fuchsia/engine/browser/cookie_manager_impl_unittest.cc - ios-chromium-mirror - Git at Google

 // Copyright 2019 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 <lib/fidl/cpp/binding.h>

 #include <map>
 #include <vector>

 #include "base/bind.h"
 #include "base/macros.h"
 #include "base/optional.h"
 #include "base/run_loop.h"
 #include "base/test/bind_test_util.h"
 #include "base/test/task_environment.h"
 #include "fuchsia/base/fit_adapter.h"
 #include "fuchsia/base/result_receiver.h"
 #include "fuchsia/engine/browser/cookie_manager_impl.h"
 #include "mojo/public/cpp/bindings/remote.h"
 #include "services/network/network_service.h"
 #include "services/network/public/mojom/cookie_manager.mojom.h"
 #include "services/network/public/mojom/network_context.mojom.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace {

 const char kTestCookieUrl[] = "https://www.testing.com/";
 const char kTestOtherUrl[] = "https://www.other.com/";
 const char kCookieName1[] = "Cookie";
 const char kCookieName2[] = "Monster";
 const char kCookieValue1[] = "Eats";
 const char kCookieValue2[] = "Cookies";
 const char kCookieValue3[] = "Nyom nyom nyom";

 // Creates a CanonicalCookie with |name| and |value|, for kTestCookieUrlHost.
 std::unique_ptr<net::CanonicalCookie> CreateCookie(base::StringPiece name,
                                                    base::StringPiece value) {
   return net::CanonicalCookie::CreateSanitizedCookie(
       GURL(kTestCookieUrl), name.as_string(), value.as_string(), /*domain=*/"",
       /*path=*/"", /*creation_time=*/base::Time(),
       /*expiration_time=*/base::Time(), /*last_access_time=*/base::Time(),
       /*secure=*/true,
       /*httponly*/ false, net::CookieSameSite::NO_RESTRICTION,
       net::COOKIE_PRIORITY_MEDIUM);
 }

 class CookieManagerImplTest : public testing::Test {
  public:
   CookieManagerImplTest()
       : task_environment_(
             base::test::TaskEnvironment::MainThreadType::IO),
         network_service_(network::NetworkService::CreateForTesting()),
         cookie_manager_(
             base::BindRepeating(&CookieManagerImplTest::GetNetworkContext,
                                 base::Unretained(this))) {}
   ~CookieManagerImplTest() override = default;

  protected:
   network::mojom::NetworkContext* GetNetworkContext() {
     if (!network_context_.is_bound()) {
       network_service_->CreateNetworkContext(
           network_context_.BindNewPipeAndPassReceiver(),
           network::mojom::NetworkContextParams::New());
       network_context_.reset_on_disconnect();
     }
     return network_context_.get();
   }

   // Adds the specified cookie under kTestCookieUrlHost.
   void CreateAndSetCookieAsync(base::StringPiece name,
                                base::StringPiece value) {
     EnsureMojoCookieManager();

     net::CookieOptions options;
     mojo_cookie_manager_->SetCanonicalCookie(
         *CreateCookie(name, value), "https", options,
         base::Bind([](net::CanonicalCookie::CookieInclusionStatus status) {
           EXPECT_TRUE(status.IsInclude());
         }));
   }

   // Removes the specified cookie from under kTestCookieUrlHost.
   void DeleteCookieAsync(base::StringPiece name, base::StringPiece value) {
     EnsureMojoCookieManager();

     mojo_cookie_manager_->DeleteCanonicalCookie(
         *CreateCookie(name, value),
         base::Bind([](bool success) { EXPECT_TRUE(success); }));
   }

