/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* 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 "mozilla/Bootstrap.h" #include "nsXPCOMPrivate.h" #include #include #include "mozilla/FileUtils.h" #include "mozilla/Result.h" #include "mozilla/UniquePtr.h" #include "mozilla/UniquePtrExtensions.h" using namespace mozilla; #define XPCOM_DEPENDENT_LIBS_LIST "dependentlibs.list" #if defined(XP_WIN) # define READ_TEXTMODE L"rt" #else # define READ_TEXTMODE "r" #endif typedef void (*NSFuncPtr)(); #if defined(XP_WIN) # include using LibHandleType = HMODULE; #else using LibHandleType = void*; #endif using LibHandleResult = ::mozilla::Result; #if defined(XP_WIN) # include # include "mozilla/WindowsVersion.h" # include "mozilla/PreXULSkeletonUI.h" static LibHandleResult GetLibHandle(pathstr_t aDependentLib) { LibHandleType libHandle = LoadLibraryExW(aDependentLib, nullptr, LOAD_WITH_ALTERED_SEARCH_PATH); if (!libHandle) { DWORD err = GetLastError(); # if defined(DEBUG) LPWSTR lpMsgBuf; FormatMessageW(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, nullptr, err, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPWSTR)&lpMsgBuf, 0, nullptr); wprintf(L"Error loading %ls: %s\n", aDependentLib, lpMsgBuf); LocalFree(lpMsgBuf); # endif // defined(DEBUG) return Err(err); } return libHandle; } static NSFuncPtr GetSymbol(LibHandleType aLibHandle, const char* aSymbol) { return (NSFuncPtr)GetProcAddress(aLibHandle, aSymbol); } static void CloseLibHandle(LibHandleType aLibHandle) { FreeLibrary(aLibHandle); } #else # include # if defined(MOZ_LINKER) extern "C" { NS_HIDDEN __typeof(dlopen) __wrap_dlopen; NS_HIDDEN __typeof(dlsym) __wrap_dlsym; NS_HIDDEN __typeof(dlclose) __wrap_dlclose; } # define dlopen __wrap_dlopen # define dlsym __wrap_dlsym # define dlclose __wrap_dlclose # endif static LibHandleResult GetLibHandle(pathstr_t aDependentLib) { LibHandleType libHandle = dlopen(aDependentLib, RTLD_GLOBAL | RTLD_LAZY # ifdef XP_MACOSX | RTLD_FIRST # endif ); if (!libHandle) { UniqueFreePtr errMsg(strdup(dlerror())); fprintf(stderr, "XPCOMGlueLoad error for file %s:\n%s\n", aDependentLib, errMsg.get()); return Err(std::move(errMsg)); } return libHandle; } static NSFuncPtr GetSymbol(LibHandleType aLibHandle, const char* aSymbol) { return (NSFuncPtr)dlsym(aLibHandle, aSymbol); } # if !defined(MOZ_LINKER) && !defined(__ANDROID__) static void CloseLibHandle(LibHandleType aLibHandle) { dlclose(aLibHandle); } # endif #endif struct DependentLib { LibHandleType libHandle; DependentLib* next; }; static DependentLib* sTop; static void AppendDependentLib(LibHandleType aLibHandle) { auto* d = new DependentLib; if (!d) { return; } d->next = sTop; d->libHandle = aLibHandle; sTop = d; } using ReadDependentCBResult = ::mozilla::Result<::mozilla::Ok, DLErrorType>; static ReadDependentCBResult ReadDependentCB( pathstr_t aDependentLib, LibLoadingStrategy aLibLoadingStrategy) { #if !defined(MOZ_LINKER) && !defined(__ANDROID__) // Don't bother doing a ReadAhead if we're not in the parent process. // What we need from the library should already be in the system file // cache. if (aLibLoadingStrategy == LibLoadingStrategy::ReadAhead) { ReadAheadLib(aDependentLib); } #endif LibHandleType libHandle; MOZ_TRY_VAR(libHandle, GetLibHandle(aDependentLib)); AppendDependentLib(libHandle); return Ok(); } #ifdef XP_WIN static ReadDependentCBResult ReadDependentCB( const char* aDependentLib, LibLoadingStrategy aLibLoadingStrategy) { wchar_t