// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright 2020-21 IBM Corp. */ #define pr_fmt(fmt) "vas: " fmt #include #include #include #include #include #include #include #include #include #include #include #include #include #include "vas.h" #define VAS_INVALID_WIN_ADDRESS 0xFFFFFFFFFFFFFFFFul #define VAS_DEFAULT_DOMAIN_ID 0xFFFFFFFFFFFFFFFFul /* The hypervisor allows one credit per window right now */ #define DEF_WIN_CREDS 1 static struct vas_all_caps caps_all; static bool copypaste_feat; static struct hv_vas_cop_feat_caps hv_cop_caps; static struct vas_caps vascaps[VAS_MAX_FEAT_TYPE]; static DEFINE_MUTEX(vas_pseries_mutex); static bool migration_in_progress; static long hcall_return_busy_check(long rc) { /* Check if we are stalled for some time */ if (H_IS_LONG_BUSY(rc)) { msleep(get_longbusy_msecs(rc)); rc = H_BUSY; } else if (rc == H_BUSY) { cond_resched(); } return rc; } /* * Allocate VAS window hcall */ static int h_allocate_vas_window(struct pseries_vas_window *win, u64 *domain, u8 wintype, u16 credits) { long retbuf[PLPAR_HCALL9_BUFSIZE] = {0}; long rc; do { rc = plpar_hcall9(H_ALLOCATE_VAS_WINDOW, retbuf, wintype, credits, domain[0], domain[1], domain[2], domain[3], domain[4], domain[5]); rc = hcall_return_busy_check(rc); } while (rc == H_BUSY); if (rc == H_SUCCESS) { if (win->win_addr == VAS_INVALID_WIN_ADDRESS) { pr_err("H_ALLOCATE_VAS_WINDOW: COPY/PASTE is not supported\n"); return -ENOTSUPP; } win->vas_win.winid = retbuf[0]; win->win_addr = retbuf[1]; win->complete_irq = retbuf[2]; win->fault_irq = retbuf[3]; return 0; } pr_err("H_ALLOCATE_VAS_WINDOW error: %ld, wintype: %u, credits: %u\n", rc, wintype, credits); return -EIO; } /* * Deallocate VAS window hcall. */ static int h_deallocate_vas_window(u64 winid) { long rc; do { rc = plpar_hcall_norets(H_DEALLOCATE_VAS_WINDOW, winid); rc = hcall_return_busy_check(rc); } while (rc == H_BUSY); if (rc == H_SUCCESS) return 0; pr_err("H_DEALLOCATE_VAS_WINDOW error: %ld, winid: %llu\n", rc, winid); return -EIO; } /* * Modify VAS window. * After the window is opened with allocate window hcall, configure it * with flags and LPAR PID before using. */ static int h_modify_vas_window(struct pseries_vas_window *win) { long rc; /* * AMR value is not supported in Linux VAS implementation. * The hypervisor ignores it if 0 is passed. */ do { rc = plpar_hcall_norets(H_MODIFY_VAS_WINDOW, win->vas_win.winid, win->pid, 0, VAS_MOD_WIN_FLAGS, 0); rc = hcall_return_busy_check(rc); } while (rc == H_BUSY); if (rc == H_SUCCESS) return 0; pr_err("H_MODIFY_VAS_WINDOW error: %ld, winid %u pid %u\n", rc, win->vas_win.winid, win->pid); return -EIO; } /* * This hcall is used to determine the capabilities from the hypervisor. * @hcall: H_QUERY_VAS_CAPABILITIES or H_QUERY_NX_CAPABILITIES * @query_type: If 0 is passed, the hypervisor returns the overall * capabilities which provides all feature(s) that are * available. Then query the hypervisor to get the * corresponding capabilities for the specific feature. * Example: H_QUERY_VAS_CAPABILITIES provides VAS GZIP QoS * and VAS GZIP Default capabilities. * H_QUERY_NX_CAPABILITIES provides NX GZIP * capabilities. * @result: Return buffer to save capabilities. */ int h_query_vas_capabilities(const u64 hcall, u8 query_type, u64 result) { long rc; rc = plpar_hcall_norets(hcall, query_type, result); if (rc == H_SUCCESS) return 0; /* H_FUNCTION means HV does not support VAS so don't print an error */ if (rc != H_FUNCTION) { pr_err("%s error %ld, query_type %u, result buffer 0x%llx\n", (hcall == H_QUERY_VAS_CAPABILITIES) ? "H_QUERY_VAS_CAPABILITIES" : "H_QUERY_NX_CAPABILITIES", rc, query_type, result); } return -EIO; } EXPORT_SYMBOL_GPL(h_query_vas_capabilities); /* * hcall to get fault CRB from the hypervisor. */ static int h_get_nx_fault(u32 winid, u64 buffer) { long rc; rc = plpar_hcall_norets(H_GET_NX_FAULT, winid, buffer); if (rc == H_SUCCESS) return 0; pr_err("H_GET_NX_FAULT error: %ld, winid %u, buffer 0x%llx\n", rc, winid, buffer); return -EIO; } /* * Handle the fault interrupt. * When the fault interrupt is received for each window, query the * hypervisor to get the fault CRB on the specific fault. Then * process the CRB by updating CSB or send signal if the user space * CSB is invalid. * Note: The hypervisor forwards an interrupt for each fault request. * So one fault CRB to process for each H_GET_NX_FAULT hcall. */ static irqreturn_t pseries_vas_fault_thread_fn(int irq, void *data) { struct pseries_vas_window *txwin = data; struct coprocessor_request_block crb; struct vas_user_win_ref *tsk_ref; int rc; while (atomic_read(&txwin->pending_faults)) { rc = h_get_nx_fault(txwin->vas_win.winid, (u64)virt_to_phys(&crb)); if (!rc) { tsk_ref = &txwin->vas_win.task_ref; vas_dump_crb(&crb); vas_update_csb(&crb, tsk_ref); } atomic_dec(&txwin->pending_faults); } return IRQ_HANDLED; } /* * irq_default_primary_handler() can be used only with IRQF_ONESHOT * which disables IRQ before executing the thread handler and enables * it after. But this disabling interrupt sets the VAS IRQ OFF * state in the hypervisor. If the NX generates fault interrupt * during this window, the hypervisor will not deliver this * interrupt to the LPAR. So use VAS specific IRQ handler instead * of calling the default primary handler. */ static irqreturn_t pseries_vas_irq_handler(int irq, void *data) { struct pseries_vas_window *txwin = data; /* * The thread hanlder will process this interrupt if it is * already running. */ atomic_inc(&txwin->pending_faults); return IRQ_WAKE_THREAD; } /* * Allocate window and setup IRQ mapping. */ static int allocate_setup_window(struct pseries_vas_window *txwin, u64 *domain, u8 wintype) { int rc; rc = h_allocate_vas_window(txwin, domain, wintype, DEF_WIN_CREDS); if (rc) return rc; /* * On PowerVM, the hypervisor setup and forwards the fault * interrupt per window. So the IRQ setup and fault handling * will be done for each open window separately. */ txwin->fault_virq = irq_create_mapping(NULL, txwin->fault_irq); if (!txwin->fault_virq) { pr_err("Failed irq mapping %d\n", txwin->fault_irq); rc = -EINVAL; goto out_win; } txwin->name = kasprintf(GFP_KERNEL, "vas-win-%d", txwin->vas_win.winid); if (!txwin->name) { rc = -ENOMEM; goto out_irq; } rc = request_threaded_irq(txwin->fault_virq, pseries_vas_irq_handler, pseries_vas_fault_thread_fn, 0, txwin->name, txwin); if (rc) { pr_err("VAS-Window[%d]: Request IRQ(%u) failed with %d\n", txwin->vas_win.winid, txwin->fault_virq, rc); goto out_free; } txwin->vas_win.wcreds_max = DEF_WIN_CREDS; return 0; out_free: kfree(txwin->name); out_irq: irq_dispose_mapping(txwin->fault_virq); out_win: h_deallocate_vas_window(txwin->vas_win.winid); return rc; } static inline void free_irq_setup(struct pseries_vas_window *txwin) { free_irq(txwin->fault_virq, txwin); kfree(txwin->name); irq_dispose_mapping(txwin->fault_virq); } static struct vas_window *vas_allocate_window(int vas_id, u64 flags, enum vas_cop_type cop_type) { long