// Copyright (c) 2012 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 "ppapi/tests/test_flash_file.h" #include #include #include "ppapi/c/pp_file_info.h" #include "ppapi/c/ppb_file_io.h" #include "ppapi/cpp/module.h" #include "ppapi/cpp/private/flash_file.h" #include "ppapi/tests/testing_instance.h" #include "ppapi/tests/test_utils.h" #if defined(PPAPI_OS_WIN) #include #else #include #include #endif using pp::flash::FileModuleLocal; namespace { void CloseFileHandle(PP_FileHandle file_handle) { #if defined(PPAPI_OS_WIN) CloseHandle(file_handle); #else close(file_handle); #endif } bool WriteFile(PP_FileHandle file_handle, const std::string& contents) { #if defined(PPAPI_OS_WIN) DWORD bytes_written = 0; BOOL result = ::WriteFile(file_handle, contents.c_str(), contents.size(), &bytes_written, NULL); return result && bytes_written == static_cast(contents.size()); #else ssize_t bytes_written = 0; do { bytes_written = write(file_handle, contents.c_str(), contents.size()); } while (bytes_written == -1 && errno == EINTR); return bytes_written == static_cast(contents.size()); #endif } bool ReadFile(PP_FileHandle file_handle, std::string* contents) { static const size_t kBufferSize = 1024; char* buffer = new char[kBufferSize]; bool result = false; contents->clear(); #if defined(PPAPI_OS_WIN) SetFilePointer(file_handle, 0, NULL, FILE_BEGIN); DWORD bytes_read = 0; do { result = !!::ReadFile(file_handle, buffer, kBufferSize, &bytes_read, NULL); if (result && bytes_read > 0) contents->append(buffer, bytes_read); } while (result && bytes_read > 0); #else lseek(file_handle, 0, SEEK_SET); ssize_t bytes_read = 0; do { do { bytes_read = read(file_handle, buffer, kBufferSize); } while (bytes_read == -1 && errno == EINTR); result = bytes_read != -1; if (bytes_read > 0) contents->append(buffer, bytes_read); } while (bytes_read > 0); #endif delete[] buffer; return result; } bool DirEntryEqual(FileModuleLocal::DirEntry i, FileModuleLocal::DirEntry j) { return i.name == j.name && i.is_dir == j.is_dir; } bool DirEntryLessThan(FileModuleLocal::DirEntry i, FileModuleLocal::DirEntry j) { if (i.name == j.name) return i.is_dir < j.is_dir; return i.name < j.name; } } // namespace REGISTER_TEST_CASE(FlashFile); TestFlashFile::TestFlashFile(TestingInstance* instance) : TestCase(instance) { } TestFlashFile::~TestFlashFile() { } bool TestFlashFile::Init() { return FileModuleLocal::IsAvailable(); } void TestFlashFile::RunTests(const std::string& filter) { RUN_TEST(OpenFile, filter); RUN_TEST(RenameFile, filter); RUN_TEST(DeleteFileOrDir, filter); RUN_TEST(CreateDir, filter); RUN_TEST(QueryFile, filter); RUN_TEST(GetDirContents, filter); RUN_TEST(CreateTemporaryFile, filter); } void TestFlashFile::SetUp() { // Clear out existing test data. FileModuleLocal::DeleteFileOrDir(instance_, std::string(), true); // Make sure that the root directory exists. FileModuleLocal::CreateDir(instance_, std::string()); } std::string TestFlashFile::TestOpenFile() { SetUp(); std::string filename = "abc.txt"; PP_FileHandle file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); std::string contents = "This is file."; std::string read_contents; ASSERT_TRUE(WriteFile(file_handle, contents)); ASSERT_FALSE(ReadFile(file_handle, &read_contents)); CloseFileHandle(file_handle); file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_READ); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_FALSE(WriteFile(file_handle, contents)); ASSERT_TRUE(ReadFile(file_handle, &read_contents)); ASSERT_EQ(contents, read_contents); CloseFileHandle(file_handle); PASS(); } std::string TestFlashFile::TestRenameFile() { SetUp(); std::string filename = "abc.txt"; std::string new_filename = "abc_new.txt"; std::string contents = "This is file."; std::string read_contents; PP_FileHandle file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(WriteFile(file_handle, contents)); CloseFileHandle(file_handle); ASSERT_TRUE(FileModuleLocal::RenameFile(instance_, filename, new_filename)); file_handle = FileModuleLocal::OpenFile(instance_, new_filename, PP_FILEOPENFLAG_READ); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(ReadFile(file_handle, &read_contents)); ASSERT_EQ(contents, read_contents); CloseFileHandle(file_handle); // Check that the old file no longer exists. PP_FileInfo unused; ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, filename, &unused)); PASS(); } std::string TestFlashFile::TestDeleteFileOrDir() { SetUp(); std::string filename = "abc.txt"; std::string dirname = "def"; std::string contents = "This is file."; // Test file deletion. PP_FileHandle file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(WriteFile(file_handle, contents)); CloseFileHandle(file_handle); ASSERT_TRUE(FileModuleLocal::DeleteFileOrDir(instance_, filename, false)); PP_FileInfo unused; ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, filename, &unused)); // Test directory deletion. ASSERT_TRUE(FileModuleLocal::CreateDir(instance_, dirname)); ASSERT_TRUE(FileModuleLocal::DeleteFileOrDir(instance_, dirname, false)); ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, dirname, &unused)); // Test recursive directory deletion. ASSERT_TRUE(FileModuleLocal::CreateDir(instance_, dirname)); file_handle = FileModuleLocal::OpenFile( instance_, dirname + "/" + filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(WriteFile(file_handle, contents)); CloseFileHandle(file_handle); ASSERT_FALSE(FileModuleLocal::DeleteFileOrDir(instance_, dirname, false)); ASSERT_TRUE(FileModuleLocal::DeleteFileOrDir(instance_, dirname, true)); ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, filename, &unused)); PASS(); } std::string TestFlashFile::TestCreateDir() { SetUp(); std::string dirname = "abc"; PP_FileInfo info; ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, dirname, &info)); ASSERT_TRUE(FileModuleLocal::CreateDir(instance_, dirname)); ASSERT_TRUE(FileModuleLocal::QueryFile(instance_, dirname, &info)); ASSERT_EQ(info.type, PP_FILETYPE_DIRECTORY); PASS(); } std::string TestFlashFile::TestQueryFile() { std::string filename = "abc.txt"; std::string dirname = "def"; std::string contents = "This is file."; PP_FileInfo info; // Test querying a file. PP_FileHandle file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(WriteFile(file_handle, contents)); CloseFileHandle(file_handle); ASSERT_TRUE(FileModuleLocal::QueryFile(instance_, filename, &info)); ASSERT_EQ(static_cast(info.size), contents.size()); ASSERT_EQ(info.type, PP_FILETYPE_REGULAR); // TODO(raymes): Test the other fields. // Test querying a directory. ASSERT_TRUE(FileModuleLocal::CreateDir(instance_, dirname)); ASSERT_TRUE(FileModuleLocal::QueryFile(instance_, dirname, &info)); ASSERT_EQ(info.type, PP_FILETYPE_DIRECTORY); // TODO(raymes): Test the other fields. // Test querying a non-existent file. ASSERT_FALSE(FileModuleLocal::QueryFile(instance_, "xx", &info)); PASS(); } std::string TestFlashFile::TestGetDirContents() { SetUp(); std::vector result; ASSERT_TRUE(FileModuleLocal::GetDirContents(instance_, std::string(), &result)); ASSERT_EQ(result.size(), 1); ASSERT_EQ(result[0].name, ".."); ASSERT_EQ(result[0].is_dir, true); std::string filename = "abc.txt"; std::string dirname = "def"; std::string contents = "This is file."; PP_FileHandle file_handle = FileModuleLocal::OpenFile(instance_, filename, PP_FILEOPENFLAG_WRITE | PP_FILEOPENFLAG_CREATE); ASSERT_NE(PP_kInvalidFileHandle, file_handle); ASSERT_TRUE(WriteFile(file_handle, contents)); CloseFileHandle(file_handle); ASSERT_TRUE(FileModuleLocal::CreateDir(instance_, dirname)); ASSERT_TRUE( FileModuleLocal::GetDirContents(instance_, std::string(), &result)); FileModuleLocal::DirEntry expected[] = { { "..", true }, { filename, false }, { dirname, true } }; size_t expected_size = sizeof(expected) / sizeof(expected[0]); std::sort(expected, expected + expected_size, DirEntryLessThan); std::sort(result.begin(), result.end(), DirEntryLessThan); ASSERT_EQ(expected_size, result.size()); ASSERT_TRUE(std::equal(expected, expected + expected_size, result.begin(), DirEntryEqual)); PASS(); } std::string TestFlashFile::TestCreateTemporaryFile() { SetUp(); size_t before_create = 0; ASSERT_SUBTEST_SUCCESS(GetItemCountUnderModuleLocalRoot(&before_create)); PP_FileHandle file_handle = FileModuleLocal::CreateTemporaryFile(instance_); ASSERT_NE(PP_kInvalidFileHandle, file_handle); std::string contents = "This is a temp file."; ASSERT_TRUE(WriteFile(file_handle, contents)); std::string read_contents; ASSERT_TRUE(ReadFile(file_handle, &read_contents)); ASSERT_EQ(contents, read_contents); CloseFileHandle(file_handle); size_t after_close = 0; ASSERT_SUBTEST_SUCCESS(GetItemCountUnderModuleLocalRoot(&after_close)); ASSERT_EQ(before_create, after_close); PASS(); } std::string TestFlashFile::GetItemCountUnderModuleLocalRoot( size_t* item_count) { std::vector contents; ASSERT_TRUE( FileModuleLocal::GetDirContents(instance_, std::string(), &contents)); *item_count = contents.size(); PASS(); }