// Copyright (c) 2010, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include #include #include #include "breakpad_googletest_includes.h" #include "client/windows/crash_generation/minidump_generator.h" #include "client/windows/unittests/dump_analysis.h" // NOLINT namespace { // Minidump with stacks, PEB, TEB, and unloaded module list. const MINIDUMP_TYPE kSmallDumpType = static_cast( MiniDumpWithProcessThreadData | // Get PEB and TEB. MiniDumpWithUnloadedModules); // Get unloaded modules when available. // Minidump with all of the above, plus memory referenced from stack. const MINIDUMP_TYPE kLargerDumpType = static_cast( MiniDumpWithProcessThreadData | // Get PEB and TEB. MiniDumpWithUnloadedModules | // Get unloaded modules when available. MiniDumpWithIndirectlyReferencedMemory); // Get memory referenced by stack. // Large dump with all process memory. const MINIDUMP_TYPE kFullDumpType = static_cast( MiniDumpWithFullMemory | // Full memory from process. MiniDumpWithProcessThreadData | // Get PEB and TEB. MiniDumpWithHandleData | // Get all handle information. MiniDumpWithUnloadedModules); // Get unloaded modules when available. class MinidumpTest: public testing::Test { public: MinidumpTest() { wchar_t temp_dir_path[ MAX_PATH ] = {0}; ::GetTempPath(MAX_PATH, temp_dir_path); dump_path_ = temp_dir_path; } virtual void SetUp() { // Make sure URLMon isn't loaded into our process. ASSERT_EQ(NULL, ::GetModuleHandle(L"urlmon.dll")); // Then load and unload it to ensure we have something to // stock the unloaded module list with. HMODULE urlmon = ::LoadLibrary(L"urlmon.dll"); ASSERT_TRUE(urlmon != NULL); ASSERT_TRUE(::FreeLibrary(urlmon)); } virtual void TearDown() { if (!dump_file_.empty()) { ::DeleteFile(dump_file_.c_str()); dump_file_ = L""; } if (!full_dump_file_.empty()) { ::DeleteFile(full_dump_file_.c_str()); full_dump_file_ = L""; } } bool WriteDump(ULONG flags) { using google_breakpad::MinidumpGenerator; // Fake exception is access violation on write to this. EXCEPTION_RECORD ex_record = { STATUS_ACCESS_VIOLATION, // ExceptionCode 0, // ExceptionFlags NULL, // ExceptionRecord; reinterpret_cast(static_cast(0xCAFEBABE)), // ExceptionAddress; 2, // NumberParameters; { EXCEPTION_WRITE_FAULT, reinterpret_cast(this) } }; CONTEXT ctx_record = {}; EXCEPTION_POINTERS ex_ptrs = { &ex_record, &ctx_record, }; MinidumpGenerator generator(dump_path_, ::GetCurrentProcess(), ::GetCurrentProcessId(), ::GetCurrentThreadId(), ::GetCurrentThreadId(), &ex_ptrs, NULL, static_cast(flags), TRUE); generator.GenerateDumpFile(&dump_file_); generator.GenerateFullDumpFile(&full_dump_file_); // And write a dump bool result = generator.WriteMinidump(); return result == TRUE; } protected: std::wstring dump_file_; std::wstring full_dump_file_; std::wstring dump_path_; }; // We need to be able to get file information from Windows bool HasFileInfo(const std::wstring& file_path) { DWORD dummy; const wchar_t* path = file_path.c_str(); DWORD length = ::GetFileVersionInfoSize(path, &dummy); if (length == 0) return NULL; void* data = calloc(length, 1); if (!data) return false; if (!::GetFileVersionInfo(path, dummy, length, data)) { free(data); return false; } void* translate = NULL; UINT