1 /*****************************************************************************
2 * update_crypto.c: DSA/SHA1 related functions used for updating
3 *****************************************************************************
4 * Copyright © 2008-2009 the VideoLAN team
7 * Authors: Rafaël Carré <funman@videolanorg>
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either release 2 of the License, or
12 * (at your option) any later release.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
19 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
22 *****************************************************************************/
26 * This file contains functions related to OpenPGP in VLC update management
29 /*****************************************************************************
31 *****************************************************************************/
42 #include "vlc_common.h"
43 #include <vlc_stream.h>
44 #include <vlc_strings.h>
50 /*****************************************************************************
52 *****************************************************************************/
54 #define packet_type( c ) ( ( c & 0x3c ) >> 2 ) /* 0x3C = 00111100 */
55 #define packet_header_len( c ) ( ( c & 0x03 ) + 1 ) /* number of bytes in a packet header */
58 static inline int scalar_number( uint8_t *p, int header_len )
60 assert( header_len == 1 || header_len == 2 || header_len == 4 );
64 else if( header_len == 2 )
65 return( (p[0] << 8) + p[1] );
66 else if( header_len == 4 )
67 return( (p[0] << 24) + (p[1] << 16) + (p[2] << 8) + p[3] );
73 /* number of data bytes in a MPI */
74 #define mpi_len( mpi ) ( ( scalar_number( mpi, 2 ) + 7 ) / 8 )
78 * fill a public_key_packet_t structure from public key packet data
79 * verify that it is a version 4 public key packet, using DSA
81 static int parse_public_key_packet( public_key_packet_t *p_key, uint8_t *p_buf,
85 if( i_packet_len > 418 || i_packet_len < 6 )
90 p_key->version = *p_buf++; i_read++;
91 if( p_key->version != 4 )
94 /* XXX: warn when timestamp is > date ? */
95 memcpy( p_key->timestamp, p_buf, 4 ); p_buf += 4; i_read += 4;
97 p_key->algo = *p_buf++; i_read++;
98 if( p_key->algo != PUBLIC_KEY_ALGO_DSA )
102 if( i_read + 2 > i_packet_len )
105 int i_p_len = mpi_len( p_buf );
107 if( i_p_len > 128 || i_read + 2 + i_p_len > i_packet_len )
110 memcpy( p_key->p, p_buf, 2+i_p_len );
111 p_buf += 2+i_p_len; i_read += 2+i_p_len;
114 if( i_read + 2 > i_packet_len )
117 int i_q_len = mpi_len( p_buf );
119 if( i_q_len > 20 || i_read+2+i_q_len > i_packet_len )
122 memcpy( p_key->q, p_buf, 2+i_q_len );
123 p_buf += 2+i_q_len; i_read += 2+i_q_len;
126 if( i_read + 2 > i_packet_len )
129 int i_g_len = mpi_len( p_buf );
131 if( i_g_len > 128 || i_read+2+i_g_len > i_packet_len )
134 memcpy( p_key->g, p_buf, 2+i_g_len );
135 p_buf += 2+i_g_len; i_read += 2+i_g_len;
138 if( i_read + 2 > i_packet_len )
141 int i_y_len = mpi_len( p_buf );
144 if( i_y_len > 128 || i_read+2+i_y_len > i_packet_len )
