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gnupg/g10/mainproc.c

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/* mainproc.c - handle packets
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* Copyright (C) 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
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*
* This file is part of GnuPG.
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*
* GnuPG is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
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#include <assert.h>
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#include <time.h>
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#include "packet.h"
#include "iobuf.h"
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#include "memory.h"
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#include "options.h"
#include "util.h"
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#include "cipher.h"
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#include "keydb.h"
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#include "filter.h"
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#include "main.h"
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#include "status.h"
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#include "i18n.h"
#include "trustdb.h"
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#include "keyserver-internal.h"
#include "photoid.h"
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struct kidlist_item {
struct kidlist_item *next;
u32 kid[2];
int pubkey_algo;
int reason;
};
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/****************
* Structure to hold the context
*/
typedef struct mainproc_context *CTX;
struct mainproc_context {
struct mainproc_context *anchor; /* may be useful in the future */
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PKT_public_key *last_pubkey;
PKT_secret_key *last_seckey;
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PKT_user_id *last_user_id;
md_filter_context_t mfx;
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int sigs_only; /* process only signatures and reject all other stuff */
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int encrypt_only; /* process only encrytion messages */
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STRLIST signed_data;
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const char *sigfilename;
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DEK *dek;
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int last_was_session_key;
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KBNODE list; /* the current list of packets */
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int have_data;
IOBUF iobuf; /* used to get the filename etc. */
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int trustletter; /* temp usage in list_node */
ulong local_id; /* ditto */
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struct kidlist_item *pkenc_list; /* list of encryption packets */
struct {
int op;
int stop_now;
} pipemode;
};
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static int do_proc_packets( CTX c, IOBUF a );
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static void list_node( CTX c, KBNODE node );
static void proc_tree( CTX c, KBNODE node );
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static void
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release_list( CTX c )
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{
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if( !c->list )
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return;
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proc_tree(c, c->list );
release_kbnode( c->list );
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while( c->pkenc_list ) {
struct kidlist_item *tmp = c->pkenc_list->next;
m_free( c->pkenc_list );
c->pkenc_list = tmp;
}
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c->pkenc_list = NULL;
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c->list = NULL;
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c->have_data = 0;
c->last_was_session_key = 0;
c->pipemode.op = 0;
c->pipemode.stop_now = 0;
m_free(c->dek); c->dek = NULL;
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}
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static int
add_onepass_sig( CTX c, PACKET *pkt )
{
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KBNODE node;
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if( c->list ) { /* add another packet */
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/* We can only append another onepass packet if the list
* does contain only onepass packets */
for( node=c->list; node && node->pkt->pkttype == PKT_ONEPASS_SIG;
node = node->next )
;
if( node ) {
/* this is not the case, so we flush the current thing and
* allow this packet to start a new verification thing */
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release_list( c );
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c->list = new_kbnode( pkt );
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}
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else
add_kbnode( c->list, new_kbnode( pkt ));
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}
else /* insert the first one */
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c->list = node = new_kbnode( pkt );
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return 1;
}
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static int
add_gpg_control( CTX c, PACKET *pkt )
{
if ( pkt->pkt.gpg_control->control == CTRLPKT_CLEARSIGN_START ) {
/* New clear text signature.
* Process the last one and reset everything */
release_list(c);
}
else if ( pkt->pkt.gpg_control->control == CTRLPKT_PIPEMODE ) {
/* Pipemode control packet */
if ( pkt->pkt.gpg_control->datalen < 2 )
log_fatal ("invalid pipemode control packet length\n");
if (pkt->pkt.gpg_control->data[0] == 1) {
/* start the whole thing */
assert ( !c->list ); /* we should be in a pretty virgin state */
assert ( !c->pipemode.op );
c->pipemode.op = pkt->pkt.gpg_control->data[1];
}
else if (pkt->pkt.gpg_control->data[0] == 2) {
/* the signed material follows in a plaintext packet */
assert ( c->pipemode.op == 'B' );
}
else if (pkt->pkt.gpg_control->data[0] == 3) {
assert ( c->pipemode.op == 'B' );
release_list (c);
/* and tell the outer loop to terminate */
c->pipemode.stop_now = 1;
}
else
log_fatal ("invalid pipemode control packet code\n");
return 0; /* no need to store the packet */
}
if( c->list ) /* add another packet */
add_kbnode( c->list, new_kbnode( pkt ));
else /* insert the first one */
c->list = new_kbnode( pkt );
return 1;
}
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static int
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add_user_id( CTX c, PACKET *pkt )
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{
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if( !c->list ) {
log_error("orphaned user ID\n" );
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return 0;
}
add_kbnode( c->list, new_kbnode( pkt ) );
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return 1;
}
static int
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add_subkey( CTX c, PACKET *pkt )
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{
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if( !c->list ) {
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log_error("subkey w/o mainkey\n" );
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return 0;
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}
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add_kbnode( c->list, new_kbnode( pkt ) );
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return 1;
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}
static int
add_ring_trust( CTX c, PACKET *pkt )
{
if( !c->list ) {
log_error("ring trust w/o key\n" );
return 0;
}
add_kbnode( c->list, new_kbnode( pkt ) );
return 1;
}
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static int
add_signature( CTX c, PACKET *pkt )
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{
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KBNODE node;
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if( pkt->pkttype == PKT_SIGNATURE && !c->list ) {
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/* This is the first signature for the following datafile.
* GPG does not write such packets; instead it always uses
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* onepass-sig packets. The drawback of PGP's method
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* of prepending the signature to the data is
* that it is not possible to make a signature from data read
* from stdin. (GPG is able to read PGP stuff anyway.) */
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node = new_kbnode( pkt );
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c->list = node;
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return 1;
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}
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else if( !c->list )
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return 0; /* oops (invalid packet sequence)*/
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else if( !c->list->pkt )
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BUG(); /* so nicht */
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/* add a new signature node id at the end */
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node = new_kbnode( pkt );
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add_kbnode( c->list, node );
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return 1;
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}
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static void
symkey_decrypt_sesskey( DEK *dek, byte *sesskey, size_t slen )
{
CIPHER_HANDLE hd;
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int n;
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if ( slen < 17 || slen > 33 ) {
log_error ( _("weird size for an encrypted session key (%d)\n"),
(int)slen);
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return;
}
hd = cipher_open( dek->algo, CIPHER_MODE_CFB, 1 );
cipher_setkey( hd, dek->key, dek->keylen );
cipher_setiv( hd, NULL, 0 );
cipher_decrypt( hd, sesskey, sesskey, slen );
cipher_close( hd );
/* check first byte (the cipher algo) */
if ( sesskey[0] > 10 ) {
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log_error ( _("invalid symkey algorithm detected (%d)\n"),
sesskey[0] );
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return;
}
