// Copyright 2013 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 "extensions/common/file_util.h" #include #include #include "base/cxx17_backports.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/json/json_string_value_serializer.h" #include "base/path_service.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/strings/utf_string_conversions.h" #include "base/values.h" #include "build/build_config.h" #include "extensions/common/constants.h" #include "extensions/common/extension.h" #include "extensions/common/extension_paths.h" #include "extensions/common/manifest.h" #include "extensions/common/manifest_constants.h" #include "extensions/strings/grit/extensions_strings.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/abseil-cpp/absl/types/optional.h" #include "ui/base/l10n/l10n_util.h" #include "url/gurl.h" using extensions::mojom::ManifestLocation; namespace extensions { namespace { const char manifest_content[] = "{\n" " \"name\": \"Underscore folder test\",\n" " \"version\": \"1.0\",\n" " \"manifest_version\": 2\n" "}\n"; const char kCustomManifest[] = "custom_manifest.json"; const base::FilePath::CharType kCustomManifestFilename[] = FILE_PATH_LITERAL("custom_manifest.json"); scoped_refptr LoadExtensionManifest( const base::DictionaryValue& manifest, const base::FilePath& manifest_dir, ManifestLocation location, int extra_flags, std::string* error) { scoped_refptr extension = Extension::Create(manifest_dir, location, manifest, extra_flags, error); return extension; } scoped_refptr LoadExtensionManifest( const std::string& manifest_value, const base::FilePath& manifest_dir, ManifestLocation location, int extra_flags, std::string* error) { JSONStringValueDeserializer deserializer(manifest_value); std::unique_ptr result = deserializer.Deserialize(nullptr, error); if (!result.get()) return nullptr; CHECK_EQ(base::Value::Type::DICTIONARY, result->type()); return LoadExtensionManifest(*base::DictionaryValue::From(std::move(result)), manifest_dir, location, extra_flags, error); } void RunUnderscoreDirectoriesTest( const std::vector& underscore_directories) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath ext_path = temp.GetPath(); ASSERT_TRUE(base::CreateDirectory(ext_path)); for (const auto& dir : underscore_directories) ASSERT_TRUE(base::CreateDirectory(ext_path.AppendASCII(dir))); ASSERT_EQ(static_cast(strlen(manifest_content)), base::WriteFile(ext_path.AppendASCII("manifest.json"), manifest_content, strlen(manifest_content))); std::string error; scoped_refptr extension = file_util::LoadExtension( ext_path, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error); ASSERT_TRUE(extension) << error; EXPECT_TRUE(error.empty()); const std::vector& warnings = extension->install_warnings(); ASSERT_EQ(1u, warnings.size()); // The warning should report any one of the illegal underscore directories. bool warning_matched = false; for (const auto& dir : underscore_directories) { std::string expected_warning = base::StringPrintf( "Cannot load extension with file or directory name %s. Filenames " "starting with \"_\" are reserved for use by the system.", dir.c_str()); if (expected_warning == warnings[0].message) warning_matched = true; } EXPECT_TRUE(warning_matched) << "Correct warning not generated for an unpacked extension with " << base::JoinString(underscore_directories, ",") << " directories."; } } // namespace typedef testing::Test