File Coverage

_torrent.c

Criterion	Covered	Total	%
statement	120	217	55.3
branch	37	120	30.8
condition			n/a
subroutine			n/a
pod			n/a
total	157	337	46.5

line	stmt	bran	code
1			/* torrent.c - create BitTorrent files and calculate BitTorrent InfoHash (BTIH).
2			*
3			* Copyright: 2010-2012 Aleksey Kravchenko
4			*
5			* Permission is hereby granted, free of charge, to any person obtaining a
6			* copy of this software and associated documentation files (the "Software"),
7			* to deal in the Software without restriction, including without limitation
8			* the rights to use, copy, modify, merge, publish, distribute, sublicense,
9			* and/or sell copies of the Software, and to permit persons to whom the
10			* Software is furnished to do so.
11			*
12			* This program is distributed in the hope that it will be useful, but
13			* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
14			* or FITNESS FOR A PARTICULAR PURPOSE. Use this program at your own risk!
15			*/
16
17			#include
18			#include
19			#include
20			#include
21			#include /* time() */
22
23			#include "byte_order.h"
24			#include "algorithms.h"
25			#include "hex.h"
26			#include "torrent.h"
27
28			#ifdef USE_OPENSSL
29			#define SHA1_INIT(ctx) ((pinit_t)ctx->sha_init)(&ctx->sha1_context)
30			#define SHA1_UPDATE(ctx, msg, size) ((pupdate_t)ctx->sha_update)(&ctx->sha1_context, (msg), (size))
31			#define SHA1_FINAL(ctx, result) ((pfinal_t)ctx->sha_final)(&ctx->sha1_context, (result))
32			#else
33			#define SHA1_INIT(ctx) rhash_sha1_init(&ctx->sha1_context)
34			#define SHA1_UPDATE(ctx, msg, size) rhash_sha1_update(&ctx->sha1_context, (msg), (size))
35			#define SHA1_FINAL(ctx, result) rhash_sha1_final(&ctx->sha1_context, (result))
36			#endif
37
38			#define BT_MIN_HASH_LENGTH 16384
39			/** size of a SHA1 hash in bytes */
40			#define BT_HASH_SIZE 20
41			/** number of SHA1 hashes to store together in one block */
42			#define BT_BLOCK_SIZE 256
43
44			/**
45			* Initialize torrent context before calculating hash.
46			*
47			* @param ctx context to initialize
48			*/
49	2		void bt_init(torrent_ctx* ctx)
50			{
51	2		memset(ctx, 0, sizeof(torrent_ctx));
52	2		ctx->piece_length = BT_MIN_HASH_LENGTH;
53	2	50	assert(BT_MIN_HASH_LENGTH == bt_default_piece_length(0));
54
55			#ifdef USE_OPENSSL
56			{
57			/* get the methods of the selected SHA1 algorithm */
58			rhash_hash_info *sha1_info = &rhash_info_table[3];
59			assert(sha1_info->info->hash_id == RHASH_SHA1);
60			assert(sha1_info->context_size <= (sizeof(sha1_ctx) + sizeof(unsigned long)));
61			ctx->sha_init = sha1_info->init;
62			ctx->sha_update = sha1_info->update;
63			ctx->sha_final = sha1_info->final;
64			}
65			#endif
66
67	2		SHA1_INIT(ctx);
68	2		}
69
70			/**
71			* Free memory allocated by properties of torrent_vect structure.
72			*
73			* @param vect vector to clean
74			*/
75	3		static void bt_vector_clean(torrent_vect *vect)
76			{
77			size_t i;
78	4	100	for (i = 0; i < vect->size; i++) {
79	1		free(vect->array[i]);
80			}
81	3		free(vect->array);
82	3		}
83
84			/**
85			* Clean up torrent context by freeing all dynamically
86			* allocated memory.
87			*
88			* @param ctx torrent algorithm context
89			*/
90	1		void bt_cleanup(torrent_ctx *ctx)
91			{
92	1	50	assert(ctx != NULL);
93
94			/* destroy arrays */
95	1		bt_vector_clean(&ctx->hash_blocks);
96	1		bt_vector_clean(&ctx->files);
97	1		bt_vector_clean(&ctx->announce);
98
99	1		free(ctx->program_name);
100	1		free(ctx->content.str);
101	1		ctx->program_name = 0;
102	1		ctx->content.str = 0;
103	1		}
104
105			static void bt_generate_torrent(torrent_ctx *ctx);
106
107			/**
108			* Add an item to vector.
