/* the Music Player Daemon (MPD)
* (c)2003-2004 by Warren Dukes (shank@mercury.chem.pitt.edu)
* 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 "directory.h"
#include "ls.h"
#include "command.h"
#include "utils.h"
#include "path.h"
#include "log.h"
#include "conf.h"
#include "stats.h"
#include "playlist.h"
#include "listen.h"
#include "interface.h"
#include "volume.h"
#include "mpd_types.h"
#include "sig_handlers.h"
#include "player.h"
#include <string.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/wait.h>
#include <sys/stat.h>
#include <dirent.h>
#include <unistd.h>
#include <stdio.h>
#include <errno.h>
#include <signal.h>
#define DIRECTORY_DIR "directory: "
#define DIRECTORY_MTIME "mtime: "
#define DIRECTORY_BEGIN "begin: "
#define DIRECTORY_END "end: "
#define DIRECTORY_INFO_BEGIN "info_begin"
#define DIRECTORY_INFO_END "info_end"
#define DIRECTORY_MPD_VERSION "mpd_version: "
#define DIRECTORY_FS_CHARSET "fs_charset: "
#define DIRECTORY_SEARCH_ALBUM "album"
#define DIRECTORY_SEARCH_ARTIST "artist"
#define DIRECTORY_SEARCH_TITLE "title"
#define DIRECTORY_SEARCH_FILENAME "filename"
#define DIRECTORY_UPDATE_EXIT_NOUPDATE 0
#define DIRECTORY_UPDATE_EXIT_UPDATE 1
#define DIRECTORY_UPDATE_EXIT_ERROR 2
#define DIRECTORY_RETURN_NOUPDATE 0
#define DIRECTORY_RETURN_UPDATE 1
#define DIRECTORY_RETURN_ERROR -1
typedef List DirectoryList;
typedef struct _DirectoryStat {
ino_t inode;
dev_t device;
} DirectoryStat;
typedef struct _Directory {
char * utf8name;
DirectoryList * subDirectories;
SongList * songs;
struct _Directory * parent;
DirectoryStat * stat;
} Directory;
Directory * mp3rootDirectory = NULL;
char * directory_db;
time_t directory_dbModTime = 0;
volatile int directory_updatePid = 0;
volatile int directory_reReadDB = 0;
volatile mpd_uint16 directory_updateJobId = 0;
DirectoryList * newDirectoryList();
int addToDirectory(Directory * directory, char * shortname, char * name);
void freeDirectoryList(DirectoryList * list);
void freeDirectory(Directory * directory);
int exploreDirectory(Directory * directory);
int updateDirectory(Directory * directory);
void deleteEmptyDirectoriesInDirectory(Directory * directory);
void removeSongFromDirectory(Directory * directory, char * shortname);
int addSubDirectoryToDirectory(Directory * directory, char * shortname,
char * name, struct stat * st);
Directory * getDirectoryDetails(char * name, char ** shortname);
Directory * getDirectory(char * name);
Song * getSongDetails(char * file, char ** shortnameRet,
Directory ** directoryRet);
int updatePath(char * utf8path);
void sortDirectory(Directory * directory);
int inodeFoundInParent(Directory * parent, ino_t inode, dev_t device);
void clearUpdatePid() {
directory_updatePid = 0;
}
int isUpdatingDB() {
if(directory_updatePid>0 || directory_reReadDB) {
return directory_updateJobId;
}
return 0;
}
void directory_sigChldHandler(int pid, int status) {
if(directory_updatePid==pid) {
if(WIFSIGNALED(status) && WTERMSIG(status)!=SIGTERM) {
ERROR("update process died from a "
"non-TERM signal: %i\n",
WTERMSIG(status));
}
else if(!WIFSIGNALED(status)) {
switch(WEXITSTATUS(status))
{
case DIRECTORY_UPDATE_EXIT_UPDATE:
directory_reReadDB = 1;
DEBUG("direcotry_sigChldHandler: "
"updated db\n");
case DIRECTORY_UPDATE_EXIT_NOUPDATE:
DEBUG("direcotry_sigChldHandler: "
"update exitted succesffully\n");
break;
default:
ERROR("error updating db\n");
}
}
clearUpdatePid();
}
}
void readDirectoryDBIfUpdateIsFinished() {
if(directory_reReadDB && 0==directory_updatePid) {
DEBUG("readDirectoryDB since update finished successfully\n");
readDirectoryDB();
playlistVersionChange();
directory_reReadDB = 0;
}
}
int updateInit(FILE * fp, List * pathList) {
if(directory_updatePid > 0) {
commandError(fp, ACK_ERROR_UPDATE_ALREADY, "already updating",
NULL);
return -1;
}
/* need to block CHLD signal, cause it can exit before we
even get a chance to assign directory_updatePID */
blockSignals();
directory_updatePid = fork();
if(directory_updatePid==0) {
/* child */
int dbUpdated = 0;
clearPlayerPid();
unblockSignals();