   // Synchronously fetches all cookies via the |cookie_manager_|.
   // Returns a base::nullopt if the iterator closes before a GetNext() returns.
   base::Optional<std::vector<fuchsia::web::Cookie>> GetAllCookies() {
     base::RunLoop get_cookies_loop;
     fuchsia::web::CookiesIteratorPtr cookies_iterator;
     cookies_iterator.set_error_handler([&](zx_status_t status) {
       EXPECT_EQ(ZX_ERR_PEER_CLOSED, status);
       get_cookies_loop.Quit();
     });
     cookie_manager_.GetCookieList(nullptr, nullptr,
                                   cookies_iterator.NewRequest());
     base::Optional<std::vector<fuchsia::web::Cookie>> cookies;
     std::function<void(std::vector<fuchsia::web::Cookie>)> get_next_callback =
         [&](std::vector<fuchsia::web::Cookie> new_cookies) {
           if (!cookies.has_value()) {
             cookies.emplace(std::move(new_cookies));
           } else {
             cookies->insert(cookies->end(),
                             std::make_move_iterator(new_cookies.begin()),
                             std::make_move_iterator(new_cookies.end()));
           }
           cookies_iterator->GetNext(get_next_callback);
         };
     cookies_iterator->GetNext(get_next_callback);
     get_cookies_loop.Run();
     return cookies;
   }

   void EnsureMojoCookieManager() {
     if (mojo_cookie_manager_.is_bound())
       return;
     network_context_->GetCookieManager(
         mojo_cookie_manager_.BindNewPipeAndPassReceiver());
   }

   base::test::TaskEnvironment task_environment_;

   std::unique_ptr<network::NetworkService> network_service_;
   mojo::Remote<network::mojom::NetworkContext> network_context_;
   mojo::Remote<network::mojom::CookieManager> mojo_cookie_manager_;

   CookieManagerImpl cookie_manager_;

  private:
   DISALLOW_COPY_AND_ASSIGN(CookieManagerImplTest);
 };

 // Calls GetNext() on the supplied |iterator| and lets the caller express
 // expectations on the results.
 class GetNextCookiesIteratorResult {
  public:
   explicit GetNextCookiesIteratorResult(fuchsia::web::CookiesIterator* iterator)
       : result_(loop_.QuitClosure()) {
     iterator->GetNext(
         cr_fuchsia::CallbackToFitFunction(result_.GetReceiveCallback()));
   }

   ~GetNextCookiesIteratorResult() = default;

   void ExpectSingleCookie(base::StringPiece name,
                           base::Optional<base::StringPiece> value) {
     ExpectCookieUpdates({{name, value}});
   }

   void ExpectDeleteSingleCookie(base::StringPiece name) {
     ExpectCookieUpdates({{name, base::nullopt}});
   }

   // Specifies the cookie name/value pairs expected in the GetNext() results.
   // Deletions expectations are specified by using base::nullopt as the value.
   void ExpectCookieUpdates(
       std::map<base::StringPiece, base::Optional<base::StringPiece>> expected) {
     loop_.Run();
     ASSERT_TRUE(result_.has_value());
     ASSERT_EQ(result_->size(), expected.size());
     std::map<base::StringPiece, base::StringPiece> result_updates;
     for (auto& cookie_update : *result_) {
       ASSERT_TRUE(cookie_update.has_id());
       ASSERT_TRUE(cookie_update.id().has_name());
       auto it = expected.find(cookie_update.id().name());
       ASSERT_TRUE(it != expected.end());
       ASSERT_EQ(cookie_update.has_value(), it->second.has_value());
       if (it->second.has_value())
         EXPECT_EQ(*it->second, cookie_update.value());
       expected.erase(it);
     }
     EXPECT_TRUE(expected.empty());
   }

   void ExpectReceivedNoUpdates() {
     // If we ran |loop_| then this would hang, so just ensure any pending work
     // has been processed.
     base::RunLoop().RunUntilIdle();
     EXPECT_FALSE(result_.has_value());
   }

  protected:
   base::RunLoop loop_;
   cr_fuchsia::ResultReceiver<std::vector<fuchsia::web::Cookie>> result_;

   DISALLOW_COPY_AND_ASSIGN(GetNextCookiesIteratorResult);
 };

 }  // namespace

 TEST_F(CookieManagerImplTest, GetAndObserveAddModifyDelete) {
   // Add global, URL-filtered and URL+name-filtered observers.
   fuchsia::web::CookiesIteratorPtr global_changes;
   global_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
   cookie_manager_.ObserveCookieChanges(nullptr, nullptr,
                                        global_changes.NewRequest());

   fuchsia::web::CookiesIteratorPtr url_changes;
   url_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
   cookie_manager_.ObserveCookieChanges(kTestCookieUrl, nullptr,
                                        url_changes.NewRequest());

   fuchsia::web::CookiesIteratorPtr name_changes;
   name_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
   cookie_manager_.ObserveCookieChanges(kTestCookieUrl, kCookieName1,
                                        name_changes.NewRequest());

