/* parse-packet.c - read packets * Copyright (C) 1998 Free Software Foundation, Inc. * * This file is part of GNUPG. * * GNUPG is free software; you can redistribute it and/or modify * 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, * 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 #include #include #include #include #include "packet.h" #include "iobuf.h" #include "mpi.h" #include "util.h" #include "cipher.h" #include "memory.h" #include "filter.h" #include "options.h" #include "main.h" #include "i18n.h" static int mpi_print_mode = 0; static int list_mode = 0; static int parse( IOBUF inp, PACKET *pkt, int reqtype, ulong *retpos, int *skip, IOBUF out, int do_skip ); static int copy_packet( IOBUF inp, IOBUF out, int pkttype, unsigned long pktlen ); static void skip_packet( IOBUF inp, int pkttype, unsigned long pktlen ); static void skip_rest( IOBUF inp, unsigned long pktlen ); static void *read_rest( IOBUF inp, ulong *r_pktlen ); static int parse_symkeyenc( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ); static int parse_pubkeyenc( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ); static int parse_signature( IOBUF inp, int pkttype, unsigned long pktlen, PKT_signature *sig ); static int parse_onepass_sig( IOBUF inp, int pkttype, unsigned long pktlen, PKT_onepass_sig *ops ); static int parse_key( IOBUF inp, int pkttype, unsigned long pktlen, byte *hdr, int hdrlen, PACKET *packet ); static int parse_user_id( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ); static int parse_comment( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ); static void parse_trust( IOBUF inp, int pkttype, unsigned long pktlen ); static int parse_plaintext( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet, int new_ctb); static int parse_compressed( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet, int new_ctb ); static int parse_encrypted( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet, int new_ctb); static unsigned short read_16(IOBUF inp) { unsigned short a; a = iobuf_get_noeof(inp) << 8; a |= iobuf_get_noeof(inp); return a; } static unsigned long read_32(IOBUF inp) { unsigned long a; a = iobuf_get_noeof(inp) << 24; a |= iobuf_get_noeof(inp) << 16; a |= iobuf_get_noeof(inp) << 8; a |= iobuf_get_noeof(inp); return a; } int set_packet_list_mode( int mode ) { int old = list_mode; list_mode = mode; mpi_print_mode = DBG_MPI; return old; } static void unknown_pubkey_warning( int algo ) { static byte unknown_pubkey_algos[256]; algo &= 0xff; if( !unknown_pubkey_algos[algo] ) { if( opt.verbose ) log_info(_("can't handle public key algorithm %d\n"), algo ); unknown_pubkey_algos[algo] = 1; } } /**************** * Parse a Packet and return it in packet * Returns: 0 := valid packet in pkt * -1 := no more packets * >0 := error * Note: The function may return an error and a partly valid packet; * caller must free this packet. */ int parse_packet( IOBUF inp, PACKET *pkt ) { int skip, rc; do { rc = parse( inp, pkt, 0, NULL, &skip, NULL, 0 ); } while( skip ); return rc; } /**************** * Like parse packet, but only return packets of the given type. */ int search_packet( IOBUF inp, PACKET *pkt, int pkttype, ulong *retpos ) { int skip, rc; do { rc = parse( inp, pkt, pkttype, retpos, &skip, NULL, 0 ); } while( skip ); return rc; } /**************** * Copy all packets from INP to OUT, thereby removing unused spaces. */ int copy_all_packets( IOBUF inp, IOBUF out ) { PACKET pkt; int skip, rc=0; do { init_packet(&pkt); } while( !(rc = parse( inp, &pkt, 0, NULL, &skip, out, 0 ))); return rc; } /**************** * Copy some packets from INP to OUT, thereby removing unused spaces. * Stop at offset STOPoff (i.e. don't copy packets at this or later offsets) */ int copy_some_packets( IOBUF inp, IOBUF out, ulong stopoff ) { PACKET pkt; int skip, rc=0; do { if( iobuf_tell(inp) >= stopoff ) return 0; init_packet(&pkt); } while( !