page_count; BOOL query_result = VerQueryValue( data, L"\\VarFileInfo\\Translation", static_cast(&translate), &page_count); free(data); if (query_result && translate) { return true; } else { return false; } } TEST_F(MinidumpTest, Version) { // Loads DbgHelp.dll in process ImagehlpApiVersion(); HMODULE dbg_help = ::GetModuleHandle(L"dbghelp.dll"); ASSERT_TRUE(dbg_help != NULL); wchar_t dbg_help_file[1024] = {}; ASSERT_TRUE(::GetModuleFileName(dbg_help, dbg_help_file, sizeof(dbg_help_file) / sizeof(*dbg_help_file))); ASSERT_TRUE(HasFileInfo(std::wstring(dbg_help_file)) != NULL); // LOG(INFO) << "DbgHelp.dll version: " << file_info->file_version(); } TEST_F(MinidumpTest, Normal) { EXPECT_TRUE(WriteDump(MiniDumpNormal)); DumpAnalysis mini(dump_file_); // We expect threads, modules and some memory. EXPECT_TRUE(mini.HasStream(ThreadListStream)); EXPECT_TRUE(mini.HasStream(ModuleListStream)); EXPECT_TRUE(mini.HasStream(MemoryListStream)); EXPECT_TRUE(mini.HasStream(ExceptionStream)); EXPECT_TRUE(mini.HasStream(SystemInfoStream)); EXPECT_TRUE(mini.HasStream(MiscInfoStream)); EXPECT_FALSE(mini.HasStream(ThreadExListStream)); EXPECT_FALSE(mini.HasStream(Memory64ListStream)); EXPECT_FALSE(mini.HasStream(CommentStreamA)); EXPECT_FALSE(mini.HasStream(CommentStreamW)); EXPECT_FALSE(mini.HasStream(HandleDataStream)); EXPECT_FALSE(mini.HasStream(FunctionTableStream)); EXPECT_FALSE(mini.HasStream(UnloadedModuleListStream)); EXPECT_FALSE(mini.HasStream(MemoryInfoListStream)); EXPECT_FALSE(mini.HasStream(ThreadInfoListStream)); EXPECT_FALSE(mini.HasStream(HandleOperationListStream)); EXPECT_FALSE(mini.HasStream(TokenStream)); // We expect no PEB nor TEBs in this dump. EXPECT_FALSE(mini.HasTebs()); EXPECT_FALSE(mini.HasPeb()); // We expect no off-stack memory in this dump. EXPECT_FALSE(mini.HasMemory(this)); } TEST_F(MinidumpTest, SmallDump) { ASSERT_TRUE(WriteDump(kSmallDumpType)); DumpAnalysis mini(dump_file_); EXPECT_TRUE(mini.HasStream(ThreadListStream)); EXPECT_TRUE(mini.HasStream(ModuleListStream)); EXPECT_TRUE(mini.HasStream(MemoryListStream)); EXPECT_TRUE(mini.HasStream(ExceptionStream)); EXPECT_TRUE(mini.HasStream(SystemInfoStream)); EXPECT_TRUE(mini.HasStream(UnloadedModuleListStream)); EXPECT_TRUE(mini.HasStream(MiscInfoStream)); // We expect PEB and TEBs in this dump. EXPECT_TRUE(mini.HasTebs()); EXPECT_TRUE(mini.HasPeb()); EXPECT_FALSE(mini.HasStream(ThreadExListStream)); EXPECT_FALSE(mini.HasStream(Memory64ListStream)); EXPECT_FALSE(mini.HasStream(CommentStreamA)); EXPECT_FALSE(mini.HasStream(CommentStreamW)); EXPECT_FALSE(mini.HasStream(HandleDataStream)); EXPECT_FALSE(mini.HasStream(FunctionTableStream)); EXPECT_FALSE(mini.HasStream(MemoryInfoListStream)); EXPECT_FALSE(mini.HasStream(ThreadInfoListStream)); EXPECT_FALSE(mini.HasStream(HandleOperationListStream)); EXPECT_FALSE(mini.HasStream(TokenStream)); // We expect no off-stack memory in this dump. EXPECT_FALSE(mini.HasMemory(this)); } TEST_F(MinidumpTest, LargerDump) { ASSERT_TRUE(WriteDump(kLargerDumpType)); DumpAnalysis mini(dump_file_); // The dump should have all of these