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transmission/libtransmission/metainfo.c
Mike Gelfand 4cfe7e7ddb #4400, #5462: Move SHA1 helpers to crypto-utils
On a way to factoring out OpenSSL support to a standalone file to ease
addition of other crypto libraries support in the future, move helpers
providing SHA1 calculation to crypto-utils.{c,h}. OpenSSL-related
functionality (SHA1 context management) is moved to crypto-utils-openssl.c.

Add new tr_sha1_ctx_t type and functions to be implemented by crypto
backends:
* tr_sha1_init - allocate SHA1 context and and initialize it,
* tr_sha1_update - hash some [more] data,
* tr_sha1_final - finish hash calculation and free the context.

Add new files to CMakeLists.txt (leftover from previous commit) to fix
CMake-based configuration.
2014-12-04 12:13:59 +00:00

637 lines
16 KiB
C

/*
* This file Copyright (C) 2007-2014 Mnemosyne LLC
*
* It may be used under the GNU GPL versions 2 or 3
* or any future license endorsed by Mnemosyne LLC.
*
* $Id$
*/
#include <assert.h>
#include <string.h> /* strlen () */
#include <event2/buffer.h>
#include "transmission.h"
#include "crypto-utils.h" /* tr_sha1 */
#include "file.h"
#include "log.h"
#include "metainfo.h"
#include "platform.h" /* tr_getTorrentDir () */
#include "session.h"
#include "utils.h"
#include "variant.h"
/***
****
***/
#ifdef _WIN32
#define PATH_DELIMITER_CHARS "/\\"
#else
#define PATH_DELIMITER_CHARS "/"
#endif
static inline bool
char_is_path_separator (char c)
{
return strchr(PATH_DELIMITER_CHARS, c) != NULL;
}
char*
tr_metainfoGetBasename (const tr_info * inf)
{
size_t i;
const char * name = inf->originalName;
const size_t name_len = strlen (name);
char * ret = tr_strdup_printf ("%s.%16.16s", name, inf->hashString);
for (i=0; i<name_len; ++i)
if (char_is_path_separator (ret[i]))
ret[i] = '_';
return ret;
}
static char*
getTorrentFilename (const tr_session * session, const tr_info * inf)
{
char * base = tr_metainfoGetBasename (inf);
char * filename = tr_strdup_printf ("%s" TR_PATH_DELIMITER_STR "%s.torrent",
tr_getTorrentDir (session), base);
tr_free (base);
return filename;
}
/***
****
***/
static bool
path_component_is_suspicious (const char * component)
{
return (component == NULL)
|| (strpbrk (component, PATH_DELIMITER_CHARS) != NULL)
|| (strcmp (component, ".") == 0)
|| (strcmp (component, "..") == 0);
}
static bool
getfile (char ** setme, const char * root, tr_variant * path, struct evbuffer * buf)
{
bool success = false;
size_t root_len = 0;
*setme = NULL;
/* root's already been checked by caller */
assert (!path_component_is_suspicious (root));
if (tr_variantIsList (path))
{
int i;
const int n = tr_variantListSize (path);
success = true;
evbuffer_drain (buf, evbuffer_get_length (buf));
root_len = strlen (root);
evbuffer_add (buf, root, root_len);
for (i=0; i<n; i++)
{
size_t len;
const char * str;
if (!tr_variantGetStr (tr_variantListChild (path, i), &str, &len) ||
path_component_is_suspicious (str))
{
success = false;
break;
}
if (!*str)
continue;
evbuffer_add (buf, TR_PATH_DELIMITER_STR, 1);
evbuffer_add (buf, str, len);
}
}
if (success && (evbuffer_get_length (buf) <= root_len))
{
success = false;
}
if (success)
{
*setme = tr_utf8clean ((char*)evbuffer_pullup (buf, -1), evbuffer_get_length (buf));
/*fprintf (stderr, "[%s]\n", *setme);*/
}
return success;
}
static const char*
parseFiles (tr_info * inf, tr_variant * files, const tr_variant * length)
{
int64_t len;
inf->totalSize = 0;
if (tr_variantIsList (files)) /* multi-file mode */
{
tr_file_index_t i;
struct evbuffer * buf;
const char * result;
if (path_component_is_suspicious (inf->name))
return "path";
buf = evbuffer_new ();
result = NULL;
inf->isFolder = true;
inf->fileCount = tr_variantListSize (files);
inf->files = tr_new0 (tr_file, inf->fileCount);
for (i=0; i<inf->fileCount; i++)
{
