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crashpad/minidump/minidump_thread_writer_test.cc
Mark Mentovai a45eea40fc Update gtest to e3f0319d89f4cbf32993de595d984183b1a9fc57 
I’m most interested in picking up 1b3eb6ef3462, “Explicitly define copy
constructors used in googletest tests.”

This also reorganizes files and rewrites text to refer to this project
as Google Test and googletest (and Google Mock and googlemock), as it
prefers to be known. Some filenames are left at gtest_* following the
precedent set by gtest itself. For example, #include "gtest/gtest.h" is
still used, so #include "test/gtest_death.h" is retained too.
gtest_all_test OutputFileHelpersTest.GetCurrentExecutableName hard-codes
the expected executable name as gtest_all_test among other options that
do not include googletest_all_test, so test executables retain their
names as well.

fb19f57880f6 Add GTEST_BRIEF option
3549237957a1 Ensure that gtest/gmock pkgconfig requirements specify
             version
189299e957bb Merge branch 'master' into quiet-flag
5504ded3ab5c Fix a typo in .travis.yml
6ed4e7168f54 Replace the last instance of `throw()` with `noexcept`. NFC
879fd9b45299 Remove duplicate codes existed in get-nprocessors.sh
644f3a992c28 gtest-unittest-api_test - fix warning in clang build
0b6d567619fe Remove redundant .c_str()
be3ac45cf673 fix signed/unsigned comparison issue (on OpenBSD)
b51a49e0cb82 Merge pull request #2773 from Quuxplusone:replace-noexcept
c2032090f373 Merge pull request #2772 from Quuxplusone:travis
4fe5ac53337e Merge pull request #2756 from Conan-Kudo:fix-pkgconfig-reqs
373d72b6986f Googletest export
4c8e6a9fe1c8 Merge pull request #2810 from ptahmose:master
71d5df6c6b67 Merge pull request #2802 from e-i-n-s:fix_clang_warning
dcc92d0ab6c4 Merge pull request #2805 from pepsiman:patch-1
4f002f1e236c VariadicMatcher needs a non-defaulted move constructor for
             compile-time performance
9d580ea80592 Enable protobuf printing for open-source proto messages
766ac2e1a413 Remove all uses of GTEST_DISALLOW_{MOVE_,}ASSIGN_
11b3cec177b1 Fix a -Wdeprecated warning
01c0ff5e2373 Fix a -Wdeprecated warning
c7d8ec72cc4b Fix a -Wdeprecated warning
1b066f4edfd5 Add -Wdeprecated to the build configuration
4bab55dc54b4 Removed a typo in README.md
a67701056425 Googletest export
fb5d9b66c5b0 Googletest export
1b3eb6ef3462 Googletest export
b0e53e2d64db Merge pull request #2797 from Jyun-Neng:master
d7ca9af0049e Googletest export
955552518b4e Googletest export
ef25d27d4604 Merge pull request #2815 from Quuxplusone:simple
129329787429 Googletest export
b99b421d8d68 Merge pull request #2818 from inazarenko:master
472cd8fd8b1c Merge pull request #2818 from inazarenko:master
3cfb4117f7e5 Googletest export
0eea2e9fc634 Googletest export
a9f6c1ed1401 Googletest export
1a9c3e441407 Merge pull request #2830 from keshavgbpecdelhi:patch-1
e589a3371705 Merge pull request #2751 from calumr:quiet-flag

Change-Id: Id788a27aa884ef68a21bae6c178cd456f5f6f2b0
Reviewed-on: https://chromium-review.googlesource.com/c/crashpad/crashpad/+/2186009
Reviewed-by: Joshua Peraza <jperaza@chromium.org>
Commit-Queue: Mark Mentovai <mark@chromium.org>
2020-05-07 14:56:07 +00:00

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// Copyright 2014 The Crashpad Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "minidump/minidump_thread_writer.h"
#include <string>
#include <utility>
#include "base/compiler_specific.h"
#include "base/format_macros.h"
#include "base/stl_util.h"
#include "base/strings/stringprintf.h"
#include "gtest/gtest.h"
#include "minidump/minidump_context_writer.h"
#include "minidump/minidump_file_writer.h"
#include "minidump/minidump_memory_writer.h"
#include "minidump/test/minidump_context_test_util.h"
#include "minidump/test/minidump_file_writer_test_util.h"
#include "minidump/test/minidump_memory_writer_test_util.h"
#include "minidump/test/minidump_writable_test_util.h"
#include "snapshot/test/test_cpu_context.h"
#include "snapshot/test/test_memory_snapshot.h"
#include "snapshot/test/test_thread_snapshot.h"
#include "test/gtest_death.h"
#include "util/file/string_file.h"
namespace crashpad {
namespace test {
namespace {
// This returns the MINIDUMP_THREAD_LIST stream in |thread_list|. If
// |memory_list| is not nullptr, a MINIDUMP_MEMORY_LIST stream is also expected
// in |file_contents|, and that stream will be returned in |memory_list|.
