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#include <ccan/build_assert/build_assert.h>
#include <ccan/cast/cast.h>
#include <ccan/container_of/container_of.h>
#include <ccan/crypto/hkdf_sha256/hkdf_sha256.h>
#include <ccan/crypto/siphash24/siphash24.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/mem/mem.h>
#include <ccan/noerr/noerr.h>
#include <ccan/structeq/structeq.h>
#include <ccan/take/take.h>
#include <ccan/tal/str/str.h>
#include <ccan/timer/timer.h>
#include <common/bech32.h>
#include <common/bech32_util.h>
#include <common/cryptomsg.h>
#include <common/daemon_conn.h>
#include <common/features.h>
#include <common/ping.h>
#include <common/pseudorand.h>
#include <common/status.h>
#include <common/subdaemon.h>
#include <common/timeout.h>
#include <common/type_to_string.h>
#include <common/utils.h>
#include <common/version.h>
#include <common/wire_error.h>
#include <common/wireaddr.h>
#include <errno.h>
#include <fcntl.h>
#include <gossipd/broadcast.h>
#include <gossipd/gen_gossip_wire.h>
#include <gossipd/handshake.h>
#include <gossipd/routing.h>
#include <hsmd/client.h>
#include <hsmd/gen_hsm_client_wire.h>
#include <inttypes.h>
#include <lightningd/gossip_msg.h>
#include <netdb.h>
#include <netinet/in.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 <wire/gen_peer_wire.h>
#include <wire/wire_io.h>
#include <wire/wire_sync.h>
#define HSM_FD 3
#define INITIAL_WAIT_SECONDS 1
#define MAX_WAIT_SECONDS 300
/* We put everything in this struct (redundantly) to pass it to timer cb */
struct important_peerid {
struct daemon *daemon;
struct pubkey id;
/* How long to wait after failed connect */
unsigned int wait_seconds;
/* The timer we're using to reconnect */
struct oneshot *reconnect_timer;
};
/* We keep a set of peer ids we're always trying to reach. */
static const struct pubkey *
important_peerid_keyof(const struct important_peerid *imp)
{
return &imp->id;
}
static bool important_peerid_eq(const struct important_peerid *imp,
const struct pubkey *key)
{
return pubkey_eq(&imp->id, key);
}
static size_t important_peerid_hash(const struct pubkey *id)
{
return siphash24(siphash_seed(), id, sizeof(*id));
}
HTABLE_DEFINE_TYPE(struct important_peerid,
important_peerid_keyof,
important_peerid_hash,
important_peerid_eq,
important_peerid_map);
struct daemon {
/* Who am I? */
struct pubkey id;
/* Peers we have directly or indirectly: id is unique */
struct list_head peers;
/* Peers reconnecting now (waiting for current peer to die). */
struct list_head reconnecting;
/* Peers we are trying to reach */
struct list_head reaching;
/* Connection to main daemon. */
struct daemon_conn master;
/* Routing information */
struct routing_state *rstate;
/* Hacky list of known address hints. */
struct list_head addrhints;
struct timers timers;
u32 broadcast_interval;
/* Important peers */
struct important_peerid_map important_peerids;
/* Local and global features to offer to peers. */
u8 *localfeatures, *globalfeatures;
u8 alias[33];
u8 rgb[3];
struct wireaddr *wireaddrs;
/* To make sure our node_announcement timestamps increase */
u32 last_announce_timestamp;
/* Only matters if DEVELOPER defined */
bool no_reconnect;
};
/* Peers we're trying to reach. */
struct reaching {
struct daemon *daemon;
/* daemon->reaching */
struct list_node list;
/* The ID of the peer (not necessarily unique, in transit!) */
struct pubkey id;
/* FIXME: Support multiple address. */
struct wireaddr addr;
/* Whether connect command is waiting for the result. */
bool master_needs_response;
/* How far did we get? */
const char *connstate;
};
/* Things we need when we're talking direct to the peer. */
struct local_peer_state {
/* Cryptostate */
struct peer_crypto_state pcs;
/* File descriptor corresponding to conn. */
int fd;
/* Our connection (and owner) */
struct io_conn *conn;
/* Waiting to send_peer_with_fds to master? */
bool return_to_master;
/* If we're exiting due to non-gossip msg, otherwise release */
u8 *nongossip_msg;
/* How many pongs are we expecting? */
size_t num_pings_outstanding;
/* Message queue for outgoing. */
struct msg_queue peer_out;
};
struct peer {
struct daemon *daemon;
/* daemon->peers */
struct list_node list;
/* The ID of the peer (not necessarily unique, in transit!) */
struct pubkey id;
/* Where it's connected to. */
struct wireaddr addr;
/* Feature bitmaps. */
u8 *gfeatures, *lfeatures;
/* High water mark for the staggered broadcast */
u64 broadcast_index;
/* Is it time to continue the staggered broadcast? */
bool gossip_sync;
/* Only one of these is set: */
struct local_peer_state *local;
struct daemon_conn *remote;
};
struct addrhint {
/* Off ld->addrhints */
struct list_node list;
struct pubkey id;
/* FIXME: use array... */
struct wireaddr addr;
};
/* FIXME: Reorder */
static struct io_plan *peer_start_gossip(struct io_conn *conn,
struct peer *peer);
static bool send_peer_with_fds(struct peer *peer, const u8 *msg);
static void wake_pkt_out(struct peer *peer);
static void retry_important(struct important_peerid *imp);
static void destroy_peer(struct peer *peer)
{
struct important_peerid *imp;
list_del_from(&peer->daemon->peers, &peer->list);
imp = important_peerid_map_get(&peer->daemon->important_peerids,
&peer->id);
if (imp) {
imp->wait_seconds = INITIAL_WAIT_SECONDS;
retry_important(imp);
}
}
static struct peer *find_peer(struct daemon *daemon, const struct pubkey *id)
{
struct peer *peer;
list_for_each(&daemon->peers, peer, list)
if (pubkey_eq(&peer->id, id))
return peer;
return NULL;
}
static struct peer *find_reconnecting_peer(struct daemon *daemon,
const struct pubkey *id)
{
struct peer *peer;
list_for_each(&daemon->reconnecting, peer, list)
if (pubkey_eq(&peer->id, id))
return peer;
return NULL;
}
static void destroy_reconnecting_peer(struct peer *peer)
{
list_del_from(&peer->daemon->reconnecting, &peer->list);
/* This is safe even if we're being destroyed because of peer->conn,
* since tal_free protects against loops. */
io_close(peer->local->conn);
}
static void add_reconnecting_peer(struct daemon *daemon, struct peer *peer)
{
/* Drop any previous connecting peer */
tal_free(find_reconnecting_peer(peer->daemon, &peer->id));
list_add_tail(&daemon->reconnecting, &peer->list);
tal_add_destructor(peer, destroy_reconnecting_peer);
}
static void destroy_addrhint(struct addrhint *a)
{
list_del(&a->list);
}
static struct addrhint *find_addrhint(struct daemon *daemon,
const struct pubkey *id)
{
struct addrhint *a;
list_for_each(&daemon->addrhints, a, list) {
if (pubkey_eq(&a->id, id))
return a;
}
return NULL;
}
static struct local_peer_state *
new_local_peer_state(struct peer *peer, const struct crypto_state *cs)
{
struct local_peer_state *lps = tal(peer, struct local_peer_state);
init_peer_crypto_state(peer, &lps->pcs);
lps->pcs.cs = *cs;
lps->return_to_master = false;
lps->num_pings_outstanding = 0;
msg_queue_init(&lps->peer_out, peer);
return lps;
}
static struct peer *new_peer(const tal_t *ctx,
struct daemon *daemon,
const struct pubkey *their_id,
const struct wireaddr *addr,
const struct crypto_state *cs)
{
struct peer *peer = tal(ctx, struct peer);
peer->id = *their_id;
peer->addr = *addr;
peer->daemon = daemon;
peer->local = new_local_peer_state(peer, cs);
peer->remote = NULL;
return peer;
}
static void peer_finalized(struct peer *peer)
{
/* No longer tied to peer->conn's lifetime. */
tal_steal(peer->daemon, peer);
/* Now we can put this in the list of peers */
list_add_tail(&peer->daemon->peers, &peer->list);
tal_add_destructor(peer, destroy_peer);
}
static void destroy_reaching(struct reaching *reach)
{
list_del_from(&reach->daemon->reaching, &reach->list);
}
static struct reaching *find_reaching(struct daemon *daemon,
const struct pubkey *id)
{
struct reaching *r;
list_for_each(&daemon->reaching, r, list)
if (pubkey_eq(id, &r->id))
return r;
return NULL;
}
static void reached_peer(struct peer *peer, struct io_conn *conn)
{
/* OK, we've reached the peer successfully, tell everyone. */
struct reaching *r = find_reaching(peer->daemon, &peer->id);
u8 *msg;
if (!r)
return;
/* Don't call connect_failed */
