Commit 11922961 authored by Rafaël Carré's avatar Rafaël Carré

Update: supports file v4 signatures

Note: public key v3 signatures are not supported
Fix various bugs and potentials buffer overflows
parent 96250779
...@@ -23,7 +23,7 @@ ...@@ -23,7 +23,7 @@
- copy the tar.gz and tar.bz2 file on ftp.videolan.org in - copy the tar.gz and tar.bz2 file on ftp.videolan.org in
/opt/ftp/pub/videolan/testing/vlc-X.X.X/ /opt/ftp/pub/videolan/testing/vlc-X.X.X/
- generate md5 hashes and gpg signature of these files - generate md5 hashes and gpg signature of these files
(use gpg --sign --detach --armor --force-v3-sigs) (use gpg --sign --detach --armor)
* Contribs * Contribs
- Put a copy of the libraries or git snapshot in vlc-X.X.X/contrib - Put a copy of the libraries or git snapshot in vlc-X.X.X/contrib
...@@ -36,7 +36,7 @@ ...@@ -36,7 +36,7 @@
Build in the "buildbeos" chroot on altair. Build in the "buildbeos" chroot on altair.
# add the .zip files to /opt/ftp/pub/videolan/testing/vlc-X.X.X/beos/ # add the .zip files to /opt/ftp/pub/videolan/testing/vlc-X.X.X/beos/
generate md5 hashes and gpg signature of these files generate md5 hashes and gpg signature of these files
(use gpg --sign --detach --armor --force-v3-sigs) (use gpg --sign --detach --armor)
* Win32 Packages * Win32 Packages
make the packages using the nightly builds configure/options/... , don't forget --enable-update-check make the packages using the nightly builds configure/options/... , don't forget --enable-update-check
...@@ -44,12 +44,12 @@ ...@@ -44,12 +44,12 @@
kind of suxxs) kind of suxxs)
add the .zip and .exe files to /opt/ftp/pub/videolan/testing/vlc-X.X.X/win32/ add the .zip and .exe files to /opt/ftp/pub/videolan/testing/vlc-X.X.X/win32/
generate md5 hashes and gpg signature of these files generate md5 hashes and gpg signature of these files
(use gpg --sign --detach --armor --force-v3-sigs) (use gpg --sign --detach --armor)
* OS X packages * OS X packages
configure with --enable-update-check configure with --enable-update-check
generate md5 hashes and gpg signature of these files generate md5 hashes and gpg signature of these files
(use gpg --sign --detach --armor --force-v3-sigs) (use gpg --sign --detach --armor)
* Commit changes ... it never works the first time * Commit changes ... it never works the first time
......
...@@ -32,6 +32,7 @@ static uint8_t videolan_public_key_longid[8] = { ...@@ -32,6 +32,7 @@ static uint8_t videolan_public_key_longid[8] = {
0x8B, 0x08, 0x52, 0x31, 0xD0, 0x38, 0x35, 0x37 0x8B, 0x08, 0x52, 0x31, 0xD0, 0x38, 0x35, 0x37
}; };
/* gpg --export --armor "VideoLAN Release"|sed -e s/^/\"/ -e s/\$/\\\\n\"/ */
static uint8_t videolan_public_key[] = { static uint8_t videolan_public_key[] = {
"-----BEGIN PGP PUBLIC KEY BLOCK-----\n" "-----BEGIN PGP PUBLIC KEY BLOCK-----\n"
"Version: GnuPG v2.0.4 (FreeBSD)\n" "Version: GnuPG v2.0.4 (FreeBSD)\n"
...@@ -78,4 +79,3 @@ static uint8_t videolan_public_key[] = { ...@@ -78,4 +79,3 @@ static uint8_t videolan_public_key[] = {
"=Ic/K\n" "=Ic/K\n"
"-----END PGP PUBLIC KEY BLOCK-----\n" "-----END PGP PUBLIC KEY BLOCK-----\n"
}; };
...@@ -33,17 +33,25 @@ ...@@ -33,17 +33,25 @@
#include <vlc/vlc.h> #include <vlc/vlc.h>
#include <vlc_stream.h> /* key & signature downloading */
#include <vlc_strings.h> /* b64 decoding */
#include <vlc_charset.h> /* utf8_fopen() */
#include <gcrypt.h> /* cryptography and digest algorithms */
/** /**
* \defgroup update Update * \defgroup update Update
* *
* @{ * @{
*/ */
/* Go reading the rfc 4880 ! NOW !! */
/*
* XXX
* When PGP-signing a file, we only sign a SHA-1 hash of this file
*
* As soon as SHA-1 is broken, this method is not secure anymore, because an
* attacker could generate a file with the same SHA-1 hash.
*
* Whenever this happens, we need to use another algorithm / type of key.
* XXX
*/
enum /* Public key algorithms */ enum /* Public key algorithms */
{ {
/* we will only use DSA public keys */ /* we will only use DSA public keys */
...@@ -75,14 +83,11 @@ enum /* Signature types */ ...@@ -75,14 +83,11 @@ enum /* Signature types */
POSITIVE_KEY_SIGNATURE = 0x13 /* Substantial verification */ POSITIVE_KEY_SIGNATURE = 0x13 /* Substantial verification */
}; };
enum /* Signature subpacket types */ enum /* Signature subpacket types */
{ {
ISSUER_SUBPACKET = 0x10 ISSUER_SUBPACKET = 0x10
}; };
struct public_key_packet_t struct public_key_packet_t
{ /* a public key packet (DSA/SHA-1) is 418 bytes */ { /* a public key packet (DSA/SHA-1) is 418 bytes */
...@@ -96,52 +101,49 @@ struct public_key_packet_t ...@@ -96,52 +101,49 @@ struct public_key_packet_t
uint8_t y[2+128]; uint8_t y[2+128];
}; };
/* used for public key signatures */ /* used for public key and file signatures */
struct signature_packet_v4_t struct signature_packet_t
{ /* hashed_data or unhashed_data can be empty, so the signature packet is {
* theorically at least 54 bytes long, but always more than that. */ uint8_t version; /* 3 or 4 */
uint8_t version;
uint8_t type; uint8_t type;
uint8_t public_key_algo; uint8_t public_key_algo; /* DSA only */
uint8_t digest_algo; uint8_t digest_algo; /* SHA-1 only */
uint8_t hashed_data_len[2];
uint8_t *hashed_data;
uint8_t unhashed_data_len[2];
uint8_t *unhashed_data;
uint8_t hash_verification[2];
/* The part below is made of consecutive MPIs, their number and size being uint8_t hash_verification[2];
* public-key-algorithm dependant. uint8_t issuer_longid[8];
* But since we use DSA signatures only, we fix it. */
uint8_t r[2+20]; union /* version specific data */
uint8_t s[2+20]; {
}; struct
{
/* Used for binary document signatures (to be compatible with older software) uint8_t hashed_data_len[2]; /* scalar number */
* DSA/SHA-1 is always 65 bytes */ uint8_t *hashed_data; /* hashed_data_len bytes */
struct signature_packet_v3_t uint8_t unhashed_data_len[2]; /* scalar number */
{ uint8_t *unhashed_data; /* unhashed_data_len bytes */
uint8_t header[2]; } v4;
uint8_t version; /* 3 */ struct
{
uint8_t hashed_data_len; /* MUST be 5 */ uint8_t hashed_data_len; /* MUST be 5 */
uint8_t type;
uint8_t timestamp[4]; /* 4 bytes scalar number */ uint8_t timestamp[4]; /* 4 bytes scalar number */
uint8_t issuer_longid[8]; /* The key which signed the document */ } v3;
uint8_t public_key_algo; /* we only know about DSA */ } specific;
uint8_t digest_algo; /* and his little sister SHA-1 */
uint8_t hash_verification[2];/* the 2 1st bytes of the SHA-1 hash */
/* The part below is made of consecutive MPIs, their number and size being /* The part below is made of consecutive MPIs, their number and size being
* public-key-algorithm dependant. * public-key-algorithm dependant.
