Index: src/client/windows/unittests/dump_analysis.h |
=================================================================== |
--- src/client/windows/unittests/dump_analysis.h (revision 592) |
+++ src/client/windows/unittests/dump_analysis.h (working copy) |
@@ -27,456 +27,76 @@ |
// (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 <windows.h> |
-#include <objbase.h> |
-#include <dbghelp.h> |
+#ifndef CLIENT_WINDOWS_UNITTESTS_DUMP_ANALYSIS_H_ |
+#define CLIENT_WINDOWS_UNITTESTS_DUMP_ANALYSIS_H_ |
-#include "gtest/gtest.h" |
+#include "../crash_generation/minidump_generator.h" |
-namespace { |
- |
// Convenience to get to the PEB pointer in a TEB. |
struct FakeTEB { |
char dummy[0x30]; |
void* peb; |
}; |
-// Minidump with stacks, PEB, TEB, and unloaded module list. |
-const MINIDUMP_TYPE kSmallDumpType = static_cast<MINIDUMP_TYPE>( |
- 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<MINIDUMP_TYPE>( |
- 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<MINIDUMP_TYPE>( |
- 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 { |
+class DumpAnalysis { |
public: |
- MinidumpTest() : dump_file_view_(NULL), dump_file_handle_(NULL), |
- dump_file_mapping_(NULL) { |
- } |
- |
- 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)); |
- |
- wchar_t temp_dir_path[ MAX_PATH ] = {0}; |
- wchar_t dump_file_name[ MAX_PATH ] = {0}; |
- ::GetTempPath(MAX_PATH, temp_dir_path); |
- ::GetTempFileName(temp_dir_path, L"tst", 0, dump_file_name); |
- dump_file_ = dump_file_name; |
- dump_file_handle_ = ::CreateFile(dump_file_.c_str(), |
- GENERIC_WRITE | GENERIC_READ, |
- 0, |
- NULL, |
- OPEN_EXISTING, |
- 0, |
- NULL); |
- ASSERT_TRUE(dump_file_handle_ != NULL); |
- } |
- |
- virtual void TearDown() { |
- if (dump_file_view_ != NULL) { |
- EXPECT_TRUE(::UnmapViewOfFile(dump_file_view_)); |
- ::CloseHandle(dump_file_mapping_); |
- dump_file_mapping_ = NULL; |
- } |
- |
- ::CloseHandle(dump_file_handle_); |
- dump_file_handle_ = NULL; |
- |
- EXPECT_TRUE(::DeleteFile(dump_file_.c_str())); |
- } |
- |
- void EnsureDumpMapped() { |
- ASSERT_TRUE(dump_file_handle_ != NULL); |
- if (dump_file_view_ == NULL) { |
- ASSERT_TRUE(dump_file_mapping_ == NULL); |
- |
- dump_file_mapping_ = ::CreateFileMapping(dump_file_handle_, |
- NULL, |
- PAGE_READONLY, |
- 0, |
- 0, |
- NULL); |
- ASSERT_TRUE(dump_file_mapping_ != NULL); |
- |
- dump_file_view_ = ::MapViewOfFile(dump_file_mapping_, |
- FILE_MAP_READ, |
- 0, |
- 0, |
- 0); |
- ASSERT_TRUE(dump_file_view_ != NULL); |
- } |
- } |
- |
- bool WriteDump(ULONG flags) { |
- // Fake exception is access violation on write to this. |
- EXCEPTION_RECORD ex_record = { |
- STATUS_ACCESS_VIOLATION, // ExceptionCode |
- 0, // ExceptionFlags |
- NULL, // ExceptionRecord; |
- reinterpret_cast<void*>(0xCAFEBABE), // ExceptionAddress; |
- 2, // NumberParameters; |
- { EXCEPTION_WRITE_FAULT, reinterpret_cast<ULONG_PTR>(this) } |
- }; |
- CONTEXT ctx_record = {}; |
- EXCEPTION_POINTERS ex_ptrs = { |
- &ex_record, |
- &ctx_record, |
- }; |
- MINIDUMP_EXCEPTION_INFORMATION ex_info = { |
- ::GetCurrentThreadId(), |
- &ex_ptrs, |
- FALSE, |
- }; |
- |
- // Capture our register context. |
- ::RtlCaptureContext(&ctx_record); |
- |
- // And write a dump |
- BOOL result = ::MiniDumpWriteDump(::GetCurrentProcess(), |
- ::GetCurrentProcessId(), |
- dump_file_handle_, |
- static_cast<MINIDUMP_TYPE>(flags), |
- &ex_info, |
- NULL, |
- NULL); |
- return result == TRUE; |
- } |
- |
- bool DumpHasStream(ULONG stream_number) { |
+ explicit DumpAnalysis(const std::wstring& file_path) |
+ : dump_file_(file_path), dump_file_view_(NULL), dump_file_mapping_(NULL), |
+ dump_file_handle_(NULL) { |
EnsureDumpMapped(); |
- |
- MINIDUMP_DIRECTORY* directory = NULL; |
- void* stream = NULL; |
