void send_event(u_char status, u_char *data, u_int len) { u_int i; if (verbose > 1) { printf("MIDI %02x", status); for (i = 0; i < len; i++) printf(" %02x", data[i]); printf("\n"); } if (play) { mio_write(hdl, &status, 1); mio_write(hdl, data, len); } }
static int _router_sx_callback(sx_t s, sx_event_t e, void *data, void *arg) { component_t comp = (component_t) arg; sx_buf_t buf = (sx_buf_t) data; int rlen, len, attr, ns, sns, n; sx_error_t *sxe; nad_t nad; struct jid_st sto, sfrom; jid_static_buf sto_buf, sfrom_buf; jid_t to, from; alias_t alias; /* init static jid */ jid_static(&sto,&sto_buf); jid_static(&sfrom,&sfrom_buf); switch(e) { case event_WANT_READ: log_debug(ZONE, "want read"); mio_read(comp->r->mio, comp->fd); break; case event_WANT_WRITE: log_debug(ZONE, "want write"); mio_write(comp->r->mio, comp->fd); break; case event_READ: log_debug(ZONE, "reading from %d", comp->fd->fd); /* check rate limits */ if(comp->rate != NULL) { if(rate_check(comp->rate) == 0) { /* inform the app if we haven't already */ if(!comp->rate_log) { log_write(comp->r->log, LOG_NOTICE, "[%s, port=%d] is being byte rate limited", comp->ip, comp->port); comp->rate_log = 1; } log_debug(ZONE, "%d is throttled, delaying read", comp->fd->fd); buf->len = 0; return 0; } /* find out how much we can have */ rlen = rate_left(comp->rate); if(rlen > buf->len) rlen = buf->len; } /* no limit, just read as much as we can */ else rlen = buf->len; /* do the read */ len = recv(comp->fd->fd, buf->data, rlen, 0); /* update rate limits */ if(comp->rate != NULL && len > 0) { comp->rate_log = 0; rate_add(comp->rate, len); } if(len < 0) { if(MIO_WOULDBLOCK) { buf->len = 0; return 0; } log_debug(ZONE, "read failed: %s", strerror(errno)); sx_kill(comp->s); return -1; } else if(len == 0) { /* they went away */ sx_kill(comp->s); return -1; } log_debug(ZONE, "read %d bytes", len); buf->len = len; return len; case event_WRITE: log_debug(ZONE, "writing to %d", comp->fd->fd); len = send(comp->fd->fd, buf->data, buf->len, 0); if(len >= 0) { log_debug(ZONE, "%d bytes written", len); return len; } if(MIO_WOULDBLOCK) return 0; log_debug(ZONE, "write failed: %s", strerror(errno)); sx_kill(comp->s); return -1; case event_ERROR: sxe = (sx_error_t *) data; log_write(comp->r->log, LOG_NOTICE, "[%s, port=%d] error: %s (%s)", comp->ip, comp->port, sxe->generic, sxe->specific); break; case event_STREAM: /* legacy check */ if(s->ns == NULL || strcmp("jabber:component:accept", s->ns) != 0) return 0; /* component, old skool */ comp->legacy = 1; /* enabled? */ if(comp->r->local_secret == NULL) { sx_error(s, stream_err_INVALID_NAMESPACE, "support for legacy components not available"); /* !!! correct error? */ sx_close(s); return 0; } /* sanity */ if(s->req_to == NULL) { sx_error(s, stream_err_HOST_UNKNOWN, "no 'to' attribute on stream header"); sx_close(s); return 0; } break; case event_OPEN: log_write(comp->r->log, LOG_NOTICE, "[%s, port=%d] authenticated as %s", comp->ip, comp->port, comp->s->auth_id); /* make a route for legacy components */ if(comp->legacy) { for(alias = comp->r->aliases; alias != NULL; alias = alias->next) if(strcmp(alias->name, s->req_to) == 0) { sx_error(s, stream_err_HOST_UNKNOWN, "requested name is aliased"); /* !!! correct error? */ sx_close(s); return 0; } n = _route_add(comp->r->routes, s->req_to, comp, route_MULTI_FROM); xhash_put(comp->routes, pstrdup(xhash_pool(comp->routes), s->req_to), (void *) comp); if(n>1) log_write(comp->r->log, LOG_NOTICE, "[%s]:%d online (bound to %s, port %d)", s->req_to, n, comp->ip, comp->port); else log_write(comp->r->log, LOG_NOTICE, "[%s] online (bound to %s, port %d)", s->req_to, comp->ip, comp->port); /* advertise the name */ _router_advertise(comp->r, s->req_to, comp, 0); /* this is a legacy component, so we don't tell it about other routes */ /* bind aliases */ for(alias = comp->r->aliases; alias != NULL; alias = alias->next) { if(strcmp(alias->target, s->req_to) == 0) { _route_add(comp->r->routes, alias->name, comp, route_MULTI_FROM); xhash_put(comp->routes, pstrdup(xhash_pool(comp->routes), alias->name), (void *) comp); log_write(comp->r->log, LOG_NOTICE, "[%s] online (alias of '%s', bound to %s, port %d)", alias->name, s->req_to, comp->ip, comp->port); /* advertise name */ _router_advertise(comp->r, alias->name, comp, 0); } } } break; case event_PACKET: nad = (nad_t) data; /* preauth */ if(comp->s->state == state_STREAM) { /* non-legacy components can't do anything before auth */ if(!comp->legacy) { log_debug(ZONE, "stream is preauth, dropping packet"); nad_free(nad); return 0; } /* watch for handshake requests */ if(NAD_ENAME_L(nad, 0) != 9 || strncmp("handshake", NAD_ENAME(nad, 0), NAD_ENAME_L(nad, 0)) != 0) { log_debug(ZONE, "unknown preauth packet %.*s, dropping", NAD_ENAME_L(nad, 0), NAD_ENAME(nad, 0)); nad_free(nad); return 0; } /* process incoming handshakes */ _router_process_handshake(comp, nad); return 0; } /* legacy processing */ if(comp->legacy) { log_debug(ZONE, "packet from legacy component, munging it"); attr = nad_find_attr(nad, 0, -1, "to", NULL); if(attr < 0 || (to = jid_reset(&sto, NAD_AVAL(nad, attr), NAD_AVAL_L(nad, attr))) == NULL) { log_debug(ZONE, "invalid or missing 'to' address on legacy packet, dropping it"); nad_free(nad); return 0; } attr = nad_find_attr(nad, 0, -1, "from", NULL); if(attr < 0 || (from = jid_reset(&sfrom, NAD_AVAL(nad, attr), NAD_AVAL_L(nad, attr))) == NULL) { log_debug(ZONE, "invalid or missing 'from' address on legacy packet, dropping it"); nad_free(nad); return 0; } /* rewrite component packets into client packets */ ns = nad_find_namespace(nad, 0, "jabber:component:accept", NULL); if(ns >= 0) { if(nad->elems[0].ns == ns) nad->elems[0].ns = nad->nss[nad->elems[0].ns].next; else { for(sns = nad->elems[0].ns; sns >= 0 && nad->nss[sns].next != ns; sns = nad->nss[sns].next); nad->nss[sns].next = nad->nss[nad->nss[sns].next].next; } } ns = nad_find_namespace(nad, 0, uri_CLIENT, NULL); if(ns < 0) { ns = nad_add_namespace(nad, uri_CLIENT, NULL); nad->scope = -1; nad->nss[ns].next = nad->elems[0].ns; nad->elems[0].ns = ns; } nad->elems[0].my_ns = ns; /* wrap up the packet */ ns = nad_add_namespace(nad, uri_COMPONENT, NULL); nad_wrap_elem(nad, 0, ns, "route"); nad_set_attr(nad, 0, -1, "to", to->domain, 0); nad_set_attr(nad, 0, -1, "from", from->domain, 0); } /* top element must be router scoped */ if(NAD_ENS(nad, 0) < 0 || NAD_NURI_L(nad, NAD_ENS(nad, 0)) != strlen(uri_COMPONENT) || strncmp(uri_COMPONENT, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_COMPONENT)) != 0) { log_debug(ZONE, "invalid packet namespace, dropping"); nad_free(nad); return 