_snapshot)
+{
    uint64_t pml4_address = bits(cr3, 12, 51) << 12;
    uint64_t pml4_offset  = bits(addr, 39, 47);
    uint64_t pml4_entry = load_entry(pml4_address, pml4_offset, read_from_snapshot);
@ -773,9 +870,10 @@ static uint64_t get_48_paging_phys_addr(uint64_t cr3, uint64_t addr, bool read_f
    return page_address + page_offset;
 }

-//#define DEBUG_48BIT_WALK
+// #define DEBUG_48BIT_WALK

-bool read_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu){
+bool read_virtual_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu)
+{
    uint8_t tmp_buf[x86_64_PAGE_SIZE];
    hwaddr  phys_addr;
    int     asidx;
@ -786,31 +884,36 @@ bool read_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUStat
    CPUX86State *env = &(X86_CPU(cpu))->env;

    // copy per page
-    while(amount_copied < size){
+    while (amount_copied < size) {
        uint64_t len_to_copy = (size - amount_copied);
-        if(len_to_copy > x86_64_PAGE_SIZE)
+        if (len_to_copy > x86_64_PAGE_SIZE)
            len_to_copy = x86_64_PAGE_SIZE;

        asidx = cpu_asidx_from_attrs(cpu, MEMTXATTRS_UNSPECIFIED);
 #ifdef DEBUG_48BIT_WALK
-        phys_addr_2 = cpu_get_phys_page_attrs_debug(cpu, (address & x86_64_PAGE_MASK), &attrs);
+        phys_addr_2 =
+            cpu_get_phys_page_attrs_debug(cpu, (address & x86_64_PAGE_MASK), &attrs);
 #endif
-        phys_addr = (hwaddr)get_paging_phys_addr(cpu, env->cr[3], address) & 0xFFFFFFFFFFFFF000ULL;// != 0xFFFFFFFFFFFFFFFFULL)
+        phys_addr = (hwaddr)get_paging_phys_addr(cpu, env->cr[3], address) &
+                    0xFFFFFFFFFFFFF000ULL; // != 0xFFFFFFFFFFFFFFFFULL)

 #ifdef DEBUG_48BIT_WALK
        assert(phys_addr == phys_addr_2);
 #endif

-        if (phys_addr == INVALID_ADDRESS){
+        if (phys_addr == INVALID_ADDRESS) {
            uint64_t next_page   = (address & x86_64_PAGE_MASK) + x86_64_PAGE_SIZE;
-            uint64_t len_skipped =next_page-address;  
-            if(len_skipped > size-amount_copied){
-                len_skipped = size-amount_copied;
+            uint64_t len_skipped = next_page - address;
+            if (len_skipped > size - amount_copied) {
+                len_skipped = size - amount_copied;
            }

-            nyx_error("Warning, read from unmapped memory:\t%lx, skipping to %lx", address, next_page);
-            nyx_debug_p(MEM_PREFIX, "Warning, read from unmapped memory:\t%lx, skipping to %lx", address, next_page);
-            memset( data+amount_copied, ' ',  len_skipped);
+            nyx_error("Warning, read from unmapped memory:\t%lx, skipping to %lx",
+                      address, next_page);
+            nyx_debug_p(MEM_PREFIX,
+                        "Warning, read from unmapped memory:\t%lx, skipping to %lx",
+                        address, next_page);
+            memset(data + amount_copied, ' ', len_skipped);
            address += len_skipped;
            amount_copied += len_skipped;
            continue;
@ -818,16 +921,19 @@ bool read_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUStat

        phys_addr += (address & ~x86_64_PAGE_MASK);
        uint64_t remaining_on_page = x86_64_PAGE_SIZE - (address & ~x86_64_PAGE_MASK);
-        if(len_to_copy > remaining_on_page){
+        if (len_to_copy > remaining_on_page) {
            len_to_copy = remaining_on_page;
        }

-        MemTxResult txt = address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, tmp_buf, len_to_copy, 0);
-        if(txt){
-            nyx_debug_p(MEM_PREFIX, "Warning, read failed:\t%lx (%lx)", address, phys_addr);
+        MemTxResult txt = address_space_rw(cpu_get_address_space(cpu, asidx),
+                                           phys_addr, MEMTXATTRS_UNSPECIFIED,
+                                           tmp_buf, len_to_copy, 0);
+        if (txt) {
+            nyx_debug_p(MEM_PREFIX, "Warning, read failed:\t%lx (%lx)", address,
+                        phys_addr);
        }

-        memcpy(data+amount_copied, tmp_buf, len_to_copy);
+        memcpy(data + amount_copied, tmp_buf, len_to_copy);

        address += len_to_copy;
        amount_copied += len_to_copy;
@ -836,59 +942,72 @@ bool read_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUStat
    return true;
 }

-bool is_addr_mapped_cr3(uint64_t address, CPUState *cpu, uint64_t cr3){
+bool is_addr_mapped_cr3(uint64_t address, CPUState *cpu, uint64_t cr3)
+{
    return (get_paging_phys_addr(cpu, cr3, address) != INVALID_ADDRESS);
 }

-bool is_addr_mapped(uint64_t address, CPUState *cpu){
+bool is_addr_mapped(uint64_t address, CPUState *cpu)
+{
    CPUX86State *env = &(X86_CPU(cpu))->env;
    kvm_arch_get_registers_fast(cpu);
    return (get_paging_phys_addr(cpu, env->cr[3], address) != INVALID_ADDRESS);
 }

-bool is_addr_mapped_cr3_snapshot(uint64_t address, CPUState *cpu, uint64_t cr3){
+bool is_addr_mapped_cr3_snapshot(uint64_t address, CPUState *cpu, uint64_t cr3)
+{
    return (get_paging_phys_addr_snapshot(cpu, cr3, address) != INVALID_ADDRESS);
 }

-bool dump_page_cr3_snapshot(uint64_t address, uint8_t* data, CPUState *cpu, uint64_t cr3){
-    fast_reload_t* snapshot = get_fast_reload_snapshot();
+bool dump_page_cr3_snapshot(uint64_t address, uint8_t *data, CPUState *cpu, uint64_t cr3)
+{
+    fast_reload_t *snapshot  = get_fast_reload_snapshot();
    uint64_t       phys_addr = get_paging_phys_addr_snapshot(cpu, cr3, address);
-    if(phys_addr == INVALID_ADDRESS){
+    if (phys_addr == INVALID_ADDRESS) {
        return false;
-    }
-    else{
+    } else {
        return read_snapshot_memory(snapshot, phys_addr, data, PPAGE_SIZE);
    }
 }


-bool dump_page_cr3_ht(uint64_t address, uint8_t* data, CPUState *cpu, uint64_t cr3){
-    hwaddr phys_addr = (hwaddr) get_paging_phys_addr(cpu, cr3, address);
+bool dump_page_cr3_ht(uint64_t address, uint8_t *data, CPUState *cpu, uint64_t cr3)
+{
+    hwaddr phys_addr = (hwaddr)get_paging_phys_addr(cpu, cr3, address);
    int    asidx     = cpu_asidx_from_attrs(cpu, MEMTXATTRS_UNSPECIFIED);
-    if(phys_addr == INVALID_ADDRESS || address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, data, 0x1000, 0)){
-        if(phys_addr != INVALID_ADDRESS){
-            nyx_error("%s: Warning, read failed:\t%lx (%lx)\n", __func__, address, phys_addr);
+    if (phys_addr == INVALID_ADDRESS ||
+        address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, data, 0x1000, 0))
+    {
+        if (phys_addr != INVALID_ADDRESS) {
+            nyx_error("%s: Warning, read failed:\t%lx (%lx)\n", __func__, address,
+                      phys_addr);
        }
        return false;
    }
    return true;
 }

-bool dump_page_ht(uint64_t address, uint8_t* data, CPUState *cpu){
+bool dump_page_ht(uint64_t address, uint8_t *data, CPUState *cpu)
+{
    CPUX86State *env = &(X86_CPU(cpu))->env;
    kvm_arch_get_registers_fast(cpu);
-    hwaddr phys_addr = (hwaddr) get_paging_phys_addr(cpu, env->cr[3], address);
+    hwaddr phys_addr = (hwaddr)get_paging_phys_addr(cpu, env->cr[3], address);
    int    asidx     = cpu_asidx_from_attrs(cpu, MEMTXATTRS_UNSPECIFIED);
-    if(phys_addr == 0xffffffffffffffffULL || address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr, MEMTXATTRS_UNSPECIFIED, data, 0x1000, 0)){
-        if(phys_addr != 0xffffffffffffffffULL){
-            nyx_error("%s: Warning, read failed:\t%lx (%lx)\n", __func__, address, phys_addr);
+    if (phys_addr == 0xffffffffffffffffULL ||
+        address_space_rw(cpu_get_address_space(cpu, asidx), phys_addr,
+                         MEMTXATTRS_UNSPECIFIED, data, 0x1000, 0))
+    {
+        if (phys_addr != 0xffffffffffffffffULL) {
+            nyx_error("%s: Warning, read failed:\t%lx (%lx)\n", __func__, address,
+                      phys_addr);
        }
    }
    return true;
 }

-uint64_t disassemble_at_rip(int fd, uint64_t address, CPUState *cpu, uint64_t cr3){
-
+uint64_t disassemble_at_rip(int fd, uint64_t address, CPUState *cpu, uint64_t cr3)
+{
    csh handle;

    size_t  code_size = 256;
@ -896,22 +1015,24 @@ uint64_t disassemble_at_rip(int fd, uint64_t address, CPUState *cpu, uint64_t cr


    /* don't => GET_GLOBAL_STATE()->disassembler_word_width */
-	if (cs_open(CS_ARCH_X86, get_capstone_mode(GET_GLOBAL_STATE()->disassembler_word_width), &handle) != CS_ERR_OK)
+    if (cs_open(CS_ARCH_X86,
+                get_capstone_mode(GET_GLOBAL_STATE()->disassembler_word_width),
+                &handle) != CS_ERR_OK)
        assert(false);

    cs_option(handle, CS_OPT_DETAIL, CS_OPT_ON);

-    cs_insn* insn = cs_malloc(handle);
+    cs_insn *insn = cs_malloc(handle);

    read_virtual_memory(address, code_ptr, code_size, cpu);

    int count = cs_disasm(handle, code_ptr, code_size, address, 5, &insn);
-    if(count > 0){
-        for(int i = 0; i < count; i++){
-            nyx_error("=> 0x%"PRIx64":\t%s\t\t%s\n", insn[i].address, insn[i].mnemonic, insn[i].op_str);
+    if (count > 0) {
+        for (int i = 0; i < count; i++) {
+            nyx_error("=> 0x%" PRIx64 ":\t%s\t\t%s\n", insn[i].address,
+                      insn[i].mnemonic, insn[i].op_str);
        }
-    }
-    else{
+    } else {
        nyx_error("ERROR in %s at %lx (cr3: %lx)\n", __func__, address, cr3);
    }

@ -920,6 +1041,3 @@ uint64_t disassemble_at_rip(int fd, uint64_t address, CPUState *cpu, uint64_t cr
    cs_close(&handle);
    return 0;
 }
-
-
-
--- a/nyx/memory_access.h
+++ b/nyx/memory_access.h
@ -22,36 +22,51 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #ifndef MEMORY_ACCESS_H
 #define MEMORY_ACCESS_H

-#include <linux/kvm.h>
-#include "qemu-common.h"
 #include "sysemu/kvm_int.h"
+#include "qemu-common.h"
 #include "nyx/types.h"
+#include <linux/kvm.h>

 #define MEM_SPLIT_START 0x0C0000000
 #define MEM_SPLIT_END   0x100000000

 /* i386 pc_piix low_mem address translation */
-#define address_to_ram_offset(offset)  (offset >= MEM_SPLIT_END ? (offset - MEM_SPLIT_END) + MEM_SPLIT_START : offset)
-#define ram_offset_to_address(offset)  (offset >= MEM_SPLIT_START ? (offset - MEM_SPLIT_START) + MEM_SPLIT_END : offset)
+#define address_to_ram_offset(offset) \
+    (offset >= MEM_SPLIT_END ? (offset - MEM_SPLIT_END) + MEM_SPLIT_START : offset)
+#define ram_offset_to_address(offset) \
+    (offset >= MEM_SPLIT_START ? (offset - MEM_SPLIT_START) + MEM_SPLIT_END : offset)

 mem_mode_t get_current_mem_mode(CPUState *cpu);

 uint64_t get_paging_phys_addr(CPUState *cpu, uint64_t cr3, uint64_t addr);

-bool read_physical_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu);
-bool write_physical_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu);
+bool read_physical_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu);
+bool write_physical_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu);

 bool remap_payload_slot(uint64_t phys_addr, uint32_t slot, CPUState *cpu);
 bool remap_payload_slot_protected(uint64_t phys_addr, uint32_t slot, CPUState *cpu);
 bool remap_payload_buffer(uint64_t virt_guest_addr, CPUState *cpu);

-bool remap_slots(uint64_t addr, uint32_t slots, CPUState *cpu, int fd, uint64_t shm_size, bool virtual, uint64_t cr3);
-bool remap_slot(uint64_t addr, uint32_t slot, CPUState *cpu, int fd, uint64_t shm_size, bool virtual, uint64_t cr3);
+bool remap_slots(uint64_t  addr,
+                 uint32_t  slots,
+                 CPUState *cpu,
+                 int       fd,
+                 uint64_t  shm_size,
+                 bool virtual,
+                 uint64_t cr3);
+bool remap_slot(uint64_t  addr,
+                uint32_t  slot,
+                CPUState *cpu,
+                int       fd,
+                uint64_t  shm_size,
+                bool virtual,
+                uint64_t cr3);

-bool read_virtual_memory_cr3(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu, uint64_t cr3);
+bool read_virtual_memory_cr3(
+    uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu, uint64_t cr3);

-bool read_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu);
-bool write_virtual_memory(uint64_t address, uint8_t* data, uint32_t size, CPUState *cpu);
+bool read_virtual_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu);
+bool write_virtual_memory(uint64_t address, uint8_t *data, uint32_t size, CPUState *cpu);
 void hexdump_virtual_memory(uint64_t address, uint32_t size, CPUState *cpu);
 bool is_addr_mapped(uint64_t address, CPUState *cpu);
 bool is_addr_mapped_cr3(uint64_t address, CPUState *cpu, uint64_t cr3);
@ -61,14 +76,14 @@ int remove_breakpoint(CPUState *cpu, uint64_t addr, uint64_t len);
 void remove_all_breakpoints(CPUState *cpu);

 uint64_t disassemble_at_rip(int fd, uint64_t address, CPUState *cpu, uint64_t cr3);
-bool dump_page_cr3_snapshot(uint64_t address, uint8_t* data, CPUState *cpu, uint64_t cr3);
-bool dump_page_cr3_ht(uint64_t address, uint8_t* data, CPUState *cpu, uint64_t cr3);
+bool dump_page_cr3_snapshot(uint64_t address, uint8_t *data, CPUState *cpu, uint64_t cr3);
+bool dump_page_cr3_ht(uint64_t address, uint8_t *data, CPUState *cpu, uint64_t cr3);
 bool is_addr_mapped_cr3_snapshot(uint64_t address, CPUState *cpu, uint64_t cr3);

 void print_48_pagetables(uint64_t cr3);

-bool dump_page_ht(uint64_t address, uint8_t* data, CPUState *cpu);
+bool dump_page_ht(uint64_t address, uint8_t *data, CPUState *cpu);

-void resize_shared_memory(uint32_t new_size, uint32_t* shm_size, void** shm_ptr, int fd);
+void resize_shared_memory(uint32_t new_size, uint32_t *shm_size, void **shm_ptr, int fd);

 #endif
--- a/nyx/nested_hypercalls.c
+++ b/nyx/nested_hypercalls.c
@ -1,19 +1,19 @@
 #include "qemu/osdep.h"
-#include <stdio.h>
-#include <stdint.h>
+#include "qemu/main-loop.h"
+#include "sysemu/kvm.h"
+#include "sysemu/sysemu.h"
+#include "nested_hypercalls.h"
+#include "debug.h"
+#include "interface.h"
 #include "kvm_nested.h"
 #include "memory_access.h"
-#include "debug.h"
-#include "nested_hypercalls.h"
-#include "interface.h"
-#include "state/state.h"
-#include "pt.h"
-#include "sysemu/sysemu.h"
-#include "sysemu/kvm.h"
-#include "qemu/main-loop.h"
 #include "nyx/helpers.h"
+#include "pt.h"
+#include "state/state.h"
+#include <stdint.h>
+#include <stdio.h>

-//#define DEBUG_NESTED_HYPERCALLS
+// #define DEBUG_NESTED_HYPERCALLS


 bool hypercalls_enabled = false;
@ -27,54 +27,68 @@ int nested_once = 0;
 bool nested_setup_snapshot_once = false;


-
-void handle_hypercall_kafl_nested_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_config(struct kvm_run *run,
+                                         CPUState       *cpu,
+                                         uint64_t        hypercall_arg)
+{
    /* magic */
    nyx_trace();
    uint32_t size = 0;
-	read_physical_memory(htos_config, (uint8_t*) &size, sizeof(uint32_t), cpu);
+    read_physical_memory(htos_config, (uint8_t *)&size, sizeof(uint32_t), cpu);

-	void* buffer = malloc(size);
+    void *buffer = malloc(size);

-	read_physical_memory(htos_config+sizeof(uint32_t), buffer, size, cpu);
+    read_physical_memory(htos_config + sizeof(uint32_t), buffer, size, cpu);
    print_configuration(stderr, buffer, size);

-	FILE* f = fopen("/tmp/hypertrash_configration", "w");
+    FILE *f = fopen("/tmp/hypertrash_configration", "w");
    print_configuration(f, buffer, size);
    fclose(f);

    free(buffer);
 }

-void handle_hypercall_kafl_nested_hprintf(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_hprintf(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg)
+{
    nyx_trace();
    char hprintf_buffer[0x1000];
-	read_physical_memory((uint64_t)run->hypercall.args[0], (uint8_t*)hprintf_buffer, 0x1000, cpu);
+    read_physical_memory((uint64_t)run->hypercall.args[0], (uint8_t *)hprintf_buffer,
+                         0x1000, cpu);

-	set_hprintf_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer, hprintf_buffer, strnlen(hprintf_buffer, 0x1000)+1);
+    set_hprintf_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer, hprintf_buffer,
+                                 strnlen(hprintf_buffer, 0x1000) + 1);
    synchronization_lock_hprintf();
 }

-void handle_hypercall_kafl_nested_prepare(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_prepare(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg)
+{
    nyx_trace();
    kvm_arch_get_registers(cpu);

-	if((uint64_t)run->hypercall.args[0]){
-		nyx_debug_p(CORE_PREFIX, "handle_hypercall_kafl_nested_prepare:\t NUM:\t%lx\t ADDRESS:\t%lx\t CR3:\t%lx", (uint64_t)run->hypercall.args[0], (uint64_t)run->hypercall.args[1], (uint64_t)run->hypercall.args[2]);
-	}
-	else{
+    if ((uint64_t)run->hypercall.args[0]) {
+        nyx_debug_p(CORE_PREFIX,
+                    "handle_hypercall_kafl_nested_prepare:\t NUM:\t%lx\t "
+                    "ADDRESS:\t%lx\t CR3:\t%lx",
+                    (uint64_t)run->hypercall.args[0], (uint64_t)run->hypercall.args[1],
+                    (uint64_t)run->hypercall.args[2]);
+    } else {
        abort();
    }

    size_t buffer_size = (size_t)((uint64_t)run->hypercall.args[0] * sizeof(uint64_t));
-	uint64_t* buffer = malloc(buffer_size);
+    uint64_t *buffer = malloc(buffer_size);
    memset(buffer, 0x0, buffer_size);

-	read_physical_memory((uint64_t)run->hypercall.args[1], (uint8_t*)buffer, buffer_size, cpu);
+    read_physical_memory((uint64_t)run->hypercall.args[1], (uint8_t *)buffer,
+                         buffer_size, cpu);
    htos_cr3 = (uint64_t)run->hypercall.args[0];

-	for(uint64_t i = 0; i < (uint64_t)run->hypercall.args[0]; i++){
-		if(i == 0){
+    for (uint64_t i = 0; i < (uint64_t)run->hypercall.args[0]; i++) {
+        if (i == 0) {
            htos_config = buffer[i];
        }
        nyx_debug_p(CORE_PREFIX, "ADDRESS: %lx", buffer[i]);
@ -85,39 +99,46 @@ void handle_hypercall_kafl_nested_prepare(struct kvm_run *run, CPUState *cpu, ui

    // wipe memory
    memset(buffer, 0x00, buffer_size);
-	write_physical_memory((uint64_t)run->hypercall.args[1], (uint8_t*)buffer, buffer_size, cpu);
+    write_physical_memory((uint64_t)run->hypercall.args[1], (uint8_t *)buffer,
+                          buffer_size, cpu);

    free(buffer);
 }

 bool acquired = false;

-void handle_hypercall_kafl_nested_early_release(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_early_release(struct kvm_run *run,
+                                                CPUState       *cpu,
+                                                uint64_t        hypercall_arg)
+{
    nyx_trace();

-	if(!hypercalls_enabled){
+    if (!hypercalls_enabled) {
        return;
    }

    bool state = GET_GLOBAL_STATE()->in_reload_mode;
-	if(!state){
+    if (!state) {
        GET_GLOBAL_STATE()->in_reload_mode = true;
        synchronization_disable_pt(cpu);
        GET_GLOBAL_STATE()->in_reload_mode = false;
-	}
-	else{
+    } else {
        synchronization_disable_pt(cpu);
    }
 }

-void handle_hypercall_kafl_nested_release(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_release(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg)
+{
    nyx_trace();
    // TODO not implemented - see git history for scraps
    nyx_error("Not implemented.\n");
    abort();
 }

-static inline void set_page_dump_bp_nested(CPUState *cpu, uint64_t cr3, uint64_t addr){
+static inline void set_page_dump_bp_nested(CPUState *cpu, uint64_t cr3, uint64_t addr)
+{
    nyx_trace();

    kvm_remove_all_breakpoints(cpu);
@ -128,17 +149,21 @@ static inline void set_page_dump_bp_nested(CPUState *cpu, uint64_t cr3, uint64_t
    kvm_vcpu_ioctl(cpu, KVM_VMX_PT_ENABLE_PAGE_DUMP_CR3);
 }

-void handle_hypercall_kafl_nested_acquire(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg){
+void handle_hypercall_kafl_nested_acquire(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg)
+{
    nyx_trace();

-	if (!acquired){
+    if (!acquired) {
        acquired = true;

-		//create_fast_snapshot(cpu, true);
-		request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state, REQUEST_SAVE_SNAPSHOT_ROOT_NESTED_FIX_RIP);
+        // create_fast_snapshot(cpu, true);
+        request_fast_vm_reload(GET_GLOBAL_STATE()->reload_state,
+                               REQUEST_SAVE_SNAPSHOT_ROOT_NESTED_FIX_RIP);

-		for(int i = 0; i < INTEL_PT_MAX_RANGES; i++){
-			if(GET_GLOBAL_STATE()->pt_ip_filter_configured[i]){
+        for (int i = 0; i < INTEL_PT_MAX_RANGES; i++) {
+            if (GET_GLOBAL_STATE()->pt_ip_filter_configured[i]) {
                pt_enable_ip_filtering(cpu, i, true, false);
            }
        }
@ -163,7 +188,7 @@ void handle_hypercall_kafl_nested_acquire(struct kvm_run *run, CPUState *cpu, ui
    pt_set_cr3(cpu, cr3, false);
    GET_GLOBAL_STATE()->parent_cr3 = cr3;

-	if(GET_GLOBAL_STATE()->dump_page){
+    if (GET_GLOBAL_STATE()->dump_page) {
        set_page_dump_bp_nested(cpu, cr3, GET_GLOBAL_STATE()->dump_page_addr);
    }

--- a/nyx/nested_hypercalls.h
+++ b/nyx/nested_hypercalls.h
@ -3,9 +3,21 @@
 #include <stdint.h>

 /* HyperTrash! */
-void handle_hypercall_kafl_nested_hprintf(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_nested_prepare(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_nested_config(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_nested_release(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_nested_acquire(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
-void handle_hypercall_kafl_nested_early_release(struct kvm_run *run, CPUState *cpu, uint64_t hypercall_arg);
+void handle_hypercall_kafl_nested_hprintf(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg);
+void handle_hypercall_kafl_nested_prepare(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg);
+void handle_hypercall_kafl_nested_config(struct kvm_run *run,
+                                         CPUState       *cpu,
+                                         uint64_t        hypercall_arg);
+void handle_hypercall_kafl_nested_release(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg);
+void handle_hypercall_kafl_nested_acquire(struct kvm_run *run,
+                                          CPUState       *cpu,
+                                          uint64_t        hypercall_arg);
+void handle_hypercall_kafl_nested_early_release(struct kvm_run *run,
+                                                CPUState       *cpu,
+                                                uint64_t        hypercall_arg);
--- a/nyx/page_cache.c
+++ b/nyx/page_cache.c
@ -1,26 +1,27 @@
 #include "qemu/osdep.h"
-#include <errno.h>
-#include <capstone/capstone.h>
-#include <capstone/x86.h>
-#include <sys/file.h>
-#include <sys/types.h>
-#include <unistd.h>
-#include <stdio.h>
-#include <sys/mman.h>
-#include <assert.h>
 #include "nyx/page_cache.h"
 #include "nyx/debug.h"
 #include "nyx/fast_vm_reload.h"
-#include "nyx/memory_access.h"
 #include "nyx/helpers.h"
+#include "nyx/memory_access.h"
 #include "nyx/state/state.h"
+#include <assert.h>
+#include <capstone/capstone.h>
+#include <capstone/x86.h>
+#include <errno.h>
+#include <stdio.h>
+#include <sys/file.h>
+#include <sys/mman.h>
+#include <sys/types.h>
+#include <unistd.h>


 #define PAGE_CACHE_ADDR_LINE_SIZE sizeof(uint64_t)

 #define UNMAPPED_PAGE 0xFFFFFFFFFFFFFFFFULL

-static bool reload_addresses(page_cache_t* self){
+static bool reload_addresses(page_cache_t *self)
+{
    khiter_t k;
    int      ret;
    uint64_t addr, offset;
@ -28,37 +29,38 @@ static bool reload_addresses(page_cache_t* self){

    size_t self_offset = lseek(self->fd_address_file, 0, SEEK_END);

-	if(self_offset != self->num_pages*PAGE_CACHE_ADDR_LINE_SIZE){
+    if (self_offset != self->num_pages * PAGE_CACHE_ADDR_LINE_SIZE) {
        /* reload page cache from disk */
-		lseek(self->fd_address_file, self->num_pages*PAGE_CACHE_ADDR_LINE_SIZE, SEEK_SET);
+        lseek(self->fd_address_file, self->num_pages * PAGE_CACHE_ADDR_LINE_SIZE,
+              SEEK_SET);
        offset = self->num_pages;
-		while(read(self->fd_address_file, &value, PAGE_CACHE_ADDR_LINE_SIZE)){
+        while (read(self->fd_address_file, &value, PAGE_CACHE_ADDR_LINE_SIZE)) {
            addr = value & 0xFFFFFFFFFFFFF000ULL;
            offset++;

            /* put new addresses and offsets into the hash map */
            k = kh_get(PC_CACHE, self->lookup, addr);
-			if(k == kh_end(self->lookup)){
-
-				if(value & 0xFFF){
+            if (k == kh_end(self->lookup)) {
+                if (value & 0xFFF) {
                    fprintf(stderr, "Load page: %lx (UNMAPPED)\n", addr);
-				}
-				else{
+                } else {
                    k = kh_put(PC_CACHE, self->lookup, addr, &ret);
-					kh_value(self->lookup, k) = (offset-1)*PAGE_SIZE;
+                    kh_value(self->lookup, k) = (offset - 1) * PAGE_SIZE;
                }
-			}
-			else{
+            } else {
                /* likely a bug / race condition in page_cache itself! */
-				fprintf(stderr, "----------> Page duplicate found ...skipping! %lx\n", addr);
-				//abort();
+                fprintf(stderr,
+                        "----------> Page duplicate found ...skipping! %lx\n", addr);
+                // abort();
            }
        }

        /* reload page dump file */
-		munmap(self->page_data, self->num_pages*PAGE_SIZE);
-		self->num_pages = self_offset/PAGE_CACHE_ADDR_LINE_SIZE;
-		self->page_data = mmap(NULL, (self->num_pages)*PAGE_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, self->fd_page_file, 0);
+        munmap(self->page_data, self->num_pages * PAGE_SIZE);
+        self->num_pages = self_offset / PAGE_CACHE_ADDR_LINE_SIZE;
+        self->page_data = mmap(NULL, (self->num_pages) * PAGE_SIZE,
+                               PROT_READ | PROT_WRITE, MAP_SHARED,
+                               self->fd_page_file, 0);

        return true;
    }
@ -66,25 +68,37 @@ static bool reload_addresses(page_cache_t* self){
    return false;
 }

-static bool append_page(page_cache_t* self, uint64_t page, uint64_t cr3){
+static bool append_page(page_cache_t *self, uint64_t page, uint64_t cr3)
+{
    bool success = true;
-	if(!self->num_pages){
-		assert(!ftruncate(self->fd_page_file, (self->num_pages+1)*PAGE_SIZE));
-		self->page_data = mmap(NULL, (self->num_pages+1)*PAGE_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, self->fd_page_file, 0);
-	}
-	else{
-		munmap(self->page_data, self->num_pages*PAGE_SIZE);
-		assert(!ftruncate(self->fd_page_file, (self->num_pages+1)*PAGE_SIZE));
-		self->page_data = mmap(NULL, (self->num_pages+1)*PAGE_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, self->fd_page_file, 0);
+    if (!self->num_pages) {
+        assert(!ftruncate(self->fd_page_file, (self->num_pages + 1) * PAGE_SIZE));
+        self->page_data = mmap(NULL, (self->num_pages + 1) * PAGE_SIZE,
+                               PROT_READ | PROT_WRITE, MAP_SHARED,
+                               self->fd_page_file, 0);
+    } else {
+        munmap(self->page_data, self->num_pages * PAGE_SIZE);
+        assert(!ftruncate(self->fd_page_file, (self->num_pages + 1) * PAGE_SIZE));
+        self->page_data = mmap(NULL, (self->num_pages + 1) * PAGE_SIZE,
+                               PROT_READ | PROT_WRITE, MAP_SHARED,
+                               self->fd_page_file, 0);
    }

-	if(!dump_page_cr3_ht(page, self->page_data+(PAGE_SIZE*self->num_pages), self->cpu, GET_GLOBAL_STATE()->pt_c3_filter)){
-		if(!dump_page_cr3_ht(page, self->page_data+(PAGE_SIZE*self->num_pages), self->cpu, GET_GLOBAL_STATE()->parent_cr3)){
-			if(!dump_page_cr3_snapshot(page, self->page_data+(PAGE_SIZE*self->num_pages), self->cpu, GET_GLOBAL_STATE()->parent_cr3)){
-
-				munmap(self->page_data, (self->num_pages+1)*PAGE_SIZE);
-				assert(!ftruncate(self->fd_page_file, (self->num_pages)*PAGE_SIZE));
-				self->page_data = mmap(NULL, (self->num_pages)*PAGE_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, self->fd_page_file, 0);
+    if (!dump_page_cr3_ht(page, self->page_data + (PAGE_SIZE * self->num_pages),
+                          self->cpu, GET_GLOBAL_STATE()->pt_c3_filter))
+    {
+        if (!dump_page_cr3_ht(page, self->page_data + (PAGE_SIZE * self->num_pages),
+                              self->cpu, GET_GLOBAL_STATE()->parent_cr3))
+        {
+            if (!dump_page_cr3_snapshot(page,
+                                        self->page_data + (PAGE_SIZE * self->num_pages),
+                                        self->cpu, GET_GLOBAL_STATE()->parent_cr3))
+            {
+                munmap(self->page_data, (self->num_pages + 1) * PAGE_SIZE);
+                assert(!ftruncate(self->fd_page_file, (self->num_pages) * PAGE_SIZE));
+                self->page_data = mmap(NULL, (self->num_pages) * PAGE_SIZE,
+                                       PROT_READ | PROT_WRITE, MAP_SHARED,
+                                       self->fd_page_file, 0);

                success = false;
                return success;
@ -96,69 +110,69 @@ static bool append_page(page_cache_t* self, uint64_t page, uint64_t cr3){
    return success;
 }

-static void page_cache_lock(page_cache_t* self){
+static void page_cache_lock(page_cache_t *self)
+{
    int ret = 0;
-	while (true){
+    while (true) {
        ret = flock(self->fd_lock, LOCK_EX);
-		if (ret == 0){
+        if (ret == 0) {
            return;
-		}
-		else if (ret == EINTR){ 
+        } else if (ret == EINTR) {
            /* try again if acquiring this lock has failed */
            fprintf(stderr, "%s: interrupted by signal...\n", __func__);
-		}
-		else{
+        } else {
            assert(false);
        }
    }
 }

-static void page_cache_unlock(page_cache_t* self){
+static void page_cache_unlock(page_cache_t *self)
+{
    int ret = 0;
-	while (true){
+    while (true) {
        ret = flock(self->fd_lock, LOCK_UN);
-		if (ret == 0){
+        if (ret == 0) {
            return;
-		}
-		else if (ret == EINTR){ 
+        } else if (ret == EINTR) {
            /* try again if releasing this lock has failed */
            fprintf(stderr, "%s: interrupted by signal...\n", __func__);
-		}
-		else{
+        } else {
            assert(false);
        }
    }
 }

-static bool update_page_cache(page_cache_t* self, uint64_t page, khiter_t* k){
+static bool update_page_cache(page_cache_t *self, uint64_t page, khiter_t *k)
+{
    page_cache_lock(self);

-	if(reload_addresses(self)){
+    if (reload_addresses(self)) {
        *k = kh_get(PC_CACHE, self->lookup, page);
    }

-	if(*k == kh_end(self->lookup)){
+    if (*k == kh_end(self->lookup)) {
        int ret;

        uint64_t cr3 = GET_GLOBAL_STATE()->parent_cr3;
-		if(!is_addr_mapped_cr3_snapshot(page, self->cpu, GET_GLOBAL_STATE()->parent_cr3) && !is_addr_mapped_cr3_snapshot(page, self->cpu, GET_GLOBAL_STATE()->pt_c3_filter)){ 
+        if (!is_addr_mapped_cr3_snapshot(page, self->cpu,
+                                         GET_GLOBAL_STATE()->parent_cr3) &&
+            !is_addr_mapped_cr3_snapshot(page, self->cpu,
+                                         GET_GLOBAL_STATE()->pt_c3_filter))
+        {
            /* TODO! */
        }

        *k = kh_get(PC_CACHE, self->lookup, page);
-		if(*k == kh_end(self->lookup) && reload_addresses(self)){
+        if (*k == kh_end(self->lookup) && reload_addresses(self)) {
            /* reload sucessful */
            *k = kh_get(PC_CACHE, self->lookup, page);
-		}
-		else{
-			
-
-			if(append_page(self, page, cr3)){
+        } else {
+            if (append_page(self, page, cr3)) {
                *k = kh_put(PC_CACHE, self->lookup, page, &ret);
-				assert(write(self->fd_address_file, &page, PAGE_CACHE_ADDR_LINE_SIZE) == PAGE_CACHE_ADDR_LINE_SIZE);
-				kh_value(self->lookup, *k) = (self->num_pages-1)*PAGE_SIZE;
-			}
-			else{
+                assert(write(self->fd_address_file, &page,
+                             PAGE_CACHE_ADDR_LINE_SIZE) == PAGE_CACHE_ADDR_LINE_SIZE);
+                kh_value(self->lookup, *k) = (self->num_pages - 1) * PAGE_SIZE;
+            } else {
                page_cache_unlock(self);
                return false;
            }
@ -170,18 +184,19 @@ static bool update_page_cache(page_cache_t* self, uint64_t page, khiter_t* k){
    return true;
 }

-uint64_t page_cache_fetch(page_cache_t* self, uint64_t page, bool* success, bool test_mode){	
+uint64_t page_cache_fetch(page_cache_t *self, uint64_t page, bool *success, bool test_mode)
+{
    page &= 0xFFFFFFFFFFFFF000ULL;

-	if (self->last_page == page){
+    if (self->last_page == page) {
        *success = true;
        return self->last_addr;
    }

    khiter_t k;
    k = kh_get(PC_CACHE, self->lookup, page);
-	if(k == kh_end(self->lookup)){
-		if(test_mode || update_page_cache(self, page, &k) == false){
+    if (k == kh_end(self->lookup)) {
+        if (test_mode || update_page_cache(self, page, &k) == false) {
            *success = false;
            return 0;
        }
@ -189,11 +204,10 @@ uint64_t page_cache_fetch(page_cache_t* self, uint64_t page, bool* success, bool

    self->last_page = page;

-	if(kh_value(self->lookup, k) == UNMAPPED_PAGE){
+    if (kh_value(self->lookup, k) == UNMAPPED_PAGE) {
        self->last_addr = UNMAPPED_PAGE;
-	}
-	else{
-		self->last_addr = (uint64_t)self->page_data+kh_value(self->lookup, k);
+    } else {
+        self->last_addr = (uint64_t)self->page_data + kh_value(self->lookup, k);
    }

    *success = true;
@ -201,16 +215,18 @@ uint64_t page_cache_fetch(page_cache_t* self, uint64_t page, bool* success, bool
 }

 /* FIXME */
-uint64_t page_cache_fetch2(page_cache_t* self, uint64_t page, bool* success){	
+uint64_t page_cache_fetch2(page_cache_t *self, uint64_t page, bool *success)
+{
    return page_cache_fetch(self, page, success, false);
 }

-page_cache_t* page_cache_new(CPUState *cpu, const char* cache_file){
-	page_cache_t* self = malloc(sizeof(page_cache_t));
+page_cache_t *page_cache_new(CPUState *cpu, const char *cache_file)
+{
+    page_cache_t *self = malloc(sizeof(page_cache_t));

-	char* tmp1;
-	char* tmp2;
-	char* tmp3;
+    char *tmp1;
+    char *tmp2;
+    char *tmp3;
    assert(asprintf(&tmp1, "%s.dump", cache_file) != -1);
    assert(asprintf(&tmp2, "%s.addr", cache_file) != -1);
    assert(asprintf(&tmp3, "%s.lock", cache_file) != -1);
@ -253,12 +269,14 @@ page_cache_t* page_cache_new(CPUState *cpu, const char* cache_file){
    return self;
 }

-bool page_cache_disassemble(page_cache_t* self, uint64_t address, cs_insn **insn){
+bool page_cache_disassemble(page_cache_t *self, uint64_t address, cs_insn **insn)
+{
    return true;
 }

-cs_insn* page_cache_cs_malloc(page_cache_t* self, disassembler_mode_t mode){
-	switch(mode){
+cs_insn *page_cache_cs_malloc(page_cache_t *self, disassembler_mode_t mode)
+{
+    switch (mode) {
    case mode_16:
        return cs_malloc(self->handle_16);
    case mode_32:
@ -271,19 +289,24 @@ cs_insn* page_cache_cs_malloc(page_cache_t* self, disassembler_mode_t mode){
    return NULL;
 }

-bool page_cache_disassemble_iter(page_cache_t* self, uint64_t* address, cs_insn *insn, uint64_t* failed_page, disassembler_mode_t mode){
+bool page_cache_disassemble_iter(page_cache_t       *self,
+                                 uint64_t           *address,
+                                 cs_insn            *insn,
+                                 uint64_t           *failed_page,
+                                 disassembler_mode_t mode)
+{
    *failed_page = 0xFFFFFFFFFFFFFFFFULL;

    bool   success   = true;
    size_t code_size = 16;

-	uint8_t* code = (uint8_t*)page_cache_fetch(self, *address, &success, false);
-	uint8_t* code_ptr = 0;
+    uint8_t *code     = (uint8_t *)page_cache_fetch(self, *address, &success, false);
+    uint8_t *code_ptr = 0;


-	csh* current_handle = NULL;
+    csh *current_handle = NULL;

-	switch(mode){
+    switch (mode) {
    case mode_16:
        current_handle = &self->handle_16;
        break;
@ -297,33 +320,34 @@ bool page_cache_disassemble_iter(page_cache_t* self, uint64_t* address, cs_insn
        assert(false);
    }

-	if (code == (void*)UNMAPPED_PAGE || success == false){
+    if (code == (void *)UNMAPPED_PAGE || success == false) {
        *failed_page = *address;
        return false;
    }

-	if ((*address & 0xFFF) >= (0x1000-16)){
-		memcpy((void*)self->disassemble_cache, (void*)((uint64_t)code+(0x1000-16)), 16);
-		code_ptr = self->disassemble_cache + 0xf-(0xfff-(*address&0xfff));
-		code = (uint8_t*)page_cache_fetch(self, *address+0x1000, &success, false);
+    if ((*address & 0xFFF) >= (0x1000 - 16)) {
+        memcpy((void *)self->disassemble_cache,
+               (void *)((uint64_t)code + (0x1000 - 16)), 16);
+        code_ptr = self->disassemble_cache + 0xf - (0xfff - (*address & 0xfff));
+        code = (uint8_t *)page_cache_fetch(self, *address + 0x1000, &success, false);

-		if(success == true){
-			memcpy((void*)(self->disassemble_cache+16), (void*)code, 16);
-			return cs_disasm_iter(*current_handle, (const uint8_t**) &code_ptr, &code_size, address, insn);
-		}
-		else{
-			code_size = (0xfff-(*address&0xfff));
-			if(!cs_disasm_iter(*current_handle, (const uint8_t**) &code_ptr, &code_size, address, insn)){
-				*failed_page = (*address+0x1000) & 0xFFFFFFFFFFFFF000ULL;
+        if (success == true) {
+            memcpy((void *)(self->disassemble_cache + 16), (void *)code, 16);
+            return cs_disasm_iter(*current_handle, (const uint8_t **)&code_ptr,
+                                  &code_size, address, insn);
+        } else {
+            code_size = (0xfff - (*address & 0xfff));
+            if (!cs_disasm_iter(*current_handle, (const uint8_t **)&code_ptr,
+                                &code_size, address, insn))
+            {
+                *failed_page = (*address + 0x1000) & 0xFFFFFFFFFFFFF000ULL;
                return false;
            }
            return true;
        }
-	} 
-	else {
-		code_ptr = code + (*address&0xFFF);
-		return cs_disasm_iter(*current_handle, (const uint8_t**) &code_ptr, &code_size, address, insn);
+    } else {
+        code_ptr = code + (*address & 0xFFF);
+        return cs_disasm_iter(*current_handle, (const uint8_t **)&code_ptr,
+                              &code_size, address, insn);
    }
 }
-
-
--- a/nyx/page_cache.h
+++ b/nyx/page_cache.h
@ -1,8 +1,8 @@
 #pragma once

+#include "khash.h"
 #include <capstone/capstone.h>
 #include <capstone/x86.h>
-#include "khash.h"
 #include <libxdc.h>

 #include "qemu-common.h"
@ -10,14 +10,14 @@

 KHASH_MAP_INIT_INT64(PC_CACHE, uint64_t)

-typedef struct page_cache_s{
+typedef struct page_cache_s {
    CPUState *cpu;
-	khash_t(PC_CACHE) *lookup;
+    khash_t(PC_CACHE) * lookup;
    int      fd_page_file;
    int      fd_address_file;
    int      fd_lock;
    uint8_t  disassemble_cache[32];
-	void* page_data;
+    void    *page_data;
    uint32_t num_pages;

    csh handle_16;
@ -28,12 +28,19 @@ typedef struct page_cache_s{
    uint64_t last_addr;
 } page_cache_t;

-page_cache_t* page_cache_new(CPUState *cpu, const char* cache_file);
-uint64_t page_cache_fetch(page_cache_t* self, uint64_t page, bool* success, bool test_mode);
+page_cache_t *page_cache_new(CPUState *cpu, const char *cache_file);
+uint64_t      page_cache_fetch(page_cache_t *self,
+                               uint64_t      page,
+                               bool         *success,
+                               bool          test_mode);

-bool page_cache_disassemble(page_cache_t* self, uint64_t address, cs_insn **insn);
-bool page_cache_disassemble_iter(page_cache_t* self, uint64_t* address, cs_insn *insn, uint64_t* failed_page, disassembler_mode_t mode);
+bool page_cache_disassemble(page_cache_t *self, uint64_t address, cs_insn **insn);
+bool page_cache_disassemble_iter(page_cache_t       *self,
+                                 uint64_t           *address,
+                                 cs_insn            *insn,
+                                 uint64_t           *failed_page,
+                                 disassembler_mode_t mode);

-cs_insn* page_cache_cs_malloc(page_cache_t* self, disassembler_mode_t mode);
+cs_insn *page_cache_cs_malloc(page_cache_t *self, disassembler_mode_t mode);

-uint64_t page_cache_fetch2(page_cache_t* self, uint64_t page, bool* success);
+uint64_t page_cache_fetch2(page_cache_t *self, uint64_t page, bool *success);
--- a/nyx/patcher.c
+++ b/nyx/patcher.c
@ -1,10 +1,12 @@
 #include "patcher.h"
-#include "nyx/memory_access.h"
-#include "nyx/disassembler.h"
 #include "debug.h"
+#include "nyx/disassembler.h"
+#include "nyx/memory_access.h"
 #include "nyx/state/state.h"

-uint8_t cmp_patch_data[] = { 0x38, 0xC0, [2 ... MAX_INSTRUCTION_SIZE]=0x90 }; // CMP AL,AL; NOP, NOP ... 
+uint8_t cmp_patch_data[] = {
+    0x38, 0xC0, [2 ... MAX_INSTRUCTION_SIZE] = 0x90
+}; // CMP AL,AL; NOP, NOP ...
 const uint8_t *cmp_patch = &cmp_patch_data[0];

 /*
@ -14,22 +16,30 @@ static void _patcher_apply_patch(patcher_t *self, size_t index);

 static void _patcher_restore_patch(patcher_t *self, size_t index);

-static void _patcher_save_patch(patcher_t *self, size_t index, uint8_t* data, size_t instruction_size, uint64_t addr);
+static void _patcher_save_patch(patcher_t *self,
+                                size_t     index,
+                                uint8_t   *data,
+                                size_t     instruction_size,
+                                uint64_t   addr);

-static size_t _patcher_disassemble_size(patcher_t *self, uint8_t* data,  uint64_t addr, x86_insn id);
+static size_t _patcher_disassemble_size(patcher_t *self,
+                                        uint8_t   *data,
+                                        uint64_t   addr,
+                                        x86_insn   id);

 static void _patcher_alloc_patch_infos(patcher_t *self, size_t num_patches);

 static void _patcher_free_patch_infos(patcher_t *self);

