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source: trunk/libtransmission/bencode.c @ 3753

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Last change on this file since 3753 was 3753, checked in by charles, 15 years ago
update our #includes now that libevent has cleaned up event.h
Property svn:keywords set to `Date Rev Author Id`
File size: 12.2 KB

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1	/******************************************************************************
2	* $Id: bencode.c 3753 2007-11-07 18:26:19Z charles $
3	*
4	* Copyright (c) 2005-2007 Transmission authors and contributors
5	*
6	* Permission is hereby granted, free of charge, to any person obtaining a
7	* copy of this software and associated documentation files (the "Software"),
8	* to deal in the Software without restriction, including without limitation
9	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
10	* and/or sell copies of the Software, and to permit persons to whom the
11	* Software is furnished to do so, subject to the following conditions:
12	*
13	* The above copyright notice and this permission notice shall be included in
14	* all copies or substantial portions of the Software.
15	*
16	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22	* DEALINGS IN THE SOFTWARE.
23	*****************************************************************************/
24
25	#include <assert.h>
26	#include <ctype.h> /* isdigit, isprint */
27	#include <stdarg.h>
28	#include <stdio.h>
29	#include <stdlib.h>
30
31	#include <event.h>
32
33	#include "transmission.h"
34	#include "bencode.h"
35	#include "utils.h"
36
37	/* setting to 1 to help expose bugs with tr_bencListAdd and tr_bencDictAdd */
38	#define LIST_SIZE 20 /* number of items to increment list/dict buffer by */
39
40	static int makeroom( benc_val_t * val, int count )
41	{
42	assert( TYPE_LIST == val->type \|\| TYPE_DICT == val->type );
43
44	if( val->val.l.count + count > val->val.l.alloc )
45	{
46	/* We need a bigger boat */
47	const int len = val->val.l.alloc + count +
48	( count % LIST_SIZE ? LIST_SIZE - ( count % LIST_SIZE ) : 0 );
49	void * new = realloc( val->val.l.vals, len * sizeof( benc_val_t ) );
50	if( NULL == new )
51	return 1;
52
53	val->val.l.alloc = len;
54	val->val.l.vals = new;
55	}
56
57	return 0;
58	}
59
60	int _tr_bencLoad( char * buf, int len, benc_val_t * val, char ** end )
61	{
62	char * p, * e, * foo;
63
64	if( !end )
65	{
66	/* So we only have to check once */
67	end = &foo;
68	}
69
70	for( ;; )
71	{
72	if( !buf \|\| len<1 ) /* no more text to parse... */
73	return 1;
74
75	if( buf=='i' ) / Integer: i1234e */
76	{
77	int64_t num;
78
79	e = memchr( &buf[1], 'e', len - 1 );
80	if( !e )
81	return 1;
82
83	*e = '\0';
84	num = strtoll( &buf[1], &p, 10 );
85	*e = 'e';
86
87	if( p != e )
88	return 1;
89
90	tr_bencInitInt( val, num );
91	*end = p + 1;
92	break;
93	}
94	else if( buf=='l' \|\| buf=='d' )
95	{
96	/* List: l<item1><item2>e
97	Dict: d<string1><item1><string2><item2>e
98	A dictionary is just a special kind of list with an even
99	count of items, and where even items are strings. */
100	char * cur;
101	char is_dict;
102	char str_expected;
103
104	is_dict = ( buf[0] == 'd' );
105	cur = &buf[1];
106	str_expected = 1;
107	tr_bencInit( val, ( is_dict ? TYPE_DICT : TYPE_LIST ) );
108	while( cur - buf < len && cur[0] != 'e' )
109	{
110	if( makeroom( val, 1 ) \|\|
111	tr_bencLoad( cur, len - (cur - buf),
112	&val->val.l.vals[val->val.l.count], &p ) )
113	{
114	tr_bencFree( val );
115	return 1;
116	}
117	val->val.l.count++;
118	if( is_dict && str_expected &&
119	val->val.l.vals[val->val.l.count - 1].type != TYPE_STR )
120	{
121	tr_bencFree( val );
122	return 1;
123	}
124	str_expected = !str_expected;
125
126	cur = p;
127	}
128
