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// Copyright (c) 2006, 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.
// Unit test for MinidumpProcessor. Uses a pre-generated minidump and
// corresponding symbol file, and checks the stack frames for correctness.
#include <stdlib.h>
#include <string>
#include <iostream>
#include <fstream>
#include <map>
#include <utility>
#include "breakpad_googletest_includes.h"
#include "common/scoped_ptr.h"
#include "common/using_std_string.h"
#include "google_breakpad/processor/basic_source_line_resolver.h"
#include "google_breakpad/processor/call_stack.h"
#include "google_breakpad/processor/code_module.h"
#include "google_breakpad/processor/code_modules.h"
#include "google_breakpad/processor/minidump.h"
#include "google_breakpad/processor/minidump_processor.h"
#include "google_breakpad/processor/process_state.h"
#include "google_breakpad/processor/stack_frame.h"
#include "google_breakpad/processor/symbol_supplier.h"
#include "processor/logging.h"
#include "processor/stackwalker_unittest_utils.h"
using std::map;
namespace google_breakpad {
class MockMinidump : public Minidump {
public:
MockMinidump() : Minidump("") {
}
MOCK_METHOD0(Read, bool());
MOCK_CONST_METHOD0(path, string());
MOCK_CONST_METHOD0(header, const MDRawHeader*());
MOCK_METHOD0(GetThreadList, MinidumpThreadList*());
MOCK_METHOD0(GetSystemInfo, MinidumpSystemInfo*());
MOCK_METHOD0(GetMiscInfo, MinidumpMiscInfo*());
MOCK_METHOD0(GetBreakpadInfo, MinidumpBreakpadInfo*());
MOCK_METHOD0(GetException, MinidumpException*());
MOCK_METHOD0(GetAssertion, MinidumpAssertion*());
MOCK_METHOD0(GetModuleList, MinidumpModuleList*());
MOCK_METHOD0(GetMemoryList, MinidumpMemoryList*());
};
class MockMinidumpThreadList : public MinidumpThreadList {
public:
MockMinidumpThreadList() : MinidumpThreadList(NULL) {}
MOCK_CONST_METHOD0(thread_count, unsigned int());
MOCK_CONST_METHOD1(GetThreadAtIndex, MinidumpThread*(unsigned int));
};
class MockMinidumpMemoryList : public MinidumpMemoryList {
public:
MockMinidumpMemoryList() : MinidumpMemoryList(NULL) {}
MOCK_METHOD1(GetMemoryRegionForAddress, MinidumpMemoryRegion*(uint64_t));
};
class MockMinidumpThread : public MinidumpThread {
public:
MockMinidumpThread() : MinidumpThread(NULL) {}
MOCK_CONST_METHOD1(GetThreadID, bool(uint32_t*));
MOCK_METHOD0(GetContext, MinidumpContext*());
MOCK_METHOD0(GetMemory, MinidumpMemoryRegion*());
MOCK_CONST_METHOD0(GetStartOfStackMemoryRange, uint64_t());
};
// This is crappy, but MinidumpProcessor really does want a
// MinidumpMemoryRegion.
class MockMinidumpMemoryRegion : public MinidumpMemoryRegion {
public:
MockMinidumpMemoryRegion(uint64_t base, const string& contents) :
MinidumpMemoryRegion(NULL) {
region_.Init(base, contents);
}
uint64_t GetBase() const { return region_.GetBase(); }
uint32_t GetSize() const { return region_.GetSize(); }
bool GetMemoryAtAddress(uint64_t address, uint8_t *value) const {
return region_.GetMemoryAtAddress(address, value);
}
bool GetMemoryAtAddress(uint64_t address, uint16_t *value) const {
return region_.GetMemoryAtAddress(address, value);
}
bool GetMemoryAtAddress(uint64_t address, uint32_t *value) const {
return region_.GetMemoryAtAddress(address, value);
}
bool GetMemoryAtAddress(uint64_t address, uint64_t *value) const {
return region_.GetMemoryAtAddress(address, value);
}
MockMemoryRegion region_;
};
// A test miscelaneous info stream, just returns values from the
// MDRawMiscInfo fed to it.
