webrtc/api/java/jni/androidnetworkmonitor_jni.cc - src - Git at Google

 /*
  *  Copyright 2015 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/api/java/jni/androidnetworkmonitor_jni.h"

 #include <dlfcn.h>

 #include "webrtc/api/java/jni/classreferenceholder.h"
 #include "webrtc/api/java/jni/jni_helpers.h"
 #include "webrtc/base/bind.h"
 #include "webrtc/base/common.h"
 #include "webrtc/base/ipaddress.h"

 namespace webrtc_jni {

 jobject AndroidNetworkMonitor::application_context_ = nullptr;

 static NetworkType GetNetworkTypeFromJava(JNIEnv* jni, jobject j_network_type) {
   std::string enum_name =
       GetJavaEnumName(jni, "org/webrtc/NetworkMonitorAutoDetect$ConnectionType",
                       j_network_type);
   if (enum_name == "CONNECTION_UNKNOWN") {
     return NetworkType::NETWORK_UNKNOWN;
   }
   if (enum_name == "CONNECTION_ETHERNET") {
     return NetworkType::NETWORK_ETHERNET;
   }
   if (enum_name == "CONNECTION_WIFI") {
     return NetworkType::NETWORK_WIFI;
   }
   if (enum_name == "CONNECTION_4G") {
     return NetworkType::NETWORK_4G;
   }
   if (enum_name == "CONNECTION_3G") {
     return NetworkType::NETWORK_3G;
   }
   if (enum_name == "CONNECTION_2G") {
     return NetworkType::NETWORK_2G;
   }
   if (enum_name == "CONNECTION_BLUETOOTH") {
     return NetworkType::NETWORK_BLUETOOTH;
   }
   if (enum_name == "CONNECTION_NONE") {
     return NetworkType::NETWORK_NONE;
   }
   ASSERT(false);
   return NetworkType::NETWORK_UNKNOWN;
 }

 static rtc::AdapterType AdapterTypeFromNetworkType(NetworkType network_type) {
   switch (network_type) {
     case NETWORK_UNKNOWN:
       RTC_DCHECK(false) << "Unknown network type";
       return rtc::ADAPTER_TYPE_UNKNOWN;
     case NETWORK_ETHERNET:
       return rtc::ADAPTER_TYPE_ETHERNET;
     case NETWORK_WIFI:
       return rtc::ADAPTER_TYPE_WIFI;
     case NETWORK_4G:
     case NETWORK_3G:
     case NETWORK_2G:
       return rtc::ADAPTER_TYPE_CELLULAR;
     case NETWORK_BLUETOOTH:
       // There is no corresponding mapping for bluetooth networks.
       // Map it to VPN for now.
       return rtc::ADAPTER_TYPE_VPN;
     default:
       RTC_DCHECK(false) << "Invalid network type " << network_type;
       return rtc::ADAPTER_TYPE_UNKNOWN;
   }
 }

 static rtc::IPAddress GetIPAddressFromJava(JNIEnv* jni, jobject j_ip_address) {
   jclass j_ip_address_class = GetObjectClass(jni, j_ip_address);
   jfieldID j_address_id = GetFieldID(jni, j_ip_address_class, "address", "[B");
   jbyteArray j_addresses =
       static_cast<jbyteArray>(GetObjectField(jni, j_ip_address, j_address_id));
   size_t address_length = jni->GetArrayLength(j_addresses);
   jbyte* addr_array = jni->GetByteArrayElements(j_addresses, nullptr);
   CHECK_EXCEPTION(jni) << "Error during GetIPAddressFromJava";
   if (address_length == 4) {
     // IP4
     struct in_addr ip4_addr;
     memcpy(&ip4_addr.s_addr, addr_array, 4);
     jni->ReleaseByteArrayElements(j_addresses, addr_array, JNI_ABORT);
     return rtc::IPAddress(ip4_addr);
   }
   // IP6
   RTC_CHECK(address_length == 16);
   struct in6_addr ip6_addr;
   memcpy(ip6_addr.s6_addr, addr_array, address_length);
   jni->ReleaseByteArrayElements(j_addresses, addr_array, JNI_ABORT);
   return rtc::IPAddress(ip6_addr);
 }