   // Register interest in updates for another URL, so we can verify none are
   // received.
   fuchsia::web::CookiesIteratorPtr other_changes;
   name_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
   cookie_manager_.ObserveCookieChanges(kTestOtherUrl, nullptr,
                                        other_changes.NewRequest());
   GetNextCookiesIteratorResult other_updates(other_changes.get());

   // Ensure that all ObserveCookieChanges() were processed before modifying
   // cookies.
   EXPECT_EQ(GetAllCookies()->size(), 0u);

   // Set cookie kCookieName1, which should trigger notifications to all
   // observers.
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());
     GetNextCookiesIteratorResult name_update(name_changes.get());

     CreateAndSetCookieAsync(kCookieName1, kCookieValue1);

     global_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
     url_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
     name_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
   }

   // Expect an add notification for kCookieName2, except on the with-name
   // observer. If the with-name observer does get notified then the remove &
   // re-add check below will observe kCookieName2 rather than kCookieName1, and
   // fail.
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());

     CreateAndSetCookieAsync(kCookieName2, kCookieValue2);

     global_update.ExpectSingleCookie(kCookieName2, kCookieValue2);
     url_update.ExpectSingleCookie(kCookieName2, kCookieValue2);
   }

   // Set kCookieName1 to a new value, which will trigger deletion notifications,
   // followed by an addition with the new value.
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());
     GetNextCookiesIteratorResult name_update(name_changes.get());

     // Updating the cookie will generate a deletion, following by an insertion.
     // CookiesIterator will batch updates into a single response, so we may get
     // two separate updates, or a single update, depending on timing. Eliminate
     // the non-determinism by ensuring that the GetNext() calls have been
     // received before updating the cookie.
     base::RunLoop().RunUntilIdle();

     CreateAndSetCookieAsync(kCookieName1, kCookieValue3);

     global_update.ExpectDeleteSingleCookie(kCookieName1);
     url_update.ExpectDeleteSingleCookie(kCookieName1);
     name_update.ExpectDeleteSingleCookie(kCookieName1);
   }
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());
     GetNextCookiesIteratorResult name_update(name_changes.get());

     global_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
     url_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
     name_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
   }

   // Set kCookieName2 empty, which will notify only the global and URL
   // observers. If the name observer is mis-notified then the next step, below,
   // will fail.
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());

     DeleteCookieAsync(kCookieName2, kCookieValue2);

     global_update.ExpectDeleteSingleCookie(kCookieName2);
     url_update.ExpectDeleteSingleCookie(kCookieName2);
   }

   // Set kCookieName1 empty, which will notify all the observers that it was
   // removed.
   {
     GetNextCookiesIteratorResult global_update(global_changes.get());
     GetNextCookiesIteratorResult url_update(url_changes.get());
     GetNextCookiesIteratorResult name_update(name_changes.get());

     DeleteCookieAsync(kCookieName1, kCookieValue3);

     global_update.ExpectDeleteSingleCookie(kCookieName1);
     url_update.ExpectDeleteSingleCookie(kCookieName1);
     name_update.ExpectDeleteSingleCookie(kCookieName1);
   }

   // Verify that no updates were received for the "other" URL (since we did not
   // set any cookies for it). It is possible that this could pass due to the
   // CookiesIterator not having been scheduled, but that is very unlikely.
   other_updates.ExpectReceivedNoUpdates();
 }

 TEST_F(CookieManagerImplTest, UpdateBatching) {
   fuchsia::web::CookiesIteratorPtr global_changes;
   global_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
   cookie_manager_.ObserveCookieChanges(nullptr, nullptr,
                                        global_changes.NewRequest());

   // Ensure that all ObserveCookieChanges() were processed before modifying
   // cookies.
   EXPECT_EQ(GetAllCookies()->size(), 0u);