147 memcpy( p_key->y, p_buf, 2+i_y_len );
150 if( i_read != i_packet_len ) /* some extra data eh ? */
157 static size_t parse_signature_v3_packet( signature_packet_t *p_sig,
158 uint8_t *p_buf, size_t i_sig_len )
160 size_t i_read = 1; /* we already read the version byte */
162 if( i_sig_len < 19 ) /* signature is at least 19 bytes + the 2 MPIs */
165 p_sig->specific.v3.hashed_data_len = *p_buf++; i_read++;
166 if( p_sig->specific.v3.hashed_data_len != 5 )
169 p_sig->type = *p_buf++; i_read++;
171 memcpy( p_sig->specific.v3.timestamp, p_buf, 4 );
172 p_buf += 4; i_read += 4;
174 memcpy( p_sig->issuer_longid, p_buf, 8 );
175 p_buf += 8; i_read += 8;
177 p_sig->public_key_algo = *p_buf++; i_read++;
179 p_sig->digest_algo = *p_buf++; i_read++;
181 p_sig->hash_verification[0] = *p_buf++; i_read++;
182 p_sig->hash_verification[1] = *p_buf++; i_read++;
184 assert( i_read == 19 );
191 * fill a signature_packet_v4_t from signature packet data
192 * verify that it was used with a DSA public key, using SHA-1 digest
194 static size_t parse_signature_v4_packet( signature_packet_t *p_sig,
195 uint8_t *p_buf, size_t i_sig_len )
197 size_t i_read = 1; /* we already read the version byte */
199 if( i_sig_len < 10 ) /* signature is at least 10 bytes + the 2 MPIs */
202 p_sig->type = *p_buf++; i_read++;
204 p_sig->public_key_algo = *p_buf++; i_read++;
206 p_sig->digest_algo = *p_buf++; i_read++;
208 memcpy( p_sig->specific.v4.hashed_data_len, p_buf, 2 );
209 p_buf += 2; i_read += 2;
211 size_t i_hashed_data_len =
212 scalar_number( p_sig->specific.v4.hashed_data_len, 2 );
213 i_read += i_hashed_data_len;
214 if( i_read + 4 > i_sig_len )
217 p_sig->specific.v4.hashed_data = (uint8_t*) malloc( i_hashed_data_len );
218 if( !p_sig->specific.v4.hashed_data )
220 memcpy( p_sig->specific.v4.hashed_data, p_buf, i_hashed_data_len );
221 p_buf += i_hashed_data_len;
223 memcpy( p_sig->specific.v4.unhashed_data_len, p_buf, 2 );
224 p_buf += 2; i_read += 2;
226 size_t i_unhashed_data_len =
227 scalar_number( p_sig->specific.v4.unhashed_data_len, 2 );
228 i_read += i_unhashed_data_len;
229 if( i_read + 2 > i_sig_len )
232 p_sig->specific.v4.unhashed_data = (uint8_t*) malloc( i_unhashed_data_len );
233 if( !p_sig->specific.v4.unhashed_data )
236 memcpy( p_sig->specific.v4.unhashed_data, p_buf, i_unhashed_data_len );
237 p_buf += i_unhashed_data_len;
239 memcpy( p_sig->hash_verification, p_buf, 2 );
240 p_buf += 2; i_read += 2;
242 uint8_t *p, *max_pos;
243 p = p_sig->specific.v4.unhashed_data;
244 max_pos = p + scalar_number( p_sig->specific.v4.unhashed_data_len, 2 );
251 size_t i_subpacket_len;
254 if( p + 1 > max_pos )
256 i_subpacket_len = *p++;
260 if( p + 2 > max_pos )
262 i_subpacket_len = (*p++ - 192) << 8;
263 i_subpacket_len += *p++ + 192;
267 if( p + 4 > max_pos )
269 i_subpacket_len = *++p << 24;
270 i_subpacket_len += *++p << 16;
271 i_subpacket_len += *++p << 8;
272 i_subpacket_len += *++p;
275 if( *p == ISSUER_SUBPACKET )
277 if( p + 9 > max_pos )
280 memcpy( &p_sig->issuer_longid, p+1, 8 );
