mirror of
https://github.com/oxen-io/lokinet.git
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b0fb194e2c
- control messages can be sent along a path - the path owner onion-encrypts the "inner" message for each hop in the path - relays on the path will onion the payload in both directions, such that the terminal relay will get the plaintext "inner" message and the client will get the plaintext "response" to that. - control messages have (mostly, see below) been changed to be invokable either over a path or directly to a relay, as appropriate. TODO: - exit messages need looked at, so they have not yet been changed for this - path transfer messages (traffic from client to client over 2 paths with a shared "pivot") are not yet implemented
245 lines
6.5 KiB
C++
245 lines
6.5 KiB
C++
#include "endpoint.hpp"
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#include <llarp/handlers/exit.hpp>
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#include <llarp/path/path_context.hpp>
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#include <llarp/router/router.hpp>
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namespace llarp::exit
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{
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Endpoint::Endpoint(
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const llarp::PubKey& remoteIdent,
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const llarp::path::HopHandler_ptr& beginPath,
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bool rewriteIP,
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huint128_t ip,
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llarp::handlers::ExitEndpoint* parent)
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: createdAt{parent->Now()}
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, parent{parent}
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, remote_signkey{remoteIdent}
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, current_path{beginPath}
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, IP{ip}
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, rewrite_source{rewriteIP}
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{
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last_active = parent->Now();
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}
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Endpoint::~Endpoint()
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{
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if (current_path)
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parent->DelEndpointInfo(current_path->RXID());
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}
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void
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Endpoint::Close()
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{
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parent->RemoveExit(this);
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}
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util::StatusObject
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Endpoint::ExtractStatus() const
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{
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auto now = parent->Now();
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util::StatusObject obj{
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{"identity", remote_signkey.ToString()},
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{"ip", IP.ToString()},
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{"txRate", tx_rate},
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{"rxRate", rx_rate},
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{"createdAt", to_json(createdAt)},
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{"exiting", !rewrite_source},
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{"looksDead", LooksDead(now)},
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{"expiresSoon", ExpiresSoon(now)},
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{"expired", IsExpired(now)}};
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return obj;
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}
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bool
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Endpoint::UpdateLocalPath(const llarp::PathID_t& nextPath)
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{
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if (!parent->UpdateEndpointPath(remote_signkey, nextPath))
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return false;
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const RouterID us{parent->GetRouter()->pubkey()};
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// TODO: is this getting a Path or a TransitHop?
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// current_path = parent->GetRouter()->path_context().GetByUpstream(us, nextPath);
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return true;
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}
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void
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Endpoint::Tick(llarp_time_t now)
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{
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(void)now;
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rx_rate = 0;
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tx_rate = 0;
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}
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bool
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Endpoint::IsExpired(llarp_time_t now) const
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{
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auto path = GetCurrentPath();
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if (path)
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{
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return path->Expired(now);
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}
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// if we don't have an underlying path we are considered expired
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return true;
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}
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bool
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Endpoint::ExpiresSoon(llarp_time_t now, llarp_time_t dlt) const
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{
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if (current_path)
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return current_path->ExpiresSoon(now, dlt);
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return true;
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}
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bool
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Endpoint::LooksDead(llarp_time_t now, llarp_time_t timeout) const
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{
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if (ExpiresSoon(now, timeout))
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return true;
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auto path = GetCurrentPath();
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if (not path)
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return true;
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auto lastPing = path->LastRemoteActivityAt();
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if (lastPing == 0s || (now > lastPing && now - lastPing > timeout))
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return now > last_active && now - last_active > timeout;
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else if (lastPing > 0s) // NOLINT
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return now > lastPing && now - lastPing > timeout;
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return lastPing > 0s;
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}
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/* bool
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Endpoint::QueueOutboundTraffic(
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PathID_t path, std::vector<byte_t> buf, uint64_t counter, service::ProtocolType t)
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{
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const service::ConvoTag tag{path.as_array()};
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// current_path->send_path_control_message(std::string method, std::string body,
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std::function<void (oxen::quic::message)> func)
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if (t == service::ProtocolType::QUIC)
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{
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auto quic = parent->GetQUICTunnel();
