// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "third_party/zlib/google/zip_reader.h" #include #include #include #include #include #include "base/bind.h" #include "base/files/file.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/hash/md5.h" #include "base/logging.h" #include "base/path_service.h" #include "base/run_loop.h" #include "base/stl_util.h" #include "base/strings/stringprintf.h" #include "base/strings/utf_string_conversions.h" #include "base/test/scoped_task_environment.h" #include "base/time/time.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/platform_test.h" #include "third_party/zlib/google/zip_internal.h" using ::testing::Return; using ::testing::_; namespace { const static std::string kQuuxExpectedMD5 = "d1ae4ac8a17a0e09317113ab284b57a6"; class FileWrapper { public: typedef enum { READ_ONLY, READ_WRITE } AccessMode; FileWrapper(const base::FilePath& path, AccessMode mode) { int flags = base::File::FLAG_READ; if (mode == READ_ONLY) flags |= base::File::FLAG_OPEN; else flags |= base::File::FLAG_WRITE | base::File::FLAG_CREATE_ALWAYS; file_.Initialize(path, flags); } ~FileWrapper() {} base::PlatformFile platform_file() { return file_.GetPlatformFile(); } base::File* file() { return &file_; } private: base::File file_; }; // A mock that provides methods that can be used as callbacks in asynchronous // unzip functions. Tracks the number of calls and number of bytes reported. // Assumes that progress callbacks will be executed in-order. class MockUnzipListener : public base::SupportsWeakPtr { public: MockUnzipListener() : success_calls_(0), failure_calls_(0), progress_calls_(0), current_progress_(0) { } // Success callback for async functions. void OnUnzipSuccess() { success_calls_++; } // Failure callback for async functions. void OnUnzipFailure() { failure_calls_++; } // Progress callback for async functions. void OnUnzipProgress(int64_t progress) { DCHECK(progress > current_progress_); progress_calls_++; current_progress_ = progress; } int success_calls() { return success_calls_; } int failure_calls() { return failure_calls_; } int progress_calls() { return progress_calls_; } int current_progress() { return current_progress_; } private: int success_calls_; int failure_calls_; int progress_calls_; int64_t current_progress_; }; class MockWriterDelegate : public zip::WriterDelegate { public: MOCK_METHOD0(PrepareOutput, bool()); MOCK_METHOD2(WriteBytes, bool(const char*, int)); MOCK_METHOD1(SetTimeModified, void(const base::Time&)); }; bool ExtractCurrentEntryToFilePath(zip::ZipReader* reader, base::FilePath path) { zip::FilePathWriterDelegate writer(path); return reader->ExtractCurrentEntry(&writer, std::numeric_limits::max()); } bool LocateAndOpenEntry(zip::ZipReader* reader, const base::FilePath& path_in_zip) { // The underlying library can do O(1) access, but ZipReader does not expose // that. O(N) access is acceptable for these tests. while (reader->HasMore()) { if (!reader->OpenCurrentEntryInZip()) return false; if (reader->current_entry_info()->file_path() == path_in_zip) return true; reader->AdvanceToNextEntry(); } return false; } } // namespace namespace zip { // Make the test a PlatformTest to setup autorelease pools properly on Mac. class ZipReaderTest : public PlatformTest { protected: virtual void SetUp() { PlatformTest::SetUp(); ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); test_dir_ = temp_dir_.GetPath(); ASSERT_TRUE(GetTestDataDirectory(&test_data_dir_)); test_zip_file_ = test_data_dir_.AppendASCII("test.zip"); encrypted_zip_file_ = test_data_dir_.AppendASCII("test_encrypted.zip"); evil_zip_file_ = test_data_dir_.AppendASCII("evil.zip"); evil_via_invalid_utf8_zip_file_ = test_data_dir_.AppendASCII( "evil_via_invalid_utf8.zip"); evil_via_absolute_file_name_zip_file_ = test_data_dir_.AppendASCII( "evil_via_absolute_file_name.zip"); test_zip_contents_.insert(base::FilePath(FILE_PATH_LITERAL("foo/"))); test_zip_contents_.insert(base::FilePath(FILE_PATH_LITERAL("foo/bar/"))); test_zip_contents_.insert( base::FilePath(FILE_PATH_LITERAL("foo/bar/baz.txt"))); test_zip_contents_.insert( base::FilePath(FILE_PATH_LITERAL("foo/bar/quux.txt"))); test_zip_contents_.insert( base::FilePath(FILE_PATH_LITERAL("foo/bar.txt"))); test_zip_contents_.insert(base::FilePath(FILE_PATH_LITERAL("foo.txt"))); test_zip_contents_.insert( base::FilePath(FILE_PATH_LITERAL("foo/bar/.hidden"))); } virtual void TearDown() { PlatformTest::TearDown(); } bool GetTestDataDirectory(base::FilePath* path) { bool success = base::PathService::Get(base::DIR_SOURCE_ROOT, path); EXPECT_TRUE(success); if (!success) return false; *path = path->AppendASCII("third_party"); *path = path->AppendASCII("zlib"); *path = path->AppendASCII("google"); *path = path->AppendASCII("test"); *path = path->AppendASCII("data"); return true; } bool CompareFileAndMD5(const base::FilePath& path, const std::string expected_md5) { // Read the output file and compute the MD5. std::string output; if (!base::ReadFileToString(path, &output)) return false; const std::string md5 = base::MD5String(output); return expected_md5 == md5; } // The path to temporary directory used to contain the test operations. base::FilePath test_dir_; // The path to the test data directory where test.zip etc. are located. base::FilePath test_data_dir_; // The path to test.zip in the test data directory. base::FilePath test_zip_file_; // The path to test_encrypted.zip in the test data directory. base::FilePath encrypted_zip_file_; // The path to evil.zip in the test data directory. base::FilePath evil_zip_file_; // The path to evil_via_invalid_utf8.zip in the test data directory. base::FilePath evil_via_invalid_utf8_zip_file_; // The path to evil_via_absolute_file_name.zip in the test data directory. base::FilePath evil_via_absolute_file_name_zip_file_; std::set test_zip_contents_; base::ScopedTempDir temp_dir_; base::test::ScopedTaskEnvironment scoped_task_environment_; }; TEST_F(ZipReaderTest, Open_ValidZipFile) { ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); } TEST_F(ZipReaderTest, Open_ValidZipPlatformFile) { ZipReader reader; FileWrapper zip_fd_wrapper(test_zip_file_, FileWrapper::READ_ONLY); ASSERT_TRUE(reader.OpenFromPlatformFile(zip_fd_wrapper.platform_file())); } TEST_F(ZipReaderTest, Open_NonExistentFile) { ZipReader reader; ASSERT_FALSE(reader.Open(test_data_dir_.AppendASCII("nonexistent.zip"))); } TEST_F(ZipReaderTest, Open_ExistentButNonZipFile) { ZipReader reader; ASSERT_FALSE(reader.Open(test_data_dir_.AppendASCII("create_test_zip.sh"))); } // Iterate through the contents in the test zip file, and compare that the // contents collected from the zip reader matches the expected contents. TEST_F(ZipReaderTest, Iteration) { std::set actual_contents; ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); while (reader.HasMore()) { ASSERT_TRUE(reader.OpenCurrentEntryInZip()); actual_contents.insert(reader.current_entry_info()->file_path()); ASSERT_TRUE(reader.AdvanceToNextEntry()); } EXPECT_FALSE(reader.AdvanceToNextEntry()); // Shouldn't go further. EXPECT_EQ(test_zip_contents_.size(), static_cast(reader.num_entries())); EXPECT_EQ(test_zip_contents_.size(), actual_contents.size()); EXPECT_EQ(test_zip_contents_, actual_contents); } // Open