xref: /openbsd-src/gnu/llvm/compiler-rt/lib/fuzzer/FuzzerTracePC.cpp (revision 810390e339a5425391477d5d41c78d7cab2424ac) 
13cab2bb3Spatrick //===- FuzzerTracePC.cpp - PC tracing--------------------------------------===//
23cab2bb3Spatrick //
33cab2bb3Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
43cab2bb3Spatrick // See https://llvm.org/LICENSE.txt for license information.
53cab2bb3Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
63cab2bb3Spatrick //
73cab2bb3Spatrick //===----------------------------------------------------------------------===//
83cab2bb3Spatrick // Trace PCs.
93cab2bb3Spatrick // This module implements __sanitizer_cov_trace_pc_guard[_init],
103cab2bb3Spatrick // the callback required for -fsanitize-coverage=trace-pc-guard instrumentation.
113cab2bb3Spatrick //
123cab2bb3Spatrick //===----------------------------------------------------------------------===//
133cab2bb3Spatrick 
143cab2bb3Spatrick #include "FuzzerTracePC.h"
153cab2bb3Spatrick #include "FuzzerBuiltins.h"
163cab2bb3Spatrick #include "FuzzerBuiltinsMsvc.h"
173cab2bb3Spatrick #include "FuzzerCorpus.h"
183cab2bb3Spatrick #include "FuzzerDefs.h"
193cab2bb3Spatrick #include "FuzzerDictionary.h"
203cab2bb3Spatrick #include "FuzzerExtFunctions.h"
213cab2bb3Spatrick #include "FuzzerIO.h"
221f9cb04fSpatrick #include "FuzzerPlatform.h"
233cab2bb3Spatrick #include "FuzzerUtil.h"
243cab2bb3Spatrick #include "FuzzerValueBitMap.h"
253cab2bb3Spatrick #include <set>
263cab2bb3Spatrick 
273cab2bb3Spatrick // Used by -fsanitize-coverage=stack-depth to track stack depth
283cab2bb3Spatrick ATTRIBUTES_INTERFACE_TLS_INITIAL_EXEC uintptr_t __sancov_lowest_stack;
293cab2bb3Spatrick 
303cab2bb3Spatrick namespace fuzzer {
313cab2bb3Spatrick 
323cab2bb3Spatrick TracePC TPC;
333cab2bb3Spatrick 
GetTotalPCCoverage()343cab2bb3Spatrick size_t TracePC::GetTotalPCCoverage() {
353cab2bb3Spatrick   return ObservedPCs.size();
363cab2bb3Spatrick }
373cab2bb3Spatrick 
383cab2bb3Spatrick 
HandleInline8bitCountersInit(uint8_t * Start,uint8_t * Stop)393cab2bb3Spatrick void TracePC::HandleInline8bitCountersInit(uint8_t *Start, uint8_t *Stop) {
403cab2bb3Spatrick   if (Start == Stop) return;
413cab2bb3Spatrick   if (NumModules &&
423cab2bb3Spatrick       Modules[NumModules - 1].Start() == Start)
433cab2bb3Spatrick     return;
443cab2bb3Spatrick   assert(NumModules <
453cab2bb3Spatrick          sizeof(Modules) / sizeof(Modules[0]));
463cab2bb3Spatrick   auto &M = Modules[NumModules++];
473cab2bb3Spatrick   uint8_t *AlignedStart = RoundUpByPage(Start);
483cab2bb3Spatrick   uint8_t *AlignedStop  = RoundDownByPage(Stop);
493cab2bb3Spatrick   size_t NumFullPages = AlignedStop > AlignedStart ?
503cab2bb3Spatrick                         (AlignedStop - AlignedStart) / PageSize() : 0;
513cab2bb3Spatrick   bool NeedFirst = Start < AlignedStart || !NumFullPages;
523cab2bb3Spatrick   bool NeedLast  = Stop > AlignedStop && AlignedStop >= AlignedStart;
533cab2bb3Spatrick   M.NumRegions = NumFullPages + NeedFirst + NeedLast;;
543cab2bb3Spatrick   assert(M.NumRegions > 0);
553cab2bb3Spatrick   M.Regions = new Module::Region[M.NumRegions];
563cab2bb3Spatrick   assert(M.Regions);
573cab2bb3Spatrick   size_t R = 0;
583cab2bb3Spatrick   if (NeedFirst)
593cab2bb3Spatrick     M.Regions[R++] = {Start, std::min(Stop, AlignedStart), true, false};
603cab2bb3Spatrick   for (uint8_t *P = AlignedStart; P < AlignedStop; P += PageSize())
613cab2bb3Spatrick     M.Regions[R++] = {P, P + PageSize(), true, true};
623cab2bb3Spatrick   if (NeedLast)
633cab2bb3Spatrick     M.Regions[R++] = {AlignedStop, Stop, true, false};
643cab2bb3Spatrick   assert(R == M.NumRegions);
653cab2bb3Spatrick   assert(M.Size() == (size_t)(Stop - Start));
663cab2bb3Spatrick   assert(M.Stop() == Stop);
673cab2bb3Spatrick   assert(M.Start() == Start);
683cab2bb3Spatrick   NumInline8bitCounters += M.Size();
693cab2bb3Spatrick }
703cab2bb3Spatrick 
HandlePCsInit(const uintptr_t * Start,const uintptr_t * Stop)713cab2bb3Spatrick void TracePC::HandlePCsInit(const uintptr_t *Start, const uintptr_t *Stop) {
723cab2bb3Spatrick   const PCTableEntry *B = reinterpret_cast<const PCTableEntry *>(Start);
733cab2bb3Spatrick   const PCTableEntry *E = reinterpret_cast<const PCTableEntry *>(Stop);
743cab2bb3Spatrick   if (NumPCTables && ModulePCTable[NumPCTables - 1].Start == B) return;
753cab2bb3Spatrick   assert(NumPCTables < sizeof(ModulePCTable) / sizeof(ModulePCTable[0]));
