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chromium / chromium / src / e92ccc00d7bbed2632e518d9d2b57edbff93d6d1 / . / google_apis / gcm / engine / gcm_store_impl_unittest.cc
blob: d6776f98451d5f44da949a8aecfb9d7a9b606d79 [file] [log] [blame]
// Copyright 2014 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 "google_apis/gcm/engine/gcm_store_impl.h"
#include <stdint.h>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "base/bind.h"
#include "base/command_line.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/memory/ptr_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/test/test_simple_task_runner.h"
#include "base/threading/thread_task_runner_handle.h"
#include "google_apis/gcm/base/fake_encryptor.h"
#include "google_apis/gcm/base/mcs_message.h"
#include "google_apis/gcm/base/mcs_util.h"
#include "google_apis/gcm/protocol/mcs.pb.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace gcm {
namespace {
// Number of persistent ids to use in tests.
const int kNumPersistentIds = 10;
// Number of per-app messages in tests.
const int kNumMessagesPerApp = 20;
// App name for testing.
const char kAppName[] = "my_app";
const char kAppName2[] = "my_app_2";
// Category name for testing.
const char kCategoryName[] = "my_category";
const uint64_t kDeviceId = 22;
const uint64_t kDeviceToken = 55;
class GCMStoreImplTest : public testing::Test {
public:
GCMStoreImplTest();
~GCMStoreImplTest() override;
std::unique_ptr<GCMStoreImpl> BuildGCMStore();
void LoadGCMStore(GCMStoreImpl* gcm_store,
std::unique_ptr<GCMStore::LoadResult>* result_dst);
std::string GetNextPersistentId();
void PumpLoop();
void LoadCallback(std::unique_ptr<GCMStore::LoadResult>* result_dst,
std::unique_ptr<GCMStore::LoadResult> result);
void LoadWithoutCheckCallback(
std::unique_ptr<GCMStore::LoadResult>* result_dst,
std::unique_ptr<GCMStore::LoadResult> result);
void UpdateCallback(bool success);
protected:
scoped_refptr<base::TestSimpleTaskRunner> task_runner_;
base::ThreadTaskRunnerHandle task_runner_handle_;
base::ScopedTempDir temp_directory_;
base::FilePath store_path_;
bool expected_success_;
uint64_t next_persistent_id_;
};
GCMStoreImplTest::GCMStoreImplTest()
: task_runner_(new base::TestSimpleTaskRunner()),
task_runner_handle_(task_runner_),
expected_success_(true),
next_persistent_id_(base::Time::Now().ToInternalValue()) {
EXPECT_TRUE(temp_directory_.CreateUniqueTempDir());
}
GCMStoreImplTest::~GCMStoreImplTest() {}
std::unique_ptr<GCMStoreImpl> GCMStoreImplTest::BuildGCMStore() {
// Pass an non-existent directory as store path to match the exact behavior in
// the production code. Currently GCMStoreImpl checks if the directory exists
// and contains a CURRENT file to determine the store existence.
store_path_ =
temp_directory_.GetPath().Append(FILE_PATH_LITERAL("GCM Store"));
return std::unique_ptr<GCMStoreImpl>(
new GCMStoreImpl(store_path_, task_runner_,
base::WrapUnique<Encryptor>(new FakeEncryptor)));
}
void GCMStoreImplTest::LoadGCMStore(
GCMStoreImpl* gcm_store,
std::unique_ptr<GCMStore::LoadResult>* result_dst) {
gcm_store->Load(
GCMStore::CREATE_IF_MISSING,
base::Bind(&GCMStoreImplTest::LoadCallback,
base::Unretained(this),
result_dst));
PumpLoop();
}
std::string GCMStoreImplTest::GetNextPersistentId() {
return base::NumberToString(next_persistent_id_++);
}
void GCMStoreImplTest::PumpLoop() { task_runner_->RunUntilIdle(); }
void GCMStoreImplTest::LoadCallback(
std::unique_ptr<GCMStore::LoadResult>* result_dst,
std::unique_ptr<GCMStore::LoadResult> result) {
ASSERT_TRUE(result->success);
LoadWithoutCheckCallback(result_dst, std::move(result));
}
void GCMStoreImplTest::LoadWithoutCheckCallback(
std::unique_ptr<GCMStore::LoadResult>* result_dst,
std::unique_ptr<GCMStore::LoadResult> result) {
*result_dst = std::move(result);
}
void GCMStoreImplTest::UpdateCallback(bool success) {
ASSERT_EQ(expected_success_, success);
}
// Verify creating a new database and loading it.
