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https://github.com/RPCS3/llvm-mirror.git
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c7f377f70d
llvm-svn: 284273
326 lines
11 KiB
C++
326 lines
11 KiB
C++
//===- FuzzerTraceState.cpp - Trace-based fuzzer mutator ------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// Data tracing.
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//===----------------------------------------------------------------------===//
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#include "FuzzerInternal.h"
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#include "FuzzerDictionary.h"
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#include "FuzzerMutate.h"
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#include "FuzzerRandom.h"
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#include "FuzzerTracePC.h"
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#include <algorithm>
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#include <cstring>
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#include <thread>
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#include <map>
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#include <set>
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namespace fuzzer {
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// For now, very simple: put Size bytes of Data at position Pos.
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struct TraceBasedMutation {
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uint32_t Pos;
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Word W;
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};
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// Declared as static globals for faster checks inside the hooks.
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static bool RecordingMemcmp = false;
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static bool RecordingMemmem = false;
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static bool DoingMyOwnMemmem = false;
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ScopedDoingMyOwnMemmem::ScopedDoingMyOwnMemmem() { DoingMyOwnMemmem = true; }
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ScopedDoingMyOwnMemmem::~ScopedDoingMyOwnMemmem() { DoingMyOwnMemmem = false; }
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class TraceState {
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public:
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TraceState(MutationDispatcher &MD, const FuzzingOptions &Options,
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const Fuzzer *F)
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: MD(MD), Options(Options), F(F) {}
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void TraceMemcmpCallback(size_t CmpSize, const uint8_t *Data1,
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const uint8_t *Data2);
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void TraceSwitchCallback(uintptr_t PC, size_t ValSizeInBits, uint64_t Val,
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size_t NumCases, uint64_t *Cases);
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int TryToAddDesiredData(uint64_t PresentData, uint64_t DesiredData,
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size_t DataSize);
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int TryToAddDesiredData(const uint8_t *PresentData,
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const uint8_t *DesiredData, size_t DataSize);
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void StartTraceRecording() {
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if (!Options.UseMemcmp)
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return;
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RecordingMemcmp = Options.UseMemcmp;
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RecordingMemmem = Options.UseMemmem;
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NumMutations = 0;
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InterestingWords.clear();
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MD.ClearAutoDictionary();
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}
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void StopTraceRecording() {
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if (!RecordingMemcmp)
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return;
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RecordingMemcmp = false;
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for (size_t i = 0; i < NumMutations; i++) {
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auto &M = Mutations[i];
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if (Options.Verbosity >= 2) {
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AutoDictUnitCounts[M.W]++;
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AutoDictAdds++;
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if ((AutoDictAdds & (AutoDictAdds - 1)) == 0) {
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typedef std::pair<size_t, Word> CU;
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std::vector<CU> CountedUnits;
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for (auto &I : AutoDictUnitCounts)
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CountedUnits.push_back(std::make_pair(I.second, I.first));
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std::sort(CountedUnits.begin(), CountedUnits.end(),
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[](const CU &a, const CU &b) { return a.first > b.first; });
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Printf("AutoDict:\n");
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for (auto &I : CountedUnits) {
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Printf(" %zd ", I.first);
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PrintASCII(I.second.data(), I.second.size());
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Printf("\n");
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}
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}
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}
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MD.AddWordToAutoDictionary({M.W, M.Pos});
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}
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for (auto &W : InterestingWords)
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MD.AddWordToAutoDictionary({W});
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}
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void AddMutation(uint32_t Pos, uint32_t Size, const uint8_t *Data) {
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if (NumMutations >= kMaxMutations) return;
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auto &M = Mutations[NumMutations++];
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M.Pos = Pos;
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M.W.Set(Data, Size);
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}
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void AddMutation(uint32_t Pos, uint32_t Size, uint64_t Data) {
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assert(Size <= sizeof(Data));
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AddMutation(Pos, Size, reinterpret_cast<uint8_t*>(&Data));
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}
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void AddInterestingWord(const uint8_t *Data, size_t Size) {
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if (!RecordingMemmem || !F->InFuzzingThread()) return;
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if (Size <= 1) return;
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Size = std::min(Size, Word::GetMaxSize());
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Word W(Data, Size);
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InterestingWords.insert(W);
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}
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private:
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bool IsTwoByteData(uint64_t Data) {
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int64_t Signed = static_cast<int64_t>(Data);
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Signed >>= 16;
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return Signed == 0 || Signed == -1L;
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}
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// We don't want to create too many trace-based mutations as it is both
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// expensive and useless. So after some number of mutations is collected,
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// start rejecting some of them. The more there are mutations the more we
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// reject.