763cab2bb3Spatrick   ModulePCTable[NumPCTables++] = {B, E};
773cab2bb3Spatrick   NumPCsInPCTables += E - B;
783cab2bb3Spatrick }
793cab2bb3Spatrick 
PrintModuleInfo()803cab2bb3Spatrick void TracePC::PrintModuleInfo() {
813cab2bb3Spatrick   if (NumModules) {
823cab2bb3Spatrick     Printf("INFO: Loaded %zd modules   (%zd inline 8-bit counters): ",
833cab2bb3Spatrick            NumModules, NumInline8bitCounters);
843cab2bb3Spatrick     for (size_t i = 0; i < NumModules; i++)
853cab2bb3Spatrick       Printf("%zd [%p, %p), ", Modules[i].Size(), Modules[i].Start(),
863cab2bb3Spatrick              Modules[i].Stop());
873cab2bb3Spatrick     Printf("\n");
883cab2bb3Spatrick   }
893cab2bb3Spatrick   if (NumPCTables) {
903cab2bb3Spatrick     Printf("INFO: Loaded %zd PC tables (%zd PCs): ", NumPCTables,
913cab2bb3Spatrick            NumPCsInPCTables);
923cab2bb3Spatrick     for (size_t i = 0; i < NumPCTables; i++) {
933cab2bb3Spatrick       Printf("%zd [%p,%p), ", ModulePCTable[i].Stop - ModulePCTable[i].Start,
943cab2bb3Spatrick              ModulePCTable[i].Start, ModulePCTable[i].Stop);
953cab2bb3Spatrick     }
963cab2bb3Spatrick     Printf("\n");
973cab2bb3Spatrick 
983cab2bb3Spatrick     if (NumInline8bitCounters && NumInline8bitCounters != NumPCsInPCTables) {
993cab2bb3Spatrick       Printf("ERROR: The size of coverage PC tables does not match the\n"
1003cab2bb3Spatrick              "number of instrumented PCs. This might be a compiler bug,\n"
1013cab2bb3Spatrick              "please contact the libFuzzer developers.\n"
1023cab2bb3Spatrick              "Also check https://bugs.llvm.org/show_bug.cgi?id=34636\n"
1033cab2bb3Spatrick              "for possible workarounds (tl;dr: don't use the old GNU ld)\n");
1043cab2bb3Spatrick       _Exit(1);
1053cab2bb3Spatrick     }
1063cab2bb3Spatrick   }
1073cab2bb3Spatrick   if (size_t NumExtraCounters = ExtraCountersEnd() - ExtraCountersBegin())
1083cab2bb3Spatrick     Printf("INFO: %zd Extra Counters\n", NumExtraCounters);
109d89ec533Spatrick 
110d89ec533Spatrick   size_t MaxFeatures = CollectFeatures([](uint32_t) {});
111d89ec533Spatrick   if (MaxFeatures > std::numeric_limits<uint32_t>::max())
112d89ec533Spatrick     Printf("WARNING: The coverage PC tables may produce up to %zu features.\n"
113d89ec533Spatrick            "This exceeds the maximum 32-bit value. Some features may be\n"
114d89ec533Spatrick            "ignored, and fuzzing may become less precise. If possible,\n"
115d89ec533Spatrick            "consider refactoring the fuzzer into several smaller fuzzers\n"
116d89ec533Spatrick            "linked against only a portion of the current target.\n",
117d89ec533Spatrick            MaxFeatures);
1183cab2bb3Spatrick }
1193cab2bb3Spatrick 
1203cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
HandleCallerCallee(uintptr_t Caller,uintptr_t Callee)1213cab2bb3Spatrick void TracePC::HandleCallerCallee(uintptr_t Caller, uintptr_t Callee) {
1223cab2bb3Spatrick   const uintptr_t kBits = 12;
1233cab2bb3Spatrick   const uintptr_t kMask = (1 << kBits) - 1;
1243cab2bb3Spatrick   uintptr_t Idx = (Caller & kMask) | ((Callee & kMask) << kBits);
1253cab2bb3Spatrick   ValueProfileMap.AddValueModPrime(Idx);
1263cab2bb3Spatrick }
1273cab2bb3Spatrick 
1283cab2bb3Spatrick /// \return the address of the previous instruction.
1293cab2bb3Spatrick /// Note: the logic is copied from `sanitizer_common/sanitizer_stacktrace.h`
GetPreviousInstructionPc(uintptr_t PC)1303cab2bb3Spatrick inline ALWAYS_INLINE uintptr_t GetPreviousInstructionPc(uintptr_t PC) {
1313cab2bb3Spatrick #if defined(__arm__)
1323cab2bb3Spatrick   // T32 (Thumb) branch instructions might be 16 or 32 bit long,
1333cab2bb3Spatrick   // so we return (pc-2) in that case in order to be safe.
1343cab2bb3Spatrick   // For A32 mode we return (pc-4) because all instructions are 32 bit long.
1353cab2bb3Spatrick   return (PC - 3) & (~1);
1363cab2bb3Spatrick #elif defined(__sparc__) || defined(__mips__)
1373cab2bb3Spatrick   return PC - 8;
138*810390e3Srobert #elif defined(__riscv__)
139*810390e3Srobert   return PC - 2;
140*810390e3Srobert #elif defined(__i386__) || defined(__x86_64__) || defined(_M_IX86) || defined(_M_X64)
1413cab2bb3Spatrick   return PC - 1;
142*810390e3Srobert #else
143*810390e3Srobert   return PC - 4;
1443cab2bb3Spatrick #endif
1453cab2bb3Spatrick }
1463cab2bb3Spatrick 
1473cab2bb3Spatrick /// \return the address of the next instruction.