0; } /* bind a name to this component */ if(NAD_ENAME_L(nad, 0) == 4 && strncmp("bind", NAD_ENAME(nad, 0), 4) == 0) { _router_process_bind(comp, nad); return 0; } /* unbind a name from this component */ if(NAD_ENAME_L(nad, 0) == 6 && strncmp("unbind", NAD_ENAME(nad, 0), 6) == 0) { _router_process_unbind(comp, nad); return 0; } /* route packets */ if(NAD_ENAME_L(nad, 0) == 5 && strncmp("route", NAD_ENAME(nad, 0), 5) == 0) { _router_process_route(comp, nad); return 0; } /* throttle packets */ if(NAD_ENAME_L(nad, 0) == 8 && strncmp("throttle", NAD_ENAME(nad, 0), 8) == 0) { _router_process_throttle(comp, nad); return 0; } log_debug(ZONE, "unknown packet, dropping"); nad_free(nad); return 0; case event_CLOSED: { /* close comp->fd by putting it in closefd ... unless it is already there */ _jqueue_node_t n; for (n = comp->r->closefd->front; n != NULL; n = n->prev) if (n->data == comp->fd) break; if (!n) jqueue_push(comp->r->closefd, (void *) comp->fd, 0 /*priority*/); return 0; } } return 0; }
/** our master callback */ int sm_sx_callback(sx_t s, sx_event_t e, void *data, void *arg) { sm_t sm = (sm_t) arg; sx_buf_t buf = (sx_buf_t) data; sx_error_t *sxe; nad_t nad; pkt_t pkt; int len, ns, elem, attr; char *domain; switch(e) { case event_WANT_READ: log_debug(ZONE, "want read"); mio_read(sm->mio, sm->fd); break; case event_WANT_WRITE: log_debug(ZONE, "want write"); mio_write(sm->mio, sm->fd); break; case event_READ: log_debug(ZONE, "reading from %d", sm->fd->fd); /* do the read */ len = recv(sm->fd->fd, buf->data, buf->len, 0); if (len < 0) { if (MIO_WOULDBLOCK) { buf->len = 0; return 0; } log_write(sm->log, LOG_NOTICE, "[%d] [router] read error: %s (%d)", sm->fd->fd, MIO_STRERROR(MIO_ERROR), MIO_ERROR); sx_kill(s); return -1; } else if (len == 0) { /* they went away */ sx_kill(s); return -1; } log_debug(ZONE, "read %d bytes", len); buf->len = len; return len; case event_WRITE: log_debug(ZONE, "writing to %d", sm->fd->fd); len = send(sm->fd->fd, buf->data, buf->len, 0); if (len >= 0) { log_debug(ZONE, "%d bytes written", len); return len; } if (MIO_WOULDBLOCK) return 0; log_write(sm->log, LOG_NOTICE, "[%d] [router] write error: %s (%d)", sm->fd->fd, MIO_STRERROR(MIO_ERROR), MIO_ERROR); sx_kill(s); return -1; case event_ERROR: sxe = (sx_error_t *) data; log_write(sm->log, LOG_NOTICE, "error from router: %s (%s)", sxe->generic, sxe->specific); if(sxe->code == SX_ERR_AUTH) sx_close(s); break; case event_STREAM: break; case event_OPEN: log_write(sm->log, LOG_NOTICE, "connection to router established"); /* set connection attempts counter */ sm->retry_left = sm->retry_lost; nad = nad_new(); ns = nad_add_namespace(nad, uri_COMPONENT, NULL); nad_append_elem(nad, ns, "bind", 0); nad_append_attr(nad, -1, "name", sm->id); log_debug(ZONE, "requesting component bind for '%s'", sm->id); sx_nad_write(sm->router, nad); if(xhash_iter_first(sm->hosts)) do { xhash_iter_get(sm->hosts, (void *) &domain, &len, NULL); /* skip already requested SM id */ if (strlen(sm->id) == len && strncmp(sm->id, domain, len) == 0) continue; nad = nad_new(); ns = nad_add_namespace(nad, uri_COMPONENT, NULL); elem = nad_append_elem(nad, ns, "bind", 0); nad_set_attr(nad, elem, -1, "name", domain, len); nad_append_attr(nad, -1, "multi", "to"); log_debug(ZONE, "requesting domain bind for '%.