finishSigHandlers();
close(listenSocket);
freeAllInterfaces();
finishPlaylist();
finishVolume();
if(pathList) {
ListNode * node = pathList->firstNode;
while(node) {
switch(updatePath(node->key)) {
case 1:
dbUpdated = 1;
break;
case 0:
break;
default:
exit(DIRECTORY_UPDATE_EXIT_ERROR);
}
node = node->nextNode;
}
}
else {
if((dbUpdated = updateDirectory(mp3rootDirectory))<0) {
exit(DIRECTORY_UPDATE_EXIT_ERROR);
}
}
if(!dbUpdated) exit(DIRECTORY_UPDATE_EXIT_NOUPDATE);
/* ignore signals since we don't want them to corrupt the db*/
ignoreSignals();
if(writeDirectoryDB()<0) {
ERROR("problems writing music db file, \"%s\"\n",
directory_db);
exit(DIRECTORY_UPDATE_EXIT_ERROR);
}
exit(DIRECTORY_UPDATE_EXIT_UPDATE);
}
else if(directory_updatePid < 0) {
unblockSignals();
ERROR("updateInit: Problems forking()'ing\n");
commandError(fp, ACK_ERROR_SYSTEM,
"problems trying to update", NULL);
directory_updatePid = 0;
return -1;
}
unblockSignals();
directory_updateJobId++;
if(directory_updateJobId > 1<<15) directory_updateJobId = 1;
DEBUG("updateInit: fork()'d update child for update job id %i\n",
(int)directory_updateJobId);
myfprintf(fp,"updating_db: %i\n",(int)directory_updateJobId);
return 0;
}
DirectoryStat * newDirectoryStat(struct stat * st) {
DirectoryStat * ret = malloc(sizeof(DirectoryStat));
ret->inode = st->st_ino;
ret->device = st->st_dev;
return ret;
}
void freeDirectoryStatFromDirectory(Directory * dir) {
if(dir->stat) free(dir->stat);
dir->stat = NULL;
}
Directory * newDirectory(char * dirname, Directory * parent) {
Directory * directory;
directory = malloc(sizeof(Directory));
if(dirname!=NULL) directory->utf8name = strdup(dirname);
else directory->utf8name = NULL;
directory->subDirectories = newDirectoryList();
directory->songs = newSongList();
directory->stat = NULL;
directory->parent = parent;
return directory;
}
void freeDirectory(Directory * directory) {
freeDirectoryList(directory->subDirectories);
freeSongList(directory->songs);
if(directory->utf8name) free(directory->utf8name);
freeDirectoryStatFromDirectory(directory);
free(directory);
}
DirectoryList * newDirectoryList() {
return makeList((ListFreeDataFunc *)freeDirectory);
}
void freeDirectoryList(DirectoryList * directoryList) {
freeList(directoryList);
}
void removeSongFromDirectory(Directory * directory, char * shortname) {
void * song;
if(findInList(directory->songs,shortname,&song)) {
LOG("removing: %s\n",((Song *)song)->utf8url);
deleteFromList(directory->songs,shortname);
}
}
void deleteEmptyDirectoriesInDirectory(Directory * directory) {
ListNode * node = directory->subDirectories->firstNode;
ListNode * nextNode;
Directory * subDir;
while(node) {
subDir = (Directory *)node->data;
deleteEmptyDirectoriesInDirectory(subDir);
nextNode = node->nextNode;
if(subDir->subDirectories->numberOfNodes==0 &&
subDir->songs->numberOfNodes==0)
{
deleteNodeFromList(directory->subDirectories,node);
}
node = nextNode;
}
}
/* return values:
-1 -> error
0 -> no error, but nothing updated
1 -> no error, and stuff updated
*/
int updateInDirectory(Directory * directory, char * shortname, char * name) {
void * song;
void * subDir;
struct stat st;
if(myStat(name, &st)) return -1;
if(S_ISREG(st.st_mode) && hasMusicSuffix(name)) {
if(0==findInList(directory->songs,shortname,&song)) {
addToDirectory(directory,shortname,name);
return DIRECTORY_RETURN_UPDATE;
}
else if(st.st_mtime!=((Song *)song)->mtime) {
LOG("updating %s\n",name);
if(updateSongInfo((Song *)song)<0) {
removeSongFromDirectory(directory,shortname);
}
return 1;
}
}
else if(S_ISDIR(st.st_mode)) {
if(findInList(directory->subDirectories,shortname,(void **)&subDir)) {
if(updateDirectory((Directory *)subDir)>0) return 1;
}
else {
return addSubDirectoryToDirectory(directory,shortname,
name, &st);
}
}
return 0;
}
/* return values:
-1 -> error
0 -> no error, but nothing removed
1 -> no error, and stuff removed
*/
int removeDeletedFromDirectory(Directory * directory, DIR * dir) {
char cwd[2];
struct dirent * ent;
char * dirname = directory->utf8name;
List * entList = makeList(free);
void * name;