1483cab2bb3Spatrick /// Note: the logic is copied from `sanitizer_common/sanitizer_stacktrace.cpp`
GetNextInstructionPc(uintptr_t PC)1493cab2bb3Spatrick ALWAYS_INLINE uintptr_t TracePC::GetNextInstructionPc(uintptr_t PC) {
1503cab2bb3Spatrick #if defined(__mips__)
1513cab2bb3Spatrick   return PC + 8;
1523cab2bb3Spatrick #elif defined(__powerpc__) || defined(__sparc__) || defined(__arm__) || \
1533cab2bb3Spatrick     defined(__aarch64__)
1543cab2bb3Spatrick   return PC + 4;
1553cab2bb3Spatrick #else
1563cab2bb3Spatrick   return PC + 1;
1573cab2bb3Spatrick #endif
1583cab2bb3Spatrick }
1593cab2bb3Spatrick 
UpdateObservedPCs()1603cab2bb3Spatrick void TracePC::UpdateObservedPCs() {
161*810390e3Srobert   std::vector<uintptr_t> CoveredFuncs;
1623cab2bb3Spatrick   auto ObservePC = [&](const PCTableEntry *TE) {
1633cab2bb3Spatrick     if (ObservedPCs.insert(TE).second && DoPrintNewPCs) {
1643cab2bb3Spatrick       PrintPC("\tNEW_PC: %p %F %L", "\tNEW_PC: %p",
1653cab2bb3Spatrick               GetNextInstructionPc(TE->PC));
1663cab2bb3Spatrick       Printf("\n");
1673cab2bb3Spatrick     }
1683cab2bb3Spatrick   };
1693cab2bb3Spatrick 
1703cab2bb3Spatrick   auto Observe = [&](const PCTableEntry *TE) {
1713cab2bb3Spatrick     if (PcIsFuncEntry(TE))
1723cab2bb3Spatrick       if (++ObservedFuncs[TE->PC] == 1 && NumPrintNewFuncs)
1733cab2bb3Spatrick         CoveredFuncs.push_back(TE->PC);
1743cab2bb3Spatrick     ObservePC(TE);
1753cab2bb3Spatrick   };
1763cab2bb3Spatrick 
1773cab2bb3Spatrick   if (NumPCsInPCTables) {
1783cab2bb3Spatrick     if (NumInline8bitCounters == NumPCsInPCTables) {
1793cab2bb3Spatrick       for (size_t i = 0; i < NumModules; i++) {
1803cab2bb3Spatrick         auto &M = Modules[i];
1813cab2bb3Spatrick         assert(M.Size() ==
1823cab2bb3Spatrick                (size_t)(ModulePCTable[i].Stop - ModulePCTable[i].Start));
1833cab2bb3Spatrick         for (size_t r = 0; r < M.NumRegions; r++) {
1843cab2bb3Spatrick           auto &R = M.Regions[r];
1853cab2bb3Spatrick           if (!R.Enabled) continue;
1863cab2bb3Spatrick           for (uint8_t *P = R.Start; P < R.Stop; P++)
1873cab2bb3Spatrick             if (*P)
1883cab2bb3Spatrick               Observe(&ModulePCTable[i].Start[M.Idx(P)]);
1893cab2bb3Spatrick         }
1903cab2bb3Spatrick       }
1913cab2bb3Spatrick     }
1923cab2bb3Spatrick   }
1933cab2bb3Spatrick 
1943cab2bb3Spatrick   for (size_t i = 0, N = Min(CoveredFuncs.size(), NumPrintNewFuncs); i < N;
1953cab2bb3Spatrick        i++) {
1963cab2bb3Spatrick     Printf("\tNEW_FUNC[%zd/%zd]: ", i + 1, CoveredFuncs.size());
1973cab2bb3Spatrick     PrintPC("%p %F %L", "%p", GetNextInstructionPc(CoveredFuncs[i]));
1983cab2bb3Spatrick     Printf("\n");
1993cab2bb3Spatrick   }
2003cab2bb3Spatrick }
2013cab2bb3Spatrick 
PCTableEntryIdx(const PCTableEntry * TE)2023cab2bb3Spatrick uintptr_t TracePC::PCTableEntryIdx(const PCTableEntry *TE) {
2033cab2bb3Spatrick   size_t TotalTEs = 0;
2043cab2bb3Spatrick   for (size_t i = 0; i < NumPCTables; i++) {
2053cab2bb3Spatrick     auto &M = ModulePCTable[i];
2063cab2bb3Spatrick     if (TE >= M.Start && TE < M.Stop)
2073cab2bb3Spatrick       return TotalTEs + TE - M.Start;
2083cab2bb3Spatrick     TotalTEs += M.Stop - M.Start;
2093cab2bb3Spatrick   }
2103cab2bb3Spatrick   assert(0);
2113cab2bb3Spatrick   return 0;
2123cab2bb3Spatrick }
2133cab2bb3Spatrick 
PCTableEntryByIdx(uintptr_t Idx)2143cab2bb3Spatrick const TracePC::PCTableEntry *TracePC::PCTableEntryByIdx(uintptr_t Idx) {
2153cab2bb3Spatrick   for (size_t i = 0; i < NumPCTables; i++) {
2163cab2bb3Spatrick     auto &M = ModulePCTable[i];
2173cab2bb3Spatrick     size_t Size = M.Stop - M.Start;
2183cab2bb3Spatrick     if (Idx < Size) return &M.Start[Idx];
2193cab2bb3Spatrick     Idx -= Size;
2203cab2bb3Spatrick   }
2213cab2bb3Spatrick   return nullptr;
2223cab2bb3Spatrick }
2233cab2bb3Spatrick 
GetModuleName(uintptr_t PC)2243cab2bb3Spatrick static std::string GetModuleName(uintptr_t PC) {
2253cab2bb3Spatrick   char ModulePathRaw[4096] = "";  // What's PATH_MAX in portable C++?
2263cab2bb3Spatrick   void *OffsetRaw = nullptr;
2273cab2bb3Spatrick   if (!EF->__sanitizer_get_module_and_offset_for_pc(
2283cab2bb3Spatrick       reinterpret_cast<void *>(PC), ModulePathRaw,
2293cab2bb3Spatrick       sizeof(ModulePathRaw), &OffsetRaw))
2303cab2bb3Spatrick     return "";
2313cab2bb3Spatrick   return ModulePathRaw;
2323cab2bb3Spatrick }
2333cab2bb3Spatrick 
2343cab2bb3Spatrick template<class CallBack>
IterateCoveredFunctions(CallBack CB)2353cab2bb3Spatrick void TracePC::IterateCoveredFunctions(CallBack CB) {
2363cab2bb3Spatrick   for (size_t i = 0; i < NumPCTables; i++) {
2373cab2bb3Spatrick     auto &M = ModulePCTable[i];
2383cab2bb3Spatrick     assert(M.Start < M.Stop);
2393cab2bb3Spatrick     auto ModuleName = GetModuleName(M.Start->PC);
2403cab2bb3Spatrick     for (auto NextFE = M.Start; NextFE < M.Stop; ) {
2413cab2bb3Spatrick       auto FE = NextFE;
2423cab2bb3Spatrick       assert(PcIsFuncEntry(FE) && "Not a function entry point");
2433cab2bb3Spatrick       do {
2443cab2bb3Spatrick         NextFE++;
2453cab2bb3Spatrick       } while (NextFE < M.Stop && !(PcIsFuncEntry(NextFE)));
2463cab2bb3Spatrick       CB(FE, NextFE, ObservedFuncs[FE->PC]);
2473cab2bb3Spatrick     }
2483cab2bb3Spatrick   }
2493cab2bb3Spatrick }
2503cab2bb3Spatrick 
SetFocusFunction(const std::string & FuncName)2513cab2bb3Spatrick void TracePC::SetFocusFunction(const std::string &FuncName) {
2523cab2bb3Spatrick   // This function should be called once.