285 p += i_subpacket_len;
290 static int parse_signature_packet( signature_packet_t *p_sig,
291 uint8_t *p_buf, size_t i_sig_len )
293 if( !i_sig_len ) /* 1st sanity check, we need at least the version */
296 p_sig->version = *p_buf++;
299 switch( p_sig->version )
302 i_read = parse_signature_v3_packet( p_sig, p_buf, i_sig_len );
305 p_sig->specific.v4.hashed_data = NULL;
306 p_sig->specific.v4.unhashed_data = NULL;
307 i_read = parse_signature_v4_packet( p_sig, p_buf, i_sig_len );
313 if( i_read == 0 ) /* signature packet parsing has failed */
316 if( p_sig->public_key_algo != PUBLIC_KEY_ALGO_DSA )
319 if( p_sig->digest_algo != DIGEST_ALGO_SHA1 )
322 switch( p_sig->type )
324 case BINARY_SIGNATURE:
326 case GENERIC_KEY_SIGNATURE:
327 case PERSONA_KEY_SIGNATURE:
328 case CASUAL_KEY_SIGNATURE:
329 case POSITIVE_KEY_SIGNATURE:
335 p_buf--; /* rewind to the version byte */
338 if( i_read + 2 > i_sig_len )
341 size_t i_r_len = mpi_len( p_buf ); i_read += 2;
342 if( i_read + i_r_len > i_sig_len || i_r_len > 20 )
345 memcpy( p_sig->r, p_buf, 2 + i_r_len );
346 p_buf += 2 + i_r_len;
349 if( i_read + 2 > i_sig_len )
352 size_t i_s_len = mpi_len( p_buf ); i_read += 2;
353 if( i_read + i_s_len > i_sig_len || i_s_len > 20 )
356 memcpy( p_sig->s, p_buf, 2 + i_s_len );
357 p_buf += 2 + i_s_len;
360 assert( i_read == i_sig_len );
361 if( i_read < i_sig_len ) /* some extra data, hm ? */
368 if( p_sig->version == 4 )
370 free( p_sig->specific.v4.hashed_data );
371 free( p_sig->specific.v4.unhashed_data );
379 * crc_octets() was lamely copied from rfc 2440
380 * Copyright (C) The Internet Society (1998). All Rights Reserved.
382 #define CRC24_INIT 0xB704CEL
383 #define CRC24_POLY 0x1864CFBL
385 static long crc_octets( uint8_t *octets, size_t len )
387 long crc = CRC24_INIT;
391 crc ^= (*octets++) << 16;
392 for (i = 0; i < 8; i++)
399 return crc & 0xFFFFFFL;
404 * Transform an armored document in binary format
405 * Used on public keys and signatures
407 static int pgp_unarmor( char *p_ibuf, size_t i_ibuf_len,
408 uint8_t *p_obuf, size_t i_obuf_len )
410 char *p_ipos = p_ibuf;
411 uint8_t *p_opos = p_obuf;
413 int i_header_skipped = 0;
415 while( !i_end && p_ipos < p_ibuf + i_ibuf_len && *p_ipos != '=' )
417 if( *p_ipos == '\r' || *p_ipos == '\n' )
423 size_t i_line_len = strcspn( p_ipos, "\r\n" );
424 if( i_line_len == 0 )
427 if( !i_header_skipped )
429 if( !strncmp( p_ipos, "-----BEGIN PGP", 14 ) )
430 i_header_skipped = 1;
432 p_ipos += i_line_len + 1;
436 if( !strncmp( p_ipos, "Version:", 8 ) )
438 p_ipos += i_line_len + 1;
442 if( p_ipos[i_line_len - 1] == '=' )
445 p_ipos[i_line_len - 1] = '\0';
448 p_ipos[i_line_len] = '\0';
450 p_opos += vlc_b64_decode_binary_to_buffer( p_opos,
451 p_obuf - p_opos + i_obuf_len, p_ipos );
452 p_ipos += i_line_len + 1;
455 /* XXX: the CRC is OPTIONAL, really require it ? */
456 if( p_ipos + 5 > p_ibuf + i_ibuf_len || *p_ipos++ != '=' )
460 if( vlc_b64_decode_binary_to_buffer( p_crc, 3, p_ipos ) != 3 )