tr_variant * file;
tr_variant * path;
file = tr_variantListChild (files, i);
if (!tr_variantIsDict (file))
{
result = "files";
break;
}
if (!tr_variantDictFindList (file, TR_KEY_path_utf_8, &path))
if (!tr_variantDictFindList (file, TR_KEY_path, &path))
{
result = "path";
break;
}
if (!getfile (&inf->files[i].name, inf->name, path, buf))
{
result = "path";
break;
}
if (!tr_variantDictFindInt (file, TR_KEY_length, &len))
{
result = "length";
break;
}
inf->files[i].length = len;
inf->totalSize += len;
}
evbuffer_free (buf);
return result;
}
else if (tr_variantGetInt (length, &len)) /* single-file mode */
{
if (path_component_is_suspicious (inf->name))
return "path";
inf->isFolder = false;
inf->fileCount = 1;
inf->files = tr_new0 (tr_file, 1);
inf->files[0].name = tr_strdup (inf->name);
inf->files[0].length = len;
inf->totalSize += len;
}
else
{
return "length";
}
return NULL;
}
static char *
tr_convertAnnounceToScrape (const char * announce)
{
char * scrape = NULL;
const char * s;
/* To derive the scrape URL use the following steps:
* Begin with the announce URL. Find the last '/' in it.
* If the text immediately following that '/' isn't 'announce'
* it will be taken as a sign that that tracker doesn't support
* the scrape convention. If it does, substitute 'scrape' for
* 'announce' to find the scrape page. */
if (((s = strrchr (announce, '/'))) && !strncmp (++s, "announce", 8))
{
const char * prefix = announce;
const size_t prefix_len = s - announce;
const char * suffix = s + 8;
const size_t suffix_len = strlen (suffix);
const size_t alloc_len = prefix_len + 6 + suffix_len + 1;
char * walk = scrape = tr_new (char, alloc_len);
memcpy (walk, prefix, prefix_len); walk += prefix_len;
memcpy (walk, "scrape", 6); walk += 6;
memcpy (walk, suffix, suffix_len); walk += suffix_len;
*walk++ = '\0';
assert (walk - scrape == (int)alloc_len);
}
/* Some torrents with UDP annouce URLs don't have /announce. */
else if (!strncmp (announce, "udp:", 4))
{
scrape = tr_strdup (announce);
}
return scrape;
}
static const char*
getannounce (tr_info * inf, tr_variant * meta)
{
size_t len;
const char * str;
tr_tracker_info * trackers = NULL;
int trackerCount = 0;
tr_variant * tiers;
/* Announce-list */
if (tr_variantDictFindList (meta, TR_KEY_announce_list, &tiers))
{
int n;
int i, j, validTiers;
const int numTiers = tr_variantListSize (tiers);
n = 0;
for (i=0; i<numTiers; i++)
n += tr_variantListSize (tr_variantListChild (tiers, i));
trackers = tr_new0 (tr_tracker_info, n);
for (i=0, validTiers=0; i<numTiers; i++)
{
tr_variant * tier = tr_variantListChild (tiers, i);
const int tierSize = tr_variantListSize (tier);
bool anyAdded = false;
for (j=0; j<tierSize; j++)
{
if (tr_variantGetStr (tr_variantListChild (tier, j), &str, &len))
{
char * url = tr_strstrip (tr_strndup (str, len));
if (!tr_urlIsValidTracker (url))
{
tr_free (url);
}
else
{
tr_tracker_info * t = trackers + trackerCount;
t->tier = validTiers;
t->announce = url;
t->scrape = tr_convertAnnounceToScrape (url);
t->id = trackerCount;
anyAdded = true;
++trackerCount;
}
}
}
if (anyAdded)
++validTiers;
}
/* did we use any of the tiers? */
if (!trackerCount)
{
tr_free (trackers);
trackers = NULL;
}
}
/* Regular announce value */
if (!trackerCount && tr_variantDictFindStr (meta, TR_KEY_announce, &str, &len))
{
char * url = tr_strstrip (tr_strndup (str, len));
if (!tr_urlIsValidTracker (url))
{
tr_free (url);
}
else
{
trackers = tr_new0 (tr_tracker_info, 1);
trackers[trackerCount].tier = 0;
trackers[trackerCount].announce = url;
trackers[trackerCount].scrape = tr_convertAnnounceToScrape (url);
trackers[trackerCount].id = 0;
trackerCount++;
/*fprintf (stderr, "single announce: [%s]\n", url);*/
}
}
inf->trackers = trackers;
inf->trackerCount = trackerCount;
return NULL;
}
/**
* @brief Ensure that the URLs for multfile torrents end in a slash.