TEST_F(GCMStoreImplTest, LoadNew) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(0U, load_result->device_android_id);
EXPECT_EQ(0U, load_result->device_security_token);
EXPECT_TRUE(load_result->incoming_messages.empty());
EXPECT_TRUE(load_result->outgoing_messages.empty());
EXPECT_TRUE(load_result->gservices_settings.empty());
EXPECT_EQ(base::Time::FromInternalValue(0LL), load_result->last_checkin_time);
}
// Verify new database is not created when DO_NOT_CREATE is passed.
TEST_F(GCMStoreImplTest, LoadWithoutCreatingNewStore) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
gcm_store->Load(GCMStore::DO_NOT_CREATE,
base::Bind(&GCMStoreImplTest::LoadWithoutCheckCallback,
base::Unretained(this), &load_result));
PumpLoop();
EXPECT_FALSE(load_result->success);
EXPECT_TRUE(load_result->store_does_not_exist);
}
// Verifies that loads with DO_NOT_CREATE set store_does_not_exist to true when
// an empty directory was left behind after destroying the database.
TEST_F(GCMStoreImplTest, LoadWithEmptyDirectory) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
// Create an empty directory at the store path, to simulate an empty directory
// being left behind after destroying a previous store.
ASSERT_TRUE(base::CreateDirectory(store_path_));
std::unique_ptr<GCMStore::LoadResult> load_result;
gcm_store->Load(GCMStore::DO_NOT_CREATE,
base::Bind(&GCMStoreImplTest::LoadWithoutCheckCallback,
base::Unretained(this), &load_result));
PumpLoop();
EXPECT_FALSE(load_result->success);
EXPECT_TRUE(load_result->store_does_not_exist);
}
TEST_F(GCMStoreImplTest, DeviceCredentials) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
gcm_store->SetDeviceCredentials(
kDeviceId,
kDeviceToken,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(kDeviceId, load_result->device_android_id);
ASSERT_EQ(kDeviceToken, load_result->device_security_token);
}
TEST_F(GCMStoreImplTest, LastCheckinInfo) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
base::Time last_checkin_time = base::Time::Now();
std::set<std::string> accounts;
accounts.insert("test_user1@gmail.com");
accounts.insert("test_user2@gmail.com");
gcm_store->SetLastCheckinInfo(
last_checkin_time,
accounts,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(last_checkin_time, load_result->last_checkin_time);
ASSERT_EQ(accounts, load_result->last_checkin_accounts);
// Negative cases, where the value read is gibberish.
gcm_store->SetValueForTesting(
"last_checkin_time",
"gibberish",
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(base::Time(), load_result->last_checkin_time);
}
TEST_F(GCMStoreImplTest, GServicesSettings_ProtocolV2) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::map<std::string, std::string> settings;
settings["checkin_interval"] = "12345";
settings["mcs_port"] = "438";
settings["checkin_url"] = "http://checkin.google.com";
std::string digest = "digest1";
gcm_store->SetGServicesSettings(
settings,
digest,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(settings, load_result->gservices_settings);
ASSERT_EQ(digest, load_result->gservices_digest);
// Remove some, and add some.
settings.clear();
settings["checkin_interval"] = "54321";
settings["registration_url"] = "http://registration.google.com";
digest = "digest2";
gcm_store->SetGServicesSettings(
settings,
digest,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(settings, load_result->gservices_settings);
ASSERT_EQ(digest, load_result->gservices_digest);
}
TEST_F(GCMStoreImplTest, Registrations) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
// Add one registration with one sender.
std::string registration = "sender1=registration1";
gcm_store->AddRegistration(
kAppName,
registration,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
// Add one registration with multiple senders.
std::string registration2 = "sender1,sender2=registration2";
gcm_store->AddRegistration(
kAppName2,
registration2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(2u, load_result->registrations.size());
ASSERT_TRUE(load_result->registrations.find(kAppName) !=
load_result->registrations.end());
EXPECT_EQ(registration, load_result->registrations[kAppName]);
ASSERT_TRUE(load_result->registrations.find(kAppName2) !=
load_result->registrations.end());
EXPECT_EQ(registration2, load_result->registrations[kAppName2]);
gcm_store->RemoveRegistration(
kAppName2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(1u, load_result->registrations.size());
ASSERT_TRUE(load_result->registrations.find(kAppName) !=
load_result->registrations.end());
EXPECT_EQ(registration, load_result->registrations[kAppName]);
}
// Verify saving some incoming messages, reopening the directory, and then
// removing those incoming messages.