463 long l_crc = crc_octets( p_obuf, p_opos - p_obuf );
464 long l_crc2 = ( 0 << 24 ) + ( p_crc[0] << 16 ) + ( p_crc[1] << 8 ) + p_crc[2];
466 return l_crc2 == l_crc ? p_opos - p_obuf : 0;
471 * Verify an OpenPGP signature made on some SHA-1 hash, with some DSA public key
473 int verify_signature( uint8_t *p_r, uint8_t *p_s, public_key_packet_t *p_key,
476 /* the data to be verified (a SHA-1 hash) */
477 const char *hash_sexp_s = "(data(flags raw)(value %m))";
479 const char *key_sexp_s = "(public-key(dsa(p %m)(q %m)(g %m)(y %m)))";
481 const char *sig_sexp_s = "(sig-val(dsa(r %m )(s %m )))";
484 gcry_mpi_t p, q, g, y, r, s, hash;
485 p = q = g = y = r = s = hash = NULL;
486 gcry_sexp_t key_sexp, hash_sexp, sig_sexp;
487 key_sexp = hash_sexp = sig_sexp = NULL;
489 int i_p_len = mpi_len( p_key->p );
490 int i_q_len = mpi_len( p_key->q );
491 int i_g_len = mpi_len( p_key->g );
492 int i_y_len = mpi_len( p_key->y );
493 if( gcry_mpi_scan( &p, GCRYMPI_FMT_USG, p_key->p + 2, i_p_len, NULL ) ||
494 gcry_mpi_scan( &q, GCRYMPI_FMT_USG, p_key->q + 2, i_q_len, NULL ) ||
495 gcry_mpi_scan( &g, GCRYMPI_FMT_USG, p_key->g + 2, i_g_len, NULL ) ||
496 gcry_mpi_scan( &y, GCRYMPI_FMT_USG, p_key->y + 2, i_y_len, NULL ) ||
497 gcry_sexp_build( &key_sexp, &erroff, key_sexp_s, p, q, g, y ) )
500 int i_r_len = mpi_len( p_r );
501 int i_s_len = mpi_len( p_s );
502 if( gcry_mpi_scan( &r, GCRYMPI_FMT_USG, p_r + 2, i_r_len, NULL ) ||
503 gcry_mpi_scan( &s, GCRYMPI_FMT_USG, p_s + 2, i_s_len, NULL ) ||
504 gcry_sexp_build( &sig_sexp, &erroff, sig_sexp_s, r, s ) )
508 if( gcry_mpi_scan( &hash, GCRYMPI_FMT_USG, p_hash, i_hash_len, NULL ) ||
509 gcry_sexp_build( &hash_sexp, &erroff, hash_sexp_s, hash ) )
512 if( gcry_pk_verify( sig_sexp, hash_sexp, key_sexp ) )
518 if( p ) gcry_mpi_release( p );
519 if( q ) gcry_mpi_release( q );
520 if( g ) gcry_mpi_release( g );
521 if( y ) gcry_mpi_release( y );
522 if( r ) gcry_mpi_release( r );
523 if( s ) gcry_mpi_release( s );
524 if( hash ) gcry_mpi_release( hash );
525 if( key_sexp ) gcry_sexp_release( key_sexp );
526 if( sig_sexp ) gcry_sexp_release( sig_sexp );
527 if( hash_sexp ) gcry_sexp_release( hash_sexp );
533 * fill a public_key_t with public key data, including:
534 * * public key packet
535 * * signature packet issued by key which long id is p_sig_issuer
538 int parse_public_key( const uint8_t *p_key_data, size_t i_key_len,
539 public_key_t *p_key, const uint8_t *p_sig_issuer )
541 uint8_t *pos = (uint8_t*) p_key_data;
542 uint8_t *max_pos = pos + i_key_len;
545 #define PUBLIC_KEY_FOUND 0x01
546 #define USER_ID_FOUND 0x02
547 #define SIGNATURE_FOUND 0X04
549 uint8_t *p_key_unarmored = NULL;
551 p_key->psz_username = NULL;
552 p_key->sig.specific.v4.hashed_data = NULL;
553 p_key->sig.specific.v4.unhashed_data = NULL;
555 if( !( *pos & 0x80 ) )
556 { /* first byte is ASCII, unarmoring */
557 p_key_unarmored = (uint8_t*)malloc( i_key_len );
558 if( !p_key_unarmored )
560 int i_len = pgp_unarmor( (char*)p_key_data, i_key_len,
561 p_key_unarmored, i_key_len );