- ULONG stream_size = 0; |
- BOOL ret = ::MiniDumpReadDumpStream(dump_file_view_, |
- stream_number, |
- &directory, |
- &stream, |
- &stream_size); |
- |
- return ret != FALSE && stream != NULL && stream_size > 0; |
} |
+ ~DumpAnalysis(); |
- template <class StreamType> |
- size_t GetStream(ULONG stream_number, StreamType** stream) { |
- EnsureDumpMapped(); |
- MINIDUMP_DIRECTORY* directory = NULL; |
- ULONG memory_list_size = 0; |
- BOOL ret = ::MiniDumpReadDumpStream(dump_file_view_, |
- stream_number, |
- &directory, |
- reinterpret_cast<void**>(stream), |
- &memory_list_size); |
+ bool HasStream(ULONG stream_number) const; |
- return ret ? memory_list_size : 0; |
+ // This is template to keep type safety in the front, but we end up casting |
+ // to void** inside the implementation to pass the pointer to Win32. So |
+ // casting here is considered safe. |
+ template <class StreamType> |
+ size_t GetStream(ULONG stream_number, StreamType** stream) const { |
+ return GetStreamImpl(stream_number, reinterpret_cast<void**>(stream)); |
} |
- bool DumpHasTebs() { |
- MINIDUMP_THREAD_LIST* thread_list = NULL; |
- size_t thread_list_size = GetStream(ThreadListStream, &thread_list); |
- |
- if (thread_list_size > 0 && thread_list != NULL) { |
- for (ULONG i = 0; i < thread_list->NumberOfThreads; ++i) { |
- if (!DumpHasMemory(thread_list->Threads[i].Teb)) |
- return false; |
- } |
- |
- return true; |
- } |
- |
- // No thread list, no TEB info. |
- return false; |
+ bool HasTebs() const; |
+ bool HasPeb() const; |
+ bool HasMemory(ULONG64 address) const { |
+ return HasMemory<BYTE>(address, NULL); |
} |
- bool DumpHasPeb() { |
- MINIDUMP_THREAD_LIST* thread_list = NULL; |
- size_t thread_list_size = GetStream(ThreadListStream, &thread_list); |
- |
- if (thread_list_size > 0 && thread_list != NULL && |
- thread_list->NumberOfThreads > 0) { |
- FakeTEB* teb = NULL; |
- if (!DumpHasMemory(thread_list->Threads[0].Teb, &teb)) |
- return false; |
- |
- return DumpHasMemory(teb->peb); |
- } |
- |
- return false; |
+ bool HasMemory(const void* address) const { |
+ return HasMemory<BYTE>(address, NULL); |
} |
- bool DumpHasMemory(ULONG64 address) { |
- return DumpHasMemory<BYTE>(address, NULL); |
- } |
- |
- bool DumpHasMemory(const void* address) { |
- return DumpHasMemory<BYTE>(address, NULL); |
- } |
- |
template <class StructureType> |
- bool DumpHasMemory(ULONG64 address, StructureType** structure = NULL) { |
+ bool HasMemory(ULONG64 address, StructureType** structure = NULL) const { |
// We can't cope with 64 bit addresses for now. |
if (address > 0xFFFFFFFFUL) |
return false; |
- return DumpHasMemory(reinterpret_cast<void*>(address), structure); |
+ return HasMemory(reinterpret_cast<void*>(address), structure); |
} |
template <class StructureType> |
- bool DumpHasMemory(const void* addr_in, StructureType** structure = NULL) { |
- uintptr_t address = reinterpret_cast<uintptr_t>(addr_in); |
- MINIDUMP_MEMORY_LIST* memory_list = NULL; |
- size_t memory_list_size = GetStream(MemoryListStream, &memory_list); |
- if (memory_list_size > 0 && memory_list != NULL) { |
- for (ULONG i = 0; i < memory_list->NumberOfMemoryRanges; ++i) { |
- MINIDUMP_MEMORY_DESCRIPTOR& descr = memory_list->MemoryRanges[i]; |
- const uintptr_t range_start = |
- static_cast<uintptr_t>(descr.StartOfMemoryRange); |
- uintptr_t range_end = range_start + descr.Memory.DataSize; |
- |
- if (address >= range_start && |
- address + sizeof(StructureType) < range_end) { |
- // The start address falls in the range, and the end address is |
- // in bounds, return a pointer to the structure if requested. |
- if (structure != NULL) |
- *structure = reinterpret_cast<StructureType*>( |
- RVA_TO_ADDR(dump_file_view_, descr.Memory.Rva)); |