class TestMinidumpMiscInfo : public MinidumpMiscInfo {
public:
explicit TestMinidumpMiscInfo(const MDRawMiscInfo& misc_info) :
MinidumpMiscInfo(NULL) {
valid_ = true;
misc_info_ = misc_info;
}
};
} // namespace google_breakpad
namespace {
using google_breakpad::BasicSourceLineResolver;
using google_breakpad::CallStack;
using google_breakpad::CodeModule;
using google_breakpad::MinidumpContext;
using google_breakpad::MinidumpMemoryRegion;
using google_breakpad::MinidumpMiscInfo;
using google_breakpad::MinidumpProcessor;
using google_breakpad::MinidumpSystemInfo;
using google_breakpad::MinidumpThreadList;
using google_breakpad::MinidumpThread;
using google_breakpad::MockMinidump;
using google_breakpad::MockMinidumpMemoryList;
using google_breakpad::MockMinidumpMemoryRegion;
using google_breakpad::MockMinidumpThread;
using google_breakpad::MockMinidumpThreadList;
using google_breakpad::ProcessState;
using google_breakpad::scoped_ptr;
using google_breakpad::SymbolSupplier;
using google_breakpad::SystemInfo;
using ::testing::_;
using ::testing::AnyNumber;
using ::testing::DoAll;
using ::testing::Mock;
using ::testing::Ne;
using ::testing::Property;
using ::testing::Return;
using ::testing::SetArgumentPointee;
static const char *kSystemInfoOS = "Windows NT";
static const char *kSystemInfoOSShort = "windows";
static const char *kSystemInfoOSVersion = "5.1.2600 Service Pack 2";
static const char *kSystemInfoCPU = "x86";
static const char *kSystemInfoCPUInfo =
"GenuineIntel family 6 model 13 stepping 8";
#define ASSERT_TRUE_ABORT(cond) \
if (!(cond)) { \
fprintf(stderr, "FAILED: %s at %s:%d\n", #cond, __FILE__, __LINE__); \
abort(); \
}
#define ASSERT_EQ_ABORT(e1, e2) ASSERT_TRUE_ABORT((e1) == (e2))
class TestSymbolSupplier : public SymbolSupplier {
public:
TestSymbolSupplier() : interrupt_(false) {}
virtual SymbolResult GetSymbolFile(const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file);
virtual SymbolResult GetSymbolFile(const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file,
string *symbol_data);
virtual SymbolResult GetCStringSymbolData(const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file,
char **symbol_data,
size_t *symbol_data_size);
virtual void FreeSymbolData(const CodeModule *module);
// When set to true, causes the SymbolSupplier to return INTERRUPT
void set_interrupt(bool interrupt) { interrupt_ = interrupt; }
private:
bool interrupt_;
map<string, char *> memory_buffers_;
};
SymbolSupplier::SymbolResult TestSymbolSupplier::GetSymbolFile(
const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file) {
ASSERT_TRUE_ABORT(module);
ASSERT_TRUE_ABORT(system_info);
ASSERT_EQ_ABORT(system_info->cpu, kSystemInfoCPU);
ASSERT_EQ_ABORT(system_info->cpu_info, kSystemInfoCPUInfo);
ASSERT_EQ_ABORT(system_info->os, kSystemInfoOS);
ASSERT_EQ_ABORT(system_info->os_short, kSystemInfoOSShort);
ASSERT_EQ_ABORT(system_info->os_version, kSystemInfoOSVersion);
if (interrupt_) {
return INTERRUPT;
}
if (module && module->code_file() == "c:\\test_app.exe") {
*symbol_file = string(getenv("srcdir") ? getenv("srcdir") : ".") +
"/src/processor/testdata/symbols/test_app.pdb/" +
module->debug_identifier() +
"/test_app.sym";
return FOUND;
}
return NOT_FOUND;
}
SymbolSupplier::SymbolResult TestSymbolSupplier::GetSymbolFile(
const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file,
string *symbol_data) {
SymbolSupplier::SymbolResult s = GetSymbolFile(module, system_info,
symbol_file);
if (s == FOUND) {
std::ifstream in(symbol_file->c_str());
std::getline(in, *symbol_data, string::traits_type::to_char_type(
string::traits_type::eof()));
in.close();
}
return s;
}
SymbolSupplier::SymbolResult TestSymbolSupplier::GetCStringSymbolData(
const CodeModule *module,
const SystemInfo *system_info,
string *symbol_file,
char **symbol_data,
size_t *symbol_data_size) {
string symbol_data_string;
SymbolSupplier::SymbolResult s = GetSymbolFile(module,
system_info,
symbol_file,
&symbol_data_string);
if (s == FOUND) {
*symbol_data_size = symbol_data_string.size() + 1;
*symbol_data = new char[*symbol_data_size];
if (*symbol_data == NULL) {
BPLOG(ERROR) << "Memory allocation failed for module: "
<< module->code_file() << " size: " << *symbol_data_size;
return INTERRUPT;
}
memcpy(*symbol_data, symbol_data_string.c_str(), symbol_data_string.size());
(*symbol_data)[symbol_data_string.size()] = '\0';
memory_buffers_.insert(make_pair(module->code_file(), *symbol_data));
}
return s;
}
void TestSymbolSupplier::FreeSymbolData(const CodeModule *module) {
map<string, char *>::iterator it = memory_buffers_.find(module->code_file());
if (it != memory_buffers_.end()) {
delete [] it->second;
memory_buffers_.erase(it);
}
}
// A test system info stream, just returns values from the
// MDRawSystemInfo fed to it.