2533cab2bb3Spatrick   assert(!FocusFunctionCounterPtr);
2541f9cb04fSpatrick   // "auto" is not a valid function name. If this function is called with "auto"
2551f9cb04fSpatrick   // that means the auto focus functionality failed.
2561f9cb04fSpatrick   if (FuncName.empty() || FuncName == "auto")
2573cab2bb3Spatrick     return;
2583cab2bb3Spatrick   for (size_t M = 0; M < NumModules; M++) {
2593cab2bb3Spatrick     auto &PCTE = ModulePCTable[M];
2603cab2bb3Spatrick     size_t N = PCTE.Stop - PCTE.Start;
2613cab2bb3Spatrick     for (size_t I = 0; I < N; I++) {
2623cab2bb3Spatrick       if (!(PcIsFuncEntry(&PCTE.Start[I]))) continue;  // not a function entry.
2633cab2bb3Spatrick       auto Name = DescribePC("%F", GetNextInstructionPc(PCTE.Start[I].PC));
2643cab2bb3Spatrick       if (Name[0] == 'i' && Name[1] == 'n' && Name[2] == ' ')
2653cab2bb3Spatrick         Name = Name.substr(3, std::string::npos);
2663cab2bb3Spatrick       if (FuncName != Name) continue;
2673cab2bb3Spatrick       Printf("INFO: Focus function is set to '%s'\n", Name.c_str());
2683cab2bb3Spatrick       FocusFunctionCounterPtr = Modules[M].Start() + I;
2693cab2bb3Spatrick       return;
2703cab2bb3Spatrick     }
2713cab2bb3Spatrick   }
2721f9cb04fSpatrick 
2731f9cb04fSpatrick   Printf("ERROR: Failed to set focus function. Make sure the function name is "
2741f9cb04fSpatrick          "valid (%s) and symbolization is enabled.\n", FuncName.c_str());
2751f9cb04fSpatrick   exit(1);
2763cab2bb3Spatrick }
2773cab2bb3Spatrick 
ObservedFocusFunction()2783cab2bb3Spatrick bool TracePC::ObservedFocusFunction() {
2793cab2bb3Spatrick   return FocusFunctionCounterPtr && *FocusFunctionCounterPtr;
2803cab2bb3Spatrick }
2813cab2bb3Spatrick 
PrintCoverage(bool PrintAllCounters)282d89ec533Spatrick void TracePC::PrintCoverage(bool PrintAllCounters) {
2833cab2bb3Spatrick   if (!EF->__sanitizer_symbolize_pc ||
2843cab2bb3Spatrick       !EF->__sanitizer_get_module_and_offset_for_pc) {
2853cab2bb3Spatrick     Printf("INFO: __sanitizer_symbolize_pc or "
2863cab2bb3Spatrick            "__sanitizer_get_module_and_offset_for_pc is not available,"
2873cab2bb3Spatrick            " not printing coverage\n");
2883cab2bb3Spatrick     return;
2893cab2bb3Spatrick   }
290d89ec533Spatrick   Printf(PrintAllCounters ? "FULL COVERAGE:\n" : "COVERAGE:\n");
2913cab2bb3Spatrick   auto CoveredFunctionCallback = [&](const PCTableEntry *First,
2923cab2bb3Spatrick                                      const PCTableEntry *Last,
2933cab2bb3Spatrick                                      uintptr_t Counter) {
2943cab2bb3Spatrick     assert(First < Last);
2953cab2bb3Spatrick     auto VisualizePC = GetNextInstructionPc(First->PC);
2963cab2bb3Spatrick     std::string FileStr = DescribePC("%s", VisualizePC);
2973cab2bb3Spatrick     if (!IsInterestingCoverageFile(FileStr))
2983cab2bb3Spatrick       return;
2993cab2bb3Spatrick     std::string FunctionStr = DescribePC("%F", VisualizePC);
3003cab2bb3Spatrick     if (FunctionStr.find("in ") == 0)
3013cab2bb3Spatrick       FunctionStr = FunctionStr.substr(3);
3023cab2bb3Spatrick     std::string LineStr = DescribePC("%l", VisualizePC);
3033cab2bb3Spatrick     size_t NumEdges = Last - First;
304*810390e3Srobert     std::vector<uintptr_t> UncoveredPCs;
305*810390e3Srobert     std::vector<uintptr_t> CoveredPCs;
3063cab2bb3Spatrick     for (auto TE = First; TE < Last; TE++)
3073cab2bb3Spatrick       if (!ObservedPCs.count(TE))
3083cab2bb3Spatrick         UncoveredPCs.push_back(TE->PC);
309d89ec533Spatrick       else
310d89ec533Spatrick         CoveredPCs.push_back(TE->PC);
311d89ec533Spatrick 
312d89ec533Spatrick     if (PrintAllCounters) {
313d89ec533Spatrick       Printf("U");
314d89ec533Spatrick       for (auto PC : UncoveredPCs)
315d89ec533Spatrick         Printf(DescribePC(" %l", GetNextInstructionPc(PC)).c_str());
316d89ec533Spatrick       Printf("\n");
317d89ec533Spatrick 
318d89ec533Spatrick       Printf("C");
319d89ec533Spatrick       for (auto PC : CoveredPCs)
320d89ec533Spatrick         Printf(DescribePC(" %l", GetNextInstructionPc(PC)).c_str());
321d89ec533Spatrick       Printf("\n");
322d89ec533Spatrick     } else {
3233cab2bb3Spatrick       Printf("%sCOVERED_FUNC: hits: %zd", Counter ? "" : "UN", Counter);
3243cab2bb3Spatrick       Printf(" edges: %zd/%zd", NumEdges - UncoveredPCs.size(), NumEdges);
3253cab2bb3Spatrick       Printf(" %s %s:%s\n", FunctionStr.c_str(), FileStr.c_str(),
3263cab2bb3Spatrick              LineStr.c_str());
3273cab2bb3Spatrick       if (Counter)
3283cab2bb3Spatrick         for (auto PC : UncoveredPCs)
3293cab2bb3Spatrick           Printf("  UNCOVERED_PC: %s\n",
3303cab2bb3Spatrick                  DescribePC("%s:%l", GetNextInstructionPc(PC)).c_str());
331d89ec533Spatrick     }
3323cab2bb3Spatrick   };
3333cab2bb3Spatrick 
3343cab2bb3Spatrick   IterateCoveredFunctions(CoveredFunctionCallback);
3353cab2bb3Spatrick }
3363cab2bb3Spatrick 
3373cab2bb3Spatrick // Value profile.
