You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

609 lines
17 KiB

#include <ccan/container_of/container_of.h>
#include <ccan/crypto/hkdf_sha256/hkdf_sha256.h>
#include <ccan/endian/endian.h>
#include <ccan/fdpass/fdpass.h>
#include <ccan/io/fdpass/fdpass.h>
#include <ccan/io/io.h>
#include <ccan/list/list.h>
#include <ccan/noerr/noerr.h>
#include <ccan/read_write_all/read_write_all.h>
#include <ccan/take/take.h>
#include <ccan/tal/str/str.h>
#include <daemon/broadcast.h>
#include <daemon/log.h>
#include <daemon/routing.h>
#include <daemon/timeout.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <lightningd/cryptomsg.h>
#include <lightningd/daemon_conn.h>
#include <lightningd/debug.h>
#include <lightningd/gossip/gen_gossip_wire.h>
#include <lightningd/gossip_msg.h>
#include <lightningd/status.h>
#include <secp256k1_ecdh.h>
#include <sodium/randombytes.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <utils.h>
#include <version.h>
#include <wire/gen_peer_wire.h>
#include <wire/wire_io.h>
struct daemon {
struct list_head peers;
/* Connection to main daemon. */
struct daemon_conn master;
/* Routing information */
struct routing_state *rstate;
struct timers timers;
};
struct peer {
struct daemon *daemon;
/* daemon->peers */
struct list_node list;
u64 unique_id;
struct peer_crypto_state pcs;
/* File descriptor corresponding to conn. */
int fd;
/* Our connection (and owner) */
struct io_conn *conn;
/* If this is non-NULL, it means we failed. */
const char *error;
/* High water mark for the staggered broadcast */
u64 broadcast_index;
/* Message queue for outgoing. */
struct msg_queue peer_out;
/* Is it time to continue the staggered broadcast? */
bool gossip_sync;
/* The peer owner will use this to talk to gossipd */
struct daemon_conn owner_conn;
/* Are we the owner of the peer? */
bool local;
};
static void wake_pkt_out(struct peer *peer);
static void destroy_peer(struct peer *peer)
{
list_del_from(&peer->daemon->peers, &peer->list);
if (peer->error) {
u8 *msg = towire_gossipstatus_peer_bad_msg(peer,
peer->unique_id,
(u8 *)peer->error);
daemon_conn_send(&peer->daemon->master, take(msg));
}
}
static struct peer *setup_new_peer(struct daemon *daemon, const u8 *msg)
{
struct peer *peer = tal(daemon, struct peer);
init_peer_crypto_state(peer, &peer->pcs);
if (!fromwire_gossipctl_new_peer(msg, NULL, &peer->unique_id,
&peer->pcs.cs))
return tal_free(peer);
peer->daemon = daemon;
peer->error = NULL;
peer->local = true;
msg_queue_init(&peer->peer_out, peer);
list_add_tail(&daemon->peers, &peer->list);
tal_add_destructor(peer, destroy_peer);
wake_pkt_out(peer);
return peer;
}
static struct io_plan *owner_msg_in(struct io_conn *conn,
struct daemon_conn *dc);
static struct io_plan *nonlocal_dump_gossip(struct io_conn *conn,
struct daemon_conn *dc);
/* When a peer is to be owned by another daemon, we create a socket
* pair to send/receive gossip from it */
static void send_peer_with_fds(struct peer *peer, const u8 *msg)
{
int fds[2];
u8 *out;
if (socketpair(AF_LOCAL, SOCK_STREAM, 0, fds) != 0) {