class TestMinidumpSystemInfo : public MinidumpSystemInfo {
public:
explicit TestMinidumpSystemInfo(MDRawSystemInfo info) :
MinidumpSystemInfo(NULL) {
valid_ = true;
system_info_ = info;
csd_version_ = new string("");
}
};
// A test minidump context, just returns the MDRawContextX86
// fed to it.
class TestMinidumpContext : public MinidumpContext {
public:
explicit TestMinidumpContext(const MDRawContextX86& context) :
MinidumpContext(NULL) {
valid_ = true;
SetContextX86(new MDRawContextX86(context));
SetContextFlags(MD_CONTEXT_X86);
}
};
class MinidumpProcessorTest : public ::testing::Test {
};
TEST_F(MinidumpProcessorTest, TestCorruptMinidumps) {
MockMinidump dump;
TestSymbolSupplier supplier;
BasicSourceLineResolver resolver;
MinidumpProcessor processor(&supplier, &resolver);
ProcessState state;
EXPECT_EQ(processor.Process("nonexistent minidump", &state),
google_breakpad::PROCESS_ERROR_MINIDUMP_NOT_FOUND);
EXPECT_CALL(dump, path()).WillRepeatedly(Return("mock minidump"));
EXPECT_CALL(dump, Read()).WillRepeatedly(Return(true));
MDRawHeader fakeHeader;
fakeHeader.time_date_stamp = 0;
EXPECT_CALL(dump, header()).
WillOnce(Return(reinterpret_cast<MDRawHeader*>(NULL))).
WillRepeatedly(Return(&fakeHeader));
EXPECT_EQ(processor.Process(&dump, &state),
google_breakpad::PROCESS_ERROR_NO_MINIDUMP_HEADER);
EXPECT_CALL(dump, GetThreadList()).
WillOnce(Return(reinterpret_cast<MinidumpThreadList*>(NULL)));
EXPECT_CALL(dump, GetSystemInfo()).
WillRepeatedly(Return(reinterpret_cast<MinidumpSystemInfo*>(NULL)));
EXPECT_EQ(processor.Process(&dump, &state),
google_breakpad::PROCESS_ERROR_NO_THREAD_LIST);
}
// This test case verifies that the symbol supplier is only consulted
// once per minidump per module.
TEST_F(MinidumpProcessorTest, TestSymbolSupplierLookupCounts) {
MockSymbolSupplier supplier;
BasicSourceLineResolver resolver;
MinidumpProcessor processor(&supplier, &resolver);
string minidump_file = string(getenv("srcdir") ? getenv("srcdir") : ".") +
"/src/processor/testdata/minidump2.dmp";
ProcessState state;
EXPECT_CALL(supplier, GetCStringSymbolData(
Property(&google_breakpad::CodeModule::code_file,
"c:\\test_app.exe"),
_, _, _, _)).WillOnce(Return(SymbolSupplier::NOT_FOUND));
EXPECT_CALL(supplier, GetCStringSymbolData(
Property(&google_breakpad::CodeModule::code_file,
Ne("c:\\test_app.exe")),
_, _, _, _)).WillRepeatedly(Return(SymbolSupplier::NOT_FOUND));
// Avoid GMOCK WARNING "Uninteresting mock function call - returning
// directly" for FreeSymbolData().
EXPECT_CALL(supplier, FreeSymbolData(_)).Times(AnyNumber());
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
ASSERT_TRUE(Mock::VerifyAndClearExpectations(&supplier));
// We need to verify that across minidumps, the processor will refetch
// symbol files, even with the same symbol supplier.
