/* the Music Player Daemon (MPD) * Copyright (C) 2003-2007 by Warren Dukes (warren.dukes@gmail.com) * This project's homepage is: http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include "zeroconf.h" #include "conf.h" #include "log.h" #include "listen.h" #include "ioops.h" #include "utils.h" /* The dns-sd service type qualifier to publish */ #define SERVICE_TYPE "_mpd._tcp" /* The default service name to publish * (overridden by 'zeroconf_name' config parameter) */ #define SERVICE_NAME "Music Player" #define DEFAULT_ZEROCONF_ENABLED 1 static int zeroconfEnabled; static struct ioOps zeroConfIo = { }; #ifdef HAVE_BONJOUR #include static DNSServiceRef dnsReference; #endif /* Here is the implementation for Avahi (http://avahi.org) Zeroconf support */ #ifdef HAVE_AVAHI #include #include #include #include #include #include /* Static avahi data */ static AvahiEntryGroup *avahiGroup; static char *avahiName; static AvahiClient* avahiClient; static AvahiPoll avahiPoll; static int avahiRunning; static int avahiFdset( fd_set* rfds, fd_set* wfds, fd_set* efds ); static int avahiFdconsume( int fdCount, fd_set* rfds, fd_set* wfds, fd_set* efds ); /* Forward Declaration */ static void avahiRegisterService(AvahiClient *c); struct AvahiWatch { struct AvahiWatch* prev; struct AvahiWatch* next; int fd; AvahiWatchEvent requestedEvent; AvahiWatchEvent observedEvent; AvahiWatchCallback callback; void* userdata; }; struct AvahiTimeout { struct AvahiTimeout* prev; struct AvahiTimeout* next; struct timeval expiry; int enabled; AvahiTimeoutCallback callback; void* userdata; }; static AvahiWatch* avahiWatchList; static AvahiTimeout* avahiTimeoutList; static AvahiWatch* avahiWatchNew( const AvahiPoll *api, int fd, AvahiWatchEvent event, AvahiWatchCallback callback, void *userdata ) { struct AvahiWatch* newWatch = xmalloc( sizeof(struct AvahiWatch) ); newWatch->fd = fd; newWatch->requestedEvent = event; newWatch->observedEvent = 0; newWatch->callback = callback; newWatch->userdata = userdata; /* Insert at front of list */ newWatch->next = avahiWatchList; avahiWatchList = newWatch; newWatch->prev = NULL; if( newWatch->next ) newWatch->next->prev = newWatch; return newWatch; } static void avahiWatchUpdate( AvahiWatch *w, AvahiWatchEvent event ) { assert( w != NULL ); w->requestedEvent = event; } static AvahiWatchEvent avahiWatchGetEvents( AvahiWatch *w ) { assert( w != NULL ); return w->observedEvent; } static void avahiWatchFree( AvahiWatch *w ) { assert( w != NULL ); if( avahiWatchList == w ) avahiWatchList = w->next; else if( w->prev != NULL ) w->prev->next = w->next; free( w ); } static void avahiCheckExpiry( AvahiTimeout *t ) { assert( t != NULL ); if( t->enabled ) { struct timeval now; gettimeofday( &now, NULL ); if( timercmp( &now, &(t->expiry), > ) ) { t->enabled = 0; t->callback( t, t->userdata ); } } } static void avahiTimeoutUpdate( AvahiTimeout *t, const struct timeval *tv ) { assert( t != NULL ); if( tv ) { t->enabled = 1; t->expiry.tv_sec = tv->tv_sec; t->expiry.tv_usec = tv->tv_usec; } else { t->enabled = 0; } } static void avahiTimeoutFree( AvahiTimeout *t ) { assert( t != NULL ); if( avahiTimeoutList == t ) avahiTimeoutList = t->next; else if( t->prev != NULL ) t->prev->next = t->next; free( t ); } static AvahiTimeout* avahiTimeoutNew( const AvahiPoll *api, const struct timeval *tv, AvahiTimeoutCallback callback, void *userdata ) { struct AvahiTimeout* newTimeout = xmalloc( sizeof(struct AvahiTimeout) ); newTimeout->callback = callback; newTimeout->userdata = userdata; avahiTimeoutUpdate( newTimeout, tv ); /* Insert at front of list */ newTimeout->next = avahiTimeoutList; avahiTimeoutList = newTimeout; newTimeout->prev = NULL; if( newTimeout->next ) newTimeout->next->prev = newTimeout; return newTimeout; } /* Callback when the EntryGroup changes state */ static void avahiGroupCallback( AvahiEntryGroup *g, AvahiEntryGroupState state, void *userdata) { assert(g); DEBUG( "Avahi: Service group changed to state %d\n", state ); switch (state) { case AVAHI_ENTRY_GROUP_ESTABLISHED : /* The entry group has been established successfully */ LOG( "Avahi: Service '%s' successfully established.\n", avahiName ); break; case AVAHI_ENTRY_GROUP_COLLISION : { char *n; /* A service name collision happened. Let's pick a new name */ n = avahi_alternative_service_name(avahiName); avahi_free(avahiName); avahiName = n; LOG( "Avahi: Service name collision, renaming service to '%s'\n", avahiName ); /* And recreate the services */ avahiRegisterService(avahi_entry_group_get_client(g)); break; } case AVAHI_ENTRY_GROUP_FAILURE : ERROR( "Avahi: Entry group failure: %s\n", avahi_strerror(avahi_client_errno(avahi_entry_group_get_client(g))) ); /* Some kind of failure happened while we were registering our services */ avahiRunning = 0; break; case AVAHI_ENTRY_GROUP_UNCOMMITED: DEBUG( "Avahi: Service group is UNCOMMITED\n" ); break; case AVAHI_ENTRY_GROUP_REGISTERING: DEBUG( "Avahi: Service group is REGISTERING\n" ); ; } } /* Registers a new service with avahi */ static void avahiRegisterService(AvahiClient *c) { int ret; assert(c); DEBUG( "Avahi: Registering service %s/%s\n", SERVICE_TYPE, avahiName ); /* If this is the first time we're called, let's create a new entry group */ if (!avahiGroup) { avahiGroup = avahi_entry_group_new(c, avahiGroupCallback, NULL); if( !avahiGroup ) { ERROR( "Avahi: Failed to create avahi EntryGroup: %s\n", avahi_strerror(avahi_client_errno(c)) ); goto fail; } } /* Add the service */ /* TODO: This currently binds to ALL interfaces. * We could maybe add a service per actual bound interface, if that's better. */ ret = avahi_entry_group_add_service(avahiGroup, AVAHI_IF_UNSPEC, AVAHI_PROTO_UNSPEC, 0, avahiName, SERVICE_TYPE, NULL, NULL, boundPort, NULL); if( ret < 0 ) { ERROR( "Avahi: Failed to add service %s: %s\n", SERVICE_TYPE, avahi_strerror(ret) ); goto fail; } /* Tell the server to register the service group */ ret = avahi_entry_group_commit(avahiGroup); if( ret < 0 ) { ERROR( "Avahi: Failed to commit service group: %s\n", avahi_strerror(ret) ); goto fail; } return; fail: avahiRunning = 0; } /* Callback when avahi changes state */ static void avahiClientCallback(AvahiClient *c, AvahiClientState state, void *userdata) { assert(c); /* Called whenever the client or server state changes */ DEBUG( "Avahi: Client changed to state %d\n", state ); switch (state) { case AVAHI_CLIENT_S_RUNNING: DEBUG( "Avahi: Client is RUNNING\n" ); /* The server has startup successfully and registered its host * name on the network, so it's time to create our services */ if (!avahiGroup) avahiRegisterService(c); break; case