core-lightning/connectd/connectd.c

2165 lines
67 KiB
C
Raw Normal View History

/*~ Welcome to the connect daemon: maintainer of connectivity!
*
* This is another separate daemon which is responsible for reaching out to
* other peers, and also accepting their incoming connections. It talks to
* them for just long enough to validate their identity using a cryptographic
* handshake, then receive and send supported feature sets; then it hands them
* up to lightningd which will fire up a specific per-peer daemon to talk to
* it.
*/
#include "config.h"
#include <bitcoin/chainparams.h>
#include <ccan/array_size/array_size.h>
#include <ccan/asort/asort.h>
#include <ccan/closefrom/closefrom.h>
#include <ccan/fdpass/fdpass.h>
#include <ccan/noerr/noerr.h>
#include <ccan/tal/str/str.h>
#include <common/bech32.h>
#include <common/bech32_util.h>
#include <common/daemon_conn.h>
#include <common/dev_disconnect.h>
#include <common/ecdh_hsmd.h>
#include <common/gossip_store.h>
#include <common/jsonrpc_errors.h>
#include <common/memleak.h>
#include <common/status.h>
#include <common/subdaemon.h>
#include <common/timeout.h>
#include <common/type_to_string.h>
#include <common/wire_error.h>
#include <connectd/connectd.h>
#include <connectd/connectd_gossipd_wiregen.h>
#include <connectd/connectd_wiregen.h>
#include <connectd/handshake.h>
#include <connectd/multiplex.h>
#include <connectd/netaddress.h>
#include <connectd/onion_message.h>
#include <connectd/peer_exchange_initmsg.h>
#include <connectd/tor.h>
#include <connectd/tor_autoservice.h>
#include <errno.h>
#include <fcntl.h>
#include <netdb.h>
#include <netinet/in.h>
#include <signal.h>
#include <sodium.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <wire/wire_sync.h>
/*~ We are passed two file descriptors when exec'ed from `lightningd`: the
* first is a connection to `hsmd`, which we need for the cryptographic
* handshake, and the second is to `gossipd`: it gathers network gossip and
* thus may know how to reach certain peers. */
#define HSM_FD 3
#define GOSSIPCTL_FD 4
/*~ In C convention, constants are UPPERCASE macros. Not everything needs to
* be a constant, but it soothes the programmer's conscience to encapsulate
* arbitrary decisions like these in one place. */
#define MAX_CONNECT_ATTEMPTS 10
#define INITIAL_WAIT_SECONDS 1
#define MAX_WAIT_SECONDS 300
/* Peers we're trying to reach: we iterate through addrs until we succeed
* or fail. */
struct connecting {
/* daemon->connecting */
struct list_node list;
struct daemon *daemon;
struct io_conn *conn;
/* The ID of the peer (not necessarily unique, in transit!) */
struct node_id id;
/* We iterate through the tal_count(addrs) */
size_t addrnum;
struct wireaddr_internal *addrs;
/* NULL if there wasn't a hint. */
struct wireaddr_internal *addrhint;
/* How far did we get? */
const char *connstate;
/* Accumulated errors */
char *errors;
/* How many seconds did we wait this time? */
u32 seconds_waited;
};
/*~ This is an ad-hoc marshalling structure where we store arguments so we
* can call peer_connected again. */
struct peer_reconnected {
struct daemon *daemon;
struct node_id id;
struct wireaddr_internal addr;
const struct wireaddr *remote_addr;
struct crypto_state cs;
const u8 *their_features;
bool incoming;
};
/*~ C programs should generally be written bottom-to-top, with the root
* function at the bottom, and functions it calls above it. That avoids
* us having to pre-declare functions; but in the case of mutual recursion
* pre-declarations are necessary (also, sometimes we do it to avoid making
* a patch hard to review with gratuitous reorganizations). */
static void try_connect_one_addr(struct connecting *connect);
/*~ Some ISP resolvers will reply with a dummy IP to queries that would otherwise
* result in an NXDOMAIN reply. This just checks whether we have one such
* resolver upstream and remembers its reply so we can try to filter future
* dummies out.
*/
static bool broken_resolver(struct daemon *daemon)
{
struct addrinfo *addrinfo;
struct addrinfo hints;
const char *hostname = "nxdomain-test.doesntexist";
int err;
2021-08-18 12:47:42 +02:00
/* If they told us to never do DNS queries, don't even do this one and
* also not if we just say that we don't */
if (!daemon->use_dns || daemon->always_use_proxy) {
daemon->broken_resolver_response = NULL;
return false;
}
memset(&hints, 0, sizeof(hints));
hints.ai_family = AF_UNSPEC;
hints.ai_socktype = SOCK_STREAM;
hints.ai_protocol = 0;
hints.ai_flags = AI_ADDRCONFIG;
err = getaddrinfo(hostname, tal_fmt(tmpctx, "%d", 42),
&hints, &addrinfo);
/*~ Note the use of tal_dup here: it is a memdup for tal, but it's
* type-aware so it's less error-prone. */
if (err == 0) {
daemon->broken_resolver_response
= tal_dup(daemon, struct sockaddr, addrinfo->ai_addr);
freeaddrinfo(addrinfo);
} else
daemon->broken_resolver_response = NULL;
return daemon->broken_resolver_response != NULL;
}
/*~ Here we see our first tal destructor: in this case the 'struct connect'
* simply removes itself from the list of all 'connect' structs. */
static void destroy_connecting(struct connecting *connect)
{
/*~ We don't *need* the list_head here; `list_del(&connect->list)`
* would work. But we have access to it, and `list_del_from()` is
* clearer for readers, and also does a very brief sanity check that
* the list isn't already empty which catches a surprising number of
* bugs! (If CCAN_LIST_DEBUG were defined, it would perform a
* complete list traverse to check it was in the list before
* deletion). */
list_del_from(&connect->daemon->connecting, &connect->list);
}
/*~ Most simple search functions start with find_; in this case, search
* for an existing attempt to connect the given peer id. */
static struct connecting *find_connecting(struct daemon *daemon,
const struct node_id *id)
{
struct connecting *i;
/*~ Note the node_id_eq function: this is generally preferred over
* doing a memcmp() manually, as it is both typesafe and can handle
* any padding which the C compiler is allowed to insert between
* members (unnecessary here, as there's no padding in a `struct
* node_id`). */
list_for_each(&daemon->connecting, i, list)
if (node_id_eq(id, &i->id))
return i;
return NULL;
}
/*~ Once we've connected out, we disable the callback which would cause us to
* to try the next address. */
static void connected_out_to_peer(struct daemon *daemon,
struct io_conn *conn,
const struct node_id *id)
{
struct connecting *connect = find_connecting(daemon, id);
/* We allocate 'conn' as a child of 'connect': we don't want to free
* it just yet though. tal_steal() it onto the permanent 'daemon'
* struct. */
tal_steal(daemon, conn);
/* We only allow one outgoing attempt at a time */
assert(connect->conn == conn);
/* Don't call destroy_io_conn, since we're done. */
io_set_finish(conn, NULL, NULL);
/* Now free the 'connecting' struct. */
tal_free(connect);
}
/*~ Once they've connected in, stop trying to connect out (if we were). */
static void peer_connected_in(struct daemon *daemon,
struct io_conn *conn,
const struct node_id *id)
{
struct connecting *connect = find_connecting(daemon, id);
if (!connect)
return;
/* Don't call destroy_io_conn, since we're done. */
io_set_finish(connect->conn, NULL, NULL);
/* Now free the 'connecting' struct since we succeeded. */
tal_free(connect);
}
/*~ For simplicity, lightningd only ever deals with a single connection per
* peer. So if we already know about a peer, we tell lightning to disconnect
* the old one and retry once it does. */
static struct io_plan *retry_peer_connected(struct io_conn *conn,
struct peer_reconnected *pr)
{
/*~ As you can see, we've had issues with this code before :( */
status_peer_debug(&pr->id, "processing now old peer gone");
/* If this fails (still waiting), pr will be freed, so reparent onto
* tmpctx so it gets freed either way. */
tal_steal(tmpctx, pr);
/*~ Usually the pattern is to return this directly. */
return peer_connected(conn, pr->daemon, &pr->id, &pr->addr,
pr->remote_addr,
&pr->cs, take(pr->their_features), pr->incoming,
true);
}
/*~ If we already know about this peer, we tell lightningd and it disconnects
* the old one. We wait until it tells us that's happened. */
static struct io_plan *peer_reconnected(struct io_conn *conn,
struct daemon *daemon,
const struct node_id *id,
const struct wireaddr_internal *addr,
const struct wireaddr *remote_addr,
const struct crypto_state *cs,
const u8 *their_features TAKES,
bool incoming)
{
u8 *msg;
struct peer_reconnected *pr;
status_peer_debug(id, "reconnect");
/* Tell master to kill it: will send peer_disconnect */
msg = towire_connectd_reconnected(NULL, id);
daemon_conn_send(daemon->master, take(msg));
/* Save arguments for next time. */
pr = tal(conn, struct peer_reconnected);
pr->daemon = daemon;
pr->id = *id;
pr->cs = *cs;
pr->addr = *addr;
pr->remote_addr = tal_dup_or_null(pr, struct wireaddr, remote_addr);
pr->incoming = incoming;
/*~ Note that tal_dup_talarr() will do handle the take() of features
* (turning it into a simply tal_steal() in those cases). */
pr->their_features = tal_dup_talarr(pr, u8, their_features);
/*~ ccan/io supports waiting on an address: in this case, the key in
* the peer set. When someone calls `io_wake()` on that address, it
* will call retry_peer_connected above. */
return io_wait(conn, peer_htable_get(&daemon->peers, id),
retry_peer_connected, pr);
}
/*~ When we free a peer, we remove it from the daemon's hashtable */
void destroy_peer(struct peer *peer)
{
peer_htable_del(&peer->daemon->peers, peer);
/* Tell gossipd to stop asking this peer gossip queries */
daemon_conn_send(peer->daemon->gossipd,
take(towire_gossipd_peer_gone(NULL, &peer->id)));
/* Tell lightningd it's really disconnected */
daemon_conn_send(peer->daemon->master,
take(towire_connectd_peer_disconnect_done(NULL,
&peer->id)));
}
/*~ This is where we create a new peer. */
static struct peer *new_peer(struct daemon *daemon,
const struct node_id *id,
const struct crypto_state *cs,
const u8 *their_features,
struct io_conn *conn STEALS,
int *fd_for_subd)
{
struct peer *peer = tal(daemon, struct peer);
peer->daemon = daemon;
peer->id = *id;
peer->cs = *cs;
peer->subds = tal_arr(peer, struct subd *, 0);
peer->peer_in = NULL;
peer->sent_to_peer = NULL;
peer->urgent = false;
peer->draining = false;
peer->peer_outq = msg_queue_new(peer, false);
peer->last_recv_time = time_now();
#if DEVELOPER
peer->dev_writes_enabled = NULL;
peer->dev_read_enabled = true;
#endif
peer->to_peer = conn;
/* Now we own it */
tal_steal(peer, peer->to_peer);
peer_htable_add(&daemon->peers, peer);
tal_add_destructor(peer, destroy_peer);
return peer;
}
/*~ Note the lack of static: this is called by peer_exchange_initmsg.c once the
* INIT messages are exchanged, and also by the retry code above. */
struct io_plan *peer_connected(struct io_conn *conn,
struct daemon *daemon,
const struct node_id *id,
const struct wireaddr_internal *addr,
const struct wireaddr *remote_addr,
struct crypto_state *cs,
const u8 *their_features TAKES,
bool incoming,
bool retrying)
{
u8 *msg;
struct peer *peer;
int unsup;
size_t depender, missing;
int subd_fd;
bool option_gossip_queries;
peer = peer_htable_get(&daemon->peers, id);
if (peer) {
/* If we were already retrying, we only get one chance: there
* can be multiple reconnections, and we must not keep around
* stale ones */
if (retrying) {
if (taken(their_features))
tal_free(their_features);
return io_close(conn);
}
return peer_reconnected(conn, daemon, id, addr, remote_addr, cs,
their_features, incoming);
}
/* We promised we'd take it by marking it TAKEN above; prepare to free it. */
if (taken(their_features))
tal_steal(tmpctx, their_features);
/* BOLT #1:
*
* The receiving node:
* ...