   {
     // Verify that some insertions are batched into a single GetNext() result.
     CreateAndSetCookieAsync(kCookieName1, kCookieValue1);
     CreateAndSetCookieAsync(kCookieName2, kCookieValue2);
     CreateAndSetCookieAsync(kCookieName1, kCookieValue3);
     mojo_cookie_manager_.FlushForTesting();

     GetNextCookiesIteratorResult global_updates(global_changes.get());
     global_updates.ExpectCookieUpdates(
         {{kCookieName1, kCookieValue3}, {kCookieName2, kCookieValue2}});
   }

   {
     // Verify that some deletions are batched into a single GetNext() result.
     DeleteCookieAsync(kCookieName2, kCookieValue2);
     DeleteCookieAsync(kCookieName1, kCookieValue3);
     mojo_cookie_manager_.FlushForTesting();

     GetNextCookiesIteratorResult global_updates(global_changes.get());
     global_updates.ExpectCookieUpdates(
         {{kCookieName1, base::nullopt}, {kCookieName2, base::nullopt}});
   }
 }

 TEST_F(CookieManagerImplTest, ReconnectToNetworkContext) {
   // Attach a cookie observer, which we expect should become disconnected with
   // an appropriate error if the NetworkService goes away.
   base::RunLoop mojo_disconnect_loop;
   cookie_manager_.set_on_mojo_disconnected_for_test(
       mojo_disconnect_loop.QuitClosure());

   // Verify that GetAllCookies() returns a valid list of cookies (as opposed to
   // not returning a list at all) initially.
   EXPECT_TRUE(GetAllCookies().has_value());

   // Tear-down and re-create the NetworkService and |network_context_|, causing
   // the CookieManager's connection to it to be dropped.
   network_service_.reset();
   network_context_.reset();
   network_service_ = network::NetworkService::CreateForTesting();

   // Wait for the |cookie_manager_| to observe the NetworkContext disconnect,
   // so that GetAllCookies() can re-connect.
   mojo_disconnect_loop.Run();

   // If the CookieManager fails to re-connect then GetAllCookies() will receive
   // no data (as opposed to receiving an empty list of cookies).
   EXPECT_TRUE(GetAllCookies().has_value());
 }
	// Copyright 2019 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 <lib/fidl/cpp/binding.h>

	#include <map>
	#include <vector>

	#include "base/bind.h"
	#include "base/macros.h"
	#include "base/optional.h"
	#include "base/run_loop.h"
	#include "base/test/bind_test_util.h"
	#include "base/test/task_environment.h"
	#include "fuchsia/base/fit_adapter.h"
	#include "fuchsia/base/result_receiver.h"
	#include "fuchsia/engine/browser/cookie_manager_impl.h"
	#include "mojo/public/cpp/bindings/remote.h"
	#include "services/network/network_service.h"
	#include "services/network/public/mojom/cookie_manager.mojom.h"
	#include "services/network/public/mojom/network_context.mojom.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace {

	const char kTestCookieUrl[] = "https://www.testing.com/";
	const char kTestOtherUrl[] = "https://www.other.com/";
	const char kCookieName1[] = "Cookie";
	const char kCookieName2[] = "Monster";
	const char kCookieValue1[] = "Eats";
	const char kCookieValue2[] = "Cookies";
	const char kCookieValue3[] = "Nyom nyom nyom";

	// Creates a CanonicalCookie with \|name\| and \|value\|, for kTestCookieUrlHost.
	std::unique_ptr<net::CanonicalCookie> CreateCookie(base::StringPiece name,
	base::StringPiece value) {
	return net::CanonicalCookie::CreateSanitizedCookie(
	GURL(kTestCookieUrl), name.as_string(), value.as_string(), /domain=/"",
	/path=/"", /creation_time=/base::Time(),
	/expiration_time=/base::Time(), /last_access_time=/base::Time(),
	/secure=/true,
	/httponly/ false, net::CookieSameSite::NO_RESTRICTION,
	net::COOKIE_PRIORITY_MEDIUM);
	}

	class CookieManagerImplTest : public testing::Test {
	public:
	CookieManagerImplTest()
	: task_environment_(
	base::test::TaskEnvironment::MainThreadType::IO),
	network_service_(network::NetworkService::CreateForTesting()),
	cookie_manager_(
	base::BindRepeating(&CookieManagerImplTest::GetNetworkContext,
	base::Unretained(this))) {}
	~CookieManagerImplTest() override = default;

	protected:
	network::mojom::NetworkContext* GetNetworkContext() {
	if (!network_context_.is_bound()) {
	network_service_->CreateNetworkContext(
	network_context_.BindNewPipeAndPassReceiver(),
	network::mojom::NetworkContextParams::New());
	network_context_.reset_on_disconnect();
	}
	return network_context_.get();
	}

