/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "PoisonIOInterposer.h" #include "mach_override.h" #include "mozilla/ArrayUtils.h" #include "mozilla/Assertions.h" #include "mozilla/DebugOnly.h" #include "mozilla/IOInterposer.h" #include "mozilla/Mutex.h" #include "mozilla/UniquePtrExtensions.h" #include "nsPrintfCString.h" #include "mozilla/StackWalk.h" #include "nsTraceRefcnt.h" #include "plstr.h" #include "prio.h" #include #include #include #include #include #include #include #include #include #include #ifdef MOZ_REPLACE_MALLOC #include "replace_malloc_bridge.h" #endif namespace { using namespace mozilla; // Bit tracking if poisoned writes are enabled static bool sIsEnabled = false; // Check if writes are dirty before reporting IO static bool sOnlyReportDirtyWrites = false; // Routines for write validation bool IsValidWrite(int aFd, const void* aWbuf, size_t aCount); bool IsIPCWrite(int aFd, const struct stat& aBuf); /******************************** IO AutoTimer ********************************/ /** * RAII class for timing the duration of an I/O call and reporting the result * to the IOInterposeObserver API. */ class MacIOAutoObservation : public IOInterposeObserver::Observation { public: MacIOAutoObservation(IOInterposeObserver::Operation aOp, int aFd) : IOInterposeObserver::Observation(aOp, sReference, sIsEnabled && !IsDebugFile(aFd)) , mFd(aFd) , mHasQueriedFilename(false) , mFilename(nullptr) { } MacIOAutoObservation(IOInterposeObserver::Operation aOp, int aFd, const void* aBuf, size_t aCount) : IOInterposeObserver::Observation(aOp, sReference, sIsEnabled && !IsDebugFile(aFd) && IsValidWrite(aFd, aBuf, aCount)) , mFd(aFd) , mHasQueriedFilename(false) , mFilename(nullptr) { } // Custom implementation of IOInterposeObserver::Observation::Filename const char16_t* Filename() override; ~MacIOAutoObservation() { Report(); if (mFilename) { free(mFilename); mFilename = nullptr; } } private: int mFd; bool mHasQueriedFilename; char16_t* mFilename; static const char* sReference; }; const char* MacIOAutoObservation::sReference = "PoisonIOInterposer"; // Get filename for this observation const char16_t* MacIOAutoObservation::Filename() { // If mHasQueriedFilename is true, then we already have it if (mHasQueriedFilename) { return mFilename; } char filename[MAXPATHLEN]; if (fcntl(mFd, F_GETPATH, filename) != -1) { mFilename = UTF8ToNewUnicode(nsDependentCString(filename)); } else { mFilename = nullptr; } mHasQueriedFilename = true; // Return filename return mFilename; } /****************************** Write Validation ******************************/ // We want to detect "actual" writes, not IPC. Some IPC mechanisms are // implemented with file descriptors, so filter them out. bool IsIPCWrite(int aFd, const struct stat& aBuf) { if ((aBuf.st_mode & S_IFMT) == S_IFIFO) { return true; } if ((aBuf.st_mode & S_IFMT) != S_IFSOCK) { return false; } sockaddr_storage address; socklen_t len = sizeof(address); if (getsockname(aFd, (sockaddr*)&address, &len) != 0) { return true; // Ignore the aFd if we can't find what it is. } return address.ss_family == AF_UNIX; } // We want to report actual disk IO not things that don't move bits on the disk bool IsValidWrite(int aFd, const void* aWbuf, size_t aCount) { // Ignore writes of zero bytes, Firefox does some during shutdown. if (aCount == 0) { return false; } { struct stat buf; int rv = fstat(aFd, &buf); if (rv != 0) { return true; } if (IsIPCWrite(aFd, buf)) { return false; } } // For writev we pass a nullptr aWbuf. We should only get here from // dbm, and it uses write, so assert that we have aWbuf. if (!aWbuf) { return true; } // Break, here if we're allowed to report non-dirty writes if (!sOnlyReportDirtyWrites) { return true; } // As a really bad hack, accept writes that don't change the on disk // content. This is needed because dbm doesn't keep track of dirty bits // and can end up writing the same data to disk twice. Once when the // user (nss) asks it to sync and once when closing the database. auto wbuf2 = MakeUniqueFallible(aCount); if (!wbuf2) { return true; } off_t pos = lseek(aFd, 0, SEEK_CUR); if (pos == -1) { return true; } ssize_t r = read(aFd, wbuf2.get(), aCount); if (r < 0 || (size_t)r != aCount) { return true; } int cmp = memcmp(aWbuf, wbuf2.get(), aCount); if (cmp != 0) { return true; } off_t pos2 = lseek(aFd, pos, SEEK_SET); if (pos2 != pos) { return true; } // Otherwise this is not a valid write return false; } /*************************** Function Interception ***************************/ /** Structure for declaration of function override */ struct FuncData { const char* Name; // Name of the function for the ones we use dlsym const void* Wrapper; // The function that