FileUtilTest; TEST_F(FileUtilTest, InstallUninstallGarbageCollect) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); // Create a source extension. std::string extension_id("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"); std::string version("1.0"); base::FilePath src = temp.GetPath().AppendASCII(extension_id); ASSERT_TRUE(base::CreateDirectory(src)); base::FilePath extension_content; base::CreateTemporaryFileInDir(src, &extension_content); ASSERT_TRUE(base::PathExists(extension_content)); // Create a extensions tree. base::FilePath all_extensions = temp.GetPath().AppendASCII("extensions"); ASSERT_TRUE(base::CreateDirectory(all_extensions)); // Install in empty directory. Should create parent directories as needed. base::FilePath version_1 = file_util::InstallExtension(src, extension_id, version, all_extensions); ASSERT_EQ( version_1.value(), all_extensions.AppendASCII(extension_id).AppendASCII("1.0_0").value()); ASSERT_TRUE(base::DirectoryExists(version_1)); ASSERT_TRUE(base::PathExists(version_1.Append(extension_content.BaseName()))); // Should have moved the source. ASSERT_FALSE(base::DirectoryExists(src)); // Install again. Should create a new one with different name. ASSERT_TRUE(base::CreateDirectory(src)); base::FilePath version_2 = file_util::InstallExtension(src, extension_id, version, all_extensions); ASSERT_EQ( version_2.value(), all_extensions.AppendASCII(extension_id).AppendASCII("1.0_1").value()); ASSERT_TRUE(base::DirectoryExists(version_2)); // Should have moved the source. ASSERT_FALSE(base::DirectoryExists(src)); // Install yet again. Should create a new one with a different name. ASSERT_TRUE(base::CreateDirectory(src)); base::FilePath version_3 = file_util::InstallExtension(src, extension_id, version, all_extensions); ASSERT_EQ( version_3.value(), all_extensions.AppendASCII(extension_id).AppendASCII("1.0_2").value()); ASSERT_TRUE(base::DirectoryExists(version_3)); // Uninstall. Should remove entire extension subtree. file_util::UninstallExtension(all_extensions, extension_id); ASSERT_FALSE(base::DirectoryExists(version_1.DirName())); ASSERT_FALSE(base::DirectoryExists(version_2.DirName())); ASSERT_FALSE(base::DirectoryExists(version_3.DirName())); ASSERT_TRUE(base::DirectoryExists(all_extensions)); } TEST_F(FileUtilTest, LoadExtensionWithMetadataFolder) { RunUnderscoreDirectoriesTest({"_metadata"}); } TEST_F(FileUtilTest, LoadExtensionWithUnderscoreFolder) { RunUnderscoreDirectoriesTest({"_badfolder"}); } TEST_F(FileUtilTest, LoadExtensionWithUnderscoreAndMetadataFolder) { RunUnderscoreDirectoriesTest({"_metadata", "_badfolder"}); } TEST_F(FileUtilTest, LoadExtensionWithValidLocales) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("extension_with_locales"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get() != nullptr); EXPECT_EQ("The first extension that I made.", extension->description()); } TEST_F(FileUtilTest, LoadExtensionWithGzippedLocalesAllowed) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("extension_with_gzipped_locales"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kComponent, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get() != nullptr); EXPECT_EQ("The first extension that I made.", extension->description()); ASSERT_TRUE(error.empty()); } TEST_F(FileUtilTest, LoadExtensionWithGzippedLocalesNotAllowed) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("extension_with_gzipped_locales"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get() == nullptr); EXPECT_EQ("Catalog file is missing for locale en.", error); } TEST_F(FileUtilTest, LoadExtensionWithoutLocalesFolder) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("extension_without_locales"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); ASSERT_FALSE(extension.get() == nullptr); EXPECT_TRUE(error.empty()); } TEST_F(FileUtilTest, CheckIllegalFilenamesNoUnderscores) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath src_path = temp.GetPath().AppendASCII("some_dir"); ASSERT_TRUE(base::CreateDirectory(src_path)); std::string data = "{ \"name\": { \"message\": \"foobar\" } }"; ASSERT_EQ(static_cast(data.length()), base::WriteFile(src_path.AppendASCII("some_file.txt"), data.c_str(), data.length())); std::string error; EXPECT_TRUE(file_util::CheckForIllegalFilenames(temp.GetPath(), &error)); } TEST_F(FileUtilTest, CheckIllegalFilenamesOnlyReserved) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); static const base::FilePath::CharType* const folders[] = { kLocaleFolder, kPlatformSpecificFolder}; for (size_t i = 0; i < base::size(folders); i++) { base::FilePath src_path = temp.GetPath().Append(folders[i]); ASSERT_TRUE(base::CreateDirectory(src_path)); } std::string error; EXPECT_TRUE(file_util::CheckForIllegalFilenames(temp.GetPath(), &error)); } TEST_F(FileUtilTest, CheckIllegalFilenamesReservedAndIllegal) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath src_path = temp.GetPath().Append(kLocaleFolder); ASSERT_TRUE(base::CreateDirectory(src_path)); src_path = temp.GetPath().AppendASCII("_some_dir"); ASSERT_TRUE(base::CreateDirectory(src_path)); std::string error; EXPECT_FALSE(file_util::CheckForIllegalFilenames(temp.GetPath(), &error)); } // These tests do not work on Windows, because it is illegal to create a // file/directory with a Windows reserved name. Because we cannot create a // file that will cause the test to fail, let's skip the test. #if !defined(OS_WIN) TEST_F(FileUtilTest, CheckIllegalFilenamesDirectoryWindowsReserved) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath src_path = temp.GetPath().AppendASCII("aux"); ASSERT_TRUE(base::CreateDirectory(src_path)); std::string error; EXPECT_FALSE( file_util::CheckForWindowsReservedFilenames(temp.GetPath(), &error)); } TEST_F(FileUtilTest, CheckIllegalFilenamesWindowsReservedFilenameWithExtension) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath src_path = temp.GetPath().AppendASCII("some_dir"); ASSERT_TRUE(base::CreateDirectory(src_path)); std::string data = "{ \"name\": { \"message\": \"foobar\" } }"; ASSERT_EQ(static_cast(data.length()), base::WriteFile(src_path.AppendASCII("lpt1.txt"), data.c_str(), data.length())); std::string error; EXPECT_FALSE( file_util::CheckForWindowsReservedFilenames(temp.GetPath(), &error)); } #endif TEST_F(FileUtilTest, LoadExtensionGivesHelpfullErrorOnMissingManifest) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("file_util").AppendASCII("missing_manifest"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get() == nullptr); ASSERT_FALSE(error.empty()); ASSERT_EQ(manifest_errors::kManifestUnreadable, error); } TEST_F(FileUtilTest, LoadExtensionGivesHelpfullErrorOnBadManifest) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); install_dir = install_dir.AppendASCII("file_util").AppendASCII("bad_manifest"); std::string error; scoped_refptr extension(file_util::LoadExtension( install_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get() == nullptr); ASSERT_FALSE(error.empty()); ASSERT_NE(std::string::npos, error.find(manifest_errors::kManifestParseError + std::string(" Line: 2, column: 16,"))); } TEST_F(FileUtilTest, ValidateThemeUTF8) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); // "aeo" with accents. Use http://0xcc.net/jsescape/ to decode them. std::string non_ascii_file = "\xC3\xA0\xC3\xA8\xC3\xB2.png"; base::FilePath non_ascii_path = temp.GetPath().Append(base::FilePath::FromUTF8Unsafe(non_ascii_file)); base::WriteFile(non_ascii_path, "", 0); std::string kManifest = base::StringPrintf( "{ \"name\": \"Test\", \"version\": \"1.0\", " " \"theme\": { \"images\": { \"theme_frame\": \"%s\" } }" "}", non_ascii_file.c_str()); std::string error; scoped_refptr extension = LoadExtensionManifest( kManifest, temp.GetPath(), ManifestLocation::kUnpacked, 0, &error); ASSERT_TRUE(extension.get()) << error; std::vector warnings; EXPECT_TRUE(file_util::ValidateExtension(extension.get(), &error, &warnings)) << error; EXPECT_EQ(0U, warnings.size()); } TEST_F(FileUtilTest, BackgroundScriptsMustExist) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); std::unique_ptr value(new base::DictionaryValue()); value->SetString("name", "test"); value->SetString("version", "1"); value->SetInteger("manifest_version", 2); base::ListValue* scripts = value->SetList("background.scripts", std::make_unique()); scripts->Append("foo.js"); std::string error; std::vector warnings; scoped_refptr extension = LoadExtensionManifest( *value, temp.GetPath(), ManifestLocation::kUnpacked, 0, &error); ASSERT_TRUE(extension.get()) << error; EXPECT_FALSE( file_util::ValidateExtension(extension.get(), &error, &warnings)); EXPECT_EQ(l10n_util::GetStringFUTF8( IDS_EXTENSION_LOAD_BACKGROUND_SCRIPT_FAILED, u"foo.js"), error); EXPECT_EQ(0U, warnings.size()); scripts->ClearList(); scripts->Append("http://google.com/foo.js"); extension = LoadExtensionManifest(*value, temp.GetPath(), ManifestLocation::kUnpacked, 0, &error); ASSERT_TRUE(extension.get()) << error; warnings.clear(); EXPECT_FALSE( file_util::ValidateExtension(extension.get(), &error, &warnings)); EXPECT_EQ( l10n_util::GetStringFUTF8(IDS_EXTENSION_LOAD_BACKGROUND_SCRIPT_FAILED, u"http://google.com/foo.js"), error); EXPECT_EQ(0U, warnings.size()); } // Private key, generated by Chrome specifically for this test, and // never used elsewhere. const char private_key[] = "-----BEGIN PRIVATE KEY-----\n" "MIICdgIBADANBgkqhkiG9w0BAQEFAASCAmAwggJcAgEAAoGBAKt02SR0FYaYy6fpW\n" "MAA+kU1BgK3d+OmmWfdr+JATIjhRkyeSF4lTd/71JQsyKqPzYkQPi3EeROWM+goTv\n" "EhJqq07q63BolpsFmlV+S4ny+sBA2B4aWwRYXlBWikdrQSA0mJMzvEHc6nKzBgXik\n" "QSVbyyBNAsxlDB9WaCxRVOpK3AgMBAAECgYBGvSPlrVtAOAQ2V8j9FqorKZA8SLPX\n" "IeJC/yzU3RB2nPMjI17aMOvrUHxJUhzMeh4jwabVvSzzDtKFozPGupW3xaI8sQdi2\n" "WWMTQIk/Q9HHDWoQ9qA6SwX2qWCc5SyjCKqVp78ye+000kqTJYjBsDgXeAlzKcx2B\n" "4GAAeWonDdkQJBANNb8wrqNWFn7DqyQTfELzcRTRnqQ/r1pdeJo6obzbnwGnlqe3t\n" "KhLjtJNIGrQg5iC0OVLWFuvPJs0t3z62A1ckCQQDPq2JZuwTwu5Pl4DJ0r9O1FdqN\n" "JgqPZyMptokCDQ3khLLGakIu+TqB9YtrzI69rJMSG2Egb+6McaDX+dh3XmR/AkB9t\n" "xJf6qDnmA2td/tMtTc0NOk8Qdg/fD8xbZ/YfYMnVoYYs9pQoilBaWRePDRNURMLYZ\n" "vHAI0Llmw7tj7jv17pAkEAz44uXRpjRKtllUIvi5pUENAHwDz+HvdpGH68jpU3hmb\n" "uOwrmnQYxaMReFV68Z2w9DcLZn07f7/R9Wn72z89CxwJAFsDoNaDes4h48bX7plct\n" "s9ACjmTwcCigZjN2K7AGv7ntCLF3DnV5dK0dTHNaAdD3SbY3jl29Rk2CwiURSX6Ee\n" "g==\n" "-----END PRIVATE KEY-----\n"; TEST_F(FileUtilTest, FindPrivateKeyFiles) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath src_path = temp.GetPath().AppendASCII("some_dir"); ASSERT_TRUE(base::CreateDirectory(src_path)); ASSERT_EQ(static_cast(base::size(private_key)), base::WriteFile(src_path.AppendASCII("a_key.pem"), private_key, base::size(private_key))); ASSERT_EQ(static_cast(base::size(private_key)), base::WriteFile(src_path.AppendASCII("second_key.pem"), private_key, base::size(private_key))); // Shouldn't find a key with a different extension. ASSERT_EQ(static_cast(base::size(private_key)), base::WriteFile(src_path.AppendASCII("key.diff_ext"), private_key, base::size(private_key))); // Shouldn't find a key that isn't parsable. ASSERT_EQ(static_cast(base::size(private_key)) - 30, base::WriteFile(src_path.AppendASCII("unparsable_key.pem"), private_key, base::size(private_key) - 30)); std::vector private_keys = file_util::FindPrivateKeyFiles(temp.GetPath()); EXPECT_EQ(2U, private_keys.size()); EXPECT_THAT(private_keys, testing::Contains(src_path.AppendASCII("a_key.pem"))); EXPECT_THAT(private_keys, testing::Contains(src_path.AppendASCII("second_key.pem"))); } TEST_F(FileUtilTest, WarnOnPrivateKey) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath ext_path = temp.GetPath().AppendASCII("ext_root"); ASSERT_TRUE(base::CreateDirectory(ext_path)); const char manifest[] = "{\n" " \"name\": \"Test Extension\",\n" " \"version\": \"1.0\",\n" " \"manifest_version\": 2,\n" " \"description\": \"The first extension that I made.\"\n" "}\n"; ASSERT_EQ(static_cast(strlen(manifest)), base::WriteFile(ext_path.AppendASCII("manifest.json"), manifest, strlen(manifest))); ASSERT_EQ(static_cast(strlen(private_key)), base::WriteFile(ext_path.AppendASCII("a_key.pem"), private_key, strlen(private_key))); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_path, "the_id", ManifestLocation::kExternalPref, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get()) << error; ASSERT_EQ(1u, extension->install_warnings().size()); EXPECT_THAT(extension->install_warnings(), testing::ElementsAre(testing::Field( &InstallWarning::message, testing::ContainsRegex( "extension includes the key file.*ext_root.a_key.pem")))); // Turn the warning into an error with ERROR_ON_PRIVATE_KEY. extension = file_util::LoadExtension(ext_path, "the_id", ManifestLocation::kExternalPref, Extension::ERROR_ON_PRIVATE_KEY, &error); EXPECT_FALSE(extension.get()); EXPECT_THAT(error, testing::ContainsRegex( "extension includes the key file.*ext_root.a_key.pem")); } // Specify a file other than manifest.json TEST_F(FileUtilTest, SpecifyManifestFile) { base::ScopedTempDir temp; ASSERT_TRUE(temp.CreateUniqueTempDir()); base::FilePath ext_path = temp.GetPath().AppendASCII("ext_root"); ASSERT_TRUE(base::CreateDirectory(ext_path)); const char manifest[] = "{\n" " \"name\": \"Test Extension\",\n" " \"version\": \"1.0\",\n" " \"manifest_version\": 2,\n" " \"description\": \"The first extension that I made.\"\n" "}\n"; ASSERT_EQ(static_cast(strlen(manifest)), base::WriteFile(ext_path.AppendASCII(kCustomManifest), manifest, strlen(manifest))); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_path, kCustomManifestFilename, "the_id", ManifestLocation::kExternalPref, Extension::NO_FLAGS, &error)); ASSERT_TRUE(extension.get()) << error; ASSERT_EQ(0u, extension->install_warnings().size()); } // Try to install an extension with a zero-length icon file. TEST_F(FileUtilTest, CheckZeroLengthAndMissingIconFile) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); base::FilePath ext_dir = install_dir.AppendASCII("file_util").AppendASCII("bad_icon"); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_dir, ManifestLocation::kInternal, Extension::NO_FLAGS, &error)); ASSERT_FALSE(extension); } // Try to install an unpacked extension with a zero-length icon file. TEST_F(FileUtilTest, CheckZeroLengthAndMissingIconFileUnpacked) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); base::FilePath ext_dir = install_dir.AppendASCII("file_util").AppendASCII("bad_icon"); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); EXPECT_FALSE(extension); EXPECT_EQ("Could not load icon 'missing-icon.png' specified in 'icons'.", error); } // Try to install an unpacked extension with an invisible icon. This // should fail. TEST_F(FileUtilTest, CheckInvisibleIconFileUnpacked) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); base::FilePath ext_dir = install_dir.AppendASCII("file_util").AppendASCII("invisible_icon"); // Set the flag that enables the error. file_util::SetReportErrorForInvisibleIconForTesting(true); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_dir, ManifestLocation::kUnpacked, Extension::NO_FLAGS, &error)); file_util::SetReportErrorForInvisibleIconForTesting(false); EXPECT_FALSE(extension); EXPECT_EQ( "Icon 'invisible_icon.png' specified in 'icons' is not " "sufficiently visible.", error); } // Try to install a packed extension with an invisible icon. This should // succeed. TEST_F(FileUtilTest, CheckInvisibleIconFilePacked) { base::FilePath install_dir; ASSERT_TRUE(base::PathService::Get(DIR_TEST_DATA, &install_dir)); base::FilePath ext_dir = install_dir.AppendASCII("file_util").AppendASCII("invisible_icon"); // Set the flag that enables the error. file_util::SetReportErrorForInvisibleIconForTesting(true); std::string error; scoped_refptr extension(file_util::LoadExtension( ext_dir, ManifestLocation::kInternal, Extension::NO_FLAGS, &error)); file_util::SetReportErrorForInvisibleIconForTesting(false); EXPECT_TRUE(extension); EXPECT_TRUE(error.empty()); } TEST_F(FileUtilTest, ExtensionURLToRelativeFilePath) { #define URL_PREFIX "chrome-extension://extension-id/" struct TestCase { const char* url; const char* expected_relative_path; } test_cases[] = { {URL_PREFIX "simple.html", "simple.html"}, {URL_PREFIX "directory/to/file.html", "directory/to/file.html"}, {URL_PREFIX "escape%20spaces.html", "escape spaces.html"}, {URL_PREFIX "%C3%9Cber.html", "\xC3\x9C" "ber.html"}, #if defined(OS_WIN) {URL_PREFIX "C%3A/simple.html", ""}, #endif {URL_PREFIX "////simple.html", "simple.html"}, {URL_PREFIX "/simple.html", "simple.html"}, {URL_PREFIX "\\simple.html", "simple.html"}, {URL_PREFIX "\\\\foo\\simple.html", "foo/simple.html"}, // Escaped file paths result in failure. {URL_PREFIX "..%2f..%2fsimple.html", ""}, // Escaped things that look like escaped file paths, on the other hand, // should work. {URL_PREFIX "..%252f..%252fsimple.html", "..%2f..%2fsimple.html"}, // This is a UTF-8 lock icon, which is unsafe to display in the omnibox, but // is a valid, if unusual, file name. {URL_PREFIX "%F0%9F%94%93.html", "\xF0\x9F\x94\x93.html"}, }; #undef URL_PREFIX for (size_t i = 0; i < base::size(test_cases); ++i) { GURL url(test_cases[i].url); base::FilePath expected_path = base::FilePath::FromUTF8Unsafe(test_cases[i].expected_relative_path); base::FilePath actual_path = file_util::ExtensionURLToRelativeFilePath(url); EXPECT_FALSE(actual_path.IsAbsolute()) << " For the path " << actual_path.value(); EXPECT_EQ(expected_path.value(), actual_path.value()) << " For the path " << url; } } } // namespace extensions