io_set_finish(conn, NULL, NULL);
/* Don't free conn with reach */
tal_steal(peer->daemon, conn);
/* Tell any connect command what happened. */
if (r->master_needs_response) {
msg = towire_gossipctl_connect_to_peer_result(NULL, &r->id,
true, "");
daemon_conn_send(&peer->daemon->master, take(msg));
}
tal_free(r);
}
static void queue_peer_msg(struct peer *peer, const u8 *msg TAKES)
{
if (peer->local) {
msg_enqueue(&peer->local->peer_out, msg);
} else if (peer->remote) {
const u8 *send = towire_gossip_send_gossip(NULL, msg);
if (taken(msg))
tal_free(msg);
daemon_conn_send(peer->remote, take(send));
}
}
static void peer_error(struct peer *peer, const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
status_trace("peer %s: %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
tal_vfmt(tmpctx, fmt, ap));
va_end(ap);
/* Send error: we'll close after writing this. */
va_start(ap, fmt);
queue_peer_msg(peer, take(towire_errorfmtv(peer, NULL, fmt, ap)));
va_end(ap);
}
static bool is_all_channel_error(const u8 *msg)
{
struct channel_id channel_id;
u8 *data;
if (!fromwire_error(msg, msg, &channel_id, &data))
return false;
tal_free(data);
return channel_id_is_all(&channel_id);
}
static struct io_plan *peer_close_after_error(struct io_conn *conn,
struct peer *peer)
{
status_trace("%s: we sent them a fatal error, closing",
type_to_string(tmpctx, struct pubkey, &peer->id));
return io_close(conn);
}
/* Mutual recursion */
static struct io_plan *peer_connected(struct io_conn *conn, struct peer *peer);
static struct io_plan *retry_peer_connected(struct io_conn *conn,
struct peer *peer)
{
status_trace("peer %s: processing now old peer gone",
type_to_string(tmpctx, struct pubkey, &peer->id));
/* Clean up reconnecting state, try again */
list_del_from(&peer->daemon->reconnecting, &peer->list);
tal_del_destructor(peer, destroy_reconnecting_peer);
return peer_connected(conn, peer);
}
static struct io_plan *peer_connected(struct io_conn *conn, struct peer *peer)
{
struct peer *old_peer;
u8 *msg;
/* Now, is this a reconnect? */
old_peer = find_peer(peer->daemon, &peer->id);
if (old_peer) {
status_trace("peer %s: reconnect for %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
old_peer->local ? "local peer" : "active peer");
if (!old_peer->local) {
/* If not already closed, close it: it will
* fail, and master will peer_died to us */
if (old_peer->remote) {
daemon_conn_clear(old_peer->remote);
old_peer->remote = tal_free(old_peer->remote);
}
add_reconnecting_peer(peer->daemon, peer);
return io_wait(conn, peer, retry_peer_connected, peer);
}
/* Local peers can just be discarded when they reconnect */
tal_free(old_peer);
}
reached_peer(peer, conn);
/* BOLT #7:
*
* Upon receiving an `init` message with the `initial_routing_sync`
* flag set the node sends `channel_announcement`s, `channel_update`s
* and `node_announcement`s for all known channels and nodes as if
* they were just received.
*/
if (feature_offered(peer->lfeatures, LOCAL_INITIAL_ROUTING_SYNC))
peer->broadcast_index = 0;
else
peer->broadcast_index
= peer->daemon->rstate->broadcasts->next_index;
/* This is a full peer now; we keep it around until master says
* it's dead. */
peer_finalized(peer);
/* We will not have anything queued, since we're not duplex. */
msg = towire_gossip_peer_connected(peer, &peer->id, &peer->addr,
&peer->local->pcs.cs,
peer->gfeatures, peer->lfeatures);
if (!send_peer_with_fds(peer, msg))
return io_close(conn);
/* Start the gossip flowing. */
wake_pkt_out(peer);
return io_close_taken_fd(conn);
}
static struct io_plan *peer_init_received(struct io_conn *conn,
struct peer *peer,
u8 *msg)
{
if (!fromwire_init(peer, msg, &peer->gfeatures, &peer->lfeatures)) {
status_trace("peer %s bad fromwire_init '%s', closing",
type_to_string(tmpctx, struct pubkey, &peer->id),
tal_hex(tmpctx, msg));
return io_close(conn);
}
return peer_connected(conn, peer);
}
static struct io_plan *read_init(struct io_conn *conn, struct peer *peer)
{
/* BOLT #1:
*
* Each node MUST wait to receive `init` before sending any other
* messages.
*/
return peer_read_message(conn, &peer->local->pcs, peer_init_received);
}
/* This creates a temporary peer which is not in the list and is owner
* by the connection; it's placed in the list and owned by daemon once
* we have the features. */
static struct io_plan *init_new_peer(struct io_conn *conn,
const struct pubkey *their_id,
const struct wireaddr *addr,
const struct crypto_state *cs,
struct daemon *daemon)
{
struct peer *peer = new_peer(conn, daemon, their_id, addr, cs);
u8 *initmsg;
peer->local->fd = io_conn_fd(conn);
/* BOLT #1:
*
* Each node MUST send `init` as the first lightning message for any
* connection.
*/
initmsg = towire_init(NULL,
daemon->globalfeatures, daemon->localfeatures);
return peer_write_message(conn, &peer->local->pcs,
take(initmsg), read_init);
}
static struct io_plan *owner_msg_in(struct io_conn *conn,
struct daemon_conn *dc);
static bool nonlocal_dump_gossip(struct io_conn *conn, struct daemon_conn *dc);
/* Create a node_announcement with the given signature. It may be NULL
* in the case we need to create a provisional announcement for the
* HSM to sign. This is typically called twice: once with the dummy
* signature to get it signed and a second time to build the full
* packet with the signature. The timestamp is handed in since that is
* the only thing that may change between the dummy creation and the
* call with a signature.*/
static u8 *create_node_announcement(const tal_t *ctx, struct daemon *daemon,
secp256k1_ecdsa_signature *sig,
u32 timestamp)
{
u8 *features = NULL;
u8 *addresses = tal_arr(ctx, u8, 0);
u8 *announcement;
size_t i;
if (!sig) {
sig = tal(ctx, secp256k1_ecdsa_signature);
memset(sig, 0, sizeof(*sig));
}
for (i = 0; i < tal_count(daemon->wireaddrs); i++)
towire_wireaddr(&addresses, daemon->wireaddrs+i);
announcement =
towire_node_announcement(ctx, sig, features, timestamp,
&daemon->id, daemon->rgb, daemon->alias,
addresses);
return announcement;
}
static void send_node_announcement(struct daemon *daemon)
{
u32 timestamp = time_now().ts.tv_sec;
secp256k1_ecdsa_signature sig;
u8 *msg, *nannounce, *err;
/* Timestamps must move forward, or announce will be ignored! */
if (timestamp <= daemon->last_announce_timestamp)
timestamp = daemon->last_announce_timestamp + 1;
daemon->last_announce_timestamp = timestamp;
nannounce = create_node_announcement(tmpctx, daemon, NULL, timestamp);
if (!wire_sync_write(HSM_FD, take(towire_hsm_node_announcement_sig_req(NULL, nannounce))))
status_failed(STATUS_FAIL_MASTER_IO, "Could not write to HSM: %s", strerror(errno));
msg = wire_sync_read(tmpctx, HSM_FD);
if (!fromwire_hsm_node_announcement_sig_reply(msg, &sig))
status_failed(STATUS_FAIL_MASTER_IO, "HSM returned an invalid node_announcement sig");
/* We got the signature for out provisional node_announcement back
* from the HSM, create the real announcement and forward it to
* gossipd so it can take care of forwarding it. */
nannounce = create_node_announcement(NULL, daemon, &sig, timestamp);
err = handle_node_announcement(daemon->rstate, take(nannounce));
if (err)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"rejected own node announcement: %s",
tal_hex(tmpctx, err));
}
/* Returns error if we should send an error. */
static u8 *handle_gossip_msg(struct daemon *daemon, const u8 *msg, bool store)
{
struct routing_state *rstate = daemon->rstate;
int t = fromwire_peektype(msg);
u8 *err;
switch(t) {
case WIRE_CHANNEL_ANNOUNCEMENT: {
const struct short_channel_id *scid;
/* If it's OK, tells us the short_channel_id to lookup */
err = handle_channel_announcement(rstate, msg, &scid);
if (err)
return err;
else if (scid)
daemon_conn_send(&daemon->master,
take(towire_gossip_get_txout(NULL,
scid)));
break;
}
case WIRE_NODE_ANNOUNCEMENT:
err = handle_node_announcement(rstate, msg);
if (err)
return err;
break;
case WIRE_CHANNEL_UPDATE:
err = handle_channel_update(rstate, msg);
if (err)
return err;
break;
}
/* All good, no error to report */
return NULL;
}
static void handle_ping(struct peer *peer, u8 *ping)
{
u8 *pong;
