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// Copyright (c) 2012 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.
////////////////////////////////////////////////////////////////////////////////
// Threading considerations:
//
// This class is designed to meet various threading guarantees starting from the
// ones imposed by NetworkChangeNotifier:
// - The notifier can be constructed on any thread.
// - GetCurrentConnectionType() can be called on any thread.
//
// The fact that this implementation of NetworkChangeNotifier is backed by a
// Java side singleton class (see NetworkChangeNotifier.java) adds another
// threading constraint:
// - The calls to the Java side (stateful) object must be performed from a
// single thread. This object happens to be a singleton which is used on the
// application side on the main thread. Therefore all the method calls from
// the native NetworkChangeNotifierAndroid class to its Java counterpart are
// performed on the main thread.
//
// This leads to a design involving the following native classes:
// 1) NetworkChangeNotifierFactoryAndroid ('factory')
// 2) NetworkChangeNotifierDelegateAndroid ('delegate')
// 3) NetworkChangeNotifierAndroid ('notifier')
//
// The factory constructs and owns the delegate. The factory is constructed and
// destroyed on the main thread which makes it construct and destroy the
// delegate on the main thread too. This guarantees that the calls to the Java
// side are performed on the main thread.
// Note that after the factory's construction, the factory's creation method can
// be called from any thread since the delegate's construction (performing the
// JNI calls) already happened on the main thread (when the factory was
// constructed).
//
////////////////////////////////////////////////////////////////////////////////
// Propagation of network change notifications:
//
// When the factory is requested to create a new instance of the notifier, the
// factory passes the delegate to the notifier (without transferring ownership).
// Note that there is a one-to-one mapping between the factory and the
// delegate as explained above. But the factory naturally creates multiple
// instances of the notifier. That means that there is a one-to-many mapping
// between delegate and notifier (i.e. a single delegate can be shared by
// multiple notifiers).
// At construction the notifier (which is also an observer) subscribes to
// notifications fired by the delegate. These notifications, received by the
// delegate (and forwarded to the notifier(s)), are sent by the Java side
// notifier (see NetworkChangeNotifier.java) and are initiated by the Android
// platform.
// Notifications from the Java side always arrive on the main thread. The
// delegate then forwards these notifications to the threads of each observer
// (network change notifier). The network change notifier than processes the
// state change, and notifies each of its observers on their threads.
//
// This can also be seen as:
// Android platform -> NetworkChangeNotifier (Java) ->
// NetworkChangeNotifierDelegateAndroid -> NetworkChangeNotifierAndroid.
#include "net/android/network_change_notifier_android.h"
#include <string>
#include <unordered_set>
#include "base/android/build_info.h"
#include "base/bind.h"
#include "base/callback_helpers.h"
#include "base/metrics/histogram_macros.h"
#include "base/sequenced_task_runner.h"
#include "base/task/post_task.h"
#include "base/task/task_traits.h"
#include "base/task/thread_pool.h"
#include "base/threading/thread.h"
#include "net/base/address_tracker_linux.h"
namespace net {
// Expose kInvalidNetworkHandle out to Java as NetId.INVALID. The notion of
// a NetID is an Android framework one, see android.net.Network.netId.
// NetworkChangeNotifierAndroid implements NetworkHandle to simply be the NetID.
// GENERATED_JAVA_ENUM_PACKAGE: org.chromium.net
enum NetId {
// Cannot use |kInvalidNetworkHandle| here as the Java generator fails,
// instead enforce their equality with CHECK in
// NetworkChangeNotifierAndroid().
INVALID = -1
};
// Thread on which we can run DnsConfigService, which requires a TYPE_IO
// message loop to monitor /system/etc/hosts.
class NetworkChangeNotifierAndroid::BlockingThreadObjects {
public:
BlockingThreadObjects()
: address_tracker_(
base::DoNothing(),
base::DoNothing(),
// We're only interested in tunnel interface changes.
base::BindRepeating(NotifyNetworkChangeNotifierObservers),
std::unordered_set<std::string>()) {}
BlockingThreadObjects(const BlockingThreadObjects&) = delete;
BlockingThreadObjects& operator=(const BlockingThreadObjects&) = delete;
void Init() {
address_tracker_.Init();
}
static void NotifyNetworkChangeNotifierObservers() {
NetworkChangeNotifier::NotifyObserversOfIPAddressChange();
NetworkChangeNotifier::NotifyObserversOfConnectionTypeChange();
}
private:
// Used to detect tunnel state changes.
internal::AddressTrackerLinux address_tracker_;
};
NetworkChangeNotifierAndroid::~NetworkChangeNotifierAndroid() {
ClearGlobalPointer();
delegate_->UnregisterObserver(this);
}
NetworkChangeNotifier::ConnectionType
NetworkChangeNotifierAndroid::GetCurrentConnectionType() const {
return delegate_->GetCurrentConnectionType();
}
NetworkChangeNotifier::ConnectionSubtype
NetworkChangeNotifierAndroid::GetCurrentConnectionSubtype() const {
return delegate_->GetCurrentConnectionSubtype();
}
void NetworkChangeNotifierAndroid::GetCurrentMaxBandwidthAndConnectionType(
double* max_bandwidth_mbps,
ConnectionType* connection_type) const {
delegate_->GetCurrentMaxBandwidthAndConnectionType(max_bandwidth_mbps,
connection_type);
}
void NetworkChangeNotifierAndroid::ForceNetworkHandlesSupportedForTesting() {
force_network_handles_supported_for_testing_ = true;
}
bool NetworkChangeNotifierAndroid::AreNetworkHandlesCurrentlySupported() const {
// Notifications for API using NetworkHandles and querying using
// NetworkHandles only implemented for Android versions >= L.