* - upon receiving unknown _odd_ feature bits that are non-zero:
* - MUST ignore the bit.
* - upon receiving unknown _even_ feature bits that are non-zero:
* - MUST close the connection.
*/
unsup = features_unsupported(daemon->our_features, their_features,
INIT_FEATURE);
if (unsup != -1) {
status_peer_unusual(id, "Unsupported feature %u", unsup);
msg = towire_warningfmt(NULL, NULL, "Unsupported feature %u",
unsup);
msg = cryptomsg_encrypt_msg(tmpctx, cs, take(msg));
return io_write(conn, msg, tal_count(msg), io_close_cb, NULL);
}
if (!feature_check_depends(their_features, &depender, &missing)) {
status_peer_unusual(id, "Feature %zu requires feature %zu",
depender, missing);
msg = towire_warningfmt(NULL, NULL,
"Feature %zu requires feature %zu",
depender, missing);
msg = cryptomsg_encrypt_msg(tmpctx, cs, take(msg));
return io_write(conn, msg, tal_count(msg), io_close_cb, NULL);
}
/* We've successfully connected. */
if (incoming)
peer_connected_in(daemon, conn, id);
else
connected_out_to_peer(daemon, conn, id);
if (find_connecting(daemon, id))
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"After %s connection on %p, still trying to connect conn %p?",
incoming ? "incoming" : "outgoing",
conn, find_connecting(daemon, id)->conn);
/* This contains the per-peer state info; gossipd fills in pps->gs */
peer = new_peer(daemon, id, cs, their_features, conn, &subd_fd);
/* Only takes over conn if it succeeds. */
if (!peer)
return io_close(conn);
/* Tell gossipd it can ask query this new peer for gossip */
option_gossip_queries = feature_negotiated(daemon->our_features,
their_features,
OPT_GOSSIP_QUERIES);
msg = towire_gossipd_new_peer(NULL, id, option_gossip_queries);
daemon_conn_send(daemon->gossipd, take(msg));
/* Get ready for streaming gossip from the store */
setup_peer_gossip_store(peer, daemon->our_features, their_features);
/* Create message to tell master peer has connected. */
msg = towire_connectd_peer_connected(NULL, id, addr, remote_addr,
incoming, their_features);
/*~ daemon_conn is a message queue for inter-daemon communication: we
* queue up the `connect_peer_connected` message to tell lightningd
* we have connected. Once it says something interesting, we tell
* it that, too. */
daemon_conn_send(daemon->master, take(msg));
/*~ Now we set up this connection to read/write from subd */
return multiplex_peer_setup(conn, peer);
}
/*~ handshake.c's handles setting up the crypto state once we get a connection
* in; we hand it straight to peer_exchange_initmsg() to send and receive INIT
* and call peer_connected(). */
static struct io_plan *handshake_in_success(struct io_conn *conn,
const struct pubkey *id_key,
const struct wireaddr_internal *addr,
struct crypto_state *cs,
struct oneshot *timeout,
struct daemon *daemon)
{
struct node_id id;
node_id_from_pubkey(&id, id_key);
status_peer_debug(&id, "Connect IN");
return peer_exchange_initmsg(conn, daemon, daemon->our_features,
cs, &id, addr, timeout, true);
}
/*~ If the timer goes off, we simply free everything, which hangs up. */
static void conn_timeout(struct io_conn *conn)
{
status_debug("conn timed out");
errno = ETIMEDOUT;
io_close(conn);
}
/*~ So, where are you from? */
static bool get_remote_address(struct io_conn *conn,
struct wireaddr_internal *addr)
{
struct sockaddr_storage s = {};
socklen_t len = sizeof(s);
/* The cast here is a weird Berkeley sockets API feature... */
if (getpeername(io_conn_fd(conn), (struct sockaddr *)&s, &len) != 0) {
status_debug("Failed to get peername for incoming conn: %s",
strerror(errno));
return false;
}
if (s.ss_family == AF_INET6) {
struct sockaddr_in6 *s6 = (void *)&s;
addr->itype = ADDR_INTERNAL_WIREADDR;
wireaddr_from_ipv6(&addr->u.wireaddr,
&s6->sin6_addr, ntohs(s6->sin6_port));
} else if (s.ss_family == AF_INET) {
struct sockaddr_in *s4 = (void *)&s;
addr->itype = ADDR_INTERNAL_WIREADDR;
wireaddr_from_ipv4(&addr->u.wireaddr,
&s4->sin_addr, ntohs(s4->sin_port));
} else if (s.ss_family == AF_UNIX) {
struct sockaddr_un *sun = (void *)&s;
addr->itype = ADDR_INTERNAL_SOCKNAME;
memcpy(addr->u.sockname, sun->sun_path, sizeof(sun->sun_path));
} else {
status_broken("Unknown socket type %i for incoming conn",
s.ss_family);
return false;
}
return true;
}
/*~ As so common in C, we need to bundle two args into a callback, so we
* allocate a temporary structure to hold them: */
struct conn_in {
struct wireaddr_internal addr;
struct daemon *daemon;
};
/*~ Once we've got a connection in, we set it up here (whether it's via the
* websocket proxy, or direct). */
static struct io_plan *conn_in(struct io_conn *conn,
struct conn_in *conn_in_arg)
{
struct daemon *daemon = conn_in_arg->daemon;
struct oneshot *timeout;
/* If they don't complete handshake in reasonable time, we hang up */
timeout = new_reltimer(&daemon->timers, conn,
time_from_sec(daemon->timeout_secs),
conn_timeout, conn);
/*~ The crypto handshake differs depending on whether you received or
* initiated the socket connection, so there are two entry points.
* Note, again, the notleak() to avoid our simplistic leak detection
* code from thinking `conn` (which we don't keep a pointer to) is
* leaked */
return responder_handshake(notleak(conn), &daemon->mykey,
&conn_in_arg->addr, timeout,
handshake_in_success, daemon);
}
/*~ When we get a direct connection in we set up its network address
* then call handshake.c to set up the crypto state. */
static struct io_plan *connection_in(struct io_conn *conn,
struct daemon *daemon)
{
struct conn_in conn_in_arg;
if (!get_remote_address(conn, &conn_in_arg.addr))
return io_close(conn);
conn_in_arg.daemon = daemon;
return conn_in(conn, &conn_in_arg);
}
/*~ <hello>I speak web socket</hello>.
*
* Actually that's dumb, websocket (aka rfc6455) looks nothing like that. */
static struct io_plan *websocket_connection_in(struct io_conn *conn,
struct daemon *daemon)
{
int childmsg[2], execfail[2];
pid_t childpid;
int err;
struct conn_in conn_in_arg;
if (!get_remote_address(conn, &conn_in_arg.addr))
return io_close(conn);
status_debug("Websocket connection in from %s",
type_to_string(tmpctx, struct wireaddr_internal,
&conn_in_arg.addr));
if (socketpair(AF_LOCAL, SOCK_STREAM, 0, childmsg) != 0)
goto fail;
if (pipe(execfail) != 0)
goto close_msgfd_fail;
if (fcntl(execfail[1], F_SETFD, fcntl(execfail[1], F_GETFD)
| FD_CLOEXEC) < 0)
goto close_execfail_fail;
childpid = fork();
if (childpid < 0)
goto close_execfail_fail;
if (childpid == 0) {
close(childmsg[0]);
close(execfail[0]);
/* Attach remote socket to stdin. */
if (dup2(io_conn_fd(conn), STDIN_FILENO) == -1)
goto child_errno_fail;
/* Attach our socket to stdout. */
if (dup2(childmsg[1], STDOUT_FILENO) == -1)
goto child_errno_fail;
/* Make (fairly!) sure all other fds are closed. */
closefrom(STDERR_FILENO + 1);
/* Tell websocket helper what we read so far. */
execlp(daemon->websocket_helper, daemon->websocket_helper,
NULL);
child_errno_fail:
err = errno;
/* Gcc's warn-unused-result fail. */
if (write(execfail[1], &err, sizeof(err))) {
;
}
exit(127);
}
close(childmsg[1]);
close(execfail[1]);
/* Child will close this without writing on successful exec. */
if (read(execfail[0], &err, sizeof(err)) == sizeof(err)) {
close(execfail[0]);
waitpid(childpid, NULL, 0);
status_broken("Exec of helper %s failed: %s",
daemon->websocket_helper, strerror(err));
errno = err;
return io_close(conn);
}
close(execfail[0]);
/* New connection actually talks to proxy process. */
conn_in_arg.daemon = daemon;
io_new_conn(tal_parent(conn), childmsg[0], conn_in, &conn_in_arg);
/* Abandon original (doesn't close since child has dup'd fd) */
return io_close(conn);
close_execfail_fail:
close_noerr(execfail[0]);
close_noerr(execfail[1]);
close_msgfd_fail:
close_noerr(childmsg[0]);
close_noerr(childmsg[1]);
fail:
status_broken("Preparation of helper failed: %s",
strerror(errno));
return io_close(conn);
}
/*~ These are the mirror functions for the connecting-out case. */
static struct io_plan *handshake_out_success(struct io_conn *conn,
const struct pubkey *key,
const struct wireaddr_internal *addr,
struct crypto_state *cs,
struct oneshot *timeout,
struct connecting *connect)
{
struct node_id id;
node_id_from_pubkey(&id, key);
connect->connstate = "Exchanging init messages";
status_peer_debug(&id, "Connect OUT");
return peer_exchange_initmsg(conn, connect->daemon,
connect->daemon->our_features,
cs, &id, addr, timeout, false);
}
struct io_plan *connection_out(struct io_conn *conn, struct connecting *connect)
{
struct pubkey outkey;
struct oneshot *timeout;
/* This shouldn't happen: lightningd should not give invalid ids! */
if (!pubkey_from_node_id(&outkey, &connect->id)) {
status_broken("Connection out to invalid id %s",
type_to_string(tmpctx, struct node_id,
&connect->id));
return io_close(conn);
}
/* If they don't complete handshake in reasonable time, hang up */
timeout = new_reltimer(&connect->daemon->timers, conn,
time_from_sec(connect->daemon->timeout_secs),
conn_timeout, conn);
status_peer_debug(&connect->id, "Connected out, starting crypto");
connect->connstate = "Cryptographic handshake";
return initiator_handshake(conn, &connect->daemon->mykey, &outkey,
&connect->addrs[connect->addrnum],
timeout, handshake_out_success, connect);
}
/*~ When we've exhausted all addresses without success, we come here.
