lokinet/llarp/link/server.cpp
Jeff Becker 0f6f03a77a
const
2019-05-14 13:35:01 -04:00

437 lines
9.9 KiB
C++

#include <link/server.hpp>
#include <crypto/crypto.hpp>
#include <util/fs.hpp>
namespace llarp
{
static constexpr size_t MaxSessionsPerKey = 16;
ILinkLayer::ILinkLayer(const SecretKey& routerEncSecret, GetRCFunc getrc,
LinkMessageHandler handler, SignBufferFunc signbuf,
SessionEstablishedHandler establishedSession,
SessionRenegotiateHandler reneg,
TimeoutHandler timeout, SessionClosedHandler closed)
: HandleMessage(handler)
, HandleTimeout(timeout)
, Sign(signbuf)
, GetOurRC(getrc)
, SessionEstablished(establishedSession)
, SessionClosed(closed)
, SessionRenegotiate(reneg)
, m_RouterEncSecret(routerEncSecret)
{
}
ILinkLayer::~ILinkLayer()
{
}
bool
ILinkLayer::HasSessionTo(const RouterID& id)
{
Lock l(&m_AuthedLinksMutex);
return m_AuthedLinks.find(id) != m_AuthedLinks.end();
}
void
ILinkLayer::ForEachSession(std::function< void(const ILinkSession*) > visit,
bool randomize) const
{
Lock l(&m_AuthedLinksMutex);
if(m_AuthedLinks.size() == 0)
return;
const size_t sz = randint() % m_AuthedLinks.size();
auto itr = m_AuthedLinks.begin();
auto begin = itr;
if(randomize)
{
std::advance(itr, sz);
begin = itr;
}
while(itr != m_AuthedLinks.end())
{
visit(itr->second.get());
++itr;
}
if(randomize)
{
itr = m_AuthedLinks.begin();
while(itr != begin)
{
visit(itr->second.get());
++itr;
}
}
}
bool
ILinkLayer::VisitSessionByPubkey(const RouterID& pk,
std::function< bool(ILinkSession*) > visit)
{
Lock l(&m_AuthedLinksMutex);
auto itr = m_AuthedLinks.find(pk);
if(itr != m_AuthedLinks.end())
{
return visit(itr->second.get());
}
return false;
}
void
ILinkLayer::ForEachSession(std::function< void(ILinkSession*) > visit)
{
Lock l(&m_AuthedLinksMutex);
auto itr = m_AuthedLinks.begin();
while(itr != m_AuthedLinks.end())
{
visit(itr->second.get());
++itr;
}
}
bool
ILinkLayer::Configure(llarp_ev_loop_ptr loop, const std::string& ifname,
int af, uint16_t port)
{
m_Loop = std::move(loop);
m_udp.user = this;
m_udp.recvfrom = &ILinkLayer::udp_recv_from;
m_udp.tick = &ILinkLayer::udp_tick;
if(ifname == "*")
{
if(!AllInterfaces(af, m_ourAddr))
return false;
}
else if(!GetIFAddr(ifname, m_ourAddr, af))
return false;
m_ourAddr.port(port);
return llarp_ev_add_udp(m_Loop.get(), &m_udp, m_ourAddr) != -1;
}
void
ILinkLayer::Pump()
{
auto _now = Now();
{
Lock lock(&m_AuthedLinksMutex);
auto itr = m_AuthedLinks.begin();
while(itr != m_AuthedLinks.end())
{
if(itr->second.get() && !itr->second->TimedOut(_now))
{
itr->second->Pump();
++itr;
}
else
{
llarp::LogInfo("session to ", RouterID(itr->second->GetPubKey()),
" timed out");
itr = m_AuthedLinks.erase(itr);
}
}
}
{
Lock lock(&m_PendingMutex);
auto itr = m_Pending.begin();
while(itr != m_Pending.end())
{
if(itr->second.get() && !itr->second->TimedOut(_now))
{
itr->second->Pump();
++itr;
}
else
{
LogInfo("pending session at ", itr->first, " timed out");
itr = m_Pending.erase(itr);
}
}
}
}
bool
ILinkLayer::MapAddr(const RouterID& pk, ILinkSession* s)
{
Lock l_authed(&m_AuthedLinksMutex);
Lock l_pending(&m_PendingMutex);
llarp::Addr addr = s->GetRemoteEndpoint();
auto itr = m_Pending.find(addr);
if(itr != m_Pending.end())
{
if(m_AuthedLinks.count(pk) > MaxSessionsPerKey)
{
s->Close();
return false;
}
m_AuthedLinks.emplace(pk, itr->second);
itr = m_Pending.erase(itr);
return true;
}
return false;
}
bool
ILinkLayer::PickAddress(const RouterContact& rc,
llarp::AddressInfo& picked) const
{
std::string OurDialect = Name();
for(const auto& addr : rc.addrs)
{
if(addr.dialect == OurDialect)
{
picked = addr;
return true;
}
}
return false;
}
util::StatusObject
ILinkLayer::ExtractStatus() const
{
std::vector< util::StatusObject > pending, established;
{
Lock l(&m_PendingMutex);
std::transform(m_Pending.cbegin(), m_Pending.cend(),
std::back_inserter(pending),
[](const auto& item) -> util::StatusObject {
return item.second->ExtractStatus();
});
}
{
Lock l(&m_AuthedLinksMutex);
std::transform(m_AuthedLinks.cbegin(), m_AuthedLinks.cend(),