 static void GetIPAddressesFromJava(JNIEnv* jni,
                                    jobjectArray j_ip_addresses,
                                    std::vector<rtc::IPAddress>* ip_addresses) {
   ip_addresses->clear();
   size_t num_addresses = jni->GetArrayLength(j_ip_addresses);
   CHECK_EXCEPTION(jni) << "Error during GetArrayLength";
   for (size_t i = 0; i < num_addresses; ++i) {
     jobject j_ip_address = jni->GetObjectArrayElement(j_ip_addresses, i);
     CHECK_EXCEPTION(jni) << "Error during GetObjectArrayElement";
     rtc::IPAddress ip = GetIPAddressFromJava(jni, j_ip_address);
     ip_addresses->push_back(ip);
   }
 }

 static NetworkInformation GetNetworkInformationFromJava(
     JNIEnv* jni,
     jobject j_network_info) {
   jclass j_network_info_class = GetObjectClass(jni, j_network_info);
   jfieldID j_interface_name_id =
       GetFieldID(jni, j_network_info_class, "name", "Ljava/lang/String;");
   jfieldID j_handle_id = GetFieldID(jni, j_network_info_class, "handle", "I");
   jfieldID j_type_id =
       GetFieldID(jni, j_network_info_class, "type",
                  "Lorg/webrtc/NetworkMonitorAutoDetect$ConnectionType;");
   jfieldID j_ip_addresses_id =
       GetFieldID(jni, j_network_info_class, "ipAddresses",
                  "[Lorg/webrtc/NetworkMonitorAutoDetect$IPAddress;");

   NetworkInformation network_info;
   network_info.interface_name = JavaToStdString(
       jni, GetStringField(jni, j_network_info, j_interface_name_id));
   network_info.handle =
       static_cast<NetworkHandle>(GetIntField(jni, j_network_info, j_handle_id));
   network_info.type = GetNetworkTypeFromJava(
       jni, GetObjectField(jni, j_network_info, j_type_id));
   jobjectArray j_ip_addresses = static_cast<jobjectArray>(
       GetObjectField(jni, j_network_info, j_ip_addresses_id));
   GetIPAddressesFromJava(jni, j_ip_addresses, &network_info.ip_addresses);
   return network_info;
 }

 std::string NetworkInformation::ToString() const {
   std::stringstream ss;
   ss << "NetInfo[name " << interface_name << "; handle " << handle << "; type "
      << type << "; address";
   for (const rtc::IPAddress address : ip_addresses) {
     ss << " " << address.ToString();
   }
   ss << "]";
   return ss.str();
 }

 // static
 void AndroidNetworkMonitor::SetAndroidContext(JNIEnv* jni, jobject context) {
   if (application_context_) {
     jni->DeleteGlobalRef(application_context_);
   }
   application_context_ = NewGlobalRef(jni, context);
 }

 AndroidNetworkMonitor::AndroidNetworkMonitor()
     : j_network_monitor_class_(jni(),
                                FindClass(jni(), "org/webrtc/NetworkMonitor")),
       j_network_monitor_(
           jni(),
           jni()->CallStaticObjectMethod(
               *j_network_monitor_class_,
               GetStaticMethodID(
                   jni(),
                   *j_network_monitor_class_,
                   "init",
                   "(Landroid/content/Context;)Lorg/webrtc/NetworkMonitor;"),
               application_context_)) {
   ASSERT(application_context_ != nullptr);
   CHECK_EXCEPTION(jni()) << "Error during NetworkMonitor.init";
 }

 void AndroidNetworkMonitor::Start() {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   if (started_) {
     return;
   }
   started_ = true;