- |
- return true; |
- } |
- } |
- } |
- |
- // We didn't find the range in a MINIDUMP_MEMORY_LIST, so maybe this |
- // is a full dump using MINIDUMP_MEMORY64_LIST with all the memory at the |
- // end of the dump file. |
- MINIDUMP_MEMORY64_LIST* memory64_list = NULL; |
- memory_list_size = GetStream(Memory64ListStream, &memory64_list); |
- if (memory_list_size > 0 && memory64_list != NULL) { |
- // Keep track of where the current descriptor maps to. |
- RVA64 curr_rva = memory64_list->BaseRva; |
- for (ULONG i = 0; i < memory64_list->NumberOfMemoryRanges; ++i) { |
- MINIDUMP_MEMORY_DESCRIPTOR64& descr = memory64_list->MemoryRanges[i]; |
- uintptr_t range_start = |
- static_cast<uintptr_t>(descr.StartOfMemoryRange); |
- uintptr_t range_end = range_start + static_cast<size_t>(descr.DataSize); |
- |
- if (address >= range_start && |
- address + sizeof(StructureType) < range_end) { |
- // The start address falls in the range, and the end address is |
- // in bounds, return a pointer to the structure if requested. |
- if (structure != NULL) |
- *structure = reinterpret_cast<StructureType*>( |
- RVA_TO_ADDR(dump_file_view_, curr_rva)); |
- |
- return true; |
- } |
- |
- // Advance the current RVA. |
- curr_rva += descr.DataSize; |
- } |
- } |
- |
- |
- |
- return false; |
+ bool HasMemory(const void* addr_in, StructureType** structure = NULL) const { |
+ return HasMemoryImpl(addr_in, sizeof(StructureType), |
+ reinterpret_cast<void**>(structure)); |
} |
protected: |
- HANDLE dump_file_handle_; |
+ void EnsureDumpMapped(); |
+ |
HANDLE dump_file_mapping_; |
+ HANDLE dump_file_handle_; |
void* dump_file_view_; |
- |
std::wstring dump_file_; |
-}; |
-// 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; |
+ private: |
+ // This is the implementation of GetStream<>. |
+ size_t GetStreamImpl(ULONG stream_number, void** stream) const; |
- void* data = calloc(length, 1); |
- if (!data) |
- return false; |
+ // This is the implementation of HasMemory<>. |
+ bool HasMemoryImpl(const void* addr_in, size_t pointersize, |
+ void** structure) const; |
+}; |
- 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<void**>(&translate), |
- &page_count); |
- |
- free(data); |
- if (query_result && translate) { |
- return true; |
- } else { |
- return false; |
- } |
-} |
- |
-TEST_F(MinidumpTest, Version) { |
- API_VERSION* version = ::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)); |
- |
- // We expect threads, modules and some memory. |
- EXPECT_TRUE(DumpHasStream(ThreadListStream)); |
- EXPECT_TRUE(DumpHasStream(ModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MemoryListStream)); |
- EXPECT_TRUE(DumpHasStream(ExceptionStream)); |
- EXPECT_TRUE(DumpHasStream(SystemInfoStream)); |
- EXPECT_TRUE(DumpHasStream(MiscInfoStream)); |
- |
- EXPECT_FALSE(DumpHasStream(ThreadExListStream)); |
- EXPECT_FALSE(DumpHasStream(Memory64ListStream)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamA)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamW)); |
- EXPECT_FALSE(DumpHasStream(HandleDataStream)); |
- EXPECT_FALSE(DumpHasStream(FunctionTableStream)); |
- EXPECT_FALSE(DumpHasStream(UnloadedModuleListStream)); |
- EXPECT_FALSE(DumpHasStream(MemoryInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(ThreadInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(HandleOperationListStream)); |
- EXPECT_FALSE(DumpHasStream(TokenStream)); |
- |
- // We expect no PEB nor TEBs in this dump. |
- EXPECT_FALSE(DumpHasTebs()); |
- EXPECT_FALSE(DumpHasPeb()); |
- |
- // We expect no off-stack memory in this dump. |
- EXPECT_FALSE(DumpHasMemory(this)); |
-} |
- |
-TEST_F(MinidumpTest, SmallDump) { |
- ASSERT_TRUE(WriteDump(kSmallDumpType)); |
- |