*
* Note that gcc gets upset if we put the PRINTF_FMT at the end like this if
* it's an actual function definition, but etags gets confused and ignores the
* rest of the file if we put PRINTF_FMT at the front. So we put it at the
* end, in a gratuitous declaration.
*/
static void connect_failed(struct daemon *daemon,
const struct node_id *id,
u32 seconds_waited,
const struct wireaddr_internal *addrhint,
errcode_t errcode,
const char *errfmt, ...)
PRINTF_FMT(6,7);
static void connect_failed(struct daemon *daemon,
const struct node_id *id,
u32 seconds_waited,
const struct wireaddr_internal *addrhint,
errcode_t errcode,
const char *errfmt, ...)
{
u8 *msg;
va_list ap;
char *errmsg;
u32 wait_seconds;
va_start(ap, errfmt);
errmsg = tal_vfmt(tmpctx, errfmt, ap);
va_end(ap);
/* Wait twice as long to reconnect, between min and max. */
wait_seconds = seconds_waited * 2;
if (wait_seconds > MAX_WAIT_SECONDS)
wait_seconds = MAX_WAIT_SECONDS;
if (wait_seconds < INITIAL_WAIT_SECONDS)
wait_seconds = INITIAL_WAIT_SECONDS;
/* lightningd may have a connect command waiting to know what
* happened. We leave it to lightningd to decide if it wants to try
* again, with the wait_seconds as a hint of how long before
* asking. */
msg = towire_connectd_connect_failed(NULL, id, errcode, errmsg,
wait_seconds, addrhint);
daemon_conn_send(daemon->master, take(msg));
status_peer_debug(id, "Failed connected out: %s", errmsg);
}
/* add errors to error list */
void add_errors_to_error_list(struct connecting *connect, const char *error)
{
tal_append_fmt(&connect->errors,
"%s. ", error);
}
/*~ This is the destructor for the (unsuccessful) outgoing connection. We accumulate
* the errors which occurred, so we can report to lightningd properly in case
* they all fail, and try the next address.
*
* This is a specialized form of destructor which takes an extra argument;
* it set up by either the creatively-named tal_add_destructor2(), or by
* the ccan/io's io_set_finish() on a connection. */
static void destroy_io_conn(struct io_conn *conn, struct connecting *connect)
{
/*~ tal_append_fmt appends to a tal string. It's terribly convenient */
const char *errstr = strerror(errno);
/* errno 0 means they hung up on us. */
if (errno == 0) {
errstr = "peer closed connection";
if (streq(connect->connstate, "Cryptographic handshake"))
errstr = "peer closed connection (wrong key?)";
}
add_errors_to_error_list(connect,
tal_fmt(tmpctx, "%s: %s: %s",
type_to_string(tmpctx, struct wireaddr_internal,
&connect->addrs[connect->addrnum]),
connect->connstate, errstr));
connect->addrnum++;
connectd: don't start connecting in parallel in peer_conn_closed. The crash below from @zerofeerouting left me confused. The invalid value in fmt_wireaddr_internal is a telltale sign of use-after-free. This backtrace shows us destroying the conn *twice*: what's happening? Well, tal carefully protects against destroying twice: it's not that unusual to free something in a destructor which has already been freed. So this indicates that there are *two* io_conn hanging off one struct connecting, which isn't supposed to happen! We deliberately call try_connect_one_addr() initially, then inside the io_conn destructor. But due to races in connectd vs lightningd connection state, we added a fix which allows a connect command to sit around while the peer is cleaning up (6cc9f37cab26a01bcc93ccda2fcc048a55e869a1) and get fired off when it's done. But what if, in the chaos, we are already connecting again? Now we'll end up with *two* connections. Fortunately, we have a `conn` pointer inside struct connecting, which (with a bit of additional care) we can ensure is only non-NULL while we're actually trying to connect. This lets us check that before firing off a new connection attempt in peer_conn_closed. ``` lightning_connectd: FATAL SIGNAL 6 (version v0.11.2rc2-2-g8f7e939) 0x5614a4915ae8 send_backtrace common/daemon.c:33 0x5614a4915b72 crashdump common/daemon.c:46 0x7ffa14fcd72f ??? ???:0 0x7ffa14dc87bb ??? ???:0 0x7ffa14db3534 ??? ???:0 0x5614a491fc71 fmt_wireaddr_internal common/wireaddr.c:255 0x5614a491fc7a fmt_wireaddr_internal_ common/wireaddr.c:257 0x5614a491ea6b type_to_string_ common/type_to_string.c:32 0x5614a490beaa destroy_io_conn connectd/connectd.c:754 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953928 del_tree ccan/ccan/tal/tal.c:412 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4908b7a try_connect_one_addr connectd/connectd.c:870 0x5614a490bef1 destroy_io_conn connectd/connectd.c:759 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4948f08 io_close ccan/ccan/io/io.c:450 0x5614a4948f59 do_plan ccan/ccan/io/io.c:401 0x5614a4948fe1 io_ready ccan/ccan/io/io.c:417 0x5614a494a8e6 io_loop ccan/ccan/io/poll.c:453 0x5614a490c12f main connectd/connectd.c:2164 0x7ffa14db509a ??? ???:0 0x5614a4904e99 ??? ???:0 0xffffffffffffffff ??? ???:0 ``` Fixes: #5339 Changelog-Fixed: connectd: occasional crash when we reconnect to a peer quickly. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-06-24 02:21:12 +02:00
connect->conn = NULL;
try_connect_one_addr(connect);
}
/* This initializes a fresh io_conn by setting it to io_connect to the
* destination */
static struct io_plan *conn_init(struct io_conn *conn,
struct connecting *connect)
{
/*~ I generally dislike the pattern of "set to NULL, assert if NULL at
* bottom". On -O2 and above the compiler will warn you at compile time
* if a there is a path by which the variable is not set, which is always
* preferable to a runtime assertion. In this case, it's the best way
* to use the "enum in a switch" trick to make sure we handle all enum
* cases, so I use it. */
struct addrinfo *ai = NULL;
const struct wireaddr_internal *addr = &connect->addrs[connect->addrnum];
switch (addr->itype) {
case ADDR_INTERNAL_SOCKNAME:
ai = wireaddr_internal_to_addrinfo(tmpctx, addr);
break;
case ADDR_INTERNAL_ALLPROTO:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect to all protocols");
break;
case ADDR_INTERNAL_AUTOTOR:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect to autotor address");
break;
case ADDR_INTERNAL_STATICTOR:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect to statictor address");
break;
case ADDR_INTERNAL_FORPROXY:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect to forproxy address");
break;
case ADDR_INTERNAL_WIREADDR:
/* DNS should have been resolved before */
assert(addr->u.wireaddr.type != ADDR_TYPE_DNS);
/* If it was a Tor address, we wouldn't be here. */
assert(!is_toraddr((char*)addr->u.wireaddr.addr));
ai = wireaddr_to_addrinfo(tmpctx, &addr->u.wireaddr);
break;
}
assert(ai);
io_set_finish(conn, destroy_io_conn, connect);
return io_connect(conn, ai, connection_out, connect);
}
/* This initializes a fresh io_conn by setting it to io_connect to the
* SOCKS proxy, as handled in tor.c. */
static struct io_plan *conn_proxy_init(struct io_conn *conn,
struct connecting *connect)
{
const char *host = NULL;
u16 port;
const struct wireaddr_internal *addr = &connect->addrs[connect->addrnum];
switch (addr->itype) {
case ADDR_INTERNAL_FORPROXY:
host = addr->u.unresolved.name;
port = addr->u.unresolved.port;
break;
case ADDR_INTERNAL_WIREADDR:
host = fmt_wireaddr_without_port(tmpctx, &addr->u.wireaddr);
port = addr->u.wireaddr.port;
break;
case ADDR_INTERNAL_SOCKNAME:
case ADDR_INTERNAL_ALLPROTO:
case ADDR_INTERNAL_AUTOTOR:
case ADDR_INTERNAL_STATICTOR:
break;
}
if (!host)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect to %u address", addr->itype);
io_set_finish(conn, destroy_io_conn, connect);
return io_tor_connect(conn, connect->daemon->proxyaddr, host, port,
connect);
}
/*~ This is the routine which tries to connect. */
static void try_connect_one_addr(struct connecting *connect)
{
int fd, af;
bool use_proxy = connect->daemon->always_use_proxy;
const struct wireaddr_internal *addr = &connect->addrs[connect->addrnum];
connectd: don't crash if connect() fails immediately. Took me a while (stressing under valgrind) to reproduce this, then longer to figure out how it happened. Turns out io_new_conn() can fail if the init function fails. In our case, this can happen if connect() immediately returns an error (inside io_connect). But we've already set the finish function, which (if this was the last address), will free connect, making the assignment `connect->conn = ...` write to a freed address. Either way, if it fails, try_connect_one_addr() has taken care to update connect->conn, or free connect, and the caller should not do it. Here's the valgrind trace: ``` ==384981== Invalid write of size 8 ==384981== at 0x11127C: try_connect_one_addr (connectd.c:880) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1400B3: do_plan (io.c:401) ==384981== by 0x140134: io_ready (io.c:423) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ==384981== Address 0x4d67020 is 64 bytes inside a block of size 160 free'd ==384981== at 0x483CA3F: free (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x14A020: del_tree (tal.c:421) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x1110C5: try_connect_one_addr (connectd.c:806) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1405DC: io_connect_ (io.c:345) ==384981== Block was alloc'd at ==384981== at 0x483B7F3: malloc (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x149CF1: allocate (tal.c:250) ==384981== by 0x14A3C6: tal_alloc_ (tal.c:428) ==384981== by 0x1114F2: try_connect_peer (connectd.c:1526) ==384981== by 0x111717: connect_to_peer (connectd.c:1558) ==384981== by 0x1124F5: recv_req (connectd.c:1627) ==384981== by 0x1188B2: handle_read (daemon_conn.c:31) ==384981== by 0x13FBCB: next_plan (io.c:59) ==384981== by 0x140076: do_plan (io.c:407) ==384981== by 0x140113: io_ready (io.c:417) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Changelog-Fixed: Occasional crash in connectd due to use-after-free Fixes: #4343
2021-01-28 00:36:49 +01:00
struct io_conn *conn;
#if EXPERIMENTAL_FEATURES /* BOLT7 DNS RFC #911 */
bool use_dns = connect->daemon->use_dns;
struct addrinfo hints, *ais, *aii;
struct wireaddr_internal addrhint;
int gai_err;
struct sockaddr_in *sa4;
struct sockaddr_in6 *sa6;
#endif
