/* libmpdclient * (c)2003-2004 by Warren Dukes (shank@mercury.chem.pitt.edu) * This project's homepage is: http://www.musicpd.org * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser 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 "libmpdclient.h" #include #include #include #include #include #include #include #include #include #include #include #ifndef MPD_NO_IPV6 #ifdef AF_INET6 #define MPD_HAVE_IPV6 #endif #endif #ifdef MPD_HAVE_IPV6 int mpd_ipv6Supported() { int s; s = socket(AF_INET6,SOCK_STREAM,0); if(s == -1) return 0; close(s); return 1; } #endif char * mpd_sanitizeArg(const char * arg) { size_t i; int count=0; char * ret; for(i=0;iname = strdup(name); ret->value = strdup(value); return ret; } void mpd_freeReturnElement(mpd_ReturnElement * re) { free(re->name); free(re->value); free(re); } void mpd_setConnectionTimeout(mpd_Connection * connection, float timeout) { connection->timeout.tv_sec = (int)timeout; connection->timeout.tv_usec = (int)(timeout*1e6 - connection->timeout.tv_sec*1000000+0.5); } mpd_Connection * mpd_newConnection(const char * host, int port, float timeout) { int err; struct hostent * he; struct sockaddr * dest; socklen_t destlen; struct sockaddr_in sin; char * rt; char * output; mpd_Connection * connection = malloc(sizeof(mpd_Connection)); struct timeval tv; fd_set fds; #ifdef MPD_HAVE_IPV6 struct sockaddr_in6 sin6; #endif strcpy(connection->buffer,""); connection->buflen = 0; connection->bufstart = 0; strcpy(connection->errorStr,""); connection->error = 0; connection->doneProcessing = 0; connection->commandList = 0; connection->returnElement = NULL; if(!(he=gethostbyname(host))) { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "host \"%s\" not found",host); connection->error = MPD_ERROR_UNKHOST; return connection; } memset(&sin,0,sizeof(struct sockaddr_in)); /*dest.sin_family = he->h_addrtype;*/ sin.sin_family = AF_INET; sin.sin_port = htons(port); #ifdef MPD_HAVE_IPV6 memset(&sin6,0,sizeof(struct sockaddr_in6)); sin6.sin6_family = AF_INET6; sin6.sin6_port = htons(port); #endif switch(he->h_addrtype) { case AF_INET: memcpy((char *)&sin.sin_addr.s_addr,(char *)he->h_addr, he->h_length); dest = (struct sockaddr *)&sin; destlen = sizeof(struct sockaddr_in); break; #ifdef MPD_HAVE_IPV6 case AF_INET6: if(!mpd_ipv6Supported()) { strcpy(connection->errorStr,"no IPv6 suuport but a " "IPv6 address found\n"); connection->error = MPD_ERROR_SYSTEM; return connection; } memcpy((char *)&sin6.sin6_addr.s6_addr,(char *)he->h_addr, he->h_length); dest = (struct sockaddr *)&sin6; destlen = sizeof(struct sockaddr_in6); break; #endif default: strcpy(connection->errorStr,"address type is not IPv4 or " "IPv6\n"); connection->error = MPD_ERROR_SYSTEM; return connection; break; } if((connection->sock = socket(dest->sa_family,SOCK_STREAM,0))<0) { strcpy(connection->errorStr,"problems creating socket"); connection->error = MPD_ERROR_SYSTEM; return connection; } /* connect stuff */ { #ifdef SO_RCVTIMEO struct timeval rcvoldto; struct timeval sndoldto; socklen_t oldlen = sizeof(struct timeval); mpd_setConnectionTimeout(connection,timeout); tv.tv_sec = connection->timeout.tv_sec; tv.tv_usec = connection->timeout.tv_usec; if(getsockopt(connection->sock,SOL_SOCKET,SO_RCVTIMEO,&rcvoldto, &oldlen)<0 || getsockopt(connection->sock,SOL_SOCKET, SO_SNDTIMEO,&sndoldto,&oldlen)<0) { strcpy(connection->errorStr,"problems getting socket " "timeout\n"); connection->error = MPD_ERROR_SYSTEM; return connection; } if(setsockopt(connection->sock,SOL_SOCKET,SO_RCVTIMEO,&tv, sizeof(struct