if (!check_ping_make_pong(peer, ping, &pong)) {
peer_error(peer, "Bad ping");
return;
}
if (pong)
msg_enqueue(&peer->local->peer_out, take(pong));
}
static void handle_pong(struct peer *peer, const u8 *pong)
{
const char *err = got_pong(pong, &peer->local->num_pings_outstanding);
if (err) {
peer_error(peer, "%s", err);
return;
}
daemon_conn_send(&peer->daemon->master,
take(towire_gossip_ping_reply(NULL, true,
tal_len(pong))));
}
/* If master asks us to release peer, we attach this destructor in case it
* dies while we're waiting for it to finish IO */
static void fail_release(struct peer *peer)
{
u8 *msg = towire_gossipctl_release_peer_replyfail(NULL);
daemon_conn_send(&peer->daemon->master, take(msg));
}
static struct io_plan *ready_for_master(struct io_conn *conn, struct peer *peer)
{
u8 *msg;
if (peer->local->nongossip_msg)
msg = towire_gossip_peer_nongossip(peer, &peer->id,
&peer->addr,
&peer->local->pcs.cs,
peer->gfeatures,
peer->lfeatures,
peer->local->nongossip_msg);
else
msg = towire_gossipctl_release_peer_reply(peer,
&peer->addr,
&peer->local->pcs.cs,
peer->gfeatures,
peer->lfeatures);
if (send_peer_with_fds(peer, take(msg))) {
/* In case we set this earlier. */
tal_del_destructor(peer, fail_release);
return io_close_taken_fd(conn);
} else
return io_close(conn);
}
static struct io_plan *peer_msgin(struct io_conn *conn,
struct peer *peer, u8 *msg);
/* Wrapper around peer_read_message: don't read another if we want to
* pass up to master */
static struct io_plan *peer_next_in(struct io_conn *conn, struct peer *peer)
{
if (peer->local->return_to_master) {
assert(!peer_in_started(conn, &peer->local->pcs));
/* Wake writer. */
msg_wake(&peer->local->peer_out);
return io_wait(conn, peer, peer_next_in, peer);
}
return peer_read_message(conn, &peer->local->pcs, peer_msgin);
}
static struct io_plan *peer_msgin(struct io_conn *conn,
struct peer *peer, u8 *msg)
{
enum wire_type t = fromwire_peektype(msg);
u8 *err;
switch (t) {
case WIRE_ERROR:
status_trace("%s sent ERROR %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
sanitize_error(tmpctx, msg, NULL));
return io_close(conn);
case WIRE_CHANNEL_ANNOUNCEMENT:
case WIRE_NODE_ANNOUNCEMENT:
case WIRE_CHANNEL_UPDATE:
err = handle_gossip_msg(peer->daemon, msg, true);
if (err)
queue_peer_msg(peer, take(err));
return peer_next_in(conn, peer);
case WIRE_PING:
handle_ping(peer, msg);
return peer_next_in(conn, peer);
case WIRE_PONG:
handle_pong(peer, msg);
return peer_next_in(conn, peer);
case WIRE_OPEN_CHANNEL:
case WIRE_CHANNEL_REESTABLISH:
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:
case WIRE_INIT:
/* Not our place to handle this, so we punt */
peer->local->return_to_master = true;
peer->local->nongossip_msg = tal_steal(peer, msg);
/* This will wait. */
return peer_next_in(conn, peer);
}
/* 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 %s sent packet with unknown message type %u, ignoring",
type_to_string(tmpctx, struct pubkey, &peer->id), t);
} else
peer_error(peer, "Packet with unknown message type %u", t);
return peer_next_in(conn, peer);
}
/* 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_msec(peer->daemon->broadcast_interval),
wake_pkt_out, peer);
if (peer->local)
/* Notify the peer-write loop */
msg_wake(&peer->local->peer_out);
else if (peer->remote)
/* Notify the daemon_conn-write loop */
msg_wake(&peer->remote->out);
}
/* Mutual recursion. */
static struct io_plan *peer_pkt_out(struct io_conn *conn, struct peer *peer);
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->local->peer_out);
if (out) {
if (is_all_channel_error(out))
return peer_write_message(conn, &peer->local->pcs,
take(out),
peer_close_after_error);
return peer_write_message(conn, &peer->local->pcs, take(out),
peer_pkt_out);
}
/* Do we want to send this peer to the master daemon? */
if (peer->local->return_to_master) {
if (!peer_in_started(conn, &peer->local->pcs))
return ready_for_master(conn, peer);
} else if (peer->gossip_sync) {
/* If we're supposed to be sending gossip, do so now. */
const u8 *next;
next = next_broadcast(peer->daemon->rstate->broadcasts,
&peer->broadcast_index);
if (next)
return peer_write_message(conn, &peer->local->pcs,
next,
peer_pkt_out);
/* Gossip is drained. Wait for next timer. */
peer->gossip_sync = false;
}
return msg_queue_wait(conn, &peer->local->peer_out, peer_pkt_out, peer);
}
/* Now we're a fully-fledged peer. */
static struct io_plan *peer_start_gossip(struct io_conn *conn, struct peer *peer)
{
wake_pkt_out(peer);
return io_duplex(conn,
peer_next_in(conn, peer),
peer_pkt_out(conn, peer));
}
static void handle_get_update(struct peer *peer, const u8 *msg)
{
struct short_channel_id scid;
struct chan *chan;
const u8 *update;
struct routing_state *rstate = peer->daemon->rstate;
if (!fromwire_gossip_get_update(msg, &scid)) {
status_trace("peer %s sent bad gossip_get_update %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
tal_hex(tmpctx, msg));
return;
}
chan = get_channel(rstate, &scid);
if (!chan) {
status_unusual("peer %s scid %s: unknown channel",
type_to_string(tmpctx, struct pubkey, &peer->id),
type_to_string(tmpctx, struct short_channel_id,
&scid));
update = NULL;
} else {
/* We want update that comes from our end. */
if (pubkey_eq(&chan->nodes[0]->id, &peer->daemon->id))
update = get_broadcast(rstate->broadcasts,
chan->half[0]
.channel_update_msgidx);
else if (pubkey_eq(&chan->nodes[1]->id, &peer->daemon->id))
update = get_broadcast(rstate->broadcasts,
chan->half[1]
.channel_update_msgidx);
else {
status_unusual("peer %s scid %s: not our channel?",
type_to_string(tmpctx, struct pubkey,
&peer->id),
type_to_string(tmpctx,
struct short_channel_id,
&scid));
update = NULL;
}
}
status_trace("peer %s schanid %s: %s update",
type_to_string(tmpctx, struct pubkey, &peer->id),
type_to_string(tmpctx, struct short_channel_id, &scid),
update ? "got" : "no");
msg = towire_gossip_get_update_reply(NULL, update);
daemon_conn_send(peer->remote, take(msg));
}
/**
* owner_msg_in - Called by the `peer->remote` upon receiving a
* message
*/
static struct io_plan *owner_msg_in(struct io_conn *conn,
struct daemon_conn *dc)
{
struct peer *peer = dc->ctx;
u8 *msg = dc->msg_in, *err;
int type = fromwire_peektype(msg);
if (type == WIRE_CHANNEL_ANNOUNCEMENT || type == WIRE_CHANNEL_UPDATE ||
type == WIRE_NODE_ANNOUNCEMENT) {
err = handle_gossip_msg(peer->daemon, dc->msg_in, true);
if (err)
queue_peer_msg(peer, take(err));
} else if (type == WIRE_GOSSIP_GET_UPDATE) {
handle_get_update(peer, dc->msg_in);
} else if (type == WIRE_GOSSIP_LOCAL_ADD_CHANNEL) {
gossip_store_local_add_channel(peer->daemon->rstate->store,
dc->msg_in);
handle_local_add_channel(peer->daemon->rstate, dc->msg_in);
} else {
status_broken("peer %s: send us unknown msg of type %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
gossip_wire_type_name(type));
return io_close(conn);
}
return daemon_conn_read_next(conn, dc);
}
static void free_peer_remote(struct io_conn *conn, struct daemon_conn *dc)
{
struct peer *peer = dc->ctx;
peer->remote = tal_free(peer->remote);
}
/* When a peer is to be owned by another daemon, we create a socket
* pair to send/receive gossip from it */
static bool send_peer_with_fds(struct peer *peer, const u8 *msg)
{
int fds[2];
int peer_fd = peer->local->fd;
if (socketpair(AF_LOCAL, SOCK_STREAM, 0, fds) != 0) {
status_trace("Failed to create socketpair: %s",
strerror(errno));
/* FIXME: Send error to peer? */
/* Peer will be freed when caller closes conn. */
return false;
}
/* Now we talk to socket to get to peer's owner daemon. */
peer->local = tal_free(peer->local);
peer->remote = tal(peer, struct daemon_conn);
daemon_conn_init(peer, peer->remote, fds[0],
owner_msg_in, free_peer_remote);
peer->remote->msg_queue_cleared_cb = nonlocal_dump_gossip;
/* Peer stays around, even though caller will close conn. */
tal_steal(peer->daemon, peer);
status_debug("peer %s now remote",
type_to_string(tmpctx, struct pubkey, &peer->id));
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]);
return true;
}
/**
* nonlocal_dump_gossip - catch the nonlocal peer up with the latest gossip.