connectd: don't start connecting in parallel in peer_conn_closed. The crash below from @zerofeerouting left me confused. The invalid value in fmt_wireaddr_internal is a telltale sign of use-after-free. This backtrace shows us destroying the conn *twice*: what's happening? Well, tal carefully protects against destroying twice: it's not that unusual to free something in a destructor which has already been freed. So this indicates that there are *two* io_conn hanging off one struct connecting, which isn't supposed to happen! We deliberately call try_connect_one_addr() initially, then inside the io_conn destructor. But due to races in connectd vs lightningd connection state, we added a fix which allows a connect command to sit around while the peer is cleaning up (6cc9f37cab26a01bcc93ccda2fcc048a55e869a1) and get fired off when it's done. But what if, in the chaos, we are already connecting again? Now we'll end up with *two* connections. Fortunately, we have a `conn` pointer inside struct connecting, which (with a bit of additional care) we can ensure is only non-NULL while we're actually trying to connect. This lets us check that before firing off a new connection attempt in peer_conn_closed. ``` lightning_connectd: FATAL SIGNAL 6 (version v0.11.2rc2-2-g8f7e939) 0x5614a4915ae8 send_backtrace common/daemon.c:33 0x5614a4915b72 crashdump common/daemon.c:46 0x7ffa14fcd72f ??? ???:0 0x7ffa14dc87bb ??? ???:0 0x7ffa14db3534 ??? ???:0 0x5614a491fc71 fmt_wireaddr_internal common/wireaddr.c:255 0x5614a491fc7a fmt_wireaddr_internal_ common/wireaddr.c:257 0x5614a491ea6b type_to_string_ common/type_to_string.c:32 0x5614a490beaa destroy_io_conn connectd/connectd.c:754 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953928 del_tree ccan/ccan/tal/tal.c:412 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4908b7a try_connect_one_addr connectd/connectd.c:870 0x5614a490bef1 destroy_io_conn connectd/connectd.c:759 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4948f08 io_close ccan/ccan/io/io.c:450 0x5614a4948f59 do_plan ccan/ccan/io/io.c:401 0x5614a4948fe1 io_ready ccan/ccan/io/io.c:417 0x5614a494a8e6 io_loop ccan/ccan/io/poll.c:453 0x5614a490c12f main connectd/connectd.c:2164 0x7ffa14db509a ??? ???:0 0x5614a4904e99 ??? ???:0 0xffffffffffffffff ??? ???:0 ``` Fixes: #5339 Changelog-Fixed: connectd: occasional crash when we reconnect to a peer quickly. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-06-24 02:21:12 +02:00
assert(!connect->conn);
/* Out of addresses? */
if (connect->addrnum == tal_count(connect->addrs)) {
connect_failed(connect->daemon, &connect->id,
connect->seconds_waited,
connect->addrhint, CONNECT_ALL_ADDRESSES_FAILED,
"All addresses failed: %s",
connect->errors);
tal_free(connect);
return;
}
/* Might not even be able to create eg. IPv6 sockets */
af = -1;
switch (addr->itype) {
case ADDR_INTERNAL_SOCKNAME:
af = AF_LOCAL;
/* Local sockets don't use tor proxy */
use_proxy = false;
break;
case ADDR_INTERNAL_ALLPROTO:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect ALLPROTO");
case ADDR_INTERNAL_AUTOTOR:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect AUTOTOR");
case ADDR_INTERNAL_STATICTOR:
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Can't connect STATICTOR");
case ADDR_INTERNAL_FORPROXY:
use_proxy = true;
break;
case ADDR_INTERNAL_WIREADDR:
switch (addr->u.wireaddr.type) {
case ADDR_TYPE_TOR_V2_REMOVED:
af = -1;
break;
case ADDR_TYPE_TOR_V3:
use_proxy = true;
break;
case ADDR_TYPE_IPV4:
af = AF_INET;
break;
case ADDR_TYPE_IPV6:
af = AF_INET6;
break;
case ADDR_TYPE_DNS:
#if EXPERIMENTAL_FEATURES /* BOLT7 DNS RFC #911 */
if (use_proxy) /* hand it to the proxy */
break;
if (!use_dns) { /* ignore DNS when we can't use it */
tal_append_fmt(&connect->errors,
"%s: dns disabled. ",
type_to_string(tmpctx,
struct wireaddr_internal,
addr));
goto next;
}
/* Resolve with getaddrinfo */
memset(&hints, 0, sizeof(hints));
hints.ai_socktype = SOCK_STREAM;
hints.ai_family = AF_UNSPEC;
hints.ai_protocol = 0;
hints.ai_flags = AI_ADDRCONFIG;
gai_err = getaddrinfo((char *)addr->u.wireaddr.addr,
tal_fmt(tmpctx, "%d",
addr->u.wireaddr.port),
&hints, &ais);
if (gai_err != 0) {
tal_append_fmt(&connect->errors,
"%s: getaddrinfo error '%s'. ",
type_to_string(tmpctx,
struct wireaddr_internal,
addr),
gai_strerror(gai_err));
goto next;
}
/* create new addrhints on-the-fly per result ... */
for (aii = ais; aii; aii = aii->ai_next) {
addrhint.itype = ADDR_INTERNAL_WIREADDR;
if (aii->ai_family == AF_INET) {
sa4 = (struct sockaddr_in *) aii->ai_addr;
wireaddr_from_ipv4(&addrhint.u.wireaddr,
&sa4->sin_addr,
addr->u.wireaddr.port);
} else if (aii->ai_family == AF_INET6) {
sa6 = (struct sockaddr_in6 *) aii->ai_addr;
wireaddr_from_ipv6(&addrhint.u.wireaddr,
&sa6->sin6_addr,
addr->u.wireaddr.port);
} else {
/* skip unsupported ai_family */
continue;
}
tal_arr_expand(&connect->addrs, addrhint);
/* don't forget to update convenience pointer */
addr = &connect->addrs[connect->addrnum];
}
freeaddrinfo(ais);
#endif
tal_append_fmt(&connect->errors,
"%s: EXPERIMENTAL_FEATURES needed. ",
type_to_string(tmpctx,
struct wireaddr_internal,
addr));
goto next;
2021-10-15 07:48:44 +02:00
case ADDR_TYPE_WEBSOCKET:
af = -1;
break;
}
}
/* If we have to use proxy but we don't have one, we fail. */
if (use_proxy) {
if (!connect->daemon->proxyaddr) {
2021-10-15 07:48:44 +02:00
tal_append_fmt(&connect->errors,
"%s: need a proxy. ",
type_to_string(tmpctx,
struct wireaddr_internal,
addr));
goto next;
}
af = connect->daemon->proxyaddr->ai_family;
}
if (af == -1) {
2021-10-15 07:48:44 +02:00
tal_append_fmt(&connect->errors,
"%s: not supported. ",
type_to_string(tmpctx, struct wireaddr_internal,
addr));
goto next;
}
2021-10-15 07:48:44 +02:00
fd = socket(af, SOCK_STREAM, 0);
if (fd < 0) {
tal_append_fmt(&connect->errors,
"%s: opening %i socket gave %s. ",
type_to_string(tmpctx, struct wireaddr_internal,
addr),
af, strerror(errno));
2021-10-15 07:48:44 +02:00
goto next;
}
/* This creates the new connection using our fd, with the initialization
* function one of the above. */
if (use_proxy)
connectd: don't crash if connect() fails immediately. Took me a while (stressing under valgrind) to reproduce this, then longer to figure out how it happened. Turns out io_new_conn() can fail if the init function fails. In our case, this can happen if connect() immediately returns an error (inside io_connect). But we've already set the finish function, which (if this was the last address), will free connect, making the assignment `connect->conn = ...` write to a freed address. Either way, if it fails, try_connect_one_addr() has taken care to update connect->conn, or free connect, and the caller should not do it. Here's the valgrind trace: ``` ==384981== Invalid write of size 8 ==384981== at 0x11127C: try_connect_one_addr (connectd.c:880) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1400B3: do_plan (io.c:401) ==384981== by 0x140134: io_ready (io.c:423) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ==384981== Address 0x4d67020 is 64 bytes inside a block of size 160 free'd ==384981== at 0x483CA3F: free (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x14A020: del_tree (tal.c:421) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x1110C5: try_connect_one_addr (connectd.c:806) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1405DC: io_connect_ (io.c:345) ==384981== Block was alloc'd at ==384981== at 0x483B7F3: malloc (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x149CF1: allocate (tal.c:250) ==384981== by 0x14A3C6: tal_alloc_ (tal.c:428) ==384981== by 0x1114F2: try_connect_peer (connectd.c:1526) ==384981== by 0x111717: connect_to_peer (connectd.c:1558) ==384981== by 0x1124F5: recv_req (connectd.c:1627) ==384981== by 0x1188B2: handle_read (daemon_conn.c:31) ==384981== by 0x13FBCB: next_plan (io.c:59) ==384981== by 0x140076: do_plan (io.c:407) ==384981== by 0x140113: io_ready (io.c:417) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Changelog-Fixed: Occasional crash in connectd due to use-after-free Fixes: #4343
2021-01-28 00:36:49 +01:00
conn = io_new_conn(connect, fd, conn_proxy_init, connect);
else
connectd: don't crash if connect() fails immediately. Took me a while (stressing under valgrind) to reproduce this, then longer to figure out how it happened. Turns out io_new_conn() can fail if the init function fails. In our case, this can happen if connect() immediately returns an error (inside io_connect). But we've already set the finish function, which (if this was the last address), will free connect, making the assignment `connect->conn = ...` write to a freed address. Either way, if it fails, try_connect_one_addr() has taken care to update connect->conn, or free connect, and the caller should not do it. Here's the valgrind trace: ``` ==384981== Invalid write of size 8 ==384981== at 0x11127C: try_connect_one_addr (connectd.c:880) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1400B3: do_plan (io.c:401) ==384981== by 0x140134: io_ready (io.c:423) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ==384981== Address 0x4d67020 is 64 bytes inside a block of size 160 free'd ==384981== at 0x483CA3F: free (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x14A020: del_tree (tal.c:421) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x1110C5: try_connect_one_addr (connectd.c:806) ==384981== by 0x112BA1: destroy_io_conn (connectd.c:708) ==384981== by 0x141459: destroy_conn (poll.c:244) ==384981== by 0x14147F: destroy_conn_close_fd (poll.c:250) ==384981== by 0x149EB9: notify (tal.c:240) ==384981== by 0x149F8B: del_tree (tal.c:402) ==384981== by 0x14A51A: tal_free (tal.c:486) ==384981== by 0x140036: io_close (io.c:450) ==384981== by 0x1405DC: io_connect_ (io.c:345) ==384981== Block was alloc'd at ==384981== at 0x483B7F3: malloc (in /usr/lib/x86_64-linux-gnu/valgrind/vgpreload_memcheck-amd64-linux.so) ==384981== by 0x149CF1: allocate (tal.c:250) ==384981== by 0x14A3C6: tal_alloc_ (tal.c:428) ==384981== by 0x1114F2: try_connect_peer (connectd.c:1526) ==384981== by 0x111717: connect_to_peer (connectd.c:1558) ==384981== by 0x1124F5: recv_req (connectd.c:1627) ==384981== by 0x1188B2: handle_read (daemon_conn.c:31) ==384981== by 0x13FBCB: next_plan (io.c:59) ==384981== by 0x140076: do_plan (io.c:407) ==384981== by 0x140113: io_ready (io.c:417) ==384981== by 0x141A57: io_loop (poll.c:445) ==384981== by 0x112CB0: main (connectd.c:1703) ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Changelog-Fixed: Occasional crash in connectd due to use-after-free Fixes: #4343
2021-01-28 00:36:49 +01:00
conn = io_new_conn(connect, fd, conn_init, connect);
/* Careful! io_new_conn can fail (immediate connect() failure), and
* that frees connect. */
if (conn)
connect->conn = conn;
2021-10-15 07:48:44 +02:00
return;
next:
/* This causes very limited recursion. */
connect->addrnum++;
try_connect_one_addr(connect);
}
/*~ Sometimes it's nice to have an explicit enum instead of a bool to make
* arguments clearer: it kind of hacks around C's lack of naming formal
* arguments in callers (e.g. in Python we'd simply call func(websocket=False)).