domain[PLPAR_HCALL9_BUFSIZE] = {VAS_DEFAULT_DOMAIN_ID}; struct vas_cop_feat_caps *cop_feat_caps; struct vas_caps *caps; struct pseries_vas_window *txwin; int rc; txwin = kzalloc(sizeof(*txwin), GFP_KERNEL); if (!txwin) return ERR_PTR(-ENOMEM); /* * A VAS window can have many credits which means that many * requests can be issued simultaneously. But the hypervisor * restricts one credit per window. * The hypervisor introduces 2 different types of credits: * Default credit type (Uses normal priority FIFO): * A limited number of credits are assigned to partitions * based on processor entitlement. But these credits may be * over-committed on a system depends on whether the CPUs * are in shared or dedicated modes - that is, more requests * may be issued across the system than NX can service at * once which can result in paste command failure (RMA_busy). * Then the process has to resend requests or fall-back to * SW compression. * Quality of Service (QoS) credit type (Uses high priority FIFO): * To avoid NX HW contention, the system admins can assign * QoS credits for each LPAR so that this partition is * guaranteed access to NX resources. These credits are * assigned to partitions via the HMC. * Refer PAPR for more information. * * Allocate window with QoS credits if user requested. Otherwise * default credits are used. */ if (flags & VAS_TX_WIN_FLAG_QOS_CREDIT) caps = &vascaps[VAS_GZIP_QOS_FEAT_TYPE]; else caps = &vascaps[VAS_GZIP_DEF_FEAT_TYPE]; cop_feat_caps = &caps->caps; if (atomic_inc_return(&cop_feat_caps->nr_used_credits) > atomic_read(&cop_feat_caps->nr_total_credits)) { pr_err("Credits are not available to allocate window\n"); rc = -EINVAL; goto out; } if (vas_id == -1) { /* * The user space is requesting to allocate a window on * a VAS instance where the process is executing. * On PowerVM, domain values are passed to the hypervisor * to select VAS instance. Useful if the process is * affinity to NUMA node. * The hypervisor selects VAS instance if * VAS_DEFAULT_DOMAIN_ID (-1) is passed for domain values. * The h_allocate_vas_window hcall is defined to take a * domain values as specified by h_home_node_associativity, * So no unpacking needs to be done. */ rc = plpar_hcall9(H_HOME_NODE_ASSOCIATIVITY, domain, VPHN_FLAG_VCPU, hard_smp_processor_id()); if (rc != H_SUCCESS) { pr_err("H_HOME_NODE_ASSOCIATIVITY error: %d\n", rc); goto out; } } txwin->pid = mfspr(SPRN_PID); /* * Allocate / Deallocate window hcalls and setup / free IRQs * have to be protected with mutex. * Open VAS window: Allocate window hcall and setup IRQ * Close VAS window: Deallocate window hcall and free IRQ * The hypervisor waits until all NX requests are * completed before closing the window. So expects OS * to handle NX faults, means IRQ can be freed only * after the deallocate window hcall is returned. * So once the window is closed with deallocate hcall before * the IRQ is freed, it can be assigned to new allocate * hcall with the same fault IRQ by the hypervisor. It can * result in setup IRQ fail for the new window since the * same fault IRQ is not freed by the OS before. */ mutex_lock(&vas_pseries_mutex); if (migration_in_progress) rc = -EBUSY; else rc = allocate_setup_window(txwin, (u64 *)&domain[0], cop_feat_caps->win_type); mutex_unlock(&vas_pseries_mutex); if (rc) goto out; /* * Modify window and it is ready to use. */ rc = h_modify_vas_window(txwin); if (!rc) rc = get_vas_user_win_ref(&txwin->vas_win.task_ref); if (rc) goto out_free; txwin->win_type = cop_feat_caps->win_type; mutex_lock(&vas_pseries_mutex); /* * Possible to lose the acquired credit with DLPAR core * removal after the window is opened. So if there are any * closed windows (means with lost credits), do not give new * window to user space. New windows will be opened only * after the existing windows are reopened when credits are * available. */ if (!caps->nr_close_wins) { list_add(&txwin->win_list, &caps->list); caps->nr_open_windows++; mutex_unlock(&vas_pseries_mutex); vas_user_win_add_mm_context(&txwin->vas_win.task_ref); return &txwin->vas_win; } mutex_unlock(&vas_pseries_mutex); put_vas_user_win_ref(&txwin->vas_win.task_ref); rc = -EBUSY; pr_err("No credit is available to allocate window\n"); out_free: /* * Window is not operational. Free IRQ before closing * window so that do not have to hold mutex. */ free_irq_setup(txwin); h_deallocate_vas_window(txwin->vas_win.winid); out: atomic_dec(&cop_feat_caps->nr_used_credits); kfree(txwin); return ERR_PTR(rc); } static u64 vas_paste_address(struct vas_window *vwin) { struct pseries_vas_window *win; win = container_of(vwin, struct pseries_vas_window, vas_win); return win->win_addr; } static int deallocate_free_window(struct pseries_vas_window *win) { int rc = 0; /* * The hypervisor waits for all requests including faults * are processed before closing the window - Means all * credits have to be returned. In the case of fault * request, a credit is returned after OS issues * H_GET_NX_FAULT hcall. * So free IRQ after executing H_DEALLOCATE_VAS_WINDOW * hcall. */ rc = h_deallocate_vas_window(win->vas_win.winid); if (!rc) free_irq_setup(win); return rc; } static int vas_deallocate_window(struct vas_window *vwin) { struct pseries_vas_window *win; struct vas_cop_feat_caps *caps; int rc = 0; if (!vwin) return -EINVAL; win = container_of(vwin, struct pseries_vas_window, vas_win); /* Should not happen */ if (win->win_type >= VAS_MAX_FEAT_TYPE) { pr_err("Window (%u): Invalid window type %u\n", vwin->winid, win->win_type); return -EINVAL; } caps = &vascaps[win->win_type].caps; mutex_lock(&vas_pseries_mutex); /* * VAS window is already closed in the hypervisor when * lost the credit or with migration. So just remove the entry * from the list, remove task references and free vas_window * struct. */ if (!(win->vas_win.status & VAS_WIN_NO_CRED_CLOSE) && !(win->vas_win.status & VAS_WIN_MIGRATE_CLOSE)) { rc = deallocate_free_window(win); if (rc) { mutex_unlock(&vas_pseries_mutex); return rc; } } else vascaps[win->win_type].nr_close_wins--; list_del(&win->win_list); atomic_dec(&caps->nr_used_credits); vascaps[win->win_type].nr_open_windows--; mutex_unlock(&vas_pseries_mutex); mm_context_remove_vas_window(vwin->task_ref.mm); put_vas_user_win_ref(&vwin->task_ref); kfree(win); return 0; } static const struct vas_user_win_ops vops_pseries = { .open_win = vas_allocate_window, /* Open and configure window */ .paste_addr = vas_paste_address, /* To do copy/paste */ .close_win = vas_deallocate_window, /* Close window */ }; /* * Supporting only nx-gzip coprocessor type now, but this API code * extended to other coprocessor types later. */ int vas_register_api_pseries(struct module *mod, enum vas_cop_type cop_type, const char *name) { if (!copypaste_feat) return -ENOTSUPP; return vas_register_coproc_api(mod, cop_type, name, &vops_pseries); } EXPORT_SYMBOL_GPL(vas_register_api_pseries); void vas_unregister_api_pseries(void) { vas_unregister_coproc_api(); } EXPORT_SYMBOL_GPL(vas_unregister_api_pseries); /* * Get