we will replace 'Function' with void* Function; // The function that will be replaced with 'Wrapper' void* Buffer; // Will point to the jump buffer that lets us call // 'Function' after it has been replaced. }; // Wrap aio_write. We have not seen it before, so just assert/report it. typedef ssize_t (*aio_write_t)(struct aiocb* aAioCbp); ssize_t wrap_aio_write(struct aiocb* aAioCbp); FuncData aio_write_data = { 0, (void*)wrap_aio_write, (void*)aio_write }; ssize_t wrap_aio_write(struct aiocb* aAioCbp) { MacIOAutoObservation timer(IOInterposeObserver::OpWrite, aAioCbp->aio_fildes); aio_write_t old_write = (aio_write_t)aio_write_data.Buffer; return old_write(aAioCbp); } // Wrap pwrite-like functions. // We have not seen them before, so just assert/report it. typedef ssize_t (*pwrite_t)(int aFd, const void* buf, size_t aNumBytes, off_t aOffset); template ssize_t wrap_pwrite_temp(int aFd, const void* aBuf, size_t aNumBytes, off_t aOffset) { MacIOAutoObservation timer(IOInterposeObserver::OpWrite, aFd); pwrite_t old_write = (pwrite_t)foo.Buffer; return old_write(aFd, aBuf, aNumBytes, aOffset); } // Define a FuncData for a pwrite-like functions. #define DEFINE_PWRITE_DATA(X, NAME) \ FuncData X ## _data = { NAME, (void*) wrap_pwrite_temp }; \ // This exists everywhere. DEFINE_PWRITE_DATA(pwrite, "pwrite") // These exist on 32 bit OS X DEFINE_PWRITE_DATA(pwrite_NOCANCEL_UNIX2003, "pwrite$NOCANCEL$UNIX2003"); DEFINE_PWRITE_DATA(pwrite_UNIX2003, "pwrite$UNIX2003"); // This exists on 64 bit OS X DEFINE_PWRITE_DATA(pwrite_NOCANCEL, "pwrite$NOCANCEL"); typedef ssize_t (*writev_t)(int aFd, const struct iovec* aIov, int aIovCount); template ssize_t wrap_writev_temp(int aFd, const struct iovec* aIov, int aIovCount) { MacIOAutoObservation timer(IOInterposeObserver::OpWrite, aFd, nullptr, aIovCount); writev_t old_write = (writev_t)foo.Buffer; return old_write(aFd, aIov, aIovCount); } // Define a FuncData for a writev-like functions. #define DEFINE_WRITEV_DATA(X, NAME) \ FuncData X ## _data = { NAME, (void*) wrap_writev_temp }; \ // This exists everywhere. DEFINE_WRITEV_DATA(writev, "writev"); // These exist on 32 bit OS X DEFINE_WRITEV_DATA(writev_NOCANCEL_UNIX2003, "writev$NOCANCEL$UNIX2003"); DEFINE_WRITEV_DATA(writev_UNIX2003, "writev$UNIX2003"); // This exists on 64 bit OS X DEFINE_WRITEV_DATA(writev_NOCANCEL, "writev$NOCANCEL"); typedef ssize_t (*write_t)(int aFd, const void* aBuf, size_t aCount); template ssize_t wrap_write_temp(int aFd, const void* aBuf, size_t aCount) { MacIOAutoObservation timer(IOInterposeObserver::OpWrite, aFd, aBuf, aCount); write_t old_write = (write_t)foo.Buffer; return old_write(aFd, aBuf, aCount); } // Define a FuncData for a write-like functions. #define DEFINE_WRITE_DATA(X, NAME) \ FuncData X ## _data = { NAME, (void*) wrap_write_temp }; \ // This exists everywhere. DEFINE_WRITE_DATA(write, "write"); // These exist on 32 bit OS X DEFINE_WRITE_DATA(write_NOCANCEL_UNIX2003, "write$NOCANCEL$UNIX2003"); DEFINE_WRITE_DATA(write_UNIX2003, "write$UNIX2003"); // This exists on 64 bit OS X DEFINE_WRITE_DATA(write_NOCANCEL, "write$NOCANCEL"); FuncData* Functions[] = { &aio_write_data, &pwrite_data, &pwrite_NOCANCEL_UNIX2003_data, &pwrite_UNIX2003_data, &pwrite_NOCANCEL_data, &write_data, &write_NOCANCEL_UNIX2003_data, &write_UNIX2003_data, &write_NOCANCEL_data, &writev_data, &writev_NOCANCEL_UNIX2003_data, &writev_UNIX2003_data, &writev_NOCANCEL_data }; const int NumFunctions = ArrayLength(Functions); } // namespace /******************************** IO Poisoning ********************************/ namespace mozilla { void InitPoisonIOInterposer() { // Enable reporting from poisoned write methods sIsEnabled = true; // Make sure we only poison writes once! static bool WritesArePoisoned = false; if (WritesArePoisoned) { return; } WritesArePoisoned = true; // stdout and stderr are OK. MozillaRegisterDebugFD(1); MozillaRegisterDebugFD(2); #ifdef MOZ_REPLACE_MALLOC // The contract with InitDebugFd is that the given registry can be used // at any moment, so the instance needs to persist longer than the scope // of this functions. static DebugFdRegistry registry; ReplaceMalloc::InitDebugFd(registry); #endif for (int i = 0; i < NumFunctions; ++i) { FuncData* d = Functions[i]; if (!d->Function) { d->Function = dlsym(RTLD_DEFAULT, d->Name); } if (!d->Function) { continue; } DebugOnly t = mach_override_ptr(d->Function, d->Wrapper, &d->Buffer); MOZ_ASSERT(t == err_none); } } void OnlyReportDirtyWrites() { sOnlyReportDirtyWrites = true; } void ClearPoisonIOInterposer() { // Not sure how or if we can unpoison the functions. Would be nice, but no // worries we won't need to do this anyway. sIsEnabled = false; } } // namespace mozilla