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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
commit | 36d22d82aa202bb199967e9512281e9a53db42c9 (patch) | |
tree | 105e8c98ddea1c1e4784a60a5a6410fa416be2de /tools/fuzzing/libfuzzer/FuzzerMutate.cpp | |
parent | Initial commit. (diff) | |
download | firefox-esr-upstream.tar.xz firefox-esr-upstream.zip |
Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | tools/fuzzing/libfuzzer/FuzzerMutate.cpp | 562 |
1 files changed, 562 insertions, 0 deletions
diff --git a/tools/fuzzing/libfuzzer/FuzzerMutate.cpp b/tools/fuzzing/libfuzzer/FuzzerMutate.cpp new file mode 100644 index 0000000000..29541eac5d --- /dev/null +++ b/tools/fuzzing/libfuzzer/FuzzerMutate.cpp @@ -0,0 +1,562 @@ +//===- FuzzerMutate.cpp - Mutate a test input -----------------------------===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// +// Mutate a test input. +//===----------------------------------------------------------------------===// + +#include "FuzzerDefs.h" +#include "FuzzerExtFunctions.h" +#include "FuzzerIO.h" +#include "FuzzerMutate.h" +#include "FuzzerOptions.h" +#include "FuzzerTracePC.h" + +namespace fuzzer { + +const size_t Dictionary::kMaxDictSize; + +static void PrintASCII(const Word &W, const char *PrintAfter) { + PrintASCII(W.data(), W.size(), PrintAfter); +} + +MutationDispatcher::MutationDispatcher(Random &Rand, + const FuzzingOptions &Options) + : Rand(Rand), Options(Options) { + DefaultMutators.insert( + DefaultMutators.begin(), + { + {&MutationDispatcher::Mutate_EraseBytes, "EraseBytes"}, + {&MutationDispatcher::Mutate_InsertByte, "InsertByte"}, + {&MutationDispatcher::Mutate_InsertRepeatedBytes, + "InsertRepeatedBytes"}, + {&MutationDispatcher::Mutate_ChangeByte, "ChangeByte"}, + {&MutationDispatcher::Mutate_ChangeBit, "ChangeBit"}, + {&MutationDispatcher::Mutate_ShuffleBytes, "ShuffleBytes"}, + {&MutationDispatcher::Mutate_ChangeASCIIInteger, "ChangeASCIIInt"}, + {&MutationDispatcher::Mutate_ChangeBinaryInteger, "ChangeBinInt"}, + {&MutationDispatcher::Mutate_CopyPart, "CopyPart"}, + {&MutationDispatcher::Mutate_CrossOver, "CrossOver"}, + {&MutationDispatcher::Mutate_AddWordFromManualDictionary, + "ManualDict"}, + {&MutationDispatcher::Mutate_AddWordFromPersistentAutoDictionary, + "PersAutoDict"}, + }); + if(Options.UseCmp) + DefaultMutators.push_back( + {&MutationDispatcher::Mutate_AddWordFromTORC, "CMP"}); + + if (EF->LLVMFuzzerCustomMutator) + Mutators.push_back({&MutationDispatcher::Mutate_Custom, "Custom"}); + else + Mutators = DefaultMutators; + + if (EF->LLVMFuzzerCustomCrossOver) + Mutators.push_back( + {&MutationDispatcher::Mutate_CustomCrossOver, "CustomCrossOver"}); +} + +static char RandCh(Random &Rand) { + if (Rand.RandBool()) return Rand(256); + const char Special[] = "!*'();:@&=+$,/?%#[]012Az-`~.