*/
enum is_websocket {
NORMAL_SOCKET,
WEBSOCKET,
};
/*~ connectd is responsible for incoming connections, but it's the process of
* setting up the listening ports which gives us information we need for startup
* (such as our own address). So we perform setup in two phases: first we bind
* the sockets according to the command line arguments (if any), then we start
* listening for connections to them once lightningd is ready.
*
* This stores the fds we're going to listen on: */
struct listen_fd {
/* This is usually an IPv4/v6 address, but we also support local
* domain sockets (i.e. filesystem) */
struct wireaddr_internal wi;
/* The actual fd, ready to listen() on */
int fd;
/* If we bind() IPv6 then IPv4 to same port, we *may* fail to listen()
* on the IPv4 socket: under Linux, by default, the IPv6 listen()
* covers IPv4 too. Normally we'd consider failing to listen on a
* port to be fatal, so we note this when setting up addresses. */
bool mayfail;
/* Is this a websocket? */
enum is_websocket is_websocket;
};
static struct listen_fd *listen_fd_new(const tal_t *ctx,
const struct wireaddr_internal *wi,
int fd, bool mayfail,
enum is_websocket is_websocket)
{
struct listen_fd *l = tal(ctx, struct listen_fd);
l->wi = *wi;
l->fd = fd;
l->mayfail = mayfail;
l->is_websocket = is_websocket;
return l;
}
/*~ Helper routine to create and bind a socket of a given type; like many
* daemons we set it SO_REUSEADDR so we won't have to wait 2 minutes to reuse
* it on restart.
*
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
* Note that it's generally an antipattern to have a function which
* returns an allocated object without an explicit tal ctx so the
* caller is aware. */
static struct listen_fd *make_listen_fd(const tal_t *ctx,
const struct wireaddr_internal *wi,
int domain, void *addr, socklen_t len,
bool listen_mayfail,
enum is_websocket is_websocket,
char **errstr)
{
int fd = socket(domain, SOCK_STREAM, 0);
int on = 1;
if (fd < 0) {
const char *es = strerror(errno);
*errstr = tal_fmt(ctx, "Failed to create socket for %s%s: %s",
is_websocket ? "websocket " : "",
type_to_string(tmpctx,
struct wireaddr_internal,
wi),
es);
status_debug("Failed to create %u socket: %s", domain, es);
return NULL;
}
/* 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) {
const char *es = strerror(errno);
*errstr = tal_fmt(ctx, "Failed to bind socket for %s%s: %s",
is_websocket ? "websocket " : "",
type_to_string(tmpctx,
struct wireaddr_internal,
wi),
es);
status_debug("Failed to bind %u socket: %s", domain, es);
goto fail;
}
*errstr = NULL;
status_debug("Created %slistener on %s",
is_websocket ? "websocket ": "",
type_to_string(tmpctx, struct wireaddr_internal, wi));
return listen_fd_new(ctx, wi, fd, listen_mayfail, is_websocket);
fail:
/*~ ccan/noerr contains convenient routines which don't clobber the
* errno global; in this case, the caller can report errno. */
close_noerr(fd);
return NULL;
}
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
/* Return true if it created socket successfully. If errstr is non-NULL,
* allocate off ctx if return false, otherwise it implies it's OK to fail. */
static struct listen_fd *handle_wireaddr_listen(const tal_t *ctx,
const struct wireaddr_internal *wi,
bool listen_mayfail,
enum is_websocket is_websocket,
char **errstr)
{
struct sockaddr_in addr;
struct sockaddr_in6 addr6;
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
const struct wireaddr *wireaddr;
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
assert(wi->itype == ADDR_INTERNAL_WIREADDR);
wireaddr = &wi->u.wireaddr;
/* Note the use of a switch() over enum here, even though it must be
* IPv4 or IPv6 here; that will catch future changes. */
switch (wireaddr->type) {
case ADDR_TYPE_IPV4:
wireaddr_to_ipv4(wireaddr, &addr);
/* We might fail if IPv6 bound to port first */
return make_listen_fd(ctx, wi, AF_INET, &addr, sizeof(addr),
listen_mayfail, is_websocket, errstr);
case ADDR_TYPE_IPV6:
wireaddr_to_ipv6(wireaddr, &addr6);
return make_listen_fd(ctx, wi, AF_INET6, &addr6, sizeof(addr6),
listen_mayfail, is_websocket, errstr);
2021-10-15 07:48:44 +02:00
/* Handle specially by callers. */
case ADDR_TYPE_WEBSOCKET:
case ADDR_TYPE_TOR_V2_REMOVED:
case ADDR_TYPE_TOR_V3:
case ADDR_TYPE_DNS:
break;
}
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Invalid listener wireaddress type %u", wireaddr->type);
}
/* If it's a wildcard, turns it into a real address pointing to internet */
static bool public_address(struct daemon *daemon, struct wireaddr *wireaddr)
{
if (wireaddr_is_wildcard(wireaddr)) {
if (!guess_address(wireaddr))
return false;
}
/* --dev-allow-localhost treats the localhost as "public" for testing */
return address_routable(wireaddr, daemon->dev_allow_localhost);
}
static void add_announceable(struct wireaddr **announceable,
const struct wireaddr *addr)
{
/*~ utils.h contains a convenience macro tal_arr_expand which
* reallocates a tal_arr to make it one longer, then returns a pointer
* to the (new) last element. */
tal_arr_expand(announceable, *addr);
}
/* We need to have a bound address we can tell Tor to connect to */
static const struct wireaddr *
find_local_address(const struct listen_fd **listen_fds)
{
for (size_t i = 0; i < tal_count(listen_fds); i++) {
if (listen_fds[i]->wi.itype != ADDR_INTERNAL_WIREADDR)
continue;
if (listen_fds[i]->wi.u.wireaddr.type != ADDR_TYPE_IPV4
&& listen_fds[i]->wi.u.wireaddr.type != ADDR_TYPE_IPV6)
continue;
return &listen_fds[i]->wi.u.wireaddr;
}
return NULL;
}
static bool want_tor(const struct wireaddr_internal *proposed_wireaddr)
{
for (size_t i = 0; i < tal_count(proposed_wireaddr); i++) {
if (proposed_wireaddr[i].itype == ADDR_INTERNAL_STATICTOR
|| proposed_wireaddr[i].itype == ADDR_INTERNAL_AUTOTOR)
return true;
}
return false;
}
/*~ The user can specify three kinds of addresses: ones we bind to but don't
* announce, ones we announce but don't bind to, and ones we bind to and
* announce if they seem to be public addresses.
*
* This routine sorts out the mess: it populates the *announceable array,
* and returns the addresses we bound to (by convention, return is allocated
* off `ctx` argument).
*
* Note the important difference between returning a zero-element array, and
* returning NULL! The latter means failure here, the former simply means
* we don't want to listen to anything.
*/
static const struct listen_fd **
setup_listeners(const tal_t *ctx,
struct daemon *daemon,
/* The proposed address. */
const struct wireaddr_internal *proposed_wireaddr,
/* For each one, listen, announce or both */
const enum addr_listen_announce *proposed_listen_announce,
const char *tor_password,
struct wireaddr **announceable,
char **errstr)
{
struct sockaddr_un addrun;
const struct listen_fd **listen_fds, *lfd;
const char *blob = NULL;
struct secret random;
struct pubkey pb;
struct wireaddr *toraddr;
const struct wireaddr *localaddr;
/* Start with empty arrays, for tal_arr_expand() */
listen_fds = tal_arr(ctx, const struct listen_fd *, 0);
*announceable = tal_arr(ctx, struct wireaddr, 0);
/* Add addresses we've explicitly been told to *first*: implicit
* addresses will be discarded then if we have multiple. */
for (size_t i = 0; i < tal_count(proposed_wireaddr); i++) {
struct wireaddr_internal wa = proposed_wireaddr[i];
/* We want announce-only addresses. */
if (proposed_listen_announce[i] & ADDR_LISTEN)
continue;
assert(proposed_listen_announce[i] & ADDR_ANNOUNCE);
/* You can only announce wiretypes, not internal formats! */
assert(proposed_wireaddr[i].itype
== ADDR_INTERNAL_WIREADDR);
add_announceable(announceable, &wa.u.wireaddr);
}
/* Now look for listening addresses. */
for (size_t i = 0; i < tal_count(proposed_wireaddr); i++) {
struct wireaddr_internal wa = proposed_wireaddr[i];
bool announce = (proposed_listen_announce[i] & ADDR_ANNOUNCE);
if (!(proposed_listen_announce[i] & ADDR_LISTEN))
continue;
switch (wa.itype) {
/* We support UNIX domain sockets, but can't announce */
case ADDR_INTERNAL_SOCKNAME:
addrun.sun_family = AF_UNIX;
memcpy(addrun.sun_path, wa.u.sockname,
sizeof(addrun.sun_path));
/* Remove any existing one. */
unlink(wa.u.sockname);
lfd = make_listen_fd(ctx, &wa, AF_UNIX,
&addrun, sizeof(addrun),
false, NORMAL_SOCKET,
errstr);
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
/* Don't bother freeing here; we'll exit */
if (!lfd)
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
return NULL;
/* We don't announce socket names, though we allow
* them to lazily specify --addr=/socket. */
tal_arr_expand(&listen_fds, tal_steal(listen_fds, lfd));
continue;
case ADDR_INTERNAL_AUTOTOR:
/* We handle these after we have all bindings. */
continue;
case ADDR_INTERNAL_STATICTOR:
/* We handle these after we have all bindings. */
continue;
/* Special case meaning IPv6 and IPv4 */
case ADDR_INTERNAL_ALLPROTO: {
bool ipv6_ok;
wa.itype = ADDR_INTERNAL_WIREADDR;
wa.u.wireaddr.port = wa.u.port;
/* First, create wildcard IPv6 address. */
wa.u.wireaddr.type = ADDR_TYPE_IPV6;
wa.u.wireaddr.addrlen = 16;
memset(wa.u.wireaddr.addr, 0,
sizeof(wa.u.wireaddr.addr));
/* This may fail due to no IPv6 support. */
lfd = handle_wireaddr_listen(ctx, &wa, false,
NORMAL_SOCKET, errstr);
if (lfd) {
tal_arr_expand(&listen_fds,
tal_steal(listen_fds, lfd));
if (announce
&& public_address(daemon, &wa.u.wireaddr))
add_announceable(announceable,
&wa.u.wireaddr);
}
ipv6_ok = (lfd != NULL);
/* Now, create wildcard IPv4 address. */
wa.u.wireaddr.type = ADDR_TYPE_IPV4;
wa.u.wireaddr.addrlen = 4;
memset(wa.u.wireaddr.addr, 0,
sizeof(wa.u.wireaddr.addr));
/* This listen *may* fail, as long as IPv6 succeeds! */
lfd = handle_wireaddr_listen(ctx, &wa, ipv6_ok,
NORMAL_SOCKET, errstr);
if (lfd) {
tal_arr_expand(&listen_fds,
tal_steal(listen_fds, lfd));
if (announce
&& public_address(daemon, &wa.u.wireaddr))
add_announceable(announceable,
&wa.u.wireaddr);
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
} else if (!ipv6_ok) {
/* Both failed, return now, errstr set. */
return NULL;
}
continue;
}
/* This is a vanilla wireaddr as per BOLT #7 */
case ADDR_INTERNAL_WIREADDR:
lfd = handle_wireaddr_listen(ctx, &wa, false,
NORMAL_SOCKET, errstr);
if (!lfd)
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
return NULL;
tal_arr_expand(&listen_fds, tal_steal(listen_fds, lfd));
if (announce && public_address(daemon, &wa.u.wireaddr))
add_announceable(announceable, &wa.u.wireaddr);
continue;
case ADDR_INTERNAL_FORPROXY:
break;
}
/* Shouldn't happen. */
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Invalid listener address type %u",
proposed_wireaddr[i].itype);
}
/* Make sure we have at least one non-websocket address to send to,
* for Tor */
localaddr = find_local_address(listen_fds);
if (want_tor(proposed_wireaddr) && !localaddr) {
*errstr = "Need to bind at least one local address,"
" to send Tor connections to";
return NULL;
}
/* If we want websockets to match IPv4/v6, set it up now. */
if (daemon->websocket_port) {
bool announced_some = false;
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
struct wireaddr_internal addr;
/* Only consider bindings added before this! */
size_t num_nonws_listens = tal_count(listen_fds);
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
/* If not overriden below, this is the default. */
*errstr = "Cannot listen on websocket: not listening on any IPv4/6 addresses";
for (size_t i = 0; i < num_nonws_listens; i++) {
/* Ignore UNIX sockets */
if (listen_fds[i]->wi.itype != ADDR_INTERNAL_WIREADDR)
continue;
/* Override with websocket port */
addr = listen_fds[i]->wi;
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
addr.u.wireaddr.port = daemon->websocket_port;
/* We set mayfail on all but the first websocket;
* it's quite common to have multple overlapping
* addresses. */
lfd = handle_wireaddr_listen(ctx, &addr,
announced_some,
WEBSOCKET, errstr);
if (!lfd)
continue;
if (!announced_some) {
/* BOLT-websocket #7:
* - MUST NOT add a `type 6` address unless
* there is also at least one address of
* different type.