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n = cipher_get_keylen (sesskey[0]) / 8;
if (n > DIM(dek->key))
BUG ();
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/* now we replace the dek components with the real session key
to decrypt the contents of the sequencing packet. */
dek->keylen = cipher_get_keylen( sesskey[0] ) / 8;
dek->algo = sesskey[0];
memcpy( dek->key, sesskey + 1, dek->keylen );
/*log_hexdump( "thekey", dek->key, dek->keylen );*/
}
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static void
proc_symkey_enc( CTX c, PACKET *pkt )
{
PKT_symkey_enc *enc;
enc = pkt->pkt.symkey_enc;
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if (!enc)
log_error ("invalid symkey encrypted packet\n");
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else {
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int algo = enc->cipher_algo;
const char *s;
s = cipher_algo_to_string (algo);
if( s )
log_info(_("%s encrypted data\n"), s );
else
log_info(_("encrypted with unknown algorithm %d\n"), algo );
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c->last_was_session_key = 2;
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if ( opt.list_only )
goto leave;
c->dek = passphrase_to_dek( NULL, 0, algo, &enc->s2k, 0, NULL );
if (c->dek)
c->dek->algo_info_printed = 1;
if ( c->dek && enc->seskeylen )
symkey_decrypt_sesskey( c->dek, enc->seskey, enc->seskeylen );
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}
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leave:
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free_packet(pkt);
}
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static void
proc_pubkey_enc( CTX c, PACKET *pkt )
{
PKT_pubkey_enc *enc;
int result = 0;
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/* check whether the secret key is available and store in this case */
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c->last_was_session_key = 1;
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enc = pkt->pkt.pubkey_enc;
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/*printf("enc: encrypted by a pubkey with keyid %08lX\n", enc->keyid[1] );*/
/* Hmmm: why do I have this algo check here - anyway there is
* function to check it. */
if( opt.verbose )
log_info(_("public key is %08lX\n"), (ulong)enc->keyid[1] );
if( is_status_enabled() ) {
char buf[50];
sprintf(buf, "%08lX%08lX %d 0",
(ulong)enc->keyid[0], (ulong)enc->keyid[1], enc->pubkey_algo );
write_status_text( STATUS_ENC_TO, buf );
}
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if( !opt.list_only && opt.override_session_key ) {
/* It does not make much sense to store the session key in
* secure memory because it has already been passed on the
* command line and the GCHQ knows about it */
c->dek = m_alloc_clear( sizeof *c->dek );
result = get_override_session_key ( c->dek, opt.override_session_key );
if ( result ) {
m_free(c->dek); c->dek = NULL;
}
}
else if( is_ELGAMAL(enc->pubkey_algo)
|| enc->pubkey_algo == PUBKEY_ALGO_DSA
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|| is_RSA(enc->pubkey_algo) ) {
if ( !c->dek && ((!enc->keyid[0] && !enc->keyid[1])
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|| opt.try_all_secrets
|| !seckey_available( enc->keyid )) ) {
if( opt.list_only )
result = -1;
else {
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c->dek = m_alloc_secure_clear( sizeof *c->dek );
if( (result = get_session_key( enc, c->dek )) ) {
/* error: delete the DEK */
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m_free(c->dek); c->dek = NULL;
}
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}
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}
else
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result = G10ERR_NO_SECKEY;
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}
else
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result = G10ERR_PUBKEY_ALGO;
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if( result == -1 )
;
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else {
if( !result ) {
if( opt.verbose > 1 )
log_info( _("public key encrypted data: good DEK\n") );
if ( opt.show_session_key ) {
int i;
char *buf = m_alloc ( c->dek->keylen*2 + 20 );
sprintf ( buf, "%d:", c->dek->algo );
for(i=0; i < c->dek->keylen; i++ )
sprintf(buf+strlen(buf), "%02X", c->dek->key[i] );
log_info( "session key: \"%s\"\n", buf );
write_status_text ( STATUS_SESSION_KEY, buf );
}
}
/* store it for later display */
{
struct kidlist_item *x = m_alloc( sizeof *x );
x->kid[0] = enc->keyid[0];
x->kid[1] = enc->keyid[1];
x->pubkey_algo = enc->pubkey_algo;
x->reason = result;
x->next = c->pkenc_list;
c->pkenc_list = x;
}
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}
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free_packet(pkt);
}
/****************
* Print the list of public key encrypted packets which we could
* not decrypt.
*/
static void
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print_pkenc_list( struct kidlist_item *list, int failed )
{
for( ; list; list = list->next ) {
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PKT_public_key *pk;
const char *algstr;
if ( failed && !list->reason )
continue;
if ( !failed && list->reason )
continue;
algstr = pubkey_algo_to_string( list->pubkey_algo );
pk = m_alloc_clear( sizeof *pk );
if( !algstr )
algstr = "[?]";
pk->pubkey_algo = list->pubkey_algo;
if( !get_pubkey( pk, list->kid ) ) {
size_t n;
char *p;
log_info( _("encrypted with %u-bit %s key, ID %08lX, created %s\n"),
nbits_from_pk( pk ), algstr, (ulong)list->kid[1],
strtimestamp(pk->timestamp) );
fputs(" \"", log_stream() );
p = get_user_id( list->kid, &n );
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print_utf8_string2 ( log_stream(), p, n, '"' );
m_free(p);
fputs("\"\n", log_stream() );
}
else {
log_info(_("encrypted with %s key, ID %08lX\n"),
algstr, (ulong) list->kid[1] );
}
free_public_key( pk );
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if( list->reason == G10ERR_NO_SECKEY ) {
if( is_status_enabled() ) {
char buf[20];
sprintf(buf,"%08lX%08lX", (ulong)list->kid[0],
(ulong)list->kid[1] );
write_status_text( STATUS_NO_SECKEY, buf );
}
}
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else if (list->reason)
log_info(_("public key decryption failed: %s\n"),
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g10_errstr(list->reason));
}
}
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static void
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proc_encrypted( CTX c, PACKET *pkt )
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{
int result = 0;
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if (!opt.quiet) {
print_pkenc_list ( c->pkenc_list, 1 );
print_pkenc_list ( c->pkenc_list, 0 );
}
write_status( STATUS_BEGIN_DECRYPTION );
/*log_debug("dat: %sencrypted data\n", c->dek?"":"conventional ");*/
if( opt.list_only )
result = -1;
else if( !c->dek && !c->last_was_session_key ) {
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int algo;
STRING2KEY s2kbuf, *s2k = NULL;
/* assume this is old style conventional encrypted data */
if ( (algo = opt.def_cipher_algo))
log_info (_("assuming %s encrypted data\n"),
cipher_algo_to_string(algo));
else if ( check_cipher_algo(CIPHER_ALGO_IDEA) ) {
algo = opt.def_cipher_algo;
if (!algo)
algo = opt.s2k_cipher_algo;
idea_cipher_warn(1);
log_info (_("IDEA cipher unavailable, "
"optimistically attempting to use %s instead\n"),
cipher_algo_to_string(algo));
}
else {
algo = CIPHER_ALGO_IDEA;
if (!opt.s2k_digest_algo) {
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/* If no digest is given we assume MD5 */
s2kbuf.mode = 0;
s2kbuf.hash_algo = DIGEST_ALGO_MD5;
s2k = &s2kbuf;
}
log_info (_("assuming %s encrypted data\n"), "IDEA");
}
c->dek = passphrase_to_dek ( NULL, 0, algo, s2k, 0, NULL );
if (c->dek)
c->dek->algo_info_printed = 1;
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}
else if( !c->dek )
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result = G10ERR_NO_SECKEY;
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if( !result )
result = decrypt_data( c, pkt->pkt.encrypted, c->dek );
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m_free(c->dek); c->dek = NULL;
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if( result == -1 )
;
else if( !result || (result==G10ERR_BAD_SIGN && opt.ignore_mdc_error)) {
write_status( STATUS_DECRYPTION_OKAY );
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if( opt.verbose > 1 )
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log_info(_("decryption okay\n"));
if( pkt->pkt.encrypted->mdc_method && !result )
write_status( STATUS_GOODMDC );
else if(!opt.no_mdc_warn)
log_info ("WARNING: message was not integrity protected\n");
}
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else if( result == G10ERR_BAD_SIGN ) {
log_error(_("WARNING: encrypted message has been manipulated!\n"));
write_status( STATUS_BADMDC );
write_status( STATUS_DECRYPTION_FAILED );
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}
else {
write_status( STATUS_DECRYPTION_FAILED );
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log_error(_("decryption failed: %s\n"), g10_errstr(result));
/* Hmmm: does this work when we have encrypted using multiple
* ways to specify the session key (symmmetric and PK)*/
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}
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free_packet(pkt);
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c->last_was_session_key = 0;
write_status( STATUS_END_DECRYPTION );
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}
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static void
proc_plaintext( CTX c, PACKET *pkt )
{
PKT_plaintext *pt = pkt->pkt.plaintext;
int any, clearsig, only_md5, rc;
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KBNODE n;
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if( pt->namelen == 8 && !memcmp( pt->name, "_CONSOLE", 8 ) )
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log_info(_("NOTE: sender requested \"for-your-eyes-only\"\n"));
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else if( opt.verbose )
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log_info(_("original file name='%.*s'\n"), pt->namelen, pt->name);
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free_md_filter_context( &c->mfx );
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c->mfx.md = md_open( 0, 0);
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/* fixme: we may need to push the textfilter if we have sigclass 1
* and no armoring - Not yet tested
* Hmmm, why don't we need it at all if we have sigclass 1
* Should we assume that plaintext in mode 't' has always sigclass 1??