char * s;
char * utf8;
ListNode * node;
ListNode * tmpNode;
int ret = 0;
cwd[0] = '.';
cwd[1] = '\0';
if(dirname==NULL) dirname=cwd;
while((ent = readdir(dir))) {
if(ent->d_name[0]=='.') continue; /* hide hidden stuff */
if(strchr(ent->d_name, '\n')) continue;
utf8 = fsCharsetToUtf8(ent->d_name);
if(!utf8) continue;
if(directory->utf8name) {
s = malloc(strlen(directory->utf8name)+strlen(utf8)+2);
sprintf(s,"%s/%s",directory->utf8name,utf8);
}
else s= strdup(utf8);
insertInList(entList,utf8,s);
}
node = directory->subDirectories->firstNode;
while(node) {
tmpNode = node->nextNode;
if(findInList(entList,node->key,&name)) {
if(!isDir((char *)name)) {
LOG("removing directory: %s\n",(char*)name);
deleteFromList(directory->subDirectories,
node->key);
ret = 1;
}
}
else {
LOG("removing directory: ");
if(directory->utf8name) LOG("%s/",directory->utf8name);
LOG("%s\n",node->key);
deleteFromList(directory->subDirectories,node->key);
ret = 1;
}
node = tmpNode;
}
node = directory->songs->firstNode;
while(node) {
tmpNode = node->nextNode;
if(findInList(entList,node->key,(void **)&name)) {
if(!isMusic(name,NULL)) {
removeSongFromDirectory(directory,node->key);
ret = 1;
}
}
else {
removeSongFromDirectory(directory,node->key);
ret = 1;
}
node = tmpNode;
}
freeList(entList);
return ret;
}
Directory * addDirectoryPathToDB(char * utf8path, char ** shortname) {
char * parent;
Directory * parentDirectory;
void * directory;
parent = strdup(parentPath(utf8path));
if(strlen(parent)==0) parentDirectory = (void *)mp3rootDirectory;
else parentDirectory = addDirectoryPathToDB(parent,shortname);
*shortname = utf8path+strlen(parent);
while(*(*shortname) && *(*shortname)=='/') (*shortname)++;
if(!findInList(parentDirectory->subDirectories,*shortname, &directory))
{
directory = newDirectory(utf8path, parentDirectory);
insertInList(parentDirectory->subDirectories,*shortname,
directory);
}
/* if we're adding directory paths, make sure to delete filenames
with potentially the same name*/
removeSongFromDirectory(parentDirectory,*shortname);
free(parent);
return (Directory *)parentDirectory;
}
Directory * addParentPathToDB(char * utf8path, char ** shortname) {
char * parent;
Directory * parentDirectory;
parent = strdup(parentPath(utf8path));
if(strlen(parent)==0) parentDirectory = (void *)mp3rootDirectory;
else parentDirectory = addDirectoryPathToDB(parent,shortname);
*shortname = utf8path+strlen(parent);
while(*(*shortname) && *(*shortname)=='/') (*shortname)++;
free(parent);
return (Directory *)parentDirectory;
}
/* return values:
-1 -> error
0 -> no error, but nothing updated
1 -> no error, and stuff updated
*/
int updatePath(char * utf8path) {
Directory * directory;
Directory * parentDirectory;
Song * song;
char * shortname;
char * path = sanitizePathDup(utf8path);
time_t mtime;
int ret = 0;
if(NULL==path) return -1;
/* if path is in the DB try to update it, or else delete it */
if((directory = getDirectoryDetails(path,&shortname))) {
parentDirectory = directory->parent;
/* if this update directory is successfull, we are done */
if((ret = updateDirectory(directory))>=0)
{
free(path);
sortDirectory(directory);
return ret;
}
/* we don't want to delete the root directory */
else if(directory == mp3rootDirectory) {
free(path);
return 0;
}
/* if updateDirectory fials, means we should delete it */
else {
LOG("removing directory: %s\n",path);
deleteFromList(parentDirectory->subDirectories,
shortname);
ret = 1;
/* don't return, path maybe a song now*/
}
}
else if((song = getSongDetails(path,&shortname,&parentDirectory))) {
/* if this song update is successfull, we are done */
if(song && isMusic(song->utf8url,&mtime)) {
free(path);
if(song->mtime==mtime) return 0;
else if(updateSongInfo(song)==0) return 1;
else {
removeSongFromDirectory(parentDirectory,
shortname);
return 1;
}
}
/* if updateDirectory fials, means we should delete it */
else {
removeSongFromDirectory(parentDirectory,shortname);
ret = 1;
/* don't return, path maybe a directory now*/
}
}
/* path not found in the db, see if it actually exists on the fs.
