//===-- esan.cpp ----------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file is a part of EfficiencySanitizer, a family of performance tuners. // // Main file (entry points) for the Esan run-time. //===----------------------------------------------------------------------===// #include "esan.h" #include "esan_flags.h" #include "esan_interface_internal.h" #include "esan_shadow.h" #include "cache_frag.h" #include "sanitizer_common/sanitizer_common.h" #include "sanitizer_common/sanitizer_flag_parser.h" #include "sanitizer_common/sanitizer_flags.h" #include "working_set.h" // See comment below. extern "C" { extern void __cxa_atexit(void (*function)(void)); } namespace __esan { bool EsanIsInitialized; bool EsanDuringInit; ShadowMapping Mapping; // Different tools use different scales within the same shadow mapping scheme. // The scale used here must match that used by the compiler instrumentation. // This array is indexed by the ToolType enum. static const uptr ShadowScale[] = { 0, // ESAN_None. 2, // ESAN_CacheFrag: 4B:1B, so 4 to 1 == >>2. 6, // ESAN_WorkingSet: 64B:1B, so 64 to 1 == >>6. }; // We are combining multiple performance tuning tools under the umbrella of // one EfficiencySanitizer super-tool. Most of our tools have very similar // memory access instrumentation, shadow memory mapping, libc interception, // etc., and there is typically more shared code than distinct code. // // We are not willing to dispatch on tool dynamically in our fastpath // instrumentation: thus, which tool to use is a static option selected // at compile time and passed to __esan_init(). // // We are willing to pay the overhead of tool dispatch in the slowpath to more // easily share code. We expect to only come here rarely. // If this becomes a performance hit, we can add separate interface // routines for each subtool (e.g., __esan_cache_frag_aligned_load_4). // But for libc interceptors, we'll have to do one of the following: // A) Add multiple-include support to sanitizer_common_interceptors.inc, // instantiate it separately for each tool, and call the selected // tool's intercept setup code. // B) Build separate static runtime libraries, one for each tool. // C) Completely split the tools into separate sanitizers. void processRangeAccess(uptr PC, uptr Addr, int Size, bool IsWrite) { VPrintf(3, "in esan::%s %p: %c %p %d\n", __FUNCTION__, PC, IsWrite ? 'w' : 'r', Addr, Size); if (__esan_which_tool == ESAN_CacheFrag) { // TODO(bruening): add shadow mapping and update shadow bits here. // We'll move this to cache_frag.cpp once we have something. } else if (__esan_which_tool == ESAN_WorkingSet) { processRangeAccessWorkingSet(PC, Addr, Size, IsWrite); } } bool processSignal(int SigNum, void (*Handler)(int), void (**Result)(int)) { if (__esan_which_tool == ESAN_WorkingSet) return processWorkingSetSignal(SigNum, Handler, Result); return true; } bool processSigaction(int SigNum, const void *Act, void *OldAct) { if (__esan_which_tool == ESAN_WorkingSet) return processWorkingSetSigaction(SigNum, Act, OldAct); return true; } bool processSigprocmask(int How, void *Set, void *OldSet) { if (__esan_which_tool == ESAN_WorkingSet) return processWorkingSetSigprocmask(How, Set, OldSet); return true; } #if SANITIZER_DEBUG static bool verifyShadowScheme() { // Sanity checks for our shadow mapping scheme. uptr AppStart, AppEnd; if (Verbosity() >= 3) { for (int i = 0; getAppRegion(i, &AppStart, &AppEnd); ++i) { VPrintf(3, "App #%d: [%zx-%zx) (%zuGB)\n", i, AppStart, AppEnd, (AppEnd - AppStart) >> 30); } } for (int Scale = 0; Scale < 8; ++Scale) { Mapping.initialize(Scale); if (Verbosity() >= 3) { VPrintf(3, "\nChecking scale %d\n", Scale); uptr ShadowStart, ShadowEnd; for (int i = 0; getShadowRegion(i, &ShadowStart, &ShadowEnd); ++i) { VPrintf(3, "Shadow #%d: [%zx-%zx) (%zuGB)\n", i, ShadowStart, ShadowEnd, (ShadowEnd - ShadowStart) >> 30); } for (int i = 0; getShadowRegion(i, &ShadowStart, &ShadowEnd); ++i) { VPrintf(3, "Shadow(Shadow) #%d: [%zx-%zx)\n", i, appToShadow(ShadowStart), appToShadow(ShadowEnd - 1)+1); } } for (int i = 