lokinet/llarp/iwp/session.cpp
2018-08-10 17:34:11 -04:00

815 lines
20 KiB
C++

#ifdef _MSC_VER
#define NOMINMAX
#endif
#include <algorithm>
#include <llarp/crypto.hpp>
#include <llarp/iwp.hpp>
#include <llarp/iwp/server.hpp>
#include <llarp/iwp/session.hpp>
#include "address_info.hpp"
#include "buffer.hpp"
#include "link/encoder.hpp"
#include "llarp/ev.h" // for handle_frame_encrypt
static void
handle_crypto_outbound(void *u)
{
llarp_link_session *self = static_cast< llarp_link_session * >(u);
self->EncryptOutboundFrames();
self->working = false;
}
// TODO: move this orphan function?
static void
handle_frame_encrypt(iwp_async_frame *frame)
{
llarp_link_session *self = static_cast< llarp_link_session * >(frame->user);
if(llarp_ev_udp_sendto(self->udp, self->addr, frame->buf, frame->sz) == -1)
llarp::LogWarn("sendto failed");
}
llarp_link_session::llarp_link_session(llarp_link *l, const byte_t *seckey,
const llarp::Addr &a)
: udp(&l->udp)
, crypto(&l->router->crypto)
, iwp(l->iwp)
, serv(l)
, outboundFrames("iwp_outbound")
, decryptedFrames("iwp_inbound")
, addr(a)
, state(eInitial)
, frame(this)
{
if(seckey)
eph_seckey = seckey;
else
crypto->encryption_keygen(eph_seckey);
llarp_rc_clear(&remote_router);
crypto->randbytes(token, 32);
frame.alive();
working.store(false);
createdAt = llarp_time_now_ms();
}
llarp_link_session::~llarp_link_session()
{
llarp_rc_free(&remote_router);
frame.clear();
}
llarp_router *
llarp_link_session::Router()
{
return serv->router;
}
bool
llarp_link_session::sendto(llarp_buffer_t msg)
{
auto now = llarp_time_now_ms();
if(timedout(now))
return false;
auto id = ++frame.txids;
// llarp::LogDebug("session sending to, number", id);
llarp::ShortHash digest;
crypto->shorthash(digest, msg);
transit_message *m = new transit_message(msg, digest, id);
add_outbound_message(id, m);
return true;
}
bool
llarp_link_session::timedout(llarp_time_t now, llarp_time_t timeout)
{
if(now <= frame.lastEvent)
return false;
auto diff = now - frame.lastEvent;
return diff >= timeout;
}
bool
llarp_link_session::has_timed_out()
{
auto now = llarp_time_now_ms();
return timedout(now);
}
static void
send_keepalive(void *user)
{
llarp_link_session *self = static_cast< llarp_link_session * >(user);
// if both sides agree on invalidation
if(self->is_invalidated())
{
// don't send keepalive
llarp::LogInfo("session cant send keepalive because were invalid");
return;
}
// all zeros means keepalive
byte_t tmp[8] = {0};
// set flags for tx
frame_header hdr(tmp);
hdr.flags() = self->frame.txflags;
// send frame after encrypting
auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
self->lastKeepalive = llarp_time_now_ms();
self->encrypt_frame_async_send(buf.base, buf.sz);
self->pump();
self->PumpCryptoOutbound();
}
void
llarp_link_session::close()
{
// set our side invalidated and close async when the other side also marks
// as session invalidated
frame.txflags |= eSessionInvalidated;
// TODO: add timer for session invalidation
llarp_logic_queue_job(serv->logic, {this, &send_keepalive});
}
void
llarp_link_session::session_established()
{
llarp::RouterID remote = remote_router.pubkey;
llarp::LogInfo("Session to ", remote, " established");
EnterState(eEstablished);
serv->MapAddr(addr, remote_router.pubkey);
llarp_logic_cancel_call(serv->logic, establish_job_id);
}
llarp_rc *
llarp_link_session::get_remote_router()
{
return &remote_router;
}
void
llarp_link_session::add_outbound_message(uint64_t id, transit_message *msg)
{
llarp::LogDebug("add outbound message ", id, " of size ",
msg->msginfo.totalsize(),
" numfrags=", (int)msg->msginfo.numfrags(),
" lastfrag=", (int)msg->msginfo.lastfrag());
frame.queue_tx(id, msg);
pump();
PumpCryptoOutbound();
}
bool
llarp_link_session::CheckRCValid()