129	if( is_dict && ( val->val.l.count & 1 ) )
130	{
131	tr_bencFree( val );
132	return 1;
133	}
134
135	*end = cur + 1;
136	break;
137	}
138	else if( isdigit(*buf) )
139	{
140	int slen;
141	char * sbuf;
142
143	e = memchr( buf, ':', len );
144	if( NULL == e )
145	{
146	return 1;
147	}
148
149	/* String: 12:whateverword */
150	e[0] = '\0';
151	slen = strtol( buf, &p, 10 );
152	e[0] = ':';
153
154	if( p != e \|\| 0 > slen \|\| len - ( ( p + 1 ) - buf ) < slen )
155	{
156	return 1;
157	}
158
159	sbuf = malloc( slen + 1 );
160	if( NULL == sbuf )
161	{
162	return 1;
163	}
164
165	memcpy( sbuf, p + 1, slen );
166	sbuf[slen] = '\0';
167	tr_bencInitStr( val, sbuf, slen, 0 );
168
169	*end = p + 1 + val->val.s.i;
170	break;
171	}
172	else /* invalid bencoded text... march past it */
173	{
174	++buf;
175	--len;
176	}
177	}
178
179	val->begin = buf;
180	val->end = *end;
181
182	return 0;
183	}
184
185	static void __bencPrint( benc_val_t * val, int space )
186	{
187	int ii;
188
189	for( ii = 0; ii < space; ii++ )
190	{
191	putc( ' ', stderr );
192	}
193
194	switch( val->type )
195	{
196	case TYPE_INT:
197	fprintf( stderr, "int: %"PRId64"\n", val->val.i );
198	break;
199
200	case TYPE_STR:
201	for( ii = 0; val->val.s.i > ii; ii++ )
202	{
203	if( '\\' == val->val.s.s[ii] )
204	{
205	putc( '\\', stderr );
206	putc( '\\', stderr );
207	}
208	else if( isprint( val->val.s.s[ii] ) )
209	{
210	putc( val->val.s.s[ii], stderr );
211	}
212	else
213	{
214	fprintf( stderr, "\\x%02x", val->val.s.s[ii] );
215	}
216	}
217	putc( '\n', stderr );
218	break;
219
220	case TYPE_LIST:
221	fprintf( stderr, "list\n" );
222	for( ii = 0; ii < val->val.l.count; ii++ )
223	{
224	__bencPrint( &val->val.l.vals[ii], space + 1 );
225	}
226	break;
227
228	case TYPE_DICT:
229	fprintf( stderr, "dict\n" );
230	for( ii = 0; ii < val->val.l.count; ii++ )
231	{
232	__bencPrint( &val->val.l.vals[ii], space + 1 );
233	}
234	break;
235	}
236	}
237
238	void tr_bencPrint( benc_val_t * val )
239	{
240	__bencPrint( val, 0 );
241	}
242
243	void tr_bencFree( benc_val_t * val )
244	{
245	int i;
246
247	switch( val->type )
248	{
249	case TYPE_INT:
250	break;
251
252	case TYPE_STR:
253	if( !val->val.s.nofree )
254	{
255	free( val->val.s.s );
256	}
257	break;
258
259	case TYPE_LIST:
260	case TYPE_DICT:
261	for( i = 0; i < val->val.l.count; i++ )
262	{
263	tr_bencFree( &val->val.l.vals[i] );
264	}
265	free( val->val.l.vals );
266	break;
267	}
268	}
269
270	benc_val_t * tr_bencDictFind( benc_val_t * val, const char * key )
271	{
272	int len, ii;
273
274	if( val->type != TYPE_DICT )
275	{
276	return NULL;
277	}
278
279	len = strlen( key );
280
281	for( ii = 0; ii + 1 < val->val.l.count; ii += 2 )
282	{
283	if( TYPE_STR != val->val.l.vals[ii].type \|\|
284	len != val->val.l.vals[ii].val.s.i \|\|
285	0 != memcmp( val->val.l.vals[ii].val.s.s, key, len ) )
286	{
287	continue;
288	}
289	return &val->val.l.vals[ii+1];
290	}
291
292	return NULL;
293	}
294
295	benc_val_t * tr_bencDictFindFirst( benc_val_t * val, ... )
296	{
297	const char * key;
298	benc_val_t * ret;
299	va_list ap;
300
301	ret = NULL;
302	va_start( ap, val );
303	while( ( key = va_arg( ap, const char * ) ) )
304	{
305	ret = tr_bencDictFind( val, key );
306	if( NULL != ret )
307	{
308	break;
309	}
310	}
311	va_end( ap );
312
313	return ret;
314	}
315
316	char * tr_bencStealStr( benc_val_t * val )
317	{
318	assert( TYPE_STR == val->type );
319	val->val.s.nofree = 1;
320	return val->val.s.s;
321	}
322
323	void _tr_bencInitStr( benc_val_t * val, char * str, int len, int nofree )
324	{
325	tr_bencInit( val, TYPE_STR );
326	val->val.s.s = str;
327	val->val.s.nofree = nofree;
328	if( 0 >= len )
329	{
330	len = ( NULL == str ? 0 : strlen( str ) );
331	}
332	val->val.s.i = len;
333	}
334
335	int tr_bencInitStrDup( benc_val_t * val, const char * str )