the test zip file from a file descriptor, iterate through its contents, // and compare that they match the expected contents. TEST_F(ZipReaderTest, PlatformFileIteration) { std::set actual_contents; ZipReader reader; FileWrapper zip_fd_wrapper(test_zip_file_, FileWrapper::READ_ONLY); ASSERT_TRUE(reader.OpenFromPlatformFile(zip_fd_wrapper.platform_file())); while (reader.HasMore()) { ASSERT_TRUE(reader.OpenCurrentEntryInZip()); actual_contents.insert(reader.current_entry_info()->file_path()); ASSERT_TRUE(reader.AdvanceToNextEntry()); } EXPECT_FALSE(reader.AdvanceToNextEntry()); // Shouldn't go further. EXPECT_EQ(test_zip_contents_.size(), static_cast(reader.num_entries())); EXPECT_EQ(test_zip_contents_.size(), actual_contents.size()); EXPECT_EQ(test_zip_contents_, actual_contents); } TEST_F(ZipReaderTest, current_entry_info_RegularFile) { ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ZipReader::EntryInfo* current_entry_info = reader.current_entry_info(); EXPECT_EQ(target_path, current_entry_info->file_path()); EXPECT_EQ(13527, current_entry_info->original_size()); // The expected time stamp: 2009-05-29 06:22:20 base::Time::Exploded exploded = {}; // Zero-clear. current_entry_info->last_modified().LocalExplode(&exploded); EXPECT_EQ(2009, exploded.year); EXPECT_EQ(5, exploded.month); EXPECT_EQ(29, exploded.day_of_month); EXPECT_EQ(6, exploded.hour); EXPECT_EQ(22, exploded.minute); EXPECT_EQ(20, exploded.second); EXPECT_EQ(0, exploded.millisecond); EXPECT_FALSE(current_entry_info->is_unsafe()); EXPECT_FALSE(current_entry_info->is_directory()); } TEST_F(ZipReaderTest, current_entry_info_DotDotFile) { ZipReader reader; ASSERT_TRUE(reader.Open(evil_zip_file_)); base::FilePath target_path(FILE_PATH_LITERAL( "../levilevilevilevilevilevilevilevilevilevilevilevil")); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ZipReader::EntryInfo* current_entry_info = reader.current_entry_info(); EXPECT_EQ(target_path, current_entry_info->file_path()); // This file is unsafe because of ".." in the file name. EXPECT_TRUE(current_entry_info->is_unsafe()); EXPECT_FALSE(current_entry_info->is_directory()); } TEST_F(ZipReaderTest, current_entry_info_InvalidUTF8File) { ZipReader reader; ASSERT_TRUE(reader.Open(evil_via_invalid_utf8_zip_file_)); // The evil file is the 2nd file in the zip file. // We cannot locate by the file name ".\x80.\\evil.txt", // as FilePath may internally convert the string. ASSERT_TRUE(reader.AdvanceToNextEntry()); ASSERT_TRUE(reader.OpenCurrentEntryInZip()); ZipReader::EntryInfo* current_entry_info = reader.current_entry_info(); // This file is unsafe because of invalid UTF-8 in the file name. EXPECT_TRUE(current_entry_info->is_unsafe()); EXPECT_FALSE(current_entry_info->is_directory()); } TEST_F(ZipReaderTest, current_entry_info_AbsoluteFile) { ZipReader reader; ASSERT_TRUE(reader.Open(evil_via_absolute_file_name_zip_file_)); base::FilePath target_path(FILE_PATH_LITERAL("/evil.txt")); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ZipReader::EntryInfo* current_entry_info = reader.current_entry_info(); EXPECT_EQ(target_path, current_entry_info->file_path()); // This file is unsafe because of the absolute file name. EXPECT_TRUE(current_entry_info->is_unsafe()); EXPECT_FALSE(current_entry_info->is_directory()); } TEST_F(ZipReaderTest, current_entry_info_Directory) { ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/")); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ZipReader::EntryInfo* current_entry_info = reader.current_entry_info(); EXPECT_EQ(base::FilePath(FILE_PATH_LITERAL("foo/bar/")), current_entry_info->file_path()); // The