* Also, if by chance a directory was replaced by a file of the same
* name or vice versa, we need to add it to the db
*/
if(isDir(path) || isMusic(path,NULL)) {
parentDirectory = addParentPathToDB(path,&shortname);
if(addToDirectory(parentDirectory,shortname,path)>0) ret = 1;
}
free(path);
return ret;
}
/* return values:
-1 -> error
0 -> no error, but nothing updated
1 -> no error, and stuff updated
*/
int updateDirectory(Directory * directory) {
DIR * dir;
char cwd[2];
struct dirent * ent;
char * s;
char * utf8;
char * dirname = directory->utf8name;
int ret = 0;
cwd[0] = '.';
cwd[1] = '\0';
if(dirname==NULL) dirname=cwd;
if((dir = opendir(rmp2amp(utf8ToFsCharset(dirname))))==NULL) return -1;
if(removeDeletedFromDirectory(directory, dir)>0) ret = 1;
rewinddir(dir);
while((ent = readdir(dir))) {
if(ent->d_name[0]=='.') continue; /* hide hidden stuff */
if(strchr(ent->d_name, '\n')) continue;
utf8 = fsCharsetToUtf8(ent->d_name);
if(!utf8) continue;
utf8 = strdup(utf8);
if(directory->utf8name) {
s = malloc(strlen(directory->utf8name)+strlen(utf8)+2);
sprintf(s,"%s/%s",directory->utf8name,utf8);
}
else s = strdup(utf8);
if(updateInDirectory(directory,utf8,s)>0) ret = 1;
free(utf8);
free(s);
}
closedir(dir);
return ret;
}
/* return values:
-1 -> error
0 -> no error, but nothing found
1 -> no error, and stuff found
*/
int exploreDirectory(Directory * directory) {
DIR * dir;
char cwd[2];
struct dirent * ent;
char * s;
char * utf8;
char * dirname = directory->utf8name;
int ret = 0;
cwd[0] = '.';
cwd[1] = '\0';
if(dirname==NULL) dirname=cwd;
DEBUG("explore: attempting to opendir: %s\n",dirname);
if((dir = opendir(rmp2amp(utf8ToFsCharset(dirname))))==NULL) return -1;
DEBUG("explore: %s\n",dirname);
while((ent = readdir(dir))) {
if(ent->d_name[0]=='.') continue; /* hide hidden stuff */
if(strchr(ent->d_name, '\n')) continue;
utf8 = fsCharsetToUtf8(ent->d_name);
if(!utf8) continue;
utf8 = strdup(utf8);
DEBUG("explore: found: %s (%s)\n",ent->d_name,utf8);
if(directory->utf8name) {
s = malloc(strlen(directory->utf8name)+strlen(utf8)+2);
sprintf(s,"%s/%s",directory->utf8name,utf8);
}
else s = strdup(utf8);
if(addToDirectory(directory,utf8,s)>0) ret = 1;
free(utf8);
free(s);
}
closedir(dir);
return ret;
}
int statDirectory(Directory * dir) {
struct stat st;
if(myStat(dir->utf8name ? dir->utf8name : "", &st) < 0) return -1;
dir->stat = newDirectoryStat(&st);
return 0;
}
int inodeFoundInParent(Directory * parent, ino_t inode, dev_t device) {
while(parent) {
if(!parent->stat) {
if(statDirectory(parent) < 0) return -1;
}
if(parent->stat->inode == inode &&
parent->stat->device == device)
{
return 1;
}
parent = parent->parent;
}
return 0;
}
int addSubDirectoryToDirectory(Directory * directory, char * shortname,
char * name, struct stat * st)
{
Directory * subDirectory;
if(inodeFoundInParent(directory, st->st_ino, st->st_dev)) return 0;
subDirectory = newDirectory(name, directory);
subDirectory->stat = newDirectoryStat(st);
if(exploreDirectory(subDirectory)<1) {
freeDirectory(subDirectory);
return 0;
}
insertInList(directory->subDirectories,shortname,subDirectory);
return 1;
}
int addToDirectory(Directory * directory, char * shortname, char * name) {
struct stat st;
if(myStat(name, &st)) return -1;
if(S_ISREG(st.st_mode) && hasMusicSuffix(name)) {
Song * song;
song = addSongToList(directory->songs,shortname,name,
SONG_TYPE_FILE);
if(!song) return -1;
LOG("added %s\n",name);
return 1;
}
