blob: a3e6564d0207a7e4739a8f4325d161aee758db31 [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 "components/gcm_driver/gcm_client_impl.h"
#include <stddef.h>
#include <memory>
#include <utility>
#include "base/bind.h"
#include "base/files/file_path.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/memory/ptr_util.h"
#include "base/metrics/histogram_macros.h"
#include "base/sequenced_task_runner.h"
#include "base/single_thread_task_runner.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_clock.h"
#include "base/timer/timer.h"
#include "components/crx_file/id_util.h"
#include "components/gcm_driver/crypto/gcm_decryption_result.h"
#include "components/gcm_driver/features.h"
#include "components/gcm_driver/gcm_account_mapper.h"
#include "components/gcm_driver/gcm_backoff_policy.h"
#include "google_apis/gcm/base/encryptor.h"
#include "google_apis/gcm/base/mcs_message.h"
#include "google_apis/gcm/base/mcs_util.h"
#include "google_apis/gcm/engine/checkin_request.h"
#include "google_apis/gcm/engine/connection_factory_impl.h"
#include "google_apis/gcm/engine/gcm_registration_request_handler.h"
#include "google_apis/gcm/engine/gcm_store_impl.h"
#include "google_apis/gcm/engine/gcm_unregistration_request_handler.h"
#include "google_apis/gcm/engine/instance_id_delete_token_request_handler.h"
#include "google_apis/gcm/engine/instance_id_get_token_request_handler.h"
#include "google_apis/gcm/monitoring/gcm_stats_recorder.h"
#include "google_apis/gcm/protocol/checkin.pb.h"
#include "google_apis/gcm/protocol/mcs.pb.h"
#include "services/network/public/cpp/shared_url_loader_factory.h"
#include "url/gurl.h"
namespace gcm {
// It is okay to append to the enum if these states grow. DO NOT reorder,
// renumber or otherwise reuse existing values.
// Do not assign an explicit value to REGISTRATION_CACHE_STATUS_COUNT, as
// this lets the compiler keep it up to date.
enum class RegistrationCacheStatus {
REGISTRATION_NOT_FOUND = 0,
REGISTRATION_FOUND_AND_FRESH = 1,
REGISTRATION_FOUND_BUT_STALE = 2,
REGISTRATION_FOUND_BUT_SENDERS_DONT_MATCH = 3,
// NOTE: always keep this entry at the end. Add new value only immediately
// above this line. Make sure to update the corresponding histogram enum
// accordingly.
REGISTRATION_CACHE_STATUS_COUNT
};
namespace {
// Indicates a message type of the received message.
enum MessageType {
UNKNOWN, // Undetermined type.
DATA_MESSAGE, // Regular data message.
DELETED_MESSAGES, // Messages were deleted on the server.
SEND_ERROR, // Error sending a message.
};
enum OutgoingMessageTTLCategory {
TTL_ZERO,
TTL_LESS_THAN_OR_EQUAL_TO_ONE_MINUTE,
TTL_LESS_THAN_OR_EQUAL_TO_ONE_HOUR,
TTL_LESS_THAN_OR_EQUAL_TO_ONE_DAY,
TTL_LESS_THAN_OR_EQUAL_TO_ONE_WEEK,
TTL_MORE_THAN_ONE_WEEK,
TTL_MAXIMUM,
// NOTE: always keep this entry at the end. Add new TTL category only
// immediately above this line. Make sure to update the corresponding
// histogram enum accordingly.
TTL_CATEGORY_COUNT
};
enum ResetStoreError {
DESTROYING_STORE_FAILED,
INFINITE_STORE_RESET,
// NOTE: always keep this entry at the end. Add new value only immediately
// above this line. Make sure to update the corresponding histogram enum
// accordingly.
RESET_STORE_ERROR_COUNT
};
const int kMaxRegistrationRetries = 5;
const int kMaxUnregistrationRetries = 5;
const char kDeletedCountKey[] = "total_deleted";
const char kMessageTypeDataMessage[] = "gcm";
const char kMessageTypeDeletedMessagesKey[] = "deleted_messages";
const char kMessageTypeKey[] = "message_type";
const char kMessageTypeSendErrorKey[] = "send_error";
const char kSendErrorMessageIdKey[] = "google.message_id";
const char kSubtypeKey[] = "subtype";
const char kSendMessageFromValue[] = "gcm@chrome.com";
const int64_t kDefaultUserSerialNumber = 0LL;
const int kDestroyGCMStoreDelayMS = 5 * 60 * 1000; // 5 minutes.
GCMClient::Result ToGCMClientResult(MCSClient::MessageSendStatus status) {
switch (status) {
case MCSClient::QUEUED:
return GCMClient::SUCCESS;
case MCSClient::MESSAGE_TOO_LARGE:
return GCMClient::INVALID_PARAMETER;
case MCSClient::QUEUE_SIZE_LIMIT_REACHED:
case MCSClient::APP_QUEUE_SIZE_LIMIT_REACHED:
case MCSClient::NO_CONNECTION_ON_ZERO_TTL:
case MCSClient::TTL_EXCEEDED:
return GCMClient::NETWORK_ERROR;
case MCSClient::SENT:
case MCSClient::SEND_STATUS_COUNT:
NOTREACHED();
break;
}
return GCMClientImpl::UNKNOWN_ERROR;
}
void ToCheckinProtoVersion(
const GCMClient::ChromeBuildInfo& chrome_build_info,
checkin_proto::ChromeBuildProto* android_build_info) {
checkin_proto::ChromeBuildProto_Platform platform =
checkin_proto::ChromeBuildProto_Platform_PLATFORM_LINUX;
switch (chrome_build_info.platform) {
case GCMClient::PLATFORM_WIN:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_WIN;
break;
case GCMClient::PLATFORM_MAC:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_MAC;
break;
case GCMClient::PLATFORM_LINUX:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_LINUX;
break;
case GCMClient::PLATFORM_IOS:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_IOS;
break;
case GCMClient::PLATFORM_ANDROID:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_ANDROID;
break;
case GCMClient::PLATFORM_CROS:
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_CROS;
break;
case GCMClient::PLATFORM_UNSPECIFIED:
// For unknown platform, return as LINUX.