* See: Russ Allbery's mail 1999-02-09
*/
any = clearsig = only_md5 = 0;
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for(n=c->list; n; n = n->next ) {
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if( n->pkt->pkttype == PKT_ONEPASS_SIG ) {
if( n->pkt->pkt.onepass_sig->digest_algo ) {
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md_enable( c->mfx.md, n->pkt->pkt.onepass_sig->digest_algo );
if( !any && n->pkt->pkt.onepass_sig->digest_algo
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== DIGEST_ALGO_MD5 )
only_md5 = 1;
else
only_md5 = 0;
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any = 1;
}
if( n->pkt->pkt.onepass_sig->sig_class != 0x01 )
only_md5 = 0;
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}
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else if( n->pkt->pkttype == PKT_GPG_CONTROL
&& n->pkt->pkt.gpg_control->control
== CTRLPKT_CLEARSIGN_START ) {
size_t datalen = n->pkt->pkt.gpg_control->datalen;
const byte *data = n->pkt->pkt.gpg_control->data;
/* check that we have at least the sigclass and one hash */
if ( datalen < 2 )
log_fatal("invalid control packet CTRLPKT_CLEARSIGN_START\n");
/* Note that we don't set the clearsig flag for not-dash-escaped
* documents */
clearsig = (*data == 0x01);
for( data++, datalen--; datalen; datalen--, data++ )
md_enable( c->mfx.md, *data );
any = 1;
break; /* no pass signature pakets are expected */
}
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}
if( !any && !opt.skip_verify ) {
/* no onepass sig packet: enable all standard algos */
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md_enable( c->mfx.md, DIGEST_ALGO_RMD160 );
md_enable( c->mfx.md, DIGEST_ALGO_SHA1 );
md_enable( c->mfx.md, DIGEST_ALGO_MD5 );
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}
if( opt.pgp2_workarounds && only_md5 && !opt.skip_verify ) {
/* This is a kludge to work around a bug in pgp2. It does only
* catch those mails which are armored. To catch the non-armored
* pgp mails we could see whether there is the signature packet
* in front of the plaintext. If someone needs this, send me a patch.
*/
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c->mfx.md2 = md_open( DIGEST_ALGO_MD5, 0);
}
if ( DBG_HASHING ) {
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md_start_debug( c->mfx.md, "verify" );
if ( c->mfx.md2 )
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md_start_debug( c->mfx.md2, "verify2" );
}
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if ( c->pipemode.op == 'B' )
rc = handle_plaintext( pt, &c->mfx, 1, 0 );
else {
rc = handle_plaintext( pt, &c->mfx, c->sigs_only, clearsig );
if( rc == G10ERR_CREATE_FILE && !c->sigs_only) {
/* can't write output but we hash it anyway to
* check the signature */
rc = handle_plaintext( pt, &c->mfx, 1, clearsig );
}
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}
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if( rc )
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log_error( "handle plaintext failed: %s\n", g10_errstr(rc));
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free_packet(pkt);
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c->last_was_session_key = 0;
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/* We add a marker control packet instead of the plaintext packet.
* This is so that we can later detect invalid packet sequences.
*/
n = new_kbnode (create_gpg_control (CTRLPKT_PLAINTEXT_MARK, NULL, 0));
if (c->list)
add_kbnode (c->list, n);
else
c->list = n;
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}
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static int
proc_compressed_cb( IOBUF a, void *info )
{
return proc_signature_packets( info, a, ((CTX)info)->signed_data,
((CTX)info)->sigfilename );
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}
static int
proc_encrypt_cb( IOBUF a, void *info )
{
return proc_encryption_packets( info, a );
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}
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static void
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proc_compressed( CTX c, PACKET *pkt )
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{
PKT_compressed *zd = pkt->pkt.compressed;
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int rc;
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/*printf("zip: compressed data packet\n");*/
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if( c->sigs_only )
rc = handle_compressed( c, zd, proc_compressed_cb, c );
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else if( c->encrypt_only )
rc = handle_compressed( c, zd, proc_encrypt_cb, c );
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else
rc = handle_compressed( c, zd, NULL, NULL );
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if( rc )
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log_error("uncompressing failed: %s\n", g10_errstr(rc));
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free_packet(pkt);
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c->last_was_session_key = 0;
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}
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/****************
* check the signature
* Returns: 0 = valid signature or an error code
*/
static int
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do_check_sig( CTX c, KBNODE node, int *is_selfsig, int *is_expkey )
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{
PKT_signature *sig;
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MD_HANDLE md = NULL, md2 = NULL;
int algo, rc, dum2;
u32 dummy;
if(!is_expkey)
is_expkey=&dum2;
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assert( node->pkt->pkttype == PKT_SIGNATURE );
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if( is_selfsig )
*is_selfsig = 0;
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sig = node->pkt->pkt.signature;
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algo = sig->digest_algo;
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if( (rc=check_digest_algo(algo)) )
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return rc;
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if( sig->sig_class == 0x00 ) {
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if( c->mfx.md )
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md = md_copy( c->mfx.md );
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else /* detached signature */
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md = md_open( 0, 0 ); /* signature_check() will enable the md*/
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}
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else if( sig->sig_class == 0x01 ) {
/* how do we know that we have to hash the (already hashed) text
* in canonical mode ??? (calculating both modes???) */
if( c->mfx.md ) {
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md = md_copy( c->mfx.md );
if( c->mfx.md2 )
md2 = md_copy( c->mfx.md2 );
}
else { /* detached signature */
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log_debug("Do we really need this here?");
md = md_open( 0, 0 ); /* signature_check() will enable the md*/
md2 = md_open( 0, 0 );
}
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}
else if( (sig->sig_class&~3) == 0x10
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|| sig->sig_class == 0x18
