Context Navigation

source: dcc.c @ 699376f7

Last change on this file since 699376f7 was 60e4df3, checked in by Wilmer van der Gaast <wilmer@…>, at 2010-03-17T23:23:27Z
Small cleanup. The max_packet_size variable doesn't seem to be read anywhere, and reworked string handling in ft_listen() a little bit.
Property mode set to `100644`
File size: 17.6 KB

Line
1	/********************************************************************\
2	* BitlBee -- An IRC to other IM-networks gateway *
3	* *
4	* Copyright 2007 Uli Meis <a.sporto+bee@gmail.com> *
5	\********************************************************************/
6
7	/*
8	This program is free software; you can redistribute it and/or modify
9	it under the terms of the GNU General Public License as published by
10	the Free Software Foundation; either version 2 of the License, or
11	(at your option) any later version.
12
13	This program is distributed in the hope that it will be useful,
14	but WITHOUT ANY WARRANTY; without even the implied warranty of
15	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16	GNU General Public License for more details.
17
18	You should have received a copy of the GNU General Public License with
19	the Debian GNU/Linux distribution in /usr/share/common-licenses/GPL;
20	if not, write to the Free Software Foundation, Inc., 59 Temple Place,
21	Suite 330, Boston, MA 02111-1307 USA
22	*/
23
24	#define BITLBEE_CORE
25	#include "bitlbee.h"
26	#include "ft.h"
27	#include "dcc.h"
28	#include <poll.h>
29	#include <netinet/tcp.h>
30	#include <regex.h>
31	#include "lib/ftutil.h"
32
33	/*
34	* Since that might be confusing a note on naming:
35	*
36	* Generic dcc functions start with
37	*
38	* dcc_
39	*
40	* ,methods specific to DCC SEND start with
41	*
42	* dccs_
43	*
44	* . Since we can be on both ends of a DCC SEND,
45	* functions specific to one end are called
46	*
47	* dccs_send and dccs_recv
48	*
49	* ,respectively.
50	*/
51
52
53	/*
54	* used to generate a unique local transfer id the user
55	* can use to reject/cancel transfers
56	*/
57	unsigned int local_transfer_id=1;
58
59	/*
60	* just for debugging the nr. of chunks we received from im-protocols and the total data
61	*/
62	unsigned int receivedchunks=0, receiveddata=0;
63
64	static void dcc_finish( file_transfer_t *file );
65	static void dcc_close( file_transfer_t *file );
66	gboolean dccs_send_proto( gpointer data, gint fd, b_input_condition cond );
67	int dccs_send_request( struct dcc_file_transfer df, char user_nick, struct sockaddr_storage *saddr );
68	gboolean dccs_recv_start( file_transfer_t *ft );
69	gboolean dccs_recv_proto( gpointer data, gint fd, b_input_condition cond);
70	gboolean dccs_recv_write_request( file_transfer_t *ft );
71	gboolean dcc_progress( gpointer data, gint fd, b_input_condition cond );
72	gboolean dcc_abort( dcc_file_transfer_t df, char reason, ... );
73
74	/* As defined in ft.h */
75	file_transfer_t imcb_file_send_start( struct im_connection ic, char handle, char file_name, size_t file_size )
76	{
77	user_t *u = user_findhandle( ic, handle );
78	/* one could handle this more intelligent like imcb_buddy_msg.
79	* can't call it directly though cause it does some wrapping.