*
* See http://bittorrent.org/beps/bep_0019.html#metadata-extension
* for background on how the trailing slash is used for "url-list"
* fields.
*
* This function is to workaround some .torrent generators, such as
* mktorrent and very old versions of utorrent, that don't add the
* trailing slash for multifile torrents if omitted by the end user.
*/
static char*
fix_webseed_url (const tr_info * inf, const char * url_in)
{
size_t len;
char * url;
char * ret = NULL;
url = tr_strdup (url_in);
tr_strstrip (url);
len = strlen (url);
if (tr_urlIsValid (url, len))
{
if ((inf->fileCount > 1) && (len > 0) && (url[len-1] != '/'))
ret = tr_strdup_printf ("%*.*s/", (int)len, (int)len, url);
else
ret = tr_strndup (url, len);
}
tr_free (url);
return ret;
}
static void
geturllist (tr_info * inf, tr_variant * meta)
{
tr_variant * urls;
const char * url;
if (tr_variantDictFindList (meta, TR_KEY_url_list, &urls))
{
int i;
const int n = tr_variantListSize (urls);
inf->webseedCount = 0;
inf->webseeds = tr_new0 (char*, n);
for (i=0; i<n; i++)
{
if (tr_variantGetStr (tr_variantListChild (urls, i), &url, NULL))
{
char * fixed_url = fix_webseed_url (inf, url);
if (fixed_url != NULL)
inf->webseeds[inf->webseedCount++] = fixed_url;
}
}
}
else if (tr_variantDictFindStr (meta, TR_KEY_url_list, &url, NULL)) /* handle single items in webseeds */
{
char * fixed_url = fix_webseed_url (inf, url);
if (fixed_url != NULL)
{
inf->webseedCount = 1;
inf->webseeds = tr_new0 (char*, 1);
inf->webseeds[0] = fixed_url;
}
}
}
static const char*
tr_metainfoParseImpl (const tr_session * session,
tr_info * inf,
bool * hasInfoDict,
int * infoDictLength,
const tr_variant * meta_in)
{
int64_t i;
size_t len;
const char * str;
const uint8_t * raw;
tr_variant * d;
tr_variant * infoDict = NULL;
tr_variant * meta = (tr_variant *) meta_in;
bool b;
bool isMagnet = false;
/* info_hash: urlencoded 20-byte SHA1 hash of the value of the info key
* from the Metainfo file. Note that the value will be a bencoded
* dictionary, given the definition of the info key above. */
b = tr_variantDictFindDict (meta, TR_KEY_info, &infoDict);
if (hasInfoDict != NULL)
*hasInfoDict = b;
if (!b)
{
/* no info dictionary... is this a magnet link? */
if (tr_variantDictFindDict (meta, TR_KEY_magnet_info, &d))
{
isMagnet = true;
/* get the info-hash */
if (!tr_variantDictFindRaw (d, TR_KEY_info_hash, &raw, &len))
return "info_hash";
if (len != SHA_DIGEST_LENGTH)
return "info_hash";
memcpy (inf->hash, raw, len);
tr_sha1_to_hex (inf->hashString, inf->hash);
/* maybe get the display name */
if (tr_variantDictFindStr (d, TR_KEY_display_name, &str, &len))
{
tr_free (inf->name);
tr_free (inf->originalName);
inf->name = tr_strndup (str, len);
inf->originalName = tr_strndup (str, len);
}
if (!inf->name)
inf->name = tr_strdup (inf->hashString);
if (!inf->originalName)
inf->originalName = tr_strdup (inf->hashString);
}
else /* not a magnet link and has no info dict... */
{
return "info";
}
}
else
{
int len;
char * bstr = tr_variantToStr (infoDict, TR_VARIANT_FMT_BENC, &len);
tr_sha1 (inf->hash, bstr, len, NULL);
tr_sha1_to_hex (inf->hashString, inf->hash);
if (infoDictLength != NULL)
*infoDictLength = len;
tr_free (bstr);
}
/* name */
if (!isMagnet)
{
len = 0;
if (!tr_variantDictFindStr (infoDict, TR_KEY_name_utf_8, &str, &len))