wideDependentLib[MAX_PATH]; MultiByteToWideChar(CP_UTF8, 0, aDependentLib, -1, wideDependentLib, MAX_PATH); return ReadDependentCB(wideDependentLib, aLibLoadingStrategy); } inline FILE* TS_tfopen(const char* path, const wchar_t* mode) { wchar_t wPath[MAX_PATH]; MultiByteToWideChar(CP_UTF8, 0, path, -1, wPath, MAX_PATH); return _wfopen(wPath, mode); } #else inline FILE* TS_tfopen(const char* aPath, const char* aMode) { return fopen(aPath, aMode); } #endif /* RAII wrapper for FILE descriptors */ struct ScopedCloseFileTraits { typedef FILE* type; static type empty() { return nullptr; } static void release(type aFile) { if (aFile) { fclose(aFile); } } }; typedef Scoped ScopedCloseFile; #if !defined(MOZ_LINKER) && !defined(__ANDROID__) static void XPCOMGlueUnload() { while (sTop) { CloseLibHandle(sTop->libHandle); DependentLib* temp = sTop; sTop = sTop->next; delete temp; } } #endif #if defined(XP_WIN) // like strpbrk but finds the *last* char, not the first static const char* ns_strrpbrk(const char* string, const char* strCharSet) { const char* found = nullptr; for (; *string; ++string) { for (const char* search = strCharSet; *search; ++search) { if (*search == *string) { found = string; // Since we're looking for the last char, we save "found" // until we're at the end of the string. } } } return found; } #endif using XPCOMGlueLoadError = BootstrapError; using XPCOMGlueLoadResult = ::mozilla::Result<::mozilla::Ok, XPCOMGlueLoadError>; static XPCOMGlueLoadResult XPCOMGlueLoad( const char* aXPCOMFile, LibLoadingStrategy aLibLoadingStrategy) { #if defined(MOZ_LINKER) || defined(__ANDROID__) ReadDependentCBResult readDependentCBResult = ReadDependentCB(aXPCOMFile, aLibLoadingStrategy); if (readDependentCBResult.isErr()) { return Err(AsVariant(readDependentCBResult.unwrapErr())); } #else char xpcomDir[MAXPATHLEN]; # ifdef XP_WIN const char* lastSlash = ns_strrpbrk(aXPCOMFile, "/\\"); # elif XP_MACOSX // On OSX, the dependentlibs.list file lives under Contents/Resources. // However, the actual libraries listed in dependentlibs.list live under // Contents/MacOS. We want to read the list from Contents/Resources, then // load the libraries from Contents/MacOS. const char* tempSlash = strrchr(aXPCOMFile, '/'); size_t tempLen = size_t(tempSlash - aXPCOMFile); if (tempLen > MAXPATHLEN) { return Err(AsVariant(NS_ERROR_FAILURE)); } char tempBuffer[MAXPATHLEN]; memcpy(tempBuffer, aXPCOMFile, tempLen); tempBuffer[tempLen] = '\0'; const char* slash = strrchr(tempBuffer, '/'); tempLen = size_t(slash - tempBuffer); const char* lastSlash = aXPCOMFile + tempLen; # else const char* lastSlash = strrchr(aXPCOMFile, '/'); # endif char* cursor; if (lastSlash) { size_t len = size_t(lastSlash - aXPCOMFile); if (len > MAXPATHLEN - sizeof(XPCOM_FILE_PATH_SEPARATOR # ifdef XP_MACOSX "Resources" XPCOM_FILE_PATH_SEPARATOR # endif XPCOM_DEPENDENT_LIBS_LIST)) { return Err(AsVariant(NS_ERROR_FAILURE)); } memcpy(xpcomDir, aXPCOMFile, len); strcpy(xpcomDir + len, XPCOM_FILE_PATH_SEPARATOR # ifdef XP_MACOSX "Resources" XPCOM_FILE_PATH_SEPARATOR # endif XPCOM_DEPENDENT_LIBS_LIST); cursor = xpcomDir + len + 1; } else { strcpy(xpcomDir, XPCOM_DEPENDENT_LIBS_LIST); cursor = xpcomDir; } if (getenv("MOZ_RUN_GTEST") # ifdef FUZZING || getenv("FUZZER") # endif ) { strcat(xpcomDir, ".gtest"); } ScopedCloseFile flist; flist = TS_tfopen(xpcomDir, READ_TEXTMODE); if (!flist) { return Err(AsVariant(NS_ERROR_FAILURE)); } # ifdef XP_MACOSX