lokinet/llarp/transit_hop.cpp
2018-08-12 13:22:29 -04:00

160 lines
4.4 KiB
C++

#include <llarp/path.hpp>
#include <llarp/routing/handler.hpp>
#include "buffer.hpp"
#include "router.hpp"
namespace llarp
{
namespace path
{
TransitHop::TransitHop()
{
}
bool
TransitHop::Expired(llarp_time_t now) const
{
return now - started > lifetime;
}
TransitHopInfo::TransitHopInfo(const TransitHopInfo& other)
: txID(other.txID)
, rxID(other.rxID)
, upstream(other.upstream)
, downstream(other.downstream)
{
}
TransitHopInfo::TransitHopInfo(const RouterID& down,
const LR_CommitRecord& record)
: txID(record.txid)
, rxID(record.rxid)
, upstream(record.nextHop)
, downstream(down)
{
}
TransitHop::TransitHop(const TransitHop& other)
: info(other.info)
, pathKey(other.pathKey)
, started(other.started)
, lifetime(other.lifetime)
, version(other.version)
{
}
bool
TransitHop::SendRoutingMessage(llarp::routing::IMessage* msg,
llarp_router* r)
{
msg->S = m_SequenceNum++;
byte_t tmp[MAX_LINK_MSG_SIZE / 2];
auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
if(!msg->BEncode(&buf))
{
llarp::LogError("failed to encode routing message");
return false;
}
TunnelNonce N;
N.Randomize();
buf.sz = buf.cur - buf.base;
// pad smaller messages
if(buf.sz < MESSAGE_PAD_SIZE)
{
// randomize padding
r->crypto.randbytes(buf.cur, MESSAGE_PAD_SIZE - buf.sz);
buf.sz = MESSAGE_PAD_SIZE;
}
buf.cur = buf.base;
return HandleDownstream(buf, N, r);
}
bool
TransitHop::HandleDownstream(llarp_buffer_t buf, const TunnelNonce& Y,
llarp_router* r)
{
RelayDownstreamMessage* msg = new RelayDownstreamMessage;
msg->pathid = info.rxID;
msg->Y = Y ^ nonceXOR;
r->crypto.xchacha20(buf, pathKey, Y);
msg->X = buf;
llarp::LogDebug("relay ", msg->X.size(), " bytes downstream from ",
info.upstream, " to ", info.downstream);
return r->SendToOrQueue(info.downstream, msg);
}
bool
TransitHop::HandleUpstream(llarp_buffer_t buf, const TunnelNonce& Y,
llarp_router* r)
{
r->crypto.xchacha20(buf, pathKey, Y);
if(info.upstream == RouterID(r->pubkey()))
{
return m_MessageParser.ParseMessageBuffer(buf, this, info.rxID, r);
}
else
{
RelayUpstreamMessage* msg = new RelayUpstreamMessage;
msg->pathid = info.txID;
msg->Y = Y ^ nonceXOR;
msg->X = buf;
llarp::LogDebug("relay ", msg->X.size(), " bytes upstream from ",
info.downstream, " to ", info.upstream);
return r->SendToOrQueue(info.upstream, msg);
}
}
bool
TransitHop::HandleDHTMessage(const llarp::dht::IMessage* msg,
llarp_router* r)
{
return r->dht->impl.RelayRequestForPath(info.rxID, msg);
}
bool
TransitHop::HandlePathLatencyMessage(
const llarp::routing::PathLatencyMessage* msg, llarp_router* r)
{
llarp::routing::PathLatencyMessage reply;
reply.L = msg->T;
return SendRoutingMessage(&reply, r);
}
bool
TransitHop::HandlePathConfirmMessage(
const llarp::routing::PathConfirmMessage* msg, llarp_router* r)
{
llarp::LogWarn("unwarrented path confirm message on ", info);
return false;
}
bool
TransitHop::HandlePathTransferMessage(
const llarp::routing::PathTransferMessage* msg, llarp_router* r)
{
auto path = r->paths.GetByUpstream(r->pubkey(), msg->P);
if(!path)
{
llarp::LogWarn("No such path for path transfer pathid=", msg->P);
return false;
}
byte_t tmp[service::MAX_PROTOCOL_MESSAGE_SIZE];
auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
if(!msg->T.BEncode(&buf))
{
llarp::LogWarn("failed to transfer data message, encode failed");
return false;
}
// rewind0
buf.sz = buf.cur - buf.base;
buf.cur = buf.base;
// send
llarp::LogInfo("Transfer ", buf.sz, " bytes", " to ", msg->P);
return path->HandleDownstream(buf, msg->Y, r);
}
} // namespace path
} // namespace llarp