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|| sig->sig_class == 0x1f
|| sig->sig_class == 0x20
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|| sig->sig_class == 0x28
|| sig->sig_class == 0x30 ) {
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if( c->list->pkt->pkttype == PKT_PUBLIC_KEY
|| c->list->pkt->pkttype == PKT_PUBLIC_SUBKEY ) {
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return check_key_signature( c->list, node, is_selfsig );
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}
else if( sig->sig_class == 0x20 ) {
log_info(_("standalone revocation - "
"use \"gpg --import\" to apply\n"));
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return G10ERR_NOT_PROCESSED;
}
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else {
log_error("invalid root packet for sigclass %02x\n",
sig->sig_class);
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return G10ERR_SIG_CLASS;
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}
}
else
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return G10ERR_SIG_CLASS;
rc = signature_check2( sig, md, &dummy, is_expkey );
if( rc == G10ERR_BAD_SIGN && md2 )
rc = signature_check2( sig, md2, &dummy, is_expkey );
md_close(md);
md_close(md2);
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return rc;
}
static void
print_userid( PACKET *pkt )
{
if( !pkt )
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BUG();
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if( pkt->pkttype != PKT_USER_ID ) {
printf("ERROR: unexpected packet type %d", pkt->pkttype );
return;
}
if( opt.with_colons )
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{
if(pkt->pkt.user_id->attrib_data)
printf("%u %lu",
pkt->pkt.user_id->numattribs,
pkt->pkt.user_id->attrib_len);
else
print_string( stdout, pkt->pkt.user_id->name,
pkt->pkt.user_id->len, ':');
}
else
print_utf8_string( stdout, pkt->pkt.user_id->name,
pkt->pkt.user_id->len );
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}
static void
print_notation_data( PKT_signature *sig )
{
size_t n, n1, n2;
const byte *p;
int seq = 0;
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while((p=enum_sig_subpkt(sig->hashed,SIGSUBPKT_NOTATION,&n,&seq,NULL))) {
if( n < 8 ) {
log_info(_("WARNING: invalid notation data found\n"));
return;
}
if( !(*p & 0x80) )
return; /* not human readable */
n1 = (p[4] << 8) | p[5];
n2 = (p[6] << 8) | p[7];
p += 8;
if( 8+n1+n2 != n ) {
log_info(_("WARNING: invalid notation data found\n"));
return;
}
log_info(_("Notation: ") );
print_string( log_stream(), p, n1, 0 );
putc( '=', log_stream() );
print_string( log_stream(), p+n1, n2, 0 );
putc( '\n', log_stream() );
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write_status_buffer ( STATUS_NOTATION_NAME, p , n1, 0 );
write_status_buffer ( STATUS_NOTATION_DATA, p+n1, n2, 50 );
}
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seq=0;
while((p=enum_sig_subpkt(sig->hashed,SIGSUBPKT_POLICY,&n,&seq,NULL))) {
log_info(_("Policy: ") );
print_string( log_stream(), p, n, 0 );
putc( '\n', log_stream() );
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write_status_buffer ( STATUS_POLICY_URL, p, n, 0 );
}
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/* Now check whether the key of this signature has some
* notation data */
/* TODO */
}
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/****************
* List the certificate in a user friendly way
*/
static void
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list_node( CTX c, KBNODE node )
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{
int any=0;
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int mainkey;
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if( !node )
;
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else if( (mainkey = (node->pkt->pkttype == PKT_PUBLIC_KEY) )
|| node->pkt->pkttype == PKT_PUBLIC_SUBKEY ) {
PKT_public_key *pk = node->pkt->pkt.public_key;
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if( opt.with_colons ) {
u32 keyid[2];
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keyid_from_pk( pk, keyid );
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if( mainkey ) {
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c->local_id = pk->local_id;
c->trustletter = opt.fast_list_mode?
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0 : get_validity_info( pk, NULL );
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}
printf("%s:", mainkey? "pub":"sub" );
if( c->trustletter )
putchar( c->trustletter );
printf(":%u:%d:%08lX%08lX:%s:%s:",
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nbits_from_pk( pk ),
pk->pubkey_algo,
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(ulong)keyid[0],(ulong)keyid[1],
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colon_datestr_from_pk( pk ),
colon_strtime (pk->expiredate) );
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if( c->local_id )
printf("%lu", c->local_id );
putchar(':');
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if( mainkey && !opt.fast_list_mode )
putchar( get_ownertrust_info (pk) );
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putchar(':');
if( node->next && node->next->pkt->pkttype == PKT_RING_TRUST) {
putchar('\n'); any=1;
if( opt.fingerprint )
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print_fingerprint( pk, NULL, 0 );
printf("rtv:1:%u:\n",
node->next->pkt->pkt.ring_trust->trustval );
}
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}
else
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printf("%s %4u%c/%08lX %s ",
mainkey? "pub":"sub",
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nbits_from_pk( pk ),
pubkey_letter( pk->pubkey_algo ),
(ulong)keyid_from_pk( pk, NULL ),
datestr_from_pk( pk ) );
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if( mainkey ) {
/* and now list all userids with their signatures */
for( node = node->next; node; node = node->next ) {
if( node->pkt->pkttype == PKT_SIGNATURE ) {
if( !any ) {
if( node->pkt->pkt.signature->sig_class == 0x20 )
puts("[revoked]");
else
putchar('\n');
any = 1;
}
list_node(c, node );
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}
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else if( node->pkt->pkttype == PKT_USER_ID ) {
if( any ) {
if( opt.with_colons )
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printf("%s:::::::::",
node->pkt->pkt.user_id->attrib_data?"uat":"uid");
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else
printf( "uid%*s", 28, "" );
}
print_userid( node->pkt );
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if( opt.with_colons )
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putchar(':');
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putchar('\n');
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if( opt.fingerprint && !any )
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print_fingerprint( pk, NULL, 0 );
if( node->next
&& node->next->pkt->pkttype == PKT_RING_TRUST ) {
printf("rtv:2:%u:\n",
node->next->pkt->pkt.ring_trust->trustval );
}
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any=1;
}
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else if( node->pkt->pkttype == PKT_PUBLIC_SUBKEY ) {
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if( !any ) {
putchar('\n');
any = 1;
