Use component installer mechanism instead of extensions for supervised user whitelists.
[chromium-blink-merge.git] / components / invalidation / push_client_channel_unittest.cc
blob3e2104da67624f834cfbe112327ab4f211d1a9e2
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <string>
7 #include "base/compiler_specific.h"
8 #include "components/invalidation/push_client_channel.h"
9 #include "jingle/notifier/listener/fake_push_client.h"
10 #include "jingle/notifier/listener/notification_defines.h"
11 #include "testing/gtest/include/gtest/gtest.h"
13 namespace syncer {
14 namespace {
16 class PushClientChannelTest
17 : public ::testing::Test,
18 public SyncNetworkChannel::Observer {
19 protected:
20 PushClientChannelTest()
21 : fake_push_client_(new notifier::FakePushClient()),
22 push_client_channel_(
23 scoped_ptr<notifier::PushClient>(fake_push_client_)),
24 last_invalidator_state_(DEFAULT_INVALIDATION_ERROR) {
25 push_client_channel_.AddObserver(this);
26 push_client_channel_.SetMessageReceiver(
27 invalidation::NewPermanentCallback(
28 this, &PushClientChannelTest::OnIncomingMessage));
29 push_client_channel_.SetSystemResources(NULL);
32 ~PushClientChannelTest() override {
33 push_client_channel_.RemoveObserver(this);
36 void OnNetworkChannelStateChanged(
37 InvalidatorState invalidator_state) override {
38 last_invalidator_state_ = invalidator_state;
41 void OnIncomingMessage(std::string incoming_message) {
42 last_message_ = incoming_message;
45 notifier::FakePushClient* fake_push_client_;
46 PushClientChannel push_client_channel_;
47 std::string last_message_;
48 InvalidatorState last_invalidator_state_;
51 const char kMessage[] = "message";
52 const char kServiceContext[] = "service context";
53 const int64 kSchedulingHash = 100;
55 // Make sure the channel subscribes to the correct notifications
56 // channel on construction.
57 TEST_F(PushClientChannelTest, Subscriptions) {
58 notifier::Subscription expected_subscription;
59 expected_subscription.channel = "tango_raw";
60 EXPECT_TRUE(notifier::SubscriptionListsEqual(
61 fake_push_client_->subscriptions(),
62 notifier::SubscriptionList(1, expected_subscription)));
65 // Call UpdateCredentials on the channel. It should propagate it to
66 // the push client.
67 TEST_F(PushClientChannelTest, UpdateCredentials) {
68 const char kEmail[] = "foo@bar.com";
69 const char kToken[] = "token";
70 EXPECT_TRUE(fake_push_client_->email().empty());
71 EXPECT_TRUE(fake_push_client_->token().empty());
72 push_client_channel_.UpdateCredentials(kEmail, kToken);
73 EXPECT_EQ(kEmail, fake_push_client_->email());
74 EXPECT_EQ(kToken, fake_push_client_->token());
77 // Simulate push client state changes on the push client. It should
78 // propagate to the channel.
79 TEST_F(PushClientChannelTest, OnPushClientStateChange) {
80 EXPECT_EQ(DEFAULT_INVALIDATION_ERROR, last_invalidator_state_);
81 fake_push_client_->EnableNotifications();
82 EXPECT_EQ(INVALIDATIONS_ENABLED, last_invalidator_state_);
83 fake_push_client_->DisableNotifications(
84 notifier::TRANSIENT_NOTIFICATION_ERROR);
85 EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, last_invalidator_state_);
86 fake_push_client_->DisableNotifications(
87 notifier::NOTIFICATION_CREDENTIALS_REJECTED);
88 EXPECT_EQ(INVALIDATION_CREDENTIALS_REJECTED, last_invalidator_state_);
91 // Call SendMessage on the channel. It should propagate it to the
92 // push client.
93 TEST_F(PushClientChannelTest, SendMessage) {
94 EXPECT_TRUE(fake_push_client_->sent_notifications().empty());
95 push_client_channel_.SendMessage(kMessage);
96 ASSERT_EQ(1u, fake_push_client_->sent_notifications().size());
97 std::string expected_encoded_message =
98 PushClientChannel::EncodeMessageForTest(
99 kMessage,
100 push_client_channel_.GetServiceContextForTest(),
101 push_client_channel_.GetSchedulingHashForTest());
102 ASSERT_EQ(expected_encoded_message,
103 fake_push_client_->sent_notifications()[0].data);
106 // Encode a message with some context and then decode it. The decoded info
107 // should match the original info.
108 TEST_F(PushClientChannelTest, EncodeDecode) {
109 const std::string& data = PushClientChannel::EncodeMessageForTest(
110 kMessage, kServiceContext, kSchedulingHash);
111 std::string message;
112 std::string service_context;
113 int64 scheduling_hash = 0LL;
114 EXPECT_TRUE(PushClientChannel::DecodeMessageForTest(
115 data, &message, &service_context, &scheduling_hash));
116 EXPECT_EQ(kMessage, message);
117 EXPECT_EQ(kServiceContext, service_context);
118 EXPECT_EQ(kSchedulingHash, scheduling_hash);
121 // Encode a message with no context and then decode it. The decoded message
122 // should match the original message, but the context and hash should be
123 // untouched.