if (!tr_variantDictFindStr (infoDict, TR_KEY_name, &str, &len))
str = "";
if (!str || !*str)
return "name";
tr_free (inf->name);
tr_free (inf->originalName);
inf->name = tr_utf8clean (str, len);
inf->originalName = tr_strdup (inf->name);
}
/* comment */
len = 0;
if (!tr_variantDictFindStr (meta, TR_KEY_comment_utf_8, &str, &len))
if (!tr_variantDictFindStr (meta, TR_KEY_comment, &str, &len))
str = "";
tr_free (inf->comment);
inf->comment = tr_utf8clean (str, len);
/* created by */
len = 0;
if (!tr_variantDictFindStr (meta, TR_KEY_created_by_utf_8, &str, &len))
if (!tr_variantDictFindStr (meta, TR_KEY_created_by, &str, &len))
str = "";
tr_free (inf->creator);
inf->creator = tr_utf8clean (str, len);
/* creation date */
if (!tr_variantDictFindInt (meta, TR_KEY_creation_date, &i))
i = 0;
inf->dateCreated = i;
/* private */
if (!tr_variantDictFindInt (infoDict, TR_KEY_private, &i))
if (!tr_variantDictFindInt (meta, TR_KEY_private, &i))
i = 0;
inf->isPrivate = i != 0;
/* piece length */
if (!isMagnet)
{
if (!tr_variantDictFindInt (infoDict, TR_KEY_piece_length, &i) || (i < 1))
return "piece length";
inf->pieceSize = i;
}
/* pieces */
if (!isMagnet)
{
if (!tr_variantDictFindRaw (infoDict, TR_KEY_pieces, &raw, &len))
return "pieces";
if (len % SHA_DIGEST_LENGTH)
return "pieces";
inf->pieceCount = len / SHA_DIGEST_LENGTH;
inf->pieces = tr_new0 (tr_piece, inf->pieceCount);
for (i=0; i<inf->pieceCount; i++)
memcpy (inf->pieces[i].hash, &raw[i * SHA_DIGEST_LENGTH], SHA_DIGEST_LENGTH);
}
/* files */
if (!isMagnet)
{
if ((str = parseFiles (inf, tr_variantDictFind (infoDict, TR_KEY_files),
tr_variantDictFind (infoDict, TR_KEY_length))))
return str;
if (!inf->fileCount || !inf->totalSize)
return "files";
if ((uint64_t) inf->pieceCount != (inf->totalSize + inf->pieceSize - 1) / inf->pieceSize)
return "files";
}
/* get announce or announce-list */
if ((str = getannounce (inf, meta)))
return str;
/* get the url-list */
geturllist (inf, meta);
/* filename of Transmission's copy */
tr_free (inf->torrent);
inf->torrent = session ? getTorrentFilename (session, inf) : NULL;
return NULL;
}
bool
tr_metainfoParse (const tr_session * session,
const tr_variant * meta_in,
tr_info * inf,
bool * hasInfoDict,
int * infoDictLength)
{
const char * badTag = tr_metainfoParseImpl (session,
inf,
hasInfoDict,
infoDictLength,
meta_in);
const bool success = badTag == NULL;
if (badTag)
{
tr_logAddNamedError (inf->name, _("Invalid metadata entry \"%s\""), badTag);
tr_metainfoFree (inf);
}
return success;
}
void
tr_metainfoFree (tr_info * inf)
{
unsigned int i;
tr_file_index_t ff;
for (i=0; i<inf->webseedCount; i++)
tr_free (inf->webseeds[i]);
for (ff=0; ff<inf->fileCount; ff++)
tr_free (inf->files[ff].name);
tr_free (inf->webseeds);
tr_free (inf->pieces);
tr_free (inf->files);
tr_free (inf->comment);
tr_free (inf->creator);
tr_free (inf->torrent);
tr_free (inf->originalName);
tr_free (inf->name);
for (i=0; i<inf->trackerCount; i++)
{
tr_free (inf->trackers[i].announce);
tr_free (inf->trackers[i].scrape);
}
tr_free (inf->trackers);
memset (inf, '\0', sizeof (tr_info));
}
void
tr_metainfoRemoveSaved (const tr_session * session, const tr_info * inf)
{
char * filename;
filename = getTorrentFilename (session, inf);
tr_sys_path_remove (filename, NULL);
tr_free (filename);
}