/* Icecast * * This program is distributed under the GNU General Public License, version 2. * A copy of this license is included with this source. * * Copyright 2000-2004, Jack Moffitt , * oddsock , * Karl Heyes * and others (see AUTHORS for details). */ /* -*- c-basic-offset: 4; indent-tabs-mode: nil; -*- */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #ifndef _WIN32 #include #include #include #include #else #include #include #define snprintf _snprintf #endif #include "thread/thread.h" #include "avl/avl.h" #include "httpp/httpp.h" #include "net/sock.h" #include "connection.h" #include "global.h" #include "refbuf.h" #include "client.h" #include "stats.h" #include "logging.h" #include "cfgfile.h" #include "util.h" #include "source.h" #include "format.h" #include "fserve.h" #include "auth.h" #include "compat.h" #undef CATMODULE #define CATMODULE "source" #define MAX_FALLBACK_DEPTH 10 mutex_t move_clients_mutex; /* avl tree helper */ static int _compare_clients(void *compare_arg, void *a, void *b); static int _free_client(void *key); static void _parse_audio_info (source_t *source, const char *s); static void source_shutdown (source_t *source); #ifdef _WIN32 #define source_run_script(x,y) WARN0("on [dis]connect scripts disabled"); #else static void source_run_script (char *command, char *mountpoint); #endif /* Allocate a new source with the stated mountpoint, if one already * exists with that mountpoint in the global source tree then return * NULL. */ source_t *source_reserve (const char *mount) { source_t *src = NULL; if(mount[0] != '/') WARN1("Source at \"%s\" does not start with '/', clients will be " "unable to connect", mount); do { avl_tree_wlock (global.source_tree); src = source_find_mount_raw (mount); if (src) { src = NULL; break; } src = calloc (1, sizeof(source_t)); if (src == NULL) break; src->client_tree = avl_tree_new(_compare_clients, NULL); src->pending_tree = avl_tree_new(_compare_clients, NULL); /* make duplicates for strings or similar */ src->mount = strdup (mount); src->max_listeners = -1; avl_insert (global.source_tree, src); } while (0); avl_tree_unlock (global.source_tree); return src; } /* Find a mount with this raw name - ignoring fallbacks. You should have the * global source tree locked to call this. */ source_t *source_find_mount_raw(const char *mount) { source_t *source; avl_node *node; int cmp; if (!mount) { return NULL; } /* get the root node */ node = global.source_tree->root->right; while (node) { source = (source_t *)node->key; cmp = strcmp(mount, source->mount); if (cmp < 0) node = node->left; else if (cmp > 0) node = node->right; else return source; } /* didn't find it */ return NULL; } /* Search for mount, if the mount is there but not currently running then * check the fallback, and so on. Must have a global source lock to call * this function. */ source_t *source_find_mount (const char *mount) { source_t *source = NULL; ice_config_t *config; mount_proxy *mountinfo; int depth = 0; config = config_get_config(); while (mount && depth < MAX_FALLBACK_DEPTH) { source = source_find_mount_raw(mount); if (source) { if (source->running || source->on_demand) break; } /* we either have a source which is not active (relay) or no source * at all. Check the mounts list for fallback settings */ mountinfo = config_find_mount (config, mount); source = NULL; if (mountinfo == NULL) break; mount = mountinfo->fallback_mount; depth++; } config_release_config(); return source; } int source_compare_sources(void *arg, void *a, void *b) { source_t *srca = (source_t *)a; source_t *srcb = (source_t *)b; return strcmp(srca->mount, srcb->mount); } void source_clear_source (source_t *source) { DEBUG1 ("clearing source \"%s\"", source->mount); avl_tree_wlock (source->client_tree); client_destroy(source->client); source->client = NULL; source->parser = NULL; source->con = NULL; /* log bytes read in access log */ if (source->client && source->format) source->client->con->sent_bytes = source->format->read_bytes; if (source->dumpfile) { INFO1 ("Closing dumpfile for %s", source->mount); fclose (source->dumpfile); source->dumpfile = NULL; } /* lets kick off any clients that are left on here */ while (avl_get_first (source->client_tree)) { avl_delete (source->client_tree, avl_get_first (source->client_tree)->key, _free_client); } avl_tree_wlock (source->pending_tree); while (avl_get_first (source->pending_tree)) { avl_delete (source->pending_tree, avl_get_first(source->pending_tree)->key, _free_client); } avl_tree_unlock (source->pending_tree); if (source->format && source->format->free_plugin) source->format->free_plugin (source->format); source->format = NULL; /* Lets clear out the source queue too */ while (source->stream_data) { refbuf_t *p = source->stream_data; source->stream_data = p->next; /* can be referenced by burst handler as well */ while (p->_count > 1) refbuf_release (p); refbuf_release (p); } source->stream_data_tail = NULL; source->burst_point = NULL; source->burst_size = 0; source->burst_offset = 0; source->queue_size = 0; source->queue_size_limit = 0; source->listeners = 0; source->max_listeners = -1; source->prev_listeners = 0; source->hidden = 0; source->shoutcast_compat = 0; source->client_stats_update = 0; util_dict_free (source->audio_info); source->audio_info = NULL; free(source->fallback_mount); source->fallback_mount = NULL; free(source->dumpfilename); source->dumpfilename = NULL; if (source->intro_file) { fclose (source->intro_file); source->intro_file = NULL; } source->on_demand_req = 0; avl_tree_unlock (source->client_tree); } /* Remove the provided source from the global tree and free it */ void source_free_source (source_t *source) { DEBUG1 ("freeing source \"%s\"", source->mount); avl_tree_wlock (global.source_tree); avl_delete (global.source_tree, source, NULL); avl_tree_unlock (global.source_tree); avl_tree_free(source->pending_tree, _free_client); avl_tree_free(source->client_tree, _free_client); /* make sure all YP entries have gone */ yp_remove (source->mount); free (source->mount); free (source); return; } client_t *source_find_client(source_t *source, int id) { client_t fakeclient; void *result; connection_t fakecon; fakeclient.con = &fakecon; fakeclient.con->id = id; avl_tree_rlock(source->client_tree); if(avl_get_by_key(source->client_tree, &fakeclient, &result) == 0) { avl_tree_unlock(source->client_tree); return result; } avl_tree_unlock(source->client_tree); return NULL; } /* Move clients from source to dest provided dest is running * and that the stream format is the same. * The only lock that should be held when this is called is the * source tree lock */ void source_move_clients (source_t *source, source_t *dest) { unsigned long count = 0; if (strcmp (source->mount, dest->mount) == 0) { WARN1 ("src and dst are the same \"%s\", skipping", source->mount); return; } /* we don't want the two write locks to deadlock in here */ thread_mutex_lock (&move_clients_mutex); /* if the destination is not running then we can't move clients */ if (dest->running == 0 && dest->on_demand == 0) { WARN1 ("destination mount %s not running, unable to move clients ", dest->mount); thread_mutex_unlock (&move_clients_mutex); return; } avl_tree_wlock (dest->pending_tree); do { client_t *client; /* we need to move the client and pending trees - we must take the * locks in this order to avoid deadlocks */ avl_tree_wlock (source->client_tree); avl_tree_wlock (source->pending_tree); if (source->on_demand == 0 && source->format == NULL) { INFO1 ("source mount %s is not available", source->mount); break; } if (source->format && dest->format) { if (source->format->type != dest->format->type) { WARN2 ("stream %s and %s are of different types, ignored", source->mount, dest->mount); break; } } while (1) { avl_node *node = avl_get_first (source->pending_tree); if (node == NULL) break; client = (client_t *)(node->key); avl_delete (source->pending_tree, client, NULL); /* when switching a client to a different queue, be wary of the * refbuf it's referring to, if it's http headers then we need * to write them so don't release it. */ if (client->check_buffer != format_check_http_buffer) { client_set_queue (client, NULL); client->check_buffer = format_check_file_buffer; if (source->con == NULL) client->intro_offset = -1; } avl_insert (dest->pending_tree, (void *)client); count++; } while (1) { avl_node *node = avl_get_first (source->client_tree); if (node == NULL) break; client = (client_t *)(node->key); avl_delete (source->client_tree, client, NULL); /* when switching a client to a different queue, be wary of the * refbuf it's referring to, if it's http headers then we need * to write them so don't release it. */ if (client->check_buffer != format_check_http_buffer) { client_set_queue (client, NULL); client->check_buffer = format_check_file_buffer; if (source->con == NULL) client->intro_offset = -1; } avl_insert (dest->pending_tree, (void *)client); count++; } INFO2 ("passing %lu listeners to \"%s\"", count, dest->mount); source->listeners = 0; stats_event (source->mount, "listeners", "0"); } while (0); avl_tree_unlock (source->pending_tree); avl_tree_unlock (source->client_tree); /* see if we need to wake up an on-demand relay */ if (dest->running == 0 && dest->on_demand && count) dest->on_demand_req = 1; avl_tree_unlock (dest->pending_tree); thread_mutex_unlock (&move_clients_mutex); } /* get some data from the source. The stream data is placed in a refbuf * and sent back, however NULL is also valid as in the case of a short * timeout and there's no data pending. */ static refbuf_t *get_next_buffer (source_t *source) { refbuf_t *refbuf = NULL; int delay = 250; if (source->short_delay) delay = 0; while (global.running == ICE_RUNNING && source->running) { int fds = 0; time_t current = time (NULL); if (source->client) fds = util_timed_wait_for_fd (source->con->sock, delay); else { thread_sleep (delay*1000); source->last_read = current; } if (current >= source->client_stats_update) { stats_event_args (source->mount, "total_bytes_read", FORMAT_UINT64, source->format->read_bytes); stats_event_args (source->mount, "total_bytes_sent", FORMAT_UINT64, source->format->sent_bytes); source->client_stats_update = current + 5; } if (fds < 0) { if (! sock_recoverable (sock_error())) { WARN0 ("Error while waiting on socket, Disconnecting source"); source->running = 0; } break; } if (fds == 0) { if (source->last_read + (time_t)source->timeout < current) { DEBUG3 ("last %ld, timeout %d, now %ld", (long)source->last_read, source->timeout, (long)current); WARN0 ("Disconnecting source due to socket timeout"); source->running = 0; } break; } source->last_read = current; refbuf = source->format->get_buffer (source); if (source->client->con && source->client->con->error) { INFO1 ("End of Stream %s", source->mount); source->running = 0; continue; } if (refbuf) break; } return refbuf; } /* general send routine per listener. The deletion_expected tells us whether * the last in the queue is about to disappear, so if this client is still * referring to it after writing then drop the client as it's fallen too far * behind */ static void send_to_listener (source_t *source, client_t *client, int deletion_expected) { int bytes; int loop = 10; /* max number of iterations in one go */ int total_written = 0; while (1) { /* check for limited listener time */ if (client->con->discon_time) if (time(NULL) >= client->con->discon_time) { INFO1 ("time limit reached for client #%lu", client->con->id); client->con->error = 1; } /* jump out if client connection has died */ if (client->con->error) break; /* lets not send too much to one client in one go, but don't sleep for too long if more data can be sent */ if (total_written > 20000 || loop == 0) { if (client->check_buffer != format_check_file_buffer) source->short_delay = 1; break; } loop--; if (client->check_buffer (source, client) < 0) break; bytes = client->write_to_client (client); if (bytes <= 0) break; /* can't write any more */ total_written += bytes; } source->format->sent_bytes += total_written; /* the refbuf referenced at head (last in queue) may be marked for deletion * if so, check to see if this client is still referring to it */ if (deletion_expected && client->refbuf && client->refbuf == source->stream_data) { INFO2 ("Client %lu (%s) has fallen too far behind, removing", client->con->id, client->con->ip); stats_event_inc (source->mount, "slow_listeners"); client->con->error = 1; } } /* Perform any initialisation just before the stream data is processed, the header * info is processed by now and the format details are setup */ static void source_init (source_t *source) { ice_config_t *config = config_get_config(); char *listenurl, *str; int listen_url_size; mount_proxy *mountinfo; /* 6 for max size of port */ listen_url_size = strlen("http://") + strlen(config->hostname) + strlen(":") + 6 + strlen(source->mount) + 1; listenurl = malloc (listen_url_size); memset (listenurl, '\000', listen_url_size); snprintf (listenurl, listen_url_size, "http://%s:%d%s", config->hostname, config->port, source->mount); config_release_config(); str = httpp_getvar(source->parser, "ice-audio-info"); source->audio_info = util_dict_new(); if (str) { _parse_audio_info (source, str); stats_event (source->mount, "audio_info", str); } stats_event (source->mount, "listenurl", listenurl); free(listenurl); if (source->dumpfilename != NULL) { source->dumpfile = fopen (source->dumpfilename, "ab"); if (source->dumpfile == NULL) { WARN2("Cannot open dump file \"%s\" for appending: %s, disabling.", source->dumpfilename, strerror(errno)); } } /* grab a read lock, to make sure we get a chance to cleanup */ thread_rwlock_rlock (source->shutdown_rwlock); /* start off the statistics */ source->listeners = 0; stats_event_inc (NULL, "source_total_connections"); stats_event (source->mount, "slow_listeners", "0"); stats_event_args (source->mount, "listeners", "%lu", source->listeners); stats_event_args (source->mount, "listener_peak", "%lu", source->peak_listeners); stats_event_time (source->mount, "stream_start"); DEBUG0("Source creation complete"); source->last_read = time (NULL); source->prev_listeners = -1; source->running = 1; mountinfo = config_find_mount (config_get_config(), source->mount); if (mountinfo) { if (mountinfo->on_connect) source_run_script (mountinfo->on_connect, source->mount); auth_stream_start (mountinfo, source->mount); } config_release_config(); /* ** Now, if we have a fallback source and override is on, we want ** to steal its clients, because it means we've come back online ** after a failure and they should be gotten back from the waiting ** loop or jingle track or whatever the fallback is used for */ if (source->fallback_override && source->fallback_mount) { source_t *fallback_source; avl_tree_rlock(global.source_tree); fallback_source = source_find_mount(source->fallback_mount); if (fallback_source) source_move_clients (fallback_source, source); avl_tree_unlock(global.source_tree); } } void source_main (source_t *source) { refbuf_t *refbuf; client_t *client; avl_node *client_node; source_init (source); while (global.running == ICE_RUNNING && source->running) { int remove_from_q; refbuf = get_next_buffer (source); remove_from_q = 0; source->short_delay = 0; if (refbuf) { /* append buffer to the in-flight data queue, */ if (source->stream_data == NULL) { source->stream_data = refbuf; source->burst_point = refbuf; } if (source->stream_data_tail) source->stream_data_tail->next = refbuf; source->stream_data_tail = refbuf; source->queue_size += refbuf->len; /* new buffer is referenced for burst */ refbuf_addref (refbuf); /* new data on queue, so check the burst point */ source->burst_offset += refbuf->len; while (source->burst_offset > source->burst_size) { refbuf_t *to_release = source->burst_point; if (to_release->next) { source->burst_point = to_release->next; source->burst_offset -= to_release->len; refbuf_release (to_release); continue; } break; } /* save stream to file */ if (source->dumpfile && source->format->write_buf_to_file) source->format->write_buf_to_file (source, refbuf); } /* lets see if we have too much data in the queue, but don't remove it until later */ if (source->queue_size > source->queue_size_limit) remove_from_q = 1; /* acquire write lock on client_tree */ avl_tree_wlock(source->client_tree); client_node = avl_get_first(source->client_tree); while (client_node) { client = (client_t *)client_node->key; send_to_listener (source, client, remove_from_q); if (client->con->error) { client_node = avl_get_next(client_node); avl_delete(source->client_tree, (void *)client, _free_client); source->listeners--; DEBUG0("Client removed"); continue; } client_node = avl_get_next(client_node); } /* acquire write lock on pending_tree */ avl_tree_wlock(source->pending_tree); /** add pending clients **/ client_node = avl_get_first(source->pending_tree); while (client_node) { if(source->max_listeners != -1 && source->listeners >= (unsigned long)source->max_listeners) { /* The common case is caught in the main connection handler, * this deals with rarer cases (mostly concerning fallbacks) * and doesn't give the listening client any information about * why they were disconnected */ client = (client_t *)client_node->key; client_node = avl_get_next(client_node); avl_delete(source->pending_tree, (void *)client, _free_client); INFO0("Client deleted, exceeding maximum listeners for this " "mountpoint."); continue; } /* Otherwise, the client is accepted, add it */ avl_insert(source->client_tree, client_node->key); source->listeners++; DEBUG0("Client added"); stats_event_inc(source->mount, "connections"); client_node = avl_get_next(client_node); } /** clear pending tree **/ while (avl_get_first(source->pending_tree)) { avl_delete(source->pending_tree, avl_get_first(source->pending_tree)->key, source_remove_client); } /* release write lock on pending_tree */ avl_tree_unlock(source->pending_tree); /* update the stats if need be */ if (source->listeners != source->prev_listeners) { source->prev_listeners = source->listeners; INFO2("listener count on %s now %lu", source->mount, source->listeners); if (source->listeners > source->peak_listeners) { source->peak_listeners = source->listeners; stats_event_args (source->mount, "listener_peak", "%lu", source->peak_listeners); } stats_event_args (source->mount, "listeners", "%lu", source->listeners); if (source->listeners == 0 && source->on_demand) source->running = 0; } /* lets reduce the queue, any lagging clients should of been * terminated by now */ if (source->stream_data) { /* normal unreferenced queue data will have a refcount 1, but * burst queue data will be at least 2, active clients will also * increase refcount */ while (source->stream_data->_count == 1) { refbuf_t *to_go = source->stream_data; if (to_go->next == NULL || source->burst_point == to_go) { /* this should not happen */ ERROR0 ("queue state is unexpected"); source->running = 0; break; } source->stream_data = to_go->next; source->queue_size -= to_go->len; refbuf_release (to_go); } } /* release write lock on client_tree */ avl_tree_unlock(source->client_tree); } source_shutdown (source); } static void source_shutdown (source_t *source) { mount_proxy *mountinfo; source->running = 0; INFO1("Source \"%s\" exiting", source->mount); mountinfo = config_find_mount (config_get_config(), source->mount); if (mountinfo) { if (mountinfo->on_disconnect) source_run_script (mountinfo->on_disconnect, source->mount); auth_stream_end (mountinfo, source->mount); } config_release_config(); /* we have de-activated the source now, so no more clients will be * added, now move the listeners we have to the fallback (if any) */ if (source->fallback_mount) { source_t *fallback_source; avl_tree_rlock(global.source_tree); fallback_source = source_find_mount (source->fallback_mount); if (fallback_source != NULL) source_move_clients (source, fallback_source); avl_tree_unlock (global.source_tree); } /* delete this sources stats */ stats_event(source->mount, NULL, NULL); /* we don't remove the source from the tree here, it may be a relay and therefore reserved */ source_clear_source (source); global_lock(); global.sources--; stats_event_args (NULL, "sources", "%d", global.sources); global_unlock(); /* release our hold on the lock so the main thread can continue cleaning up */ thread_rwlock_unlock(source->shutdown_rwlock); } static int _compare_clients(void *compare_arg, void *a, void *b) { client_t *clienta = (client_t *)a; client_t *clientb = (client_t *)b; connection_t *cona = clienta->con; connection_t *conb = clientb->con; if (cona->id < conb->id) return -1; if (cona->id > conb->id) return 1; return 0; } int source_remove_client(void *key) { return 1; } static int _free_client(void *key) { client_t *client = (client_t *)key; /* if no response has been sent then send a 404 */ if (client->respcode == 0) client_send_404 (client, "Mount unavailable"); else client_destroy(client); return 1; } static void _parse_audio_info (source_t *source, const char *s) { const char *start = s; unsigned int len; while (start != NULL && *start != '\0') { if ((s = strchr (start, ';')) == NULL) len = strlen (start); else { len = (int)(s - start); s++; /* skip passed the ';' */ } if (len) { char name[100], value[200]; char *esc; sscanf (start, "%99[^=]=%199[^;\r\n]", name, value); esc = util_url_unescape (value); if (esc) { util_dict_set (source->audio_info, name, esc); stats_event (source->mount, name, esc); free (esc); } } start = s; } } /* Apply the mountinfo details to the source */ static void source_apply_mount (source_t *source, mount_proxy *mountinfo) { char *str; int val; http_parser_t *parser = NULL; DEBUG1("Applying mount information for \"%s\"", source->mount); avl_tree_rlock (source->client_tree); if (mountinfo) { source->max_listeners = mountinfo->max_listeners; source->fallback_override = mountinfo->fallback_override; source->hidden = mountinfo->hidden; } /* if a setting is available in the mount details then use it, else * check the parser details. */ if (source->client) parser = source->client->parser; /* public */ if (mountinfo && mountinfo->yp_public >= 0) val = mountinfo->yp_public; else { do { str = httpp_getvar (parser, "ice-public"); if (str) break; str = httpp_getvar (parser, "icy-pub"); if (str) break; str = httpp_getvar (parser, "x-audiocast-public"); if (str) break; /* handle header from icecast v2 release */ str = httpp_getvar (parser, "icy-public"); if (str) break; str = "0"; } while (0); val = atoi (str); } stats_event_args (source->mount, "public", "%d", val); if (source->yp_public != val) { DEBUG1 ("YP changed to %d", val); if (val) yp_add (source->mount); else yp_remove (source->mount); source->yp_public = val; } /* stream name */ if (mountinfo && mountinfo->stream_name) str = mountinfo->stream_name; else { do { str = httpp_getvar (parser, "ice-name"); if (str) break; str = httpp_getvar (parser, "icy-name"); if (str) break; str = httpp_getvar (parser, "x-audiocast-name"); if (str) break; str = "Unspecified name"; } while (0); } stats_event (source->mount, "server_name", str); /* stream description */ if (mountinfo && mountinfo->stream_description) str = mountinfo->stream_description; else { do { str = httpp_getvar (parser, "ice-description"); if (str) break; str = httpp_getvar (parser, "icy-description"); if (str) break; str = httpp_getvar (parser, "x-audiocast-description"); if (str) break; str = "Unspecified description"; } while (0); } stats_event (source->mount, "server_description", str); /* stream URL */ if (mountinfo && mountinfo->stream_url) str = mountinfo->stream_url; else { do { str = httpp_getvar (parser, "ice-url"); if (str) break; str = httpp_getvar (parser, "icy-url"); if (str) break; str = httpp_getvar (parser, "x-audiocast-url"); if (str) break; } while (0); } stats_event (source->mount, "server_url", str); /* stream genre */ if (mountinfo && mountinfo->stream_genre) str = mountinfo->stream_genre; else { do { str = httpp_getvar (parser, "ice-genre"); if (str) break; str = httpp_getvar (parser, "icy-genre"); if (str) break; str = httpp_getvar (parser, "x-audiocast-genre"); if (str) break; str = "various"; } while (0); } stats_event (source->mount, "genre", str); /* stream bitrate */ if (mountinfo && mountinfo->bitrate) str = mountinfo->bitrate; else { do { str = httpp_getvar (parser, "ice-bitrate"); if (str) break; str = httpp_getvar (parser, "icy-br"); if (str) break; str = httpp_getvar (parser, "x-audiocast-bitrate"); } while (0); } stats_event (source->mount, "bitrate", str); /* handle MIME-type */ if (mountinfo && mountinfo->type) stats_event (source->mount, "server_type", mountinfo->type); else if (source->format) stats_event (source->mount, "server_type", source->format->contenttype); if (mountinfo && mountinfo->subtype) stats_event (source->mount, "subtype", mountinfo->subtype); if (mountinfo && mountinfo->auth) stats_event (source->mount, "authenticator", mountinfo->auth->type); else stats_event (source->mount, "authenticator", NULL); if (mountinfo && mountinfo->fallback_mount) { char *mount = source->fallback_mount; source->fallback_mount = strdup (mountinfo->fallback_mount); free (mount); } else source->fallback_mount = NULL; if (mountinfo && mountinfo->dumpfile) { char *filename = source->dumpfilename; source->dumpfilename = strdup (mountinfo->dumpfile); free (filename); } else source->dumpfilename = NULL; if (source->intro_file) { fclose (source->intro_file); source->intro_file = NULL; } if (mountinfo && mountinfo->intro_filename) { ice_config_t *config = config_get_config_unlocked (); unsigned int len = strlen (config->webroot_dir) + strlen (mountinfo->intro_filename) + 2; char *path = malloc (len); if (path) { FILE *f; snprintf (path, len, "%s" PATH_SEPARATOR "%s", config->webroot_dir, mountinfo->intro_filename); f = fopen (path, "rb"); if (f) source->intro_file = f; else WARN2 ("Cannot open intro file \"%s\": %s", path, strerror(errno)); free (path); } } if (mountinfo && mountinfo->queue_size_limit) source->queue_size_limit = mountinfo->queue_size_limit; if (mountinfo && mountinfo->source_timeout) source->timeout = mountinfo->source_timeout; if (mountinfo && mountinfo->burst_size >= 0) source->burst_size = (unsigned int)mountinfo->burst_size; if (mountinfo && mountinfo->fallback_when_full) source->fallback_when_full = mountinfo->fallback_when_full; if (source->format && source->format->apply_settings) source->format->apply_settings (source->client, source->format, mountinfo); avl_tree_unlock (source->client_tree); } /* update the specified source with details from the config or mount. * mountinfo can be NULL in which case default settings should be taken */ void source_update_settings (ice_config_t *config, source_t *source, mount_proxy *mountinfo) { /* skip if source is a fallback to file */ if (source->running && source->client == NULL) { stats_event_hidden (source->mount, NULL, 1); return; } /* set global settings first */ source->queue_size_limit = config->queue_size_limit; source->timeout = config->source_timeout; source->burst_size = config->burst_size; source_apply_mount (source, mountinfo); if (source->fallback_mount) DEBUG1 ("fallback %s", source->fallback_mount); if (mountinfo && mountinfo->intro_filename) DEBUG1 ("intro file is %s", mountinfo->intro_filename); if (source->dumpfilename) DEBUG1 ("Dumping stream to %s", source->dumpfilename); if (mountinfo && mountinfo->on_connect) DEBUG1 ("connect script \"%s\"", mountinfo->on_connect); if (mountinfo && mountinfo->on_disconnect) DEBUG1 ("disconnect script \"%s\"", mountinfo->on_disconnect); if (source->on_demand) { DEBUG0 ("on_demand set"); stats_event (source->mount, "on_demand", "1"); } else stats_event (source->mount, "on_demand", NULL); if (source->hidden) { stats_event_hidden (source->mount, NULL, 1); DEBUG0 ("hidden from xsl"); } else stats_event_hidden (source->mount, NULL, 0); if (source->max_listeners == -1) stats_event (source->mount, "max_listeners", "unlimited"); else { char buf [10]; snprintf (buf, sizeof (buf), "%ld", source->max_listeners); stats_event (source->mount, "max_listeners", buf); } DEBUG1 ("public set to %d", source->yp_public); DEBUG1 ("max listeners to %ld", source->max_listeners); DEBUG1 ("queue size to %u", source->queue_size_limit); DEBUG1 ("burst size to %u", source->burst_size); DEBUG1 ("source timeout to %u", source->timeout); DEBUG1 ("fallback_when_full to %u", source->fallback_when_full); } void *source_client_thread (void *arg) { source_t *source = arg; stats_event_inc(NULL, "source_client_connections"); stats_event (source->mount, "listeners", "0"); source_main (source); source_free_source (source); slave_rebuild_mounts(); return NULL; } void source_client_callback (client_t *client, void *arg) { const char *agent; source_t *source = arg; refbuf_t *old_data = client->refbuf; if (client->con->error) { global_lock(); global.sources--; global_unlock(); source_clear_source (source); source_free_source (source); return; } client->refbuf = old_data->associated; old_data->associated = NULL; refbuf_release (old_data); stats_event (source->mount, "source_ip", source->client->con->ip); agent = httpp_getvar (source->client->parser, "user-agent"); if (agent) stats_event (source->mount, "user_agent", agent); thread_create ("Source Thread", source_client_thread, source, THREAD_DETACHED); } #ifndef _WIN32 static void source_run_script (char *command, char *mountpoint) { pid_t pid, external_pid; /* do a fork twice so that the command has init as parent */ external_pid = fork(); switch (external_pid) { case 0: switch (pid = fork ()) { case -1: ERROR2 ("Unable to fork %s (%s)", command, strerror (errno)); break; case 0: /* child */ DEBUG1 ("Starting command %s", command); execl (command, command, mountpoint, (char *)NULL); ERROR2 ("Unable to run command %s (%s)", command, strerror (errno)); exit(0); default: /* parent */ break; } exit (0); case -1: ERROR1 ("Unable to fork %s", strerror (errno)); break; default: /* parent */ waitpid (external_pid, NULL, 0); break; } } #endif static void *source_fallback_file (void *arg) { char *mount = arg; char *type; char *path; unsigned int len; FILE *file = NULL; source_t *source = NULL; ice_config_t *config; http_parser_t *parser; do { if (mount == NULL || mount[0] != '/') break; config = config_get_config(); len = strlen (config->webroot_dir) + strlen (mount) + 1; path = malloc (len); if (path) snprintf (path, len, "%s%s", config->webroot_dir, mount); config_release_config (); if (path == NULL) break; file = fopen (path, "rb"); if (file == NULL) { DEBUG1 ("unable to open file \"%s\"", path); free (path); break; } free (path); source = source_reserve (mount); if (source == NULL) { DEBUG1 ("mountpoint \"%s\" already reserved", mount); break; } type = fserve_content_type (mount); parser = httpp_create_parser(); httpp_initialize (parser, NULL); httpp_setvar (parser, "content-type", type); source->hidden = 1; source->yp_public = 0; source->intro_file = file; source->parser = parser; file = NULL; if (connection_complete_source (source, 0) < 0) break; source_client_thread (source); httpp_destroy (parser); } while (0); if (file) fclose (file); free (mount); return NULL; } /* rescan the mount list, so that xsl files are updated to show * unconnected but active fallback mountpoints */ void source_recheck_mounts (int update_all) { ice_config_t *config = config_get_config(); mount_proxy *mount = config->mounts; avl_tree_rlock (global.source_tree); stats_clear_virtual_mounts (); while (mount) { source_t *source = source_find_mount (mount->mountname); if (source) { source = source_find_mount_raw (mount->mountname); stats_event_args (mount->mountname, "listenurl", "http://%s:%d%s", config->hostname, config->port, mount->mountname); if (source && update_all) { mount_proxy *mountinfo = config_find_mount (config, source->mount); source_update_settings (config, source, mountinfo); } else { stats_event_hidden (mount->mountname, NULL, mount->hidden); stats_event (mount->mountname, "listeners", "0"); if (mount->max_listeners < 0) stats_event (mount->mountname, "max_listeners", "unlimited"); else stats_event_args (mount->mountname, "max_listeners", "%d", mount->max_listeners); } } else stats_event (mount->mountname, NULL, NULL); /* check for fallback to file */ if (global.running == ICE_RUNNING && mount->fallback_mount) { source_t *fallback = source_find_mount (mount->fallback_mount); if (fallback == NULL) { thread_create ("Fallback file thread", source_fallback_file, strdup (mount->fallback_mount), THREAD_DETACHED); } } mount = mount->next; } avl_tree_unlock (global.source_tree); config_release_config(); }