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Copied minidump_test.cc from chrome_frame (see http://src.chromium.org/viewvc/chrome/trunk/src/chrome_frame/crash_reporting/minidump_test.cc).

Browse source 
I had to remove the dependency from base (was using FilePath and ScopedHandle, replaced them by standard std::wstring and HANDLE). Also removed the logging and the main from the original files.

This will serve as a base for testing breakpad's dump generation. It is kept like this for easier tracking.

Review URL: http://codereview.chromium.org/1964006

git-svn-id: http://google-breakpad.googlecode.com/svn/trunk@592 4c0a9323-5329-0410-9bdc-e9ce6186880e
This commit is contained in:
hansl@google.com 2010-05-05 21:38:18 +00:00
parent f6163f1e29
commit 297b1e5a06
3 changed files with 484 additions and 0 deletions
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1
src/client/windows/unittests/client_tests.gyp
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@ -37,6 +37,7 @@
'type': 'executable',
'sources': [
'exception_handler_test.cc',
'minidump_test.cc',
],
'dependencies': [
'gtest.gyp:gtest',

1
src/client/windows/unittests/gtest.gyp
View file

@ -39,6 +39,7 @@
'type': '<(library)',
'include_dirs': [
'<(DEPTH)/testing/include',
'<(DEPTH)/testing/gtest',
'<(DEPTH)/testing/gtest/include',
],
'sources': [

482
src/client/windows/unittests/minidump_test.cc Executable file
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@ -0,0 +1,482 @@
// 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 <windows.h>
#include <objbase.h>
#include <dbghelp.h>
#include "gtest/gtest.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 {
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) {
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;
}
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);
return ret ? memory_list_size : 0;
}
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 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 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) {
// We can't cope with 64 bit addresses for now.
if (address > 0xFFFFFFFFUL)
return false;
return DumpHasMemory(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;
}
protected:
HANDLE dump_file_handle_;
HANDLE dump_file_mapping_;
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;
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<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