void GetThreadListStream(const std::string& file_contents,
const MINIDUMP_THREAD_LIST** thread_list,
const MINIDUMP_MEMORY_LIST** memory_list) {
constexpr size_t kDirectoryOffset = sizeof(MINIDUMP_HEADER);
const uint32_t kExpectedStreams = memory_list ? 2 : 1;
const size_t kThreadListStreamOffset =
kDirectoryOffset + kExpectedStreams * sizeof(MINIDUMP_DIRECTORY);
const size_t kThreadsOffset =
kThreadListStreamOffset + sizeof(MINIDUMP_THREAD_LIST);
ASSERT_GE(file_contents.size(), kThreadsOffset);
const MINIDUMP_DIRECTORY* directory;
const MINIDUMP_HEADER* header =
MinidumpHeaderAtStart(file_contents, &directory);
ASSERT_NO_FATAL_FAILURE(VerifyMinidumpHeader(header, kExpectedStreams, 0));
ASSERT_TRUE(directory);
ASSERT_EQ(directory[0].StreamType, kMinidumpStreamTypeThreadList);
EXPECT_EQ(directory[0].Location.Rva, kThreadListStreamOffset);
*thread_list = MinidumpWritableAtLocationDescriptor<MINIDUMP_THREAD_LIST>(
file_contents, directory[0].Location);
ASSERT_TRUE(thread_list);
if (memory_list) {
ASSERT_EQ(directory[1].StreamType, kMinidumpStreamTypeMemoryList);
*memory_list = MinidumpWritableAtLocationDescriptor<MINIDUMP_MEMORY_LIST>(
file_contents, directory[1].Location);
ASSERT_TRUE(*memory_list);
}
}
TEST(MinidumpThreadWriter, EmptyThreadList) {
MinidumpFileWriter minidump_file_writer;
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
StringFile string_file;
ASSERT_TRUE(minidump_file_writer.WriteEverything(&string_file));
ASSERT_EQ(string_file.string().size(),
sizeof(MINIDUMP_HEADER) + sizeof(MINIDUMP_DIRECTORY) +
sizeof(MINIDUMP_THREAD_LIST));
const MINIDUMP_THREAD_LIST* thread_list = nullptr;
ASSERT_NO_FATAL_FAILURE(
GetThreadListStream(string_file.string(), &thread_list, nullptr));
EXPECT_EQ(thread_list->NumberOfThreads, 0u);
}
// The MINIDUMP_THREADs |expected| and |observed| are compared against each
// other using Google Test assertions. If |stack| is not nullptr, |observed| is
// expected to contain a populated MINIDUMP_MEMORY_DESCRIPTOR in its Stack
// field, otherwise, its Stack field is expected to be zeroed out. The memory
// descriptor will be placed in |stack|. |observed| must contain a populated
// ThreadContext field. The context will be recovered from |file_contents| and
// stored in |context_base|.
