3party/crashpad
0
0
Fork 0
mirror of https://github.com/chromium/crashpad.git synced 2024-12-29 08:39:44 +08:00
Code Issues Projects Releases Wiki Activity
crashpad/util/file/file_io_test.cc
Mark Mentovai cc166d71f4 Use base::size where appropriate, and ArraySize elsewhere 
This is a follow-up to c8a016b99d97, following the post-landing
discussion at
https://chromium-review.googlesource.com/c/crashpad/crashpad/+/1393921/5#message-2058541d8c4505d20a990ab7734cd758e437a5f7

base::size, and std::size that will eventually replace it when C++17 is
assured, does not allow the size of non-static data members to be taken
in constant expression context. The remaining uses of ArraySize are in:

minidump/minidump_exception_writer.cc (×1)
minidump/minidump_system_info_writer.cc (×2, also uses base::size)
snapshot/cpu_context.cc (×4, also uses base::size)
util/misc/arraysize_test.cc (×10, of course)

The first of these occurs when initializing a constexpr variable. All
others are in expressions used with static_assert.

Includes:
Update mini_chromium to 737433ebade4d446643c6c07daae02a67e8deccao

f701716d9546 Add Windows ARM64 build target to mini_chromium
87a95a3d6ac2 Remove the arraysize macro
1f7255ead1f7 Placate MSVC in areas of base::size usage
737433ebade4 Add cast

Bug: chromium:837308
Change-Id: I6a5162654461b1bdd9b7b6864d0d71a734bcde19
Reviewed-on: https://chromium-review.googlesource.com/c/1396108
Commit-Queue: Mark Mentovai <mark@chromium.org>
Reviewed-by: Mark Mentovai <mark@chromium.org>
2019-01-04 22:42:57 +00:00

700 lines
25 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// Copyright 2015 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 "util/file/file_io.h"
#include <stdio.h>
#include <limits>
#include <type_traits>
#include "base/atomicops.h"
#include "base/files/file_path.h"
#include "base/macros.h"
#include "base/stl_util.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "test/errors.h"
#include "test/file.h"
#include "test/scoped_temp_dir.h"
#include "util/misc/implicit_cast.h"
#include "util/thread/thread.h"
namespace crashpad {
namespace test {
namespace {
using testing::_;
using testing::InSequence;
using testing::Return;
class MockReadExactly : public internal::ReadExactlyInternal {
public:
MockReadExactly() : ReadExactlyInternal() {}
~MockReadExactly() {}
// Since its more convenient for the test to use uintptr_t than void*,
// ReadExactlyInt() and ReadInt() adapt the types.
bool ReadExactlyInt(uintptr_t data, size_t size, bool can_log) {
return ReadExactly(reinterpret_cast<void*>(data), size, can_log);
}
MOCK_METHOD3(ReadInt, FileOperationResult(uintptr_t, size_t, bool));
// ReadExactlyInternal:
FileOperationResult Read(void* data, size_t size, bool can_log) {
return ReadInt(reinterpret_cast<uintptr_t>(data), size, can_log);
}
private:
DISALLOW_COPY_AND_ASSIGN(MockReadExactly);
};
TEST(FileIO, ReadExactly_Zero) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(_, _, false)).Times(0);
EXPECT_TRUE(read_exactly.ReadExactlyInt(100, 0, false));
}
TEST(FileIO, ReadExactly_SingleSmallSuccess) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(1000, 1, false)).WillOnce(Return(1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(1000, 1, false));
}
TEST(FileIO, ReadExactly_SingleSmallSuccessCanLog) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(1000, 1, true)).WillOnce(Return(1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(1000, 1, true));
}