-static redqueen_t* _redq_ptr(patcher_t *self);
+static redqueen_t *_redq_ptr(patcher_t *self);


 /*
 * Public Functions
 */

-patcher_t* patcher_new(CPUState *cpu){
+patcher_t *patcher_new(CPUState *cpu)
+{
    patcher_t *res            = malloc(sizeof(patcher_t));
    res->cpu                  = cpu;
    res->num_patches          = 0;
@ -38,65 +48,77 @@ patcher_t* patcher_new(CPUState *cpu){
    return res;
 }

-void patcher_free(patcher_t* self){
+void patcher_free(patcher_t *self)
+{
    assert(!self->is_currently_applied);
    _patcher_free_patch_infos(self);
    free(self);
 }

-void patcher_apply_all(patcher_t *self){
+void patcher_apply_all(patcher_t *self)
+{
    assert(!self->is_currently_applied);
    assert(!_redq_ptr(self)->hooks_applied);
-  //assert(patcher_validate_patches(self));
-  for(size_t i=0; i < self->num_patches; i++){
+    // assert(patcher_validate_patches(self));
+    for (size_t i = 0; i < self->num_patches; i++) {
        _patcher_apply_patch(self, i);
    }
    self->is_currently_applied = true;
 }

-void patcher_restore_all(patcher_t *self){
+void patcher_restore_all(patcher_t *self)
+{
    assert(self->is_currently_applied);
    assert(!_redq_ptr(self)->hooks_applied);
-  //assert(patcher_validate_patches(self));
-  for(size_t i = 0; i < self->num_patches; i++){
+    // assert(patcher_validate_patches(self));
+    for (size_t i = 0; i < self->num_patches; i++) {
        _patcher_restore_patch(self, i);
    }
    self->is_currently_applied = false;
 }

-void patcher_set_addrs(patcher_t *self, uint64_t* addrs, size_t num_addrs){
+void patcher_set_addrs(patcher_t *self, uint64_t *addrs, size_t num_addrs)
+{
    _patcher_free_patch_infos(self);
    _patcher_alloc_patch_infos(self, num_addrs);
    uint8_t curr_instruction_code[MAX_INSTRUCTION_SIZE];
    memset(&curr_instruction_code[0], 0, MAX_INSTRUCTION_SIZE);

-  for(size_t i=0; i < self->num_patches; i++){
-    //nyx_debug_p(REDQUEEN_PREFIX, "patching %lx", addrs[i]);
-    if( read_virtual_memory(addrs[i], &curr_instruction_code[0], MAX_INSTRUCTION_SIZE, self->cpu) ) {
-      size_t size =_patcher_disassemble_size(self, &curr_instruction_code[0], addrs[i], X86_INS_CMP);
-      assert(size != 0); //csopen failed, shouldn't happen
+    for (size_t i = 0; i < self->num_patches; i++) {
+        // nyx_debug_p(REDQUEEN_PREFIX, "patching %lx", addrs[i]);
+        if (read_virtual_memory(addrs[i], &curr_instruction_code[0],
+                                MAX_INSTRUCTION_SIZE, self->cpu))
+        {
+            size_t size = _patcher_disassemble_size(self, &curr_instruction_code[0],
+                                                    addrs[i], X86_INS_CMP);
+            assert(size != 0); // csopen failed, shouldn't happen
            _patcher_save_patch(self, i, &curr_instruction_code[0], size, addrs[i]);
        }
    }
 }

-static void print_hexdump(const uint8_t* addr, size_t size){
-  for(size_t i = 0; i < size; i++){
-	  printf (" %02x", addr[i]);
+static void print_hexdump(const uint8_t *addr, size_t size)
+{
+    for (size_t i = 0; i < size; i++) {
+        printf(" %02x", addr[i]);
    }
    printf("\n");
 }

-bool patcher_validate_patches(patcher_t *self){
+bool patcher_validate_patches(patcher_t *self)
+{
    bool was_rq = _redq_ptr(self)->hooks_applied;
-  if(was_rq)
+    if (was_rq)
        redqueen_remove_hooks(_redq_ptr(self));
-  if(!self->patches){return true;}
-  for(size_t i=0; i<self->num_patches; i++){
+    if (!self->patches) {
+        return true;
+    }
+    for (size_t i = 0; i < self->num_patches; i++) {
        uint8_t buf[MAX_INSTRUCTION_SIZE];
-    read_virtual_memory(self->patches[i].addr, &buf[0], MAX_INSTRUCTION_SIZE, self->cpu);
-    const uint8_t* should_value = NULL;
-    if(self->is_currently_applied){
+        read_virtual_memory(self->patches[i].addr, &buf[0], MAX_INSTRUCTION_SIZE,
+                            self->cpu);
+        const uint8_t *should_value = NULL;
+        if (self->is_currently_applied) {
            should_value = cmp_patch;
        } else {
            should_value = &self->patches[i].orig_bytes[0];
@ -106,12 +128,14 @@ bool patcher_validate_patches(patcher_t *self){
        print_hexdump(&buf[0], self->patches[i].size);
        nyx_debug_p(REDQUEEN_PREFIX, "should_be:");
        print_hexdump(should_value, self->patches[i].size);
-    if(0 != memcmp(&buf[0], should_value, self->patches[i].size)){
-      nyx_debug_p(REDQUEEN_PREFIX, "validating patches failed self->is_currently_applied = %d",  self->is_currently_applied);
+        if (0 != memcmp(&buf[0], should_value, self->patches[i].size)) {
+            nyx_debug_p(REDQUEEN_PREFIX,
+                        "validating patches failed self->is_currently_applied = %d",
+                        self->is_currently_applied);
            return false;
        }
    }
-  if(was_rq)
+    if (was_rq)
        redqueen_insert_hooks(_redq_ptr(self));
    return true;
 }
@ -121,15 +145,22 @@ bool patcher_validate_patches(patcher_t *self){
 * Private Helper Functions Definitions
 */

-static void _patcher_apply_patch(patcher_t *self, size_t index) {
+static void _patcher_apply_patch(patcher_t *self, size_t index)
+{
    abort(); // deprecated function -> remove this code later
 }

-static void _patcher_restore_patch(patcher_t *self, size_t index){
+static void _patcher_restore_patch(patcher_t *self, size_t index)
+{
    abort(); // deprecated function -> remove this code later
 }

-static void _patcher_save_patch(patcher_t *self, size_t index, uint8_t* data, size_t instruction_size, uint64_t addr) {
+static void _patcher_save_patch(patcher_t *self,
+                                size_t     index,
+                                uint8_t   *data,
+                                size_t     instruction_size,
+                                uint64_t   addr)
+{
    assert(instruction_size >= 2);
    assert(instruction_size < MAX_INSTRUCTION_SIZE);
    patch_info_t *info = &self->patches[index];
@ -139,17 +170,24 @@ static void _patcher_save_patch(patcher_t *self, size_t index, uint8_t* data, si
    info->size = instruction_size;
 }

-static size_t _patcher_disassemble_size(patcher_t *self, uint8_t* data, uint64_t addr, x86_insn type){
-
+static size_t _patcher_disassemble_size(patcher_t *self,
+                                        uint8_t   *data,
+                                        uint64_t   addr,
+                                        x86_insn   type)
+{
    csh handle;
-    if (cs_open(CS_ARCH_X86, get_capstone_mode(GET_GLOBAL_STATE()->disassembler_word_width), &handle) == CS_ERR_OK){
+    if (cs_open(CS_ARCH_X86,
+                get_capstone_mode(GET_GLOBAL_STATE()->disassembler_word_width),
+                &handle) == CS_ERR_OK)
+    {
        cs_insn *insn       = cs_malloc(handle);
-      uint8_t* cur_offset = data;
+        uint8_t *cur_offset = data;
        uint64_t cs_address = addr;
        uint64_t code_size  = MAX_INSTRUCTION_SIZE;
-      cs_disasm_iter(handle, (const uint8_t **) &cur_offset, &code_size, &cs_address, insn);
+        cs_disasm_iter(handle, (const uint8_t **)&cur_offset, &code_size,
+                       &cs_address, insn);
        size_t size = insn->size;
-      if(type != X86_INS_INVALID){
+        if (type != X86_INS_INVALID) {
            assert(insn->id == type);
        }
        cs_free(insn, 1);
@ -159,22 +197,25 @@ static size_t _patcher_disassemble_size(patcher_t *self, uint8_t* data, uint64_t
    return 0;
 }

-static void _patcher_alloc_patch_infos(patcher_t *self, size_t num_patches){
+static void _patcher_alloc_patch_infos(patcher_t *self, size_t num_patches)
+{
    assert(self->num_patches == 0);
    assert(self->patches == NULL);
    assert(num_patches < 10000);
    self->num_patches = num_patches;
-  self->patches = malloc(sizeof(patch_info_t)*num_patches);
+    self->patches     = malloc(sizeof(patch_info_t) * num_patches);
 }

-static void _patcher_free_patch_infos(patcher_t *self){
+static void _patcher_free_patch_infos(patcher_t *self)
+{
    assert(!self->is_currently_applied);
    free(self->patches);
    self->patches     = NULL;
    self->num_patches = 0;
 }

-static redqueen_t* _redq_ptr(patcher_t *self){
-  redqueen_t* res = GET_GLOBAL_STATE()->redqueen_state; //self->cpu->redqueen_state;
+static redqueen_t *_redq_ptr(patcher_t *self)
+{
+    redqueen_t *res = GET_GLOBAL_STATE()->redqueen_state; // self->cpu->redqueen_state;
    return res;
 }
--- a/nyx/patcher.h
+++ b/nyx/patcher.h
@ -1,8 +1,8 @@
 #ifndef __GUARD_REDQUEEN_PATCHER_STRUCT__
 #define __GUARD_REDQUEEN_PATCHER_STRUCT__

-#include <stdint.h>
 #include <stddef.h>
+#include <stdint.h>

 #include <capstone/capstone.h>
 #include <capstone/x86.h>
@ -15,16 +15,15 @@
 * which always evaluates to true. This can be used to remove hash checks that
 * we suspsect can later on be patched.
 */
-extern const uint8_t* cmp_patch; 
+extern const uint8_t *cmp_patch;

-typedef struct patch_info_s{
+typedef struct patch_info_s {
    uint64_t addr;
    size_t   size;
    uint8_t  orig_bytes[MAX_INSTRUCTION_SIZE];
 } patch_info_t;

-typedef struct patcher_s{
-
+typedef struct patcher_s {
    CPUState *cpu;

    patch_info_t *patches;
@ -32,7 +31,7 @@ typedef struct patcher_s{
    bool          is_currently_applied;
 } patcher_t;

-patcher_t* patcher_new(CPUState *cpu);
+patcher_t *patcher_new(CPUState *cpu);

 void patcher_free(patcher_t *self);

@ -40,8 +39,8 @@ void patcher_apply_all(patcher_t *self);

 void patcher_restore_all(patcher_t *self);

-//Doesn't take ownership of addrs
-void patcher_set_addrs(patcher_t *self, uint64_t* addrs, size_t num_addrs);
+// Doesn't take ownership of addrs
+void patcher_set_addrs(patcher_t *self, uint64_t *addrs, size_t num_addrs);

 bool patcher_validate_patches(patcher_t *self);

--- a/nyx/pt.c
+++ b/nyx/pt.c
@ -53,56 +53,67 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 #define PT_BUFFER_MMAP_ADDR 0x3ffff0000000

-static void pt_set(CPUState *cpu, run_on_cpu_data arg){
+static void pt_set(CPUState *cpu, run_on_cpu_data arg)
+{
    asm volatile("" ::: "memory");
 }

-static inline int pt_cmd_hmp_context(CPUState *cpu, uint64_t cmd){
+static inline int pt_cmd_hmp_context(CPUState *cpu, uint64_t cmd)
+{
    cpu->pt_ret = -1;
-	if(pt_hypercalls_enabled()){
-		nyx_debug_p(PT_PREFIX, "Error: HMP commands are ignored if kafl tracing mode is enabled (-kafl)!");
-	}
-	else{
+    if (pt_hypercalls_enabled()) {
+        nyx_debug_p(PT_PREFIX, "Error: HMP commands are ignored if kafl tracing "
+                               "mode is enabled (-kafl)!");
+    } else {
        cpu->pt_cmd = cmd;
        run_on_cpu(cpu, pt_set, RUN_ON_CPU_NULL);
    }
    return cpu->pt_ret;
 }

-static int pt_cmd(CPUState *cpu, uint64_t cmd, bool hmp_mode){
-	if (hmp_mode){
+static int pt_cmd(CPUState *cpu, uint64_t cmd, bool hmp_mode)
+{
+    if (hmp_mode) {
        return pt_cmd_hmp_context(cpu, cmd);
-	}
-	else {
+    } else {
        cpu->pt_cmd = cmd;
        pt_pre_kvm_run(cpu);
        return cpu->pt_ret;
    }
 }

-static inline int pt_ioctl(int fd, unsigned long request, unsigned long arg){
-	if (!fd){
+static inline int pt_ioctl(int fd, unsigned long request, unsigned long arg)
+{
+    if (!fd) {
        return -EINVAL;
    }
    return ioctl(fd, request, arg);
 }

-void pt_dump(CPUState *cpu, int bytes){
-	if(!(GET_GLOBAL_STATE()->redqueen_state && GET_GLOBAL_STATE()->redqueen_state->intercept_mode)){
-		if (GET_GLOBAL_STATE()->in_fuzzing_mode && GET_GLOBAL_STATE()->decoder_page_fault == false && GET_GLOBAL_STATE()->decoder && !GET_GLOBAL_STATE()->dump_page){
+void pt_dump(CPUState *cpu, int bytes)
+{
+    if (!(GET_GLOBAL_STATE()->redqueen_state &&
+          GET_GLOBAL_STATE()->redqueen_state->intercept_mode))
+    {
+        if (GET_GLOBAL_STATE()->in_fuzzing_mode &&
+            GET_GLOBAL_STATE()->decoder_page_fault == false &&
+            GET_GLOBAL_STATE()->decoder && !GET_GLOBAL_STATE()->dump_page)
+        {
            GET_GLOBAL_STATE()->pt_trace_size += bytes;
            pt_write_pt_dump_file(cpu->pt_mmap, bytes);
-			decoder_result_t result = libxdc_decode(GET_GLOBAL_STATE()->decoder, cpu->pt_mmap, bytes);
-			switch(result){
+            decoder_result_t result =
+                libxdc_decode(GET_GLOBAL_STATE()->decoder, cpu->pt_mmap, bytes);
+            switch (result) {
            case decoder_success:
                break;
            case decoder_success_pt_overflow:
                cpu->intel_pt_run_trashed = true;
                break;
            case decoder_page_fault:
-					//fprintf(stderr, "Page not found => 0x%lx\n", libxdc_get_page_fault_addr(GET_GLOBAL_STATE()->decoder));
+                // fprintf(stderr, "Page not found => 0x%lx\n", libxdc_get_page_fault_addr(GET_GLOBAL_STATE()->decoder));
                GET_GLOBAL_STATE()->decoder_page_fault = true;
-					GET_GLOBAL_STATE()->decoder_page_fault_addr = libxdc_get_page_fault_addr(GET_GLOBAL_STATE()->decoder);
+                GET_GLOBAL_STATE()->decoder_page_fault_addr =
+                    libxdc_get_page_fault_addr(GET_GLOBAL_STATE()->decoder);
                break;
            case decoder_unkown_packet:
                fprintf(stderr, "WARNING: libxdc_decode returned unknown_packet\n");
@ -116,8 +127,9 @@ void pt_dump(CPUState *cpu, int bytes){
 }


-int pt_enable(CPUState *cpu, bool hmp_mode){
-	if(!fast_reload_set_bitmap(get_fast_reload_snapshot())){
+int pt_enable(CPUState *cpu, bool hmp_mode)
+{
+    if (!fast_reload_set_bitmap(get_fast_reload_snapshot())) {
        coverage_bitmap_reset();
    }
    if (GET_GLOBAL_STATE()->trace_mode) {
@ -128,23 +140,25 @@ int pt_enable(CPUState *cpu, bool hmp_mode){
    return pt_cmd(cpu, KVM_VMX_PT_ENABLE, hmp_mode);
 }

-int pt_disable(CPUState *cpu, bool hmp_mode){
+int pt_disable(CPUState *cpu, bool hmp_mode)
+{
    int r = pt_cmd(cpu, KVM_VMX_PT_DISABLE, hmp_mode);
    return r;
 }

-int pt_set_cr3(CPUState *cpu, uint64_t val, bool hmp_mode){
+int pt_set_cr3(CPUState *cpu, uint64_t val, bool hmp_mode)
+{
    int r = 0;

-	if (val == GET_GLOBAL_STATE()->pt_c3_filter){
+    if (val == GET_GLOBAL_STATE()->pt_c3_filter) {
        return 0; // nothing changed
    }

-	if (cpu->pt_enabled){
+    if (cpu->pt_enabled) {
        return -EINVAL;
    }
-	if (GET_GLOBAL_STATE()->pt_c3_filter && GET_GLOBAL_STATE()->pt_c3_filter != val){
-		//nyx_debug_p(PT_PREFIX, "Reconfigure CR3-Filtering!");
+    if (GET_GLOBAL_STATE()->pt_c3_filter && GET_GLOBAL_STATE()->pt_c3_filter != val) {
+        // nyx_debug_p(PT_PREFIX, "Reconfigure CR3-Filtering!");
        GET_GLOBAL_STATE()->pt_c3_filter = val;
        r += pt_cmd(cpu, KVM_VMX_PT_CONFIGURE_CR3, hmp_mode);
        r += pt_cmd(cpu, KVM_VMX_PT_ENABLE_CR3, hmp_mode);
@ -156,38 +170,49 @@ int pt_set_cr3(CPUState *cpu, uint64_t val, bool hmp_mode){
    return r;
 }

-int pt_enable_ip_filtering(CPUState *cpu, uint8_t addrn, bool redqueen, bool hmp_mode){
+int pt_enable_ip_filtering(CPUState *cpu, uint8_t addrn, bool redqueen, bool hmp_mode)
+{
    int r = 0;

-	if(addrn > 3){
+    if (addrn > 3) {
        return -1;
    }

-	if (cpu->pt_enabled){
+    if (cpu->pt_enabled) {
        return -EINVAL;
    }

-	if(GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] > GET_GLOBAL_STATE()->pt_ip_filter_b[addrn]){
-		nyx_debug_p(PT_PREFIX, "Error (ip_a > ip_b) 0x%lx-0x%lx", GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] , GET_GLOBAL_STATE()->pt_ip_filter_b[addrn]);
+    if (GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] >
+        GET_GLOBAL_STATE()->pt_ip_filter_b[addrn])
+    {
+        nyx_debug_p(PT_PREFIX, "Error (ip_a > ip_b) 0x%lx-0x%lx",
+                    GET_GLOBAL_STATE()->pt_ip_filter_a[addrn],
+                    GET_GLOBAL_STATE()->pt_ip_filter_b[addrn]);
        return -EINVAL;
    }

-	if(GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn]){
+    if (GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn]) {
        pt_disable_ip_filtering(cpu, addrn, hmp_mode);
    }

-	nyx_debug_p(PT_PREFIX, "Configuring new trace region (addr%d, 0x%lx-0x%lx)", addrn, GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] , GET_GLOBAL_STATE()->pt_ip_filter_b[addrn]);
+    nyx_debug_p(PT_PREFIX, "Configuring new trace region (addr%d, 0x%lx-0x%lx)",
+                addrn, GET_GLOBAL_STATE()->pt_ip_filter_a[addrn],
+                GET_GLOBAL_STATE()->pt_ip_filter_b[addrn]);

-	if(GET_GLOBAL_STATE()->pt_ip_filter_configured[addrn] && GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] != 0 && GET_GLOBAL_STATE()->pt_ip_filter_b[addrn] != 0){
-			r += pt_cmd(cpu, KVM_VMX_PT_CONFIGURE_ADDR0+addrn, hmp_mode);
-			r += pt_cmd(cpu, KVM_VMX_PT_ENABLE_ADDR0+addrn, hmp_mode);
+    if (GET_GLOBAL_STATE()->pt_ip_filter_configured[addrn] &&
+        GET_GLOBAL_STATE()->pt_ip_filter_a[addrn] != 0 &&
+        GET_GLOBAL_STATE()->pt_ip_filter_b[addrn] != 0)
+    {
+        r += pt_cmd(cpu, KVM_VMX_PT_CONFIGURE_ADDR0 + addrn, hmp_mode);
+        r += pt_cmd(cpu, KVM_VMX_PT_ENABLE_ADDR0 + addrn, hmp_mode);
        GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn] = true;
    }
    return r;
 }

-void pt_init_decoder(CPUState *cpu){
-	uint64_t filters[4][2] = {0};
+void pt_init_decoder(CPUState *cpu)
+{
+    uint64_t filters[4][2] = { 0 };

    /* TODO time to clean up this code -.- */
    filters[0][0] = GET_GLOBAL_STATE()->pt_ip_filter_a[0];
@ -202,24 +227,31 @@ void pt_init_decoder(CPUState *cpu){
    assert(GET_GLOBAL_STATE()->decoder == NULL);
    assert(GET_GLOBAL_STATE()->shared_bitmap_ptr != NULL);
    assert(GET_GLOBAL_STATE()->shared_bitmap_size != 0);
-	GET_GLOBAL_STATE()->decoder = libxdc_init(filters, (void* (*)(void*, uint64_t, bool*))page_cache_fetch2, GET_GLOBAL_STATE()->page_cache, GET_GLOBAL_STATE()->shared_bitmap_ptr, GET_GLOBAL_STATE()->shared_bitmap_size);
-
-	libxdc_register_bb_callback(GET_GLOBAL_STATE()->decoder, (void (*)(void*, disassembler_mode_t, uint64_t, uint64_t))redqueen_callback, GET_GLOBAL_STATE()->redqueen_state);
-
-	alt_bitmap_init(
+    GET_GLOBAL_STATE()->decoder =
+        libxdc_init(filters, (void *(*)(void *, uint64_t, bool *))page_cache_fetch2,
+                    GET_GLOBAL_STATE()->page_cache,
                    GET_GLOBAL_STATE()->shared_bitmap_ptr,
                    GET_GLOBAL_STATE()->shared_bitmap_size);
+
+    libxdc_register_bb_callback(GET_GLOBAL_STATE()->decoder,
+                                (void (*)(void *, disassembler_mode_t, uint64_t,
+                                          uint64_t))redqueen_callback,
+                                GET_GLOBAL_STATE()->redqueen_state);
+
+    alt_bitmap_init(GET_GLOBAL_STATE()->shared_bitmap_ptr,
+                    GET_GLOBAL_STATE()->shared_bitmap_size);
 }

-int pt_disable_ip_filtering(CPUState *cpu, uint8_t addrn, bool hmp_mode){
+int pt_disable_ip_filtering(CPUState *cpu, uint8_t addrn, bool hmp_mode)
+{
    int r = 0;
-	switch(addrn){
+    switch (addrn) {
    case 0:
    case 1:
    case 2:
    case 3:
-			r = pt_cmd(cpu, KVM_VMX_PT_DISABLE_ADDR0+addrn, hmp_mode);
-			if(GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn]){
+        r = pt_cmd(cpu, KVM_VMX_PT_DISABLE_ADDR0 + addrn, hmp_mode);
+        if (GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn]) {
            GET_GLOBAL_STATE()->pt_ip_filter_enabled[addrn] = false;
        }
        break;
@ -229,7 +261,8 @@ int pt_disable_ip_filtering(CPUState *cpu, uint8_t addrn, bool hmp_mode){
    return r;
 }

-void pt_kvm_init(CPUState *cpu){
+void pt_kvm_init(CPUState *cpu)
+{
    cpu->pt_cmd     = 0;
    cpu->pt_enabled = false;
    cpu->pt_fd      = 0;
@ -247,48 +280,51 @@ struct vmx_pt_filter_iprs {

 pthread_mutex_t pt_dump_mutex = PTHREAD_MUTEX_INITIALIZER;

-void pt_pre_kvm_run(CPUState *cpu){
+void pt_pre_kvm_run(CPUState *cpu)
+{
    pthread_mutex_lock(&pt_dump_mutex);
    int                       ret;
    struct vmx_pt_filter_iprs filter_iprs;

-	if(GET_GLOBAL_STATE()->patches_disable_pending){
-		//nyx_debug_p(REDQUEEN_PREFIX, "patches disable");
+    if (GET_GLOBAL_STATE()->patches_disable_pending) {
+        // nyx_debug_p(REDQUEEN_PREFIX, "patches disable");
        assert(false); /* remove this branch */
        GET_GLOBAL_STATE()->patches_disable_pending = false;
    }

-	if(GET_GLOBAL_STATE()->patches_enable_pending){
-		//nyx_debug_p(REDQUEEN_PREFIX, "patches enable");
+    if (GET_GLOBAL_STATE()->patches_enable_pending) {
+        // nyx_debug_p(REDQUEEN_PREFIX, "patches enable");
        assert(false); /* remove this branch */
        GET_GLOBAL_STATE()->patches_enable_pending = false;
    }


-	if(GET_GLOBAL_STATE()->redqueen_enable_pending){
-		//nyx_debug_p(REDQUEEN_PREFIX, "rq enable");
-		if (GET_GLOBAL_STATE()->redqueen_state){
+    if (GET_GLOBAL_STATE()->redqueen_enable_pending) {
+        // nyx_debug_p(REDQUEEN_PREFIX, "rq enable");
+        if (GET_GLOBAL_STATE()->redqueen_state) {
            enable_rq_intercept_mode(GET_GLOBAL_STATE()->redqueen_state);
        }
        GET_GLOBAL_STATE()->redqueen_enable_pending = false;
    }

-	if(GET_GLOBAL_STATE()->redqueen_disable_pending){
-		//nyx_debug_p(REDQUEEN_PREFIX, "rq disable");
-		if (GET_GLOBAL_STATE()->redqueen_state){
+    if (GET_GLOBAL_STATE()->redqueen_disable_pending) {
+        // nyx_debug_p(REDQUEEN_PREFIX, "rq disable");
+        if (GET_GLOBAL_STATE()->redqueen_state) {
            disable_rq_intercept_mode(GET_GLOBAL_STATE()->redqueen_state);
        }
        GET_GLOBAL_STATE()->redqueen_disable_pending = false;
    }

-	if(GET_GLOBAL_STATE()->pt_trace_mode || GET_GLOBAL_STATE()->pt_trace_mode_force){		
+    if (GET_GLOBAL_STATE()->pt_trace_mode || GET_GLOBAL_STATE()->pt_trace_mode_force)
+    {
        if (!cpu->pt_fd) {
            cpu->pt_fd = kvm_vcpu_ioctl(cpu, KVM_VMX_PT_SETUP_FD, (unsigned long)0);
            assert(cpu->pt_fd != -1);
            ret = ioctl(cpu->pt_fd, KVM_VMX_PT_GET_TOPA_SIZE, (unsigned long)0x0);

-			cpu->pt_mmap = mmap((void*)PT_BUFFER_MMAP_ADDR, ret, PROT_READ|PROT_WRITE, MAP_SHARED, cpu->pt_fd, 0);
-			assert(cpu->pt_mmap != (void*)0xFFFFFFFFFFFFFFFF);
+            cpu->pt_mmap = mmap((void *)PT_BUFFER_MMAP_ADDR, ret,
+                                PROT_READ | PROT_WRITE, MAP_SHARED, cpu->pt_fd, 0);
+            assert(cpu->pt_mmap != (void *)0xFFFFFFFFFFFFFFFF);
            // add an extra page to have enough space for an additional PT_TRACE_END byte
            assert(mmap(cpu->pt_mmap + ret, 0x1000, PROT_READ | PROT_WRITE,
                        MAP_ANONYMOUS | MAP_FIXED | MAP_PRIVATE, -1,
@ -296,26 +332,27 @@ void pt_pre_kvm_run(CPUState *cpu){

            nyx_debug("=> pt_mmap: %p - %p\n", cpu->pt_mmap, cpu->pt_mmap + ret);

-			memset(cpu->pt_mmap+ret, 0x55, 0x1000);
+            memset(cpu->pt_mmap + ret, 0x55, 0x1000);
        }

-		if (cpu->pt_cmd){
-			switch(cpu->pt_cmd){
+        if (cpu->pt_cmd) {
+            switch (cpu->pt_cmd) {
            case KVM_VMX_PT_ENABLE:
-					if (cpu->pt_fd){
+                if (cpu->pt_fd) {
                    /* dump for the very last time before enabling VMX_PT ... just in case */
-						ioctl(cpu->pt_fd, KVM_VMX_PT_CHECK_TOPA_OVERFLOW, (unsigned long)0);
+                    ioctl(cpu->pt_fd, KVM_VMX_PT_CHECK_TOPA_OVERFLOW,
+                          (unsigned long)0);

-						if (!ioctl(cpu->pt_fd, cpu->pt_cmd, 0)){
+                    if (!ioctl(cpu->pt_fd, cpu->pt_cmd, 0)) {
                        cpu->pt_enabled = true;
                    }
                }
                break;
            case KVM_VMX_PT_DISABLE:
-					if (cpu->pt_fd){
+                if (cpu->pt_fd) {
                    ret = ioctl(cpu->pt_fd, cpu->pt_cmd, 0);
-						if (ret > 0){
-							//nyx_debug_p(PT_PREFIX, "KVM_VMX_PT_DISABLE %d", ret);
+                    if (ret > 0) {
+                        // nyx_debug_p(PT_PREFIX, "KVM_VMX_PT_DISABLE %d", ret);
                        pt_dump(cpu, ret);
                        cpu->pt_enabled = false;
                    }
@ -327,8 +364,12 @@ void pt_pre_kvm_run(CPUState *cpu){
            case KVM_VMX_PT_CONFIGURE_ADDR1:
            case KVM_VMX_PT_CONFIGURE_ADDR2:
            case KVM_VMX_PT_CONFIGURE_ADDR3:
-					filter_iprs.a = GET_GLOBAL_STATE()->pt_ip_filter_a[(cpu->pt_cmd)-KVM_VMX_PT_CONFIGURE_ADDR0];
-					filter_iprs.b = GET_GLOBAL_STATE()->pt_ip_filter_b[(cpu->pt_cmd)-KVM_VMX_PT_CONFIGURE_ADDR0];
+                filter_iprs.a =
+                    GET_GLOBAL_STATE()
+                        ->pt_ip_filter_a[(cpu->pt_cmd) - KVM_VMX_PT_CONFIGURE_ADDR0];
+                filter_iprs.b =
+                    GET_GLOBAL_STATE()
+                        ->pt_ip_filter_b[(cpu->pt_cmd) - KVM_VMX_PT_CONFIGURE_ADDR0];
                ret = pt_ioctl(cpu->pt_fd, cpu->pt_cmd, (unsigned long)&filter_iprs);
                break;
            case KVM_VMX_PT_ENABLE_ADDR0:
@ -338,13 +379,14 @@ void pt_pre_kvm_run(CPUState *cpu){
                ret = pt_ioctl(cpu->pt_fd, cpu->pt_cmd, (unsigned long)0);
                break;
            case KVM_VMX_PT_CONFIGURE_CR3:
-					ret = pt_ioctl(cpu->pt_fd, cpu->pt_cmd, GET_GLOBAL_STATE()->pt_c3_filter);
+                ret = pt_ioctl(cpu->pt_fd, cpu->pt_cmd,
+                               GET_GLOBAL_STATE()->pt_c3_filter);
                break;
            case KVM_VMX_PT_ENABLE_CR3:
                ret = pt_ioctl(cpu->pt_fd, cpu->pt_cmd, (unsigned long)0);
                break;
            default:
-					if (cpu->pt_fd){
+                if (cpu->pt_fd) {
                    ioctl(cpu->pt_fd, cpu->pt_cmd, 0);
                }
                break;
@ -356,17 +398,20 @@ void pt_pre_kvm_run(CPUState *cpu){
    pthread_mutex_unlock(&pt_dump_mutex);
 }

-void pt_handle_overflow(CPUState *cpu){
+void pt_handle_overflow(CPUState *cpu)
+{
    pthread_mutex_lock(&pt_dump_mutex);
    int overflow = ioctl(cpu->pt_fd, KVM_VMX_PT_CHECK_TOPA_OVERFLOW, (unsigned long)0);
-	if (overflow > 0){
+    if (overflow > 0) {
        pt_dump(cpu, overflow);
    }
    pthread_mutex_unlock(&pt_dump_mutex);
 }

-void pt_post_kvm_run(CPUState *cpu){
-	if(GET_GLOBAL_STATE()->pt_trace_mode || GET_GLOBAL_STATE()->pt_trace_mode_force){
+void pt_post_kvm_run(CPUState *cpu)
+{
+    if (GET_GLOBAL_STATE()->pt_trace_mode || GET_GLOBAL_STATE()->pt_trace_mode_force)
+    {
        pt_handle_overflow(cpu);
    }
 }
--- a/nyx/pt.h
+++ b/nyx/pt.h
@ -38,4 +38,3 @@ void pt_handle_overflow(CPUState *cpu);
 void pt_dump(CPUState *cpu, int bytes);

 #endif
-
--- a/nyx/redqueen.c
+++ b/nyx/redqueen.c
--- a/nyx/redqueen.h
+++ b/nyx/redqueen.h
@ -22,26 +22,26 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #pragma once
 #include "qemu/osdep.h"

-#include <stddef.h>
-#include <stdlib.h>
-#include <string.h>
-#include <stdint.h>
-#include <stdbool.h>
-#include <linux/kvm.h>
-#include <capstone/capstone.h>
-#include <capstone/x86.h>
-#include "nyx/redqueen_trace.h"
 #include "nyx/khash.h"
 #include "nyx/page_cache.h"
+#include "nyx/redqueen_trace.h"
+#include <capstone/capstone.h>
+#include <capstone/x86.h>
+#include <linux/kvm.h>
+#include <stdbool.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <string.h>

-//#define RQ_DEBUG
+// #define RQ_DEBUG

 #define REDQUEEN_MAX_STRCMP_LEN 64
 #define REDQUEEN_TRAP_LIMIT     16

 #define REG64_NUM 16
 #define REG32_NUM 16
-//seems we don't want to include rip, since this index is used to acces the qemu cpu structure or something?
+// seems we don't want to include rip, since this index is used to acces the qemu cpu structure or something?
 #define REG16_NUM 16
 #define REG8L_NUM 16
 #define REG8H_NUM 8
@ -54,20 +54,38 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #define REDQUEEN_SE_INSTRUMENTATION        2
 #define REDQUEEN_WHITELIST_INSTRUMENTATION 3

-enum reg_types{RAX, RCX, RDX, RBX, RSP, RBP, RSI, RDI, R8, R9, R10, R11, R12, R13, R14, R15};
+enum reg_types {
+    RAX,
+    RCX,
+    RDX,
+    RBX,
+    RSP,
+    RBP,
+    RSI,
+    RDI,
+    R8,
+    R9,
+    R10,
+    R11,
+    R12,
+    R13,
+    R14,
+    R15
+};

 #define CMP_BITMAP_NOP            0x0000000UL
 #define CMP_BITMAP_RQ_INSTRUCTION 0x1000000UL
 #define CMP_BITMAP_SE_INSTRUCTION 0x2000000UL
 #define CMP_BITMAP_BLACKLISTED    0x4000000UL
 #define CMP_BITMAP_TRACE_ENABLED  0x8000000UL
-#define CMP_BITMAP_SHOULD_HOOK_SE 			(CMP_BITMAP_SE_INSTRUCTION|CMP_BITMAP_TRACE_ENABLED)
+#define CMP_BITMAP_SHOULD_HOOK_SE \
+    (CMP_BITMAP_SE_INSTRUCTION | CMP_BITMAP_TRACE_ENABLED)
 #define CMP_BITMAP_SHOULD_HOOK_RQ (CMP_BITMAP_RQ_INSTRUCTION)

 KHASH_MAP_INIT_INT64(RQ, uint32_t)

-typedef struct redqueen_s{
-	khash_t(RQ) *lookup;
+typedef struct redqueen_s {
+    khash_t(RQ) * lookup;
    bool              intercept_mode;
    bool              singlestep_enabled;
    int               hooks_applied;
@ -76,46 +94,48 @@ typedef struct redqueen_s{
    uint64_t          next_rip;
    uint64_t         *breakpoint_whitelist;
    uint64_t          num_breakpoint_whitelist;
-  redqueen_trace_t* trace_state; 
-  page_cache_t* page_cache;
+    redqueen_trace_t *trace_state;
+    page_cache_t     *page_cache;
 } redqueen_t;

-typedef struct redqueen_workdir_s{
-  char* redqueen_results;
-  char* symbolic_results;
-  char* pt_trace_results;
-  char* redqueen_patches;
-  char* breakpoint_white;
-  char* breakpoint_black;
-  char* target_code_dump;
+typedef struct redqueen_workdir_s {
+    char *redqueen_results;
+    char *symbolic_results;
+    char *pt_trace_results;
+    char *redqueen_patches;
+    char *breakpoint_white;
+    char *breakpoint_black;
+    char *target_code_dump;
 } redqueen_workdir_t;

 extern redqueen_workdir_t redqueen_workdir;

-void setup_redqueen_workdir(char* workdir);
+void setup_redqueen_workdir(char *workdir);

-redqueen_t* new_rq_state(CPUState *cpu, page_cache_t* page_cache);
-void destroy_rq_state(redqueen_t* self);
+redqueen_t *new_rq_state(CPUState *cpu, page_cache_t *page_cache);
+void        destroy_rq_state(redqueen_t *self);

-void set_rq_instruction(redqueen_t* self, uint64_t addr);
-void set_rq_blacklist(redqueen_t* self, uint64_t addr);
+void set_rq_instruction(redqueen_t *self, uint64_t addr);
+void set_rq_blacklist(redqueen_t *self, uint64_t addr);

-void handle_hook(redqueen_t* self);
-void handel_se_hook(redqueen_t* self);
+void handle_hook(redqueen_t *self);
+void handel_se_hook(redqueen_t *self);

-void enable_rq_intercept_mode(redqueen_t* self);
-void disable_rq_intercept_mode(redqueen_t* self);
+void enable_rq_intercept_mode(redqueen_t *self);
+void disable_rq_intercept_mode(redqueen_t *self);


-void set_se_instruction(redqueen_t* self, uint64_t addr);
+void set_se_instruction(redqueen_t *self, uint64_t addr);

-void dump_se_registers(redqueen_t* self);
-void dump_se_memory_access(redqueen_t* self, cs_insn* insn);
-void dump_se_return_access(redqueen_t* self, cs_insn* insn);
-void dump_se_memory_access_at(redqueen_t* self, uint64_t instr_addr, uint64_t mem_addr);
+void dump_se_registers(redqueen_t *self);
+void dump_se_memory_access(redqueen_t *self, cs_insn *insn);
+void dump_se_return_access(redqueen_t *self, cs_insn *insn);
+void dump_se_memory_access_at(redqueen_t *self, uint64_t instr_addr, uint64_t mem_addr);

-void redqueen_insert_hooks(redqueen_t* self);
-void redqueen_remove_hooks(redqueen_t* self);
-
-void redqueen_callback(void* opaque, disassembler_mode_t mode, uint64_t start_addr, uint64_t end_addr);
+void redqueen_insert_hooks(redqueen_t *self);
+void redqueen_remove_hooks(redqueen_t *self);

+void redqueen_callback(void               *opaque,
+                       disassembler_mode_t mode,
+                       uint64_t            start_addr,
+                       uint64_t            end_addr);
--- a/nyx/redqueen_patch.c
+++ b/nyx/redqueen_patch.c
@ -1,26 +1,28 @@
 #include "qemu/osdep.h"
 #include "redqueen_patch.h"
-#include "redqueen.h"
-#include "patcher.h"
-#include "file_helper.h"
 #include "debug.h"
+#include "file_helper.h"
+#include "patcher.h"
+#include "redqueen.h"

 /*
 * Private Helper Functions Declarations
 */

-void _load_and_set_patches(patcher_t* self);
+void _load_and_set_patches(patcher_t *self);

 /*
 * Public Functions
 */

-void pt_enable_patches(patcher_t *self){
+void pt_enable_patches(patcher_t *self)
+{
    _load_and_set_patches(self);
    patcher_apply_all(self);
 }

-void pt_disable_patches(patcher_t *self){
+void pt_disable_patches(patcher_t *self)
+{
    patcher_restore_all(self);
 }

@ -30,11 +32,12 @@ void pt_disable_patches(patcher_t *self){
 */


-void _load_and_set_patches(patcher_t* self){
+void _load_and_set_patches(patcher_t *self)
+{
    size_t    num_addrs = 0;
    uint64_t *addrs     = NULL;
    parse_address_file(redqueen_workdir.redqueen_patches, &num_addrs, &addrs);
-  if(num_addrs){
+    if (num_addrs) {
        patcher_set_addrs(self, addrs, num_addrs);
        free(addrs);
    }
--- a/nyx/redqueen_trace.c
+++ b/nyx/redqueen_trace.c
@ -1,27 +1,27 @@
 #include "qemu/osdep.h"
-#include <stdint.h>
-#include <unistd.h>
-#include <stdio.h>
 #include <assert.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <unistd.h>

-#include "redqueen_trace.h"
 #include "redqueen.h"
+#include "redqueen_trace.h"
 #include "state/state.h"


 /* write full trace of edge transitions rather than sorted list? */
-//#define KAFL_FULL_TRACES
+// #define KAFL_FULL_TRACES

 int trace_fd               = 0;
 int redqueen_trace_enabled = false;

 uint32_t alt_bitmap_size = 0;
-uint8_t* alt_bitmap = NULL;
+uint8_t *alt_bitmap      = NULL;

-void alt_bitmap_init(void* ptr, uint32_t size)
+void alt_bitmap_init(void *ptr, uint32_t size)
 {
    if (redqueen_trace_enabled) {
-		alt_bitmap = (uint8_t*)ptr;
+        alt_bitmap      = (uint8_t *)ptr;
        alt_bitmap_size = size;
    }
 }
@ -33,7 +33,8 @@ void alt_bitmap_reset(void)
    }
 }

-static inline uint64_t mix_bits(uint64_t v) {
+static inline uint64_t mix_bits(uint64_t v)
+{
    v ^= (v >> 31);
    v *= 0x7fb5d329728ea185;
    return v;
@ -48,18 +49,20 @@ static void alt_bitmap_add(uint64_t from, uint64_t to)
    uint64_t transition_value;

    if (GET_GLOBAL_STATE()->trace_mode) {
-		if(alt_bitmap) {
-			transition_value = mix_bits(to)^(mix_bits(from)>>1);
-			alt_bitmap[transition_value & (alt_bitmap_size-1)]++;
+        if (alt_bitmap) {
+            transition_value = mix_bits(to) ^ (mix_bits(from) >> 1);
+            alt_bitmap[transition_value & (alt_bitmap_size - 1)]++;
        }
    }
 }


-static int reset_trace_fd(void) {
+static int reset_trace_fd(void)
+{
    if (trace_fd)
        close(trace_fd);
-	trace_fd = open(redqueen_workdir.pt_trace_results, O_WRONLY | O_CREAT | O_TRUNC, 0644);
+    trace_fd =
+        open(redqueen_workdir.pt_trace_results, O_WRONLY | O_CREAT | O_TRUNC, 0644);
    if (trace_fd < 0) {
        fprintf(stderr, "Failed to initiate trace output: %s\n", strerror(errno));
        assert(0);
@ -67,26 +70,34 @@ static int reset_trace_fd(void) {
    return trace_fd;
 }

-void redqueen_trace_init(void) {
+void redqueen_trace_init(void)
+{
    redqueen_trace_enabled = true;
 }

-redqueen_trace_t* redqueen_trace_new(void){
-	redqueen_trace_t* self = malloc(sizeof(redqueen_trace_t));
+redqueen_trace_t *redqueen_trace_new(void)
+{
+    redqueen_trace_t *self        = malloc(sizeof(redqueen_trace_t));
    self->lookup                  = kh_init(RQ_TRACE);
    self->num_ordered_transitions = 0;
    self->max_ordered_transitions = INIT_NUM_OF_STORED_TRANSITIONS;
-	self->ordered_transitions = malloc(INIT_NUM_OF_STORED_TRANSITIONS*sizeof(uint128_t));
+    self->ordered_transitions =
+        malloc(INIT_NUM_OF_STORED_TRANSITIONS * sizeof(uint128_t));
    return self;
 }

-void redqueen_trace_free(redqueen_trace_t* self){
+void redqueen_trace_free(redqueen_trace_t *self)
+{
    kh_destroy(RQ_TRACE, self->lookup);
    free(self->ordered_transitions);
    free(self);
 }

-void redqueen_trace_register_transition(redqueen_trace_t* self, disassembler_mode_t mode, uint64_t from, uint64_t to){
+void redqueen_trace_register_transition(redqueen_trace_t   *self,
+                                        disassembler_mode_t mode,
+                                        uint64_t            from,
+                                        uint64_t            to)
+{
    khiter_t k;
    int      ret;
    uint64_t exit_ip = 0xffffffffffffffff;
@ -98,11 +109,11 @@ void redqueen_trace_register_transition(redqueen_trace_t* self, disassembler_mod
    dprintf(trace_fd, "%lx,%lx\n", from, to);
    return;
 #endif
-	uint128_t key = (((uint128_t)from)<<64) | ((uint128_t)to);
+    uint128_t key = (((uint128_t)from) << 64) | ((uint128_t)to);
    k             = kh_get(RQ_TRACE, self->lookup, key);
-	if(k != kh_end(self->lookup)){
+    if (k != kh_end(self->lookup)) {
        kh_value(self->lookup, k) += 1;
-	} else{
+    } else {
        k                         = kh_put(RQ_TRACE, self->lookup, key, &ret);
        kh_value(self->lookup, k) = 1;
        self->ordered_transitions[self->num_ordered_transitions] = key;
@ -111,22 +122,25 @@ void redqueen_trace_register_transition(redqueen_trace_t* self, disassembler_mod
    }
 }

-static void redqueen_trace_write(void){
+static void redqueen_trace_write(void)
+{
 #ifdef KAFL_FULL_TRACES
    return;
 #endif
    redqueen_trace_t *self = GET_GLOBAL_STATE()->redqueen_state->trace_state;
    assert(trace_fd >= 0);
-	for(size_t i = 0; i < self->num_ordered_transitions; i++){
+    for (size_t i = 0; i < self->num_ordered_transitions; i++) {
        khiter_t  k;
        uint128_t key = self->ordered_transitions[i];
        k             = kh_get(RQ_TRACE, self->lookup, key);
        assert(k != kh_end(self->lookup));
-		dprintf(trace_fd, "%lx,%lx,%lx\n",  (uint64_t)(key>>64), (uint64_t)key, kh_value(self->lookup, k) );
+        dprintf(trace_fd, "%lx,%lx,%lx\n", (uint64_t)(key >> 64), (uint64_t)key,
+                kh_value(self->lookup, k));
    }
 }

