remoting/test/chromoting_test_driver_environment_unittest.cc - chromium/src - Git at Google

 // 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 "remoting/test/chromoting_test_driver_environment.h"

 #include "base/files/file_path.h"
 #include "remoting/test/fake_access_token_fetcher.h"
 #include "remoting/test/fake_host_list_fetcher.h"
 #include "remoting/test/fake_refresh_token_store.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace {
 const char kAuthCodeValue[] = "4/892379827345jkefvkdfbv";
 const char kUserNameValue[] = "remoting_user@gmail.com";
 const char kHostNameValue[] = "fake_host_name";
 const char kFakeHostNameValue[] = "fake_host_name";
 const char kFakeHostIdValue[] = "fake_host_id";
 const char kFakeHostJidValue[] = "fake_host_jid";
 const char kFakeHostOfflineReasonValue[] = "fake_offline_reason";
 const char kFakeHostPublicKeyValue[] = "fake_public_key";
 const char kFakeHostFirstTokenUrlValue[] = "token_url_1";
 const char kFakeHostSecondTokenUrlValue[] = "token_url_2";
 const char kFakeHostThirdTokenUrlValue[] = "token_url_3";
 const unsigned int kExpectedHostListSize = 1;
 }  // namespace

 namespace remoting {
 namespace test {

 class ChromotingTestDriverEnvironmentTest : public ::testing::Test {
  public:
   ChromotingTestDriverEnvironmentTest();
   ~ChromotingTestDriverEnvironmentTest() override;

  protected:
   // testing::Test interface.
   void SetUp() override;

   FakeAccessTokenFetcher fake_access_token_fetcher_;
   FakeRefreshTokenStore fake_token_store_;
   FakeHostListFetcher fake_host_list_fetcher_;

   scoped_ptr<ChromotingTestDriverEnvironment> environment_object_;

  private:
   DISALLOW_COPY_AND_ASSIGN(ChromotingTestDriverEnvironmentTest);
 };

 ChromotingTestDriverEnvironmentTest::ChromotingTestDriverEnvironmentTest() {
 }

 ChromotingTestDriverEnvironmentTest::~ChromotingTestDriverEnvironmentTest() {
 }

 void ChromotingTestDriverEnvironmentTest::SetUp() {
   ChromotingTestDriverEnvironment::EnvironmentOptions options;
   options.user_name = kUserNameValue;
   options.host_name = kHostNameValue;

   environment_object_.reset(new ChromotingTestDriverEnvironment(options));

   std::vector<HostInfo> fake_host_list;
   HostInfo fake_host;
   fake_host.host_id = kFakeHostIdValue;
   fake_host.host_jid = kFakeHostJidValue;
   fake_host.host_name = kFakeHostNameValue;
   fake_host.offline_reason = kFakeHostOfflineReasonValue;
   fake_host.public_key = kFakeHostPublicKeyValue;
   fake_host.status = kHostStatusOnline;
   fake_host.token_url_patterns.push_back(kFakeHostFirstTokenUrlValue);
   fake_host.token_url_patterns.push_back(kFakeHostSecondTokenUrlValue);
   fake_host.token_url_patterns.push_back(kFakeHostThirdTokenUrlValue);
   fake_host_list.push_back(fake_host);

   fake_host_list_fetcher_.set_retrieved_host_list(fake_host_list);

   environment_object_->SetAccessTokenFetcherForTest(
       &fake_access_token_fetcher_);
   environment_object_->SetRefreshTokenStoreForTest(&fake_token_store_);
   environment_object_->SetHostListFetcherForTest(&fake_host_list_fetcher_);
 }

 TEST_F(ChromotingTestDriverEnvironmentTest, InitializeObjectWithAuthCode) {
   // Pass in an auth code to initialize the environment.
   EXPECT_TRUE(environment_object_->Initialize(kAuthCodeValue));

   EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
   EXPECT_EQ(fake_token_store_.stored_refresh_token_value(),
             kFakeAccessTokenFetcherRefreshTokenValue);

   EXPECT_EQ(environment_object_->user_name(), kUserNameValue);
   EXPECT_EQ(environment_object_->host_name(), kHostNameValue);
   EXPECT_EQ(environment_object_->access_token(),
             kFakeAccessTokenFetcherAccessTokenValue);