(rc = parse( inp, &pkt, 0, NULL, &skip, out, 0 )) ); return rc; } /**************** * Skip over N packets */ int skip_some_packets( IOBUF inp, unsigned n ) { int skip, rc=0; PACKET pkt; for( ;n && !rc; n--) { init_packet(&pkt); rc = parse( inp, &pkt, 0, NULL, &skip, NULL, 1 ); } return rc; } /**************** * Parse packet. Set the variable skip points to to 1 if the packet * should be skipped; this is the case if either there is a * requested packet type and the parsed packet doesn't match or the * packet-type is 0, indicating deleted stuff. * if OUT is not NULL, a special copymode is used. */ static int parse( IOBUF inp, PACKET *pkt, int reqtype, ulong *retpos, int *skip, IOBUF out, int do_skip ) { int rc=0, c, ctb, pkttype, lenbytes; unsigned long pktlen; byte hdr[8]; int hdrlen; int new_ctb = 0; *skip = 0; assert( !pkt->pkt.generic ); if( retpos ) *retpos = iobuf_tell(inp); if( (ctb = iobuf_get(inp)) == -1 ) { rc = -1; goto leave; } hdrlen=0; hdr[hdrlen++] = ctb; if( !(ctb & 0x80) ) { log_error("%s: invalid packet (ctb=%02x)\n", iobuf_where(inp), ctb ); rc = G10ERR_INVALID_PACKET; goto leave; } pktlen = 0; new_ctb = !!(ctb & 0x40); if( new_ctb ) { pkttype = ctb & 0x3f; if( (c = iobuf_get(inp)) == -1 ) { log_error("%s: 1st length byte missing\n", iobuf_where(inp) ); rc = G10ERR_INVALID_PACKET; goto leave; } hdr[hdrlen++] = c; if( c < 192 ) pktlen = c; else if( c < 224 ) { pktlen = (c - 192) * 256; if( (c = iobuf_get(inp)) == -1 ) { log_error("%s: 2nd length byte missing\n", iobuf_where(inp) ); rc = G10ERR_INVALID_PACKET; goto leave; } hdr[hdrlen++] = c; pktlen += c + 192; } else if( c == 255 ) { pktlen = (hdr[hdrlen++] = iobuf_get_noeof(inp)) << 24; pktlen |= (hdr[hdrlen++] = iobuf_get_noeof(inp)) << 16; pktlen |= (hdr[hdrlen++] = iobuf_get_noeof(inp)) << 8; if( (c = iobuf_get(inp)) == -1 ) { log_error("%s: 4 byte length invalid\n", iobuf_where(inp) ); rc = G10ERR_INVALID_PACKET; goto leave; } pktlen |= (hdr[hdrlen++] = c ); } else { /* partial body length */ iobuf_set_partial_block_mode(inp, c & 0xff); pktlen = 0;/* to indicate partial length */ } } else { pkttype = (ctb>>2)&0xf; lenbytes = ((ctb&3)==3)? 0 : (1<<(ctb & 3)); if( !lenbytes ) { pktlen = 0; /* don't know the value */ if( pkttype != PKT_COMPRESSED ) iobuf_set_block_mode(inp, 1); } else { for( ; lenbytes; lenbytes-- ) { pktlen <<= 8; pktlen |= hdr[hdrlen++] = iobuf_get_noeof(inp); } } } if( out && pkttype ) { if( iobuf_write( out, hdr, hdrlen ) == -1 ) rc = G10ERR_WRITE_FILE; else rc = copy_packet(inp, out, pkttype, pktlen ); goto leave; } if( do_skip || !pkttype || (reqtype && pkttype != reqtype) ) { skip_packet(inp, pkttype, pktlen); *skip = 1; rc = 0; goto leave; } if( DBG_PACKET ) log_debug("parse_packet(iob=%d): type=%d length=%lu%s\n", iobuf_id(inp), pkttype, pktlen, new_ctb?" (new_ctb)":"" ); pkt->pkttype = pkttype; rc = G10ERR_UNKNOWN_PACKET; /* default error */ switch( pkttype ) { case PKT_PUBLIC_KEY: case PKT_PUBLIC_SUBKEY: pkt->pkt.public_key = m_alloc_clear(sizeof *pkt->pkt.public_key ); rc = parse_key(inp, pkttype, pktlen, hdr, hdrlen, pkt ); break; case PKT_SECRET_KEY: case PKT_SECRET_SUBKEY: pkt->pkt.secret_key = m_alloc_clear(sizeof *pkt->pkt.secret_key ); rc = parse_key(inp, pkttype, pktlen, hdr, hdrlen, pkt ); break; case PKT_SYMKEY_ENC: rc = parse_symkeyenc( inp, pkttype, pktlen, pkt ); break; case PKT_PUBKEY_ENC: rc = parse_pubkeyenc(inp, pkttype, pktlen, pkt ); break; case PKT_SIGNATURE: pkt->pkt.signature = m_alloc_clear(sizeof *pkt->pkt.signature ); rc = parse_signature(inp, pkttype, pktlen, pkt->pkt.signature ); break; case PKT_ONEPASS_SIG: pkt->pkt.onepass_sig = m_alloc_clear(sizeof *pkt->pkt.onepass_sig ); rc = parse_onepass_sig(inp, pkttype, pktlen, pkt->pkt.onepass_sig ); break; case PKT_USER_ID: rc = parse_user_id(inp, pkttype, pktlen, pkt ); break; case PKT_OLD_COMMENT: case PKT_COMMENT: rc = parse_comment(inp, pkttype, pktlen, pkt); break; case PKT_RING_TRUST: parse_trust(inp, pkttype, pktlen); rc = G10ERR_UNKNOWN_PACKET; break; case PKT_PLAINTEXT: rc = parse_plaintext(inp, pkttype, pktlen, pkt, new_ctb ); break; case PKT_COMPRESSED: rc = parse_compressed(inp, pkttype, pktlen, pkt, new_ctb ); break; case PKT_ENCRYPTED: rc = parse_encrypted(inp, pkttype, pktlen, pkt, new_ctb ); break; default: skip_packet(inp, pkttype, pktlen); break; } leave: if( !rc && iobuf_error(inp) ) rc = G10ERR_INV_KEYRING; return rc; } static void dump_hex_line( int c, int *i ) { if( *i && !