else if(S_ISDIR(st.st_mode)) {
return addSubDirectoryToDirectory(directory, shortname, name,
&st);
}
DEBUG("addToDirectory: %s is not a directory or music\n",name);
return -1;
}
void closeMp3Directory() {
freeDirectory(mp3rootDirectory);
}
Directory * findSubDirectory(Directory * directory,char * name) {
void * subDirectory;
char * dup = strdup(name);
char * key;
key = strtok(dup,"/");
if(!key) {
free(dup);
return NULL;
}
if(findInList(directory->subDirectories,key,&subDirectory)) {
free(dup);
return (Directory *)subDirectory;
}
free(dup);
return NULL;
}
Directory * getSubDirectory(Directory * directory, char * name,
char ** shortname)
{
Directory * subDirectory;
int len;
if(name==NULL || name[0]=='\0' || strcmp(name,"/")==0) {
return directory;
}
if((subDirectory = findSubDirectory(directory,name))==NULL) return NULL;
*shortname = name;
len = 0;
while(name[len]!='/' && name[len]!='\0') len++;
while(name[len]=='/') len++;
return getSubDirectory(subDirectory,&(name[len]),shortname);
}
Directory * getDirectoryDetails(char * name, char ** shortname) {
*shortname = NULL;
return getSubDirectory(mp3rootDirectory,name,shortname);
}
Directory * getDirectory(char * name) {
char * shortname;
return getSubDirectory(mp3rootDirectory,name,&shortname);
}
int printDirectoryList(FILE * fp, DirectoryList * directoryList) {
ListNode * node = directoryList->firstNode;
Directory * directory;
while(node!=NULL) {
directory = (Directory *)node->data;
myfprintf(fp,"%s%s\n",DIRECTORY_DIR,directory->utf8name);
node = node->nextNode;
}
return 0;
}
int printDirectoryInfo(FILE * fp, char * name) {
Directory * directory;
if((directory = getDirectory(name))==NULL) {
commandError(fp, ACK_ERROR_NO_EXIST, "directory not found",
NULL);
return -1;
}
printDirectoryList(fp,directory->subDirectories);
printSongInfoFromList(fp,directory->songs);
return 0;
}
void writeDirectoryInfo(FILE * fp, Directory * directory) {
ListNode * node = (directory->subDirectories)->firstNode;
Directory * subDirectory;
if(directory->utf8name) {
myfprintf(fp,"%s%s\n",DIRECTORY_BEGIN,directory->utf8name);
}
while(node!=NULL) {
subDirectory = (Directory *)node->data;
myfprintf(fp,"%s%s\n",DIRECTORY_DIR,node->key);
writeDirectoryInfo(fp,subDirectory);
node = node->nextNode;
}
writeSongInfoFromList(fp,directory->songs);
if(directory->utf8name) {
myfprintf(fp,"%s%s\n",DIRECTORY_END,directory->utf8name);
}
}
void readDirectoryInfo(FILE * fp,Directory * directory) {
char buffer[MAXPATHLEN*2];
int bufferSize = MAXPATHLEN*2;
char * key;
Directory * subDirectory;
char * name;
int strcmpRet;
ListNode * nextDirNode = directory->subDirectories->firstNode;
ListNode * nodeTemp;
while(myFgets(buffer,bufferSize,fp) && 0!=strncmp(DIRECTORY_END,buffer,strlen(DIRECTORY_END))) {
if(0==strncmp(DIRECTORY_DIR,buffer,strlen(DIRECTORY_DIR))) {
key = strdup(&(buffer[strlen(DIRECTORY_DIR)]));
if(myFgets(buffer,bufferSize,fp)<0) {
ERROR("Error reading db, fgets\n");
exit(EXIT_FAILURE);
}
/* for compatibility with db's prior to 0.11 */
if(0==strncmp(DIRECTORY_MTIME,buffer,
strlen(DIRECTORY_MTIME)))
{
if(myFgets(buffer,bufferSize,fp)<0) {
ERROR("Error reading db, fgets\n");
exit(EXIT_FAILURE);
}
}
if(strncmp(DIRECTORY_BEGIN,buffer,strlen(DIRECTORY_BEGIN))) {
ERROR("Error reading db at line: %s\n",buffer);
exit(EXIT_FAILURE);
}
name = strdup(&(buffer[strlen(DIRECTORY_BEGIN)]));
while(nextDirNode && (strcmpRet =
strcmp(key,nextDirNode->key)) > 0) {