* But since we use DSA signatures only, we fix it. */ *
* Since we use DSA signatures only, there is 2 integers, r & s, made of:
* 2 bytes for the integer length (scalar number)
* 160 bits (20 bytes) for the integer itself
*
* Note: the integers may be less than 160 significant bits
*/
uint8_t r[2+20]; uint8_t r[2+20];
uint8_t s[2+20]; uint8_t s[2+20];
}; };
typedef struct public_key_packet_t public_key_packet_t; typedef struct public_key_packet_t public_key_packet_t;
typedef struct signature_packet_v4_t signature_packet_v4_t; typedef struct signature_packet_t signature_packet_t;
typedef struct signature_packet_v3_t signature_packet_v3_t;
struct public_key_t struct public_key_t
{ {
...@@ -150,7 +152,7 @@ struct public_key_t ...@@ -150,7 +152,7 @@ struct public_key_t
public_key_packet_t key; /* Public key packet */ public_key_packet_t key; /* Public key packet */
signature_packet_v4_t sig; /* Signature packet, by the embedded key */ signature_packet_t sig; /* Signature packet, by the embedded key */
}; };
typedef struct public_key_t public_key_t; typedef struct public_key_t public_key_t;
......
...@@ -22,9 +22,7 @@ ...@@ -22,9 +22,7 @@
* along with this program; if not, write to the Free Software * along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
*****************************************************************************/ *****************************************************************************/
/*
* XXX: should use v4 signatures for binary files (already used for public key)
*/
/** /**
* \file * \file
* This file contains functions related to VLC update management * This file contains functions related to VLC update management
...@@ -47,7 +45,11 @@ ...@@ -47,7 +45,11 @@
#include <vlc_update.h> #include <vlc_update.h>
#include <vlc_pgpkey.h> #include <vlc_pgpkey.h>
#include <vlc_stream.h> #include <vlc_stream.h>
#include <vlc_strings.h>
#include <vlc_charset.h>
#include <vlc_interface.h> #include <vlc_interface.h>
#include <gcrypt.h>
#include <vlc_gcrypt.h> #include <vlc_gcrypt.h>
...@@ -101,14 +103,16 @@ static char * size_str( long int l_size ); ...@@ -101,14 +103,16 @@ static char * size_str( long int l_size );
static inline int scalar_number( uint8_t *p, int header_len ) static inline int scalar_number( uint8_t *p, int header_len )
{ {
assert( header_len == 1 || header_len == 2 || header_len == 4 );
if( header_len == 1 ) if( header_len == 1 )
return( p[0] ); return( p[0] );
else if( header_len == 2 ) else if( header_len == 2 )
return( (p[0] << 8) + p[1] ); return( (p[0] << 8) + p[1] );
else if( header_len == 4 ) else if( header_len == 4 )
return( (p[0] << 24) + (p[1] << 16) + (p[2] << 8) + p[3] ); return( (p[0] << 24) + (p[1] << 16) + (p[2] << 8) + p[3] );
else
abort(); abort(); /* to shut up GCC warning */
} }
/* number of data bytes in a MPI */ /* number of data bytes in a MPI */
...@@ -121,150 +125,294 @@ static inline int scalar_number( uint8_t *p, int header_len ) ...@@ -121,150 +125,294 @@ static inline int scalar_number( uint8_t *p, int header_len )
static int parse_public_key_packet( public_key_packet_t *p_key, uint8_t *p_buf, static int parse_public_key_packet( public_key_packet_t *p_key, uint8_t *p_buf,
size_t i_packet_len ) size_t i_packet_len )
{ {
if( i_packet_len > 418 )
if( i_packet_len > 418 || i_packet_len < 6 )
return VLC_EGENERIC; return VLC_EGENERIC;
p_key->version = *p_buf++; size_t i_read = 0;
p_key->version = *p_buf++; i_read++;
if( p_key->version != 4 ) if( p_key->version != 4 )
return VLC_EGENERIC; return VLC_EGENERIC;
/* warn when timestamp is > date ? */ /* XXX: warn when timestamp is > date ? */
memcpy( p_key->timestamp, p_buf, 4 ); p_buf += 4; memcpy( p_key->timestamp, p_buf, 4 ); p_buf += 4; i_read += 4;
p_key->algo = *p_buf++; p_key->algo = *p_buf++; i_read++;
if( p_key->algo != PUBLIC_KEY_ALGO_DSA ) if( p_key->algo != PUBLIC_KEY_ALGO_DSA )
return VLC_EGENERIC; return VLC_EGENERIC;
/* read p */
if( i_read + 2 > i_packet_len )
return VLC_EGENERIC;
int i_p_len = mpi_len( p_buf ); int i_p_len = mpi_len( p_buf );
if( i_p_len > 128 )
if( i_p_len > 128 || i_read + 2 + i_p_len > i_packet_len )
return VLC_EGENERIC;
memcpy( p_key->p, p_buf, 2+i_p_len );
p_buf += 2+i_p_len; i_read += 2+i_p_len;
/* read q */
if( i_read + 2 > i_packet_len )
return VLC_EGENERIC; return VLC_EGENERIC;
else
{
memcpy( p_key->p, p_buf, 2+i_p_len ); p_buf += 2+i_p_len;
if( i_p_len < 128 )
memmove( p_key->q, p_key->p + 2+i_p_len, 2+20 + 2+128 + 2+128 );
}
int i_q_len = mpi_len( p_buf ); int i_q_len = mpi_len( p_buf );
if( i_q_len > 20 )
if( i_q_len > 20 || i_read+2+i_q_len > i_packet_len )
return VLC_EGENERIC;
memcpy( p_key->q, p_buf, 2+i_q_len );
p_buf += 2+i_q_len; i_read += 2+i_q_len;
/* read g */
if( i_read + 2 > i_packet_len )
return VLC_EGENERIC; return VLC_EGENERIC;