platform = checkin_proto::ChromeBuildProto_Platform_PLATFORM_LINUX;
break;
}
android_build_info->set_platform(platform);
checkin_proto::ChromeBuildProto_Channel channel =
checkin_proto::ChromeBuildProto_Channel_CHANNEL_UNKNOWN;
switch (chrome_build_info.channel) {
case GCMClient::CHANNEL_STABLE:
channel = checkin_proto::ChromeBuildProto_Channel_CHANNEL_STABLE;
break;
case GCMClient::CHANNEL_BETA:
channel = checkin_proto::ChromeBuildProto_Channel_CHANNEL_BETA;
break;
case GCMClient::CHANNEL_DEV:
channel = checkin_proto::ChromeBuildProto_Channel_CHANNEL_DEV;
break;
case GCMClient::CHANNEL_CANARY:
channel = checkin_proto::ChromeBuildProto_Channel_CHANNEL_CANARY;
break;
case GCMClient::CHANNEL_UNKNOWN:
channel = checkin_proto::ChromeBuildProto_Channel_CHANNEL_UNKNOWN;
break;
}
android_build_info->set_channel(channel);
android_build_info->set_chrome_version(chrome_build_info.version);
}
MessageType DecodeMessageType(const std::string& value) {
if (kMessageTypeDeletedMessagesKey == value)
return DELETED_MESSAGES;
if (kMessageTypeSendErrorKey == value)
return SEND_ERROR;
if (kMessageTypeDataMessage == value)
return DATA_MESSAGE;
return UNKNOWN;
}
int ConstructGCMVersion(const std::string& chrome_version) {
// Major Chrome version is passed as GCM version.
size_t pos = chrome_version.find('.');
if (pos == std::string::npos) {
NOTREACHED();
return 0;
}
int gcm_version = 0;
base::StringToInt(
base::StringPiece(chrome_version.c_str(), pos), &gcm_version);
return gcm_version;
}
std::string SerializeInstanceIDData(const std::string& instance_id,
const std::string& extra_data) {
DCHECK(!instance_id.empty() && !extra_data.empty());
DCHECK(instance_id.find(',') == std::string::npos);
return instance_id + "," + extra_data;
}
bool DeserializeInstanceIDData(const std::string& serialized_data,
std::string* instance_id,
std::string* extra_data) {
DCHECK(instance_id && extra_data);
std::size_t pos = serialized_data.find(',');
if (pos == std::string::npos)
return false;
*instance_id = serialized_data.substr(0, pos);
*extra_data = serialized_data.substr(pos + 1);
return !instance_id->empty() && !extra_data->empty();
}
bool InstanceIDUsesSubtypeForAppId(const std::string& app_id) {
// Always use subtypes with Instance ID, except for Chrome Apps/Extensions.
return !crx_file::id_util::IdIsValid(app_id);
}
void RecordOutgoingMessageToUMA(const gcm::OutgoingMessage& message) {
OutgoingMessageTTLCategory ttl_category;
if (message.time_to_live == 0)
ttl_category = TTL_ZERO;
else if (message.time_to_live <= 60 )
ttl_category = TTL_LESS_THAN_OR_EQUAL_TO_ONE_MINUTE;
else if (message.time_to_live <= 60 * 60)
ttl_category = TTL_LESS_THAN_OR_EQUAL_TO_ONE_HOUR;
else if (message.time_to_live <= 24 * 60 * 60)
ttl_category = TTL_LESS_THAN_OR_EQUAL_TO_ONE_DAY;
else
ttl_category = TTL_MAXIMUM;
UMA_HISTOGRAM_ENUMERATION("GCM.OutgoingMessageTTL",
ttl_category,
TTL_CATEGORY_COUNT);
}
void RecordResetStoreErrorToUMA(ResetStoreError error) {
UMA_HISTOGRAM_ENUMERATION("GCM.ResetStore", error, RESET_STORE_ERROR_COUNT);
}
} // namespace
void RecordRegistrationRequestToUMA(gcm::RegistrationCacheStatus status) {
UMA_HISTOGRAM_ENUMERATION(
"GCM.RegistrationCacheStatus", status,
RegistrationCacheStatus::REGISTRATION_CACHE_STATUS_COUNT);
}
GCMInternalsBuilder::GCMInternalsBuilder() {}
GCMInternalsBuilder::~GCMInternalsBuilder() {}
base::Clock* GCMInternalsBuilder::GetClock() {
return base::DefaultClock::GetInstance();
}
std::unique_ptr<MCSClient> GCMInternalsBuilder::BuildMCSClient(
const std::string& version,
base::Clock* clock,
ConnectionFactory* connection_factory,
GCMStore* gcm_store,
GCMStatsRecorder* recorder) {
return std::unique_ptr<MCSClient>(
new MCSClient(version, clock, connection_factory, gcm_store, recorder));
}
std::unique_ptr<ConnectionFactory> GCMInternalsBuilder::BuildConnectionFactory(
const std::vector<GURL>& endpoints,
const net::BackoffEntry::Policy& backoff_policy,
base::RepeatingCallback<
void(network::mojom::ProxyResolvingSocketFactoryRequest)>
get_socket_factory_callback,
GCMStatsRecorder* recorder,
network::NetworkConnectionTracker* network_connection_tracker) {
return std::make_unique<ConnectionFactoryImpl>(
endpoints, backoff_policy, std::move(get_socket_factory_callback),
recorder, network_connection_tracker);
}
GCMClientImpl::CheckinInfo::CheckinInfo()
: android_id(0), secret(0), accounts_set(false) {
}
GCMClientImpl::CheckinInfo::~CheckinInfo() {
}
void GCMClientImpl::CheckinInfo::SnapshotCheckinAccounts() {
last_checkin_accounts.clear();
for (auto iter = account_tokens.begin(); iter != account_tokens.end();
++iter) {
last_checkin_accounts.insert(iter->first);
}
}
void GCMClientImpl::CheckinInfo::Reset() {
android_id = 0;
secret = 0;
accounts_set = false;
account_tokens.clear();
last_checkin_accounts.clear();
}
GCMClientImpl::GCMClientImpl(
std::unique_ptr<GCMInternalsBuilder> internals_builder)
: internals_builder_(std::move(internals_builder)),
state_(UNINITIALIZED),
delegate_(nullptr),
start_mode_(DELAYED_START),
clock_(internals_builder_->GetClock()),
gcm_store_reset_(false),
network_connection_tracker_(nullptr),
periodic_checkin_ptr_factory_(this),
destroying_gcm_store_ptr_factory_(this),
weak_ptr_factory_(this) {}
GCMClientImpl::~GCMClientImpl() {
}
void GCMClientImpl::Initialize(
const ChromeBuildInfo& chrome_build_info,
const base::FilePath& path,
const scoped_refptr<base::SequencedTaskRunner>& blocking_task_runner,
base::RepeatingCallback<
void(network::mojom::ProxyResolvingSocketFactoryRequest)>
get_socket_factory_callback,
const scoped_refptr<network::SharedURLLoaderFactory>& url_loader_factory,
network::NetworkConnectionTracker* network_connection_tracker,
std::unique_ptr<Encryptor> encryptor,
GCMClient::Delegate* delegate) {
DCHECK_EQ(UNINITIALIZED, state_);
DCHECK(delegate);
get_socket_factory_callback_ = std::move(get_socket_factory_callback);
url_loader_factory_ = url_loader_factory;
network_connection_tracker_ = network_connection_tracker;
chrome_build_info_ = chrome_build_info;
gcm_store_.reset(
new GCMStoreImpl(path, blocking_task_runner, std::move(encryptor)));
delegate_ = delegate;
recorder_.SetDelegate(this);
state_ = INITIALIZED;
}
void GCMClientImpl::Start(StartMode start_mode) {
DCHECK_NE(UNINITIALIZED, state_);
if (state_ == LOADED) {
// Start the GCM if not yet.
if (start_mode == IMMEDIATE_START) {
// Give up the scheduling to wipe out the store since now some one starts
// to use GCM.
destroying_gcm_store_ptr_factory_.InvalidateWeakPtrs();
StartGCM();
}
return;
}
// The delay start behavior will be abandoned when Start has been called
// once with IMMEDIATE_START behavior.
if (start_mode == IMMEDIATE_START)
start_mode_ = IMMEDIATE_START;
// Bail out if the loading is not started or completed.
if (state_ != INITIALIZED)
return;
// Once the loading is completed, the check-in will be initiated.
