lokinet/llarp/link/link_manager.cpp

#include <link/link_manager.hpp>

#include <router/i_outbound_session_maker.hpp>
#include <crypto/crypto.hpp>

#include <algorithm>
#include <set>

namespace llarp
{
  LinkLayer_ptr
  LinkManager::GetCompatibleLink(const RouterContact &rc) const
  {
    if(stopping)
      return nullptr;

    for(auto &link : outboundLinks)
    {
      // TODO: may want to add some memory of session failures for a given
      //      router on a given link and not return that link here for a
      //      duration
      if(!link->IsCompatable(rc))
        continue;

      return link;
    }

    return nullptr;
  }

  IOutboundSessionMaker *
  LinkManager::GetSessionMaker() const
  {
    return _sessionMaker;
  }

  bool
  LinkManager::SendTo(const RouterID &remote, const llarp_buffer_t &buf,
                      ILinkSession::CompletionHandler completed)
  {
    if(stopping)
      return false;

    auto link = GetLinkWithSessionTo(remote);
    if(link == nullptr)
    {
      if(completed)
      {
        completed(ILinkSession::DeliveryStatus::eDeliveryDropped);
      }
      return false;
    }

    return link->SendTo(remote, buf, completed);
  }

  bool
  LinkManager::HasSessionTo(const RouterID &remote) const
  {
    return GetLinkWithSessionTo(remote) != nullptr;
  }

  void
  LinkManager::PumpLinks()
  {
    for(const auto &link : inboundLinks)
    {
      link->Pump();
    }
    for(const auto &link : outboundLinks)
    {
      link->Pump();
    }
  }

  void
  LinkManager::AddLink(LinkLayer_ptr link, bool inbound)
  {
    util::Lock l(&_mutex);

    if(inbound)
    {
      inboundLinks.emplace(link);
    }
    else
    {
      outboundLinks.emplace(link);
    }
  }

  bool
  LinkManager::StartLinks(Logic_ptr logic)
  {
    LogInfo("starting ", outboundLinks.size(), " outbound links");
    for(const auto &link : outboundLinks)
    {
      if(!link->Start(logic))
      {
        LogWarn("outbound link '", link->Name(), "' failed to start");
        return false;
      }
      LogDebug("Outbound Link ", link->Name(), " started");
    }

    if(inboundLinks.size())
    {
      LogInfo("starting ", inboundLinks.size(), " inbound links");
      for(const auto &link : inboundLinks)
      {
        if(!link->Start(logic))
        {
          LogWarn("Link ", link->Name(), " failed to start");
          return false;
        }
        LogDebug("Inbound Link ", link->Name(), " started");
      }
    }

    return true;
  }

  void
  LinkManager::Stop()
  {
    if(stopping)
    {
      return;
    }

    util::Lock l(&_mutex);

    LogInfo("stopping links");
    stopping = true;

    for(const auto &link : outboundLinks)
      link->Stop();
    for(const auto &link : inboundLinks)
      link->Stop();
  }

  void
  LinkManager::PersistSessionUntil(const RouterID &remote, llarp_time_t until)
  {
    if(stopping)
      return;

    util::Lock l(&_mutex);

    m_PersistingSessions[remote] =
        std::max(until, m_PersistingSessions[remote]);
    LogDebug("persist session to ", remote, " until ",
             m_PersistingSessions[remote]);
  }

  void
  LinkManager::ForEachPeer(
      std::function< void(const ILinkSession *, bool) > visit,
      bool randomize) const
  {
    if(stopping)
      return;

    for(const auto &link : outboundLinks)
    {
      link->ForEachSession(
          [visit](const ILinkSession *peer) { visit(peer, true); }, randomize);
    }
    for(const auto &link : inboundLinks)
    {
      link->ForEachSession(
          [visit](const ILinkSession *peer) { visit(peer, false); }, randomize);
    }
  }

  void
  LinkManager::ForEachPeer(std::function< void(ILinkSession *) > visit)
  {
    if(stopping)
      return;

    for(const auto &link : outboundLinks)
    {
      link->ForEachSession([visit](ILinkSession *peer) { visit(peer); });
    }
    for(const auto &link : inboundLinks)
    {
      link->ForEachSession([visit](ILinkSession *peer) { visit(peer); });
    }
  }

