osp/impl/internal_services.cc - platform/external/openscreen - Git at Google

 // Copyright 2018 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 "osp/impl/internal_services.h"

 #include <algorithm>
 #include <utility>

 #include "osp/impl/discovery/mdns/mdns_responder_adapter_impl.h"
 #include "osp/impl/mdns_responder_service.h"
 #include "platform/api/udp_socket.h"
 #include "platform/base/error.h"
 #include "util/osp_logging.h"

 namespace openscreen {
 namespace osp {
 namespace {

 constexpr char kServiceName[] = "_openscreen";
 constexpr char kServiceProtocol[] = "_udp";
 const IPAddress kMulticastAddress{224, 0, 0, 251};
 const IPAddress kMulticastIPv6Address{
     // ff02::fb
     0xff02, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x00fb,
 };
 const uint16_t kMulticastListeningPort = 5353;

 class MdnsResponderAdapterImplFactory final
     : public MdnsResponderAdapterFactory {
  public:
   MdnsResponderAdapterImplFactory() = default;
   ~MdnsResponderAdapterImplFactory() override = default;

   std::unique_ptr<MdnsResponderAdapter> Create() override {
     return std::make_unique<MdnsResponderAdapterImpl>();
   }
 };

 Error SetUpMulticastSocket(UdpSocket* socket, NetworkInterfaceIndex ifindex) {
   const IPAddress broadcast_address =
       socket->IsIPv6() ? kMulticastIPv6Address : kMulticastAddress;

   socket->JoinMulticastGroup(broadcast_address, ifindex);
   socket->SetMulticastOutboundInterface(ifindex);
   socket->Bind();

   return Error::None();
 }

 // Ref-counted singleton instance of InternalServices. This lives only as long
 // as there is at least one ServiceListener and/or ServicePublisher alive.
 InternalServices* g_instance = nullptr;
 int g_instance_ref_count = 0;

 }  // namespace

 // static
 std::unique_ptr<ServiceListener> InternalServices::CreateListener(
     const MdnsServiceListenerConfig& config,
     ServiceListener::Observer* observer,
     TaskRunner* task_runner) {
   auto* services = ReferenceSingleton(task_runner);
   auto listener =
       std::make_unique<ServiceListenerImpl>(&services->mdns_service_);
   listener->AddObserver(observer);
   listener->SetDestructionCallback(&InternalServices::DereferenceSingleton,
                                    services);
   return listener;
 }

 // static
 std::unique_ptr<ServicePublisher> InternalServices::CreatePublisher(
     const ServicePublisher::Config& config,
     ServicePublisher::Observer* observer,
     TaskRunner* task_runner) {
   auto* services = ReferenceSingleton(task_runner);
   services->mdns_service_.SetServiceConfig(
       config.hostname, config.service_instance_name,
       config.connection_server_port, config.network_interface_indices,
       {{"fn", config.friendly_name}});
   auto publisher = std::make_unique<ServicePublisherImpl>(
       observer, &services->mdns_service_);
   publisher->SetDestructionCallback(&InternalServices::DereferenceSingleton,
                                     services);
   return publisher;
 }

 InternalServices::InternalPlatformLinkage::InternalPlatformLinkage(
     InternalServices* parent)
     : parent_(parent) {}

 InternalServices::InternalPlatformLinkage::~InternalPlatformLinkage() {
   // If there are open sockets, then there will be dangling references to
   // destroyed objects after destruction.
   OSP_CHECK(open_sockets_.empty());
 }

 std::vector<MdnsPlatformService::BoundInterface>
 InternalServices::InternalPlatformLinkage::RegisterInterfaces(
     const std::vector<NetworkInterfaceIndex>& allowlist) {
   const std::vector<InterfaceInfo> interfaces = GetNetworkInterfaces();
   const bool do_filter_using_allowlist = !allowlist.empty();
   std::vector<NetworkInterfaceIndex> index_list;
   for (const auto& interface : interfaces) {
     OSP_VLOG << "Found interface: " << interface;
     if (do_filter_using_allowlist &&
         std::find(allowlist.begin(), allowlist.end(), interface.index) ==
             allowlist.end()) {
       OSP_VLOG << "Ignoring interface not in allowed list: " << interface;
       continue;
     }
     if (!interface.addresses.empty())
       index_list.push_back(interface.index);
   }
   OSP_LOG_IF(WARN, index_list.empty())
       << "No network interfaces had usable addresses for mDNS.";