else
{
memcpy( p_key->q, p_buf, 2+i_q_len ); p_buf += 2+i_q_len;
if( i_p_len < 20 )
memmove( p_key->g, p_key->q + 2+i_q_len, 2+128 + 2+128 );
}
int i_g_len = mpi_len( p_buf ); int i_g_len = mpi_len( p_buf );
if( i_g_len > 128 )
if( i_g_len > 128 || i_read+2+i_g_len > i_packet_len )
return VLC_EGENERIC;
memcpy( p_key->g, p_buf, 2+i_g_len );
p_buf += 2+i_g_len; i_read += 2+i_g_len;
/* read y */
if( i_read + 2 > i_packet_len )
return VLC_EGENERIC; return VLC_EGENERIC;
else
{
memcpy( p_key->g, p_buf, 2+i_g_len ); p_buf += 2+i_g_len;
if( i_g_len < 128 )
memmove( p_key->y, p_key->g + 2+i_g_len, 2+128 );
}
int i_y_len = mpi_len( p_buf ); int i_y_len = mpi_len( p_buf );
if( i_y_len > 128 )
if( i_y_len > 128 || i_read+2+i_y_len > i_packet_len )
return VLC_EGENERIC; return VLC_EGENERIC;
else
memcpy( p_key->y, p_buf, 2+i_y_len ); memcpy( p_key->y, p_buf, 2+i_y_len );
i_read += 2+i_y_len;
if( i_read != i_packet_len ) /* some extra data eh ? */
return VLC_EGENERIC;
return VLC_SUCCESS; return VLC_SUCCESS;
} }
static size_t parse_signature_v3_packet( signature_packet_t *p_sig,
uint8_t *p_buf, size_t i_sig_len )
{
size_t i_read = 1; /* we already read the version byte */
if( i_sig_len < 19 ) /* signature is at least 19 bytes + the 2 MPIs */
return 0;
p_sig->specific.v3.hashed_data_len = *p_buf++; i_read++;
if( p_sig->specific.v3.hashed_data_len != 5 )
return 0;
p_sig->type = *p_buf++; i_read++;
memcpy( p_sig->specific.v3.timestamp, p_buf, 4 );
p_buf += 4; i_read += 4;
memcpy( p_sig->issuer_longid, p_buf, 8 );
p_buf += 8; i_read += 8;
p_sig->public_key_algo = *p_buf++; i_read++;
p_sig->digest_algo = *p_buf++; i_read++;
p_sig->hash_verification[0] = *p_buf++; i_read++;
p_sig->hash_verification[1] = *p_buf++; i_read++;
assert( i_read == 19 );
return i_read;
}
/* /*
* fill a signature_packet_v4_t from signature packet data * fill a signature_packet_v4_t from signature packet data
* verify that it was used with a DSA public key, using SHA-1 digest * verify that it was used with a DSA public key, using SHA-1 digest
*/ */
static int parse_signature_v4_packet( signature_packet_v4_t *p_sig, static size_t parse_signature_v4_packet( signature_packet_t *p_sig,
uint8_t *p_buf, size_t i_sig_len ) uint8_t *p_buf, size_t i_sig_len )
{ {
if( i_sig_len < 54 ) size_t i_read = 1; /* we already read the version byte */
return VLC_EGENERIC;
p_sig->version = *p_buf++; if( i_sig_len < 10 ) /* signature is at least 10 bytes + the 2 MPIs */
if( p_sig->version != 4 ) return 0;
return VLC_EGENERIC;
p_sig->type = *p_buf++; p_sig->type = *p_buf++; i_read++;
if( p_sig->type < GENERIC_KEY_SIGNATURE ||
p_sig->type > POSITIVE_KEY_SIGNATURE )
return VLC_EGENERIC;
p_sig->public_key_algo = *p_buf++; p_sig->public_key_algo = *p_buf++; i_read++;
if( p_sig->public_key_algo != PUBLIC_KEY_ALGO_DSA )
return VLC_EGENERIC;
p_sig->digest_algo = *p_buf++; p_sig->digest_algo = *p_buf++; i_read++;
if( p_sig->digest_algo != DIGEST_ALGO_SHA1 )
return VLC_EGENERIC;
memcpy( p_sig->hashed_data_len, p_buf, 2 ); p_buf += 2; memcpy( p_sig->specific.v4.hashed_data_len, p_buf, 2 );
p_buf += 2; i_read += 2;
size_t i_pos = 6; size_t i_hashed_data_len =
size_t i_hashed_data_len = scalar_number( p_sig->hashed_data_len, 2 ); scalar_number( p_sig->specific.v4.hashed_data_len, 2 );
i_pos += i_hashed_data_len; i_read += i_hashed_data_len;
if( i_pos > i_sig_len - 48 ) /* r & s are 44 bytes in total, if( i_read + 4 > i_sig_len )
* + the unhashed data length (2 bytes) return 0;
* + the hash verification (2 bytes) */
return VLC_EGENERIC;
p_sig->hashed_data = (uint8_t*) malloc( i_hashed_data_len ); p_sig->specific.v4.hashed_data = (uint8_t*) malloc( i_hashed_data_len );
if( !p_sig->hashed_data ) if( !p_sig->specific.v4.hashed_data )
return VLC_ENOMEM; return 0;
memcpy( p_sig->hashed_data, p_buf, i_hashed_data_len ); memcpy( p_sig->specific.v4.hashed_data, p_buf, i_hashed_data_len );
p_buf += i_hashed_data_len; p_buf += i_hashed_data_len;
memcpy( p_sig->unhashed_data_len, p_buf, 2 ); p_buf += 2; memcpy( p_sig->specific.v4.unhashed_data_len, p_buf, 2 );
p_buf += 2; i_read += 2;
size_t i_unhashed_data_len = scalar_number( p_sig->unhashed_data_len, 2 ); size_t i_unhashed_data_len =
i_pos += 2 + i_unhashed_data_len; scalar_number( p_sig->specific.v4.unhashed_data_len, 2 );
if( i_pos != i_sig_len - 46 ) i_read += i_unhashed_data_len;
{ if( i_read + 2 > i_sig_len )
free( p_sig->hashed_data ); return 0;
return VLC_EGENERIC;
}
p_sig->unhashed_data = (uint8_t*) malloc( i_unhashed_data_len ); p_sig->specific.v4.unhashed_data = (uint8_t*) malloc( i_unhashed_data_len );
if( !p_sig->unhashed_data ) if( !p_sig->specific.v4.unhashed_data )
{ return 0;
free( p_sig->hashed_data );
return VLC_ENOMEM; memcpy( p_sig->specific.v4.unhashed_data, p_buf, i_unhashed_data_len );