std::back_inserter(established),
[](const auto& item) -> util::StatusObject {
return item.second->ExtractStatus();
});
}
return {{"name", Name()},
{"rank", uint64_t(Rank())},
{"addr", m_ourAddr.ToString()},
{"sessions",
util::StatusObject{{"pending", pending},
{"established", established}}}};
}
bool
ILinkLayer::TryEstablishTo(RouterContact rc)
{
{
Lock l(&m_AuthedLinksMutex);
if(m_AuthedLinks.count(rc.pubkey) >= MaxSessionsPerKey)
return false;
}
llarp::AddressInfo to;
if(!PickAddress(rc, to))
return false;
const llarp::Addr addr(to);
{
Lock l(&m_PendingMutex);
if(m_Pending.count(addr) >= MaxSessionsPerKey)
return false;
}
std::shared_ptr< ILinkSession > s = NewOutboundSession(rc, to);
if(PutSession(s))
{
s->Start();
return true;
}
return false;
}
bool
ILinkLayer::Start(Logic* l)
{
m_Logic = l;
ScheduleTick(100);
return true;
}
void
ILinkLayer::Tick(llarp_time_t now)
{
{
Lock l(&m_AuthedLinksMutex);
auto itr = m_AuthedLinks.begin();
while(itr != m_AuthedLinks.end())
{
itr->second->Tick(now);
++itr;
}
}
{
Lock l(&m_PendingMutex);
auto itr = m_Pending.begin();
while(itr != m_Pending.end())
{
itr->second->Tick(now);
++itr;
}
}
}
void
ILinkLayer::Stop()
{
if(m_Logic && tick_id)
m_Logic->remove_call(tick_id);
{
Lock l(&m_AuthedLinksMutex);
auto itr = m_AuthedLinks.begin();
while(itr != m_AuthedLinks.end())
{
itr->second->Close();
++itr;
}
}
{
Lock l(&m_PendingMutex);
auto itr = m_Pending.begin();
while(itr != m_Pending.end())
{
itr->second->Close();
++itr;
}
}
}
void
ILinkLayer::CloseSessionTo(const RouterID& remote)
{
Lock l(&m_AuthedLinksMutex);
RouterID r = remote;
llarp::LogInfo("Closing all to ", r);
auto range = m_AuthedLinks.equal_range(r);
auto itr = range.first;
while(itr != range.second)
{
itr->second->Close();
itr = m_AuthedLinks.erase(itr);
}
}
void
ILinkLayer::KeepAliveSessionTo(const RouterID& remote)
{
Lock l(&m_AuthedLinksMutex);
auto range = m_AuthedLinks.equal_range(remote);
auto itr = range.first;
while(itr != range.second)
{
if(itr->second->ShouldPing())
itr->second->SendKeepAlive();
++itr;
}
}
bool
ILinkLayer::SendTo(const RouterID& remote, const llarp_buffer_t& buf)
{
ILinkSession* s = nullptr;
{
Lock l(&m_AuthedLinksMutex);
auto range = m_AuthedLinks.equal_range(remote);
auto itr = range.first;
// pick lowest backlog session
size_t min = std::numeric_limits< size_t >::max();
while(itr != range.second)
{
auto backlog = itr->second->SendQueueBacklog();
if(backlog < min)
{
s = itr->second.get();
min = backlog;
}
++itr;
}
}
return s && s->SendMessageBuffer(buf);
}
bool
ILinkLayer::GetOurAddressInfo(llarp::AddressInfo& addr) const
{
addr.dialect = Name();
addr.pubkey = TransportPubKey();
addr.rank = Rank();
addr.port = m_ourAddr.port();
addr.ip = *m_ourAddr.addr6();
return true;
}
const byte_t*
ILinkLayer::TransportPubKey() const
{
return llarp::seckey_topublic(TransportSecretKey());
}
const SecretKey&
ILinkLayer::TransportSecretKey() const
{
return m_SecretKey;
}
bool
ILinkLayer::GenEphemeralKeys()
{
return KeyGen(m_SecretKey);
}
bool
ILinkLayer::EnsureKeys(const char* f)
{
fs::path fpath(f);
llarp::SecretKey keys;
std::error_code ec;
if(!fs::exists(fpath, ec))
{
if(!KeyGen(m_SecretKey))
return false;
// generated new keys
if(!BEncodeWriteFile< decltype(keys), 128 >(f, m_SecretKey))
return false;
}
// load keys
if(!BDecodeReadFile(f, m_SecretKey))
{
llarp::LogError("Failed to load keyfile ", f);
return false;
}
return true;
}
bool
ILinkLayer::PutSession(const std::shared_ptr< ILinkSession >& s)
{
static constexpr size_t MaxSessionsPerEndpoint = 5;
Lock lock(&m_PendingMutex);
llarp::Addr addr = s->GetRemoteEndpoint();
if(m_Pending.count(addr) >= MaxSessionsPerEndpoint)
return false;
m_Pending.emplace(addr, s);
return true;
}
void
ILinkLayer::OnTick(uint64_t interval)
{
auto now = Now();
Tick(now);
ScheduleTick(interval);
}
void
ILinkLayer::ScheduleTick(uint64_t interval)
{
tick_id = m_Logic->call_later({interval, this, &ILinkLayer::on_timer_tick});
}
} // namespace llarp