TEST(FileIO, ReadExactly_SingleSmallFailure) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(1000, 1, false)).WillOnce(Return(-1));
EXPECT_FALSE(read_exactly.ReadExactlyInt(1000, 1, false));
}
TEST(FileIO, ReadExactly_SingleSmallFailureCanLog) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(1000, 1, true)).WillOnce(Return(-1));
EXPECT_FALSE(read_exactly.ReadExactlyInt(1000, 1, true));
}
TEST(FileIO, ReadExactly_DoubleSmallSuccess) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0x1000, 2, false)).WillOnce(Return(1));
EXPECT_CALL(read_exactly, ReadInt(0x1001, 1, false)).WillOnce(Return(1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(0x1000, 2, false));
}
TEST(FileIO, ReadExactly_DoubleSmallShort) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0x20000, 2, false)).WillOnce(Return(1));
EXPECT_CALL(read_exactly, ReadInt(0x20001, 1, false)).WillOnce(Return(0));
EXPECT_FALSE(read_exactly.ReadExactlyInt(0x20000, 2, false));
}
TEST(FileIO, ReadExactly_DoubleSmallShortCanLog) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0x20000, 2, true)).WillOnce(Return(1));
EXPECT_CALL(read_exactly, ReadInt(0x20001, 1, true)).WillOnce(Return(0));
EXPECT_FALSE(read_exactly.ReadExactlyInt(0x20000, 2, true));
}
TEST(FileIO, ReadExactly_Medium) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0x80000000, 0x20000000, false))
.WillOnce(Return(0x10000000));
EXPECT_CALL(read_exactly, ReadInt(0x90000000, 0x10000000, false))
.WillOnce(Return(0x8000000));
EXPECT_CALL(read_exactly, ReadInt(0x98000000, 0x8000000, false))
.WillOnce(Return(0x4000000));
EXPECT_CALL(read_exactly, ReadInt(0x9c000000, 0x4000000, false))
.WillOnce(Return(0x2000000));
EXPECT_CALL(read_exactly, ReadInt(0x9e000000, 0x2000000, false))
.WillOnce(Return(0x1000000));
EXPECT_CALL(read_exactly, ReadInt(0x9f000000, 0x1000000, false))
.WillOnce(Return(0x800000));
EXPECT_CALL(read_exactly, ReadInt(0x9f800000, 0x800000, false))
.WillOnce(Return(0x400000));
EXPECT_CALL(read_exactly, ReadInt(0x9fc00000, 0x400000, false))
.WillOnce(Return(0x200000));
EXPECT_CALL(read_exactly, ReadInt(0x9fe00000, 0x200000, false))
.WillOnce(Return(0x100000));
EXPECT_CALL(read_exactly, ReadInt(0x9ff00000, 0x100000, false))
.WillOnce(Return(0x80000));
EXPECT_CALL(read_exactly, ReadInt(0x9ff80000, 0x80000, false))
.WillOnce(Return(0x40000));
EXPECT_CALL(read_exactly, ReadInt(0x9ffc0000, 0x40000, false))
.WillOnce(Return(0x20000));
EXPECT_CALL(read_exactly, ReadInt(0x9ffe0000, 0x20000, false))
.WillOnce(Return(0x10000));
EXPECT_CALL(read_exactly, ReadInt(0x9fff0000, 0x10000, false))
.WillOnce(Return(0x8000));
EXPECT_CALL(read_exactly, ReadInt(0x9fff8000, 0x8000, false))
.WillOnce(Return(0x4000));
EXPECT_CALL(read_exactly, ReadInt(0x9fffc000, 0x4000, false))
.WillOnce(Return(0x2000));
EXPECT_CALL(read_exactly, ReadInt(0x9fffe000, 0x2000, false))
.WillOnce(Return(0x1000));
EXPECT_CALL(read_exactly, ReadInt(0x9ffff000, 0x1000, false))
.WillOnce(Return(0x800));
EXPECT_CALL(read_exactly, ReadInt(0x9ffff800, 0x800, false))
.WillOnce(Return(0x400));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffc00, 0x400, false))
.WillOnce(Return(0x200));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffe00, 0x200, false))
.WillOnce(Return(0x100));
EXPECT_CALL(read_exactly, ReadInt(0x9fffff00, 0x100, false))
.WillOnce(Return(0x80));
EXPECT_CALL(read_exactly, ReadInt(0x9fffff80, 0x80, false))
.WillOnce(Return(0x40));
EXPECT_CALL(read_exactly, ReadInt(0x9fffffc0, 0x40, false))
.WillOnce(Return(0x20));
EXPECT_CALL(read_exactly, ReadInt(0x9fffffe0, 0x20, false))
