/* * This file Copyright (C) Mnemosyne LLC * * This file is licensed by the GPL version 2. Works owned by the * Transmission project are granted a special exemption to clause 2(b) * so that the bulk of its code can remain under the MIT license. * This exemption does not extend to derived works not owned by * the Transmission project. * * $Id$ */ #ifdef WIN32 #include #define WINVER WindowsXP #include #include /* for CSIDL_APPDATA, CSIDL_MYDOCUMENTS */ #else #ifdef SYS_DARWIN #include #endif #ifdef __HAIKU__ #include #endif #define _XOPEN_SOURCE 600 /* needed for recursive locks. */ #ifndef __USE_UNIX98 #define __USE_UNIX98 /* some older Linuxes need it spelt out for them */ #endif #include #endif #include #include #include #include #ifdef SYS_DARWIN #define HAVE_SYS_STATVFS_H #define HAVE_STATVFS #endif #include #include #ifdef HAVE_SYS_STATVFS_H #include #endif #ifdef WIN32 #include #endif #include #include #include /* getuid getpid close */ #include "transmission.h" #include "session.h" #include "list.h" #include "platform.h" #include "utils.h" /*** **** THREADS ***/ #ifdef WIN32 typedef DWORD tr_thread_id; #else typedef pthread_t tr_thread_id; #endif static tr_thread_id tr_getCurrentThread( void ) { #ifdef WIN32 return GetCurrentThreadId( ); #else return pthread_self( ); #endif } static tr_bool tr_areThreadsEqual( tr_thread_id a, tr_thread_id b ) { #ifdef WIN32 return a == b; #else return pthread_equal( a, b ) != 0; #endif } /** @brief portability wrapper around OS-dependent threads */ struct tr_thread { void ( * func )( void * ); void * arg; tr_thread_id thread; #ifdef WIN32 HANDLE thread_handle; #endif }; tr_bool tr_amInThread( const tr_thread * t ) { return tr_areThreadsEqual( tr_getCurrentThread( ), t->thread ); } #ifdef WIN32 #define ThreadFuncReturnType unsigned WINAPI #else #define ThreadFuncReturnType void #endif static ThreadFuncReturnType ThreadFunc( void * _t ) { tr_thread * t = _t; t->func( t->arg ); tr_free( t ); #ifdef WIN32 _endthreadex( 0 ); return 0; #endif } tr_thread * tr_threadNew( void ( *func )(void *), void * arg ) { tr_thread * t = tr_new0( tr_thread, 1 ); t->func = func; t->arg = arg; #ifdef WIN32 { unsigned int id; t->thread_handle = (HANDLE) _beginthreadex( NULL, 0, &ThreadFunc, t, 0, &id ); t->thread = (DWORD) id; } #else pthread_create( &t->thread, NULL, (void*(*)(void*))ThreadFunc, t ); pthread_detach( t->thread ); #endif return t; } /*** **** LOCKS ***/ /** @brief portability wrapper around OS-dependent thread mutexes */ struct tr_lock { int depth; #ifdef WIN32 CRITICAL_SECTION lock; DWORD lockThread; #else pthread_mutex_t lock; pthread_t lockThread; #endif }; tr_lock* tr_lockNew( void ) { tr_lock * l = tr_new0( tr_lock, 1 ); #ifdef WIN32 InitializeCriticalSection( &l->lock ); /* supports recursion */ #else pthread_mutexattr_t attr; pthread_mutexattr_init( &attr ); pthread_mutexattr_settype( &attr, PTHREAD_MUTEX_RECURSIVE ); pthread_mutex_init( &l->lock, &attr ); #endif return l; } void tr_lockFree( tr_lock * l ) { #ifdef WIN32 DeleteCriticalSection( &l->lock ); #else pthread_mutex_destroy( &l->lock ); #endif tr_free( l ); } void tr_lockLock( tr_lock * l ) { #ifdef WIN32 EnterCriticalSection( &l->lock ); #else pthread_mutex_lock( &l->lock ); #endif assert( l->depth >= 0 ); if( l->depth ) assert( tr_areThreadsEqual( l->lockThread, tr_getCurrentThread( ) ) ); l->lockThread = tr_getCurrentThread( ); ++l->depth; } int tr_lockHave( const tr_lock * l ) { return ( l->depth > 0 ) && ( tr_areThreadsEqual( l->lockThread, tr_getCurrentThread( ) ) ); } void tr_lockUnlock( tr_lock * l ) { assert( l->depth > 0 ); assert( tr_areThreadsEqual( l->lockThread, tr_getCurrentThread( ) ) ); --l->depth; assert( l->depth >= 0 ); #ifdef WIN32 LeaveCriticalSection( &l->lock ); #else pthread_mutex_unlock( &l->lock ); #endif } /*** **** PATHS ***/ #ifndef WIN32 #include #endif static const char * getHomeDir( void ) { static char * home = NULL; if( !home ) { home = tr_strdup( getenv( "HOME" ) ); if( !home ) { #ifdef WIN32 char appdata[MAX_PATH]; /* SHGetFolderPath() requires MAX_PATH */ *appdata = '\0'; SHGetFolderPath( NULL, CSIDL_PERSONAL, NULL, 0, appdata ); home = tr_strdup( appdata ); #else struct passwd * pw = getpwuid( getuid( ) ); if( pw ) home = tr_strdup( pw->pw_dir ); endpwent( ); #endif } if( !home ) home = tr_strdup( "" ); } return home; } static const char * getOldConfigDir( void ) { static char * path = NULL; if( !path ) { #ifdef SYS_DARWIN path = tr_buildPath( getHomeDir( ), "Library", "Application Support", "Transmission", NULL ); #elif defined( WIN32 ) char appdata[MAX_PATH]; /* SHGetFolderPath() requires MAX_PATH */ SHGetFolderPath( NULL, CSIDL_APPDATA, NULL, 0, appdata ); path = tr_buildPath( appdata, "Transmission", NULL ); #elif defined( __HAIKU__ ) char buf[TR_PATH_MAX]; find_directory( B_USER_SETTINGS_DIRECTORY, -1, true, buf, sizeof(buf) ); path = tr_buildPath( buf, "Transmission", NULL ); #else path = tr_buildPath( getHomeDir( ), ".transmission", NULL ); #endif } return path; } #if defined(SYS_DARWIN) || defined(WIN32) #define RESUME_SUBDIR "Resume" #define TORRENT_SUBDIR "Torrents" #else #define RESUME_SUBDIR "resume" #define TORRENT_SUBDIR "torrents" #endif static const char * getOldTorrentsDir( void ) { static char * path = NULL; if( !path ) path = tr_buildPath( getOldConfigDir( ), TORRENT_SUBDIR, NULL ); return path; } static const char * getOldCacheDir( void ) { static char * path = NULL; if( !path ) { #if defined( WIN32 ) path = tr_buildPath( getOldConfigDir( ), "Cache", NULL ); #elif defined( SYS_DARWIN ) path = tr_buildPath( getHomeDir( ), "Library", "Caches", "Transmission", NULL ); #else path = tr_buildPath( getOldConfigDir( ), "cache", NULL ); #endif } return path; } static void moveFiles( const char * oldDir, const char * newDir ) { if( oldDir && newDir && strcmp( oldDir, newDir ) ) { DIR * dirh = opendir( oldDir ); if( dirh ) { int count = 0; struct dirent * dirp; while( ( dirp = readdir( dirh ) ) ) { const char * name = dirp->d_name; if( name && strcmp( name, "." ) && strcmp( name, ".." ) ) { char * o = tr_buildPath( oldDir, name, NULL ); char * n = tr_buildPath( newDir, name, NULL ); rename( o, n ); ++count; tr_free( n ); tr_free( o ); } } if( count ) tr_inf( _( "Migrated %1$d files from \"%2$s\" to \"%3$s\"" ), count, oldDir, newDir ); closedir( dirh ); } } } static void migrateFiles( const tr_session * session ) { static int migrated = FALSE; if( !migrated ) { const char * oldDir; const char * newDir; migrated = TRUE; oldDir = getOldTorrentsDir( ); newDir = tr_getTorrentDir( session ); moveFiles( oldDir, newDir ); oldDir = getOldCacheDir( ); newDir = tr_getResumeDir( session ); moveFiles( oldDir, newDir ); } } void tr_setConfigDir( tr_session * session, const char * configDir ) { char * path; session->configDir = tr_strdup( configDir ); path = tr_buildPath( configDir, RESUME_SUBDIR, NULL ); tr_mkdirp( path, 0777 ); session->resumeDir = path; path = tr_buildPath( configDir, TORRENT_SUBDIR, NULL ); tr_mkdirp( path, 0777 ); session->torrentDir = path; migrateFiles( session ); } const char * tr_sessionGetConfigDir( const tr_session * session ) { return session->configDir; } const char * tr_getTorrentDir( const tr_session * session ) { return session->torrentDir; } const char * tr_getResumeDir( const tr_session * session ) { return session->resumeDir; } const char* tr_getDefaultConfigDir( const char * appname ) { static char * s = NULL; if( !appname || !