directory size should be zero. EXPECT_EQ(0, current_entry_info->original_size()); // The expected time stamp: 2009-05-31 15:49:52 base::Time::Exploded exploded = {}; // Zero-clear. current_entry_info->last_modified().LocalExplode(&exploded); EXPECT_EQ(2009, exploded.year); EXPECT_EQ(5, exploded.month); EXPECT_EQ(31, exploded.day_of_month); EXPECT_EQ(15, exploded.hour); EXPECT_EQ(49, exploded.minute); EXPECT_EQ(52, exploded.second); EXPECT_EQ(0, exploded.millisecond); EXPECT_FALSE(current_entry_info->is_unsafe()); EXPECT_TRUE(current_entry_info->is_directory()); } TEST_F(ZipReaderTest, current_entry_info_EncryptedFile) { ZipReader reader; base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ASSERT_TRUE(reader.Open(encrypted_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); EXPECT_TRUE(reader.current_entry_info()->is_encrypted()); reader.Close(); ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); EXPECT_FALSE(reader.current_entry_info()->is_encrypted()); } // Verifies that the ZipReader class can extract a file from a zip archive // stored in memory. This test opens a zip archive in a std::string object, // extracts its content, and verifies the content is the same as the expected // text. TEST_F(ZipReaderTest, OpenFromString) { // A zip archive consisting of one file "test.txt", which is a 16-byte text // file that contains "This is a test.\n". const char kTestData[] = "\x50\x4b\x03\x04\x0a\x00\x00\x00\x00\x00\xa4\x66\x24\x41\x13\xe8" "\xcb\x27\x10\x00\x00\x00\x10\x00\x00\x00\x08\x00\x1c\x00\x74\x65" "\x73\x74\x2e\x74\x78\x74\x55\x54\x09\x00\x03\x34\x89\x45\x50\x34" "\x89\x45\x50\x75\x78\x0b\x00\x01\x04\x8e\xf0\x00\x00\x04\x88\x13" "\x00\x00\x54\x68\x69\x73\x20\x69\x73\x20\x61\x20\x74\x65\x73\x74" "\x2e\x0a\x50\x4b\x01\x02\x1e\x03\x0a\x00\x00\x00\x00\x00\xa4\x66" "\x24\x41\x13\xe8\xcb\x27\x10\x00\x00\x00\x10\x00\x00\x00\x08\x00" "\x18\x00\x00\x00\x00\x00\x01\x00\x00\x00\xa4\x81\x00\x00\x00\x00" "\x74\x65\x73\x74\x2e\x74\x78\x74\x55\x54\x05\x00\x03\x34\x89\x45" "\x50\x75\x78\x0b\x00\x01\x04\x8e\xf0\x00\x00\x04\x88\x13\x00\x00" "\x50\x4b\x05\x06\x00\x00\x00\x00\x01\x00\x01\x00\x4e\x00\x00\x00" "\x52\x00\x00\x00\x00\x00"; std::string data(kTestData, base::size(kTestData)); ZipReader reader; ASSERT_TRUE(reader.OpenFromString(data)); base::FilePath target_path(FILE_PATH_LITERAL("test.txt")); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ASSERT_TRUE(ExtractCurrentEntryToFilePath(&reader, test_dir_.AppendASCII("test.txt"))); std::string actual; ASSERT_TRUE(base::ReadFileToString( test_dir_.AppendASCII("test.txt"), &actual)); EXPECT_EQ(std::string("This is a test.\n"), actual); } // Verifies that the asynchronous extraction to a file works. TEST_F(ZipReaderTest, ExtractToFileAsync_RegularFile) { MockUnzipListener listener; ZipReader reader; base::FilePath target_file = test_dir_.AppendASCII("quux.txt"); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); reader.ExtractCurrentEntryToFilePathAsync( target_file, base::Bind(&MockUnzipListener::OnUnzipSuccess, listener.AsWeakPtr()), base::Bind(&MockUnzipListener::OnUnzipFailure, listener.AsWeakPtr()), base::Bind(&MockUnzipListener::OnUnzipProgress, listener.AsWeakPtr())); EXPECT_EQ(0, listener.success_calls()); EXPECT_EQ(0, listener.failure_calls()); EXPECT_EQ(0, listener.progress_calls()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1, listener.success_calls()); EXPECT_EQ(0, listener.failure_calls()); EXPECT_LE(1, listener.progress_calls()); std::string output; ASSERT_TRUE(base::ReadFileToString(test_dir_.AppendASCII("quux.txt"), &output)); const