*/
if (tal_count(*announceable) != 0) {
/* See https://github.com/lightningnetwork/lnd/issues/6432:
* if we add websocket to the node_announcement, it doesn't propagate.
* So we do not do this for now in general! */
if (daemon->announce_websocket) {
wireaddr_from_websocket(&addr.u.wireaddr,
daemon->websocket_port);
add_announceable(announceable,
&addr.u.wireaddr);
}
} else {
status_unusual("Bound to websocket %s,"
" but we cannot announce"
" the websocket as we don't"
" announce anything else!",
type_to_string(tmpctx,
struct wireaddr_internal,
&addr));
}
announced_some = true;
}
tal_arr_expand(&listen_fds, tal_steal(listen_fds, lfd));
}
/* If none of those was possible, it's a configuration error? */
if (tal_count(listen_fds) == num_nonws_listens)
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
return NULL;
}
/* FIXME: Websocket over Tor (difficult for autotor, since we need
* to use the same onion addr!) */
/* Now we have bindings, set up any Tor auto addresses: we will point
* it at the first bound IPv4 or IPv6 address we have. */
for (size_t i = 0; i < tal_count(proposed_wireaddr); i++) {
if (!(proposed_listen_announce[i] & ADDR_LISTEN))
continue;
if (proposed_wireaddr[i].itype != ADDR_INTERNAL_AUTOTOR)
continue;
toraddr = tor_autoservice(tmpctx,
&proposed_wireaddr[i],
tor_password,
localaddr);
if (!(proposed_listen_announce[i] & ADDR_ANNOUNCE)) {
continue;
};
add_announceable(announceable, toraddr);
}
/* Now we have bindings, set up any Tor static addresses: we will point
* it at the first bound IPv4 or IPv6 address we have. */
for (size_t i = 0; i < tal_count(proposed_wireaddr); i++) {
if (!(proposed_listen_announce[i] & ADDR_LISTEN))
continue;
if (proposed_wireaddr[i].itype != ADDR_INTERNAL_STATICTOR)
continue;
blob = proposed_wireaddr[i].u.torservice.blob;
if (tal_strreg(tmpctx, (char *)proposed_wireaddr[i].u.torservice.blob, STATIC_TOR_MAGIC_STRING)) {
if (pubkey_from_node_id(&pb, &daemon->id)) {
if (sodium_mlock(&random, sizeof(random)) != 0)
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Could not lock the random prf key memory.");
randombytes_buf((void * const)&random, 32);
/* generate static tor node address, take first 32 bytes from secret of node_id plus 32 random bytes from sodiom */
struct sha256 sha;
struct secret ss;
ecdh(&pb, &ss);
/* let's sha, that will clear ctx of hsm data */
sha256(&sha, &ss, 32);
/* even if it's a secret pub derived, tor shall see only the single sha */
memcpy((void *)&blob[0], &sha, 32);
memcpy((void *)&blob[32], &random, 32);
/* clear our temp buffer, don't leak by extern libs core-dumps, our blob we/tal handle later */
sodium_munlock(&random, sizeof(random));
} else status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Could not get the pub of our node id from hsm");
}
toraddr = tor_fixed_service(tmpctx,
&proposed_wireaddr[i],
tor_password,
blob,
localaddr,
0);
/* get rid of blob data on our side of tor and add jitter */
randombytes_buf((void * const)proposed_wireaddr[i].u.torservice.blob, TOR_V3_BLOBLEN);
if (!(proposed_listen_announce[i] & ADDR_ANNOUNCE)) {
continue;
};
add_announceable(announceable, toraddr);
}
/*~ The spec used to ban more than one address of each type, but
* nobody could remember exactly why, so now that's allowed. */
/* BOLT #7:
*
* The origin node:
*...
* - MUST place address descriptors in ascending order.
*/
asort(*announceable, tal_count(*announceable), wireaddr_cmp_type, NULL);
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
*errstr = NULL;
return listen_fds;
}
/*~ Parse the incoming connect init message from lightningd ("master") and
* assign config variables to the daemon; it should be the first message we
* get. */
static void connect_init(struct daemon *daemon, const u8 *msg)
{
struct wireaddr *proxyaddr;
struct wireaddr_internal *binding;
struct wireaddr_internal *proposed_wireaddr;
enum addr_listen_announce *proposed_listen_announce;
struct wireaddr *announceable;
char *tor_password;
bool dev_fast_gossip;
bool dev_disconnect, dev_no_ping_timer;
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
char *errstr;
/* Fields which require allocation are allocated off daemon */
if (!fromwire_connectd_init(
daemon, msg,
&chainparams,
&daemon->our_features,
&daemon->id,
&proposed_wireaddr,
&proposed_listen_announce,
&proxyaddr, &daemon->always_use_proxy,
&daemon->dev_allow_localhost, &daemon->use_dns,
&tor_password,
&daemon->timeout_secs,
&daemon->websocket_helper,
&daemon->websocket_port,
&daemon->announce_websocket,
&dev_fast_gossip,
&dev_disconnect,
&dev_no_ping_timer)) {
/* This is a helper which prints the type expected and the actual
* message, then exits (it should never be called!). */
master_badmsg(WIRE_CONNECTD_INIT, msg);
}
#if DEVELOPER
/*~ Clearly mark these as developer-only flags! */
daemon->dev_fast_gossip = dev_fast_gossip;
daemon->dev_no_ping_timer = dev_no_ping_timer;
daemon->dev_suppress_gossip = false;
#endif
if (!pubkey_from_node_id(&daemon->mykey, &daemon->id))
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Invalid id for me %s",
type_to_string(tmpctx, struct node_id,
&daemon->id));
/* Resolve Tor proxy address if any: we need an addrinfo to connect()
* to. */
if (proxyaddr) {
status_debug("Proxy address: %s",
fmt_wireaddr(tmpctx, proxyaddr));
daemon->proxyaddr = wireaddr_to_addrinfo(daemon, proxyaddr);
tal_free(proxyaddr);
} else
daemon->proxyaddr = NULL;
if (broken_resolver(daemon)) {
status_debug("Broken DNS resolver detected, will check for "
"dummy replies");
}
/* Figure out our addresses. */
daemon->listen_fds = setup_listeners(daemon, daemon,
proposed_wireaddr,
proposed_listen_announce,
tor_password,
&announceable,
&errstr);
/* Free up old allocations */
tal_free(proposed_wireaddr);
tal_free(proposed_listen_announce);
tal_free(tor_password);
/* Create binding array to send to lightningd */
binding = tal_arr(tmpctx, struct wireaddr_internal, 0);
for (size_t i = 0; i < tal_count(daemon->listen_fds); i++) {
/* FIXME: Tell it about websockets! */
if (daemon->listen_fds[i]->is_websocket)
continue;
tal_arr_expand(&binding, daemon->listen_fds[i]->wi);
}
/* Tell it we're ready, handing it the addresses we have. */
daemon_conn_send(daemon->master,
take(towire_connectd_init_reply(NULL,
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
binding,
announceable,
connectd: be more graceful when we an address is in use. Aditya had this issue due to a config line, and the result was hard to diagnose even for me. It's now: ``` $ ./lightningd/lightningd --network=regtest --addr=:18444 2022-02-26T05:01:28.705Z **BROKEN** connectd: Failed to bind socket for 0.0.0.0:18444: Address already in use ``` Whereas before it doesn't even give the address it's trying to bind: ``` rusty@rusty-XPS-13-9370:~/devel/cvs/lightning (master)$ ./lightningd/lightningd --network=regtest --addr=:18444 lightning_connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 0x558a8b8d9a12 send_backtrace common/daemon.c:33 0x558a8b8e91e1 status_failed common/status.c:221 0x558a8b8c8e4f make_listen_fd connectd/connectd.c:1090 0x558a8b8c8f55 handle_wireaddr_listen connectd/connectd.c:1129 0x558a8b8c993d setup_listeners connectd/connectd.c:1312 0x558a8b8ca344 connect_init connectd/connectd.c:1517 0x558a8b8cbb57 recv_req connectd/connectd.c:1896 0x558a8b8d9f9f handle_read common/daemon_conn.c:31 0x558a8b9247c1 next_plan ccan/ccan/io/io.c:59 0x558a8b9253c9 do_plan ccan/ccan/io/io.c:407 0x558a8b92540b io_ready ccan/ccan/io/io.c:417 0x558a8b9276fe io_loop ccan/ccan/io/poll.c:453 0x558a8b8cbf36 main connectd/connectd.c:2033 0x7fe4d02940b2 ??? ???:0 0x558a8b8c285d ??? ???:0 0xffffffffffffffff ??? ???:0 2022-02-26T05:02:27.547Z **BROKEN** connectd: Failed to bind on 2 socket: Address already in use (version v0.10.2-331-g86b83e4) 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/daemon.c:38 (send_backtrace) 0x558a8b8d9a68 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: common/status.c:221 (status_failed) 0x558a8b8e91e1 2022-02-26T05:02:27.547Z **BROKEN** connectd: backtrace: connectd/connectd.c:1090 (make_listen_fd) 0x558a8b8c8e4f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1129 (handle_wireaddr_listen) 0x558a8b8c8f55 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1312 (setup_listeners) 0x558a8b8c993d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1517 (connect_init) 0x558a8b8ca344 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:1896 (recv_req) 0x558a8b8cbb57 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: common/daemon_conn.c:31 (handle_read) 0x558a8b8d9f9f 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:59 (next_plan) 0x558a8b9247c1 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:407 (do_plan) 0x558a8b9253c9 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/io.c:417 (io_ready) 0x558a8b92540b 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: ccan/ccan/io/poll.c:453 (io_loop) 0x558a8b9276fe 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: connectd/connectd.c:2033 (main) 0x558a8b8cbf36 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x7fe4d02940b2 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0x558a8b8c285d 2022-02-26T05:02:27.548Z **BROKEN** connectd: backtrace: (null):0 ((null)) 0xffffffffffffffff 2022-02-26T05:02:27.548Z **BROKEN** connectd: STATUS_FAIL_INTERNAL_ERROR: Failed to bind on 2 socket: Address already in use lightningd: connectd failed (exit status 242), exiting. ``` Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-03-03 11:24:11 +01:00
errstr)));
/*~ Who cares about a little once-off memory leak? Turns out we do!