the specific capabilities based on the feature type. * Right now supports GZIP default and GZIP QoS capabilities. */ static int __init get_vas_capabilities(u8 feat, enum vas_cop_feat_type type, struct hv_vas_cop_feat_caps *hv_caps) { struct vas_cop_feat_caps *caps; struct vas_caps *vcaps; int rc = 0; vcaps = &vascaps[type]; memset(vcaps, 0, sizeof(*vcaps)); INIT_LIST_HEAD(&vcaps->list); vcaps->feat = feat; caps = &vcaps->caps; rc = h_query_vas_capabilities(H_QUERY_VAS_CAPABILITIES, feat, (u64)virt_to_phys(hv_caps)); if (rc) return rc; caps->user_mode = hv_caps->user_mode; if (!(caps->user_mode & VAS_COPY_PASTE_USER_MODE)) { pr_err("User space COPY/PASTE is not supported\n"); return -ENOTSUPP; } caps->descriptor = be64_to_cpu(hv_caps->descriptor); caps->win_type = hv_caps->win_type; if (caps->win_type >= VAS_MAX_FEAT_TYPE) { pr_err("Unsupported window type %u\n", caps->win_type); return -EINVAL; } caps->max_lpar_creds = be16_to_cpu(hv_caps->max_lpar_creds); caps->max_win_creds = be16_to_cpu(hv_caps->max_win_creds); atomic_set(&caps->nr_total_credits, be16_to_cpu(hv_caps->target_lpar_creds)); if (feat == VAS_GZIP_DEF_FEAT) { caps->def_lpar_creds = be16_to_cpu(hv_caps->def_lpar_creds); if (caps->max_win_creds < DEF_WIN_CREDS) { pr_err("Window creds(%u) > max allowed window creds(%u)\n", DEF_WIN_CREDS, caps->max_win_creds); return -EINVAL; } } rc = sysfs_add_vas_caps(caps); if (rc) return rc; copypaste_feat = true; return 0; } /* * VAS windows can be closed due to lost credits when the core is * removed. So reopen them if credits are available due to DLPAR * core add and set the window active status. When NX sees the page * fault on the unmapped paste address, the kernel handles the fault * by setting the remapping to new paste address if the window is * active. */ static int reconfig_open_windows(struct vas_caps *vcaps, int creds, bool migrate) { long domain[PLPAR_HCALL9_BUFSIZE] = {VAS_DEFAULT_DOMAIN_ID}; struct vas_cop_feat_caps *caps = &vcaps->caps; struct pseries_vas_window *win = NULL, *tmp; int rc, mv_ents = 0; int flag; /* * Nothing to do if there are no closed windows. */ if (!vcaps->nr_close_wins) return 0; /* * For the core removal, the hypervisor reduces the credits * assigned to the LPAR and the kernel closes VAS windows * in the hypervisor depends on reduced credits. The kernel * uses LIFO (the last windows that are opened will be closed * first) and expects to open in the same order when credits * are available. * For example, 40 windows are closed when the LPAR lost 2 cores * (dedicated). If 1 core is added, this LPAR can have 20 more * credits. It means the kernel can reopen 20 windows. So move * 20 entries in the VAS windows lost and reopen next 20 windows. * For partition migration, reopen all windows that are closed * during resume. */ if ((vcaps->nr_close_wins > creds) && !migrate) mv_ents = vcaps->nr_close_wins - creds; list_for_each_entry_safe(win, tmp, &vcaps->list, win_list) { if (!mv_ents) break; mv_ents--; } /* * Open windows if they are closed only with migration or * DLPAR (lost credit) before. */ if (migrate) flag = VAS_WIN_MIGRATE_CLOSE; else flag = VAS_WIN_NO_CRED_CLOSE; list_for_each_entry_safe_from(win, tmp, &vcaps->list, win_list) { /* * This window is closed with DLPAR and migration events. * So reopen the window with the last event. * The user space is not suspended with the current * migration notifier. So the user space can issue DLPAR * CPU hotplug while migration in progress. In this case * this window will be opened with the last event. */ if ((win->vas_win.status & VAS_WIN_NO_CRED_CLOSE) && (win->vas_win.status & VAS_WIN_MIGRATE_CLOSE)) { win->vas_win.status &= ~flag; continue; } /* * Nothing to do on this window if it is not closed * with this flag */ if (!