	// Adds the specified cookie under kTestCookieUrlHost.
	void CreateAndSetCookieAsync(base::StringPiece name,
	base::StringPiece value) {
	EnsureMojoCookieManager();

	net::CookieOptions options;
	mojo_cookie_manager_->SetCanonicalCookie(
	*CreateCookie(name, value), "https", options,
	base::Bind([](net::CanonicalCookie::CookieInclusionStatus status) {
	EXPECT_TRUE(status.IsInclude());
	}));
	}

	// Removes the specified cookie from under kTestCookieUrlHost.
	void DeleteCookieAsync(base::StringPiece name, base::StringPiece value) {
	EnsureMojoCookieManager();

	mojo_cookie_manager_->DeleteCanonicalCookie(
	*CreateCookie(name, value),
	base::Bind([](bool success) { EXPECT_TRUE(success); }));
	}

	// Synchronously fetches all cookies via the \|cookie_manager_\|.
	// Returns a base::nullopt if the iterator closes before a GetNext() returns.
	base::Optional<std::vector<fuchsia::web::Cookie>> GetAllCookies() {
	base::RunLoop get_cookies_loop;
	fuchsia::web::CookiesIteratorPtr cookies_iterator;
	cookies_iterator.set_error_handler([&](zx_status_t status) {
	EXPECT_EQ(ZX_ERR_PEER_CLOSED, status);
	get_cookies_loop.Quit();
	});
	cookie_manager_.GetCookieList(nullptr, nullptr,
	cookies_iterator.NewRequest());
	base::Optional<std::vector<fuchsia::web::Cookie>> cookies;
	std::function<void(std::vector<fuchsia::web::Cookie>)> get_next_callback =
	[&](std::vector<fuchsia::web::Cookie> new_cookies) {
	if (!cookies.has_value()) {
	cookies.emplace(std::move(new_cookies));
	} else {
	cookies->insert(cookies->end(),
	std::make_move_iterator(new_cookies.begin()),
	std::make_move_iterator(new_cookies.end()));
	}
	cookies_iterator->GetNext(get_next_callback);
	};
	cookies_iterator->GetNext(get_next_callback);
	get_cookies_loop.Run();
	return cookies;
	}

	void EnsureMojoCookieManager() {
	if (mojo_cookie_manager_.is_bound())
	return;
	network_context_->GetCookieManager(
	mojo_cookie_manager_.BindNewPipeAndPassReceiver());
	}

	base::test::TaskEnvironment task_environment_;

	std::unique_ptr<network::NetworkService> network_service_;
	mojo::Remote<network::mojom::NetworkContext> network_context_;
	mojo::Remote<network::mojom::CookieManager> mojo_cookie_manager_;

	CookieManagerImpl cookie_manager_;

	private:
	DISALLOW_COPY_AND_ASSIGN(CookieManagerImplTest);
	};

	// Calls GetNext() on the supplied \|iterator\| and lets the caller express
	// expectations on the results.
	class GetNextCookiesIteratorResult {
	public:
	explicit GetNextCookiesIteratorResult(fuchsia::web::CookiesIterator* iterator)
	: result_(loop_.QuitClosure()) {
	iterator->GetNext(
	cr_fuchsia::CallbackToFitFunction(result_.GetReceiveCallback()));
	}

	~GetNextCookiesIteratorResult() = default;

	void ExpectSingleCookie(base::StringPiece name,
	base::Optional<base::StringPiece> value) {
	ExpectCookieUpdates({{name, value}});
	}

	void ExpectDeleteSingleCookie(base::StringPiece name) {
	ExpectCookieUpdates({{name, base::nullopt}});
	}