void ExpectThread(const MINIDUMP_THREAD* expected,
const MINIDUMP_THREAD* observed,
const std::string& file_contents,
const MINIDUMP_MEMORY_DESCRIPTOR** stack,
const void** context_base) {
EXPECT_EQ(observed->ThreadId, expected->ThreadId);
EXPECT_EQ(observed->SuspendCount, expected->SuspendCount);
EXPECT_EQ(observed->PriorityClass, expected->PriorityClass);
EXPECT_EQ(observed->Priority, expected->Priority);
EXPECT_EQ(observed->Teb, expected->Teb);
EXPECT_EQ(observed->Stack.StartOfMemoryRange,
expected->Stack.StartOfMemoryRange);
EXPECT_EQ(observed->Stack.Memory.DataSize, expected->Stack.Memory.DataSize);
if (stack) {
ASSERT_NE(observed->Stack.Memory.DataSize, 0u);
ASSERT_NE(observed->Stack.Memory.Rva, 0u);
ASSERT_GE(file_contents.size(),
observed->Stack.Memory.Rva + observed->Stack.Memory.DataSize);
*stack = &observed->Stack;
} else {
EXPECT_EQ(observed->Stack.StartOfMemoryRange, 0u);
EXPECT_EQ(observed->Stack.Memory.DataSize, 0u);
EXPECT_EQ(observed->Stack.Memory.Rva, 0u);
}
EXPECT_EQ(observed->ThreadContext.DataSize, expected->ThreadContext.DataSize);
ASSERT_NE(observed->ThreadContext.DataSize, 0u);
ASSERT_NE(observed->ThreadContext.Rva, 0u);
ASSERT_GE(file_contents.size(),
observed->ThreadContext.Rva + expected->ThreadContext.DataSize);
*context_base = &file_contents[observed->ThreadContext.Rva];
}
TEST(MinidumpThreadWriter, OneThread_x86_NoStack) {
MinidumpFileWriter minidump_file_writer;
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
constexpr uint32_t kThreadID = 0x11111111;
constexpr uint32_t kSuspendCount = 1;
constexpr uint32_t kPriorityClass = 0x20;
constexpr uint32_t kPriority = 10;
constexpr uint64_t kTEB = 0x55555555;
constexpr uint32_t kSeed = 123;
auto thread_writer = std::make_unique<MinidumpThreadWriter>();
thread_writer->SetThreadID(kThreadID);
thread_writer->SetSuspendCount(kSuspendCount);
thread_writer->SetPriorityClass(kPriorityClass);
thread_writer->SetPriority(kPriority);
thread_writer->SetTEB(kTEB);
auto context_x86_writer = std::make_unique<MinidumpContextX86Writer>();
InitializeMinidumpContextX86(context_x86_writer->context(), kSeed);
thread_writer->SetContext(std::move(context_x86_writer));
thread_list_writer->AddThread(std::move(thread_writer));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
StringFile string_file;
ASSERT_TRUE(minidump_file_writer.WriteEverything(&string_file));
ASSERT_EQ(string_file.string().size(),
sizeof(MINIDUMP_HEADER) + sizeof(MINIDUMP_DIRECTORY) +
sizeof(MINIDUMP_THREAD_LIST) + 1 * sizeof(MINIDUMP_THREAD) +
1 * sizeof(MinidumpContextX86));
const MINIDUMP_THREAD_LIST* thread_list = nullptr;
ASSERT_NO_FATAL_FAILURE(
GetThreadListStream(string_file.string(), &thread_list, nullptr));
EXPECT_EQ(thread_list->NumberOfThreads, 1u);
MINIDUMP_THREAD expected = {};
expected.ThreadId = kThreadID;
expected.SuspendCount = kSuspendCount;
expected.PriorityClass = kPriorityClass;
expected.Priority = kPriority;
expected.Teb = kTEB;
expected.ThreadContext.DataSize = sizeof(MinidumpContextX86);
const MinidumpContextX86* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expected,
&thread_list->Threads[0],
string_file.string(),
nullptr,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpContextX86(kSeed, observed_context, false));
}
TEST(MinidumpThreadWriter, OneThread_AMD64_Stack) {
MinidumpFileWriter minidump_file_writer;
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
constexpr uint32_t kThreadID = 0x22222222;
constexpr uint32_t kSuspendCount = 2;
constexpr uint32_t kPriorityClass = 0x30;
constexpr uint32_t kPriority = 20;
constexpr uint64_t kTEB = 0x5555555555555555;
constexpr uint64_t kMemoryBase = 0x765432100000;
constexpr size_t kMemorySize = 32;
constexpr uint8_t kMemoryValue = 99;
constexpr uint32_t kSeed = 456;