EXPECT_CALL(supplier, GetCStringSymbolData(
Property(&google_breakpad::CodeModule::code_file,
"c:\\test_app.exe"),
_, _, _, _)).WillOnce(Return(SymbolSupplier::NOT_FOUND));
EXPECT_CALL(supplier, GetCStringSymbolData(
Property(&google_breakpad::CodeModule::code_file,
Ne("c:\\test_app.exe")),
_, _, _, _)).WillRepeatedly(Return(SymbolSupplier::NOT_FOUND));
// Avoid GMOCK WARNING "Uninteresting mock function call - returning
// directly" for FreeSymbolData().
EXPECT_CALL(supplier, FreeSymbolData(_)).Times(AnyNumber());
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
}
TEST_F(MinidumpProcessorTest, TestBasicProcessing) {
TestSymbolSupplier supplier;
BasicSourceLineResolver resolver;
MinidumpProcessor processor(&supplier, &resolver);
string minidump_file = string(getenv("srcdir") ? getenv("srcdir") : ".") +
"/src/processor/testdata/minidump2.dmp";
ProcessState state;
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
ASSERT_EQ(state.system_info()->os, kSystemInfoOS);
ASSERT_EQ(state.system_info()->os_short, kSystemInfoOSShort);
ASSERT_EQ(state.system_info()->os_version, kSystemInfoOSVersion);
ASSERT_EQ(state.system_info()->cpu, kSystemInfoCPU);
ASSERT_EQ(state.system_info()->cpu_info, kSystemInfoCPUInfo);
ASSERT_TRUE(state.crashed());
ASSERT_EQ(state.crash_reason(), "EXCEPTION_ACCESS_VIOLATION_WRITE");
ASSERT_EQ(state.crash_address(), 0x45U);
ASSERT_EQ(state.threads()->size(), size_t(1));
EXPECT_EQ((*state.threads())[0]->tid(), 3060U);
ASSERT_EQ(state.requesting_thread(), 0);
EXPECT_EQ(1171480435U, state.time_date_stamp());
EXPECT_EQ(1171480435U, state.process_create_time());
CallStack *stack = state.threads()->at(0);
ASSERT_TRUE(stack);
ASSERT_EQ(stack->frames()->size(), 4U);
ASSERT_TRUE(stack->frames()->at(0)->module);
ASSERT_EQ(stack->frames()->at(0)->module->base_address(), 0x400000U);
ASSERT_EQ(stack->frames()->at(0)->module->code_file(), "c:\\test_app.exe");
ASSERT_EQ(stack->frames()->at(0)->function_name,
"`anonymous namespace'::CrashFunction");
ASSERT_EQ(stack->frames()->at(0)->source_file_name, "c:\\test_app.cc");
ASSERT_EQ(stack->frames()->at(0)->source_line, 58);
ASSERT_TRUE(stack->frames()->at(1)->module);
ASSERT_EQ(stack->frames()->at(1)->module->base_address(), 0x400000U);
ASSERT_EQ(stack->frames()->at(1)->module->code_file(), "c:\\test_app.exe");
ASSERT_EQ(stack->frames()->at(1)->function_name, "main");
ASSERT_EQ(stack->frames()->at(1)->source_file_name, "c:\\test_app.cc");
ASSERT_EQ(stack->frames()->at(1)->source_line, 65);
// This comes from the CRT
ASSERT_TRUE(stack->frames()->at(2)->module);
ASSERT_EQ(stack->frames()->at(2)->module->base_address(), 0x400000U);
ASSERT_EQ(stack->frames()->at(2)->module->code_file(), "c:\\test_app.exe");
ASSERT_EQ(stack->frames()->at(2)->function_name, "__tmainCRTStartup");
ASSERT_EQ(stack->frames()->at(2)->source_file_name,
"f:\\sp\\vctools\\crt_bld\\self_x86\\crt\\src\\crt0.c");
ASSERT_EQ(stack->frames()->at(2)->source_line, 327);
// No debug info available for kernel32.dll
ASSERT_TRUE(stack->frames()->at(3)->module);
ASSERT_EQ(stack->frames()->at(3)->module->base_address(), 0x7c800000U);
ASSERT_EQ(stack->frames()->at(3)->module->code_file(),
"C:\\WINDOWS\\system32\\kernel32.dll");
ASSERT_TRUE(stack->frames()->at(3)->function_name.empty());
ASSERT_TRUE(stack->frames()->at(3)->source_file_name.empty());
ASSERT_EQ(stack->frames()->at(3)->source_line, 0);
ASSERT_EQ(state.modules()->module_count(), 13U);
ASSERT_TRUE(state.modules()->GetMainModule());
ASSERT_EQ(state.modules()->GetMainModule()->code_file(), "c:\\test_app.exe");
ASSERT_FALSE(state.modules()->GetModuleForAddress(0));
ASSERT_EQ(state.modules()->GetMainModule(),
state.modules()->GetModuleForAddress(0x400000));
ASSERT_EQ(state.modules()->GetModuleForAddress(0x7c801234)->debug_file(),
"kernel32.pdb");
ASSERT_EQ(state.modules()->GetModuleForAddress(0x77d43210)->version(),
"5.1.2600.2622");
// Test that disabled exploitability engine defaults to
// EXPLOITABILITY_NOT_ANALYZED.