timeval))<0 || setsockopt(connection->sock,SOL_SOCKET, SO_SNDTIMEO,&tv, sizeof(struct timeval))<0) { strcpy(connection->errorStr,"problems setting socket " "timeout\n"); connection->error = MPD_ERROR_SYSTEM; return connection; } #endif if(connect(connection->sock,dest,destlen)<0) { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "problems connecting to \"%s\" on port" " %i",host,port); connection->error = MPD_ERROR_CONNPORT; return connection; } #ifdef SO_RCVTIMEO if(setsockopt(connection->sock,SOL_SOCKET,SO_SNDTIMEO,&rcvoldto, sizeof(struct timeval))<0 || setsockopt(connection->sock,SOL_SOCKET, SO_SNDTIMEO,&sndoldto, sizeof(struct timeval))<0) { strcpy(connection->errorStr,"problems setting socket " "timeout\n"); connection->error = MPD_ERROR_SYSTEM; return connection; } #endif } while(!(rt = strstr(connection->buffer,"\n"))) { tv.tv_sec = connection->timeout.tv_sec; tv.tv_usec = connection->timeout.tv_usec; FD_ZERO(&fds); FD_SET(connection->sock,&fds); if((err = select(connection->sock+1,&fds,NULL,NULL,&tv)) == 1) { int readed; readed = recv(connection->sock, &(connection->buffer[connection->buflen]), MPD_BUFFER_MAX_LENGTH-connection->buflen,0); if(readed<=0) { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "problems getting a response from" " \"%s\" on port %i",host, port); connection->error = MPD_ERROR_NORESPONSE; return connection; } connection->buflen+=readed; connection->buffer[connection->buflen] = '\0'; tv.tv_sec = connection->timeout.tv_sec; tv.tv_usec = connection->timeout.tv_usec; } else if(err<0 && errno==EINTR) continue; else { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "timeout in attempting to get a response from" " \"%s\" on port %i",host,port); connection->error = MPD_ERROR_NORESPONSE; return connection; } } *rt = '\0'; output = strdup(connection->buffer); strcpy(connection->buffer,rt+1); connection->buflen = strlen(connection->buffer); if(strncmp(output,MPD_WELCOME_MESSAGE,strlen(MPD_WELCOME_MESSAGE))) { free(output); snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "mpd not running on port %i on host \"%s\"", port,host); connection->error = MPD_ERROR_NOTMPD; return connection; } { char * test; char * version[3]; char * tmp = &output[strlen(MPD_WELCOME_MESSAGE)]; char * search = "."; int i; for(i=0;i<3;i++) { char * tok; if(i==3) search = " "; version[i] = strtok_r(tmp,search,&tok); if(!version[i]) { free(output); snprintf(connection->errorStr, MPD_BUFFER_MAX_LENGTH, "error parsing version number at " "\"%s\"", &output[strlen(MPD_WELCOME_MESSAGE)]); connection->error = MPD_ERROR_NOTMPD; return connection; } connection->version[i] = strtol(version[i],&test,10); if(version[i]==test || *test!='\0') { free(output); snprintf(connection->errorStr, MPD_BUFFER_MAX_LENGTH, "error parsing version number at " "\"%s\"", &output[strlen(MPD_WELCOME_MESSAGE)]); connection->error = MPD_ERROR_NOTMPD; return connection; } tmp = NULL; } } free(output); connection->doneProcessing = 1; return connection; } void mpd_clearError(mpd_Connection * connection) { connection->error = 0; connection->errorStr[0] = '\0'; } void mpd_closeConnection(mpd_Connection * connection) { close(connection->sock); if(connection->returnElement) free(connection->returnElement); free(connection); } void mpd_executeCommand(mpd_Connection * connection, char * command) { int ret; struct timeval tv; fd_set fds; char * commandPtr = command; int commandLen = strlen(command); if(!connection->doneProcessing && !connection->commandList) { strcpy(connection->errorStr,"not