*
* Registered as `msg_queue_cleared_cb` by the `peer->remote`.
*/
static bool nonlocal_dump_gossip(struct io_conn *conn, struct daemon_conn *dc)
{
const u8 *next;
struct peer *peer = dc->ctx;
/* Make sure we are not connected directly */
assert(!peer->local);
/* Nothing to do if we're not gossiping */
if (!peer->gossip_sync)
return false;
next = next_broadcast(peer->daemon->rstate->broadcasts,
&peer->broadcast_index);
if (!next) {
peer->gossip_sync = false;
return false;
} else {
u8 *msg = towire_gossip_send_gossip(NULL, next);
daemon_conn_send(peer->remote, take(msg));
return true;
}
}
static struct io_plan *new_peer_got_fd(struct io_conn *conn, struct peer *peer)
{
peer->local->conn = io_new_conn(conn, peer->local->fd,
peer_start_gossip, peer);
if (!peer->local->conn) {
status_trace("Could not create connection for peer: %s",
strerror(errno));
tal_free(peer);
} else {
/* If conn dies, we forget peer. */
tal_steal(peer->local->conn, peer);
}
return daemon_conn_read_next(conn, &peer->daemon->master);
}
/* This lets us read the fds in before handling anything. */
struct returning_peer {
struct daemon *daemon;
struct pubkey id;
struct crypto_state cs;
u8 *inner_msg;
int peer_fd, gossip_fd;
};
static void drain_and_forward_gossip(struct peer *peer, int gossip_fd)
{
u8 *msg;
/* Be careful: what if they handed wrong fd? Make it non-blocking. */
if (!io_fd_block(gossip_fd, false)) {
status_unusual("NONBLOCK failed for gossip_fd from peer %s: %s",
type_to_string(tmpctx, struct pubkey, &peer->id),
strerror(errno));
return;
}
/* It's sync, but not blocking. */
while ((msg = wire_sync_read(tmpctx, gossip_fd)) != NULL) {
u8 *gossip;
if (!fromwire_gossip_send_gossip(NULL, msg, &gossip))
break;
msg_enqueue(&peer->local->peer_out, take(gossip));
}
close(gossip_fd);
}
static struct io_plan *handle_returning_peer(struct io_conn *conn,
struct returning_peer *rpeer)
{
struct daemon *daemon = rpeer->daemon;
struct peer *peer, *connecting;
peer = find_peer(daemon, &rpeer->id);
if (!peer)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"hand_back_peer unknown peer: %s",
type_to_string(tmpctx, struct pubkey, &rpeer->id));
assert(!peer->local);
/* Corner case: we got a reconnection while master was handing this
* back. We would have killed it immediately if it was local previously
* so do that now */
connecting = find_reconnecting_peer(daemon, &rpeer->id);
if (connecting) {
status_trace("Forgetting handed back peer %s",
type_to_string(tmpctx, struct pubkey, &peer->id));
tal_free(peer);
/* Now connecting peer can go ahead. */
io_wake(connecting);
return daemon_conn_read_next(conn, &daemon->master);
}
status_trace("hand_back_peer %s: now local again",
type_to_string(tmpctx, struct pubkey, &rpeer->id));
/* Now we talk to peer directly again. */
daemon_conn_clear(peer->remote);
peer->remote = tal_free(peer->remote);
peer->local = new_local_peer_state(peer, &rpeer->cs);
peer->local->fd = rpeer->peer_fd;
/* Forward any gossip we sent while fd wasn't being read */
drain_and_forward_gossip(peer, rpeer->gossip_fd);
/* If they told us to send a message, queue it now */
if (tal_len(rpeer->inner_msg))
msg_enqueue(&peer->local->peer_out, take(rpeer->inner_msg));
tal_free(rpeer);
return new_peer_got_fd(conn, peer);
}
static struct io_plan *read_returning_gossipfd(struct io_conn *conn,
struct returning_peer *rpeer)
{
return io_recv_fd(conn, &rpeer->gossip_fd,
handle_returning_peer, rpeer);
}
static struct io_plan *hand_back_peer(struct io_conn *conn,
struct daemon *daemon,
const u8 *msg)
{
struct returning_peer *rpeer = tal(daemon, struct returning_peer);
rpeer->daemon = daemon;
if (!fromwire_gossipctl_hand_back_peer(msg, msg,
&rpeer->id, &rpeer->cs,
&rpeer->inner_msg))
master_badmsg(WIRE_GOSSIPCTL_HAND_BACK_PEER, msg);
status_debug("Handing back peer %s to master",
type_to_string(msg, struct pubkey, &rpeer->id));
return io_recv_fd(conn, &rpeer->peer_fd,
read_returning_gossipfd, rpeer);
}
static struct io_plan *disconnect_peer(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
struct pubkey id;
struct peer *peer;
if (!fromwire_gossipctl_peer_disconnect(msg, &id))
master_badmsg(WIRE_GOSSIPCTL_PEER_DISCONNECT, msg);
peer = find_peer(daemon, &id);
if (peer && peer->local) {
7 years ago
/* This peer is local to this (gossipd) daemon */
io_close(peer->local->conn);
msg = towire_gossipctl_peer_disconnect_reply(NULL);
daemon_conn_send(&daemon->master, take(msg));
} else {
status_trace("disconnect_peer: peer %s %s",
type_to_string(tmpctx, struct pubkey, &id),
!peer ? "not connected" : "not gossiping");
msg = towire_gossipctl_peer_disconnect_replyfail(NULL, peer ? true : false);
daemon_conn_send(&daemon->master, take(msg));
}
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *release_peer(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
struct pubkey id;
struct peer *peer;
if (!fromwire_gossipctl_release_peer(msg, &id))
master_badmsg(WIRE_GOSSIPCTL_RELEASE_PEER, msg);
peer = find_peer(daemon, &id);
if (!peer || !peer->local || peer->local->return_to_master) {
/* This can happen with dying peers, or reconnect */
status_trace("release_peer: peer %s %s",
type_to_string(tmpctx, struct pubkey, &id),
!peer ? "not found"
: peer->local ? "already releasing"
: "not local");
msg = towire_gossipctl_release_peer_replyfail(NULL);
daemon_conn_send(&daemon->master, take(msg));
} else {
peer->local->return_to_master = true;
peer->local->nongossip_msg = NULL;
/* Wake output, in case it's idle. */
msg_wake(&peer->local->peer_out);
}
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *getroute_req(struct io_conn *conn, struct daemon *daemon,
u8 *msg)
{
struct pubkey source, destination;
u64 msatoshi;
u32 final_cltv;
u16 riskfactor;
u8 *out;
struct route_hop *hops;
double fuzz;
struct siphash_seed seed;
fromwire_gossip_getroute_request(msg,
&source, &destination,
&msatoshi, &riskfactor, &final_cltv,
&fuzz, &seed);
status_trace("Trying to find a route from %s to %s for %"PRIu64" msatoshi",
pubkey_to_hexstr(tmpctx, &source),
pubkey_to_hexstr(tmpctx, &destination), msatoshi);
hops = get_route(tmpctx, daemon->rstate, &source, &destination,
msatoshi, 1, final_cltv,
fuzz, &seed);
out = towire_gossip_getroute_reply(msg, hops);
daemon_conn_send(&daemon->master, out);
return daemon_conn_read_next(conn, &daemon->master);
}
static void append_half_channel(struct gossip_getchannels_entry **entries,
const struct chan *chan,
int idx)
{
const struct half_chan *c = &chan->half[idx];
struct gossip_getchannels_entry *e;
size_t n;
if (!c)
return;
/* Don't mention non-public inactive channels. */
if (!c->active && !c->channel_update_msgidx)
return;
n = tal_count(*entries);
tal_resize(entries, n+1);
e = &(*entries)[n];
e->source = chan->nodes[idx]->id;
e->destination = chan->nodes[!idx]->id;
e->satoshis = chan->satoshis;
e->active = c->active;
e->flags = c->flags;
e->public = (c->channel_update_msgidx != 0);
e->short_channel_id = chan->scid;
e->last_update_timestamp = c->channel_update_msgidx ? c->last_timestamp : -1;
if (e->last_update_timestamp >= 0) {
e->base_fee_msat = c->base_fee;
e->fee_per_millionth = c->proportional_fee;