out = towire_gossipstatus_peer_failed(msg,
peer->unique_id,
(u8 *)tal_fmt(msg,
"Failed to create socketpair: %s",
strerror(errno)));
daemon_conn_send(&peer->daemon->master, take(out));
/* FIXME: Send error to peer? */
/* Peer will be freed when caller closes conn. */
return;
}
/* Now we talk to socket to get to peer's owner daemon. */
peer->local = false;
daemon_conn_init(peer, &peer->owner_conn, fds[0], owner_msg_in);
peer->owner_conn.msg_queue_cleared_cb = nonlocal_dump_gossip;
/* Peer stays around, even though we're going to free conn. */
tal_steal(peer->daemon, peer);
daemon_conn_send(&peer->daemon->master, msg);
daemon_conn_send_fd(&peer->daemon->master, peer->fd);
daemon_conn_send_fd(&peer->daemon->master, fds[1]);
/* Don't get confused: we can't use this any more. */
peer->fd = -1;
}
static void handle_gossip_msg(struct routing_state *rstate, u8 *msg)
{
int t = fromwire_peektype(msg);
switch(t) {
case WIRE_CHANNEL_ANNOUNCEMENT:
handle_channel_announcement(rstate, msg, tal_count(msg));
break;
case WIRE_NODE_ANNOUNCEMENT:
handle_node_announcement(rstate, msg, tal_count(msg));
break;
case WIRE_CHANNEL_UPDATE:
handle_channel_update(rstate, msg, tal_count(msg));
break;
}
}
static struct io_plan *peer_msgin(struct io_conn *conn,
struct peer *peer, u8 *msg)
{
u8 *s;
enum wire_type t = fromwire_peektype(msg);
switch (t) {
case WIRE_ERROR:
/* FIXME: Report error from msg. */
peer->error = "ERROR message received";
return io_close(conn);
case WIRE_CHANNEL_ANNOUNCEMENT:
case WIRE_NODE_ANNOUNCEMENT:
case WIRE_CHANNEL_UPDATE:
handle_gossip_msg(peer->daemon->rstate, msg);
return peer_read_message(conn, &peer->pcs, peer_msgin);
case WIRE_INIT:
peer->error = "Duplicate INIT message received";
return io_close(conn);
case WIRE_OPEN_CHANNEL:
case WIRE_ACCEPT_CHANNEL:
case WIRE_FUNDING_CREATED:
case WIRE_FUNDING_SIGNED:
case WIRE_FUNDING_LOCKED:
case WIRE_ANNOUNCEMENT_SIGNATURES:
case WIRE_UPDATE_FEE:
case WIRE_SHUTDOWN:
case WIRE_CLOSING_SIGNED:
case WIRE_UPDATE_ADD_HTLC:
case WIRE_UPDATE_FULFILL_HTLC:
case WIRE_UPDATE_FAIL_HTLC:
case WIRE_UPDATE_FAIL_MALFORMED_HTLC:
case WIRE_COMMITMENT_SIGNED:
case WIRE_REVOKE_AND_ACK:
/* Not our place to handle this, so we punt */
s = towire_gossipstatus_peer_nongossip(msg, peer->unique_id,
&peer->pcs.cs, msg);
send_peer_with_fds(peer, take(s));
return io_close_taken_fd(conn);
}
/* BOLT #1:
*
* The type follows the _it's ok to be odd_ rule, so nodes MAY send
* odd-numbered types without ascertaining that the recipient
* understands it. */
if (t & 1) {
status_trace("Peer %"PRIu64" sent unknown packet %u, ignoring",
peer->unique_id, t);
return peer_read_message(conn, &peer->pcs, peer_msgin);
}
peer->error = tal_fmt(peer, "Unknown packet %u", t);
return io_close(conn);
}
/* Wake up the outgoing direction of the connection and write any
* queued messages. Needed since the `io_wake` method signature does
* not allow us to specify it as the callback for `new_reltimer`, but
* it allows us to set an additional flag for the routing dump..