TEST_F(GCMStoreImplTest, IncomingMessages) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::vector<std::string> persistent_ids;
for (int i = 0; i < kNumPersistentIds; ++i) {
persistent_ids.push_back(GetNextPersistentId());
gcm_store->AddIncomingMessage(
persistent_ids.back(),
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
}
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(persistent_ids, load_result->incoming_messages);
ASSERT_TRUE(load_result->outgoing_messages.empty());
gcm_store->RemoveIncomingMessages(
persistent_ids,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
load_result->incoming_messages.clear();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_TRUE(load_result->incoming_messages.empty());
ASSERT_TRUE(load_result->outgoing_messages.empty());
}
// Verify saving some outgoing messages, reopening the directory, and then
// removing those outgoing messages.
TEST_F(GCMStoreImplTest, OutgoingMessages) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::vector<std::string> persistent_ids;
const int kNumPersistentIds = 10;
for (int i = 0; i < kNumPersistentIds; ++i) {
persistent_ids.push_back(GetNextPersistentId());
mcs_proto::DataMessageStanza message;
message.set_from(kAppName + persistent_ids.back());
message.set_category(kCategoryName + persistent_ids.back());
gcm_store->AddOutgoingMessage(
persistent_ids.back(),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
}
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_TRUE(load_result->incoming_messages.empty());
ASSERT_EQ(load_result->outgoing_messages.size(), persistent_ids.size());
for (int i = 0; i < kNumPersistentIds; ++i) {
std::string id = persistent_ids[i];
ASSERT_TRUE(load_result->outgoing_messages[id].get());
const mcs_proto::DataMessageStanza* message =
reinterpret_cast<mcs_proto::DataMessageStanza*>(
load_result->outgoing_messages[id].get());
ASSERT_EQ(message->from(), kAppName + id);
ASSERT_EQ(message->category(), kCategoryName + id);
}
gcm_store->RemoveOutgoingMessages(
persistent_ids,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
load_result->outgoing_messages.clear();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_TRUE(load_result->incoming_messages.empty());
ASSERT_TRUE(load_result->outgoing_messages.empty());
}
// Verify incoming and outgoing messages don't conflict.
TEST_F(GCMStoreImplTest, IncomingAndOutgoingMessages) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::vector<std::string> persistent_ids;
const int kNumPersistentIds = 10;
for (int i = 0; i < kNumPersistentIds; ++i) {
persistent_ids.push_back(GetNextPersistentId());
gcm_store->AddIncomingMessage(
persistent_ids.back(),
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
mcs_proto::DataMessageStanza message;
message.set_from(kAppName + persistent_ids.back());
message.set_category(kCategoryName + persistent_ids.back());
gcm_store->AddOutgoingMessage(
persistent_ids.back(),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
}
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(persistent_ids, load_result->incoming_messages);
ASSERT_EQ(load_result->outgoing_messages.size(), persistent_ids.size());
for (int i = 0; i < kNumPersistentIds; ++i) {
std::string id = persistent_ids[i];
ASSERT_TRUE(load_result->outgoing_messages[id].get());
const mcs_proto::DataMessageStanza* message =
reinterpret_cast<mcs_proto::DataMessageStanza*>(
load_result->outgoing_messages[id].get());
ASSERT_EQ(message->from(), kAppName + id);
ASSERT_EQ(message->category(), kCategoryName + id);
}
gcm_store->RemoveIncomingMessages(
persistent_ids,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store->RemoveOutgoingMessages(
persistent_ids,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
load_result->incoming_messages.clear();
load_result->outgoing_messages.clear();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_TRUE(load_result->incoming_messages.empty());
ASSERT_TRUE(load_result->outgoing_messages.empty());
}
// Test that per-app message limits are enforced, persisted across restarts,
// and updated as messages are removed.