   // This is kind of magic behavior, but doing this allows the SocketServer to
   // use this as a NetworkBinder to bind sockets on a particular network when
   // it creates sockets.
   worker_thread()->socketserver()->set_network_binder(this);

   jmethodID m =
       GetMethodID(jni(), *j_network_monitor_class_, "startMonitoring", "(J)V");
   jni()->CallVoidMethod(*j_network_monitor_, m, jlongFromPointer(this));
   CHECK_EXCEPTION(jni()) << "Error during CallVoidMethod";
 }

 void AndroidNetworkMonitor::Stop() {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   if (!started_) {
     return;
   }
   started_ = false;

   // Once the network monitor stops, it will clear all network information and
   // it won't find the network handle to bind anyway.
   if (worker_thread()->socketserver()->network_binder() == this) {
     worker_thread()->socketserver()->set_network_binder(nullptr);
   }

   jmethodID m =
       GetMethodID(jni(), *j_network_monitor_class_, "stopMonitoring", "(J)V");
   jni()->CallVoidMethod(*j_network_monitor_, m, jlongFromPointer(this));
   CHECK_EXCEPTION(jni()) << "Error during NetworkMonitor.stopMonitoring";

   network_handle_by_address_.clear();
   network_info_by_handle_.clear();
 }

 int AndroidNetworkMonitor::BindSocketToNetwork(int socket_fd,
                                                const rtc::IPAddress& address) {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   // Android prior to Lollipop didn't have support for binding sockets to
   // networks. However, in that case it should not have reached here because
   // |network_handle_by_address_| should only be populated in Android Lollipop
   // and above.
   // TODO(honghaiz): Add a check for Android version here so that it won't try
   // to look for handle if the Android version is before Lollipop.
   auto iter = network_handle_by_address_.find(address);
   if (iter == network_handle_by_address_.end()) {
     return rtc::NETWORK_BIND_ADDRESS_NOT_FOUND;
   }
   NetworkHandle network_handle = iter->second;

   // NOTE: This does rely on Android implementation details, but
   // these details are unlikely to change.
   typedef int (*SetNetworkForSocket)(unsigned netId, int socketFd);
   static SetNetworkForSocket setNetworkForSocket;
   // This is not threadsafe, but we are running this only on the worker thread.
   if (setNetworkForSocket == nullptr) {
     // Android's netd client library should always be loaded in our address
     // space as it shims libc functions like connect().
     const std::string net_library_path = "libnetd_client.so";
     void* lib = dlopen(net_library_path.c_str(), RTLD_LAZY);
     if (lib == nullptr) {
       LOG(LS_ERROR) << "Library " << net_library_path << " not found!";
       return rtc::NETWORK_BIND_NOT_IMPLEMENTED;
     }
     setNetworkForSocket = reinterpret_cast<SetNetworkForSocket>(
         dlsym(lib, "setNetworkForSocket"));
   }
   if (setNetworkForSocket == nullptr) {
     LOG(LS_ERROR) << "Symbol setNetworkForSocket not found ";
     return rtc::NETWORK_BIND_NOT_IMPLEMENTED;
   }
   int rv = setNetworkForSocket(network_handle, socket_fd);
   // If |network| has since disconnected, |rv| will be ENONET.  Surface this as
   // ERR_NETWORK_CHANGED, rather than MapSystemError(ENONET) which gives back
   // the less descriptive ERR_FAILED.
   if (rv == 0) {
     return rtc::NETWORK_BIND_SUCCESS;
   }
   if (rv == ENONET) {
     return rtc::NETWORK_BIND_NETWORK_CHANGED;
   }
   return rtc::NETWORK_BIND_FAILURE;
 }

 void AndroidNetworkMonitor::OnNetworkConnected(
     const NetworkInformation& network_info) {
   worker_thread()->Invoke<void>(
       RTC_FROM_HERE, rtc::Bind(&AndroidNetworkMonitor::OnNetworkConnected_w,
                                this, network_info));
   // Fire SignalNetworksChanged to update the list of networks.
   OnNetworksChanged();
 }