{
// verify signatuire
if(!llarp_rc_verify_sig(crypto, &remote_router))
return false;
auto &list = remote_router.addrs->list;
if(list.size() == 0) // the remote node is a client node so accept it
return true;
// check if the RC owns a pubkey that we are using
for(auto &ai : list)
{
if(memcmp(ai.enc_key, remote, PUBKEYSIZE) == 0)
return true;
}
return false;
}
bool
llarp_link_session::IsEstablished()
{
return state == eEstablished;
}
void
llarp_link_session::send_LIM()
{
llarp::LogDebug("send LIM");
llarp::ShortHash digest;
// 64 bytes overhead for link message
byte_t tmp[MAX_RC_SIZE + 64];
auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
// return a llarp_buffer_t of encoded link message
if(llarp::EncodeLIM(&buf, our_router))
{
// rewind message buffer
buf.sz = buf.cur - buf.base;
buf.cur = buf.base;
// hash message buffer
crypto->shorthash(digest, buf);
auto id = frame.txids++;
auto msg = new transit_message(buf, digest, id);
// put into outbound send queue
add_outbound_message(id, msg);
// enter state
EnterState(eLIMSent);
}
else
llarp::LogError("LIM Encode failed");
}
static void
handle_generated_session_start(iwp_async_session_start *start)
{
llarp_link_session *link = static_cast< llarp_link_session * >(start->user);
if(llarp_ev_udp_sendto(link->udp, link->addr, start->buf, start->sz) == -1)
llarp::LogError("sendto failed");
link->EnterState(llarp_link_session::State::eSessionStartSent);
link->working = false;
}
static void
handle_verify_intro(iwp_async_intro *intro)
{
llarp_link_session *self = static_cast< llarp_link_session * >(intro->user);
if(!intro->buf)
{
self->serv->remove_intro_from(self->addr);
llarp::LogError("intro verify failed from ", self->addr, " via ",
self->serv->addr);
delete self;
return;
}
self->intro_ack();
}
static void
handle_verify_introack(iwp_async_introack *introack)
{
llarp_link_session *link =
static_cast< llarp_link_session * >(introack->user);
auto logic = link->serv->logic;
link->working = false;
if(introack->buf == nullptr)
{
// invalid signature
llarp::LogError("introack verify failed from ", link->addr);
return;
}
// cancel resend
llarp_logic_cancel_call(logic, link->intro_resend_job_id);
link->EnterState(llarp_link_session::eIntroAckRecv);
link->session_start();
}
static void
handle_establish_timeout(void *user, uint64_t orig, uint64_t left)
{
if(orig == 0)
return;
llarp_link_session *self = static_cast< llarp_link_session * >(user);
self->establish_job_id = 0;
if(self->establish_job)
{
llarp_link_establish_job *job = self->establish_job;
self->establish_job = nullptr;
job->link = self->serv;
if(self->IsEstablished())
{
job->session = self;
}
else
{
// timer timeout
job->session = nullptr;
}
job->result(job);
}
}
void
llarp_link_session::done()
{
}
void
llarp_link_session::PumpCryptoOutbound()
{
if(working)
return;
working = true;
llarp_threadpool_queue_job(serv->worker, {this, &handle_crypto_outbound});
}
// void llarp_link_session::PumpCodelInbound()
// {
// pump_recv_timer_id =
// llarp_logic_call_later(logic,
// {decryptedFrames.nextTickInterval, this,
// &handle_inbound_codel_delayed});
// }
void
llarp_link_session::EnterState(State st)
{
llarp::LogDebug("EnterState - entering state: ", st,
state == eLIMSent ? "eLIMSent" : "",
state == eSessionStartSent ? "eSessionStartSent" : "");
frame.alive();
state = st;
if(state == eSessionStartSent || state == eIntroAckSent)
{
// llarp::LogInfo("EnterState - ", state==eLIMSent?"eLIMSent":"",
// state==eSessionStartSent?"eSessionStartSent":"");
// PumpCodelInbound();
// PumpCodelOutbound();
PumpCryptoOutbound();
// StartInboundCodel();
}
}
void
llarp_link_session::on_intro(const void *buf, size_t sz)
{
llarp::LogDebug("session onintro");
if(sz >= sizeof(workbuf))
{
// too big?