}
list_node(c, node );
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}
}
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}
else if( pk->expiredate ) { /* of subkey */
printf(_(" [expires: %s]"), expirestr_from_pk( pk ) );
}
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if( !any )
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putchar('\n');
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if( !mainkey && opt.fingerprint > 1 )
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print_fingerprint( pk, NULL, 0 );
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}
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else if( (mainkey = (node->pkt->pkttype == PKT_SECRET_KEY) )
|| node->pkt->pkttype == PKT_SECRET_SUBKEY ) {
PKT_secret_key *sk = node->pkt->pkt.secret_key;
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if( opt.with_colons ) {
u32 keyid[2];
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keyid_from_sk( sk, keyid );
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printf("%s::%u:%d:%08lX%08lX:%s:%s:::",
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mainkey? "sec":"ssb",
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nbits_from_sk( sk ),
sk->pubkey_algo,
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(ulong)keyid[0],(ulong)keyid[1],
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colon_datestr_from_sk( sk ),
colon_strtime (sk->expiredate)
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/* fixme: add LID */ );
}
else
printf("%s %4u%c/%08lX %s ",
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mainkey? "sec":"ssb",
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nbits_from_sk( sk ),
pubkey_letter( sk->pubkey_algo ),
(ulong)keyid_from_sk( sk, NULL ),
datestr_from_sk( sk ) );
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if( mainkey ) {
/* and now list all userids with their signatures */
for( node = node->next; node; node = node->next ) {
if( node->pkt->pkttype == PKT_SIGNATURE ) {
if( !any ) {
if( node->pkt->pkt.signature->sig_class == 0x20 )
puts("[revoked]");
else
putchar('\n');
any = 1;
}
list_node(c, node );
}
else if( node->pkt->pkttype == PKT_USER_ID ) {
if( any ) {
if( opt.with_colons )
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printf("%s:::::::::",
node->pkt->pkt.user_id->attrib_data?"uat":"uid");
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else
printf( "uid%*s", 28, "" );
}
print_userid( node->pkt );
if( opt.with_colons )
putchar(':');
putchar('\n');
if( opt.fingerprint && !any )
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print_fingerprint( NULL, sk, 0 );
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any=1;
}
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else if( node->pkt->pkttype == PKT_SECRET_SUBKEY ) {
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if( !any ) {
putchar('\n');
any = 1;
}
list_node(c, node );
}
}
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}
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if( !any )
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putchar('\n');
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if( !mainkey && opt.fingerprint > 1 )
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print_fingerprint( NULL, sk, 0 );
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}
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else if( node->pkt->pkttype == PKT_SIGNATURE ) {
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PKT_signature *sig = node->pkt->pkt.signature;
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int is_selfsig = 0;
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int rc2=0;
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size_t n;
char *p;
int sigrc = ' ';
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if( !opt.list_sigs )
return;
if( sig->sig_class == 0x20 || sig->sig_class == 0x30 )
fputs("rev", stdout);
else
fputs("sig", stdout);
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if( opt.check_sigs ) {
fflush(stdout);
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switch( (rc2=do_check_sig( c, node, &is_selfsig, NULL )) ) {
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case 0: sigrc = '!'; break;
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case G10ERR_BAD_SIGN: sigrc = '-'; break;
case G10ERR_NO_PUBKEY:
case G10ERR_UNU_PUBKEY: sigrc = '?'; break;
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default: sigrc = '%'; break;
}
}
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else { /* check whether this is a self signature */
u32 keyid[2];
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if( c->list->pkt->pkttype == PKT_PUBLIC_KEY
|| c->list->pkt->pkttype == PKT_SECRET_KEY ) {
if( c->list->pkt->pkttype == PKT_PUBLIC_KEY )
keyid_from_pk( c->list->pkt->pkt.public_key, keyid );
1998-05-29 13:53:54 +02:00
else
1998-06-29 14:30:57 +02:00
keyid_from_sk( c->list->pkt->pkt.secret_key, keyid );
1998-05-29 13:53:54 +02:00
if( keyid[0] == sig->keyid[0] && keyid[1] == sig->keyid[1] )
is_selfsig = 1;
}
}
1998-03-09 22:44:06 +01:00
if( opt.with_colons ) {
putchar(':');
if( sigrc != ' ' )
putchar(sigrc);
printf("::%d:%08lX%08lX:%s:%s:", sig->pubkey_algo,
(ulong)sig->keyid[0], (ulong)sig->keyid[1],
colon_datestr_from_sig(sig),
colon_expirestr_from_sig(sig));
if(sig->trust_depth || sig->trust_value)
printf("%d %d",sig->trust_depth,sig->trust_value);
printf(":");
if(sig->trust_regexp)
print_string(stdout,sig->trust_regexp,
strlen(sig->trust_regexp),':');
printf(":");
1998-03-09 22:44:06 +01:00
}
else
printf("%c %08lX %s ",
sigrc, (ulong)sig->keyid[1], datestr_from_sig(sig));
1997-12-01 11:33:23 +01:00
if( sigrc == '%' )
2002-06-29 15:46:34 +02:00
printf("[%s] ", g10_errstr(rc2) );
1997-12-01 11:33:23 +01:00
else if( sigrc == '?' )
;
1998-05-29 13:53:54 +02:00
else if( is_selfsig ) {
if( opt.with_colons )
putchar(':');
fputs( sig->sig_class == 0x18? "[keybind]":"[selfsig]", stdout);
if( opt.with_colons )
putchar(':');
}
else if( !opt.fast_list_mode ) {
1997-12-01 11:33:23 +01:00
p = get_user_id( sig->keyid, &n );
1998-03-09 22:44:06 +01:00
print_string( stdout, p, n, opt.with_colons );
2002-06-29 15:46:34 +02:00
m_free(p);
1997-12-01 11:33:23 +01:00
}
1998-03-09 22:44:06 +01:00
if( opt.with_colons )
2002-06-29 15:46:34 +02:00
printf(":%02x%c:", sig->sig_class, sig->flags.exportable?'x':'l');
1997-12-01 11:33:23 +01:00
putchar('\n');
}
else
log_error("invalid node with packet of type %d\n", node->pkt->pkttype);
}
1997-11-26 23:02:28 +01:00
int
proc_packets( void *anchor, IOBUF a )
1997-11-26 23:02:28 +01:00
{
int rc;
2002-06-29 15:46:34 +02:00
CTX c = m_alloc_clear( sizeof *c );
c->anchor = anchor;
rc = do_proc_packets( c, a );
2002-06-29 15:46:34 +02:00
m_free( c );
1998-03-09 22:44:06 +01:00
return rc;
}
1998-03-09 22:44:06 +01:00
int
proc_signature_packets( void *anchor, IOBUF a,
STRLIST signedfiles, const char *sigfilename )
1998-03-09 22:44:06 +01:00
{
2002-06-29 15:46:34 +02:00
CTX c = m_alloc_clear( sizeof *c );
1998-01-16 22:15:24 +01:00
int rc;
c->anchor = anchor;
1998-03-09 22:44:06 +01:00
c->sigs_only = 1;
c->signed_data = signedfiles;
1998-07-14 19:10:28 +02:00
c->sigfilename = sigfilename;
1998-03-09 22:44:06 +01:00
rc = do_proc_packets( c, a );
2002-06-29 15:46:34 +02:00
m_free( c );
1998-03-09 22:44:06 +01:00