}
memcpy( p_sig->unhashed_data, p_buf, i_unhashed_data_len );
p_buf += i_unhashed_data_len; p_buf += i_unhashed_data_len;
memcpy( p_sig->hash_verification, p_buf, 2 ); p_buf += 2; memcpy( p_sig->hash_verification, p_buf, 2 );
p_buf += 2; i_read += 2;
uint8_t *p, *max_pos;
p = p_sig->specific.v4.unhashed_data;
max_pos = p + scalar_number( p_sig->specific.v4.unhashed_data_len, 2 );
int i_r_len = mpi_len( p_buf ); for( ;; )
if( i_r_len > 20 )
{ {
free( p_sig->hashed_data ); if( p > max_pos )
free( p_sig->unhashed_data ); return 0;
return VLC_EGENERIC;
size_t i_subpacket_len;
if( *p < 192 )
{
if( p + 1 > max_pos )
return 0;
i_subpacket_len = *p++;
}
else if( *p < 255 )
{
if( p + 2 > max_pos )
return 0;
i_subpacket_len = (*p++ - 192) << 8;
i_subpacket_len += *p++ + 192;
} }
else else
{ {
memcpy( p_sig->r, p_buf, 2 + i_r_len ); if( p + 4 > max_pos )
p_buf += 2 + i_r_len; return 0;
i_subpacket_len = *++p << 24;
i_subpacket_len += *++p << 16;
i_subpacket_len += *++p << 8;
i_subpacket_len += *++p;
}
if( *p == ISSUER_SUBPACKET )
{
if( p + 9 > max_pos )
return 0;
memcpy( &p_sig->issuer_longid, p+1, 8 );
return i_read;
}
p += i_subpacket_len;
} }
}
static int parse_signature_packet( signature_packet_t *p_sig,
uint8_t *p_buf, size_t i_sig_len )
{
if( !i_sig_len ) /* 1st sanity check, we need at least the version */
return VLC_EGENERIC;
p_sig->version = *p_buf++;
int i_s_len = mpi_len( p_buf ); size_t i_read;
if( i_s_len > 20 ) switch( p_sig->version )
{ {
free( p_sig->hashed_data ); case 3:
free( p_sig->unhashed_data ); i_read = parse_signature_v3_packet( p_sig, p_buf, i_sig_len );
break;
case 4:
p_sig->specific.v4.hashed_data = NULL;
p_sig->specific.v4.unhashed_data = NULL;
i_read = parse_signature_v4_packet( p_sig, p_buf, i_sig_len );
break;
default:
return VLC_EGENERIC; return VLC_EGENERIC;
} }
else
if( i_read == 0 ) /* signature packet parsing has failed */
goto error;
if( p_sig->public_key_algo != PUBLIC_KEY_ALGO_DSA )
goto error;
if( p_sig->digest_algo != DIGEST_ALGO_SHA1 )
goto error;
switch( p_sig->type )
{ {
case BINARY_SIGNATURE:
case TEXT_SIGNATURE:
case GENERIC_KEY_SIGNATURE:
case PERSONA_KEY_SIGNATURE:
case CASUAL_KEY_SIGNATURE:
case POSITIVE_KEY_SIGNATURE:
break;
default:
goto error;
}
p_buf--; /* rewind to the version byte */
p_buf += i_read;
if( i_read + 2 > i_sig_len )
goto error;
size_t i_r_len = mpi_len( p_buf ); i_read += 2;
if( i_read + i_r_len > i_sig_len || i_r_len > 20 )
goto error;
memcpy( p_sig->r, p_buf, 2 + i_r_len );
p_buf += 2 + i_r_len;
i_read += i_r_len;
if( i_read + 2 > i_sig_len )
goto error;
size_t i_s_len = mpi_len( p_buf ); i_read += 2;
if( i_read + i_s_len > i_sig_len || i_s_len > 20 )
goto error;
memcpy( p_sig->s, p_buf, 2 + i_s_len ); memcpy( p_sig->s, p_buf, 2 + i_s_len );
p_buf += 2 + i_s_len; p_buf += 2 + i_s_len;
} i_read += i_s_len;
assert( i_read == i_sig_len );
if( i_read < i_sig_len ) /* some extra data, hm ? */
goto error;
return VLC_SUCCESS; return VLC_SUCCESS;
error:
if( p_sig->version == 4 )
{
free( p_sig->specific.v4.hashed_data );
free( p_sig->specific.v4.unhashed_data );
}
return VLC_EGENERIC;
} }
/* /*
...@@ -362,7 +510,7 @@ static int pgp_unarmor( char *p_ibuf, size_t i_ibuf_len, ...@@ -362,7 +510,7 @@ static int pgp_unarmor( char *p_ibuf, size_t i_ibuf_len,
* We're given the file's url, we just append ".asc" to it and download * We're given the file's url, we just append ".asc" to it and download
*/ */
static int download_signature( vlc_object_t *p_this, static int download_signature( vlc_object_t *p_this,
signature_packet_v3_t *p_sig, signature_packet_t *p_sig,
const char *psz_url ) const char *psz_url )
{ {
char *psz_sig = (char*) malloc( strlen( psz_url ) + 4 + 1 ); /* ".asc" + \0 */ char *psz_sig = (char*) malloc( strlen( psz_url ) + 4 + 1 ); /* ".asc" + \0 */
...@@ -379,22 +527,9 @@ static int download_signature( vlc_object_t *p_this, ...@@ -379,22 +527,9 @@ static int download_signature( vlc_object_t *p_this,
return VLC_ENOMEM; return VLC_ENOMEM;
int64_t i_size = stream_Size( p_stream ); int64_t i_size = stream_Size( p_stream );
if( i_size <= 65 ) /* binary format signature */
{
msg_Dbg( p_this, "Downloading unarmored signature" );
int i_read = stream_Read( p_stream, p_sig, (int)i_size );
stream_Delete( p_stream );
if( i_read != i_size )
{
msg_Dbg( p_this, "Couldn't read full signature" );
return VLC_EGENERIC;
}
else
return VLC_SUCCESS;
}
msg_Dbg( p_this, "Downloading armored signature" ); msg_Dbg( p_this, "Downloading signature (%"PRId64" bytes)", i_size );
char *p_buf = (char*)malloc( i_size ); uint8_t *p_buf = (uint8_t*)malloc( i_size );
if( !p_buf ) if( !p_buf )
{ {
stream_Delete( p_stream ); stream_Delete( p_stream );