.WillOnce(Return(0x10));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffff0, 0x10, false))
.WillOnce(Return(0x8));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffff8, 0x8, false))
.WillOnce(Return(0x4));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffffc, 0x4, false))
.WillOnce(Return(0x2));
EXPECT_CALL(read_exactly, ReadInt(0x9ffffffe, 0x2, false))
.WillOnce(Return(0x1));
EXPECT_CALL(read_exactly, ReadInt(0x9fffffff, 0x1, false))
.WillOnce(Return(0x1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(0x80000000, 0x20000000, false));
}
TEST(FileIO, ReadExactly_LargeSuccess) {
MockReadExactly read_exactly;
InSequence in_sequence;
constexpr size_t max = std::numeric_limits<uint32_t>::max();
constexpr size_t increment = std::numeric_limits<int32_t>::max();
EXPECT_CALL(read_exactly, ReadInt(0, max, false)).WillOnce(Return(increment));
EXPECT_CALL(read_exactly, ReadInt(increment, max - increment, false))
.WillOnce(Return(increment));
EXPECT_CALL(read_exactly, ReadInt(2 * increment, 1, false))
.WillOnce(Return(1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(0, max, false));
}
TEST(FileIO, ReadExactly_LargeShort) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0, 0xffffffff, false))
.WillOnce(Return(0x7fffffff));
EXPECT_CALL(read_exactly, ReadInt(0x7fffffff, 0x80000000, false))
.WillOnce(Return(0x10000000));
EXPECT_CALL(read_exactly, ReadInt(0x8fffffff, 0x70000000, false))
.WillOnce(Return(0));
EXPECT_FALSE(read_exactly.ReadExactlyInt(0, 0xffffffff, false));
}
TEST(FileIO, ReadExactly_LargeFailure) {
MockReadExactly read_exactly;
InSequence in_sequence;
EXPECT_CALL(read_exactly, ReadInt(0, 0xffffffff, false))
.WillOnce(Return(0x7fffffff));
EXPECT_CALL(read_exactly, ReadInt(0x7fffffff, 0x80000000, false))
.WillOnce(Return(-1));
EXPECT_FALSE(read_exactly.ReadExactlyInt(0, 0xffffffff, false));
}
TEST(FileIO, ReadExactly_TripleMax) {
MockReadExactly read_exactly;
InSequence in_sequence;
constexpr size_t max = std::numeric_limits<size_t>::max();
constexpr size_t increment =
std::numeric_limits<std::make_signed<size_t>::type>::max();
EXPECT_CALL(read_exactly, ReadInt(0, max, false)).WillOnce(Return(increment));
EXPECT_CALL(read_exactly, ReadInt(increment, max - increment, false))
.WillOnce(Return(increment));
EXPECT_CALL(read_exactly, ReadInt(2 * increment, 1, false))
.WillOnce(Return(1));
EXPECT_TRUE(read_exactly.ReadExactlyInt(0, max, false));
}
class MockWriteAll : public internal::WriteAllInternal {
public:
MockWriteAll() : WriteAllInternal() {}
~MockWriteAll() {}
// Since its more convenient for the test to use uintptr_t than const void*,
// WriteAllInt() and WriteInt() adapt the types.
bool WriteAllInt(uintptr_t data, size_t size) {
return WriteAll(reinterpret_cast<const void*>(data), size);
}
MOCK_METHOD2(WriteInt, FileOperationResult(uintptr_t, size_t));
// WriteAllInternal:
FileOperationResult Write(const void* data, size_t size) {
return WriteInt(reinterpret_cast<uintptr_t>(data), size);
}
private:
DISALLOW_COPY_AND_ASSIGN(MockWriteAll);
};
TEST(FileIO, WriteAll_Zero) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(_, _)).Times(0);
EXPECT_TRUE(write_all.WriteAllInt(100, 0));
}
TEST(FileIO, WriteAll_SingleSmallSuccess) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(1000, 1)).WillOnce(Return(1));
EXPECT_TRUE(write_all.WriteAllInt(1000, 1));
}
TEST(FileIO, WriteAll_SingleSmallFailure) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(1000, 1)).WillOnce(Return(-1));