*s'", len, domain); sx_nad_write(sm->router, nad); } while(xhash_iter_next(sm->hosts)); sm_update_host = 1; break; case event_PACKET: nad = (nad_t) data; /* drop unqualified packets */ if (NAD_ENS(nad, 0) < 0) { nad_free(nad); return 0; } /* watch for the features packet */ if (s->state == state_STREAM) { if (NAD_NURI_L(nad, NAD_ENS(nad, 0)) != strlen(uri_STREAMS) || strncmp(uri_STREAMS, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_STREAMS)) != 0 || NAD_ENAME_L(nad, 0) != 8 || strncmp("features", NAD_ENAME(nad, 0), 8) != 0) { log_debug(ZONE, "got a non-features packet on an unauth'd stream, dropping"); nad_free(nad); return 0; } #ifdef HAVE_SSL /* starttls if we can */ if (sm->sx_ssl != NULL && s->ssf == 0) { ns = nad_find_scoped_namespace(nad, uri_TLS, NULL); if (ns >= 0) { elem = nad_find_elem(nad, 0, ns, "starttls", 1); if (elem >= 0) { if (sx_ssl_client_starttls(sm->sx_ssl, s, NULL, NULL) == 0) { nad_free(nad); return 0; } log_write(sm->log, LOG_NOTICE, "unable to establish encrypted session with router"); } } } #endif /* !!! pull the list of mechanisms, and choose the best one. * if there isn't an appropriate one, error and bail */ /* authenticate */ sx_sasl_auth(sm->sx_sasl, s, "jabberd-router", "DIGEST-MD5", sm->router_user, sm->router_pass); nad_free(nad); return 0; } /* watch for the bind response */ if (s->state == state_OPEN && !sm->online) { if (NAD_NURI_L(nad, NAD_ENS(nad, 0)) != strlen(uri_COMPONENT) || strncmp(uri_COMPONENT, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_COMPONENT)) != 0 || NAD_ENAME_L(nad, 0) != 4 || strncmp("bind", NAD_ENAME(nad, 0), 4)) { log_debug(ZONE, "got a packet from router, but we're not online, dropping"); nad_free(nad); return 0; } /* catch errors */ attr = nad_find_attr(nad, 0, -1, "error", NULL); if(attr >= 0) { log_write(sm->log, LOG_NOTICE, "router refused bind request (%.*s)", NAD_AVAL_L(nad, attr), NAD_AVAL(nad, attr)); exit(1); } log_debug(ZONE, "coming online"); /* we're online */ sm->online = sm->started = 1; log_write(sm->log, LOG_NOTICE, "%s ready for sessions", sm->id); nad_free(nad); return 0; } log_debug(ZONE, "got a packet"); pkt = pkt_new(sm, nad); if (pkt == NULL) { log_debug(ZONE, "invalid packet, dropping"); return 0; } /* go */ dispatch(sm, pkt); return 0; case event_CLOSED: mio_close(sm->mio, sm->fd); sm->fd = NULL; return -1; } return 0; }
static int _in_sx_callback(sx_t s, sx_event_t e, void *data, void *arg) { conn_t in = (conn_t) arg; sx_buf_t buf = (sx_buf_t) data; int len; sx_error_t *sxe; nad_t nad; char ipport[INET6_ADDRSTRLEN + 17]; switch(e) { case event_WANT_READ: log_debug(ZONE, "want read"); mio_read(in->s2s->mio, in->fd); break; case event_WANT_WRITE: log_debug(ZONE, "want write"); mio_write(in->s2s->mio, in->fd); break; case event_READ: log_debug(ZONE, "reading from %d", in->fd->fd); /* do the read */ len = recv(in->fd->fd, buf->data, buf->len, 0); if(len < 0) { if(MIO_WOULDBLOCK) { buf->len = 0; return 0; } log_write(in->s2s->log, LOG_NOTICE, "[%d] [%s, port=%d] read error: %s (%d)", in->fd->fd, in->ip, in->port, MIO_STRERROR(MIO_ERROR), MIO_ERROR); sx_kill(s); return -1; } else if(len == 0) { /* they went away */ sx_kill(s); return -1; } log_debug(ZONE, "read %d bytes", len); buf->len = len; return len; case event_WRITE: log_debug(ZONE, "writing