; REQUIRES: aarch64-registered-target ; REQUIRES: shell ; RUN: llvm-as %s -o %t0.bc ; RUN: llvm-as %S/Inputs/ipa.ll -o %t1.bc ; RUN: llvm-link -disable-lazy-loading %t0.bc %t1.bc -o %t.combined.bc ; RUN: opt -S -analyze -stack-safety-local %t.combined.bc -enable-new-pm=0 | FileCheck %s --check-prefixes=CHECK,LOCAL ; RUN: opt -S -passes="print" -disable-output %t.combined.bc 2>&1 | FileCheck %s --check-prefixes=CHECK,LOCAL ; RUN: opt -S -analyze -stack-safety %t.combined.bc -enable-new-pm=0 | FileCheck %s --check-prefixes=CHECK,GLOBAL,NOLTO ; RUN: opt -S -passes="print-stack-safety" -disable-output %t.combined.bc 2>&1 | FileCheck %s --check-prefixes=CHECK,GLOBAL,NOLTO ; Do an end-to-test using the new LTO API ; TODO: Hideous llvm-lto2 invocation, add a --default-symbol-resolution to llvm-lto2? ; RUN: opt -module-summary %s -o %t.summ0.bc ; RUN: opt -module-summary %S/Inputs/ipa.ll -o %t.summ1.bc ; RUN: llvm-dis %t.summ0.bc -o - > %t.ids.txt ; RUN: llvm-dis %t.summ1.bc -o - >> %t.ids.txt ; RUN: echo > %t.res.txt \ ; RUN: -r %t.summ0.bc,ExternalCall, \ ; RUN: -r %t.summ0.bc,f1,px \ ; RUN: -r %t.summ0.bc,f2,px \ ; RUN: -r %t.summ0.bc,f3,px \ ; RUN: -r %t.summ0.bc,f4,px \ ; RUN: -r %t.summ0.bc,f5,px \ ; RUN: -r %t.summ0.bc,f6,px \ ; RUN: -r %t.summ0.bc,f7,px \ ; RUN: -r %t.summ0.bc,f8left,px \ ; RUN: -r %t.summ0.bc,f8oobleft,px \ ; RUN: -r %t.summ0.bc,f8oobright,px \ ; RUN: -r %t.summ0.bc,f8right,px \ ; RUN: -r %t.summ0.bc,InterposableCall,px \ ; RUN: -r %t.summ0.bc,InterposableWrite1, \ ; RUN: -r %t.summ0.bc,PreemptableCall,px \ ; RUN: -r %t.summ0.bc,PreemptableWrite1, \ ; RUN: -r %t.summ0.bc,PrivateCall,px \ ; RUN: -r %t.summ0.bc,Rec2, \ ; RUN: -r %t.summ0.bc,RecursiveNoOffset, \ ; RUN: -r %t.summ0.bc,RecursiveWithOffset, \ ; RUN: -r %t.summ0.bc,ReturnDependent, \ ; RUN: -r %t.summ0.bc,TestCrossModuleConflict,px \ ; RUN: -r %t.summ0.bc,TestCrossModuleOnce,px \ ; RUN: -r %t.summ0.bc,TestCrossModuleTwice,px \ ; RUN: -r %t.summ0.bc,TestCrossModuleWeak,px \ ; RUN: -r %t.summ0.bc,TestRecursiveNoOffset,px \ ; RUN: -r %t.summ0.bc,TestRecursiveWithOffset,px \ ; RUN: -r %t.summ0.bc,TestUpdateArg,px \ ; RUN: -r %t.summ0.bc,TwoArguments,px \ ; RUN: -r %t.summ0.bc,TwoArgumentsOOBBoth,px \ ; RUN: -r %t.summ0.bc,TwoArgumentsOOBOne,px \ ; RUN: -r %t.summ0.bc,TwoArgumentsOOBOther,px \ ; RUN: -r %t.summ0.bc,Weak,x \ ; RUN: -r %t.summ0.bc,Write1, \ ; RUN: -r %t.summ0.bc,Write1DiffModule,x \ ; RUN: -r %t.summ0.bc,Write1Module0,px \ ; RUN: -r %t.summ0.bc,Write1Private,x \ ; RUN: -r %t.summ0.bc,Write1SameModule,x \ ; RUN: -r %t.summ0.bc,Write1Weak,x \ ; RUN: -r %t.summ0.bc,Write4_2, \ ; RUN: -r %t.summ0.bc,Write4, \ ; RUN: -r %t.summ0.bc,Write8, \ ; RUN: -r %t.summ0.bc,WriteAndReturn8, \ ; RUN: -r %t.summ1.bc,ExternalCall,px \ ; RUN: -r %t.summ1.bc,InterposableWrite1,px \ ; RUN: -r %t.summ1.bc,PreemptableWrite1,px \ ; RUN: -r %t.summ1.bc,Rec0,px \ ; RUN: -r %t.summ1.bc,Rec1,px \ ; RUN: -r %t.summ1.bc,Rec2,px \ ; RUN: -r %t.summ1.bc,RecursiveNoOffset,px \ ; RUN: -r %t.summ1.bc,RecursiveWithOffset,px \ ; RUN: -r %t.summ1.bc,ReturnAlloca,px \ ; RUN: -r %t.summ1.bc,ReturnDependent,px \ ; RUN: -r %t.summ1.bc,Weak,x \ ; RUN: -r %t.summ1.bc,Write1,px \ ; RUN: -r %t.summ1.bc,Write1DiffModule,px \ ; RUN: -r %t.summ1.bc,Write1Module0,x \ ; RUN: -r %t.summ1.bc,Write1Private,px \ ; RUN: -r %t.summ1.bc,Write1SameModule,px \ ; RUN: -r %t.summ1.bc,Write1Weak,px \ ; RUN: -r %t.summ1.bc,Write4_2,px \ ; RUN: -r %t.summ1.bc,Write4,px \ ; RUN: -r %t.summ1.bc,Write8,px \ ; RUN: -r %t.summ1.bc,WriteAndReturn8,px ; RUN: llvm-lto2 run %t.summ0.bc %t.summ1.bc -o %t.lto -stack-safety-print -stack-safety-run -save-temps -thinlto-threads 1 -O0 \ ; RUN: $(cat %t.res.txt) \ ; RUN: 2>&1 | FileCheck %s --check-prefixes=CHECK,GLOBAL,LTO ; RUN: llvm-lto2 run %t.summ0.bc %t.summ1.bc -o %t.lto -stack-safety-run -thinlto-distributed-indexes -thinlto-threads 1 -O0 $(cat %t.res.txt) ; RUN: (cat %t.ids.txt ; llvm-dis %t.summ1.bc.thinlto.bc -o -) | FileCheck --check-prefixes=INDEX %s ; RUN: llvm-lto2 run %t.summ0.bc %t.summ1.bc -o %t-newpm.lto -use-new-pm -stack-safety-print -stack-safety-run -save-temps -thinlto-threads 1 -O0 \ ; RUN: $(cat %t.res.txt) \ ; RUN: 2>&1 | FileCheck %s --check-prefixes=CHECK,GLOBAL,LTO ; RUN: llvm-lto2 run %t.summ0.bc %t.summ1.bc -o %t-newpm.lto -stack-safety-run -thinlto-distributed-indexes -thinlto-threads 1 -O0 $(cat %t.res.txt) ; RUN: (cat %t.ids.txt ; llvm-dis %t.summ1.bc.thinlto.bc -o -) | FileCheck --check-prefixes=INDEX %s target datalayout = "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128" target triple = "aarch64-unknown-linux" attributes #0 = { noinline sanitize_memtag "target-features"="+mte,+neon" } declare void @Write1(i8* %p) declare void @Write4(i8* %p) declare void @Write4_2(i8* %p, i8* %q) declare void @Write8(i8* %p) declare dso_local i8* @WriteAndReturn8(i8* %p) declare dso_local void @ExternalCall(i8* %p) declare void @PreemptableWrite1(i8* %p) declare void @InterposableWrite1(i8* %p) declare i8* @ReturnDependent(i8* %p) declare void @Rec2(i8* %p) declare void @RecursiveNoOffset(i32* %p, i32 %size, i32* %acc) declare void @RecursiveWithOffset(i32 %size, i32* %acc) declare void @Write1SameModule(i8* %p) declare void @Write1DiffModule(i8* %p) declare void @Write1Private(i8* %p) declare void @Write1Weak(i8* %p) ; Basic out-of-bounds. define void @f1() #0 { ; CHECK-LABEL: @f1 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @Write8(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: [0,8), @Write8(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @Write8(i8* %x1) ret void } ; Basic in-bounds. define void @f2() #0 { ; CHECK-LABEL: @f2 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @Write1(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: [0,1), @Write1(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @Write1(i8* %x1) ret void } ; Another basic in-bounds. define void @f3() #0 { ; CHECK-LABEL: @f3 