llarp::LogError("intro too big");
delete this;
return;
}
if(serv->has_intro_from(addr))
{
llarp::LogError("duplicate intro from ", addr);
delete this;
return;
}
serv->put_intro_from(this);
// copy so we own it
memcpy(workbuf, buf, sz);
intro.buf = workbuf;
intro.sz = sz;
// give secret key
intro.secretkey = eph_seckey;
// and nonce
intro.nonce = intro.buf + 32;
intro.user = this;
// set call back hook
intro.hook = &handle_verify_intro;
// put remote pubkey into this buffer
intro.remote_pubkey = remote;
// call
EnterState(eIntroRecv);
working = true;
iwp_call_async_verify_intro(iwp, &intro);
}
void
llarp_link_session::on_intro_ack(const void *buf, size_t sz)
{
if(sz >= sizeof(workbuf))
{
// too big?
llarp::LogError("introack too big");
return;
}
// copy buffer so we own it
memcpy(workbuf, buf, sz);
// set intro ack parameters
introack.buf = workbuf;
introack.sz = sz;
introack.nonce = workbuf + 32;
introack.remote_pubkey = remote;
introack.token = token;
introack.secretkey = eph_seckey;
introack.user = this;
introack.hook = &handle_verify_introack;
// async verify
working = true;
iwp_call_async_verify_introack(iwp, &introack);
}
bool
llarp_link_session::is_invalidated() const
{
return frame.flags_agree(eSessionInvalidated);
}
llarp_link *
llarp_link_session::get_parent()
{
return serv;
}
void
llarp_link_session::TickLogic(llarp_time_t now)
{
std::queue< iwp_async_frame * > q;
decryptedFrames.Process(q);
while(q.size())
{
auto &front = q.front();
handle_frame_decrypt(front);
delete front;
q.pop();
}
frame.process_inbound_queue();
frame.retransmit(now);
pump();
}
bool
llarp_link_session::Tick(llarp_time_t now)
{
if(timedout(now, SESSION_TIMEOUT))
{
// we are timed out
// when we are done doing stuff with all of our frames from the crypto
// workers we are done
llarp::LogWarn("Tick - ", addr, " timed out with ", frames,
" frames left, working=", working);
return !working;
}
if(is_invalidated())
{
// both sides agreeed to session invalidation
// terminate our session when all of our frames from the crypto workers
// are done
llarp::LogWarn("Tick - ", addr, " invaldiated session with ", frames,
" frames left");
return !working;
}
if(state == eLIMSent || state == eEstablished)
{
if(now - lastKeepalive > KEEP_ALIVE_INTERVAL)
send_keepalive(this);
}
return false;
}
void
llarp_link_session::EncryptOutboundFrames()
{
std::queue< iwp_async_frame * > outq;
outboundFrames.Process(outq);
while(outq.size())
{
auto &front = outq.front();
// if(iwp_encrypt_frame(&front))
// q.push(front);
if(iwp_encrypt_frame(front))
handle_frame_encrypt(front);
delete front;
outq.pop();
}
}
static void
handle_verify_session_start(iwp_async_session_start *s)
{
llarp_link_session *self = static_cast< llarp_link_session * >(s->user);
if(!s->buf)
{
// verify fail
// TODO: remove session?
llarp::LogWarn("session start verify failed from ", self->addr);
self->serv->RemoveSession(self);
return;
}
self->serv->remove_intro_from(self->addr);
self->send_LIM();
self->working = false;
}
static void
handle_introack_generated(iwp_async_introack *i)
{
llarp_link_session *link = static_cast< llarp_link_session * >(i->user);
if(i->buf && link->serv->has_intro_from(link->addr))
{
// track it with the server here
if(link->serv->has_session_via(link->addr))
{
// duplicate session
llarp::LogWarn("duplicate session to ", link->addr);
link->working = false;
return;
}
link->frame.alive();
link->EnterState(llarp_link_session::State::eIntroAckSent);
link->serv->put_session(link->addr, link);
llarp::LogDebug("send introack to ", link->addr, " via ", link->serv->addr);
llarp_ev_udp_sendto(link->udp, link->addr, i->buf, i->sz);
}
else
{
// failed to generate?