124 TEST_F(PushClientChannelTest, EncodeDecodeNoContext) {
125 const std::string& data = PushClientChannel::EncodeMessageForTest(
126 kMessage, std::string(), kSchedulingHash);
127 std::string message;
128 std::string service_context = kServiceContext;
129 int64 scheduling_hash = kSchedulingHash + 1;
130 EXPECT_TRUE(PushClientChannel::DecodeMessageForTest(
131 data, &message, &service_context, &scheduling_hash));
132 EXPECT_EQ(kMessage, message);
133 EXPECT_EQ(kServiceContext, service_context);
134 EXPECT_EQ(kSchedulingHash + 1, scheduling_hash);
137 // Decode an empty notification. It should result in an empty message
138 // but should leave the context and hash untouched.
139 TEST_F(PushClientChannelTest, DecodeEmpty) {
140 std::string message = kMessage;
141 std::string service_context = kServiceContext;
142 int64 scheduling_hash = kSchedulingHash;
143 EXPECT_TRUE(PushClientChannel::DecodeMessageForTest(
144 std::string(), &message, &service_context, &scheduling_hash));
145 EXPECT_TRUE(message.empty());
146 EXPECT_EQ(kServiceContext, service_context);
147 EXPECT_EQ(kSchedulingHash, scheduling_hash);
150 // Try to decode a garbage notification. It should leave all its
151 // arguments untouched and return false.
152 TEST_F(PushClientChannelTest, DecodeGarbage) {
153 std::string data = "garbage";
154 std::string message = kMessage;
155 std::string service_context = kServiceContext;
156 int64 scheduling_hash = kSchedulingHash;
157 EXPECT_FALSE(PushClientChannel::DecodeMessageForTest(
158 data, &message, &service_context, &scheduling_hash));
159 EXPECT_EQ(kMessage, message);
160 EXPECT_EQ(kServiceContext, service_context);
161 EXPECT_EQ(kSchedulingHash, scheduling_hash);
164 // Simulate an incoming notification. It should be decoded properly
165 // by the channel.
166 TEST_F(PushClientChannelTest, OnIncomingMessage) {
167 notifier::Notification notification;
168 notification.data =
169 PushClientChannel::EncodeMessageForTest(
170 kMessage, kServiceContext, kSchedulingHash);
171 fake_push_client_->SimulateIncomingNotification(notification);
173 EXPECT_EQ(kServiceContext,
174 push_client_channel_.GetServiceContextForTest());
175 EXPECT_EQ(kSchedulingHash,
176 push_client_channel_.GetSchedulingHashForTest());
177 EXPECT_EQ(kMessage, last_message_);
180 // Simulate an incoming notification with no receiver. It should be dropped by
181 // the channel.
182 TEST_F(PushClientChannelTest, OnIncomingMessageNoReceiver) {
183 push_client_channel_.SetMessageReceiver(NULL);
185 notifier::Notification notification;
186 notification.data = PushClientChannel::EncodeMessageForTest(
187 kMessage, kServiceContext, kSchedulingHash);
188 fake_push_client_->SimulateIncomingNotification(notification);
190 EXPECT_TRUE(push_client_channel_.GetServiceContextForTest().empty());
191 EXPECT_EQ(static_cast<int64>(0),
192 push_client_channel_.GetSchedulingHashForTest());
193 EXPECT_TRUE(last_message_.empty());
196 // Simulate an incoming garbage notification. It should be dropped by
197 // the channel.
198 TEST_F(PushClientChannelTest, OnIncomingMessageGarbage) {
199 notifier::Notification notification;
200 notification.data = "garbage";
201 fake_push_client_->SimulateIncomingNotification(notification);
202 EXPECT_TRUE(push_client_channel_.GetServiceContextForTest().empty());
203 EXPECT_EQ(static_cast<int64>(0),
204 push_client_channel_.GetSchedulingHashForTest());
205 EXPECT_TRUE(last_message_.empty());
208 // Send a message, simulate an incoming message with context, and then
209 // send the same message again. The first sent message should not
210 // have any context, but the second sent message should have the
211 // context from the incoming emssage.
212 TEST_F(PushClientChannelTest, PersistedMessageState) {
213 push_client_channel_.SendMessage(kMessage);
214 ASSERT_EQ(1u, fake_push_client_->sent_notifications().size());
216 std::string message;
217 std::string service_context;
218 int64 scheduling_hash = 0LL;
219 EXPECT_TRUE(PushClientChannel::DecodeMessageForTest(
220 fake_push_client_->sent_notifications()[0].data,
221 &message,
222 &service_context,
223 &scheduling_hash));
224 EXPECT_EQ(kMessage, message);
225 EXPECT_TRUE(service_context.empty());
226 EXPECT_EQ(0LL, scheduling_hash);
229 notifier::Notification notification;
230 notification.data = PushClientChannel::EncodeMessageForTest(
231 kMessage, kServiceContext, kSchedulingHash);
232 fake_push_client_->SimulateIncomingNotification(notification);
234 push_client_channel_.SendMessage(kMessage);
235 ASSERT_EQ(2u, fake_push_client_->sent_notifications().size());
237 std::string message;
238 std::string service_context;
239 int64 scheduling_hash = 0LL;
240 EXPECT_TRUE(PushClientChannel::DecodeMessageForTest(
241 fake_push_client_->sent_notifications()[1].data,
242 &message,
243 &service_context,
244 &scheduling_hash));
245 EXPECT_EQ(kMessage, message);
246 EXPECT_EQ(kServiceContext, service_context);
247 EXPECT_EQ(kSchedulingHash, scheduling_hash);
251 } // namespace
252 } // namespace syncer