// Copyright 2015 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 #include "base/files/file.h" #include "components/filesystem/files_test_base.h" #include "mojo/platform_handle/platform_handle_functions.h" #include "mojo/public/cpp/bindings/interface_request.h" #include "mojo/public/cpp/bindings/type_converter.h" #include "mojo/util/capture_util.h" using mojo::Capture; namespace filesystem { namespace { using FileImplTest = FilesTestBase; TEST_F(FileImplTest, CreateWriteCloseRenameOpenRead) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; { // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('h')); bytes_to_write.push_back(static_cast('e')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('o')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } // Rename it. error = FILE_ERROR_FAILED; directory->Rename("my_file", "your_file", Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); { // Open my_file again. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("your_file", GetProxy(&file), kFlagRead | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Read from it. mojo::Array bytes_read; error = FILE_ERROR_FAILED; file->Read(3, 1, WHENCE_FROM_BEGIN, Capture(&error, &bytes_read)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_EQ(3u, bytes_read.size()); EXPECT_EQ(static_cast('e'), bytes_read[0]); EXPECT_EQ(static_cast('l'), bytes_read[1]); EXPECT_EQ(static_cast('l'), bytes_read[2]); } // TODO(vtl): Test read/write offset options. } TEST_F(FileImplTest, CantWriteInReadMode) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; std::vector bytes_to_write; bytes_to_write.push_back(static_cast('h')); bytes_to_write.push_back(static_cast('e')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('o')); { // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } { // Open my_file again, this time with read only mode. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagRead | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Try to write in read mode; it should fail. error = FILE_ERROR_OK; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_FAILED, error); EXPECT_EQ(0u, num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } } TEST_F(FileImplTest, OpenInAppendMode) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; { // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('h')); bytes_to_write.push_back(static_cast('e')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('o')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } { // Append to my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagAppend | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('g')); bytes_to_write.push_back(static_cast('o')); bytes_to_write.push_back(static_cast('o')); bytes_to_write.push_back(static_cast('d')); bytes_to_write.push_back(static_cast('b')); bytes_to_write.push_back(static_cast('y')); bytes_to_write.push_back(static_cast('e')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } { // Open my_file again. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagRead | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Read from it. mojo::Array bytes_read; error = FILE_ERROR_FAILED; file->Read(12, 0, WHENCE_FROM_BEGIN, Capture(&error, &bytes_read)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_EQ(12u, bytes_read.size()); EXPECT_EQ(static_cast('l'), bytes_read[3]); EXPECT_EQ(static_cast('o'), bytes_read[4]); EXPECT_EQ(static_cast('g'), bytes_read[5]); EXPECT_EQ(static_cast('o'), bytes_read[6]); } } TEST_F(FileImplTest, OpenInTruncateMode) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; { // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('h')); bytes_to_write.push_back(static_cast('e')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('o')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } { // Append to my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagOpenTruncated, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('g')); bytes_to_write.push_back(static_cast('o')); bytes_to_write.push_back(static_cast('o')); bytes_to_write.push_back(static_cast('d')); bytes_to_write.push_back(static_cast('b')); bytes_to_write.push_back(static_cast('y')); bytes_to_write.push_back(static_cast('e')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); // Close it. error = FILE_ERROR_FAILED; file->Close(Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); } { // Open my_file again. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagRead | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Read from it. mojo::Array bytes_read; error = FILE_ERROR_FAILED; file->Read(7, 0, WHENCE_FROM_BEGIN, Capture(&error, &bytes_read)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_EQ(7u, bytes_read.size()); EXPECT_EQ(static_cast('g'), bytes_read[0]); EXPECT_EQ(static_cast('o'), bytes_read[1]); EXPECT_EQ(static_cast('o'), bytes_read[2]); EXPECT_EQ(static_cast('d'), bytes_read[3]); } } // Note: Ignore nanoseconds, since it may not always be supported. We expect at // least second-resolution support though. TEST_F(FileImplTest, StatTouch) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Stat it. error = FILE_ERROR_FAILED; FileInformationPtr file_info; file->Stat(Capture(&error, &file_info)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_FALSE(file_info.is_null()); EXPECT_EQ(FS_FILE_TYPE_REGULAR_FILE, file_info->type); EXPECT_EQ(0, file_info->size); EXPECT_GT(file_info->atime, 0); // Expect that it's not 1970-01-01. EXPECT_GT(file_info->mtime, 0); double first_mtime = file_info->mtime; // Touch only the atime. error = FILE_ERROR_FAILED; TimespecOrNowPtr t(TimespecOrNow::New()); t->now = false; const int64_t kPartyTime1 = 1234567890; // Party like it's 2009-02-13. t->seconds = kPartyTime1; file->Touch(t.Pass(), nullptr, Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Stat again. error = FILE_ERROR_FAILED; file_info.reset(); file->Stat(Capture(&error, &file_info)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_FALSE(file_info.is_null()); EXPECT_EQ(kPartyTime1, file_info->atime); EXPECT_EQ(first_mtime, file_info->mtime); // Touch only the mtime. t = TimespecOrNow::New(); t->now = false; const int64_t kPartyTime2 = 1425059525; // No time like the present. t->seconds = kPartyTime2; file->Touch(nullptr, t.Pass(), Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Stat again. error = FILE_ERROR_FAILED; file_info.reset(); file->Stat(Capture(&error, &file_info)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_FALSE(file_info.is_null()); EXPECT_EQ(kPartyTime1, file_info->atime); EXPECT_EQ(kPartyTime2, file_info->mtime); // TODO(vtl): Also test non-zero file size. // TODO(vtl): Also test Touch() "now" options. // TODO(vtl): Also test touching both atime and mtime. } TEST_F(FileImplTest, TellSeek) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write(1000, '!'); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); const int size = static_cast(num_bytes_written); // Tell. error = FILE_ERROR_FAILED; int64_t position = -1; file->Tell(Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); // Should be at the end. EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(size, position); // Seek back 100. error = FILE_ERROR_FAILED; position = -1; file->Seek(-100, WHENCE_FROM_CURRENT, Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(size - 100, position); // Tell. error = FILE_ERROR_FAILED; position = -1; file->Tell(Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(size - 100, position); // Seek to 123 from start. error = FILE_ERROR_FAILED; position = -1; file->Seek(123, WHENCE_FROM_BEGIN, Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(123, position); // Tell. error = FILE_ERROR_FAILED; position = -1; file->Tell(Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(123, position); // Seek to 123 back from end. error = FILE_ERROR_FAILED; position = -1; file->Seek(-123, WHENCE_FROM_END, Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(size - 123, position); // Tell. error = FILE_ERROR_FAILED; position = -1; file->Tell(Capture(&error, &position)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(size - 123, position); // TODO(vtl): Check that seeking actually affects reading/writing. // TODO(vtl): Check that seeking can extend the file? } TEST_F(FileImplTest, Dup) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; // Create my_file. FilePtr file1; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file1), kFlagRead | kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write; bytes_to_write.push_back(static_cast('h')); bytes_to_write.push_back(static_cast('e')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('l')); bytes_to_write.push_back(static_cast('o')); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file1->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file1.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(bytes_to_write.size(), num_bytes_written); const int end_hello_pos = static_cast(num_bytes_written); // Dup it. FilePtr file2; error = FILE_ERROR_FAILED; file1->Dup(GetProxy(&file2), Capture(&error)); ASSERT_TRUE(file1.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // |file2| should have the same position. error = FILE_ERROR_FAILED; int64_t position = -1; file2->Tell(Capture(&error, &position)); ASSERT_TRUE(file2.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(end_hello_pos, position); // Write using |file2|. std::vector more_bytes_to_write; more_bytes_to_write.push_back(static_cast('w')); more_bytes_to_write.push_back(static_cast('o')); more_bytes_to_write.push_back(static_cast('r')); more_bytes_to_write.push_back(static_cast('l')); more_bytes_to_write.push_back(static_cast('d')); error = FILE_ERROR_FAILED; num_bytes_written = 0; file2->Write(mojo::Array::From(more_bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file2.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(more_bytes_to_write.size(), num_bytes_written); const int end_world_pos = end_hello_pos + static_cast(num_bytes_written); // |file1| should have the same position. error = FILE_ERROR_FAILED; position = -1; file1->Tell(Capture(&error, &position)); ASSERT_TRUE(file1.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(end_world_pos, position); // Close |file1|. error = FILE_ERROR_FAILED; file1->Close(Capture(&error)); ASSERT_TRUE(file1.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Read everything using |file2|. mojo::Array bytes_read; error = FILE_ERROR_FAILED; file2->Read(1000, 0, WHENCE_FROM_BEGIN, Capture(&error, &bytes_read)); ASSERT_TRUE(file2.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_EQ(static_cast(end_world_pos), bytes_read.size()); // Just check the first and last bytes. EXPECT_EQ(static_cast('h'), bytes_read[0]); EXPECT_EQ(static_cast('d'), bytes_read[end_world_pos - 1]); // TODO(vtl): Test that |file2| has the same open options as |file1|. } TEST_F(FileImplTest, Truncate) { const uint32_t kInitialSize = 1000; const uint32_t kTruncatedSize = 654; DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; // Create my_file. FilePtr file; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file), kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Write to it. std::vector bytes_to_write(kInitialSize, '!'); error = FILE_ERROR_FAILED; uint32_t num_bytes_written = 0; file->Write(mojo::Array::From(bytes_to_write), 0, WHENCE_FROM_CURRENT, Capture(&error, &num_bytes_written)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); EXPECT_EQ(kInitialSize, num_bytes_written); // Stat it. error = FILE_ERROR_FAILED; FileInformationPtr file_info; file->Stat(Capture(&error, &file_info)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_FALSE(file_info.is_null()); EXPECT_EQ(kInitialSize, file_info->size); // Truncate it. error = FILE_ERROR_FAILED; file->Truncate(kTruncatedSize, Capture(&error)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Stat again. error = FILE_ERROR_FAILED; file_info.reset(); file->Stat(Capture(&error, &file_info)); ASSERT_TRUE(file.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_FALSE(file_info.is_null()); EXPECT_EQ(kTruncatedSize, file_info->size); } TEST_F(FileImplTest, AsHandle) { DirectoryPtr directory; GetTemporaryRoot(&directory); FileError error; { // Create my_file. FilePtr file1; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file1), kFlagRead | kFlagWrite | kFlagCreate, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Fetch the handle error = FILE_ERROR_FAILED; mojo::ScopedHandle handle; file1->AsHandle(Capture(&error, &handle)); ASSERT_TRUE(file1.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Pull a file descriptor out of the scoped handle. MojoPlatformHandle platform_handle; MojoResult extract_result = MojoExtractPlatformHandle(handle.release().value(), &platform_handle); EXPECT_EQ(MOJO_RESULT_OK, extract_result); // Pass this raw file descriptor to a base::File. base::File raw_file(platform_handle); ASSERT_TRUE(raw_file.IsValid()); EXPECT_EQ(5, raw_file.WriteAtCurrentPos("hello", 5)); } { // Reopen my_file. FilePtr file2; error = FILE_ERROR_FAILED; directory->OpenFile("my_file", GetProxy(&file2), kFlagRead | kFlagOpen, Capture(&error)); ASSERT_TRUE(directory.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); // Verify that we wrote data raw on the file descriptor. mojo::Array bytes_read; error = FILE_ERROR_FAILED; file2->Read(5, 0, WHENCE_FROM_BEGIN, Capture(&error, &bytes_read)); ASSERT_TRUE(file2.WaitForIncomingResponse()); EXPECT_EQ(FILE_ERROR_OK, error); ASSERT_EQ(5u, bytes_read.size()); EXPECT_EQ(static_cast('h'), bytes_read[0]); EXPECT_EQ(static_cast('e'), bytes_read[1]); EXPECT_EQ(static_cast('l'), bytes_read[2]); EXPECT_EQ(static_cast('l'), bytes_read[3]); EXPECT_EQ(static_cast('o'), bytes_read[4]); } } } // namespace } // namespace filesystem