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bool WantToHandleOneMoreMutation() {
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const size_t FirstN = 64;
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// Gladly handle first N mutations.
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if (NumMutations <= FirstN) return true;
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size_t Diff = NumMutations - FirstN;
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size_t DiffLog = sizeof(long) * 8 - __builtin_clzl((long)Diff);
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assert(DiffLog > 0 && DiffLog < 64);
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bool WantThisOne = MD.GetRand()(1 << DiffLog) == 0; // 1 out of DiffLog.
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return WantThisOne;
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}
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static const size_t kMaxMutations = 1 << 16;
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size_t NumMutations;
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TraceBasedMutation Mutations[kMaxMutations];
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// TODO: std::set is too inefficient, need to have a custom DS here.
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std::set<Word> InterestingWords;
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MutationDispatcher &MD;
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const FuzzingOptions Options;
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const Fuzzer *F;
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std::map<Word, size_t> AutoDictUnitCounts;
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size_t AutoDictAdds = 0;
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};
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int TraceState::TryToAddDesiredData(uint64_t PresentData, uint64_t DesiredData,
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size_t DataSize) {
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if (NumMutations >= kMaxMutations || !WantToHandleOneMoreMutation()) return 0;
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ScopedDoingMyOwnMemmem scoped_doing_my_own_memmem;
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const uint8_t *UnitData;
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auto UnitSize = F->GetCurrentUnitInFuzzingThead(&UnitData);
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int Res = 0;
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const uint8_t *Beg = UnitData;
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const uint8_t *End = Beg + UnitSize;
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for (const uint8_t *Cur = Beg; Cur < End; Cur++) {
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Cur = (uint8_t *)memmem(Cur, End - Cur, &PresentData, DataSize);
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if (!Cur)
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break;
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size_t Pos = Cur - Beg;
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assert(Pos < UnitSize);
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AddMutation(Pos, DataSize, DesiredData);
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AddMutation(Pos, DataSize, DesiredData + 1);
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AddMutation(Pos, DataSize, DesiredData - 1);
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Res++;
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}
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return Res;
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}
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int TraceState::TryToAddDesiredData(const uint8_t *PresentData,
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const uint8_t *DesiredData,
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size_t DataSize) {
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if (NumMutations >= kMaxMutations || !WantToHandleOneMoreMutation()) return 0;
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ScopedDoingMyOwnMemmem scoped_doing_my_own_memmem;
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const uint8_t *UnitData;
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auto UnitSize = F->GetCurrentUnitInFuzzingThead(&UnitData);
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int Res = 0;
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const uint8_t *Beg = UnitData;
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const uint8_t *End = Beg + UnitSize;
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for (const uint8_t *Cur = Beg; Cur < End; Cur++) {
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Cur = (uint8_t *)memmem(Cur, End - Cur, PresentData, DataSize);
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if (!Cur)
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break;
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size_t Pos = Cur - Beg;
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assert(Pos < UnitSize);
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AddMutation(Pos, DataSize, DesiredData);
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Res++;
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}
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return Res;
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}
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void TraceState::TraceMemcmpCallback(size_t CmpSize, const uint8_t *Data1,
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const uint8_t *Data2) {
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if (!RecordingMemcmp || !F->InFuzzingThread()) return;
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CmpSize = std::min(CmpSize, Word::GetMaxSize());
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int Added2 = TryToAddDesiredData(Data1, Data2, CmpSize);
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int Added1 = TryToAddDesiredData(Data2, Data1, CmpSize);
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if ((Added1 || Added2) && Options.Verbosity >= 3) {
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Printf("MemCmp Added %d%d: ", Added1, Added2);
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if (Added1) PrintASCII(Data1, CmpSize);
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if (Added2) PrintASCII(Data2, CmpSize);
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Printf("\n");
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}
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}
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void TraceState::TraceSwitchCallback(uintptr_t PC, size_t ValSizeInBits,
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uint64_t Val, size_t NumCases,
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uint64_t *Cases) {
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if (F->InFuzzingThread()) return;
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size_t ValSize = ValSizeInBits / 8;
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bool TryShort = IsTwoByteData(Val);
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for (size_t i = 0; i < NumCases; i++)
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TryShort &= IsTwoByteData(Cases[i]);
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if (Options.Verbosity >= 3)
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Printf("TraceSwitch: %p %zd # %zd; TryShort %d\n", PC, Val, NumCases,
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TryShort);
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for (size_t i = 0; i < NumCases; i++) {
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TryToAddDesiredData(Val, Cases[i], ValSize);
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if (TryShort)
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TryToAddDesiredData(Val, Cases[i], 2);
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}
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}
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static TraceState *TS;
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void Fuzzer::StartTraceRecording() {
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if (!TS) return;
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TS->StartTraceRecording();
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}
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void Fuzzer::StopTraceRecording() {
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if (!TS) return;
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TS->StopTraceRecording();
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}
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void Fuzzer::InitializeTraceState() {
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if (!Options.UseMemcmp) return;
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TS = new TraceState(MD, Options, this);
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}
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static size_t InternalStrnlen(const char *S, size_t MaxLen) {
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size_t Len = 0;
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for (; Len < MaxLen && S[Len]; Len++) {}
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return Len;
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}
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} // namespace fuzzer
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using fuzzer::TS;
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using fuzzer::RecordingMemcmp;
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extern "C" {
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// We may need to avoid defining weak hooks to stay compatible with older clang.