   // Set up sockets to send and listen to mDNS multicast traffic on all
   // interfaces.
   std::vector<BoundInterface> result;
   for (NetworkInterfaceIndex index : index_list) {
     const auto& interface = *std::find_if(
         interfaces.begin(), interfaces.end(),
         [index](const InterfaceInfo& info) { return info.index == index; });
     if (interface.addresses.empty()) {
       continue;
     }

     // Pick any address for the given interface.
     const IPSubnet& primary_subnet = interface.addresses.front();

     auto create_result =
         UdpSocket::Create(parent_->task_runner_, parent_,
                           IPEndpoint{{}, kMulticastListeningPort});
     if (!create_result) {
       OSP_LOG_ERROR << "failed to create socket for interface " << index << ": "
                     << create_result.error().message();
       continue;
     }
     std::unique_ptr<UdpSocket> socket = std::move(create_result.value());
     if (!SetUpMulticastSocket(socket.get(), index).ok()) {
       continue;
     }
     result.emplace_back(interface, primary_subnet, socket.get());
     parent_->RegisterMdnsSocket(socket.get());

     open_sockets_.emplace_back(std::move(socket));
   }

   return result;
 }

 void InternalServices::InternalPlatformLinkage::DeregisterInterfaces(
     const std::vector<BoundInterface>& registered_interfaces) {
   for (const auto& interface : registered_interfaces) {
     UdpSocket* const socket = interface.socket;
     parent_->DeregisterMdnsSocket(socket);

     const auto it = std::find_if(open_sockets_.begin(), open_sockets_.end(),
                                  [socket](const std::unique_ptr<UdpSocket>& s) {
                                    return s.get() == socket;
                                  });
     OSP_DCHECK(it != open_sockets_.end());
     open_sockets_.erase(it);
   }
 }

 InternalServices::InternalServices(ClockNowFunctionPtr now_function,
                                    TaskRunner* task_runner)
     : mdns_service_(now_function,
                     task_runner,
                     kServiceName,
                     kServiceProtocol,
                     std::make_unique<MdnsResponderAdapterImplFactory>(),
                     std::make_unique<InternalPlatformLinkage>(this)),
       task_runner_(task_runner) {}

 InternalServices::~InternalServices() = default;

 void InternalServices::RegisterMdnsSocket(UdpSocket* socket) {
   OSP_CHECK(g_instance) << "No listener or publisher is alive.";
   // TODO(rwkeane): Hook this up to the new mDNS library once we swap out the
   // mDNSResponder.
 }

 void InternalServices::DeregisterMdnsSocket(UdpSocket* socket) {
   // TODO(rwkeane): Hook this up to the new mDNS library once we swap out the
   // mDNSResponder.
 }

 // static
 InternalServices* InternalServices::ReferenceSingleton(
     TaskRunner* task_runner) {
   if (!g_instance) {
     OSP_CHECK_EQ(g_instance_ref_count, 0);
     g_instance = new InternalServices(&Clock::now, task_runner);
   }
   ++g_instance_ref_count;
   return g_instance;
 }

 // static
 void InternalServices::DereferenceSingleton(void* instance) {
   OSP_CHECK_EQ(static_cast<InternalServices*>(instance), g_instance);
   OSP_CHECK_GT(g_instance_ref_count, 0);
   --g_instance_ref_count;
   if (g_instance_ref_count == 0) {
     delete g_instance;
     g_instance = nullptr;
   }
 }

 void InternalServices::OnError(UdpSocket* socket, Error error) {
   OSP_LOG_ERROR << "failed to configure socket " << error.message();
   this->DeregisterMdnsSocket(socket);
 }

 void InternalServices::OnSendError(UdpSocket* socket, Error error) {
   // TODO(crbug.com/openscreen/67): Implement this method.
   OSP_UNIMPLEMENTED();
 }

 void InternalServices::OnRead(UdpSocket* socket, ErrorOr<UdpPacket> packet) {
   g_instance->mdns_service_.OnRead(socket, std::move(packet));
 }

 }  // namespace osp
 }  // namespace openscreen
	// Copyright 2018 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 "osp/impl/internal_services.h"

	#include <algorithm>
	#include <utility>

	#include "osp/impl/discovery/mdns/mdns_responder_adapter_impl.h"
	#include "osp/impl/mdns_responder_service.h"
	#include "platform/api/udp_socket.h"
	#include "platform/base/error.h"
	#include "util/osp_logging.h"

	namespace openscreen {
	namespace osp {
	namespace {

	constexpr char kServiceName[] = "_openscreen";
	constexpr char kServiceProtocol[] = "_udp";
	const IPAddress kMulticastAddress{224, 0, 0, 251};
	const IPAddress kMulticastIPv6Address{
	// ff02::fb
	0xff02, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x00fb,
	};
	const uint16_t kMulticastListeningPort = 5353;

	class MdnsResponderAdapterImplFactory final
	: public MdnsResponderAdapterFactory {
	public:
	MdnsResponderAdapterImplFactory() = default;
	~MdnsResponderAdapterImplFactory() override = default;

	std::unique_ptr<MdnsResponderAdapter> Create() override {
	return std::make_unique<MdnsResponderAdapterImpl>();
	}
	};

	Error SetUpMulticastSocket(UdpSocket* socket, NetworkInterfaceIndex ifindex) {
	const IPAddress broadcast_address =
	socket->IsIPv6() ? kMulticastIPv6Address : kMulticastAddress;

	socket->JoinMulticastGroup(broadcast_address, ifindex);
	socket->SetMulticastOutboundInterface(ifindex);
	socket->Bind();

	return Error::None();
	}

	// Ref-counted singleton instance of InternalServices. This lives only as long
	// as there is at least one ServiceListener and/or ServicePublisher alive.
	InternalServices* g_instance = nullptr;
	int g_instance_ref_count = 0;

	} // namespace

	// static
	std::unique_ptr<ServiceListener> InternalServices::CreateListener(
	const MdnsServiceListenerConfig& config,
	ServiceListener::Observer* observer,
	TaskRunner* task_runner) {
	auto* services = ReferenceSingleton(task_runner);
	auto listener =
	std::make_unique<ServiceListenerImpl>(&services->mdns_service_);
	listener->AddObserver(observer);
	listener->SetDestructionCallback(&InternalServices::DereferenceSingleton,
	services);
	return listener;
	}

	// static
	std::unique_ptr<ServicePublisher> InternalServices::CreatePublisher(
	const ServicePublisher::Config& config,
	ServicePublisher::Observer* observer,
	TaskRunner* task_runner) {
	auto* services = ReferenceSingleton(task_runner);
	services->mdns_service_.SetServiceConfig(
	config.hostname, config.service_instance_name,
	config.connection_server_port, config.network_interface_indices,
	{{"fn", config.friendly_name}});
	auto publisher = std::make_unique<ServicePublisherImpl>(
	observer, &services->mdns_service_);
	publisher->SetDestructionCallback(&InternalServices::DereferenceSingleton,
	services);
	return publisher;
	}

	InternalServices::InternalPlatformLinkage::InternalPlatformLinkage(
	InternalServices* parent)
	: parent_(parent) {}

	InternalServices::InternalPlatformLinkage::~InternalPlatformLinkage() {
	// If there are open sockets, then there will be dangling references to
	// destroyed objects after destruction.
	OSP_CHECK(open_sockets_.empty());
	}

	std::vector<MdnsPlatformService::BoundInterface>
	InternalServices::InternalPlatformLinkage::RegisterInterfaces(
	const std::vector<NetworkInterfaceIndex>& allowlist) {
	const std::vector<InterfaceInfo> interfaces = GetNetworkInterfaces();
	const bool do_filter_using_allowlist = !allowlist.empty();
	std::vector<NetworkInterfaceIndex> index_list;
	for (const auto& interface : interfaces) {
	OSP_VLOG << "Found interface: " << interface;
	if (do_filter_using_allowlist &&
	std::find(allowlist.begin(), allowlist.end(), interface.index) ==
	allowlist.end()) {
	OSP_VLOG << "Ignoring interface not in allowed list: " << interface;
	continue;
	}
	if (!interface.addresses.empty())
	index_list.push_back(interface.index);
	}
	OSP_LOG_IF(WARN, index_list.empty())
	<< "No network interfaces had usable addresses for mDNS.";