0; getAppRegion(i, &AppStart, &AppEnd); ++i) { DCHECK(isAppMem(AppStart)); DCHECK(!isAppMem(AppStart - 1)); DCHECK(isAppMem(AppEnd - 1)); DCHECK(!isAppMem(AppEnd)); DCHECK(!isShadowMem(AppStart)); DCHECK(!isShadowMem(AppEnd - 1)); DCHECK(isShadowMem(appToShadow(AppStart))); DCHECK(isShadowMem(appToShadow(AppEnd - 1))); // Double-shadow checks. DCHECK(!isShadowMem(appToShadow(appToShadow(AppStart)))); DCHECK(!isShadowMem(appToShadow(appToShadow(AppEnd - 1)))); } // Ensure no shadow regions overlap each other. uptr ShadowAStart, ShadowBStart, ShadowAEnd, ShadowBEnd; for (int i = 0; getShadowRegion(i, &ShadowAStart, &ShadowAEnd); ++i) { for (int j = 0; getShadowRegion(j, &ShadowBStart, &ShadowBEnd); ++j) { DCHECK(i == j || ShadowAStart >= ShadowBEnd || ShadowAEnd <= ShadowBStart); } } } return true; } #endif static void initializeShadow() { verifyAddressSpace(); DCHECK(verifyShadowScheme()); Mapping.initialize(ShadowScale[__esan_which_tool]); VPrintf(1, "Shadow scale=%d offset=%p\n", Mapping.Scale, Mapping.Offset); uptr ShadowStart, ShadowEnd; for (int i = 0; getShadowRegion(i, &ShadowStart, &ShadowEnd); ++i) { VPrintf(1, "Shadow #%d: [%zx-%zx) (%zuGB)\n", i, ShadowStart, ShadowEnd, (ShadowEnd - ShadowStart) >> 30); uptr Map; if (__esan_which_tool == ESAN_WorkingSet) { // We want to identify all shadow pages that are touched so we start // out inaccessible. Map = (uptr)MmapFixedNoAccess(ShadowStart, ShadowEnd- ShadowStart, "shadow"); } else { Map = (uptr)MmapFixedNoReserve(ShadowStart, ShadowEnd - ShadowStart, "shadow"); } if (Map != ShadowStart) { Printf("FATAL: EfficiencySanitizer failed to map its shadow memory.\n"); Die(); } if (common_flags()->no_huge_pages_for_shadow) NoHugePagesInRegion(ShadowStart, ShadowEnd - ShadowStart); if (common_flags()->use_madv_dontdump) DontDumpShadowMemory(ShadowStart, ShadowEnd - ShadowStart); // TODO: Call MmapNoAccess() on in-between regions. } } void initializeLibrary(ToolType Tool) { // We assume there is only one thread during init, but we need to // guard against double-init when we're (re-)called from an // early interceptor. if (EsanIsInitialized || EsanDuringInit) return; EsanDuringInit = true; CHECK(Tool == __esan_which_tool); SanitizerToolName = "EfficiencySanitizer"; CacheBinaryName(); initializeFlags(); // Intercepting libc _exit or exit via COMMON_INTERCEPTOR_ON_EXIT only // finalizes on an explicit exit call by the app. To handle a normal // exit we register an atexit handler. ::__cxa_atexit((void (*)())finalizeLibrary); VPrintf(1, "in esan::%s\n", __FUNCTION__); if (__esan_which_tool <= ESAN_None || __esan_which_tool >= ESAN_Max) { Printf("ERROR: unknown tool %d requested\n", __esan_which_tool); Die(); } initializeShadow(); if (__esan_which_tool == ESAN_WorkingSet) initializeShadowWorkingSet(); initializeInterceptors(); if (__esan_which_tool == ESAN_CacheFrag) { initializeCacheFrag(); } else if (__esan_which_tool == ESAN_WorkingSet) { initializeWorkingSet(); } EsanIsInitialized = true; EsanDuringInit = false; } int finalizeLibrary() { VPrintf(1, "in esan::%s\n", __FUNCTION__); if (__esan_which_tool == ESAN_CacheFrag) { return finalizeCacheFrag(); } else if (__esan_which_tool == ESAN_WorkingSet) { return finalizeWorkingSet(); } return 0; } void reportResults() { VPrintf(1, "in esan::%s\n", __FUNCTION__); if (__esan_which_tool == ESAN_CacheFrag) { return reportCacheFrag(); } else if (__esan_which_tool == ESAN_WorkingSet) { return reportWorkingSet(); } } void processCompilationUnitInit(void *Ptr) { VPrintf(2, "in esan::%s\n", __FUNCTION__); if (__esan_which_tool == ESAN_CacheFrag) { DCHECK(Ptr != nullptr); processCacheFragCompilationUnitInit(Ptr); } else { DCHECK(Ptr == nullptr); } } // This is called when the containing module is unloaded. // For the main executable module, this is called after finalizeLibrary. void processCompilationUnitExit(void *Ptr) { VPrintf(2, "in esan::%s\n", __FUNCTION__); if (__esan_which_tool == ESAN_CacheFrag) { DCHECK(Ptr != nullptr); processCacheFragCompilationUnitExit(Ptr); } else { DCHECK(Ptr == nullptr); } } } // namespace __esan