EXPECT_FALSE(write_all.WriteAllInt(1000, 1));
}
TEST(FileIO, WriteAll_DoubleSmall) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(0x1000, 2)).WillOnce(Return(1));
EXPECT_CALL(write_all, WriteInt(0x1001, 1)).WillOnce(Return(1));
EXPECT_TRUE(write_all.WriteAllInt(0x1000, 2));
}
TEST(FileIO, WriteAll_Medium) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(0x80000000, 0x20000000))
.WillOnce(Return(0x10000000));
EXPECT_CALL(write_all, WriteInt(0x90000000, 0x10000000))
.WillOnce(Return(0x8000000));
EXPECT_CALL(write_all, WriteInt(0x98000000, 0x8000000))
.WillOnce(Return(0x4000000));
EXPECT_CALL(write_all, WriteInt(0x9c000000, 0x4000000))
.WillOnce(Return(0x2000000));
EXPECT_CALL(write_all, WriteInt(0x9e000000, 0x2000000))
.WillOnce(Return(0x1000000));
EXPECT_CALL(write_all, WriteInt(0x9f000000, 0x1000000))
.WillOnce(Return(0x800000));
EXPECT_CALL(write_all, WriteInt(0x9f800000, 0x800000))
.WillOnce(Return(0x400000));
EXPECT_CALL(write_all, WriteInt(0x9fc00000, 0x400000))
.WillOnce(Return(0x200000));
EXPECT_CALL(write_all, WriteInt(0x9fe00000, 0x200000))
.WillOnce(Return(0x100000));
EXPECT_CALL(write_all, WriteInt(0x9ff00000, 0x100000))
.WillOnce(Return(0x80000));
EXPECT_CALL(write_all, WriteInt(0x9ff80000, 0x80000))
.WillOnce(Return(0x40000));
EXPECT_CALL(write_all, WriteInt(0x9ffc0000, 0x40000))
.WillOnce(Return(0x20000));
EXPECT_CALL(write_all, WriteInt(0x9ffe0000, 0x20000))
.WillOnce(Return(0x10000));
EXPECT_CALL(write_all, WriteInt(0x9fff0000, 0x10000))
.WillOnce(Return(0x8000));
EXPECT_CALL(write_all, WriteInt(0x9fff8000, 0x8000)).WillOnce(Return(0x4000));
EXPECT_CALL(write_all, WriteInt(0x9fffc000, 0x4000)).WillOnce(Return(0x2000));
EXPECT_CALL(write_all, WriteInt(0x9fffe000, 0x2000)).WillOnce(Return(0x1000));
EXPECT_CALL(write_all, WriteInt(0x9ffff000, 0x1000)).WillOnce(Return(0x800));
EXPECT_CALL(write_all, WriteInt(0x9ffff800, 0x800)).WillOnce(Return(0x400));
EXPECT_CALL(write_all, WriteInt(0x9ffffc00, 0x400)).WillOnce(Return(0x200));
EXPECT_CALL(write_all, WriteInt(0x9ffffe00, 0x200)).WillOnce(Return(0x100));
EXPECT_CALL(write_all, WriteInt(0x9fffff00, 0x100)).WillOnce(Return(0x80));
EXPECT_CALL(write_all, WriteInt(0x9fffff80, 0x80)).WillOnce(Return(0x40));
EXPECT_CALL(write_all, WriteInt(0x9fffffc0, 0x40)).WillOnce(Return(0x20));
EXPECT_CALL(write_all, WriteInt(0x9fffffe0, 0x20)).WillOnce(Return(0x10));
EXPECT_CALL(write_all, WriteInt(0x9ffffff0, 0x10)).WillOnce(Return(0x8));
EXPECT_CALL(write_all, WriteInt(0x9ffffff8, 0x8)).WillOnce(Return(0x4));
EXPECT_CALL(write_all, WriteInt(0x9ffffffc, 0x4)).WillOnce(Return(0x2));
EXPECT_CALL(write_all, WriteInt(0x9ffffffe, 0x2)).WillOnce(Return(0x1));
EXPECT_CALL(write_all, WriteInt(0x9fffffff, 0x1)).WillOnce(Return(0x1));
EXPECT_TRUE(write_all.WriteAllInt(0x80000000, 0x20000000));
}
TEST(FileIO, WriteAll_LargeSuccess) {
MockWriteAll write_all;
InSequence in_sequence;
constexpr size_t max = std::numeric_limits<uint32_t>::max();
constexpr size_t increment = std::numeric_limits<int32_t>::max();
EXPECT_CALL(write_all, WriteInt(0, max)).WillOnce(Return(increment));
EXPECT_CALL(write_all, WriteInt(increment, max - increment))
.WillOnce(Return(increment));
EXPECT_CALL(write_all, WriteInt(2 * increment, 1)).WillOnce(Return(1));
EXPECT_TRUE(write_all.WriteAllInt(0, max));
}
TEST(FileIO, WriteAll_LargeFailure) {
MockWriteAll write_all;
InSequence in_sequence;
EXPECT_CALL(write_all, WriteInt(0, 0xffffffff)).WillOnce(Return(0x7fffffff));
EXPECT_CALL(write_all, WriteInt(0x7fffffff, 0x80000000)).WillOnce(Return(-1));
