/* Async dns helper. */ #include "dns.h" #include "lightningd.h" #include "log.h" #include "peer.h" #include #include #include #include #include #include #include #include #include #include #include struct dns_async { struct lightningd_state *dstate; struct io_plan *(*init)(struct io_conn *, struct lightningd_state *, const struct netaddr *, void *); void (*fail)(struct lightningd_state *, void *arg); const char *name; void *arg; int pid; size_t num_addresses; struct netaddr *addresses; }; /* This runs in the child */ static void lookup_and_write(int fd, const char *name, const char *port) { struct addrinfo *addr, *i; struct netaddr *addresses; size_t num; struct addrinfo hints; /* We don't want UDP sockets (yet?) */ memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; if (getaddrinfo(name, port, &hints, &addr) != 0) return; num = 0; for (i = addr; i; i = i->ai_next) num++; addresses = tal_arr(NULL, struct netaddr, num); num = 0; for (i = addr; i; i = i->ai_next) { addresses[num].type = i->ai_socktype; addresses[num].protocol = i->ai_protocol; addresses[num].addrlen = i->ai_addrlen; memset(&addresses[num].saddr, 0, sizeof(addresses[num].saddr)); /* Let parent report this error. */ if (i->ai_addrlen <= sizeof(addresses[num].saddr)) memcpy(&addresses[num].saddr, i->ai_addr, i->ai_addrlen); num++; } if (!num) { tal_free(addresses); return; } if (write_all(fd, &num, sizeof(num))) write_all(fd, addresses, num * sizeof(addresses[0])); tal_free(addresses); } static struct io_plan *connected(struct io_conn *conn, struct dns_async *d) { struct io_plan *plan; /* No longer need to try more connections via connect_failed. */ io_set_finish(conn, NULL, NULL); plan = d->init(conn, d->dstate, &d->addresses[-1], d->arg); tal_free(d); return plan; } static void try_connect_one(struct dns_async *d); /* If this connection failed, try connecting to another address. */ static void connect_failed(struct io_conn *conn, struct dns_async *d) { try_connect_one(d); } static struct io_plan *init_conn(struct io_conn *conn, struct dns_async *d) { struct addrinfo a; netaddr_to_addrinfo(&a, &d->addresses[0]); /* Consume that address. */ d->addresses++; d->num_addresses--; io_set_finish(conn, connect_failed, d); /* That new connection owns d */ return io_connect(conn, &a, connected, d); } static void try_connect_one(struct dns_async *d) { int fd; while (d->num_addresses) { const struct netaddr *a = &d->addresses[0]; /* Now we can warn if it's overlength */ if (a->addrlen > sizeof(a->saddr)) { log_broken(d->dstate->base_log, "DNS lookup gave overlength address for %s" " for family %u, len=%u", d->name, a->saddr.s.sa_family, a->addrlen); } else { /* Might not even be able to create eg. IPv6 sockets */ fd = socket(a->saddr.s.sa_family, a->type, a->protocol); if (fd >= 0) { io_new_conn(d->dstate, fd, init_conn, d); return; } } /* Consume that address. */ d->addresses++; d->num_addresses--; } /* We're out of things to try. Fail. */ d->fail(d->dstate, d->arg); tal_free(d); } static struct io_plan *start_connecting(struct io_conn *conn, struct dns_async *d) { assert(d->num_addresses); /* OK, we've read all we want, child should exit. */ waitpid(d->pid, NULL, 0); /* No need to call dns_lookup_failed now. */ io_set_finish(conn, NULL, NULL); try_connect_one(d); return io_close(conn); } struct dns_async *multiaddress_connect_(struct lightningd_state *dstate, const struct netaddr *addresses, struct io_plan *(*init)(struct io_conn *, struct lightningd_state *, const struct netaddr *, void *arg), void (*fail)(struct lightningd_state *, void *arg), void *arg) { struct dns_async *d = tal(dstate, struct dns_async); d->dstate = dstate; d->init = init; d->fail = fail; d->arg = arg; d->name = "names from address list"; d->num_addresses = tal_count(addresses); d->addresses = tal_dup_arr(d, struct netaddr, addresses, d->num_addresses, 0); try_connect_one(d); return d; } static struct io_plan *read_addresses(struct io_conn *conn, struct dns_async *d) { d->addresses = tal_arr(d, struct netaddr, d->num_addresses); return io_read(conn, d->addresses, d->num_addresses * sizeof(d->addresses[0]), start_connecting, d); } static struct io_plan *init_dns_conn(struct io_conn *conn, struct dns_async *d) { return io_read(conn, &d->num_addresses, sizeof(d->num_addresses), read_addresses, d); } static void dns_lookup_failed(struct io_conn *conn, struct dns_async *d) { waitpid(d->pid, NULL, 0); d->fail(d->dstate, d->arg); tal_free(d); } struct dns_async *dns_resolve_and_connect_(struct lightningd_state *dstate, const char *name, const char *port, struct io_plan *(*init)(struct io_conn *, struct lightningd_state *, const struct netaddr *, void *arg), void (*fail)(struct lightningd_state *, void *arg), void *arg) { int pfds[2]; struct dns_async *d = tal(dstate, struct dns_async); struct io_conn *conn; d->dstate = dstate; d->init = init; d->fail = fail; d->arg = arg; d->name = tal_fmt(d, "%s:%s", name, port); /* First fork child to get addresses. */ if (pipe(pfds) != 0) { log_unusual(dstate->base_log, "Creating pipes for dns lookup: %s", strerror(errno)); return NULL; } fflush(stdout); d->pid = fork(); switch (d->pid) { case -1: log_unusual(dstate->base_log, "forking for dns lookup: %s", strerror(errno)); close(pfds[0]); close(pfds[1]); return NULL; case 0: close(pfds[0]); lookup_and_write(pfds[1], name, port); exit(0); } close(pfds[1]); conn = io_new_conn(dstate, pfds[0], init_dns_conn, d); io_set_finish(conn, dns_lookup_failed, d); return d; }