nodeTemp = nextDirNode->nextNode;
deleteNodeFromList(directory->subDirectories,
nextDirNode);
nextDirNode = nodeTemp;
}
if(NULL==nextDirNode) {
subDirectory = newDirectory(name, directory);
insertInList(directory->subDirectories,key,
(void *)subDirectory);
}
else if(strcmpRet == 0) {
subDirectory = (Directory *)nextDirNode->data;
nextDirNode = nextDirNode->nextNode;
}
else {
subDirectory = newDirectory(name, directory);
insertInListBeforeNode(
directory->subDirectories,
nextDirNode,
key,
(void *)subDirectory);
}
free(key);
free(name);
readDirectoryInfo(fp,subDirectory);
}
else if(0==strncmp(SONG_BEGIN,buffer,strlen(SONG_BEGIN))) {
readSongInfoIntoList(fp,directory->songs);
}
else {
ERROR("Unknown line in db: %s\n",buffer);
exit(EXIT_FAILURE);
}
}
while(nextDirNode) {
nodeTemp = nextDirNode->nextNode;
deleteNodeFromList(directory->subDirectories,nextDirNode);
nextDirNode = nodeTemp;
}
}
void sortDirectory(Directory * directory) {
ListNode * node = directory->subDirectories->firstNode;
Directory * subDir;
sortList(directory->subDirectories);
sortList(directory->songs);
while(node!=NULL) {
subDir = (Directory *)node->data;
sortDirectory(subDir);
node = node->nextNode;
}
}
int writeDirectoryDB() {
FILE * fp;
deleteEmptyDirectoriesInDirectory(mp3rootDirectory);
sortDirectory(mp3rootDirectory);
while(!(fp=fopen(directory_db,"w")) && errno==EINTR);
if(!fp) return -1;
/* block signals when writing the db so we don't get a corrupted db*/
myfprintf(fp,"%s\n",DIRECTORY_INFO_BEGIN);
myfprintf(fp,"%s%s\n",DIRECTORY_MPD_VERSION,VERSION);
myfprintf(fp,"%s%s\n",DIRECTORY_FS_CHARSET,getFsCharset());
myfprintf(fp,"%s\n",DIRECTORY_INFO_END);
writeDirectoryInfo(fp,mp3rootDirectory);
while(fclose(fp) && errno==EINTR);
return 0;
}
int readDirectoryDB() {
FILE * fp;
struct stat st;
if(!mp3rootDirectory) mp3rootDirectory = newDirectory(NULL, NULL);
while(!(fp=fopen(directory_db,"r")) && errno==EINTR);
if(!fp) return -1;
/* get initial info */
{
char buffer[100];
int bufferSize = 100;
int foundFsCharset = 0;
int foundVersion = 0;
if(myFgets(buffer,bufferSize,fp)<0) {
ERROR("Error reading db, fgets\n");
exit(EXIT_FAILURE);
}
if(0==strcmp(DIRECTORY_INFO_BEGIN,buffer)) {
while(myFgets(buffer,bufferSize,fp) &&
0!=strcmp(DIRECTORY_INFO_END,buffer))
{
if(0==strncmp(DIRECTORY_MPD_VERSION,buffer,
strlen(DIRECTORY_MPD_VERSION)))
{
if(foundVersion) {
ERROR("already found "
"version in db\n");
exit(EXIT_FAILURE);
}
foundVersion = 1;
}
else if(0==strncmp(DIRECTORY_FS_CHARSET,buffer,
strlen(DIRECTORY_FS_CHARSET)))
{
char * fsCharset;
char * tempCharset;
if(foundFsCharset) {
WARNING("already found "
"fs charset in db\n");
exit(EXIT_FAILURE);
}
foundFsCharset = 1;
fsCharset = &(buffer[strlen(
DIRECTORY_FS_CHARSET)]);
if((tempCharset =
getConf()[CONF_FS_CHARSET]) &&
strcmp(fsCharset,tempCharset))
{
WARNING("Using \"%s\" for the "
"filesystem charset "
"instead of \"%s\"\n",
fsCharset,tempCharset);
WARNING("maybe you need to "
"recreate the db?\n");
setFsCharset(fsCharset);
}
}
else {
ERROR("directory: unknown line in db info: %s\n",
buffer);
exit(EXIT_FAILURE);
}
}
}
else {
ERROR("db info not found in db file\n");
ERROR("you should recreate the db using --create-db\n");
fseek(fp,0,SEEK_SET);
}
}
readDirectoryInfo(fp,mp3rootDirectory);
while(fclose(fp) && errno==EINTR);
stats.numberOfSongs = countSongsIn(stderr,NULL);
stats.dbPlayTime = sumSongTimesIn(stderr,NULL);
if(stat(directory_db,&st)==0) directory_dbModTime = st.st_mtime;
