/* * 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 #else #include #endif #include #include #include "transmission.h" #include "list.h" #include "net.h" /* tr_address */ #include "platform.h" /* mutex */ #include "session.h" #include "trevent.h" /* tr_runInEventThread() */ #include "utils.h" #include "version.h" /* User-Agent */ #include "web.h" #if LIBCURL_VERSION_NUM >= 0x070F06 /* CURLOPT_SOCKOPT* was added in 7.15.6 */ #define USE_LIBCURL_SOCKOPT #endif enum { THREADFUNC_MAX_SLEEP_MSEC = 1000, }; #if 0 #define dbgmsg(...) \ do { \ fprintf( stderr, __VA_ARGS__ ); \ fprintf( stderr, "\n" ); \ } while( 0 ) #else #define dbgmsg( ... ) \ do { \ if( tr_deepLoggingIsActive( ) ) \ tr_deepLog( __FILE__, __LINE__, "web", __VA_ARGS__ ); \ } while( 0 ) #endif /*** **** ***/ struct tr_web { int close_mode; tr_list * tasks; tr_lock * taskLock; }; /*** **** ***/ struct tr_web_task { long code; long timeout_secs; tr_bool did_connect; tr_bool did_timeout; struct evbuffer * response; struct evbuffer * freebuf; char * url; char * range; tr_session * session; tr_web_done_func * done_func; void * done_func_user_data; }; static void task_free( struct tr_web_task * task ) { if( task->freebuf ) evbuffer_free( task->freebuf ); tr_free( task->range ); tr_free( task->url ); tr_free( task ); } /*** **** ***/ static size_t writeFunc( void * ptr, size_t size, size_t nmemb, void * vtask ) { const size_t byteCount = size * nmemb; struct tr_web_task * task = vtask; evbuffer_add( task->response, ptr, byteCount ); dbgmsg( "wrote %zu bytes to task %p's buffer", byteCount, task ); return byteCount; } #ifdef USE_LIBCURL_SOCKOPT static int sockoptfunction( void * vtask, curl_socket_t fd, curlsocktype purpose UNUSED ) { struct tr_web_task * task = vtask; const tr_bool isScrape = strstr( task->url, "scrape" ) != NULL; const tr_bool isAnnounce = strstr( task->url, "announce" ) != NULL; /* announce and scrape requests have tiny payloads. */ if( isScrape || isAnnounce ) { const int sndbuf = 1024; const int rcvbuf = isScrape ? 2048 : 3072; setsockopt( fd, SOL_SOCKET, SO_SNDBUF, &sndbuf, sizeof(sndbuf) ); setsockopt( fd, SOL_SOCKET, SO_RCVBUF, &rcvbuf, sizeof(rcvbuf) ); } /* return nonzero if this function encountered an error */ return 0; } #endif static long getTimeoutFromURL( const struct tr_web_task * task ) { long timeout; const tr_session * session = task->session; if( !session || session->isClosed ) timeout = 20L; else if( strstr( task->url, "scrape" ) != NULL ) timeout = 30L; else if( strstr( task->url, "announce" ) != NULL ) timeout = 90L; else timeout = 240L; return timeout; } static CURL * createEasy( tr_session * s, struct tr_web_task * task ) { const tr_address * addr; tr_bool is_default_value; CURL * e = curl_easy_init( ); const long verbose = getenv( "TR_CURL_VERBOSE" ) != NULL; char * cookie_filename = tr_buildPath( s->configDir, "cookies.txt", NULL ); task->timeout_secs = getTimeoutFromURL( task ); curl_easy_setopt( e, CURLOPT_AUTOREFERER, 1L ); curl_easy_setopt( e, CURLOPT_COOKIEFILE, cookie_filename ); curl_easy_setopt( e, CURLOPT_ENCODING, "gzip;q=1.0, deflate, identity" ); curl_easy_setopt( e, CURLOPT_FOLLOWLOCATION, 1L ); curl_easy_setopt( e, CURLOPT_MAXREDIRS, -1L ); curl_easy_setopt( e, CURLOPT_NOSIGNAL, 1L ); curl_easy_setopt( e, CURLOPT_PRIVATE, task ); #ifdef USE_LIBCURL_SOCKOPT curl_easy_setopt( e, CURLOPT_SOCKOPTFUNCTION, sockoptfunction ); curl_easy_setopt( e, CURLOPT_SOCKOPTDATA, task ); #endif curl_easy_setopt( e, CURLOPT_SSL_VERIFYHOST, 0L ); curl_easy_setopt( e, CURLOPT_SSL_VERIFYPEER, 0L ); curl_easy_setopt( e, CURLOPT_TIMEOUT, task->timeout_secs ); curl_easy_setopt( e, CURLOPT_URL, task->url ); curl_easy_setopt( e, CURLOPT_USERAGENT, TR_NAME "/" SHORT_VERSION_STRING ); curl_easy_setopt( e, CURLOPT_VERBOSE, verbose ); curl_easy_setopt( e, CURLOPT_WRITEDATA, task ); curl_easy_setopt( e, CURLOPT_WRITEFUNCTION, writeFunc ); if((( addr = tr_sessionGetPublicAddress( s, TR_AF_INET, &is_default_value ))) && !is_default_value ) curl_easy_setopt( e, CURLOPT_INTERFACE, tr_ntop_non_ts( addr ) ); else if ((( addr = tr_sessionGetPublicAddress( s, TR_AF_INET6, &is_default_value ))) && !is_default_value ) curl_easy_setopt( e, CURLOPT_INTERFACE, tr_ntop_non_ts( addr ) ); if( task->range ) curl_easy_setopt( e, CURLOPT_RANGE, task->range ); if( s->curl_easy_config_func != NULL ) s->curl_easy_config_func( s, e, task->url ); tr_free( cookie_filename ); return e; } /*** **** ***/ static void task_finish_func( void * vtask ) { struct tr_web_task * task = vtask; dbgmsg( "finished web task %p; got %ld", task, task->code ); if( task->done_func != NULL ) task->done_func( task->session, task->did_connect, task->did_timeout, task->code, evbuffer_pullup( task->response, -1 ), evbuffer_get_length( task->response ), task->done_func_user_data ); task_free( task ); } /**** ***** ****/ void tr_webRun( tr_session * session, const char * url, const char * range, tr_web_done_func done_func, void * done_func_user_data ) { tr_webRunWithBuffer( session, url, range, done_func, done_func_user_data, NULL ); } void tr_webRunWithBuffer( tr_session * session, const char * url, const char * range, tr_web_done_func done_func, void * done_func_user_data, struct evbuffer * buffer ) { struct tr_web * web = session->web; if( web != NULL ) { struct tr_web_task * task = tr_new0( struct tr_web_task, 1 ); task->session = session; task->url = tr_strdup( url ); task->range = tr_strdup( range ); task->done_func = done_func; task->done_func_user_data = done_func_user_data; task->response = buffer ? buffer : evbuffer_new( ); task->freebuf = buffer ? NULL : task->response; tr_lockLock( web->taskLock ); tr_list_append( &web->tasks, task ); tr_lockUnlock( web->taskLock ); } } /** * Portability wrapper for select(). * * http://msdn.microsoft.com/en-us/library/ms740141%28VS.85%29.aspx * On win32, any two of the parameters, readfds, writefds, or exceptfds, * can be given as null. At least one must be non-null, and any non-null * descriptor set must contain at least one handle to a socket. */ static void tr_select( int nfds, fd_set * r_fd_set, fd_set * w_fd_set, fd_set * c_fd_set, struct timeval * t ) { #ifdef WIN32 if( !r_fd_set->fd_count && !w_fd_set->fd_count && !c_fd_set->fd_count ) { const long int msec = t->tv_sec*1000 + t->tv_usec/1000; tr_wait_msec( msec ); } else if( select( 0, r_fd_set->fd_count ? r_fd_set : NULL, w_fd_set->fd_count ? w_fd_set : NULL, c_fd_set->fd_count ? c_fd_set : NULL, t ) < 0 ) { char errstr[512]; const int e = EVUTIL_SOCKET_ERROR( ); tr_net_strerror( errstr, sizeof( errstr ), e ); dbgmsg( "Error: select (%d) %s", e, errstr ); } #else select( nfds, r_fd_set, w_fd_set, c_fd_set, t ); #endif } static void tr_webThreadFunc( void * vsession ) { CURLM * multi; struct tr_web * web; int taskCount = 0; struct tr_web_task * task; tr_session * session = vsession; /* try to enable ssl for https support; but if that fails, * try a plain vanilla init */ if( curl_global_init( CURL_GLOBAL_SSL ) ) curl_global_init( 0 ); web = tr_new0( struct tr_web, 1 ); web->close_mode = ~0; web->taskLock = tr_lockNew( ); web->tasks = NULL; multi = curl_multi_init( ); session->web = web; for( ;; ) { long msec; int unused; CURLMsg * msg; CURLMcode mcode; if( web->close_mode == TR_WEB_CLOSE_NOW ) break; if( ( web->close_mode == TR_WEB_CLOSE_WHEN_IDLE ) && !taskCount ) break; /* add tasks from the queue */ tr_lockLock( web->taskLock ); while(( task = tr_list_pop_front( &web->tasks ))) { dbgmsg( "adding task to curl: [%s]", task->url ); curl_multi_add_handle( multi, createEasy( session, task )); /*fprintf( stderr, "adding a task.. taskCount is now %d\n", taskCount );*/ ++taskCount; } tr_lockUnlock( web->taskLock ); /* maybe wait a little while before calling curl_multi_perform() */ msec = 0; curl_multi_timeout( multi, &msec ); if( msec < 0 ) msec = THREADFUNC_MAX_SLEEP_MSEC; if( msec > 0 ) { int usec; int max_fd; struct timeval t; fd_set r_fd_set, w_fd_set, c_fd_set; max_fd = 0; FD_ZERO( &r_fd_set ); FD_ZERO( &w_fd_set ); FD_ZERO( &c_fd_set ); curl_multi_fdset( multi, &r_fd_set, &w_fd_set, &c_fd_set, &max_fd ); if( msec > THREADFUNC_MAX_SLEEP_MSEC ) msec = THREADFUNC_MAX_SLEEP_MSEC; usec = msec * 1000; t.tv_sec = usec / 1000000; t.tv_usec = usec % 1000000; tr_select( max_fd+1, &r_fd_set, &w_fd_set, &c_fd_set, &t ); } /* call curl_multi_perform() */ do { mcode = curl_multi_perform( multi, &unused ); } while( mcode == CURLM_CALL_MULTI_PERFORM ); /* pump completed tasks from the multi */ while(( msg = curl_multi_info_read( multi, &unused ))) { if(( msg->msg == CURLMSG_DONE ) && ( msg->easy_handle != NULL )) { double total_time; struct tr_web_task * task; long req_bytes_sent; CURL * e = msg->easy_handle; curl_easy_getinfo( e, CURLINFO_PRIVATE, (void*)&task ); curl_easy_getinfo( e, CURLINFO_RESPONSE_CODE, &task->code ); curl_easy_getinfo( e, CURLINFO_REQUEST_SIZE, &req_bytes_sent ); curl_easy_getinfo( e, CURLINFO_TOTAL_TIME, &total_time ); task->did_connect = task->code>0 || req_bytes_sent>0; task->did_timeout = !task->code && ( total_time >= task->timeout_secs ); curl_multi_remove_handle( multi, e ); curl_easy_cleanup( e ); /*fprintf( stderr, "removing a completed task.. taskCount is now %d (response code: %d, response len: %d)\n", taskCount, (int)task->code, (int)evbuffer_get_length(task->response) );*/ tr_runInEventThread( task->session, task_finish_func, task ); --taskCount; } } } /* Discard any remaining tasks. * This is rare, but can happen on shutdown with unresponsive trackers. */ while(( task = tr_list_pop_front( &web->tasks ))) { dbgmsg( "Discarding task \"%s\"", task->url ); task_free( task ); } /* cleanup */ curl_multi_cleanup( multi ); tr_lockFree( web->taskLock ); tr_free( web ); session->web = NULL; } void tr_webInit( tr_session * session ) { tr_threadNew( tr_webThreadFunc, session ); } void tr_webClose( tr_session * session, tr_web_close_mode close_mode ) { if( session->web != NULL ) { session->web->close_mode = close_mode; if( close_mode == TR_WEB_CLOSE_NOW ) while( session->web != NULL ) tr_wait_msec( 100 ); } } /***** ****** ****** *****/ const char * tr_webGetResponseStr( long code ) { switch( code ) { case 0: return "No Response"; case 101: return "Switching Protocols"; case 200: return "OK"; case 201: return "Created"; case 202: return "Accepted"; case 203: return "Non-Authoritative Information"; case 204: return "No Content"; case 205: return "Reset Content"; case 206: return "Partial Content"; case 300: return "Multiple Choices"; case 301: return "Moved Permanently"; case 302: return "Found"; case 303: return "See Other"; case 304: return "Not Modified"; case 305: return "Use Proxy"; case 306: return "(Unused)"; case 307: return "Temporary Redirect"; case 400: return "Bad Request"; case 401: return "Unauthorized"; case 402: return "Payment Required"; case 403: return "Forbidden"; case 404: return "Not Found"; case 405: return "Method Not Allowed"; case 406: return "Not Acceptable"; case 407: return "Proxy Authentication Required"; case 408: return "Request Timeout"; case 409: return "Conflict"; case 410: return "Gone"; case 411: return "Length Required"; case 412: return "Precondition Failed"; case 413: return "Request Entity Too Large"; case 414: return "Request-URI Too Long"; case 415: return "Unsupported Media Type"; case 416: return "Requested Range Not Satisfiable"; case 417: return "Expectation Failed"; case 500: return "Internal Server Error"; case 501: return "Not Implemented"; case 502: return "Bad Gateway"; case 503: return "Service Unavailable"; case 504: return "Gateway Timeout"; case 505: return "HTTP Version Not Supported"; default: return "Unknown Error"; } } void tr_http_escape( struct evbuffer * out, const char * str, int len, tr_bool escape_slashes ) { const char * end; if( ( len < 0 ) && ( str != NULL ) ) len = strlen( str ); for( end=str+len; str && str!=end; ++str ) { if( ( *str == ',' ) || ( *str == '-' ) || ( *str == '.' ) || ( ( '0' <= *str ) && ( *str <= '9' ) ) || ( ( 'A' <= *str ) && ( *str <= 'Z' ) ) || ( ( 'a' <= *str ) && ( *str <= 'z' ) ) || ( ( *str == '/' ) && ( !escape_slashes ) ) ) evbuffer_add( out, str, 1 ); else evbuffer_add_printf( out, "%%%02X", (unsigned)(*str&0xFF) ); } } char * tr_http_unescape( const char * str, int len ) { char * tmp = curl_unescape( str, len ); char * ret = tr_strdup( tmp ); curl_free( tmp ); return ret; } static int is_rfc2396_alnum( uint8_t ch ) { return ( '0' <= ch && ch <= '9' ) || ( 'A' <= ch && ch <= 'Z' ) || ( 'a' <= ch && ch <= 'z' ) || ch == '.' || ch == '-' || ch == '_' || ch == '~'; } void tr_http_escape_sha1( char * out, const uint8_t * sha1_digest ) { const uint8_t * in = sha1_digest; const uint8_t * end = in + SHA_DIGEST_LENGTH; while( in != end ) if( is_rfc2396_alnum( *in ) ) *out++ = (char) *in++; else out += tr_snprintf( out, 4, "%%%02x", (unsigned int)*in++ ); *out = '\0'; }