tempLen = size_t(cursor - xpcomDir); if (tempLen > MAXPATHLEN - sizeof("MacOS" XPCOM_FILE_PATH_SEPARATOR) - 1) { return Err(AsVariant(NS_ERROR_FAILURE)); } strcpy(cursor, "MacOS" XPCOM_FILE_PATH_SEPARATOR); cursor += strlen(cursor); # endif *cursor = '\0'; char buffer[MAXPATHLEN]; while (fgets(buffer, sizeof(buffer), flist)) { int l = strlen(buffer); // ignore empty lines and comments if (l == 0 || *buffer == '#') { continue; } # ifdef XP_WIN // There is no point in reading Universal CRT forwarder DLLs ahead on // Windows 10 because they will not be touched later. if (IsWin10OrLater() && !strncmp(buffer, "api-", 4)) { continue; } # endif // cut the trailing newline, if present if (buffer[l - 1] == '\n') { buffer[l - 1] = '\0'; } if (l + size_t(cursor - xpcomDir) > MAXPATHLEN) { return Err(AsVariant(NS_ERROR_FAILURE)); } strcpy(cursor, buffer); ReadDependentCBResult readDependentCBResult = ReadDependentCB(xpcomDir, aLibLoadingStrategy); if (readDependentCBResult.isErr()) { XPCOMGlueUnload(); return Err(AsVariant(readDependentCBResult.unwrapErr())); } # ifdef XP_WIN // We call PollPreXULSkeletonUIEvents here in order to not get flagged by // Windows as nonresponsive. In order to not be flagged as such, we seem to // simply need to respond to *a* message every few seconds. The halfway // point on slow systems between process start and nsWindow taking over the // skeleton UI window seems to be XUL being loaded. Accordingly, placing // this call here covers the most ground (as we will call this after // prefetching and loading all of the dlls in dependentlibs.list, which // includes xul.dll.) PollPreXULSkeletonUIEvents(); # endif } #endif return Ok(); } #if defined(MOZ_WIDGET_GTK) && \ (defined(MOZ_MEMORY) || defined(__FreeBSD__) || defined(__NetBSD__)) # define MOZ_GSLICE_INIT #endif #ifdef MOZ_GSLICE_INIT # include class GSliceInit { public: GSliceInit() { mHadGSlice = bool(getenv("G_SLICE")); if (!mHadGSlice) { // Disable the slice allocator, since jemalloc already uses similar layout // algorithms, and using a sub-allocator tends to increase fragmentation. // This must be done before g_thread_init() is called. // glib >= 2.36 initializes g_slice as a side effect of its various static // initializers, so this needs to happen before glib is loaded, which is // this is hooked in XPCOMGlueStartup before libxul is loaded. This // relies on the main executable not depending on glib. setenv("G_SLICE", "always-malloc", 1); } } ~GSliceInit() { if (!mHadGSlice) { unsetenv("G_SLICE"); } } private: bool mHadGSlice; }; #endif namespace mozilla { BootstrapResult GetBootstrap(const char* aXPCOMFile, LibLoadingStrategy aLibLoadingStrategy) { #ifdef MOZ_GSLICE_INIT GSliceInit gSliceInit; #endif if (!aXPCOMFile) { return Err(AsVariant(NS_ERROR_INVALID_ARG)); } char* lastSlash = strrchr(const_cast(aXPCOMFile), XPCOM_FILE_PATH_SEPARATOR[0]); if (!lastSlash) { return Err(AsVariant(NS_ERROR_FILE_INVALID_PATH)); } size_t base_len = size_t(lastSlash - aXPCOMFile) + 1; UniqueFreePtr file( reinterpret_cast(malloc(base_len + sizeof(XPCOM_DLL)))); memcpy(file.get(), aXPCOMFile, base_len); memcpy(file.get() + base_len, XPCOM_DLL, sizeof(XPCOM_DLL)); MOZ_TRY(XPCOMGlueLoad(file.get(), aLibLoadingStrategy)); GetBootstrapType func = (GetBootstrapType)GetSymbol(sTop->libHandle, "XRE_GetBootstrap"); if (!func) { return Err(AsVariant(NS_ERROR_NOT_AVAILABLE)); } Bootstrap::UniquePtr b; (*func)(b); return b; } } // namespace mozilla