 void AndroidNetworkMonitor::OnNetworkConnected_w(
     const NetworkInformation& network_info) {
   LOG(LS_INFO) << "Network connected: " << network_info.ToString();
   adapter_type_by_name_[network_info.interface_name] =
       AdapterTypeFromNetworkType(network_info.type);
   network_info_by_handle_[network_info.handle] = network_info;
   for (const rtc::IPAddress& address : network_info.ip_addresses) {
     network_handle_by_address_[address] = network_info.handle;
   }
 }

 void AndroidNetworkMonitor::OnNetworkDisconnected(NetworkHandle handle) {
   LOG(LS_INFO) << "Network disconnected for handle " << handle;
   worker_thread()->Invoke<void>(
       RTC_FROM_HERE,
       rtc::Bind(&AndroidNetworkMonitor::OnNetworkDisconnected_w, this, handle));
 }

 void AndroidNetworkMonitor::OnNetworkDisconnected_w(NetworkHandle handle) {
   auto iter = network_info_by_handle_.find(handle);
   if (iter != network_info_by_handle_.end()) {
     for (const rtc::IPAddress& address : iter->second.ip_addresses) {
       network_handle_by_address_.erase(address);
     }
     network_info_by_handle_.erase(iter);
   }
 }

 void AndroidNetworkMonitor::SetNetworkInfos(
     const std::vector<NetworkInformation>& network_infos) {
   RTC_CHECK(thread_checker_.CalledOnValidThread());
   network_handle_by_address_.clear();
   network_info_by_handle_.clear();
   LOG(LS_INFO) << "Android network monitor found " << network_infos.size()
                << " networks";
   for (NetworkInformation network : network_infos) {
     OnNetworkConnected_w(network);
   }
 }

 rtc::AdapterType AndroidNetworkMonitor::GetAdapterType(
     const std::string& if_name) {
   auto iter = adapter_type_by_name_.find(if_name);
   rtc::AdapterType type = (iter == adapter_type_by_name_.end())
                               ? rtc::ADAPTER_TYPE_UNKNOWN
                               : iter->second;
   if (type == rtc::ADAPTER_TYPE_UNKNOWN) {
     LOG(LS_WARNING) << "Get an unknown type for the interface " << if_name;
   }
   return type;
 }

 rtc::NetworkMonitorInterface*
 AndroidNetworkMonitorFactory::CreateNetworkMonitor() {
   return new AndroidNetworkMonitor();
 }

 JOW(void, NetworkMonitor_nativeNotifyConnectionTypeChanged)(
     JNIEnv* jni, jobject j_monitor, jlong j_native_monitor) {
   rtc::NetworkMonitorInterface* network_monitor =
       reinterpret_cast<rtc::NetworkMonitorInterface*>(j_native_monitor);
   network_monitor->OnNetworksChanged();
 }

 JOW(void, NetworkMonitor_nativeNotifyOfActiveNetworkList)(
     JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
     jobjectArray j_network_infos) {
   AndroidNetworkMonitor* network_monitor =
       reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
   std::vector<NetworkInformation> network_infos;
   size_t num_networks = jni->GetArrayLength(j_network_infos);
   for (size_t i = 0; i < num_networks; ++i) {
     jobject j_network_info = jni->GetObjectArrayElement(j_network_infos, i);
     CHECK_EXCEPTION(jni) << "Error during GetObjectArrayElement";
     network_infos.push_back(GetNetworkInformationFromJava(jni, j_network_info));
   }
   network_monitor->SetNetworkInfos(network_infos);
 }

 JOW(void, NetworkMonitor_nativeNotifyOfNetworkConnect)(
     JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
     jobject j_network_info) {
   AndroidNetworkMonitor* network_monitor =
       reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
   NetworkInformation network_info =
       GetNetworkInformationFromJava(jni, j_network_info);
   network_monitor->OnNetworkConnected(network_info);
 }

 JOW(void, NetworkMonitor_nativeNotifyOfNetworkDisconnect)(
     JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
     jint network_handle) {
   AndroidNetworkMonitor* network_monitor =
       reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
   network_monitor->OnNetworkDisconnected(
       static_cast<NetworkHandle>(network_handle));
 }