...@@ -405,41 +540,83 @@ static int download_signature( vlc_object_t *p_this, ...@@ -405,41 +540,83 @@ static int download_signature( vlc_object_t *p_this,
stream_Delete( p_stream ); stream_Delete( p_stream );
if( i_read != i_size ) if( i_read != (int)i_size )
{
msg_Dbg( p_this,
"Couldn't download full signature (only %d bytes)", i_read );
free( p_buf );
return VLC_EGENERIC;
}
if( (uint8_t)*p_buf < 0x80 ) /* ASCII */
{
msg_Dbg( p_this, "Unarmoring signature" );
uint8_t* p_unarmored = (uint8_t*) malloc( ( i_size * 3 ) / 4 + 1 );
if( !p_unarmored )
{ {
msg_Dbg( p_this, "Couldn't read full signature" );
free( p_buf ); free( p_buf );
return VLC_EGENERIC; return VLC_EGENERIC;
} }
int i_bytes = pgp_unarmor( p_buf, i_size, (uint8_t*)p_sig, 65 ); int i_bytes = pgp_unarmor( (char*)p_buf, i_size, p_unarmored, i_size );
free( p_buf );
p_buf = p_unarmored;
i_size = i_bytes;
if( i_bytes < 2 )
{
free( p_buf ); free( p_buf );
msg_Dbg( p_this, "Unarmoring failed : corrupted signature ?" );
return VLC_EGENERIC;
}
}
if( i_bytes == 0 ) if( packet_type( *p_buf ) != SIGNATURE_PACKET )
{ {
msg_Dbg( p_this, "Unarmoring failed" ); free( p_buf );
msg_Dbg( p_this, "Not a signature: %d", *p_buf );
return VLC_EGENERIC; return VLC_EGENERIC;
} }
else if( i_bytes > 65 )
size_t i_header_len = packet_header_len( *p_buf );
if( ( i_header_len != 1 && i_header_len != 2 && i_header_len != 4 ) ||
i_header_len + 1 > (size_t)i_size )
{ {
msg_Dbg( p_this, "Signature is too big: %d bytes", i_bytes ); free( p_buf );
msg_Dbg( p_this, "Invalid signature packet header" );
return VLC_EGENERIC; return VLC_EGENERIC;
} }
else
size_t i_len = scalar_number( p_buf+1, i_header_len );
if( i_len + i_header_len + 1 != (size_t)i_size )
{ {
int i_r_len = mpi_len( p_sig->r ); free( p_buf );
if( i_r_len > 20 ) msg_Dbg( p_this, "Invalid signature packet" );
return VLC_EGENERIC;
}
int i_ret = parse_signature_packet( p_sig, p_buf+1+i_header_len, i_len );
free( p_buf );
if( i_ret != VLC_SUCCESS )
{
msg_Dbg( p_this, "Couldn't parse signature" );
return i_ret;
}
if( p_sig->type != BINARY_SIGNATURE && p_sig->type != TEXT_SIGNATURE )
{ {
msg_Dbg( p_this, "Invalid signature, r number too big: %d bytes", msg_Dbg( p_this, "Invalid signature type: %d", p_sig->type );
i_r_len ); if( p_sig->version == 4 )
{
free( p_sig->specific.v4.hashed_data );
free( p_sig->specific.v4.unhashed_data );
}
return VLC_EGENERIC; return VLC_EGENERIC;
} }
else if( i_r_len < 20 )
/* move s to the right place if r is less than 20 bytes */
memmove( p_sig->s, p_sig->r + 2 + i_r_len, 20 + 2 );
return VLC_SUCCESS; return VLC_SUCCESS;
}
} }
/* /*
...@@ -503,38 +680,14 @@ problem: ...@@ -503,38 +680,14 @@ problem:
return VLC_EGENERIC; return VLC_EGENERIC;
} }
/*
* Return the long id (8 bytes) of the public key used to generate a signature
*/
static uint8_t *get_issuer_from_signature_v4( signature_packet_v4_t *p_sig )
{
uint8_t *p = p_sig->unhashed_data;
uint8_t *max_pos = p + scalar_number( p_sig->unhashed_data_len, 2 );
while( p < max_pos )
{
int i_subpacket_len = *p < 192 ? *p++ :
*p < 255 ? ((*p++ - 192) << 8) + *p++ + 192 :
((*++p) << 24) + (*++p << 16) + (*++p << 8) + *++p;
if( p >= max_pos - 1 )
return NULL;
if( *p == ISSUER_SUBPACKET )
return p+1;
else
p += i_subpacket_len;
}
return NULL;
}
/* /*
* fill a public_key_t with public key data, including: * fill a public_key_t with public key data, including:
* * public key packet * * public key packet
* * signature packet issued by key which long id is p_sig_issuer * * signature packet issued by key which long id is p_sig_issuer
* * user id packet * * user id packet
*/ */
static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public_key_t *p_key, const uint8_t *p_sig_issuer ) static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len,
public_key_t *p_key, const uint8_t *p_sig_issuer )
{ {
uint8_t *pos = (uint8_t*) p_key_data; uint8_t *pos = (uint8_t*) p_key_data;
uint8_t *max_pos = pos + i_key_len; uint8_t *max_pos = pos + i_key_len;
...@@ -546,10 +699,9 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public ...@@ -546,10 +699,9 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public
uint8_t *p_key_unarmored = NULL; uint8_t *p_key_unarmored = NULL;
signature_packet_v4_t sig;
p_key->psz_username = NULL; p_key->psz_username = NULL;
p_key->sig.hashed_data = p_key->sig.unhashed_data = NULL; p_key->sig.specific.v4.hashed_data = NULL;
p_key->sig.specific.v4.unhashed_data = NULL;
if( !( *pos & 0x80 ) ) if( !( *pos & 0x80 ) )
{ /* first byte is ASCII, unarmoring */ { /* first byte is ASCII, unarmoring */
...@@ -574,7 +726,8 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public ...@@ -574,7 +726,8 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public
int i_type = packet_type( *pos ); int i_type = packet_type( *pos );
int i_header_len = packet_header_len( *pos++ ); int i_header_len = packet_header_len( *pos++ );