// If we're in lazy start mode, don't create a new store since none is really
// using GCM functionality yet.
gcm_store_->Load(
(start_mode == IMMEDIATE_START) ?
GCMStore::CREATE_IF_MISSING :
GCMStore::DO_NOT_CREATE,
base::Bind(&GCMClientImpl::OnLoadCompleted,
weak_ptr_factory_.GetWeakPtr()));
state_ = LOADING;
}
void GCMClientImpl::OnLoadCompleted(
std::unique_ptr<GCMStore::LoadResult> result) {
DCHECK_EQ(LOADING, state_);
if (!result->success) {
if (result->store_does_not_exist) {
if (start_mode_ == IMMEDIATE_START) {
// An immediate start was requested during the delayed start that just
// completed. Perform it now.
gcm_store_->Load(GCMStore::CREATE_IF_MISSING,
base::Bind(&GCMClientImpl::OnLoadCompleted,
weak_ptr_factory_.GetWeakPtr()));
} else {
// In the case that the store does not exist, set |state_| back to
// INITIALIZED such that store loading could be triggered again when
// Start() is called with IMMEDIATE_START.
state_ = INITIALIZED;
}
} else {
// Otherwise, destroy the store to try again.
ResetStore();
}
return;
}
gcm_store_reset_ = false;
device_checkin_info_.android_id = result->device_android_id;
device_checkin_info_.secret = result->device_security_token;
device_checkin_info_.last_checkin_accounts = result->last_checkin_accounts;
// A case where there were previously no accounts reported with checkin is
// considered to be the same as when the list of accounts is empty. It enables
// scheduling a periodic checkin for devices with no signed in users
// immediately after restart, while keeping |accounts_set == false| delays the
// checkin until the list of accounts is set explicitly.
if (result->last_checkin_accounts.size() == 0)
device_checkin_info_.accounts_set = true;
last_checkin_time_ = result->last_checkin_time;
gservices_settings_.UpdateFromLoadResult(*result);
for (auto iter = result->registrations.begin();
iter != result->registrations.end();
++iter) {
std::string registration_id;
scoped_refptr<RegistrationInfo> registration =
RegistrationInfo::BuildFromString(iter->first, iter->second,
&registration_id);
// TODO(jianli): Add UMA to track the error case.
if (registration)
registrations_.emplace(std::move(registration), registration_id);
}
for (auto iter = result->instance_id_data.begin();
iter != result->instance_id_data.end();
++iter) {
std::string instance_id;
std::string extra_data;
if (DeserializeInstanceIDData(iter->second, &instance_id, &extra_data))
instance_id_data_[iter->first] = std::make_pair(instance_id, extra_data);
}
load_result_ = std::move(result);
state_ = LOADED;
// Don't initiate the GCM connection when GCM is in delayed start mode and
// not any standalone app has registered GCM yet.
if (start_mode_ == DELAYED_START && !HasStandaloneRegisteredApp()) {
// If no standalone app is using GCM and the device ID is present, schedule
// to have the store wiped out.
if (device_checkin_info_.android_id) {
base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
FROM_HERE,
base::BindOnce(&GCMClientImpl::DestroyStoreWhenNotNeeded,
destroying_gcm_store_ptr_factory_.GetWeakPtr()),
base::TimeDelta::FromMilliseconds(kDestroyGCMStoreDelayMS));
}
return;
}
StartGCM();
}
void GCMClientImpl::StartGCM() {
// Taking over the value of account_mappings before passing the ownership of
// load result to InitializeMCSClient.
std::vector<AccountMapping> account_mappings;
account_mappings.swap(load_result_->account_mappings);
base::Time last_token_fetch_time = load_result_->last_token_fetch_time;
InitializeMCSClient();
if (device_checkin_info_.IsValid()) {
SchedulePeriodicCheckin();
OnReady(account_mappings, last_token_fetch_time);
return;
}
state_ = INITIAL_DEVICE_CHECKIN;
device_checkin_info_.Reset();
StartCheckin();
}
void GCMClientImpl::InitializeMCSClient() {
DCHECK(network_connection_tracker_);
std::vector<GURL> endpoints;
endpoints.push_back(gservices_settings_.GetMCSMainEndpoint());
GURL fallback_endpoint = gservices_settings_.GetMCSFallbackEndpoint();
if (fallback_endpoint.is_valid())
endpoints.push_back(fallback_endpoint);
connection_factory_ = internals_builder_->BuildConnectionFactory(
endpoints, GetGCMBackoffPolicy(), get_socket_factory_callback_,
&recorder_, network_connection_tracker_);
connection_factory_->SetConnectionListener(this);
mcs_client_ = internals_builder_->BuildMCSClient(
chrome_build_info_.version, clock_, connection_factory_.get(),
gcm_store_.get(), &recorder_);
mcs_client_->Initialize(
base::Bind(&GCMClientImpl::OnMCSError, weak_ptr_factory_.GetWeakPtr()),
base::Bind(&GCMClientImpl::OnMessageReceivedFromMCS,
weak_ptr_factory_.GetWeakPtr()),
base::Bind(&GCMClientImpl::OnMessageSentToMCS,
weak_ptr_factory_.GetWeakPtr()),
std::move(load_result_));
}
void GCMClientImpl::OnFirstTimeDeviceCheckinCompleted(
const CheckinInfo& checkin_info) {
DCHECK(!device_checkin_info_.IsValid());
device_checkin_info_.android_id = checkin_info.android_id;
device_checkin_info_.secret = checkin_info.secret;
// If accounts were not set by now, we can consider them set (to empty list)
// to make sure periodic checkins get scheduled after initial checkin.