llarp::LogWarn("failed to generate introack");
}
link->working = false;
}
static void
handle_generated_intro(iwp_async_intro *i)
{
llarp_link_session *link = static_cast< llarp_link_session * >(i->user);
link->working = false;
if(i->buf)
{
llarp::LogInfo("send intro to ", link->addr);
if(llarp_ev_udp_sendto(link->udp, link->addr, i->buf, i->sz) == -1)
{
llarp::LogWarn("send intro failed");
return;
}
link->EnterState(llarp_link_session::eIntroSent);
link->lastIntroSentAt = llarp_time_now_ms();
auto dlt = (link->createdAt - link->lastIntroSentAt) + 500;
auto logic = link->serv->logic;
link->intro_resend_job_id = llarp_logic_call_later(
logic, {dlt, link, &llarp_link_session::handle_introack_timeout});
}
else
{
llarp::LogWarn("failed to generate intro");
}
}
void
llarp_link_session::handle_introack_timeout(void *user, uint64_t timeout,
uint64_t left)
{
if(timeout && left == 0)
{
// timeout reached
llarp_link_session *self = static_cast< llarp_link_session * >(user);
// retry introduce
self->introduce(nullptr);
}
}
void
llarp_link_session::introduce(uint8_t *pub)
{
llarp::LogDebug("session introduce");
if(pub)
memcpy(remote, pub, PUBKEYSIZE);
intro.buf = workbuf;
size_t w0sz = (llarp_randint() % MAX_PAD);
intro.sz = (32 * 3) + w0sz;
// randomize w0
if(w0sz)
{
crypto->randbytes(intro.buf + (32 * 3), w0sz);
}
intro.nonce = intro.buf + 32;
intro.secretkey = eph_seckey;
// copy in pubkey
intro.remote_pubkey = remote;
// randomize nonce
crypto->randbytes(intro.nonce, 32);
// async generate intro packet
intro.user = this;
intro.hook = &handle_generated_intro;
working = true;
iwp_call_async_gen_intro(iwp, &intro);
// start introduce timer
if(pub)
establish_job_id = llarp_logic_call_later(
serv->logic, {5000, this, &handle_establish_timeout});
}
void
llarp_link_session::handle_frame_decrypt(iwp_async_frame *frame)
{
llarp_link_session *self = static_cast< llarp_link_session * >(frame->user);
if(frame->success)
{
if(self->frame.process(frame->buf + 64, frame->sz - 64))
{
self->frame.alive();
}
else
llarp::LogError("invalid frame from ", self->addr);
}
else
llarp::LogError("decrypt frame fail from ", self->addr);
}
void
llarp_link_session::decrypt_frame(const void *buf, size_t sz)
{
if(sz > 64)
{
// auto frame = alloc_frame(inboundFrames, buf, sz);
// inboundFrames.Put(frame);
auto f = alloc_frame(buf, sz);
if(iwp_decrypt_frame(f))
{
decryptedFrames.Put(f);
}
else
{
llarp::LogWarn("decrypt frame fail");
delete f;
}
// f->hook = &handle_frame_decrypt;
// iwp_call_async_frame_decrypt(iwp, f);
}
else
llarp::LogWarn("short packet of ", sz, " bytes");
}
void
llarp_link_session::session_start()
{
llarp::LogInfo("session gen start");
size_t w2sz = llarp_randint() % MAX_PAD;
start.buf = workbuf;
start.sz = w2sz + (32 * 3);
start.nonce = workbuf + 32;
crypto->randbytes(start.nonce, 32);
start.token = token;
memcpy(start.buf + 64, token, 32);
if(w2sz)
crypto->randbytes(start.buf + (32 * 3), w2sz);
start.remote_pubkey = remote;
start.secretkey = eph_seckey;
start.sessionkey = sessionkey;
start.user = this;
start.hook = &handle_generated_session_start;
working = true;
iwp_call_async_gen_session_start(iwp, &start);
}
void
llarp_link_session::on_session_start(const void *buf, size_t sz)
{
llarp::LogInfo("session start");
if(sz > sizeof(workbuf))
{
llarp::LogDebug("session start too big");
return;
}
if(working)
{
llarp::LogError("duplicate session start from ", addr);
