lokinet/llarp/router/outbound_message_handler.cpp

390 lines
9.5 KiB
C++
Raw Normal View History

#include <router/outbound_message_handler.hpp>
#include <messages/link_message.hpp>
#include <router/i_outbound_session_maker.hpp>
#include <link/i_link_manager.hpp>
#include <constants/link_layer.hpp>
2019-09-01 12:38:03 +00:00
#include <util/meta/memfn.hpp>
#include <util/status.hpp>
#include <algorithm>
#include <cstdlib>
namespace llarp
{
const PathID_t OutboundMessageHandler::zeroID;
OutboundMessageHandler::OutboundMessageHandler(size_t maxQueueSize)
: outboundQueue(maxQueueSize), removedPaths(20), removedSomePaths(false)
{
}
bool
OutboundMessageHandler::QueueMessage(const RouterID &remote,
const ILinkMessage *msg,
SendStatusHandler callback)
{
std::array< byte_t, MAX_LINK_MSG_SIZE > linkmsg_buffer;
llarp_buffer_t buf(linkmsg_buffer);
if(!EncodeBuffer(msg, buf))
{
return false;
}
Message message;
message.first.resize(buf.sz);
message.second = callback;
std::copy_n(buf.base, buf.sz, message.first.data());
if(_linkManager->HasSessionTo(remote))
{
QueueOutboundMessage(remote, std::move(message), msg->pathid);
return true;
}
bool shouldCreateSession = false;
{
util::Lock l(&_mutex);
// create queue for <remote> if it doesn't exist, and get iterator
auto itr_pair =
pendingSessionMessageQueues.emplace(remote, MessageQueue());
MessageQueueEntry entry;
entry.message = message;
entry.router = remote;
itr_pair.first->second.push(std::move(entry));
shouldCreateSession = itr_pair.second;
}
if(shouldCreateSession)
{
QueueSessionCreation(remote);
}
return true;
}
void
OutboundMessageHandler::Tick()
{
m_Killer.TryAccess([self = this]() {
2019-11-14 18:50:45 +00:00
self->ProcessOutboundQueue();
self->RemoveEmptyPathQueues();
self->SendRoundRobin();
});
}
void
OutboundMessageHandler::QueueRemoveEmptyPath(const PathID_t &pathid)
{
m_Killer.TryAccess(
[self = this, pathid]() { self->removedPaths.pushBack(pathid); });
}
// TODO: this
util::StatusObject
OutboundMessageHandler::ExtractStatus() const
{
util::StatusObject status{};
return status;
}
void
OutboundMessageHandler::Init(ILinkManager *linkManager,
std::shared_ptr< Logic > logic)
{
_linkManager = linkManager;
_logic = logic;
outboundMessageQueues.emplace(zeroID, MessageQueue());
}
void
OutboundMessageHandler::OnSessionEstablished(const RouterID &router)
{
FinalizeSessionRequest(router, SendStatus::Success);
}
void
OutboundMessageHandler::OnConnectTimeout(const RouterID &router)
{
FinalizeSessionRequest(router, SendStatus::Timeout);
}
void
OutboundMessageHandler::OnRouterNotFound(const RouterID &router)
{
FinalizeSessionRequest(router, SendStatus::RouterNotFound);
}
void
OutboundMessageHandler::OnInvalidRouter(const RouterID &router)
{
FinalizeSessionRequest(router, SendStatus::InvalidRouter);
}
void
OutboundMessageHandler::OnNoLink(const RouterID &router)
{
FinalizeSessionRequest(router, SendStatus::NoLink);
}
void
OutboundMessageHandler::OnSessionResult(const RouterID &router,
const SessionResult result)
{
switch(result)
{
case SessionResult::Establish:
OnSessionEstablished(router);
break;
case SessionResult::Timeout:
OnConnectTimeout(router);
break;
case SessionResult::RouterNotFound:
OnRouterNotFound(router);
break;
case SessionResult::InvalidRouter:
OnInvalidRouter(router);
break;
case SessionResult::NoLink:
OnNoLink(router);
break;
default:
LogError("Impossible situation: enum class value out of bounds.");
std::abort();
break;
}
}
void
OutboundMessageHandler::DoCallback(SendStatusHandler callback,
SendStatus status)
{
if(callback)
{
auto f = std::bind(callback, status);
LogicCall(_logic, [self = this, f]() { self->m_Killer.TryAccess(f); });
}
}
void
OutboundMessageHandler::QueueSessionCreation(const RouterID &remote)
{
auto fn = util::memFn(&OutboundMessageHandler::OnSessionResult, this);
_linkManager->GetSessionMaker()->CreateSessionTo(remote, fn);
}
bool
OutboundMessageHandler::EncodeBuffer(const ILinkMessage *msg,
llarp_buffer_t &buf)
{
if(!msg->BEncode(&buf))
{
LogWarn("failed to encode outbound message, buffer size left: ",
buf.size_left());
return false;
}
// set size of message
buf.sz = buf.cur - buf.base;
buf.cur = buf.base;
return true;
}
bool
OutboundMessageHandler::Send(const RouterID &remote, const Message &msg)
{
2019-07-26 16:19:31 +00:00
const llarp_buffer_t buf(msg.first);
auto callback = msg.second;
return _linkManager->SendTo(
remote, buf, [=](ILinkSession::DeliveryStatus status) {
if(status == ILinkSession::DeliveryStatus::eDeliverySuccess)
DoCallback(callback, SendStatus::Success);
else
DoCallback(callback, SendStatus::Congestion);
});
}
bool
OutboundMessageHandler::SendIfSession(const RouterID &remote,
const Message &msg)
{
if(_linkManager->HasSessionTo(remote))
{
return Send(remote, msg);
}
return false;
}
bool
OutboundMessageHandler::QueueOutboundMessage(const RouterID &remote,
Message &&msg,
const PathID_t &pathid)
{
MessageQueueEntry entry;
entry.message = std::move(msg);
auto callback_copy = entry.message.second;
entry.router = remote;
entry.pathid = pathid;
if(outboundQueue.tryPushBack(std::move(entry))
!= llarp::thread::QueueReturn::Success)
{
DoCallback(callback_copy, SendStatus::Congestion);
}
return true;
}
void
OutboundMessageHandler::ProcessOutboundQueue()
{
while(not outboundQueue.empty())
{
// TODO: can we add util::thread::Queue::front() for move semantics here?
MessageQueueEntry entry = outboundQueue.popFront();
auto itr_pair =
outboundMessageQueues.emplace(entry.pathid, MessageQueue());
if(itr_pair.second && !entry.pathid.IsZero())
{
roundRobinOrder.push(entry.pathid);
}
MessageQueue &path_queue = itr_pair.first->second;
if(path_queue.size() >= MAX_PATH_QUEUE_SIZE)
{
path_queue.pop(); // head drop
}
path_queue.push(std::move(entry));
}
}
void
OutboundMessageHandler::RemoveEmptyPathQueues()
{
2019-11-14 18:50:45 +00:00
removedSomePaths = false;
if(removedPaths.empty())
return;
while(not removedPaths.empty())
{
auto itr = outboundMessageQueues.find(removedPaths.popFront());
if(itr != outboundMessageQueues.end())
{
outboundMessageQueues.erase(itr);
}
}
2019-11-14 18:50:45 +00:00
removedSomePaths = true;
}
void
OutboundMessageHandler::SendRoundRobin()
{
// send non-routing messages first priority
auto &non_routing_mq = outboundMessageQueues[zeroID];
2019-11-14 18:50:45 +00:00
while(not non_routing_mq.empty())
{
MessageQueueEntry entry = std::move(non_routing_mq.front());
non_routing_mq.pop();
Send(entry.router, entry.message);
}
size_t empty_count = 0;
size_t num_queues = roundRobinOrder.size();
if(removedSomePaths)
{
for(size_t i = 0; i < num_queues; i++)
{
PathID_t pathid = std::move(roundRobinOrder.front());
roundRobinOrder.pop();
if(outboundMessageQueues.find(pathid) != outboundMessageQueues.end())
{
roundRobinOrder.push(std::move(pathid));
}
}
}
num_queues = roundRobinOrder.size();
size_t sent_count = 0;
if(num_queues == 0) // if no queues, return
{
return;
}
while(sent_count
< MAX_OUTBOUND_MESSAGES_PER_TICK) // TODO: better stop condition
{
PathID_t pathid = std::move(roundRobinOrder.front());
roundRobinOrder.pop();
auto &message_queue = outboundMessageQueues[pathid];
if(message_queue.size() > 0)
{
MessageQueueEntry entry = std::move(message_queue.front());
message_queue.pop();
Send(entry.router, entry.message);
empty_count = 0;
sent_count++;
}
else
{
empty_count++;
}
roundRobinOrder.push(std::move(pathid));
// if num_queues empty queues in a row, all queues empty.
if(empty_count == num_queues)
{
break;
}
}
}
void
OutboundMessageHandler::FinalizeSessionRequest(const RouterID &router,
SendStatus status)
{
MessageQueue movedMessages;
{
util::Lock l(&_mutex);
auto itr = pendingSessionMessageQueues.find(router);
if(itr == pendingSessionMessageQueues.end())
{
return;
}
movedMessages.swap(itr->second);
pendingSessionMessageQueues.erase(itr);
}
while(!movedMessages.empty())
{
MessageQueueEntry entry = std::move(movedMessages.front());
movedMessages.pop();
if(status == SendStatus::Success)
{
Send(entry.router, entry.message);
}
else
{
DoCallback(entry.message.second, status);
}
}
}
} // namespace llarp