if( pos + i_header_len > max_pos ) if( pos + i_header_len > max_pos ||
( i_header_len != 1 && i_header_len != 2 && i_header_len != 4 ) )
goto error; goto error;
int i_packet_len = scalar_number( pos, i_header_len ); int i_packet_len = scalar_number( pos, i_header_len );
...@@ -585,28 +738,30 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public ...@@ -585,28 +738,30 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public
switch( i_type ) switch( i_type )
{ {
uint8_t *p_issuer;
case PUBLIC_KEY_PACKET: case PUBLIC_KEY_PACKET:
i_status |= PUBLIC_KEY_FOUND; i_status |= PUBLIC_KEY_FOUND;
if( parse_public_key_packet( &p_key->key, pos, i_packet_len ) != VLC_SUCCESS ) if( parse_public_key_packet( &p_key->key, pos, i_packet_len ) != VLC_SUCCESS )
goto error; goto error;
break; break;
case SIGNATURE_PACKET: case SIGNATURE_PACKET: /* we accept only v4 signatures here */
if( !p_sig_issuer || i_status & SIGNATURE_FOUND || if( i_status & SIGNATURE_FOUND || !p_sig_issuer )
parse_signature_v4_packet( &sig, pos, i_packet_len ) != VLC_SUCCESS )
break; break;
p_issuer = get_issuer_from_signature_v4( &sig ); int i_ret = parse_signature_packet( &p_key->sig, pos,
if( memcmp( p_issuer, p_sig_issuer, 8 ) == 0 ) i_packet_len );
if( i_ret == VLC_SUCCESS )
{ {
memcpy( &p_key->sig, &sig, sizeof( signature_packet_v4_t ) ); if( p_key->sig.version != 4 )
i_status |= SIGNATURE_FOUND; break;
} if( memcmp( p_key->sig.issuer_longid, p_sig_issuer, 8 ) )
else
{ {
free( sig.hashed_data ); free( p_key->sig.specific.v4.hashed_data );
free( sig.unhashed_data ); free( p_key->sig.specific.v4.unhashed_data );
p_key->sig.specific.v4.hashed_data = NULL;
p_key->sig.specific.v4.unhashed_data = NULL;
break;
}
i_status |= SIGNATURE_FOUND;
} }
break; break;
...@@ -629,7 +784,7 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public ...@@ -629,7 +784,7 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public
} }
free( p_key_unarmored ); free( p_key_unarmored );
if( !( i_status & ( PUBLIC_KEY_FOUND + USER_ID_FOUND ) ) ) if( !( i_status & ( PUBLIC_KEY_FOUND | USER_ID_FOUND ) ) )
return VLC_EGENERIC; return VLC_EGENERIC;
if( p_sig_issuer && !( i_status & SIGNATURE_FOUND ) ) if( p_sig_issuer && !( i_status & SIGNATURE_FOUND ) )
...@@ -638,8 +793,11 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public ...@@ -638,8 +793,11 @@ static int parse_public_key( const uint8_t *p_key_data, size_t i_key_len, public
return VLC_SUCCESS; return VLC_SUCCESS;
error: error:
free( p_key->sig.hashed_data ); if( p_key->sig.version == 4 )
free( p_key->sig.unhashed_data ); {
free( p_key->sig.specific.v4.hashed_data );
free( p_key->sig.specific.v4.unhashed_data );
}
free( p_key->psz_username ); free( p_key->psz_username );
free( p_key_unarmored ); free( p_key_unarmored );
return VLC_EGENERIC; return VLC_EGENERIC;
...@@ -649,8 +807,11 @@ error: ...@@ -649,8 +807,11 @@ error:
* return a sha1 hash of a file * return a sha1 hash of a file
*/ */
static uint8_t *hash_sha1_from_file( const char *psz_file, static uint8_t *hash_sha1_from_file( const char *psz_file,
signature_packet_v3_t *p_sig ) signature_packet_t *p_sig )
{ {
if( p_sig->type != BINARY_SIGNATURE && p_sig->type != TEXT_SIGNATURE )
return NULL;
FILE *f = utf8_fopen( psz_file, "r" ); FILE *f = utf8_fopen( psz_file, "r" );
if( !f ) if( !f )
return NULL; return NULL;
...@@ -668,8 +829,26 @@ static uint8_t *hash_sha1_from_file( const char *psz_file, ...@@ -668,8 +829,26 @@ static uint8_t *hash_sha1_from_file( const char *psz_file,
while( ( i_read = fread( buffer, 1, sizeof(buffer), f ) ) > 0 ) while( ( i_read = fread( buffer, 1, sizeof(buffer), f ) ) > 0 )
gcry_md_write( hd, buffer, i_read ); gcry_md_write( hd, buffer, i_read );
if( p_sig->version == 3 )
{
gcry_md_putc( hd, p_sig->type ); gcry_md_putc( hd, p_sig->type );
gcry_md_write( hd, &p_sig->timestamp, 4 ); gcry_md_write( hd, &p_sig->specific.v3.timestamp, 4 );
}
else if( p_sig->version == 4 )
{
gcry_md_putc( hd, p_sig->version );
gcry_md_putc( hd, p_sig->type );
gcry_md_putc( hd, p_sig->public_key_algo );
gcry_md_putc( hd, p_sig->digest_algo );
gcry_md_write( hd, p_sig->specific.v4.hashed_data_len, 2 );
size_t i_len = scalar_number( p_sig->specific.v4.hashed_data_len, 2 );
gcry_md_write( hd, p_sig->specific.v4.hashed_data, i_len );
}
else
{ /* RFC 4880 only tells about versions 3 and 4 */
gcry_md_close( hd );
return NULL;
}
fclose( f ); fclose( f );
gcry_md_final( hd ); gcry_md_final( hd );
...@@ -685,7 +864,8 @@ static uint8_t *hash_sha1_from_file( const char *psz_file, ...@@ -685,7 +864,8 @@ static uint8_t *hash_sha1_from_file( const char *psz_file,
/* /*
* download a public key (the last one) from videolan server, and parse it * download a public key (the last one) from videolan server, and parse it