 }  // namespace webrtc_jni
	/*
	* Copyright 2015 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/api/java/jni/androidnetworkmonitor_jni.h"

	#include <dlfcn.h>

	#include "webrtc/api/java/jni/classreferenceholder.h"
	#include "webrtc/api/java/jni/jni_helpers.h"
	#include "webrtc/base/bind.h"
	#include "webrtc/base/common.h"
	#include "webrtc/base/ipaddress.h"

	namespace webrtc_jni {

	jobject AndroidNetworkMonitor::application_context_ = nullptr;

	static NetworkType GetNetworkTypeFromJava(JNIEnv* jni, jobject j_network_type) {
	std::string enum_name =
	GetJavaEnumName(jni, "org/webrtc/NetworkMonitorAutoDetect$ConnectionType",
	j_network_type);
	if (enum_name == "CONNECTION_UNKNOWN") {
	return NetworkType::NETWORK_UNKNOWN;
	}
	if (enum_name == "CONNECTION_ETHERNET") {
	return NetworkType::NETWORK_ETHERNET;
	}
	if (enum_name == "CONNECTION_WIFI") {
	return NetworkType::NETWORK_WIFI;
	}
	if (enum_name == "CONNECTION_4G") {
	return NetworkType::NETWORK_4G;
	}
	if (enum_name == "CONNECTION_3G") {
	return NetworkType::NETWORK_3G;
	}
	if (enum_name == "CONNECTION_2G") {
	return NetworkType::NETWORK_2G;
	}
	if (enum_name == "CONNECTION_BLUETOOTH") {
	return NetworkType::NETWORK_BLUETOOTH;
	}
	if (enum_name == "CONNECTION_NONE") {
	return NetworkType::NETWORK_NONE;
	}
	ASSERT(false);
	return NetworkType::NETWORK_UNKNOWN;
	}

	static rtc::AdapterType AdapterTypeFromNetworkType(NetworkType network_type) {
	switch (network_type) {
	case NETWORK_UNKNOWN:
	RTC_DCHECK(false) << "Unknown network type";
	return rtc::ADAPTER_TYPE_UNKNOWN;
	case NETWORK_ETHERNET:
	return rtc::ADAPTER_TYPE_ETHERNET;
	case NETWORK_WIFI:
	return rtc::ADAPTER_TYPE_WIFI;
	case NETWORK_4G:
	case NETWORK_3G:
	case NETWORK_2G:
	return rtc::ADAPTER_TYPE_CELLULAR;
	case NETWORK_BLUETOOTH:
	// There is no corresponding mapping for bluetooth networks.
	// Map it to VPN for now.
	return rtc::ADAPTER_TYPE_VPN;
	default:
	RTC_DCHECK(false) << "Invalid network type " << network_type;
	return rtc::ADAPTER_TYPE_UNKNOWN;
	}
	}

	static rtc::IPAddress GetIPAddressFromJava(JNIEnv* jni, jobject j_ip_address) {
	jclass j_ip_address_class = GetObjectClass(jni, j_ip_address);
	jfieldID j_address_id = GetFieldID(jni, j_ip_address_class, "address", "[B");
	jbyteArray j_addresses =
	static_cast<jbyteArray>(GetObjectField(jni, j_ip_address, j_address_id));
	size_t address_length = jni->GetArrayLength(j_addresses);
	jbyte* addr_array = jni->GetByteArrayElements(j_addresses, nullptr);
	CHECK_EXCEPTION(jni) << "Error during GetIPAddressFromJava";
	if (address_length == 4) {
	// IP4
	struct in_addr ip4_addr;
	memcpy(&ip4_addr.s_addr, addr_array, 4);
	jni->ReleaseByteArrayElements(j_addresses, addr_array, JNI_ABORT);
	return rtc::IPAddress(ip4_addr);
	}
	// IP6
	RTC_CHECK(address_length == 16);
	struct in6_addr ip6_addr;
	memcpy(ip6_addr.s6_addr, addr_array, address_length);
	jni->ReleaseByteArrayElements(j_addresses, addr_array, JNI_ABORT);
	return rtc::IPAddress(ip6_addr);
	}