-static void redqueen_state_reset(void){
+static void redqueen_state_reset(void)
+{
    redqueen_trace_t *self = GET_GLOBAL_STATE()->redqueen_state->trace_state;
    kh_destroy(RQ_TRACE, self->lookup);
    self->lookup                  = kh_init(RQ_TRACE);
@ -134,14 +148,16 @@ static void redqueen_state_reset(void){
 }


-void redqueen_trace_reset(void){
+void redqueen_trace_reset(void)
+{
    if (redqueen_trace_enabled) {
        redqueen_state_reset();
        reset_trace_fd();
    }
 }

-void redqueen_trace_flush(void){
+void redqueen_trace_flush(void)
+{
    if (redqueen_trace_enabled) {
        redqueen_trace_write();
        if (trace_fd)
@ -149,32 +165,36 @@ void redqueen_trace_flush(void){
    }
 }

-void redqueen_set_trace_mode(void){
+void redqueen_set_trace_mode(void)
+{
    if (redqueen_trace_enabled) {
        libxdc_enable_tracing(GET_GLOBAL_STATE()->decoder);
        libxdc_register_edge_callback(GET_GLOBAL_STATE()->decoder,
-				(void (*)(void*, disassembler_mode_t, uint64_t, uint64_t))&redqueen_trace_register_transition,
+                                      (void (*)(void *, disassembler_mode_t,
+                                                uint64_t, uint64_t)) &
+                                          redqueen_trace_register_transition,
                                      GET_GLOBAL_STATE()->redqueen_state->trace_state);
    }
 }

-void redqueen_unset_trace_mode(void){
+void redqueen_unset_trace_mode(void)
+{
    if (redqueen_trace_enabled) {
        libxdc_disable_tracing(GET_GLOBAL_STATE()->decoder);
    }
 }

 #ifdef DEBUG_MAIN
-int main(int argc, char** argv){
-
-	redqueen_trace_t* rq_obj = redqueen_trace_new();
+int main(int argc, char **argv)
+{
+    redqueen_trace_t *rq_obj = redqueen_trace_new();

    reset_trace_fd();

-	for (uint64_t j = 0; j < 0x5; j++){
+    for (uint64_t j = 0; j < 0x5; j++) {
        redqueen_trace_register_transition(rq_obj, 0xBADF, 0xC0FFEE);
        redqueen_trace_register_transition(rq_obj, 0xBADBEEF, 0xC0FFEE);
-		for (uint64_t i = 0; i < 0x10000; i++){
+        for (uint64_t i = 0; i < 0x10000; i++) {
            redqueen_trace_register_transition(rq_obj, 0xBADBEEF, 0xC0FFEE);
        }
        redqueen_trace_write(rq_obj, STDOUT_FILENO);
--- a/nyx/redqueen_trace.h
+++ b/nyx/redqueen_trace.h
@ -1,9 +1,9 @@
 #pragma once

+#include <stdbool.h>
+#include <stdint.h>
 #include <stdlib.h>
 #include <string.h>
-#include <stdint.h>
-#include <stdbool.h>

 #include "qemu/osdep.h"

@ -21,7 +21,8 @@ typedef uint128_t khint128_t;
  @return       The hash value [khint_t]
 */
 #define kh_int128_hash_func(key)                     \
-    (khint32_t)((key) >> 33 ^ (key) ^ (key) << 11) ^ (((key >> 64)) >> 33 ^ ((key >> 64)) ^ ((key >> 64)) << 11)
+    (khint32_t)((key) >> 33 ^ (key) ^ (key) << 11) ^ \
+        (((key >> 64)) >> 33 ^ ((key >> 64)) ^ ((key >> 64)) << 11)
 /*! @function
  @abstract     64-bit integer comparison function
 */
@ -33,26 +34,30 @@ typedef uint128_t khint128_t;
  @param  khval_t  Type of values [type]
 */
 #define KHASH_MAP_INIT_INT128(name, khval_t)                      \
-	KHASH_INIT(name, khint128_t, khval_t, 1, kh_int128_hash_func, kh_int128_hash_equal)
+    KHASH_INIT(name, khint128_t, khval_t, 1, kh_int128_hash_func, \
+               kh_int128_hash_equal)

 KHASH_MAP_INIT_INT128(RQ_TRACE, uint64_t)

 #define INIT_TRACE_IP 0xFFFFFFFFFFFFFFFFULL

-typedef struct redqueen_trace_s{
-	khash_t(RQ_TRACE) *lookup;
+typedef struct redqueen_trace_s {
+    khash_t(RQ_TRACE) * lookup;
    size_t     num_ordered_transitions;
    size_t     max_ordered_transitions;
-	uint128_t* ordered_transitions;
+    uint128_t *ordered_transitions;
 } redqueen_trace_t;

 /* libxdc outputs no bitmap in trace mode */
 void alt_bitmap_reset(void);
-void alt_bitmap_init(void* ptr, uint32_t size);
+void alt_bitmap_init(void *ptr, uint32_t size);

-redqueen_trace_t* redqueen_trace_new(void);
-void redqueen_trace_free(redqueen_trace_t* self);
-void redqueen_trace_register_transition(redqueen_trace_t* self, disassembler_mode_t mode, uint64_t from, uint64_t to);
+redqueen_trace_t *redqueen_trace_new(void);
+void              redqueen_trace_free(redqueen_trace_t *self);
+void              redqueen_trace_register_transition(redqueen_trace_t   *self,
+                                                     disassembler_mode_t mode,
+                                                     uint64_t            from,
+                                                     uint64_t            to);

 void redqueen_trace_init(void);
 void redqueen_set_trace_mode(void);
--- a/nyx/sharedir.c
+++ b/nyx/sharedir.c
@ -11,10 +11,11 @@
 #include "nyx/debug.h"
 #include "sharedir.h"

-//#define SHAREDIR_DEBUG
+// #define SHAREDIR_DEBUG

-sharedir_t* sharedir_new(void){
-	sharedir_t* self = malloc(sizeof(sharedir_t));
+sharedir_t *sharedir_new(void)
+{
+    sharedir_t *self        = malloc(sizeof(sharedir_t));
    self->dir               = NULL;
    self->lookup            = kh_init(SHAREDIR_LOOKUP);
    self->last_file_f       = NULL;
@ -22,39 +23,43 @@ sharedir_t* sharedir_new(void){
    return self;
 }

-void sharedir_set_dir(sharedir_t* self, const char* dir){
+void sharedir_set_dir(sharedir_t *self, const char *dir)
+{
    assert(!self->dir);
    assert(asprintf(&self->dir, "%s", dir) != -1);
 }

-static bool file_exits(const char* file){
+static bool file_exits(const char *file)
+{
    struct stat sb;
-	return (stat (file, &sb) == 0);
+    return (stat(file, &sb) == 0);
 }

-static time_t get_file_mod_time(char *file){
+static time_t get_file_mod_time(char *file)
+{
    struct stat attr;
    stat(file, &attr);
    return attr.st_mtime;
 }

-static size_t get_file_size(const char* file){
+static size_t get_file_size(const char *file)
+{
    struct stat st;
    stat(file, &st);
    return st.st_size;
 }

-static char* sharedir_scan(sharedir_t* self, const char* file){
-
+static char *sharedir_scan(sharedir_t *self, const char *file)
+{
    /*
     * Agent is not under our control, but lets roughly constrain
     * it to anything stored in or linked from sharedir
     */
    chdir(self->dir);
-  char* real_path = realpath(file, NULL);
+    char *real_path = realpath(file, NULL);

-  if (file[0] != '/' && !strstr(file, "/../") &&
-      real_path && file_exits(real_path)) {
+    if (file[0] != '/' && !strstr(file, "/../") && real_path && file_exits(real_path))
+    {
        return real_path;
    }

@ -62,14 +67,15 @@ static char* sharedir_scan(sharedir_t* self, const char* file){
    return NULL;
 }

-static sharedir_file_t* sharedir_get_object(sharedir_t* self, const char* file){
+static sharedir_file_t *sharedir_get_object(sharedir_t *self, const char *file)
+{
    khiter_t         k;
    int              ret;
-  sharedir_file_t* obj = NULL;
+    sharedir_file_t *obj = NULL;

    k = kh_get(SHAREDIR_LOOKUP, self->lookup, file);

-  if(k != kh_end(self->lookup)){
+    if (k != kh_end(self->lookup)) {
        /* file already exists in our hash map */
        obj = kh_value(self->lookup, k);

@ -83,13 +89,12 @@ static sharedir_file_t* sharedir_get_object(sharedir_t* self, const char* file){
        assert(get_file_size(obj->path) == obj->size);

        return obj;
-  }
-  else{
+    } else {
        /* nope ! */
-    char* realpath = sharedir_scan(self, file);
+        char       *realpath = sharedir_scan(self, file);
        struct stat sb;
-    if(realpath != NULL){
-      if (stat(realpath, &sb) == 0 && S_ISDIR(sb.st_mode)){
+        if (realpath != NULL) {
+            if (stat(realpath, &sb) == 0 && S_ISDIR(sb.st_mode)) {
                return NULL; // is dir
            }
            obj = malloc(sizeof(sharedir_file_t));
@ -97,11 +102,11 @@ static sharedir_file_t* sharedir_get_object(sharedir_t* self, const char* file){
            assert(asprintf(&obj->file, "%s", basename(realpath)) != -1);
            obj->path       = realpath;
            obj->size       = get_file_size(obj->path);
-      obj->bytes_left = (uint64_t) obj->size;
+            obj->bytes_left = (uint64_t)obj->size;
            obj->mod_time   = get_file_mod_time(obj->path);

            /* put into hash_list */
-      char* new_file = NULL;
+            char *new_file = NULL;
            assert(asprintf(&new_file, "%s", file) != -1);
            k = kh_put(SHAREDIR_LOOKUP, self->lookup, new_file, &ret);
            kh_value(self->lookup, k) = obj;
@ -114,62 +119,62 @@ static sharedir_file_t* sharedir_get_object(sharedir_t* self, const char* file){
    }
 }

-static FILE* get_file_ptr(sharedir_t* self, sharedir_file_t* obj){
-  if(obj == self->last_file_obj_ptr && self->last_file_f){
+static FILE *get_file_ptr(sharedir_t *self, sharedir_file_t *obj)
+{
+    if (obj == self->last_file_obj_ptr && self->last_file_f) {
        return self->last_file_f;
    }

-  if(self->last_file_f){
+    if (self->last_file_f) {
        fclose(self->last_file_f);
    }

-  FILE* f = fopen(obj->path, "r");
+    FILE *f                 = fopen(obj->path, "r");
    self->last_file_f       = f;
    self->last_file_obj_ptr = obj;
    return f;
 }

-uint64_t sharedir_request_file(sharedir_t* self, const char* file, uint8_t* page_buffer){
-  if(!self->dir){
-    fprintf(stderr, "WARNING: New file request received, but no share dir configured! [FILE: %s]\n", file);
+uint64_t sharedir_request_file(sharedir_t *self, const char *file, uint8_t *page_buffer)
+{
+    if (!self->dir) {
+        fprintf(stderr, "WARNING: New file request received, but no share dir configured! [FILE: %s]\n",
+                file);
        return 0xFFFFFFFFFFFFFFFFUL;
    }

-  FILE* f = NULL;
+    FILE *f = NULL;

-  sharedir_file_t* obj = sharedir_get_object(self, file);
-  if(obj != NULL){
+    sharedir_file_t *obj = sharedir_get_object(self, file);
+    if (obj != NULL) {
 #ifdef SHAREDIR_DEBUG
        printf("sharedir_get_object->file: %s\n", obj->file);
        printf("sharedir_get_object->path: %s\n", obj->path);
        printf("sharedir_get_object->size: %ld\n", obj->size);
        printf("sharedir_get_object->bytes_left: %ld\n", obj->bytes_left);
 #endif
-    if(obj->bytes_left >= 0x1000){
+        if (obj->bytes_left >= 0x1000) {
            f = get_file_ptr(self, obj);
-      fseek(f, obj->size-obj->bytes_left, SEEK_SET);
+            fseek(f, obj->size - obj->bytes_left, SEEK_SET);
            assert(fread(page_buffer, 1, 0x1000, f) == 0x1000);
            obj->bytes_left -= 0x1000;
            return 0x1000;
-    }
-    else {
-      if (obj->bytes_left != 0){
+        } else {
+            if (obj->bytes_left != 0) {
                f = get_file_ptr(self, obj);
-        fseek(f, obj->size-obj->bytes_left, SEEK_SET);
+                fseek(f, obj->size - obj->bytes_left, SEEK_SET);
                assert(fread(page_buffer, 1, obj->bytes_left, f) == obj->bytes_left);

                uint64_t ret_value = obj->bytes_left;
                obj->bytes_left    = 0;

                return ret_value;
-      }
-      else {
+            } else {
                obj->bytes_left = (uint_fast64_t)obj->size;
                return 0;
            }
        }
-  }
-  else{
+    } else {
        nyx_error("Warning: No such file in sharedir: %s\n", file);
        return 0xFFFFFFFFFFFFFFFFUL;
    }
--- a/nyx/sharedir.h
+++ b/nyx/sharedir.h
@ -1,26 +1,26 @@
 #pragma once

-#include <stdio.h>
-#include <stdint.h>
 #include "khash.h"
+#include <stdint.h>
+#include <stdio.h>

-typedef struct sharedir_file_s{
-  char* file;
-  char* path;
+typedef struct sharedir_file_s {
+    char    *file;
+    char    *path;
    size_t   size;
    uint64_t bytes_left;
    time_t   mod_time;
 } sharedir_file_t;

-KHASH_MAP_INIT_STR(SHAREDIR_LOOKUP, sharedir_file_t*)
+KHASH_MAP_INIT_STR(SHAREDIR_LOOKUP, sharedir_file_t *)

-typedef struct sharedir_s{
-  char* dir;
-	khash_t(SHAREDIR_LOOKUP) *lookup;
-  FILE* last_file_f;
-  sharedir_file_t* last_file_obj_ptr;
+typedef struct sharedir_s {
+    char *dir;
+    khash_t(SHAREDIR_LOOKUP) * lookup;
+    FILE            *last_file_f;
+    sharedir_file_t *last_file_obj_ptr;
 } sharedir_t;

-sharedir_t* sharedir_new(void);
-void sharedir_set_dir(sharedir_t* self, const char* dir);
-uint64_t sharedir_request_file(sharedir_t* self, const char* file, uint8_t* page_buffer);
+sharedir_t *sharedir_new(void);
+void        sharedir_set_dir(sharedir_t *self, const char *dir);
+uint64_t sharedir_request_file(sharedir_t *self, const char *file, uint8_t *page_buffer);
--- a/nyx/snapshot/block/block_cow.c
+++ b/nyx/snapshot/block/block_cow.c
@ -1,51 +1,59 @@
 #include "qemu/osdep.h"

 #include <stdint.h>
-#include <sys/types.h>
 #include <sys/mman.h>
+#include <sys/types.h>

-#include "nyx/snapshot/block/block_cow.h"
 #include "sysemu/block-backend.h"
-#include "nyx/state/state.h"
 #include "nyx/debug.h"
+#include "nyx/snapshot/block/block_cow.h"
+#include "nyx/state/state.h"


-//#define COW_CACHE_DEBUG
-//#define COW_CACHE_VERBOSE
+// #define COW_CACHE_DEBUG
+// #define COW_CACHE_VERBOSE

 #define CHUNK_SIZE 0x1000
-//0x200
+// 0x200
 #define PAGE_MASK 0xFFFFFFFFFFFFF000

 uint64_t global_cow_primary_size            = COW_CACHE_PRIMARY_MINIMUM_SIZE;
 bool     global_cow_primary_size_adjustable = true;

-void set_global_cow_cache_primary_size(uint64_t new_size){
-	if (global_cow_primary_size_adjustable && new_size > COW_CACHE_PRIMARY_MINIMUM_SIZE && (new_size & 0xFFF) == 0){
+void set_global_cow_cache_primary_size(uint64_t new_size)
+{
+    if (global_cow_primary_size_adjustable &&
+        new_size > COW_CACHE_PRIMARY_MINIMUM_SIZE && (new_size & 0xFFF) == 0)
+    {
        global_cow_primary_size            = new_size;
        global_cow_primary_size_adjustable = false;
    }
 }

-static inline uint64_t get_global_cow_cache_primary_size(void){
+static inline uint64_t get_global_cow_cache_primary_size(void)
+{
    return global_cow_primary_size;
 }

-cow_cache_t* cow_cache_new(const char* filename){
-
-	cow_cache_t* self = malloc(sizeof(cow_cache_t));
+cow_cache_t *cow_cache_new(const char *filename)
+{
+    cow_cache_t *self          = malloc(sizeof(cow_cache_t));
    self->lookup_primary       = kh_init(COW_CACHE);
    self->lookup_secondary     = kh_init(COW_CACHE);
    self->lookup_secondary_tmp = kh_init(COW_CACHE);

    self->cow_primary_size = COW_CACHE_PRIMARY_MINIMUM_SIZE;
-	self->data_primary = mmap(NULL, self->cow_primary_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
+    self->data_primary = mmap(NULL, self->cow_primary_size, PROT_READ | PROT_WRITE,
+                              MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
    assert(self->data_primary != MAP_FAILED);

-	self->data_secondary = mmap(NULL, COW_CACHE_SECONDARY_SIZE, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
+    self->data_secondary = mmap(NULL, COW_CACHE_SECONDARY_SIZE, PROT_READ | PROT_WRITE,
+                                MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
    assert(self->data_secondary != MAP_FAILED);

-	self->data_secondary_tmp = mmap(NULL, COW_CACHE_SECONDARY_SIZE, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
+    self->data_secondary_tmp = mmap(NULL, COW_CACHE_SECONDARY_SIZE,
+                                    PROT_READ | PROT_WRITE,
+                                    MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
    assert(self->data_secondary_tmp != MAP_FAILED);

    self->filename             = strdup(basename(filename));
@ -53,11 +61,13 @@ cow_cache_t* cow_cache_new(const char* filename){
    self->offset_secondary     = 0;
    self->offset_secondary_tmp = 0;

-	if(getenv("NYX_DISABLE_BLOCK_COW")){
-		fprintf(stderr, "WARNING: Nyx block COW layer disabled for %s (** write operations are not cached **)\n", filename);
+    if (getenv("NYX_DISABLE_BLOCK_COW")) {
+        fprintf(stderr,
+                "WARNING: Nyx block COW layer disabled for %s (** write operations "
+                "are not cached **)\n",
+                filename);
        self->enabled = false;
-	}
-	else{
+    } else {
        self->enabled = true;
    }
    self->enabled_fuzz     = false;
@ -74,14 +84,17 @@ cow_cache_t* cow_cache_new(const char* filename){
    return self;
 }

-static char* gen_file_name(cow_cache_t* self, const char* filename_prefix, const char* filename_postfix){
-	char* tmp1;
-	char* tmp2;
+static char *gen_file_name(cow_cache_t *self,
+                           const char  *filename_prefix,
+                           const char  *filename_postfix)
+{
+    char *tmp1;
+    char *tmp2;

    assert(asprintf(&tmp2, "%s", self->filename) != -1);

-	for(int i = 0; i < strlen(tmp2); i++){
-		if(tmp2[i] == '/'){
+    for (int i = 0; i < strlen(tmp2); i++) {
+        if (tmp2[i] == '/') {
            tmp2[i] = '_';
        }
    }
@ -92,12 +105,13 @@ static char* gen_file_name(cow_cache_t* self, const char* filename_prefix, const
    return tmp1;
 }

-void read_primary_buffer(cow_cache_t* self, const char* filename_prefix, bool switch_mode){
+void read_primary_buffer(cow_cache_t *self, const char *filename_prefix, bool switch_mode)
+{
    assert(!self->enabled_fuzz);
    global_cow_primary_size_adjustable = false;

-	char* tmp1;
-	char* tmp2;
+    char *tmp1;
+    char *tmp2;

    tmp1 = gen_file_name(self, filename_prefix, "khash");
    tmp2 = gen_file_name(self, filename_prefix, "pcow");
@ -105,38 +119,42 @@ void read_primary_buffer(cow_cache_t* self, const char* filename_prefix, bool sw
    kh_destroy(COW_CACHE, self->lookup_primary);

    struct stat buffer;
-  assert(stat (tmp2, &buffer) == 0);
+    assert(stat(tmp2, &buffer) == 0);

-	if (buffer.st_size > get_global_cow_cache_primary_size()){
-		fprintf(stderr, "ERROR: in-memory CoW buffer is too small compared to snapshot file (buffer: 0x%lx / file: 0x%lx)\n", get_global_cow_cache_primary_size(), buffer.st_size);
+    if (buffer.st_size > get_global_cow_cache_primary_size()) {
+        fprintf(stderr,
+                "ERROR: in-memory CoW buffer is too small compared to snapshot file "
+                "(buffer: 0x%lx / file: 0x%lx)\n",
+                get_global_cow_cache_primary_size(), buffer.st_size);
        exit(1);
    }

-	if(buffer.st_size){
+    if (buffer.st_size) {
        self->lookup_primary = kh_load(COW_CACHE, tmp1);
-	}
-	else {
+    } else {
        self->lookup_primary = kh_init(COW_CACHE);
    }

    int fd = open(tmp2, O_RDONLY);

-	if(switch_mode){
+    if (switch_mode) {
        munmap(self->data_primary, self->cow_primary_size);
        self->cow_primary_size = get_global_cow_cache_primary_size();
-		self->data_primary = mmap(0, self->cow_primary_size, PROT_READ, MAP_SHARED, fd, 0);
+        self->data_primary =
+            mmap(0, self->cow_primary_size, PROT_READ, MAP_SHARED, fd, 0);
        assert(self->data_primary);
-	}
-	else{
-
-		if(get_global_cow_cache_primary_size() != self->cow_primary_size){
+    } else {
+        if (get_global_cow_cache_primary_size() != self->cow_primary_size) {
            munmap(self->data_primary, self->cow_primary_size);
            self->cow_primary_size = get_global_cow_cache_primary_size();
-			self->data_primary = mmap(NULL, self->cow_primary_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
+            self->data_primary     = mmap(NULL, self->cow_primary_size,
+                                          PROT_READ | PROT_WRITE,
+                                          MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
            assert(self->data_primary != MAP_FAILED);
        }

-		void* ptr = mmap(0, COW_CACHE_PRIMARY_MINIMUM_SIZE, PROT_READ , MAP_SHARED, fd, 0);
+        void *ptr =
+            mmap(0, COW_CACHE_PRIMARY_MINIMUM_SIZE, PROT_READ, MAP_SHARED, fd, 0);
        assert(ptr);
        memcpy(self->data_primary, ptr, buffer.st_size);
        munmap(ptr, COW_CACHE_PRIMARY_MINIMUM_SIZE);
@ -145,7 +163,7 @@ void read_primary_buffer(cow_cache_t* self, const char* filename_prefix, bool sw

    self->offset_primary = buffer.st_size;

-	if(switch_mode){
+    if (switch_mode) {
        switch_to_fuzz_mode(self);
    }

@ -153,30 +171,30 @@ void read_primary_buffer(cow_cache_t* self, const char* filename_prefix, bool sw
    free(tmp2);
 }

-void dump_primary_buffer(cow_cache_t* self, const char* filename_prefix){
+void dump_primary_buffer(cow_cache_t *self, const char *filename_prefix)
+{
    assert(self->enabled_fuzz);

-	char* tmp1;
-	char* tmp2;
+    char *tmp1;
+    char *tmp2;

    tmp1 = gen_file_name(self, filename_prefix, "khash");
    tmp2 = gen_file_name(self, filename_prefix, "pcow");

-	if(self->offset_primary){
+    if (self->offset_primary) {
        kh_write(COW_CACHE, self->lookup_primary, tmp1);
-	}
-	else{
+    } else {
        fclose(fopen(tmp1, "wb"));
    }

    FILE *fp = fopen(tmp2, "wb");
-	if(fp == NULL) {
+    if (fp == NULL) {
        fprintf(stderr, "[%s] Could not open file %s.\n", __func__, tmp2);
        assert(false);
    }

-	if(self->offset_primary){
-		fwrite(self->data_primary, CHUNK_SIZE, self->offset_primary/CHUNK_SIZE, fp);
+    if (self->offset_primary) {
+        fwrite(self->data_primary, CHUNK_SIZE, self->offset_primary / CHUNK_SIZE, fp);
    }

    fclose(fp);
@ -185,14 +203,14 @@ void dump_primary_buffer(cow_cache_t* self, const char* filename_prefix){
    free(tmp2);
 }

-void cow_cache_reset(cow_cache_t* self){
-	if(!self->enabled_fuzz)
+void cow_cache_reset(cow_cache_t *self)
+{
+    if (!self->enabled_fuzz)
        return;
    /* TODO */
    assert(self->enabled_fuzz);

-	if(self->enabled_fuzz){
-
+    if (self->enabled_fuzz) {
 #ifdef DEBUG_COW_LAYER
        printf("%s: read_calls =>\t%ld\n", __func__, self->read_calls);
        printf("%s: write_calls =>\t%ld\n", __func__, self->write_calls);
@ -200,7 +218,7 @@ void cow_cache_reset(cow_cache_t* self){
        printf("%s: write_calls_tmp =>\t%ld\n", __func__, self->write_calls_tmp);
 #endif

-			if(!self->enabled_fuzz_tmp){
+        if (!self->enabled_fuzz_tmp) {
            self->offset_secondary = 0;
            kh_clear(COW_CACHE, self->lookup_secondary);

@ -208,8 +226,7 @@ void cow_cache_reset(cow_cache_t* self){
            self->read_calls  = 0;
            self->write_calls = 0;
 #endif
-			}
-			else {
+        } else {
            self->offset_secondary_tmp = 0;
            kh_clear(COW_CACHE, self->lookup_secondary_tmp);

@ -223,25 +240,29 @@ void cow_cache_reset(cow_cache_t* self){
 }


-void cow_cache_enable_tmp_mode(cow_cache_t* self){
+void cow_cache_enable_tmp_mode(cow_cache_t *self)
+{
    assert(self->enabled_fuzz);
    self->enabled_fuzz_tmp = true;
 }

-void cow_cache_disable_tmp_mode(cow_cache_t* self){
+void cow_cache_disable_tmp_mode(cow_cache_t *self)
+{
    assert(self->enabled_fuzz);
    assert(self->enabled_fuzz_tmp);
    cow_cache_reset(self);
    self->enabled_fuzz_tmp = false;
 }

-void cow_cache_enable(cow_cache_t* self){
+void cow_cache_enable(cow_cache_t *self)
+{
    cow_cache_reset(self);
    self->enabled = true;
 }


-void cow_cache_disable(cow_cache_t* self){
+void cow_cache_disable(cow_cache_t *self)
+{
    cow_cache_reset(self);
    self->enabled = false;
 }
@ -266,89 +287,128 @@ extern int blk_check_byte_request(BlockBackend *blk, int64_t offset, size_t size
 extern void blk_aio_complete(BlkAioEmAIOCB *acb);

 /* read from primary buffer */
-static inline void read_from_primary_buffer(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags, uint64_t offset_addr, uint64_t iov_offset){
+static inline void read_from_primary_buffer(cow_cache_t     *self,
+                                            BlockBackend    *blk,
+                                            int64_t          offset,
+                                            unsigned int     bytes,
+                                            QEMUIOVector    *qiov,
+                                            BdrvRequestFlags flags,
+                                            uint64_t         offset_addr,
+                                            uint64_t         iov_offset)
+{
    khiter_t k;

    k = kh_get(COW_CACHE, self->lookup_primary, offset_addr);
-	if(k != kh_end(self->lookup_primary)){
-		#ifdef COW_CACHE_DEBUG
-		printf("[PRE ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n", offset_addr, iov_offset, self->offset_primary);
-		#endif
-		qemu_iovec_from_buf(qiov, iov_offset, self->data_primary + kh_value(self->lookup_primary, k), CHUNK_SIZE);
+    if (k != kh_end(self->lookup_primary)) {
+#ifdef COW_CACHE_DEBUG
+        printf("[PRE ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA "
+               "OFFSET: %lx\n",
+               offset_addr, iov_offset, self->offset_primary);
+#endif
+        qemu_iovec_from_buf(qiov, iov_offset,
+                            self->data_primary + kh_value(self->lookup_primary, k),
+                            CHUNK_SIZE);
    }
    return;
 }

 /* try to read from secondary buffer
 * read from primary buffer if the data is not available yet */
-static inline void read_from_secondary_buffer(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags, uint64_t offset_addr, uint64_t iov_offset){
+static inline void read_from_secondary_buffer(cow_cache_t     *self,
+                                              BlockBackend    *blk,
+                                              int64_t          offset,
+                                              unsigned int     bytes,
+                                              QEMUIOVector    *qiov,
+                                              BdrvRequestFlags flags,
+                                              uint64_t         offset_addr,
+                                              uint64_t         iov_offset)
+{
    /* read from L2 TMP buffer */
    khiter_t k;
-	if(self->enabled_fuzz_tmp){
+    if (self->enabled_fuzz_tmp) {
        k = kh_get(COW_CACHE, self->lookup_secondary_tmp, offset_addr);
-		if(k != kh_end(self->lookup_secondary_tmp)){
-			#ifdef COW_CACHE_DEBUG
-			printf("[FTMP] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n", offset_addr, iov_offset, self->offset_secondary);
-			#endif
-			qemu_iovec_from_buf(qiov, iov_offset, self->data_secondary_tmp + kh_value(self->lookup_secondary_tmp, k), CHUNK_SIZE);
+        if (k != kh_end(self->lookup_secondary_tmp)) {
+#ifdef COW_CACHE_DEBUG
+            printf("[FTMP] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA "
+                   "OFFSET: %lx\n",
+                   offset_addr, iov_offset, self->offset_secondary);
+#endif
+            qemu_iovec_from_buf(qiov, iov_offset,
+                                self->data_secondary_tmp +
+                                    kh_value(self->lookup_secondary_tmp, k),
+                                CHUNK_SIZE);
            return;
        }
    }

    /* read from L2 buffer */
    k = kh_get(COW_CACHE, self->lookup_secondary, offset_addr);
-	if(k != kh_end(self->lookup_secondary)){
-		#ifdef COW_CACHE_DEBUG
-		printf("[FUZZ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n", offset_addr, iov_offset, self->offset_secondary);
-		#endif
-		qemu_iovec_from_buf(qiov, iov_offset, self->data_secondary + kh_value(self->lookup_secondary, k), CHUNK_SIZE);
+    if (k != kh_end(self->lookup_secondary)) {
+#ifdef COW_CACHE_DEBUG
+        printf("[FUZZ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA "
+               "OFFSET: %lx\n",
+               offset_addr, iov_offset, self->offset_secondary);
+#endif
+        qemu_iovec_from_buf(qiov, iov_offset,
+                            self->data_secondary + kh_value(self->lookup_secondary, k),
+                            CHUNK_SIZE);
        return;
    }

    /* read from L1 buffer */
    k = kh_get(COW_CACHE, self->lookup_primary, offset_addr);
-	if(k != kh_end(self->lookup_primary)){
-		#ifdef COW_CACHE_DEBUG
-		printf("[PRE ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n", offset_addr, iov_offset, self->offset_primary);
-		#endif
-		qemu_iovec_from_buf(qiov, iov_offset, self->data_primary + kh_value(self->lookup_primary, k), CHUNK_SIZE);
+    if (k != kh_end(self->lookup_primary)) {
+#ifdef COW_CACHE_DEBUG
+        printf("[PRE ] READ DIRTY COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA "
+               "OFFSET: %lx\n",
+               offset_addr, iov_offset, self->offset_primary);
+#endif
+        qemu_iovec_from_buf(qiov, iov_offset,
+                            self->data_primary + kh_value(self->lookup_primary, k),
+                            CHUNK_SIZE);
    }
 }

 /* read data from cow cache */
-static int cow_cache_read(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags){
-
+static int cow_cache_read(cow_cache_t     *self,
+                          BlockBackend    *blk,
+                          int64_t          offset,
+                          unsigned int     bytes,
+                          QEMUIOVector    *qiov,
+                          BdrvRequestFlags flags)
+{
 #ifdef DEBUG_COW_LAYER
-	if(self->enabled_fuzz){
-		if(!self->enabled_fuzz_tmp){
+    if (self->enabled_fuzz) {
+        if (!self->enabled_fuzz_tmp) {
            self->read_calls++;
-		}
-		else{
+        } else {
            self->read_calls_tmp++;
        }
    }
 #endif
    blk_co_preadv(blk, offset, bytes, qiov, flags);

-    if ((qiov->size%CHUNK_SIZE)){
+    if ((qiov->size % CHUNK_SIZE)) {
 #ifdef COW_CACHE_DEBUG
        fprintf(stderr, "%s: FAILED %lx!\n", __func__, qiov->size);
 #endif
        return 0;
    }
-    assert(!(qiov->size%CHUNK_SIZE));
+    assert(!(qiov->size % CHUNK_SIZE));

    uint64_t iov_offset = 0;
-	for(uint64_t offset_addr = offset; offset_addr < (offset+(qiov->size)); offset_addr+= CHUNK_SIZE){
-
-		if(self->enabled_fuzz){
-			read_from_secondary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags, offset_addr, iov_offset);
-		}
-		else{
-			read_from_primary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags, offset_addr, iov_offset);
+    for (uint64_t offset_addr = offset; offset_addr < (offset + (qiov->size));
+         offset_addr += CHUNK_SIZE)
+    {
+        if (self->enabled_fuzz) {
+            read_from_secondary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags,
+                                       offset_addr, iov_offset);
+        } else {
+            read_from_primary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags,
+                                     offset_addr, iov_offset);
        }

-		iov_offset+= CHUNK_SIZE;
+        iov_offset += CHUNK_SIZE;
    }

    return 0;
@ -356,138 +416,174 @@ static int cow_cache_read(cow_cache_t* self, BlockBackend *blk, int64_t offset,


 /* write to primary buffer */
-static inline void write_to_primary_buffer(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags, uint64_t offset_addr, uint64_t iov_offset){
+static inline void write_to_primary_buffer(cow_cache_t     *self,
+                                           BlockBackend    *blk,
+                                           int64_t          offset,
+                                           unsigned int     bytes,
+                                           QEMUIOVector    *qiov,
+                                           BdrvRequestFlags flags,
+                                           uint64_t         offset_addr,
+                                           uint64_t         iov_offset)
+{
    int      ret;
    khiter_t k;

    k = kh_get(COW_CACHE, self->lookup_primary, offset_addr);
-	if(unlikely(k == kh_end(self->lookup_primary))){
+    if (unlikely(k == kh_end(self->lookup_primary))) {
        /* create page */
        k = kh_put(COW_CACHE, self->lookup_primary, offset_addr, &ret);
-		#ifdef COW_CACHE_DEBUG
-		printf("ADD NEW COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n", offset_addr, iov_offset, self->offset_primary);
-		#endif
+#ifdef COW_CACHE_DEBUG
+        printf("ADD NEW COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx\n",
+               offset_addr, iov_offset, self->offset_primary);
+#endif


        kh_value(self->lookup_primary, k) = self->offset_primary;

        self->offset_primary += CHUNK_SIZE;

-		#ifdef COW_CACHE_VERBOSE
-		printf("COW CACHE IS 0x%lx BYTES (KB: %ld / MB: %ld / GB: %ld) IN SIZE!\n", self->offset, self->offset >> 10, self->offset >> 20, self->offset >> 30);
-		#endif		
+#ifdef COW_CACHE_VERBOSE
+        printf("COW CACHE IS 0x%lx BYTES (KB: %ld / MB: %ld / GB: %ld) IN SIZE!\n",
+               self->offset, self->offset >> 10, self->offset >> 20,
+               self->offset >> 30);
+#endif

        /* IN CASE THE BUFFER IS FULL -> ABORT! */
        assert(self->offset_primary < self->cow_primary_size);
    }

-	#ifdef COW_CACHE_DEBUG
-	printf("LOAD COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx (%s)\n", offset_addr, iov_offset, kh_value(self->lookup_primary, k), self->filename);
-	#endif
+#ifdef COW_CACHE_DEBUG
+    printf("LOAD COW PAGE: ADDR: %lx IOVEC OFFSET: %lx DATA OFFSET: %lx (%s)\n",
+           offset_addr, iov_offset, kh_value(self->lookup_primary, k), self->filename);
+#endif

    /* write to cached page */
-	qemu_iovec_to_buf(qiov, iov_offset, self->data_primary + kh_value(self->lookup_primary, k), CHUNK_SIZE);
+    qemu_iovec_to_buf(qiov, iov_offset,
+                      self->data_primary + kh_value(self->lookup_primary, k),
+                      CHUNK_SIZE);
 }

-static inline void write_to_secondary_buffer(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags, uint64_t offset_addr, uint64_t iov_offset){
+static inline void write_to_secondary_buffer(cow_cache_t     *self,
+                                             BlockBackend    *blk,
+                                             int64_t          offset,
+                                             unsigned int     bytes,
+                                             QEMUIOVector    *qiov,
+                                             BdrvRequestFlags flags,
+                                             uint64_t         offset_addr,
+                                             uint64_t         iov_offset)
+{
    int ret;

-	if(!self->enabled_fuzz_tmp){
+    if (!self->enabled_fuzz_tmp) {
        /* L2 mode */

        /* IN CASE THE BUFFER IS FULL -> ABORT! */
-    if(self->offset_secondary >= COW_CACHE_SECONDARY_SIZE){
+        if (self->offset_secondary >= COW_CACHE_SECONDARY_SIZE) {
            GET_GLOBAL_STATE()->cow_cache_full = true;
            abort();
            return;
        }

        khiter_t k_secondary = kh_get(COW_CACHE, self->lookup_secondary, offset_addr);
-		if(unlikely(k_secondary == kh_end(self->lookup_secondary))){
+        if (unlikely(k_secondary == kh_end(self->lookup_secondary))) {
            /* if page is not cached in secondary buffer yet */
            k_secondary = kh_put(COW_CACHE, self->lookup_secondary, offset_addr, &ret);
            kh_value(self->lookup_secondary, k_secondary) = self->offset_secondary;
            self->offset_secondary += CHUNK_SIZE;
-
        }
        /* write to cache */
-	  qemu_iovec_to_buf(qiov, iov_offset, self->data_secondary + kh_value(self->lookup_secondary, k_secondary), CHUNK_SIZE);
-	}
-	else{
+        qemu_iovec_to_buf(qiov, iov_offset,
+                          self->data_secondary +
+                              kh_value(self->lookup_secondary, k_secondary),
+                          CHUNK_SIZE);
+    } else {
        /* L2 TMP mode */

        /* IN CASE THE BUFFER IS FULL -> ABORT! */
-    if(self->offset_secondary_tmp >= COW_CACHE_SECONDARY_SIZE){
+        if (self->offset_secondary_tmp >= COW_CACHE_SECONDARY_SIZE) {
            GET_GLOBAL_STATE()->cow_cache_full = true;
            abort();
            return;
        }

-  	khiter_t k_secondary_tmp = kh_get(COW_CACHE, self->lookup_secondary_tmp, offset_addr); 
-    if(unlikely(k_secondary_tmp == kh_end(self->lookup_secondary_tmp))){
+        khiter_t k_secondary_tmp =
+            kh_get(COW_CACHE, self->lookup_secondary_tmp, offset_addr);
+        if (unlikely(k_secondary_tmp == kh_end(self->lookup_secondary_tmp))) {
            /* if page is not cached in secondary tmp buffer yet */
-      k_secondary_tmp = kh_put(COW_CACHE, self->lookup_secondary_tmp, offset_addr, &ret);
-			kh_value(self->lookup_secondary_tmp, k_secondary_tmp) = self->offset_secondary_tmp;
+            k_secondary_tmp =
+                kh_put(COW_CACHE, self->lookup_secondary_tmp, offset_addr, &ret);
+            kh_value(self->lookup_secondary_tmp, k_secondary_tmp) =
+                self->offset_secondary_tmp;
            self->offset_secondary_tmp += CHUNK_SIZE;
        }

        /* write to cache */
-	  qemu_iovec_to_buf(qiov, iov_offset, self->data_secondary_tmp + kh_value(self->lookup_secondary_tmp, k_secondary_tmp), CHUNK_SIZE);
+        qemu_iovec_to_buf(qiov, iov_offset,
+                          self->data_secondary_tmp +
+                              kh_value(self->lookup_secondary_tmp, k_secondary_tmp),
+                          CHUNK_SIZE);
    }
 }

 /* write data to cow cache */
-static int cow_cache_write(cow_cache_t* self, BlockBackend *blk, int64_t offset,  unsigned int bytes, QEMUIOVector *qiov, BdrvRequestFlags flags){
-
+static int cow_cache_write(cow_cache_t     *self,
+                           BlockBackend    *blk,
+                           int64_t          offset,
+                           unsigned int     bytes,
+                           QEMUIOVector    *qiov,
+                           BdrvRequestFlags flags)
+{
 #ifdef DEBUG_COW_LAYER
-	if(self->enabled_fuzz){
-		if(!self->enabled_fuzz_tmp){
+    if (self->enabled_fuzz) {
+        if (!self->enabled_fuzz_tmp) {
            self->write_calls++;
-		}
-		else{
+        } else {
            self->write_calls_tmp++;
        }
    }
 #endif

-	if ((qiov->size%CHUNK_SIZE)){
+    if ((qiov->size % CHUNK_SIZE)) {
 #ifdef COW_CACHE_DEBUG
        fprintf(stderr, "%s: FAILED %lx!\n", __func__, qiov->size);
 #endif
        return 0;
    }
-	if((qiov->size%CHUNK_SIZE) && GET_GLOBAL_STATE()->in_fuzzing_mode){
+    if ((qiov->size % CHUNK_SIZE) && GET_GLOBAL_STATE()->in_fuzzing_mode) {
        GET_GLOBAL_STATE()->cow_cache_full = true;
        fprintf(stderr, "WARNING: %s write in %lx CHUNKSIZE\n", __func__, qiov->size);
        return 0;
-	}
-	else{
-		assert(!(qiov->size%CHUNK_SIZE));
+    } else {
+        assert(!(qiov->size % CHUNK_SIZE));
    }

    uint64_t iov_offset = 0;
-	for(uint64_t offset_addr = offset; offset_addr < (offset+(qiov->size)); offset_addr+= CHUNK_SIZE){
-		if(self->enabled_fuzz){
-			write_to_secondary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags, offset_addr, iov_offset);
-		}
-		else{
-			write_to_primary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags, offset_addr, iov_offset);
+    for (uint64_t offset_addr = offset; offset_addr < (offset + (qiov->size));
+         offset_addr += CHUNK_SIZE)
+    {
+        if (self->enabled_fuzz) {
+            write_to_secondary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags,
+                                      offset_addr, iov_offset);
+        } else {
+            write_to_primary_buffer(self, blk, offset, CHUNK_SIZE, qiov, flags,
+                                    offset_addr, iov_offset);
        }

-		iov_offset+= CHUNK_SIZE;
+        iov_offset += CHUNK_SIZE;
    }

    return 0;
 }

-void switch_to_fuzz_mode(cow_cache_t* self){
+void switch_to_fuzz_mode(cow_cache_t *self)
+{
    self->enabled_fuzz = true;
    assert(!mprotect(self->data_primary, self->cow_primary_size, PROT_READ));
    nyx_debug("switching to secondary CoW buffer\n");
 }

-void cow_cache_read_entry(void* opaque){
-
+void cow_cache_read_entry(void *opaque)
+{
    BlkAioEmAIOCB *acb  = opaque;
    BlkRwCo       *rwco = &acb->rwco;

@ -495,13 +591,15 @@ void cow_cache_read_entry(void* opaque){
    printf("%s %lx %lx\n", __func__, rwco->offset, acb->bytes);
 #endif

-    rwco->ret = cow_cache_read( *((cow_cache_t**)(rwco->blk)), rwco->blk, rwco->offset, acb->bytes, rwco->qiov, rwco->flags);
+    rwco->ret = cow_cache_read(*((cow_cache_t **)(rwco->blk)), rwco->blk,
+                               rwco->offset, acb->bytes, rwco->qiov, rwco->flags);

    blk_aio_complete(acb);
 }


-void cow_cache_write_entry(void* opaque){
+void cow_cache_write_entry(void *opaque)
+{
    BlkAioEmAIOCB *acb  = opaque;
    BlkRwCo       *rwco = &acb->rwco;

@ -509,7 +607,8 @@ void cow_cache_write_entry(void* opaque){
    printf("%s\n", __func__);
 #endif

-    rwco->ret = cow_cache_write( *((cow_cache_t**)(rwco->blk)), rwco->blk, rwco->offset, acb->bytes, rwco->qiov, rwco->flags);
+    rwco->ret = cow_cache_write(*((cow_cache_t **)(rwco->blk)), rwco->blk,
+                                rwco->offset, acb->bytes, rwco->qiov, rwco->flags);

    blk_aio_complete(acb);
 }
--- a/nyx/snapshot/block/block_cow.h
+++ b/nyx/snapshot/block/block_cow.h
@ -10,7 +10,7 @@
 #include "nyx/khash.h"
 #include "nyx/redqueen_trace.h"

-//#define DEBUG_COW_LAYER
+// #define DEBUG_COW_LAYER

 /* Minimum size of CoW buffer that stores data written to
 * the block device between boot time and root snapshot (3GB)
@ -27,18 +27,18 @@

 KHASH_MAP_INIT_INT64(COW_CACHE, uint64_t)

-typedef struct cow_cache_s{
-	khash_t(COW_CACHE) *lookup_primary;
-	khash_t(COW_CACHE) *lookup_secondary;
-	khash_t(COW_CACHE) *lookup_secondary_tmp;
+typedef struct cow_cache_s {
+    khash_t(COW_CACHE) * lookup_primary;
+    khash_t(COW_CACHE) * lookup_secondary;
+    khash_t(COW_CACHE) * lookup_secondary_tmp;

-	void* data_primary;
-	void* data_secondary;
-	void* data_secondary_tmp;
+    void *data_primary;
+    void *data_secondary;
+    void *data_secondary_tmp;

    uint64_t cow_primary_size;

-	char* filename;
+    char    *filename;
    uint64_t offset_primary;
    uint64_t offset_secondary;
    uint64_t offset_secondary_tmp;
@ -55,21 +55,23 @@ typedef struct cow_cache_s{
 #endif
 } cow_cache_t;

-cow_cache_t* cow_cache_new(const char* filename);
-void cow_cache_reset(cow_cache_t* self);
+cow_cache_t *cow_cache_new(const char *filename);
+void         cow_cache_reset(cow_cache_t *self);