(win->vas_win.status & flag)) continue; rc = allocate_setup_window(win, (u64 *)&domain[0], caps->win_type); if (rc) return rc; rc = h_modify_vas_window(win); if (rc) goto out; mutex_lock(&win->vas_win.task_ref.mmap_mutex); /* * Set window status to active */ win->vas_win.status &= ~flag; mutex_unlock(&win->vas_win.task_ref.mmap_mutex); win->win_type = caps->win_type; if (!--vcaps->nr_close_wins) break; } return 0; out: /* * Window modify HCALL failed. So close the window to the * hypervisor and return. */ free_irq_setup(win); h_deallocate_vas_window(win->vas_win.winid); return rc; } /* * The hypervisor reduces the available credits if the LPAR lost core. It * means the excessive windows should not be active and the user space * should not be using these windows to send compression requests to NX. * So the kernel closes the excessive windows and unmap the paste address * such that the user space receives paste instruction failure. Then up to * the user space to fall back to SW compression and manage with the * existing windows. */ static int reconfig_close_windows(struct vas_caps *vcap, int excess_creds, bool migrate) { struct pseries_vas_window *win, *tmp; struct vas_user_win_ref *task_ref; struct vm_area_struct *vma; int rc = 0, flag; if (migrate) flag = VAS_WIN_MIGRATE_CLOSE; else flag = VAS_WIN_NO_CRED_CLOSE; list_for_each_entry_safe(win, tmp, &vcap->list, win_list) { /* * This window is already closed due to lost credit * or for migration before. Go for next window. * For migration, nothing to do since this window * closed for DLPAR and will be reopened even on * the destination system with other DLPAR operation. */ if ((win->vas_win.status & VAS_WIN_MIGRATE_CLOSE) || (win->vas_win.status & VAS_WIN_NO_CRED_CLOSE)) { win->vas_win.status |= flag; continue; } task_ref = &win->vas_win.task_ref; /* * VAS mmap (coproc_mmap()) and its fault handler * (vas_mmap_fault()) are called after holding mmap lock. * So hold mmap mutex after mmap_lock to avoid deadlock. */ mmap_write_lock(task_ref->mm); mutex_lock(&task_ref->mmap_mutex); vma = task_ref->vma; /* * Number of available credits are reduced, So select * and close windows. */ win->vas_win.status |= flag; /* * vma is set in the original mapping. But this mapping * is done with mmap() after the window is opened with ioctl. * so we may not see the original mapping if the core remove * is done before the original mmap() and after the ioctl. */ if (vma) zap_page_range(vma, vma->vm_start, vma->vm_end - vma->vm_start); mutex_unlock(&task_ref->mmap_mutex); mmap_write_unlock(task_ref->mm); /* * Close VAS window in the hypervisor, but do not * free vas_window struct since it may be reused * when the credit is available later (DLPAR with * adding cores). This struct will be used * later when the process issued with close(FD). */ rc = deallocate_free_window(win); /* * This failure is from the hypervisor. * No way to stop migration for these failures. * So ignore error and continue closing other windows. */ if (rc && !migrate) return rc; vcap->nr_close_wins++; /* * For migration, do not depend on lpar_creds in case if * mismatch with the hypervisor value (should not happen). * So close all active windows in the list and will be * reopened windows based on the new lpar_creds on the * destination system during resume. */ if (!migrate && !