EXPECT_FALSE(write_all.WriteAllInt(0, 0xffffffff));
}
TEST(FileIO, WriteAll_TripleMax) {
MockWriteAll write_all;
InSequence in_sequence;
constexpr size_t max = std::numeric_limits<size_t>::max();
constexpr size_t increment =
std::numeric_limits<std::make_signed<size_t>::type>::max();
EXPECT_CALL(write_all, WriteInt(0, max)).WillOnce(Return(increment));
EXPECT_CALL(write_all, WriteInt(increment, max - increment))
.WillOnce(Return(increment));
EXPECT_CALL(write_all, WriteInt(2 * increment, 1)).WillOnce(Return(1));
EXPECT_TRUE(write_all.WriteAllInt(0, max));
}
void TestOpenFileForWrite(FileHandle (*opener)(const base::FilePath&,
FileWriteMode,
FilePermissions)) {
ScopedTempDir temp_dir;
base::FilePath file_path_1 =
temp_dir.path().Append(FILE_PATH_LITERAL("file_1"));
ASSERT_FALSE(FileExists(file_path_1));
ScopedFileHandle file_handle(opener(file_path_1,
FileWriteMode::kReuseOrFail,
FilePermissions::kWorldReadable));
EXPECT_EQ(file_handle, kInvalidFileHandle);
EXPECT_FALSE(FileExists(file_path_1));
file_handle.reset(opener(file_path_1,
FileWriteMode::kCreateOrFail,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), 0);
file_handle.reset(opener(file_path_1,
FileWriteMode::kReuseOrCreate,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), 0);
constexpr char data = '%';
EXPECT_TRUE(LoggingWriteFile(file_handle.get(), &data, sizeof(data)));
// Close file_handle to ensure that the write is flushed to disk.
file_handle.reset();
EXPECT_EQ(FileSize(file_path_1), implicit_cast<FileOffset>(sizeof(data)));
file_handle.reset(opener(file_path_1,
FileWriteMode::kReuseOrCreate,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), implicit_cast<FileOffset>(sizeof(data)));
file_handle.reset(opener(file_path_1,
FileWriteMode::kCreateOrFail,
FilePermissions::kWorldReadable));
EXPECT_EQ(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), implicit_cast<FileOffset>(sizeof(data)));
file_handle.reset(opener(file_path_1,
FileWriteMode::kReuseOrFail,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), implicit_cast<FileOffset>(sizeof(data)));
file_handle.reset(opener(file_path_1,
FileWriteMode::kTruncateOrCreate,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_1));
EXPECT_EQ(FileSize(file_path_1), 0);
base::FilePath file_path_2 =
temp_dir.path().Append(FILE_PATH_LITERAL("file_2"));
ASSERT_FALSE(FileExists(file_path_2));
file_handle.reset(opener(file_path_2,
FileWriteMode::kTruncateOrCreate,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_2));
EXPECT_EQ(FileSize(file_path_2), 0);
base::FilePath file_path_3 =
temp_dir.path().Append(FILE_PATH_LITERAL("file_3"));
ASSERT_FALSE(FileExists(file_path_3));
file_handle.reset(opener(file_path_3,
FileWriteMode::kReuseOrCreate,
FilePermissions::kWorldReadable));
EXPECT_NE(file_handle, kInvalidFileHandle);
EXPECT_TRUE(FileExists(file_path_3));
EXPECT_EQ(FileSize(file_path_3), 0);
}
TEST(FileIO, OpenFileForWrite) {
TestOpenFileForWrite(OpenFileForWrite);
}
TEST(FileIO, OpenFileForReadAndWrite) {
TestOpenFileForWrite(OpenFileForReadAndWrite);
}
TEST(FileIO, LoggingOpenFileForWrite) {
TestOpenFileForWrite(LoggingOpenFileForWrite);
}
TEST(FileIO, LoggingOpenFileForReadAndWrite) {
TestOpenFileForWrite(LoggingOpenFileForReadAndWrite);
}
enum class ReadOrWrite : bool {
kRead,
kWrite,
};
void FileShareModeTest(ReadOrWrite first, ReadOrWrite second) {
ScopedTempDir temp_dir;
base::FilePath shared_file =
temp_dir.path().Append(FILE_PATH_LITERAL("shared_file"));
{
// Create an empty file to work on.