-void switch_to_fuzz_mode(cow_cache_t* self);
+void switch_to_fuzz_mode(cow_cache_t *self);

-void read_primary_buffer(cow_cache_t* self, const char* filename_prefix, bool switch_mode);
-void dump_primary_buffer(cow_cache_t* self, const char* filename_prefix);
+void read_primary_buffer(cow_cache_t *self,
+                         const char  *filename_prefix,
+                         bool         switch_mode);
+void dump_primary_buffer(cow_cache_t *self, const char *filename_prefix);

-void cow_cache_read_entry(void* opaque);
-void cow_cache_write_entry(void* opaque);
+void cow_cache_read_entry(void *opaque);
+void cow_cache_write_entry(void *opaque);

-void cow_cache_enable(cow_cache_t* self);
-void cow_cache_disable(cow_cache_t* self);
+void cow_cache_enable(cow_cache_t *self);
+void cow_cache_disable(cow_cache_t *self);

-void cow_cache_enable_tmp_mode(cow_cache_t* self);
-void cow_cache_disable_tmp_mode(cow_cache_t* self);
+void cow_cache_enable_tmp_mode(cow_cache_t *self);
+void cow_cache_disable_tmp_mode(cow_cache_t *self);

 void set_global_cow_cache_primary_size(uint64_t new_size);
--- a/nyx/snapshot/block/nyx_block_snapshot.c
+++ b/nyx/snapshot/block/nyx_block_snapshot.c
@ -11,22 +11,22 @@
 #include "nyx/snapshot/block/nyx_block_snapshot.h"
 #include "nyx/state/state.h"

-typedef struct fast_reload_cow_entry_s{
+typedef struct fast_reload_cow_entry_s {
    uint32_t id;
    char     idstr[256];
 } fast_reload_cow_entry_t;


-nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snapshot){
-        
-    nyx_block_t* self = malloc(sizeof(nyx_block_t));
+nyx_block_t *nyx_block_snapshot_init_from_file(const char *folder, bool pre_snapshot)
+{
+    nyx_block_t *self = malloc(sizeof(nyx_block_t));
    memset(self, 0, sizeof(nyx_block_t));

    BlockBackend           *blk;
    fast_reload_cow_entry_t entry;

-    char* tmp1;
-    char* tmp2;
+    char *tmp1;
+    char *tmp2;

    assert(asprintf(&tmp1, "%s/fs_cache.meta", folder) != -1);
    assert(asprintf(&tmp2, "%s/fs_drv", folder) != -1);
@ -34,11 +34,11 @@ nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snap

    self->cow_cache_array_size = 0;

-    FILE* f = fopen (tmp1, "r");
+    FILE *f = fopen(tmp1, "r");
    assert(f != NULL);

    for (blk = blk_next(NULL); blk; blk = blk_next(blk)) {
-        if(blk && blk->cow_cache){
+        if (blk && blk->cow_cache) {
            nyx_debug("%p %s\n", blk->cow_cache, blk->cow_cache->filename);
            self->cow_cache_array_size++;
        }
@ -51,12 +51,13 @@ nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snap
    nyx_debug("%d vs %x\n", temp_cow_cache_array_size, self->cow_cache_array_size);
    assert(self->cow_cache_array_size == temp_cow_cache_array_size);

-    self->cow_cache_array = (cow_cache_t**)malloc(sizeof(cow_cache_t*)*self->cow_cache_array_size);
+    self->cow_cache_array =
+        (cow_cache_t **)malloc(sizeof(cow_cache_t *) * self->cow_cache_array_size);

    uint32_t i  = 0;
    uint32_t id = 0;
    for (blk = blk_next(NULL); blk; blk = blk_next(blk)) {
-        if(blk && blk->cow_cache){
+        if (blk && blk->cow_cache) {
            self->cow_cache_array[i++] = blk->cow_cache;
            assert(fread(&entry, sizeof(fast_reload_cow_entry_t), 1, f) == 1);

@ -69,7 +70,7 @@ nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snap

    fclose(f);

-    for(i = 0; i < self->cow_cache_array_size; i++){
+    for (i = 0; i < self->cow_cache_array_size; i++) {
        read_primary_buffer(self->cow_cache_array[i], tmp2, !pre_snapshot);
    }

@ -78,75 +79,82 @@ nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snap
    return self;
 }

-nyx_block_t* nyx_block_snapshot_init(void){
-
-    nyx_block_t* self = malloc(sizeof(nyx_block_t));
+nyx_block_t *nyx_block_snapshot_init(void)
+{
+    nyx_block_t *self = malloc(sizeof(nyx_block_t));
    memset(self, 0, sizeof(nyx_block_t));

    BlockBackend *blk;
    for (blk = blk_next(NULL); blk; blk = blk_next(blk)) {
-        if(blk && blk->cow_cache){
+        if (blk && blk->cow_cache) {
            nyx_debug("%p %s\n", blk->cow_cache, blk->cow_cache->filename);
            self->cow_cache_array_size++;
        }
    }

-    self->cow_cache_array = (cow_cache_t**)malloc(sizeof(cow_cache_t*)*self->cow_cache_array_size);
+    self->cow_cache_array =
+        (cow_cache_t **)malloc(sizeof(cow_cache_t *) * self->cow_cache_array_size);

    uint32_t i = 0;
    for (blk = blk_next(NULL); blk; blk = blk_next(blk)) {
-        if(blk && blk->cow_cache){
+        if (blk && blk->cow_cache) {
            self->cow_cache_array[i++] = blk->cow_cache;
        }
    }


-    for(i = 0; i < self->cow_cache_array_size; i++){
+    for (i = 0; i < self->cow_cache_array_size; i++) {
        switch_to_fuzz_mode(self->cow_cache_array[i]);
    }
    return self;
 }

-void nyx_block_snapshot_flush(nyx_block_t* self){
+void nyx_block_snapshot_flush(nyx_block_t *self)
+{
    GET_GLOBAL_STATE()->cow_cache_full = false;
 }

-void nyx_block_snapshot_switch_incremental(nyx_block_t* self){
-    for(uint32_t i = 0; i < self->cow_cache_array_size; i++){
+void nyx_block_snapshot_switch_incremental(nyx_block_t *self)
+{
+    for (uint32_t i = 0; i < self->cow_cache_array_size; i++) {
        cow_cache_enable_tmp_mode(self->cow_cache_array[i]);
    }
    nyx_block_snapshot_flush(self);
 }

-void nyx_block_snapshot_disable_incremental(nyx_block_t* self){
-    for(uint32_t i = 0; i < self->cow_cache_array_size; i++){
+void nyx_block_snapshot_disable_incremental(nyx_block_t *self)
+{
+    for (uint32_t i = 0; i < self->cow_cache_array_size; i++) {
        cow_cache_disable_tmp_mode(self->cow_cache_array[i]);
    }
 }

-void nyx_block_snapshot_reset(nyx_block_t* self){
-    for(uint32_t i = 0; i < self->cow_cache_array_size; i++){
+void nyx_block_snapshot_reset(nyx_block_t *self)
+{
+    for (uint32_t i = 0; i < self->cow_cache_array_size; i++) {
        cow_cache_reset(self->cow_cache_array[i]);
    }
 }

-void nyx_block_snapshot_serialize(nyx_block_t* self, const char* snapshot_folder){
+void nyx_block_snapshot_serialize(nyx_block_t *self, const char *snapshot_folder)
+{
    fast_reload_cow_entry_t entry;

-    char* tmp1;
-    char* tmp2;
+    char *tmp1;
+    char *tmp2;

    assert(asprintf(&tmp1, "%s/fs_cache.meta", snapshot_folder) != -1);
    assert(asprintf(&tmp2, "%s/fs_drv", snapshot_folder) != -1);


-    FILE* f = fopen (tmp1, "w");
+    FILE *f = fopen(tmp1, "w");

    fwrite(&(self->cow_cache_array_size), sizeof(uint32_t), 1, f);

-    for(uint32_t i = 0; i < self->cow_cache_array_size; i++){
+    for (uint32_t i = 0; i < self->cow_cache_array_size; i++) {
        entry.id = i;
-        strncpy((char*)&entry.idstr, (const char*)self->cow_cache_array[i]->filename, 255);
+        strncpy((char *)&entry.idstr,
+                (const char *)self->cow_cache_array[i]->filename, 255);
        fwrite(&entry, sizeof(fast_reload_cow_entry_t), 1, f);

        dump_primary_buffer(self->cow_cache_array[i], tmp2);
--- a/nyx/snapshot/block/nyx_block_snapshot.h
+++ b/nyx/snapshot/block/nyx_block_snapshot.h
@ -1,21 +1,21 @@
 #pragma once

-#include <stdint.h>
 #include "nyx/snapshot/block/block_cow.h"
+#include <stdint.h>

-typedef struct nyx_block_s{
+typedef struct nyx_block_s {
    cow_cache_t **cow_cache_array;
    uint32_t      cow_cache_array_size;

 } nyx_block_t;

-nyx_block_t* nyx_block_snapshot_init_from_file(const char* folder, bool pre_snapshot);
-nyx_block_t* nyx_block_snapshot_init(void);
-void nyx_block_snapshot_switch_to_incremental(nyx_block_t*);
+nyx_block_t *nyx_block_snapshot_init_from_file(const char *folder, bool pre_snapshot);
+nyx_block_t *nyx_block_snapshot_init(void);
+void         nyx_block_snapshot_switch_to_incremental(nyx_block_t *);

-void nyx_block_snapshot_flush(nyx_block_t* self);
-void nyx_block_snapshot_switch_incremental(nyx_block_t* self);
-void nyx_block_snapshot_disable_incremental(nyx_block_t* self);
-void nyx_block_snapshot_reset(nyx_block_t* self);
+void nyx_block_snapshot_flush(nyx_block_t *self);
+void nyx_block_snapshot_switch_incremental(nyx_block_t *self);
+void nyx_block_snapshot_disable_incremental(nyx_block_t *self);
+void nyx_block_snapshot_reset(nyx_block_t *self);

-void nyx_block_snapshot_serialize(nyx_block_t* self, const char* snapshot_folder);
+void nyx_block_snapshot_serialize(nyx_block_t *self, const char *snapshot_folder);
--- a/nyx/snapshot/devices/nyx_device_state.c
+++ b/nyx/snapshot/devices/nyx_device_state.c
@ -34,32 +34,34 @@
 extern void enable_fast_snapshot_rtc(void);
 extern void enable_fast_snapshot_kvm_clock(void);

-static void enable_fast_snapshot_mode(void){
+static void enable_fast_snapshot_mode(void)
+{
    enable_fast_snapshot_rtc();
    enable_fast_snapshot_kvm_clock();
 }

 extern int kvm_nyx_put_tsc_value(CPUState *cs, uint64_t data);

-static void set_tsc_value(nyx_device_state_t* self, bool tmp_snapshot){
-    if(self->incremental_mode){
+static void set_tsc_value(nyx_device_state_t *self, bool tmp_snapshot)
+{
+    if (self->incremental_mode) {
        assert(self->tsc_value_incremental);
-        assert(kvm_nyx_put_tsc_value(qemu_get_cpu(0), self->tsc_value_incremental) == 0);
-    }
-    else{
+        assert(kvm_nyx_put_tsc_value(qemu_get_cpu(0), self->tsc_value_incremental) ==
+               0);
+    } else {
        assert(self->tsc_value);
        assert(kvm_nyx_put_tsc_value(qemu_get_cpu(0), self->tsc_value) == 0);
    }
 }

-static void save_tsc_value(nyx_device_state_t* self, bool incremental_mode){
+static void save_tsc_value(nyx_device_state_t *self, bool incremental_mode)
+{
    X86CPU      *cpu = X86_CPU(qemu_get_cpu(0));
    CPUX86State *env = &cpu->env;

-    if(incremental_mode){
+    if (incremental_mode) {
        self->tsc_value_incremental = env->tsc;
-    }
-    else{
+    } else {
        self->tsc_value = env->tsc;
    }
 }
@ -115,12 +117,12 @@ static void fast_qemu_savevm_state_complete_precopy(QEMUFile *f, bool iterable_o

    cpu_synchronize_all_states();

-    QTAILQ_FOREACH(se, &savevm_state.handlers, entry) {
-        if(strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")){
-            if (!se->ops ||
-                (in_postcopy && se->ops->save_live_complete_postcopy) ||
+    QTAILQ_FOREACH (se, &savevm_state.handlers, entry) {
+        if (strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")) {
+            if (!se->ops || (in_postcopy && se->ops->save_live_complete_postcopy) ||
                (in_postcopy && !iterable_only) ||
-                !se->ops->save_live_complete_precopy) {
+                !se->ops->save_live_complete_precopy)
+            {
                continue;
            }

@ -148,8 +150,8 @@ static void fast_qemu_savevm_state_complete_precopy(QEMUFile *f, bool iterable_o
    vmdesc = qjson_new();
    json_prop_int(vmdesc, "page_size", TARGET_PAGE_SIZE);
    json_start_array(vmdesc, "devices");
-    QTAILQ_FOREACH(se, &savevm_state.handlers, entry) {
-        if(strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")){
+    QTAILQ_FOREACH (se, &savevm_state.handlers, entry) {
+        if (strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")) {
            if ((!se->ops || !se->ops->save_state) && !se->vmsd) {
                continue;
            }
@ -189,12 +191,13 @@ static void fast_qemu_savevm_state_complete_precopy(QEMUFile *f, bool iterable_o
 }


-static int fast_qemu_savevm_state_iterate(QEMUFile *f, bool postcopy) {
+static int fast_qemu_savevm_state_iterate(QEMUFile *f, bool postcopy)
+{
    SaveStateEntry *se;
    int             ret = 1;

-    QTAILQ_FOREACH(se, &savevm_state.handlers, entry) {
-        if(strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")){
+    QTAILQ_FOREACH (se, &savevm_state.handlers, entry) {
+        if (strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")) {
            if (!se->ops || !se->ops->save_live_iterate) {
                continue;
            }
@ -236,12 +239,13 @@ static int fast_qemu_savevm_state_iterate(QEMUFile *f, bool postcopy) {
    return ret;
 }

-static void fast_qemu_savevm_state_setup(QEMUFile *f){
+static void fast_qemu_savevm_state_setup(QEMUFile *f)
+{
    SaveStateEntry *se;
    int             ret;

-    QTAILQ_FOREACH(se, &savevm_state.handlers, entry) {
-        if(strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")){
+    QTAILQ_FOREACH (se, &savevm_state.handlers, entry) {
+        if (strcmp(se->idstr, "ram") && strcmp(se->idstr, "block")) {
            if (!se->ops || !se->ops->save_setup) {
                continue;
            }
@ -263,7 +267,8 @@ static void fast_qemu_savevm_state_setup(QEMUFile *f){
 }


-static int fast_qemu_savevm_state(QEMUFile *f, Error **errp) {
+static int fast_qemu_savevm_state(QEMUFile *f, Error **errp)
+{
    qemu_savevm_state_header(f);
    fast_qemu_savevm_state_setup(f);

@ -278,64 +283,79 @@ static int fast_qemu_savevm_state(QEMUFile *f, Error **errp) {
 }

 /* QEMUFile RAM Emulation */
-static ssize_t fast_savevm_writev_buffer(void *opaque, struct iovec *iov, int iovcnt, int64_t pos){
+static ssize_t fast_savevm_writev_buffer(void         *opaque,
+                                         struct iovec *iov,
+                                         int           iovcnt,
+                                         int64_t       pos)
+{
    ssize_t retval = 0;
-    for(uint32_t i = 0; i < iovcnt; i++){
-        memcpy((void*)(((struct fast_savevm_opaque_t*)(opaque))->buf + ((struct fast_savevm_opaque_t*)(opaque))->pos), iov[i].iov_base, iov[i].iov_len);
-        ((struct fast_savevm_opaque_t*)(opaque))->pos += iov[i].iov_len;
+    for (uint32_t i = 0; i < iovcnt; i++) {
+        memcpy((void *)(((struct fast_savevm_opaque_t *)(opaque))->buf +
+                        ((struct fast_savevm_opaque_t *)(opaque))->pos),
+               iov[i].iov_base, iov[i].iov_len);
+        ((struct fast_savevm_opaque_t *)(opaque))->pos += iov[i].iov_len;
        retval += iov[i].iov_len;
    }
    return retval;
 }


-static int fast_savevm_fclose_save_to_buffer(void *opaque){
-    memcpy(((struct fast_savevm_opaque_t*)(opaque))->output_buffer, ((struct fast_savevm_opaque_t*)(opaque))->buf, ((struct fast_savevm_opaque_t*)(opaque))->pos);
-    *((struct fast_savevm_opaque_t*)(opaque))->output_buffer_size = ((struct fast_savevm_opaque_t*)(opaque))->pos;
-    //printf("DUMPED: %d\n", *((struct fast_savevm_opaque_t*)(opaque))->output_buffer_size);
+static int fast_savevm_fclose_save_to_buffer(void *opaque)
+{
+    memcpy(((struct fast_savevm_opaque_t *)(opaque))->output_buffer,
+           ((struct fast_savevm_opaque_t *)(opaque))->buf,
+           ((struct fast_savevm_opaque_t *)(opaque))->pos);
+    *((struct fast_savevm_opaque_t *)(opaque))->output_buffer_size =
+        ((struct fast_savevm_opaque_t *)(opaque))->pos;
+    // printf("DUMPED: %d\n", *((struct fast_savevm_opaque_t*)(opaque))->output_buffer_size);
    return 0;
 }

-static int fast_loadvm_fclose(void *opaque){
+static int fast_loadvm_fclose(void *opaque)
+{
    return 0;
 }

-static ssize_t fast_loadvm_get_buffer(void *opaque, uint8_t *buf, int64_t pos, size_t size){
-    memcpy(buf, (void*)(((struct fast_savevm_opaque_t*)(opaque))->buf + pos), size);
+static ssize_t fast_loadvm_get_buffer(void *opaque, uint8_t *buf, int64_t pos, size_t size)
+{
+    memcpy(buf, (void *)(((struct fast_savevm_opaque_t *)(opaque))->buf + pos), size);
    return size;
 }

 static const QEMUFileOps fast_loadvm_ops = {
-    .get_buffer     = (QEMUFileGetBufferFunc*)fast_loadvm_get_buffer,
-    .close          = (QEMUFileCloseFunc*)fast_loadvm_fclose
+    .get_buffer = (QEMUFileGetBufferFunc *)fast_loadvm_get_buffer,
+    .close      = (QEMUFileCloseFunc *)fast_loadvm_fclose
 };

 static const QEMUFileOps fast_savevm_ops_to_buffer = {
-    .writev_buffer  = (QEMUFileWritevBufferFunc*)fast_savevm_writev_buffer,
-    .close          = (QEMUFileCloseFunc*)fast_savevm_fclose_save_to_buffer
+    .writev_buffer = (QEMUFileWritevBufferFunc *)fast_savevm_writev_buffer,
+    .close         = (QEMUFileCloseFunc *)fast_savevm_fclose_save_to_buffer
 };


-nyx_device_state_t* nyx_device_state_init_from_snapshot(const char* snapshot_folder, bool pre_snapshot){
-    nyx_device_state_t* self = malloc(sizeof(nyx_device_state_t));
+nyx_device_state_t *nyx_device_state_init_from_snapshot(const char *snapshot_folder,
+                                                        bool        pre_snapshot)
+{
+    nyx_device_state_t *self = malloc(sizeof(nyx_device_state_t));
    memset(self, 0, sizeof(nyx_device_state_t));

    self->state_buf      = malloc(STATE_BUFFER);
    self->state_buf_size = 0;

-    char* qemu_state_file;
-    assert(asprintf(&qemu_state_file, "%s/fast_snapshot.qemu_state", snapshot_folder) != -1);
+    char *qemu_state_file;
+    assert(asprintf(&qemu_state_file, "%s/fast_snapshot.qemu_state",
+                    snapshot_folder) != -1);

    struct fast_savevm_opaque_t fast_savevm_opaque;
-    FILE* f;
+    FILE                       *f;

    uint8_t ret = global_state_store();
    assert(!ret);

    struct stat buffer;
-    assert(stat (qemu_state_file, &buffer) == 0);
+    assert(stat(qemu_state_file, &buffer) == 0);

-    void* state_buf2 = malloc(STATE_BUFFER);  
+    void *state_buf2 = malloc(STATE_BUFFER);

    f = fopen(qemu_state_file, "r");
    assert(fread(state_buf2, buffer.st_size, 1, f) == 1);
@ -344,18 +364,18 @@ nyx_device_state_t* nyx_device_state_init_from_snapshot(const char* snapshot_fol
    fast_savevm_opaque.buf = state_buf2;
    fast_savevm_opaque.f   = NULL;
    fast_savevm_opaque.pos = 0;
-    QEMUFile* file_dump = qemu_fopen_ops(&fast_savevm_opaque, &fast_loadvm_ops);
+    QEMUFile *file_dump    = qemu_fopen_ops(&fast_savevm_opaque, &fast_loadvm_ops);

    qemu_devices_reset();
    qemu_loadvm_state(file_dump);

-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        self->qemu_state = state_reallocation_new(file_dump);
    }

    free(state_buf2);

-    if(!pre_snapshot){
+    if (!pre_snapshot) {
        enable_fast_snapshot_mode();
        save_tsc_value(self, false);
    }
@ -369,9 +389,9 @@ nyx_device_state_t* nyx_device_state_init_from_snapshot(const char* snapshot_fol
 * backed by RAM. state_reallocation_new() then uses this file to build an
 * optimized sequence of snapshot restore operations.
 */
-nyx_device_state_t* nyx_device_state_init(void){
-
-    nyx_device_state_t* self = malloc(sizeof(nyx_device_state_t));
+nyx_device_state_t *nyx_device_state_init(void)
+{
+    nyx_device_state_t *self = malloc(sizeof(nyx_device_state_t));
    memset(self, 0, sizeof(nyx_device_state_t));

    self->state_buf      = malloc(STATE_BUFFER);
@ -380,7 +400,7 @@ nyx_device_state_t* nyx_device_state_init(void){
    Error                      *local_err = NULL;
    struct fast_savevm_opaque_t fast_savevm_opaque, fast_loadvm_opaque;

-    void* tmp_buf = malloc(1024*1024*16);
+    void *tmp_buf = malloc(1024 * 1024 * 16);

    fast_savevm_opaque.output_buffer      = self->state_buf;
    fast_savevm_opaque.output_buffer_size = &self->state_buf_size;
@ -392,13 +412,13 @@ nyx_device_state_t* nyx_device_state_init(void){
    uint8_t ret = global_state_store();
    assert(!ret);

-    QEMUFile* f = qemu_fopen_ops(&fast_savevm_opaque, &fast_savevm_ops_to_buffer);
+    QEMUFile *f = qemu_fopen_ops(&fast_savevm_opaque, &fast_savevm_ops_to_buffer);
    ret         = fast_qemu_savevm_state(f, &local_err);

    fast_loadvm_opaque.buf = tmp_buf;
    fast_loadvm_opaque.f   = NULL;
    fast_loadvm_opaque.pos = 0;
-    QEMUFile* file_dump = qemu_fopen_ops(&fast_loadvm_opaque, &fast_loadvm_ops);
+    QEMUFile *file_dump    = qemu_fopen_ops(&fast_loadvm_opaque, &fast_loadvm_ops);

    self->qemu_state = state_reallocation_new(file_dump);
    qemu_fclose(file_dump);
@ -411,41 +431,49 @@ nyx_device_state_t* nyx_device_state_init(void){
    return self;
 }

-void nyx_device_state_switch_incremental(nyx_device_state_t* self){
+void nyx_device_state_switch_incremental(nyx_device_state_t *self)
+{
    self->incremental_mode = true;
    fdl_fast_create_tmp(self->qemu_state);
    fdl_fast_enable_tmp(self->qemu_state);
 }

-void nyx_device_state_disable_incremental(nyx_device_state_t* self){
+void nyx_device_state_disable_incremental(nyx_device_state_t *self)
+{
    fdl_fast_disable_tmp(self->qemu_state);
    self->incremental_mode = false;
 }

-void nyx_device_state_restore(nyx_device_state_t* self){
+void nyx_device_state_restore(nyx_device_state_t *self)
+{
    fdl_fast_reload(self->qemu_state);
    call_fast_change_handlers();
 }

-void nyx_device_state_post_restore(nyx_device_state_t* self){
+void nyx_device_state_post_restore(nyx_device_state_t *self)
+{
    set_tsc_value(self, self->incremental_mode);
 }


-void nyx_device_state_save_tsc(nyx_device_state_t* self){
+void nyx_device_state_save_tsc(nyx_device_state_t *self)
+{
    save_tsc_value(self, false);
 }


-void nyx_device_state_save_tsc_incremental(nyx_device_state_t* self){
+void nyx_device_state_save_tsc_incremental(nyx_device_state_t *self)
+{
    save_tsc_value(self, true);
 }

-void nyx_device_state_serialize(nyx_device_state_t* self, const char* snapshot_folder){
-    char* tmp;
+void nyx_device_state_serialize(nyx_device_state_t *self, const char *snapshot_folder)
+{
+    char *tmp;
    assert(asprintf(&tmp, "%s/fast_snapshot.qemu_state", snapshot_folder) != -1);

-    FILE* f_qemu_state = fopen(tmp, "w+b");
-    assert(fwrite(self->state_buf, 1, self->state_buf_size, f_qemu_state) == self->state_buf_size);
+    FILE *f_qemu_state = fopen(tmp, "w+b");
+    assert(fwrite(self->state_buf, 1, self->state_buf_size, f_qemu_state) ==
+           self->state_buf_size);
    fclose(f_qemu_state);
 }
--- a/nyx/snapshot/devices/nyx_device_state.h
+++ b/nyx/snapshot/devices/nyx_device_state.h
@ -1,33 +1,34 @@
 #pragma once

-#include <stdint.h>
-#include <stdbool.h>
 #include "nyx/snapshot/devices/state_reallocation.h"
+#include <stdbool.h>
+#include <stdint.h>

-typedef struct nyx_device_state_s{
-  state_reallocation_t* qemu_state;
+typedef struct nyx_device_state_s {
+    state_reallocation_t *qemu_state;

    uint64_t tsc_value;
    uint64_t tsc_value_incremental;

    bool incremental_mode;

-  void* state_buf; /* QEMU's serialized state */
+    void    *state_buf; /* QEMU's serialized state */
    uint32_t state_buf_size;

 } nyx_device_state_t;


-nyx_device_state_t* nyx_device_state_init(void);
-nyx_device_state_t* nyx_device_state_init_from_snapshot(const char* snapshot_folder, bool pre_snapshot);
+nyx_device_state_t *nyx_device_state_init(void);
+nyx_device_state_t *nyx_device_state_init_from_snapshot(const char *snapshot_folder,
+                                                        bool        pre_snapshot);

-void nyx_device_state_restore(nyx_device_state_t* self);
-void nyx_device_state_post_restore(nyx_device_state_t* self);
+void nyx_device_state_restore(nyx_device_state_t *self);
+void nyx_device_state_post_restore(nyx_device_state_t *self);

-void nyx_device_state_switch_incremental(nyx_device_state_t* self);
-void nyx_device_state_disable_incremental(nyx_device_state_t* self);
+void nyx_device_state_switch_incremental(nyx_device_state_t *self);
+void nyx_device_state_disable_incremental(nyx_device_state_t *self);

-void nyx_device_state_save_tsc(nyx_device_state_t* self);
-void nyx_device_state_save_tsc_incremental(nyx_device_state_t* self);
+void nyx_device_state_save_tsc(nyx_device_state_t *self);
+void nyx_device_state_save_tsc_incremental(nyx_device_state_t *self);

-void nyx_device_state_serialize(nyx_device_state_t* self, const char* snapshot_folder);
+void nyx_device_state_serialize(nyx_device_state_t *self, const char *snapshot_folder);
--- a/nyx/snapshot/devices/state_reallocation.c
+++ b/nyx/snapshot/devices/state_reallocation.c
@ -33,7 +33,7 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #include "nyx/snapshot/devices/nyx_device_state.h"
 #include "nyx/snapshot/devices/state_reallocation.h"

-//#define VERBOSE_DEBUG
+// #define VERBOSE_DEBUG

 #define QEMU_VM_SUBSECTION 0x05

@ -74,7 +74,7 @@ typedef struct SaveState {
    uint32_t    target_page_bits;
 } SaveState;

-extern void* vmstate_configuration;
+extern void     *vmstate_configuration;
 extern SaveState savevm_state;

 extern int  vmstate_n_elems(void *opaque, VMStateField *field);
@ -82,10 +82,10 @@ extern int vmstate_size(void *opaque, VMStateField *field);
 extern void vmstate_handle_alloc(void *ptr, VMStateField *field, void *opaque);
 extern int  vmstate_load(QEMUFile *f, SaveStateEntry *se);

-static void fast_timer_get(void* data, size_t size, void* opaque)
+static void fast_timer_get(void *data, size_t size, void *opaque)
 {
-    QEMUTimer *ts = (QEMUTimer*) opaque;
-    uint64_t expire_time = *((uint64_t*)data); 
+    QEMUTimer *ts          = (QEMUTimer *)opaque;
+    uint64_t   expire_time = *((uint64_t *)data);
    if (expire_time != -1) {
        timer_mod_ns(ts, expire_time);
    } else {
@ -97,17 +97,17 @@ static SaveStateEntry *fdl_find_se(const char *idstr, int instance_id)
 {
    SaveStateEntry *se;

-    QTAILQ_FOREACH(se, &savevm_state.handlers, entry) {
+    QTAILQ_FOREACH (se, &savevm_state.handlers, entry) {
        if (!strcmp(se->idstr, idstr) &&
-            (instance_id == se->instance_id ||
-             instance_id == se->alias_id)){
+            (instance_id == se->instance_id || instance_id == se->alias_id))
+        {
            return se;
        }
        /* Migrating from an older version? */
        if (strstr(se->idstr, idstr) && se->compat) {
            if (!strcmp(se->compat->idstr, idstr) &&
-                (instance_id == se->compat->instance_id ||
-                 instance_id == se->alias_id)){
+                (instance_id == se->compat->instance_id || instance_id == se->alias_id))
+            {
                return se;
            }
        }
@ -115,10 +115,16 @@ static SaveStateEntry *fdl_find_se(const char *idstr, int instance_id)
    return NULL;
 }

-static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const VMStateDescription *vmsd, void *opaque, int version_id, uintptr_t* opaque_ptr);
+static int fdl_vmstate_load_state(state_reallocation_t     *self,
+                                  QEMUFile                 *f,
+                                  const VMStateDescription *vmsd,
+                                  void                     *opaque,
+                                  int                       version_id,
+                                  uintptr_t                *opaque_ptr);


-static inline VMStateDescription* fdl_vmstate_get_subsection(VMStateDescription **sub, char *idstr)
+static inline VMStateDescription *fdl_vmstate_get_subsection(VMStateDescription **sub,
+                                                             char *idstr)
 {
    while (sub && *sub && (*sub)->needed) {
        if (strcmp(idstr, (*sub)->name) == 0) {
@ -129,7 +135,10 @@ static inline VMStateDescription* fdl_vmstate_get_subsection(VMStateDescription
    return NULL;
 }

-static int fdl_vmstate_subsection_load(state_reallocation_t* self, QEMUFile *f, const VMStateDescription *vmsd, void *opaque)
+static int fdl_vmstate_subsection_load(state_reallocation_t     *self,
+                                       QEMUFile                 *f,
+                                       const VMStateDescription *vmsd,
+                                       void                     *opaque)
 {
    while (qemu_peek_byte(f, 0) == QEMU_VM_SUBSECTION) {
        char                      idstr[256], *idstr_ret;
@ -153,7 +162,8 @@ static int fdl_vmstate_subsection_load(state_reallocation_t* self, QEMUFile *f,
            /* it doesn't have a valid subsection name */
            return 0;
        }
-        sub_vmsd = fdl_vmstate_get_subsection((VMStateDescription **)vmsd->subsections, idstr);
+        sub_vmsd = fdl_vmstate_get_subsection((VMStateDescription **)vmsd->subsections,
+                                              idstr);
        if (sub_vmsd == NULL) {
            return -ENOENT;
        }
@ -172,27 +182,27 @@ static int fdl_vmstate_subsection_load(state_reallocation_t* self, QEMUFile *f,
 }

 uint32_t post_counter = 0;
-void* post_fptr_array[256];
+void    *post_fptr_array[256];
 uint32_t post_version_id_array[256];
-void* post_opaque_array[256];
+void    *post_opaque_array[256];


-
-
-
-static void add_post_fptr(state_reallocation_t* self, void* fptr, uint32_t version_id, void* opaque, const char* name){
-    
-    if(!self){
+static void add_post_fptr(state_reallocation_t *self,
+                          void                 *fptr,
+                          uint32_t              version_id,
+                          void                 *opaque,
+                          const char           *name)
+{
+    if (!self) {
        return;
    }

-    if(!strcmp("I440FX", name)){
+    if (!strcmp("I440FX", name)) {
        return;
    }


-    
-    if(1){
+    if (1) {
        /*
        if( !strcmp("cpu_common", name) ||
            !strcmp("cpu/nested_state", name) ||
@ -247,46 +257,51 @@ static void add_post_fptr(state_reallocation_t* self, void* fptr, uint32_t versi
        --> globalstate
        */

-        //fprintf(stderr, "--> %s\n", name);
+        // fprintf(stderr, "--> %s\n", name);

        self->fptr[self->fast_state_fptr_pos]    = fptr;
        self->opaque[self->fast_state_fptr_pos]  = opaque;
        self->version[self->fast_state_fptr_pos] = version_id;
        self->fast_state_fptr_pos++;

-        if(self->fast_state_fptr_pos >= self->fast_state_fptr_size){
+        if (self->fast_state_fptr_pos >= self->fast_state_fptr_size) {
            nyx_debug("RESIZE %s\n", __func__);
            self->fast_state_fptr_size += REALLOC_SIZE;
-            self->fptr = realloc(self->fptr, self->fast_state_fptr_size * sizeof(void*));
-            self->opaque = realloc(self->opaque, self->fast_state_fptr_size * sizeof(void*));
-            self->version = realloc(self->version, self->fast_state_fptr_size * sizeof(uint32_t));
+            self->fptr =
+                realloc(self->fptr, self->fast_state_fptr_size * sizeof(void *));
+            self->opaque =
+                realloc(self->opaque, self->fast_state_fptr_size * sizeof(void *));
+            self->version =
+                realloc(self->version, self->fast_state_fptr_size * sizeof(uint32_t));
        }
    }
 }

-extern void fast_get_pci_config_device(void* data, size_t size, void* opaque);
-void fast_get_pci_irq_state(void* data, size_t size, void* opaque);
+extern void fast_get_pci_config_device(void *data, size_t size, void *opaque);
+void        fast_get_pci_irq_state(void *data, size_t size, void *opaque);

-//void fast_virtio_device_get(void* data, size_t size, void* opaque);
+// void fast_virtio_device_get(void* data, size_t size, void* opaque);
 int virtio_device_get(QEMUFile *f, void *opaque, size_t size, const VMStateField *field);

-static int fast_loadvm_fclose(void *opaque){
+static int fast_loadvm_fclose(void *opaque)
+{
    return 0;
 }

-static ssize_t fast_loadvm_get_buffer(void *opaque, uint8_t *buf, int64_t pos, size_t size){
-	assert(pos < ((struct fast_savevm_opaque_t*)(opaque))->buflen);
-    memcpy(buf, (void*)(((struct fast_savevm_opaque_t*)(opaque))->buf + pos), size);
+static ssize_t fast_loadvm_get_buffer(void *opaque, uint8_t *buf, int64_t pos, size_t size)
+{
+    assert(pos < ((struct fast_savevm_opaque_t *)(opaque))->buflen);
+    memcpy(buf, (void *)(((struct fast_savevm_opaque_t *)(opaque))->buf + pos), size);
    return size;
 }

 static const QEMUFileOps fast_loadvm_ops = {
-    .get_buffer     = (QEMUFileGetBufferFunc*)fast_loadvm_get_buffer,
-    .close          = (QEMUFileCloseFunc*)fast_loadvm_fclose
+    .get_buffer = (QEMUFileGetBufferFunc *)fast_loadvm_get_buffer,
+    .close      = (QEMUFileCloseFunc *)fast_loadvm_fclose
 };

 /* use opaque data to bootstrap virtio restore from QEMUFile */
-static void fast_virtio_device_get(void* data, size_t size, void* opaque)
+static void fast_virtio_device_get(void *data, size_t size, void *opaque)
 {
    struct fast_savevm_opaque_t fast_loadvm_opaque = {
        .buf    = data,
@ -294,50 +309,55 @@ static void fast_virtio_device_get(void* data, size_t size, void* opaque)
        .f      = NULL,
        .pos    = 0,
    };
-    QEMUFile* f = qemu_fopen_ops(&fast_loadvm_opaque, &fast_loadvm_ops);
+    QEMUFile *f = qemu_fopen_ops(&fast_loadvm_opaque, &fast_loadvm_ops);

    virtio_device_get(f, opaque, size, NULL);
 }

-static void add_get(state_reallocation_t* self, void* fptr, void* opaque, size_t size, void* field, QEMUFile* f, const char* name){
-    if(!self){
+static void add_get(state_reallocation_t *self,
+                    void                 *fptr,
+                    void                 *opaque,
+                    size_t                size,
+                    void                 *field,
+                    QEMUFile             *f,
+                    const char           *name)
+{
+    if (!self) {
        return;
    }

-    void (*handler)(void* , size_t, void*) = NULL;
-    uint8_t* data = NULL;
+    void (*handler)(void *, size_t, void *) = NULL;
+    uint8_t *data                           = NULL;

-    if(!strcmp(name, "timer")){
-        nyx_debug("SKPPING: %ld\n", size*-1);
+    if (!strcmp(name, "timer")) {
+        nyx_debug("SKPPING: %ld\n", size * -1);
        qemu_file_skip(f, size * -1);
        handler             = fast_timer_get;
        data                = malloc(sizeof(uint64_t));
-        *((uint64_t*)data) = qemu_get_be64(f);
+        *((uint64_t *)data) = qemu_get_be64(f);
    }

-    else if(!strcmp(name, "pci irq state")){
+    else if (!strcmp(name, "pci irq state"))
+    {
        qemu_file_skip(f, size * -1);
        handler = fast_get_pci_irq_state;
-        data = malloc(sizeof(uint8_t)*size);
+        data    = malloc(sizeof(uint8_t) * size);

-        ((uint32_t*)data)[0] = qemu_get_be32(f);
-        ((uint32_t*)data)[1] = qemu_get_be32(f);
-        ((uint32_t*)data)[2] = qemu_get_be32(f);
-        ((uint32_t*)data)[3] = qemu_get_be32(f);
-    }
-    else if(!strcmp(name, "pci config")){
+        ((uint32_t *)data)[0] = qemu_get_be32(f);
+        ((uint32_t *)data)[1] = qemu_get_be32(f);
+        ((uint32_t *)data)[2] = qemu_get_be32(f);
+        ((uint32_t *)data)[3] = qemu_get_be32(f);
+    } else if (!strcmp(name, "pci config")) {
        qemu_file_skip(f, size * -1);
        handler = fast_get_pci_config_device;
-        data = malloc(sizeof(uint8_t)*size);
-        qemu_get_buffer(f, (uint8_t*)data, size);
-    }
-    else if(!strcmp(name, "virtio")){
+        data    = malloc(sizeof(uint8_t) * size);
+        qemu_get_buffer(f, (uint8_t *)data, size);
+    } else if (!strcmp(name, "virtio")) {
        qemu_file_skip(f, size * -1);
        handler = fast_virtio_device_get;
-        data = malloc(sizeof(uint8_t)*size);
-        qemu_get_buffer(f, (uint8_t*)data, size);
-	}
-    else{
+        data    = malloc(sizeof(uint8_t) * size);
+        qemu_get_buffer(f, (uint8_t *)data, size);
+    } else {
        fprintf(stderr, "WARNING: NOT IMPLEMENTED FAST GET ROUTINE for %s\n", name);
        abort();
        return;
@ -352,158 +372,173 @@ static void add_get(state_reallocation_t* self, void* fptr, void* opaque, size_t

    self->fast_state_get_fptr_pos++;

-    if(self->fast_state_get_fptr_pos >= self->fast_state_get_fptr_size){
+    if (self->fast_state_get_fptr_pos >= self->fast_state_get_fptr_size) {
        nyx_debug("RESIZE %s\n", __func__);
        self->fast_state_get_fptr_size += REALLOC_SIZE;
-        self->get_fptr = realloc(self->get_fptr, self->fast_state_get_fptr_size * sizeof(void*));
-        self->get_opaque = realloc(self->get_opaque, self->fast_state_get_fptr_size * sizeof(void*));
-        self->get_size = realloc(self->get_size, self->fast_state_get_fptr_size * sizeof(size_t));
-        self->get_data = realloc(self->get_data, self->fast_state_get_fptr_size * sizeof(void*));
+        self->get_fptr =
+            realloc(self->get_fptr, self->fast_state_get_fptr_size * sizeof(void *));
+        self->get_opaque = realloc(self->get_opaque,
+                                   self->fast_state_get_fptr_size * sizeof(void *));
+        self->get_size =
+            realloc(self->get_size, self->fast_state_get_fptr_size * sizeof(size_t));
+        self->get_data =
+            realloc(self->get_data, self->fast_state_get_fptr_size * sizeof(void *));
    }
-
 }

-static void add_mblock(state_reallocation_t* self, char* foo, const char* bar, size_t offset, uint64_t start, uint64_t size){
-
-    if(!self){
+static void add_mblock(state_reallocation_t *self,
+                       char                 *foo,
+                       const char           *bar,
+                       size_t                offset,
+                       uint64_t              start,
+                       uint64_t              size)
+{
+    if (!self) {
        return;
    }

-    if(self->fast_state_pos && (uint64_t)(self->ptr[self->fast_state_pos-1]+self->size[self->fast_state_pos-1]) == start){
-        void* new  = (void*)(self->pre_alloc_block+self->pre_alloc_block_offset);
+    if (self->fast_state_pos &&
+        (uint64_t)(self->ptr[self->fast_state_pos - 1] +
+                   self->size[self->fast_state_pos - 1]) == start)
+    {
+        void *new = (void *)(self->pre_alloc_block + self->pre_alloc_block_offset);
        self->pre_alloc_block_offset += size;
-        memcpy(new, (void*)start, size);
+        memcpy(new, (void *)start, size);

-        self->size[self->fast_state_pos-1] = size + self->size[self->fast_state_pos-1];
-    }
-    else{
-        self->ptr[self->fast_state_pos] = (void*)start;
-        self->copy[self->fast_state_pos] = (void*)(self->pre_alloc_block+self->pre_alloc_block_offset);
+        self->size[self->fast_state_pos - 1] =
+            size + self->size[self->fast_state_pos - 1];
+    } else {
+        self->ptr[self->fast_state_pos] = (void *)start;
+        self->copy[self->fast_state_pos] =
+            (void *)(self->pre_alloc_block + self->pre_alloc_block_offset);
        self->pre_alloc_block_offset += size;

-        memcpy(self->copy[self->fast_state_pos], (void*)start, size);
+        memcpy(self->copy[self->fast_state_pos], (void *)start, size);
        self->size[self->fast_state_pos] = size;
        self->fast_state_pos++;
-        if(self->fast_state_pos >= self->fast_state_size){
+        if (self->fast_state_pos >= self->fast_state_size) {
            self->fast_state_size += REALLOC_SIZE;
-            self->ptr = realloc(self->ptr, self->fast_state_size * sizeof(void*));
-            self->copy = realloc(self->copy, self->fast_state_size * sizeof(void*));
+            self->ptr  = realloc(self->ptr, self->fast_state_size * sizeof(void *));
+            self->copy = realloc(self->copy, self->fast_state_size * sizeof(void *));
            self->size = realloc(self->size, self->fast_state_size * sizeof(size_t));
        }
    }
 }

-static inline int get_handler(state_reallocation_t* self, QEMUFile* f, void* curr_elem, size_t size, VMStateField *field, char* vmsd_name){
-
+static inline int get_handler(state_reallocation_t *self,
+                              QEMUFile             *f,
+                              void                 *curr_elem,
+                              size_t                size,
+                              VMStateField         *field,
+                              char                 *vmsd_name)
+{
    int ret;
-    //printf("%s\n", vmsd_name);
+    // printf("%s\n", vmsd_name);

    ret = field->info->get(f, curr_elem, size, field);