--excess_creds) break; } return 0; } /* * Get new VAS capabilities when the core add/removal configuration * changes. Reconfig window configurations based on the credits * availability from this new capabilities. */ int vas_reconfig_capabilties(u8 type, int new_nr_creds) { struct vas_cop_feat_caps *caps; int old_nr_creds; struct vas_caps *vcaps; int rc = 0, nr_active_wins; if (type >= VAS_MAX_FEAT_TYPE) { pr_err("Invalid credit type %d\n", type); return -EINVAL; } vcaps = &vascaps[type]; caps = &vcaps->caps; mutex_lock(&vas_pseries_mutex); old_nr_creds = atomic_read(&caps->nr_total_credits); atomic_set(&caps->nr_total_credits, new_nr_creds); /* * The total number of available credits may be decreased or * increased with DLPAR operation. Means some windows have to be * closed / reopened. Hold the vas_pseries_mutex so that the * user space can not open new windows. */ if (old_nr_creds < new_nr_creds) { /* * If the existing target credits is less than the new * target, reopen windows if they are closed due to * the previous DLPAR (core removal). */ rc = reconfig_open_windows(vcaps, new_nr_creds - old_nr_creds, false); } else { /* * # active windows is more than new LPAR available * credits. So close the excessive windows. * On pseries, each window will have 1 credit. */ nr_active_wins = vcaps->nr_open_windows - vcaps->nr_close_wins; if (nr_active_wins > new_nr_creds) rc = reconfig_close_windows(vcaps, nr_active_wins - new_nr_creds, false); } mutex_unlock(&vas_pseries_mutex); return rc; } int pseries_vas_dlpar_cpu(void) { int new_nr_creds, rc; /* * NX-GZIP is not enabled. Nothing to do for DLPAR event */ if (!copypaste_feat) return 0; rc = h_query_vas_capabilities(H_QUERY_VAS_CAPABILITIES, vascaps[VAS_GZIP_DEF_FEAT_TYPE].feat, (u64)virt_to_phys(&hv_cop_caps)); if (!rc) { new_nr_creds = be16_to_cpu(hv_cop_caps.target_lpar_creds); rc = vas_reconfig_capabilties(VAS_GZIP_DEF_FEAT_TYPE, new_nr_creds); } if (rc) pr_err("Failed reconfig VAS capabilities with DLPAR\n"); return rc; } /* * Total number of default credits available (target_credits) * in LPAR depends on number of cores configured. It varies based on * whether processors are in shared mode or dedicated mode. * Get the notifier when CPU configuration is changed with DLPAR * operation so that get the new target_credits (vas default capabilities) * and then update the existing windows usage if needed. */ static int pseries_vas_notifier(struct notifier_block *nb, unsigned long action, void *data) { struct of_reconfig_data *rd = data; struct device_node *dn = rd->dn; const __be32 *intserv = NULL; int len; /* * For shared CPU partition, the hypervisor assigns total credits * based on entitled core capacity. So updating VAS windows will * be called from lparcfg_write(). */ if (is_shared_processor()) return NOTIFY_OK; if ((action == OF_RECONFIG_ATTACH_NODE) || (action == OF_RECONFIG_DETACH_NODE)) intserv = of_get_property(dn, "ibm,ppc-interrupt-server#s", &len); /* * Processor config is not changed */ if (!intserv) return NOTIFY_OK; return pseries_vas_dlpar_cpu(); } static struct notifier_block pseries_vas_nb = { .notifier_call = pseries_vas_notifier, }; /* * For LPM, all windows have to be closed on the source partition * before migration and reopen them on the destination partition * after migration. So closing windows during