*/
static void wake_pkt_out(struct peer *peer)
{
peer->gossip_sync = true;
new_reltimer(&peer->daemon->timers, peer, time_from_sec(30),
wake_pkt_out, peer);
/* Notify the peer-write loop */
io_wake(&peer->peer_out);
/* Notify the daemon_conn-write loop */
io_wake(&peer->owner_conn.out);
}
static struct io_plan *peer_pkt_out(struct io_conn *conn, struct peer *peer)
{
/* First priority is queued packets, if any */
const u8 *out = msg_dequeue(&peer->peer_out);
if (out)
return peer_write_message(conn, &peer->pcs, take(out),
peer_pkt_out);
/* If we're supposed to be sending gossip, do so now. */
if (peer->gossip_sync) {
struct queued_message *next;
next = next_broadcast_message(peer->daemon->rstate->broadcasts,
&peer->broadcast_index);
if (next)
return peer_write_message(conn, &peer->pcs,
next->payload, peer_pkt_out);
/* Gossip is drained. Wait for next timer. */
peer->gossip_sync = false;
}
return msg_queue_wait(conn, &peer->peer_out, peer_pkt_out, peer);
}
static bool has_even_bit(const u8 *bitmap)
{
size_t len = tal_count(bitmap);
while (len) {
if (*bitmap & 0xAA)
return true;
len--;
bitmap++;
}
return false;
}
/**
* owner_msg_in - Called by the `peer->owner_conn` upon receiving a
* message
*/
static struct io_plan *owner_msg_in(struct io_conn *conn,
struct daemon_conn *dc)
{
struct peer *peer = container_of(dc, struct peer, owner_conn);
u8 *msg = dc->msg_in;
int type = fromwire_peektype(msg);
if (type == WIRE_CHANNEL_ANNOUNCEMENT || type == WIRE_CHANNEL_UPDATE ||
type == WIRE_NODE_ANNOUNCEMENT) {
handle_gossip_msg(peer->daemon->rstate, dc->msg_in);
}
return daemon_conn_read_next(conn, dc);
}
/**
* nonlocal_dump_gossip - catch the nonlocal peer up with the latest gossip.
*
* Registered as `msg_queue_cleared_cb` by the `peer->owner_conn`.
*/
static struct io_plan *nonlocal_dump_gossip(struct io_conn *conn, struct daemon_conn *dc)
{
struct queued_message *next;
struct peer *peer = container_of(dc, struct peer, owner_conn);
/* Make sure we are not connected directly */
if (peer->local)
return io_out_wait(conn, peer, daemon_conn_write_next, dc);
next = next_broadcast_message(peer->daemon->rstate->broadcasts,
&peer->broadcast_index);
if (!next) {
return io_out_wait(conn, peer, daemon_conn_write_next, dc);
} else {
return io_write_wire(conn, next->payload, nonlocal_dump_gossip, dc);
}
}
static struct io_plan *peer_parse_init(struct io_conn *conn,
struct peer *peer, u8 *msg)
{
u8 *gfeatures, *lfeatures;
if (!fromwire_init(msg, msg, NULL, &gfeatures, &lfeatures)) {
peer->error = tal_fmt(msg, "Bad init: %s", tal_hex(msg, msg));
return io_close(conn);
}
/* BOLT #1:
*
* The receiving node MUST fail the channels if it receives a
* `globalfeatures` or `localfeatures` with an even bit set which it
* does not understand.
*/
if (has_even_bit(gfeatures)) {
peer->error = tal_fmt(msg, "Bad globalfeatures: %s",
tal_hex(msg, gfeatures));
return io_close(conn);
}
if (has_even_bit(lfeatures)) {
peer->error = tal_fmt(msg, "Bad localfeatures: %s",
tal_hex(msg, lfeatures));
return io_close(conn);
}
/* BOLT #1:
*
* Each node MUST wait to receive `init` before sending any other
* messages.
*/
daemon_conn_send(&peer->daemon->master,
take(towire_gossipstatus_peer_ready(msg,
peer->unique_id)));
/* Need to go duplex here, otherwise backpressure would mean
* we both wait indefinitely */
return io_duplex(conn,
peer_read_message(conn, &peer->pcs, peer_msgin),
peer_pkt_out(conn, peer));
}
static struct io_plan *peer_init_sent(struct io_conn *conn, struct peer *peer)
{
return peer_read_message(conn, &peer->pcs, peer_parse_init);
}
static struct io_plan *peer_send_init(struct io_conn *conn, struct peer *peer)
{
/* BOLT #1:
*
* The sending node SHOULD use the minimum lengths required to
* represent the feature fields. The sending node MUST set feature
* bits corresponding to features it requires the peer to support, and
* SHOULD set feature bits corresponding to features it optionally
* supports.