3383cab2bb3Spatrick // We keep track of various values that affect control flow.
3393cab2bb3Spatrick // These values are inserted into a bit-set-based hash map.
3403cab2bb3Spatrick // Every new bit in the map is treated as a new coverage.
3413cab2bb3Spatrick //
3423cab2bb3Spatrick // For memcmp/strcmp/etc the interesting value is the length of the common
3433cab2bb3Spatrick // prefix of the parameters.
3443cab2bb3Spatrick // For cmp instructions the interesting value is a XOR of the parameters.
3453cab2bb3Spatrick // The interesting value is mixed up with the PC and is then added to the map.
3463cab2bb3Spatrick 
3473cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
AddValueForMemcmp(void * caller_pc,const void * s1,const void * s2,size_t n,bool StopAtZero)3483cab2bb3Spatrick void TracePC::AddValueForMemcmp(void *caller_pc, const void *s1, const void *s2,
3493cab2bb3Spatrick                                 size_t n, bool StopAtZero) {
3503cab2bb3Spatrick   if (!n) return;
3513cab2bb3Spatrick   size_t Len = std::min(n, Word::GetMaxSize());
3523cab2bb3Spatrick   const uint8_t *A1 = reinterpret_cast<const uint8_t *>(s1);
3533cab2bb3Spatrick   const uint8_t *A2 = reinterpret_cast<const uint8_t *>(s2);
3543cab2bb3Spatrick   uint8_t B1[Word::kMaxSize];
3553cab2bb3Spatrick   uint8_t B2[Word::kMaxSize];
3563cab2bb3Spatrick   // Copy the data into locals in this non-msan-instrumented function
3573cab2bb3Spatrick   // to avoid msan complaining further.
3583cab2bb3Spatrick   size_t Hash = 0;  // Compute some simple hash of both strings.
3593cab2bb3Spatrick   for (size_t i = 0; i < Len; i++) {
3603cab2bb3Spatrick     B1[i] = A1[i];
3613cab2bb3Spatrick     B2[i] = A2[i];
3623cab2bb3Spatrick     size_t T = B1[i];
3633cab2bb3Spatrick     Hash ^= (T << 8) | B2[i];
3643cab2bb3Spatrick   }
3653cab2bb3Spatrick   size_t I = 0;
3663cab2bb3Spatrick   uint8_t HammingDistance = 0;
3673cab2bb3Spatrick   for (; I < Len; I++) {
3683cab2bb3Spatrick     if (B1[I] != B2[I] || (StopAtZero && B1[I] == 0)) {
369d89ec533Spatrick       HammingDistance = static_cast<uint8_t>(Popcountll(B1[I] ^ B2[I]));
3703cab2bb3Spatrick       break;
3713cab2bb3Spatrick     }
3723cab2bb3Spatrick   }
3733cab2bb3Spatrick   size_t PC = reinterpret_cast<size_t>(caller_pc);
3743cab2bb3Spatrick   size_t Idx = (PC & 4095) | (I << 12);
3753cab2bb3Spatrick   Idx += HammingDistance;
3763cab2bb3Spatrick   ValueProfileMap.AddValue(Idx);
3773cab2bb3Spatrick   TORCW.Insert(Idx ^ Hash, Word(B1, Len), Word(B2, Len));
3783cab2bb3Spatrick }
3793cab2bb3Spatrick 
3803cab2bb3Spatrick template <class T>
3813cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT ALWAYS_INLINE
3823cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
HandleCmp(uintptr_t PC,T Arg1,T Arg2)3833cab2bb3Spatrick void TracePC::HandleCmp(uintptr_t PC, T Arg1, T Arg2) {
3843cab2bb3Spatrick   uint64_t ArgXor = Arg1 ^ Arg2;
3853cab2bb3Spatrick   if (sizeof(T) == 4)
3863cab2bb3Spatrick       TORC4.Insert(ArgXor, Arg1, Arg2);
3873cab2bb3Spatrick   else if (sizeof(T) == 8)
3883cab2bb3Spatrick       TORC8.Insert(ArgXor, Arg1, Arg2);
3893cab2bb3Spatrick   uint64_t HammingDistance = Popcountll(ArgXor);  // [0,64]
3903cab2bb3Spatrick   uint64_t AbsoluteDistance = (Arg1 == Arg2 ? 0 : Clzll(Arg1 - Arg2) + 1);
3913cab2bb3Spatrick   ValueProfileMap.AddValue(PC * 128 + HammingDistance);
3923cab2bb3Spatrick   ValueProfileMap.AddValue(PC * 128 + 64 + AbsoluteDistance);
3933cab2bb3Spatrick }
3943cab2bb3Spatrick 
395*810390e3Srobert ATTRIBUTE_NO_SANITIZE_MEMORY
InternalStrnlen(const char * S,size_t MaxLen)3963cab2bb3Spatrick static size_t InternalStrnlen(const char *S, size_t MaxLen) {
3973cab2bb3Spatrick   size_t Len = 0;
3983cab2bb3Spatrick   for (; Len < MaxLen && S[Len]; Len++) {}
3993cab2bb3Spatrick   return Len;
4003cab2bb3Spatrick }
4013cab2bb3Spatrick 
4023cab2bb3Spatrick // Finds min of (strlen(S1), strlen(S2)).
403*810390e3Srobert // Needed because one of these strings may actually be non-zero terminated.