566 pos = p_key_unarmored;
567 max_pos = pos + i_len;
570 while( pos < max_pos )
572 if( !(*pos & 0x80) || *pos & 0x40 )
575 int i_type = packet_type( *pos );
577 int i_header_len = packet_header_len( *pos++ );
578 if( pos + i_header_len > max_pos ||
579 ( i_header_len != 1 && i_header_len != 2 && i_header_len != 4 ) )
582 int i_packet_len = scalar_number( pos, i_header_len );
585 if( pos + i_packet_len > max_pos )
590 case PUBLIC_KEY_PACKET:
591 i_status |= PUBLIC_KEY_FOUND;
592 if( parse_public_key_packet( &p_key->key, pos, i_packet_len ) != VLC_SUCCESS )
596 case SIGNATURE_PACKET: /* we accept only v4 signatures here */
597 if( i_status & SIGNATURE_FOUND || !p_sig_issuer )
599 int i_ret = parse_signature_packet( &p_key->sig, pos,
601 if( i_ret == VLC_SUCCESS )
603 if( p_key->sig.version != 4 )
605 if( memcmp( p_key->sig.issuer_longid, p_sig_issuer, 8 ) )
607 free( p_key->sig.specific.v4.hashed_data );
608 free( p_key->sig.specific.v4.unhashed_data );
609 p_key->sig.specific.v4.hashed_data = NULL;
610 p_key->sig.specific.v4.unhashed_data = NULL;
613 i_status |= SIGNATURE_FOUND;
618 if( p_key->psz_username ) /* save only the first User ID */
620 i_status |= USER_ID_FOUND;
621 p_key->psz_username = (uint8_t*)malloc( i_packet_len + 1);
622 if( !p_key->psz_username )
625 memcpy( p_key->psz_username, pos, i_packet_len );
626 p_key->psz_username[i_packet_len] = '\0';
634 free( p_key_unarmored );
636 if( !( i_status & ( PUBLIC_KEY_FOUND | USER_ID_FOUND ) ) )
639 if( p_sig_issuer && !( i_status & SIGNATURE_FOUND ) )
645 if( p_key->sig.version == 4 )
647 free( p_key->sig.specific.v4.hashed_data );
648 free( p_key->sig.specific.v4.unhashed_data );
650 free( p_key->psz_username );
651 free( p_key_unarmored );
656 /* hash a binary file */
657 static int hash_from_binary_file( const char *psz_file, gcry_md_hd_t hd )
659 uint8_t buffer[4096];
662 FILE *f = vlc_fopen( psz_file, "r" );
666 while( ( i_read = fread( buffer, 1, sizeof(buffer), f ) ) > 0 )
667 gcry_md_write( hd, buffer, i_read );
675 /* final part of the hash */
676 static uint8_t *hash_finish( gcry_md_hd_t hd, signature_packet_t *p_sig )
678 if( p_sig->version == 3 )
680 gcry_md_putc( hd, p_sig->type );
681 gcry_md_write( hd, &p_sig->specific.v3.timestamp, 4 );
683 else if( p_sig->version == 4 )
685 gcry_md_putc( hd, p_sig->version );
686 gcry_md_putc( hd, p_sig->type );
687 gcry_md_putc( hd, p_sig->public_key_algo );
688 gcry_md_putc( hd, p_sig->digest_algo );
689 gcry_md_write( hd, p_sig->specific.v4.hashed_data_len, 2 );
690 size_t i_len = scalar_number( p_sig->specific.v4.hashed_data_len, 2 );
691 gcry_md_write( hd, p_sig->specific.v4.hashed_data, i_len );
693 gcry_md_putc( hd, 0x04 );
694 gcry_md_putc( hd, 0xFF );
696 i_len += 6; /* hashed data + 6 bytes header */
698 gcry_md_putc( hd, (i_len >> 24) & 0xff );
699 gcry_md_putc( hd, (i_len >> 16) & 0xff );
700 gcry_md_putc( hd, (i_len >> 8) & 0xff );
701 gcry_md_putc( hd, (i_len) & 0xff );
704 { /* RFC 4880 only tells about versions 3 and 4 */