e->delay = c->delay;
}
}
static void append_channel(struct gossip_getchannels_entry **entries,
const struct chan *chan)
{
append_half_channel(entries, chan, 0);
append_half_channel(entries, chan, 1);
}
static struct io_plan *getchannels_req(struct io_conn *conn, struct daemon *daemon,
u8 *msg)
{
u8 *out;
struct gossip_getchannels_entry *entries;
struct chan *chan;
struct short_channel_id *scid;
fromwire_gossip_getchannels_request(msg, msg, &scid);
entries = tal_arr(tmpctx, struct gossip_getchannels_entry, 0);
if (scid) {
chan = get_channel(daemon->rstate, scid);
if (chan)
append_channel(&entries, chan);
} else {
u64 idx;
for (chan = uintmap_first(&daemon->rstate->chanmap, &idx);
chan;
chan = uintmap_after(&daemon->rstate->chanmap, &idx)) {
append_channel(&entries, chan);
}
}
out = towire_gossip_getchannels_reply(NULL, entries);
daemon_conn_send(&daemon->master, take(out));
return daemon_conn_read_next(conn, &daemon->master);
}
static void append_node(const struct gossip_getnodes_entry ***nodes,
const struct node *n)
{
struct gossip_getnodes_entry *new;
size_t num_nodes = tal_count(*nodes);
new = tal(*nodes, struct gossip_getnodes_entry);
new->nodeid = n->id;
new->last_timestamp = n->last_timestamp;
if (n->last_timestamp < 0) {
new->addresses = NULL;
} else {
new->addresses = n->addresses;
new->alias = n->alias;
memcpy(new->color, n->rgb_color, 3);
}
tal_resize(nodes, num_nodes + 1);
(*nodes)[num_nodes] = new;
}
static struct io_plan *getnodes(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
u8 *out;
struct node *n;
const struct gossip_getnodes_entry **nodes;
struct pubkey *ids;
fromwire_gossip_getnodes_request(tmpctx, msg, &ids);
nodes = tal_arr(tmpctx, const struct gossip_getnodes_entry *, 0);
if (ids) {
for (size_t i = 0; i < tal_count(ids); i++) {
n = get_node(daemon->rstate, &ids[i]);
if (n)
append_node(&nodes, n);
}
} else {
struct node_map_iter i;
n = node_map_first(daemon->rstate->nodes, &i);
while (n != NULL) {
append_node(&nodes, n);
n = node_map_next(daemon->rstate->nodes, &i);
}
}
out = towire_gossip_getnodes_reply(NULL, nodes);
daemon_conn_send(&daemon->master, take(out));
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *ping_req(struct io_conn *conn, struct daemon *daemon,
const u8 *msg)
{
struct pubkey id;
u16 num_pong_bytes, len;
struct peer *peer;
u8 *ping;
if (!fromwire_gossip_ping(msg, &id, &num_pong_bytes, &len))
master_badmsg(WIRE_GOSSIP_PING, msg);
peer = find_peer(daemon, &id);
if (!peer) {
daemon_conn_send(&daemon->master,
take(towire_gossip_ping_reply(NULL, false, 0)));
goto out;
}
ping = make_ping(peer, num_pong_bytes, len);
if (tal_len(ping) > 65535)
status_failed(STATUS_FAIL_MASTER_IO, "Oversize ping");
msg_enqueue(&peer->local->peer_out, take(ping));
status_trace("sending ping expecting %sresponse",
num_pong_bytes >= 65532 ? "no " : "");
/* BOLT #1:
*
* if `num_pong_bytes` is less than 65532 it MUST respond by sending a
* `pong` message with `byteslen` equal to `num_pong_bytes`, otherwise
* it MUST ignore the `ping`.
*/
if (num_pong_bytes >= 65532)
daemon_conn_send(&daemon->master,
take(towire_gossip_ping_reply(NULL, true, 0)));
else
peer->local->num_pings_outstanding++;
out:
return daemon_conn_read_next(conn, &daemon->master);
}
static int make_listen_fd(int domain, void *addr, socklen_t len, bool reportfail)
{
int fd = socket(domain, SOCK_STREAM, 0);
if (fd < 0) {
status_trace("Failed to create %u socket: %s",
domain, strerror(errno));
return -1;
}
if (addr) {
int on = 1;
/* Re-use, please.. */
if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)))
status_unusual("Failed setting socket reuse: %s",
strerror(errno));
if (bind(fd, addr, len) != 0) {
if (reportfail)
status_broken("Failed to bind on %u socket: %s",
domain, strerror(errno));
goto fail;
}
}
if (listen(fd, 5) != 0) {
status_broken("Failed to listen on %u socket: %s",
domain, strerror(errno));
goto fail;
}
return fd;
fail:
close_noerr(fd);
return -1;
}
static void gossip_send_keepalive_update(struct routing_state *rstate,
struct half_chan *hc)
{
secp256k1_ecdsa_signature sig;
struct bitcoin_blkid chain_hash;
struct short_channel_id scid;
u32 timestamp, fee_base_msat, fee_proportional_millionths;
u64 htlc_minimum_msat;
u16 flags, cltv_expiry_delta;
u8 *update, *msg, *err;
const u8 *old_update;
/* Parse old update */
old_update = get_broadcast(rstate->broadcasts,
hc->channel_update_msgidx);
if (!fromwire_channel_update(
old_update, &sig, &chain_hash, &scid, &timestamp,
&flags, &cltv_expiry_delta, &htlc_minimum_msat, &fee_base_msat,
&fee_proportional_millionths)) {
status_failed(
STATUS_FAIL_INTERNAL_ERROR,
"Unable to parse previously accepted channel_update");
}
/* Now generate a new update, with up to date timestamp */
timestamp = time_now().ts.tv_sec;
update =
towire_channel_update(tmpctx, &sig, &chain_hash, &scid, timestamp,
flags, cltv_expiry_delta, htlc_minimum_msat,
fee_base_msat, fee_proportional_millionths);
if (!wire_sync_write(HSM_FD,
towire_hsm_cupdate_sig_req(tmpctx, update))) {
status_failed(STATUS_FAIL_HSM_IO, "Writing cupdate_sig_req: %s",
strerror(errno));
}
msg = wire_sync_read(tmpctx, HSM_FD);
if (!msg || !fromwire_hsm_cupdate_sig_reply(tmpctx, msg, &update)) {
status_failed(STATUS_FAIL_HSM_IO,
"Reading cupdate_sig_req: %s",
strerror(errno));
}
status_trace("Sending keepalive channel_update for %s",
type_to_string(tmpctx, struct short_channel_id, &scid));
err = handle_channel_update(rstate, update);
if (err)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"rejected keepalive channel_update: %s",
tal_hex(tmpctx, err));
}
static void gossip_refresh_network(struct daemon *daemon)
{
u64 now = time_now().ts.tv_sec;
/* Anything below this highwater mark could be pruned if not refreshed */
s64 highwater = now - daemon->rstate->prune_timeout / 2;
struct node *n;
/* Schedule next run now */
new_reltimer(&daemon->timers, daemon,
time_from_sec(daemon->rstate->prune_timeout/4),
gossip_refresh_network, daemon);
/* Find myself in the network */
n = get_node(daemon->rstate, &daemon->id);
if (n) {
/* Iterate through all outgoing connection and check whether
* it's time to re-announce */
for (size_t i = 0; i < tal_count(n->chans); i++) {
struct half_chan *hc = half_chan_from(n, n->chans[i]);
if (!hc->channel_update_msgidx) {
/* Connection is not public yet, so don't even
* try to re-announce it */
continue;
}
if (hc->last_timestamp > highwater) {
/* No need to send a keepalive update message */
continue;
}
if (!hc->active) {
/* Only send keepalives for active connections */
continue;
}
gossip_send_keepalive_update(daemon->rstate, hc);
}
}
route_prune(daemon->rstate);
}
static struct io_plan *connection_in(struct io_conn *conn, struct daemon *daemon)
{
struct wireaddr addr;
struct sockaddr_storage s;
socklen_t len = sizeof(s);
if (getpeername(io_conn_fd(conn), (struct sockaddr *)&s, &len) != 0) {
status_trace("Failed to get peername for incoming conn: %s",
strerror(errno));
return io_close(conn);
}
if (s.ss_family == AF_INET6) {
struct sockaddr_in6 *s6 = (void *)&s;
addr.type = ADDR_TYPE_IPV6;
addr.addrlen = sizeof(s6->sin6_addr);