return 0;
}
void updateMp3Directory() {
switch(updateDirectory(mp3rootDirectory)) {
case 0:
/* nothing updated */
return;
case 1:
if(writeDirectoryDB()<0) {
ERROR("problems writing music db file, \"%s\"\n",
directory_db);
exit(EXIT_FAILURE);
}
/* something was updated and db should be written */
break;
default:
ERROR("problems updating music db\n");
exit(EXIT_FAILURE);
}
return;
}
int traverseAllInSubDirectory(FILE * fp, Directory * directory,
int (*forEachSong)(FILE *, Song *, void *),
int (*forEachDir)(FILE *, Directory *, void *),
void * data)
{
ListNode * node = directory->songs->firstNode;
Song * song;
Directory * dir;
int errFlag = 0;
if(forEachDir) {
errFlag = forEachDir(fp,directory,data);
if(errFlag) return errFlag;
}
if(forEachSong) {
while(node!=NULL && !errFlag) {
song = (Song *)node->data;
errFlag = forEachSong(fp,song,data);
node = node->nextNode;
}
if(errFlag) return errFlag;
}
node = directory->subDirectories->firstNode;
while(node!=NULL && !errFlag) {
dir = (Directory *)node->data;
errFlag = traverseAllInSubDirectory(fp,dir,forEachSong,
forEachDir,data);
node = node->nextNode;
}
return errFlag;
}
int traverseAllIn(FILE * fp, char * name,
int (*forEachSong)(FILE *, Song *, void *),
int (*forEachDir)(FILE *, Directory *, void *),
void * data) {
Directory * directory;
if((directory = getDirectory(name))==NULL) {
Song * song;
if((song = getSongFromDB(name)) && forEachSong) {
return forEachSong(fp, song, data);
}
commandError(fp, ACK_ERROR_NO_EXIST,
"directory or file not found", NULL);
return -1;
}
return traverseAllInSubDirectory(fp,directory,forEachSong,forEachDir,
data);
}
int countSongsInDirectory(FILE * fp, Directory * directory, void * data) {
int * count = (int *)data;
*count+=directory->songs->numberOfNodes;
return 0;
}
int printDirectoryInDirectory(FILE * fp, Directory * directory, void * data) {
if(directory->utf8name) {
myfprintf(fp,"directory: %s\n",directory->utf8name);
}
return 0;
}
int printSongInDirectory(FILE * fp, Song * song, void * data) {
myfprintf(fp,"file: %s\n",song->utf8url);
return 0;
}
int searchForAlbumInDirectory(FILE * fp, Song * song, void * string) {
if(song->tag && song->tag->album) {
char * dup = strDupToUpper(song->tag->album);
if(strstr(dup,(char *)string)) printSongInfo(fp,song);
free(dup);
}
return 0;
}
int searchForArtistInDirectory(FILE * fp, Song * song, void * string) {
if(song->tag && song->tag->artist) {
char * dup = strDupToUpper(song->tag->artist);
if(strstr(dup,(char *)string)) printSongInfo(fp,song);
free(dup);
}
return 0;
}
int searchForTitleInDirectory(FILE * fp, Song * song, void * string) {
if(song->tag && song->tag->title) {
char * dup = strDupToUpper(song->tag->title);
if(strstr(dup,(char *)string)) printSongInfo(fp,song);
free(dup);
}
return 0;
}
int searchForFilenameInDirectory(FILE * fp, Song * song, void * string) {
char * dup = strDupToUpper(song->utf8url);
if(strstr(dup,(char *)string)) printSongInfo(fp,song);
free(dup);
return 0;
}
int searchForSongsIn(FILE * fp, char * name, char * item, char * string) {
char * dup = strDupToUpper(string);
int ret = -1;
if(strcmp(item,DIRECTORY_SEARCH_ALBUM)==0) {
ret = traverseAllIn(fp,name,searchForAlbumInDirectory,NULL,
(void *)dup);
}
else if(strcmp(item,DIRECTORY_SEARCH_ARTIST)==0) {
ret = traverseAllIn(fp,name,searchForArtistInDirectory,NULL,
(void *)dup);
}
else if(strcmp(item,DIRECTORY_SEARCH_TITLE)==0) {
ret = traverseAllIn(fp,name,searchForTitleInDirectory,NULL,