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @Write4(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: [0,4), @Write4(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @Write4(i8* %x1) ret void } ; In-bounds with offset. define void @f4() #0 { ; CHECK-LABEL: @f4 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @Write1(arg0, [1,2)){{$}} ; GLOBAL-NEXT: x[4]: [1,2), @Write1(arg0, [1,2)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 1 call void @Write1(i8* %x2) ret void } ; Out-of-bounds with offset. define void @f5() #0 { ; CHECK-LABEL: @f5 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: empty-set, @Write4(arg0, [1,2)){{$}} ; GLOBAL-NEXT: [1,5), @Write4(arg0, [1,2)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 1 call void @Write4(i8* %x2) ret void } ; External call. define void @f6() #0 { ; CHECK-LABEL: @f6 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @ExternalCall(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: full-set, @ExternalCall(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @ExternalCall(i8* %x1) ret void } ; Call to dso_preemptable function define void @PreemptableCall() #0 { ; CHECK-LABEL: @PreemptableCall dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @PreemptableWrite1(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: full-set, @PreemptableWrite1(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @PreemptableWrite1(i8* %x1) ret void } ; Call to function with interposable linkage define void @InterposableCall() #0 { ; CHECK-LABEL: @InterposableCall dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @InterposableWrite1(arg0, [0,1)){{$}} ; NOLTO-NEXT: x[4]: full-set, @InterposableWrite1(arg0, [0,1)){{$}} ; LTO-NEXT: x[4]: [0,1), @InterposableWrite1(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @InterposableWrite1(i8* %x1) ret void } ; Call to function with private linkage define void @PrivateCall() #0 { ; CHECK-LABEL: @PrivateCall dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @PrivateWrite1(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: [0,1), @PrivateWrite1(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* call void @PrivateWrite1(i8* %x1) ret void } define private void @PrivateWrite1(i8* %p) #0 { ; CHECK-LABEL: @PrivateWrite1{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,1){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: entry: store i8 0, i8* %p, align 1 ret void } ; Caller returns a dependent value. ; FIXME: alloca considered unsafe even if the return value is unused. define void @f7() #0 { ; CHECK-LABEL: @f7 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[4]: empty-set, @ReturnDependent(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[4]: full-set, @ReturnDependent(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i32, align 4 %x1 = bitcast i32* %x to i8* %x2 = call i8* @ReturnDependent(i8* %x1) ret void } define void @f8left() #0 { ; CHECK-LABEL: @f8left dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Rec2(arg0, [2,3)){{$}} ; GLOBAL-NEXT: x[8]: [0,4), @Rec2(arg0, [2,3)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 2 ; 2 + [-2, 2) = [0, 4) => OK call void @Rec2(i8* %x2) ret void } define void @f8right() #0 { ; CHECK-LABEL: @f8right dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Rec2(arg0, [6,7)){{$}} ; GLOBAL-NEXT: x[8]: [4,8), @Rec2(arg0, [6,7)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 6 ; 6 + [-2, 2) = [4, 8) => OK call void @Rec2(i8* %x2) ret void } define void @f8oobleft() #0 { ; CHECK-LABEL: @f8oobleft dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Rec2(arg0, [1,2)){{$}} ; GLOBAL-NEXT: x[8]: [-1,3), @Rec2(arg0, [1,2)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 1 ; 1 + [-2, 2) = [-1, 3) => NOT OK call void @Rec2(i8* %x2) ret void } define void @f8oobright() #0 { ; CHECK-LABEL: @f8oobright dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Rec2(arg0, [7,8)){{$}} ; GLOBAL-NEXT: x[8]: [5,9), @Rec2(arg0, [7,8)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 7 ; 7 + [-2, 2) = [5, 9) => NOT OK call void @Rec2(i8* %x2) ret void } define void @TwoArguments() #0 { ; CHECK-LABEL: @TwoArguments dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Write4_2(arg0, [4,5)), @Write4_2(arg1, [0,1)){{$}} ; GLOBAL-NEXT: x[8]: [0,8), @Write4_2(arg0, [4,5)), @Write4_2(arg1, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 4 call void @Write4_2(i8* %x2, i8* %x1) ret void } define void @TwoArgumentsOOBOne() #0 { ; CHECK-LABEL: @TwoArgumentsOOBOne dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Write4_2(arg0, [5,6)), @Write4_2(arg1, [0,1)){{$}} ; GLOBAL-NEXT: x[8]: [0,9), @Write4_2(arg0, [5,6)), @Write4_2(arg1, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x1 = bitcast i64* %x to i8* %x2 = getelementptr i8, i8* %x1, i64 5 call void @Write4_2(i8* %x2, i8* %x1) ret void } define void @TwoArgumentsOOBOther() #0 { ; CHECK-LABEL: @TwoArgumentsOOBOther dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Write4_2(arg0, [4,5)), @Write4_2(arg1, [-1,0)){{$}} ; GLOBAL-NEXT: x[8]: [-1,8), @Write4_2(arg0, [4,5)), @Write4_2(arg1, [-1,0)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x0 = bitcast i64* %x to i8* %x1 = getelementptr i8, i8* %x0, i64 -1 %x2 = getelementptr i8, i8* %x0, i64 4 call void @Write4_2(i8* %x2, i8* %x1) ret void } define void @TwoArgumentsOOBBoth() #0 { ; CHECK-LABEL: @TwoArgumentsOOBBoth dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[8]: empty-set, @Write4_2(arg0, [5,6)), @Write4_2(arg1, [-1,0)){{$}} ; GLOBAL-NEXT: x[8]: [-1,9), @Write4_2(arg0, [5,6)), @Write4_2(arg1, [-1,0)){{$}} ; CHECK-EMPTY: entry: %x = alloca i64, align 4 %x0 = bitcast i64* %x to i8* %x1 = getelementptr i8, i8* %x0, i64 -1 %x2 = getelementptr i8, i8* %x0, i64 5 call void @Write4_2(i8* %x2, i8* %x1) ret void } define i32 @TestRecursiveNoOffset(i32* %p, i32 %size) #0 { ; CHECK-LABEL: @TestRecursiveNoOffset dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: p[]: empty-set, @RecursiveNoOffset(arg0, [0,1)){{$}} ; GLOBAL-NEXT: p[]: full-set, @RecursiveNoOffset(arg0, [0,1)){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-NEXT: sum[4]: [0,4), @RecursiveNoOffset(arg2, [0,1)){{$}} ; CHECK-EMPTY: entry: %sum = alloca i32, align 4 %0 = bitcast i32* %sum to i8* store i32 0, i32* %sum, align 4 call void @RecursiveNoOffset(i32* %p, i32 %size, i32* %sum) %1 = load i32, i32* %sum, align 4 ret i32 %1 } define void @TestRecursiveWithOffset(i32 %size) #0 { ; CHECK-LABEL: @TestRecursiveWithOffset dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: sum[64]: empty-set, @RecursiveWithOffset(arg1, [0,1)){{$}} ; GLOBAL-NEXT: sum[64]: full-set, @RecursiveWithOffset(arg1, [0,1)){{$}} ; CHECK-EMPTY: entry: %sum = alloca i32, i64 16, align 4 call void @RecursiveWithOffset(i32 %size, i32* %sum) ret void } ; FIXME: IPA should detect that access is safe define void @TestUpdateArg() #0 { ; CHECK-LABEL: @TestUpdateArg dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[16]: empty-set, @WriteAndReturn8(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[16]: full-set, @WriteAndReturn8(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i8, i64 16, align 4 %0 = call i8* @WriteAndReturn8(i8* %x) ret void } define void @TestCrossModuleOnce() #0 { ; CHECK-DAG: @TestCrossModuleOnce dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: y[1]: empty-set, @Write1SameModule(arg0, [0,1)){{$}} ; GLOBAL-NEXT: y[1]: [0,1), @Write1SameModule(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %y = alloca i8, align 4 call void @Write1SameModule(i8* %y) ret void } define void @TestCrossModuleTwice() #0 { ; CHECK-DAG: @TestCrossModuleTwice dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: z[1]: empty-set, @Write1DiffModule(arg0, [0,1)){{$}} ; GLOBAL-NEXT: z[1]: [0,1), @Write1DiffModule(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %z = alloca i8, align 4 call void @Write1DiffModule(i8* %z) ret void } define void @TestCrossModuleConflict() #0 { ; CHECK-DAG: @TestCrossModuleConflict dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[1]: empty-set, @Write1Private(arg0, [0,1)){{$}} ; GLOBAL-NEXT: x[1]: [-1,0), @Write1Private(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i8, align 4 call void @Write1Private(i8* %x) ret void } ; FIXME: LTO should match NOLTO define void @TestCrossModuleWeak() #0 { ; CHECK-DAG: @TestCrossModuleWeak dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; LOCAL-NEXT: x[1]: empty-set, @Write1Weak(arg0, [0,1)){{$}} ; NOLTO-NEXT: x[1]: [1,2), @Write1Weak(arg0, [0,1)){{$}} ; LTO-NEXT: x[1]: full-set, @Write1Weak(arg0, [0,1)){{$}} ; CHECK-EMPTY: entry: %x = alloca i8, align 4 call void @Write1Weak(i8* %x) ret void } define private dso_local void @Private(i8* %p) #0 { entry: %p1 = getelementptr i8, i8* %p, i64 1 store i8 0, i8* %p1, align 1 ret void } define dso_local void @Write1Module0(i8* %p) #0 { entry: store i8 0, i8* %p, align 1 ret void } define dso_local void @Weak(i8* %p) #0 { entry: %p1 = getelementptr i8, i8* %p, i64 1 store i8 0, i8* %p1, align 1 ret void } ; The rest is from Inputs/ipa.ll ; CHECK-LABEL: @Write1{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,1){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Write4{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,4){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Write4_2{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,4){{$}} ; CHECK-NEXT: q[]: [0,4){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Write8{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,8){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @WriteAndReturn8{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: full-set{{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @PreemptableWrite1 dso_preemptable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,1){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @InterposableWrite1 interposable{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: [0,1){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @ReturnDependent{{$}} ; CHECK-NEXT: args uses: ; CHECK-NEXT: p[]: full-set{{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Rec0{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: p[]: empty-set, @Write4(arg0, [2,3)){{$}} ; GLOBAL-NEXT: p[]: [2,6) ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Rec1{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: p[]: empty-set, @Rec0(arg0, [1,2)){{$}} ; GLOBAL-NEXT: p[]: [3,7) ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @Rec2{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: p[]: empty-set, @Rec1(arg0, [-5,-4)){{$}} ; GLOBAL-NEXT: p[]: [-2,2) ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @RecursiveNoOffset{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: p[]: [0,4), @RecursiveNoOffset(arg0, [4,5)){{$}} ; GLOBAL-NEXT: p[]: full-set, @RecursiveNoOffset(arg0, [4,5)){{$}} ; CHECK-NEXT: acc[]: [0,4), @RecursiveNoOffset(arg2, [0,1)){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @RecursiveWithOffset{{$}} ; CHECK-NEXT: args uses: ; LOCAL-NEXT: acc[]: [0,4), @RecursiveWithOffset(arg1, [4,5)){{$}} ; GLOBAL-NEXT: acc[]: full-set, @RecursiveWithOffset(arg1, [4,5)){{$}} ; CHECK-NEXT: allocas uses: ; CHECK-EMPTY: ; CHECK-LABEL: @ReturnAlloca ; CHECK-NEXT: args uses: ; CHECK-NEXT: allocas uses: ; CHECK-NEXT: x[8]: full-set ; CHECK-EMPTY: ; INDEX-LABEL: ^0 = module: ; INDEX-DAG: name: "ReturnDependent"{{.*}} guid = [[ReturnDependent:[-0-9]+]] ; INDEX-DAG: name: "Private"{{.*}} guid = [[Private:[-0-9]+]] ; INDEX-DAG: name: "TwoArgumentsOOBOther"{{.*}} guid = [[TwoArgumentsOOBOther:[-0-9]+]] ; INDEX-DAG: name: "Rec2"{{.*}} guid = [[Rec2:[-0-9]+]] ; INDEX-DAG: name: "f1"{{.*}} guid = [[f1:[-0-9]+]] ; INDEX-DAG: name: "PrivateWrite1"{{.*}} guid = [[PrivateWrite1:[-0-9]+]] ; INDEX-DAG: name: "TestRecursiveNoOffset"{{.*}} guid = [[TestRecursiveNoOffset:[-0-9]+]] ; INDEX-DAG: name: "f8left"{{.