/* * CDDB HTTP protocol * by Bertrand Baudet * (C) 2002, MPlayer team. * * Implementation follow the freedb.howto1.06.txt specification * from http://freedb.freedb.org * * discid computation by Jeremy D. Zawodny * Copyright (c) 1998-2000 Jeremy D. Zawodny * Code release under GPL * * TODO: * * do a xmcd parser */ #include "config.h" #if defined(HAVE_CDDA) && defined(STREAMING) #include #include #include #include #include #include #include #include #include #include #include #if defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) || defined(__bsdi__) #define SYS_BSD 1 #endif #if defined(__linux__) #include #elif defined(SYS_BSD) #include #endif #include "../version.h" #include "stream.h" #include "network.h" #define DEFAULT_FREEDB_SERVER "freedb.freedb.org" #define DEFAULT_CACHE_DIR "/.cddb/" stream_t* open_cdda(char *dev, char *track); typedef struct { char cddb_hello[1024]; unsigned long disc_id; unsigned int tracks; char *cache_dir; char *freedb_server; int freedb_proto_level; char category[100]; char *xmcd_file; size_t xmcd_file_size; void *user_data; } cddb_data_t; struct toc { int min, sec, frame; } cdtoc[100]; #if defined(__linux__) int read_toc(void) { int drive = open("/dev/cdrom", O_RDONLY | O_NONBLOCK); struct cdrom_tochdr tochdr; struct cdrom_tocentry tocentry; int i; ioctl(drive, CDROMREADTOCHDR, &tochdr); for (i = tochdr.cdth_trk0; i <= tochdr.cdth_trk1; i++) { tocentry.cdte_track = i; tocentry.cdte_format = CDROM_MSF; ioctl(drive, CDROMREADTOCENTRY, &tocentry); cdtoc[i-1].min = tocentry.cdte_addr.msf.minute; cdtoc[i-1].sec = tocentry.cdte_addr.msf.second; cdtoc[i-1].frame = tocentry.cdte_addr.msf.frame; cdtoc[i-1].frame += cdtoc[i-1].min*60*75; cdtoc[i-1].frame += cdtoc[i-1].sec*75; } tocentry.cdte_track = 0xAA; tocentry.cdte_format = CDROM_MSF; ioctl(drive, CDROMREADTOCENTRY, &tocentry); cdtoc[tochdr.cdth_trk1].min = tocentry.cdte_addr.msf.minute; cdtoc[tochdr.cdth_trk1].sec = tocentry.cdte_addr.msf.second; cdtoc[tochdr.cdth_trk1].frame = tocentry.cdte_addr.msf.frame; cdtoc[tochdr.cdth_trk1].frame += cdtoc[tochdr.cdth_trk1].min*60*75; cdtoc[tochdr.cdth_trk1].frame += cdtoc[tochdr.cdth_trk1].sec*75; close(drive); return tochdr.cdth_trk1; } #elif defined(SYS_BSD) int read_toc(void) { int drive = open("/dev/acd0c", O_RDONLY | O_NONBLOCK); struct ioc_toc_header tochdr; struct ioc_read_toc_single_entry tocentry; int i; ioctl(drive, CDIOREADTOCHEADER, &tochdr); for (i = tochdr.starting_track; i <= tochdr.ending_track; i++) { tocentry.track = i; tocentry.address_format = CD_MSF_FORMAT; ioctl(drive, CDIOREADTOCENTRY, &tocentry); cdtoc[i-1].min = tocentry.entry.addr.msf.minute; cdtoc[i-1].sec = tocentry.entry.addr.msf.second; cdtoc[i-1].frame = tocentry.entry.addr.msf.frame; cdtoc[i-1].frame += cdtoc[i-1].min*60*75; cdtoc[i-1].frame += cdtoc[i-1].sec*75; } tocentry.track = 0xAA; tocentry.address_format = CD_MSF_FORMAT; ioctl(drive, CDIOREADTOCENTRY, &tocentry); cdtoc[tochdr.ending_track].min = tocentry.entry.addr.msf.minute; cdtoc[tochdr.ending_track].sec = tocentry.entry.addr.msf.second; cdtoc[tochdr.ending_track].frame = tocentry.entry.addr.msf.frame; cdtoc[tochdr.ending_track].frame += cdtoc[tochdr.ending_track].min*60*75; cdtoc[tochdr.ending_track].frame += cdtoc[tochdr.ending_track].sec*75; close(drive); return tochdr.ending_track; } #endif unsigned int cddb_sum(int n) { unsigned int ret; ret = 0; while (n > 0) { ret += (n % 10); n /= 10; } return ret; } unsigned long cddb_discid(int tot_trks) { unsigned int i, t = 0, n = 0; i = 0; while (i < tot_trks) { n = n + cddb_sum((cdtoc[i].min * 60) + cdtoc[i].sec); i++; } t = ((cdtoc[tot_trks].min * 60) + cdtoc[tot_trks].sec) - ((cdtoc[0].min * 60) + cdtoc[0].sec); return ((n % 0xff) << 24 | t << 8 | tot_trks); } int cddb_http_request(char *command, int (*reply_parser)(HTTP_header_t*,cddb_data_t*), cddb_data_t *cddb_data) { char request[4096]; int fd, ret = 0; URL_t *url; HTTP_header_t *http_hdr; if( reply_parser==NULL || command==NULL || cddb_data==NULL ) return -1; sprintf( request, "http://%s/~cddb/cddb.cgi?cmd=%s%s&proto=%d", cddb_data->freedb_server, command, cddb_data->cddb_hello, cddb_data->freedb_proto_level ); printf("Request[%s]\n", request ); url = url_new(request); if( url==NULL ) { printf("Not a valid URL\n"); return -1; } fd = http_send_request(url); if( fd<0 ) { printf("failed to send the http request\n"); return -1; } http_hdr = http_read_response( fd ); if( http_hdr==NULL ) { printf("Failed to read the http response\n"); return -1; } http_debug_hdr(http_hdr); printf("body=[%s]\n", http_hdr->body ); switch(http_hdr->status_code) { case 200: ret = reply_parser(http_hdr, cddb_data); break; case 400: printf("Not Found\n"); break; default: printf("Unknown Error code\n"); } http_free( http_hdr ); url_free( url ); return ret; } int cddb_read_cache(cddb_data_t *cddb_data) { char file_name[100]; struct stat stats; int file_fd, ret; size_t file_size; if( cddb_data==NULL || cddb_data->cache_dir==NULL ) return -1; sprintf( file_name, "%s%08lx", cddb_data->cache_dir, cddb_data->disc_id); file_fd = open(file_name, O_RDONLY); if( file_fd<0 ) { printf("No cache found\n"); return -1; } ret = fstat( file_fd, &stats ); if( ret<0 ) { perror("fstat"); file_size = 4096; } else { file_size = stats.st_size; } cddb_data->xmcd_file = (char*)malloc(file_size); if( cddb_data->xmcd_file==NULL ) { printf("Memory allocation failed\n"); close(file_fd); return -1; } cddb_data->xmcd_file_size = read(file_fd, cddb_data->xmcd_file, file_size); if( cddb_data->xmcd_file_size!=file_size ) { printf("Not all the xmcd file has been read\n"); close(file_fd); return -1; } close(file_fd); return 0; } int cddb_write_cache(cddb_data_t *cddb_data) { // We have the file, save it for cache. char file_name[100]; int file_fd; size_t wrote=0; if( cddb_data==NULL || cddb_data->cache_dir==NULL ) return -1; sprintf( file_name, "%s%08lx", cddb_data->cache_dir, cddb_data->disc_id); file_fd = creat(file_name, S_IREAD|S_IWRITE); if( file_fd<0 ) { perror("open"); return -1; } wrote = write(file_fd, cddb_data->xmcd_file, cddb_data->xmcd_file_size); if( wrote<0 ) { perror("write"); close(file_fd); return -1; } if( wrote!=cddb_data->xmcd_file_size ) { printf("Not all the xmcd file has been written\n"); close(file_fd); return -1; } close(file_fd); return 0; } int cddb_read_parse(HTTP_header_t *http_hdr, cddb_data_t *cddb_data) { unsigned long disc_id; char category[100]; char *ptr=NULL, *ptr2=NULL; int ret, status; if( http_hdr==NULL || cddb_data==NULL ) return -1; ret = sscanf( http_hdr->body, "%d ", &status); if( ret!