(*i%8) ) { if( *i && !(*i%24) ) printf("\n%4d:", *i ); else putchar(' '); } if( c == -1 ) printf(" EOF" ); else printf(" %02x", c ); ++*i; } static int copy_packet( IOBUF inp, IOBUF out, int pkttype, unsigned long pktlen ) { int n; char buf[100]; if( iobuf_in_block_mode(inp) ) { while( (n = iobuf_read( inp, buf, 100 )) != -1 ) if( iobuf_write(out, buf, n ) ) return G10ERR_WRITE_FILE; /* write error */ } else if( !pktlen && pkttype == PKT_COMPRESSED ) { /* compressed packet, copy till EOF */ while( (n = iobuf_read( inp, buf, 100 )) != -1 ) if( iobuf_write(out, buf, n ) ) return G10ERR_WRITE_FILE; /* write error */ } else { for( ; pktlen; pktlen -= n ) { n = pktlen > 100 ? 100 : pktlen; n = iobuf_read( inp, buf, n ); if( n == -1 ) return G10ERR_READ_FILE; if( iobuf_write(out, buf, n ) ) return G10ERR_WRITE_FILE; /* write error */ } } return 0; } static void skip_packet( IOBUF inp, int pkttype, unsigned long pktlen ) { if( list_mode ) { printf(":unknown packet: type %2d, length %lu\n", pkttype, pktlen ); if( pkttype ) { int c, i=0 ; printf("dump:"); if( iobuf_in_block_mode(inp) ) { while( (c=iobuf_get(inp)) != -1 ) dump_hex_line(c, &i); } else { for( ; pktlen; pktlen-- ) dump_hex_line(iobuf_get(inp), &i); } putchar('\n'); return; } } skip_rest(inp,pktlen); } static void skip_rest( IOBUF inp, unsigned long pktlen ) { if( iobuf_in_block_mode(inp) ) { while( iobuf_get(inp) != -1 ) ; } else { for( ; pktlen; pktlen-- ) if( iobuf_get(inp) == -1 ) break; } } static void * read_rest( IOBUF inp, ulong *r_pktlen ) { byte *p; int i; size_t pktlen = *r_pktlen; if( iobuf_in_block_mode(inp) ) { log_error("read_rest: can't store stream data\n"); p = NULL; } else { p = m_alloc( pktlen + 2 ); p[0] = pktlen >> 8; p[1] = pktlen & 0xff; for(i=2; pktlen; pktlen--, i++ ) p[i] = iobuf_get(inp); } *r_pktlen = 0; return p; } static void * read_rest2( IOBUF inp, size_t pktlen ) { byte *p; int i; if( iobuf_in_block_mode(inp) ) { log_error("read_rest: can't store stream data\n"); p = NULL; } else { p = m_alloc( pktlen ); for(i=0; pktlen; pktlen--, i++ ) p[i] = iobuf_get(inp); } return p; } static int parse_symkeyenc( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ) { PKT_symkey_enc *k; int i, version, s2kmode, cipher_algo, hash_algo, seskeylen, minlen; if( pktlen < 4 ) { log_error("packet(%d) too short\n", pkttype); goto leave; } version = iobuf_get_noeof(inp); pktlen--; if( version != 4 ) { log_error("packet(%d) with unknown version %d\n", pkttype, version); goto leave; } if( pktlen > 200 ) { /* (we encode the seskeylen in a byte) */ log_error("packet(%d) too large\n", pkttype); goto leave; } cipher_algo = iobuf_get_noeof(inp); pktlen--; s2kmode = iobuf_get_noeof(inp); pktlen--; hash_algo = iobuf_get_noeof(inp); pktlen--; switch( s2kmode ) { case 0: /* simple s2k */ minlen = 0; break; case 1: /* salted s2k */ minlen = 8; break; case 3: /* iterated+salted s2k */ minlen = 9; break; default: log_error("unknown S2K %d\n", s2kmode ); goto leave; } if( minlen > pktlen ) { log_error("packet with S2K %d too short\n", s2kmode ); goto leave; } seskeylen = pktlen - minlen; k = packet->pkt.symkey_enc = m_alloc_clear( sizeof *packet->pkt.symkey_enc + seskeylen - 1 ); k->version = version; k->cipher_algo = cipher_algo; k->s2k.mode = s2kmode; k->s2k.hash_algo = hash_algo; if( s2kmode == 1 || s2kmode == 3 ) { for(i=0; i < 8 && pktlen; i++, pktlen-- ) k->s2k.salt[i] = iobuf_get_noeof(inp); } if( s2kmode == 3 ) { k->s2k.count = iobuf_get(inp); pktlen--; } k->seskeylen = seskeylen; for(i=0; i < seskeylen && pktlen; i++, pktlen-- ) k->seskey[i] = iobuf_get_noeof(inp); assert( !pktlen ); if( list_mode ) { printf(":symkey enc packet: version %d, cipher %d, s2k %d, hash %d\n", version, cipher_algo, s2kmode, hash_algo); if( s2kmode == 1 || s2kmode == 3 ) { printf("\tsalt "); for(i=0; i < 8; i++ ) printf("%02x", k->s2k.salt[i]); if( s2kmode == 3 ) printf(", count %lu\n", (ulong)k->s2k.count ); printf("\n"); } } leave: skip_rest(inp, pktlen); return 0; } static int parse_pubkeyenc( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ) { unsigned n; int i, ndata; PKT_pubkey_enc *k; k = packet->pkt.pubkey_enc = m_alloc(sizeof *packet->pkt.pubkey_enc ); if( pktlen < 12 ) { log_error("packet(%d) too short\n", pkttype); goto leave; } k->version = iobuf_get_noeof(inp); pktlen--; if( k->version != 2 && k->version != 3 ) { log_error("packet(%d) with unknown version %d\n", pkttype, k->version); goto leave; } k->keyid[0] = read_32(inp); pktlen -= 4; k->keyid[1] = read_32(inp); pktlen -= 4; k->pubkey_algo = iobuf_get_noeof(inp); pktlen--; k->throw_keyid = 0; /* only used as flag for build_packet */ if( list_mode ) printf(":pubkey enc packet: version %d, algo %d, keyid %08lX%08lX\n", k->version, k->pubkey_algo, (ulong)k->keyid[0], (ulong)k->keyid[1]); ndata = pubkey_get_nenc(k->pubkey_algo); if( !ndata ) { if( list_mode ) printf("\tunsupported algorithm %d\n", k->pubkey_algo ); unknown_pubkey_warning( k->pubkey_algo ); k->data[0] = NULL; /* no need to store the encrypted data */ } else { for( i=0; i < ndata; i++ ) { n = pktlen; k->data[i] = mpi_read(inp, &n, 0); pktlen -=n; if( list_mode ) { printf("\tdata: "); mpi_print(stdout, k->data[i], mpi_print_mode ); putchar('\n'); } } } leave: skip_rest(inp, pktlen); return 0; } static void dump_sig_subpkt( int hashed, int type, int critical, const char * buffer, size_t buflen, size_t length ) { const char *p=NULL; printf("\t%s%ssubpkt %d len %u (", /*)*/ critical ? "critical ":"", hashed ? "hashed ":"", type, (unsigned)length ); buffer++; length--; if( length > buflen ) { printf("too short: buffer is only %u)\n", (unsigned)buflen ); return; } switch( type ) { case SIGSUBPKT_SIG_CREATED: if( length >= 4 ) printf("sig created %s", strtimestamp( buffer_to_u32(buffer) ) ); break; case SIGSUBPKT_SIG_EXPIRE: if( length >= 4 ) printf("sig expires %s", strtimestamp( buffer_to_u32(buffer) ) ); break; case SIGSUBPKT_EXPORTABLE: if( length ) printf("%sexportable", *buffer? "":"not "); break; case SIGSUBPKT_TRUST: p = "trust signature"; break; case SIGSUBPKT_REGEXP: p = "regular expression"; break; case SIGSUBPKT_REVOCABLE: p = "revocable"; break; case SIGSUBPKT_KEY_EXPIRE: if( length >= 4 ) printf("key expires %s", strtimestamp( buffer_to_u32(buffer) ) ); break; case SIGSUBPKT_ARR: p = "additional recipient request"; break; case SIGSUBPKT_PREF_SYM: p = "preferred symmetric algorithms"; break; case SIGSUBPKT_REV_KEY: p = "revocation key"; break; case SIGSUBPKT_ISSUER: if( length >= 8 ) printf("issuer key ID %08lX%08lX", (ulong)buffer_to_u32(buffer), (ulong)buffer_to_u32(buffer+4) ); break; case SIGSUBPKT_NOTATION: p = "notation data"; break; case SIGSUBPKT_PREF_HASH: p = "preferred hash algorithms"; break; case SIGSUBPKT_PREF_COMPR: p = "preferred compression algorithms"; break; case SIGSUBPKT_KS_FLAGS: p = "key server preferences"; break; case SIGSUBPKT_PREF_KS: p = "preferred key server"; break; case SIGSUBPKT_PRIMARY_UID: p = "primary user id"; break; case SIGSUBPKT_POLICY: p = "policy URL"; break; case SIGSUBPKT_KEY_FLAGS: p = "key flags"; break; case SIGSUBPKT_SIGNERS_UID: p = "signer's user id"; break; case SIGSUBPKT_PRIV_ADD_SIG: p = "signs additional user id"; break; default: p = "?"; break; } printf("%s)\n", p? p: ""); } const byte * parse_sig_subpkt( const byte *buffer, sigsubpkttype_t reqtype, size_t *ret_n ) { int buflen; int type; int critical; size_t n; if( !buffer ) return NULL; buflen = (*buffer << 8) | buffer[1]; buffer += 2; for(;;) { if( !buflen ) return NULL; /* end of packets; not found */ n = *buffer++; buflen--; if( n == 255 ) { if( buflen < 4 ) goto too_short; n = (buffer[0] << 24) | (buffer[1] << 16) | (buffer[2] << 8) | buffer[3]; buffer += 4; buflen -= 4; } else if( n >= 192 ) { if( buflen < 2 ) goto too_short; n = (( n - 192 ) << 8) + *buffer + 192; buflen--; } if( buflen < n ) goto too_short; type = *buffer; if( type & 0x80 ) { type &= 0x7f; critical = 1; } else critical = 0; if( reqtype < 0 ) /* list packets */ dump_sig_subpkt( reqtype == SIGSUBPKT_LIST_HASHED, type, critical, buffer, buflen, n ); else if( type == reqtype ) break; /* found */ buffer += n; buflen -=n; } buffer++; n--; if( n > buflen ) goto too_short; if( ret_n ) *ret_n = n; switch( type ) { case SIGSUBPKT_SIG_CREATED: case SIGSUBPKT_SIG_EXPIRE: case SIGSUBPKT_KEY_EXPIRE: if( n < 4 ) break; return buffer; case SIGSUBPKT_EXPORTABLE: if( !n ) break; return buffer; case SIGSUBPKT_ISSUER:/* issuer key ID */ if( n < 8 ) break; return buffer; case SIGSUBPKT_PREF_SYM: case SIGSUBPKT_PREF_HASH: case SIGSUBPKT_PREF_COMPR: return buffer; case SIGSUBPKT_PRIV_ADD_SIG: /* because we use private data, we check the GNUPG marker */ if( n < 24 ) break; if( buffer[0] != 'G' || buffer[1] != 'P' || buffer[2] != 'G' ) return NULL; return buffer+3; default: BUG(); /* not yet needed */ } log_error("subpacket of type %d too short\n", type); return NULL; too_short: log_error("buffer shorter than subpacket\n"); return NULL; } const byte * parse_sig_subpkt2( PKT_signature *sig, sigsubpkttype_t reqtype, size_t *ret_n ) { const byte *p; p = parse_sig_subpkt( sig->hashed_data, reqtype, ret_n ); if( !p ) p = parse_sig_subpkt( sig->unhashed_data, reqtype, ret_n ); return p; } static int parse_signature( IOBUF inp, int pkttype, unsigned long pktlen, PKT_signature *sig ) { int md5_len=0; unsigned n; int is_v4=0; int rc=0; int i, ndata; if( pktlen < 16 ) { log_error("packet(%d) too short\n", pkttype); goto leave; } sig->version = iobuf_get_noeof(inp); pktlen--; if( sig->version == 4 ) is_v4=1; else if( sig->version != 2 && sig->version != 3 ) { log_error("packet(%d) with unknown version %d\n", pkttype, sig->version); goto leave; } if( !is_v4 ) { md5_len = iobuf_get_noeof(inp); pktlen--; } sig->sig_class = iobuf_get_noeof(inp); pktlen--; if( !is_v4 ) { sig->timestamp = read_32(inp); pktlen -= 4; sig->keyid[0] = read_32(inp); pktlen -= 4; sig->keyid[1] = read_32(inp); pktlen -= 4; } sig->pubkey_algo = iobuf_get_noeof(inp); pktlen--; sig->digest_algo = iobuf_get_noeof(inp); pktlen--; if( is_v4 ) { /* read subpackets */ n = read_16(inp); pktlen -= 2; /* length of hashed data */ if( n > 10000 ) { log_error("signature packet: hashed data too long\n"); rc = G10ERR_INVALID_PACKET; goto leave; } if( n ) { sig->hashed_data = m_alloc( n + 2 ); sig->hashed_data[0] = n << 8; sig->hashed_data[1] = n; if( iobuf_read(inp, sig->hashed_data+2, n ) != n ) { log_error("premature eof while reading hashed signature data\n"); rc = -1; goto leave; } pktlen -= n; } n = read_16(inp); pktlen -= 2; /* length of unhashed data */ if( n > 10000 ) { log_error("signature packet: unhashed data too long\n"); rc = G10ERR_INVALID_PACKET; goto leave; } if( n ) { sig->unhashed_data = m_alloc( n + 2 ); sig->unhashed_data[0] = n << 8; sig->unhashed_data[1] = n; if( iobuf_read(inp, sig->unhashed_data+2, n ) != n ) { log_error("premature eof while reading unhashed signature data\n"); rc = -1; goto leave; } pktlen -= n; } } if( pktlen < 5 ) { /* sanity check */ log_error("packet(%d) too short\n", pkttype); rc = G10ERR_INVALID_PACKET; goto leave; } sig->digest_start[0] = iobuf_get_noeof(inp); pktlen--; sig->digest_start[1] = iobuf_get_noeof(inp); pktlen--; if( is_v4 ) { /*extract required information */ const byte *p; /* FIXME: set sig->flags.unknown_critical is there is a * critical bit set for packets which are not understood * It does only make sense for hashed data. */ p = parse_sig_subpkt( sig->hashed_data, SIGSUBPKT_SIG_CREATED, NULL ); if( !p ) log_error("signature packet without