BUILD_ASSERT(sizeof(s6->sin6_addr) <= sizeof(addr.addr));
memcpy(addr.addr, &s6->sin6_addr, addr.addrlen);
addr.port = ntohs(s6->sin6_port);
} else if (s.ss_family == AF_INET) {
struct sockaddr_in *s4 = (void *)&s;
addr.type = ADDR_TYPE_IPV4;
addr.addrlen = sizeof(s4->sin_addr);
BUILD_ASSERT(sizeof(s4->sin_addr) <= sizeof(addr.addr));
memcpy(addr.addr, &s4->sin_addr, addr.addrlen);
addr.port = ntohs(s4->sin_port);
} else {
status_broken("Unknown socket type %i for incoming conn",
s.ss_family);
return io_close(conn);
}
/* FIXME: Timeout */
return responder_handshake(conn, &daemon->id, &addr,
init_new_peer, daemon);
}
static void setup_listeners(struct daemon *daemon, u16 portnum)
{
struct sockaddr_in addr;
struct sockaddr_in6 addr6;
socklen_t len;
int fd1, fd2;
if (!portnum) {
status_info("Zero portnum, not listening for incoming");
return;
}
memset(&addr, 0, sizeof(addr));
addr.sin_family = AF_INET;
addr.sin_addr.s_addr = INADDR_ANY;
addr.sin_port = htons(portnum);
memset(&addr6, 0, sizeof(addr6));
addr6.sin6_family = AF_INET6;
addr6.sin6_addr = in6addr_any;
addr6.sin6_port = htons(portnum);
/* IPv6, since on Linux that (usually) binds to IPv4 too. */
fd1 = make_listen_fd(AF_INET6, &addr6, sizeof(addr6), true);
if (fd1 >= 0) {
struct sockaddr_in6 in6;
len = sizeof(in6);
if (getsockname(fd1, (void *)&in6, &len) != 0) {
status_broken("Failed get IPv6 sockname: %s",
strerror(errno));
close_noerr(fd1);
fd1 = -1;
} else {
addr.sin_port = in6.sin6_port;
assert(portnum == ntohs(addr.sin_port));
status_trace("Creating IPv6 listener on port %u",
portnum);
io_new_listener(daemon, fd1, connection_in, daemon);
}
}
/* Just in case, aim for the same port... */
fd2 = make_listen_fd(AF_INET, &addr, sizeof(addr), false);
if (fd2 >= 0) {
len = sizeof(addr);
if (getsockname(fd2, (void *)&addr, &len) != 0) {
status_broken("Failed get IPv4 sockname: %s",
strerror(errno));
close_noerr(fd2);
fd2 = -1;
} else {
assert(portnum == ntohs(addr.sin_port));
status_trace("Creating IPv4 listener on port %u",
portnum);
io_new_listener(daemon, fd2, connection_in, daemon);
}
}
if (fd1 < 0 && fd2 < 0)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Could not bind to a network address on port %u",
portnum);
}
/* Parse an incoming gossip init message and assign config variables
* to the daemon.
*/
static struct io_plan *gossip_init(struct daemon_conn *master,
struct daemon *daemon,
const u8 *msg)
{
struct bitcoin_blkid chain_hash;
u16 port;
u32 update_channel_interval;
if (!fromwire_gossipctl_init(
daemon, msg, &daemon->broadcast_interval, &chain_hash,
&daemon->id, &port, &daemon->globalfeatures,
&daemon->localfeatures, &daemon->wireaddrs, daemon->rgb,
daemon->alias, &update_channel_interval, &daemon->no_reconnect)) {
master_badmsg(WIRE_GOSSIPCTL_INIT, msg);
}
/* Prune time is twice update time */
daemon->rstate = new_routing_state(daemon, &chain_hash, &daemon->id,
update_channel_interval * 2);
setup_listeners(daemon, port);
new_reltimer(&daemon->timers, daemon,
time_from_sec(daemon->rstate->prune_timeout/4),
gossip_refresh_network, daemon);
/* Load stored gossip messages */
gossip_store_load(daemon->rstate, daemon->rstate->store);
/* OK, we're ready! */
daemon_conn_send(&daemon->master,
take(towire_gossipctl_init_reply(NULL)));
return daemon_conn_read_next(master->conn, master);
}
static struct io_plan *resolve_channel_req(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct short_channel_id scid;
struct chan *chan;
struct pubkey *keys;
if (!fromwire_gossip_resolve_channel_request(msg, &scid))
master_badmsg(WIRE_GOSSIP_RESOLVE_CHANNEL_REQUEST, msg);
chan = get_channel(daemon->rstate, &scid);
if (!chan) {
status_trace("Failed to resolve channel %s",
type_to_string(tmpctx, struct short_channel_id, &scid));
keys = NULL;
} else {
keys = tal_arr(msg, struct pubkey, 2);
keys[0] = chan->nodes[0]->id;
keys[1] = chan->nodes[1]->id;
status_trace("Resolved channel %s %s<->%s",
type_to_string(tmpctx, struct short_channel_id, &scid),
type_to_string(tmpctx, struct pubkey, &keys[0]),
type_to_string(tmpctx, struct pubkey, &keys[1]));
}
daemon_conn_send(&daemon->master,
take(towire_gossip_resolve_channel_reply(NULL, keys)));
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *handshake_out_success(struct io_conn *conn,
const struct pubkey *id,
const struct wireaddr *addr,
const struct crypto_state *cs,
struct reaching *reach)
{
reach->connstate = "Exchanging init messages";
return init_new_peer(conn, id, addr, cs, reach->daemon);
}
static struct io_plan *connection_out(struct io_conn *conn,
struct reaching *reach)
{
/* FIXME: Timeout */
status_trace("Connected out for %s",
type_to_string(tmpctx, struct pubkey, &reach->id));
reach->connstate = "Cryptographic handshake";
return initiator_handshake(conn, &reach->daemon->id, &reach->id,
&reach->addr,
handshake_out_success, reach);
}
static void connect_failed(struct io_conn *conn, struct reaching *reach)
{
u8 *msg;
struct important_peerid *imp;
const char *err = tal_fmt(tmpctx, "%s: %s",
reach->connstate,
strerror(errno));
/* Tell any connect command what happened. */
if (reach->master_needs_response) {
msg = towire_gossipctl_connect_to_peer_result(NULL, &reach->id,
false, err);
daemon_conn_send(&reach->daemon->master, take(msg));
}
status_trace("Failed connected out for %s",
type_to_string(tmpctx, struct pubkey, &reach->id));
/* If we want to keep trying, do so. */
imp = important_peerid_map_get(&reach->daemon->important_peerids,
&reach->id);
if (imp) {
imp->wait_seconds *= 2;
if (imp->wait_seconds > MAX_WAIT_SECONDS)
imp->wait_seconds = MAX_WAIT_SECONDS;
status_trace("...will try again in %u seconds",
imp->wait_seconds);
/* If important_id freed, this will be removed too */
imp->reconnect_timer
= new_reltimer(&reach->daemon->timers, imp,
time_from_sec(imp->wait_seconds),
retry_important, imp);
}
tal_free(reach);
return;
}
static struct io_plan *conn_init(struct io_conn *conn, struct reaching *reach)
{
struct addrinfo ai;
struct sockaddr_in sin;
struct sockaddr_in6 sin6;
/* FIXME: make generic */
ai.ai_flags = 0;
ai.ai_socktype = SOCK_STREAM;
ai.ai_protocol = 0;
ai.ai_canonname = NULL;
ai.ai_next = NULL;
switch (reach->addr.type) {
case ADDR_TYPE_IPV4:
ai.ai_family = AF_INET;
sin.sin_family = AF_INET;
sin.sin_port = htons(reach->addr.port);
memcpy(&sin.sin_addr, reach->addr.addr, sizeof(sin.sin_addr));
ai.ai_addrlen = sizeof(sin);
ai.ai_addr = (struct sockaddr *)&sin;
break;
case ADDR_TYPE_IPV6:
ai.ai_family = AF_INET6;
memset(&sin6, 0, sizeof(sin6));
sin6.sin6_family = AF_INET6;
sin6.sin6_port = htons(reach->addr.port);
memcpy(&sin6.sin6_addr, reach->addr.addr, sizeof(sin6.sin6_addr));
ai.ai_addrlen = sizeof(sin6);
ai.ai_addr = (struct sockaddr *)&sin6;
break;
case ADDR_TYPE_PADDING:
/* Shouldn't happen. */
return io_close(conn);
}
io_set_finish(conn, connect_failed, reach);
return io_connect(conn, &ai, connection_out, reach);
}
static struct addrhint *
seed_resolve_addr(const tal_t *ctx, const struct pubkey *id, const u16 port)
{
struct addrhint *a;
char bech32[100], *addr;
u8 der[PUBKEY_DER_LEN];
u5 *data = tal_arr(ctx, u5, 0);
pubkey_to_der(der, id);