AVAHI_CLIENT_FAILURE: { int reason = avahi_client_errno(c); if( reason == AVAHI_ERR_DISCONNECTED ) { LOG( "Avahi: Client Disconnected, will reconnect shortly\n"); avahi_entry_group_free( avahiGroup ); avahiGroup = NULL; avahi_client_free( avahiClient ); avahiClient = NULL; avahiClient = avahi_client_new( &avahiPoll, AVAHI_CLIENT_NO_FAIL, avahiClientCallback, NULL, &reason ); if( !avahiClient ) { ERROR( "Avahi: Could not reconnect: %s\n", avahi_strerror(reason) ); avahiRunning = 0; } } else { ERROR( "Avahi: Client failure: %s (terminal)\n", avahi_strerror(reason)); avahiRunning = 0; } } break; case AVAHI_CLIENT_S_COLLISION: DEBUG( "Avahi: Client is COLLISION\n" ); /* Let's drop our registered services. When the server is back * in AVAHI_SERVER_RUNNING state we will register them * again with the new host name. */ if (avahiGroup) { DEBUG( "Avahi: Resetting group\n" ); avahi_entry_group_reset(avahiGroup); } case AVAHI_CLIENT_S_REGISTERING: DEBUG( "Avahi: Client is REGISTERING\n" ); /* The server records are now being established. This * might be caused by a host name change. We need to wait * for our own records to register until the host name is * properly esatblished. */ if (avahiGroup) { DEBUG( "Avahi: Resetting group\n" ); avahi_entry_group_reset(avahiGroup); } break; case AVAHI_CLIENT_CONNECTING: DEBUG( "Avahi: Client is CONNECTING\n" ); ; } } static int avahiFdset( fd_set* rfds, fd_set* wfds, fd_set* efds ) { AvahiWatch* w; int maxfd = -1; if( !avahiRunning ) return maxfd; for( w = avahiWatchList; w != NULL; w = w->next ) { if( w->requestedEvent & AVAHI_WATCH_IN ) { FD_SET( w->fd, rfds ); } if( w->requestedEvent & AVAHI_WATCH_OUT ) { FD_SET( w->fd, wfds ); } if( w->requestedEvent & AVAHI_WATCH_ERR ) { FD_SET( w->fd, efds ); } if( w->requestedEvent & AVAHI_WATCH_HUP ) { ERROR( "Avahi: No support for HUP events! (ignoring)\n" ); } if( w->fd > maxfd ) maxfd = w->fd; } return maxfd; } static int avahiFdconsume( int fdCount, fd_set* rfds, fd_set* wfds, fd_set* efds ) { int retval = fdCount; AvahiTimeout* t; AvahiWatch* w = avahiWatchList; while( w != NULL && retval > 0 ) { AvahiWatch* current = w; current->observedEvent = 0; if( FD_ISSET( current->fd, rfds ) ) { current->observedEvent |= AVAHI_WATCH_IN; FD_CLR( current->fd, rfds ); retval--; } if( FD_ISSET( current->fd, wfds ) ) { current->observedEvent |= AVAHI_WATCH_OUT; FD_CLR( current->fd, wfds ); retval--; } if( FD_ISSET( current->fd, efds ) ) { current->observedEvent |= AVAHI_WATCH_ERR; FD_CLR( current->fd, efds ); retval--; } /* Advance to the next one right now, in case the callback * removes itself */ w = w->next; if( current->observedEvent && avahiRunning ) { current->callback( current, current->fd, current->observedEvent, current->userdata ); } } t = avahiTimeoutList; while( t != NULL && avahiRunning ) { AvahiTimeout* current = t; /* Advance to the next one right now, in case the callback * removes itself */ t = t->next; avahiCheckExpiry( current ); } return retval; } static void init_avahi(const char *serviceName) { int error; DEBUG( "Avahi: Initializing interface\n" ); if( avahi_is_valid_service_name( serviceName ) ) { avahiName = avahi_strdup( serviceName ); } else { ERROR( "Invalid zeroconf_name \"%s\", defaulting to \"%s\" instead.