* We have a memory leak checker which scans for allocated memory
* with no pointers to it (a tell-tale leak sign, though with tal it's
* not always a real problem), and this would (did!) trigger it. */
tal_free(announceable);
#if DEVELOPER
if (dev_disconnect)
dev_disconnect_init(5);
#endif
}
/* Returning functions in C is ugly! */
static struct io_plan *(*get_in_cb(enum is_websocket is_websocket))(struct io_conn *, struct daemon *)
{
/*~ This switch and fall pattern serves a specific purpose:
* gcc will warn if we don't handle every case! */
switch (is_websocket) {
case WEBSOCKET:
return websocket_connection_in;
case NORMAL_SOCKET:
return connection_in;
}
status_failed(STATUS_FAIL_INTERNAL_ERROR,
"Invalid is_websocket %u", is_websocket);
}
/*~ lightningd tells us to go! */
static void connect_activate(struct daemon *daemon, const u8 *msg)
{
bool do_listen;
char *errmsg = NULL;
if (!fromwire_connectd_activate(msg, &do_listen))
master_badmsg(WIRE_CONNECTD_ACTIVATE, msg);
/* If we're --offline, lightningd tells us not to actually listen. */
if (do_listen) {
for (size_t i = 0; i < tal_count(daemon->listen_fds); i++) {
if (listen(daemon->listen_fds[i]->fd, 64) != 0) {
if (daemon->listen_fds[i]->mayfail)
continue;
errmsg = tal_fmt(tmpctx,
"Failed to listen on socket %s: %s",
type_to_string(tmpctx,
struct wireaddr_internal,
&daemon->listen_fds[i]->wi),
strerror(errno));
break;
}
notleak(io_new_listener(daemon,
daemon->listen_fds[i]->fd,
get_in_cb(daemon->listen_fds[i]
->is_websocket),
daemon));
}
}
/* Free, with NULL assignment just as an extra sanity check. */
daemon->listen_fds = tal_free(daemon->listen_fds);
/* OK, we're ready! */
daemon_conn_send(daemon->master,
take(towire_connectd_activate_reply(NULL, errmsg)));
}
/* BOLT #10:
*
* The DNS seed:
* ...
* - upon receiving a _node_ query:
* - MUST select the record matching the `node_id`, if any, AND return all
* addresses associated with that node.
*/
static const char **seednames(const tal_t *ctx, const struct node_id *id)
{
char bech32[100];
u5 *data = tal_arr(ctx, u5, 0);
const char **seednames = tal_arr(ctx, const char *, 0);
bech32_push_bits(&data, id->k, ARRAY_SIZE(id->k)*8);
bech32_encode(bech32, "ln", data, tal_count(data), sizeof(bech32),
BECH32_ENCODING_BECH32);
/* This is cdecker's seed */
tal_arr_expand(&seednames, tal_fmt(seednames, "%s.lseed.bitcoinstats.com", bech32));
2020-04-04 18:26:22 +02:00
/* This is darosior's seed */
tal_arr_expand(&seednames, tal_fmt(seednames, "%s.lseed.darosior.ninja", bech32));
return seednames;
}
/*~ As a last resort, we do a DNS lookup to the lightning DNS seed to
* resolve a node name when they say to connect to it. This is synchronous,
* so connectd blocks, but it's not very common so we haven't fixed it.
*
* This "seed by DNS" approach is similar to what bitcoind uses, and in fact
* has the nice property that DNS is cached, and the seed only sees a request
* from the ISP, not directly from the user. */
static void add_seed_addrs(struct wireaddr_internal **addrs,
const struct node_id *id,
struct sockaddr *broken_reply)
{
struct wireaddr *new_addrs;
2019-09-21 16:48:03 +02:00
const char **hostnames = seednames(tmpctx, id);
for (size_t i = 0; i < tal_count(hostnames); i++) {
status_peer_debug(id, "Resolving %s", hostnames[i]);
new_addrs = wireaddr_from_hostname(tmpctx, hostnames[i], chainparams_get_ln_port(chainparams),
2019-09-21 16:48:03 +02:00
NULL, broken_reply, NULL);
if (new_addrs) {
for (size_t j = 0; j < tal_count(new_addrs); j++) {
#if EXPERIMENTAL_FEATURES /* BOLT7 DNS RFC #911 */
if (new_addrs[j].type == ADDR_TYPE_DNS)
continue;
#endif
struct wireaddr_internal a;
a.itype = ADDR_INTERNAL_WIREADDR;
a.u.wireaddr = new_addrs[j];
status_peer_debug(id, "Resolved %s to %s", hostnames[i],
type_to_string(tmpctx, struct wireaddr,
&a.u.wireaddr));
tal_arr_expand(addrs, a);
}
/* Other seeds will likely have the same information. */
2020-04-04 18:26:22 +02:00
return;
2019-09-21 16:48:03 +02:00
} else
status_peer_debug(id, "Could not resolve %s", hostnames[i]);
}
}
static bool wireaddr_int_equals_wireaddr(const struct wireaddr_internal *addr_a,
const struct wireaddr *addr_b)
{
if (!addr_a || !addr_b)
return false;
return wireaddr_eq(&addr_a->u.wireaddr, addr_b);
}
/*~ Adds just one address type.
*
* Ignores deprecated and the `addrhint`. */
static void add_gossip_addrs_bytype(struct wireaddr_internal **addrs,
const struct wireaddr *normal_addrs,
const struct wireaddr_internal *addrhint,
const enum wire_addr_type type)
{
for (size_t i = 0; i < tal_count(normal_addrs); i++) {
if (normal_addrs[i].type == ADDR_TYPE_TOR_V2_REMOVED)
continue;
if (wireaddr_int_equals_wireaddr(addrhint, &normal_addrs[i]))
continue;
if (normal_addrs[i].type != type)
continue;
struct wireaddr_internal addr;
addr.itype = ADDR_INTERNAL_WIREADDR;
addr.u.wireaddr = normal_addrs[i];
tal_arr_expand(addrs, addr);
}
}
/*~ Orders the addresses which lightningd gave us.
*
* Ignores deprecated protocols and the `addrhint` that is assumed to be
* already added first. Adds all IPv6 addresses, followed by IPv4 and then TOR.
* This ensures we are modern and use IPv6 when possible, falling back to
* direct (faster) IPv4 and finally (less stable) TOR connections. */
static void add_gossip_addrs(struct wireaddr_internal **addrs,
const struct wireaddr *normal_addrs,
const struct wireaddr_internal *addrhint)
{
/* Wrap each one in a wireaddr_internal and add to addrs. */
for (size_t i = 0; i < tal_count(normal_addrs); i++) {
/* This is not supported, ignore. */
if (normal_addrs[i].type == ADDR_TYPE_TOR_V2_REMOVED)
continue;
/* The hint was already added earlier */
if (wireaddr_int_equals_wireaddr(addrhint, &normal_addrs[i]))
continue;
/* We add IPv4 and TOR in separate loops to prefer IPv6 */
if (normal_addrs[i].type == ADDR_TYPE_IPV4)
continue;
if (normal_addrs[i].type == ADDR_TYPE_TOR_V3)
continue;
struct wireaddr_internal addr;
addr.itype = ADDR_INTERNAL_WIREADDR;
addr.u.wireaddr = normal_addrs[i];
tal_arr_expand(addrs, addr);
}
/* Do the loop for skipped protocols in preferred order. */
add_gossip_addrs_bytype(addrs, normal_addrs, addrhint, ADDR_TYPE_IPV4);
add_gossip_addrs_bytype(addrs, normal_addrs, addrhint, ADDR_TYPE_TOR_V3);
}
/*~ Consumes addrhint if not NULL.