device_checkin_info_.accounts_set = true;
gcm_store_->SetDeviceCredentials(
checkin_info.android_id, checkin_info.secret,
base::Bind(&GCMClientImpl::SetDeviceCredentialsCallback,
weak_ptr_factory_.GetWeakPtr()));
OnReady(std::vector<AccountMapping>(), base::Time());
}
void GCMClientImpl::OnReady(const std::vector<AccountMapping>& account_mappings,
const base::Time& last_token_fetch_time) {
state_ = READY;
StartMCSLogin();
delegate_->OnGCMReady(account_mappings, last_token_fetch_time);
}
void GCMClientImpl::StartMCSLogin() {
DCHECK_EQ(READY, state_);
DCHECK(device_checkin_info_.IsValid());
mcs_client_->Login(device_checkin_info_.android_id,
device_checkin_info_.secret);
}
void GCMClientImpl::DestroyStoreWhenNotNeeded() {
if (state_ != LOADED || start_mode_ != DELAYED_START)
return;
gcm_store_->Destroy(base::Bind(&GCMClientImpl::DestroyStoreCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::ResetStore() {
// If already being reset, don't do it again. We want to prevent from
// resetting and loading from the store again and again.
if (gcm_store_reset_) {
RecordResetStoreErrorToUMA(INFINITE_STORE_RESET);
state_ = UNINITIALIZED;
return;
}
gcm_store_reset_ = true;
// Destroy the GCM store to start over.
gcm_store_->Destroy(base::Bind(&GCMClientImpl::ResetStoreCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::SetAccountTokens(
const std::vector<AccountTokenInfo>& account_tokens) {
device_checkin_info_.account_tokens.clear();
for (auto iter = account_tokens.begin(); iter != account_tokens.end();
++iter) {
device_checkin_info_.account_tokens[iter->email] = iter->access_token;
}
bool accounts_set_before = device_checkin_info_.accounts_set;
device_checkin_info_.accounts_set = true;
DVLOG(1) << "Set account called with: " << account_tokens.size()
<< " accounts.";
if (state_ != READY && state_ != INITIAL_DEVICE_CHECKIN)
return;
bool account_removed = false;
for (auto iter = device_checkin_info_.last_checkin_accounts.begin();
iter != device_checkin_info_.last_checkin_accounts.end(); ++iter) {
if (device_checkin_info_.account_tokens.find(*iter) ==
device_checkin_info_.account_tokens.end()) {
account_removed = true;
}
}
// Checkin will be forced when any of the accounts was removed during the
// current Chrome session or if there has been an account removed between the
// restarts of Chrome. If there is a checkin in progress, it will be canceled.
// We only force checkin when user signs out. When there is a new account
// signed in, the periodic checkin will take care of adding the association in
// reasonable time.
if (account_removed) {
DVLOG(1) << "Detected that account has been removed. Forcing checkin.";
checkin_request_.reset();
StartCheckin();
} else if (!accounts_set_before) {
SchedulePeriodicCheckin();
DVLOG(1) << "Accounts set for the first time. Scheduled periodic checkin.";
}
}
void GCMClientImpl::UpdateAccountMapping(
const AccountMapping& account_mapping) {
gcm_store_->AddAccountMapping(account_mapping,
base::Bind(&GCMClientImpl::DefaultStoreCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::RemoveAccountMapping(const std::string& account_id) {
gcm_store_->RemoveAccountMapping(
account_id,
base::Bind(&GCMClientImpl::DefaultStoreCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::SetLastTokenFetchTime(const base::Time& time) {
gcm_store_->SetLastTokenFetchTime(
time,
base::Bind(&GCMClientImpl::IgnoreWriteResultCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::UpdateHeartbeatTimer(
std::unique_ptr<base::RetainingOneShotTimer> timer) {
DCHECK(mcs_client_);
mcs_client_->UpdateHeartbeatTimer(std::move(timer));
}
void GCMClientImpl::AddInstanceIDData(const std::string& app_id,
const std::string& instance_id,
const std::string& extra_data) {
instance_id_data_[app_id] = std::make_pair(instance_id, extra_data);
gcm_store_->AddInstanceIDData(
app_id,
SerializeInstanceIDData(instance_id, extra_data),
base::Bind(&GCMClientImpl::IgnoreWriteResultCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::RemoveInstanceIDData(const std::string& app_id) {
instance_id_data_.erase(app_id);
gcm_store_->RemoveInstanceIDData(
app_id,
base::Bind(&GCMClientImpl::IgnoreWriteResultCallback,
weak_ptr_factory_.GetWeakPtr()));
}
void GCMClientImpl::GetInstanceIDData(const std::string& app_id,
std::string* instance_id,
std::string* extra_data) {
DCHECK(instance_id && extra_data);
auto iter = instance_id_data_.find(app_id);
if (iter == instance_id_data_.end())
return;
*instance_id = iter->second.first;
*extra_data = iter->second.second;
}
void GCMClientImpl::AddHeartbeatInterval(const std::string& scope,
int interval_ms) {
DCHECK(mcs_client_);
mcs_client_->AddHeartbeatInterval(scope, interval_ms);
}
void GCMClientImpl::RemoveHeartbeatInterval(const std::string& scope) {
DCHECK(mcs_client_);
mcs_client_->RemoveHeartbeatInterval(scope);
}
void GCMClientImpl::StartCheckin() {
// Make sure no checkin is in progress.
if (checkin_request_)
return;
checkin_proto::ChromeBuildProto chrome_build_proto;
ToCheckinProtoVersion(chrome_build_info_, &chrome_build_proto);
CheckinRequest::RequestInfo request_info(device_checkin_info_.android_id,
device_checkin_info_.secret,
device_checkin_info_.account_tokens,
gservices_settings_.digest(),
chrome_build_proto);
checkin_request_.reset(new CheckinRequest(
gservices_settings_.GetCheckinURL(), request_info, GetGCMBackoffPolicy(),
base::Bind(&GCMClientImpl::OnCheckinCompleted,
weak_ptr_factory_.GetWeakPtr()),
url_loader_factory_, &recorder_));
// Taking a snapshot of the accounts count here, as there might be an asynch
// update of the account tokens while checkin is in progress.
device_checkin_info_.SnapshotCheckinAccounts();
checkin_request_->Start();
}
void GCMClientImpl::OnCheckinCompleted(
net::HttpStatusCode response_code,
const checkin_proto::AndroidCheckinResponse& checkin_response) {
checkin_request_.reset();
if (response_code == net::HTTP_UNAUTHORIZED ||
response_code == net::HTTP_BAD_REQUEST) {
LOG(ERROR) << "Checkin rejected. Resetting GCM Store.";
ResetStore();
return;
}
DCHECK(checkin_response.has_android_id());
DCHECK(checkin_response.has_security_token());
CheckinInfo checkin_info;
checkin_info.android_id = checkin_response.android_id();
checkin_info.secret = checkin_response.security_token();
if (state_ == INITIAL_DEVICE_CHECKIN) {
OnFirstTimeDeviceCheckinCompleted(checkin_info);
} else {
// checkin_info is not expected to change after a periodic checkin as it
// would invalidate the registration IDs.