710 uint8_t *p_tmp = (uint8_t*) gcry_md_read( hd, GCRY_MD_SHA1);
711 uint8_t *p_hash = malloc( 20 );
713 memcpy( p_hash, p_tmp, 20 );
720 * return a sha1 hash of a text
722 uint8_t *hash_sha1_from_text( const char *psz_string,
723 signature_packet_t *p_sig )
726 if( gcry_md_open( &hd, GCRY_MD_SHA1, 0 ) )
729 if( p_sig->type == TEXT_SIGNATURE )
732 size_t i_len = strcspn( psz_string, "\r\n" );
736 gcry_md_write( hd, psz_string, i_len );
737 gcry_md_putc( hd, '\r' );
738 gcry_md_putc( hd, '\n' );
741 while( *psz_string == '\r' || *psz_string == '\n' )
745 gcry_md_write( hd, psz_string, strlen( psz_string ) );
747 return hash_finish( hd, p_sig );
752 * return a sha1 hash of a file
754 uint8_t *hash_sha1_from_file( const char *psz_file, signature_packet_t *p_sig )
757 if( gcry_md_open( &hd, GCRY_MD_SHA1, 0 ) )
760 if( hash_from_binary_file( psz_file, hd ) < 0 )
766 return hash_finish( hd, p_sig );
771 * Generate a SHA1 hash on a public key, to verify a signature made on that hash
772 * Note that we need the signature (v4) to compute the hash
774 uint8_t *hash_sha1_from_public_key( public_key_t *p_pkey )
776 if( p_pkey->sig.version != 4 )
779 if( p_pkey->sig.type < GENERIC_KEY_SIGNATURE ||
780 p_pkey->sig.type > POSITIVE_KEY_SIGNATURE )
783 gcry_error_t error = 0;
786 error = gcry_md_open( &hd, GCRY_MD_SHA1, 0 );
790 gcry_md_putc( hd, 0x99 );
792 size_t i_p_len = mpi_len( p_pkey->key.p );
793 size_t i_g_len = mpi_len( p_pkey->key.g );
794 size_t i_q_len = mpi_len( p_pkey->key.q );
795 size_t i_y_len = mpi_len( p_pkey->key.y );
797 size_t i_size = 6 + 2*4 + i_p_len + i_g_len + i_q_len + i_y_len;
799 gcry_md_putc( hd, (i_size >> 8) & 0xff );
800 gcry_md_putc( hd, i_size & 0xff );
802 gcry_md_putc( hd, p_pkey->key.version );
803 gcry_md_write( hd, p_pkey->key.timestamp, 4 );
804 gcry_md_putc( hd, p_pkey->key.algo );
806 gcry_md_write( hd, (uint8_t*)&p_pkey->key.p, 2 );
807 gcry_md_write( hd, (uint8_t*)&p_pkey->key.p + 2, i_p_len );
809 gcry_md_write( hd, (uint8_t*)&p_pkey->key.q, 2 );
810 gcry_md_write( hd, (uint8_t*)&p_pkey->key.q + 2, i_q_len );
812 gcry_md_write( hd, (uint8_t*)&p_pkey->key.g, 2 );
813 gcry_md_write( hd, (uint8_t*)&p_pkey->key.g + 2, i_g_len );
815 gcry_md_write( hd, (uint8_t*)&p_pkey->key.y, 2 );
816 gcry_md_write( hd, (uint8_t*)&p_pkey->key.y + 2, i_y_len );
818 gcry_md_putc( hd, 0xb4 );
820 size_t i_len = strlen((char*)p_pkey->psz_username);
822 gcry_md_putc( hd, (i_len >> 24) & 0xff );
823 gcry_md_putc( hd, (i_len >> 16) & 0xff );
824 gcry_md_putc( hd, (i_len >> 8) & 0xff );
825 gcry_md_putc( hd, (i_len) & 0xff );
827 gcry_md_write( hd, p_pkey->psz_username, i_len );
829 uint8_t *p_hash = hash_finish( hd, &p_pkey->sig );
831 p_hash[0] != p_pkey->sig.hash_verification[0] ||
832 p_hash[1] != p_pkey->sig.hash_verification[1] )
842 * download a public key (the last one) from videolan server, and parse it
844 public_key_t *download_key( vlc_object_t *p_this,
845 const uint8_t *p_longid, const uint8_t *p_signature_issuer )