109			*
110			* @param vect vector to add item to
111			* @param item the item to add
112			* @return non-zero on success, zero on fail
113			*/
114	2		static int bt_vector_add_ptr(torrent_vect* vect, void* item)
115			{
116			/* check if vector contains enough space for the next item */
117	2	50	if (vect->size >= vect->allocated) {
118	2	50	size_t size = (vect->allocated == 0 ? 128 : vect->allocated * 2);
119	2		void new_array = realloc(vect->array, size sizeof(void*));
120	2	50	if (new_array == NULL) return 0; /* failed: no memory */
121	2		vect->array = (void**)new_array;
122	2		vect->allocated = size;
123			}
124			/* add new item to the vector */
125	2		vect->array[vect->size] = item;
126	2		vect->size++;
127	2		return 1;
128			}
129
130			/**
131			* Store a SHA1 hash of a processed file piece.
132			*
133			* @param ctx torrent algorithm context
134			* @return non-zero on success, zero on fail
135			*/
136	2		static int bt_store_piece_sha1(torrent_ctx *ctx)
137			{
138			unsigned char* block;
139			unsigned char* hash;
140
141	2	50	if ((ctx->piece_count % BT_BLOCK_SIZE) == 0) {
142	2		block = (unsigned char)malloc(BT_HASH_SIZE BT_BLOCK_SIZE);
143	2	50	if (block == NULL \|\| !bt_vector_add_ptr(&ctx->hash_blocks, block)) {
		50
144	0	0	if (block) free(block);
145	0		return 0;
146			}
147			} else {
148	0		block = (unsigned char*)(ctx->hash_blocks.array[ctx->piece_count / BT_BLOCK_SIZE]);
149			}
150
151	2		hash = &block[BT_HASH_SIZE * (ctx->piece_count % BT_BLOCK_SIZE)];
152	2		SHA1_FINAL(ctx, hash); /* write the hash */
153	2		ctx->piece_count++;
154	2		return 1;
155			}
156
157			/**
158			* A filepath and filesize information.
159			*/
160			typedef struct bt_file_info
161			{
162			uint64_t size;
163			char path[1];
164			} bt_file_info;
165
166			/**
167			* Add a file info into the batch of files of given torrent.
168			*
169			* @param ctx torrent algorithm context
170			* @param path file path
171			* @param filesize file size
172			* @return non-zero on success, zero on fail
173			*/
174	0		int bt_add_file(torrent_ctx ctx, const char path, uint64_t filesize)
175			{
176	0		size_t len = strlen(path);
177	0		bt_file_info* info = (bt_file_info*)malloc(sizeof(uint64_t) + len + 1);
178	0	0	if (info == NULL) {
179	0		ctx->error = 1;
180	0		return 0;
181			}
182
183	0		info->size = filesize;
184	0		memcpy(info->path, path, len + 1);
185	0	0	if (!bt_vector_add_ptr(&ctx->files, info)) {
186	0		free(info);
187	0		return 0;
188			}
189
190			/* recalculate piece length (but only if hashing not started yet) */
191	0	0	if (ctx->piece_count == 0 && ctx->index == 0) {
		0
192			/* note: in case of batch of files should use a total batch size */
193	0		ctx->piece_length = bt_default_piece_length(filesize);
194			}
195	0		return 1;
196			}
197
198			/**
199			* Calculate message hash.
200			* Can be called repeatedly with chunks of the message to be hashed.
201			*
202			* @param ctx the algorithm context containing current hashing state
203			* @param msg message chunk
204			* @param size length of the message chunk
205			*/
206	2		void bt_update(torrent_ctx ctx, const void msg, size_t size)
207			{
208	2		const unsigned char* pmsg = (const unsigned char*)msg;
209	2		size_t rest = (size_t)(ctx->piece_length - ctx->index);
210	2	50	assert(ctx->index < ctx->piece_length);
211
212	2	50	while (size > 0) {
213	2		size_t left = (size < rest ? size : rest);
214	2		SHA1_UPDATE(ctx, pmsg, left);
215	2	50	if (size < rest) {
216	2		ctx->index += left;
217	2		break;
218			}
219	0		bt_store_piece_sha1(ctx);
220	0		SHA1_INIT(ctx);
221	0		ctx->index = 0;
222
223	0		pmsg += rest;
224	0		size -= rest;
225	0		rest = ctx->piece_length;
226			}
227	2		}
228
229			/**
230			* Finalize hashing and optionally store calculated hash into the given array.
231			* If the result parameter is NULL, the hash is not stored, but it is
232			* accessible by bt_get_btih().