auto thread_writer = std::make_unique<MinidumpThreadWriter>();
thread_writer->SetThreadID(kThreadID);
thread_writer->SetSuspendCount(kSuspendCount);
thread_writer->SetPriorityClass(kPriorityClass);
thread_writer->SetPriority(kPriority);
thread_writer->SetTEB(kTEB);
auto memory_writer = std::make_unique<TestMinidumpMemoryWriter>(
kMemoryBase, kMemorySize, kMemoryValue);
thread_writer->SetStack(std::move(memory_writer));
auto context_amd64_writer = std::make_unique<MinidumpContextAMD64Writer>();
InitializeMinidumpContextAMD64(context_amd64_writer->context(), kSeed);
thread_writer->SetContext(std::move(context_amd64_writer));
thread_list_writer->AddThread(std::move(thread_writer));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
StringFile string_file;
ASSERT_TRUE(minidump_file_writer.WriteEverything(&string_file));
ASSERT_EQ(string_file.string().size(),
sizeof(MINIDUMP_HEADER) + sizeof(MINIDUMP_DIRECTORY) +
sizeof(MINIDUMP_THREAD_LIST) + 1 * sizeof(MINIDUMP_THREAD) +
1 * sizeof(MinidumpContextAMD64) + kMemorySize);
const MINIDUMP_THREAD_LIST* thread_list = nullptr;
ASSERT_NO_FATAL_FAILURE(
GetThreadListStream(string_file.string(), &thread_list, nullptr));
EXPECT_EQ(thread_list->NumberOfThreads, 1u);
MINIDUMP_THREAD expected = {};
expected.ThreadId = kThreadID;
expected.SuspendCount = kSuspendCount;
expected.PriorityClass = kPriorityClass;
expected.Priority = kPriority;
expected.Teb = kTEB;
expected.Stack.StartOfMemoryRange = kMemoryBase;
expected.Stack.Memory.DataSize = kMemorySize;
expected.ThreadContext.DataSize = sizeof(MinidumpContextAMD64);
const MINIDUMP_MEMORY_DESCRIPTOR* observed_stack = nullptr;
const MinidumpContextAMD64* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expected,
&thread_list->Threads[0],
string_file.string(),
&observed_stack,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpMemoryDescriptorAndContents(&expected.Stack,
observed_stack,
string_file.string(),
kMemoryValue,
true));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpContextAMD64(kSeed, observed_context, false));
}
TEST(MinidumpThreadWriter, ThreeThreads_x86_MemoryList) {
MinidumpFileWriter minidump_file_writer;
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
auto memory_list_writer = std::make_unique<MinidumpMemoryListWriter>();
thread_list_writer->SetMemoryListWriter(memory_list_writer.get());
constexpr uint32_t kThreadID0 = 1111111;
constexpr uint32_t kSuspendCount0 = 111111;
constexpr uint32_t kPriorityClass0 = 11111;
constexpr uint32_t kPriority0 = 1111;
constexpr uint64_t kTEB0 = 111;
constexpr uint64_t kMemoryBase0 = 0x1110;
constexpr size_t kMemorySize0 = 16;
constexpr uint8_t kMemoryValue0 = 11;
constexpr uint32_t kSeed0 = 1;
auto thread_writer_0 = std::make_unique<MinidumpThreadWriter>();
thread_writer_0->SetThreadID(kThreadID0);
thread_writer_0->SetSuspendCount(kSuspendCount0);
thread_writer_0->SetPriorityClass(kPriorityClass0);
thread_writer_0->SetPriority(kPriority0);
thread_writer_0->SetTEB(kTEB0);
auto memory_writer_0 = std::make_unique<TestMinidumpMemoryWriter>(
kMemoryBase0, kMemorySize0, kMemoryValue0);
thread_writer_0->SetStack(std::move(memory_writer_0));
auto context_x86_writer_0 = std::make_unique<MinidumpContextX86Writer>();
InitializeMinidumpContextX86(context_x86_writer_0->context(), kSeed0);
thread_writer_0->SetContext(std::move(context_x86_writer_0));
thread_list_writer->AddThread(std::move(thread_writer_0));
constexpr uint32_t kThreadID1 = 2222222;
constexpr uint32_t kSuspendCount1 = 222222;
constexpr uint32_t kPriorityClass1 = 22222;
constexpr uint32_t kPriority1 = 2222;
constexpr uint64_t kTEB1 = 222;
constexpr uint64_t kMemoryBase1 = 0x2220;
constexpr size_t kMemorySize1 = 32;
constexpr uint8_t kMemoryValue1 = 22;
constexpr uint32_t kSeed1 = 2;
auto thread_writer_1 = std::make_unique<MinidumpThreadWriter>();