-    if (!strcmp(field->info->name, "bool")){
+    if (!strcmp(field->info->name, "bool")) {
        assert(size == 1);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 1);
-    }
-    else if(!strcmp(field->info->name, "int8")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   1);
+    } else if (!strcmp(field->info->name, "int8")) {
        assert(size == 1);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 1);
-    }
-    else if(!strcmp(field->info->name, "int16")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   1);
+    } else if (!strcmp(field->info->name, "int16")) {
        assert(size == 2);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 2);
-    }
-    else if(!strcmp(field->info->name, "int32")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   2);
+    } else if (!strcmp(field->info->name, "int32")) {
        assert(size == 4);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 4);
-    }
-    else if(!strcmp(field->info->name, "int32 equal")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   4);
+    } else if (!strcmp(field->info->name, "int32 equal")) {
        assert(size == 4);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 4);
-    }
-    else if(!strcmp(field->info->name, "int32 le")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   4);
+    } else if (!strcmp(field->info->name, "int32 le")) {
        assert(size == 4);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 4);
-    }
-    else if(!strcmp(field->info->name, "int64")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   4);
+    } else if (!strcmp(field->info->name, "int64")) {
        assert(size == 8);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 8);
-    }
-    else if(!strcmp(field->info->name, "uint8")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   8);
+    } else if (!strcmp(field->info->name, "uint8")) {
        assert(size == 1);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 1);
-    }
-    else if(!strcmp(field->info->name, "uint16")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   1);
+    } else if (!strcmp(field->info->name, "uint16")) {
        assert(size == 2);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 2);
-    }
-    else if(!strcmp(field->info->name, "uint32")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   2);
+    } else if (!strcmp(field->info->name, "uint32")) {
        assert(size == 4);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 4);
-    }
-    else if(!strcmp(field->info->name, "uint32 equal")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   4);
+    } else if (!strcmp(field->info->name, "uint32 equal")) {
        assert(size == 4);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 4);
-    }
-    else if(!strcmp(field->info->name, "uint64")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   4);
+    } else if (!strcmp(field->info->name, "uint64")) {
        assert(size == 8);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 8);
-    }
-    else if(!strcmp(field->info->name, "int64 equal")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   8);
+    } else if (!strcmp(field->info->name, "int64 equal")) {
        assert(size == 8);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 8);
-    }
-    else if(!strcmp(field->info->name, "uint8 equal")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   8);
+    } else if (!strcmp(field->info->name, "uint8 equal")) {
        assert(size == 1);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 1);
-    }
-    else if(!strcmp(field->info->name, "uint16 equal")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   1);
+    } else if (!strcmp(field->info->name, "uint16 equal")) {
        assert(size == 16);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 2);
-    }
-    else if(!strcmp(field->info->name, "float64")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   2);
+    } else if (!strcmp(field->info->name, "float64")) {
        assert(size == 64);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 8);
-    }
-    else if(!strcmp(field->info->name, "CPU_Double_U")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   8);
+    } else if (!strcmp(field->info->name, "CPU_Double_U")) {
        assert(0);
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, 8);
-    }
-    else if(!strcmp(field->info->name, "buffer")){
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, size);
-    }
-    else if(!strcmp(field->info->name, "unused_buffer")){
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   8);
+    } else if (!strcmp(field->info->name, "buffer")) {
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   size);
+    } else if (!strcmp(field->info->name, "unused_buffer")) {
        /* save nothing */
-    }
-    else if(!strcmp(field->info->name, "tmp")){
-        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem, size);
+    } else if (!strcmp(field->info->name, "tmp")) {
+        add_mblock(self, vmsd_name, field->name, field->offset, (uint64_t)curr_elem,
+                   size);
        /* save nothing */
-    }
-    else if(!strcmp(field->info->name, "bitmap")){
+    } else if (!strcmp(field->info->name, "bitmap")) {
        assert(0);
-    }
-    else if(!strcmp(field->info->name, "qtailq")){
+    } else if (!strcmp(field->info->name, "qtailq")) {
        assert(0);
-    }
-    else if(!strcmp(field->info->name, "timer")){
-        add_get(self, (void*) field->info->get, curr_elem, size, (void*) field, f, field->info->name);
-    }
-    else if(!strcmp(field->info->name, "fpreg")){
+    } else if (!strcmp(field->info->name, "timer")) {
+        add_get(self, (void *)field->info->get, curr_elem, size, (void *)field, f,
+                field->info->name);
+    } else if (!strcmp(field->info->name, "fpreg")) {
        nyx_debug("type: %s (size: %lx)\n", field->info->name, size);
        assert(0);
-        add_get(self, (void*) field->info->get, curr_elem, size, (void*) field, f, field->info->name);
-    }
-    else if(!strcmp(field->info->name, "pci config")){
-        add_get(self, (void*) field->info->get, curr_elem, size, (void*) field, f, field->info->name);
-    }
-    else if(!strcmp(field->info->name, "pci irq state")){
-        add_get(self, (void*) field->info->get, curr_elem, size, (void*) field, f, field->info->name);
-    }
-    else if(!strcmp(field->info->name, "virtio")){
-        add_get(self, (void*) field->info->get, curr_elem, size, (void*) field, f, field->info->name);
-    }
-    else{
-		fprintf(stderr, "[QEMU-PT] %s: WARNING no handler for %s, type %s, size %lx!\n",
+        add_get(self, (void *)field->info->get, curr_elem, size, (void *)field, f,
+                field->info->name);
+    } else if (!strcmp(field->info->name, "pci config")) {
+        add_get(self, (void *)field->info->get, curr_elem, size, (void *)field, f,
+                field->info->name);
+    } else if (!strcmp(field->info->name, "pci irq state")) {
+        add_get(self, (void *)field->info->get, curr_elem, size, (void *)field, f,
+                field->info->name);
+    } else if (!strcmp(field->info->name, "virtio")) {
+        add_get(self, (void *)field->info->get, curr_elem, size, (void *)field, f,
+                field->info->name);
+    } else {
+        fprintf(stderr,
+                "[QEMU-PT] %s: WARNING no handler for %s, type %s, size %lx!\n",
                __func__, vmsd_name, field->info->name, size);
        assert(0);
    }
@ -511,7 +546,12 @@ static inline int get_handler(state_reallocation_t* self, QEMUFile* f, void* cur
 }

 /* TODO: modify opaque_ptr */
-static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const VMStateDescription *vmsd, void *opaque, int version_id, uintptr_t* opaque_ptr)
+static int fdl_vmstate_load_state(state_reallocation_t     *self,
+                                  QEMUFile                 *f,
+                                  const VMStateDescription *vmsd,
+                                  void                     *opaque,
+                                  int                       version_id,
+                                  uintptr_t                *opaque_ptr)
 {
 #ifdef VERBOSE_DEBUG
    printf("---------------------------------\nVMSD: %p\t%s\n", opaque, vmsd->name);
@ -530,8 +570,7 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
        printf("OLD LOAD\n");
 #endif

-        if (vmsd->load_state_old &&
-            version_id >= vmsd->minimum_version_id_old) {
+        if (vmsd->load_state_old && version_id >= vmsd->minimum_version_id_old) {
            fprintf(stderr, "OLDSTATE\n");
            assert(0);
            ret = vmsd->load_state_old(f, opaque, version_id);
@ -544,18 +583,17 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
        printf("\tPRELOAD Function\n");
 #endif
        /* TODO ADD PRE FPTR FOR SERIAL */
-        //fprintf(stderr, "PRELOAD RUN: %s\n", vmsd->name);
-        //add_pre_fptr(self, vmsd->pre_load, opaque, vmsd->name);
+        // fprintf(stderr, "PRELOAD RUN: %s\n", vmsd->name);
+        // add_pre_fptr(self, vmsd->pre_load, opaque, vmsd->name);
        add_post_fptr(self, vmsd->pre_load, 1337, opaque, vmsd->name);
    }
    while (field->name) {
 #ifdef VERBOSE_DEBUG
        printf("Field: %s %s %s\n", __func__, vmsd->name, field->name);
 #endif
-        if ((field->field_exists &&
-             field->field_exists(opaque, version_id)) ||
-            (!field->field_exists &&
-             field->version_id <= version_id)) {
+        if ((field->field_exists && field->field_exists(opaque, version_id)) ||
+            (!field->field_exists && field->version_id <= version_id))
+        {
            void *first_elem = opaque + field->offset;
            int   i, n_elems = vmstate_n_elems(opaque, field);
            int   size = vmstate_size(opaque, field);
@ -563,7 +601,7 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
 #ifdef VERBOSE_DEBUG
            printf("----------------->          vmstate_handle_alloc\n");
 #endif
-            //fprintf(stderr, "----------------->          vmstate_handle_alloc\n");
+            // fprintf(stderr, "----------------->          vmstate_handle_alloc\n");
            vmstate_handle_alloc(first_elem, field, opaque);
            if (field->flags & VMS_POINTER) {
 #ifdef VERBOSE_DEBUG
@ -576,22 +614,26 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
            }

            for (i = 0; i < n_elems; i++) {
-                uint64_t* tmp_opaque_ptr = 0;
+                uint64_t *tmp_opaque_ptr = 0;
                total_size += size;
                void *curr_elem = first_elem + size * i;

                if (field->flags & VMS_ARRAY_OF_POINTER) {
 #ifdef VERBOSE_DEBUG
-                    printf("Field-Offset 1 0x%lx-0x%lx\n", (uint64_t)(field->offset + (opaque)), (uint64_t)(field->offset+(size*n_elems) + (opaque)));
-                    printf("=VMS_ARRAY_OF_POINTER 1= %lx %x\n", *((uint64_t*)curr_elem), size);
-                    //hexDump((void*)field->name, curr_elem, size);
+                    printf("Field-Offset 1 0x%lx-0x%lx\n",
+                           (uint64_t)(field->offset + (opaque)),
+                           (uint64_t)(field->offset + (size * n_elems) + (opaque)));
+                    printf("=VMS_ARRAY_OF_POINTER 1= %lx %x\n",
+                           *((uint64_t *)curr_elem), size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif

                    tmp_opaque_ptr = curr_elem;
                    curr_elem      = *(void **)curr_elem;
-                    add_mblock(self, (char*)vmsd->name, (const char*)field->name, field->offset, (uint64_t)(curr_elem), (uint64_t)(size));
+                    add_mblock(self, (char *)vmsd->name, (const char *)field->name,
+                               field->offset, (uint64_t)(curr_elem), (uint64_t)(size));
 #ifdef VERBOSE_DEBUG
-                    //hexDump((void*)field->name, curr_elem, size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif
                }

@ -599,34 +641,40 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
                    // if null pointer check placeholder and do not follow
                    assert(field->flags & VMS_ARRAY_OF_POINTER);
 #ifdef VERBOSE_DEBUG
-                    printf("Field-Offset 2 0x%lx-0x%lx\n", (uint64_t)(field->offset + (opaque)), (uint64_t)(field->offset+(size*n_elems) + (opaque)));
-                    printf("=VMS_ARRAY_OF_POINTER 2= %lx %x\n", *((uint64_t*)curr_elem), size);
-                    //hexDump((void*)field->name, curr_elem, size);
+                    printf("Field-Offset 2 0x%lx-0x%lx\n",
+                           (uint64_t)(field->offset + (opaque)),
+                           (uint64_t)(field->offset + (size * n_elems) + (opaque)));
+                    printf("=VMS_ARRAY_OF_POINTER 2= %lx %x\n",
+                           *((uint64_t *)curr_elem), size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif

                    nyx_debug("*** vmstate_info_nullptr.get ***\n");
                    ret = vmstate_info_nullptr.get(f, curr_elem, size, NULL);
-                    add_mblock(self, (char*)vmsd->name, (const char*)field->name, field->offset, (uint64_t)(curr_elem), (uint64_t)(size));
+                    add_mblock(self, (char *)vmsd->name, (const char *)field->name,
+                               field->offset, (uint64_t)(curr_elem), (uint64_t)(size));
 #ifdef VERBOSE_DEBUG
-                    //hexDump((void*)field->name, curr_elem, size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif

                } else if (field->flags & VMS_STRUCT) {
-                    //printf("Field-Offset 0x%lx-0x%lx\n", field->offset + (opaque-base_opaque), field->offset+(size*n_elems) + (opaque-base_opaque));
+                    // printf("Field-Offset 0x%lx-0x%lx\n", field->offset + (opaque-base_opaque),
+                    // field->offset+(size*n_elems) + (opaque-base_opaque));
 #ifdef VERBOSE_DEBUG
-                    printf("=VMS_STRUCT= %lx %x\n", *((uint64_t*)curr_elem), size);
-                    //hexDump((void*)field->name, curr_elem, size);
+                    printf("=VMS_STRUCT= %lx %x\n", *((uint64_t *)curr_elem), size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif
                    /* FIXME */
-                    ret = fdl_vmstate_load_state(self, f, field->vmsd, curr_elem, field->vmsd->version_id, tmp_opaque_ptr);
+                    ret = fdl_vmstate_load_state(self, f, field->vmsd, curr_elem,
+                                                 field->vmsd->version_id,
+                                                 tmp_opaque_ptr);
 #ifdef VERBOSE_DEBUG
-                    //hexDump((void*)field->name, curr_elem, size);
+                    // hexDump((void*)field->name, curr_elem, size);
 #endif

                } else {
-
-
-                    ret = get_handler(self, f, curr_elem, size, field, (char*)vmsd->name);
+                    ret = get_handler(self, f, curr_elem, size, field,
+                                      (char *)vmsd->name);
                }
                if (ret >= 0) {
                    ret = qemu_file_get_error(f);
@ -639,9 +687,8 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
        } else if (field->flags & VMS_MUST_EXIST) {
            nyx_debug("Input validation failed: %s/%s", vmsd->name, field->name);
            return -1;
-        }
-        else {
-            //printf("Field does not exist...\n");
+        } else {
+            // printf("Field does not exist...\n");
        }
        field++;
    }
@ -667,17 +714,24 @@ static int fdl_vmstate_load_state(state_reallocation_t* self, QEMUFile *f, const
 }


-static int fdl_vmstate_load(state_reallocation_t* self, QEMUFile *f, SaveStateEntry *se, int version_id)
+static int fdl_vmstate_load(state_reallocation_t *self,
+                            QEMUFile             *f,
+                            SaveStateEntry       *se,
+                            int                   version_id)
 {
    if (!se->vmsd) { /* Old style */
        return se->ops->load_state(f, se->opaque, version_id);
    }

    uintptr_t *t = (uintptr_t *)&(se->opaque);
-    return fdl_vmstate_load_state(self, f, se->vmsd, se->opaque, version_id, (uintptr_t *)t);
+    return fdl_vmstate_load_state(self, f, se->vmsd, se->opaque, version_id,
+                                  (uintptr_t *)t);
 }

-static int fdl_enumerate_section(state_reallocation_t* self, QEMUFile *f, MigrationIncomingState *mis){
+static int fdl_enumerate_section(state_reallocation_t   *self,
+                                 QEMUFile               *f,
+                                 MigrationIncomingState *mis)
+{
    uint32_t        instance_id, version_id, section_id;
    SaveStateEntry *se;

@ -702,14 +756,16 @@ static int fdl_enumerate_section(state_reallocation_t* self, QEMUFile *f, Migrat

    /* Validate version */
    if (version_id > se->version_id) {
-        printf("savevm: unsupported version %d for '%s' v%d", version_id, idstr, se->version_id);
+        printf("savevm: unsupported version %d for '%s' v%d", version_id, idstr,
+               se->version_id);
        return -EINVAL;
    }

    se->load_version_id = version_id;
    se->load_section_id = section_id;

-    if(se->vmsd &&  ((strcmp("tiMer", (const char*)(VMStateDescription *)(se->vmsd)->name)) 
+    if (se->vmsd &&
+        ((strcmp("tiMer", (const char *)(VMStateDescription *)(se->vmsd)->name))
         /*
         && (strcmp("cpu_common", (VMStateDescription *)(se->vmsd)->name))
         && (strcmp("cpu", (VMStateDescription *)(se->vmsd)->name))
@ -751,16 +807,17 @@ static int fdl_enumerate_section(state_reallocation_t* self, QEMUFile *f, Migrat
         */


-        )){
+         ))
+    {
        ret = fdl_vmstate_load(self, f, se, version_id);
-    }
-    else{
-        nyx_debug("---------------------------------\nVMSD2: %p\n", (void*)se->vmsd);
+    } else {
+        nyx_debug("---------------------------------\nVMSD2: %p\n", (void *)se->vmsd);
        ret = vmstate_load(f, se);
    }

    if (ret < 0) {
-        printf("error while loading state for instance 0x%x of device '%s'", instance_id, idstr);
+        printf("error while loading state for instance 0x%x of device '%s'",
+               instance_id, idstr);
        return ret;
    }

@ -770,10 +827,11 @@ static int fdl_enumerate_section(state_reallocation_t* self, QEMUFile *f, Migrat
    return 0;
 }

-static void fdl_enumerate_global_states(state_reallocation_t* self, QEMUFile *f){
-    ((struct QEMUFile_tmp*)f)->pos = 0;
-    ((struct QEMUFile_tmp*)f)->buf_index = 0;
-    ((struct QEMUFile_tmp*)f)->buf_size = 0;
+static void fdl_enumerate_global_states(state_reallocation_t *self, QEMUFile *f)
+{
+    ((struct QEMUFile_tmp *)f)->pos       = 0;
+    ((struct QEMUFile_tmp *)f)->buf_index = 0;
+    ((struct QEMUFile_tmp *)f)->buf_size  = 0;

    uint8_t section_type;

@ -784,7 +842,8 @@ static void fdl_enumerate_global_states(state_reallocation_t* self, QEMUFile *f)
    qemu_get_byte(f);

    /* migration state */
-    vmstate_load_state(f, (VMStateDescription*) &vmstate_configuration, (void*)&savevm_state, 0);
+    vmstate_load_state(f, (VMStateDescription *)&vmstate_configuration,
+                       (void *)&savevm_state, 0);

    while ((section_type = qemu_get_byte(f)) != QEMU_VM_EOF) {
        switch (section_type) {
@ -795,37 +854,40 @@ static void fdl_enumerate_global_states(state_reallocation_t* self, QEMUFile *f)
        default:
            /* oops */
            nyx_error("==> ERROR: unkown section_type: %x\n", section_type);
-                //abort();
+            // abort();
            break;
        }
    }
 }

-state_reallocation_t* state_reallocation_new(QEMUFile *f){
-    state_reallocation_t* self = malloc(sizeof(state_reallocation_t));
+state_reallocation_t *state_reallocation_new(QEMUFile *f)
+{
+    state_reallocation_t *self = malloc(sizeof(state_reallocation_t));
    self->fast_state_pos       = 0;
    self->fast_state_size      = REALLOC_SIZE;
-    self->ptr = malloc(sizeof(void*) * REALLOC_SIZE);
-    self->copy = malloc(sizeof(void*) * REALLOC_SIZE);
+    self->ptr                  = malloc(sizeof(void *) * REALLOC_SIZE);
+    self->copy                 = malloc(sizeof(void *) * REALLOC_SIZE);
    self->size                 = malloc(sizeof(size_t) * REALLOC_SIZE);

    self->fast_state_fptr_pos  = 0;
    self->fast_state_fptr_size = REALLOC_SIZE;

-    self->fptr = malloc(sizeof(void*) * REALLOC_SIZE);
-    self->opaque = malloc(sizeof(void*) * REALLOC_SIZE);
+    self->fptr    = malloc(sizeof(void *) * REALLOC_SIZE);
+    self->opaque  = malloc(sizeof(void *) * REALLOC_SIZE);
    self->version = malloc(sizeof(uint32_t) * REALLOC_SIZE);

    self->fast_state_get_fptr_pos  = 0;
    self->fast_state_get_fptr_size = REALLOC_SIZE;

-    self->get_fptr = malloc(sizeof(void*) * REALLOC_SIZE);
-    self->get_opaque = malloc(sizeof(void*) * REALLOC_SIZE);
+    self->get_fptr   = malloc(sizeof(void *) * REALLOC_SIZE);
+    self->get_opaque = malloc(sizeof(void *) * REALLOC_SIZE);
    self->get_size   = malloc(sizeof(size_t) * REALLOC_SIZE);
-    self->get_data = malloc(sizeof(void*) * REALLOC_SIZE);
+    self->get_data   = malloc(sizeof(void *) * REALLOC_SIZE);

-    self->pre_alloc_block = (uint32_t*)mmap(NULL, PRE_ALLOC_BLOCK_SIZE, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, 0, 0);
-    assert(self->pre_alloc_block != (void *) -1);
+    self->pre_alloc_block = (uint32_t *)mmap(NULL, PRE_ALLOC_BLOCK_SIZE,
+                                             PROT_READ | PROT_WRITE,
+                                             MAP_ANONYMOUS | MAP_PRIVATE, 0, 0);
+    assert(self->pre_alloc_block != (void *)-1);
    self->pre_alloc_block_offset = 0;

    self->tmp_snapshot.enabled         = false;
@ -834,70 +896,72 @@ state_reallocation_t* state_reallocation_new(QEMUFile *f){
    // actually enumerate the devices here
    fdl_enumerate_global_states(self, f);

-    self->tmp_snapshot.copy = malloc(sizeof(void*) * self->fast_state_pos);
+    self->tmp_snapshot.copy = malloc(sizeof(void *) * self->fast_state_pos);
    self->tmp_snapshot.fast_state_size = self->fast_state_pos;

-    for(uint32_t i = 0; i < self->fast_state_pos; i++){
+    for (uint32_t i = 0; i < self->fast_state_pos; i++) {
        self->tmp_snapshot.copy[i] = malloc(self->size[i]);
    }
    return self;
 }

-void fdl_fast_reload(state_reallocation_t* self){
-
-    for(uint32_t i = 0; i < self->fast_state_fptr_pos; i++){
-        if((self->version[i]) == 1337){
+void fdl_fast_reload(state_reallocation_t *self)
+{
+    for (uint32_t i = 0; i < self->fast_state_fptr_pos; i++) {
+        if ((self->version[i]) == 1337) {
            ((int (*)(void *opaque))self->fptr[i])(self->opaque[i]);
        }
    }

-    if(!self->tmp_snapshot.enabled){
-        for(uint32_t i = 0; i < self->fast_state_pos; i++){
+    if (!self->tmp_snapshot.enabled) {
+        for (uint32_t i = 0; i < self->fast_state_pos; i++) {
            memcpy(self->ptr[i], self->copy[i], self->size[i]);
        }
-    }
-    else{
-        for(uint32_t i = 0; i < self->fast_state_pos; i++){
+    } else {
+        for (uint32_t i = 0; i < self->fast_state_pos; i++) {
            memcpy(self->ptr[i], self->tmp_snapshot.copy[i], self->size[i]);
        }
    }

-    for(uint32_t i = 0; i < self->fast_state_fptr_pos; i++){
-        if((self->version[i]) != 1337){
-            ((int (*)(void *opaque, int version_id))self->fptr[i])(self->opaque[i], self->version[i]);
+    for (uint32_t i = 0; i < self->fast_state_fptr_pos; i++) {
+        if ((self->version[i]) != 1337) {
+            ((int (*)(void *opaque, int version_id))self->fptr[i])(self->opaque[i],
+                                                                   self->version[i]);
        }
    }
 }

-void fdl_fast_create_tmp(state_reallocation_t* self){
-    for(uint32_t i = 0; i < self->fast_state_fptr_pos; i++){
-        if((self->version[i]) == 1337){
+void fdl_fast_create_tmp(state_reallocation_t *self)
+{
+    for (uint32_t i = 0; i < self->fast_state_fptr_pos; i++) {
+        if ((self->version[i]) == 1337) {
            ((int (*)(void *opaque))self->fptr[i])(self->opaque[i]);
-        }
-        else{
+        } else {
            //((int (*)(void *opaque, int version_id))self->fptr[i])(self->opaque[i], self->version[i]);
        }
    }

-    for(uint32_t i = 0; i < self->fast_state_pos; i++){
+    for (uint32_t i = 0; i < self->fast_state_pos; i++) {
        memcpy(self->tmp_snapshot.copy[i], self->ptr[i], self->size[i]);
    }


-    for(uint32_t i = 0; i < self->fast_state_fptr_pos; i++){
-        if((self->version[i]) == 1337){
+    for (uint32_t i = 0; i < self->fast_state_fptr_pos; i++) {
+        if ((self->version[i]) == 1337) {
            //((int (*)(void *opaque))self->fptr[i])(self->opaque[i]);
-        }
-        else{
-            ((int (*)(void *opaque, int version_id))self->fptr[i])(self->opaque[i], self->version[i]);
+        } else {
+            ((int (*)(void *opaque, int version_id))self->fptr[i])(self->opaque[i],
+                                                                   self->version[i]);
        }
    }
 }

-void fdl_fast_enable_tmp(state_reallocation_t* self){
+void fdl_fast_enable_tmp(state_reallocation_t *self)
+{
    self->tmp_snapshot.enabled = true;
 }

-void fdl_fast_disable_tmp(state_reallocation_t* self){
+void fdl_fast_disable_tmp(state_reallocation_t *self)
+{
    self->tmp_snapshot.enabled = false;
 }
--- a/nyx/snapshot/devices/state_reallocation.h
+++ b/nyx/snapshot/devices/state_reallocation.h
@ -21,8 +21,8 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 #pragma once
 #include "qemu/osdep.h"
-#include "monitor/monitor.h"
 #include "migration/migration.h"
+#include "monitor/monitor.h"
 #include "nyx/khash.h"

 #define IO_BUF_SIZE 32768
@ -41,26 +41,26 @@ struct QEMUFile_tmp {
    uint8_t      buf[IO_BUF_SIZE];
 };

-struct fast_savevm_opaque_t{
-    FILE* f;
-    uint8_t* buf;
+struct fast_savevm_opaque_t {
+    FILE     *f;
+    uint8_t  *buf;
    size_t    buflen;
    uint64_t  pos;
-    void* output_buffer;
-    uint32_t* output_buffer_size;
+    void     *output_buffer;
+    uint32_t *output_buffer_size;
 };

 #define REALLOC_SIZE 0x8000

 #define PRE_ALLOC_BLOCK_SIZE 0x8000000 /* 128 MB */

-typedef struct state_reallocation_tmp_s{
+typedef struct state_reallocation_tmp_s {
    void   **copy;
    uint32_t fast_state_size;
    bool     enabled;
 } state_reallocation_tmp_t;

-typedef struct state_reallocation_s{
+typedef struct state_reallocation_s {
    void  **ptr;
    void  **copy;
    size_t *size;
@ -86,17 +86,17 @@ typedef struct state_reallocation_s{
    uint32_t fast_state_get_fptr_pos;

    /* prevents heap fragmentation and additional 2GB mem usage */
-    void* pre_alloc_block;
+    void    *pre_alloc_block;
    uint32_t pre_alloc_block_offset;

    state_reallocation_tmp_t tmp_snapshot;

 } state_reallocation_t;

-state_reallocation_t* state_reallocation_new(QEMUFile *f);
+state_reallocation_t *state_reallocation_new(QEMUFile *f);

-void fdl_fast_reload(state_reallocation_t* self);
+void fdl_fast_reload(state_reallocation_t *self);

-void fdl_fast_create_tmp(state_reallocation_t* self);
-void fdl_fast_enable_tmp(state_reallocation_t* self);
-void fdl_fast_disable_tmp(state_reallocation_t* self);
+void fdl_fast_create_tmp(state_reallocation_t *self);
+void fdl_fast_enable_tmp(state_reallocation_t *self);
+void fdl_fast_disable_tmp(state_reallocation_t *self);
--- a/nyx/snapshot/devices/vm_change_state_handlers.c
+++ b/nyx/snapshot/devices/vm_change_state_handlers.c
@ -1,23 +1,24 @@

-#include <assert.h>
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"
 #include "nyx/snapshot/devices/vm_change_state_handlers.h"
+#include <assert.h>


-VMChangeStateHandler* change_kvm_clock_handler = NULL;
-VMChangeStateHandler* change_kvm_pit_handler = NULL;
-VMChangeStateHandler* change_cpu_handler = NULL;
-void* change_kvm_clock_opaque = NULL;
-void* change_kvm_pit_opaque = NULL;
-void* change_cpu_opaque = NULL;
+VMChangeStateHandler *change_kvm_clock_handler = NULL;
+VMChangeStateHandler *change_kvm_pit_handler   = NULL;
+VMChangeStateHandler *change_cpu_handler       = NULL;
+void                 *change_kvm_clock_opaque  = NULL;
+void                 *change_kvm_pit_opaque    = NULL;
+void                 *change_cpu_opaque        = NULL;

-VMChangeStateHandler* change_ide_core_handler = NULL;
+VMChangeStateHandler *change_ide_core_handler    = NULL;
 uint8_t               change_ide_core_opaque_num = 0;
-void* change_ide_core_opaque[32] = {NULL};
+void                 *change_ide_core_opaque[32] = { NULL };

-void call_fast_change_handlers(void){
+void call_fast_change_handlers(void)
+{
    assert(change_kvm_clock_handler && change_kvm_pit_handler && change_cpu_handler);

    change_kvm_clock_handler(change_kvm_clock_opaque, 1, RUN_STATE_RUNNING);
@ -27,15 +28,16 @@ void call_fast_change_handlers(void){
    return;

    /* TODO: check if necessary */
-    if(change_ide_core_handler){
-        for(uint8_t i = 0; i < change_ide_core_opaque_num; i++){
+    if (change_ide_core_handler) {
+        for (uint8_t i = 0; i < change_ide_core_opaque_num; i++) {
            change_ide_core_handler(change_ide_core_opaque[i], 1, RUN_STATE_RUNNING);
        }
    }
 }

-void add_fast_reload_change_handler(VMChangeStateHandler *cb, void *opaque, int id){
-    switch(id){
+void add_fast_reload_change_handler(VMChangeStateHandler *cb, void *opaque, int id)
+{
+    switch (id) {
    case RELOAD_HANDLER_KVM_CLOCK:
        change_kvm_clock_handler = cb;
        change_kvm_clock_opaque  = opaque;
--- a/nyx/snapshot/devices/vm_change_state_handlers.h
+++ b/nyx/snapshot/devices/vm_change_state_handlers.h
@ -1,8 +1,8 @@
 #pragma once

-#include <stdlib.h>
-#include <stdint.h>
 #include "sysemu/runstate.h"
+#include <stdint.h>
+#include <stdlib.h>

 #define RELOAD_HANDLER_KVM_CLOCK 0
 #define RELOAD_HANDLER_KVM_PIT   1
--- a/nyx/snapshot/helper.c
+++ b/nyx/snapshot/helper.c
@ -1,24 +1,25 @@
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
-#include "sysemu/cpus.h"
 #include "qemu/main-loop.h"
+#include "sysemu/cpus.h"
+#include "sysemu/sysemu.h"

-#include "qemu/bitmap.h"
 #include "exec/ram_addr.h"
-#include "qemu/rcu_queue.h"
 #include "migration/migration.h"
+#include "qemu/bitmap.h"
+#include "qemu/rcu_queue.h"

 #include "nyx/memory_access.h"

-#include "nyx/snapshot/helper.h"
 #include "nyx/fast_vm_reload.h"
+#include "nyx/snapshot/helper.h"

-//#define DEBUG_NYX_SNAPSHOT_HELPER
+// #define DEBUG_NYX_SNAPSHOT_HELPER

-uint64_t get_ram_size(void){
+uint64_t get_ram_size(void)
+{
    RAMBlock *block;
    uint64_t  guest_ram_size = 0;
-  QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
        guest_ram_size += block->used_length;
 #ifdef DEBUG_NYX_SNAPSHOT_HELPER
        printf("Block: %s (%lx)\n", block->idstr, block->used_length);
--- a/nyx/snapshot/helper.h
+++ b/nyx/snapshot/helper.h
@ -6,8 +6,8 @@
 #define PAGE_SIZE qemu_real_host_page_size
 #endif

-#define BITMAP_SIZE(x) ((x/PAGE_SIZE)/8)
-#define DIRTY_STACK_SIZE(x) ((x/PAGE_SIZE)*sizeof(uint64_t))
+#define BITMAP_SIZE(x)      ((x / PAGE_SIZE) / 8)
+#define DIRTY_STACK_SIZE(x) ((x / PAGE_SIZE) * sizeof(uint64_t))


 uint64_t get_ram_size(void);
--- a/nyx/snapshot/memory/backend/nyx_debug.c
+++ b/nyx/snapshot/memory/backend/nyx_debug.c
@ -1,61 +1,72 @@
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"

 #include "exec/ram_addr.h"
-#include "qemu/rcu_queue.h"
 #include "migration/migration.h"
+#include "qemu/rcu_queue.h"

 #include "nyx/memory_access.h"

-#include "nyx/snapshot/memory/backend/nyx_debug.h"
 #include "nyx/fast_vm_reload.h"
+#include "nyx/snapshot/memory/backend/nyx_debug.h"


 /* init operation */
-void nyx_snapshot_debug_pre_init(void){
+void nyx_snapshot_debug_pre_init(void)
+{
    /* TODO */
 }

 /* init operation */
-void nyx_snapshot_debug_init(fast_reload_t* self){
+void nyx_snapshot_debug_init(fast_reload_t *self)
+{
    /* TODO */
 }

 /* enable operation */
-void nyx_snapshot_debug_enable(fast_reload_t* self){
+void nyx_snapshot_debug_enable(fast_reload_t *self)
+{
    /* TODO */
 }

 /* restore operation */
-uint32_t nyx_snapshot_debug_restore(shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, bool verbose){
+uint32_t nyx_snapshot_debug_restore(shadow_memory_t           *shadow_memory_state,
+                                    snapshot_page_blocklist_t *blocklist,
+                                    bool                       verbose)
+{
    uint32_t num_dirty_pages = 0;

-  void* current_region = NULL;
+    void *current_region = NULL;
    int   counter        = 0;
-  for(uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++){
-
-    if(shadow_memory_state->incremental_enabled){
-      current_region = shadow_memory_state->ram_regions[i].incremental_region_ptr;
-    }
-    else{
+    for (uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++) {
+        if (shadow_memory_state->incremental_enabled) {
+            current_region =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr;
+        } else {
            current_region = shadow_memory_state->ram_regions[i].snapshot_region_ptr;
        }

-    for(uint64_t addr = 0; addr < shadow_memory_state->ram_regions[i].size; addr+=0x1000){
-
-      void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + addr;
-      void* snapshot_addr = current_region + addr;
+        for (uint64_t addr = 0; addr < shadow_memory_state->ram_regions[i].size;
+             addr += 0x1000)
+        {
+            void *host_addr =
+                shadow_memory_state->ram_regions[i].host_region_ptr + addr;
+            void    *snapshot_addr = current_region + addr;
            uint64_t physical_addr = addr + shadow_memory_state->ram_regions[i].base;

            /* check first if the page is dirty (this is super slow, but quite useful for debugging) */
-      if(memcmp(host_addr, snapshot_addr, TARGET_PAGE_SIZE)){
+            if (memcmp(host_addr, snapshot_addr, TARGET_PAGE_SIZE)) {
                /* check if page is not on the block list */
-        if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == false){
-          //fprintf(stderr, "(2) DIRTY: 0x%lx (NUM: %d - OFFSET: 0x%lx)\n", physical_addr, i, addr);
+                if (snapshot_page_blocklist_check_phys_addr(blocklist,
+                                                            physical_addr) == false)
+                {
+                    // fprintf(stderr, "(2) DIRTY: 0x%lx (NUM: %d - OFFSET: 0x%lx)\n", physical_addr, i, addr);

-          if(verbose){
-            printf("%s -> (phys: 0x%lx) %p <-- %p [%d]\n", __func__, physical_addr, host_addr, snapshot_addr, shadow_memory_state->incremental_enabled);
+                    if (verbose) {
+                        printf("%s -> (phys: 0x%lx) %p <-- %p [%d]\n", __func__,
+                               physical_addr, host_addr, snapshot_addr,
+                               shadow_memory_state->incremental_enabled);
                        counter++;
                    }

@ -66,39 +77,51 @@ uint32_t nyx_snapshot_debug_restore(shadow_memory_t* shadow_memory_state, snapsh
        }
    }

-  if(verbose){
+    if (verbose) {
        printf("TOTAL: %d\n", counter);
    }
    return num_dirty_pages;
 }

-void nyx_snapshot_debug_save_root_pages(shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, bool verbose){
-  void* current_region = NULL;
+void nyx_snapshot_debug_save_root_pages(shadow_memory_t *shadow_memory_state,
+                                        snapshot_page_blocklist_t *blocklist,
+                                        bool                       verbose)
+{
+    void *current_region = NULL;

-  for(uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++){
-
-    if(shadow_memory_state->incremental_enabled){
-      current_region = shadow_memory_state->ram_regions[i].incremental_region_ptr;
-    }
-    else{
+    for (uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++) {
+        if (shadow_memory_state->incremental_enabled) {
+            current_region =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr;
+        } else {
            current_region = shadow_memory_state->ram_regions[i].snapshot_region_ptr;
        }

-    for(uint64_t addr = 0; addr < shadow_memory_state->ram_regions[i].size; addr+=0x1000){
-
-      void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + addr;
-      void* snapshot_addr = current_region + addr;
+        for (uint64_t addr = 0; addr < shadow_memory_state->ram_regions[i].size;
+             addr += 0x1000)
+        {
+            void *host_addr =
+                shadow_memory_state->ram_regions[i].host_region_ptr + addr;
+            void    *snapshot_addr = current_region + addr;
            uint64_t physical_addr = addr + shadow_memory_state->ram_regions[i].base;
-      void* incremental_addr = shadow_memory_state->ram_regions[i].incremental_region_ptr + addr;
+            void    *incremental_addr =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr + addr;

            /* check first if the page is dirty (this is super slow, but quite useful for debugging) */
-      if(memcmp(host_addr, snapshot_addr, TARGET_PAGE_SIZE)){
+            if (memcmp(host_addr, snapshot_addr, TARGET_PAGE_SIZE)) {
                /* check if page is not on the block list */
-        if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == false){
-          //fprintf(stderr, "(2) DIRTY: 0x%lx (NUM: %d - OFFSET: 0x%lx)\n", physical_addr, i, addr);
+                if (snapshot_page_blocklist_check_phys_addr(blocklist,
+                                                            physical_addr) == false)
+                {
+                    // fprintf(stderr, "(2) DIRTY: 0x%lx (NUM: %d - OFFSET: 0x%lx)\n", physical_addr, i, addr);

-          if(verbose && !shadow_memory_is_root_page_tracked(shadow_memory_state, addr, i)){
-            printf("%s -> %p <-- %p [%d]\n", __func__, host_addr, snapshot_addr, shadow_memory_state->incremental_enabled);
+                    if (verbose &&
+                        !shadow_memory_is_root_page_tracked(shadow_memory_state,
+                                                            addr, i))
+                    {
+                        printf("%s -> %p <-- %p [%d]\n", __func__, host_addr,
+                               snapshot_addr,
+                               shadow_memory_state->incremental_enabled);
                    }

                    shadow_memory_track_dirty_root_pages(shadow_memory_state, addr, i);
@ -110,6 +133,7 @@ void nyx_snapshot_debug_save_root_pages(shadow_memory_t* shadow_memory_state, sn
 }

 /* set operation */
-void nyx_snapshot_debug_set(fast_reload_t* self){
+void nyx_snapshot_debug_set(fast_reload_t *self)
+{
    /* TODO */
 }
--- a/nyx/snapshot/memory/backend/nyx_debug.h
+++ b/nyx/snapshot/memory/backend/nyx_debug.h
@ -1,11 +1,15 @@
 #pragma once

-#include <stdint.h>
 #include "nyx/fast_vm_reload.h"
+#include <stdint.h>

 void     nyx_snapshot_debug_pre_init(void);
-void nyx_snapshot_debug_init(fast_reload_t* self);
-void nyx_snapshot_debug_enable(fast_reload_t* self);
-uint32_t nyx_snapshot_debug_restore(shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, bool verbose);
-void nyx_snapshot_debug_set(fast_reload_t* self);
-void nyx_snapshot_debug_save_root_pages(shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, bool verbose);
+void     nyx_snapshot_debug_init(fast_reload_t *self);
+void     nyx_snapshot_debug_enable(fast_reload_t *self);
+uint32_t nyx_snapshot_debug_restore(shadow_memory_t           *shadow_memory_state,
+                                    snapshot_page_blocklist_t *blocklist,
+                                    bool                       verbose);
+void     nyx_snapshot_debug_set(fast_reload_t *self);
+void     nyx_snapshot_debug_save_root_pages(shadow_memory_t *shadow_memory_state,
+                                            snapshot_page_blocklist_t *blocklist,
+                                            bool                       verbose);
--- a/nyx/snapshot/memory/backend/nyx_dirty_ring.c
+++ b/nyx/snapshot/memory/backend/nyx_dirty_ring.c
@ -2,8 +2,8 @@
 #include "qemu/osdep.h"
 #include <sys/ioctl.h>

-#include "nyx/snapshot/memory/backend/nyx_dirty_ring.h"
 #include "nyx/snapshot/helper.h"
+#include "nyx/snapshot/memory/backend/nyx_dirty_ring.h"

 #include "sysemu/kvm.h"
 #include "sysemu/kvm_int.h"
@ -26,36 +26,42 @@ uint32_t kvm_dirty_gfns_index = 0;
 uint32_t              kvm_dirty_gfns_index_mask  = 0;


-static int vm_enable_dirty_ring(int vm_fd, uint32_t ring_size){
+static int vm_enable_dirty_ring(int vm_fd, uint32_t ring_size)
+{
    struct kvm_enable_cap cap = { 0 };

    cap.cap     = KVM_CAP_DIRTY_LOG_RING;
    cap.args[0] = ring_size;

    int ret = ioctl(vm_fd, KVM_ENABLE_CAP, &cap);
-	if(ret != 0){
+    if (ret != 0) {
        printf("[QEMU-Nyx] Error: KVM_ENABLE_CAP ioctl failed\n");
    }

    return ring_size;
 }

-static int check_dirty_ring_size(int kvm_fd, int vm_fd){
+static int check_dirty_ring_size(int kvm_fd, int vm_fd)
+{
    int ret = ioctl(kvm_fd, KVM_CHECK_EXTENSION, KVM_CAP_DIRTY_LOG_RING);
-	if(ret < 0 ){
-		printf("[QEMU-Nyx] Error: KVM_CAP_DIRTY_LOG_RING failed (dirty ring not supported?)\n");
+    if (ret < 0) {
+        printf("[QEMU-Nyx] Error: KVM_CAP_DIRTY_LOG_RING failed (dirty ring not "
+               "supported?)\n");
        exit(1);
    }

-	printf("[QEMU-Nyx] Max Dirty Ring Size -> %d (Entries: %d)\n", ret, ret/(int)sizeof(struct kvm_dirty_gfn));
+    printf("[QEMU-Nyx] Max Dirty Ring Size -> %d (Entries: %d)\n", ret,
+           ret / (int)sizeof(struct kvm_dirty_gfn));

-	uint64_t dirty_ring_max_size = ret; //kvm_dirty_ring_size * sizeof(struct kvm_dirty_gfn);
+    uint64_t dirty_ring_max_size =
+        ret; // kvm_dirty_ring_size * sizeof(struct kvm_dirty_gfn);

    /* DIRTY RING -> 1MB in size results in 256M trackable memory */
    ret = vm_enable_dirty_ring(vm_fd, dirty_ring_max_size);

-	if(ret < 0 ){
-		printf("[QEMU-Nyx] Error: Enabling dirty ring (size: %ld) failed\n", dirty_ring_max_size);
+    if (ret < 0) {
+        printf("[QEMU-Nyx] Error: Enabling dirty ring (size: %ld) failed\n",
+               dirty_ring_max_size);
        exit(1);
    }

@ -63,11 +69,14 @@ static int check_dirty_ring_size(int kvm_fd, int vm_fd){
    return ret;
 }

-static void allocate_dirty_ring(int kvm_vcpu, int vm_fd){
+static void allocate_dirty_ring(int kvm_vcpu, int vm_fd)
+{
    assert(dirty_ring_size);

    if (dirty_ring_size) {
-    kvm_dirty_gfns = mmap(NULL, dirty_ring_size, PROT_READ | PROT_WRITE, MAP_SHARED, kvm_vcpu, PAGE_SIZE * KVM_DIRTY_LOG_PAGE_OFFSET);
+        kvm_dirty_gfns = mmap(NULL, dirty_ring_size, PROT_READ | PROT_WRITE,
+                              MAP_SHARED, kvm_vcpu,
+                              PAGE_SIZE * KVM_DIRTY_LOG_PAGE_OFFSET);
        if (kvm_dirty_gfns == MAP_FAILED) {
            printf("[QEMU-Nyx] Error: Dirty ring mmap failed!\n");
            exit(1);
@ -80,51 +89,61 @@ static void allocate_dirty_ring(int kvm_vcpu, int vm_fd){
 }

 /* pre_init operation */
-void nyx_dirty_ring_early_init(int kvm_fd, int vm_fd){
+void nyx_dirty_ring_early_init(int kvm_fd, int vm_fd)
+{
    dirty_ring_size = check_dirty_ring_size(kvm_fd, vm_fd);
 }

-void nyx_dirty_ring_pre_init(int kvm_fd, int vm_fd){
+void nyx_dirty_ring_pre_init(int kvm_fd, int vm_fd)
+{
    allocate_dirty_ring(kvm_fd, vm_fd);

    kvm_dirty_gfns_index = 0;
-	kvm_dirty_gfns_index_mask = ((dirty_ring_max_size_global/sizeof(struct kvm_dirty_gfn)) - 1);
-
+    kvm_dirty_gfns_index_mask =
+        ((dirty_ring_max_size_global / sizeof(struct kvm_dirty_gfn)) - 1);
 }

-static inline void dirty_ring_collect(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, uint64_t slot, uint64_t gfn){
-
+static inline void dirty_ring_collect(nyx_dirty_ring_t          *self,
+                                      shadow_memory_t           *shadow_memory_state,
+                                      snapshot_page_blocklist_t *blocklist,
+                                      uint64_t                   slot,
+                                      uint64_t                   gfn)
+{
    /* sanity check */
-	assert((slot&0xFFFF0000) == 0);
+    assert((slot & 0xFFFF0000) == 0);

-	slot_t* kvm_region_slot = &self->kvm_region_slots[slot&0xFFFF];
-
-	if(test_and_set_bit(gfn, (void*)kvm_region_slot->bitmap) == false){
+    slot_t *kvm_region_slot = &self->kvm_region_slots[slot & 0xFFFF];

+    if (test_and_set_bit(gfn, (void *)kvm_region_slot->bitmap) == false) {
        kvm_region_slot->stack[kvm_region_slot->stack_ptr] = gfn;
        kvm_region_slot->stack_ptr++;
    }
 }

-static void dirty_ring_flush_and_collect(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist, int vm_fd){
+static void dirty_ring_flush_and_collect(nyx_dirty_ring_t *self,
+                                         shadow_memory_t  *shadow_memory_state,
+                                         snapshot_page_blocklist_t *blocklist,
+                                         int                        vm_fd)
+{
    struct kvm_dirty_gfn *entry   = NULL;
    int                   cleared = 0;

-	while(true){
-
+    while (true) {
        entry = &kvm_dirty_gfns[kvm_dirty_gfns_index & kvm_dirty_gfns_index_mask];

-		if((entry->flags & 0x3) == 0){
+        if ((entry->flags & 0x3) == 0) {
            break;
        }

-		if((entry->flags & 0x1) == 1){
-			dirty_ring_collect(self, shadow_memory_state, blocklist, entry->slot, entry->offset);
+        if ((entry->flags & 0x1) == 1) {
+            dirty_ring_collect(self, shadow_memory_state, blocklist, entry->slot,
+                               entry->offset);
            cleared++;
            entry->flags |= 0x2; // reset dirty entry
-		}
-		else{
-			printf("[QEMU-Nyx] [%p] kvm_dirty_gfn -> flags: %d slot: %d offset: %lx {ERROR}\n", entry, entry->flags, entry->slot, entry->offset);
+        } else {
+            printf("[QEMU-Nyx] [%p] kvm_dirty_gfn -> flags: %d slot: %d offset: %lx "
+                   "{ERROR}\n",
+                   entry, entry->flags, entry->slot, entry->offset);
            fflush(stdout);
            exit(1);
        }
@ -136,24 +155,25 @@ static void dirty_ring_flush_and_collect(nyx_dirty_ring_t* self, shadow_memory_t
    assert(ret == cleared);
 }

-static void dirty_ring_flush(int vm_fd){
+static void dirty_ring_flush(int vm_fd)
+{
    struct kvm_dirty_gfn *entry   = NULL;
    int                   cleared = 0;

-	while(true){
-
+    while (true) {
        entry = &kvm_dirty_gfns[kvm_dirty_gfns_index & kvm_dirty_gfns_index_mask];

-		if((entry->flags & 0x3) == 0){
+        if ((entry->flags & 0x3) == 0) {
            break;
        }