suspend and * reopen them during resume. */ int vas_migration_handler(int action) { struct vas_cop_feat_caps *caps; int old_nr_creds, new_nr_creds = 0; struct vas_caps *vcaps; int i, rc = 0; /* * NX-GZIP is not enabled. Nothing to do for migration. */ if (!copypaste_feat) return rc; mutex_lock(&vas_pseries_mutex); if (action == VAS_SUSPEND) migration_in_progress = true; else migration_in_progress = false; for (i = 0; i < VAS_MAX_FEAT_TYPE; i++) { vcaps = &vascaps[i]; caps = &vcaps->caps; old_nr_creds = atomic_read(&caps->nr_total_credits); rc = h_query_vas_capabilities(H_QUERY_VAS_CAPABILITIES, vcaps->feat, (u64)virt_to_phys(&hv_cop_caps)); if (!rc) { new_nr_creds = be16_to_cpu(hv_cop_caps.target_lpar_creds); /* * Should not happen. But incase print messages, close * all windows in the list during suspend and reopen * windows based on new lpar_creds on the destination * system. */ if (old_nr_creds != new_nr_creds) { pr_err("Target credits mismatch with the hypervisor\n"); pr_err("state(%d): lpar creds: %d HV lpar creds: %d\n", action, old_nr_creds, new_nr_creds); pr_err("Used creds: %d, Active creds: %d\n", atomic_read(&caps->nr_used_credits), vcaps->nr_open_windows - vcaps->nr_close_wins); } } else { pr_err("state(%d): Get VAS capabilities failed with %d\n", action, rc); /* * We can not stop migration with the current lpm * implementation. So continue closing all windows in * the list (during suspend) and return without * opening windows (during resume) if VAS capabilities * HCALL failed. */ if (action == VAS_RESUME) goto out; } switch (action) { case VAS_SUSPEND: rc = reconfig_close_windows(vcaps, vcaps->nr_open_windows, true); break; case VAS_RESUME: atomic_set(&caps->nr_total_credits, new_nr_creds); rc = reconfig_open_windows(vcaps, new_nr_creds, true); break; default: /* should not happen */ pr_err("Invalid migration action %d\n", action); rc = -EINVAL; goto out; } /* * Ignore errors during suspend and return for resume. */ if (rc && (action == VAS_RESUME)) goto out; } out: mutex_unlock(&vas_pseries_mutex); return rc; } static int __init pseries_vas_init(void) { struct hv_vas_all_caps *hv_caps; int rc = 0; /* * Linux supports user space COPY/PASTE only with Radix */ if (!radix_enabled()) { copypaste_feat = false; pr_err("API is supported only with radix page tables\n"); return -ENOTSUPP; } hv_caps = kmalloc(sizeof(*hv_caps), GFP_KERNEL); if (!hv_caps) return -ENOMEM; /* * Get VAS overall capabilities by passing 0 to feature type. */ rc = h_query_vas_capabilities(H_QUERY_VAS_CAPABILITIES, 0, (u64)virt_to_phys(hv_caps)); if (rc) goto out; caps_all.descriptor = be64_to_cpu(hv_caps->descriptor); caps_all.feat_type = be64_to_cpu(hv_caps->feat_type); sysfs_pseries_vas_init(&caps_all); /* * QOS capabilities available */ if (caps_all.feat_type & VAS_GZIP_QOS_FEAT_BIT) { rc = get_vas_capabilities(VAS_GZIP_QOS_FEAT, VAS_GZIP_QOS_FEAT_TYPE, &hv_cop_caps); if (rc) goto out; } /* * Default capabilities available */ if (caps_all.feat_type & VAS_GZIP_DEF_FEAT_BIT) rc = get_vas_capabilities(VAS_GZIP_DEF_FEAT, VAS_GZIP_DEF_FEAT_TYPE, &hv_cop_caps); if (!rc && copypaste_feat) { if (firmware_has_feature(FW_FEATURE_LPAR)) of_reconfig_notifier_register(&pseries_vas_nb); pr_info("GZIP feature is available\n"); } else { /* * Should not happen, but only when get default * capabilities HCALL failed. So disable copy paste * feature. */ copypaste_feat = false; } out: kfree(hv_caps); return rc; } machine_device_initcall(pseries, pseries_vas_init);