233			*
234			* @param ctx the algorithm context containing current hashing state
235			* @param result pointer to the array store message hash into
236			*/
237	2		void bt_final(torrent_ctx *ctx, unsigned char result[20])
238			{
239	2	50	if (ctx->index > 0) {
240	2		bt_store_piece_sha1(ctx); /* flush buffered data */
241			}
242
243	2		bt_generate_torrent(ctx);
244	2	50	if (result) memcpy(result, ctx->btih, btih_hash_size);
245	2		}
246
247			/* BitTorrent functions */
248
249			/**
250			* Grow, if needed, the torrent_str buffer to ensure it contains
251			* at least (length + 1) characters.
252			*
253			* @param ctx the torrent algorithm context
254			* @param length length of the string, the allocated buffer must contain
255			* @return 1 on success, 0 on error
256			*/
257	20		static int bt_str_ensure_length(torrent_ctx* ctx, size_t length)
258			{
259			char* new_str;
260	20	100	if (length >= ctx->content.allocated && !ctx->error) {
		50
261	4		length++; /* allocate one character more */
262	4	100	if (length < 64) length = 64;
263	2		else length = (length + 255) & ~255;
264	4		new_str = (char*)realloc(ctx->content.str, length);
265	4	50	if (new_str == NULL) {
266	0		ctx->error = 1;
267	0		ctx->content.allocated = 0;
268	0		return 0;
269			}
270	4		ctx->content.str = new_str;
271	4		ctx->content.allocated = length;
272			}
273	20		return 1;
274			}
275
276			/**
277			* Append a null-terminated string to the string string buffer.
278			*
279			* @param ctx the torrent algorithm context
280			* @param text the null-terminated string to append
281			*/
282	14		static void bt_str_append(torrent_ctx ctx, const char text)
283			{
284	14		size_t length = strlen(text);
285
286	14	50	if (!bt_str_ensure_length(ctx, ctx->content.length + length)) return;
287	14	50	assert(ctx->content.str != 0);
288	14		memcpy(ctx->content.str + ctx->content.length, text, length);
289	14		ctx->content.length += length;
290	14		ctx->content.str[ctx->content.length] = '\0';
291			}
292
293			/**
294			* B-encode given integer.
295			*
296			* @param ctx the torrent algorithm context
297			* @param number the integer to output
298			*/
299	4		static void bt_bencode_int(torrent_ctx* ctx, const char* name, uint64_t number)
300			{
301			char* p;
302	4	50	if (name) bt_str_append(ctx, name);
303
304			/* add up to 20 digits and 2 letters */
305	4	50	if (!bt_str_ensure_length(ctx, ctx->content.length + 22)) return;
306	4		p = ctx->content.str + ctx->content.length;
307	4		*(p++) = 'i';
308	4		p += rhash_sprintI64(p, number);
309	4		*(p++) = 'e';
310	4		p = '\0'; / terminate string with \0 */
311
312	4		ctx->content.length = (p - ctx->content.str);
313			}
314
315			/**
316			* B-encode a string.
317			*
318			* @param ctx the torrent algorithm context
319			* @param str the string to encode
320			*/
321	0		static void bt_bencode_str(torrent_ctx* ctx, const char* name, const char* str)
322			{
323	0		size_t len = strlen(str);
324			int num_len;
325			char* p;
326
327	0	0	if (name) bt_str_append(ctx, name);
328	0	0	if (!bt_str_ensure_length(ctx, ctx->content.length + len + 21)) return;
329
330	0		p = ctx->content.str + ctx->content.length;
331	0		p += (num_len = rhash_sprintI64(p, len));
332	0		ctx->content.length += len + num_len + 1;
333
334	0		*(p++) = ':';
335	0		memcpy(p, str, len + 1); /* copy with trailing '\0' */
336			}
337
338			/**
339			* B-encode array of SHA1 hashes of file pieces.
340			*
341			* @param ctx pointer to the torrent structure containing SHA1 hashes
342			*/
343	2		static void bt_bencode_pieces(torrent_ctx* ctx)
344			{
345	2		size_t pieces_length = ctx->piece_count * BT_HASH_SIZE;
346			int num_len;
347			int size, i;
348			char* p;
349
350	2	50	if (!bt_str_ensure_length(ctx, ctx->content.length + pieces_length + 21))
351	0		return;
352
353	2		p = ctx->content.str + ctx->content.length;
354	2		p += (num_len = rhash_sprintI64(p, pieces_length));
355	2		ctx->content.length += pieces_length + num_len + 1;
356
357	2		*(p++) = ':';
358	2		p[pieces_length] = '\0'; /* terminate with \0 just in case */
359
360	4	100	for (size = (int)ctx->piece_count, i = 0; size > 0;
361	2		size -= BT_BLOCK_SIZE, i++)
362			{
363	2		memcpy(p, ctx->hash_blocks.array[i],
364	2		(size < BT_BLOCK_SIZE ? size : BT_BLOCK_SIZE) * BT_HASH_SIZE);
365	2		p += BT_BLOCK_SIZE * BT_HASH_SIZE;
366			}
367			}
368
369			/**
370			* Calculate default torrent piece length, using uTorrent algorithm.