   // Should only have one host in the list.
   EXPECT_EQ(environment_object_->host_list().size(), kExpectedHostListSize);
   HostInfo fake_host = environment_object_->host_list().at(0);
   EXPECT_EQ(fake_host.host_id, kFakeHostIdValue);
   EXPECT_EQ(fake_host.host_jid, kFakeHostJidValue);
   EXPECT_EQ(fake_host.host_name, kFakeHostNameValue);
   EXPECT_EQ(fake_host.public_key, kFakeHostPublicKeyValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(0), kFakeHostFirstTokenUrlValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(1), kFakeHostSecondTokenUrlValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(2), kFakeHostThirdTokenUrlValue);
 }

 TEST_F(ChromotingTestDriverEnvironmentTest,
        InitializeObjectWithAuthCodeFailed) {
   fake_access_token_fetcher_.set_fail_access_token_from_auth_code(true);

   EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
   EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
 }

 TEST_F(ChromotingTestDriverEnvironmentTest, InitializeObjectWithRefreshToken) {
   // Pass in an empty auth code since we are using a refresh token.
   EXPECT_TRUE(environment_object_->Initialize(std::string()));

   // We should not write the refresh token a second time if we read from the
   // disk originally.
   EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());

   // Verify the object was initialized correctly.
   EXPECT_EQ(environment_object_->user_name(), kUserNameValue);
   EXPECT_EQ(environment_object_->host_name(), kHostNameValue);
   EXPECT_EQ(environment_object_->access_token(),
             kFakeAccessTokenFetcherAccessTokenValue);

   // Should only have one host in the list.
   EXPECT_EQ(environment_object_->host_list().size(), kExpectedHostListSize);
   HostInfo fake_host = environment_object_->host_list().at(0);
   EXPECT_EQ(fake_host.host_id, kFakeHostIdValue);
   EXPECT_EQ(fake_host.host_jid, kFakeHostJidValue);
   EXPECT_EQ(fake_host.host_name, kFakeHostNameValue);
   EXPECT_EQ(fake_host.public_key, kFakeHostPublicKeyValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(0), kFakeHostFirstTokenUrlValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(1), kFakeHostSecondTokenUrlValue);
   EXPECT_EQ(fake_host.token_url_patterns.at(2), kFakeHostThirdTokenUrlValue);
 }

 TEST_F(ChromotingTestDriverEnvironmentTest,
        InitializeObjectWithRefreshTokenFailed) {
   fake_access_token_fetcher_.set_fail_access_token_from_refresh_token(true);

   // Pass in an empty auth code since we are using a refresh token.
   EXPECT_FALSE(environment_object_->Initialize(std::string()));
   EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
 }

 TEST_F(ChromotingTestDriverEnvironmentTest, TearDownAfterInitializeSucceeds) {
   // Pass in an empty auth code since we are using a refresh token.
   EXPECT_TRUE(environment_object_->Initialize(std::string()));

   // Note: We are using a static cast here because the TearDown() method is
   //       private as it is an interface method that we only want to call
   //       directly in tests or by the GTEST framework.
   static_cast<testing::Environment*>(environment_object_.get())->TearDown();
 }

 TEST_F(ChromotingTestDriverEnvironmentTest,
        InitializeObjectNoAuthCodeOrRefreshToken) {
   // Clear out the 'stored' refresh token value.
   fake_token_store_.set_refresh_token_value(std::string());

   // With no auth code or refresh token, then the initialization should fail.
   EXPECT_FALSE(environment_object_->Initialize(std::string()));
   EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
 }

 TEST_F(ChromotingTestDriverEnvironmentTest,
        InitializeObjectWithAuthCodeWriteFailed) {
   // Simulate a failure writing the token to the disk.
   fake_token_store_.set_refresh_token_write_succeeded(false);

   EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
   EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
 }

 TEST_F(ChromotingTestDriverEnvironmentTest, HostListEmptyFromDirectory) {
   // Set the host list fetcher to return an empty list.
   fake_host_list_fetcher_.set_retrieved_host_list(std::vector<HostInfo>());

   EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
   EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
 }

 }  // namespace test
 }  // namespace remoting
	// 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 "remoting/test/chromoting_test_driver_environment.h"