80	* Maybe give imcb_buddy_msg a parameter NO_WRAPPING? */
81	if (!u) return NULL;
82
83	return dccs_send_start( ic, u->nick, file_name, file_size );
84	};
85
86	/* As defined in ft.h */
87	void imcb_file_canceled( file_transfer_t file, char reason )
88	{
89	if( file->canceled )
90	file->canceled( file, reason );
91
92	dcc_close( file );
93	}
94
95	/* As defined in ft.h */
96	gboolean imcb_file_recv_start( file_transfer_t *ft )
97	{
98	return dccs_recv_start( ft );
99	}
100
101	/* As defined in ft.h */
102	void imcb_file_finished( file_transfer_t *file )
103	{
104	dcc_file_transfer_t *df = file->priv;
105
106	if( file->bytes_transferred >= file->file_size )
107	dcc_finish( file );
108	else
109	df->proto_finished = TRUE;
110	}
111
112	dcc_file_transfer_t dcc_alloc_transfer( char file_name, size_t file_size, struct im_connection *ic )
113	{
114	file_transfer_t *file = g_new0( file_transfer_t, 1 );
115	dcc_file_transfer_t *df = file->priv = g_new0( dcc_file_transfer_t, 1 );
116
117	file->file_size = file_size;
118	file->file_name = g_strdup( file_name );
119	file->local_id = local_transfer_id++;
120	df->ic = ic;
121	df->ft = file;
122
123	return df;
124	}
125
126	/* This is where the sending magic starts... */
127	file_transfer_t dccs_send_start( struct im_connection ic, char user_nick, char file_name, size_t file_size )
128	{
129	file_transfer_t *file;
130	dcc_file_transfer_t *df;
131	struct sockaddr_storage saddr;
132	char *errmsg;
133	char host[HOST_NAME_MAX];
134	char port[6];
135
136	if( file_size > global.conf->ft_max_size )
137	return NULL;
138
139	df = dcc_alloc_transfer( file_name, file_size, ic );
140	file = df->ft;
141	file->write = dccs_send_write;
142
143	/* listen and request */
144
145	if( ( df->fd = ft_listen( &saddr, host, port, TRUE, &errmsg ) ) == -1 )
146	{
147	dcc_abort( df, "Failed to listen locally, check your ft_listen setting in bitlbee.conf: %s", errmsg );
148	return NULL;
149	}
150
151	file->status = FT_STATUS_LISTENING;
152
153	if( !dccs_send_request( df, user_nick, &saddr ) )
154	return NULL;
155
156	/* watch */
157	df->watch_in = b_input_add( df->fd, GAIM_INPUT_READ, dccs_send_proto, df );
158
159	df->ic->irc->file_transfers = g_slist_prepend( df->ic->irc->file_transfers, file );
160
161	df->progress_timeout = b_timeout_add( DCC_MAX_STALL * 1000, dcc_progress, df );
162
163	imcb_log( ic, "File transfer request from %s for %s (%zd kb).\n"
164	"Accept the file transfer if you'd like the file. If you don't, "
165	"issue the 'transfers reject' command.",
166	user_nick, file_name, file_size / 1024 );
167
168	return file;
169	}
170
171	/* Used pretty much everywhere in the code to abort a transfer */
172	gboolean dcc_abort( dcc_file_transfer_t df, char reason, ... )
173	{
174	file_transfer_t *file = df->ft;
175	va_list params;
176	va_start( params, reason );
177	char *msg = g_strdup_vprintf( reason, params );
178	va_end( params );
179
180	file->status \|= FT_STATUS_CANCELED;
181
182	if( file->canceled )
183	file->canceled( file, msg );
184
185	imcb_log( df->ic, "File %s: DCC transfer aborted: %s", file->file_name, msg );
186
187	g_free( msg );
188
189	dcc_close( df->ft );
190
191	return FALSE;
192	}
193
194	gboolean dcc_progress( gpointer data, gint fd, b_input_condition cond )
195	{
196	struct dcc_file_transfer *df = data;
197
198	if( df->bytes_sent == df->progress_bytes_last )
199	{
200	/* no progress. cancel */
201	if( df->bytes_sent == 0 )
202	return dcc_abort( df, "Couldn't establish transfer within %d seconds", DCC_MAX_STALL );