- EXPECT_TRUE(DumpHasStream(ThreadListStream)); |
- EXPECT_TRUE(DumpHasStream(ModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MemoryListStream)); |
- EXPECT_TRUE(DumpHasStream(ExceptionStream)); |
- EXPECT_TRUE(DumpHasStream(SystemInfoStream)); |
- EXPECT_TRUE(DumpHasStream(UnloadedModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MiscInfoStream)); |
- |
- // We expect PEB and TEBs in this dump. |
- EXPECT_TRUE(DumpHasTebs()); |
- EXPECT_TRUE(DumpHasPeb()); |
- |
- EXPECT_FALSE(DumpHasStream(ThreadExListStream)); |
- EXPECT_FALSE(DumpHasStream(Memory64ListStream)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamA)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamW)); |
- EXPECT_FALSE(DumpHasStream(HandleDataStream)); |
- EXPECT_FALSE(DumpHasStream(FunctionTableStream)); |
- EXPECT_FALSE(DumpHasStream(MemoryInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(ThreadInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(HandleOperationListStream)); |
- EXPECT_FALSE(DumpHasStream(TokenStream)); |
- |
- // We expect no off-stack memory in this dump. |
- EXPECT_FALSE(DumpHasMemory(this)); |
-} |
- |
-TEST_F(MinidumpTest, LargerDump) { |
- ASSERT_TRUE(WriteDump(kLargerDumpType)); |
- |
- // The dump should have all of these streams. |
- EXPECT_TRUE(DumpHasStream(ThreadListStream)); |
- EXPECT_TRUE(DumpHasStream(ModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MemoryListStream)); |
- EXPECT_TRUE(DumpHasStream(ExceptionStream)); |
- EXPECT_TRUE(DumpHasStream(SystemInfoStream)); |
- EXPECT_TRUE(DumpHasStream(UnloadedModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MiscInfoStream)); |
- |
- // We expect memory referenced by stack in this dump. |
- EXPECT_TRUE(DumpHasMemory(this)); |
- |
- // We expect PEB and TEBs in this dump. |
- EXPECT_TRUE(DumpHasTebs()); |
- EXPECT_TRUE(DumpHasPeb()); |
- |
- EXPECT_FALSE(DumpHasStream(ThreadExListStream)); |
- EXPECT_FALSE(DumpHasStream(Memory64ListStream)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamA)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamW)); |
- EXPECT_FALSE(DumpHasStream(HandleDataStream)); |
- EXPECT_FALSE(DumpHasStream(FunctionTableStream)); |
- EXPECT_FALSE(DumpHasStream(MemoryInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(ThreadInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(HandleOperationListStream)); |
- EXPECT_FALSE(DumpHasStream(TokenStream)); |
-} |
- |
-TEST_F(MinidumpTest, FullDump) { |
- ASSERT_TRUE(WriteDump(kFullDumpType)); |
- |
- // The dump should have all of these streams. |
- EXPECT_TRUE(DumpHasStream(ThreadListStream)); |
- EXPECT_TRUE(DumpHasStream(ModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(Memory64ListStream)); |
- EXPECT_TRUE(DumpHasStream(ExceptionStream)); |
- EXPECT_TRUE(DumpHasStream(SystemInfoStream)); |
- EXPECT_TRUE(DumpHasStream(UnloadedModuleListStream)); |
- EXPECT_TRUE(DumpHasStream(MiscInfoStream)); |
- EXPECT_TRUE(DumpHasStream(HandleDataStream)); |
- |
- // We expect memory referenced by stack in this dump. |
- EXPECT_TRUE(DumpHasMemory(this)); |
- |
- // We expect PEB and TEBs in this dump. |
- EXPECT_TRUE(DumpHasTebs()); |
- EXPECT_TRUE(DumpHasPeb()); |
- |
- EXPECT_FALSE(DumpHasStream(ThreadExListStream)); |
- EXPECT_FALSE(DumpHasStream(MemoryListStream)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamA)); |
- EXPECT_FALSE(DumpHasStream(CommentStreamW)); |
- EXPECT_FALSE(DumpHasStream(FunctionTableStream)); |
- EXPECT_FALSE(DumpHasStream(MemoryInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(ThreadInfoListStream)); |
- EXPECT_FALSE(DumpHasStream(HandleOperationListStream)); |
- EXPECT_FALSE(DumpHasStream(TokenStream)); |
-} |
- |
-} // namespace |
+#endif // CLIENT_WINDOWS_UNITTESTS_DUMP_ANALYSIS_H_ |