\n", serviceName, SERVICE_NAME ); avahiName = avahi_strdup( SERVICE_NAME ); } avahiRunning = 1; avahiPoll.userdata = NULL; avahiPoll.watch_new = avahiWatchNew; avahiPoll.watch_update = avahiWatchUpdate; avahiPoll.watch_get_events = avahiWatchGetEvents; avahiPoll.watch_free = avahiWatchFree; avahiPoll.timeout_new = avahiTimeoutNew; avahiPoll.timeout_update = avahiTimeoutUpdate; avahiPoll.timeout_free = avahiTimeoutFree; avahiClient = avahi_client_new( &avahiPoll, AVAHI_CLIENT_NO_FAIL, avahiClientCallback, NULL, &error ); if( !avahiClient ) { ERROR( "Avahi: Failed to create client: %s\n", avahi_strerror(error) ); goto fail; } zeroConfIo.fdset = avahiFdset; zeroConfIo.consume = avahiFdconsume; registerIO( &zeroConfIo ); return; fail: finishZeroconf(); } #endif /* HAVE_AVAHI */ #ifdef HAVE_BONJOUR static int dnsRegisterFdset(fd_set* rfds, fd_set* wfds, fd_set* efds) { int fd; if (dnsReference == NULL) return -1; fd = DNSServiceRefSockFD(dnsReference); if (fd == -1) return -1; FD_SET(fd, rfds); return fd; } static int dnsRegisterFdconsume(int fdCount, fd_set* rfds, fd_set* wfds, fd_set* efds) { int fd; if (dnsReference == NULL) return -1; fd = DNSServiceRefSockFD(dnsReference); if (fd == -1) return -1; if (FD_ISSET(fd, rfds)) { FD_CLR(fd, rfds); DNSServiceProcessResult(dnsReference); return fdCount - 1; } return fdCount; } static void dnsRegisterCallback (DNSServiceRef sdRef, DNSServiceFlags flags, DNSServiceErrorType errorCode, const char *name, const char *regtype, const char *domain, void *context) { if (errorCode != kDNSServiceErr_NoError) { ERROR("Failed to register zeroconf service.\n"); DNSServiceRefDeallocate(dnsReference); dnsReference = NULL; deregisterIO( &zeroConfIo ); } else { DEBUG("Registered zeroconf service with name '%s'\n", name); } } static void init_zeroconf_osx(const char *serviceName) { DNSServiceErrorType error = DNSServiceRegister(&dnsReference, 0, 0, serviceName, SERVICE_TYPE, NULL, NULL, htons(boundPort), 0, NULL, dnsRegisterCallback, NULL); if (error != kDNSServiceErr_NoError) { ERROR("Failed to register zeroconf service.\n"); if (dnsReference) { DNSServiceRefDeallocate(dnsReference); dnsReference = NULL; } return; } zeroConfIo.fdset = dnsRegisterFdset; zeroConfIo.consume = dnsRegisterFdconsume; registerIO( &zeroConfIo ); } #endif void initZeroconf(void) { const char *serviceName = SERVICE_NAME; ConfigParam *param; zeroconfEnabled = getBoolConfigParam(CONF_ZEROCONF_ENABLED); if (zeroconfEnabled == -1) zeroconfEnabled = DEFAULT_ZEROCONF_ENABLED; else if (zeroconfEnabled < 0) exit(EXIT_FAILURE); if (!zeroconfEnabled) return; param = getConfigParam(CONF_ZEROCONF_NAME); if (param && strlen(param->value) > 0) serviceName = param->value; #ifdef HAVE_AVAHI init_avahi(serviceName); #endif #ifdef HAVE_BONJOUR init_zeroconf_osx(serviceName); #endif } void finishZeroconf(void) { if (!zeroconfEnabled) return; #ifdef HAVE_AVAHI DEBUG( "Avahi: Shutting down interface\n" ); deregisterIO( &zeroConfIo ); if( avahiGroup ) { avahi_entry_group_free( avahiGroup ); avahiGroup = NULL; } if( avahiClient ) { avahi_client_free( avahiClient ); avahiClient = NULL; } avahi_free( avahiName ); avahiName = NULL; #endif /* HAVE_AVAHI */ #ifdef HAVE_BONJOUR deregisterIO( &zeroConfIo ); if (dnsReference != NULL) { DNSServiceRefDeallocate(dnsReference); dnsReference = NULL; DEBUG("Deregistered Zeroconf service.\n"); } #endif }