TEST_F(GCMStoreImplTest, PerAppMessageLimits) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
// Add the initial (below app limit) messages.
for (int i = 0; i < kNumMessagesPerApp; ++i) {
mcs_proto::DataMessageStanza message;
message.set_from(kAppName);
message.set_category(kCategoryName);
EXPECT_TRUE(gcm_store->AddOutgoingMessage(
base::IntToString(i),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this))));
PumpLoop();
}
// Attempting to add some more should fail.
for (int i = 0; i < kNumMessagesPerApp; ++i) {
mcs_proto::DataMessageStanza message;
message.set_from(kAppName);
message.set_category(kCategoryName);
EXPECT_FALSE(gcm_store->AddOutgoingMessage(
base::IntToString(i + kNumMessagesPerApp),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this))));
PumpLoop();
}
// Tear down and restore the database.
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
// Adding more messages should still fail.
for (int i = 0; i < kNumMessagesPerApp; ++i) {
mcs_proto::DataMessageStanza message;
message.set_from(kAppName);
message.set_category(kCategoryName);
EXPECT_FALSE(gcm_store->AddOutgoingMessage(
base::IntToString(i + kNumMessagesPerApp),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this))));
PumpLoop();
}
// Remove the existing messages.
for (int i = 0; i < kNumMessagesPerApp; ++i) {
gcm_store->RemoveOutgoingMessage(
base::IntToString(i),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this)));
PumpLoop();
}
// Successfully add new messages.
for (int i = 0; i < kNumMessagesPerApp; ++i) {
mcs_proto::DataMessageStanza message;
message.set_from(kAppName);
message.set_category(kCategoryName);
EXPECT_TRUE(gcm_store->AddOutgoingMessage(
base::IntToString(i + kNumMessagesPerApp),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this))));
PumpLoop();
}
}
TEST_F(GCMStoreImplTest, AccountMapping) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
// Add account mappings.
AccountMapping account_mapping1;
account_mapping1.account_id = "account_id_1";
account_mapping1.email = "account_id_1@gmail.com";
account_mapping1.access_token = "account_token1";
account_mapping1.status = AccountMapping::ADDING;
account_mapping1.status_change_timestamp = base::Time();
account_mapping1.last_message_id = "message_1";
AccountMapping account_mapping2;
account_mapping2.account_id = "account_id_2";
account_mapping2.email = "account_id_2@gmail.com";
account_mapping2.access_token = "account_token1";
account_mapping2.status = AccountMapping::REMOVING;
account_mapping2.status_change_timestamp =
base::Time::FromInternalValue(1305734521259935LL);
account_mapping2.last_message_id = "message_2";
gcm_store->AddAccountMapping(
account_mapping1,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store->AddAccountMapping(
account_mapping2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(2UL, load_result->account_mappings.size());
GCMStore::AccountMappings::iterator iter =
load_result->account_mappings.begin();
EXPECT_EQ(account_mapping1.account_id, iter->account_id);
EXPECT_EQ(account_mapping1.email, iter->email);
EXPECT_TRUE(iter->access_token.empty());
EXPECT_EQ(AccountMapping::ADDING, iter->status);
EXPECT_EQ(account_mapping1.status_change_timestamp,
iter->status_change_timestamp);
EXPECT_EQ(account_mapping1.last_message_id, iter->last_message_id);
++iter;
EXPECT_EQ(account_mapping2.account_id, iter->account_id);
EXPECT_EQ(account_mapping2.email, iter->email);
EXPECT_TRUE(iter->access_token.empty());
EXPECT_EQ(AccountMapping::REMOVING, iter->status);
EXPECT_EQ(account_mapping2.status_change_timestamp,
iter->status_change_timestamp);
EXPECT_EQ(account_mapping2.last_message_id, iter->last_message_id);
gcm_store->RemoveAccountMapping(
account_mapping1.account_id,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(1UL, load_result->account_mappings.size());
iter = load_result->account_mappings.begin();
EXPECT_EQ(account_mapping2.account_id, iter->account_id);
EXPECT_EQ(account_mapping2.email, iter->email);
EXPECT_TRUE(iter->access_token.empty());
EXPECT_EQ(AccountMapping::REMOVING, iter->status);
EXPECT_EQ(account_mapping2.status_change_timestamp,
iter->status_change_timestamp);