DCHECK_EQ(READY, state_);
DCHECK_EQ(device_checkin_info_.android_id, checkin_info.android_id);
DCHECK_EQ(device_checkin_info_.secret, checkin_info.secret);
}
if (device_checkin_info_.IsValid()) {
// First update G-services settings, as something might have changed.
if (gservices_settings_.UpdateFromCheckinResponse(checkin_response)) {
gcm_store_->SetGServicesSettings(
gservices_settings_.settings_map(),
gservices_settings_.digest(),
base::Bind(&GCMClientImpl::SetGServicesSettingsCallback,
weak_ptr_factory_.GetWeakPtr()));
}
last_checkin_time_ = clock_->Now();
gcm_store_->SetLastCheckinInfo(
last_checkin_time_,
device_checkin_info_.last_checkin_accounts,
base::Bind(&GCMClientImpl::SetLastCheckinInfoCallback,
weak_ptr_factory_.GetWeakPtr()));
SchedulePeriodicCheckin();
}
}
void GCMClientImpl::SetGServicesSettingsCallback(bool success) {
DCHECK(success);
}
void GCMClientImpl::SchedulePeriodicCheckin() {
// Make sure no checkin is in progress.
if (checkin_request_.get() || !device_checkin_info_.accounts_set)
return;
// There should be only one periodic checkin pending at a time. Removing
// pending periodic checkin to schedule a new one.
periodic_checkin_ptr_factory_.InvalidateWeakPtrs();
base::TimeDelta time_to_next_checkin = GetTimeToNextCheckin();
if (time_to_next_checkin < base::TimeDelta())
time_to_next_checkin = base::TimeDelta();
base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
FROM_HERE,
base::BindOnce(&GCMClientImpl::StartCheckin,
periodic_checkin_ptr_factory_.GetWeakPtr()),
time_to_next_checkin);
}
base::TimeDelta GCMClientImpl::GetTimeToNextCheckin() const {
return last_checkin_time_ + gservices_settings_.GetCheckinInterval() -
clock_->Now();
}
void GCMClientImpl::SetLastCheckinInfoCallback(bool success) {
// TODO(fgorski): This is one of the signals that store needs a rebuild.
DCHECK(success);
}
void GCMClientImpl::SetDeviceCredentialsCallback(bool success) {
// TODO(fgorski): This is one of the signals that store needs a rebuild.
DCHECK(success);
}
void GCMClientImpl::UpdateRegistrationCallback(bool success) {
// TODO(fgorski): This is one of the signals that store needs a rebuild.
DCHECK(success);
}
void GCMClientImpl::DefaultStoreCallback(bool success) {
DCHECK(success);
}
void GCMClientImpl::IgnoreWriteResultCallback(bool success) {
// TODO(fgorski): Ignoring the write result for now to make sure
// sync_intergration_tests are not broken.
}
void GCMClientImpl::DestroyStoreCallback(bool success) {
ResetCache();
if (!success) {
LOG(ERROR) << "Failed to destroy GCM store";
RecordResetStoreErrorToUMA(DESTROYING_STORE_FAILED);
state_ = UNINITIALIZED;
return;
}
state_ = INITIALIZED;
}
void GCMClientImpl::ResetStoreCallback(bool success) {
// Even an incomplete reset may invalidate registrations, and this might be
// the only opportunity to notify the delegate. For example a partial reset
// that deletes the "CURRENT" file will cause GCMStoreImpl to consider the DB
// to no longer exist, in which case the next load will simply create a new
// store rather than resetting it.
delegate_->OnStoreReset();
if (!success) {
LOG(ERROR) << "Failed to reset GCM store";
RecordResetStoreErrorToUMA(DESTROYING_STORE_FAILED);
state_ = UNINITIALIZED;
return;
}
state_ = INITIALIZED;
Start(start_mode_);
}
void GCMClientImpl::Stop() {
// TODO(fgorski): Perhaps we should make a distinction between a Stop and a
// Shutdown.
DVLOG(1) << "Stopping the GCM Client";
ResetCache();
state_ = INITIALIZED;
gcm_store_->Close();
}
void GCMClientImpl::ResetCache() {
weak_ptr_factory_.InvalidateWeakPtrs();
periodic_checkin_ptr_factory_.InvalidateWeakPtrs();
device_checkin_info_.Reset();
connection_factory_.reset();
delegate_->OnDisconnected();
mcs_client_.reset();
checkin_request_.reset();
// Delete all of the pending registration and unregistration requests.
pending_registration_requests_.clear();
pending_unregistration_requests_.clear();
}
void GCMClientImpl::Register(
scoped_refptr<RegistrationInfo> registration_info) {
DCHECK_EQ(state_, READY);
// Registrations should never pass as an app_id the special category used
// internally when registering with a subtype. See security note in
// GCMClientImpl::HandleIncomingMessage.
CHECK_NE(registration_info->app_id,
chrome_build_info_.product_category_for_subtypes);
// Find and use the cached registration ID.
RegistrationInfoMap::const_iterator registrations_iter =
registrations_.find(registration_info);
if (registrations_iter != registrations_.end()) {
bool matched = true;
// For GCM registration, we also match the sender IDs since multiple
// registrations are not supported.
const GCMRegistrationInfo* gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(registration_info.get());
if (gcm_registration_info) {
const GCMRegistrationInfo* cached_gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(
registrations_iter->first.get());
DCHECK(cached_gcm_registration_info);
if (gcm_registration_info->sender_ids !=
cached_gcm_registration_info->sender_ids) {
matched = false;
// Senders IDs don't match existing registration.
RecordRegistrationRequestToUMA(
RegistrationCacheStatus::REGISTRATION_FOUND_BUT_SENDERS_DONT_MATCH);
}
}
if (matched) {
// Skip registration if token is fresh.
base::TimeDelta token_invalidation_period =
features::GetTokenInvalidationInterval();
base::TimeDelta time_since_last_validation =
clock_->Now() - registrations_iter->first->last_validated;
if (token_invalidation_period.is_zero() ||
time_since_last_validation < token_invalidation_period) {
// Token is fresh, or token invalidation is disabled.
// Use cached registration.
delegate_->OnRegisterFinished(registration_info,
registrations_iter->second, SUCCESS);
RecordRegistrationRequestToUMA(
RegistrationCacheStatus::REGISTRATION_FOUND_AND_FRESH);
return;
} else {
// Token is stale.