*appname ) appname = "Transmission"; if( !s ) { if( ( s = getenv( "TRANSMISSION_HOME" ) ) ) { s = tr_strdup( s ); } else { #ifdef SYS_DARWIN s = tr_buildPath( getHomeDir( ), "Library", "Application Support", appname, NULL ); #elif defined( WIN32 ) char appdata[TR_PATH_MAX]; /* SHGetFolderPath() requires MAX_PATH */ SHGetFolderPath( NULL, CSIDL_APPDATA, NULL, 0, appdata ); s = tr_buildPath( appdata, appname, NULL ); #elif defined( __HAIKU__ ) char buf[TR_PATH_MAX]; find_directory( B_USER_SETTINGS_DIRECTORY, -1, true, buf, sizeof(buf) ); s = tr_buildPath( buf, appname, NULL ); #else if( ( s = getenv( "XDG_CONFIG_HOME" ) ) ) s = tr_buildPath( s, appname, NULL ); else s = tr_buildPath( getHomeDir( ), ".config", appname, NULL ); #endif } } return s; } const char* tr_getDefaultDownloadDir( void ) { static char * user_dir = NULL; if( user_dir == NULL ) { const char * config_home; char * config_file; char * content; size_t content_len; /* figure out where to look for user-dirs.dirs */ config_home = getenv( "XDG_CONFIG_HOME" ); if( config_home && *config_home ) config_file = tr_buildPath( config_home, "user-dirs.dirs", NULL ); else config_file = tr_buildPath( getHomeDir( ), ".config", "user-dirs.dirs", NULL ); /* read in user-dirs.dirs and look for the download dir entry */ content = (char *) tr_loadFile( config_file, &content_len ); if( content && content_len>0 ) { const char * key = "XDG_DOWNLOAD_DIR=\""; char * line = strstr( content, key ); if( line != NULL ) { char * value = line + strlen( key ); char * end = strchr( value, '"' ); if( end ) { *end = '\0'; if( !memcmp( value, "$HOME/", 6 ) ) user_dir = tr_buildPath( getHomeDir( ), value+6, NULL ); else user_dir = tr_strdup( value ); } } } if( user_dir == NULL ) #ifdef __HAIKU__ user_dir = tr_buildPath( getHomeDir( ), "Desktop", NULL ); #else user_dir = tr_buildPath( getHomeDir( ), "Downloads", NULL ); #endif tr_free( content ); tr_free( config_file ); } return user_dir; } /*** **** ***/ static int isWebClientDir( const char * path ) { struct stat sb; char * tmp = tr_buildPath( path, "index.html", NULL ); const int ret = !stat( tmp, &sb ); tr_inf( _( "Searching for web interface file \"%s\"" ), tmp ); tr_free( tmp ); return ret; } const char * tr_getWebClientDir( const tr_session * session UNUSED ) { static char * s = NULL; if( !s ) { if( ( s = getenv( "CLUTCH_HOME" ) ) ) { s = tr_strdup( s ); } else if( ( s = getenv( "TRANSMISSION_WEB_HOME" ) ) ) { s = tr_strdup( s ); } else { #ifdef SYS_DARWIN /* on Mac, look in the Application Support folder first, then in the app bundle. */ /* Look in the Application Support folder */ s = tr_buildPath( tr_sessionGetConfigDir( session ), "web", NULL ); if( !isWebClientDir( s ) ) { tr_free( s ); CFURLRef appURL = CFBundleCopyBundleURL( CFBundleGetMainBundle( ) ); CFStringRef appRef = CFURLCopyFileSystemPath( appURL, kCFURLPOSIXPathStyle ); CFIndex appLength = CFStringGetMaximumSizeForEncoding( CFStringGetLength(appRef), CFStringGetFastestEncoding( appRef )); char * appString = tr_malloc( appLength + 1 ); tr_bool success = CFStringGetCString( appRef, appString, appLength + 1, CFStringGetFastestEncoding( appRef )); assert( success ); CFRelease( appURL ); CFRelease( appRef ); /* Fallback to the app bundle */ s = tr_buildPath( appString, "Contents", "Resources", "web", NULL ); if( !isWebClientDir( s ) ) { tr_free( s ); s = NULL; } tr_free( appString ); } #elif defined( WIN32 ) /* SHGetFolderPath explicitly requires MAX_PATH length */ char dir[MAX_PATH]; /* Generally, Web interface should be stored in a Web subdir of * calling executable dir. */ if( s == NULL ) { /* First, we should check personal AppData/Transmission/Web */ SHGetFolderPath( NULL, CSIDL_COMMON_APPDATA, NULL, 0, dir ); s = tr_buildPath( dir, "Transmission", "Web", NULL ); if( !isWebClientDir( s ) ) { tr_free( s ); s = NULL; } } if( s == NULL ) { /* check personal AppData */ SHGetFolderPath( NULL, CSIDL_APPDATA, NULL, 0, dir ); s = tr_buildPath( dir, "Transmission", "Web", NULL ); if( !isWebClientDir( s ) ) { tr_free( s ); s = NULL; } } if( s == NULL) { /* check calling