forked from OSchip/llvm-project
[asan] Add support of lifetime poisoning into ComputeASanStackFrameLayout
Summary: We are going to combine poisoning of red zones and scope poisoning. PR27453 Reviewers: kcc, eugenis Subscribers: llvm-commits Differential Revision: https://reviews.llvm.org/D23623 llvm-svn: 279020
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@ -24,16 +24,19 @@ class AllocaInst;
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static const int kAsanStackLeftRedzoneMagic = 0xf1;
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static const int kAsanStackMidRedzoneMagic = 0xf2;
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static const int kAsanStackRightRedzoneMagic = 0xf3;
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static const int kAsanStackUseAfterScopeMagic = 0xf8;
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// Input/output data struct for ComputeASanStackFrameLayout.
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struct ASanStackVariableDescription {
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const char *Name; // Name of the variable that will be displayed by asan
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// if a stack-related bug is reported.
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uint64_t Size; // Size of the variable in bytes.
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size_t Alignment; // Alignment of the variable (power of 2).
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AllocaInst *AI; // The actual AllocaInst.
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size_t Offset; // Offset from the beginning of the frame;
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// set by ComputeASanStackFrameLayout.
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const char *Name; // Name of the variable that will be displayed by asan
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// if a stack-related bug is reported.
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uint64_t Size; // Size of the variable in bytes.
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size_t LifetimeSize; // Size in bytes to use for lifetime analysis check.
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// Will be rounded up to Granularity.
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size_t Alignment; // Alignment of the variable (power of 2).
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AllocaInst *AI; // The actual AllocaInst.
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size_t Offset; // Offset from the beginning of the frame;
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// set by ComputeASanStackFrameLayout.
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};
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// Output data struct for ComputeASanStackFrameLayout.
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@ -2079,7 +2079,10 @@ void FunctionStackPoisoner::poisonStack() {
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for (AllocaInst *AI : AllocaVec) {
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ASanStackVariableDescription D = {AI->getName().data(),
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ASan.getAllocaSizeInBytes(*AI),
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AI->getAlignment(), AI, 0};
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0,
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AI->getAlignment(),
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AI,
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0};
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SVD.push_back(D);
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}
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// Minimal header size (left redzone) is 4 pointers,
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@ -81,19 +81,26 @@ ComputeASanStackFrameLayout(SmallVectorImpl<ASanStackVariableDescription> &Vars,
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assert(Layout->FrameAlignment >= Alignment);
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assert((Offset % Alignment) == 0);
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assert(Size > 0);
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assert(Vars[i].LifetimeSize <= Size);
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StackDescription << " " << Offset << " " << Size << " " << strlen(Name)
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<< " " << Name;
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size_t NextAlignment = IsLast ? Granularity
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: std::max(Granularity, Vars[i + 1].Alignment);
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size_t SizeWithRedzone = VarAndRedzoneSize(Vars[i].Size, NextAlignment);
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SB.insert(SB.end(), Size / Granularity, 0);
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if (Size % Granularity)
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SB.insert(SB.end(), Size % Granularity);
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size_t LifetimeShadowSize =
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(Vars[i].LifetimeSize + Granularity - 1) / Granularity;
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SB.insert(SB.end(), LifetimeShadowSize, kAsanStackUseAfterScopeMagic);
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if (Size / Granularity >= LifetimeShadowSize) {
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SB.insert(SB.end(), Size / Granularity - LifetimeShadowSize, 0);
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if (Size % Granularity)
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SB.insert(SB.end(), Size % Granularity);
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}
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SB.insert(SB.end(), (SizeWithRedzone - Size) / Granularity,
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IsLast ? kAsanStackRightRedzoneMagic
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: kAsanStackMidRedzoneMagic);
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Vars[i].Offset = Offset;
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Offset += SizeWithRedzone;
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assert(Offset == SB.size() * Granularity);
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}
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if (Offset % MinHeaderSize) {
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size_t ExtraRedzone = MinHeaderSize - (Offset % MinHeaderSize);
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@ -21,6 +21,9 @@ ShadowBytesToString(ArrayRef<uint8_t> ShadowBytes) {