ASSERT_EQ(google_breakpad::EXPLOITABILITY_NOT_ANALYZED,
state.exploitability());
// Test that the symbol supplier can interrupt processing
state.Clear();
supplier.set_interrupt(true);
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_SYMBOL_SUPPLIER_INTERRUPTED);
}
TEST_F(MinidumpProcessorTest, TestThreadMissingMemory) {
MockMinidump dump;
EXPECT_CALL(dump, path()).WillRepeatedly(Return("mock minidump"));
EXPECT_CALL(dump, Read()).WillRepeatedly(Return(true));
MDRawHeader fake_header;
fake_header.time_date_stamp = 0;
EXPECT_CALL(dump, header()).WillRepeatedly(Return(&fake_header));
MDRawSystemInfo raw_system_info;
memset(&raw_system_info, 0, sizeof(raw_system_info));
raw_system_info.processor_architecture = MD_CPU_ARCHITECTURE_X86;
raw_system_info.platform_id = MD_OS_WIN32_NT;
TestMinidumpSystemInfo dump_system_info(raw_system_info);
EXPECT_CALL(dump, GetSystemInfo()).
WillRepeatedly(Return(&dump_system_info));
MockMinidumpThreadList thread_list;
EXPECT_CALL(dump, GetThreadList()).
WillOnce(Return(&thread_list));
MockMinidumpMemoryList memory_list;
EXPECT_CALL(dump, GetMemoryList()).
WillOnce(Return(&memory_list));
// Return a thread missing stack memory.
MockMinidumpThread no_memory_thread;
EXPECT_CALL(no_memory_thread, GetThreadID(_)).
WillRepeatedly(DoAll(SetArgumentPointee<0>(1),
Return(true)));
EXPECT_CALL(no_memory_thread, GetMemory()).
WillRepeatedly(Return(reinterpret_cast<MinidumpMemoryRegion*>(NULL)));
const uint64_t kTestStartOfMemoryRange = 0x1234;
EXPECT_CALL(no_memory_thread, GetStartOfStackMemoryRange()).
WillRepeatedly(Return(kTestStartOfMemoryRange));
EXPECT_CALL(memory_list, GetMemoryRegionForAddress(kTestStartOfMemoryRange)).
WillRepeatedly(Return(reinterpret_cast<MinidumpMemoryRegion*>(NULL)));
MDRawContextX86 no_memory_thread_raw_context;
memset(&no_memory_thread_raw_context, 0,
sizeof(no_memory_thread_raw_context));
no_memory_thread_raw_context.context_flags = MD_CONTEXT_X86_FULL;
const uint32_t kExpectedEIP = 0xabcd1234;
no_memory_thread_raw_context.eip = kExpectedEIP;
TestMinidumpContext no_memory_thread_context(no_memory_thread_raw_context);
EXPECT_CALL(no_memory_thread, GetContext()).
WillRepeatedly(Return(&no_memory_thread_context));
EXPECT_CALL(thread_list, thread_count()).
WillRepeatedly(Return(1));
EXPECT_CALL(thread_list, GetThreadAtIndex(0)).
WillOnce(Return(&no_memory_thread));
MinidumpProcessor processor(reinterpret_cast<SymbolSupplier*>(NULL), NULL);
ProcessState state;
EXPECT_EQ(processor.Process(&dump, &state),
google_breakpad::PROCESS_OK);
// Should have a single thread with a single frame in it.
