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breakpad/src/processor/minidump_processor_unittest.cc
Ian Barkley-Yeung f5123d7196 Add #include <config.h> to the beginning of all cc files 
Added
 #ifdef HAVE_CONFIG_H
 #include <config.h>
 #endif
to the beginning of all source files that didn't have it.

This ensures that configuration options are respected in all source
files. In particular, it ensures that the defines needed to fix Large
File System issues are set before including system headers.

More generally, it ensures consistency between the source files, and
avoids the possibility of ODR violations between source files that were
including config.h and source files that were not.

Process:
Ran
find . \( -name third_party -prune \) -o \( -name '.git*' -prune \) -o \( \( -name '*.cc' -o -name '*.c' \) -exec sed -i '0,/^#include/ s/^#include/#ifdef HAVE_CONFIG_H\n#include <config.h>  \/\/ Must come first\n#endif\n\n#include/' {} + \)
and then manually fixed up src/common/linux/guid_creator.cc,
src/tools/solaris/dump_syms/testdata/dump_syms_regtest.cc,
src/tools/windows/dump_syms/testdata/dump_syms_regtest.cc,
src/common/stabs_reader.h, and src/common/linux/breakpad_getcontext.h.

BUG=google-breakpad:877
Fixed: google-breakpad:877
TEST=./configure && make && make check
TEST=Did the find/sed in ChromeOS's copy, ensured emerge-hana google-breakpad
worked and had fewer LFS violations.
TEST=Did the find/sed in Chrome's copy, ensured compiling hana, windows, linux, and
eve still worked (since Chrome doesn't used config.h)

Change-Id: I16cededbba0ea0c28e919b13243e35300999e799
Reviewed-on: https://chromium-review.googlesource.com/c/breakpad/breakpad/+/4289676
Reviewed-by: Mike Frysinger <vapier@chromium.org>
2023-02-27 19:31:32 +00:00

831 lines
31 KiB
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Raw Blame History

// Copyright 2006 Google LLC
//
// 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 LLC 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.
#ifdef HAVE_CONFIG_H
#include <config.h> // Must come first
#endif
#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(GetUnloadedModuleList, MinidumpUnloadedModuleList*());
MOCK_METHOD0(GetMemoryList, MinidumpMemoryList*());
};
class MockMinidumpUnloadedModule : public MinidumpUnloadedModule {
public:
MockMinidumpUnloadedModule() : MinidumpUnloadedModule(NULL) {}
};
class MockMinidumpUnloadedModuleList : public MinidumpUnloadedModuleList {
public:
MockMinidumpUnloadedModuleList() : MinidumpUnloadedModuleList(NULL) {}
~MockMinidumpUnloadedModuleList() {}
MOCK_CONST_METHOD0(Copy, CodeModules*());
MOCK_CONST_METHOD1(GetModuleForAddress,
const MinidumpUnloadedModule*(uint64_t));
};
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::MockMinidumpUnloadedModule;
using google_breakpad::MockMinidumpUnloadedModuleList;
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))
static string GetTestDataPath() {
char* srcdir = getenv("srcdir");
return string(srcdir ? srcdir : ".") + "/src/processor/testdata/";
}
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 = GetTestDataPath() + "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, TestUnloadedModules) {
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));
// No loaded modules
MockMinidumpUnloadedModuleList unloaded_module_list;
EXPECT_CALL(dump, GetUnloadedModuleList()).
WillOnce(Return(&unloaded_module_list));
MockMinidumpMemoryList memory_list;
EXPECT_CALL(dump, GetMemoryList()).
WillOnce(Return(&memory_list));
MockMinidumpThreadList thread_list;
EXPECT_CALL(dump, GetThreadList()).
WillOnce(Return(&thread_list));
EXPECT_CALL(thread_list, thread_count()).
WillRepeatedly(Return(1));
MockMinidumpThread thread;
EXPECT_CALL(thread_list, GetThreadAtIndex(0)).
WillOnce(Return(&thread));
EXPECT_CALL(thread, GetThreadID(_)).
WillRepeatedly(DoAll(SetArgumentPointee<0>(1),
Return(true)));
MDRawContextX86 thread_raw_context;
memset(&thread_raw_context, 0,
sizeof(thread_raw_context));
thread_raw_context.context_flags = MD_CONTEXT_X86_FULL;
const uint32_t kExpectedEIP = 0xabcd1234;
thread_raw_context.eip = kExpectedEIP;
TestMinidumpContext thread_context(thread_raw_context);
EXPECT_CALL(thread, GetContext()).
WillRepeatedly(Return(&thread_context));
// The memory contents don't really matter here, since it won't be used.
MockMinidumpMemoryRegion thread_memory(0x1234, "xxx");
EXPECT_CALL(thread, GetMemory()).
WillRepeatedly(Return(&thread_memory));
EXPECT_CALL(thread, GetStartOfStackMemoryRange()).
Times(0);
EXPECT_CALL(memory_list, GetMemoryRegionForAddress(_)).
Times(0);
MockMinidumpUnloadedModuleList* unloaded_module_list_copy =
new MockMinidumpUnloadedModuleList();
EXPECT_CALL(unloaded_module_list, Copy()).
WillOnce(Return(unloaded_module_list_copy));
MockMinidumpUnloadedModule unloaded_module;
EXPECT_CALL(*unloaded_module_list_copy, GetModuleForAddress(kExpectedEIP)).
WillOnce(Return(&unloaded_module));
MinidumpProcessor processor(reinterpret_cast<SymbolSupplier*>(NULL), NULL);
ProcessState state;
EXPECT_EQ(processor.Process(&dump, &state),
google_breakpad::PROCESS_OK);
// The single frame should be populated with the unloaded module.
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);
ASSERT_EQ(&unloaded_module, state.threads()->at(0)->frames()->at(0)->module);
}
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 = GetTestDataPath() + "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 = GetTestDataPath() + "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());
}
TEST_F(MinidumpProcessorTest, Test32BitCrashingAddress) {
TestSymbolSupplier supplier;
BasicSourceLineResolver resolver;
MinidumpProcessor processor(&supplier, &resolver);
string minidump_file = GetTestDataPath() + "minidump_32bit_crash_addr.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);
}
TEST_F(MinidumpProcessorTest, TestXStateAmd64ContextMinidump) {
// This tests if we can passively process a minidump with cet registers in its
// context. Dump is captured from a toy executable and is readable by windbg.
MinidumpProcessor processor(nullptr, nullptr /*&supplier, &resolver*/);
string minidump_file = GetTestDataPath()
+ "tiny-exe-with-cet-xsave.dmp";
ProcessState state;
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
ASSERT_EQ(state.system_info()->os, "Windows NT");
ASSERT_EQ(state.system_info()->os_version, "10.0.22000 282");
ASSERT_EQ(state.system_info()->cpu, "amd64");
ASSERT_EQ(state.system_info()->cpu_info,
"family 6 model 140 stepping 1");
ASSERT_FALSE(state.crashed());
ASSERT_EQ(state.threads()->size(), size_t(1));
// TODO: verify cetumsr and cetussp once these are supported by
// breakpad.
}
TEST_F(MinidumpProcessorTest, TestFastFailException) {
// This tests if we can understand fastfail exception subcodes.
// Dump is captured from a toy executable and is readable by windbg.
MinidumpProcessor processor(nullptr, nullptr /*&supplier, &resolver*/);
string minidump_file = GetTestDataPath()
+ "tiny-exe-fastfail.dmp";
ProcessState state;
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
ASSERT_TRUE(state.crashed());
ASSERT_EQ(state.threads()->size(), size_t(4));
ASSERT_EQ(state.crash_reason(), "FAST_FAIL_FATAL_APP_EXIT");
}
#ifdef __linux__
TEST_F(MinidumpProcessorTest, TestNonCanonicalAddress) {
// This tests if we can correctly fixup non-canonical address GPF fault
// addresses.
// Dump is captured from a toy executable and is readable by windbg.
MinidumpProcessor processor(nullptr, nullptr /*&supplier, &resolver*/);
processor.set_enable_objdump(true);
string minidump_file = GetTestDataPath()
+ "write_av_non_canonical.dmp";
ProcessState state;
ASSERT_EQ(processor.Process(minidump_file, &state),
google_breakpad::PROCESS_OK);
ASSERT_TRUE(state.crashed());
ASSERT_EQ(state.crash_address(), 0xfefefefefefefefeU);
}
#endif // __linux__
} // namespace
int main(int argc, char* argv[]) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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