RecordRegistrationRequestToUMA(
RegistrationCacheStatus::REGISTRATION_FOUND_BUT_STALE);
}
}
} else {
// New Registration request (no existing registration)
RecordRegistrationRequestToUMA(
RegistrationCacheStatus::REGISTRATION_NOT_FOUND);
}
std::unique_ptr<RegistrationRequest::CustomRequestHandler> request_handler;
std::string source_to_record;
const GCMRegistrationInfo* gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(registration_info.get());
if (gcm_registration_info) {
std::string senders;
for (auto iter = gcm_registration_info->sender_ids.begin();
iter != gcm_registration_info->sender_ids.end();
++iter) {
if (!senders.empty())
senders.append(",");
senders.append(*iter);
}
UMA_HISTOGRAM_COUNTS_1M("GCM.RegistrationSenderIdCount",
gcm_registration_info->sender_ids.size());
request_handler.reset(new GCMRegistrationRequestHandler(senders));
source_to_record = senders;
}
const InstanceIDTokenInfo* instance_id_token_info =
InstanceIDTokenInfo::FromRegistrationInfo(registration_info.get());
if (instance_id_token_info) {
auto instance_id_iter = instance_id_data_.find(registration_info->app_id);
DCHECK(instance_id_iter != instance_id_data_.end());
request_handler.reset(new InstanceIDGetTokenRequestHandler(
instance_id_iter->second.first,
instance_id_token_info->authorized_entity,
instance_id_token_info->scope,
ConstructGCMVersion(chrome_build_info_.version),
instance_id_token_info->options));
source_to_record = instance_id_token_info->authorized_entity + "/" +
instance_id_token_info->scope;
}
bool use_subtype = instance_id_token_info &&
InstanceIDUsesSubtypeForAppId(registration_info->app_id);
std::string category = use_subtype
? chrome_build_info_.product_category_for_subtypes
: registration_info->app_id;
std::string subtype = use_subtype ? registration_info->app_id : std::string();
RegistrationRequest::RequestInfo request_info(device_checkin_info_.android_id,
device_checkin_info_.secret,
category, subtype);
std::unique_ptr<RegistrationRequest> registration_request(
new RegistrationRequest(
gservices_settings_.GetRegistrationURL(), request_info,
std::move(request_handler), GetGCMBackoffPolicy(),
base::Bind(&GCMClientImpl::OnRegisterCompleted,
weak_ptr_factory_.GetWeakPtr(), registration_info),
kMaxRegistrationRetries, url_loader_factory_, &recorder_,
source_to_record));
registration_request->Start();
pending_registration_requests_.insert(
std::make_pair(registration_info, std::move(registration_request)));
}
void GCMClientImpl::OnRegisterCompleted(
scoped_refptr<RegistrationInfo> registration_info,
RegistrationRequest::Status status,
const std::string& registration_id) {
DCHECK(delegate_);
Result result;
PendingRegistrationRequests::const_iterator iter =
pending_registration_requests_.find(registration_info);
if (iter == pending_registration_requests_.end()) {
result = UNKNOWN_ERROR;
} else if (status == RegistrationRequest::INVALID_SENDER) {
result = INVALID_PARAMETER;
} else if (registration_id.empty()) {
// All other errors are currently treated as SERVER_ERROR (including
// REACHED_MAX_RETRIES due to the device being offline!).
result = SERVER_ERROR;
} else {
result = SUCCESS;
}
if (result == SUCCESS) {
// Cache it.
// Note that the existing cached record has to be removed first because
// otherwise the key value in registrations_ will not be updated. For GCM
// registrations, the key consists of pair of app_id and sender_ids though
// only app_id is used in the key comparison.
registrations_.erase(registration_info);
registration_info->last_validated = clock_->Now();
registrations_[registration_info] = registration_id;
// Save it in the persistent store.
gcm_store_->AddRegistration(
registration_info->GetSerializedKey(),
registration_info->GetSerializedValue(registration_id),
base::Bind(&GCMClientImpl::UpdateRegistrationCallback,
weak_ptr_factory_.GetWeakPtr()));
}
delegate_->OnRegisterFinished(
registration_info,
result == SUCCESS ? registration_id : std::string(),
result);
if (iter != pending_registration_requests_.end())
pending_registration_requests_.erase(iter);
}
bool GCMClientImpl::ValidateRegistration(
scoped_refptr<RegistrationInfo> registration_info,
const std::string& registration_id) {
DCHECK_EQ(state_, READY);
// Must have a cached registration.
RegistrationInfoMap::const_iterator registrations_iter =
registrations_.find(registration_info);
if (registrations_iter == registrations_.end())
return false;
// Cached registration ID must match.
const std::string& cached_registration_id = registrations_iter->second;
if (registration_id != cached_registration_id)
return false;
// For GCM registration, we also match the sender IDs since multiple
// registrations are not supported.
const GCMRegistrationInfo* gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(registration_info.get());
if (gcm_registration_info) {
const GCMRegistrationInfo* cached_gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(
registrations_iter->first.get());
DCHECK(cached_gcm_registration_info);
if (gcm_registration_info->sender_ids !=
cached_gcm_registration_info->sender_ids) {
return false;
}
}
return true;
}
void GCMClientImpl::Unregister(
scoped_refptr<RegistrationInfo> registration_info) {
DCHECK_EQ(state_, READY);
std::unique_ptr<UnregistrationRequest::CustomRequestHandler> request_handler;
std::string source_to_record;
const GCMRegistrationInfo* gcm_registration_info =
GCMRegistrationInfo::FromRegistrationInfo(registration_info.get());
if (gcm_registration_info) {
request_handler.reset(
new GCMUnregistrationRequestHandler(registration_info->app_id));
}
const InstanceIDTokenInfo* instance_id_token_info =
InstanceIDTokenInfo::FromRegistrationInfo(registration_info.get());
if (instance_id_token_info) {
auto instance_id_iter = instance_id_data_.find(registration_info->app_id);
if (instance_id_iter == instance_id_data_.end()) {
// This should not be reached since we should not delete tokens when
// an InstanceID has not been created yet.
NOTREACHED();
return;
}
request_handler.reset(new InstanceIDDeleteTokenRequestHandler(
instance_id_iter->second.first,
instance_id_token_info->authorized_entity,
instance_id_token_info->scope,
ConstructGCMVersion(chrome_build_info_.version)));
source_to_record = instance_id_token_info->authorized_entity + "/" +
instance_id_token_info->scope;
}
// Remove the registration/token(s) from the cache and the store.