thread_writer_1->SetThreadID(kThreadID1);
thread_writer_1->SetSuspendCount(kSuspendCount1);
thread_writer_1->SetPriorityClass(kPriorityClass1);
thread_writer_1->SetPriority(kPriority1);
thread_writer_1->SetTEB(kTEB1);
auto memory_writer_1 = std::make_unique<TestMinidumpMemoryWriter>(
kMemoryBase1, kMemorySize1, kMemoryValue1);
thread_writer_1->SetStack(std::move(memory_writer_1));
auto context_x86_writer_1 = std::make_unique<MinidumpContextX86Writer>();
InitializeMinidumpContextX86(context_x86_writer_1->context(), kSeed1);
thread_writer_1->SetContext(std::move(context_x86_writer_1));
thread_list_writer->AddThread(std::move(thread_writer_1));
constexpr uint32_t kThreadID2 = 3333333;
constexpr uint32_t kSuspendCount2 = 333333;
constexpr uint32_t kPriorityClass2 = 33333;
constexpr uint32_t kPriority2 = 3333;
constexpr uint64_t kTEB2 = 333;
constexpr uint64_t kMemoryBase2 = 0x3330;
constexpr size_t kMemorySize2 = 48;
constexpr uint8_t kMemoryValue2 = 33;
constexpr uint32_t kSeed2 = 3;
auto thread_writer_2 = std::make_unique<MinidumpThreadWriter>();
thread_writer_2->SetThreadID(kThreadID2);
thread_writer_2->SetSuspendCount(kSuspendCount2);
thread_writer_2->SetPriorityClass(kPriorityClass2);
thread_writer_2->SetPriority(kPriority2);
thread_writer_2->SetTEB(kTEB2);
auto memory_writer_2 = std::make_unique<TestMinidumpMemoryWriter>(
kMemoryBase2, kMemorySize2, kMemoryValue2);
thread_writer_2->SetStack(std::move(memory_writer_2));
auto context_x86_writer_2 = std::make_unique<MinidumpContextX86Writer>();
InitializeMinidumpContextX86(context_x86_writer_2->context(), kSeed2);
thread_writer_2->SetContext(std::move(context_x86_writer_2));
thread_list_writer->AddThread(std::move(thread_writer_2));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(memory_list_writer)));
StringFile string_file;
ASSERT_TRUE(minidump_file_writer.WriteEverything(&string_file));
ASSERT_EQ(
string_file.string().size(),
sizeof(MINIDUMP_HEADER) + 2 * sizeof(MINIDUMP_DIRECTORY) +
sizeof(MINIDUMP_THREAD_LIST) + 3 * sizeof(MINIDUMP_THREAD) +
sizeof(MINIDUMP_MEMORY_LIST) +
3 * sizeof(MINIDUMP_MEMORY_DESCRIPTOR) +
3 * sizeof(MinidumpContextX86) + kMemorySize0 + kMemorySize1 +
kMemorySize2 + 12); // 12 for alignment
const MINIDUMP_THREAD_LIST* thread_list = nullptr;
const MINIDUMP_MEMORY_LIST* memory_list = nullptr;
ASSERT_NO_FATAL_FAILURE(
GetThreadListStream(string_file.string(), &thread_list, &memory_list));
EXPECT_EQ(thread_list->NumberOfThreads, 3u);
EXPECT_EQ(memory_list->NumberOfMemoryRanges, 3u);
{
SCOPED_TRACE("thread 0");
MINIDUMP_THREAD expected = {};
expected.ThreadId = kThreadID0;
expected.SuspendCount = kSuspendCount0;
expected.PriorityClass = kPriorityClass0;
expected.Priority = kPriority0;
expected.Teb = kTEB0;
expected.Stack.StartOfMemoryRange = kMemoryBase0;
expected.Stack.Memory.DataSize = kMemorySize0;
expected.ThreadContext.DataSize = sizeof(MinidumpContextX86);
const MINIDUMP_MEMORY_DESCRIPTOR* observed_stack = nullptr;
const MinidumpContextX86* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expected,
&thread_list->Threads[0],
string_file.string(),
&observed_stack,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpMemoryDescriptorAndContents(&expected.Stack,
observed_stack,
string_file.string(),
kMemoryValue0,
false));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpContextX86(kSeed0, observed_context, false));
ASSERT_NO_FATAL_FAILURE(ExpectMinidumpMemoryDescriptor(
observed_stack, &memory_list->MemoryRanges[0]));
}
{
SCOPED_TRACE("thread 1");
MINIDUMP_THREAD expected = {};
expected.ThreadId = kThreadID1;
expected.SuspendCount = kSuspendCount1;
expected.PriorityClass = kPriorityClass1;
expected.Priority = kPriority1;
expected.Teb = kTEB1;
expected.Stack.StartOfMemoryRange = kMemoryBase1;