module place */ GetModuleFileName( GetModuleHandle( NULL ), dir, sizeof( dir ) ); s = tr_buildPath( dirname( dir ), "Web", NULL ); if( !isWebClientDir( s ) ) { tr_free( s ); s = NULL; } } #else /* everyone else, follow the XDG spec */ tr_list *candidates = NULL, *l; const char * tmp; /* XDG_DATA_HOME should be the first in the list of candidates */ tmp = getenv( "XDG_DATA_HOME" ); if( tmp && *tmp ) tr_list_append( &candidates, tr_strdup( tmp ) ); else { char * dhome = tr_buildPath( getHomeDir( ), ".local", "share", NULL ); tr_list_append( &candidates, dhome ); } /* XDG_DATA_DIRS are the backup directories */ { const char * pkg = PACKAGE_DATA_DIR; const char * xdg = getenv( "XDG_DATA_DIRS" ); const char * fallback = "/usr/local/share:/usr/share"; char * buf = tr_strdup_printf( "%s:%s:%s", (pkg?pkg:""), (xdg?xdg:""), fallback ); tmp = buf; while( tmp && *tmp ) { const char * end = strchr( tmp, ':' ); if( end ) { if( ( end - tmp ) > 1 ) tr_list_append( &candidates, tr_strndup( tmp, end - tmp ) ); tmp = end + 1; } else if( tmp && *tmp ) { tr_list_append( &candidates, tr_strdup( tmp ) ); break; } } tr_free( buf ); } /* walk through the candidates & look for a match */ for( l=candidates; l; l=l->next ) { char * path = tr_buildPath( l->data, "transmission", "web", NULL ); const int found = isWebClientDir( path ); if( found ) { s = path; break; } tr_free( path ); } tr_list_free( &candidates, tr_free ); #endif } } return s; } /*** **** ***/ int64_t tr_getFreeSpace( const char * path ) { #ifdef WIN32 uint64_t freeBytesAvailable = 0; return GetDiskFreeSpaceEx( path, &freeBytesAvailable, NULL, NULL) ? (int64_t)freeBytesAvailable : -1; #elif defined(HAVE_STATVFS) struct statvfs buf; return statvfs( path, &buf ) ? -1 : (int64_t)buf.f_bavail * (int64_t)buf.f_bsize; #else #warning FIXME: not implemented return -1; #endif } /*** **** ***/ #ifdef WIN32 /* The following mmap functions are by Joerg Walter, and were taken from * his paper at: http://www.genesys-e.de/jwalter/mix4win.htm */ #if defined(_MSC_VER) __declspec( align( 4 ) ) static LONG volatile g_sl; #else static LONG volatile g_sl __attribute__ ( ( aligned ( 4 ) ) ); #endif /* Wait for spin lock */ static int slwait( LONG volatile *sl ) { while( InterlockedCompareExchange ( sl, 1, 0 ) != 0 ) Sleep ( 0 ); return 0; } /* Release spin lock */ static int slrelease( LONG volatile *sl ) { InterlockedExchange ( sl, 0 ); return 0; } /* getpagesize for windows */ static long getpagesize( void ) { static long g_pagesize = 0; if( !g_pagesize ) { SYSTEM_INFO system_info; GetSystemInfo ( &system_info ); g_pagesize = system_info.dwPageSize; } return g_pagesize; } static long getregionsize( void ) { static long g_regionsize = 0; if( !g_regionsize ) { SYSTEM_INFO system_info; GetSystemInfo ( &system_info ); g_regionsize = system_info.dwAllocationGranularity; } return g_regionsize; } void * mmap( void *ptr, long size, long prot, long type, long handle, long arg ) { static long g_pagesize; static long g_regionsize; /* Wait for spin lock */ slwait ( &g_sl ); /* First time initialization */ if( !g_pagesize ) g_pagesize = getpagesize ( ); if( !g_regionsize ) g_regionsize = getregionsize ( ); /* Allocate this */ ptr = VirtualAlloc ( ptr, size, MEM_RESERVE | MEM_COMMIT | MEM_TOP_DOWN, PAGE_READWRITE ); if( !ptr ) { ptr = (void *) -1; goto mmap_exit; } mmap_exit: /* Release spin lock */ slrelease ( &g_sl ); return ptr; } long munmap( void *ptr, long size ) { static long g_pagesize; static long g_regionsize; int rc = -1; /* Wait for spin lock */ slwait ( &g_sl ); /* First time initialization */ if( !g_pagesize ) g_pagesize = getpagesize ( ); if( !g_regionsize ) g_regionsize = getregionsize ( ); /* Free this */ if( !VirtualFree ( ptr, 0, MEM_RELEASE ) ) goto munmap_exit; rc = 0; munmap_exit: /* Release spin lock */ slrelease ( &g_sl ); return rc; } #endif