bech32_push_bits(&data, der, PUBKEY_DER_LEN*8);
bech32_encode(bech32, "ln", data, tal_count(data), sizeof(bech32));
addr = tal_fmt(ctx, "%s.lseed.bitcoinstats.com", bech32);
status_trace("Resolving %s", addr);
a = tal(ctx, struct addrhint);
if (!wireaddr_from_hostname(&a->addr, addr, port, NULL)) {
status_trace("Could not resolve %s", addr);
return tal_free(a);
} else {
status_trace("Resolved %s to %s", addr,
type_to_string(ctx, struct wireaddr, &a->addr));
return a;
}
}
static void try_reach_peer(struct daemon *daemon, const struct pubkey *id,
bool master_needs_response)
{
struct addrhint *a;
int fd;
struct reaching *reach;
u8 *msg;
struct peer *peer = find_peer(daemon, id);
if (peer) {
status_debug("try_reach_peer: have peer %s",
type_to_string(tmpctx, struct pubkey, id));
if (master_needs_response) {
msg = towire_gossipctl_connect_to_peer_result(NULL, id,
true,
"");
daemon_conn_send(&daemon->master, take(msg));
}
return;
}
/* If we're trying to reach it right now, that's OK. */
reach = find_reaching(daemon, id);
if (reach) {
/* Please tell us too. Master should not ask twice (we'll
* only respond once, and so one request will get stuck) */
if (reach->master_needs_response)
status_failed(STATUS_FAIL_MASTER_IO,
"Already reaching %s",
type_to_string(tmpctx, struct pubkey, id));
reach->master_needs_response = true;
return;
}
a = find_addrhint(daemon, id);
if (!a)
a = seed_resolve_addr(tmpctx, id, 9735);
if (!a) {
status_debug("No address known for %s, giving up",
type_to_string(tmpctx, struct pubkey, id));
if (master_needs_response) {
msg = towire_gossipctl_connect_to_peer_result(NULL, id,
false,
"No address known, giving up");
daemon_conn_send(&daemon->master, take(msg));
}
return;
}
/* Might not even be able to create eg. IPv6 sockets */
switch (a->addr.type) {
case ADDR_TYPE_IPV4:
fd = socket(AF_INET, SOCK_STREAM, 0);
break;
case ADDR_TYPE_IPV6:
fd = socket(AF_INET6, SOCK_STREAM, 0);
break;
default:
fd = -1;
errno = EPROTONOSUPPORT;
break;
}
if (fd < 0) {
char *err = tal_fmt(tmpctx,
"Can't open %i socket for %s (%s), giving up",
a->addr.type,
type_to_string(tmpctx, struct pubkey, id),
strerror(errno));
status_debug("%s", err);
if (master_needs_response) {
msg = towire_gossipctl_connect_to_peer_result(NULL, id,
false, err);
daemon_conn_send(&daemon->master, take(msg));
}
return;
}
/* Start connecting to it */
reach = tal(daemon, struct reaching);
reach->daemon = daemon;
reach->id = *id;
reach->addr = a->addr;
reach->master_needs_response = master_needs_response;
reach->connstate = "Connection establishment";
list_add_tail(&daemon->reaching, &reach->list);
tal_add_destructor(reach, destroy_reaching);
io_new_conn(reach, fd, conn_init, reach);
}
/* Called from timer, so needs single-arg declaration */
static void retry_important(struct important_peerid *imp)
{
/* In case we've come off a timer, don't leave dangling pointer */
imp->reconnect_timer = NULL;
#if DEVELOPER
/* With --dev-no-reconnect, we only want explicit
* connects */
if (imp->daemon->no_reconnect)
return;
#endif
try_reach_peer(imp->daemon, &imp->id, false);
}
static struct io_plan *connect_to_peer(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct pubkey id;
struct important_peerid *imp;
if (!fromwire_gossipctl_connect_to_peer(msg, &id))
master_badmsg(WIRE_GOSSIPCTL_CONNECT_TO_PEER, msg);
/* If this is an important peer, free any outstanding timer */
imp = important_peerid_map_get(&daemon->important_peerids, &id);
if (imp)
imp->reconnect_timer = tal_free(imp->reconnect_timer);
try_reach_peer(daemon, &id, true);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *addr_hint(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct addrhint *a = tal(daemon, struct addrhint);
if (!fromwire_gossipctl_peer_addrhint(msg, &a->id, &a->addr))
master_badmsg(WIRE_GOSSIPCTL_PEER_ADDRHINT, msg);
/* Replace any old one. */
tal_free(find_addrhint(daemon, &a->id));
list_add_tail(&daemon->addrhints, &a->list);
tal_add_destructor(a, destroy_addrhint);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *peer_important(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct pubkey id;
bool important;
struct important_peerid *imp;
if (!fromwire_gossipctl_peer_important(msg, &id, &important))
master_badmsg(WIRE_GOSSIPCTL_PEER_IMPORTANT, msg);
imp = important_peerid_map_get(&daemon->important_peerids, &id);
if (important) {
if (!imp) {
imp = tal(daemon, struct important_peerid);
imp->id = id;
imp->daemon = daemon;
imp->wait_seconds = INITIAL_WAIT_SECONDS;
important_peerid_map_add(&daemon->important_peerids,
imp);
/* Start trying to reaching it now. */
retry_important(imp);
}
} else {
if (imp) {
important_peerid_map_del(&daemon->important_peerids,
imp);
/* Stop trying to reach it (if we are) */
tal_free(find_reaching(daemon, &imp->id));
}
}
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *peer_disconnected(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct pubkey id;
struct peer *peer;
if (!fromwire_gossipctl_peer_disconnected(msg, &id))
master_badmsg(WIRE_GOSSIPCTL_PEER_DISCONNECTED, msg);
peer = find_peer(daemon, &id);
if (!peer)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"peer_disconnected unknown peer: %s",
type_to_string(tmpctx, struct pubkey, &id));
assert(!peer->local);
status_trace("Forgetting remote peer %s",
type_to_string(tmpctx, struct pubkey, &peer->id));
tal_free(peer);
/* If there was a connecting peer waiting, wake it now */
peer = find_reconnecting_peer(daemon, &id);
if (peer)
io_wake(peer);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *get_peers(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct peer *peer;
size_t n = 0;
struct pubkey *id = tal_arr(conn, struct pubkey, n);
struct wireaddr *wireaddr = tal_arr(conn, struct wireaddr, n);
const struct gossip_getnodes_entry **nodes;
struct pubkey *specific_id = NULL;
struct node_map_iter it;
if (!fromwire_gossip_getpeers_request(msg, msg, &specific_id))
master_badmsg(WIRE_GOSSIPCTL_PEER_ADDRHINT, msg);
nodes = tal_arr(conn, const struct gossip_getnodes_entry*, 0);
list_for_each(&daemon->peers, peer, list) {
if (specific_id && !pubkey_eq(specific_id, &peer->id))
continue;
tal_resize(&id, n+1);
tal_resize(&wireaddr, n+1);
id[n] = peer->id;
wireaddr[n] = peer->addr;
struct node* nd = NULL;
for (nd = node_map_first(daemon->rstate->nodes, &it); nd; nd = node_map_next(daemon->rstate->nodes, &it)) {
if (pubkey_eq(&nd->id, &peer->id)) {
append_node(&nodes, nd);
break;
}
}
n++;
}
daemon_conn_send(&daemon->master,
take(towire_gossip_getpeers_reply(NULL, id, wireaddr, nodes)));
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *handle_txout_reply(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct short_channel_id scid;
u8 *outscript;
u64 satoshis;
if (!fromwire_gossip_get_txout_reply(msg, msg, &scid, &satoshis, &outscript))
master_badmsg(WIRE_GOSSIP_GET_TXOUT_REPLY, msg);
if (handle_pending_cannouncement(daemon->rstate, &scid, satoshis, outscript))
send_node_announcement(daemon);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *handle_disable_channel(struct io_conn *conn,
struct daemon *daemon, u8 *msg)
{
struct short_channel_id scid;
u8 direction;