	static void GetIPAddressesFromJava(JNIEnv* jni,
	jobjectArray j_ip_addresses,
	std::vector<rtc::IPAddress>* ip_addresses) {
	ip_addresses->clear();
	size_t num_addresses = jni->GetArrayLength(j_ip_addresses);
	CHECK_EXCEPTION(jni) << "Error during GetArrayLength";
	for (size_t i = 0; i < num_addresses; ++i) {
	jobject j_ip_address = jni->GetObjectArrayElement(j_ip_addresses, i);
	CHECK_EXCEPTION(jni) << "Error during GetObjectArrayElement";
	rtc::IPAddress ip = GetIPAddressFromJava(jni, j_ip_address);
	ip_addresses->push_back(ip);
	}
	}

	static NetworkInformation GetNetworkInformationFromJava(
	JNIEnv* jni,
	jobject j_network_info) {
	jclass j_network_info_class = GetObjectClass(jni, j_network_info);
	jfieldID j_interface_name_id =
	GetFieldID(jni, j_network_info_class, "name", "Ljava/lang/String;");
	jfieldID j_handle_id = GetFieldID(jni, j_network_info_class, "handle", "I");
	jfieldID j_type_id =
	GetFieldID(jni, j_network_info_class, "type",
	"Lorg/webrtc/NetworkMonitorAutoDetect$ConnectionType;");
	jfieldID j_ip_addresses_id =
	GetFieldID(jni, j_network_info_class, "ipAddresses",
	"[Lorg/webrtc/NetworkMonitorAutoDetect$IPAddress;");

	NetworkInformation network_info;
	network_info.interface_name = JavaToStdString(
	jni, GetStringField(jni, j_network_info, j_interface_name_id));
	network_info.handle =
	static_cast<NetworkHandle>(GetIntField(jni, j_network_info, j_handle_id));
	network_info.type = GetNetworkTypeFromJava(
	jni, GetObjectField(jni, j_network_info, j_type_id));
	jobjectArray j_ip_addresses = static_cast<jobjectArray>(
	GetObjectField(jni, j_network_info, j_ip_addresses_id));
	GetIPAddressesFromJava(jni, j_ip_addresses, &network_info.ip_addresses);
	return network_info;
	}

	std::string NetworkInformation::ToString() const {
	std::stringstream ss;
	ss << "NetInfo[name " << interface_name << "; handle " << handle << "; type "
	<< type << "; address";
	for (const rtc::IPAddress address : ip_addresses) {
	ss << " " << address.ToString();
	}
	ss << "]";
	return ss.str();
	}

	// static
	void AndroidNetworkMonitor::SetAndroidContext(JNIEnv* jni, jobject context) {
	if (application_context_) {
	jni->DeleteGlobalRef(application_context_);
	}
	application_context_ = NewGlobalRef(jni, context);
	}

	AndroidNetworkMonitor::AndroidNetworkMonitor()
	: j_network_monitor_class_(jni(),
	FindClass(jni(), "org/webrtc/NetworkMonitor")),
	j_network_monitor_(
	jni(),
	jni()->CallStaticObjectMethod(
	*j_network_monitor_class_,
	GetStaticMethodID(
	jni(),
	*j_network_monitor_class_,
	"init",
	"(Landroid/content/Context;)Lorg/webrtc/NetworkMonitor;"),
	application_context_)) {
	ASSERT(application_context_ != nullptr);
	CHECK_EXCEPTION(jni()) << "Error during NetworkMonitor.init";
	}

	void AndroidNetworkMonitor::Start() {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	if (started_) {
	return;
	}
	started_ = true;

	// This is kind of magic behavior, but doing this allows the SocketServer to
	// use this as a NetworkBinder to bind sockets on a particular network when
	// it creates sockets.
	worker_thread()->socketserver()->set_network_binder(this);

	jmethodID m =
	GetMethodID(jni(), *j_network_monitor_class_, "startMonitoring", "(J)V");
	jni()->CallVoidMethod(*j_network_monitor_, m, jlongFromPointer(this));
	CHECK_EXCEPTION(jni()) << "Error during CallVoidMethod";
	}

	void AndroidNetworkMonitor::Stop() {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	if (!started_) {
	return;
	}
	started_ = false;