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if (not quic)
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return false;
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tx_rate += buf.size();
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quic->receive_packet(tag, std::move(buf));
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last_active = parent->Now();
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return true;
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}
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// queue overflow
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if (m_UpstreamQueue.size() > MaxUpstreamQueueSize)
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return false;
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llarp::net::IPPacket pkt{std::move(buf)};
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if (pkt.empty())
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return false;
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if (pkt.IsV6() && parent->SupportsV6())
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{
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huint128_t dst;
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if (rewrite_source)
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dst = parent->GetIfAddr();
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else
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dst = pkt.dstv6();
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pkt.UpdateIPv6Address(IP, dst);
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}
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else if (pkt.IsV4() && !parent->SupportsV6())
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{
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huint32_t dst;
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if (rewrite_source)
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dst = net::TruncateV6(parent->GetIfAddr());
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else
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dst = pkt.dstv4();
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pkt.UpdateIPv4Address(xhtonl(net::TruncateV6(IP)), xhtonl(dst));
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}
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else
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{
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return false;
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}
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tx_rate += pkt.size();
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m_UpstreamQueue.emplace(std::move(pkt), counter);
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last_active = parent->Now();
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return true;
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} */
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bool
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Endpoint::QueueInboundTraffic(std::vector<byte_t>, service::ProtocolType)
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{
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// TODO: this will go away with removing flush
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// if (type != service::ProtocolType::QUIC)
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// {
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// llarp::net::IPPacket pkt{std::move(buf)};
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// if (pkt.empty())
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// return false;
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// huint128_t src;
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// if (m_RewriteSource)
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// src = m_Parent->GetIfAddr();
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// else
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// src = pkt.srcv6();
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// if (pkt.IsV6())
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// pkt.UpdateIPv6Address(src, m_IP);
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// else
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// pkt.UpdateIPv4Address(xhtonl(net::TruncateV6(src)), xhtonl(net::TruncateV6(m_IP)));
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// buf = pkt.steal();
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// }
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// const uint8_t queue_idx = buf.size() / llarp::routing::EXIT_PAD_SIZE;
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// if (m_DownstreamQueues.find(queue_idx) == m_DownstreamQueues.end())
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// m_DownstreamQueues.emplace(queue_idx, InboundTrafficQueue_t{});
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// auto& queue = m_DownstreamQueues.at(queue_idx);
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// if (queue.size() == 0)
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// {
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// queue.emplace_back();
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// queue.back().protocol = type;
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// return queue.back().PutBuffer(std::move(buf), m_Counter++);
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// }
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// auto& msg = queue.back();
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// if (msg.Size() + buf.size() > llarp::routing::EXIT_PAD_SIZE)
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// {
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// queue.emplace_back();
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// queue.back().protocol = type;
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// return queue.back().PutBuffer(std::move(buf), m_Counter++);
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// }
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// msg.protocol = type;
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// return msg.PutBuffer(std::move(buf), m_Counter++);
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return true;
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}
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bool
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Endpoint::Flush()
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{
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// flush upstream queue
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// while (m_UpstreamQueue.size())
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// {
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// parent->QueueOutboundTraffic(const_cast<net::IPPacket&>(m_UpstreamQueue.top().pkt).steal());
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// m_UpstreamQueue.pop();
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// }
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// flush downstream queue
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auto path = GetCurrentPath();
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bool sent = path != nullptr;
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// if (path)
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// {
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// for (auto& item : m_DownstreamQueues)
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// {
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// auto& queue = item.second;
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// while (queue.size())
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// {
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// auto& msg = queue.front();
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// msg.sequence_number = path->NextSeqNo();
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// if (path->SendRoutingMessage(msg, m_Parent->GetRouter()))
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// {
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// m_RxRate += msg.Size();
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// sent = true;
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// }
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// queue.pop_front();
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// }
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// }
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// }
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// for (auto& item : m_DownstreamQueues)
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// item.second.clear();
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return sent;
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}
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} // namespace llarp::exit
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