return rc;
}
int
proc_encryption_packets( void *anchor, IOBUF a )
1998-03-09 22:44:06 +01:00
{
2002-06-29 15:46:34 +02:00
CTX c = m_alloc_clear( sizeof *c );
1998-03-09 22:44:06 +01:00
int rc;
c->anchor = anchor;
1998-03-09 22:44:06 +01:00
c->encrypt_only = 1;
rc = do_proc_packets( c, a );
2002-06-29 15:46:34 +02:00
m_free( c );
1998-03-09 22:44:06 +01:00
return rc;
}
int
do_proc_packets( CTX c, IOBUF a )
{
2002-06-29 15:46:34 +02:00
PACKET *pkt = m_alloc( sizeof *pkt );
1998-03-09 22:44:06 +01:00
int rc=0;
int any_data=0;
1997-12-01 11:33:23 +01:00
int newpkt;
1997-11-26 23:02:28 +01:00
c->iobuf = a;
1997-11-26 23:02:28 +01:00
init_packet(pkt);
2002-06-29 15:46:34 +02:00
while( (rc=parse_packet(a, pkt)) != -1 ) {
any_data = 1;
1997-11-26 23:02:28 +01:00
if( rc ) {
free_packet(pkt);
2002-10-28 14:26:44 +01:00
/* stop processing when an invalid packet has been encountered
2002-06-29 15:46:34 +02:00
* but don't do so when we are doing a --list-packet. */
if( rc == G10ERR_INVALID_PACKET && opt.list_packets != 2 )
break;
1997-11-26 23:02:28 +01:00
continue;
}
1997-12-01 11:33:23 +01:00
newpkt = -1;
1998-01-02 21:40:10 +01:00
if( opt.list_packets ) {
switch( pkt->pkttype ) {
case PKT_PUBKEY_ENC: proc_pubkey_enc( c, pkt ); break;
case PKT_SYMKEY_ENC: proc_symkey_enc( c, pkt ); break;
case PKT_ENCRYPTED:
case PKT_ENCRYPTED_MDC: proc_encrypted( c, pkt ); break;
1998-01-02 21:40:10 +01:00
case PKT_COMPRESSED: proc_compressed( c, pkt ); break;
default: newpkt = 0; break;
}
}
1998-03-09 22:44:06 +01:00
else if( c->sigs_only ) {
switch( pkt->pkttype ) {
1998-06-29 14:30:57 +02:00
case PKT_PUBLIC_KEY:
case PKT_SECRET_KEY:
1998-03-09 22:44:06 +01:00
case PKT_USER_ID:
1998-05-03 17:42:08 +02:00
case PKT_SYMKEY_ENC:
1998-03-09 22:44:06 +01:00
case PKT_PUBKEY_ENC:
case PKT_ENCRYPTED:
case PKT_ENCRYPTED_MDC:
2002-06-29 15:46:34 +02:00
write_status_text( STATUS_UNEXPECTED, "0" );
rc = G10ERR_UNEXPECTED;
1998-03-09 22:44:06 +01:00
goto leave;
case PKT_SIGNATURE: newpkt = add_signature( c, pkt ); break;
case PKT_PLAINTEXT: proc_plaintext( c, pkt ); break;
case PKT_COMPRESSED: proc_compressed( c, pkt ); break;
case PKT_ONEPASS_SIG: newpkt = add_onepass_sig( c, pkt ); break;
2002-06-29 15:46:34 +02:00
case PKT_GPG_CONTROL: newpkt = add_gpg_control(c, pkt); break;
1998-03-09 22:44:06 +01:00
default: newpkt = 0; break;
}
}
else if( c->encrypt_only ) {
switch( pkt->pkttype ) {
1998-06-29 14:30:57 +02:00
case PKT_PUBLIC_KEY:
case PKT_SECRET_KEY:
1998-03-09 22:44:06 +01:00
case PKT_USER_ID:
2002-06-29 15:46:34 +02:00
write_status_text( STATUS_UNEXPECTED, "0" );
rc = G10ERR_UNEXPECTED;
1998-03-09 22:44:06 +01:00
goto leave;
case PKT_SIGNATURE: newpkt = add_signature( c, pkt ); break;
1998-05-03 17:42:08 +02:00
case PKT_SYMKEY_ENC: proc_symkey_enc( c, pkt ); break;
1998-03-09 22:44:06 +01:00
case PKT_PUBKEY_ENC: proc_pubkey_enc( c, pkt ); break;
case PKT_ENCRYPTED:
case PKT_ENCRYPTED_MDC: proc_encrypted( c, pkt ); break;
1998-03-09 22:44:06 +01:00
case PKT_PLAINTEXT: proc_plaintext( c, pkt ); break;
case PKT_COMPRESSED: proc_compressed( c, pkt ); break;
case PKT_ONEPASS_SIG: newpkt = add_onepass_sig( c, pkt ); break;
2002-06-29 15:46:34 +02:00
case PKT_GPG_CONTROL: newpkt = add_gpg_control(c, pkt); break;
1998-03-09 22:44:06 +01:00
default: newpkt = 0; break;
}
}
1998-01-02 21:40:10 +01:00
else {
switch( pkt->pkttype ) {
1998-06-29 14:30:57 +02:00
case PKT_PUBLIC_KEY:
case PKT_SECRET_KEY:
1998-04-02 12:30:03 +02:00
release_list( c );
c->list = new_kbnode( pkt );
newpkt = 1;
break;
1998-06-29 14:30:57 +02:00
case PKT_PUBLIC_SUBKEY:
case PKT_SECRET_SUBKEY:
1998-04-02 12:30:03 +02:00
newpkt = add_subkey( c, pkt );
break;
1998-01-02 21:40:10 +01:00
case PKT_USER_ID: newpkt = add_user_id( c, pkt ); break;
case PKT_SIGNATURE: newpkt = add_signature( c, pkt ); break;
case PKT_PUBKEY_ENC: proc_pubkey_enc( c, pkt ); break;
1998-05-03 17:42:08 +02:00
case PKT_SYMKEY_ENC: proc_symkey_enc( c, pkt ); break;
case PKT_ENCRYPTED:
case PKT_ENCRYPTED_MDC: proc_encrypted( c, pkt ); break;
1998-01-02 21:40:10 +01:00
case PKT_PLAINTEXT: proc_plaintext( c, pkt ); break;
case PKT_COMPRESSED: proc_compressed( c, pkt ); break;
case PKT_ONEPASS_SIG: newpkt = add_onepass_sig( c, pkt ); break;
2002-06-29 15:46:34 +02:00
case PKT_GPG_CONTROL: newpkt = add_gpg_control(c, pkt); break;
case PKT_RING_TRUST: newpkt = add_ring_trust( c, pkt ); break;
1998-01-02 21:40:10 +01:00
default: newpkt = 0; break;
}
1997-12-01 11:33:23 +01:00
}
2002-06-29 15:46:34 +02:00
/* This is a very ugly construct and frankly, I don't remember why
* I used it. Adding the MDC check here is a hack.
* The right solution is to initiate another context for encrypted
* packet and not to reuse the current one ... It works right
* when there is a compression packet inbetween which adds just
* an extra layer.
* Hmmm: Rewrite this whole module here??
*/
if( pkt->pkttype != PKT_SIGNATURE && pkt->pkttype != PKT_MDC )
1997-12-03 11:20:03 +01:00
c->have_data = pkt->pkttype == PKT_PLAINTEXT;
1997-12-01 11:33:23 +01:00
if( newpkt == -1 )
;
else if( newpkt ) {
2002-06-29 15:46:34 +02:00
pkt = m_alloc( sizeof *pkt );
1997-12-01 11:33:23 +01:00
init_packet(pkt);
1997-11-26 23:02:28 +01:00
}
1997-12-01 11:33:23 +01:00
else
free_packet(pkt);
2002-06-29 15:46:34 +02:00
if ( c->pipemode.stop_now ) {
/* we won't get an EOF in pipemode, so we have to
* break the loop here */
rc = -1;
break;
}
1997-11-26 23:02:28 +01:00
}
2002-06-29 15:46:34 +02:00
if( rc == G10ERR_INVALID_PACKET )
write_status_text( STATUS_NODATA, "3" );
if( any_data )
rc = 0;
else if( rc == -1 )
write_status_text( STATUS_NODATA, "2" );
1997-11-26 23:02:28 +01:00
1998-03-09 22:44:06 +01:00
leave:
1998-02-17 21:48:52 +01:00
release_list( c );
2002-06-29 15:46:34 +02:00
m_free(c->dek);
1997-11-26 23:02:28 +01:00
free_packet( pkt );
2002-06-29 15:46:34 +02:00
m_free( pkt );
1997-11-27 12:44:13 +01:00
free_md_filter_context( &c->mfx );
1998-03-09 22:44:06 +01:00
return rc;
1997-11-26 23:02:28 +01:00
}
1997-11-18 15:06:00 +01:00
1998-01-30 17:23:16 +01:00
static int
check_sig_and_print( CTX c, KBNODE node )
{
PKT_signature *sig = node->pkt->pkt.signature;
const char *astr, *tstr;
2002-06-29 15:46:34 +02:00
int rc, is_expkey=0;
1998-01-30 17:23:16 +01:00
if( opt.skip_verify ) {
1998-11-10 13:59:59 +01:00
log_info(_("signature verification suppressed\n"));
1998-04-30 16:06:01 +02:00
return 0;
}
2002-06-29 15:46:34 +02:00
/* It is not in all cases possible to check multiple signatures:
* PGP 2 (which is also allowed by OpenPGP), does use the packet
* sequence: sig+data, OpenPGP does use onepas+data=sig and GnuPG
* sometimes uses (because I did'nt read the specs right) data+sig.
* Because it is possible to create multiple signatures with
* different packet sequence (e.g. data+sig and sig+data) it might
* not be possible to get it right: let's say we have:
* data+sig, sig+data,sig+data and we have not yet encountered the last
* data, we could also see this a one data with 2 signatures and then
* data+sig.
* To protect against this we check that all signatures follow
* without any intermediate packets. Note, that we won't get this
* error when we use onepass packets or cleartext signatures because
* we reset the list every time
*
* FIXME: Now that we have these marker packets, we should create a
* real grammar and check against this.