-		if((entry->flags & 0x1) == 1){
+        if ((entry->flags & 0x1) == 1) {
            cleared++;
            entry->flags |= 0x2; // reset dirty entry
-		}
-		else{
-			printf("[QEMU-Nyx] [%p] kvm_dirty_gfn -> flags: %d slot: %d offset: %lx {ERROR}\n", entry, entry->flags, entry->slot, entry->offset);
+        } else {
+            printf("[QEMU-Nyx] [%p] kvm_dirty_gfn -> flags: %d slot: %d offset: %lx "
+                   "{ERROR}\n",
+                   entry, entry->flags, entry->slot, entry->offset);
            fflush(stdout);
            exit(1);
        }
@ -166,8 +186,9 @@ static void dirty_ring_flush(int vm_fd){
 }

 /* init operation */
-nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){
-  nyx_dirty_ring_t* self = malloc(sizeof(nyx_dirty_ring_t));
+nyx_dirty_ring_t *nyx_dirty_ring_init(shadow_memory_t *shadow_memory)
+{
+    nyx_dirty_ring_t *self = malloc(sizeof(nyx_dirty_ring_t));
    memset(self, 0, sizeof(nyx_dirty_ring_t));

    assert(kvm_state);
@ -179,7 +200,7 @@ nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){
    for (int i = 0; i < kvm_get_max_memslots(); i++) {
        mem = &kml->slots[i];

-		if(mem->start_addr == 0 && mem->memory_size == 0){
+        if (mem->start_addr == 0 && mem->memory_size == 0) {
            break;
        }

@ -192,11 +213,11 @@ nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){
    for (int i = 0; i < kvm_get_max_memslots(); i++) {
        mem = &kml->slots[i];

-		if(mem->start_addr == 0 && mem->memory_size == 0){
+        if (mem->start_addr == 0 && mem->memory_size == 0) {
            break;
        }

-		self->kvm_region_slots[i].enabled = (mem->flags&KVM_MEM_READONLY) == 0;
+        self->kvm_region_slots[i].enabled = (mem->flags & KVM_MEM_READONLY) == 0;
        self->kvm_region_slots[i].bitmap  = malloc(BITMAP_SIZE(mem->memory_size));
        self->kvm_region_slots[i].stack = malloc(DIRTY_STACK_SIZE(mem->memory_size));

@ -207,15 +228,21 @@ nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){

        self->kvm_region_slots[i].stack_ptr = 0;

-		if(self->kvm_region_slots[i].enabled){
+        if (self->kvm_region_slots[i].enabled) {
            bool ram_region_found = false;
-			for(int j = 0; j < shadow_memory->ram_regions_num; j++){
-
-				if(FAST_IN_RANGE(mem->start_addr, shadow_memory->ram_regions[j].base, (shadow_memory->ram_regions[j].base+shadow_memory->ram_regions[j].size))){
-					assert(FAST_IN_RANGE((mem->start_addr+mem->memory_size-1), shadow_memory->ram_regions[j].base, (shadow_memory->ram_regions[j].base+shadow_memory->ram_regions[j].size)));
+            for (int j = 0; j < shadow_memory->ram_regions_num; j++) {
+                if (FAST_IN_RANGE(mem->start_addr, shadow_memory->ram_regions[j].base,
+                                  (shadow_memory->ram_regions[j].base +
+                                   shadow_memory->ram_regions[j].size)))
+                {
+                    assert(FAST_IN_RANGE((mem->start_addr + mem->memory_size - 1),
+                                         shadow_memory->ram_regions[j].base,
+                                         (shadow_memory->ram_regions[j].base +
+                                          shadow_memory->ram_regions[j].size)));

                    self->kvm_region_slots[i].region_id = j;
-					self->kvm_region_slots[i].region_offset = mem->start_addr - shadow_memory->ram_regions[j].base;
+                    self->kvm_region_slots[i].region_offset =
+                        mem->start_addr - shadow_memory->ram_regions[j].base;
                    ram_region_found = true;
                    break;
                }
@ -225,16 +252,17 @@ nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){
    }

 #ifdef DEBUG__PRINT_DIRTY_RING
-	for(int i = 0; i < self->kvm_region_slots_num; i++){
+    for (int i = 0; i < self->kvm_region_slots_num; i++) {
        printf("[%d].enabled       = %d\n", i, self->kvm_region_slots[i].enabled);
        printf("[%d].bitmap        = %p\n", i, self->kvm_region_slots[i].bitmap);
        printf("[%d].stack         = %p\n", i, self->kvm_region_slots[i].stack);
        printf("[%d].stack_ptr     = %ld\n", i, self->kvm_region_slots[i].stack_ptr);
-		if(self->kvm_region_slots[i].enabled){
-			printf("[%d].region_id     = %d\n", i, self->kvm_region_slots[i].region_id);
-			printf("[%d].region_offset = 0x%lx\n", i, self->kvm_region_slots[i].region_offset);
-		}
-		else{
+        if (self->kvm_region_slots[i].enabled) {
+            printf("[%d].region_id     = %d\n", i,
+                   self->kvm_region_slots[i].region_id);
+            printf("[%d].region_offset = 0x%lx\n", i,
+                   self->kvm_region_slots[i].region_offset);
+        } else {
            printf("[%d].region_id     = -\n", i);
            printf("[%d].region_offset = -\n", i);
        }
@ -245,40 +273,55 @@ nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory){
    return self;
 }

-static uint32_t restore_memory(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
+static uint32_t restore_memory(nyx_dirty_ring_t          *self,
+                               shadow_memory_t           *shadow_memory_state,
+                               snapshot_page_blocklist_t *blocklist)
+{
    uint32_t num_dirty_pages   = 0;
-	void* host_addr = NULL;
-	void* snapshot_addr = NULL;
+    void    *host_addr         = NULL;
+    void    *snapshot_addr     = NULL;
    uint64_t physical_addr     = 0;
    uint64_t gfn               = 0;
    uint64_t entry_offset_addr = 0;

-	for(uint8_t j = 0; j < self->kvm_region_slots_num; j++){
-		slot_t* kvm_region_slot = &self->kvm_region_slots[j];
-		if(kvm_region_slot->enabled && kvm_region_slot->stack_ptr){
-			for(uint64_t i = 0; i < kvm_region_slot->stack_ptr; i++){
+    for (uint8_t j = 0; j < self->kvm_region_slots_num; j++) {
+        slot_t *kvm_region_slot = &self->kvm_region_slots[j];
+        if (kvm_region_slot->enabled && kvm_region_slot->stack_ptr) {
+            for (uint64_t i = 0; i < kvm_region_slot->stack_ptr; i++) {
                gfn = kvm_region_slot->stack[i];

-        entry_offset_addr = kvm_region_slot->region_offset + (gfn<<12);
+                entry_offset_addr = kvm_region_slot->region_offset + (gfn << 12);

-        physical_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].base + entry_offset_addr;
+                physical_addr =
+                    shadow_memory_state->ram_regions[kvm_region_slot->region_id].base +
+                    entry_offset_addr;

-        if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+                if (snapshot_page_blocklist_check_phys_addr(blocklist,
+                                                            physical_addr) == true)
+                {
                    continue;
                }

-				host_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].host_region_ptr + entry_offset_addr;
+                host_addr =
+                    shadow_memory_state->ram_regions[kvm_region_slot->region_id]
+                        .host_region_ptr +
+                    entry_offset_addr;

-				if(shadow_memory_state->incremental_enabled){
-    			snapshot_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].incremental_region_ptr + entry_offset_addr;
-				}
-				else{
-    			snapshot_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].snapshot_region_ptr + entry_offset_addr;
+                if (shadow_memory_state->incremental_enabled) {
+                    snapshot_addr =
+                        shadow_memory_state->ram_regions[kvm_region_slot->region_id]
+                            .incremental_region_ptr +
+                        entry_offset_addr;
+                } else {
+                    snapshot_addr =
+                        shadow_memory_state->ram_regions[kvm_region_slot->region_id]
+                            .snapshot_region_ptr +
+                        entry_offset_addr;
                }

                memcpy(host_addr, snapshot_addr, TARGET_PAGE_SIZE);

-				clear_bit(gfn, (void*)kvm_region_slot->bitmap);
+                clear_bit(gfn, (void *)kvm_region_slot->bitmap);
                num_dirty_pages++;
            }
            kvm_region_slot->stack_ptr = 0;
@ -287,55 +330,82 @@ static uint32_t restore_memory(nyx_dirty_ring_t* self, shadow_memory_t* shadow_m
    return num_dirty_pages;
 }

-static void save_root_pages(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-	void* host_addr = NULL;
-	void* incremental_addr = NULL;
+static void save_root_pages(nyx_dirty_ring_t          *self,
+                            shadow_memory_t           *shadow_memory_state,
+                            snapshot_page_blocklist_t *blocklist)
+{
+    void    *host_addr         = NULL;
+    void    *incremental_addr  = NULL;
    uint64_t physical_addr     = 0;
    uint64_t gfn               = 0;
    uint64_t entry_offset_addr = 0;

-	for(uint8_t j = 0; j < self->kvm_region_slots_num; j++){
-		slot_t* kvm_region_slot = &self->kvm_region_slots[j];
-		if(kvm_region_slot->enabled && kvm_region_slot->stack_ptr){
-			for(uint64_t i = 0; i < kvm_region_slot->stack_ptr; i++){
+    for (uint8_t j = 0; j < self->kvm_region_slots_num; j++) {
+        slot_t *kvm_region_slot = &self->kvm_region_slots[j];
+        if (kvm_region_slot->enabled && kvm_region_slot->stack_ptr) {
+            for (uint64_t i = 0; i < kvm_region_slot->stack_ptr; i++) {
                gfn = kvm_region_slot->stack[i];

-        entry_offset_addr = kvm_region_slot->region_offset + (gfn<<12);
+                entry_offset_addr = kvm_region_slot->region_offset + (gfn << 12);

-        physical_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].base + entry_offset_addr;
+                physical_addr =
+                    shadow_memory_state->ram_regions[kvm_region_slot->region_id].base +
+                    entry_offset_addr;

-        if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+                if (snapshot_page_blocklist_check_phys_addr(blocklist,
+                                                            physical_addr) == true)
+                {
                    continue;
                }

-				host_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].host_region_ptr + entry_offset_addr;
-        incremental_addr = shadow_memory_state->ram_regions[kvm_region_slot->region_id].incremental_region_ptr + entry_offset_addr;
+                host_addr =
+                    shadow_memory_state->ram_regions[kvm_region_slot->region_id]
+                        .host_region_ptr +
+                    entry_offset_addr;
+                incremental_addr =
+                    shadow_memory_state->ram_regions[kvm_region_slot->region_id]
+                        .incremental_region_ptr +
+                    entry_offset_addr;

-				shadow_memory_track_dirty_root_pages(shadow_memory_state, entry_offset_addr, kvm_region_slot->region_id);
+                shadow_memory_track_dirty_root_pages(shadow_memory_state,
+                                                     entry_offset_addr,
+                                                     kvm_region_slot->region_id);
                memcpy(incremental_addr, host_addr, TARGET_PAGE_SIZE);

-				clear_bit(gfn, (void*)kvm_region_slot->bitmap);
+                clear_bit(gfn, (void *)kvm_region_slot->bitmap);
            }
            kvm_region_slot->stack_ptr = 0;
        }
    }
 }

-uint32_t nyx_snapshot_nyx_dirty_ring_restore(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-  	dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist, kvm_get_vm_fd(kvm_state));
+uint32_t nyx_snapshot_nyx_dirty_ring_restore(nyx_dirty_ring_t *self,
+                                             shadow_memory_t  *shadow_memory_state,
+                                             snapshot_page_blocklist_t *blocklist)
+{
+    dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist,
+                                 kvm_get_vm_fd(kvm_state));
    return restore_memory(self, shadow_memory_state, blocklist);
 }

-void nyx_snapshot_nyx_dirty_ring_save_root_pages(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-
-  dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist, kvm_get_vm_fd(kvm_state));
+void nyx_snapshot_nyx_dirty_ring_save_root_pages(nyx_dirty_ring_t *self,
+                                                 shadow_memory_t *shadow_memory_state,
+                                                 snapshot_page_blocklist_t *blocklist)
+{
+    dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist,
+                                 kvm_get_vm_fd(kvm_state));
    save_root_pages(self, shadow_memory_state, blocklist);
 }

-void nyx_snapshot_nyx_dirty_ring_flush(void){
+void nyx_snapshot_nyx_dirty_ring_flush(void)
+{
    dirty_ring_flush(kvm_get_vm_fd(kvm_state));
 }

-void nyx_snapshot_nyx_dirty_ring_flush_and_collect(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-		dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist, kvm_get_vm_fd(kvm_state));
+void nyx_snapshot_nyx_dirty_ring_flush_and_collect(nyx_dirty_ring_t *self,
+                                                   shadow_memory_t *shadow_memory_state,
+                                                   snapshot_page_blocklist_t *blocklist)
+{
+    dirty_ring_flush_and_collect(self, shadow_memory_state, blocklist,
+                                 kvm_get_vm_fd(kvm_state));
 }
--- a/nyx/snapshot/memory/backend/nyx_dirty_ring.h
+++ b/nyx/snapshot/memory/backend/nyx_dirty_ring.h
@ -1,8 +1,8 @@
 #pragma once

-#include <stdint.h>
 #include "nyx/snapshot/memory/block_list.h"
 #include "nyx/snapshot/memory/shadow_memory.h"
+#include <stdint.h>

 struct kvm_dirty_gfn {
    uint32_t flags;
@ -10,21 +10,21 @@ struct kvm_dirty_gfn {
    uint64_t offset;
 };

-typedef struct slot_s{
+typedef struct slot_s {
    bool enabled; /* set if slot is not marked as read-only */

    uint8_t  region_id;     /* shadow_memory region id */
    uint64_t region_offset; /* shadow_memory region offset*/

-    void* bitmap;
+    void *bitmap;

    uint64_t  bitmap_size; // remove me later
-    uint64_t* stack;
+    uint64_t *stack;
    uint64_t  stack_ptr;
 } slot_t;

-typedef struct nyx_dirty_ring_s{
-    slot_t* kvm_region_slots;
+typedef struct nyx_dirty_ring_s {
+    slot_t *kvm_region_slots;
    uint8_t kvm_region_slots_num;

 } nyx_dirty_ring_t;
@ -35,12 +35,18 @@ void nyx_dirty_ring_early_init(int kvm_fd, int vm_fd);
 /* must be called right after KVM_CREATE_VCPU */
 void nyx_dirty_ring_pre_init(int kvm_fd, int vm_fd);

-nyx_dirty_ring_t* nyx_dirty_ring_init(shadow_memory_t* shadow_memory);
+nyx_dirty_ring_t *nyx_dirty_ring_init(shadow_memory_t *shadow_memory);

-uint32_t nyx_snapshot_nyx_dirty_ring_restore(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+uint32_t nyx_snapshot_nyx_dirty_ring_restore(nyx_dirty_ring_t *self,
+                                             shadow_memory_t  *shadow_memory_state,
+                                             snapshot_page_blocklist_t *blocklist);

-void nyx_snapshot_nyx_dirty_ring_save_root_pages(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+void nyx_snapshot_nyx_dirty_ring_save_root_pages(nyx_dirty_ring_t *self,
+                                                 shadow_memory_t *shadow_memory_state,
+                                                 snapshot_page_blocklist_t *blocklist);

 void nyx_snapshot_nyx_dirty_ring_flush(void);

-void nyx_snapshot_nyx_dirty_ring_flush_and_collect(nyx_dirty_ring_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+void nyx_snapshot_nyx_dirty_ring_flush_and_collect(nyx_dirty_ring_t *self,
+                                                   shadow_memory_t *shadow_memory_state,
+                                                   snapshot_page_blocklist_t *blocklist);
--- a/nyx/snapshot/memory/backend/nyx_fdl.c
+++ b/nyx/snapshot/memory/backend/nyx_fdl.c
@ -1,10 +1,10 @@
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"

 #include "exec/ram_addr.h"
-#include "qemu/rcu_queue.h"
 #include "migration/migration.h"
+#include "qemu/rcu_queue.h"

 #include "nyx/memory_access.h"

@ -16,27 +16,27 @@
 #include "nyx/snapshot/memory/nyx_fdl_user.h"

 /* debug option for the FDL constructor */
-//#define DEBUG_VMX_FDL_ALLOC
+// #define DEBUG_VMX_FDL_ALLOC

 /* additional output to debug the FDL restore operation */
-//#define SHOW_NUM_DIRTY_PAGES
+// #define SHOW_NUM_DIRTY_PAGES

 /* option to include restore of VRAM memory */
-//#define RESET_VRAM
-//#define DEBUG_FDL_VRAM
-
-nyx_fdl_t* nyx_fdl_init(shadow_memory_t* shadow_memory){
+// #define RESET_VRAM
+// #define DEBUG_FDL_VRAM

+nyx_fdl_t *nyx_fdl_init(shadow_memory_t *shadow_memory)
+{
    static bool fdl_created = false;
    /* not sure if we're able to create another FDL instance -> probably not */
    assert(fdl_created == false);
    fdl_created = true;

-    nyx_fdl_t* self = malloc(sizeof(nyx_fdl_t));
+    nyx_fdl_t *self = malloc(sizeof(nyx_fdl_t));
    memset(self, 0, sizeof(nyx_fdl_t));

    int       ret;
-    CPUState* cpu = qemu_get_cpu(0);
+    CPUState *cpu = qemu_get_cpu(0);
    kvm_cpu_synchronize_state(cpu);

    struct fdl_conf configuration;
@ -46,9 +46,11 @@ nyx_fdl_t* nyx_fdl_init(shadow_memory_t* shadow_memory){

    configuration.num = 0;

-    for(uint8_t i = 0; i < shadow_memory->ram_regions_num; i++){
-        configuration.areas[configuration.num].base_address = shadow_memory->ram_regions[i].base;
-        configuration.areas[configuration.num].size = shadow_memory->ram_regions[i].size;
+    for (uint8_t i = 0; i < shadow_memory->ram_regions_num; i++) {
+        configuration.areas[configuration.num].base_address =
+            shadow_memory->ram_regions[i].base;
+        configuration.areas[configuration.num].size =
+            shadow_memory->ram_regions[i].size;
        configuration.num++;
    }

@ -58,19 +60,24 @@ nyx_fdl_t* nyx_fdl_init(shadow_memory_t* shadow_memory){
 #ifdef DEBUG_VMX_FDL_ALLOC
    printf("KVM_VMX_FDL_SET: %d\n", ret);
    printf("configuration.mmap_size = 0x%lx\n", configuration.mmap_size);
-    for(uint8_t i = 0; i < configuration.num; i++){
-        printf("configuration.areas[%d].mmap_bitmap_offset = 0x%lx\n", i, configuration.areas[i].mmap_bitmap_offset);
-        printf("configuration.areas[%d].mmap_stack_offset = 0x%lx\n", i, configuration.areas[i].mmap_stack_offset);
+    for (uint8_t i = 0; i < configuration.num; i++) {
+        printf("configuration.areas[%d].mmap_bitmap_offset = 0x%lx\n", i,
+               configuration.areas[i].mmap_bitmap_offset);
+        printf("configuration.areas[%d].mmap_stack_offset = 0x%lx\n", i,
+               configuration.areas[i].mmap_stack_offset);
    }
 #endif

-    self->vmx_fdl_mmap = mmap(NULL, configuration.mmap_size, PROT_READ | PROT_WRITE, MAP_SHARED, self->vmx_fdl_fd, 0);
+    self->vmx_fdl_mmap = mmap(NULL, configuration.mmap_size, PROT_READ | PROT_WRITE,
+                              MAP_SHARED, self->vmx_fdl_fd, 0);

-    assert(self->vmx_fdl_mmap != (void*)0xFFFFFFFFFFFFFFFF);
+    assert(self->vmx_fdl_mmap != (void *)0xFFFFFFFFFFFFFFFF);

-    for(uint8_t i = 0; i < configuration.num; i++){
-        self->entry[i].stack = self->vmx_fdl_mmap + configuration.areas[i].mmap_stack_offset;
-        self->entry[i].bitmap = self->vmx_fdl_mmap + configuration.areas[i].mmap_bitmap_offset;
+    for (uint8_t i = 0; i < configuration.num; i++) {
+        self->entry[i].stack =
+            self->vmx_fdl_mmap + configuration.areas[i].mmap_stack_offset;
+        self->entry[i].bitmap =
+            self->vmx_fdl_mmap + configuration.areas[i].mmap_bitmap_offset;

 #ifdef DEBUG_VMX_FDL_ALLOC
        printf("fdl_stacks[%d]  -> %p\n", i, self->entry[i].stack);
@ -86,7 +93,7 @@ nyx_fdl_t* nyx_fdl_init(shadow_memory_t* shadow_memory){

 #ifdef DEBUG_VMX_FDL_ALLOC
    printf("result: %d\n", result.num);
-    for(uint8_t i = 0; i < result.num; i++){
+    for (uint8_t i = 0; i < result.num; i++) {
        printf("result.values[%d]: %ld\n", i, result.values[i]);
    }
 #endif
@ -95,99 +102,110 @@ nyx_fdl_t* nyx_fdl_init(shadow_memory_t* shadow_memory){
 }

 /* restore operation */
-uint32_t nyx_snapshot_nyx_fdl_restore(nyx_fdl_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-
+uint32_t nyx_snapshot_nyx_fdl_restore(nyx_fdl_t                 *self,
+                                      shadow_memory_t           *shadow_memory_state,
+                                      snapshot_page_blocklist_t *blocklist)
+{
    uint32_t num_dirty_pages = 0;
-    void* current_region = NULL;
+    void    *current_region  = NULL;

    struct fdl_result result;
    memset(&result, 0, sizeof(struct fdl_result));
    int res = ioctl(self->vmx_fdl_fd, KVM_VMX_FDL_GET_INDEX, &result);
    assert(!res);

-    //nyx_snapshot_nyx_fdl_unset_blocklisted_pages(self, shadow_memory_state, blocklist);
+    // nyx_snapshot_nyx_fdl_unset_blocklisted_pages(self, shadow_memory_state, blocklist);

-    for(uint8_t i = 0; i < result.num; i++){
+    for (uint8_t i = 0; i < result.num; i++) {
 #ifdef SHOW_NUM_DIRTY_PAGES
-        printf("Kernel -> [%d] %ld \t%ldKB\n", i, result.values[i], (0x1000*result.values[i])>>0x10);
+        printf("Kernel -> [%d] %ld \t%ldKB\n", i, result.values[i],
+               (0x1000 * result.values[i]) >> 0x10);
 #endif

-        if(shadow_memory_state->incremental_enabled){
-            current_region = shadow_memory_state->ram_regions[i].incremental_region_ptr;
-        }
-        else{
+        if (shadow_memory_state->incremental_enabled) {
+            current_region =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr;
+        } else {
            current_region = shadow_memory_state->ram_regions[i].snapshot_region_ptr;
        }

-        for(uint64_t j = 0; j < result.values[i]; j++){
-
+        for (uint64_t j = 0; j < result.values[i]; j++) {
            uint64_t physical_addr = self->entry[i].stack[j];
-            uint64_t entry_offset_addr = physical_addr - shadow_memory_state->ram_regions[i].base;
+            uint64_t entry_offset_addr =
+                physical_addr - shadow_memory_state->ram_regions[i].base;

-            void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + entry_offset_addr;
-            void* snapshot_addr = current_region + entry_offset_addr;
+            void *host_addr = shadow_memory_state->ram_regions[i].host_region_ptr +
+                              entry_offset_addr;
+            void *snapshot_addr = current_region + entry_offset_addr;


-            if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+            if (snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) ==
+                true)
+            {
 #ifdef DEBUG_VERFIY_BITMAP
-                if(!is_black_listed_addr(self, entry_offset_addr)){
-                    printf("WARNING: %s: -> %lx is not blacklisted\n", __func__, entry_offset_addr);
+                if (!is_black_listed_addr(self, entry_offset_addr)) {
+                    printf("WARNING: %s: -> %lx is not blacklisted\n", __func__,
+                           entry_offset_addr);
                    abort();
                }
 #endif
                continue; // blacklisted page
            }

-			clear_bit(entry_offset_addr>>12, (void*)self->entry[i].bitmap);
+            clear_bit(entry_offset_addr >> 12, (void *)self->entry[i].bitmap);
            memcpy(host_addr, snapshot_addr, TARGET_PAGE_SIZE);
            num_dirty_pages++;
        }
-
    }
 #ifdef RESET_VRAM
-    //nyx_snapshot_nyx_fdl_restore_vram(self, shadow_memory_state);
+    // nyx_snapshot_nyx_fdl_restore_vram(self, shadow_memory_state);
 #endif
    return num_dirty_pages;
 }

-void nyx_snapshot_nyx_fdl_save_root_pages(nyx_fdl_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
+void nyx_snapshot_nyx_fdl_save_root_pages(nyx_fdl_t       *self,
+                                          shadow_memory_t *shadow_memory_state,
+                                          snapshot_page_blocklist_t *blocklist)
+{
    struct fdl_result result;
    memset(&result, 0, sizeof(struct fdl_result));
    int res = ioctl(self->vmx_fdl_fd, KVM_VMX_FDL_GET_INDEX, &result);
    assert(!res);

-    for(uint8_t i = 0; i < result.num; i++){
+    for (uint8_t i = 0; i < result.num; i++) {
 #ifdef SHOW_NUM_DIRTY_PAGES
-        printf("Kernel -> [%d] %ld \t%ldKB\n", i, result.values[i], (0x1000*result.values[i])>>0x10);
+        printf("Kernel -> [%d] %ld \t%ldKB\n", i, result.values[i],
+               (0x1000 * result.values[i]) >> 0x10);
 #endif

-        for(uint64_t j = 0; j < result.values[i]; j++){
-
+        for (uint64_t j = 0; j < result.values[i]; j++) {
            uint64_t physical_addr = self->entry[i].stack[j];
-            uint64_t entry_offset_addr = physical_addr - shadow_memory_state->ram_regions[i].base;
+            uint64_t entry_offset_addr =
+                physical_addr - shadow_memory_state->ram_regions[i].base;

-            void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + entry_offset_addr;
-            void* incremental_addr = shadow_memory_state->ram_regions[i].incremental_region_ptr + entry_offset_addr;
+            void *host_addr = shadow_memory_state->ram_regions[i].host_region_ptr +
+                              entry_offset_addr;
+            void *incremental_addr =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr +
+                entry_offset_addr;

-            if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+            if (snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) ==
+                true)
+            {
 #ifdef DEBUG_VERFIY_BITMAP
-                if(!is_black_listed_addr(self, entry_offset_addr)){
-                    printf("WARNING: %s: -> %lx is not blacklisted\n", __func__, entry_offset_addr);
+                if (!is_black_listed_addr(self, entry_offset_addr)) {
+                    printf("WARNING: %s: -> %lx is not blacklisted\n", __func__,
+                           entry_offset_addr);
                    abort();
                }
 #endif
                continue; // skip blacklisted page
            }

-     		clear_bit(entry_offset_addr>>12, (void*)self->entry[i].bitmap);
-            shadow_memory_track_dirty_root_pages(shadow_memory_state, entry_offset_addr, i);
+            clear_bit(entry_offset_addr >> 12, (void *)self->entry[i].bitmap);
+            shadow_memory_track_dirty_root_pages(shadow_memory_state,
+                                                 entry_offset_addr, i);
            memcpy(incremental_addr, host_addr, TARGET_PAGE_SIZE);
        }
-
    }
 }
-
-
-
-
-
--- a/nyx/snapshot/memory/backend/nyx_fdl.h
+++ b/nyx/snapshot/memory/backend/nyx_fdl.h
@ -19,7 +19,7 @@

 #define FDL_MAX_AREAS 8

-struct fdl_area{
+struct fdl_area {
    uint64_t base_address;
    uint64_t size;
    uint64_t mmap_bitmap_offset;
@ -28,34 +28,38 @@ struct fdl_area{
    uint64_t mmap_stack_size;
 };

-struct fdl_conf{
+struct fdl_conf {
    uint8_t         num;
    uint64_t        mmap_size;
    struct fdl_area areas[FDL_MAX_AREAS];
 };

-struct fdl_result{
+struct fdl_result {
    uint8_t  num;
    uint64_t values[FDL_MAX_AREAS];
 };

-typedef struct nyx_fdl_s{
+typedef struct nyx_fdl_s {
    /* vmx_fdl file descriptor */
    int vmx_fdl_fd;

    /* mmap mapping of fdl data -> might be useful for destructor */
-    void* vmx_fdl_mmap;
+    void *vmx_fdl_mmap;

    struct {
-        uint64_t* stack;
-        uint8_t* bitmap;
-    }entry[FDL_MAX_AREAS];
+        uint64_t *stack;
+        uint8_t  *bitmap;
+    } entry[FDL_MAX_AREAS];

    uint8_t num;

-}nyx_fdl_t;
+} nyx_fdl_t;

-nyx_fdl_t* nyx_fdl_init(shadow_memory_t* self);
-uint32_t nyx_snapshot_nyx_fdl_restore(nyx_fdl_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+nyx_fdl_t *nyx_fdl_init(shadow_memory_t *self);
+uint32_t   nyx_snapshot_nyx_fdl_restore(nyx_fdl_t                 *self,
+                                        shadow_memory_t           *shadow_memory_state,
+                                        snapshot_page_blocklist_t *blocklist);

-void nyx_snapshot_nyx_fdl_save_root_pages(nyx_fdl_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+void nyx_snapshot_nyx_fdl_save_root_pages(nyx_fdl_t       *self,
+                                          shadow_memory_t *shadow_memory_state,
+                                          snapshot_page_blocklist_t *blocklist);
--- a/nyx/snapshot/memory/block_list.c
+++ b/nyx/snapshot/memory/block_list.c
@ -1,34 +1,37 @@
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"

 #include "exec/ram_addr.h"
-#include "qemu/rcu_queue.h"
 #include "migration/migration.h"
+#include "qemu/rcu_queue.h"

 #include "nyx/memory_access.h"

-#include "nyx/snapshot/memory/block_list.h"
 #include "nyx/snapshot/helper.h"
+#include "nyx/snapshot/memory/block_list.h"
 #include "nyx/snapshot/memory/shadow_memory.h"

 #define REALLOC_SIZE 0x8000

-//#define DEBUG_NYX_SNAPSHOT_PAGE_BLOCKLIST
+// #define DEBUG_NYX_SNAPSHOT_PAGE_BLOCKLIST


-snapshot_page_blocklist_t* snapshot_page_blocklist_init(void){
-
-  snapshot_page_blocklist_t* self = malloc(sizeof(snapshot_page_blocklist_t));
+snapshot_page_blocklist_t *snapshot_page_blocklist_init(void)
+{
+    snapshot_page_blocklist_t *self = malloc(sizeof(snapshot_page_blocklist_t));

    uint64_t ram_size    = get_ram_size();
-  self->phys_area_size = ram_size <= MEM_SPLIT_START ? ram_size : ram_size + (MEM_SPLIT_END-MEM_SPLIT_START);
+    self->phys_area_size = ram_size <= MEM_SPLIT_START ?
+                               ram_size :
+                               ram_size + (MEM_SPLIT_END - MEM_SPLIT_START);

    self->phys_bitmap = malloc(BITMAP_SIZE(self->phys_area_size));
    memset(self->phys_bitmap, 0x0, BITMAP_SIZE(self->phys_area_size));

-  if(ram_size > MEM_SPLIT_START){
-    memset(self->phys_bitmap+BITMAP_SIZE(MEM_SPLIT_START), 0xff, BITMAP_SIZE((MEM_SPLIT_END-MEM_SPLIT_START)));
+    if (ram_size > MEM_SPLIT_START) {
+        memset(self->phys_bitmap + BITMAP_SIZE(MEM_SPLIT_START), 0xff,
+               BITMAP_SIZE((MEM_SPLIT_END - MEM_SPLIT_START)));
    }

    self->pages_num  = 0;
@ -38,8 +41,9 @@ snapshot_page_blocklist_t* snapshot_page_blocklist_init(void){
    return self;
 }

-void snapshot_page_blocklist_add(snapshot_page_blocklist_t* self, uint64_t phys_addr){
-  if(phys_addr == -1){
+void snapshot_page_blocklist_add(snapshot_page_blocklist_t *self, uint64_t phys_addr)
+{
+    if (phys_addr == -1) {
        fprintf(stderr, "ERROR %s: phys_addr=%lx\n", __func__, phys_addr);
        return;
    }
@ -47,7 +51,7 @@ void snapshot_page_blocklist_add(snapshot_page_blocklist_t* self, uint64_t phys_

    assert(phys_addr < self->phys_area_size);

-	if(self->pages_num <= self->pages_size){
+    if (self->pages_num <= self->pages_size) {
        self->pages_size += REALLOC_SIZE;
        self->pages = realloc(self->pages, sizeof(uint64_t) * self->pages_size);
    }
@ -56,10 +60,10 @@ void snapshot_page_blocklist_add(snapshot_page_blocklist_t* self, uint64_t phys_
    self->pages_num++;

    /* check if bit is empty */
-  assert(test_bit(phys_addr>>12, (const unsigned long *)self->phys_bitmap) == 0);
+    assert(test_bit(phys_addr >> 12, (const unsigned long *)self->phys_bitmap) == 0);

    /* set bit for lookup */
-  set_bit(phys_addr>>12, (unsigned long *)self->phys_bitmap);
+    set_bit(phys_addr >> 12, (unsigned long *)self->phys_bitmap);


 #ifdef DEBUG_NYX_SNAPSHOT_PAGE_BLOCKLIST
--- a/nyx/snapshot/memory/block_list.h
+++ b/nyx/snapshot/memory/block_list.h
@ -1,32 +1,34 @@
 #pragma once

-#include <stdint.h>
-#include <stdbool.h>
 #include "nyx/snapshot/memory/shadow_memory.h"
+#include <stdbool.h>
+#include <stdint.h>

-typedef struct snapshot_page_blocklist_s{
-
+typedef struct snapshot_page_blocklist_s {
    /* total number of blocklisted page frames */
    uint64_t pages_num;

    /* lookup array */
-	uint64_t* pages;
+    uint64_t *pages;

    /* current size of our array */
    uint64_t pages_size;

    /* lookup bitmap of guest's physical memory layout (PCI-area between 3GB-4GB is set by default) */
-  uint8_t* phys_bitmap;
+    uint8_t *phys_bitmap;

    /* area of guest's physical memory (including RAM + PCI-hole) */
    uint64_t phys_area_size;
-}snapshot_page_blocklist_t;
+} snapshot_page_blocklist_t;

-void snapshot_page_blocklist_add(snapshot_page_blocklist_t* self, uint64_t phys_addr);
+void snapshot_page_blocklist_add(snapshot_page_blocklist_t *self, uint64_t phys_addr);

 /* returns true if phys_addr is on the blocklis */
-static inline bool snapshot_page_blocklist_check_phys_addr(snapshot_page_blocklist_t* self, uint64_t phys_addr){
-  return phys_addr < self->phys_area_size && test_bit(phys_addr>>12, (const unsigned long *)self->phys_bitmap) != 0;
+static inline bool snapshot_page_blocklist_check_phys_addr(
+    snapshot_page_blocklist_t *self, uint64_t phys_addr)
+{
+    return phys_addr < self->phys_area_size &&
+           test_bit(phys_addr >> 12, (const unsigned long *)self->phys_bitmap) != 0;
 }

-snapshot_page_blocklist_t* snapshot_page_blocklist_init(void);
+snapshot_page_blocklist_t *snapshot_page_blocklist_init(void);
--- a/nyx/snapshot/memory/nyx_fdl_user.c
+++ b/nyx/snapshot/memory/nyx_fdl_user.c
@ -1,6 +1,6 @@
 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"

 #include "exec/ram_addr.h"
 #include "migration/migration.h"
@ -11,83 +11,93 @@
 #include <sys/ioctl.h>

 #include "nyx/snapshot/helper.h"
-#include "nyx/snapshot/memory/shadow_memory.h"
 #include "nyx/snapshot/memory/nyx_fdl_user.h"
+#include "nyx/snapshot/memory/shadow_memory.h"

 /* debug option */
-//#define DEBUG_USER_FDL
+// #define DEBUG_USER_FDL

 /* init operation */
-nyx_fdl_user_t* nyx_fdl_user_init(shadow_memory_t* shadow_memory_state){
-
-    nyx_fdl_user_t* self = malloc(sizeof(nyx_fdl_user_t));
+nyx_fdl_user_t *nyx_fdl_user_init(shadow_memory_t *shadow_memory_state)
+{
+    nyx_fdl_user_t *self = malloc(sizeof(nyx_fdl_user_t));
    memset(self, 0, sizeof(nyx_fdl_user_t));

    /* get rid of that? */
    self->num = shadow_memory_state->ram_regions_num;

-    for(uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++){
-        self->entry[i].stack = malloc(DIRTY_STACK_SIZE(shadow_memory_state->ram_regions[i].size));
-        self->entry[i].bitmap = malloc(BITMAP_SIZE(shadow_memory_state->ram_regions[i].size));
+    for (uint8_t i = 0; i < shadow_memory_state->ram_regions_num; i++) {
+        self->entry[i].stack =
+            malloc(DIRTY_STACK_SIZE(shadow_memory_state->ram_regions[i].size));
+        self->entry[i].bitmap =
+            malloc(BITMAP_SIZE(shadow_memory_state->ram_regions[i].size));
    }
    return self;
 }

 /* enable operation */
-void nyx_fdl_user_enable(nyx_fdl_user_t* self){
+void nyx_fdl_user_enable(nyx_fdl_user_t *self)
+{
    assert(self);
    self->enabled = true;
 }

-static void nyx_snapshot_user_fdl_reset(nyx_fdl_user_t* self){
-    if(self){
-        for(uint8_t i = 0; i < self->num; i++){
+static void nyx_snapshot_user_fdl_reset(nyx_fdl_user_t *self)
+{
+    if (self) {
+        for (uint8_t i = 0; i < self->num; i++) {
            self->entry[i].pos = 0;
        }
    }
 }

 /* reset operation */
-uint32_t nyx_snapshot_user_fdl_restore(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
+uint32_t nyx_snapshot_user_fdl_restore(nyx_fdl_user_t  *self,
+                                       shadow_memory_t *shadow_memory_state,
+                                       snapshot_page_blocklist_t *blocklist)
+{
    uint32_t num_dirty_pages = 0;
-    if(self){
-
-        void* current_region = NULL;
+    if (self) {
+        void *current_region = NULL;


-        for(uint8_t i = 0; i < self->num; i++){
+        for (uint8_t i = 0; i < self->num; i++) {
 #ifdef DEBUG_USER_FDL
-            printf("User   -> [%d] %ld \t%ldKB\n", i, self->entry[i].pos, (0x1000*self->entry[i].pos)>>0x10);
+            printf("User   -> [%d] %ld \t%ldKB\n", i, self->entry[i].pos,
+                   (0x1000 * self->entry[i].pos) >> 0x10);
 #endif

-            if(shadow_memory_state->incremental_enabled){
-                current_region = shadow_memory_state->ram_regions[i].incremental_region_ptr;
-            }
-            else{
-                current_region = shadow_memory_state->ram_regions[i].snapshot_region_ptr;
+            if (shadow_memory_state->incremental_enabled) {
+                current_region =
+                    shadow_memory_state->ram_regions[i].incremental_region_ptr;
+            } else {
+                current_region =
+                    shadow_memory_state->ram_regions[i].snapshot_region_ptr;
            }

-            for(uint64_t j = 0; j < self->entry[i].pos; j++){
+            for (uint64_t j = 0; j < self->entry[i].pos; j++) {
                uint64_t physical_addr = self->entry[i].stack[j];
-                uint64_t entry_offset_addr = physical_addr - shadow_memory_state->ram_regions[i].base;
+                uint64_t entry_offset_addr =
+                    physical_addr - shadow_memory_state->ram_regions[i].base;

-                void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + entry_offset_addr;
-                void* snapshot_addr = current_region + entry_offset_addr;
+                void *host_addr = shadow_memory_state->ram_regions[i].host_region_ptr +
+                                  entry_offset_addr;
+                void *snapshot_addr = current_region + entry_offset_addr;

-                if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+                if (snapshot_page_blocklist_check_phys_addr(blocklist,
+                                                            physical_addr) == true)
+                {
                    continue;
                }

 #ifdef DEBUG_USER_FDL
                printf("%s -> %p <-- %p\n", __func__, host_addr, snapshot_addr);
 #endif
-                clear_bit(entry_offset_addr>>12, (void*)self->entry[i].bitmap);
+                clear_bit(entry_offset_addr >> 12, (void *)self->entry[i].bitmap);
                memcpy(host_addr, snapshot_addr, TARGET_PAGE_SIZE);
                num_dirty_pages++;
            }
-
        }
-
    }

    nyx_snapshot_user_fdl_reset(self);
@ -95,60 +105,106 @@ uint32_t nyx_snapshot_user_fdl_restore(nyx_fdl_user_t* self, shadow_memory_t* sh
 }

 /* set operation (mark pf as dirty) */
-void nyx_fdl_user_set(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, nyx_fdl_t* nyx_fdl_state, uint64_t addr, uint64_t length){
-    if(length < 0x1000){
+void nyx_fdl_user_set(nyx_fdl_user_t  *self,
+                      shadow_memory_t *shadow_memory_state,
+                      nyx_fdl_t       *nyx_fdl_state,
+                      uint64_t         addr,
+                      uint64_t         length)
+{
+    if (length < 0x1000) {
        length = 0x1000;
    }

-    if(self && self->enabled && length >= 0x1000){
-
+    if (self && self->enabled && length >= 0x1000) {
        uint8_t ram_area = 0xff;

        /* optimize this? */
        addr = ram_offset_to_address(addr);


-		switch(MAX_REGIONS-shadow_memory_state->ram_regions_num){
+        switch (MAX_REGIONS - shadow_memory_state->ram_regions_num) {
        case 0:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[7].base, shadow_memory_state->ram_regions[7].base+(shadow_memory_state->ram_regions[7].size-1)) ? 7 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[7].base,
+                              shadow_memory_state->ram_regions[7].base +
+                                  (shadow_memory_state->ram_regions[7].size - 1)) ?
+                    7 :
+                    ram_area;
        case 1:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[6].base, shadow_memory_state->ram_regions[6].base+(shadow_memory_state->ram_regions[6].size-1)) ? 6 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[6].base,
+                              shadow_memory_state->ram_regions[6].base +
+                                  (shadow_memory_state->ram_regions[6].size - 1)) ?
+                    6 :
+                    ram_area;
        case 2:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[5].base, shadow_memory_state->ram_regions[5].base+(shadow_memory_state->ram_regions[5].size-1)) ? 5 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[5].base,
+                              shadow_memory_state->ram_regions[5].base +
+                                  (shadow_memory_state->ram_regions[5].size - 1)) ?
+                    5 :
+                    ram_area;
        case 3:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[4].base, shadow_memory_state->ram_regions[4].base+(shadow_memory_state->ram_regions[4].size-1)) ? 4 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[4].base,
+                              shadow_memory_state->ram_regions[4].base +
+                                  (shadow_memory_state->ram_regions[4].size - 1)) ?
+                    4 :
+                    ram_area;
        case 4:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[3].base, shadow_memory_state->ram_regions[3].base+(shadow_memory_state->ram_regions[3].size-1)) ? 3 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[3].base,
+                              shadow_memory_state->ram_regions[3].base +
+                                  (shadow_memory_state->ram_regions[3].size - 1)) ?
+                    3 :
+                    ram_area;
        case 5:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[2].base, shadow_memory_state->ram_regions[2].base+(shadow_memory_state->ram_regions[2].size-1)) ? 2 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[2].base,
+                              shadow_memory_state->ram_regions[2].base +
+                                  (shadow_memory_state->ram_regions[2].size - 1)) ?
+                    2 :
+                    ram_area;
        case 6:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[1].base, shadow_memory_state->ram_regions[1].base+(shadow_memory_state->ram_regions[1].size-1)) ? 1 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[1].base,
+                              shadow_memory_state->ram_regions[1].base +
+                                  (shadow_memory_state->ram_regions[1].size - 1)) ?
+                    1 :
+                    ram_area;
        case 7:
-				ram_area = FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[0].base, shadow_memory_state->ram_regions[0].base+(shadow_memory_state->ram_regions[0].size-1)) ? 0 : ram_area;
+            ram_area =
+                FAST_IN_RANGE(addr, shadow_memory_state->ram_regions[0].base,
+                              shadow_memory_state->ram_regions[0].base +
+                                  (shadow_memory_state->ram_regions[0].size - 1)) ?
+                    0 :
+                    ram_area;
        default:
            break;
        }

-		if(ram_area == 0xff){
+        if (ram_area == 0xff) {
            printf("ERROR: %s %lx [%d]\n", __func__, addr, ram_area);
            abort();
            return;
        }


-        for(uint64_t offset = 0; offset < length; offset+=0x1000){
+        for (uint64_t offset = 0; offset < length; offset += 0x1000) {
+            uint64_t current_addr = (addr + offset) & 0xFFFFFFFFFFFFF000;

-            uint64_t current_addr = (addr+offset) & 0xFFFFFFFFFFFFF000;
-
-            long pfn = (long) ((current_addr-shadow_memory_state->ram_regions[ram_area].base)>>12);
+            long pfn = (long)((current_addr -
+                               shadow_memory_state->ram_regions[ram_area].base) >>
+                              12);

            assert(self->entry[ram_area].bitmap);

            /* TODO -> better handling of nyx_fdl_state */
-            if(!test_bit(pfn, (const unsigned long*)self->entry[ram_area].bitmap)){
-                set_bit(pfn, (unsigned long*)self->entry[ram_area].bitmap);
+            if (!test_bit(pfn, (const unsigned long *)self->entry[ram_area].bitmap)) {
+                set_bit(pfn, (unsigned long *)self->entry[ram_area].bitmap);

-                self->entry[ram_area].stack[self->entry[ram_area].pos] =  current_addr & 0xFFFFFFFFFFFFF000;
+                self->entry[ram_area].stack[self->entry[ram_area].pos] =
+                    current_addr & 0xFFFFFFFFFFFFF000;
                self->entry[ram_area].pos++;

 #ifdef DEBUG_USER_FDL
@ -159,21 +215,30 @@ void nyx_fdl_user_set(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state
    }
 }