std::string md5 = base::MD5String(output); EXPECT_EQ(kQuuxExpectedMD5, md5); int64_t file_size = 0; ASSERT_TRUE(base::GetFileSize(target_file, &file_size)); EXPECT_EQ(file_size, listener.current_progress()); } // Verifies that the asynchronous extraction to a file works. TEST_F(ZipReaderTest, ExtractToFileAsync_Directory) { MockUnzipListener listener; ZipReader reader; base::FilePath target_file = test_dir_.AppendASCII("foo"); base::FilePath target_path(FILE_PATH_LITERAL("foo/")); ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); reader.ExtractCurrentEntryToFilePathAsync( target_file, base::Bind(&MockUnzipListener::OnUnzipSuccess, listener.AsWeakPtr()), base::Bind(&MockUnzipListener::OnUnzipFailure, listener.AsWeakPtr()), base::Bind(&MockUnzipListener::OnUnzipProgress, listener.AsWeakPtr())); EXPECT_EQ(0, listener.success_calls()); EXPECT_EQ(0, listener.failure_calls()); EXPECT_EQ(0, listener.progress_calls()); base::RunLoop().RunUntilIdle(); EXPECT_EQ(1, listener.success_calls()); EXPECT_EQ(0, listener.failure_calls()); EXPECT_GE(0, listener.progress_calls()); ASSERT_TRUE(base::DirectoryExists(target_file)); } TEST_F(ZipReaderTest, ExtractCurrentEntryToString) { // test_mismatch_size.zip contains files with names from 0.txt to 7.txt with // sizes from 0 to 7 bytes respectively, being the contents of each file a // substring of "0123456" starting at '0'. base::FilePath test_zip_file = test_data_dir_.AppendASCII("test_mismatch_size.zip"); ZipReader reader; std::string contents; ASSERT_TRUE(reader.Open(test_zip_file)); for (size_t i = 0; i < 8; i++) { SCOPED_TRACE(base::StringPrintf("Processing %d.txt", static_cast(i))); base::FilePath file_name = base::FilePath::FromUTF8Unsafe( base::StringPrintf("%d.txt", static_cast(i))); ASSERT_TRUE(LocateAndOpenEntry(&reader, file_name)); if (i > 1) { // Off by one byte read limit: must fail. EXPECT_FALSE(reader.ExtractCurrentEntryToString(i - 1, &contents)); } if (i > 0) { // Exact byte read limit: must pass. EXPECT_TRUE(reader.ExtractCurrentEntryToString(i, &contents)); EXPECT_EQ(base::StringPiece("0123456", i).as_string(), contents); } // More than necessary byte read limit: must pass. EXPECT_TRUE(reader.ExtractCurrentEntryToString(16, &contents)); EXPECT_EQ(base::StringPiece("0123456", i).as_string(), contents); } reader.Close(); } TEST_F(ZipReaderTest, ExtractPartOfCurrentEntry) { // test_mismatch_size.zip contains files with names from 0.txt to 7.txt with // sizes from 0 to 7 bytes respectively, being the contents of each file a // substring of "0123456" starting at '0'. base::FilePath test_zip_file = test_data_dir_.AppendASCII("test_mismatch_size.zip"); ZipReader reader; std::string contents; ASSERT_TRUE(reader.Open(test_zip_file)); base::FilePath file_name0 = base::FilePath::FromUTF8Unsafe("0.txt"); ASSERT_TRUE(LocateAndOpenEntry(&reader, file_name0)); EXPECT_TRUE(reader.ExtractCurrentEntryToString(0, &contents)); EXPECT_EQ("", contents); EXPECT_TRUE(reader.ExtractCurrentEntryToString(1, &contents)); EXPECT_EQ("", contents); base::FilePath file_name1 = base::FilePath::FromUTF8Unsafe("1.txt"); ASSERT_TRUE(LocateAndOpenEntry(&reader, file_name1)); EXPECT_TRUE(reader.ExtractCurrentEntryToString(0, &contents)); EXPECT_EQ("", contents); EXPECT_TRUE(reader.ExtractCurrentEntryToString(1, &contents)); EXPECT_EQ("0", contents); EXPECT_TRUE(reader.ExtractCurrentEntryToString(2, &contents)); EXPECT_EQ("0", contents); base::FilePath file_name4 = base::FilePath::FromUTF8Unsafe("4.txt"); ASSERT_TRUE(LocateAndOpenEntry(&reader, file_name4)); EXPECT_TRUE(reader.ExtractCurrentEntryToString(0, &contents)); EXPECT_EQ("", contents); EXPECT_FALSE(reader.ExtractCurrentEntryToString(2, &contents)); EXPECT_EQ("01", contents); EXPECT_TRUE(reader.ExtractCurrentEntryToString(4, &contents)); EXPECT_EQ("0123", contents); // Checks that entire file is extracted and function returns true when // |max_read_bytes| is larger than file size. EXPECT_TRUE(reader.ExtractCurrentEntryToString(5, &contents)); EXPECT_EQ("0123", contents); reader.Close(); } // This test exposes http://crbug.com/430959, at least on OS X TEST_F(ZipReaderTest, DISABLED_LeakDetectionTest) { for (int i = 0; i < 100000; ++i) { FileWrapper zip_fd_wrapper(test_zip_file_, FileWrapper::READ_ONLY); ZipReader reader; ASSERT_TRUE(reader.OpenFromPlatformFile(zip_fd_wrapper.platform_file())); } } // Test that when WriterDelegate::PrepareMock returns false, no other methods on // the delegate are called and the extraction fails. TEST_F(ZipReaderTest, ExtractCurrentEntryPrepareFailure) { testing::StrictMock mock_writer; EXPECT_CALL(mock_writer, PrepareOutput()) .WillOnce(Return(false)); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ASSERT_FALSE(reader.ExtractCurrentEntry( &mock_writer, std::numeric_limits::max())); } // Test that when WriterDelegate::WriteBytes returns false, no other methods on // the delegate are called and the extraction fails. TEST_F(ZipReaderTest, ExtractCurrentEntryWriteBytesFailure) { testing::StrictMock mock_writer; EXPECT_CALL(mock_writer, PrepareOutput()) .WillOnce(Return(true)); EXPECT_CALL(mock_writer, WriteBytes(_, _)) .WillOnce(Return(false)); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ASSERT_FALSE(reader.ExtractCurrentEntry( &mock_writer, std::numeric_limits::max())); } // Test that extraction succeeds when the writer delegate reports all is well. TEST_F(ZipReaderTest, ExtractCurrentEntrySuccess) { testing::StrictMock mock_writer; EXPECT_CALL(mock_writer, PrepareOutput()) .WillOnce(Return(true)); EXPECT_CALL(mock_writer, WriteBytes(_, _)) .WillRepeatedly(Return(true)); EXPECT_CALL(mock_writer, SetTimeModified(_)); base::FilePath target_path(FILE_PATH_LITERAL("foo/bar/quux.txt")); ZipReader reader; ASSERT_TRUE(reader.Open(test_zip_file_)); ASSERT_TRUE(LocateAndOpenEntry(&reader, target_path)); ASSERT_TRUE(reader.ExtractCurrentEntry(&mock_writer, std::numeric_limits::max())); } class FileWriterDelegateTest : public ::testing::Test { protected: void SetUp() override { ASSERT_TRUE(base::CreateTemporaryFile(&temp_file_path_)); file_.Initialize(temp_file_path_, (base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_READ | base::File::FLAG_WRITE | base::File::FLAG_TEMPORARY | base::File::FLAG_DELETE_ON_CLOSE)); ASSERT_TRUE(file_.IsValid()); } // Writes data to the file, leaving the current position at the end of the // write. void PopulateFile() { static const char kSomeData[] = "this sure is some data."; static const size_t kSomeDataLen = sizeof(kSomeData) - 1; ASSERT_NE(-1LL, file_.Write(0LL, kSomeData, kSomeDataLen)); } base::FilePath temp_file_path_; base::File file_; }; TEST_F(FileWriterDelegateTest, WriteToStartAndTruncate) { // Write stuff and advance. PopulateFile(); // This should rewind, write, then truncate. static const char kSomeData[] = "short"; static const int kSomeDataLen = sizeof(kSomeData) - 1; { FileWriterDelegate writer(&file_); ASSERT_TRUE(writer.PrepareOutput()); ASSERT_TRUE(writer.WriteBytes(kSomeData, kSomeDataLen)); } ASSERT_EQ(kSomeDataLen, file_.GetLength()); char buf[kSomeDataLen] = {}; ASSERT_EQ(kSomeDataLen, file_.Read(0LL, buf, kSomeDataLen)); ASSERT_EQ(std::string(kSomeData), std::string(buf, kSomeDataLen)); } } // namespace zip