*/
{
KBNODE n;
int n_sig=0;
for (n=c->list; n; n=n->next ) {
if ( n->pkt->pkttype == PKT_SIGNATURE )
n_sig++;
}
if (n_sig > 1) { /* more than one signature - check sequence */
int tmp, onepass;
for (tmp=onepass=0,n=c->list; n; n=n->next ) {
if (n->pkt->pkttype == PKT_ONEPASS_SIG)
onepass++;
else if (n->pkt->pkttype == PKT_GPG_CONTROL
&& n->pkt->pkt.gpg_control->control
== CTRLPKT_CLEARSIGN_START ) {
onepass++; /* handle the same way as a onepass */
}
else if ( (tmp && n->pkt->pkttype != PKT_SIGNATURE) ) {
log_error(_("can't handle these multiple signatures\n"));
return 0;
}
else if ( n->pkt->pkttype == PKT_SIGNATURE )
tmp = 1;
else if (!tmp && !onepass
&& n->pkt->pkttype == PKT_GPG_CONTROL
&& n->pkt->pkt.gpg_control->control
== CTRLPKT_PLAINTEXT_MARK ) {
/* plaintext before signatures but no one-pass packets*/
log_error(_("can't handle these multiple signatures\n"));
return 0;
}
}
}
}
tstr = asctimestamp(sig->timestamp);
2002-06-29 15:46:34 +02:00
astr = pubkey_algo_to_string( sig->pubkey_algo );
log_info(_("Signature made %.*s using %s key ID %08lX\n"),
(int)strlen(tstr), tstr, astr? astr: "?", (ulong)sig->keyid[1] );
1998-05-29 13:53:54 +02:00
2002-06-29 15:46:34 +02:00
rc = do_check_sig(c, node, NULL, &is_expkey );
if( rc == G10ERR_NO_PUBKEY && opt.keyserver_scheme && opt.keyserver_options.auto_key_retrieve) {
if( keyserver_import_keyid ( sig->keyid )==0 )
rc = do_check_sig(c, node, NULL, &is_expkey );
}
2002-06-29 15:46:34 +02:00
if( !rc || rc == G10ERR_BAD_SIGN ) {
KBNODE un, keyblock;
2002-06-29 15:46:34 +02:00
int count=0, statno;
char keyid_str[50];
if(rc)
statno=STATUS_BADSIG;
else if(sig->flags.expired)
statno=STATUS_EXPSIG;
else if(is_expkey)
statno=STATUS_EXPKEYSIG;
else
statno=STATUS_GOODSIG;
keyblock = get_pubkeyblock( sig->keyid );
2002-06-29 15:46:34 +02:00
sprintf (keyid_str, "%08lX%08lX [uncertain] ",
(ulong)sig->keyid[0], (ulong)sig->keyid[1]);
2002-06-29 15:46:34 +02:00
/* find and print the primary user ID */
for( un=keyblock; un; un = un->next ) {
if( un->pkt->pkttype != PKT_USER_ID )
continue;
2002-06-29 15:46:34 +02:00
if ( !un->pkt->pkt.user_id->created )
continue;
if ( un->pkt->pkt.user_id->is_revoked )
continue;
if ( un->pkt->pkt.user_id->is_expired )
2002-06-29 15:46:34 +02:00
continue;
if ( !un->pkt->pkt.user_id->is_primary )
continue;
/* We want the textual user ID here */
if ( un->pkt->pkt.user_id->attrib_data )
continue;
2002-06-29 15:46:34 +02:00
keyid_str[17] = 0; /* cut off the "[uncertain]" part */
write_status_text_and_buffer (statno, keyid_str,
un->pkt->pkt.user_id->name,
un->pkt->pkt.user_id->len,
-1 );
log_info(rc? _("BAD signature from \"")
: sig->flags.expired ? _("Expired signature from \"")
: _("Good signature from \""));
print_utf8_string( log_stream(), un->pkt->pkt.user_id->name,
un->pkt->pkt.user_id->len );
fputs("\"\n", log_stream() );
2002-06-29 15:46:34 +02:00
count++;
}
if( !count ) { /* just in case that we have no valid textual
userid */
/* Try for an invalid textual userid */
2002-06-29 15:46:34 +02:00
for( un=keyblock; un; un = un->next ) {
if( un->pkt->pkttype == PKT_USER_ID &&
!un->pkt->pkt.user_id->attrib_data )
2002-06-29 15:46:34 +02:00
break;
}
/* Try for any userid at all */
if(!un) {
for( un=keyblock; un; un = un->next ) {
if( un->pkt->pkttype == PKT_USER_ID )
break;
}
}
if (opt.trust_model==TM_ALWAYS || !un)
2002-06-29 15:46:34 +02:00
keyid_str[17] = 0; /* cut off the "[uncertain]" part */
write_status_text_and_buffer (statno, keyid_str,
un? un->pkt->pkt.user_id->name:"[?]",
un? un->pkt->pkt.user_id->len:3,
-1 );
log_info(rc? _("BAD signature from \"")
: sig->flags.expired ? _("Expired signature from \"")
: _("Good signature from \""));
if (opt.trust_model!=TM_ALWAYS && un) {
2002-06-29 15:46:34 +02:00
fputs(_("[uncertain]"), log_stream() );
putc(' ', log_stream() );
}
print_utf8_string( log_stream(),
un? un->pkt->pkt.user_id->name:"[?]",
un? un->pkt->pkt.user_id->len:3 );
fputs("\"\n", log_stream() );
}
/* If we have a good signature and already printed
* the primary user ID, print all the other user IDs */
if ( count && !rc ) {
PKT_public_key *pk=NULL;
2002-06-29 15:46:34 +02:00
for( un=keyblock; un; un = un->next ) {
if(un->pkt->pkttype==PKT_PUBLIC_KEY)
pk=un->pkt->pkt.public_key;
2002-06-29 15:46:34 +02:00
if( un->pkt->pkttype != PKT_USER_ID )
continue;
if ( un->pkt->pkt.user_id->is_revoked )
continue;
if ( un->pkt->pkt.user_id->is_expired )
continue;
/* Only skip textual primaries */
if ( un->pkt->pkt.user_id->is_primary &&
!un->pkt->pkt.user_id->attrib_data )
continue;
2002-06-29 15:46:34 +02:00
if(opt.show_photos && un->pkt->pkt.user_id->attrib_data)
show_photos(un->pkt->pkt.user_id->attribs,
un->pkt->pkt.user_id->numattribs,pk,NULL);
2002-06-29 15:46:34 +02:00
log_info( _(" aka \""));
print_utf8_string( log_stream(), un->pkt->pkt.user_id->name,
un->pkt->pkt.user_id->len );
fputs("\"\n", log_stream() );
}
}
release_kbnode( keyblock );
2002-06-29 15:46:34 +02:00
if( !rc )
print_notation_data( sig );
if( !rc && is_status_enabled() ) {
/* print a status response with the fingerprint */
2002-06-29 15:46:34 +02:00
PKT_public_key *pk = m_alloc_clear( sizeof *pk );
if( !get_pubkey( pk, sig->keyid ) ) {
byte array[MAX_FINGERPRINT_LEN], *p;
2002-06-29 15:46:34 +02:00
char buf[MAX_FINGERPRINT_LEN*2+72];
size_t i, n;
fingerprint_from_pk( pk, array, &n );
p = array;
for(i=0; i < n ; i++, p++ )
sprintf(buf+2*i, "%02X", *p );
2002-06-29 15:46:34 +02:00
sprintf(buf+strlen(buf), " %s %lu %lu",
strtimestamp( sig->timestamp ),
2002-06-29 15:46:34 +02:00
(ulong)sig->timestamp,
(ulong)sig->expiredate );
write_status_text( STATUS_VALIDSIG, buf );
}
free_public_key( pk );
}
1998-07-09 15:37:17 +02:00
if( !rc )
rc = check_signatures_trust( sig );
2002-06-29 15:46:34 +02:00
if(sig->flags.expired)
{
log_info("Signature expired %s\n",asctimestamp(sig->expiredate));
rc=G10ERR_GENERAL; /* need a better error here? */
}
else if(sig->expiredate)
log_info("Signature expires %s\n",asctimestamp(sig->expiredate));
1998-11-10 13:59:59 +01:00
if( rc )
2002-06-29 15:46:34 +02:00
g10_errors_seen = 1;
1998-03-19 16:27:29 +01:00
if( opt.batch && rc )
2002-06-29 15:46:34 +02:00
g10_exit(1);
1998-01-30 17:23:16 +01:00
}
else {
char buf[50];
sprintf(buf, "%08lX%08lX %d %d %02x %lu %d",
(ulong)sig->keyid[0], (ulong)sig->keyid[1],
sig->pubkey_algo, sig->digest_algo,
sig->sig_class, (ulong)sig->timestamp, rc );
write_status_text( STATUS_ERRSIG, buf );
2002-06-29 15:46:34 +02:00
if( rc == G10ERR_NO_PUBKEY ) {
buf[16] = 0;
write_status_text( STATUS_NO_PUBKEY, buf );
}
2002-06-29 15:46:34 +02:00
if( rc != G10ERR_NOT_PROCESSED )
log_error(_("Can't check signature: %s\n"), g10_errstr(rc) );
1998-01-30 17:23:16 +01:00
}
return rc;
}
1997-12-02 20:36:53 +01:00
/****************
* Process the tree which starts at node