404*810390e3Srobert ATTRIBUTE_NO_SANITIZE_MEMORY
InternalStrnlen2(const char * S1,const char * S2)4053cab2bb3Spatrick static size_t InternalStrnlen2(const char *S1, const char *S2) {
4063cab2bb3Spatrick   size_t Len = 0;
4073cab2bb3Spatrick   for (; S1[Len] && S2[Len]; Len++)  {}
4083cab2bb3Spatrick   return Len;
4093cab2bb3Spatrick }
4103cab2bb3Spatrick 
ClearInlineCounters()4113cab2bb3Spatrick void TracePC::ClearInlineCounters() {
4123cab2bb3Spatrick   IterateCounterRegions([](const Module::Region &R){
4133cab2bb3Spatrick     if (R.Enabled)
4143cab2bb3Spatrick       memset(R.Start, 0, R.Stop - R.Start);
4153cab2bb3Spatrick   });
4163cab2bb3Spatrick }
4173cab2bb3Spatrick 
4183cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
RecordInitialStack()4193cab2bb3Spatrick void TracePC::RecordInitialStack() {
4203cab2bb3Spatrick   int stack;
4213cab2bb3Spatrick   __sancov_lowest_stack = InitialStack = reinterpret_cast<uintptr_t>(&stack);
4223cab2bb3Spatrick }
4233cab2bb3Spatrick 
GetMaxStackOffset() const4243cab2bb3Spatrick uintptr_t TracePC::GetMaxStackOffset() const {
4253cab2bb3Spatrick   return InitialStack - __sancov_lowest_stack;  // Stack grows down
4263cab2bb3Spatrick }
4273cab2bb3Spatrick 
WarnAboutDeprecatedInstrumentation(const char * flag)4283cab2bb3Spatrick void WarnAboutDeprecatedInstrumentation(const char *flag) {
4293cab2bb3Spatrick   // Use RawPrint because Printf cannot be used on Windows before OutputFile is
4303cab2bb3Spatrick   // initialized.
4313cab2bb3Spatrick   RawPrint(flag);
4323cab2bb3Spatrick   RawPrint(
4333cab2bb3Spatrick       " is no longer supported by libFuzzer.\n"
4343cab2bb3Spatrick       "Please either migrate to a compiler that supports -fsanitize=fuzzer\n"
4353cab2bb3Spatrick       "or use an older version of libFuzzer\n");
4363cab2bb3Spatrick   exit(1);
4373cab2bb3Spatrick }
4383cab2bb3Spatrick 
4393cab2bb3Spatrick } // namespace fuzzer
4403cab2bb3Spatrick 
4413cab2bb3Spatrick extern "C" {
4423cab2bb3Spatrick ATTRIBUTE_INTERFACE
4433cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
__sanitizer_cov_trace_pc_guard(uint32_t * Guard)4443cab2bb3Spatrick void __sanitizer_cov_trace_pc_guard(uint32_t *Guard) {
4453cab2bb3Spatrick   fuzzer::WarnAboutDeprecatedInstrumentation(
4463cab2bb3Spatrick       "-fsanitize-coverage=trace-pc-guard");
4473cab2bb3Spatrick }
4483cab2bb3Spatrick 
4493cab2bb3Spatrick // Best-effort support for -fsanitize-coverage=trace-pc, which is available
4503cab2bb3Spatrick // in both Clang and GCC.
4513cab2bb3Spatrick ATTRIBUTE_INTERFACE
4523cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
__sanitizer_cov_trace_pc()4533cab2bb3Spatrick void __sanitizer_cov_trace_pc() {
4543cab2bb3Spatrick   fuzzer::WarnAboutDeprecatedInstrumentation("-fsanitize-coverage=trace-pc");
4553cab2bb3Spatrick }
4563cab2bb3Spatrick 
4573cab2bb3Spatrick ATTRIBUTE_INTERFACE
__sanitizer_cov_trace_pc_guard_init(uint32_t * Start,uint32_t * Stop)4583cab2bb3Spatrick void __sanitizer_cov_trace_pc_guard_init(uint32_t *Start, uint32_t *Stop) {
4593cab2bb3Spatrick   fuzzer::WarnAboutDeprecatedInstrumentation(
4603cab2bb3Spatrick       "-fsanitize-coverage=trace-pc-guard");
4613cab2bb3Spatrick }
4623cab2bb3Spatrick 
4633cab2bb3Spatrick ATTRIBUTE_INTERFACE
__sanitizer_cov_8bit_counters_init(uint8_t * Start,uint8_t * Stop)4643cab2bb3Spatrick void __sanitizer_cov_8bit_counters_init(uint8_t *Start, uint8_t *Stop) {
4653cab2bb3Spatrick   fuzzer::TPC.HandleInline8bitCountersInit(Start, Stop);
4663cab2bb3Spatrick }
4673cab2bb3Spatrick 
4683cab2bb3Spatrick ATTRIBUTE_INTERFACE
__sanitizer_cov_pcs_init(const uintptr_t * pcs_beg,const uintptr_t * pcs_end)4693cab2bb3Spatrick void __sanitizer_cov_pcs_init(const uintptr_t *pcs_beg,
4703cab2bb3Spatrick                               const uintptr_t *pcs_end) {
4713cab2bb3Spatrick   fuzzer::TPC.HandlePCsInit(pcs_beg, pcs_end);
4723cab2bb3Spatrick }
4733cab2bb3Spatrick 
4743cab2bb3Spatrick ATTRIBUTE_INTERFACE
4753cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
__sanitizer_cov_trace_pc_indir(uintptr_t Callee)4763cab2bb3Spatrick void __sanitizer_cov_trace_pc_indir(uintptr_t Callee) {
4773cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
4783cab2bb3Spatrick   fuzzer::TPC.HandleCallerCallee(PC, Callee);
4793cab2bb3Spatrick }
4803cab2bb3Spatrick 
4813cab2bb3Spatrick ATTRIBUTE_INTERFACE
4823cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
4833cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_cmp8(uint64_t Arg1,uint64_t Arg2)4843cab2bb3Spatrick void __sanitizer_cov_trace_cmp8(uint64_t Arg1, uint64_t Arg2) {
4853cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
4863cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
4873cab2bb3Spatrick }
4883cab2bb3Spatrick 
4893cab2bb3Spatrick ATTRIBUTE_INTERFACE
4903cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
4913cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
4923cab2bb3Spatrick // Now the __sanitizer_cov_trace_const_cmp[1248] callbacks just mimic
4933cab2bb3Spatrick // the behaviour of __sanitizer_cov_trace_cmp[1248] ones. This, however,
4943cab2bb3Spatrick // should be changed later to make full use of instrumentation.