-void nyx_snapshot_nyx_fdl_user_save_root_pages(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist){
-
-    for(uint8_t i = 0; i < self->num; i++){
+void nyx_snapshot_nyx_fdl_user_save_root_pages(nyx_fdl_user_t  *self,
+                                               shadow_memory_t *shadow_memory_state,
+                                               snapshot_page_blocklist_t *blocklist)
+{
+    for (uint8_t i = 0; i < self->num; i++) {
 #ifdef DEBUG_USER_FDL
-        printf("User   -> [%d] %ld \t%ldKB\n", i, self->entry[i].pos, (0x1000*self->entry[i].pos)>>0x10);
+        printf("User   -> [%d] %ld \t%ldKB\n", i, self->entry[i].pos,
+               (0x1000 * self->entry[i].pos) >> 0x10);
 #endif

-        for(uint64_t j = 0; j < self->entry[i].pos; j++){
+        for (uint64_t j = 0; j < self->entry[i].pos; j++) {
            uint64_t physical_addr = self->entry[i].stack[j];
-            uint64_t entry_offset_addr = physical_addr - shadow_memory_state->ram_regions[i].base;
+            uint64_t entry_offset_addr =
+                physical_addr - shadow_memory_state->ram_regions[i].base;

-            void* host_addr = shadow_memory_state->ram_regions[i].host_region_ptr + entry_offset_addr;
-            void* incremental_addr = shadow_memory_state->ram_regions[i].incremental_region_ptr + entry_offset_addr;
+            void *host_addr = shadow_memory_state->ram_regions[i].host_region_ptr +
+                              entry_offset_addr;
+            void *incremental_addr =
+                shadow_memory_state->ram_regions[i].incremental_region_ptr +
+                entry_offset_addr;

-            if(snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) == true){
+            if (snapshot_page_blocklist_check_phys_addr(blocklist, physical_addr) ==
+                true)
+            {
                printf("%s: 0x%lx is dirty\n", __func__, physical_addr);
                continue;
            }
@ -181,10 +246,10 @@ void nyx_snapshot_nyx_fdl_user_save_root_pages(nyx_fdl_user_t* self, shadow_memo
            printf("%s -> %p <-- %p\n", __func__, incremental_addr, host_addr);
 #endif

-          	clear_bit(entry_offset_addr>>12, (void*)self->entry[i].bitmap);
-            shadow_memory_track_dirty_root_pages(shadow_memory_state, entry_offset_addr, i);
+            clear_bit(entry_offset_addr >> 12, (void *)self->entry[i].bitmap);
+            shadow_memory_track_dirty_root_pages(shadow_memory_state,
+                                                 entry_offset_addr, i);
            memcpy(incremental_addr, host_addr, TARGET_PAGE_SIZE);
-
        }
    }

--- a/nyx/snapshot/memory/nyx_fdl_user.h
+++ b/nyx/snapshot/memory/nyx_fdl_user.h
@ -1,30 +1,38 @@
 #pragma once

-#include <stdint.h>
 #include "nyx/snapshot/helper.h"
+#include "nyx/snapshot/memory/backend/nyx_fdl.h"
 #include "nyx/snapshot/memory/block_list.h"
 #include "nyx/snapshot/memory/shadow_memory.h"
-#include "nyx/snapshot/memory/backend/nyx_fdl.h"
+#include <stdint.h>

 #define MAX_REGIONS 8 /* don't */

-typedef struct nyx_fdl_user_s{
+typedef struct nyx_fdl_user_s {
    struct {
-        uint64_t* stack;
-        uint8_t* bitmap;
+        uint64_t *stack;
+        uint8_t  *bitmap;
        uint64_t  pos;
-    }entry[MAX_REGIONS];
+    } entry[MAX_REGIONS];

    uint8_t num;
    bool    enabled;
-}nyx_fdl_user_t;
+} nyx_fdl_user_t;

-nyx_fdl_user_t* nyx_fdl_user_init(shadow_memory_t* shadow_memory_state);
+nyx_fdl_user_t *nyx_fdl_user_init(shadow_memory_t *shadow_memory_state);

-void nyx_fdl_user_enable(nyx_fdl_user_t* self);
+void nyx_fdl_user_enable(nyx_fdl_user_t *self);

-void nyx_fdl_user_set(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, nyx_fdl_t* nyx_fdl_state, uint64_t addr, uint64_t length);
+void nyx_fdl_user_set(nyx_fdl_user_t  *self,
+                      shadow_memory_t *shadow_memory_state,
+                      nyx_fdl_t       *nyx_fdl_state,
+                      uint64_t         addr,
+                      uint64_t         length);

-uint32_t nyx_snapshot_user_fdl_restore(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+uint32_t nyx_snapshot_user_fdl_restore(nyx_fdl_user_t  *self,
+                                       shadow_memory_t *shadow_memory_state,
+                                       snapshot_page_blocklist_t *blocklist);

-void nyx_snapshot_nyx_fdl_user_save_root_pages(nyx_fdl_user_t* self, shadow_memory_t* shadow_memory_state, snapshot_page_blocklist_t* blocklist);
+void nyx_snapshot_nyx_fdl_user_save_root_pages(nyx_fdl_user_t  *self,
+                                               shadow_memory_t *shadow_memory_state,
+                                               snapshot_page_blocklist_t *blocklist);
--- a/nyx/snapshot/memory/shadow_memory.c
+++ b/nyx/snapshot/memory/shadow_memory.c
@ -1,193 +1,218 @@

 #include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
 #include "qemu/main-loop.h"
+#include "sysemu/sysemu.h"

 #include "exec/ram_addr.h"
-#include "qemu/rcu_queue.h"
 #include "migration/migration.h"
+#include "qemu/rcu_queue.h"

 #include "nyx/debug.h"
 #include "nyx/memory_access.h"

-#include "nyx/snapshot/memory/shadow_memory.h"
 #include "nyx/snapshot/helper.h"
+#include "nyx/snapshot/memory/shadow_memory.h"

-typedef struct fast_reload_dump_head_s{
+typedef struct fast_reload_dump_head_s {
    uint32_t shadow_memory_regions;
    uint32_t ram_region_index; // remove
 } fast_reload_dump_head_t;

-typedef struct fast_reload_dump_entry_s{
+typedef struct fast_reload_dump_entry_s {
    uint64_t shadow_memory_offset;
    char     idstr[256];
 } fast_reload_dump_entry_t;


-static void shadow_memory_set_incremental_ptrs(shadow_memory_t* self){
-    for(uint8_t i = 0; i < self->ram_regions_num; i++){
-        self->ram_regions[i].incremental_region_ptr = self->incremental_ptr + self->ram_regions[i].offset;
+static void shadow_memory_set_incremental_ptrs(shadow_memory_t *self)
+{
+    for (uint8_t i = 0; i < self->ram_regions_num; i++) {
+        self->ram_regions[i].incremental_region_ptr =
+            self->incremental_ptr + self->ram_regions[i].offset;
    }
 }

-static void shadow_memory_pre_alloc_incremental(shadow_memory_t* self){
-    self->incremental_ptr = mmap(0, self->memory_size, PROT_READ | PROT_WRITE, MAP_PRIVATE, self->snapshot_ptr_fd, 0);
+static void shadow_memory_pre_alloc_incremental(shadow_memory_t *self)
+{
+    self->incremental_ptr = mmap(0, self->memory_size, PROT_READ | PROT_WRITE,
+                                 MAP_PRIVATE, self->snapshot_ptr_fd, 0);
    shadow_memory_set_incremental_ptrs(self);
 }

-static void shadow_memory_init_generic(shadow_memory_t* self){
+static void shadow_memory_init_generic(shadow_memory_t *self)
+{
    self->root_track_pages_num  = 0;
    self->root_track_pages_size = 32 << 10;
-    self->root_track_pages_stack = malloc(sizeof(uint64_t)*self->root_track_pages_size);
+    self->root_track_pages_stack =
+        malloc(sizeof(uint64_t) * self->root_track_pages_size);
    shadow_memory_pre_alloc_incremental(self);

    self->incremental_enabled = false;
 }

-shadow_memory_t* shadow_memory_init(void){
-
+shadow_memory_t *shadow_memory_init(void)
+{
    RAMBlock *block;
-    RAMBlock* block_array[10];
-    void* snapshot_ptr_offset_array[10];
+    RAMBlock *block_array[10];
+    void     *snapshot_ptr_offset_array[10];

-    shadow_memory_t* self = malloc(sizeof(shadow_memory_t));
+    shadow_memory_t *self = malloc(sizeof(shadow_memory_t));
    memset(self, 0x0, sizeof(shadow_memory_t));

-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
        self->memory_size += block->used_length;
    }

-    self->snapshot_ptr_fd = memfd_create("in_memory_root_snapshot", MFD_CLOEXEC | MFD_ALLOW_SEALING);
+    self->snapshot_ptr_fd =
+        memfd_create("in_memory_root_snapshot", MFD_CLOEXEC | MFD_ALLOW_SEALING);
    assert(!ftruncate(self->snapshot_ptr_fd, self->memory_size));
-    fcntl(self->snapshot_ptr_fd, F_ADD_SEALS, F_SEAL_GROW | F_SEAL_SHRINK | F_SEAL_SEAL);
+    fcntl(self->snapshot_ptr_fd, F_ADD_SEALS,
+          F_SEAL_GROW | F_SEAL_SHRINK | F_SEAL_SEAL);

-    self->snapshot_ptr = mmap(NULL, self->memory_size, PROT_READ | PROT_WRITE , MAP_SHARED , self->snapshot_ptr_fd, 0);
+    self->snapshot_ptr = mmap(NULL, self->memory_size, PROT_READ | PROT_WRITE,
+                              MAP_SHARED, self->snapshot_ptr_fd, 0);
    madvise(self->snapshot_ptr, self->memory_size, MADV_RANDOM | MADV_MERGEABLE);

-    nyx_debug_p(RELOAD_PREFIX, "Allocating Memory (%p) Size: %lx", self->snapshot_ptr, self->memory_size);
-
+    nyx_debug_p(RELOAD_PREFIX, "Allocating Memory (%p) Size: %lx",
+                self->snapshot_ptr, self->memory_size);


    uint64_t offset      = 0;
    uint8_t  i           = 0;
    uint8_t  regions_num = 0;
-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        nyx_debug_p(RELOAD_PREFIX, "%lx %lx %lx\t%s\t%p", block->offset, block->used_length, block->max_length, block->idstr, block->host);
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        nyx_debug_p(RELOAD_PREFIX, "%lx %lx %lx\t%s\t%p", block->offset,
+                    block->used_length, block->max_length, block->idstr, block->host);
        block_array[i] = block;

-        memcpy(self->snapshot_ptr+offset, block->host, block->used_length);
-        snapshot_ptr_offset_array[i++] = self->snapshot_ptr+offset;
+        memcpy(self->snapshot_ptr + offset, block->host, block->used_length);
+        snapshot_ptr_offset_array[i++] = self->snapshot_ptr + offset;
        offset += block->used_length;
        regions_num++;
    }

-    for(uint8_t i = 0; i < regions_num; i++){
+    for (uint8_t i = 0; i < regions_num; i++) {
        block = block_array[i];
-        if(!block->mr->readonly){
-
-            if(self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START){
-
+        if (!block->mr->readonly) {
+            if (self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START) {
                self->ram_regions[self->ram_regions_num].ram_region = i;
                self->ram_regions[self->ram_regions_num].base = block->mr->addr;
                self->ram_regions[self->ram_regions_num].size = MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].offset = snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
+                self->ram_regions[self->ram_regions_num].offset =
+                    snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
                self->ram_regions[self->ram_regions_num].host_region_ptr = block->host;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = self->snapshot_ptr+self->ram_regions[self->ram_regions_num].offset;
-                self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+                self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+                    self->snapshot_ptr +
+                    self->ram_regions[self->ram_regions_num].offset;
+                self->ram_regions[self->ram_regions_num].idstr =
+                    malloc(strlen(block->idstr) + 1);
+                memset(self->ram_regions[self->ram_regions_num].idstr, 0,
+                       strlen(block->idstr) + 1);
                strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
                self->ram_regions_num++;

                self->ram_regions[self->ram_regions_num].ram_region = i;
-                self->ram_regions[self->ram_regions_num].base = MEM_SPLIT_END;
-                self->ram_regions[self->ram_regions_num].size = block->used_length-MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].offset = (snapshot_ptr_offset_array[i] + MEM_SPLIT_START) - snapshot_ptr_offset_array[0];
-                self->ram_regions[self->ram_regions_num].host_region_ptr = block->host+MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = snapshot_ptr_offset_array[i]+MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
-                strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
-            }
-            else{
+                self->ram_regions[self->ram_regions_num].base =
+MEM_SPLIT_END
+;
+self->ram_regions[self->ram_regions_num].size = block->used_length - MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].offset =
+    (snapshot_ptr_offset_array[i] + MEM_SPLIT_START) - snapshot_ptr_offset_array[0];
+self->ram_regions[self->ram_regions_num].host_region_ptr =
+    block->host + MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+    snapshot_ptr_offset_array[i] + MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
+memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
+}
+else {
    self->ram_regions[self->ram_regions_num].ram_region = i;
    self->ram_regions[self->ram_regions_num].base       = block->mr->addr;
    self->ram_regions[self->ram_regions_num].size       = block->used_length;
-                self->ram_regions[self->ram_regions_num].offset = snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
+    self->ram_regions[self->ram_regions_num].offset =
+        snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
    self->ram_regions[self->ram_regions_num].host_region_ptr = block->host;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = self->snapshot_ptr+self->ram_regions[self->ram_regions_num].offset;
+    self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+        self->snapshot_ptr + self->ram_regions[self->ram_regions_num].offset;
    self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+    memset(self->ram_regions[self->ram_regions_num].idstr, 0,
+           strlen(block->idstr) + 1);
    strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
-            }
-
-            self->ram_regions_num++;
-        }
-    }
-
-
-
-    shadow_memory_init_generic(self);
-    return self;
 }

-shadow_memory_t* shadow_memory_init_from_snapshot(const char* snapshot_folder, bool pre_snapshot){
+self->ram_regions_num++;
+}
+}

+
+shadow_memory_init_generic(self);
+return self;
+}
+
+shadow_memory_t *shadow_memory_init_from_snapshot(const char *snapshot_folder,
+                                                  bool        pre_snapshot)
+{
    RAMBlock *block;
-    RAMBlock* block_array[10];
-    void* snapshot_ptr_offset_array[10];
+    RAMBlock *block_array[10];
+    void     *snapshot_ptr_offset_array[10];

-    shadow_memory_t* self = malloc(sizeof(shadow_memory_t));
+    shadow_memory_t *self = malloc(sizeof(shadow_memory_t));
    memset(self, 0x0, sizeof(shadow_memory_t));

    /* count total memory size */
-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
        self->memory_size += block->used_length;
    }

    /* count number of ram regions */
-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        if(!block->mr->readonly){
-            if(self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START){
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        if (!block->mr->readonly) {
+            if (self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START) {
                self->ram_regions_num++;
            }
            self->ram_regions_num++;
        }
    }

-    char* path_meta;
-    char* path_dump;
+    char *path_meta;
+    char *path_dump;
    assert(asprintf(&path_meta, "%s/fast_snapshot.mem_meta", snapshot_folder) != -1);
    assert(asprintf(&path_dump, "%s/fast_snapshot.mem_dump", snapshot_folder) != -1);

    fast_reload_dump_head_t head;

-    FILE* file_mem_meta = fopen (path_meta, "r");
+    FILE *file_mem_meta = fopen(path_meta, "r");
    assert(file_mem_meta != NULL);
    assert(fread(&head, sizeof(fast_reload_dump_head_t), 1, file_mem_meta) == 1);
    fclose(file_mem_meta);

-    if(self->ram_regions_num != head.shadow_memory_regions){
-        nyx_error("Error: self->ram_regions_num (%d) != head.shadow_memory_regions (%d)\n", self->ram_regions_num, head.shadow_memory_regions);
+    if (self->ram_regions_num != head.shadow_memory_regions) {
+        nyx_error(
+            "Error: self->ram_regions_num (%d) != head.shadow_memory_regions (%d)\n",
+            self->ram_regions_num, head.shadow_memory_regions);
        exit(1);
    }

-    //printf("LOAD -> self->ram_regions_num: %d\n", self->ram_regions_num);
+    // printf("LOAD -> self->ram_regions_num: %d\n", self->ram_regions_num);

-    FILE* file_mem_dump = fopen (path_dump, "r");
+    FILE *file_mem_dump = fopen(path_dump, "r");
    assert(file_mem_dump != NULL);
    fseek(file_mem_dump, 0L, SEEK_END);
    uint64_t file_mem_dump_size = ftell(file_mem_dump);

-    nyx_debug("guest_ram_size == ftell(f) => 0x%lx vs 0x%lx (%s)\n", self->memory_size, file_mem_dump_size, path_dump);
+    nyx_debug("guest_ram_size == ftell(f) => 0x%lx vs 0x%lx (%s)\n",
+              self->memory_size, file_mem_dump_size, path_dump);

-    #define VGA_SIZE (16<<20)
+#define VGA_SIZE (16 << 20)

-    if(self->memory_size != file_mem_dump_size){
-        if (file_mem_dump_size >= VGA_SIZE){
-    	    nyx_error("ERROR: guest size should be %ld MB - set it to %ld MB\n", (file_mem_dump_size-VGA_SIZE)>>20, (self->memory_size-VGA_SIZE)>>20);
+    if (self->memory_size != file_mem_dump_size) {
+        if (file_mem_dump_size >= VGA_SIZE) {
+            nyx_error("ERROR: guest size should be %ld MB - set it to %ld MB\n",
+                      (file_mem_dump_size - VGA_SIZE) >> 20,
+                      (self->memory_size - VGA_SIZE) >> 20);
            exit(1);
-        }
-        else{
+        } else {
            nyx_error("ERROR: guest size: %ld bytes\n", file_mem_dump_size);
            exit(1);
        }
@ -197,116 +222,137 @@ shadow_memory_t* shadow_memory_init_from_snapshot(const char* snapshot_folder, b
    fclose(file_mem_dump);

    self->snapshot_ptr_fd = open(path_dump, O_RDONLY);
-    self->snapshot_ptr = mmap(0, self->memory_size, PROT_READ, MAP_SHARED, self->snapshot_ptr_fd, 0);
+    self->snapshot_ptr =
+        mmap(0, self->memory_size, PROT_READ, MAP_SHARED, self->snapshot_ptr_fd, 0);

-    assert(self->snapshot_ptr != (void*)-1);
+    assert(self->snapshot_ptr != (void *)-1);
    madvise(self->snapshot_ptr, self->memory_size, MADV_MERGEABLE);


    uint64_t offset      = 0;
    uint8_t  i           = 0;
    uint8_t  regions_num = 0;
-    QLIST_FOREACH_RCU(block, &ram_list.blocks, next) {
-        nyx_debug_p(RELOAD_PREFIX, "%lx %lx %lx\t%s\t%p", block->offset, block->used_length, block->max_length, block->idstr, block->host);
+    QLIST_FOREACH_RCU (block, &ram_list.blocks, next) {
+        nyx_debug_p(RELOAD_PREFIX, "%lx %lx %lx\t%s\t%p", block->offset,
+                    block->used_length, block->max_length, block->idstr, block->host);

        block_array[i]                 = block;
-        snapshot_ptr_offset_array[i++] = self->snapshot_ptr+offset;
+        snapshot_ptr_offset_array[i++] = self->snapshot_ptr + offset;
        offset += block->used_length;
        regions_num++;
    }

    self->ram_regions_num = 0;
-    for(uint8_t i = 0; i < regions_num; i++){
+    for (uint8_t i = 0; i < regions_num; i++) {
        block = block_array[i];
-        if(!block->mr->readonly){
-
-            if(self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START){
-
+        if (!block->mr->readonly) {
+            if (self->ram_regions_num == 0 && block->used_length >= MEM_SPLIT_START) {
                self->ram_regions[self->ram_regions_num].ram_region = i;
                self->ram_regions[self->ram_regions_num].base = block->mr->addr;
                self->ram_regions[self->ram_regions_num].size = MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].offset = snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
+                self->ram_regions[self->ram_regions_num].offset =
+                    snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
                self->ram_regions[self->ram_regions_num].host_region_ptr = block->host;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = self->snapshot_ptr+self->ram_regions[self->ram_regions_num].offset;
-                self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+                self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+                    self->snapshot_ptr +
+                    self->ram_regions[self->ram_regions_num].offset;
+                self->ram_regions[self->ram_regions_num].idstr =
+                    malloc(strlen(block->idstr) + 1);
+                memset(self->ram_regions[self->ram_regions_num].idstr, 0,
+                       strlen(block->idstr) + 1);
                strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
                self->ram_regions_num++;

                self->ram_regions[self->ram_regions_num].ram_region = i;
-                self->ram_regions[self->ram_regions_num].base = MEM_SPLIT_END;
-                self->ram_regions[self->ram_regions_num].size = block->used_length-MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].offset = (snapshot_ptr_offset_array[i] + MEM_SPLIT_START) - snapshot_ptr_offset_array[0];
-                self->ram_regions[self->ram_regions_num].host_region_ptr = block->host+MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = snapshot_ptr_offset_array[i]+MEM_SPLIT_START;
-                self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
-                strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
-            }
-            else{
+                self->ram_regions[self->ram_regions_num].base =
+MEM_SPLIT_END
+;
+self->ram_regions[self->ram_regions_num].size = block->used_length - MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].offset =
+    (snapshot_ptr_offset_array[i] + MEM_SPLIT_START) - snapshot_ptr_offset_array[0];
+self->ram_regions[self->ram_regions_num].host_region_ptr =
+    block->host + MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+    snapshot_ptr_offset_array[i] + MEM_SPLIT_START;
+self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
+memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
+}
+else {
    self->ram_regions[self->ram_regions_num].ram_region = i;
    self->ram_regions[self->ram_regions_num].base       = block->mr->addr;
    self->ram_regions[self->ram_regions_num].size       = block->used_length;
-                self->ram_regions[self->ram_regions_num].offset = snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
+    self->ram_regions[self->ram_regions_num].offset =
+        snapshot_ptr_offset_array[i] - snapshot_ptr_offset_array[0];
    self->ram_regions[self->ram_regions_num].host_region_ptr = block->host;
-                self->ram_regions[self->ram_regions_num].snapshot_region_ptr = self->snapshot_ptr+self->ram_regions[self->ram_regions_num].offset;
+    self->ram_regions[self->ram_regions_num].snapshot_region_ptr =
+        self->snapshot_ptr + self->ram_regions[self->ram_regions_num].offset;
    self->ram_regions[self->ram_regions_num].idstr = malloc(strlen(block->idstr) + 1);
-                memset(self->ram_regions[self->ram_regions_num].idstr, 0, strlen(block->idstr) + 1);
+    memset(self->ram_regions[self->ram_regions_num].idstr, 0,
+           strlen(block->idstr) + 1);
    strcpy(self->ram_regions[self->ram_regions_num].idstr, block->idstr);
-            }
+}

-            self->ram_regions_num++;
-        }
-    }
+self->ram_regions_num++;
+}
+}

 #ifdef DEBUG_SHADOW_MEMCPY_VERSION
-    /* memcpy version */
-    for(uint8_t i = 0; i < self->ram_regions_num; i++){
-        void* host_addr = self->ram_regions[i].host_region_ptr + 0;
-        void* snapshot_addr = self->ram_regions[i].snapshot_region_ptr + 0;
+/* memcpy version */
+for (uint8_t i = 0; i < self->ram_regions_num; i++) {
+    void *host_addr     = self->ram_regions[i].host_region_ptr + 0;
+    void *snapshot_addr = self->ram_regions[i].snapshot_region_ptr + 0;
    memcpy(host_addr, snapshot_addr, self->ram_regions[i].size);
-    }
+}
 #else
-    /* munmap + mmap version */
-    for(uint8_t i = 0; i < self->ram_regions_num; i++){
-        void* host_addr = self->ram_regions[i].host_region_ptr + 0;
+/* munmap + mmap version */
+for (uint8_t i = 0; i < self->ram_regions_num; i++) {
+    void *host_addr = self->ram_regions[i].host_region_ptr + 0;
    assert(munmap(host_addr, self->ram_regions[i].size) != EINVAL);
-        assert(mmap(host_addr, self->ram_regions[i].size, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE | MAP_FIXED, self->snapshot_ptr_fd, self->ram_regions[i].offset) != MAP_FAILED);
-    }
+    assert(mmap(host_addr, self->ram_regions[i].size,
+                PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE | MAP_FIXED,
+                self->snapshot_ptr_fd, self->ram_regions[i].offset) != MAP_FAILED);
+}
 #endif

-    shadow_memory_init_generic(self);
-    return self;
+shadow_memory_init_generic(self);
+return self;
 }


-void shadow_memory_prepare_incremental(shadow_memory_t* self){
+void shadow_memory_prepare_incremental(shadow_memory_t *self)
+{
    static int count = 0;

-    if(count >= RESTORE_RATE){
+    if (count >= RESTORE_RATE) {
        count = 0;
        munmap(self->incremental_ptr, self->memory_size);
-        self->incremental_ptr = mmap(0, self->memory_size, PROT_READ | PROT_WRITE, MAP_PRIVATE, self->snapshot_ptr_fd, 0);
+        self->incremental_ptr = mmap(0, self->memory_size, PROT_READ | PROT_WRITE,
+                                     MAP_PRIVATE, self->snapshot_ptr_fd, 0);
        shadow_memory_set_incremental_ptrs(self);
    }
    count++;
 }

-void shadow_memory_switch_snapshot(shadow_memory_t* self, bool incremental){
+void shadow_memory_switch_snapshot(shadow_memory_t *self, bool incremental)
+{
    self->incremental_enabled = incremental;
 }

-void shadow_memory_restore_memory(shadow_memory_t* self){
+void shadow_memory_restore_memory(shadow_memory_t *self)
+{
    rcu_read_lock();

    uint8_t  slot = 0;
    uint64_t addr = 0;
-    for(uint64_t i = 0; i < self->root_track_pages_num; i++){
+    for (uint64_t i = 0; i < self->root_track_pages_num; i++) {
        addr = self->root_track_pages_stack[i] & 0xFFFFFFFFFFFFF000;
        slot = self->root_track_pages_stack[i] & 0xFFF;

-        memcpy(self->ram_regions[slot].host_region_ptr+addr, self->ram_regions[slot].snapshot_region_ptr+addr, TARGET_PAGE_SIZE);
-        memcpy(self->ram_regions[slot].incremental_region_ptr+addr, self->ram_regions[slot].snapshot_region_ptr+addr, TARGET_PAGE_SIZE);
+        memcpy(self->ram_regions[slot].host_region_ptr + addr,
+               self->ram_regions[slot].snapshot_region_ptr + addr, TARGET_PAGE_SIZE);
+        memcpy(self->ram_regions[slot].incremental_region_ptr + addr,
+               self->ram_regions[slot].snapshot_region_ptr + addr, TARGET_PAGE_SIZE);
    }

    self->root_track_pages_num = 0;
@ -315,25 +361,29 @@ void shadow_memory_restore_memory(shadow_memory_t* self){


 /* only used in debug mode -> no need to be fast */
-bool shadow_memory_is_root_page_tracked(shadow_memory_t* self, uint64_t address, uint8_t slot){
+bool shadow_memory_is_root_page_tracked(shadow_memory_t *self,
+                                        uint64_t         address,
+                                        uint8_t          slot)
+{
    uint64_t value = (address & 0xFFFFFFFFFFFFF000) | slot;

-    for(uint64_t i = 0; i < self->root_track_pages_num; i++){
-        if(self->root_track_pages_stack[i] == value){
+    for (uint64_t i = 0; i < self->root_track_pages_num; i++) {
+        if (self->root_track_pages_stack[i] == value) {
            return true;
        }
    }
    return false;
 }

-void shadow_memory_serialize(shadow_memory_t* self, const char* snapshot_folder){
-    char* tmp1;
-    char* tmp2;
+void shadow_memory_serialize(shadow_memory_t *self, const char *snapshot_folder)
+{
+    char *tmp1;
+    char *tmp2;
    assert(asprintf(&tmp1, "%s/fast_snapshot.mem_meta", snapshot_folder) != -1);
    assert(asprintf(&tmp2, "%s/fast_snapshot.mem_dump", snapshot_folder) != -1);

-    FILE* file_mem_meta = fopen(tmp1, "w+b");
-    FILE* file_mem_data = fopen(tmp2, "w+b");
+    FILE *file_mem_meta = fopen(tmp1, "w+b");
+    FILE *file_mem_data = fopen(tmp2, "w+b");

    fast_reload_dump_head_t  head;
    fast_reload_dump_entry_t entry;
@ -343,10 +393,10 @@ void shadow_memory_serialize(shadow_memory_t* self, const char* snapshot_folder)

    fwrite(&head, sizeof(fast_reload_dump_head_t), 1, file_mem_meta);

-    for (uint64_t i = 0; i < self->ram_regions_num; i++){
+    for (uint64_t i = 0; i < self->ram_regions_num; i++) {
        memset(&entry, 0x0, sizeof(fast_reload_dump_entry_t));
        entry.shadow_memory_offset = (uint64_t)self->ram_regions[i].offset;
-        strncpy((char*)&entry.idstr, (const char*)self->ram_regions[i].idstr, 255);
+        strncpy((char *)&entry.idstr, (const char *)self->ram_regions[i].idstr, 255);
        fwrite(&entry, sizeof(fast_reload_dump_entry_t), 1, file_mem_meta);
    }

@ -356,43 +406,57 @@ void shadow_memory_serialize(shadow_memory_t* self, const char* snapshot_folder)
    fclose(file_mem_data);
 }

-static bool shadow_memory_read_page_frame(shadow_memory_t* self, uint64_t address, void* ptr, uint16_t offset, uint16_t size){
+static bool shadow_memory_read_page_frame(shadow_memory_t *self,
+                                          uint64_t         address,
+                                          void            *ptr,
+                                          uint16_t         offset,
+                                          uint16_t         size)
+{
    assert((offset + size) <= 0x1000);

-    for(uint8_t i = 0; i < self->ram_regions_num; i++){
-        if(address >= self->ram_regions[i].base && address < (self->ram_regions[i].base + self->ram_regions[i].size)){
-            void* snapshot_ptr = self->ram_regions[i].snapshot_region_ptr + (address-self->ram_regions[i].base);
-            memcpy(ptr, snapshot_ptr+offset, size);
+    for (uint8_t i = 0; i < self->ram_regions_num; i++) {
+        if (address >= self->ram_regions[i].base &&
+            address < (self->ram_regions[i].base + self->ram_regions[i].size))
+        {
+            void *snapshot_ptr = self->ram_regions[i].snapshot_region_ptr +
+                                 (address - self->ram_regions[i].base);
+            memcpy(ptr, snapshot_ptr + offset, size);
            return true;
        }
    }
    return false;
 }

-bool shadow_memory_read_physical_memory(shadow_memory_t* self, uint64_t address, void* ptr, size_t size){
-
+bool shadow_memory_read_physical_memory(shadow_memory_t *self,
+                                        uint64_t         address,
+                                        void            *ptr,
+                                        size_t           size)
+{
    size_t   bytes_left      = size;
    size_t   copy_bytes      = 0;
    uint64_t current_address = address;
    uint64_t offset          = 0;

    while (bytes_left != 0) {
-
        /* full page */
-        if ((current_address & 0xFFF) == 0){
+        if ((current_address & 0xFFF) == 0) {
            copy_bytes = 0x1000;
        }
        /* partial page (starting at an offset) */
-        else {
+        else
+        {
            copy_bytes = 0x1000 - (current_address & 0xFFF);
        }

        /* partial page */
-        if (bytes_left < copy_bytes){
+        if (bytes_left < copy_bytes) {
            copy_bytes = bytes_left;
        }

-        if (shadow_memory_read_page_frame(self, current_address & ~0xFFFULL, ptr + offset, current_address & 0xFFFULL, copy_bytes) == false){
+        if (shadow_memory_read_page_frame(self, current_address & ~0xFFFULL,
+                                          ptr + offset, current_address & 0xFFFULL,
+                                          copy_bytes) == false)
+        {
            return false;
        }
        current_address += copy_bytes;
--- a/nyx/snapshot/memory/shadow_memory.h
+++ b/nyx/snapshot/memory/shadow_memory.h
@ -1,13 +1,12 @@
 #pragma once

-#include <stdint.h>
 #include "nyx/snapshot/devices/state_reallocation.h"
+#include <stdint.h>

 /* munmap & mmap incremental snapshot area after RESTORE_RATE restores to avoid high memory pressure */
 #define RESTORE_RATE 2000

-typedef struct ram_region_s{
-
+typedef struct ram_region_s {
    /* simple numeric identifier
     *  (can be the same for multiple regions if the memory is
     *	actually splitted across different bases in the guest's memory
@ -25,30 +24,30 @@ typedef struct ram_region_s{
    uint64_t offset;

    /* pointer to the actual mmap region used by KVM */
-	void* host_region_ptr;
+    void *host_region_ptr;

    /* pointer to the snapshot mmap + offset */
-	void* snapshot_region_ptr;
+    void *snapshot_region_ptr;

    /* pointer to the incremental CoW mmap + offset */
-	void* incremental_region_ptr; 
+    void *incremental_region_ptr;

-	char* idstr; 
+    char *idstr;

 } ram_region_t;


-typedef struct shadow_memory_s{
+typedef struct shadow_memory_s {
    /* snapshot memory backup */
-	void* snapshot_ptr;
+    void *snapshot_ptr;

    /* snapshot memory backup memfd */
    int snapshot_ptr_fd;

    /* incremental memory backup */
-	void* incremental_ptr;
+    void *incremental_ptr;

-	//fast_reload_tmp_snapshot_t tmp_snapshot;
+    // fast_reload_tmp_snapshot_t tmp_snapshot;

    /* total memory size */
    uint64_t memory_size;
@ -60,31 +59,43 @@ typedef struct shadow_memory_s{
    /* additional dirty stack to restore root snapshot */
    uint64_t  root_track_pages_num;
    uint64_t  root_track_pages_size;
-	uint64_t* root_track_pages_stack;
+    uint64_t *root_track_pages_stack;

    bool incremental_enabled;
-}shadow_memory_t;
+} shadow_memory_t;

-shadow_memory_t* shadow_memory_init(void);
-shadow_memory_t* shadow_memory_init_from_snapshot(const char* snapshot_folder, bool pre_snapshot);
+shadow_memory_t *shadow_memory_init(void);
+shadow_memory_t *shadow_memory_init_from_snapshot(const char *snapshot_folder,
+                                                  bool        pre_snapshot);

-void shadow_memory_prepare_incremental(shadow_memory_t* self);
-void shadow_memory_switch_snapshot(shadow_memory_t* self, bool incremental);
+void shadow_memory_prepare_incremental(shadow_memory_t *self);
+void shadow_memory_switch_snapshot(shadow_memory_t *self, bool incremental);

-void shadow_memory_restore_memory(shadow_memory_t* self);
+void shadow_memory_restore_memory(shadow_memory_t *self);

-static inline void shadow_memory_track_dirty_root_pages(shadow_memory_t* self, uint64_t address, uint8_t slot){
-    if(unlikely(self->root_track_pages_num >= self->root_track_pages_size)){
+static inline void shadow_memory_track_dirty_root_pages(shadow_memory_t *self,
+                                                        uint64_t         address,
+                                                        uint8_t          slot)
+{
+    if (unlikely(self->root_track_pages_num >= self->root_track_pages_size)) {
        self->root_track_pages_size <<= 2;
-        self->root_track_pages_stack = realloc(self->root_track_pages_stack, self->root_track_pages_size*sizeof(uint64_t));
+        self->root_track_pages_stack =
+            realloc(self->root_track_pages_stack,
+                    self->root_track_pages_size * sizeof(uint64_t));
    }

-    self->root_track_pages_stack[self->root_track_pages_num] = (address & 0xFFFFFFFFFFFFF000) | slot; 
+    self->root_track_pages_stack[self->root_track_pages_num] =
+        (address & 0xFFFFFFFFFFFFF000) | slot;
    self->root_track_pages_num++;
 }

-bool shadow_memory_is_root_page_tracked(shadow_memory_t* self, uint64_t address, uint8_t slot);
+bool shadow_memory_is_root_page_tracked(shadow_memory_t *self,
+                                        uint64_t         address,
+                                        uint8_t          slot);

-void shadow_memory_serialize(shadow_memory_t* self, const char* snapshot_folder);
+void shadow_memory_serialize(shadow_memory_t *self, const char *snapshot_folder);

-bool shadow_memory_read_physical_memory(shadow_memory_t* self, uint64_t address, void* ptr, size_t size);
+bool shadow_memory_read_physical_memory(shadow_memory_t *self,
+                                        uint64_t         address,
+                                        void            *ptr,
+                                        size_t           size);
--- a/nyx/state/snapshot_state.c
+++ b/nyx/state/snapshot_state.c
@ -3,50 +3,52 @@
 #include "sysemu/cpus.h"
 #include "nyx/state/snapshot_state.h"
 #include "nyx/debug.h"
-#include "nyx/state/state.h"
 #include "nyx/memory_access.h"
-#include <stdio.h>
+#include "nyx/state/state.h"
 #include <stdint.h>
+#include <stdio.h>

-void serialize_state(const char* filename_prefix, bool is_pre_snapshot){
+void serialize_state(const char *filename_prefix, bool is_pre_snapshot)
+{
    nyx_trace();

-	char* tmp;
+    char *tmp;

    assert(asprintf(&tmp, "%s/global.state", filename_prefix) != -1);

    FILE *fp = fopen(tmp, "wb");
-	if(fp == NULL) {                                                
+    if (fp == NULL) {
        nyx_error("[%s] Could not open file %s.\n", __func__, tmp);
        assert(false);
    }

-    serialized_state_header_t header = {0};
+    serialized_state_header_t header = { 0 };

    header.magic   = NYX_SERIALIZED_STATE_MAGIC;
    header.version = NYX_SERIALIZED_STATE_VERSION;

-    if (is_pre_snapshot){
+    if (is_pre_snapshot) {
        header.type = NYX_SERIALIZED_TYPE_PRE_SNAPSHOT;
        fwrite(&header, sizeof(serialized_state_header_t), 1, fp);
-    }
-    else{
+    } else {
        header.type = NYX_SERIALIZED_TYPE_ROOT_SNAPSHOT;
        fwrite(&header, sizeof(serialized_state_header_t), 1, fp);

-        qemu_nyx_state_t* nyx_global_state = GET_GLOBAL_STATE();
-        serialized_state_root_snapshot_t root_snapshot = {0};
+        qemu_nyx_state_t                *nyx_global_state = GET_GLOBAL_STATE();
+        serialized_state_root_snapshot_t root_snapshot    = { 0 };

-        for (uint8_t i = 0; i < 4; i++){
-            root_snapshot.pt_ip_filter_configured[i] = nyx_global_state->pt_ip_filter_configured[i];
+        for (uint8_t i = 0; i < 4; i++) {
+            root_snapshot.pt_ip_filter_configured[i] =
+                nyx_global_state->pt_ip_filter_configured[i];
            root_snapshot.pt_ip_filter_a[i] = nyx_global_state->pt_ip_filter_a[i];
            root_snapshot.pt_ip_filter_b[i] = nyx_global_state->pt_ip_filter_b[i];
        }
        root_snapshot.parent_cr3 = nyx_global_state->parent_cr3;
-        root_snapshot.disassembler_word_width = nyx_global_state->disassembler_word_width;
+        root_snapshot.disassembler_word_width =
+            nyx_global_state->disassembler_word_width;
        root_snapshot.fast_reload_pre_image = nyx_global_state->fast_reload_pre_image;
        root_snapshot.mem_mode      = nyx_global_state->mem_mode;
-        root_snapshot.pt_trace_mode =nyx_global_state->pt_trace_mode;
+        root_snapshot.pt_trace_mode = nyx_global_state->pt_trace_mode;

        root_snapshot.input_buffer_vaddr = nyx_global_state->payload_buffer;
        root_snapshot.protect_input_buffer = nyx_global_state->protect_payload_buffer;
@ -55,60 +57,66 @@ void serialize_state(const char* filename_prefix, bool is_pre_snapshot){

        root_snapshot.cap_timeout_detection = nyx_global_state->cap_timeout_detection;
        root_snapshot.cap_only_reload_mode = nyx_global_state->cap_only_reload_mode;
-        root_snapshot.cap_compile_time_tracing = nyx_global_state->cap_compile_time_tracing;
+        root_snapshot.cap_compile_time_tracing =
+            nyx_global_state->cap_compile_time_tracing;
        root_snapshot.cap_ijon_tracing = nyx_global_state->cap_ijon_tracing;
        root_snapshot.cap_cr3          = nyx_global_state->cap_cr3;
-        root_snapshot.cap_compile_time_tracing_buffer_vaddr = nyx_global_state->cap_compile_time_tracing_buffer_vaddr;
-        root_snapshot.cap_ijon_tracing_buffer_vaddr = nyx_global_state->cap_ijon_tracing_buffer_vaddr;
-        root_snapshot.cap_coverage_bitmap_size = nyx_global_state->cap_coverage_bitmap_size;
+        root_snapshot.cap_compile_time_tracing_buffer_vaddr =
+            nyx_global_state->cap_compile_time_tracing_buffer_vaddr;
+        root_snapshot.cap_ijon_tracing_buffer_vaddr =
+            nyx_global_state->cap_ijon_tracing_buffer_vaddr;
+        root_snapshot.cap_coverage_bitmap_size =
+            nyx_global_state->cap_coverage_bitmap_size;

        fwrite(&root_snapshot, sizeof(serialized_state_root_snapshot_t), 1, fp);
-
    }

    fclose(fp);
    free(tmp);
 }

-void deserialize_state(const char* filename_prefix){
+void deserialize_state(const char *filename_prefix)
+{
    nyx_trace();

-	char* tmp;
+    char *tmp;

    assert(asprintf(&tmp, "%s/global.state", filename_prefix) != -1);

    FILE *fp = fopen(tmp, "rb");
-	if(fp == NULL) {                                                
+    if (fp == NULL) {
        nyx_debug("[%s] Could not open file %s.\n", __func__, tmp);
        assert(false);
    }


-    serialized_state_header_t header = {0};
+    serialized_state_header_t header = { 0 };
    assert(fread(&header, sizeof(serialized_state_header_t), 1, fp) == 1);

    assert(header.magic == NYX_SERIALIZED_STATE_MAGIC);
    assert(header.version == NYX_SERIALIZED_STATE_VERSION);

-    if(header.type == NYX_SERIALIZED_TYPE_PRE_SNAPSHOT){
+    if (header.type == NYX_SERIALIZED_TYPE_PRE_SNAPSHOT) {
        /* we're done here */
-    }
-    else if (header.type == NYX_SERIALIZED_TYPE_ROOT_SNAPSHOT){
-        qemu_nyx_state_t* nyx_global_state = GET_GLOBAL_STATE();
-        serialized_state_root_snapshot_t root_snapshot = {0};
-        assert(fread(&root_snapshot, sizeof(serialized_state_root_snapshot_t), 1, fp) == 1);
+    } else if (header.type == NYX_SERIALIZED_TYPE_ROOT_SNAPSHOT) {
+        qemu_nyx_state_t                *nyx_global_state = GET_GLOBAL_STATE();
+        serialized_state_root_snapshot_t root_snapshot    = { 0 };
+        assert(fread(&root_snapshot, sizeof(serialized_state_root_snapshot_t), 1,
+                     fp) == 1);

-        for (uint8_t i = 0; i < 4; i++){
-            nyx_global_state->pt_ip_filter_configured[i] = root_snapshot.pt_ip_filter_configured[i];
+        for (uint8_t i = 0; i < 4; i++) {
+            nyx_global_state->pt_ip_filter_configured[i] =
+                root_snapshot.pt_ip_filter_configured[i];
            nyx_global_state->pt_ip_filter_a[i] = root_snapshot.pt_ip_filter_a[i];
            nyx_global_state->pt_ip_filter_b[i] = root_snapshot.pt_ip_filter_b[i];
        }

        nyx_global_state->parent_cr3 = root_snapshot.parent_cr3;
-        nyx_global_state->disassembler_word_width = root_snapshot.disassembler_word_width;
+        nyx_global_state->disassembler_word_width =
+            root_snapshot.disassembler_word_width;
        nyx_global_state->fast_reload_pre_image = root_snapshot.fast_reload_pre_image;
        nyx_global_state->mem_mode      = root_snapshot.mem_mode;
-        nyx_global_state->pt_trace_mode =root_snapshot.pt_trace_mode;
+        nyx_global_state->pt_trace_mode = root_snapshot.pt_trace_mode;

        nyx_global_state->payload_buffer = root_snapshot.input_buffer_vaddr;
        nyx_global_state->protect_payload_buffer = root_snapshot.protect_input_buffer;
@ -117,21 +125,25 @@ void deserialize_state(const char* filename_prefix){

        nyx_global_state->cap_timeout_detection = root_snapshot.cap_timeout_detection;
        nyx_global_state->cap_only_reload_mode = root_snapshot.cap_only_reload_mode;
-        nyx_global_state->cap_compile_time_tracing = root_snapshot.cap_compile_time_tracing;
+        nyx_global_state->cap_compile_time_tracing =
+            root_snapshot.cap_compile_time_tracing;
        nyx_global_state->cap_ijon_tracing = root_snapshot.cap_ijon_tracing;
        nyx_global_state->cap_cr3          = root_snapshot.cap_cr3;
-        nyx_global_state->cap_compile_time_tracing_buffer_vaddr = root_snapshot.cap_compile_time_tracing_buffer_vaddr;
-        nyx_global_state->cap_ijon_tracing_buffer_vaddr = root_snapshot.cap_ijon_tracing_buffer_vaddr;
-        nyx_global_state->cap_coverage_bitmap_size = root_snapshot.cap_coverage_bitmap_size;
+        nyx_global_state->cap_compile_time_tracing_buffer_vaddr =
+            root_snapshot.cap_compile_time_tracing_buffer_vaddr;
+        nyx_global_state->cap_ijon_tracing_buffer_vaddr =
+            root_snapshot.cap_ijon_tracing_buffer_vaddr;
+        nyx_global_state->cap_coverage_bitmap_size =
+            root_snapshot.cap_coverage_bitmap_size;

        assert(apply_capabilities(qemu_get_cpu(0)));
-        remap_payload_buffer(nyx_global_state->payload_buffer, ((CPUState *)qemu_get_cpu(0)) );
+        remap_payload_buffer(nyx_global_state->payload_buffer,
+                             ((CPUState *)qemu_get_cpu(0)));

        /* makes sure that we are allowed to enter the fuzzing loop */
        nyx_global_state->get_host_config_done  = true;
        nyx_global_state->set_agent_config_done = true;
-    }
-    else{
+    } else {
        fprintf(stderr, "[QEMU-Nyx]: this feature is currently missing\n");
        abort();
    }
--- a/nyx/state/snapshot_state.h
+++ b/nyx/state/snapshot_state.h
@ -42,6 +42,5 @@ typedef struct serialized_state_root_snapshot_s {
 } serialized_state_root_snapshot_t;