to %d", in->fd->fd); len = send(in->fd->fd, buf->data, buf->len, 0); if(len >= 0) { log_debug(ZONE, "%d bytes written", len); return len; } if(MIO_WOULDBLOCK) return 0; log_write(in->s2s->log, LOG_NOTICE, "[%d] [%s, port=%d] write error: %s (%d)", in->fd->fd, in->ip, in->port, MIO_STRERROR(MIO_ERROR), MIO_ERROR); sx_kill(s); return -1; case event_ERROR: sxe = (sx_error_t *) data; log_write(in->s2s->log, LOG_NOTICE, "[%d] [%s, port=%d] error: %s (%s)", in->fd->fd, in->ip, in->port, sxe->generic, sxe->specific); break; case event_STREAM: case event_OPEN: log_debug(ZONE, "STREAM or OPEN event from %s port %d (id %s)", in->ip, in->port, s->id); /* first time, bring them online */ if ((!in->online)||(strcmp(in->key,s->id)!=0)) { log_write(in->s2s->log, LOG_NOTICE, "[%d] [%s, port=%d] incoming stream online (id %s)", in->fd->fd, in->ip, in->port, s->id); in->online = 1; /* record the id */ if (in->key != NULL) { log_debug(ZONE,"adding new SSL stream id %s for stream id %s", s->id, in->key); /* remove the initial (non-SSL) stream id from the in connections hash */ xhash_zap(in->s2s->in, in->key); free(in->key); } in->key = strdup(s->id); /* track it - add to open streams hash and remove from new connections hash */ xhash_put(in->s2s->in, in->key, (void *) in); snprintf(ipport, INET6_ADDRSTRLEN + 16, "%s/%d", in->ip, in->port); xhash_zap(in->s2s->in_accept, ipport); } break; case event_PACKET: /* we're counting packets */ in->packet_count++; in->s2s->packet_count++; nad = (nad_t) data; /* update last packet timestamp */ in->last_packet = time(NULL); /* dialback packets */ if(NAD_NURI_L(nad, NAD_ENS(nad, 0)) == strlen(uri_DIALBACK) && strncmp(uri_DIALBACK, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_DIALBACK)) == 0) { /* only result and verify mean anything */ if(NAD_ENAME_L(nad, 0) == 6) { if(strncmp("result", NAD_ENAME(nad, 0), 6) == 0) { _in_result(in, nad); return 0; } if(strncmp("verify", NAD_ENAME(nad, 0), 6) == 0) { _in_verify(in, nad); return 0; } } log_debug(ZONE, "unknown dialback packet, dropping it"); nad_free(nad); return 0; } /* * not dialback, so it has to be a normal-ish jabber packet: * - jabber:client or jabber:server * - message, presence or iq * - has to and from attributes */ if(!( /* must be jabber:client or jabber:server */ NAD_ENS(nad, 0) >= 0 && ((NAD_NURI_L(nad, NAD_ENS(nad, 0)) == strlen(uri_CLIENT) && strncmp(uri_CLIENT, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_CLIENT)) == 0) || (NAD_NURI_L(nad, NAD_ENS(nad, 0)) == strlen(uri_SERVER) && strncmp(uri_SERVER, NAD_NURI(nad, NAD_ENS(nad, 0)), strlen(uri_SERVER)) == 0)) && ( /* can be message */ (NAD_ENAME_L(nad, 0) == 7 && strncmp("message", NAD_ENAME(nad, 0), 7) == 0) || /* or presence */ (NAD_ENAME_L(nad, 0) == 8 && strncmp("presence", NAD_ENAME(nad, 0), 8) == 0) || /* or iq */ (NAD_ENAME_L(nad, 0) == 2 && strncmp("iq", NAD_ENAME(nad, 0), 2) == 0) ) && /* to and from required */ nad_find_attr(nad, 0, -1, "to", NULL) >= 0 && nad_find_attr(nad, 0, -1, "from", NULL) >= 0 )) { log_debug(ZONE, "they sent us a non-jabber looking packet, dropping it"); nad_free(nad); return 0; } _in_packet(in, nad); return 0; case event_CLOSED: mio_close(in->s2s->mio, in->fd); return -1; } return 0; }
void MidiSndio::sendByte( const unsigned char c ) { mio_write( m_hdl, &c, 1 ); }