	#include "base/files/file_path.h"
	#include "remoting/test/fake_access_token_fetcher.h"
	#include "remoting/test/fake_host_list_fetcher.h"
	#include "remoting/test/fake_refresh_token_store.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace {
	const char kAuthCodeValue[] = "4/892379827345jkefvkdfbv";
	const char kUserNameValue[] = "remoting_user@gmail.com";
	const char kHostNameValue[] = "fake_host_name";
	const char kFakeHostNameValue[] = "fake_host_name";
	const char kFakeHostIdValue[] = "fake_host_id";
	const char kFakeHostJidValue[] = "fake_host_jid";
	const char kFakeHostOfflineReasonValue[] = "fake_offline_reason";
	const char kFakeHostPublicKeyValue[] = "fake_public_key";
	const char kFakeHostFirstTokenUrlValue[] = "token_url_1";
	const char kFakeHostSecondTokenUrlValue[] = "token_url_2";
	const char kFakeHostThirdTokenUrlValue[] = "token_url_3";
	const unsigned int kExpectedHostListSize = 1;
	} // namespace

	namespace remoting {
	namespace test {

	class ChromotingTestDriverEnvironmentTest : public ::testing::Test {
	public:
	ChromotingTestDriverEnvironmentTest();
	~ChromotingTestDriverEnvironmentTest() override;

	protected:
	// testing::Test interface.
	void SetUp() override;

	FakeAccessTokenFetcher fake_access_token_fetcher_;
	FakeRefreshTokenStore fake_token_store_;
	FakeHostListFetcher fake_host_list_fetcher_;

	scoped_ptr<ChromotingTestDriverEnvironment> environment_object_;

	private:
	DISALLOW_COPY_AND_ASSIGN(ChromotingTestDriverEnvironmentTest);
	};

	ChromotingTestDriverEnvironmentTest::ChromotingTestDriverEnvironmentTest() {
	}

	ChromotingTestDriverEnvironmentTest::~ChromotingTestDriverEnvironmentTest() {
	}

	void ChromotingTestDriverEnvironmentTest::SetUp() {
	ChromotingTestDriverEnvironment::EnvironmentOptions options;
	options.user_name = kUserNameValue;
	options.host_name = kHostNameValue;

	environment_object_.reset(new ChromotingTestDriverEnvironment(options));

	std::vector<HostInfo> fake_host_list;
	HostInfo fake_host;
	fake_host.host_id = kFakeHostIdValue;
	fake_host.host_jid = kFakeHostJidValue;
	fake_host.host_name = kFakeHostNameValue;
	fake_host.offline_reason = kFakeHostOfflineReasonValue;
	fake_host.public_key = kFakeHostPublicKeyValue;
	fake_host.status = kHostStatusOnline;
	fake_host.token_url_patterns.push_back(kFakeHostFirstTokenUrlValue);
	fake_host.token_url_patterns.push_back(kFakeHostSecondTokenUrlValue);
	fake_host.token_url_patterns.push_back(kFakeHostThirdTokenUrlValue);
	fake_host_list.push_back(fake_host);

	fake_host_list_fetcher_.set_retrieved_host_list(fake_host_list);

	environment_object_->SetAccessTokenFetcherForTest(
	&fake_access_token_fetcher_);
	environment_object_->SetRefreshTokenStoreForTest(&fake_token_store_);
	environment_object_->SetHostListFetcherForTest(&fake_host_list_fetcher_);
	}

	TEST_F(ChromotingTestDriverEnvironmentTest, InitializeObjectWithAuthCode) {
	// Pass in an auth code to initialize the environment.
	EXPECT_TRUE(environment_object_->Initialize(kAuthCodeValue));

	EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
	EXPECT_EQ(fake_token_store_.stored_refresh_token_value(),
	kFakeAccessTokenFetcherRefreshTokenValue);

	EXPECT_EQ(environment_object_->user_name(), kUserNameValue);
	EXPECT_EQ(environment_object_->host_name(), kHostNameValue);
	EXPECT_EQ(environment_object_->access_token(),
	kFakeAccessTokenFetcherAccessTokenValue);