expected.Stack.Memory.DataSize = kMemorySize1;
expected.ThreadContext.DataSize = sizeof(MinidumpContextX86);
const MINIDUMP_MEMORY_DESCRIPTOR* observed_stack = nullptr;
const MinidumpContextX86* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expected,
&thread_list->Threads[1],
string_file.string(),
&observed_stack,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpMemoryDescriptorAndContents(&expected.Stack,
observed_stack,
string_file.string(),
kMemoryValue1,
false));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpContextX86(kSeed1, observed_context, false));
ASSERT_NO_FATAL_FAILURE(ExpectMinidumpMemoryDescriptor(
observed_stack, &memory_list->MemoryRanges[1]));
}
{
SCOPED_TRACE("thread 2");
MINIDUMP_THREAD expected = {};
expected.ThreadId = kThreadID2;
expected.SuspendCount = kSuspendCount2;
expected.PriorityClass = kPriorityClass2;
expected.Priority = kPriority2;
expected.Teb = kTEB2;
expected.Stack.StartOfMemoryRange = kMemoryBase2;
expected.Stack.Memory.DataSize = kMemorySize2;
expected.ThreadContext.DataSize = sizeof(MinidumpContextX86);
const MINIDUMP_MEMORY_DESCRIPTOR* observed_stack = nullptr;
const MinidumpContextX86* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expected,
&thread_list->Threads[2],
string_file.string(),
&observed_stack,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpMemoryDescriptorAndContents(&expected.Stack,
observed_stack,
string_file.string(),
kMemoryValue2,
true));
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpContextX86(kSeed2, observed_context, false));
ASSERT_NO_FATAL_FAILURE(ExpectMinidumpMemoryDescriptor(
observed_stack, &memory_list->MemoryRanges[2]));
}
}
struct InitializeFromSnapshotX86Traits {
using MinidumpContextType = MinidumpContextX86;
static void InitializeCPUContext(CPUContext* context, uint32_t seed) {
return InitializeCPUContextX86(context, seed);
}
static void ExpectMinidumpContext(
uint32_t expect_seed, const MinidumpContextX86* observed, bool snapshot) {
return ExpectMinidumpContextX86(expect_seed, observed, snapshot);
}
};
struct InitializeFromSnapshotAMD64Traits {
using MinidumpContextType = MinidumpContextAMD64;
static void InitializeCPUContext(CPUContext* context, uint32_t seed) {
return InitializeCPUContextX86_64(context, seed);
}
static void ExpectMinidumpContext(uint32_t expect_seed,
const MinidumpContextAMD64* observed,
bool snapshot) {
return ExpectMinidumpContextAMD64(expect_seed, observed, snapshot);
}
};
struct InitializeFromSnapshotNoContextTraits {
using MinidumpContextType = MinidumpContextX86;
static void InitializeCPUContext(CPUContext* context, uint32_t seed) {
context->architecture = kCPUArchitectureUnknown;
}
static void ExpectMinidumpContext(uint32_t expect_seed,
const MinidumpContextX86* observed,
bool snapshot) {
FAIL();
}
};
template <typename Traits>
void RunInitializeFromSnapshotTest(bool thread_id_collision) {
using MinidumpContextType = typename Traits::MinidumpContextType;
MINIDUMP_THREAD expect_threads[3] = {};
uint64_t thread_ids[base::size(expect_threads)] = {};
uint8_t memory_values[base::size(expect_threads)] = {};
uint32_t context_seeds[base::size(expect_threads)] = {};
MINIDUMP_MEMORY_DESCRIPTOR tebs[base::size(expect_threads)] = {};
constexpr size_t kTebSize = 1024;
expect_threads[0].ThreadId = 1;
expect_threads[0].SuspendCount = 2;
expect_threads[0].Priority = 3;
expect_threads[0].Teb = 0x0123456789abcdef;
expect_threads[0].Stack.StartOfMemoryRange = 0x1000;
expect_threads[0].Stack.Memory.DataSize = 0x100;
expect_threads[0].ThreadContext.DataSize = sizeof(MinidumpContextType);
memory_values[0] = 'A';
context_seeds[0] = 0x80000000;
tebs[0].StartOfMemoryRange = expect_threads[0].Teb;
tebs[0].Memory.DataSize = kTebSize;
// The thread at index 1 has no stack.