*/
return peer_write_message(conn, &peer->pcs,
take(towire_init(peer, NULL, NULL)),
peer_init_sent);
}
static struct io_plan *new_peer_got_fd(struct io_conn *conn, struct peer *peer)
{
peer->conn = io_new_conn(conn, peer->fd, peer_send_init, peer);
if (!peer->conn) {
peer->error = "Could not create connection";
tal_free(peer);
}
return daemon_conn_read_next(conn,&peer->daemon->master);
}
static struct io_plan *new_peer(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
struct peer *peer = setup_new_peer(daemon, msg);
if (!peer)
status_failed(WIRE_GOSSIPSTATUS_BAD_NEW_PEER_REQUEST,
"%s", tal_hex(trc, msg));
return io_recv_fd(conn, &peer->fd, new_peer_got_fd, peer);
}
static struct io_plan *release_peer(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
u64 unique_id;
struct peer *peer;
if (!fromwire_gossipctl_release_peer(msg, NULL, &unique_id))
status_failed(WIRE_GOSSIPSTATUS_BAD_RELEASE_REQUEST,
"%s", tal_hex(trc, msg));
list_for_each(&daemon->peers, peer, list) {
if (peer->unique_id == unique_id) {
send_peer_with_fds(peer,
take(towire_gossipctl_release_peer_reply(msg,
unique_id,
&peer->pcs.cs)));
io_close_taken_fd(peer->conn);
return daemon_conn_read_next(conn, &daemon->master);
}
}
status_failed(WIRE_GOSSIPSTATUS_BAD_RELEASE_REQUEST,
"Unknown peer %"PRIu64, unique_id);
}
static struct io_plan *getroute_req(struct io_conn *conn, struct daemon *daemon,
u8 *msg)
{
tal_t *tmpctx = tal_tmpctx(msg);
struct pubkey source, destination;
u32 msatoshi;
u16 riskfactor;
u8 *out;
struct route_hop *hops;
fromwire_gossip_getroute_request(msg, NULL, &source, &destination,
&msatoshi, &riskfactor);
status_trace("Trying to find a route from %s to %s for %d msatoshi",
pubkey_to_hexstr(tmpctx, &source),
pubkey_to_hexstr(tmpctx, &destination), msatoshi);
hops = get_route(tmpctx, daemon->rstate, &source, &destination,
msatoshi, 1);
out = towire_gossip_getroute_reply(msg, hops);
tal_free(tmpctx);
daemon_conn_send(&daemon->master, out);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *getchannels_req(struct io_conn *conn, struct daemon *daemon,
u8 *msg)
{
tal_t *tmpctx = tal_tmpctx(daemon);
u8 *out;
size_t j, num_chans = 0;
struct gossip_getchannels_entry *entries;
struct node *n;
struct node_map_iter i;
entries = tal_arr(tmpctx, struct gossip_getchannels_entry, num_chans);
n = node_map_first(daemon->rstate->nodes, &i);
while (n != NULL) {
for (j=0; j<tal_count(n->out); j++){
tal_resize(&entries, num_chans + 1);
entries[num_chans].source = n->out[j]->src->id;
entries[num_chans].destination = n->out[j]->dst->id;
entries[num_chans].active = n->out[j]->active;
entries[num_chans].delay = n->out[j]->delay;
entries[num_chans].fee_per_kw = n->out[j]->proportional_fee;
entries[num_chans].last_update_timestamp = n->out[j]->last_timestamp;
entries[num_chans].flags = n->out[j]->flags;
entries[num_chans].short_channel_id = n->out[j]->short_channel_id;
num_chans++;
}
n = node_map_next(daemon->rstate->nodes, &i);
}
out = towire_gossip_getchannels_reply(daemon, entries);
daemon_conn_send(&daemon->master, take(out));
tal_free(tmpctx);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *getnodes(struct io_conn *conn, struct daemon *daemon)