=1 ) { printf("Parse error\n"); return -1; } switch(status) { case 210: ret = sscanf( http_hdr->body, "%d %s %08lx", &status, category, &disc_id); if( ret!=3 ) { printf("Parse error\n"); return -1; } // Check if it's a xmcd database file ptr = strstr(http_hdr->body, "# xmcd"); if( ptr==NULL ) { printf("Invalid xmcd database file returned\n"); return -1; } // Ok found the beginning of the file // look for the end ptr2 = strstr(ptr, "\r\n.\r\n"); if( ptr2==NULL ) { ptr2 = strstr(ptr, "\n.\n"); if( ptr2==NULL ) { printf("Unable to find '.'\n"); return -1; } } // Ok found the end // do a sanity check if( http_hdr->body_size<(ptr2-ptr) ) { printf("Unexpected fix me\n"); return -1; } cddb_data->xmcd_file = ptr; cddb_data->xmcd_file_size = ptr2-ptr+2; cddb_data->xmcd_file[cddb_data->xmcd_file_size] = '\0'; // Avoid the http_free function to free the xmcd file...save a mempcy... http_hdr->body = NULL; http_hdr->body_size = 0; return cddb_write_cache(cddb_data); default: printf("Unhandled code\n"); } return 0; } int cddb_request_titles(cddb_data_t *cddb_data) { char command[1024]; sprintf( command, "cddb+read+%s+%08lx", cddb_data->category, cddb_data->disc_id); return cddb_http_request(command, cddb_read_parse, cddb_data); } int cddb_query_parse(HTTP_header_t *http_hdr, cddb_data_t *cddb_data) { char album_title[100]; char *ptr = NULL; int ret, status; ret = sscanf( http_hdr->body, "%d ", &status); if( ret!=1 ) { printf("Parse error\n"); return -1; } switch(status) { case 200: // Found exact match ret = sscanf(http_hdr->body, "%d %s %08lx %s", &status, cddb_data->category, &(cddb_data->disc_id), album_title); if( ret!=4 ) { printf("Parse error\n"); return -1; } ptr = strstr(http_hdr->body, album_title); if( ptr!=NULL ) { char *ptr2; int len; ptr2 = strstr(ptr, "\n"); if( ptr2==NULL ) { len = (http_hdr->body_size)-(ptr-(http_hdr->body)); } else { len = ptr2-ptr+1; } strncpy(album_title, ptr, len); album_title[len-2]='\0'; } printf("Parse OK, found: %s\n", album_title); return cddb_request_titles(cddb_data); case 202: // No match found printf("Album not found\n"); break; case 210: // Found exact matches, list follows ptr = strstr(http_hdr->body, "\n"); if( ptr==NULL ) { printf("Unable to find end of line\n"); return -1; } ptr++; // We have a list of exact matches, so which one do // we use? So let's take the first one. ret = sscanf(ptr, "%s %08lx %s", cddb_data->category, &(cddb_data->disc_id), album_title); if( ret!=3 ) { printf("Parse error\n"); return -1; } ptr = strstr(http_hdr->body, album_title); if( ptr!=NULL ) { char *ptr2; int len; ptr2 = strstr(ptr, "\n"); if( ptr2==NULL ) { len = (http_hdr->body_size)-(ptr-(http_hdr->body)); } else { len = ptr2-ptr+1; } strncpy(album_title, ptr, len); album_title[len-2]='\0'; } printf("Parse OK, found: %s\n", album_title); return cddb_request_titles(cddb_data); /* body=[210 Found exact matches, list follows (until terminating `.') misc c711930d Santana / Supernatural rock c711930d Santana / Supernatural blues c711930d Santana / Supernatural .] */ case 211: // Found inexact matches, list follows printf("No exact matches found, list follows\n"); break; default: printf("Unhandled code\n"); } return -1; } int cddb_proto_level_parse(HTTP_header_t *http_hdr, cddb_data_t *cddb_data) { int max; int ret, status; char *ptr; ret = sscanf( http_hdr->body, "%d ", &status); if( ret!