203	else
204	return dcc_abort( df, "Transfer stalled for %d seconds at %d kb", DCC_MAX_STALL, df->bytes_sent / 1024 );
205
206	}
207
208	df->progress_bytes_last = df->bytes_sent;
209
210	return TRUE;
211	}
212
213	/* used extensively for socket operations */
214	#define ASSERTSOCKOP(op, msg) \
215	if( (op) == -1 ) \
216	return dcc_abort( df , msg ": %s", strerror( errno ) );
217
218	/* Creates the "DCC SEND" line and sends it to the server */
219	int dccs_send_request( struct dcc_file_transfer df, char user_nick, struct sockaddr_storage *saddr )
220	{
221	char ipaddr[INET6_ADDRSTRLEN];
222	const void *netaddr;
223	int port;
224	char *cmd;
225
226	if( saddr->ss_family == AF_INET )
227	{
228	struct sockaddr_in saddr_ipv4 = ( struct sockaddr_in ) saddr;
229
230	sprintf( ipaddr, "%d",
231	ntohl( saddr_ipv4->sin_addr.s_addr ) );
232	port = saddr_ipv4->sin_port;
233	}
234	else
235	{
236	struct sockaddr_in6 saddr_ipv6 = ( struct sockaddr_in6 ) saddr;
237
238	netaddr = &saddr_ipv6->sin6_addr.s6_addr;
239	port = saddr_ipv6->sin6_port;
240
241	/*
242	* Didn't find docs about this, but it seems that's the way irssi does it
243	*/
244	if( !inet_ntop( saddr->ss_family, netaddr, ipaddr, sizeof( ipaddr ) ) )
245	return dcc_abort( df, "inet_ntop failed: %s", strerror( errno ) );
246	}
247
248	port = ntohs( port );
249
250	cmd = g_strdup_printf( "\001DCC SEND %s %s %u %zu\001",
251	df->ft->file_name, ipaddr, port, df->ft->file_size );
252
253	if ( !irc_msgfrom( df->ic->irc, user_nick, cmd ) )
254	return dcc_abort( df, "Couldn't send `DCC SEND' message to %s.", user_nick );
255
256	g_free( cmd );
257
258	return TRUE;
259	}
260
261	/*
262	* Checks poll(), same for receiving and sending
263	*/
264	gboolean dcc_poll( dcc_file_transfer_t df, int fd, short revents )
265	{
266	struct pollfd pfd = { .fd = fd, .events = POLLHUP\|POLLERR\|POLLIN\|POLLOUT };
267
268	ASSERTSOCKOP( poll( &pfd, 1, 0 ), "poll()" )
269
270	if( pfd.revents & POLLERR )
271	{
272	int sockerror;
273	socklen_t errlen = sizeof( sockerror );
274
275	if ( getsockopt( fd, SOL_SOCKET, SO_ERROR, &sockerror, &errlen ) )
276	return dcc_abort( df, "getsockopt() failed, unknown socket error (weird!)" );
277
278	return dcc_abort( df, "Socket error: %s", strerror( sockerror ) );
279	}
280
281	if( pfd.revents & POLLHUP )
282	return dcc_abort( df, "Remote end closed connection" );
283
284	*revents = pfd.revents;
285
286	return TRUE;
287	}
288
289	/*
290	* After setup, the transfer itself is handled entirely by this function.
291	* There are basically four things to handle: connect, receive, send, and error.
292	*/
293	gboolean dccs_send_proto( gpointer data, gint fd, b_input_condition cond )
294	{
295	dcc_file_transfer_t *df = data;
296	file_transfer_t *file = df->ft;
297	short revents;
298
299	if( !dcc_poll( df, fd, &revents ) )
300	return FALSE;
301
302	if( ( revents & POLLIN ) &&
303	( file->status & FT_STATUS_LISTENING ) )
304	{
305	struct sockaddr *clt_addr;
306	socklen_t ssize = sizeof( clt_addr );
307
308	/* Connect */
309
310	ASSERTSOCKOP( df->fd = accept( fd, (struct sockaddr *) &clt_addr, &ssize ), "Accepting connection" );
311
312	closesocket( fd );
313	fd = df->fd;
314	file->status = FT_STATUS_TRANSFERRING;
315	sock_make_nonblocking( fd );
316
317	/* IM protocol callback */
318	if( file->accept )
319	file->accept( file );
320
321	/* reschedule for reading on new fd */
322	df->watch_in = b_input_add( fd, GAIM_INPUT_READ, dccs_send_proto, df );
323
324	return FALSE;
325	}
326
327	if( revents & POLLIN )