{
tal_t *tmpctx = tal_tmpctx(daemon);
u8 *out;
struct node *n;
struct node_map_iter i;
struct gossip_getnodes_entry *nodes;
size_t node_count = 0;
nodes = tal_arr(tmpctx, struct gossip_getnodes_entry, node_count);
n = node_map_first(daemon->rstate->nodes, &i);
while (n != NULL) {
tal_resize(&nodes, node_count + 1);
nodes[node_count].nodeid = n->id;
nodes[node_count].hostname = n->hostname;
nodes[node_count].port = n->port;
node_count++;
n = node_map_next(daemon->rstate->nodes, &i);
}
out = towire_gossip_getnodes_reply(daemon, nodes);
daemon_conn_send(&daemon->master, take(out));
tal_free(tmpctx);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *recv_req(struct io_conn *conn, struct daemon_conn *master)
{
struct daemon *daemon = container_of(master, struct daemon, master);
enum gossip_wire_type t = fromwire_peektype(master->msg_in);
status_trace("req: type %s len %zu",
gossip_wire_type_name(t), tal_count(master->msg_in));
switch (t) {
case WIRE_GOSSIPCTL_NEW_PEER:
return new_peer(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_RELEASE_PEER:
return release_peer(conn, daemon, master->msg_in);
case WIRE_GOSSIP_GETNODES_REQUEST:
return getnodes(conn, daemon);
case WIRE_GOSSIP_GETROUTE_REQUEST:
return getroute_req(conn, daemon, daemon->master.msg_in);
case WIRE_GOSSIP_GETCHANNELS_REQUEST:
return getchannels_req(conn, daemon, daemon->master.msg_in);
case WIRE_GOSSIPCTL_RELEASE_PEER_REPLY:
case WIRE_GOSSIP_GETNODES_REPLY:
case WIRE_GOSSIP_GETROUTE_REPLY:
case WIRE_GOSSIP_GETCHANNELS_REPLY:
case WIRE_GOSSIPSTATUS_INIT_FAILED:
case WIRE_GOSSIPSTATUS_BAD_NEW_PEER_REQUEST:
case WIRE_GOSSIPSTATUS_BAD_RELEASE_REQUEST:
case WIRE_GOSSIPSTATUS_BAD_REQUEST:
case WIRE_GOSSIPSTATUS_FDPASS_FAILED:
case WIRE_GOSSIPSTATUS_PEER_BAD_MSG:
case WIRE_GOSSIPSTATUS_PEER_FAILED:
case WIRE_GOSSIPSTATUS_PEER_READY:
case WIRE_GOSSIPSTATUS_PEER_NONGOSSIP:
break;
}
/* Control shouldn't give bad requests. */
status_failed(WIRE_GOSSIPSTATUS_BAD_REQUEST, "%i", t);
}
#ifndef TESTING
int main(int argc, char *argv[])
{
struct daemon *daemon;
struct log_book *log_book;
struct log *base_log;
subdaemon_debug(argc, argv);
if (argc == 2 && streq(argv[1], "--version")) {
printf("%s\n", version());
exit(0);
}
secp256k1_ctx = secp256k1_context_create(SECP256K1_CONTEXT_VERIFY |
SECP256K1_CONTEXT_SIGN);
daemon = tal(NULL, struct daemon);
/* Do not log absolutely anything, stdout is now a socket
* connected to some other daemon. */
log_book = new_log_book(daemon, 2 * 1024 * 1024, LOG_BROKEN + 1);
base_log =
new_log(daemon, log_book, "lightningd_gossip(%u):", (int)getpid());
daemon->rstate = new_routing_state(daemon, base_log);
list_head_init(&daemon->peers);
timers_init(&daemon->timers, time_mono());
/* stdin == control */
daemon_conn_init(daemon, &daemon->master, STDIN_FILENO, recv_req);
status_setup_async(&daemon->master);
/* When conn closes, everything is freed. */
tal_steal(daemon->master.conn, daemon);
for (;;) {
struct timer *expired = NULL;
io_loop(&daemon->timers, &expired);
if (!expired) {
break;
} else {
timer_expired(daemon, expired);
}
}
return 0;
}
#endif