=1 ) { printf("Parse error\n"); return -1; } switch(status) { case 210: ptr = strstr(http_hdr->body, "max proto:"); if( ptr==NULL ) { printf("Parse error\n"); return -1; } ret = sscanf(ptr, "max proto: %d", &max); if( ret!=1 ) { printf("Parse error\n"); return -1; } cddb_data->freedb_proto_level = max; return 0; default: printf("Unhandled code\n"); } return -1; } int cddb_get_proto_level(cddb_data_t *cddb_data) { return cddb_http_request("stat", cddb_proto_level_parse, cddb_data); } int cddb_freedb_sites_parse(HTTP_header_t *http_hdr, cddb_data_t *cddb_data) { int ret, status; ret = sscanf( http_hdr->body, "%d ", &status); if( ret!=1 ) { printf("Parse error\n"); return -1; } switch(status) { case 210: // Parse the sites return 0; case 401: printf("No sites information available\n"); break; default: printf("Unhandled code\n"); } return -1; } int cddb_get_freedb_sites(cddb_data_t *cddb_data) { return cddb_http_request("sites", cddb_freedb_sites_parse, cddb_data); } void cddb_create_hello(cddb_data_t *cddb_data) { char host_name[51]; char *user_name; if( gethostname(host_name, 50)<0 ) { strcpy(host_name, "localhost"); } user_name = getenv("LOGNAME"); sprintf( cddb_data->cddb_hello, "&hello=%s+%s+%s+%s", user_name, host_name, "MPlayer", VERSION ); } int cddb_retrieve(cddb_data_t *cddb_data) { char offsets[1024], command[1024]; char *ptr; int i, time_len; ptr = offsets; for( i=0; itracks ; i++ ) { ptr += sprintf(ptr, "%d+", cdtoc[i].frame ); } time_len = (cdtoc[cddb_data->tracks].frame)/75; cddb_data->freedb_server = DEFAULT_FREEDB_SERVER; cddb_data->freedb_proto_level = 1; cddb_data->xmcd_file = NULL; cddb_create_hello(cddb_data); if( cddb_get_proto_level(cddb_data)<0 ) { printf("Failed to get the protocol level\n"); return -1; } //cddb_get_freedb_sites(&cddb_data); sprintf(command, "cddb+query+%08lx+%d+%s%d", cddb_data->disc_id, cddb_data->tracks, offsets, time_len ); i = cddb_http_request(command, cddb_query_parse, cddb_data); if( i<0 ) return -1; if( cddb_data->cache_dir!=NULL ) { free(cddb_data->cache_dir); } return 0; } int cddb_resolve(char *xmcd_file) { char cddb_cache_dir[] = DEFAULT_CACHE_DIR; char *home_dir = NULL; cddb_data_t cddb_data; cddb_data.tracks = read_toc(); cddb_data.disc_id = cddb_discid(cddb_data.tracks); home_dir = getenv("HOME"); if( home_dir==NULL ) { cddb_data.cache_dir = NULL; } else { cddb_data.cache_dir = (char*)malloc(strlen(home_dir)+strlen(cddb_cache_dir)+1); if( cddb_data.cache_dir==NULL ) { printf("Memory allocation failed\n"); return -1; } sprintf(cddb_data.cache_dir, "%s%s", home_dir, cddb_cache_dir ); } // Check for a cached file if( cddb_read_cache(&cddb_data)<0 ) { // No Cache found if( cddb_retrieve(&cddb_data)<0 ) { return -1; } } if( cddb_data.xmcd_file!=NULL ) { printf("%s\n", cddb_data.xmcd_file ); xmcd_file = cddb_data.xmcd_file; } return 0; } stream_t* cddb_open(char *dev, char *track) { char *xmcd_file; cddb_resolve(xmcd_file); return open_cdda(dev, track); } #endif