*}} guid = [[f8left:[-0-9]+]] ; INDEX-DAG: name: "Write4"{{.*}} guid = [[Write4:[-0-9]+]] ; INDEX-DAG: name: "f7"{{.*}} guid = [[f7:[-0-9]+]] ; INDEX-DAG: name: "Write1SameModule"{{.*}} guid = [[Write1SameModule:[-0-9]+]] ; INDEX-DAG: name: "Write8"{{.*}} guid = [[Write8:[-0-9]+]] ; INDEX-DAG: name: "TwoArgumentsOOBOne"{{.*}} guid = [[TwoArgumentsOOBOne:[-0-9]+]] ; INDEX-DAG: name: "f3"{{.*}} guid = [[f3:[-0-9]+]] ; INDEX-DAG: name: "f8right"{{.*}} guid = [[f8right:[-0-9]+]] ; INDEX-DAG: name: "Write4_2"{{.*}} guid = [[Write4_2:[-0-9]+]] ; INDEX-DAG: name: "RecursiveWithOffset"{{.*}} guid = [[RecursiveWithOffset:[-0-9]+]] ; INDEX-DAG: name: "Weak"{{.*}} guid = [[Weak:[-0-9]+]] ; INDEX-DAG: name: "Write1Private"{{.*}} guid = [[Write1Private:[-0-9]+]] ; INDEX-DAG: name: "TestUpdateArg"{{.*}} guid = [[TestUpdateArg:[-0-9]+]] ; INDEX-DAG: name: "TestCrossModuleTwice"{{.*}} guid = [[TestCrossModuleTwice:[-0-9]+]] ; INDEX-DAG: name: "TestCrossModuleWeak"{{.*}} guid = [[TestCrossModuleWeak:[-0-9]+]] ; INDEX-DAG: name: "f2"{{.*}} guid = [[f2:[-0-9]+]] ; INDEX-DAG: name: "PrivateCall"{{.*}} guid = [[PrivateCall:[-0-9]+]] ; INDEX-DAG: name: "TestRecursiveWithOffset"{{.*}} guid = [[TestRecursiveWithOffset:[-0-9]+]] ; INDEX-DAG: name: "f8oobleft"{{.*}} guid = [[f8oobleft:[-0-9]+]] ; INDEX-DAG: name: "InterposableWrite1"{{.*}} guid = [[InterposableWrite1:[-0-9]+]] ; INDEX-DAG: name: "f4"{{.*}} guid = [[f4:[-0-9]+]] ; INDEX-DAG: name: "TestCrossModuleConflict"{{.*}} guid = [[TestCrossModuleConflict:[-0-9]+]] ; INDEX-DAG: name: "RecursiveNoOffset"{{.*}} guid = [[RecursiveNoOffset:[-0-9]+]] ; INDEX-DAG: name: "TwoArgumentsOOBBoth"{{.*}} guid = [[TwoArgumentsOOBBoth:[-0-9]+]] ; INDEX-DAG: name: "f5"{{.*}} guid = [[f5:[-0-9]+]] ; INDEX-DAG: name: "f6"{{.*}} guid = [[f6:[-0-9]+]] ; INDEX-DAG: name: "Write1Weak"{{.*}} guid = [[Write1Weak:[-0-9]+]] ; INDEX-DAG: name: "Write1"{{.*}} guid = [[Write1:[-0-9]+]] ; INDEX-DAG: name: "PreemptableWrite1"{{.*}} guid = [[PreemptableWrite1:[-0-9]+]] ; INDEX-DAG: name: "f8oobright"{{.*}} guid = [[f8oobright:[-0-9]+]] ; INDEX-DAG: name: "InterposableCall"{{.*}} guid = [[InterposableCall:[-0-9]+]] ; INDEX-DAG: name: "TestCrossModuleOnce"{{.*}} guid = [[TestCrossModuleOnce:[-0-9]+]] ; INDEX-DAG: name: "WriteAndReturn8"{{.*}} guid = [[WriteAndReturn8:[-0-9]+]] ; INDEX-DAG: name: "TwoArguments"{{.*}} guid = [[TwoArguments:[-0-9]+]] ; INDEX-DAG: name: "Write1Module0"{{.*}} guid = [[Write1Module0:[-0-9]+]] ; INDEX-DAG: name: "PreemptableCall"{{.*}} guid = [[PreemptableCall:[-0-9]+]] ; INDEX-DAG: name: "Write1DiffModule"{{.*}} guid = [[Write1DiffModule:[-0-9]+]] ; INDEX-DAG: name: "ExternalCall"{{.*}} guid = [[ExternalCall:[-0-9]+]] ; INDEX-LABEL: = blockcount: ; INDEX-LABEL: ^0 = module: ; INDEX-DAG: name: "ReturnDependent"{{.*}} guid = [[ReturnDependent:[-0-9]+]] ; INDEX-DAG: name: "Rec0"{{.*}} guid = [[Rec0:[-0-9]+]] ; INDEX-DAG: name: "Rec2"{{.*}} guid = [[Rec2:[-0-9]+]] ; INDEX-DAG: name: "Write4"{{.