__sanitizer_cov_trace_const_cmp8(uint64_t Arg1,uint64_t Arg2)4953cab2bb3Spatrick void __sanitizer_cov_trace_const_cmp8(uint64_t Arg1, uint64_t Arg2) {
4963cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
4973cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
4983cab2bb3Spatrick }
4993cab2bb3Spatrick 
5003cab2bb3Spatrick ATTRIBUTE_INTERFACE
5013cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5023cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_cmp4(uint32_t Arg1,uint32_t Arg2)5033cab2bb3Spatrick void __sanitizer_cov_trace_cmp4(uint32_t Arg1, uint32_t Arg2) {
5043cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5053cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5063cab2bb3Spatrick }
5073cab2bb3Spatrick 
5083cab2bb3Spatrick ATTRIBUTE_INTERFACE
5093cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5103cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_const_cmp4(uint32_t Arg1,uint32_t Arg2)5113cab2bb3Spatrick void __sanitizer_cov_trace_const_cmp4(uint32_t Arg1, uint32_t Arg2) {
5123cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5133cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5143cab2bb3Spatrick }
5153cab2bb3Spatrick 
5163cab2bb3Spatrick ATTRIBUTE_INTERFACE
5173cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5183cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_cmp2(uint16_t Arg1,uint16_t Arg2)5193cab2bb3Spatrick void __sanitizer_cov_trace_cmp2(uint16_t Arg1, uint16_t Arg2) {
5203cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5213cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5223cab2bb3Spatrick }
5233cab2bb3Spatrick 
5243cab2bb3Spatrick ATTRIBUTE_INTERFACE
5253cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5263cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_const_cmp2(uint16_t Arg1,uint16_t Arg2)5273cab2bb3Spatrick void __sanitizer_cov_trace_const_cmp2(uint16_t Arg1, uint16_t Arg2) {
5283cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5293cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5303cab2bb3Spatrick }
5313cab2bb3Spatrick 
5323cab2bb3Spatrick ATTRIBUTE_INTERFACE
5333cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5343cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_cmp1(uint8_t Arg1,uint8_t Arg2)5353cab2bb3Spatrick void __sanitizer_cov_trace_cmp1(uint8_t Arg1, uint8_t Arg2) {
5363cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5373cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5383cab2bb3Spatrick }
5393cab2bb3Spatrick 
5403cab2bb3Spatrick ATTRIBUTE_INTERFACE
5413cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5423cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_const_cmp1(uint8_t Arg1,uint8_t Arg2)5433cab2bb3Spatrick void __sanitizer_cov_trace_const_cmp1(uint8_t Arg1, uint8_t Arg2) {
5443cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5453cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Arg1, Arg2);
5463cab2bb3Spatrick }
5473cab2bb3Spatrick 
5483cab2bb3Spatrick ATTRIBUTE_INTERFACE
5493cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5503cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_switch(uint64_t Val,uint64_t * Cases)5513cab2bb3Spatrick void __sanitizer_cov_trace_switch(uint64_t Val, uint64_t *Cases) {
5523cab2bb3Spatrick   uint64_t N = Cases[0];
5533cab2bb3Spatrick   uint64_t ValSizeInBits = Cases[1];
5543cab2bb3Spatrick   uint64_t *Vals = Cases + 2;
5553cab2bb3Spatrick   // Skip the most common and the most boring case: all switch values are small.
5563cab2bb3Spatrick   // We may want to skip this at compile-time, but it will make the
5573cab2bb3Spatrick   // instrumentation less general.
5583cab2bb3Spatrick   if (Vals[N - 1]  < 256)
5593cab2bb3Spatrick     return;
5603cab2bb3Spatrick   // Also skip small inputs values, they won't give good signal.
5613cab2bb3Spatrick   if (Val < 256)
5623cab2bb3Spatrick     return;
5633cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
5643cab2bb3Spatrick   size_t i;
5653cab2bb3Spatrick   uint64_t Smaller = 0;
5663cab2bb3Spatrick   uint64_t Larger = ~(uint64_t)0;
5673cab2bb3Spatrick   // Find two switch values such that Smaller < Val < Larger.
5683cab2bb3Spatrick   // Use 0 and 0xfff..f as the defaults.
5693cab2bb3Spatrick   for (i = 0; i < N; i++) {
5703cab2bb3Spatrick     if (Val < Vals[i]) {
5713cab2bb3Spatrick       Larger = Vals[i];
5723cab2bb3Spatrick       break;
5733cab2bb3Spatrick     }
5743cab2bb3Spatrick     if (Val > Vals[i]) Smaller = Vals[i];
5753cab2bb3Spatrick   }
5763cab2bb3Spatrick 
5773cab2bb3Spatrick   // Apply HandleCmp to {Val,Smaller} and {Val, Larger},
5783cab2bb3Spatrick   // use i as the PC modifier for HandleCmp.
5793cab2bb3Spatrick   if (ValSizeInBits == 16) {
5803cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2 * i, static_cast<uint16_t>(Val),
5813cab2bb3Spatrick                           (uint16_t)(Smaller));
5823cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2 * i + 1, static_cast<uint16_t>(Val),
5833cab2bb3Spatrick                           (uint16_t)(Larger));
5843cab2bb3Spatrick   } else if (ValSizeInBits == 32) {
5853cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2 * i, static_cast<uint32_t>(Val),
5863cab2bb3Spatrick                           (uint32_t)(Smaller));
5873cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2 * i + 1, static_cast<uint32_t>(Val),
5883cab2bb3Spatrick                           (uint32_t)(Larger));
5893cab2bb3Spatrick   } else {
5903cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2*i, Val, Smaller);
5913cab2bb3Spatrick     fuzzer::TPC.HandleCmp(PC + 2*i + 1, Val, Larger);
5923cab2bb3Spatrick   }
5933cab2bb3Spatrick }
5943cab2bb3Spatrick 
5953cab2bb3Spatrick ATTRIBUTE_INTERFACE
5963cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
5973cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_div4(uint32_t Val)5983cab2bb3Spatrick void __sanitizer_cov_trace_div4(uint32_t Val) {
5993cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
6003cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Val, (uint32_t)0);
6013cab2bb3Spatrick }
6023cab2bb3Spatrick 
6033cab2bb3Spatrick ATTRIBUTE_INTERFACE
6043cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
6053cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_div8(uint64_t Val)6063cab2bb3Spatrick void __sanitizer_cov_trace_div8(uint64_t Val) {
6073cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
6083cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Val, (uint64_t)0);
6093cab2bb3Spatrick }
6103cab2bb3Spatrick 
6113cab2bb3Spatrick ATTRIBUTE_INTERFACE
6123cab2bb3Spatrick ATTRIBUTE_NO_SANITIZE_ALL
6133cab2bb3Spatrick ATTRIBUTE_TARGET_POPCNT
__sanitizer_cov_trace_gep(uintptr_t Idx)6143cab2bb3Spatrick void __sanitizer_cov_trace_gep(uintptr_t Idx) {
6153cab2bb3Spatrick   uintptr_t PC = reinterpret_cast<uintptr_t>(GET_CALLER_PC());
6163cab2bb3Spatrick   fuzzer::TPC.HandleCmp(PC, Idx, (uintptr_t)0);
6173cab2bb3Spatrick }
6183cab2bb3Spatrick 
6193cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_memcmp(void * caller_pc,const void * s1,const void * s2,size_t n,int result)6203cab2bb3Spatrick void __sanitizer_weak_hook_memcmp(void *caller_pc, const void *s1,
6213cab2bb3Spatrick                                   const void *s2, size_t n, int result) {
6223cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6233cab2bb3Spatrick   if (result == 0) return;  // No reason to mutate.