371			* Algorithm:
372			* length = 16K for total_size < 16M,
373			* length = 8M for total_size >= 4G,
374			* length = top_bit(total_size) / 1024 otherwise.
375			*
376			* @param total_size total hashed batch size of torrent file
377			* @return piece length used by torrent file
378			*/
379	2		size_t bt_default_piece_length(uint64_t total_size)
380			{
381			uint64_t hi_bit;
382	2	50	if (total_size < 16777216) return BT_MIN_HASH_LENGTH;
383	0	0	if (total_size >= I64(4294967296) ) return 8388608;
384	0	0	for (hi_bit = 16777216 << 1; hi_bit <= total_size; hi_bit <<= 1);
385	0		return (size_t)(hi_bit >> 10);
386			}
387
388			/* get file basename */
389	0		static const char* bt_get_basename(const char* path)
390			{
391	0		const char *p = strchr(path, '\0') - 1;
392	0	0	for (; p >= path && p != '/' && p != '\\'; p--);
		0
		0
393	0		return (p + 1);
394			}
395
396			/* extract batchname from the path, modifies the path buffer */
397	0		static const char* get_batch_name(char* path)
398			{
399	0		char* p = (char*)bt_get_basename(path) - 1;
400	0	0	for (; p > path && (p == '/' \|\| p == '\\'); p--) *p = 0;
		0
		0
401	0	0	if (p <= path) return "BATCH_DIR";
402	0		return bt_get_basename(path);
403			}
404
405			/* write file size and path */
406	0		static void bt_file_info_append(torrent_ctx ctx, const char length_name,
407			const char* path_name, bt_file_info* info)
408			{
409	0		bt_bencode_int(ctx, length_name, info->size);
410			/* store the file basename */
411	0		bt_bencode_str(ctx, path_name, bt_get_basename(info->path));
412	0		}
413
414			/**
415			* Generate torrent file content
416			* @see http://wiki.theory.org/BitTorrentSpecification
417			*
418			* @param ctx the torrent algorithm context
419			*/
420	2		static void bt_generate_torrent(torrent_ctx *ctx)
421			{
422	2		uint64_t total_size = 0;
423			size_t info_start_pos;
424
425	2	50	assert(ctx->content.str == NULL);
426
427	2	50	if (ctx->piece_length == 0) {
428	0	0	if (ctx->files.size == 1) {
429	0		total_size = ((bt_file_info*)ctx->files.array[0])->size;
430			}
431	0		ctx->piece_length = bt_default_piece_length(total_size);
432			}
433
434	2	50	if ((ctx->options & BT_OPT_INFOHASH_ONLY) == 0) {
435			/* write the torrent header */
436	2		bt_str_append(ctx, "d");
437	2	50	if (ctx->announce.array && ctx->announce.size > 0) {
		0
438	0		bt_bencode_str(ctx, "8:announce", ctx->announce.array[0]);
439
440			/* if more than one announce url */
441	0	0	if (ctx->announce.size > 1) {
442			/* add the announce-list key-value pair */
443			size_t i;
444	0		bt_str_append(ctx, "13:announce-listll");
445
446	0	0	for (i = 0; i < ctx->announce.size; i++) {
447	0	0	if (i > 0) {
448	0		bt_str_append(ctx, "el");
449			}
450	0		bt_bencode_str(ctx, 0, ctx->announce.array[i]);
451			}
452	0		bt_str_append(ctx, "ee");
453			}
454			}
455
456	2	50	if (ctx->program_name) {
457	0		bt_bencode_str(ctx, "10:created by", ctx->program_name);
458			}
459	2		bt_bencode_int(ctx, "13:creation date", (uint64_t)time(NULL));
460
461	2		bt_str_append(ctx, "8:encoding5:UTF-8");
462			}
463
464			/* write the essential for BTIH part of the torrent file */
465
466	2		bt_str_append(ctx, "4:infod"); /* start the info dictionary */
467	2		info_start_pos = ctx->content.length - 1;
468
469	2	50	if (ctx->files.size > 1) {
470			size_t i;
471
472			/* process batch torrent */
473	0		bt_str_append(ctx, "5:filesl"); /* start list of files */
474
475			/* write length and path for each file in the batch */
476	0	0	for (i = 0; i < ctx->files.size; i++) {
477	0		bt_file_info_append(ctx, "d6:length", "4:pathl",
478	0		(bt_file_info*)ctx->files.array[i]);
479	0		bt_str_append(ctx, "ee");