done processing current command"); connection->error = 1; return; } mpd_clearError(connection); FD_ZERO(&fds); FD_SET(connection->sock,&fds); tv.tv_sec = connection->timeout.tv_sec; tv.tv_usec = connection->timeout.tv_usec; while((ret = select(connection->sock+1,NULL,&fds,NULL,&tv)==1) || (ret==-1 && errno==EINTR)) { ret = send(connection->sock,commandPtr,commandLen, MSG_DONTWAIT); if(ret<=0) { if(ret==EAGAIN || ret==EINTR) continue; snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "problems giving command \"%s\"",command); connection->error = MPD_ERROR_SENDING; return; } else { commandPtr+=ret; commandLen-=ret; } if(commandLen<=0) break; } if(commandLen>0) { perror(""); snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "timeout sending command \"%s\"",command); connection->error = MPD_ERROR_TIMEOUT; return; } if(!connection->commandList) connection->doneProcessing = 0; } void mpd_getNextReturnElement(mpd_Connection * connection) { char * output = NULL; char * rt = NULL; char * name; char * value; fd_set fds; struct timeval tv; char * tok; int readed; char * bufferCheck; int err; if(connection->returnElement) mpd_freeReturnElement(connection->returnElement); connection->returnElement = NULL; if(connection->doneProcessing) { strcpy(connection->errorStr,"already done processing current command"); connection->error = 1; return; } bufferCheck = connection->buffer+connection->bufstart; while(connection->bufstart>=connection->buflen || !(rt = strstr(bufferCheck,"\n"))) { if(connection->buflen>=MPD_BUFFER_MAX_LENGTH) { memmove(connection->buffer, connection->buffer+ connection->bufstart, connection->buflen- connection->bufstart+1); bufferCheck-=connection->bufstart; connection->buflen-=connection->bufstart; connection->bufstart = 0; } if(connection->buflen>=MPD_BUFFER_MAX_LENGTH) { strcpy(connection->errorStr,"buffer overrun"); connection->error = MPD_ERROR_BUFFEROVERRUN; connection->doneProcessing = 1; return; } bufferCheck+=connection->buflen-connection->bufstart; tv.tv_sec = connection->timeout.tv_sec; tv.tv_usec = connection->timeout.tv_usec; FD_ZERO(&fds); FD_SET(connection->sock,&fds); if((err = select(connection->sock+1,&fds,NULL,NULL,&tv) == 1)) { readed = recv(connection->sock, connection->buffer+connection->buflen, MPD_BUFFER_MAX_LENGTH-connection->buflen, MSG_DONTWAIT); if(readed<0 && (errno==EAGAIN || errno==EINTR)) { continue; } if(readed<=0) { strcpy(connection->errorStr,"connection" " closed"); connection->error = MPD_ERROR_CONNCLOSED; connection->doneProcessing = 1; return; } connection->buflen+=readed; connection->buffer[connection->buflen] = '\0'; } else if(err<0 && errno==EINTR) continue; else { strcpy(connection->errorStr,"connection timeout"); connection->error = MPD_ERROR_TIMEOUT; connection->doneProcessing = 1; return; } } *rt = '\0'; output = connection->buffer+connection->bufstart; connection->bufstart = rt - connection->buffer + 1; if(strcmp(output,"OK")==0) { connection->doneProcessing = 1; return; } if(strncmp(output,"ACK",strlen("ACK"))==0) { strcpy(connection->errorStr,output); connection->error = MPD_ERROR_ACK; connection->doneProcessing = 1; return; } name = strtok_r(output,":",&tok); if(name && (value = strtok_r(NULL,"",&tok)) && value[0]==' ') { connection->returnElement = mpd_newReturnElement(name,&(value[1])); } else { if(!name || !value) { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "error parsing: %s",output); } else { snprintf(connection->errorStr,MPD_BUFFER_MAX_LENGTH, "error parsing: %s:%s",name,value); } connection->errorStr[MPD_BUFFER_MAX_LENGTH] = '\0'; connection->error = 1; } } void mpd_finishCommand(mpd_Connection * connection) { while(!connection->doneProcessing) mpd_getNextReturnElement(connection); } mpd_Status * mpd_getStatus(mpd_Connection * connection) { mpd_Status * status; mpd_executeCommand(connection,"status\n"); if(connection->error) return NULL; status = malloc(sizeof(mpd_Status)); status->volume = -1; status->repeat = 0; status->random = 0; status->playlist = -1; status->playlistLength = -1; status->state = -1; status->song = 0; status->elapsedTime = 0; status->totalTime = 0; status->bitRate = 0; status->sampleRate = 0; status->bits = 0; status->channels = 0; status->crossfade = -1; status->error = NULL; mpd_getNextReturnElement(connection); if(connection->error) { free(status); return NULL; } while(connection->returnElement) { mpd_ReturnElement * re = connection->returnElement; if(strcmp(re->name,"volume")==0) { status->volume = atoi(re->value); } else if(strcmp(re->name,"repeat")==0) { status->repeat = atoi(re->value); } else if(strcmp(re->name,"random")==0) { status->random = atoi(re->value); } else if(strcmp(re->name,"playlist")==0) { status->playlist = strtol(re->value,NULL,10); } else if(strcmp(re->name,"playlistlength")==0) { status->playlistLength = atoi(re->value); } else if(strcmp(re->name,"bitrate")==0) { status->bitRate = atoi(re->value); } else if(strcmp(re->name,"state")==0) { if(strcmp(re->value,"play")==0) { status->state = MPD_STATUS_STATE_PLAY; } else if(strcmp(re->value,"stop")==0) { status->state = MPD_STATUS_STATE_STOP; } else if(strcmp(re->value,"pause")==0) { status->state = MPD_STATUS_STATE_PAUSE; } else { status->state = MPD_STATUS_STATE_UNKNOWN; } } else if(strcmp(re->name,"song")==0) { status->song = atoi(re->value); } else if(strcmp(re->name,"time")==0) { char * tok; char * copy; copy = strdup(re->value); status->elapsedTime = atoi(strtok_r(copy,":",&tok)); status->totalTime = atoi(strtok_r(NULL,"",&tok)); free(copy); } else if(strcmp(re->name,"error")==0) { status->error = strdup(re->value); } else if(strcmp(re->name,"xfade")==0) { status->crossfade = atoi(re->value); } else if(strcmp(re->name,"audio")==0) { char * tok; char * copy; copy = strdup(re->value); status->sampleRate = atoi(strtok_r(copy,":",&tok)); status->bits = atoi(strtok_r(NULL,":",&tok)); status->channels = atoi(strtok_r(NULL,"",&tok)); free(copy); } mpd_getNextReturnElement(connection); if(connection->error) { free(status); return NULL; } } if(connection->error) { free(status); return NULL; } else if(status->state<0) { strcpy(connection->errorStr,"state not found"); connection->error = 1; free(status); return NULL; } return status; } void mpd_freeStatus(mpd_Status * status) { if(status->error) free(status->error); free(status); } mpd_Stats * mpd_getStats(mpd_Connection * connection) { mpd_Stats * stats; mpd_executeCommand(connection,"stats\n"); if(connection->error) return NULL; stats = malloc(sizeof(mpd_Stats)); stats->numberOfArtists = 0; stats->numberOfAlbums = 0; stats->numberOfSongs = 0; stats->uptime = 0; stats->dbUpdateTime = 0; stats->playTime = 0; stats->dbPlayTime = 0; mpd_getNextReturnElement(connection); if(connection->error) { free(stats); return NULL; } while(connection->returnElement) { mpd_ReturnElement * re = connection->returnElement; if(strcmp(re->name,"artists")==0) { stats->numberOfArtists = atoi(re->value); } else if(strcmp(re->name,"albums")==0) { stats->numberOfAlbums = atoi(re->value); } else if(strcmp(re->name,"songs")==0) { stats->numberOfSongs = atoi(re->value); } else if(strcmp(re->name,"uptime")==0) { stats->uptime = strtol(re->value,NULL,10); } else if(strcmp(re->name,"db_update")==0) { stats->dbUpdateTime = strtol(re->value,NULL,10); } else if(strcmp(re->name,"playtime")==0) { stats->playTime = strtol(re->value,NULL,10); } else if(strcmp(re->name,"db_playtime")==0) { stats->dbPlayTime = strtol(re->value,NULL,10); } mpd_getNextReturnElement(connection); if(connection->error) { free(stats); return NULL; } } if(connection->error) { free(stats); return NULL; } return stats; } void mpd_freeStats(mpd_Stats * stats) { free(stats); } void mpd_initSong(mpd_Song * song) { song->file = NULL; song->artist = NULL; song->album = NULL; song->track = NULL; song->title = NULL; song->time = MPD_SONG_NO_TIME; } void mpd_finishSong(mpd_Song * song) { if(song->file) free(song->file); if(song->artist) free(song->artist); if(song->album) free(song->album); if(song->title) free(song->title); if(song->track) free(song->track); } mpd_Song * mpd_newSong() { mpd_Song * ret = malloc(sizeof(mpd_Song)); mpd_initSong(ret); return ret; } void mpd_freeSong(mpd_Song * song) { mpd_finishSong(song); free(song); } mpd_Song * mpd_songDup(mpd_Song * song) { mpd_Song * ret = mpd_newSong(); if(song->file) ret->file = strdup(song->file); if(song->artist) ret->artist = strdup(song->artist); if(song->album) ret->album = strdup(song->album); if(song->title) ret->title = strdup(song->title); if(song->track) ret->track = strdup(song->track); ret->time = song->time; return ret; } void mpd_initDirectory(mpd_Directory * directory) { directory->path = NULL; } void mpd_finishDirectory(mpd_Directory * directory) { if(directory->path) free(directory->path); } mpd_Directory * mpd_newDirectory () { mpd_Directory * directory = malloc(sizeof(mpd_Directory));; mpd_initDirectory(directory); return directory; } void mpd_freeDirectory(mpd_Directory * directory) { mpd_finishDirectory(directory); free(directory); } mpd_Directory * mpd_directoryDup(mpd_Directory * directory) { mpd_Directory * ret = mpd_newDirectory(); if(directory->path) ret->path = strdup(directory->path); return ret; } void mpd_initPlaylistFile(mpd_PlaylistFile * playlist) { playlist->path = NULL; } void mpd_finishPlaylistFile(mpd_PlaylistFile * playlist) { if(playlist->path) free(playlist->path); } mpd_PlaylistFile * mpd_newPlaylistFile() { mpd_PlaylistFile * playlist = malloc(sizeof(mpd_PlaylistFile)); mpd_initPlaylistFile(playlist); return playlist; } void mpd_freePlaylistFile(mpd_PlaylistFile * playlist) { mpd_finishPlaylistFile(playlist); free(playlist); } mpd_PlaylistFile * mpd_playlistFileDup(mpd_PlaylistFile * playlist) { mpd_PlaylistFile * ret = mpd_newPlaylistFile(); if(playlist->path) ret->path = strdup(playlist->path); return ret; } void mpd_initInfoEntity(mpd_InfoEntity * entity) { entity->info.directory = NULL; } void mpd_finishInfoEntity(mpd_InfoEntity * entity) { if(entity->info.directory) { if(entity->type == MPD_INFO_ENTITY_TYPE_DIRECTORY) { mpd_freeDirectory(entity->info.directory); } else if(entity->type == MPD_INFO_ENTITY_TYPE_SONG) { mpd_freeSong(entity->info.song); } else if(entity->type == MPD_INFO_ENTITY_TYPE_PLAYLISTFILE) { mpd_freePlaylistFile(entity->info.playlistFile); } } } mpd_InfoEntity * mpd_newInfoEntity() { mpd_InfoEntity * entity = malloc(sizeof(mpd_InfoEntity)); mpd_initInfoEntity(entity); return entity; } void mpd_freeInfoEntity(mpd_InfoEntity * entity) { mpd_finishInfoEntity(entity); free(entity); } void mpd_sendInfoCommand(mpd_Connection * connection, char * command) { mpd_executeCommand(connection,command); } mpd_InfoEntity * mpd_getNextInfoEntity(mpd_Connection * connection) { mpd_InfoEntity * entity = NULL; if(connection->doneProcessing) return NULL; if(!connection->returnElement) mpd_getNextReturnElement(connection); if(connection->returnElement) { if(strcmp(connection->returnElement->name,"file")==0) { entity = mpd_newInfoEntity(); entity->type = MPD_INFO_ENTITY_TYPE_SONG; entity->info.song = mpd_newSong(); entity->info.song->file = strdup(connection->returnElement->value); } else if(strcmp(connection->returnElement->name, "directory")==0) { entity = mpd_newInfoEntity(); entity->type = MPD_INFO_ENTITY_TYPE_DIRECTORY; entity->info.directory = mpd_newDirectory(); entity->info.directory->path = strdup(connection->returnElement->value); } else if(strcmp(connection->returnElement->name,"playlist")==0) { entity = mpd_newInfoEntity(); entity->type = MPD_INFO_ENTITY_TYPE_PLAYLISTFILE; entity->info.playlistFile = mpd_newPlaylistFile(); entity->info.playlistFile->path = strdup(connection->returnElement->value); } else { connection->error = 1; strcpy(connection->errorStr,"problem parsing song info"); return NULL; } } else return NULL; mpd_getNextReturnElement(connection); while(connection->returnElement) { mpd_ReturnElement * re = connection->returnElement; if(strcmp(re->name,"file")==0) return entity; else if(strcmp(re->name,"directory")==0) return entity; else if(strcmp(re->name,"playlist")==0) return entity; if(entity->type == MPD_INFO_ENTITY_TYPE_SONG && strlen(re->value)) { if(!entity->info.song->artist && strcmp(re->name,"Artist")==0) { entity->info.song->artist = strdup(re->value); } else if(!entity->info.song->album && strcmp(re->name,"Album")==0) { entity->info.song->album = strdup(re->value); } else if(!entity->info.song->title && strcmp(re->name,"Title")==0) { entity->info.song->title = strdup(re->value); } else if(!entity->info.song->track && strcmp(re->name,"Track")==0) { entity->info.song->track = strdup(re->value); } else if(entity->info.song->time==MPD_SONG_NO_TIME && strcmp(re->name,"Time")==0) { entity->info.song->time = atoi(re->value); } } else if(entity->type == MPD_INFO_ENTITY_TYPE_DIRECTORY) { } else if(entity->type == MPD_INFO_ENTITY_TYPE_PLAYLISTFILE) { } mpd_getNextReturnElement(connection); } return entity; } char * mpd_getNextReturnElementNamed(mpd_Connection * connection, const char * name) { if(connection->doneProcessing) return NULL; mpd_getNextReturnElement(connection); while(connection->returnElement) { mpd_ReturnElement * re = connection->returnElement; if(strcmp(re->name,name)==0) return strdup(re->value); mpd_getNextReturnElement(connection); } return NULL; } char * mpd_getNextArtist(mpd_Connection * connection) { return mpd_getNextReturnElementNamed(connection,"Artist"); } char * mpd_getNextAlbum(mpd_Connection * connection) { return mpd_getNextReturnElementNamed(connection,"Album"); } void mpd_sendPlaylistInfoCommand(mpd_Connection * connection, int songNum) { char * string = malloc(strlen("playlistinfo")+25); sprintf(string,"playlistinfo \"%i\"\n",songNum); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendListallCommand(mpd_Connection * connection, const char * dir) { char * sDir = mpd_sanitizeArg(dir); char * string = malloc(strlen("listall")+strlen(sDir)+5); sprintf(string,"listall \"%s\"\n",sDir); mpd_sendInfoCommand(connection,string); free(string); free(sDir); } void mpd_sendListallInfoCommand(mpd_Connection * connection, const char * dir) { char * sDir = mpd_sanitizeArg(dir); char * string = malloc(strlen("listallinfo")+strlen(sDir)+5); sprintf(string,"listallinfo \"%s\"\n",sDir); mpd_sendInfoCommand(connection,string); free(string); free(sDir); } void mpd_sendLsInfoCommand(mpd_Connection * connection, const char * dir) { char * sDir = mpd_sanitizeArg(dir); char * string = malloc(strlen("lsinfo")+strlen(sDir)+5); sprintf(string,"lsinfo \"%s\"\n",sDir); mpd_sendInfoCommand(connection,string); free(string); free(sDir); } void mpd_sendSearchCommand(mpd_Connection * connection, int table, const char * str) { char st[10]; char * string; char * sanitStr = mpd_sanitizeArg(str); if(table == MPD_TABLE_ARTIST) strcpy(st,"artist"); else if(table == MPD_TABLE_ALBUM) strcpy(st,"album"); else if(table == MPD_TABLE_TITLE) strcpy(st,"title"); else if(table == MPD_TABLE_FILENAME) strcpy(st,"filename"); else { connection->error = 1; strcpy(connection->errorStr,"unknown table for search"); return; } string = malloc(strlen("search")+strlen(sanitStr)+strlen(st)+6); sprintf(string,"search %s \"%s\"\n",st,sanitStr); mpd_sendInfoCommand(connection,string); free(string); free(sanitStr); } void mpd_sendFindCommand(mpd_Connection * connection, int table, const char * str) { char st[10]; char * string; char * sanitStr = mpd_sanitizeArg(str); if(table == MPD_TABLE_ARTIST) strcpy(st,"artist"); else if(table == MPD_TABLE_ALBUM) strcpy(st,"album"); else if(table == MPD_TABLE_TITLE) strcpy(st,"title"); else { connection->error = 1; strcpy(connection->errorStr,"unknown table for find"); return; } string = malloc(strlen("find")+strlen(sanitStr)+strlen(st)+6); sprintf(string,"find %s \"%s\"\n",st,sanitStr); mpd_sendInfoCommand(connection,string); free(string); free(sanitStr); } void mpd_sendListCommand(mpd_Connection * connection, int table, const char * arg1) { char st[10]; char * string; if(table == MPD_TABLE_ARTIST) strcpy(st,"artist"); else if(table == MPD_TABLE_ALBUM) strcpy(st,"album"); else { connection->error = 1; strcpy(connection->errorStr,"unknown table for list"); return; } if(arg1) { char * sanitArg1 = mpd_sanitizeArg(arg1); string = malloc(strlen("list")+strlen(sanitArg1)+strlen(st)+6); sprintf(string,"list %s \"%s\"\n",st,sanitArg1); free(sanitArg1); } else { string = malloc(strlen("list")+strlen(st)+3); sprintf(string,"list %s\n",st); } mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendAddCommand(mpd_Connection * connection, const char * file) { char * sFile = mpd_sanitizeArg(file); char * string = malloc(strlen("add")+strlen(sFile)+5); sprintf(string,"add \"%s\"\n",sFile); mpd_executeCommand(connection,string); free(string); free(sFile); } void mpd_sendDeleteCommand(mpd_Connection * connection, int songNum) { char * string = malloc(strlen("delete")+25); sprintf(string,"delete \"%i\"\n",songNum); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendSaveCommand(mpd_Connection * connection, const char * name) { char * sName = mpd_sanitizeArg(name); char * string = malloc(strlen("save")+strlen(sName)+5); sprintf(string,"save \"%s\"\n",sName); mpd_executeCommand(connection,string); free(string); free(sName); } void mpd_sendLoadCommand(mpd_Connection * connection, const char * name) { char * sName = mpd_sanitizeArg(name); char * string = malloc(strlen("load")+strlen(sName)+5); sprintf(string,"load \"%s\"\n",sName); mpd_executeCommand(connection,string); free(string); free(sName); } void mpd_sendRmCommand(mpd_Connection * connection, const char * name) { char * sName = mpd_sanitizeArg(name); char * string = malloc(strlen("rm")+strlen(sName)+5); sprintf(string,"rm \"%s\"\n",sName); mpd_executeCommand(connection,string); free(string); free(sName); } void mpd_sendShuffleCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"shuffle\n"); } void mpd_sendClearCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"clear\n"); } void mpd_sendPlayCommand(mpd_Connection * connection, int songNum) { char * string = malloc(strlen("play")+25); sprintf(string,"play \"%i\"\n",songNum); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendStopCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"stop\n"); } void mpd_sendPauseCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"pause\n"); } void mpd_sendNextCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"next\n"); } void mpd_sendMoveCommand(mpd_Connection * connection, int from, int to) { char * string = malloc(strlen("move")+25); sprintf(string,"move \"%i\" \"%i\"\n",from,to); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendSwapCommand(mpd_Connection * connection, int song1, int song2) { char * string = malloc(strlen("swap")+25); sprintf(string,"swap \"%i\" \"%i\"\n",song1,song2); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendSeekCommand(mpd_Connection * connection, int song, int time) { char * string = malloc(strlen("seek")+25); sprintf(string,"seek \"%i\" \"%i\"\n",song,time); mpd_sendInfoCommand(connection,string); free(string); } void mpd_sendUpdateCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"update\n"); } void mpd_sendPrevCommand(mpd_Connection * connection) { mpd_executeCommand(connection,"previous\n"); } void mpd_sendRepeatCommand(mpd_Connection * connection, int repeatMode) { char * string = malloc(strlen("repeat")+25); sprintf(string,"repeat \"%i\"\n",repeatMode); mpd_executeCommand(connection,string); free(string); } void mpd_sendRandomCommand(mpd_Connection * connection, int randomMode) { char * string = malloc(strlen("random")+25); sprintf(string,"random \"%i\"\n",randomMode); mpd_executeCommand(connection,string); free(string); } void mpd_sendSetvolCommand(mpd_Connection * connection, int volumeChange) { char * string = malloc(strlen("setvol")+25); sprintf(string,"setvol \"%i\"\n",volumeChange); //sprintf(string,"setvol %i\n",volumeChange); mpd_executeCommand(connection,string); free(string); } void mpd_sendVolumeCommand(mpd_Connection * connection, int volumeChange) { char * string = malloc(strlen("volume")+25); sprintf(string,"volume \"%i\"\n",volumeChange); mpd_executeCommand(connection,string); free(string); } void mpd_sendCrossfadeCommand(mpd_Connection * connection, int seconds) { char * string = malloc(strlen("crossfade")+25); sprintf(string,"crossfade \"%i\"\n",seconds); mpd_executeCommand(connection,string); free(string); } void mpd_sendPasswordCommand(mpd_Connection * connection, const char * pass) { char * sPass = mpd_sanitizeArg(pass); char * string = malloc(strlen("password")+strlen(sPass)+5); sprintf(string,"password \"%s\"\n",sPass); mpd_executeCommand(connection,string); free(string); free(sPass); } void mpd_sendCommandListBegin(mpd_Connection * connection) { if(connection->commandList) { strcpy(connection->errorStr,"already in command list mode"); connection->error = 1; return; } connection->commandList = 1; mpd_executeCommand(connection,"command_list_begin\n"); } void mpd_sendCommandListEnd(mpd_Connection * connection) { if(!connection->commandList) { strcpy(connection->errorStr,"not in command list mode"); connection->error = 1; return; } connection->commandList = 0; mpd_executeCommand(connection,"command_list_end\n"); }