328	{
329	int bytes_received;
330	int ret;
331
332	ASSERTSOCKOP( ret = recv( fd, &bytes_received, sizeof( bytes_received ), MSG_PEEK ), "Receiving" );
333
334	if( ret == 0 )
335	return dcc_abort( df, "Remote end closed connection" );
336
337	if( ret < 4 )
338	{
339	imcb_log( df->ic, "WARNING: DCC SEND: receiver sent only %d bytes instead of 4, shouldn't happen too often!", ret );
340	return TRUE;
341	}
342
343	ASSERTSOCKOP( ret = recv( fd, &bytes_received, sizeof( bytes_received ), 0 ), "Receiving" );
344	if( ret != 4 )
345	return dcc_abort( df, "MSG_PEEK'ed 4, but can only dequeue %d bytes", ret );
346
347	bytes_received = ntohl( bytes_received );
348
349	/* If any of this is actually happening, the receiver should buy a new IRC client */
350
351	if ( bytes_received > df->bytes_sent )
352	return dcc_abort( df, "Receiver magically received more bytes than sent ( %d > %d ) (BUG at receiver?)", bytes_received, df->bytes_sent );
353
354	if ( bytes_received < file->bytes_transferred )
355	return dcc_abort( df, "Receiver lost bytes? ( has %d, had %d ) (BUG at receiver?)", bytes_received, file->bytes_transferred );
356
357	file->bytes_transferred = bytes_received;
358
359	if( file->bytes_transferred >= file->file_size ) {
360	if( df->proto_finished )
361	dcc_finish( file );
362	return FALSE;
363	}
364
365	return TRUE;
366	}
367
368	return TRUE;
369	}
370
371	gboolean dccs_recv_start( file_transfer_t *ft )
372	{
373	dcc_file_transfer_t *df = ft->priv;
374	struct sockaddr_storage *saddr = &df->saddr;
375	int fd;
376	char ipaddr[INET6_ADDRSTRLEN];
377	socklen_t sa_len = saddr->ss_family == AF_INET ?
378	sizeof( struct sockaddr_in ) : sizeof( struct sockaddr_in6 );
379
380	if( !ft->write )
381	return dcc_abort( df, "BUG: protocol didn't register write()" );
382
383	ASSERTSOCKOP( fd = df->fd = socket( saddr->ss_family, SOCK_STREAM, 0 ), "Opening Socket" );
384
385	sock_make_nonblocking( fd );
386
387	if( ( connect( fd, (struct sockaddr *)saddr, sa_len ) == -1 ) &&
388	( errno != EINPROGRESS ) )
389	return dcc_abort( df, "Connecting to %s:%d : %s",
390	inet_ntop( saddr->ss_family,
391	saddr->ss_family == AF_INET ?
392	( void* ) &( ( struct sockaddr_in *) saddr )->sin_addr.s_addr :
393	( void* ) &( ( struct sockaddr_in6 *) saddr )->sin6_addr.s6_addr,
394	ipaddr,
395	sizeof( ipaddr ) ),
396	ntohs( saddr->ss_family == AF_INET ?
397	( ( struct sockaddr_in *) saddr )->sin_port :
398	( ( struct sockaddr_in6 *) saddr )->sin6_port ),
399	strerror( errno ) );
400
401	ft->status = FT_STATUS_CONNECTING;
402
403	/* watch */
404	df->watch_out = b_input_add( df->fd, GAIM_INPUT_WRITE, dccs_recv_proto, df );
405	ft->write_request = dccs_recv_write_request;
406
407	df->progress_timeout = b_timeout_add( DCC_MAX_STALL * 1000, dcc_progress, df );
408
409	return TRUE;
410	}
411
412	gboolean dccs_recv_proto( gpointer data, gint fd, b_input_condition cond )
413	{
414	dcc_file_transfer_t *df = data;
415	file_transfer_t *ft = df->ft;
416	short revents;
417
418	if( !dcc_poll( df, fd, &revents ) )
419	return FALSE;
420
421	if( ( revents & POLLOUT ) &&
422	( ft->status & FT_STATUS_CONNECTING ) )
423	{
424	ft->status = FT_STATUS_TRANSFERRING;
425
426	//df->watch_in = b_input_add( df->fd, GAIM_INPUT_READ, dccs_recv_proto, df );
427
428	df->watch_out = 0;
429	return FALSE;
430	}
431
432	if( revents & POLLIN )
433	{
434	int ret, done;
435
436	ASSERTSOCKOP( ret = recv( fd, ft->buffer, sizeof( ft->buffer ), 0 ), "Receiving" );
437
438	if( ret == 0 )
439	return dcc_abort( df, "Remote end closed connection" );