	// Specifies the cookie name/value pairs expected in the GetNext() results.
	// Deletions expectations are specified by using base::nullopt as the value.
	void ExpectCookieUpdates(
	std::map<base::StringPiece, base::Optional<base::StringPiece>> expected) {
	loop_.Run();
	ASSERT_TRUE(result_.has_value());
	ASSERT_EQ(result_->size(), expected.size());
	std::map<base::StringPiece, base::StringPiece> result_updates;
	for (auto& cookie_update : *result_) {
	ASSERT_TRUE(cookie_update.has_id());
	ASSERT_TRUE(cookie_update.id().has_name());
	auto it = expected.find(cookie_update.id().name());
	ASSERT_TRUE(it != expected.end());
	ASSERT_EQ(cookie_update.has_value(), it->second.has_value());
	if (it->second.has_value())
	EXPECT_EQ(*it->second, cookie_update.value());
	expected.erase(it);
	}
	EXPECT_TRUE(expected.empty());
	}

	void ExpectReceivedNoUpdates() {
	// If we ran \|loop_\| then this would hang, so just ensure any pending work
	// has been processed.
	base::RunLoop().RunUntilIdle();
	EXPECT_FALSE(result_.has_value());
	}

	protected:
	base::RunLoop loop_;
	cr_fuchsia::ResultReceiver<std::vector<fuchsia::web::Cookie>> result_;

	DISALLOW_COPY_AND_ASSIGN(GetNextCookiesIteratorResult);
	};

	} // namespace

	TEST_F(CookieManagerImplTest, GetAndObserveAddModifyDelete) {
	// Add global, URL-filtered and URL+name-filtered observers.
	fuchsia::web::CookiesIteratorPtr global_changes;
	global_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
	cookie_manager_.ObserveCookieChanges(nullptr, nullptr,
	global_changes.NewRequest());

	fuchsia::web::CookiesIteratorPtr url_changes;
	url_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
	cookie_manager_.ObserveCookieChanges(kTestCookieUrl, nullptr,
	url_changes.NewRequest());

	fuchsia::web::CookiesIteratorPtr name_changes;
	name_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
	cookie_manager_.ObserveCookieChanges(kTestCookieUrl, kCookieName1,
	name_changes.NewRequest());

	// Register interest in updates for another URL, so we can verify none are
	// received.
	fuchsia::web::CookiesIteratorPtr other_changes;
	name_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
	cookie_manager_.ObserveCookieChanges(kTestOtherUrl, nullptr,
	other_changes.NewRequest());
	GetNextCookiesIteratorResult other_updates(other_changes.get());

	// Ensure that all ObserveCookieChanges() were processed before modifying
	// cookies.
	EXPECT_EQ(GetAllCookies()->size(), 0u);

	// Set cookie kCookieName1, which should trigger notifications to all
	// observers.
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());
	GetNextCookiesIteratorResult name_update(name_changes.get());

	CreateAndSetCookieAsync(kCookieName1, kCookieValue1);

	global_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
	url_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
	name_update.ExpectSingleCookie(kCookieName1, kCookieValue1);
	}

	// Expect an add notification for kCookieName2, except on the with-name
	// observer. If the with-name observer does get notified then the remove &
	// re-add check below will observe kCookieName2 rather than kCookieName1, and
	// fail.
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());

	CreateAndSetCookieAsync(kCookieName2, kCookieValue2);

	global_update.ExpectSingleCookie(kCookieName2, kCookieValue2);
	url_update.ExpectSingleCookie(kCookieName2, kCookieValue2);
	}

	// Set kCookieName1 to a new value, which will trigger deletion notifications,
	// followed by an addition with the new value.
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());
	GetNextCookiesIteratorResult name_update(name_changes.get());

	// Updating the cookie will generate a deletion, following by an insertion.
	// CookiesIterator will batch updates into a single response, so we may get
	// two separate updates, or a single update, depending on timing. Eliminate
	// the non-determinism by ensuring that the GetNext() calls have been
	// received before updating the cookie.
	base::RunLoop().RunUntilIdle();