-
-void serialize_state(const char* filename_prefix, bool is_pre_snapshot);
-void deserialize_state(const char* filename_prefix);
+void serialize_state(const char *filename_prefix, bool is_pre_snapshot);
+void deserialize_state(const char *filename_prefix);
--- a/nyx/state/state.c
+++ b/nyx/state/state.c
@ -24,23 +24,24 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.
 #include <stdint.h>
 #include <stdio.h>

-#include "nyx/state/state.h"
-#include "nyx/debug.h"
-#include "nyx/memory_access.h"
 #include "sysemu/kvm.h"
 #include "nyx/auxiliary_buffer.h"
-#include "nyx/sharedir.h"
+#include "nyx/debug.h"
 #include "nyx/fast_vm_reload_sync.h"
 #include "nyx/helpers.h"
+#include "nyx/memory_access.h"
+#include "nyx/sharedir.h"
+#include "nyx/state/state.h"

-//#define STATE_VERBOSE
+// #define STATE_VERBOSE

 /* global singleton */
 qemu_nyx_state_t global_state;

 #define LIBXDC_RELEASE_VERSION_REQUIRED 2

-void state_init_global(void){
+void state_init_global(void)
+{
 #ifdef STATE_VERBOSE
    fprintf(stderr, "--> %s <--\n", __func__);
 #endif
@ -73,7 +74,7 @@ void state_init_global(void){
    global_state.patches_disable_pending       = false;
    global_state.redqueen_state                = NULL;

-    for(uint8_t i = 0; i < INTEL_PT_MAX_RANGES; i++){
+    for (uint8_t i = 0; i < INTEL_PT_MAX_RANGES; i++) {
        global_state.pt_ip_filter_configured[i] = false;
        global_state.pt_ip_filter_enabled[i]    = false;
        global_state.pt_ip_filter_a[i]          = 0x0;
@ -149,95 +150,114 @@ void state_init_global(void){
 }


-fast_reload_t* get_fast_reload_snapshot(void){
+fast_reload_t *get_fast_reload_snapshot(void)
+{
    return global_state.fast_reload_snapshot;
 }

-void set_fast_reload_mode(bool mode){
+void set_fast_reload_mode(bool mode)
+{
    global_state.fast_reload_mode = mode;
 }

-void set_fast_reload_path(const char* path){
+void set_fast_reload_path(const char *path)
+{
    assert(global_state.fast_reload_path == NULL);
-    global_state.fast_reload_path = malloc(strlen(path)+1);
+    global_state.fast_reload_path = malloc(strlen(path) + 1);
    strcpy(global_state.fast_reload_path, path);
 }

-void set_fast_reload_pre_path(const char* path){
+void set_fast_reload_pre_path(const char *path)
+{
    assert(global_state.fast_reload_pre_path == NULL);
-    global_state.fast_reload_pre_path = malloc(strlen(path)+1);
+    global_state.fast_reload_pre_path = malloc(strlen(path) + 1);
    strcpy(global_state.fast_reload_pre_path, path);
 }

-void set_fast_reload_pre_image(void){
+void set_fast_reload_pre_image(void)
+{
    assert(global_state.fast_reload_pre_path != NULL);
    global_state.fast_reload_pre_image = true;
 }

-void enable_fast_reloads(void){
+void enable_fast_reloads(void)
+{
    assert(global_state.fast_reload_path != NULL);
    global_state.fast_reload_enabled = true;
 }

-void init_page_cache(char* path){
+void init_page_cache(char *path)
+{
    assert(global_state.page_cache == NULL);
    global_state.page_cache = page_cache_new((CPUState *)qemu_get_cpu(0), path);
 }

-page_cache_t* get_page_cache(void){
+page_cache_t *get_page_cache(void)
+{
    assert(global_state.page_cache);
    return global_state.page_cache;
 }

-void init_redqueen_state(void){
-    global_state.redqueen_state = new_rq_state((CPUState *)qemu_get_cpu(0), get_page_cache());
+void init_redqueen_state(void)
+{
+    global_state.redqueen_state =
+        new_rq_state((CPUState *)qemu_get_cpu(0), get_page_cache());
 }


-redqueen_t* get_redqueen_state(void){
+redqueen_t *get_redqueen_state(void)
+{
    assert(global_state.redqueen_state != NULL);
    return global_state.redqueen_state;
 }

-static void* alloc_auxiliary_buffer(const char* file){
-	void* ptr;
+static void *alloc_auxiliary_buffer(const char *file)
+{
+    void       *ptr;
    struct stat st;
-	int fd = open(file, O_CREAT|O_RDWR, S_IRWXU|S_IRWXG|S_IRWXO);
+    int         fd = open(file, O_CREAT | O_RDWR, S_IRWXU | S_IRWXG | S_IRWXO);

    assert(ftruncate(fd, AUX_BUFFER_SIZE) == 0);
    stat(file, &st);

-	nyx_debug_p(INTERFACE_PREFIX, "new aux buffer file: (max size: %x) %lx", AUX_BUFFER_SIZE, st.st_size);
+    nyx_debug_p(INTERFACE_PREFIX, "new aux buffer file: (max size: %x) %lx",
+                AUX_BUFFER_SIZE, st.st_size);

    assert(AUX_BUFFER_SIZE == st.st_size);
    ptr = mmap(0, AUX_BUFFER_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
    if (ptr == MAP_FAILED) {
        fprintf(stderr, "aux buffer allocation failed!\n");
-		return (void*)-1;
+        return (void *)-1;
    }
    return ptr;
 }

-void init_aux_buffer(const char* filename){
-    global_state.auxilary_buffer = (auxilary_buffer_t*)alloc_auxiliary_buffer(filename);
+void init_aux_buffer(const char *filename)
+{
+    global_state.auxilary_buffer =
+        (auxilary_buffer_t *)alloc_auxiliary_buffer(filename);
    init_auxiliary_buffer(global_state.auxilary_buffer);
 }

-void set_payload_buffer(uint64_t payload_buffer){
+void set_payload_buffer(uint64_t payload_buffer)
+{
    assert(global_state.payload_buffer == 0 && global_state.nested == false);
    global_state.payload_buffer = payload_buffer;
    global_state.nested         = false;
 }

-void set_payload_pages(uint64_t* payload_pages, uint32_t pages){
-    assert(global_state.nested_payload_pages == NULL && global_state.nested_payload_pages_num == 0);
-    global_state.nested_payload_pages = (uint64_t*)malloc(sizeof(uint64_t)*pages);
+void set_payload_pages(uint64_t *payload_pages, uint32_t pages)
+{
+    assert(global_state.nested_payload_pages == NULL &&
+           global_state.nested_payload_pages_num == 0);
+    global_state.nested_payload_pages = (uint64_t *)malloc(sizeof(uint64_t) * pages);
    global_state.nested_payload_pages_num = pages;
-    memcpy(global_state.nested_payload_pages, payload_pages, sizeof(uint64_t)*pages);
+    memcpy(global_state.nested_payload_pages, payload_pages, sizeof(uint64_t) * pages);
    global_state.nested = true;
 }

-void set_workdir_path(char* workdir){
+void set_workdir_path(char *workdir)
+{
    assert(workdir && !global_state.workdir_path);
    assert(asprintf(&global_state.workdir_path, "%s", workdir) != -1);
 }
--- a/nyx/state/state.h
+++ b/nyx/state/state.h
@ -21,42 +21,41 @@ along with QEMU-PT.  If not, see <http://www.gnu.org/licenses/>.

 #pragma once

+#include "nyx/auxiliary_buffer.h"
+#include "nyx/fast_vm_reload.h"
+#include "nyx/fast_vm_reload_sync.h"
+#include "nyx/page_cache.h"
 #include "nyx/redqueen.h"
 #include "nyx/redqueen_patch.h"
-#include "nyx/fast_vm_reload.h"
-#include "nyx/page_cache.h"
-#include "nyx/synchronization.h"
-#include "nyx/auxiliary_buffer.h"
 #include "nyx/sharedir.h"
-#include "nyx/fast_vm_reload_sync.h"
+#include "nyx/synchronization.h"
 #include "nyx/types.h"

 #include <libxdc.h>

 #define INTEL_PT_MAX_RANGES 4

-typedef struct qemu_nyx_state_s{
-
+typedef struct qemu_nyx_state_s {
    /* set if FDL backend is used (required to perform some additional runtime tests) */
    bool nyx_fdl;

-    char* workdir_path;
+    char    *workdir_path;
    uint32_t worker_id;

    /* FAST VM RELOAD */
    bool                   fast_reload_enabled;
    bool                   fast_reload_mode;
-    char* fast_reload_path;
-    char* fast_reload_pre_path;
+    char                  *fast_reload_path;
+    char                  *fast_reload_pre_path;
    bool                   fast_reload_pre_image;
-    fast_reload_t* fast_reload_snapshot;
-    fast_vm_reload_sync_t* reload_state;
+    fast_reload_t         *fast_reload_snapshot;
+    fast_vm_reload_sync_t *reload_state;

    /* PAGE CACHE */
-    page_cache_t* page_cache; 
+    page_cache_t *page_cache;

    /* Decoder */
-    libxdc_t* decoder;
+    libxdc_t *decoder;

    /* REDQUEEN */
    bool        redqueen_enable_pending;
@ -65,7 +64,7 @@ typedef struct qemu_nyx_state_s{
    bool        redqueen_update_blacklist;
    bool        patches_enable_pending;
    bool        patches_disable_pending;
-    redqueen_t* redqueen_state;
+    redqueen_t *redqueen_state;

    /* Intel PT Options (not migratable) */
    uint64_t      pt_c3_filter;
@ -73,8 +72,9 @@ typedef struct qemu_nyx_state_s{
    bool pt_trace_mode; // enabled by default; disabled if compile-time tracing is implemented by agent

    /* disabled by default; enable to force usage of PT tracing
-     * (useful for targets that use compile-time tracing and redqueen at the same time (which obviously relies on PT traces)) 
-     * This mode is usually enabled by the fuzzing logic by enabling trace mode.
+     * (useful for targets that use compile-time tracing and redqueen at the same
+     * time (which obviously relies on PT traces)) This mode is usually enabled by
+     * the fuzzing logic by enabling trace mode.
     * *** THIS FEATURES IS STILL EXPERIMENTAL ***
     * */
    bool pt_trace_mode_force;
@ -86,14 +86,14 @@ typedef struct qemu_nyx_state_s{
    int      shared_bitmap_fd;
    uint32_t shared_bitmap_size;      /* size of the shared memory file */
    uint32_t shared_bitmap_real_size; /* actual size of the bitmap */
-    void* shared_bitmap_ptr;
+    void    *shared_bitmap_ptr;

    int      shared_payload_buffer_fd;
    uint32_t shared_payload_buffer_size;

    int      shared_ijon_bitmap_fd;
    uint32_t shared_ijon_bitmap_size;
-    void* shared_ijon_bitmap_ptr;
+    void    *shared_ijon_bitmap_ptr;

    /* Intel PT Options (migratable) */
    bool     pt_ip_filter_configured[4];
@ -106,7 +106,7 @@ typedef struct qemu_nyx_state_s{
    bool       nested;
    uint64_t   payload_buffer;
    uint32_t   nested_payload_pages_num;
-    uint64_t* nested_payload_pages; 
+    uint64_t  *nested_payload_pages;
    bool       protect_payload_buffer;
    bool       discard_tmp_snapshot;
    mem_mode_t mem_mode;
@ -147,9 +147,9 @@ typedef struct qemu_nyx_state_s{
    uint64_t cap_ijon_tracing_buffer_vaddr;
    uint64_t cap_coverage_bitmap_size;

-    auxilary_buffer_t* auxilary_buffer;
+    auxilary_buffer_t       *auxilary_buffer;
    auxilary_buffer_config_t shadow_config;
-    sharedir_t* sharedir;
+    sharedir_t              *sharedir;

    QTAILQ_HEAD(, kvm_sw_breakpoint) redqueen_breakpoints;
 } qemu_nyx_state_t;
@ -159,26 +159,26 @@ extern qemu_nyx_state_t global_state;
 #define GET_GLOBAL_STATE() (&global_state)

 void           state_init_global(void);
-fast_reload_t* get_fast_reload_snapshot(void);
+fast_reload_t *get_fast_reload_snapshot(void);
 void           set_fast_reload_mode(bool mode);
-void set_fast_reload_path(const char* path);
+void           set_fast_reload_path(const char *path);
 void           set_fast_reload_pre_image(void);


 void enable_fast_reloads(void);

 /* Page Cache */
-void init_page_cache(char* path);
-page_cache_t* get_page_cache(void);
+void          init_page_cache(char *path);
+page_cache_t *get_page_cache(void);

 void init_redqueen_state(void);

-redqueen_t* get_redqueen_state(void);
+redqueen_t *get_redqueen_state(void);

-void init_aux_buffer(const char* filename);
-void set_fast_reload_pre_path(const char* path);
+void init_aux_buffer(const char *filename);
+void set_fast_reload_pre_path(const char *path);

 void set_payload_buffer(uint64_t payload_buffer);
-void set_payload_pages(uint64_t* payload_pages, uint32_t pages);
+void set_payload_pages(uint64_t *payload_pages, uint32_t pages);

-void set_workdir_path(char* workdir);
+void set_workdir_path(char *workdir);
--- a/nyx/synchronization.c
+++ b/nyx/synchronization.c
@ -1,18 +1,18 @@
+#include "qemu/osdep.h"
+#include "qemu/main-loop.h"
+#include "sysemu/kvm.h"
+#include "sysemu/sysemu.h"
+#include "qemu-common.h"
 #include "nyx/synchronization.h"
+#include "nyx/debug.h"
+#include "nyx/fast_vm_reload.h"
+#include "nyx/file_helper.h"
+#include "nyx/helpers.h"
 #include "nyx/hypercall/hypercall.h"
 #include "nyx/interface.h"
-#include "nyx/fast_vm_reload.h"
-#include "qemu-common.h"
-#include "qemu/osdep.h"
-#include "sysemu/sysemu.h"
-#include "sysemu/kvm.h"
-#include "nyx/debug.h"
 #include "nyx/state/state.h"
-#include <sys/syscall.h>
 #include <linux/kvm.h>
-#include "qemu/main-loop.h"
-#include "nyx/helpers.h"
-#include "nyx/file_helper.h"
+#include <sys/syscall.h>


 #include "pt.h"
@ -26,9 +26,10 @@ volatile bool synchronization_kvm_loop_waiting = false;


 /* SIGALRM based timeout detection */
-//#define DEBUG_TIMEOUT_DETECTOR
+// #define DEBUG_TIMEOUT_DETECTOR

-void init_timeout_detector(timeout_detector_t* timer){
+void init_timeout_detector(timeout_detector_t *timer)
+{
    timer->kvm_tid           = 0;
    timer->detection_enabled = false;

@ -39,10 +40,10 @@ void init_timeout_detector(timeout_detector_t* timer){
    timer->alarm.it_interval.tv_usec = 0;
    timer->alarm.it_value.tv_sec     = 0;
    timer->alarm.it_value.tv_usec    = 0;
-
 }

-static void sigalarm_handler(int signum) {
+static void sigalarm_handler(int signum)
+{
    /* ensure that SIGALARM is ALWAYS handled by kvm thread */
    assert(GET_GLOBAL_STATE()->timeout_detector.kvm_tid == syscall(SYS_gettid));
 #ifdef DEBUG_TIMEOUT_DETECTOR
@ -50,7 +51,8 @@ static void sigalarm_handler(int signum) {
 #endif
 }

-void install_timeout_detector(timeout_detector_t* timer){
+void install_timeout_detector(timeout_detector_t *timer)
+{
    timer->kvm_tid = syscall(SYS_gettid);
    if (signal(SIGALRM, sigalarm_handler) == SIG_ERR) {
        fprintf(stderr, "%s failed!\n", __func__);
@ -61,7 +63,8 @@ void install_timeout_detector(timeout_detector_t* timer){
 #endif
 }

-void reset_timeout_detector(timeout_detector_t* timer){
+void reset_timeout_detector(timeout_detector_t *timer)
+{
 #ifdef DEBUG_TIMEOUT_DETECTOR
    fprintf(stderr, "%s!\n", __func__);
 #endif
@ -75,10 +78,10 @@ void reset_timeout_detector(timeout_detector_t* timer){
    }
 }

-void update_itimer(timeout_detector_t* timer, uint8_t sec, uint32_t usec)
+void update_itimer(timeout_detector_t *timer, uint8_t sec, uint32_t usec)
 {
 #ifdef DEBUG_TIMEOUT_DETECTOR
-	//fprintf(stderr, "%s: %x %x\n", __func__, sec, usec);
+    // fprintf(stderr, "%s: %x %x\n", __func__, sec, usec);
 #endif

    if (sec || usec) {
@ -90,14 +93,17 @@ void update_itimer(timeout_detector_t* timer, uint8_t sec, uint32_t usec)
    }
 }

-void arm_sigprof_timer(timeout_detector_t* timer){
+void arm_sigprof_timer(timeout_detector_t *timer)
+{
 #ifdef DEBUG_TIMEOUT_DETECTOR
-	fprintf(stderr, "%s (%ld %ld)\n", __func__, timer->alarm.it_value.tv_sec, timer->alarm.it_value.tv_usec);
+    fprintf(stderr, "%s (%ld %ld)\n", __func__, timer->alarm.it_value.tv_sec,
+            timer->alarm.it_value.tv_usec);
 #endif

    if (timer->detection_enabled) {
        if (timer->alarm.it_value.tv_usec == 0 && timer->alarm.it_value.tv_sec == 0) {
-			fprintf(stderr, "Attempting to re-arm an expired timer! => reset(%ld.%ld)\n",
+            fprintf(stderr,
+                    "Attempting to re-arm an expired timer! => reset(%ld.%ld)\n",
                    timer->config.tv_sec, timer->config.tv_usec);
            reset_timeout_detector(timer);
        }
@ -105,14 +111,15 @@ void arm_sigprof_timer(timeout_detector_t* timer){
    }
 }

-bool disarm_sigprof_timer(timeout_detector_t* timer){
-
+bool disarm_sigprof_timer(timeout_detector_t *timer)
+{
 #ifdef DEBUG_TIMEOUT_DETECTOR
-	fprintf(stderr, "%s (%ld %ld)\n", __func__, timer->alarm.it_value.tv_sec, timer->alarm.it_value.tv_usec);
+    fprintf(stderr, "%s (%ld %ld)\n", __func__, timer->alarm.it_value.tv_sec,
+            timer->alarm.it_value.tv_usec);
 #endif

    if (timer->detection_enabled) {
-		struct itimerval disable = {0};
+        struct itimerval disable = { 0 };
        assert(setitimer(ITIMER_REAL, &disable, &timer->alarm) == 0);
        assert(timer->alarm.it_interval.tv_usec == 0);

@ -124,7 +131,8 @@ bool disarm_sigprof_timer(timeout_detector_t* timer){
    return false;
 }

-void block_signals(void){
+void block_signals(void)
+{
    sigset_t set;

    sigemptyset(&set);
@ -132,11 +140,11 @@ void block_signals(void){
    sigaddset(&set, SIGABRT);
    sigaddset(&set, SIGSEGV);
    pthread_sigmask(SIG_BLOCK, &set, NULL);
-	//fprintf(stderr, "%s!\n", __func__);
-
+    // fprintf(stderr, "%s!\n", __func__);
 }

-void unblock_signals(void){
+void unblock_signals(void)
+{
    sigset_t set;

    sigemptyset(&set);
@ -148,32 +156,35 @@ void unblock_signals(void){

 /* -------------------- */

-static inline void handle_tmp_snapshot_state(void){
-	if(GET_GLOBAL_STATE()->discard_tmp_snapshot){
-		if(fast_reload_tmp_created(get_fast_reload_snapshot())){
+static inline void handle_tmp_snapshot_state(void)
+{
+    if (GET_GLOBAL_STATE()->discard_tmp_snapshot) {
+        if (fast_reload_tmp_created(get_fast_reload_snapshot())) {
            qemu_mutex_lock_iothread();
            fast_reload_discard_tmp_snapshot(get_fast_reload_snapshot()); /* bye bye */
            qemu_mutex_unlock_iothread();
-			//fprintf(stderr, "======= SNAPSHOT REMOVED! =======\n");
+            // fprintf(stderr, "======= SNAPSHOT REMOVED! =======\n");
        }
        GET_GLOBAL_STATE()->discard_tmp_snapshot = false;
        set_tmp_snapshot_created(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }
 }

-static inline bool synchronization_check_page_not_found(void){
+static inline bool synchronization_check_page_not_found(void)
+{
    bool failure = false;

    /* a page is missing in the current execution */
-	if(GET_GLOBAL_STATE()->decoder_page_fault){		
-		set_page_not_found_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, GET_GLOBAL_STATE()->decoder_page_fault_addr);
+    if (GET_GLOBAL_STATE()->decoder_page_fault) {
+        set_page_not_found_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer,
+                                         GET_GLOBAL_STATE()->decoder_page_fault_addr);
        GET_GLOBAL_STATE()->decoder_page_fault      = false;
        GET_GLOBAL_STATE()->decoder_page_fault_addr = 0;
        failure                                     = true;
    }

    /* page was dumped during this execution */
-	if(GET_GLOBAL_STATE()->dump_page){
+    if (GET_GLOBAL_STATE()->dump_page) {
        kvm_remove_all_breakpoints(qemu_get_cpu(0));
        kvm_vcpu_ioctl(qemu_get_cpu(0), KVM_VMX_PT_DISABLE_PAGE_DUMP_CR3);
        kvm_vcpu_ioctl(qemu_get_cpu(0), KVM_VMX_PT_DISABLE_MTF);
@ -184,8 +195,9 @@ static inline bool synchronization_check_page_not_found(void){
    return failure;
 }

-void synchronization_unlock(void){
-	//fprintf(stderr, "%s\n", __func__);
+void synchronization_unlock(void)
+{
+    // fprintf(stderr, "%s\n", __func__);

    pthread_mutex_lock(&synchronization_lock_mutex);
    pthread_cond_signal(&synchronization_lock_condition);
@ -196,20 +208,21 @@ void synchronization_unlock(void){
 uint64_t run_counter     = 0;
 bool     in_fuzzing_loop = false;

-void synchronization_lock_hprintf(void){
+void synchronization_lock_hprintf(void)
+{
    pthread_mutex_lock(&synchronization_lock_mutex);
    interface_send_char(NYX_INTERFACE_PING);

    pthread_cond_wait(&synchronization_lock_condition, &synchronization_lock_mutex);
    pthread_mutex_unlock(&synchronization_lock_mutex);
 }
-void synchronization_lock(void){
-
+void synchronization_lock(void)
+{
    timeout_detector_t timer = GET_GLOBAL_STATE()->timeout_detector;
    pthread_mutex_lock(&synchronization_lock_mutex);
    run_counter++;

-	if(qemu_get_cpu(0)->intel_pt_run_trashed){
+    if (qemu_get_cpu(0)->intel_pt_run_trashed) {
        set_pt_overflow_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer);
    }

@ -227,18 +240,18 @@ void synchronization_lock(void){
                                          runtime_sec, runtime_usec,
                                          GET_GLOBAL_STATE()->num_dirty_pages);

-	if(synchronization_check_page_not_found()){
+    if (synchronization_check_page_not_found()) {
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }

-	if(GET_GLOBAL_STATE()->dump_page){
+    if (GET_GLOBAL_STATE()->dump_page) {
        GET_GLOBAL_STATE()->dump_page      = false;
        GET_GLOBAL_STATE()->dump_page_addr = 0x0;
        kvm_remove_all_breakpoints(qemu_get_cpu(0));
        kvm_vcpu_ioctl(qemu_get_cpu(0), KVM_VMX_PT_DISABLE_PAGE_DUMP_CR3);
    }

-	if(unlikely(GET_GLOBAL_STATE()->in_redqueen_reload_mode)) {
+    if (unlikely(GET_GLOBAL_STATE()->in_redqueen_reload_mode)) {
        fsync_redqueen_files();
    }

@ -251,7 +264,8 @@ void synchronization_lock(void){
    pthread_cond_wait(&synchronization_lock_condition, &synchronization_lock_mutex);
    pthread_mutex_unlock(&synchronization_lock_mutex);

-	check_auxiliary_config_buffer(GET_GLOBAL_STATE()->auxilary_buffer, &GET_GLOBAL_STATE()->shadow_config);
+    check_auxiliary_config_buffer(GET_GLOBAL_STATE()->auxilary_buffer,
+                                  &GET_GLOBAL_STATE()->shadow_config);

    if (GET_GLOBAL_STATE()->starved == true)
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 2);
@ -261,23 +275,26 @@ void synchronization_lock(void){
    GET_GLOBAL_STATE()->pt_trace_size = 0;
 }

-static void perform_reload(void){
-	if(fast_reload_root_created(get_fast_reload_snapshot())){
+static void perform_reload(void)
+{
+    if (fast_reload_root_created(get_fast_reload_snapshot())) {
        qemu_mutex_lock_iothread();
        fast_reload_restore(get_fast_reload_snapshot());
        qemu_mutex_unlock_iothread();
        set_reload_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer);
-		set_result_dirty_pages(GET_GLOBAL_STATE()->auxilary_buffer, get_dirty_page_num(get_fast_reload_snapshot()));
-	}
-	else{
+        set_result_dirty_pages(GET_GLOBAL_STATE()->auxilary_buffer,
+                               get_dirty_page_num(get_fast_reload_snapshot()));
+    } else {
        fprintf(stderr, "WARNING: Root snapshot is not available yet!\n");
    }
 }

-void synchronization_lock_crash_found(void){
-	if(!in_fuzzing_loop && GET_GLOBAL_STATE()->in_fuzzing_mode){
-		fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP] at %lx\n", getpid(), run_counter, __func__, get_rip(qemu_get_cpu(0)));
-		//abort();
+void synchronization_lock_crash_found(void)
+{
+    if (!in_fuzzing_loop && GET_GLOBAL_STATE()->in_fuzzing_mode) {
+        fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP] at %lx\n", getpid(),
+                run_counter, __func__, get_rip(qemu_get_cpu(0)));
+        // abort();
    }

    pt_disable(qemu_get_cpu(0), false);
@ -291,9 +308,11 @@ void synchronization_lock_crash_found(void){
    in_fuzzing_loop = false;
 }

-void synchronization_lock_asan_found(void){
-	if(!in_fuzzing_loop){
-		fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+void synchronization_lock_asan_found(void)
+{
+    if (!in_fuzzing_loop) {
+        fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(),
+                run_counter, __func__);
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }

@ -308,12 +327,12 @@ void synchronization_lock_asan_found(void){
    in_fuzzing_loop = false;
 }

-void synchronization_lock_timeout_found(void){		
+void synchronization_lock_timeout_found(void)
+{
+    // fprintf(stderr, "<%d>\t%s\n", getpid(), __func__);

-	//fprintf(stderr, "<%d>\t%s\n", getpid(), __func__);
-
-	if(!in_fuzzing_loop){
-		//fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+    if (!in_fuzzing_loop) {
+        // fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }

@ -328,9 +347,11 @@ void synchronization_lock_timeout_found(void){
    in_fuzzing_loop = false;
 }

-void synchronization_lock_shutdown_detected(void){
-	if(!in_fuzzing_loop){
-		fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+void synchronization_lock_shutdown_detected(void)
+{
+    if (!in_fuzzing_loop) {
+        fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(),
+                run_counter, __func__);
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }

@ -343,19 +364,23 @@ void synchronization_lock_shutdown_detected(void){
    in_fuzzing_loop = false;
 }

-void synchronization_payload_buffer_write_detected(void){
+void synchronization_payload_buffer_write_detected(void)
+{
    static char reason[1024];

-	if(!in_fuzzing_loop){
-			fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+    if (!in_fuzzing_loop) {
+        fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(),
+                run_counter, __func__);
    }

    pt_disable(qemu_get_cpu(0), false);

    handle_tmp_snapshot_state();

-	int bytes = snprintf(reason, 1024, "Payload buffer write attempt at RIP: %lx\n", get_rip(qemu_get_cpu(0)));
-	set_payload_buffer_write_reason_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer, reason, bytes);
+    int bytes = snprintf(reason, 1024, "Payload buffer write attempt at RIP: %lx\n",
+                         get_rip(qemu_get_cpu(0)));
+    set_payload_buffer_write_reason_auxiliary_buffer(GET_GLOBAL_STATE()->auxilary_buffer,
+                                                     reason, bytes);
    set_reload_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer);

    perform_reload();
@ -363,9 +388,11 @@ void synchronization_payload_buffer_write_detected(void){
    in_fuzzing_loop = false;
 }

-void synchronization_cow_full_detected(void){
-	if(!in_fuzzing_loop){
-			fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+void synchronization_cow_full_detected(void)
+{
+    if (!in_fuzzing_loop) {
+        fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(),
+                run_counter, __func__);
    }

    pt_disable(qemu_get_cpu(0), false);
@ -377,10 +404,11 @@ void synchronization_cow_full_detected(void){
    in_fuzzing_loop = false;
 }

-void synchronization_disable_pt(CPUState *cpu){
+void synchronization_disable_pt(CPUState *cpu)
+{
    // nyx_trace();
-	if(!in_fuzzing_loop){
-		//fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
+    if (!in_fuzzing_loop) {
+        // fprintf(stderr, "<%d-%ld>\t%s [NOT IN FUZZING LOOP]\n", getpid(), run_counter, __func__);
        set_success_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 0);
    }

@ -388,22 +416,27 @@ void synchronization_disable_pt(CPUState *cpu){

    handle_tmp_snapshot_state();

-	if(GET_GLOBAL_STATE()->in_reload_mode || GET_GLOBAL_STATE()->in_redqueen_reload_mode || GET_GLOBAL_STATE()->dump_page || fast_reload_tmp_created(get_fast_reload_snapshot())){
+    if (GET_GLOBAL_STATE()->in_reload_mode ||
+        GET_GLOBAL_STATE()->in_redqueen_reload_mode || GET_GLOBAL_STATE()->dump_page ||
+        fast_reload_tmp_created(get_fast_reload_snapshot()))
+    {
        perform_reload();
    }

-	set_result_pt_trace_size(GET_GLOBAL_STATE()->auxilary_buffer, GET_GLOBAL_STATE()->pt_trace_size);
-	set_result_bb_coverage(GET_GLOBAL_STATE()->auxilary_buffer, GET_GLOBAL_STATE()->bb_coverage);
+    set_result_pt_trace_size(GET_GLOBAL_STATE()->auxilary_buffer,
+                             GET_GLOBAL_STATE()->pt_trace_size);
+    set_result_bb_coverage(GET_GLOBAL_STATE()->auxilary_buffer,
+                           GET_GLOBAL_STATE()->bb_coverage);

    in_fuzzing_loop = false;
 }

-void synchronization_enter_fuzzing_loop(CPUState *cpu){
-	if (pt_enable(cpu, false) == 0){
+void synchronization_enter_fuzzing_loop(CPUState *cpu)
+{
+    if (pt_enable(cpu, false) == 0) {
        cpu->pt_enabled = true;
    }
    in_fuzzing_loop = true;

    reset_timeout_detector(&(GET_GLOBAL_STATE()->timeout_detector));
 }
-
--- a/nyx/synchronization.h
+++ b/nyx/synchronization.h
@ -13,12 +13,12 @@ typedef struct timeout_detector_s {
    struct itimerval alarm;
 } timeout_detector_t;

-void init_timeout_detector(timeout_detector_t* timeout_detector);
-void install_timeout_detector(timeout_detector_t* timeout_detector);
-void reset_timeout_detector(timeout_detector_t* timeout_detector);
-void arm_sigprof_timer(timeout_detector_t* timeout_detector);
-bool disarm_sigprof_timer(timeout_detector_t* timeout_detector);
-void update_itimer(timeout_detector_t* timeout_detector, uint8_t sec, uint32_t usec);
+void init_timeout_detector(timeout_detector_t *timeout_detector);
+void install_timeout_detector(timeout_detector_t *timeout_detector);
+void reset_timeout_detector(timeout_detector_t *timeout_detector);
+void arm_sigprof_timer(timeout_detector_t *timeout_detector);
+bool disarm_sigprof_timer(timeout_detector_t *timeout_detector);
+void update_itimer(timeout_detector_t *timeout_detector, uint8_t sec, uint32_t usec);

 void block_signals(void);
 void unblock_signals(void);
--- a/nyx/trace_dump.c
+++ b/nyx/trace_dump.c
@ -1,9 +1,9 @@
 #include "qemu/osdep.h"

-#include <stdint.h>
-#include <unistd.h>
-#include <stdio.h>
 #include <assert.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <unistd.h>

 #include "nyx/debug.h"
 #include "nyx/state/state.h"
@ -15,36 +15,40 @@ char *pt_trace_dump_filename;
 bool  pt_dump_initialized = false;
 bool  pt_dump_enabled     = false;

-void pt_trace_dump_enable(bool enable){
+void pt_trace_dump_enable(bool enable)
+{
    if (pt_dump_initialized)
        pt_dump_enabled = enable;
 }

-void pt_trace_dump_init(char* filename)
+void pt_trace_dump_init(char *filename)
 {
    int test_fd;

    nyx_debug("Enable pt trace dump at %s", filename);
    pt_dump_initialized = true;

-	test_fd = open(filename, O_CREAT|O_TRUNC|O_WRONLY, 0644);
+    test_fd = open(filename, O_CREAT | O_TRUNC | O_WRONLY, 0644);
    if (test_fd < 0)
-		fprintf(stderr, "Error accessing pt_dump output path %s: %s", pt_trace_dump_filename, strerror(errno));
+        fprintf(stderr, "Error accessing pt_dump output path %s: %s",
+                pt_trace_dump_filename, strerror(errno));
    assert(test_fd >= 0);

    pt_trace_dump_filename = strdup(filename);
    assert(pt_trace_dump_filename);
 }

-void pt_truncate_pt_dump_file(void) {
+void pt_truncate_pt_dump_file(void)
+{
    int fd;

    if (!pt_dump_enabled)
        return;

-	fd = open(pt_trace_dump_filename, O_CREAT|O_TRUNC|O_WRONLY, 0644);
+    fd = open(pt_trace_dump_filename, O_CREAT | O_TRUNC | O_WRONLY, 0644);
    if (fd < 0) {
-		fprintf(stderr, "Error truncating %s: %s\n", pt_trace_dump_filename, strerror(errno));
+        fprintf(stderr, "Error truncating %s: %s\n", pt_trace_dump_filename,
+                strerror(errno));
        assert(0);
    }
    close(fd);
@ -57,12 +61,12 @@ void pt_write_pt_dump_file(uint8_t *data, size_t bytes)
    if (!pt_dump_enabled)
        return;

-	fd = open(pt_trace_dump_filename, O_APPEND|O_WRONLY, 0644);
+    fd = open(pt_trace_dump_filename, O_APPEND | O_WRONLY, 0644);
    if (fd < 0) {
-		fprintf(stderr, "Error writing pt_trace_dump to %s: %s\n", pt_trace_dump_filename, strerror(errno));
+        fprintf(stderr, "Error writing pt_trace_dump to %s: %s\n",
+                pt_trace_dump_filename, strerror(errno));
        assert(0);
    }
    assert(bytes == write(fd, data, bytes));
    close(fd);
 }
-
--- a/nyx/trace_dump.h
+++ b/nyx/trace_dump.h
@ -2,7 +2,7 @@

 #include <stdint.h>

-void pt_trace_dump_init(char* filename);
+void pt_trace_dump_init(char *filename);
 void pt_trace_dump_enable(bool enable);
 void pt_write_pt_dump_file(uint8_t *data, size_t bytes);
 void pt_truncate_pt_dump_file(void);
--- a/vl.c
+++ b/vl.c
@ -137,12 +137,12 @@ int main(int argc, char **argv)
 #ifdef QEMU_NYX
 // clang-format on
 #include "nyx/debug.h"
-#include "nyx/pt.h"
-#include "nyx/hypercall/hypercall.h"
-#include "nyx/synchronization.h"
 #include "nyx/fast_vm_reload.h"
-#include "nyx/state/state.h"
 #include "nyx/fast_vm_reload_sync.h"
+#include "nyx/hypercall/hypercall.h"
+#include "nyx/pt.h"
+#include "nyx/state/state.h"
+#include "nyx/synchronization.h"
 // clang-format off
 #endif

@ -261,22 +261,19 @@ static QemuOptsList qemu_fast_vm_reloads_opts = {
    .implied_opt_name = "order",
    .head             = QTAILQ_HEAD_INITIALIZER(qemu_fast_vm_reloads_opts.head),
    .merge_lists      = true,
-    .desc = {
-        {
-            .name = "path",
-            .type = QEMU_OPT_STRING,
-        },{
+    .desc             = {{
+.name = "path",
+.type = QEMU_OPT_STRING,
+}, {
 .name = "load",
 .type = QEMU_OPT_BOOL,
-        },{
+ }, {
 .name = "pre_path",
 .type = QEMU_OPT_STRING,
-        },{
+ }, {
 .name = "skip_serialization",
 .type = QEMU_OPT_BOOL,
-        },
-        {  }
-    },
+ }, {}},
 };
 // clang-format off
 #endif
@ -1481,7 +1478,7 @@ void vm_state_notify(int running, RunState state)

 #ifdef QEMU_NYX
 // clang-format on
-char* loadvm_global = NULL;
+char *loadvm_global = NULL;
 // clang-format off
 #endif

@ -1660,8 +1657,8 @@ void qemu_system_guest_panicked(GuestPanicInformation *info)
 void qemu_system_reset_request(ShutdownCause reason)
 {
 #ifdef QEMU_NYX
-// clang-format on
-   if(GET_GLOBAL_STATE()->in_fuzzing_mode){
+    // clang-format on
+    if (GET_GLOBAL_STATE()->in_fuzzing_mode) {
        nyx_trace();
        GET_GLOBAL_STATE()->shutdown_requested = true;
        return;
@ -1872,8 +1869,8 @@ static bool main_loop_should_exit(void)
    }
    if (qemu_vmstop_requested(&r)) {
 #ifdef QEMU_NYX
-// clang-format on
-        if(check_if_relood_request_exists_post(GET_GLOBAL_STATE()->reload_state)){
+        // clang-format on
+        if (check_if_relood_request_exists_post(GET_GLOBAL_STATE()->reload_state)) {
            return false;
        }
 // clang-format off
@ -1902,9 +1899,9 @@ static void main_loop(void)
 static void version(void)
 {
 #ifdef QEMU_NYX
-// clang-format on
-    printf("QEMU-PT emulator version " QEMU_VERSION QEMU_PKGVERSION "  (kAFL)\n"
-           QEMU_COPYRIGHT "\n");
+    // clang-format on
+    printf("QEMU-PT emulator version " QEMU_VERSION QEMU_PKGVERSION
+           "  (kAFL)\n" QEMU_COPYRIGHT "\n");
 // clang-format off
 #else
    printf("QEMU emulator version " QEMU_FULL_VERSION "\n"
@ -2809,17 +2806,17 @@ static bool object_create_delayed(const char *type, QemuOpts *opts)

 #ifdef QEMU_NYX
 // clang-format on
-static bool verifiy_snapshot_folder(const char* folder){
+static bool verifiy_snapshot_folder(const char *folder)
+{
    struct stat s;

-    if(!folder){
+    if (!folder) {
        return false;
    }
-    if(-1 != stat(folder, &s)) {
-        if(S_ISDIR(s.st_mode)) {
+    if (-1 != stat(folder, &s)) {
+        if (S_ISDIR(s.st_mode)) {
            return true;
-        }
-        else{
+        } else {
            error_report("fast_vm_reload: path is not a folder");
            exit(1);
        }
@ -2943,7 +2940,7 @@ int main(int argc, char **argv, char **envp)
 {

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    bool fast_vm_reload = false;
    state_init_global();
    const char *fast_vm_reload_opt_arg = NULL;
@ -3011,7 +3008,7 @@ int main(int argc, char **argv, char **envp)
    qemu_add_opts(&qemu_nic_opts);
    qemu_add_opts(&qemu_net_opts);
 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    qemu_add_opts(&qemu_fast_vm_reloads_opts);
 // clang-format off
 #endif
@ -3103,7 +3100,7 @@ int main(int argc, char **argv, char **envp)
            }
            switch(popt->index) {
 #ifdef QEMU_NYX
-// clang-format on
+                // clang-format on
            case QEMU_OPTION_fast_vm_reload:
                opts = qemu_opts_parse_noisily(qemu_find_opts("fast_vm_reload-opts"),
                                               optarg, true);
@ -3571,8 +3568,8 @@ int main(int argc, char **argv, char **envp)
            case QEMU_OPTION_loadvm:
                loadvm = optarg;
 #ifdef QEMU_NYX
-// clang-format on
-                loadvm_global = (char*)optarg;
+                // clang-format on
+                loadvm_global = (char *)optarg;
 // clang-format off
 #endif
                break;
@ -4015,7 +4012,7 @@ int main(int argc, char **argv, char **envp)
    }

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    block_signals();
 // clang-format off
 #endif
@ -4590,19 +4587,21 @@ int main(int argc, char **argv, char **envp)
    register_global_state();

 #ifdef QEMU_NYX
-// clang-format on
+    // clang-format on
    fast_reload_init(GET_GLOBAL_STATE()->fast_reload_snapshot);

-    if (fast_vm_reload){
-
-        if(getenv("NYX_DISABLE_BLOCK_COW")){
-            nyx_error("Nyx block COW cache layer cannot be disabled while using fast snapshots\n");
+    if (fast_vm_reload) {
+        if (getenv("NYX_DISABLE_BLOCK_COW")) {
+            nyx_error("Nyx block COW cache layer cannot be disabled while using "
+                      "fast snapshots\n");
            exit(1);
        }

-        QemuOpts *opts = qemu_opts_parse_noisily(qemu_find_opts("fast_vm_reload-opts"), fast_vm_reload_opt_arg, true);
-        const char* snapshot_path = qemu_opt_get(opts, "path");
-        const char* pre_snapshot_path = qemu_opt_get(opts, "pre_path");
+        QemuOpts *opts =
+            qemu_opts_parse_noisily(qemu_find_opts("fast_vm_reload-opts"),
+                                    fast_vm_reload_opt_arg, true);
+        const char *snapshot_path     = qemu_opt_get(opts, "path");
+        const char *pre_snapshot_path = qemu_opt_get(opts, "pre_path");

        /*

@ -4630,59 +4629,67 @@ int main(int argc, char **argv, char **envp)
        bool load_mode         = qemu_opt_get_bool(opts, "load", false);
        bool skip_serialization = qemu_opt_get_bool(opts, "skip_serialization", false);

-        if((snapshot_used || load_mode || skip_serialization) && getenv("NYX_DISABLE_DIRTY_RING")){
-		    error_report("NYX_DISABLE_DIRTY_RING is only allowed during pre-snapshot creation\n");
+        if ((snapshot_used || load_mode || skip_serialization) &&
+            getenv("NYX_DISABLE_DIRTY_RING"))
+        {
+            error_report("NYX_DISABLE_DIRTY_RING is only allowed during "
+                         "pre-snapshot creation\n");
            exit(1);
        }

-        if((pre_snapshot_used && !snapshot_used && !load_mode) && !getenv("NYX_DISABLE_DIRTY_RING")){
-		    error_report("NYX_DISABLE_DIRTY_RING is required during pre-snapshot creation\n");
+        if ((pre_snapshot_used && !snapshot_used && !load_mode) &&
+            !getenv("NYX_DISABLE_DIRTY_RING"))
+        {
+            error_report(
+                "NYX_DISABLE_DIRTY_RING is required during pre-snapshot creation\n");
            exit(1);
        }

-        if(pre_snapshot_used && load_mode){
+        if (pre_snapshot_used && load_mode) {
            error_report("invalid argument (pre_snapshot_used && load_mode)!\n");
            exit(1);
        }

-        if((!snapshot_used && !pre_snapshot_used) && load_mode){
-            error_report("invalid argument ((!pre_snapshot_used && !pre_snapshot_used) && load_mode)!\n");
+        if ((!snapshot_used && !pre_snapshot_used) && load_mode) {
+            error_report("invalid argument ((!pre_snapshot_used && "
+                         "!pre_snapshot_used) && load_mode)!\n");
            exit(1);
        }

-        if(pre_snapshot_used && snapshot_used){
+        if (pre_snapshot_used && snapshot_used) {
            nyx_printf("[Qemu-Nyx]: loading pre image to start fuzzing...\n");
            set_fast_reload_mode(false);
            set_fast_reload_path(snapshot_path);
-            if(!skip_serialization){
+            if (!skip_serialization) {
                enable_fast_reloads();
            }
-            fast_reload_create_from_file_pre_image(get_fast_reload_snapshot(), pre_snapshot_path, false);
+            fast_reload_create_from_file_pre_image(get_fast_reload_snapshot(),
+                                                   pre_snapshot_path, false);
            fast_reload_destroy(get_fast_reload_snapshot());
            GET_GLOBAL_STATE()->fast_reload_snapshot = fast_reload_new();
            fast_reload_init(GET_GLOBAL_STATE()->fast_reload_snapshot);
-        }
-        else{
-            if(pre_snapshot_used){
+        } else {
+            if (pre_snapshot_used) {
                nyx_printf("[Qemu-Nyx]: preparing to create pre image...\n");
                set_fast_reload_pre_path(pre_snapshot_path);
                set_fast_reload_pre_image();
-            }
-            else if(snapshot_used){
+            } else if (snapshot_used) {
                set_fast_reload_path(snapshot_path);
-                if(!skip_serialization){
+                if (!skip_serialization) {
                    enable_fast_reloads();
                }
-                if (load_mode){
+                if (load_mode) {
                    set_fast_reload_mode(true);
-                    nyx_printf("[Qemu-Nyx]: waiting for snapshot to start fuzzing...\n");
-                    fast_reload_create_from_file(get_fast_reload_snapshot(), snapshot_path, false);
-                    //cpu_synchronize_all_post_reset();
-                    set_state_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer, 3);
+                    nyx_printf(
+                        "[Qemu-Nyx]: waiting for snapshot to start fuzzing...\n");
+                    fast_reload_create_from_file(get_fast_reload_snapshot(),
+                                                 snapshot_path, false);
+                    // cpu_synchronize_all_post_reset();
+                    set_state_auxiliary_result_buffer(GET_GLOBAL_STATE()->auxilary_buffer,
+                                                      3);
                    skip_init();
-                    //GET_GLOBAL_STATE()->pt_trace_mode = false;
-                }
-                else{
+                    // GET_GLOBAL_STATE()->pt_trace_mode = false;
+                } else {
                    nyx_printf("[Qemu-Nyx]: Booting VM to start fuzzing...\n");
                    set_fast_reload_mode(false);
                }