336	{
337	char * newStr = tr_strdup( str );
338	if( newStr == NULL )
339	return 1;
340
341	_tr_bencInitStr( val, newStr, 0, 0 );
342	return 0;
343	}
344
345	void tr_bencInitInt( benc_val_t * val, int64_t num )
346	{
347	tr_bencInit( val, TYPE_INT );
348	val->val.i = num;
349	}
350
351	int tr_bencListReserve( benc_val_t * val, int count )
352	{
353	assert( TYPE_LIST == val->type );
354
355	return makeroom( val, count );
356	}
357
358	int tr_bencDictReserve( benc_val_t * val, int count )
359	{
360	assert( TYPE_DICT == val->type );
361
362	return makeroom( val, count * 2 );
363	}
364
365	benc_val_t * tr_bencListAdd( benc_val_t * list )
366	{
367	benc_val_t * item;
368
369	assert( tr_bencIsList( list ) );
370	assert( list->val.l.count < list->val.l.alloc );
371
372	item = &list->val.l.vals[list->val.l.count];
373	list->val.l.count++;
374	tr_bencInit( item, TYPE_INT );
375
376	return item;
377	}
378
379	benc_val_t * tr_bencDictAdd( benc_val_t * dict, const char * key )
380	{
381	benc_val_t * keyval, * itemval;
382
383	assert( tr_bencIsDict( dict ) );
384	assert( dict->val.l.count + 2 <= dict->val.l.alloc );
385
386	keyval = dict->val.l.vals + dict->val.l.count++;
387	tr_bencInitStr( keyval, (char*)key, -1, 1 );
388
389	itemval = dict->val.l.vals + dict->val.l.count++;
390	tr_bencInit( itemval, TYPE_INT );
391
392	return itemval;
393	}
394
395	struct KeyIndex
396	{
397	const char * key;
398	int index;
399	};
400
401	static int compareKeyIndex( const void * va, const void * vb )
402	{
403	const struct KeyIndex * a = va;
404	const struct KeyIndex * b = vb;
405	return strcmp( a->key, b->key );
406	}
407
408	static void
409	saveImpl( struct evbuffer * out, const benc_val_t * val )
410	{
411	int ii;
412
413	switch( val->type )
414	{
415	case TYPE_INT:
416	evbuffer_add_printf( out, "i%"PRId64"e", val->val.i );
417	break;
418
419	case TYPE_STR:
420	evbuffer_add_printf( out, "%i:%s", (int)val->val.i, val->val.s.s );
421	break;
422
423	case TYPE_LIST:
424	evbuffer_add_printf( out, "l" );
425	for( ii = 0; val->val.l.count > ii; ii++ )
426	saveImpl( out, val->val.l.vals + ii );
427	evbuffer_add_printf( out, "e" );
428	break;
429
430	case TYPE_DICT:
431	/* Keys must be strings and appear in sorted order
432	(sorted as raw strings, not alphanumerics). */
433	evbuffer_add_printf( out, "d" );
434	if( 1 ) {
435	int i;
436	struct KeyIndex * indices = tr_new( struct KeyIndex, val->val.l.count );
437	for( ii=i=0; i<val->val.l.count; i+=2 ) {
438	indices[ii].key = val->val.l.vals[i].val.s.s;
439	indices[ii].index = i;
440	ii++;
441	}
442	qsort( indices, ii, sizeof(struct KeyIndex), compareKeyIndex );
443	for( i=0; i<ii; ++i ) {
444	const int index = indices[i].index;
445	saveImpl( out, val->val.l.vals + index );
446	saveImpl( out, val->val.l.vals + index + 1 );
447	}
448	tr_free( indices );
449	}
450	evbuffer_add_printf( out, "e" );
451	break;
452	}
453	}
454
455	char*
456	tr_bencSave( const benc_val_t * val, int * len )
457	{
458	struct evbuffer * buf = evbuffer_new( );
459	char * ret;
460	saveImpl( buf, val );
461	if( len != NULL )
462	*len = EVBUFFER_LENGTH( buf );
463	ret = tr_strndup( (char*) EVBUFFER_DATA( buf ), EVBUFFER_LENGTH( buf ) );
464	evbuffer_free( buf );
465	return ret;
466	}
467
468	/**
469	***
470	**/
471
472	int
473	tr_bencIsStr ( const benc_val_t * val )
474	{
475	return val!=NULL && val->type==TYPE_STR;
476	}
477
478	int
479	tr_bencIsInt ( const benc_val_t * val )
480	{
481	return val!=NULL && val->type==TYPE_INT;
482	}
483
484	int
485	tr_bencIsList( const benc_val_t * val )
486	{
487	return val!=NULL && val->type==TYPE_LIST;
488	}
489
490	int
491	tr_bencIsDict( const benc_val_t * val )
492	{
493	return val!=NULL && val->type==TYPE_DICT;
494	}

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