ScopedFileHandle create(
LoggingOpenFileForWrite(shared_file,
FileWriteMode::kCreateOrFail,
FilePermissions::kOwnerOnly));
}
auto handle1 = ScopedFileHandle(
(first == ReadOrWrite::kRead)
? LoggingOpenFileForRead(shared_file)
: LoggingOpenFileForWrite(shared_file,
FileWriteMode::kReuseOrCreate,
FilePermissions::kOwnerOnly));
ASSERT_NE(handle1, kInvalidFileHandle);
auto handle2 = ScopedFileHandle(
(second == ReadOrWrite::kRead)
? LoggingOpenFileForRead(shared_file)
: LoggingOpenFileForWrite(shared_file,
FileWriteMode::kReuseOrCreate,
FilePermissions::kOwnerOnly));
EXPECT_NE(handle2, kInvalidFileHandle);
EXPECT_NE(handle1.get(), handle2.get());
}
TEST(FileIO, FileShareMode_Read_Read) {
FileShareModeTest(ReadOrWrite::kRead, ReadOrWrite::kRead);
}
TEST(FileIO, FileShareMode_Read_Write) {
FileShareModeTest(ReadOrWrite::kRead, ReadOrWrite::kWrite);
}
TEST(FileIO, FileShareMode_Write_Read) {
FileShareModeTest(ReadOrWrite::kWrite, ReadOrWrite::kRead);
}
TEST(FileIO, FileShareMode_Write_Write) {
FileShareModeTest(ReadOrWrite::kWrite, ReadOrWrite::kWrite);
}
// Fuchsia does not currently support any sort of file locking. See
// https://crashpad.chromium.org/bug/196 and
// https://crashpad.chromium.org/bug/217.
#if !defined(OS_FUCHSIA)
TEST(FileIO, MultipleSharedLocks) {
ScopedTempDir temp_dir;
base::FilePath shared_file =
temp_dir.path().Append(FILE_PATH_LITERAL("file_to_lock"));
{
// Create an empty file to lock.
ScopedFileHandle create(
LoggingOpenFileForWrite(shared_file,
FileWriteMode::kCreateOrFail,
FilePermissions::kOwnerOnly));
}
auto handle1 = ScopedFileHandle(LoggingOpenFileForRead(shared_file));
ASSERT_NE(handle1, kInvalidFileHandle);
EXPECT_TRUE(LoggingLockFile(handle1.get(), FileLocking::kShared));
auto handle2 = ScopedFileHandle(LoggingOpenFileForRead(shared_file));
ASSERT_NE(handle1, kInvalidFileHandle);
EXPECT_TRUE(LoggingLockFile(handle2.get(), FileLocking::kShared));
EXPECT_TRUE(LoggingUnlockFile(handle1.get()));
EXPECT_TRUE(LoggingUnlockFile(handle2.get()));
}
class LockingTestThread : public Thread {
public:
LockingTestThread()
: file_(), lock_type_(), iterations_(), actual_iterations_() {}
void Init(FileHandle file,
FileLocking lock_type,
int iterations,
base::subtle::Atomic32* actual_iterations) {
ASSERT_NE(file, kInvalidFileHandle);
file_ = ScopedFileHandle(file);
lock_type_ = lock_type;
iterations_ = iterations;
actual_iterations_ = actual_iterations;
}
private:
void ThreadMain() override {
for (int i = 0; i < iterations_; ++i) {
EXPECT_TRUE(LoggingLockFile(file_.get(), lock_type_));
base::subtle::NoBarrier_AtomicIncrement(actual_iterations_, 1);
EXPECT_TRUE(LoggingUnlockFile(file_.get()));
}
}
ScopedFileHandle file_;
FileLocking lock_type_;
int iterations_;
base::subtle::Atomic32* actual_iterations_;
DISALLOW_COPY_AND_ASSIGN(LockingTestThread);
};
void LockingTest(FileLocking main_lock, FileLocking other_locks) {
ScopedTempDir temp_dir;
base::FilePath shared_file =
temp_dir.path().Append(FILE_PATH_LITERAL("file_to_lock"));
{
// Create an empty file to lock.