struct chan *chan;
struct half_chan *hc;
bool active;
u16 flags, cltv_expiry_delta;
u32 timestamp, fee_base_msat, fee_proportional_millionths;
struct bitcoin_blkid chain_hash;
secp256k1_ecdsa_signature sig;
u64 htlc_minimum_msat;
u8 *err;
const u8 *old_update;
if (!fromwire_gossip_disable_channel(msg, &scid, &direction, &active) ) {
status_unusual("Unable to parse %s",
gossip_wire_type_name(fromwire_peektype(msg)));
goto fail;
}
chan = get_channel(daemon->rstate, &scid);
if (!chan) {
status_trace(
"Unable to find channel %s",
type_to_string(msg, struct short_channel_id, &scid));
goto fail;
}
hc = &chan->half[direction];
status_trace("Disabling channel %s/%d, active %d -> %d",
type_to_string(msg, struct short_channel_id, &scid),
direction, hc->active, active);
hc->active = active;
if (!hc->channel_update_msgidx) {
status_trace(
"Channel %s/%d doesn't have a channel_update yet, can't "
"disable",
type_to_string(msg, struct short_channel_id, &scid),
direction);
goto fail;
}
old_update = get_broadcast(daemon->rstate->broadcasts,
hc->channel_update_msgidx);
if (!fromwire_channel_update(
old_update, &sig, &chain_hash, &scid, &timestamp,
&flags, &cltv_expiry_delta, &htlc_minimum_msat, &fee_base_msat,
&fee_proportional_millionths)) {
status_failed(
STATUS_FAIL_INTERNAL_ERROR,
"Unable to parse previously accepted channel_update");
}
timestamp = time_now().ts.tv_sec;
if (timestamp <= hc->last_timestamp)
timestamp = hc->last_timestamp + 1;
/* Active is bit 1 << 1, mask and apply */
flags = (0xFFFD & flags) | (!active << 1);
msg = towire_channel_update(tmpctx, &sig, &chain_hash, &scid, timestamp,
flags, cltv_expiry_delta, htlc_minimum_msat,
fee_base_msat, fee_proportional_millionths);
if (!wire_sync_write(HSM_FD,
towire_hsm_cupdate_sig_req(tmpctx, msg))) {
status_failed(STATUS_FAIL_HSM_IO, "Writing cupdate_sig_req: %s",
strerror(errno));
}
msg = wire_sync_read(tmpctx, HSM_FD);
if (!msg || !fromwire_hsm_cupdate_sig_reply(tmpctx, msg, &msg)) {
status_failed(STATUS_FAIL_HSM_IO,
"Reading cupdate_sig_req: %s",
strerror(errno));
}
err = handle_channel_update(daemon->rstate, msg);
if (err)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"rejected disabling channel_update: %s",
tal_hex(tmpctx, err));
fail:
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *handle_routing_failure(struct io_conn *conn,
struct daemon *daemon,
const u8 *msg)
{
struct pubkey erring_node;
struct short_channel_id erring_channel;
u16 failcode;
u8 *channel_update;
if (!fromwire_gossip_routing_failure(msg,
msg,
&erring_node,
&erring_channel,
&failcode,
&channel_update))
master_badmsg(WIRE_GOSSIP_ROUTING_FAILURE, msg);
routing_failure(daemon->rstate,
&erring_node,
&erring_channel,
(enum onion_type) failcode,
channel_update);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *
handle_mark_channel_unroutable(struct io_conn *conn,
struct daemon *daemon,
const u8 *msg)
{
struct short_channel_id channel;
if (!fromwire_gossip_mark_channel_unroutable(msg, &channel))
master_badmsg(WIRE_GOSSIP_MARK_CHANNEL_UNROUTABLE, msg);
mark_channel_unroutable(daemon->rstate, &channel);
return daemon_conn_read_next(conn, &daemon->master);
}
static struct io_plan *handle_outpoint_spent(struct io_conn *conn,
struct daemon *daemon,
const u8 *msg)
{
struct short_channel_id scid;
struct chan *chan;
struct routing_state *rstate = daemon->rstate;
if (!fromwire_gossip_outpoint_spent(msg, &scid))
master_badmsg(WIRE_GOSSIP_ROUTING_FAILURE, msg);
chan = get_channel(rstate, &scid);
if (chan) {
status_trace(
"Deleting channel %s due to the funding outpoint being "
"spent",
type_to_string(msg, struct short_channel_id, &scid));
/* Freeing is sufficient since everything else is allocated off
* of the channel and the destructor takes care of unregistering
* the channel */
tal_free(chan);
gossip_store_add_channel_delete(rstate->store, &scid);
}
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);
switch (t) {
case WIRE_GOSSIPCTL_INIT:
return gossip_init(master, 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, daemon->master.msg_in);
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_GOSSIP_PING:
return ping_req(conn, daemon, daemon->master.msg_in);
case WIRE_GOSSIP_RESOLVE_CHANNEL_REQUEST:
return resolve_channel_req(conn, daemon, daemon->master.msg_in);
case WIRE_GOSSIPCTL_HAND_BACK_PEER:
return hand_back_peer(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_CONNECT_TO_PEER:
return connect_to_peer(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_PEER_ADDRHINT:
return addr_hint(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_PEER_IMPORTANT:
return peer_important(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_PEER_DISCONNECTED:
return peer_disconnected(conn, daemon, master->msg_in);
case WIRE_GOSSIP_GETPEERS_REQUEST:
return get_peers(conn, daemon, master->msg_in);
case WIRE_GOSSIP_GET_TXOUT_REPLY:
return handle_txout_reply(conn, daemon, master->msg_in);
case WIRE_GOSSIP_DISABLE_CHANNEL:
return handle_disable_channel(conn, daemon, master->msg_in);
case WIRE_GOSSIP_ROUTING_FAILURE:
return handle_routing_failure(conn, daemon, master->msg_in);
case WIRE_GOSSIP_MARK_CHANNEL_UNROUTABLE:
return handle_mark_channel_unroutable(conn, daemon, master->msg_in);
case WIRE_GOSSIPCTL_PEER_DISCONNECT:
return disconnect_peer(conn, daemon, master->msg_in);
case WIRE_GOSSIP_OUTPOINT_SPENT:
return handle_outpoint_spent(conn, daemon, master->msg_in);
/* We send these, we don't receive them */
case WIRE_GOSSIPCTL_INIT_REPLY:
case WIRE_GOSSIPCTL_RELEASE_PEER_REPLY:
case WIRE_GOSSIPCTL_RELEASE_PEER_REPLYFAIL:
case WIRE_GOSSIP_GETNODES_REPLY:
case WIRE_GOSSIP_GETROUTE_REPLY:
case WIRE_GOSSIP_GETCHANNELS_REPLY:
case WIRE_GOSSIP_GETPEERS_REPLY:
case WIRE_GOSSIP_PING_REPLY:
case WIRE_GOSSIP_RESOLVE_CHANNEL_REPLY:
case WIRE_GOSSIP_PEER_CONNECTED:
case WIRE_GOSSIPCTL_CONNECT_TO_PEER_RESULT:
case WIRE_GOSSIP_PEER_NONGOSSIP:
case WIRE_GOSSIP_GET_UPDATE:
case WIRE_GOSSIP_GET_UPDATE_REPLY:
case WIRE_GOSSIP_SEND_GOSSIP:
case WIRE_GOSSIP_LOCAL_ADD_CHANNEL:
case WIRE_GOSSIP_GET_TXOUT:
case WIRE_GOSSIPCTL_PEER_DISCONNECT_REPLY:
case WIRE_GOSSIPCTL_PEER_DISCONNECT_REPLYFAIL:
break;
}
/* Master shouldn't give bad requests. */
status_failed(STATUS_FAIL_MASTER_IO, "%i: %s",
t, tal_hex(tmpctx, master->msg_in));
}
#ifndef TESTING
static void master_gone(struct io_conn *unused UNUSED, struct daemon_conn *dc UNUSED)
{
/* Can't tell master, it's gone. */
exit(2);
}
int main(int argc, char *argv[])
{
struct daemon *daemon;
subdaemon_setup(argc, argv);
daemon = tal(NULL, struct daemon);
list_head_init(&daemon->peers);
list_head_init(&daemon->reconnecting);
list_head_init(&daemon->reaching);
list_head_init(&daemon->addrhints);
important_peerid_map_init(&daemon->important_peerids);
timers_init(&daemon->timers, time_mono());
daemon->broadcast_interval = 30000;
daemon->last_announce_timestamp = 0;
/* stdin == control */
daemon_conn_init(daemon, &daemon->master, STDIN_FILENO, recv_req,
master_gone);
status_setup_async(&daemon->master);
hsm_setup(HSM_FD);
/* 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);
}
}
daemon_shutdown();
return 0;
}
#endif