\xff\x00"; + return Special[Rand(sizeof(Special) - 1)]; +} + +size_t MutationDispatcher::Mutate_Custom(uint8_t *Data, size_t Size, + size_t MaxSize) { + return EF->LLVMFuzzerCustomMutator(Data, Size, MaxSize, Rand.Rand()); +} + +size_t MutationDispatcher::Mutate_CustomCrossOver(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size == 0) + return 0; + if (!CrossOverWith) return 0; + const Unit &Other = *CrossOverWith; + if (Other.empty()) + return 0; + CustomCrossOverInPlaceHere.resize(MaxSize); + auto &U = CustomCrossOverInPlaceHere; + size_t NewSize = EF->LLVMFuzzerCustomCrossOver( + Data, Size, Other.data(), Other.size(), U.data(), U.size(), Rand.Rand()); + if (!NewSize) + return 0; + assert(NewSize <= MaxSize && "CustomCrossOver returned overisized unit"); + memcpy(Data, U.data(), NewSize); + return NewSize; +} + +size_t MutationDispatcher::Mutate_ShuffleBytes(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize || Size == 0) return 0; + size_t ShuffleAmount = + Rand(std::min(Size, (size_t)8)) + 1; // [1,8] and <= Size. + size_t ShuffleStart = Rand(Size - ShuffleAmount); + assert(ShuffleStart + ShuffleAmount <= Size); + std::shuffle(Data + ShuffleStart, Data + ShuffleStart + ShuffleAmount, Rand); + return Size; +} + +size_t MutationDispatcher::Mutate_EraseBytes(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size <= 1) return 0; + size_t N = Rand(Size / 2) + 1; + assert(N < Size); + size_t Idx = Rand(Size - N + 1); + // Erase Data[Idx:Idx+N]. + memmove(Data + Idx, Data + Idx + N, Size - Idx - N); + // Printf("Erase: %zd %zd => %zd; Idx %zd\n", N, Size, Size - N, Idx); + return Size - N; +} + +size_t MutationDispatcher::Mutate_InsertByte(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size >= MaxSize) return 0; + size_t Idx = Rand(Size + 1); + // Insert new value at Data[Idx]. + memmove(Data + Idx + 1, Data + Idx, Size - Idx); + Data[Idx] = RandCh(Rand); + return Size + 1; +} + +size_t MutationDispatcher::Mutate_InsertRepeatedBytes(uint8_t *Data, + size_t Size, + size_t MaxSize) { + const size_t kMinBytesToInsert = 3; + if (Size + kMinBytesToInsert >= MaxSize) return 0; + size_t MaxBytesToInsert = std::min(MaxSize - Size, (size_t)128); + size_t N = Rand(MaxBytesToInsert - kMinBytesToInsert + 1) + kMinBytesToInsert; + assert(Size + N <= MaxSize && N); + size_t Idx = Rand(Size + 1); + // Insert new values at Data[Idx]. + memmove(Data + Idx + N, Data + Idx, Size - Idx); + // Give preference to 0x00 and 0xff. + uint8_t Byte = Rand.RandBool() ? Rand(256) : (Rand.RandBool() ? 0 : 255); + for (size_t i = 0; i < N; i++) + Data[Idx + i] = Byte; + return Size + N; +} + +size_t MutationDispatcher::Mutate_ChangeByte(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize) return 0; + size_t Idx = Rand(Size); + Data[Idx] = RandCh(Rand); + return Size; +} + +size_t MutationDispatcher::Mutate_ChangeBit(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize) return 0; + size_t Idx = Rand(Size); + Data[Idx] ^= 1 << Rand(8); + return Size; +} + +size_t MutationDispatcher::Mutate_AddWordFromManualDictionary(uint8_t *Data, + size_t Size, + size_t MaxSize) { + return AddWordFromDictionary(ManualDictionary, Data, Size, MaxSize); +} + +size_t MutationDispatcher::ApplyDictionaryEntry(uint8_t *Data, size_t Size, + size_t MaxSize, + DictionaryEntry &DE) { + const Word &W = DE.GetW(); + bool UsePositionHint = DE.HasPositionHint() && + DE.GetPositionHint() + W.size() < Size && + Rand.RandBool(); + if (Rand.RandBool()) { // Insert W. + if (Size + W.size() > MaxSize) return 0; + size_t Idx = UsePositionHint ? DE.GetPositionHint() : Rand(Size + 1); + memmove(Data + Idx + W.size(), Data + Idx, Size - Idx); + memcpy(Data + Idx, W.data(), W.size()); + Size += W.size(); + } else { // Overwrite some bytes with W. + if (W.size() > Size) return 0; + size_t Idx = UsePositionHint ? DE.GetPositionHint() : Rand(Size - W.size()); + memcpy(Data + Idx, W.data(), W.size()); + } + return Size; +} + +// Somewhere in the past we have observed a comparison instructions +// with arguments Arg1 Arg2. This function tries to guess a dictionary +// entry that will satisfy that comparison. +// It first tries to find one of the arguments (possibly swapped) in the +// input and if it succeeds it creates a DE with a position hint. +// Otherwise it creates a DE with one of the arguments w/o a position hint. +DictionaryEntry MutationDispatcher::MakeDictionaryEntryFromCMP( + const void *Arg1, const void *Arg2, + const void *Arg1Mutation, const void *Arg2Mutation, + size_t ArgSize, const uint8_t *Data, + size_t Size) { + bool HandleFirst = Rand.RandBool(); + const void *ExistingBytes, *DesiredBytes; + Word W; + const uint8_t *End = Data + Size; + for (int Arg = 0; Arg < 2; Arg++) { + ExistingBytes = HandleFirst ? Arg1 : Arg2; + DesiredBytes = HandleFirst ? Arg2Mutation : Arg1Mutation; + HandleFirst = !HandleFirst; + W.Set(reinterpret_cast<const uint8_t*>(DesiredBytes), ArgSize); + const size_t kMaxNumPositions = 8; + size_t Positions[kMaxNumPositions]; + size_t NumPositions = 0; + for (const uint8_t *Cur = Data; + Cur < End && NumPositions < kMaxNumPositions; Cur++) { + Cur = + (const uint8_t *)SearchMemory(Cur, End - Cur, ExistingBytes, ArgSize); + if (!Cur) break; + Positions[NumPositions++] = Cur - Data; + } + if (!NumPositions) continue; + return DictionaryEntry(W, Positions[Rand(NumPositions)]); + } + DictionaryEntry DE(W); + return DE; +} + + +template <class T> +DictionaryEntry MutationDispatcher::MakeDictionaryEntryFromCMP( + T Arg1, T Arg2, const uint8_t *Data, size_t Size) { + if (Rand.RandBool()) Arg1 = Bswap(Arg1); + if (Rand.RandBool()) Arg2 = Bswap(Arg2); + T Arg1Mutation = Arg1 + Rand(-1, 1); + T Arg2Mutation = Arg2 + Rand(-1, 1); + return MakeDictionaryEntryFromCMP(&Arg1, &Arg2, &Arg1Mutation, &Arg2Mutation, + sizeof(Arg1), Data, Size); +} + +DictionaryEntry MutationDispatcher::MakeDictionaryEntryFromCMP( + const Word &Arg1, const Word &Arg2, const uint8_t *Data, size_t Size) { + return MakeDictionaryEntryFromCMP(Arg1.data(), Arg2.data(), Arg1.data(), + Arg2.data(), Arg1.size(), Data, Size); +} + +size_t MutationDispatcher::Mutate_AddWordFromTORC( + uint8_t *Data, size_t Size, size_t MaxSize) { + Word W; + DictionaryEntry DE; + switch (Rand(4)) { + case 0: { + auto X = TPC.TORC8.Get(Rand.Rand()); + DE = MakeDictionaryEntryFromCMP(X.A, X.B, Data, Size); + } break; + case 1: { + auto X = TPC.TORC4.Get(Rand.Rand()); + if ((X.A >> 16) == 0 && (X.B >> 16) == 0 && Rand.RandBool()) + DE = MakeDictionaryEntryFromCMP((uint16_t)X.A, (uint16_t)X.B, Data, Size); + else + DE = MakeDictionaryEntryFromCMP(X.A, X.B, Data, Size); + } break; + case 2: { + auto X = TPC.TORCW.Get(Rand.Rand()); + DE = MakeDictionaryEntryFromCMP(X.A, X.B, Data, Size); + } break; + case 3: if (Options.UseMemmem) { + auto