*/ */
static public_key_t *download_key( vlc_object_t *p_this, const uint8_t *p_longid, const uint8_t *p_signature_issuer ) static public_key_t *download_key( vlc_object_t *p_this,
const uint8_t *p_longid, const uint8_t *p_signature_issuer )
{ {
char *psz_url; char *psz_url;
if( asprintf( &psz_url, "http://download.videolan.org/pub/keys/%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X.asc", if( asprintf( &psz_url, "http://download.videolan.org/pub/keys/%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X.asc",
...@@ -729,6 +909,8 @@ static public_key_t *download_key( vlc_object_t *p_this, const uint8_t *p_longid ...@@ -729,6 +909,8 @@ static public_key_t *download_key( vlc_object_t *p_this, const uint8_t *p_longid
return NULL; return NULL;
} }
memcpy( p_pkey->longid, p_longid, 8 );
int i_error = parse_public_key( p_buf, i_read, p_pkey, p_signature_issuer ); int i_error = parse_public_key( p_buf, i_read, p_pkey, p_signature_issuer );
free( p_buf ); free( p_buf );
...@@ -743,11 +925,18 @@ static public_key_t *download_key( vlc_object_t *p_this, const uint8_t *p_longid ...@@ -743,11 +925,18 @@ static public_key_t *download_key( vlc_object_t *p_this, const uint8_t *p_longid
} }
/* /*
* Generate a SHA-1 hash on a public key, to verify a signature made on that hash * Generate a SHA1 hash on a public key, to verify a signature made on that hash
* Note that we need the signature to compute the hash * Note that we need the signature (v4) to compute the hash
*/ */
static uint8_t *key_sign_hash( public_key_t *p_pkey ) static uint8_t *key_sign_hash( public_key_t *p_pkey )
{ {
if( p_pkey->sig.version != 4 )
return NULL;
if( p_pkey->sig.type < GENERIC_KEY_SIGNATURE ||
p_pkey->sig.type > POSITIVE_KEY_SIGNATURE )
return NULL;
gcry_error_t error = 0; gcry_error_t error = 0;
gcry_md_hd_t hd; gcry_md_hd_t hd;
...@@ -757,30 +946,35 @@ static uint8_t *key_sign_hash( public_key_t *p_pkey ) ...@@ -757,30 +946,35 @@ static uint8_t *key_sign_hash( public_key_t *p_pkey )
gcry_md_putc( hd, 0x99 ); gcry_md_putc( hd, 0x99 );
gcry_md_putc( hd, (418 >> 8) & 0xff ); size_t i_p_len = mpi_len( p_pkey->key.p );
gcry_md_putc( hd, 418 & 0xff ); size_t i_g_len = mpi_len( p_pkey->key.g );
size_t i_q_len = mpi_len( p_pkey->key.q );
size_t i_y_len = mpi_len( p_pkey->key.y );
size_t i_size = 6 + 2*4 + i_p_len + i_g_len + i_q_len + i_y_len;
gcry_md_write( hd, (uint8_t*)&p_pkey->key, 6 ); /* version,timestamp,algo */ gcry_md_putc( hd, (i_size >> 8) & 0xff );
gcry_md_putc( hd, i_size & 0xff );
gcry_md_putc( hd, p_pkey->key.version );
gcry_md_write( hd, p_pkey->key.timestamp, 4 );
gcry_md_putc( hd, p_pkey->key.algo );
int i_p_len = mpi_len( p_pkey->key.p );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.p, 2 ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.p, 2 );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.p + 2, i_p_len ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.p + 2, i_p_len );
int i_g_len = mpi_len( p_pkey->key.g );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.g, 2 );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.g + 2, i_g_len );
int i_q_len = mpi_len( p_pkey->key.q );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.q, 2 ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.q, 2 );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.q + 2, i_q_len ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.q + 2, i_q_len );
int i_y_len = mpi_len( p_pkey->key.y ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.g, 2 );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.g + 2, i_g_len );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.y, 2 ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.y, 2 );
gcry_md_write( hd, (uint8_t*)&p_pkey->key.y + 2, i_y_len ); gcry_md_write( hd, (uint8_t*)&p_pkey->key.y + 2, i_y_len );
gcry_md_putc( hd, 0xb4 ); gcry_md_putc( hd, 0xb4 );
int i_len = strlen((char*)p_pkey->psz_username); size_t i_len = strlen((char*)p_pkey->psz_username);
gcry_md_putc( hd, (i_len << 24) & 0xff ); gcry_md_putc( hd, (i_len << 24) & 0xff );
gcry_md_putc( hd, (i_len << 16) & 0xff ); gcry_md_putc( hd, (i_len << 16) & 0xff );
...@@ -789,14 +983,15 @@ static uint8_t *key_sign_hash( public_key_t *p_pkey ) ...@@ -789,14 +983,15 @@ static uint8_t *key_sign_hash( public_key_t *p_pkey )
gcry_md_write( hd, p_pkey->psz_username, i_len ); gcry_md_write( hd, p_pkey->psz_username, i_len );
size_t i_hashed_data_len = scalar_number( p_pkey->sig.hashed_data_len, 2 ); size_t i_hashed_data_len =
scalar_number( p_pkey->sig.specific.v4.hashed_data_len, 2 );
gcry_md_putc( hd, p_pkey->sig.version ); gcry_md_putc( hd, p_pkey->sig.version );
gcry_md_putc( hd, p_pkey->sig.type ); gcry_md_putc( hd, p_pkey->sig.type );