1997-12-02 20:36:53 +01:00
*/
static void
1997-12-12 13:03:58 +01:00
proc_tree( CTX c, KBNODE node )
1997-12-02 20:36:53 +01:00
{
1997-12-12 13:03:58 +01:00
KBNODE n1;
1997-12-02 20:36:53 +01:00
int rc;
if( opt.list_packets || opt.list_only )
1998-01-02 21:40:10 +01:00
return;
2002-06-29 15:46:34 +02:00
/* we must skip our special plaintext marker packets here becuase
they may be the root packet. These packets are only used in
addionla checks and skipping them here doesn't matter */
while ( node
&& node->pkt->pkttype == PKT_GPG_CONTROL
&& node->pkt->pkt.gpg_control->control
== CTRLPKT_PLAINTEXT_MARK ) {
node = node->next;
}
if (!node)
return;
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c->local_id = 0;
c->trustletter = ' ';
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if( node->pkt->pkttype == PKT_PUBLIC_KEY
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|| node->pkt->pkttype == PKT_PUBLIC_SUBKEY ) {
merge_keys_and_selfsig( node );
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list_node( c, node );
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}
else if( node->pkt->pkttype == PKT_SECRET_KEY ) {
merge_keys_and_selfsig( node );
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list_node( c, node );
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}
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else if( node->pkt->pkttype == PKT_ONEPASS_SIG ) {
/* check all signatures */
if( !c->have_data ) {
free_md_filter_context( &c->mfx );
/* prepare to create all requested message digests */
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c->mfx.md = md_open(0, 0);
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/* fixme: why looking for the signature packet and not 1passpacket*/
for( n1 = node; (n1 = find_next_kbnode(n1, PKT_SIGNATURE )); ) {
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md_enable( c->mfx.md, n1->pkt->pkt.signature->digest_algo);
}
/* ask for file and hash it */
if( c->sigs_only ) {
rc = hash_datafiles( c->mfx.md, NULL,
c->signed_data, c->sigfilename,
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n1? (n1->pkt->pkt.onepass_sig->sig_class == 0x01):0 );
}
else {
rc = ask_for_detached_datafile( c->mfx.md, c->mfx.md2,
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iobuf_get_real_fname(c->iobuf),
n1? (n1->pkt->pkt.onepass_sig->sig_class == 0x01):0 );
}
if( rc ) {
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log_error("can't hash datafile: %s\n", g10_errstr(rc));
return;
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}
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}
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else if ( c->signed_data ) {
log_error (_("not a detached signature\n") );
return;
}
for( n1 = node; (n1 = find_next_kbnode(n1, PKT_SIGNATURE )); )
check_sig_and_print( c, n1 );
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}
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else if( node->pkt->pkttype == PKT_GPG_CONTROL
&& node->pkt->pkt.gpg_control->control
== CTRLPKT_CLEARSIGN_START ) {
/* clear text signed message */
if( !c->have_data ) {
log_error("cleartext signature without data\n" );
return;
}
else if ( c->signed_data ) {
log_error (_("not a detached signature\n") );
return;
}
for( n1 = node; (n1 = find_next_kbnode(n1, PKT_SIGNATURE )); )
check_sig_and_print( c, n1 );
}
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else if( node->pkt->pkttype == PKT_SIGNATURE ) {
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PKT_signature *sig = node->pkt->pkt.signature;
if( sig->sig_class != 0x00 && sig->sig_class != 0x01 )
log_info(_("standalone signature of class 0x%02x\n"),
sig->sig_class);
else if( !c->have_data ) {
/* detached signature */
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free_md_filter_context( &c->mfx );
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c->mfx.md = md_open(sig->digest_algo, 0);
if( !opt.pgp2_workarounds )
;
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else if( sig->digest_algo == DIGEST_ALGO_MD5
&& is_RSA( sig->pubkey_algo ) ) {
/* enable a workaround for a pgp2 bug */
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c->mfx.md2 = md_open( DIGEST_ALGO_MD5, 0 );
}
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else if( sig->digest_algo == DIGEST_ALGO_SHA1
&& sig->pubkey_algo == PUBKEY_ALGO_DSA
&& sig->sig_class == 0x01 ) {
/* enable the workaround also for pgp5 when the detached
* signature has been created in textmode */
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c->mfx.md2 = md_open( sig->digest_algo, 0 );
}
#if 0 /* workaround disabled */
/* Here we have another hack to work around a pgp 2 bug
* It works by not using the textmode for detached signatures;
* this will let the first signature check (on md) fail
* but the second one (on md2) which adds an extra CR should
* then produce the "correct" hash. This is very, very ugly
* hack but it may help in some cases (and break others)
*/
/* c->mfx.md2? 0 :(sig->sig_class == 0x01) */
#endif
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if ( DBG_HASHING ) {
md_start_debug( c->mfx.md, "verify" );
if ( c->mfx.md2 )
md_start_debug( c->mfx.md2, "verify2" );
}
if( c->sigs_only ) {
rc = hash_datafiles( c->mfx.md, c->mfx.md2,
c->signed_data, c->sigfilename,
(sig->sig_class == 0x01) );
}
else {
rc = ask_for_detached_datafile( c->mfx.md, c->mfx.md2,
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iobuf_get_real_fname(c->iobuf),
(sig->sig_class == 0x01) );
}
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if( rc ) {
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log_error("can't hash datafile: %s\n", g10_errstr(rc));
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return;
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}
}
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else if ( c->signed_data ) {
log_error (_("not a detached signature\n") );
return;
}
else if ( c->pipemode.op == 'B' )
; /* this is a detached signature trough the pipemode handler */
else if (!opt.quiet)
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log_info(_("old style (PGP 2.x) signature\n"));
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for( n1 = node; n1; (n1 = find_next_kbnode(n1, PKT_SIGNATURE )) )
check_sig_and_print( c, n1 );
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}
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else {
dump_kbnode (c->list);
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log_error(_("invalid root packet detected in proc_tree()\n"));
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dump_kbnode (node);
}
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}
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