X = TPC.MMT.Get(Rand.Rand()); + DE = DictionaryEntry(X); + } break; + default: + assert(0); + } + if (!DE.GetW().size()) return 0; + Size = ApplyDictionaryEntry(Data, Size, MaxSize, DE); + if (!Size) return 0; + DictionaryEntry &DERef = + CmpDictionaryEntriesDeque[CmpDictionaryEntriesDequeIdx++ % + kCmpDictionaryEntriesDequeSize]; + DERef = DE; + CurrentDictionaryEntrySequence.push_back(&DERef); + return Size; +} + +size_t MutationDispatcher::Mutate_AddWordFromPersistentAutoDictionary( + uint8_t *Data, size_t Size, size_t MaxSize) { + return AddWordFromDictionary(PersistentAutoDictionary, Data, Size, MaxSize); +} + +size_t MutationDispatcher::AddWordFromDictionary(Dictionary &D, uint8_t *Data, + size_t Size, size_t MaxSize) { + if (Size > MaxSize) return 0; + if (D.empty()) return 0; + DictionaryEntry &DE = D[Rand(D.size())]; + Size = ApplyDictionaryEntry(Data, Size, MaxSize, DE); + if (!Size) return 0; + DE.IncUseCount(); + CurrentDictionaryEntrySequence.push_back(&DE); + return Size; +} + +// Overwrites part of To[0,ToSize) with a part of From[0,FromSize). +// Returns ToSize. +size_t MutationDispatcher::CopyPartOf(const uint8_t *From, size_t FromSize, + uint8_t *To, size_t ToSize) { + // Copy From[FromBeg, FromBeg + CopySize) into To[ToBeg, ToBeg + CopySize). + size_t ToBeg = Rand(ToSize); + size_t CopySize = Rand(ToSize - ToBeg) + 1; + assert(ToBeg + CopySize <= ToSize); + CopySize = std::min(CopySize, FromSize); + size_t FromBeg = Rand(FromSize - CopySize + 1); + assert(FromBeg + CopySize <= FromSize); + memmove(To + ToBeg, From + FromBeg, CopySize); + return ToSize; +} + +// Inserts part of From[0,ToSize) into To. +// Returns new size of To on success or 0 on failure. +size_t MutationDispatcher::InsertPartOf(const uint8_t *From, size_t FromSize, + uint8_t *To, size_t ToSize, + size_t MaxToSize) { + if (ToSize >= MaxToSize) return 0; + size_t AvailableSpace = MaxToSize - ToSize; + size_t MaxCopySize = std::min(AvailableSpace, FromSize); + size_t CopySize = Rand(MaxCopySize) + 1; + size_t FromBeg = Rand(FromSize - CopySize + 1); + assert(FromBeg + CopySize <= FromSize); + size_t ToInsertPos = Rand(ToSize + 1); + assert(ToInsertPos + CopySize <= MaxToSize); + size_t TailSize = ToSize - ToInsertPos; + if (To == From) { + MutateInPlaceHere.resize(MaxToSize); + memcpy(MutateInPlaceHere.data(), From + FromBeg, CopySize); + memmove(To + ToInsertPos + CopySize, To + ToInsertPos, TailSize); + memmove(To + ToInsertPos, MutateInPlaceHere.data(), CopySize); + } else { + memmove(To + ToInsertPos + CopySize, To + ToInsertPos, TailSize); + memmove(To + ToInsertPos, From + FromBeg, CopySize); + } + return ToSize + CopySize; +} + +size_t MutationDispatcher::Mutate_CopyPart(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize || Size == 0) return 0; + // If Size == MaxSize, `InsertPartOf(...)