440
441	if( !ft->write( df->ft, ft->buffer, ret ) )
442	return FALSE;
443
444	df->bytes_sent += ret;
445
446	done = df->bytes_sent >= ft->file_size;
447
448	if( ( ( df->bytes_sent - ft->bytes_transferred ) > DCC_PACKET_SIZE ) \|\|
449	done )
450	{
451	int ack, ackret;
452	ack = htonl( ft->bytes_transferred = df->bytes_sent );
453
454	ASSERTSOCKOP( ackret = send( fd, &ack, 4, 0 ), "Sending DCC ACK" );
455
456	if ( ackret != 4 )
457	return dcc_abort( df, "Error sending DCC ACK, sent %d instead of 4 bytes", ackret );
458	}
459
460	if( df->bytes_sent == ret )
461	ft->started = time( NULL );
462
463	if( done )
464	{
465	if( df->watch_out )
466	b_event_remove( df->watch_out );
467
468	if( df->proto_finished )
469	dcc_finish( ft );
470
471	df->watch_in = 0;
472	return FALSE;
473	}
474
475	df->watch_in = 0;
476	return FALSE;
477	}
478
479	return TRUE;
480	}
481
482	gboolean dccs_recv_write_request( file_transfer_t *ft )
483	{
484	dcc_file_transfer_t *df = ft->priv;
485
486	if( df->watch_in )
487	return dcc_abort( df, "BUG: write_request() called while watching" );
488
489	df->watch_in = b_input_add( df->fd, GAIM_INPUT_READ, dccs_recv_proto, df );
490
491	return TRUE;
492	}
493
494	gboolean dccs_send_can_write( gpointer data, gint fd, b_input_condition cond )
495	{
496	struct dcc_file_transfer *df = data;
497	df->watch_out = 0;
498
499	df->ft->write_request( df->ft );
500	return FALSE;
501	}
502
503	/*
504	* Incoming data.
505	*
506	*/
507	gboolean dccs_send_write( file_transfer_t file, char data, unsigned int data_len )
508	{
509	dcc_file_transfer_t *df = file->priv;
510	int ret;
511
512	receivedchunks++; receiveddata += data_len;
513
514	if( df->watch_out )
515	return dcc_abort( df, "BUG: write() called while watching" );
516
517	ASSERTSOCKOP( ret = send( df->fd, data, data_len, 0 ), "Sending data" );
518
519	if( ret == 0 )
520	return dcc_abort( df, "Remote end closed connection" );
521
522	/* TODO: this should really not be fatal */
523	if( ret < data_len )
524	return dcc_abort( df, "send() sent %d instead of %d", ret, data_len );
525
526	if( df->bytes_sent == 0 )
527	file->started = time( NULL );
528
529	df->bytes_sent += ret;
530
531	if( df->bytes_sent < df->ft->file_size )
532	df->watch_out = b_input_add( df->fd, GAIM_INPUT_WRITE, dccs_send_can_write, df );
533
534	return TRUE;
535	}
536
537	/*
538	* Cleans up after a transfer.
539	*/
540	static void dcc_close( file_transfer_t *file )
541	{
542	dcc_file_transfer_t *df = file->priv;
543
544	if( file->free )
545	file->free( file );
546
547	closesocket( df->fd );
548
549	if( df->watch_in )
550	b_event_remove( df->watch_in );
551
552	if( df->watch_out )
553	b_event_remove( df->watch_out );
554
555	if( df->progress_timeout )
556	b_event_remove( df->progress_timeout );
557
558	df->ic->irc->file_transfers = g_slist_remove( df->ic->irc->file_transfers, file );
559
560	g_free( df );
561	g_free( file->file_name );
562	g_free( file );
563	}
564
565	void dcc_finish( file_transfer_t *file )
566	{
567	dcc_file_transfer_t *df = file->priv;
568	time_t diff = time( NULL ) - file->started ? : 1;
569
570	file->status \|= FT_STATUS_FINISHED;
571
572	if( file->finished )
573	file->finished( file );
574
575	imcb_log( df->ic, "File %s transferred successfully at %d kb/s!" , file->file_name, (int) ( file->bytes_transferred / 1024 / diff ) );
576	dcc_close( file );
577	}
578
579	/*
580	* DCC SEND <filename> <IP> <port> <filesize>
581	*
582	* filename can be in "" or not. If it is, " can probably be escaped...