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case kAsanStackLeftRedzoneMagic: os << "L"; break;
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case kAsanStackRightRedzoneMagic: os << "R"; break;
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case kAsanStackMidRedzoneMagic: os << "M"; break;
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case kAsanStackUseAfterScopeMagic:
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os << "S";
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break;
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default: os << (unsigned)ShadowBytes[i];
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}
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}
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@ -42,27 +45,28 @@ TEST(ASanStackFrameLayout, Test) {
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#define VEC(a) \
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SmallVector<ASanStackVariableDescription, 10>(a, a + sizeof(a) / sizeof(a[0]))
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#define VAR(name, size, alignment) \
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#define VAR(name, size, lifetime, alignment) \
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ASanStackVariableDescription name##size##_##alignment = { \
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#name #size "_" #alignment, \
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size, \
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lifetime, \
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alignment, \
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0, \
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0 \
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}
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VAR(a, 1, 1);
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VAR(p, 1, 32);
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VAR(p, 1, 256);
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VAR(a, 2, 1);
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VAR(a, 3, 1);
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VAR(a, 4, 1);
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VAR(a, 7, 1);
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VAR(a, 8, 1);
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VAR(a, 9, 1);
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VAR(a, 16, 1);
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VAR(a, 41, 1);
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VAR(a, 105, 1);
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VAR(a, 1, 0, 1);
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VAR(p, 1, 0, 32);
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VAR(p, 1, 0, 256);
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VAR(a, 2, 0, 1);
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VAR(a, 3, 0, 1);
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VAR(a, 4, 0, 1);
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VAR(a, 7, 0, 1);
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VAR(a, 8, 8, 1);
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VAR(a, 9, 0, 1);
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VAR(a, 16, 0, 1);
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VAR(a, 41, 9, 1);
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VAR(a, 105, 103, 1);
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TestLayout(VEC1(a1_1), 8, 16, "1 16 1 4 a1_1", "LL1R");
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TestLayout(VEC1(a1_1), 64, 64, "1 64 1 4 a1_1", "L1");
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@ -74,27 +78,25 @@ TEST(ASanStackFrameLayout, Test) {
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TestLayout(VEC1(a3_1), 8, 32, "1 32 3 4 a3_1", "LLLL3RRR");
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TestLayout(VEC1(a4_1), 8, 32, "1 32 4 4 a4_1", "LLLL4RRR");
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TestLayout(VEC1(a7_1), 8, 32, "1 32 7 4 a7_1", "LLLL7RRR");
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TestLayout(VEC1(a8_1), 8, 32, "1 32 8 4 a8_1", "LLLL0RRR");
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TestLayout(VEC1(a8_1), 8, 32, "1 32 8 4 a8_1", "LLLLSRRR");
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TestLayout(VEC1(a9_1), 8, 32, "1 32 9 4 a9_1", "LLLL01RR");
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TestLayout(VEC1(a16_1), 8, 32, "1 32 16 5 a16_1", "LLLL00RR");
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TestLayout(VEC1(p1_256), 8, 32, "1 256 1 6 p1_256",
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"LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL1RRR");
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TestLayout(VEC1(a41_1), 8, 32, "1 32 41 5 a41_1", "LLLL000001RRRRRR");
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TestLayout(VEC1(a41_1), 8, 32, "1 32 41 5 a41_1", "LLLLSS0001RRRRRR");
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TestLayout(VEC1(a105_1), 8, 32, "1 32 105 6 a105_1",
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"LLLL00000000000001RRRRRR");
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"LLLLSSSSSSSSSSSSS1RRRRRR");
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{
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ASanStackVariableDescription t[] = {a1_1, p1_256};
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TestLayout(VEC(t), 8, 32,
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"2 256 1 6 p1_256 272 1 4 a1_1",
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"LLLLLLLL" "LLLLLLLL" "LLLLLLLL" "LLLLLLLL" "1M1R");
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TestLayout(VEC(t), 8, 32, "2 256 1 6 p1_256 272 1 4 a1_1",
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"LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL1M1R");
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}
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{
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ASanStackVariableDescription t[] = {a1_1, a16_1, a41_1};
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TestLayout(VEC(t), 8, 32,
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"3 32 1 4 a1_1 48 16 5 a16_1 80 41 5 a41_1",
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"LLLL" "1M00" "MM00" "0001" "RRRR");
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TestLayout(VEC(t), 8, 32, "3 32 1 4 a1_1 48 16 5 a16_1 80 41 5 a41_1",
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"LLLL1M00MMSS0001RRRR");
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}
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#undef VEC1
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#undef VEC
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