*
* That's a pretty ugly interface: we should use TAKEN, but we only have one
* caller so it's marginal. */
static void try_connect_peer(struct daemon *daemon,
const struct node_id *id,
u32 seconds_waited,
struct wireaddr *gossip_addrs,
struct wireaddr_internal *addrhint STEALS)
{
struct wireaddr_internal *addrs;
bool use_proxy = daemon->always_use_proxy;
struct connecting *connect;
struct peer *existing;
/* Already existing? */
existing = peer_htable_get(&daemon->peers, id);
if (existing) {
/* FIXME: Tell it it's already connected so it doesn't
* wait forever. */
daemon_conn_send(daemon->master,
take(towire_connectd_peer_already_connected
(NULL, id)));
return;
}
/* If we're trying to connect it right now, that's OK. */
if ((connect = find_connecting(daemon, id))) {
/* If we've been passed in new connection details
* for this connection, update our addrhint + add
* to addresses to check */
if (addrhint) {
connect->addrhint = tal_steal(connect, addrhint);
tal_arr_expand(&connect->addrs, *addrhint);
}
return;
}
/* Start an array of addresses to try. */
addrs = tal_arr(tmpctx, struct wireaddr_internal, 0);
/* They can supply an optional address for the connect RPC */
/* We add this first so its tried first by connectd */
if (addrhint)
tal_arr_expand(&addrs, *addrhint);
add_gossip_addrs(&addrs, gossip_addrs, addrhint);
if (tal_count(addrs) == 0) {
/* Don't resolve via DNS seed if we're supposed to use proxy. */
if (use_proxy) {
/* You're allowed to use names with proxies; in fact it's
* a good idea. */
struct wireaddr_internal unresolved;
const char **hostnames = seednames(tmpctx, id);
for (size_t i = 0; i < tal_count(hostnames); i++) {
wireaddr_from_unresolved(&unresolved,
hostnames[i],
chainparams_get_ln_port(chainparams));
tal_arr_expand(&addrs, unresolved);
}
} else if (daemon->use_dns) {
add_seed_addrs(&addrs, id,
daemon->broken_resolver_response);
}
}
/* Still no address? Fail immediately. Lightningd can still choose
* to retry; an address may get gossiped or appear on the DNS seed. */
if (tal_count(addrs) == 0) {
connect_failed(daemon, id, seconds_waited, addrhint,
CONNECT_NO_KNOWN_ADDRESS,
"Unable to connect, no address known for peer");
return;
}
/* Start connecting to it: since this is the only place we allocate
* a 'struct connecting' we don't write a separate new_connecting(). */
connect = tal(daemon, struct connecting);
connect->daemon = daemon;
connect->id = *id;
connect->addrs = tal_steal(connect, addrs);
connect->addrnum = 0;
/* connstate is supposed to be updated as we go, to give context for
* errors which occur. We miss it in a few places; would be nice to
* fix! */
connect->connstate = "Connection establishment";
connect->seconds_waited = seconds_waited;
connect->addrhint = tal_steal(connect, addrhint);
connect->errors = tal_strdup(connect, "");
connectd: don't start connecting in parallel in peer_conn_closed. The crash below from @zerofeerouting left me confused. The invalid value in fmt_wireaddr_internal is a telltale sign of use-after-free. This backtrace shows us destroying the conn *twice*: what's happening? Well, tal carefully protects against destroying twice: it's not that unusual to free something in a destructor which has already been freed. So this indicates that there are *two* io_conn hanging off one struct connecting, which isn't supposed to happen! We deliberately call try_connect_one_addr() initially, then inside the io_conn destructor. But due to races in connectd vs lightningd connection state, we added a fix which allows a connect command to sit around while the peer is cleaning up (6cc9f37cab26a01bcc93ccda2fcc048a55e869a1) and get fired off when it's done. But what if, in the chaos, we are already connecting again? Now we'll end up with *two* connections. Fortunately, we have a `conn` pointer inside struct connecting, which (with a bit of additional care) we can ensure is only non-NULL while we're actually trying to connect. This lets us check that before firing off a new connection attempt in peer_conn_closed. ``` lightning_connectd: FATAL SIGNAL 6 (version v0.11.2rc2-2-g8f7e939) 0x5614a4915ae8 send_backtrace common/daemon.c:33 0x5614a4915b72 crashdump common/daemon.c:46 0x7ffa14fcd72f ??? ???:0 0x7ffa14dc87bb ??? ???:0 0x7ffa14db3534 ??? ???:0 0x5614a491fc71 fmt_wireaddr_internal common/wireaddr.c:255 0x5614a491fc7a fmt_wireaddr_internal_ common/wireaddr.c:257 0x5614a491ea6b type_to_string_ common/type_to_string.c:32 0x5614a490beaa destroy_io_conn connectd/connectd.c:754 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953928 del_tree ccan/ccan/tal/tal.c:412 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4908b7a try_connect_one_addr connectd/connectd.c:870 0x5614a490bef1 destroy_io_conn connectd/connectd.c:759 0x5614a494a2f1 destroy_conn ccan/ccan/io/poll.c:246 0x5614a494a313 destroy_conn_close_fd ccan/ccan/io/poll.c:252 0x5614a4953804 notify ccan/ccan/tal/tal.c:240 0x5614a49538d6 del_tree ccan/ccan/tal/tal.c:402 0x5614a4953e07 tal_free ccan/ccan/tal/tal.c:486 0x5614a4948f08 io_close ccan/ccan/io/io.c:450 0x5614a4948f59 do_plan ccan/ccan/io/io.c:401 0x5614a4948fe1 io_ready ccan/ccan/io/io.c:417 0x5614a494a8e6 io_loop ccan/ccan/io/poll.c:453 0x5614a490c12f main connectd/connectd.c:2164 0x7ffa14db509a ??? ???:0 0x5614a4904e99 ??? ???:0 0xffffffffffffffff ??? ???:0 ``` Fixes: #5339 Changelog-Fixed: connectd: occasional crash when we reconnect to a peer quickly. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2022-06-24 02:21:12 +02:00
connect->conn = NULL;
list_add_tail(&daemon->connecting, &connect->list);
tal_add_destructor(connect, destroy_connecting);
2019-09-01 22:14:50 +02:00
/* Now we kick it off by recursively trying connect->addrs[connect->addrnum] */
if (!existing)
try_connect_one_addr(connect);
}
/* lightningd tells us to connect to a peer by id, with optional addr hint. */
static void connect_to_peer(struct daemon *daemon, const u8 *msg)
{
struct node_id id;
u32 seconds_waited;
struct wireaddr_internal *addrhint;
struct wireaddr *addrs;
if (!fromwire_connectd_connect_to_peer(tmpctx, msg,
&id, &seconds_waited,
&addrs, &addrhint))
master_badmsg(WIRE_CONNECTD_CONNECT_TO_PEER, msg);
try_connect_peer(daemon, &id, seconds_waited, addrs, addrhint);
}
/* lightningd tells us a peer should be disconnected. */
static void peer_discard(struct daemon *daemon, const u8 *msg)
{
struct node_id id;
struct peer *peer;
if (!fromwire_connectd_discard_peer(msg, &id))
master_badmsg(WIRE_CONNECTD_DISCARD_PEER, msg);
/* We should stay in sync with lightningd, but this can happen
* under stress. */
peer = peer_htable_get(&daemon->peers, &id);
if (!peer)
return;
status_peer_debug(&id, "disconnect");
tal_free(peer);
}
/* lightningd tells us to send a msg and disconnect. */
static void peer_final_msg(struct io_conn *conn,
struct daemon *daemon, const u8 *msg)
{
struct peer *peer;
struct node_id id;
u8 *finalmsg;
if (!fromwire_connectd_peer_final_msg(tmpctx, msg, &id, &finalmsg))
master_badmsg(WIRE_CONNECTD_PEER_FINAL_MSG, msg);
/* This can happen if peer hung up on us. */
peer = peer_htable_get(&daemon->peers, &id);
if (peer) {
/* Log message for peer. */
status_peer_io(LOG_IO_OUT, &id, finalmsg);
multiplex_final_msg(peer, take(finalmsg));
}
}
#if DEVELOPER
static void dev_connect_memleak(struct daemon *daemon, const u8 *msg)
{
struct htable *memtable;
bool found_leak;
memtable = memleak_find_allocations(tmpctx, msg, msg);
/* Now delete daemon and those which it has pointers to. */
memleak_remove_region(memtable, daemon, sizeof(daemon));
memleak_remove_htable(memtable, &daemon->peers.raw);
found_leak = dump_memleak(memtable, memleak_status_broken);
daemon_conn_send(daemon->master,
take(towire_connectd_dev_memleak_reply(NULL,
found_leak)));
}
static void dev_suppress_gossip(struct daemon *daemon, const u8 *msg)
{
daemon->dev_suppress_gossip = true;
}
#endif /* DEVELOPER */
static struct io_plan *recv_req(struct io_conn *conn,
const u8 *msg,
struct daemon *daemon)
{
enum connectd_wire t = fromwire_peektype(msg);
/* Demux requests from lightningd: we expect INIT then ACTIVATE, then
* connect requests and disconnected messages. */
switch (t) {
case WIRE_CONNECTD_INIT:
connect_init(daemon, msg);
goto out;
case WIRE_CONNECTD_ACTIVATE:
connect_activate(daemon, msg);
goto out;
case WIRE_CONNECTD_CONNECT_TO_PEER:
connect_to_peer(daemon, msg);
goto out;
case WIRE_CONNECTD_DISCARD_PEER:
peer_discard(daemon, msg);
goto out;
case WIRE_CONNECTD_PEER_FINAL_MSG:
peer_final_msg(conn, daemon, msg);
goto out;
case WIRE_CONNECTD_PING:
send_manual_ping(daemon, msg);
goto out;
case WIRE_CONNECTD_SEND_ONIONMSG:
onionmsg_req(daemon, msg);
goto out;
case WIRE_CONNECTD_CUSTOMMSG_OUT:
send_custommsg(daemon, msg);
goto out;
case WIRE_CONNECTD_PEER_MAKE_ACTIVE:
peer_make_active(daemon, msg);
goto out;
case WIRE_CONNECTD_DEV_MEMLEAK:
#if DEVELOPER
dev_connect_memleak(daemon, msg);
goto out;
#endif
case WIRE_CONNECTD_DEV_SUPPRESS_GOSSIP:
#if DEVELOPER
dev_suppress_gossip(daemon, msg);
goto out;
#endif
/* We send these, we don't receive them */
case WIRE_CONNECTD_INIT_REPLY:
case WIRE_CONNECTD_ACTIVATE_REPLY:
case WIRE_CONNECTD_PEER_CONNECTED:
case WIRE_CONNECTD_PEER_ALREADY_CONNECTED:
case WIRE_CONNECTD_PEER_ACTIVE:
case WIRE_CONNECTD_RECONNECTED:
case WIRE_CONNECTD_CONNECT_FAILED:
case WIRE_CONNECTD_DEV_MEMLEAK_REPLY:
case WIRE_CONNECTD_PING_REPLY:
case WIRE_CONNECTD_GOT_ONIONMSG_TO_US:
case WIRE_CONNECTD_CUSTOMMSG_IN:
case WIRE_CONNECTD_PEER_DISCONNECT_DONE:
break;
}
/* Master shouldn't give bad requests. */
status_failed(STATUS_FAIL_MASTER_IO, "%i: %s",
t, tal_hex(tmpctx, msg));
out:
/* Read the next message. */
return daemon_conn_read_next(conn, daemon->master);
}
/*~ UNUSED is defined to an __attribute__ for GCC; at one stage we tried to use
* it ubiquitously to make us compile cleanly with -Wunused, but it's bitrotted
* and we'd need to start again.
*
* The C++ method of omitting unused parameter names is *much* neater, and I
* hope we'll eventually see it in a C standard. */
static void master_gone(struct daemon_conn *master UNUSED)
{
/* Can't tell master, it's gone. */
exit(2);
}
/*~ gossipd sends us gossip to send to the peers. */
static struct io_plan *recv_gossip(struct io_conn *conn,
const u8 *msg,
struct daemon *daemon)
{
struct node_id dst;
u8 *gossip_msg;
struct peer *peer;
if (!fromwire_gossipd_send_gossip(msg, msg, &dst, &gossip_msg))
status_failed(STATUS_FAIL_GOSSIP_IO, "Unknown msg %i",
fromwire_peektype(msg));
peer = peer_htable_get(&daemon->peers, &dst);
if (peer)
inject_peer_msg(peer, take(gossip_msg));
return daemon_conn_read_next(conn, daemon->gossipd);
}
/*~ This is a hook used by the memleak code (if DEVELOPER=1): it can't see
* pointers inside hash tables, so we give it a hint here. */
#if DEVELOPER
static void memleak_daemon_cb(struct htable *memtable, struct daemon *daemon)
{
memleak_remove_htable(memtable, &daemon->peers.raw);
}
#endif /* DEVELOPER */
int main(int argc, char *argv[])
{
setup_locale();
struct daemon *daemon;
/* Common subdaemon setup code. */
subdaemon_setup(argc, argv);
/* Allocate and set up our simple top-level structure. */
daemon = tal(NULL, struct daemon);
peer_htable_init(&daemon->peers);
memleak_add_helper(daemon, memleak_daemon_cb);
list_head_init(&daemon->connecting);
timers_init(&daemon->timers, time_mono());
daemon->gossip_store_fd = -1;
/* stdin == control */
daemon->master = daemon_conn_new(daemon, STDIN_FILENO, recv_req, NULL,
daemon);
tal_add_destructor(daemon->master, master_gone);
/* This tells the status_* subsystem to use this connection to send
* our status_ and failed messages. */
status_setup_async(daemon->master);
/* Don't leave around websocketd zombies. Technically not portable,
* but OK for Linux and BSD, so... */
signal(SIGCHLD, SIG_IGN);
/* This streams gossip to and from gossipd */
daemon->gossipd = daemon_conn_new(daemon, GOSSIPCTL_FD,
recv_gossip, NULL,
daemon);
/* Set up ecdh() function so it uses our HSM fd, and calls
* status_failed on error. */
ecdh_hsmd_setup(HSM_FD, status_failed);
for (;;) {
struct timer *expired;
io_loop(&daemon->timers, &expired);
timer_expired(expired);
}
}
/*~ Getting bored? This was a pretty simple daemon!
*
* The good news is that the next daemon gossipd/gossipd.c is the most complex
* global daemon we have!
*/