gcry_md_putc( hd, p_pkey->sig.public_key_algo ); gcry_md_putc( hd, p_pkey->sig.public_key_algo );
gcry_md_putc( hd, p_pkey->sig.digest_algo ); gcry_md_putc( hd, p_pkey->sig.digest_algo );
gcry_md_write( hd, p_pkey->sig.hashed_data_len, 2 ); gcry_md_write( hd, p_pkey->sig.specific.v4.hashed_data_len, 2 );
gcry_md_write( hd, p_pkey->sig.hashed_data, i_hashed_data_len ); gcry_md_write( hd, p_pkey->sig.specific.v4.hashed_data, i_hashed_data_len );
gcry_md_putc( hd, 0x04 ); gcry_md_putc( hd, 0x04 );
gcry_md_putc( hd, 0xff ); gcry_md_putc( hd, 0xff );
...@@ -968,7 +1163,7 @@ static bool GetUpdateFile( update_t *p_update ) ...@@ -968,7 +1163,7 @@ static bool GetUpdateFile( update_t *p_update )
/* Now that we know the status is valid, we must download its signature /* Now that we know the status is valid, we must download its signature
* to authenticate it */ * to authenticate it */
signature_packet_v3_t sign; signature_packet_t sign;
if( download_signature( VLC_OBJECT( p_update->p_libvlc ), &sign, if( download_signature( VLC_OBJECT( p_update->p_libvlc ), &sign,
UPDATE_VLC_STATUS_URL ) != VLC_SUCCESS ) UPDATE_VLC_STATUS_URL ) != VLC_SUCCESS )
{ {
...@@ -994,7 +1189,9 @@ static bool GetUpdateFile( update_t *p_update ) ...@@ -994,7 +1189,9 @@ static bool GetUpdateFile( update_t *p_update )
goto error; goto error;
} }
if( memcmp( sign.issuer_longid, videolan_public_key_longid , 8 ) != 0 ) memcpy( p_update->p_pkey->longid, videolan_public_key_longid, 8 );
if( memcmp( sign.issuer_longid, p_update->p_pkey->longid , 8 ) != 0 )
{ {
msg_Dbg( p_update->p_libvlc, "Need to download the GPG key" ); msg_Dbg( p_update->p_libvlc, "Need to download the GPG key" );
public_key_t *p_new_pkey = download_key( public_key_t *p_new_pkey = download_key(
...@@ -1052,8 +1249,37 @@ static bool GetUpdateFile( update_t *p_update ) ...@@ -1052,8 +1249,37 @@ static bool GetUpdateFile( update_t *p_update )
gcry_md_putc( hd, '\r' ); gcry_md_putc( hd, '\r' );
gcry_md_putc( hd, '\n' ); gcry_md_putc( hd, '\n' );
if( sign.version == 3 )
{
gcry_md_putc( hd, sign.type ); gcry_md_putc( hd, sign.type );
gcry_md_write( hd, &sign.timestamp, 4 ); gcry_md_write( hd, &sign.specific.v3.timestamp, 4 );
}
else if( sign.version == 4 )
{
gcry_md_putc( hd, sign.version );
gcry_md_putc( hd, sign.type );
gcry_md_putc( hd, sign.public_key_algo );
gcry_md_putc( hd, sign.digest_algo );
gcry_md_write( hd, sign.specific.v4.hashed_data_len, 2 );
size_t i_len = scalar_number( sign.specific.v4.hashed_data_len, 2 );
gcry_md_write( hd, sign.specific.v4.hashed_data, i_len );
gcry_md_putc( hd, 0x04 );
gcry_md_putc( hd, 0xFF );
i_len += 6; /* hashed data + 6 bytes header */
gcry_md_putc( hd, (i_len << 24) & 0xff);
gcry_md_putc( hd, (i_len << 16) &0xff );
gcry_md_putc( hd, (i_len << 8) & 0xff );
gcry_md_putc( hd, (i_len) & 0xff );
}
else
{ /* RFC 4880 only tells about versions 3 and 4 */
msg_Warn( p_update->p_libvlc, "Invalid signature version %d",
sign.version);
goto error_hd;
}
gcry_md_final( hd ); gcry_md_final( hd );
...@@ -1116,11 +1342,7 @@ void update_Check( update_t *p_update, void (*pf_callback)( void*, bool ), void ...@@ -1116,11 +1342,7 @@ void update_Check( update_t *p_update, void (*pf_callback)( void*, bool ), void
update_check_thread_t *p_uct = vlc_object_create( p_update->p_libvlc, update_check_thread_t *p_uct = vlc_object_create( p_update->p_libvlc,
sizeof( update_check_thread_t ) ); sizeof( update_check_thread_t ) );
if( !p_uct ) if( !p_uct ) return;
{
msg_Err( p_update->p_libvlc, "out of memory" );
return;
}
p_uct->p_update = p_update; p_uct->p_update = p_update;
p_uct->pf_callback = pf_callback; p_uct->pf_callback = pf_callback;
...@@ -1157,7 +1379,7 @@ bool update_NeedUpgrade( update_t *p_update ) ...@@ -1157,7 +1379,7 @@ bool update_NeedUpgrade( update_t *p_update )
return p_update->release.i_major < *PACKAGE_VERSION_MAJOR - '0' || return p_update->release.i_major < *PACKAGE_VERSION_MAJOR - '0' ||
p_update->release.i_minor < *PACKAGE_VERSION_MINOR - '0' || p_update->release.i_minor < *PACKAGE_VERSION_MINOR - '0' ||
p_update->release.i_revision < *PACKAGE_VERSION_REVISION || p_update->release.i_revision < *PACKAGE_VERSION_REVISION - '0' ||
p_update->release.extra < *PACKAGE_VERSION_EXTRA; p_update->release.extra < *PACKAGE_VERSION_EXTRA;
} }
...@@ -1326,7 +1548,7 @@ void update_DownloadReal( update_download_thread_t *p_udt ) ...@@ -1326,7 +1548,7 @@ void update_DownloadReal( update_download_thread_t *p_udt )
goto end; goto end;
} }
signature_packet_v3_t sign; signature_packet_t sign;
if( download_signature( VLC_OBJECT( p_udt ), &sign, if( download_signature( VLC_OBJECT( p_udt ), &sign,
p_update->release.psz_url ) != VLC_SUCCESS ) p_update->release.psz_url ) != VLC_SUCCESS )
{ {
......
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