return force_network_handles_supported_for_testing_ ||
(base::android::BuildInfo::GetInstance()->sdk_int() >=
base::android::SDK_VERSION_LOLLIPOP &&
!delegate_->RegisterNetworkCallbackFailed());
}
void NetworkChangeNotifierAndroid::GetCurrentConnectedNetworks(
NetworkChangeNotifier::NetworkList* networks) const {
delegate_->GetCurrentlyConnectedNetworks(networks);
}
NetworkChangeNotifier::ConnectionType
NetworkChangeNotifierAndroid::GetCurrentNetworkConnectionType(
NetworkHandle network) const {
return delegate_->GetNetworkConnectionType(network);
}
NetworkChangeNotifier::NetworkHandle
NetworkChangeNotifierAndroid::GetCurrentDefaultNetwork() const {
return delegate_->GetCurrentDefaultNetwork();
}
void NetworkChangeNotifierAndroid::OnConnectionTypeChanged() {
BlockingThreadObjects::NotifyNetworkChangeNotifierObservers();
}
void NetworkChangeNotifierAndroid::OnMaxBandwidthChanged(
double max_bandwidth_mbps,
ConnectionType type) {
NetworkChangeNotifier::NotifyObserversOfMaxBandwidthChange(max_bandwidth_mbps,
type);
}
void NetworkChangeNotifierAndroid::OnNetworkConnected(NetworkHandle network) {
NetworkChangeNotifier::NotifyObserversOfSpecificNetworkChange(
NetworkChangeType::CONNECTED, network);
}
void NetworkChangeNotifierAndroid::OnNetworkSoonToDisconnect(
NetworkHandle network) {
NetworkChangeNotifier::NotifyObserversOfSpecificNetworkChange(
NetworkChangeType::SOON_TO_DISCONNECT, network);
}
void NetworkChangeNotifierAndroid::OnNetworkDisconnected(
NetworkHandle network) {
NetworkChangeNotifier::NotifyObserversOfSpecificNetworkChange(
NetworkChangeType::DISCONNECTED, network);
}
void NetworkChangeNotifierAndroid::OnNetworkMadeDefault(NetworkHandle network) {
NetworkChangeNotifier::NotifyObserversOfSpecificNetworkChange(
NetworkChangeType::MADE_DEFAULT, network);
}
NetworkChangeNotifierAndroid::NetworkChangeNotifierAndroid(
NetworkChangeNotifierDelegateAndroid* delegate)
: NetworkChangeNotifier(NetworkChangeCalculatorParamsAndroid()),
delegate_(delegate),
blocking_thread_objects_(nullptr, base::OnTaskRunnerDeleter(nullptr)),
force_network_handles_supported_for_testing_(false) {
CHECK_EQ(NetId::INVALID, NetworkChangeNotifier::kInvalidNetworkHandle)
<< "kInvalidNetworkHandle doesn't match NetId::INVALID";
delegate_->RegisterObserver(this);
// Since Android P, ConnectivityManager's signals include VPNs so we don't
// need to use AddressTrackerLinux.
if (base::android::BuildInfo::GetInstance()->sdk_int() <
base::android::SDK_VERSION_P) {
// |blocking_thread_objects_| will live on this runner.
scoped_refptr<base::SequencedTaskRunner> blocking_thread_runner =
base::ThreadPool::CreateSequencedTaskRunner({base::MayBlock()});
blocking_thread_objects_ =
std::unique_ptr<BlockingThreadObjects, base::OnTaskRunnerDeleter>(
new BlockingThreadObjects(),
// Ensure |blocking_thread_objects_| lives on
// |blocking_thread_runner| to prevent races where
// NetworkChangeNotifierAndroid outlives
// TaskEnvironment. https://crbug.com/938126
base::OnTaskRunnerDeleter(blocking_thread_runner));
blocking_thread_runner->PostTask(
FROM_HERE,
base::BindOnce(&BlockingThreadObjects::Init,
// The Unretained pointer is safe here because it's
// posted before the deleter can post.
base::Unretained(blocking_thread_objects_.get())));
}
}
// static
NetworkChangeNotifier::NetworkChangeCalculatorParams
NetworkChangeNotifierAndroid::NetworkChangeCalculatorParamsAndroid() {
NetworkChangeCalculatorParams params;
// IPAddressChanged is produced immediately prior to ConnectionTypeChanged
// so delay IPAddressChanged so they get merged with the following
// ConnectionTypeChanged signal.
params.ip_address_offline_delay_ = base::TimeDelta::FromSeconds(1);
params.ip_address_online_delay_ = base::TimeDelta::FromSeconds(1);
params.connection_type_offline_delay_ = base::TimeDelta::FromSeconds(0);
params.connection_type_online_delay_ = base::TimeDelta::FromSeconds(0);
return params;
}
} // namespace net