  void
  LinkManager::ForEachInboundLink(
      std::function< void(LinkLayer_ptr) > visit) const
  {
    for(const auto &link : inboundLinks)
    {
      visit(link);
    }
  }

  size_t
  LinkManager::NumberOfConnectedRouters() const
  {
    std::set< RouterID > connectedRouters;

    auto fn = [&connectedRouters](const ILinkSession *session, bool) {
      if(session->IsEstablished())
      {
        const RouterContact rc(session->GetRemoteRC());
        if(rc.IsPublicRouter())
        {
          connectedRouters.insert(rc.pubkey);
        }
      }
    };

    ForEachPeer(fn);

    return connectedRouters.size();
  }

  size_t
  LinkManager::NumberOfConnectedClients() const
  {
    std::set< RouterID > connectedClients;

    auto fn = [&connectedClients](const ILinkSession *session, bool) {
      if(session->IsEstablished())
      {
        const RouterContact rc(session->GetRemoteRC());
        if(!rc.IsPublicRouter())
        {
          connectedClients.insert(rc.pubkey);
        }
      }
    };

    ForEachPeer(fn);

    return connectedClients.size();
  }

  bool
  LinkManager::GetRandomConnectedRouter(RouterContact &router) const
  {
    std::unordered_map< RouterID, RouterContact, RouterID::Hash >
        connectedRouters;

    ForEachPeer(
        [&connectedRouters](const ILinkSession *peer, bool unused) {
          (void)unused;
          connectedRouters[peer->GetPubKey()] = peer->GetRemoteRC();
        },
        false);

    const auto sz = connectedRouters.size();
    if(sz)
    {
      auto itr = connectedRouters.begin();
      if(sz > 1)
      {
        std::advance(itr, randint() % sz);
      }

      router = itr->second;

      return true;
    }

    return false;
  }

  void
  LinkManager::CheckPersistingSessions(llarp_time_t now)
  {
    if(stopping)
      return;

    std::vector< RouterID > sessionsNeeded;

    {
      util::Lock l(&_mutex);

      auto itr = m_PersistingSessions.begin();
      while(itr != m_PersistingSessions.end())
      {
        auto link = GetLinkWithSessionTo(itr->first);
        if(now < itr->second)
        {
          if(link)
          {
            LogDebug("keepalive to ", itr->first);
            link->KeepAliveSessionTo(itr->first);
          }
          else
          {
            sessionsNeeded.push_back(itr->first);
          }
          ++itr;
        }
        else
        {
          const RouterID r(itr->first);
          LogInfo("commit to ", r, " expired");
          itr = m_PersistingSessions.erase(itr);
        }
      }
    }

    for(const auto &router : sessionsNeeded)
    {
      _sessionMaker->CreateSessionTo(router, nullptr);
    }
  }

  util::StatusObject
  LinkManager::ExtractStatus() const
  {
    std::vector< util::StatusObject > ob_links, ib_links;
    std::transform(inboundLinks.begin(), inboundLinks.end(),
                   std::back_inserter(ib_links),
                   [](const auto &link) -> util::StatusObject {
                     return link->ExtractStatus();
                   });
    std::transform(outboundLinks.begin(), outboundLinks.end(),
                   std::back_inserter(ob_links),
                   [](const auto &link) -> util::StatusObject {
                     return link->ExtractStatus();
                   });

    util::StatusObject obj{{"outbound", ob_links}, {"inbound", ib_links}};

    return obj;
  }

  void
  LinkManager::Init(IOutboundSessionMaker *sessionMaker)
  {
    stopping      = false;
    _sessionMaker = sessionMaker;
  }

  LinkLayer_ptr
  LinkManager::GetLinkWithSessionTo(const RouterID &remote) const
  {
    if(stopping)
      return nullptr;

    for(const auto &link : inboundLinks)
    {
      if(link->HasSessionTo(remote))
      {
        return link;
      }
    }
    for(const auto &link : outboundLinks)
    {
      if(link->HasSessionTo(remote))
      {
        return link;
      }
    }

    return nullptr;
  }

}  // namespace llarp