ASSERT_EQ(1U, state.threads()->size());
ASSERT_EQ(1U, state.threads()->at(0)->frames()->size());
ASSERT_EQ(kExpectedEIP, state.threads()->at(0)->frames()->at(0)->instruction);
}
TEST_F(MinidumpProcessorTest, GetProcessCreateTime) {
const uint32_t kProcessCreateTime = 2000;
const uint32_t kTimeDateStamp = 5000;
MockMinidump dump;
EXPECT_CALL(dump, path()).WillRepeatedly(Return("mock minidump"));
EXPECT_CALL(dump, Read()).WillRepeatedly(Return(true));
// Set time of crash.
MDRawHeader fake_header;
fake_header.time_date_stamp = kTimeDateStamp;
EXPECT_CALL(dump, header()).WillRepeatedly(Return(&fake_header));
// Set process create time.
MDRawMiscInfo raw_misc_info;
memset(&raw_misc_info, 0, sizeof(raw_misc_info));
raw_misc_info.process_create_time = kProcessCreateTime;
raw_misc_info.flags1 |= MD_MISCINFO_FLAGS1_PROCESS_TIMES;
google_breakpad::TestMinidumpMiscInfo dump_misc_info(raw_misc_info);
EXPECT_CALL(dump, GetMiscInfo()).WillRepeatedly(Return(&dump_misc_info));
// No threads
MockMinidumpThreadList thread_list;
EXPECT_CALL(dump, GetThreadList()).WillOnce(Return(&thread_list));
EXPECT_CALL(thread_list, thread_count()).WillRepeatedly(Return(0));
MinidumpProcessor processor(reinterpret_cast<SymbolSupplier*>(NULL), NULL);
ProcessState state;
EXPECT_EQ(google_breakpad::PROCESS_OK, processor.Process(&dump, &state));
// Verify the time stamps.
ASSERT_EQ(kTimeDateStamp, state.time_date_stamp());
ASSERT_EQ(kProcessCreateTime, state.process_create_time());
}
TEST_F(MinidumpProcessorTest, TestThreadMissingContext) {
MockMinidump dump;
EXPECT_CALL(dump, path()).WillRepeatedly(Return("mock minidump"));
EXPECT_CALL(dump, Read()).WillRepeatedly(Return(true));
MDRawHeader fake_header;
fake_header.time_date_stamp = 0;
EXPECT_CALL(dump, header()).WillRepeatedly(Return(&fake_header));
MDRawSystemInfo raw_system_info;
memset(&raw_system_info, 0, sizeof(raw_system_info));
raw_system_info.processor_architecture = MD_CPU_ARCHITECTURE_X86;
raw_system_info.platform_id = MD_OS_WIN32_NT;
TestMinidumpSystemInfo dump_system_info(raw_system_info);
EXPECT_CALL(dump, GetSystemInfo()).
WillRepeatedly(Return(&dump_system_info));
MockMinidumpThreadList thread_list;
EXPECT_CALL(dump, GetThreadList()).
WillOnce(Return(&thread_list));
MockMinidumpMemoryList memory_list;
EXPECT_CALL(dump, GetMemoryList()).
WillOnce(Return(&memory_list));
// Return a thread missing a thread context.
MockMinidumpThread no_context_thread;
EXPECT_CALL(no_context_thread, GetThreadID(_)).
WillRepeatedly(DoAll(SetArgumentPointee<0>(1),
Return(true)));
EXPECT_CALL(no_context_thread, GetContext()).
WillRepeatedly(Return(reinterpret_cast<MinidumpContext*>(NULL)));
// The memory contents don't really matter here, since it won't be used.
MockMinidumpMemoryRegion no_context_thread_memory(0x1234, "xxx");
EXPECT_CALL(no_context_thread, GetMemory()).
WillRepeatedly(Return(&no_context_thread_memory));
EXPECT_CALL(no_context_thread, GetStartOfStackMemoryRange()).
Times(0);
EXPECT_CALL(memory_list, GetMemoryRegionForAddress(_)).
Times(0);
EXPECT_CALL(thread_list, thread_count()).
WillRepeatedly(Return(1));
EXPECT_CALL(thread_list, GetThreadAtIndex(0)).
WillOnce(Return(&no_context_thread));
MinidumpProcessor processor(reinterpret_cast<SymbolSupplier*>(NULL), NULL);
ProcessState state;
EXPECT_EQ(processor.Process(&dump, &state),
google_breakpad::PROCESS_OK);
// Should have a single thread with zero frames.
ASSERT_EQ(1U, state.threads()->size());
ASSERT_EQ(0U, state.threads()->at(0)->frames()->size());
}
} // namespace
int main(int argc, char *argv[]) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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