	CreateAndSetCookieAsync(kCookieName1, kCookieValue3);

	global_update.ExpectDeleteSingleCookie(kCookieName1);
	url_update.ExpectDeleteSingleCookie(kCookieName1);
	name_update.ExpectDeleteSingleCookie(kCookieName1);
	}
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());
	GetNextCookiesIteratorResult name_update(name_changes.get());

	global_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
	url_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
	name_update.ExpectSingleCookie(kCookieName1, kCookieValue3);
	}

	// Set kCookieName2 empty, which will notify only the global and URL
	// observers. If the name observer is mis-notified then the next step, below,
	// will fail.
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());

	DeleteCookieAsync(kCookieName2, kCookieValue2);

	global_update.ExpectDeleteSingleCookie(kCookieName2);
	url_update.ExpectDeleteSingleCookie(kCookieName2);
	}

	// Set kCookieName1 empty, which will notify all the observers that it was
	// removed.
	{
	GetNextCookiesIteratorResult global_update(global_changes.get());
	GetNextCookiesIteratorResult url_update(url_changes.get());
	GetNextCookiesIteratorResult name_update(name_changes.get());

	DeleteCookieAsync(kCookieName1, kCookieValue3);

	global_update.ExpectDeleteSingleCookie(kCookieName1);
	url_update.ExpectDeleteSingleCookie(kCookieName1);
	name_update.ExpectDeleteSingleCookie(kCookieName1);
	}

	// Verify that no updates were received for the "other" URL (since we did not
	// set any cookies for it). It is possible that this could pass due to the
	// CookiesIterator not having been scheduled, but that is very unlikely.
	other_updates.ExpectReceivedNoUpdates();
	}

	TEST_F(CookieManagerImplTest, UpdateBatching) {
	fuchsia::web::CookiesIteratorPtr global_changes;
	global_changes.set_error_handler([](zx_status_t) { ADD_FAILURE(); });
	cookie_manager_.ObserveCookieChanges(nullptr, nullptr,
	global_changes.NewRequest());

	// Ensure that all ObserveCookieChanges() were processed before modifying
	// cookies.
	EXPECT_EQ(GetAllCookies()->size(), 0u);

	{
	// Verify that some insertions are batched into a single GetNext() result.
	CreateAndSetCookieAsync(kCookieName1, kCookieValue1);
	CreateAndSetCookieAsync(kCookieName2, kCookieValue2);
	CreateAndSetCookieAsync(kCookieName1, kCookieValue3);
	mojo_cookie_manager_.FlushForTesting();

	GetNextCookiesIteratorResult global_updates(global_changes.get());
	global_updates.ExpectCookieUpdates(
	{{kCookieName1, kCookieValue3}, {kCookieName2, kCookieValue2}});
	}

	{
	// Verify that some deletions are batched into a single GetNext() result.
	DeleteCookieAsync(kCookieName2, kCookieValue2);
	DeleteCookieAsync(kCookieName1, kCookieValue3);
	mojo_cookie_manager_.FlushForTesting();

	GetNextCookiesIteratorResult global_updates(global_changes.get());
	global_updates.ExpectCookieUpdates(
	{{kCookieName1, base::nullopt}, {kCookieName2, base::nullopt}});
	}
	}

	TEST_F(CookieManagerImplTest, ReconnectToNetworkContext) {
	// Attach a cookie observer, which we expect should become disconnected with
	// an appropriate error if the NetworkService goes away.
	base::RunLoop mojo_disconnect_loop;
	cookie_manager_.set_on_mojo_disconnected_for_test(
	mojo_disconnect_loop.QuitClosure());

	// Verify that GetAllCookies() returns a valid list of cookies (as opposed to
	// not returning a list at all) initially.
	EXPECT_TRUE(GetAllCookies().has_value());

	// Tear-down and re-create the NetworkService and \|network_context_\|, causing
	// the CookieManager's connection to it to be dropped.
	network_service_.reset();
	network_context_.reset();
	network_service_ = network::NetworkService::CreateForTesting();

	// Wait for the \|cookie_manager_\| to observe the NetworkContext disconnect,
	// so that GetAllCookies() can re-connect.
	mojo_disconnect_loop.Run();

	// If the CookieManager fails to re-connect then GetAllCookies() will receive
	// no data (as opposed to receiving an empty list of cookies).
	EXPECT_TRUE(GetAllCookies().has_value());
	}