	// Once the network monitor stops, it will clear all network information and
	// it won't find the network handle to bind anyway.
	if (worker_thread()->socketserver()->network_binder() == this) {
	worker_thread()->socketserver()->set_network_binder(nullptr);
	}

	jmethodID m =
	GetMethodID(jni(), *j_network_monitor_class_, "stopMonitoring", "(J)V");
	jni()->CallVoidMethod(*j_network_monitor_, m, jlongFromPointer(this));
	CHECK_EXCEPTION(jni()) << "Error during NetworkMonitor.stopMonitoring";

	network_handle_by_address_.clear();
	network_info_by_handle_.clear();
	}

	int AndroidNetworkMonitor::BindSocketToNetwork(int socket_fd,
	const rtc::IPAddress& address) {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	// Android prior to Lollipop didn't have support for binding sockets to
	// networks. However, in that case it should not have reached here because
	// \|network_handle_by_address_\| should only be populated in Android Lollipop
	// and above.
	// TODO(honghaiz): Add a check for Android version here so that it won't try
	// to look for handle if the Android version is before Lollipop.
	auto iter = network_handle_by_address_.find(address);
	if (iter == network_handle_by_address_.end()) {
	return rtc::NETWORK_BIND_ADDRESS_NOT_FOUND;
	}
	NetworkHandle network_handle = iter->second;

	// NOTE: This does rely on Android implementation details, but
	// these details are unlikely to change.
	typedef int (*SetNetworkForSocket)(unsigned netId, int socketFd);
	static SetNetworkForSocket setNetworkForSocket;
	// This is not threadsafe, but we are running this only on the worker thread.
	if (setNetworkForSocket == nullptr) {
	// Android's netd client library should always be loaded in our address
	// space as it shims libc functions like connect().
	const std::string net_library_path = "libnetd_client.so";
	void* lib = dlopen(net_library_path.c_str(), RTLD_LAZY);
	if (lib == nullptr) {
	LOG(LS_ERROR) << "Library " << net_library_path << " not found!";
	return rtc::NETWORK_BIND_NOT_IMPLEMENTED;
	}
	setNetworkForSocket = reinterpret_cast<SetNetworkForSocket>(
	dlsym(lib, "setNetworkForSocket"));
	}
	if (setNetworkForSocket == nullptr) {
	LOG(LS_ERROR) << "Symbol setNetworkForSocket not found ";
	return rtc::NETWORK_BIND_NOT_IMPLEMENTED;
	}
	int rv = setNetworkForSocket(network_handle, socket_fd);
	// If \|network\| has since disconnected, \|rv\| will be ENONET. Surface this as
	// ERR_NETWORK_CHANGED, rather than MapSystemError(ENONET) which gives back
	// the less descriptive ERR_FAILED.
	if (rv == 0) {
	return rtc::NETWORK_BIND_SUCCESS;
	}
	if (rv == ENONET) {
	return rtc::NETWORK_BIND_NETWORK_CHANGED;
	}
	return rtc::NETWORK_BIND_FAILURE;
	}

	void AndroidNetworkMonitor::OnNetworkConnected(
	const NetworkInformation& network_info) {
	worker_thread()->Invoke<void>(
	RTC_FROM_HERE, rtc::Bind(&AndroidNetworkMonitor::OnNetworkConnected_w,
	this, network_info));
	// Fire SignalNetworksChanged to update the list of networks.
	OnNetworksChanged();
	}

	void AndroidNetworkMonitor::OnNetworkConnected_w(
	const NetworkInformation& network_info) {
	LOG(LS_INFO) << "Network connected: " << network_info.ToString();
	adapter_type_by_name_[network_info.interface_name] =
	AdapterTypeFromNetworkType(network_info.type);
	network_info_by_handle_[network_info.handle] = network_info;
	for (const rtc::IPAddress& address : network_info.ip_addresses) {
	network_handle_by_address_[address] = network_info.handle;
	}
	}

	void AndroidNetworkMonitor::OnNetworkDisconnected(NetworkHandle handle) {
	LOG(LS_INFO) << "Network disconnected for handle " << handle;
	worker_thread()->Invoke<void>(
	RTC_FROM_HERE,
	rtc::Bind(&AndroidNetworkMonitor::OnNetworkDisconnected_w, this, handle));
	}

	void AndroidNetworkMonitor::OnNetworkDisconnected_w(NetworkHandle handle) {
	auto iter = network_info_by_handle_.find(handle);
	if (iter != network_info_by_handle_.end()) {
	for (const rtc::IPAddress& address : iter->second.ip_addresses) {
	network_handle_by_address_.erase(address);
	}
	network_info_by_handle_.erase(iter);
	}
	}

	void AndroidNetworkMonitor::SetNetworkInfos(
	const std::vector<NetworkInformation>& network_infos) {
	RTC_CHECK(thread_checker_.CalledOnValidThread());
	network_handle_by_address_.clear();
	network_info_by_handle_.clear();
	LOG(LS_INFO) << "Android network monitor found " << network_infos.size()
	<< " networks";
	for (NetworkInformation network : network_infos) {
	OnNetworkConnected_w(network);
	}
	}

	rtc::AdapterType AndroidNetworkMonitor::GetAdapterType(
	const std::string& if_name) {
	auto iter = adapter_type_by_name_.find(if_name);
	rtc::AdapterType type = (iter == adapter_type_by_name_.end())
	? rtc::ADAPTER_TYPE_UNKNOWN
	: iter->second;
	if (type == rtc::ADAPTER_TYPE_UNKNOWN) {
	LOG(LS_WARNING) << "Get an unknown type for the interface " << if_name;
	}
	return type;
	}

	rtc::NetworkMonitorInterface*
	AndroidNetworkMonitorFactory::CreateNetworkMonitor() {
	return new AndroidNetworkMonitor();
	}

	JOW(void, NetworkMonitor_nativeNotifyConnectionTypeChanged)(
	JNIEnv* jni, jobject j_monitor, jlong j_native_monitor) {
	rtc::NetworkMonitorInterface* network_monitor =
	reinterpret_cast<rtc::NetworkMonitorInterface*>(j_native_monitor);
	network_monitor->OnNetworksChanged();
	}

	JOW(void, NetworkMonitor_nativeNotifyOfActiveNetworkList)(
	JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
	jobjectArray j_network_infos) {
	AndroidNetworkMonitor* network_monitor =
	reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
	std::vector<NetworkInformation> network_infos;
	size_t num_networks = jni->GetArrayLength(j_network_infos);
	for (size_t i = 0; i < num_networks; ++i) {
	jobject j_network_info = jni->GetObjectArrayElement(j_network_infos, i);
	CHECK_EXCEPTION(jni) << "Error during GetObjectArrayElement";
	network_infos.push_back(GetNetworkInformationFromJava(jni, j_network_info));
	}
	network_monitor->SetNetworkInfos(network_infos);
	}

	JOW(void, NetworkMonitor_nativeNotifyOfNetworkConnect)(
	JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
	jobject j_network_info) {
	AndroidNetworkMonitor* network_monitor =
	reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
	NetworkInformation network_info =
	GetNetworkInformationFromJava(jni, j_network_info);
	network_monitor->OnNetworkConnected(network_info);
	}

	JOW(void, NetworkMonitor_nativeNotifyOfNetworkDisconnect)(
	JNIEnv* jni, jobject j_monitor, jlong j_native_monitor,
	jint network_handle) {
	AndroidNetworkMonitor* network_monitor =
	reinterpret_cast<AndroidNetworkMonitor*>(j_native_monitor);
	network_monitor->OnNetworkDisconnected(
	static_cast<NetworkHandle>(network_handle));
	}

	} // namespace webrtc_jni