*}} guid = [[Write4:[-0-9]+]] ; INDEX-DAG: name: "Write1SameModule"{{.*}} guid = [[Write1SameModule:[-0-9]+]] ; INDEX-DAG: name: "Write8"{{.*}} guid = [[Write8:[-0-9]+]] ; INDEX-DAG: name: "Write4_2"{{.*}} guid = [[Write4_2:[-0-9]+]] ; INDEX-DAG: name: "RecursiveWithOffset"{{.*}} guid = [[RecursiveWithOffset:[-0-9]+]] ; INDEX-DAG: name: "Weak"{{.*}} guid = [[Weak:[-0-9]+]] ; INDEX-DAG: name: "Write1Private"{{.*}} guid = [[Write1Private:[-0-9]+]] ; INDEX-DAG: name: "InterposableWrite1"{{.*}} guid = [[InterposableWrite1:[-0-9]+]] ; INDEX-DAG: name: "Private"{{.*}} guid = [[Private:[-0-9]+]] ; INDEX-DAG: name: "Rec1"{{.*}} guid = [[Rec1:[-0-9]+]] ; INDEX-DAG: name: "RecursiveNoOffset"{{.*}} guid = [[RecursiveNoOffset:[-0-9]+]] ; INDEX-DAG: name: "Write1Weak"{{.*}} guid = [[Write1Weak:[-0-9]+]] ; INDEX-DAG: name: "Write1"{{.*}} guid = [[Write1:[-0-9]+]] ; INDEX-DAG: name: "PreemptableWrite1"{{.*}} guid = [[PreemptableWrite1:[-0-9]+]] ; INDEX-DAG: name: "WriteAndReturn8"{{.*}} guid = [[WriteAndReturn8:[-0-9]+]] ; INDEX-DAG: name: "Write1Module0"{{.*}} guid = [[Write1Module0:[-0-9]+]] ; INDEX-DAG: name: "Write1DiffModule"{{.*}} guid = [[Write1DiffModule:[-0-9]+]] ; INDEX-DAG: name: "ExternalCall"{{.*}} guid = [[ExternalCall:[-0-9]+]] ; INDEX-DAG: name: "ReturnAlloca"{{.*}} guid = [[ReturnAlloca:[-0-9]+]] ; INDEX-LABEL: = blockcount: ; INDEX-LABEL: ^0 = module: ; INDEX-DAG: guid: [[ReturnDependent]], {{.*}}, funcFlags: ({{.*}})))) ; INDEX-DAG: guid: [[Rec0]], {{.*}}, params: ((param: 0, offset: [2, 5]))))) ; INDEX-DAG: guid: [[Rec2]], {{.*}}, params: ((param: 0, offset: [-2, 1]))))) ; INDEX-DAG: guid: [[Write4]], {{.*}}, params: ((param: 0, offset: [0, 3]))))) ; INDEX-DAG: guid: [[Write1SameModule]], {{.*}}, params: ((param: 0, offset: [0, 0]))))) ; INDEX-DAG: guid: [[Write8]], {{.*}}, params: ((param: 0, offset: [0, 7]))))) ; INDEX-DAG: guid: [[Write4_2]], {{.*}}, params: ((param: 0, offset: [0, 3]), (param: 1, offset: [0, 3]))))) ; INDEX-DAG: guid: [[RecursiveWithOffset]], {{.*}}, calls: ((callee: ^{{[0-9]+}}))))) ; INDEX-DAG: guid: [[Weak]], {{.*}}, funcFlags: ({{.*}})))) ; INDEX-DAG: guid: [[Write1Private]], {{.*}}, params: ((param: 0, offset: [-1, -1]))))) ; INDEX-DAG: guid: [[InterposableWrite1]], {{.*}}, params: ((param: 0, offset: [0, 0]))))) ; INDEX-DAG: guid: [[Private]], {{.*}}, params: ((param: 0, offset: [-1, -1]))))) ; INDEX-DAG: guid: [[Rec1]], {{.*}}, params: ((param: 0, offset: [3, 6]))))) ; INDEX-DAG: guid: [[RecursiveNoOffset]], {{.*}}, params: ((param: 2, offset: [0, 3]))))) ; INDEX-DAG: guid: [[Write1Weak]], {{.*}}, calls: ((callee: ^{{[0-9]+}}))))) ; INDEX-DAG: guid: [[Write1]], {{.*}}, params: ((param: 0, offset: [0, 0]))))) ; INDEX-DAG: guid: [[PreemptableWrite1]], {{.*}}, funcFlags: ({{.*}})))) ; INDEX-DAG: guid: [[WriteAndReturn8]], {{.*}}, funcFlags: ({{.*}})))) ; INDEX-DAG: guid: [[Write1DiffModule]], {{.*}}, funcFlags: ({{.*}})))) ; INDEX-DAG: guid: [[ReturnAlloca]], {{.*}}, insts: 2))) ; INDEX-LABEL: blockcount: