// 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 "extensions/common/manifest_test.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/json/json_file_value_serializer.h" #include "base/path_service.h" #include "base/strings/pattern.h" #include "base/strings/string_util.h" #include "base/values.h" #include "extensions/common/extension_l10n_util.h" #include "extensions/common/extension_paths.h" #include "extensions/common/test_util.h" #include "ui/base/l10n/l10n_util.h" namespace extensions { namespace { // |manifest_path| is an absolute path to a manifest file. scoped_ptr LoadManifestFile( const base::FilePath& manifest_path, std::string* error) { base::FilePath extension_path = manifest_path.DirName(); EXPECT_TRUE(base::PathExists(manifest_path)) << "Couldn't find " << manifest_path.value(); JSONFileValueDeserializer deserializer(manifest_path); scoped_ptr manifest = base::DictionaryValue::From(deserializer.Deserialize(NULL, error)); // Most unit tests don't need localization, and they'll fail if we try to // localize them, since their manifests don't have a default_locale key. // Only localize manifests that indicate they want to be localized. // Calling LocalizeExtension at this point mirrors file_util::LoadExtension. if (manifest && manifest_path.value().find(FILE_PATH_LITERAL("localized")) != std::string::npos) extension_l10n_util::LocalizeExtension(extension_path, manifest.get(), error); return manifest; } } // namespace ManifestTest::ManifestTest() : enable_apps_(true) { } ManifestTest::~ManifestTest() { } // Helper class that simplifies creating methods that take either a filename // to a manifest or the manifest itself. ManifestTest::ManifestData::ManifestData(const char* name) : name_(name), manifest_(nullptr) {} // This does not take ownership of |manifest|. ManifestTest::ManifestData::ManifestData(base::DictionaryValue* manifest, const char* name) : name_(name), manifest_(manifest) { CHECK(manifest_) << "Manifest NULL"; } ManifestTest::ManifestData::ManifestData( scoped_ptr manifest) : manifest_(manifest.get()), manifest_holder_(manifest.Pass()) { CHECK(manifest_) << "Manifest NULL"; } ManifestTest::ManifestData::ManifestData( scoped_ptr manifest, const char* name) : name_(name), manifest_(manifest.get()), manifest_holder_(manifest.Pass()) { CHECK(manifest_) << "Manifest NULL"; } ManifestTest::ManifestData::ManifestData(const ManifestData& m) { NOTREACHED(); } ManifestTest::ManifestData::~ManifestData() { } base::DictionaryValue* ManifestTest::ManifestData::GetManifest( base::FilePath test_data_dir, std::string* error) const { if (manifest_) return manifest_; base::FilePath manifest_path = test_data_dir.AppendASCII(name_); manifest_holder_ = LoadManifestFile(manifest_path, error); manifest_ = manifest_holder_.get(); return manifest_; } std::string ManifestTest::GetTestExtensionID() const { return std::string(); } base::FilePath ManifestTest::GetTestDataDir() { base::FilePath path; PathService::Get(DIR_TEST_DATA, &path); return path.AppendASCII("manifest_tests"); } scoped_ptr ManifestTest::LoadManifest( char const* manifest_name, std::string* error) { base::FilePath manifest_path = GetTestDataDir().AppendASCII(manifest_name); return LoadManifestFile(manifest_path, error); } scoped_refptr ManifestTest::LoadExtension( const ManifestData& manifest, std::string* error, extensions::Manifest::Location location, int flags) { base::FilePath test_data_dir = GetTestDataDir(); base::DictionaryValue* value = manifest.GetManifest(test_data_dir, error); if (!value) return NULL; return Extension::Create(test_data_dir.DirName(), location, *value, flags, GetTestExtensionID(), error); } scoped_refptr ManifestTest::LoadAndExpectSuccess( const ManifestData& manifest, extensions::Manifest::Location location, int flags) { std::string error; scoped_refptr extension = LoadExtension(manifest, &error, location, flags); EXPECT_TRUE(extension.get()) << manifest.name(); EXPECT_EQ("", error) << manifest.name(); return extension; } scoped_refptr ManifestTest::LoadAndExpectSuccess( char const* manifest_name, extensions::Manifest::Location location, int flags) { return LoadAndExpectSuccess(ManifestData(manifest_name), location, flags); } scoped_refptr ManifestTest::LoadAndExpectWarning( const ManifestData& manifest, const std::string& expected_warning, extensions::Manifest::Location location, int flags) { std::string error; scoped_refptr extension = LoadExtension(manifest, &error, location, flags); EXPECT_TRUE(extension.get()) << manifest.name(); EXPECT_EQ("", error) << manifest.name(); EXPECT_EQ(1u, extension->install_warnings().size()); EXPECT_EQ(expected_warning, extension->install_warnings()[0].message); return extension; } scoped_refptr ManifestTest::LoadAndExpectWarning( char const* manifest_name, const std::string& expected_warning, extensions::Manifest::Location location, int flags) { return LoadAndExpectWarning( ManifestData(manifest_name), expected_warning, location, flags); } void ManifestTest::VerifyExpectedError( Extension* extension, const std::string& name, const std::string& error, const std::string& expected_error) { EXPECT_FALSE(extension) << "Expected failure loading extension '" << name << "', but didn't get one."; EXPECT_TRUE(base::MatchPattern(error, expected_error)) << name << " expected '" << expected_error << "' but got '" << error << "'"; } void ManifestTest::LoadAndExpectError( const ManifestData& manifest, const std::string& expected_error, extensions::Manifest::Location location, int flags) { std::string error; scoped_refptr extension( LoadExtension(manifest, &error, location, flags)); VerifyExpectedError(extension.get(), manifest.name(), error, expected_error); } void ManifestTest::LoadAndExpectError( char const* manifest_name, const std::string& expected_error, extensions::Manifest::Location location, int flags) { return LoadAndExpectError( ManifestData(manifest_name), expected_error, location, flags); } void ManifestTest::AddPattern(extensions::URLPatternSet* extent, const std::string& pattern) { int schemes = URLPattern::SCHEME_ALL; extent->AddPattern(URLPattern(schemes, pattern)); } ManifestTest::Testcase::Testcase(const std::string& manifest_filename, const std::string& expected_error, extensions::Manifest::Location location, int flags) : manifest_filename_(manifest_filename), expected_error_(expected_error), location_(location), flags_(flags) {} ManifestTest::Testcase::Testcase(const std::string& manifest_filename, const std::string& expected_error) : manifest_filename_(manifest_filename), expected_error_(expected_error), location_(extensions::Manifest::INTERNAL), flags_(Extension::NO_FLAGS) {} ManifestTest::Testcase::Testcase(const std::string& manifest_filename) : manifest_filename_(manifest_filename), location_(extensions::Manifest::INTERNAL), flags_(Extension::NO_FLAGS) {} ManifestTest::Testcase::Testcase(const std::string& manifest_filename, extensions::Manifest::Location location, int flags) : manifest_filename_(manifest_filename), location_(location), flags_(flags) {} void ManifestTest::RunTestcases(const Testcase* testcases, size_t num_testcases, ExpectType type) { for (size_t i = 0; i < num_testcases; ++i) RunTestcase(testcases[i], type); } void ManifestTest::RunTestcase(const Testcase& testcase, ExpectType type) { switch (type) { case EXPECT_TYPE_ERROR: LoadAndExpectError(testcase.manifest_filename_.c_str(), testcase.expected_error_, testcase.location_, testcase.flags_); break; case EXPECT_TYPE_WARNING: LoadAndExpectWarning(testcase.manifest_filename_.c_str(), testcase.expected_error_, testcase.location_, testcase.flags_); break; case EXPECT_TYPE_SUCCESS: LoadAndExpectSuccess(testcase.manifest_filename_.c_str(), testcase.location_, testcase.flags_); break; } } } // namespace extensions