EXPECT_EQ(account_mapping2.last_message_id, iter->last_message_id);
}
TEST_F(GCMStoreImplTest, HeartbeatInterval) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::string scope1 = "scope1";
std::string scope2 = "scope2";
int heartbeat1 = 120 * 1000;
int heartbeat2 = 360 * 1000;
gcm_store->AddHeartbeatInterval(
scope1,
heartbeat1,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store->AddHeartbeatInterval(
scope2,
heartbeat2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(2UL, load_result->heartbeat_intervals.size());
ASSERT_TRUE(load_result->heartbeat_intervals.find(scope1) !=
load_result->heartbeat_intervals.end());
EXPECT_EQ(heartbeat1, load_result->heartbeat_intervals[scope1]);
ASSERT_TRUE(load_result->heartbeat_intervals.find(scope2) !=
load_result->heartbeat_intervals.end());
EXPECT_EQ(heartbeat2, load_result->heartbeat_intervals[scope2]);
gcm_store->RemoveHeartbeatInterval(
scope2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(1UL, load_result->heartbeat_intervals.size());
ASSERT_TRUE(load_result->heartbeat_intervals.find(scope1) !=
load_result->heartbeat_intervals.end());
EXPECT_EQ(heartbeat1, load_result->heartbeat_intervals[scope1]);
}
// When the database is destroyed, all database updates should fail. At the
// same time, they per-app message counts should not go up, as failures should
// result in decrementing the counts.
TEST_F(GCMStoreImplTest, AddMessageAfterDestroy) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
gcm_store->Destroy(base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this)));
PumpLoop();
expected_success_ = false;
for (int i = 0; i < kNumMessagesPerApp * 2; ++i) {
mcs_proto::DataMessageStanza message;
message.set_from(kAppName);
message.set_category(kCategoryName);
// Because all adds are failing, none should hit the per-app message limits.
EXPECT_TRUE(gcm_store->AddOutgoingMessage(
base::IntToString(i),
MCSMessage(message),
base::Bind(&GCMStoreImplTest::UpdateCallback,
base::Unretained(this))));
PumpLoop();
}
}
TEST_F(GCMStoreImplTest, ReloadAfterClose) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
gcm_store->Close();
PumpLoop();
LoadGCMStore(gcm_store.get(), &load_result);
}
TEST_F(GCMStoreImplTest, LastTokenFetchTime) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(base::Time(), load_result->last_token_fetch_time);
base::Time last_token_fetch_time = base::Time::Now();
gcm_store->SetLastTokenFetchTime(
last_token_fetch_time,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(last_token_fetch_time, load_result->last_token_fetch_time);
// Negative cases, where the value read is gibberish.
gcm_store->SetValueForTesting(
"last_token_fetch_time",
"gibberish",
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
EXPECT_EQ(base::Time(), load_result->last_token_fetch_time);
}
TEST_F(GCMStoreImplTest, InstanceIDData) {
std::unique_ptr<GCMStoreImpl> gcm_store(BuildGCMStore());
std::unique_ptr<GCMStore::LoadResult> load_result;
LoadGCMStore(gcm_store.get(), &load_result);
std::string instance_id_data("Foo");
gcm_store->AddInstanceIDData(
kAppName,
instance_id_data,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
std::string instance_id_data2("Hello Instance ID");
gcm_store->AddInstanceIDData(
kAppName2,
instance_id_data2,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(2u, load_result->instance_id_data.size());
ASSERT_TRUE(load_result->instance_id_data.find(kAppName) !=
load_result->instance_id_data.end());
ASSERT_TRUE(load_result->instance_id_data.find(kAppName2) !=
load_result->instance_id_data.end());
EXPECT_EQ(instance_id_data, load_result->instance_id_data[kAppName]);
EXPECT_EQ(instance_id_data2, load_result->instance_id_data[kAppName2]);
gcm_store->RemoveInstanceIDData(
kAppName,
base::Bind(&GCMStoreImplTest::UpdateCallback, base::Unretained(this)));
PumpLoop();
gcm_store = BuildGCMStore();
LoadGCMStore(gcm_store.get(), &load_result);
ASSERT_EQ(1u, load_result->instance_id_data.size());
ASSERT_TRUE(load_result->instance_id_data.find(kAppName2) !=
load_result->instance_id_data.end());
EXPECT_EQ(instance_id_data2, load_result->instance_id_data[kAppName2]);
}
} // namespace
} // namespace gcm