583	* IP can be an unsigned int (IPV4) or something else (IPV6)
584	*
585	*/
586	file_transfer_t dcc_request( struct im_connection ic, char *line )
587	{
588	char *pattern = "SEND"
589	" (([^\"][^ ])\|\"(([^\"]\|\\\"))\")"
590	" (([0-9])\|([^ ]))"
591	" ([0-9]*)"
592	" ([0-9]*)\001";
593	regmatch_t pmatch[10];
594	regex_t re;
595	file_transfer_t *ft;
596	dcc_file_transfer_t *df;
597	char errbuf[256];
598	int regerrcode, gret;
599
600	if( ( regerrcode = regcomp( &re, pattern, REG_EXTENDED ) ) \|\|
601	( regerrcode = regexec( &re, line, 10, pmatch, 0 ) ) ) {
602	regerror( regerrcode,&re,errbuf,sizeof( errbuf ) );
603	imcb_log( ic,
604	"DCC: error parsing 'DCC SEND': %s, line: %s",
605	errbuf, line );
606	return NULL;
607	}
608
609	if( ( pmatch[1].rm_so > 0 ) &&
610	( pmatch[5].rm_so > 0 ) &&
611	( pmatch[8].rm_so > 0 ) &&
612	( pmatch[9].rm_so > 0 ) )
613	{
614	char *input = g_strdup( line );
615	char filename, host, *port;
616	size_t filesize;
617	struct addrinfo hints, *rp;
618
619	/* "filename" or filename */
620	if ( pmatch[2].rm_so > 0 )
621	{
622	input[pmatch[2].rm_eo] = '\0';
623	filename = input + pmatch[2].rm_so;
624	} else
625	{
626	input[pmatch[3].rm_eo] = '\0';
627	filename = input + pmatch[3].rm_so;
628	}
629
630	input[pmatch[5].rm_eo] = '\0';
631
632	/* number means ipv4, something else means ipv6 */
633	if ( pmatch[6].rm_so > 0 )
634	{
635	struct in_addr ipaddr = { .s_addr = htonl( strtoul( input + pmatch[5].rm_so, NULL, 10 ) ) };
636	host = inet_ntoa( ipaddr );
637	} else
638	{
639	/* Contains non-numbers, hopefully an IPV6 address */
640	host = input + pmatch[7].rm_so;
641	}
642
643	input[pmatch[8].rm_eo] = '\0';
644	input[pmatch[9].rm_eo] = '\0';
645
646	port = input + pmatch[8].rm_so;
647	filesize = atoll( input + pmatch[9].rm_so );
648
649	memset( &hints, 0, sizeof ( struct addrinfo ) );
650	hints.ai_socktype = SOCK_STREAM;
651	hints.ai_flags = AI_NUMERICSERV;
652
653	if ( ( gret = getaddrinfo( host, port, &hints, &rp ) ) )
654	{
655	g_free( input );
656	imcb_log( ic, "DCC: getaddrinfo() failed with %s "
657	"when parsing incoming 'DCC SEND': "
658	"host %s, port %s",
659	gai_strerror( gret ), host, port );
660	return NULL;
661	}
662
663	df = dcc_alloc_transfer( filename, filesize, ic );
664	ft = df->ft;
665	ft->sending = TRUE;
666	memcpy( &df->saddr, rp->ai_addr, rp->ai_addrlen );
667
668	freeaddrinfo( rp );
669	g_free( input );
670
671	df->ic->irc->file_transfers = g_slist_prepend( df->ic->irc->file_transfers, ft );
672
673	return ft;
674	}
675
676	imcb_log( ic, "DCC: couldnt parse 'DCC SEND' line: %s", line );
677
678	return NULL;
679	}
680

Note: See TracBrowser for help on using the repository browser.

Download in other formats: