musique/lib/link/include/ableton/discovery/PeerGateway.hpp

/* Copyright 2016, Ableton AG, Berlin. All rights reserved.
 *
 *  This program is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation, either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program.  If not, see <http://www.gnu.org/licenses/>.
 *
 *  If you would like to incorporate Link into a proprietary software application,
 *  please contact <link-devs@ableton.com>.
 */

#pragma once

#include <ableton/discovery/UdpMessenger.hpp>
#include <ableton/discovery/v1/Messages.hpp>
#include <ableton/util/SafeAsyncHandler.hpp>
#include <memory>

namespace ableton
{
namespace discovery
{

template <typename Messenger, typename PeerObserver, typename IoContext>
class PeerGateway
{
public:
  // The peer types are defined by the observer but must match with those
  // used by the Messenger
  using ObserverT = typename util::Injected<PeerObserver>::type;
  using NodeState = typename ObserverT::GatewayObserverNodeState;
  using NodeId = typename ObserverT::GatewayObserverNodeId;
  using Timer = typename util::Injected<IoContext>::type::Timer;
  using TimerError = typename Timer::ErrorCode;

  PeerGateway(util::Injected<Messenger> messenger,
    util::Injected<PeerObserver> observer,
    util::Injected<IoContext> io)
    : mpImpl(new Impl(std::move(messenger), std::move(observer), std::move(io)))
  {
    mpImpl->listen();
  }

  PeerGateway(const PeerGateway&) = delete;
  PeerGateway& operator=(const PeerGateway&) = delete;

  PeerGateway(PeerGateway&& rhs)
    : mpImpl(std::move(rhs.mpImpl))
  {
  }

  void updateState(NodeState state)
  {
    mpImpl->updateState(std::move(state));
  }

private:
  using PeerTimeout = std::pair<std::chrono::system_clock::time_point, NodeId>;
  using PeerTimeouts = std::vector<PeerTimeout>;

  struct Impl : std::enable_shared_from_this<Impl>
  {
    Impl(util::Injected<Messenger> messenger,
      util::Injected<PeerObserver> observer,
      util::Injected<IoContext> io)
      : mMessenger(std::move(messenger))
      , mObserver(std::move(observer))
      , mIo(std::move(io))
      , mPruneTimer(mIo->makeTimer())
    {
    }

    void updateState(NodeState state)
    {
      mMessenger->updateState(std::move(state));
      try
      {
        mMessenger->broadcastState();
      }
      catch (const std::runtime_error& err)
      {
        info(mIo->log()) << "State broadcast failed on gateway: " << err.what();
      }
    }

    void listen()
    {
      mMessenger->receive(util::makeAsyncSafe(this->shared_from_this()));
    }

    // Operators for handling incoming messages
    void operator()(const PeerState<NodeState>& msg)
    {
      onPeerState(msg.peerState, msg.ttl);
      listen();
    }

    void operator()(const ByeBye<NodeId>& msg)
    {
      onByeBye(msg.peerId);
      listen();
    }

    void onPeerState(const NodeState& nodeState, const int ttl)
    {
      using namespace std;
      const auto peerId = nodeState.ident();
      const auto existing = findPeer(peerId);
      if (existing != end(mPeerTimeouts))
      {
        // If the peer is already present in our timeout list, remove it
        // as it will be re-inserted below.
        mPeerTimeouts.erase(existing);
      }

      auto newTo = make_pair(mPruneTimer.now() + std::chrono::seconds(ttl), peerId);
      mPeerTimeouts.insert(
        upper_bound(begin(mPeerTimeouts), end(mPeerTimeouts), newTo, TimeoutCompare{}),
        std::move(newTo));

      sawPeer(*mObserver, nodeState);
      scheduleNextPruning();
    }

    void onByeBye(const NodeId& peerId)
    {
      const auto it = findPeer(peerId);
      if (it != mPeerTimeouts.end())
      {
        peerLeft(*mObserver, it->second);
        mPeerTimeouts.erase(it);
      }
    }

    void pruneExpiredPeers()
    {
      using namespace std;

      const auto test = make_pair(mPruneTimer.now(), NodeId{});
      debug(mIo->log()) << "pruning peers @ " << test.first.time_since_epoch().count();

      const auto endExpired =
        lower_bound(begin(mPeerTimeouts), end(mPeerTimeouts), test, TimeoutCompare{});

      for_each(begin(mPeerTimeouts), endExpired, [this](const PeerTimeout& pto) {
        info(mIo->log()) << "pruning peer " << pto.second;
        peerTimedOut(*mObserver, pto.second);
      });
      mPeerTimeouts.erase(begin(mPeerTimeouts), endExpired);
      scheduleNextPruning();
    }

    void scheduleNextPruning()
    {
      // Find the next peer to expire and set the timer based on it
      if (!mPeerTimeouts.empty())
      {
        // Add a second of padding to the timer to avoid over-eager timeouts
        const auto t = mPeerTimeouts.front().first + std::chrono::seconds(1);

        debug(mIo->log()) << "scheduling next pruning for "
                          << t.time_since_epoch().count() << " because of peer "
                          << mPeerTimeouts.front().second;

        mPruneTimer.expires_at(t);
        mPruneTimer.async_wait([this](const TimerError e) {
          if (!e)
          {
            pruneExpiredPeers();
          }
        });
      }
    }

    struct TimeoutCompare
    {
      bool operator()(const PeerTimeout& lhs, const PeerTimeout& rhs) const
      {
        return lhs.first < rhs.first;
      }
    };

    typename PeerTimeouts::iterator findPeer(const NodeId& peerId)
    {
      return std::find_if(begin(mPeerTimeouts), end(mPeerTimeouts),
        [&peerId](const PeerTimeout& pto) { return pto.second == peerId; });
    }

    util::Injected<Messenger> mMessenger;
    util::Injected<PeerObserver> mObserver;
    util::Injected<IoContext> mIo;
    Timer mPruneTimer;
    PeerTimeouts mPeerTimeouts; // Invariant: sorted by time_point
  };

  std::shared_ptr<Impl> mpImpl;
};

template <typename Messenger, typename PeerObserver, typename IoContext>
PeerGateway<Messenger, PeerObserver, IoContext> makePeerGateway(
  util::Injected<Messenger> messenger,
  util::Injected<PeerObserver> observer,
  util::Injected<IoContext> io)
{
  return {std::move(messenger), std::move(observer), std::move(io)};
}

// IpV4 gateway types
template <typename StateQuery, typename IoContext>
using IpV4Messenger = UdpMessenger<
  IpV4Interface<typename util::Injected<IoContext>::type&, v1::kMaxMessageSize>,
  StateQuery,
  IoContext>;

template <typename PeerObserver, typename StateQuery, typename IoContext>
using IpV4Gateway =
  PeerGateway<IpV4Messenger<StateQuery, typename util::Injected<IoContext>::type&>,
    PeerObserver,
    IoContext>;

// Factory function to bind a PeerGateway to an IpV4Interface with the given address.
template <typename PeerObserver, typename NodeState, typename IoContext>
IpV4Gateway<PeerObserver, NodeState, IoContext> makeIpV4Gateway(
  util::Injected<IoContext> io,
  const asio::ip::address_v4& addr,
  util::Injected<PeerObserver> observer,
  NodeState state)
{
  using namespace std;
  using namespace util;

  const uint8_t ttl = 5;
  const uint8_t ttlRatio = 20;

  auto iface = makeIpV4Interface<v1::kMaxMessageSize>(injectRef(*io), addr);

  auto messenger = makeUdpMessenger(
    injectVal(std::move(iface)), std::move(state), injectRef(*io), ttl, ttlRatio);
  return {injectVal(std::move(messenger)), std::move(observer), std::move(io)};
}

} // namespace discovery
} // namespace ableton
Integrated Ableton/link library 2023-01-06 16:53:58 +01:00			`/* Copyright 2016, Ableton AG, Berlin. All rights reserved.`
			`*`
			`* This program is free software: you can redistribute it and/or modify`
			`* it under the terms of the GNU General Public License as published by`
			`* the Free Software Foundation, either version 2 of the License, or`
			`* (at your option) any later version.`
			`*`
			`* This program is distributed in the hope that it will be useful,`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`* GNU General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU General Public License`
			`* along with this program. If not, see <http://www.gnu.org/licenses/>.`
			`*`
			`* If you would like to incorporate Link into a proprietary software application,`
			`* please contact <link-devs@ableton.com>.`
			`*/`

			`#pragma once`

			`#include <ableton/discovery/UdpMessenger.hpp>`
			`#include <ableton/discovery/v1/Messages.hpp>`
			`#include <ableton/util/SafeAsyncHandler.hpp>`
			`#include <memory>`

			`namespace ableton`
			`{`
			`namespace discovery`
			`{`

			`template <typename Messenger, typename PeerObserver, typename IoContext>`
			`class PeerGateway`
			`{`
			`public:`
			`// The peer types are defined by the observer but must match with those`
			`// used by the Messenger`
			`using ObserverT = typename util::Injected<PeerObserver>::type;`
			`using NodeState = typename ObserverT::GatewayObserverNodeState;`
			`using NodeId = typename ObserverT::GatewayObserverNodeId;`
			`using Timer = typename util::Injected<IoContext>::type::Timer;`
			`using TimerError = typename Timer::ErrorCode;`

			`PeerGateway(util::Injected<Messenger> messenger,`
			`util::Injected<PeerObserver> observer,`
			`util::Injected<IoContext> io)`
			`: mpImpl(new Impl(std::move(messenger), std::move(observer), std::move(io)))`
			`{`
			`mpImpl->listen();`
			`}`

			`PeerGateway(const PeerGateway&) = delete;`
			`PeerGateway& operator=(const PeerGateway&) = delete;`

			`PeerGateway(PeerGateway&& rhs)`
			`: mpImpl(std::move(rhs.mpImpl))`
			`{`
			`}`

			`void updateState(NodeState state)`
			`{`
			`mpImpl->updateState(std::move(state));`
			`}`

			`private:`
			`using PeerTimeout = std::pair<std::chrono::system_clock::time_point, NodeId>;`
			`using PeerTimeouts = std::vector<PeerTimeout>;`

			`struct Impl : std::enable_shared_from_this<Impl>`
			`{`
			`Impl(util::Injected<Messenger> messenger,`
			`util::Injected<PeerObserver> observer,`
			`util::Injected<IoContext> io)`
			`: mMessenger(std::move(messenger))`
			`, mObserver(std::move(observer))`
			`, mIo(std::move(io))`
			`, mPruneTimer(mIo->makeTimer())`
			`{`
			`}`

			`void updateState(NodeState state)`
			`{`
			`mMessenger->updateState(std::move(state));`
			`try`
			`{`
			`mMessenger->broadcastState();`
			`}`
			`catch (const std::runtime_error& err)`
			`{`
			`info(mIo->log()) << "State broadcast failed on gateway: " << err.what();`
			`}`
			`}`

			`void listen()`
			`{`
			`mMessenger->receive(util::makeAsyncSafe(this->shared_from_this()));`
			`}`

			`// Operators for handling incoming messages`
			`void operator()(const PeerState<NodeState>& msg)`
			`{`
			`onPeerState(msg.peerState, msg.ttl);`
			`listen();`
			`}`

			`void operator()(const ByeBye<NodeId>& msg)`
			`{`
			`onByeBye(msg.peerId);`
			`listen();`
			`}`

			`void onPeerState(const NodeState& nodeState, const int ttl)`
			`{`
			`using namespace std;`
			`const auto peerId = nodeState.ident();`
			`const auto existing = findPeer(peerId);`
			`if (existing != end(mPeerTimeouts))`
			`{`
			`// If the peer is already present in our timeout list, remove it`
			`// as it will be re-inserted below.`
			`mPeerTimeouts.erase(existing);`
			`}`

			`auto newTo = make_pair(mPruneTimer.now() + std::chrono::seconds(ttl), peerId);`
			`mPeerTimeouts.insert(`
			`upper_bound(begin(mPeerTimeouts), end(mPeerTimeouts), newTo, TimeoutCompare{}),`
			`std::move(newTo));`

			`sawPeer(*mObserver, nodeState);`
			`scheduleNextPruning();`
			`}`

			`void onByeBye(const NodeId& peerId)`
			`{`
			`const auto it = findPeer(peerId);`
			`if (it != mPeerTimeouts.end())`
			`{`
			`peerLeft(*mObserver, it->second);`
			`mPeerTimeouts.erase(it);`
			`}`
			`}`