	// Should only have one host in the list.
	EXPECT_EQ(environment_object_->host_list().size(), kExpectedHostListSize);
	HostInfo fake_host = environment_object_->host_list().at(0);
	EXPECT_EQ(fake_host.host_id, kFakeHostIdValue);
	EXPECT_EQ(fake_host.host_jid, kFakeHostJidValue);
	EXPECT_EQ(fake_host.host_name, kFakeHostNameValue);
	EXPECT_EQ(fake_host.public_key, kFakeHostPublicKeyValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(0), kFakeHostFirstTokenUrlValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(1), kFakeHostSecondTokenUrlValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(2), kFakeHostThirdTokenUrlValue);
	}

	TEST_F(ChromotingTestDriverEnvironmentTest,
	InitializeObjectWithAuthCodeFailed) {
	fake_access_token_fetcher_.set_fail_access_token_from_auth_code(true);

	EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
	EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
	}

	TEST_F(ChromotingTestDriverEnvironmentTest, InitializeObjectWithRefreshToken) {
	// Pass in an empty auth code since we are using a refresh token.
	EXPECT_TRUE(environment_object_->Initialize(std::string()));

	// We should not write the refresh token a second time if we read from the
	// disk originally.
	EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());

	// Verify the object was initialized correctly.
	EXPECT_EQ(environment_object_->user_name(), kUserNameValue);
	EXPECT_EQ(environment_object_->host_name(), kHostNameValue);
	EXPECT_EQ(environment_object_->access_token(),
	kFakeAccessTokenFetcherAccessTokenValue);

	// Should only have one host in the list.
	EXPECT_EQ(environment_object_->host_list().size(), kExpectedHostListSize);
	HostInfo fake_host = environment_object_->host_list().at(0);
	EXPECT_EQ(fake_host.host_id, kFakeHostIdValue);
	EXPECT_EQ(fake_host.host_jid, kFakeHostJidValue);
	EXPECT_EQ(fake_host.host_name, kFakeHostNameValue);
	EXPECT_EQ(fake_host.public_key, kFakeHostPublicKeyValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(0), kFakeHostFirstTokenUrlValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(1), kFakeHostSecondTokenUrlValue);
	EXPECT_EQ(fake_host.token_url_patterns.at(2), kFakeHostThirdTokenUrlValue);
	}

	TEST_F(ChromotingTestDriverEnvironmentTest,
	InitializeObjectWithRefreshTokenFailed) {
	fake_access_token_fetcher_.set_fail_access_token_from_refresh_token(true);

	// Pass in an empty auth code since we are using a refresh token.
	EXPECT_FALSE(environment_object_->Initialize(std::string()));
	EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
	}

	TEST_F(ChromotingTestDriverEnvironmentTest, TearDownAfterInitializeSucceeds) {
	// Pass in an empty auth code since we are using a refresh token.
	EXPECT_TRUE(environment_object_->Initialize(std::string()));

	// Note: We are using a static cast here because the TearDown() method is
	// private as it is an interface method that we only want to call
	// directly in tests or by the GTEST framework.
	static_cast<testing::Environment*>(environment_object_.get())->TearDown();
	}

	TEST_F(ChromotingTestDriverEnvironmentTest,
	InitializeObjectNoAuthCodeOrRefreshToken) {
	// Clear out the 'stored' refresh token value.
	fake_token_store_.set_refresh_token_value(std::string());

	// With no auth code or refresh token, then the initialization should fail.
	EXPECT_FALSE(environment_object_->Initialize(std::string()));
	EXPECT_FALSE(fake_token_store_.refresh_token_write_attempted());
	}

	TEST_F(ChromotingTestDriverEnvironmentTest,
	InitializeObjectWithAuthCodeWriteFailed) {
	// Simulate a failure writing the token to the disk.
	fake_token_store_.set_refresh_token_write_succeeded(false);

	EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
	EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
	}

	TEST_F(ChromotingTestDriverEnvironmentTest, HostListEmptyFromDirectory) {
	// Set the host list fetcher to return an empty list.
	fake_host_list_fetcher_.set_retrieved_host_list(std::vector<HostInfo>());

	EXPECT_FALSE(environment_object_->Initialize(kAuthCodeValue));
	EXPECT_TRUE(fake_token_store_.refresh_token_write_attempted());
	}

	} // namespace test
	} // namespace remoting