streams. EXPECT_TRUE(mini.HasStream(ThreadListStream)); EXPECT_TRUE(mini.HasStream(ModuleListStream)); EXPECT_TRUE(mini.HasStream(MemoryListStream)); EXPECT_TRUE(mini.HasStream(ExceptionStream)); EXPECT_TRUE(mini.HasStream(SystemInfoStream)); EXPECT_TRUE(mini.HasStream(UnloadedModuleListStream)); EXPECT_TRUE(mini.HasStream(MiscInfoStream)); // We expect memory referenced by stack in this dump. EXPECT_TRUE(mini.HasMemory(this)); // We expect PEB and TEBs in this dump. EXPECT_TRUE(mini.HasTebs()); EXPECT_TRUE(mini.HasPeb()); EXPECT_FALSE(mini.HasStream(ThreadExListStream)); EXPECT_FALSE(mini.HasStream(Memory64ListStream)); EXPECT_FALSE(mini.HasStream(CommentStreamA)); EXPECT_FALSE(mini.HasStream(CommentStreamW)); EXPECT_FALSE(mini.HasStream(HandleDataStream)); EXPECT_FALSE(mini.HasStream(FunctionTableStream)); EXPECT_FALSE(mini.HasStream(MemoryInfoListStream)); EXPECT_FALSE(mini.HasStream(ThreadInfoListStream)); EXPECT_FALSE(mini.HasStream(HandleOperationListStream)); EXPECT_FALSE(mini.HasStream(TokenStream)); } TEST_F(MinidumpTest, FullDump) { ASSERT_TRUE(WriteDump(kFullDumpType)); ASSERT_TRUE(dump_file_ != L""); ASSERT_TRUE(full_dump_file_ != L""); DumpAnalysis mini(dump_file_); DumpAnalysis full(full_dump_file_); // Either dumps can contain part of the information. // The dump should have all of these streams. EXPECT_TRUE(mini.HasStream(ThreadListStream)); EXPECT_TRUE(full.HasStream(ThreadListStream)); EXPECT_TRUE(mini.HasStream(ModuleListStream)); EXPECT_TRUE(full.HasStream(ModuleListStream)); EXPECT_TRUE(mini.HasStream(ExceptionStream)); EXPECT_TRUE(full.HasStream(ExceptionStream)); EXPECT_TRUE(mini.HasStream(SystemInfoStream)); EXPECT_TRUE(full.HasStream(SystemInfoStream)); EXPECT_TRUE(mini.HasStream(UnloadedModuleListStream)); EXPECT_TRUE(full.HasStream(UnloadedModuleListStream)); EXPECT_TRUE(mini.HasStream(MiscInfoStream)); EXPECT_TRUE(full.HasStream(MiscInfoStream)); EXPECT_TRUE(mini.HasStream(HandleDataStream)); EXPECT_TRUE(full.HasStream(HandleDataStream)); // We expect memory referenced by stack in this dump. EXPECT_FALSE(mini.HasMemory(this)); EXPECT_TRUE(full.HasMemory(this)); // We expect PEB and TEBs in this dump. EXPECT_TRUE(mini.HasTebs() || full.HasTebs()); EXPECT_TRUE(mini.HasPeb() || full.HasPeb()); EXPECT_TRUE(mini.HasStream(MemoryListStream)); EXPECT_TRUE(full.HasStream(Memory64ListStream)); EXPECT_FALSE(mini.HasStream(Memory64ListStream)); EXPECT_FALSE(full.HasStream(MemoryListStream)); // This is the only place we don't use OR because we want both not // to have the streams. EXPECT_FALSE(mini.HasStream(ThreadExListStream)); EXPECT_FALSE(full.HasStream(ThreadExListStream)); EXPECT_FALSE(mini.HasStream(CommentStreamA)); EXPECT_FALSE(full.HasStream(CommentStreamA)); EXPECT_FALSE(mini.HasStream(CommentStreamW)); EXPECT_FALSE(full.HasStream(CommentStreamW)); EXPECT_FALSE(mini.HasStream(FunctionTableStream)); EXPECT_FALSE(full.HasStream(FunctionTableStream)); EXPECT_FALSE(mini.HasStream(MemoryInfoListStream)); EXPECT_FALSE(full.HasStream(MemoryInfoListStream)); EXPECT_FALSE(mini.HasStream(ThreadInfoListStream)); EXPECT_FALSE(full.HasStream(ThreadInfoListStream)); EXPECT_FALSE(mini.HasStream(HandleOperationListStream)); EXPECT_FALSE(full.HasStream(HandleOperationListStream)); EXPECT_FALSE(mini.HasStream(TokenStream)); EXPECT_FALSE(full.HasStream(TokenStream)); } } // namespace