			`void pruneExpiredPeers()`
			`{`
			`using namespace std;`

			`const auto test = make_pair(mPruneTimer.now(), NodeId{});`
			`debug(mIo->log()) << "pruning peers @ " << test.first.time_since_epoch().count();`

			`const auto endExpired =`
			`lower_bound(begin(mPeerTimeouts), end(mPeerTimeouts), test, TimeoutCompare{});`

			`for_each(begin(mPeerTimeouts), endExpired, [this](const PeerTimeout& pto) {`
			`info(mIo->log()) << "pruning peer " << pto.second;`
			`peerTimedOut(*mObserver, pto.second);`
			`});`
			`mPeerTimeouts.erase(begin(mPeerTimeouts), endExpired);`
			`scheduleNextPruning();`
			`}`

			`void scheduleNextPruning()`
			`{`
			`// Find the next peer to expire and set the timer based on it`
			`if (!mPeerTimeouts.empty())`
			`{`
			`// Add a second of padding to the timer to avoid over-eager timeouts`
			`const auto t = mPeerTimeouts.front().first + std::chrono::seconds(1);`

			`debug(mIo->log()) << "scheduling next pruning for "`
			`<< t.time_since_epoch().count() << " because of peer "`
			`<< mPeerTimeouts.front().second;`

			`mPruneTimer.expires_at(t);`
			`mPruneTimer.async_wait([this](const TimerError e) {`
			`if (!e)`
			`{`
			`pruneExpiredPeers();`
			`}`
			`});`
			`}`
			`}`

			`struct TimeoutCompare`
			`{`
			`bool operator()(const PeerTimeout& lhs, const PeerTimeout& rhs) const`
			`{`
			`return lhs.first < rhs.first;`
			`}`
			`};`

			`typename PeerTimeouts::iterator findPeer(const NodeId& peerId)`
			`{`
			`return std::find_if(begin(mPeerTimeouts), end(mPeerTimeouts),`
			`[&peerId](const PeerTimeout& pto) { return pto.second == peerId; });`
			`}`

			`util::Injected<Messenger> mMessenger;`
			`util::Injected<PeerObserver> mObserver;`
			`util::Injected<IoContext> mIo;`
			`Timer mPruneTimer;`
			`PeerTimeouts mPeerTimeouts; // Invariant: sorted by time_point`
			`};`

			`std::shared_ptr<Impl> mpImpl;`
			`};`

			`template <typename Messenger, typename PeerObserver, typename IoContext>`
			`PeerGateway<Messenger, PeerObserver, IoContext> makePeerGateway(`
			`util::Injected<Messenger> messenger,`
			`util::Injected<PeerObserver> observer,`
			`util::Injected<IoContext> io)`
			`{`
			`return {std::move(messenger), std::move(observer), std::move(io)};`
			`}`

			`// IpV4 gateway types`
			`template <typename StateQuery, typename IoContext>`
			`using IpV4Messenger = UdpMessenger<`
			`IpV4Interface<typename util::Injected<IoContext>::type&, v1::kMaxMessageSize>,`
			`StateQuery,`
			`IoContext>;`

			`template <typename PeerObserver, typename StateQuery, typename IoContext>`
			`using IpV4Gateway =`
			`PeerGateway<IpV4Messenger<StateQuery, typename util::Injected<IoContext>::type&>,`
			`PeerObserver,`
			`IoContext>;`

			`// Factory function to bind a PeerGateway to an IpV4Interface with the given address.`
			`template <typename PeerObserver, typename NodeState, typename IoContext>`
			`IpV4Gateway<PeerObserver, NodeState, IoContext> makeIpV4Gateway(`
			`util::Injected<IoContext> io,`
			`const asio::ip::address_v4& addr,`
			`util::Injected<PeerObserver> observer,`
			`NodeState state)`
			`{`
			`using namespace std;`
			`using namespace util;`

			`const uint8_t ttl = 5;`
			`const uint8_t ttlRatio = 20;`

			`auto iface = makeIpV4Interface<v1::kMaxMessageSize>(injectRef(*io), addr);`

			`auto messenger = makeUdpMessenger(`
			`injectVal(std::move(iface)), std::move(state), injectRef(*io), ttl, ttlRatio);`
			`return {injectVal(std::move(messenger)), std::move(observer), std::move(io)};`
			`}`

			`} // namespace discovery`
			`} // namespace ableton`