6243cab2bb3Spatrick   if (n <= 1) return;  // Not interesting.
6253cab2bb3Spatrick   fuzzer::TPC.AddValueForMemcmp(caller_pc, s1, s2, n, /*StopAtZero*/false);
6263cab2bb3Spatrick }
6273cab2bb3Spatrick 
6283cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strncmp(void * caller_pc,const char * s1,const char * s2,size_t n,int result)6293cab2bb3Spatrick void __sanitizer_weak_hook_strncmp(void *caller_pc, const char *s1,
6303cab2bb3Spatrick                                    const char *s2, size_t n, int result) {
6313cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6323cab2bb3Spatrick   if (result == 0) return;  // No reason to mutate.
6333cab2bb3Spatrick   size_t Len1 = fuzzer::InternalStrnlen(s1, n);
6343cab2bb3Spatrick   size_t Len2 = fuzzer::InternalStrnlen(s2, n);
6353cab2bb3Spatrick   n = std::min(n, Len1);
6363cab2bb3Spatrick   n = std::min(n, Len2);
6373cab2bb3Spatrick   if (n <= 1) return;  // Not interesting.
6383cab2bb3Spatrick   fuzzer::TPC.AddValueForMemcmp(caller_pc, s1, s2, n, /*StopAtZero*/true);
6393cab2bb3Spatrick }
6403cab2bb3Spatrick 
6413cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strcmp(void * caller_pc,const char * s1,const char * s2,int result)6423cab2bb3Spatrick void __sanitizer_weak_hook_strcmp(void *caller_pc, const char *s1,
6433cab2bb3Spatrick                                    const char *s2, int result) {
6443cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6453cab2bb3Spatrick   if (result == 0) return;  // No reason to mutate.
6463cab2bb3Spatrick   size_t N = fuzzer::InternalStrnlen2(s1, s2);
6473cab2bb3Spatrick   if (N <= 1) return;  // Not interesting.
6483cab2bb3Spatrick   fuzzer::TPC.AddValueForMemcmp(caller_pc, s1, s2, N, /*StopAtZero*/true);
6493cab2bb3Spatrick }
6503cab2bb3Spatrick 
6513cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strncasecmp(void * called_pc,const char * s1,const char * s2,size_t n,int result)6523cab2bb3Spatrick void __sanitizer_weak_hook_strncasecmp(void *called_pc, const char *s1,
6533cab2bb3Spatrick                                        const char *s2, size_t n, int result) {
6543cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6553cab2bb3Spatrick   return __sanitizer_weak_hook_strncmp(called_pc, s1, s2, n, result);
6563cab2bb3Spatrick }
6573cab2bb3Spatrick 
6583cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strcasecmp(void * called_pc,const char * s1,const char * s2,int result)6593cab2bb3Spatrick void __sanitizer_weak_hook_strcasecmp(void *called_pc, const char *s1,
6603cab2bb3Spatrick                                       const char *s2, int result) {
6613cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6623cab2bb3Spatrick   return __sanitizer_weak_hook_strcmp(called_pc, s1, s2, result);
6633cab2bb3Spatrick }
6643cab2bb3Spatrick 
6653cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strstr(void * called_pc,const char * s1,const char * s2,char * result)6663cab2bb3Spatrick void __sanitizer_weak_hook_strstr(void *called_pc, const char *s1,
6673cab2bb3Spatrick                                   const char *s2, char *result) {
6683cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6693cab2bb3Spatrick   fuzzer::TPC.MMT.Add(reinterpret_cast<const uint8_t *>(s2), strlen(s2));
6703cab2bb3Spatrick }
6713cab2bb3Spatrick 
6723cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_strcasestr(void * called_pc,const char * s1,const char * s2,char * result)6733cab2bb3Spatrick void __sanitizer_weak_hook_strcasestr(void *called_pc, const char *s1,
6743cab2bb3Spatrick                                       const char *s2, char *result) {
6753cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6763cab2bb3Spatrick   fuzzer::TPC.MMT.Add(reinterpret_cast<const uint8_t *>(s2), strlen(s2));
6773cab2bb3Spatrick }
6783cab2bb3Spatrick 
6793cab2bb3Spatrick ATTRIBUTE_INTERFACE ATTRIBUTE_NO_SANITIZE_MEMORY
__sanitizer_weak_hook_memmem(void * called_pc,const void * s1,size_t len1,const void * s2,size_t len2,void * result)6803cab2bb3Spatrick void __sanitizer_weak_hook_memmem(void *called_pc, const void *s1, size_t len1,
6813cab2bb3Spatrick                                   const void *s2, size_t len2, void *result) {
6823cab2bb3Spatrick   if (!fuzzer::RunningUserCallback) return;
6833cab2bb3Spatrick   fuzzer::TPC.MMT.Add(reinterpret_cast<const uint8_t *>(s2), len2);
6843cab2bb3Spatrick }
6853cab2bb3Spatrick }  // extern "C"
686