// TODO(jianli): Remove it only when the request is successful.
if (instance_id_token_info &&
instance_id_token_info->authorized_entity == "*" &&
instance_id_token_info->scope == "*") {
// If authorized_entity and scope are '*', find and remove all associated
// tokens.
bool token_found = false;
for (auto iter = registrations_.begin();
iter != registrations_.end();) {
InstanceIDTokenInfo* cached_instance_id_token_info =
InstanceIDTokenInfo::FromRegistrationInfo(iter->first.get());
if (cached_instance_id_token_info &&
cached_instance_id_token_info->app_id == registration_info->app_id) {
token_found = true;
gcm_store_->RemoveRegistration(
cached_instance_id_token_info->GetSerializedKey(),
base::Bind(&GCMClientImpl::UpdateRegistrationCallback,
weak_ptr_factory_.GetWeakPtr()));
registrations_.erase(iter++);
} else {
++iter;
}
}
// If no token is found for the Instance ID, don't need to unregister
// since the Instance ID is not sent to the server yet.
if (!token_found) {
OnUnregisterCompleted(registration_info,
UnregistrationRequest::SUCCESS);
return;
}
} else {
auto iter = registrations_.find(registration_info);
if (iter == registrations_.end()) {
delegate_->OnUnregisterFinished(registration_info, INVALID_PARAMETER);
return;
}
registrations_.erase(iter);
gcm_store_->RemoveRegistration(
registration_info->GetSerializedKey(),
base::Bind(&GCMClientImpl::UpdateRegistrationCallback,
weak_ptr_factory_.GetWeakPtr()));
}
bool use_subtype = instance_id_token_info &&
InstanceIDUsesSubtypeForAppId(registration_info->app_id);
std::string category = use_subtype
? chrome_build_info_.product_category_for_subtypes
: registration_info->app_id;
std::string subtype = use_subtype ? registration_info->app_id : std::string();
UnregistrationRequest::RequestInfo request_info(
device_checkin_info_.android_id, device_checkin_info_.secret, category,
subtype);
std::unique_ptr<UnregistrationRequest> unregistration_request(
new UnregistrationRequest(
gservices_settings_.GetRegistrationURL(), request_info,
std::move(request_handler), GetGCMBackoffPolicy(),
base::Bind(&GCMClientImpl::OnUnregisterCompleted,
weak_ptr_factory_.GetWeakPtr(), registration_info),
kMaxUnregistrationRetries, url_loader_factory_, &recorder_,
source_to_record));
unregistration_request->Start();
pending_unregistration_requests_.insert(
std::make_pair(registration_info, std::move(unregistration_request)));
}
void GCMClientImpl::OnUnregisterCompleted(
scoped_refptr<RegistrationInfo> registration_info,
UnregistrationRequest::Status status) {
DVLOG(1) << "Unregister completed for app: " << registration_info->app_id
<< " with " << (status ? "success." : "failure.");
Result result;
switch (status) {
case UnregistrationRequest::SUCCESS:
result = SUCCESS;
break;
case UnregistrationRequest::INVALID_PARAMETERS:
result = INVALID_PARAMETER;
break;
default:
// All other errors are currently treated as SERVER_ERROR (including
// REACHED_MAX_RETRIES due to the device being offline!).
result = SERVER_ERROR;
break;
}
delegate_->OnUnregisterFinished(registration_info, result);
pending_unregistration_requests_.erase(registration_info);
}
void GCMClientImpl::OnGCMStoreDestroyed(bool success) {
DLOG_IF(ERROR, !success) << "GCM store failed to be destroyed!";
UMA_HISTOGRAM_BOOLEAN("GCM.StoreDestroySucceeded", success);
}
void GCMClientImpl::Send(const std::string& app_id,
const std::string& receiver_id,
const OutgoingMessage& message) {
DCHECK_EQ(state_, READY);
RecordOutgoingMessageToUMA(message);
mcs_proto::DataMessageStanza stanza;
stanza.set_ttl(message.time_to_live);
stanza.set_sent(clock_->Now().ToInternalValue() /
base::Time::kMicrosecondsPerSecond);
stanza.set_id(message.id);
stanza.set_from(kSendMessageFromValue);
stanza.set_to(receiver_id);
stanza.set_category(app_id);
for (auto iter = message.data.begin(); iter != message.data.end(); ++iter) {
mcs_proto::AppData* app_data = stanza.add_app_data();
app_data->set_key(iter->first);
app_data->set_value(iter->second);
}
MCSMessage mcs_message(stanza);
DVLOG(1) << "MCS message size: " << mcs_message.size();
mcs_client_->SendMessage(mcs_message);
}
std::string GCMClientImpl::GetStateString() const {
switch(state_) {
case GCMClientImpl::UNINITIALIZED:
return "UNINITIALIZED";
case GCMClientImpl::INITIALIZED:
return "INITIALIZED";
case GCMClientImpl::LOADING:
return "LOADING";
case GCMClientImpl::LOADED:
return "LOADED";
case GCMClientImpl::INITIAL_DEVICE_CHECKIN:
return "INITIAL_DEVICE_CHECKIN";
case GCMClientImpl::READY:
return "READY";
}
NOTREACHED();
return std::string();
}
void GCMClientImpl::RecordDecryptionFailure(const std::string& app_id,
GCMDecryptionResult result) {
recorder_.RecordDecryptionFailure(app_id, result);
}
void GCMClientImpl::SetRecording(bool recording) {
recorder_.set_is_recording(recording);
}
void GCMClientImpl::ClearActivityLogs() {
recorder_.Clear();
}
GCMClient::GCMStatistics GCMClientImpl::GetStatistics() const {
GCMClient::GCMStatistics stats;
stats.gcm_client_created = true;
stats.is_recording = recorder_.is_recording();
stats.gcm_client_state = GetStateString();
stats.connection_client_created = mcs_client_ != nullptr;
stats.last_checkin = last_checkin_time_;
stats.next_checkin =
last_checkin_time_ + gservices_settings_.GetCheckinInterval();
if (connection_factory_)
stats.connection_state = connection_factory_->GetConnectionStateString();
if (mcs_client_) {
stats.send_queue_size = mcs_client_->GetSendQueueSize();
stats.resend_queue_size = mcs_client_->GetResendQueueSize();
}
if (device_checkin_info_.android_id > 0)
stats.android_id = device_checkin_info_.android_id;
if (device_checkin_info_.secret > 0)
stats.android_secret = device_checkin_info_.secret;
recorder_.CollectActivities(&stats.recorded_activities);
for (auto it = registrations_.begin(); it != registrations_.end(); ++it) {
stats.registered_app_ids.push_back(it->first->app_id);
}
return stats;
}
void GCMClientImpl::OnActivityRecorded() {
delegate_->OnActivityRecorded();
}
void GCMClientImpl::OnConnected(const GURL& current_server,
const net::IPEndPoint& ip_endpoint) {
// TODO(gcm): expose current server in debug page.
delegate_->OnActivityRecorded();
delegate_->OnConnected(ip_endpoint);
}
void GCMClientImpl::OnDisconnected() {
delegate_->OnActivityRecorded();
delegate_->OnDisconnected();
}
void GCMClientImpl::OnMessageReceivedFromMCS(const gcm::MCSMessage& message) {
switch (message.tag()) {
case kLoginResponseTag:
DVLOG(1) << "Login response received by GCM Client. Ignoring.";
return;
case kDataMessageStanzaTag:
DVLOG(1) << "A downstream message received. Processing...";
HandleIncomingMessage(message);
return;
default:
NOTREACHED() << "Message with unexpected tag received by GCMClient";
return;
}
}
void GCMClientImpl::OnMessageSentToMCS(int64_t user_serial_number,
const std::string& app_id,
const std::string& message_id,
MCSClient::MessageSendStatus status) {
DCHECK_EQ(user_serial_number, kDefaultUserSerialNumber);
DCHECK(delegate_);
// TTL_EXCEEDED is singled out here, because it can happen long time after the
// message was sent. That is why it comes as |OnMessageSendError| event rather
// than |OnSendFinished|. SendErrorDetails.additional_data is left empty.