return;
}
// own the buffer
memcpy(workbuf, buf, sz);
// verify session start
start.buf = workbuf;
start.sz = sz;
start.nonce = workbuf + 32;
start.token = token;
start.remote_pubkey = remote;
start.secretkey = eph_seckey;
start.sessionkey = sessionkey;
start.user = this;
start.hook = &handle_verify_session_start;
working = true;
iwp_call_async_verify_session_start(iwp, &start);
}
void
llarp_link_session::intro_ack()
{
if(serv->has_session_via(addr))
{
llarp::LogWarn("won't ack intro for duplicate session from ", addr);
return;
}
llarp::LogDebug("session introack");
uint16_t w1sz = llarp_randint() % MAX_PAD;
introack.buf = workbuf;
introack.sz = (32 * 3) + w1sz;
// randomize padding
if(w1sz)
crypto->randbytes(introack.buf + (32 * 3), w1sz);
// randomize nonce
introack.nonce = introack.buf + 32;
crypto->randbytes(introack.nonce, 32);
// token
introack.token = token;
// keys
introack.remote_pubkey = remote;
introack.secretkey = eph_seckey;
// call
introack.user = this;
introack.hook = &handle_introack_generated;
iwp_call_async_gen_introack(iwp, &introack);
}
// this is called from net thread
void
llarp_link_session::recv(const void *buf, size_t sz)
{
// llarp::LogDebug("session recv", state);
// frame_header hdr((byte_t *)buf);
// llarp::LogDebug("recv - message header type ", (int)hdr.msgtype());
switch(state)
{
case eInitial:
case eIntroRecv:
// got intro
llarp::LogDebug("session recv - intro");
on_intro(buf, sz);
break;
case eIntroSent:
// got intro ack
llarp::LogDebug("session recv - introack");
on_intro_ack(buf, sz);
break;
case eIntroAckSent:
// probably a session start
llarp::LogDebug("session recv - sessionstart");
on_session_start(buf, sz);
break;
case eSessionStartSent:
case eLIMSent:
case eEstablished:
// session is started
/*
llarp::LogDebug("session recv - ",
state == eSessionStartSent ? "startsent" : "",
state == eLIMSent ? "limset" : "",
state == eEstablished ? "established" : "");
*/
decrypt_frame(buf, sz);
break;
default:
llarp::LogError("session recv - invalid state");
// invalid state?
break;
}
}
// TODO: fix orphan
iwp_async_frame *
llarp_link_session::alloc_frame(const void *buf, size_t sz)
{
// TODO don't hard code 1500
if(sz > 1500)
{
llarp::LogWarn("alloc frame - frame too big, >1500");
return nullptr;
}
iwp_async_frame *frame = new iwp_async_frame;
if(buf)
memcpy(frame->buf, buf, sz);
frame->iwp = iwp;
frame->sz = sz;
frame->user = this;
frame->sessionkey = sessionkey;
/// TODO: this could be rather slow
// frame->created = now;
// llarp::LogInfo("alloc_frame putting into q");
// q.Put(frame);
return frame;
}
void
llarp_link_session::encrypt_frame_async_send(const void *buf, size_t sz)
{
// 64 bytes frame overhead for nonce and hmac
iwp_async_frame *frame = alloc_frame(nullptr, sz + 64);
memcpy(frame->buf + 64, buf, sz);
// maybe add upto 128 random bytes to the packet
auto padding = llarp_randint() % MAX_PAD;
if(padding)
crypto->randbytes(frame->buf + 64 + sz, padding);
frame->sz += padding;
// frame is modified, so now we can push it to queue
outboundFrames.Put(frame);
}
void
llarp_link_session::pump()
{
bool flush = false;
llarp_buffer_t buf;
std::queue< sendbuf_t * > q;
frame.sendqueue.Process(q);
while(q.size())
{
auto &front = q.front();
buf = front->Buffer();
encrypt_frame_async_send(buf.base, buf.sz);
delete front;
q.pop();
flush = true;
}
if(flush)
PumpCryptoOutbound();
}