848 if( asprintf( &psz_url, "http://download.videolan.org/pub/keys/%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X.asc",
849 p_longid[0], p_longid[1], p_longid[2], p_longid[3],
850 p_longid[4], p_longid[5], p_longid[6], p_longid[7] ) == -1 )
853 stream_t *p_stream = stream_UrlNew( p_this, psz_url );
858 int64_t i_size = stream_Size( p_stream );
861 stream_Delete( p_stream );
865 uint8_t *p_buf = (uint8_t*)malloc( i_size );
868 stream_Delete( p_stream );
872 int i_read = stream_Read( p_stream, p_buf, (int)i_size );
873 stream_Delete( p_stream );
875 if( i_read != (int)i_size )
877 msg_Dbg( p_this, "Couldn't read full GPG key" );
882 public_key_t *p_pkey = (public_key_t*) malloc( sizeof( public_key_t ) );
889 memcpy( p_pkey->longid, p_longid, 8 );
891 int i_error = parse_public_key( p_buf, i_read, p_pkey, p_signature_issuer );
894 if( i_error != VLC_SUCCESS )
896 msg_Dbg( p_this, "Couldn't parse GPG key" );
906 * Download the signature associated to a document or a binary file.
907 * We're given the file's url, we just append ".asc" to it and download
909 int download_signature( vlc_object_t *p_this, signature_packet_t *p_sig,
910 const char *psz_url )
912 char *psz_sig = (char*) malloc( strlen( psz_url ) + 4 + 1 ); /* ".asc" + \0 */
916 strcpy( psz_sig, psz_url );
917 strcat( psz_sig, ".asc" );
919 stream_t *p_stream = stream_UrlNew( p_this, psz_sig );
925 int64_t i_size = stream_Size( p_stream );
927 msg_Dbg( p_this, "Downloading signature (%"PRId64" bytes)", i_size );
928 uint8_t *p_buf = (uint8_t*)malloc( i_size );
931 stream_Delete( p_stream );
935 int i_read = stream_Read( p_stream, p_buf, (int)i_size );
937 stream_Delete( p_stream );
939 if( i_read != (int)i_size )
942 "Couldn't download full signature (only %d bytes)", i_read );
947 if( (uint8_t)*p_buf < 0x80 ) /* ASCII */
949 msg_Dbg( p_this, "Unarmoring signature" );
951 uint8_t* p_unarmored = (uint8_t*) malloc( ( i_size * 3 ) / 4 + 1 );
958 int i_bytes = pgp_unarmor( (char*)p_buf, i_size, p_unarmored, i_size );
967 msg_Dbg( p_this, "Unarmoring failed : corrupted signature ?" );
972 if( packet_type( *p_buf ) != SIGNATURE_PACKET )
975 msg_Dbg( p_this, "Not a signature: %d", *p_buf );
979 size_t i_header_len = packet_header_len( *p_buf );
980 if( ( i_header_len != 1 && i_header_len != 2 && i_header_len != 4 ) ||
981 i_header_len + 1 > (size_t)i_size )
984 msg_Dbg( p_this, "Invalid signature packet header" );
988 size_t i_len = scalar_number( p_buf+1, i_header_len );
989 if( i_len + i_header_len + 1 != (size_t)i_size )
992 msg_Dbg( p_this, "Invalid signature packet" );
996 int i_ret = parse_signature_packet( p_sig, p_buf+1+i_header_len, i_len );
998 if( i_ret != VLC_SUCCESS )
1000 msg_Dbg( p_this, "Couldn't parse signature" );
1004 if( p_sig->type != BINARY_SIGNATURE && p_sig->type != TEXT_SIGNATURE )
1006 msg_Dbg( p_this, "Invalid signature type: %d", p_sig->type );
1007 if( p_sig->version == 4 )
1009 free( p_sig->specific.v4.hashed_data );
1010 free( p_sig->specific.v4.unhashed_data );
1012 return VLC_EGENERIC;
1018 #endif /* UPDATE_CHECK */