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#ifndef LLVM_FUZZER_DEFINES_SANITIZER_WEAK_HOOOKS
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# define LLVM_FUZZER_DEFINES_SANITIZER_WEAK_HOOOKS 1
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#endif
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#if LLVM_FUZZER_DEFINES_SANITIZER_WEAK_HOOOKS
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void __sanitizer_weak_hook_memcmp(void *caller_pc, const void *s1,
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const void *s2, size_t n, int result) {
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fuzzer::TPC.AddValueForMemcmp(caller_pc, s1, s2, n);
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if (!RecordingMemcmp) return;
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if (result == 0) return; // No reason to mutate.
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if (n <= 1) return; // Not interesting.
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TS->TraceMemcmpCallback(n, reinterpret_cast<const uint8_t *>(s1),
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reinterpret_cast<const uint8_t *>(s2));
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}
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void __sanitizer_weak_hook_strncmp(void *caller_pc, const char *s1,
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const char *s2, size_t n, int result) {
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fuzzer::TPC.AddValueForStrcmp(caller_pc, s1, s2, n);
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if (!RecordingMemcmp) return;
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if (result == 0) return; // No reason to mutate.
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size_t Len1 = fuzzer::InternalStrnlen(s1, n);
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size_t Len2 = fuzzer::InternalStrnlen(s2, n);
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n = std::min(n, Len1);
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n = std::min(n, Len2);
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if (n <= 1) return; // Not interesting.
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TS->TraceMemcmpCallback(n, reinterpret_cast<const uint8_t *>(s1),
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reinterpret_cast<const uint8_t *>(s2));
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}
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void __sanitizer_weak_hook_strcmp(void *caller_pc, const char *s1,
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const char *s2, int result) {
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fuzzer::TPC.AddValueForStrcmp(caller_pc, s1, s2, 64);
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if (!RecordingMemcmp) return;
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if (result == 0) return; // No reason to mutate.
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size_t Len1 = strlen(s1);
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size_t Len2 = strlen(s2);
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size_t N = std::min(Len1, Len2);
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if (N <= 1) return; // Not interesting.
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TS->TraceMemcmpCallback(N, reinterpret_cast<const uint8_t *>(s1),
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reinterpret_cast<const uint8_t *>(s2));
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}
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void __sanitizer_weak_hook_strncasecmp(void *called_pc, const char *s1,
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const char *s2, size_t n, int result) {
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return __sanitizer_weak_hook_strncmp(called_pc, s1, s2, n, result);
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}
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void __sanitizer_weak_hook_strcasecmp(void *called_pc, const char *s1,
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const char *s2, int result) {
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return __sanitizer_weak_hook_strcmp(called_pc, s1, s2, result);
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}
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void __sanitizer_weak_hook_strstr(void *called_pc, const char *s1,
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const char *s2, char *result) {
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TS->AddInterestingWord(reinterpret_cast<const uint8_t *>(s2), strlen(s2));
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}
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void __sanitizer_weak_hook_strcasestr(void *called_pc, const char *s1,
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const char *s2, char *result) {
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TS->AddInterestingWord(reinterpret_cast<const uint8_t *>(s2), strlen(s2));
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}
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void __sanitizer_weak_hook_memmem(void *called_pc, const void *s1, size_t len1,
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const void *s2, size_t len2, void *result) {
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if (fuzzer::DoingMyOwnMemmem) return;
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TS->AddInterestingWord(reinterpret_cast<const uint8_t *>(s2), len2);
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}
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#endif // LLVM_FUZZER_DEFINES_SANITIZER_WEAK_HOOOKS
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} // extern "C"
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