480			}
481			/* note: get_batch_name modifies path, so should be called here */
482	0		bt_bencode_str(ctx, "e4:name", get_batch_name(
483	0		((bt_file_info*)ctx->files.array[0])->path));
484			}
485	2	50	else if (ctx->files.size > 0) {
486			/* write size and basename of the first file */
487			/* in the non-batch mode other files are ignored */
488	0		bt_file_info_append(ctx, "6:length", "4:name",
489	0		(bt_file_info*)ctx->files.array[0]);
490			}
491
492	2		bt_bencode_int(ctx, "12:piece length", ctx->piece_length);
493	2		bt_str_append(ctx, "6:pieces");
494	2		bt_bencode_pieces(ctx);
495
496	2	50	if (ctx->options & BT_OPT_PRIVATE) {
497	0		bt_str_append(ctx, "7:privatei1e");
498			}
499	2		bt_str_append(ctx, "ee");
500
501			/* calculate BTIH */
502	2		SHA1_INIT(ctx);
503	2		SHA1_UPDATE(ctx, (unsigned char*)ctx->content.str + info_start_pos,
504			ctx->content.length - info_start_pos - 1);
505	2		SHA1_FINAL(ctx, ctx->btih);
506	2		}
507
508			/* Getters/Setters */
509
510			/**
511			* Get BTIH (BitTorrent Info Hash) value.
512			*
513			* @param ctx the torrent algorithm context
514			* @return the 20-bytes long BTIH value
515			*/
516	0		unsigned char* bt_get_btih(torrent_ctx *ctx)
517			{
518	0		return ctx->btih;
519			}
520
521			/**
522			* Set the torrent algorithm options.
523			*
524			* @param ctx the torrent algorithm context
525			* @param options the options to set
526			*/
527	0		void bt_set_options(torrent_ctx *ctx, unsigned options)
528			{
529	0		ctx->options = options;
530	0		}
531
532			#if defined(__STRICT_ANSI__)
533			/* define strdup for gcc -ansi */
534			static char* bt_strdup(const char* str)
535			{
536			size_t len = strlen(str);
537			char* res = (char*)malloc(len + 1);
538			if (res) memcpy(res, str, len + 1);
539			return res;
540			}
541			#define strdup bt_strdup
542			#endif /* __STRICT_ANSI__ */
543
544			/**
545			* Set optional name of the program generating the torrent
546			* for storing into torrent file.
547			*
548			* @param ctx the torrent algorithm context
549			* @param name the program name
550			* @return non-zero on success, zero on error
551			*/
552	0		int bt_set_program_name(torrent_ctx ctx, const char name)
553			{
554	0		ctx->program_name = strdup(name);
555	0		return (ctx->program_name != NULL);
556			}
557
558			/**
559			* Set length of a file piece.
560			*
561			* @param ctx the torrent algorithm context
562			* @param piece_length the piece length in bytes
563			*/
564	0		void bt_set_piece_length(torrent_ctx *ctx, size_t piece_length)
565			{
566	0		ctx->piece_length = piece_length;
567	0		}
568
569			/**
570			* Add a tracker announce-URL to the torrent file.
571			*
572			* @param ctx the torrent algorithm context
573			* @param announce_url the announce URL of the tracker
574			* @return non-zero on success, zero on error
575			*/
576	0		int bt_add_announce(torrent_ctx ctx, const char announce_url)
577			{
578			char* url_copy;
579	0	0	if (!announce_url \|\| announce_url[0] == '\0') return 0;
		0
580	0		url_copy = strdup(announce_url);
581	0	0	if (!url_copy) return 0;
582	0	0	if (bt_vector_add_ptr(&ctx->announce, url_copy))
583	0		return 1;
584	0		free(url_copy);
585	0		return 0;
586			}
587
588			/**
589			* Get the content of generated torrent file.
590			*
591			* @param ctx the torrent algorithm context
592			* @param pstr pointer to pointer receiving the buffer with file content
593			* @return length of the torrent file content
594			*/
595	0		size_t bt_get_text(torrent_ctx ctx, char* pstr)
596			{
597	0	0	assert(ctx->content.str);
598	0		*pstr = ctx->content.str;
599	0		return ctx->content.length;
600			}