expect_threads[1].ThreadId = 11;
expect_threads[1].SuspendCount = 12;
expect_threads[1].Priority = 13;
expect_threads[1].Teb = 0x1111111111111111;
expect_threads[1].ThreadContext.DataSize = sizeof(MinidumpContextType);
context_seeds[1] = 0x40000001;
tebs[1].StartOfMemoryRange = expect_threads[1].Teb;
tebs[1].Memory.DataSize = kTebSize;
expect_threads[2].ThreadId = 21;
expect_threads[2].SuspendCount = 22;
expect_threads[2].Priority = 23;
expect_threads[2].Teb = 0xfedcba9876543210;
expect_threads[2].Stack.StartOfMemoryRange = 0x3000;
expect_threads[2].Stack.Memory.DataSize = 0x300;
expect_threads[2].ThreadContext.DataSize = sizeof(MinidumpContextType);
memory_values[2] = 'd';
context_seeds[2] = 0x20000002;
tebs[2].StartOfMemoryRange = expect_threads[2].Teb;
tebs[2].Memory.DataSize = kTebSize;
if (thread_id_collision) {
thread_ids[0] = 0x0123456700000001;
thread_ids[1] = 0x89abcdef00000001;
thread_ids[2] = 4;
expect_threads[0].ThreadId = 0;
expect_threads[1].ThreadId = 1;
expect_threads[2].ThreadId = 2;
} else {
thread_ids[0] = 1;
thread_ids[1] = 11;
thread_ids[2] = 22;
expect_threads[0].ThreadId = static_cast<uint32_t>(thread_ids[0]);
expect_threads[1].ThreadId = static_cast<uint32_t>(thread_ids[1]);
expect_threads[2].ThreadId = static_cast<uint32_t>(thread_ids[2]);
}
std::vector<std::unique_ptr<TestThreadSnapshot>> thread_snapshots_owner;
std::vector<const ThreadSnapshot*> thread_snapshots;
for (size_t index = 0; index < base::size(expect_threads); ++index) {
thread_snapshots_owner.push_back(std::make_unique<TestThreadSnapshot>());
TestThreadSnapshot* thread_snapshot = thread_snapshots_owner.back().get();
thread_snapshot->SetThreadID(thread_ids[index]);
thread_snapshot->SetSuspendCount(expect_threads[index].SuspendCount);
thread_snapshot->SetPriority(expect_threads[index].Priority);
thread_snapshot->SetThreadSpecificDataAddress(expect_threads[index].Teb);
if (expect_threads[index].Stack.Memory.DataSize) {
auto memory_snapshot = std::make_unique<TestMemorySnapshot>();
memory_snapshot->SetAddress(
expect_threads[index].Stack.StartOfMemoryRange);
memory_snapshot->SetSize(expect_threads[index].Stack.Memory.DataSize);
memory_snapshot->SetValue(memory_values[index]);
thread_snapshot->SetStack(std::move(memory_snapshot));
}
Traits::InitializeCPUContext(thread_snapshot->MutableContext(),
context_seeds[index]);
auto teb_snapshot = std::make_unique<TestMemorySnapshot>();
teb_snapshot->SetAddress(expect_threads[index].Teb);
teb_snapshot->SetSize(kTebSize);
teb_snapshot->SetValue(static_cast<char>('t' + index));
thread_snapshot->AddExtraMemory(std::move(teb_snapshot));
thread_snapshots.push_back(thread_snapshot);
}
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
auto memory_list_writer = std::make_unique<MinidumpMemoryListWriter>();
thread_list_writer->SetMemoryListWriter(memory_list_writer.get());
MinidumpThreadIDMap thread_id_map;
thread_list_writer->InitializeFromSnapshot(thread_snapshots, &thread_id_map);
MinidumpFileWriter minidump_file_writer;
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(memory_list_writer)));
StringFile string_file;
ASSERT_TRUE(minidump_file_writer.WriteEverything(&string_file));
const MINIDUMP_THREAD_LIST* thread_list = nullptr;
const MINIDUMP_MEMORY_LIST* memory_list = nullptr;
ASSERT_NO_FATAL_FAILURE(
GetThreadListStream(string_file.string(), &thread_list, &memory_list));
ASSERT_EQ(thread_list->NumberOfThreads, 3u);
ASSERT_EQ(memory_list->NumberOfMemoryRanges, 5u);
size_t memory_index = 0;
for (size_t index = 0; index < thread_list->NumberOfThreads; ++index) {
SCOPED_TRACE(base::StringPrintf("index %" PRIuS, index));
const MINIDUMP_MEMORY_DESCRIPTOR* observed_stack = nullptr;
const MINIDUMP_MEMORY_DESCRIPTOR** observed_stack_p =
expect_threads[index].Stack.Memory.DataSize ? &observed_stack : nullptr;
const MinidumpContextType* observed_context = nullptr;
ASSERT_NO_FATAL_FAILURE(
ExpectThread(&expect_threads[index],
&thread_list->Threads[index],
string_file.string(),
observed_stack_p,
reinterpret_cast<const void**>(&observed_context)));
ASSERT_NO_FATAL_FAILURE(Traits::ExpectMinidumpContext(
context_seeds[index], observed_context, true));
if (observed_stack_p) {
ASSERT_NO_FATAL_FAILURE(ExpectMinidumpMemoryDescriptorAndContents(
&expect_threads[index].Stack,
observed_stack,
string_file.string(),
memory_values[index],
false));
ASSERT_NO_FATAL_FAILURE(ExpectMinidumpMemoryDescriptor(
observed_stack, &memory_list->MemoryRanges[memory_index]));
++memory_index;
}
}
for (size_t index = 0; index < thread_list->NumberOfThreads; ++index) {
const MINIDUMP_MEMORY_DESCRIPTOR* memory =
&memory_list->MemoryRanges[memory_index];
ASSERT_NO_FATAL_FAILURE(
ExpectMinidumpMemoryDescriptor(&tebs[index], memory));
std::string expected_data(kTebSize, static_cast<char>('t' + index));
std::string observed_data(&string_file.string()[memory->Memory.Rva],
memory->Memory.DataSize);
EXPECT_EQ(observed_data, expected_data);
++memory_index;
}
}
TEST(MinidumpThreadWriter, InitializeFromSnapshot_x86) {
RunInitializeFromSnapshotTest<InitializeFromSnapshotX86Traits>(false);
}
TEST(MinidumpThreadWriter, InitializeFromSnapshot_AMD64) {
RunInitializeFromSnapshotTest<InitializeFromSnapshotAMD64Traits>(false);
}
TEST(MinidumpThreadWriter, InitializeFromSnapshot_ThreadIDCollision) {
RunInitializeFromSnapshotTest<InitializeFromSnapshotX86Traits>(true);
}
TEST(MinidumpThreadWriterDeathTest, NoContext) {
MinidumpFileWriter minidump_file_writer;
auto thread_list_writer = std::make_unique<MinidumpThreadListWriter>();
auto thread_writer = std::make_unique<MinidumpThreadWriter>();
thread_list_writer->AddThread(std::move(thread_writer));
ASSERT_TRUE(minidump_file_writer.AddStream(std::move(thread_list_writer)));
StringFile string_file;
ASSERT_DEATH_CHECK(minidump_file_writer.WriteEverything(&string_file),
"context_");
}
TEST(MinidumpThreadWriterDeathTest, InitializeFromSnapshot_NoContext) {
ASSERT_DEATH_CHECK(
RunInitializeFromSnapshotTest<InitializeFromSnapshotNoContextTraits>(
false), "context_");
}
} // namespace
} // namespace test
} // namespace crashpad
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