// All other errors will be raised immediately, through asynchronous callback.
// It is expected that TTL_EXCEEDED will be issued for a message that was
// previously issued |OnSendFinished| with status SUCCESS.
// TODO(jianli): Consider adding UMA for this status.
if (status == MCSClient::TTL_EXCEEDED) {
SendErrorDetails send_error_details;
send_error_details.message_id = message_id;
send_error_details.result = GCMClient::TTL_EXCEEDED;
delegate_->OnMessageSendError(app_id, send_error_details);
} else if (status == MCSClient::SENT) {
delegate_->OnSendAcknowledged(app_id, message_id);
} else {
delegate_->OnSendFinished(app_id, message_id, ToGCMClientResult(status));
}
}
void GCMClientImpl::OnMCSError() {
// TODO(fgorski): For now it replaces the initialization method. Long term it
// should have an error or status passed in.
}
void GCMClientImpl::HandleIncomingMessage(const gcm::MCSMessage& message) {
DCHECK(delegate_);
const mcs_proto::DataMessageStanza& data_message_stanza =
reinterpret_cast<const mcs_proto::DataMessageStanza&>(
message.GetProtobuf());
DCHECK_EQ(data_message_stanza.device_user_id(), kDefaultUserSerialNumber);
// Copy all the data from the stanza to a MessageData object. When present,
// keys like kSubtypeKey, kMessageTypeKey or kSendErrorMessageIdKey will be
// filtered out later.
MessageData message_data;
for (int i = 0; i < data_message_stanza.app_data_size(); ++i) {
std::string key = data_message_stanza.app_data(i).key();
message_data[key] = data_message_stanza.app_data(i).value();
}
std::string subtype;
auto subtype_iter = message_data.find(kSubtypeKey);
if (subtype_iter != message_data.end()) {
subtype = subtype_iter->second;
message_data.erase(subtype_iter);
}
// SECURITY NOTE: Subtypes received from GCM *cannot* be trusted for
// registrations without a subtype (as the sender can pass any subtype they
// want). They can however be trusted for registrations that are known to have
// a subtype (as GCM overwrites anything passed by the sender).
//
// So a given Chrome profile always passes a fixed string called
// |product_category_for_subtypes| (of the form "com.chrome.macosx") as the
// category when registering with a subtype, and incoming subtypes are only
// trusted for that category.
//
// TODO(johnme): Remove this check if GCM starts sending the subtype in a
// field that's guaranteed to be trusted (b/18198485).
//
// (On Android, all registrations made by Chrome on behalf of third-party
// apps/extensions/websites have always had a subtype, so such a check is not
// necessary - or possible, since category is fixed to the true package name).
bool subtype_is_trusted = data_message_stanza.category() ==
chrome_build_info_.product_category_for_subtypes;
bool use_subtype = subtype_is_trusted && !subtype.empty();
std::string app_id = use_subtype ? subtype : data_message_stanza.category();
MessageType message_type = DATA_MESSAGE;
auto type_iter = message_data.find(kMessageTypeKey);
if (type_iter != message_data.end()) {
message_type = DecodeMessageType(type_iter->second);
message_data.erase(type_iter);
}
switch (message_type) {
case DATA_MESSAGE:
HandleIncomingDataMessage(app_id, use_subtype, data_message_stanza,
message_data);
break;
case DELETED_MESSAGES:
HandleIncomingDeletedMessages(app_id, data_message_stanza, message_data);
break;
case SEND_ERROR:
HandleIncomingSendError(app_id, data_message_stanza, message_data);
break;
case UNKNOWN:
DVLOG(1) << "Unknown message_type received. Message ignored. "
<< "App ID: " << app_id << ".";
break;
}
}
void GCMClientImpl::HandleIncomingDataMessage(
const std::string& app_id,
bool was_subtype,
const mcs_proto::DataMessageStanza& data_message_stanza,
MessageData& message_data) {
UMA_HISTOGRAM_BOOLEAN("GCM.DataMessageReceived", true);
bool has_collapse_key =
data_message_stanza.has_token() && !data_message_stanza.token().empty();
UMA_HISTOGRAM_BOOLEAN("GCM.DataMessageReceivedHasCollapseKey",
has_collapse_key);
recorder_.RecordDataMessageReceived(app_id, data_message_stanza.from(),
data_message_stanza.ByteSize(),
GCMStatsRecorder::DATA_MESSAGE);
IncomingMessage incoming_message;
incoming_message.sender_id = data_message_stanza.from();
if (data_message_stanza.has_token())
incoming_message.collapse_key = data_message_stanza.token();
incoming_message.data = message_data;
incoming_message.raw_data = data_message_stanza.raw_data();
delegate_->OnMessageReceived(app_id, incoming_message);
}
void GCMClientImpl::HandleIncomingDeletedMessages(
const std::string& app_id,
const mcs_proto::DataMessageStanza& data_message_stanza,
MessageData& message_data) {
int deleted_count = 0;
auto count_iter = message_data.find(kDeletedCountKey);
if (count_iter != message_data.end()) {
if (!base::StringToInt(count_iter->second, &deleted_count))
deleted_count = 0;
}
UMA_HISTOGRAM_COUNTS_1000("GCM.DeletedMessagesReceived", deleted_count);
recorder_.RecordDataMessageReceived(app_id, data_message_stanza.from(),
data_message_stanza.ByteSize(),
GCMStatsRecorder::DELETED_MESSAGES);
delegate_->OnMessagesDeleted(app_id);
}
void GCMClientImpl::HandleIncomingSendError(
const std::string& app_id,
const mcs_proto::DataMessageStanza& data_message_stanza,
MessageData& message_data) {
SendErrorDetails send_error_details;
send_error_details.additional_data = message_data;
send_error_details.result = SERVER_ERROR;
auto iter = send_error_details.additional_data.find(kSendErrorMessageIdKey);
if (iter != send_error_details.additional_data.end()) {
send_error_details.message_id = iter->second;
send_error_details.additional_data.erase(iter);
}
recorder_.RecordIncomingSendError(app_id, data_message_stanza.to(),
data_message_stanza.id());
delegate_->OnMessageSendError(app_id, send_error_details);
}
bool GCMClientImpl::HasStandaloneRegisteredApp() const {
if (registrations_.empty())
return false;
// Note that account mapper is not counted as a standalone app since it is
// automatically started when other app uses GCM.
return registrations_.size() > 1 ||
!ExistsGCMRegistrationInMap(registrations_, kGCMAccountMapperAppId);
}
} // namespace gcm