(void *)dup);
}
else if(strcmp(item,DIRECTORY_SEARCH_FILENAME)==0) {
ret = traverseAllIn(fp,name,searchForFilenameInDirectory,NULL,
(void *)dup);
}
else commandError(fp, ACK_ERROR_ARG, "unknown table", NULL);
free(dup);
return ret;
}
int findAlbumInDirectory(FILE * fp, Song * song, void * string) {
if(song->tag && song->tag->album &&
strcmp((char *)string,song->tag->album)==0)
{
printSongInfo(fp,song);
}
return 0;
}
int findArtistInDirectory(FILE * fp, Song * song, void * string) {
if(song->tag && song->tag->artist &&
strcmp((char *)string,song->tag->artist)==0)
{
printSongInfo(fp,song);
}
return 0;
}
int findSongsIn(FILE * fp, char * name, char * item, char * string) {
if(strcmp(item,DIRECTORY_SEARCH_ALBUM)==0) {
return traverseAllIn(fp,name,findAlbumInDirectory,NULL,
(void *)string);
}
else if(strcmp(item,DIRECTORY_SEARCH_ARTIST)==0) {
return traverseAllIn(fp,name,findArtistInDirectory,NULL,
(void *)string);
}
commandError(fp, ACK_ERROR_ARG, "unknown table", NULL);
return -1;
}
int printAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,printSongInDirectory,
printDirectoryInDirectory,NULL);
}
int directoryAddSongToPlaylist(FILE * fp, Song * song, void * data) {
return addSongToPlaylist(fp,song);
}
int addAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,directoryAddSongToPlaylist,NULL,NULL);
}
int directoryPrintSongInfo(FILE * fp, Song * song, void * data) {
return printSongInfo(fp,song);
}
int sumSongTime(FILE * fp, Song * song, void * data) {
unsigned long * time = (unsigned long *)data;
if(song->tag && song->tag->time>=0) *time+=song->tag->time;
return 0;
}
int printInfoForAllIn(FILE * fp, char * name) {
return traverseAllIn(fp,name,directoryPrintSongInfo,NULL,NULL);
}
int countSongsIn(FILE * fp, char * name) {
int count = 0;
void * ptr = (void *)&count;
traverseAllIn(fp,name,NULL,countSongsInDirectory,ptr);
return count;
}
void freeAllDirectoryStats(Directory * directory) {
ListNode * node = directory->subDirectories->firstNode;
while(node != NULL) {
freeAllDirectoryStats(directory);
node = node->nextNode;
}
freeDirectoryStatFromDirectory(directory);
}
unsigned long sumSongTimesIn(FILE * fp, char * name) {
unsigned long dbPlayTime = 0;
void * ptr = (void *)&dbPlayTime;
traverseAllIn(fp,name,sumSongTime,NULL,ptr);
return dbPlayTime;
}
void initMp3Directory() {
struct stat st;
mp3rootDirectory = newDirectory(NULL, NULL);
exploreDirectory(mp3rootDirectory);
freeAllDirectoryStats(mp3rootDirectory);
stats.numberOfSongs = countSongsIn(stderr,NULL);
stats.dbPlayTime = sumSongTimesIn(stderr,NULL);
if(stat(directory_db,&st)==0) directory_dbModTime = st.st_mtime;
}
Song * getSongDetails(char * file, char ** shortnameRet,
Directory ** directoryRet)
{
void * song = NULL;
Directory * directory;
char * dir = NULL;
char * dup = strdup(file);
char * shortname = dup;
char * c = strtok(dup,"/");
DEBUG("get song: %s\n",file);
while(c) {
shortname = c;
c = strtok(NULL,"/");
}
if(shortname!=dup) {
for(c = dup; c < shortname-1; c++) {
if(*c=='\0') *c = '/';
}
dir = dup;
}
if(!(directory = getDirectory(dir))) {
free(dup);
return NULL;
}
if(!findInList(directory->songs,shortname,&song)) {
free(dup);
return NULL;
}
free(dup);
if(shortnameRet) *shortnameRet = shortname;
if(directoryRet) *directoryRet = directory;
return (Song *)song;
}
Song * getSongFromDB(char * file) {
return getSongDetails(file,NULL,NULL);
}
time_t getDbModTime() {
return directory_dbModTime;
}