	// Set up sockets to send and listen to mDNS multicast traffic on all
	// interfaces.
	std::vector<BoundInterface> result;
	for (NetworkInterfaceIndex index : index_list) {
	const auto& interface = *std::find_if(
	interfaces.begin(), interfaces.end(),
	[index](const InterfaceInfo& info) { return info.index == index; });
	if (interface.addresses.empty()) {
	continue;
	}

	// Pick any address for the given interface.
	const IPSubnet& primary_subnet = interface.addresses.front();

	auto create_result =
	UdpSocket::Create(parent_->task_runner_, parent_,
	IPEndpoint{{}, kMulticastListeningPort});
	if (!create_result) {
	OSP_LOG_ERROR << "failed to create socket for interface " << index << ": "
	<< create_result.error().message();
	continue;
	}
	std::unique_ptr<UdpSocket> socket = std::move(create_result.value());
	if (!SetUpMulticastSocket(socket.get(), index).ok()) {
	continue;
	}
	result.emplace_back(interface, primary_subnet, socket.get());
	parent_->RegisterMdnsSocket(socket.get());

	open_sockets_.emplace_back(std::move(socket));
	}

	return result;
	}

	void InternalServices::InternalPlatformLinkage::DeregisterInterfaces(
	const std::vector<BoundInterface>& registered_interfaces) {
	for (const auto& interface : registered_interfaces) {
	UdpSocket* const socket = interface.socket;
	parent_->DeregisterMdnsSocket(socket);

	const auto it = std::find_if(open_sockets_.begin(), open_sockets_.end(),
	[socket](const std::unique_ptr<UdpSocket>& s) {
	return s.get() == socket;
	});
	OSP_DCHECK(it != open_sockets_.end());
	open_sockets_.erase(it);
	}
	}

	InternalServices::InternalServices(ClockNowFunctionPtr now_function,
	TaskRunner* task_runner)
	: mdns_service_(now_function,
	task_runner,
	kServiceName,
	kServiceProtocol,
	std::make_unique<MdnsResponderAdapterImplFactory>(),
	std::make_unique<InternalPlatformLinkage>(this)),
	task_runner_(task_runner) {}

	InternalServices::~InternalServices() = default;

	void InternalServices::RegisterMdnsSocket(UdpSocket* socket) {
	OSP_CHECK(g_instance) << "No listener or publisher is alive.";
	// TODO(rwkeane): Hook this up to the new mDNS library once we swap out the
	// mDNSResponder.
	}

	void InternalServices::DeregisterMdnsSocket(UdpSocket* socket) {
	// TODO(rwkeane): Hook this up to the new mDNS library once we swap out the
	// mDNSResponder.
	}

	// static
	InternalServices* InternalServices::ReferenceSingleton(
	TaskRunner* task_runner) {
	if (!g_instance) {
	OSP_CHECK_EQ(g_instance_ref_count, 0);
	g_instance = new InternalServices(&Clock::now, task_runner);
	}
	++g_instance_ref_count;
	return g_instance;
	}

	// static
	void InternalServices::DereferenceSingleton(void* instance) {
	OSP_CHECK_EQ(static_cast<InternalServices*>(instance), g_instance);
	OSP_CHECK_GT(g_instance_ref_count, 0);
	--g_instance_ref_count;
	if (g_instance_ref_count == 0) {
	delete g_instance;
	g_instance = nullptr;
	}
	}

	void InternalServices::OnError(UdpSocket* socket, Error error) {
	OSP_LOG_ERROR << "failed to configure socket " << error.message();
	this->DeregisterMdnsSocket(socket);
	}

	void InternalServices::OnSendError(UdpSocket* socket, Error error) {
	// TODO(crbug.com/openscreen/67): Implement this method.
	OSP_UNIMPLEMENTED();
	}

	void InternalServices::OnRead(UdpSocket* socket, ErrorOr<UdpPacket> packet) {
	g_instance->mdns_service_.OnRead(socket, std::move(packet));
	}

	} // namespace osp
	} // namespace openscreen