ScopedFileHandle create(
LoggingOpenFileForWrite(shared_file,
FileWriteMode::kCreateOrFail,
FilePermissions::kOwnerOnly));
}
auto initial = ScopedFileHandle(
(main_lock == FileLocking::kShared)
? LoggingOpenFileForRead(shared_file)
: LoggingOpenFileForWrite(shared_file,
FileWriteMode::kReuseOrCreate,
FilePermissions::kOwnerOnly));
ASSERT_NE(initial, kInvalidFileHandle);
ASSERT_TRUE(LoggingLockFile(initial.get(), main_lock));
base::subtle::Atomic32 actual_iterations = 0;
LockingTestThread threads[20];
int expected_iterations = 0;
for (size_t index = 0; index < base::size(threads); ++index) {
int iterations_for_this_thread = static_cast<int>(index * 10);
threads[index].Init(
(other_locks == FileLocking::kShared)
? LoggingOpenFileForRead(shared_file)
: LoggingOpenFileForWrite(shared_file,
FileWriteMode::kReuseOrCreate,
FilePermissions::kOwnerOnly),
other_locks,
iterations_for_this_thread,
&actual_iterations);
expected_iterations += iterations_for_this_thread;
ASSERT_NO_FATAL_FAILURE(threads[index].Start());
}
base::subtle::Atomic32 result =
base::subtle::NoBarrier_Load(&actual_iterations);
EXPECT_EQ(result, 0);
ASSERT_TRUE(LoggingUnlockFile(initial.get()));
for (auto& t : threads)
t.Join();
result = base::subtle::NoBarrier_Load(&actual_iterations);
EXPECT_EQ(result, expected_iterations);
}
TEST(FileIO, ExclusiveVsExclusives) {
LockingTest(FileLocking::kExclusive, FileLocking::kExclusive);
}
TEST(FileIO, ExclusiveVsShareds) {
LockingTest(FileLocking::kExclusive, FileLocking::kShared);
}
TEST(FileIO, SharedVsExclusives) {
LockingTest(FileLocking::kShared, FileLocking::kExclusive);
}
#endif // !OS_FUCHSIA
TEST(FileIO, FileSizeByHandle) {
EXPECT_EQ(LoggingFileSizeByHandle(kInvalidFileHandle), -1);
ScopedTempDir temp_dir;
base::FilePath file_path =
temp_dir.path().Append(FILE_PATH_LITERAL("file_size"));
ScopedFileHandle file_handle(LoggingOpenFileForWrite(
file_path, FileWriteMode::kCreateOrFail, FilePermissions::kOwnerOnly));
ASSERT_NE(file_handle.get(), kInvalidFileHandle);
EXPECT_EQ(LoggingFileSizeByHandle(file_handle.get()), 0);
static constexpr char data[] = "zippyzap";
ASSERT_TRUE(LoggingWriteFile(file_handle.get(), &data, sizeof(data)));
EXPECT_EQ(LoggingFileSizeByHandle(file_handle.get()), 9);
}
FileHandle FileHandleForFILE(FILE* file) {
int fd = fileno(file);
#if defined(OS_POSIX)
return fd;
#elif defined(OS_WIN)
return reinterpret_cast<HANDLE>(_get_osfhandle(fd));
#else
#error Port
#endif
}
TEST(FileIO, StdioFileHandle) {
EXPECT_EQ(StdioFileHandle(StdioStream::kStandardInput),
FileHandleForFILE(stdin));
EXPECT_EQ(StdioFileHandle(StdioStream::kStandardOutput),
FileHandleForFILE(stdout));
EXPECT_EQ(StdioFileHandle(StdioStream::kStandardError),
FileHandleForFILE(stderr));
}
} // namespace
} // namespace test
} // namespace crashpad
Reference in New Issue View Git Blame Copy Permalink