` will + // fail so there's no point using it in this case. + if (Size == MaxSize || Rand.RandBool()) + return CopyPartOf(Data, Size, Data, Size); + else + return InsertPartOf(Data, Size, Data, Size, MaxSize); +} + +size_t MutationDispatcher::Mutate_ChangeASCIIInteger(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize) return 0; + size_t B = Rand(Size); + while (B < Size && !isdigit(Data[B])) B++; + if (B == Size) return 0; + size_t E = B; + while (E < Size && isdigit(Data[E])) E++; + assert(B < E); + // now we have digits in [B, E). + // strtol and friends don't accept non-zero-teminated data, parse it manually. + uint64_t Val = Data[B] - '0'; + for (size_t i = B + 1; i < E; i++) + Val = Val * 10 + Data[i] - '0'; + + // Mutate the integer value. + switch(Rand(5)) { + case 0: Val++; break; + case 1: Val--; break; + case 2: Val /= 2; break; + case 3: Val *= 2; break; + case 4: Val = Rand(Val * Val); break; + default: assert(0); + } + // Just replace the bytes with the new ones, don't bother moving bytes. + for (size_t i = B; i < E; i++) { + size_t Idx = E + B - i - 1; + assert(Idx >= B && Idx < E); + Data[Idx] = (Val % 10) + '0'; + Val /= 10; + } + return Size; +} + +template<class T> +size_t ChangeBinaryInteger(uint8_t *Data, size_t Size, Random &Rand) { + if (Size < sizeof(T)) return 0; + size_t Off = Rand(Size - sizeof(T) + 1); + assert(Off + sizeof(T) <= Size); + T Val; + if (Off < 64 && !Rand(4)) { + Val = Size; + if (Rand.RandBool()) + Val = Bswap(Val); + } else { + memcpy(&Val, Data + Off, sizeof(Val)); + T Add = Rand(21); + Add -= 10; + if (Rand.RandBool()) + Val = Bswap(T(Bswap(Val) + Add)); // Add assuming different endiannes. + else + Val = Val + Add; // Add assuming current endiannes. + if (Add == 0 || Rand.RandBool()) // Maybe negate. + Val = -Val; + } + memcpy(Data + Off, &Val, sizeof(Val)); + return Size; +} + +size_t MutationDispatcher::Mutate_ChangeBinaryInteger(uint8_t *Data, + size_t Size, + size_t MaxSize) { + if (Size > MaxSize) return 0; + switch (Rand(4)) { + case 3: return ChangeBinaryInteger<uint64_t>(Data, Size, Rand); + case 2: return ChangeBinaryInteger<uint32_t>(Data, Size, Rand); + case 1: return ChangeBinaryInteger<uint16_t>(Data, Size, Rand); + case 0: return ChangeBinaryInteger<uint8_t>(Data, Size, Rand); + default: assert(0); + } + return 0; +} + +size_t MutationDispatcher::Mutate_CrossOver(uint8_t *Data, size_t Size, + size_t MaxSize) { + if (Size > MaxSize) return 0; + if (Size == 0) return 0; + if (!CrossOverWith) return 0; + const Unit &O = *CrossOverWith; + if (O.empty()) return 0; + MutateInPlaceHere.resize(MaxSize); + auto &U = MutateInPlaceHere; + size_t NewSize = 0; + switch(Rand(3)) { + case 0: + NewSize = CrossOver(Data, Size, O.data(), O.size(), U.data(), U.size()); + break; + case 1: + NewSize = InsertPartOf(O.data(), O.size(), U.data(), U.size(), MaxSize); + if (!NewSize) + NewSize = CopyPartOf(O.data(), O.size(), U.data(), U.size()); + break; + case 2: + NewSize = CopyPartOf(O.data(), O.size(), U.data(), U.size()); + break; + default: assert(0); + } + assert(NewSize > 0 && "CrossOver returned empty unit"); + assert(NewSize <= MaxSize && "CrossOver returned overisized unit"); + memcpy(Data, U.data(), NewSize); + return NewSize; +} + +void MutationDispatcher::StartMutationSequence() { + CurrentMutatorSequence.clear(); + CurrentDictionaryEntrySequence.clear(); +} + +// Copy successful dictionary entries to PersistentAutoDictionary. +void MutationDispatcher::RecordSuccessfulMutationSequence() { + for (auto DE : CurrentDictionaryEntrySequence) { + // PersistentAutoDictionary.AddWithSuccessCountOne(DE); + DE->IncSuccessCount(); + assert(DE->GetW().size()); + // Linear search is fine here as this happens seldom. + if (!PersistentAutoDictionary.ContainsWord(DE->GetW())) + PersistentAutoDictionary.push_back({DE->GetW(), 1}); + } +} + +void MutationDispatcher::PrintRecommendedDictionary() { + Vector<DictionaryEntry> V; + for (auto &DE : PersistentAutoDictionary) + if (!ManualDictionary.ContainsWord(DE.GetW())) + V.push_back(DE); + if (V.empty()) return; + Printf("###### Recommended dictionary. ######\n"); + for (auto &DE: V) { + assert(DE.GetW().size()); + Printf("\""); + PrintASCII(DE.GetW(), "\""); + Printf(" # Uses: %zd\n", DE.GetUseCount()); + } + Printf("###### End of recommended dictionary. ######\n"); +} + +void MutationDispatcher::PrintMutationSequence() { + Printf("MS: %zd ", CurrentMutatorSequence.size()); + for (auto M : CurrentMutatorSequence) + Printf("%s-", M.Name); + if (!CurrentDictionaryEntrySequence.empty()) { + Printf(" DE: "); + for (auto DE : CurrentDictionaryEntrySequence) { + Printf("\""); + PrintASCII(DE->GetW(), "\"-"); + } + } +} + +size_t MutationDispatcher::Mutate(uint8_t *Data, size_t Size, size_t MaxSize) { + return MutateImpl(Data, Size, MaxSize, Mutators); +} + +size_t MutationDispatcher::DefaultMutate(uint8_t *Data, size_t Size, + size_t MaxSize) { + return MutateImpl(Data, Size, MaxSize, DefaultMutators); +} + +// Mutates Data in place, returns new size. +size_t MutationDispatcher::MutateImpl(uint8_t *Data, size_t Size, + size_t MaxSize, + Vector<Mutator> &Mutators) { + assert(MaxSize > 0); + // Some mutations may fail (e.g. can't insert more bytes if Size == MaxSize), + // in which case they will return 0. + // Try several times before returning un-mutated data. + for (int Iter = 0; Iter < 100; Iter++) { + auto M = Mutators[Rand(Mutators.size())]; + size_t NewSize = (this->*(M.Fn))(Data, Size, MaxSize); + if (NewSize && NewSize <= MaxSize) { + if (Options.OnlyASCII) + ToASCII(Data, NewSize); + CurrentMutatorSequence.push_back(M); + return NewSize; + } + } + *Data = ' '; + return 1; // Fallback, should not happen frequently. +} + +// Mask represents the set of Data bytes that are worth mutating. +size_t MutationDispatcher::MutateWithMask(uint8_t *Data, size_t Size, + size_t MaxSize, + const Vector<uint8_t> &Mask) { + size_t MaskedSize = std::min(Size, Mask.size()); + // * Copy the worthy bytes into a temporary array T + // * Mutate T + // * Copy T back. + // This is totally unoptimized. + auto &T = MutateWithMaskTemp; + if (T.size() < Size) + T.resize(Size); + size_t OneBits = 0; + for (size_t I = 0; I < MaskedSize; I++) + if (Mask[I]) + T[OneBits++] = Data[I]; + + if (!OneBits) return 0; + assert(!T.empty()); + size_t NewSize = Mutate(T.data(), OneBits, OneBits); + assert(NewSize <= OneBits); + (void)NewSize; + // Even if NewSize < OneBits we still use all OneBits bytes. + for (size_t I = 0, J = 0; I < MaskedSize; I++) + if (Mask[I]) + Data[I] = T[J++]; + return Size; +} + +void MutationDispatcher::AddWordToManualDictionary(const Word &W) { + ManualDictionary.push_back( + {W, std::numeric_limits<size_t>::max()}); +} + +} // namespace fuzzer |