timestamp\n"); else sig->timestamp = buffer_to_u32(p); p = parse_sig_subpkt2( sig, SIGSUBPKT_ISSUER, NULL ); if( !p ) log_error("signature packet without keyid\n"); else { sig->keyid[0] = buffer_to_u32(p); sig->keyid[1] = buffer_to_u32(p+4); } } if( list_mode ) { printf(":signature packet: algo %d, keyid %08lX%08lX\n" "\tversion %d, created %lu, md5len %d, sigclass %02x\n" "\tdigest algo %d, begin of digest %02x %02x\n", sig->pubkey_algo, (ulong)sig->keyid[0], (ulong)sig->keyid[1], sig->version, (ulong)sig->timestamp, md5_len, sig->sig_class, sig->digest_algo, sig->digest_start[0], sig->digest_start[1] ); if( is_v4 ) { parse_sig_subpkt( sig->hashed_data, SIGSUBPKT_LIST_HASHED, NULL ); parse_sig_subpkt( sig->unhashed_data,SIGSUBPKT_LIST_UNHASHED, NULL); } } ndata = pubkey_get_nsig(sig->pubkey_algo); if( !ndata ) { if( list_mode ) printf("\tunknown algorithm %d\n", sig->pubkey_algo ); unknown_pubkey_warning( sig->pubkey_algo ); /* we store the plain material in data[0], so that we are able * to write it back with build_packet() */ sig->data[0] = read_rest(inp, &pktlen ); } else { for( i=0; i < ndata; i++ ) { n = pktlen; sig->data[i] = mpi_read(inp, &n, 0 ); pktlen -=n; if( list_mode ) { printf("\tdata: "); mpi_print(stdout, sig->data[i], mpi_print_mode ); putchar('\n'); } } } leave: skip_rest(inp, pktlen); return rc; } static int parse_onepass_sig( IOBUF inp, int pkttype, unsigned long pktlen, PKT_onepass_sig *ops ) { int version; if( pktlen < 13 ) { log_error("packet(%d) too short\n", pkttype); goto leave; } version = iobuf_get_noeof(inp); pktlen--; if( version != 3 ) { log_error("onepass_sig with unknown version %d\n", version); goto leave; } ops->sig_class = iobuf_get_noeof(inp); pktlen--; ops->digest_algo = iobuf_get_noeof(inp); pktlen--; ops->pubkey_algo = iobuf_get_noeof(inp); pktlen--; ops->keyid[0] = read_32(inp); pktlen -= 4; ops->keyid[1] = read_32(inp); pktlen -= 4; ops->last = iobuf_get_noeof(inp); pktlen--; if( list_mode ) printf(":onepass_sig packet: keyid %08lX%08lX\n" "\tversion %d, sigclass %02x, digest %d, pubkey %d, last=%d\n", (ulong)ops->keyid[0], (ulong)ops->keyid[1], version, ops->sig_class, ops->digest_algo, ops->pubkey_algo, ops->last ); leave: skip_rest(inp, pktlen); return 0; } static int parse_key( IOBUF inp, int pkttype, unsigned long pktlen, byte *hdr, int hdrlen, PACKET *pkt ) { int i, version, algorithm; unsigned n; unsigned long timestamp, expiredate; int npkey, nskey; int is_v4=0; int rc=0; version = iobuf_get_noeof(inp); pktlen--; if( pkttype == PKT_PUBLIC_SUBKEY && version == '#' ) { /* early versions of G10 use old PGP comments packets; * luckily all those comments are started by a hash */ if( list_mode ) { printf(":rfc1991 comment packet: \"" ); for( ; pktlen; pktlen-- ) { int c; c = iobuf_get_noeof(inp); if( c >= ' ' && c <= 'z' ) putchar(c); else printf("\\x%02x", c ); } printf("\"\n"); } skip_rest(inp, pktlen); return 0; } else if( version == 4 ) is_v4=1; else if( version != 2 && version != 3 ) { log_error("packet(%d) with unknown version %d\n", pkttype, version); goto leave; } if( pktlen < 11 ) { log_error("packet(%d) too short\n", pkttype); goto leave; } timestamp = read_32(inp); pktlen -= 4; if( is_v4 ) expiredate = 0; /* have to get it from the selfsignature */ else { unsigned short ndays; ndays = read_16(inp); pktlen -= 2; if( ndays ) expiredate = timestamp + ndays * 86400L; else expiredate = 0; } algorithm = iobuf_get_noeof(inp); pktlen--; if( list_mode ) printf(":%s key packet:\n" "\tversion %d, algo %d, created %lu, expires %lu\n", pkttype == PKT_PUBLIC_KEY? "public" : pkttype == PKT_SECRET_KEY? "secret" : pkttype == PKT_PUBLIC_SUBKEY? "public sub" : pkttype == PKT_SECRET_SUBKEY? "secret sub" : "??", version, algorithm, timestamp, expiredate ); if( pkttype == PKT_SECRET_KEY || pkttype == PKT_SECRET_SUBKEY ) { PKT_secret_key *sk = pkt->pkt.secret_key; sk->timestamp = timestamp; sk->expiredate = expiredate; sk->hdrbytes = hdrlen; sk->version = version; sk->pubkey_algo = algorithm; sk->pubkey_usage = 0; /* not yet used */ } else { PKT_public_key *pk = pkt->pkt.public_key; pk->timestamp = timestamp; pk->expiredate = expiredate; pk->hdrbytes = hdrlen; pk->version = version; pk->pubkey_algo = algorithm; pk->pubkey_usage = 0; /* not yet used */ pk->keyid[0] = 0; pk->keyid[1] = 0; } nskey = pubkey_get_nskey( algorithm ); npkey = pubkey_get_npkey( algorithm ); if( !npkey ) { if( list_mode ) printf("\tunknown algorithm %d\n", algorithm ); unknown_pubkey_warning( algorithm ); } if( pkttype == PKT_SECRET_KEY || pkttype == PKT_SECRET_SUBKEY ) { PKT_secret_key *sk = pkt->pkt.secret_key; byte temp[8]; if( !npkey ) { sk->skey[0] = read_rest( inp, &pktlen ); goto leave; } for(i=0; i < npkey; i++ ) { n = pktlen; sk->skey[i] = mpi_read(inp, &n, 0 ); pktlen -=n; if( list_mode ) { printf( "\tskey[%d]: ", i); mpi_print(stdout, sk->skey[i], mpi_print_mode ); putchar('\n'); } } sk->protect.algo = iobuf_get_noeof(inp); pktlen--; if( sk->protect.algo ) { sk->is_protected = 1; sk->protect.s2k.count = 0; if( sk->protect.algo == 255 ) { if( pktlen < 3 ) { rc = G10ERR_INVALID_PACKET; goto leave; } sk->protect.algo = iobuf_get_noeof(inp); pktlen--; sk->protect.s2k.mode = iobuf_get_noeof(inp); pktlen--; sk->protect.s2k.hash_algo = iobuf_get_noeof(inp); pktlen--; switch( sk->protect.s2k.mode ) { case 1: case 3: for(i=0; i < 8 && pktlen; i++, pktlen-- ) temp[i] = iobuf_get_noeof(inp); memcpy(sk->protect.s2k.salt, temp, 8 ); break; } switch( sk->protect.s2k.mode ) { case 0: if( list_mode ) printf( "\tsimple S2K" ); break; case 1: if( list_mode ) printf( "\tsalted S2K" ); break; case 3: if( list_mode ) printf( "\titer+salt S2K" ); break; default: if( list_mode ) printf( "\tunknown S2K %d\n", sk->protect.s2k.mode ); rc = G10ERR_INVALID_PACKET; goto leave; } if( list_mode ) { printf(", algo: %d, hash: %d", sk->protect.algo, sk->protect.s2k.hash_algo ); if( sk->protect.s2k.mode == 1 || sk->protect.s2k.mode == 3 ) { printf(", salt: "); for(i=0; i < 8; i++ ) printf("%02x", sk->protect.s2k.salt[i]); } putchar('\n'); } if( sk->protect.s2k.mode == 3 ) { if( pktlen < 1 ) { rc = G10ERR_INVALID_PACKET; goto leave; } sk->protect.s2k.count = iobuf_get(inp); pktlen--; if( list_mode ) printf("\tprotect count: %lu\n", (ulong)sk->protect.s2k.count); } } else { /* old version; no S2K, so we set mode to 0, hash MD5 */ sk->protect.s2k.mode = 0; /* We need a kludge to cope with old GNUPG versions */ sk->protect.s2k.hash_algo = ( sk->protect.algo == CIPHER_ALGO_BLOWFISH160 && algorithm == PUBKEY_ALGO_ELGAMAL_E ) ? DIGEST_ALGO_RMD160 : DIGEST_ALGO_MD5; if( list_mode ) printf( "\tprotect algo: %d (hash algo: %d)\n", sk->protect.algo, sk->protect.s2k.hash_algo ); } if( pktlen < 8 ) { rc = G10ERR_INVALID_PACKET; goto leave; } /* fixme: Add support for other blocksizes */ for(i=0; i < 8 && pktlen; i++, pktlen-- ) temp[i] = iobuf_get_noeof(inp); if( list_mode ) { printf( "\tprotect IV: "); for(i=0; i < 8; i++ ) printf(" %02x", temp[i] ); putchar('\n'); } memcpy(sk->protect.iv, temp, 8 ); } else sk->is_protected = 0; /* It does not make sense to read it into secure memory. * If the user is so careless, not to protect his secret key, * we can assume, that he operates an open system :=(. * So we put the key into secure memory when we unprotect it. */ if( is_v4 && sk->is_protected ){ /* ugly; the length is encrypted too, so we read all * stuff up to the end of the packet into the first * skey element */ sk->skey[npkey] = mpi_set_opaque(NULL, read_rest2(inp, pktlen), pktlen ); pktlen = 0; if( list_mode ) { printf("\tencrypted stuff follows\n"); } } else { /* v3 method: the mpi length is not encrypted */ for(i=npkey; i < nskey; i++ ) { n = pktlen; sk->skey[i] = mpi_read(inp, &n, 0 ); pktlen -=n; if( sk->is_protected ) mpi_set_protect_flag(sk->skey[i]); if( list_mode ) { printf( "\tskey[%d]: ", i); if( sk->is_protected ) printf( "[encrypted]\n"); else { mpi_print(stdout, sk->skey[i], mpi_print_mode ); putchar('\n'); } } } sk->csum = read_16(inp); pktlen -= 2; if( list_mode ) { printf("\tchecksum: %04hx\n", sk->csum); } } } else { PKT_public_key *pk = pkt->pkt.public_key; if( !npkey ) { pk->pkey[0] = read_rest( inp, &pktlen ); goto leave; } for(i=0; i < npkey; i++ ) { n = pktlen; pk->pkey[i] = mpi_read(inp, &n, 0 ); pktlen -=n; if( list_mode ) { printf( "\tpkey[%d]: ", i); mpi_print(stdout, pk->pkey[i], mpi_print_mode ); putchar('\n'); } } } leave: skip_rest(inp, pktlen); return rc; } static int parse_user_id( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ) { byte *p; packet->pkt.user_id = m_alloc(sizeof *packet->pkt.user_id + pktlen - 1); packet->pkt.user_id->len = pktlen; p = packet->pkt.user_id->name; for( ; pktlen; pktlen--, p++ ) *p = iobuf_get_noeof(inp); if( list_mode ) { int n = packet->pkt.user_id->len; printf(":user id packet: \""); for(p=packet->pkt.user_id->name; n; p++, n-- ) { if( *p >= ' ' && *p <= 'z' ) putchar(*p); else printf("\\x%02x", *p ); } printf("\"\n"); } return 0; } static int parse_comment( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *packet ) { byte *p; packet->pkt.comment = m_alloc(sizeof *packet->pkt.comment + pktlen - 1); packet->pkt.comment->len = pktlen; p = packet->pkt.comment->data; for( ; pktlen; pktlen--, p++ ) *p = iobuf_get_noeof(inp); if( list_mode ) { int n = packet->pkt.comment->len; printf(":%scomment packet: \"", pkttype == PKT_OLD_COMMENT? "OpenPGP draft " : "" ); for(p=packet->pkt.comment->data; n; p++, n-- ) { if( *p >= ' ' && *p <= 'z' ) putchar(*p); else printf("\\x%02x", *p ); } printf("\"\n"); } return 0; } static void parse_trust( IOBUF inp, int pkttype, unsigned long pktlen ) { int c; c = iobuf_get_noeof(inp); if( list_mode ) printf(":trust packet: flag=%02x\n", c ); } static int parse_plaintext( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *pkt, int new_ctb ) { int mode, namelen; PKT_plaintext *pt; byte *p; int c, i; if( pktlen && pktlen < 6 ) { log_error("packet(%d) too short (%lu)\n", pkttype, (ulong)pktlen); goto leave; } mode = iobuf_get_noeof(inp); if( pktlen ) pktlen--; namelen = iobuf_get_noeof(inp); if( pktlen ) pktlen--; pt = pkt->pkt.plaintext = m_alloc(sizeof *pkt->pkt.plaintext + namelen -1); pt->new_ctb = new_ctb; pt->mode = mode; pt->namelen = namelen; if( pktlen ) { for( i=0; pktlen > 4 && i < namelen; pktlen--, i++ ) pt->name[i] = iobuf_get_noeof(inp); } else { for( i=0; i < namelen; i++ ) if( (c=iobuf_get(inp)) == -1 ) break; else pt->name[i] = c; } pt->timestamp = read_32(inp); if( pktlen) pktlen -= 4; pt->len = pktlen; pt->buf = inp; pktlen = 0; if( list_mode ) { printf(":literal data packet:\n" "\tmode %c, created %lu, name=\"", mode >= ' ' && mode <'z'? mode : '?', (ulong)pt->timestamp ); for(p=pt->name,i=0; i < namelen; p++, i++ ) { if( *p >= ' ' && *p <= 'z' ) putchar(*p); else printf("\\x%02x", *p ); } printf("\",\n\traw data: %lu bytes\n", (ulong)pt->len ); } leave: return 0; } static int parse_compressed( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *pkt, int new_ctb ) { PKT_compressed *zd; /* pktlen is here 0, but data follows * (this should be the last object in a file or * the compress algorithm should know the length) */ zd = pkt->pkt.compressed = m_alloc(sizeof *pkt->pkt.compressed ); zd->len = 0; /* not yet used */ zd->algorithm = iobuf_get_noeof(inp); zd->new_ctb = new_ctb; zd->buf = inp; if( list_mode ) printf(":compressed packet: algo=%d\n", zd->algorithm); return 0; } static int parse_encrypted( IOBUF inp, int pkttype, unsigned long pktlen, PACKET *pkt, int new_ctb ) { PKT_encrypted *ed; ed = pkt->pkt.encrypted = m_alloc(sizeof *pkt->pkt.encrypted ); ed->len = pktlen; ed->buf = NULL; ed->new_ctb = new_ctb; if( pktlen && pktlen < 10 ) { log_error("packet(%d) too short\n", pkttype); skip_rest(inp, pktlen); goto leave; } if( list_mode ) { if( pktlen ) printf(":encrypted data packet:\n\tlength: %lu\n", pktlen-10); else printf(":encrypted data packet:\n\tlength: unknown\n"); } ed->buf = inp; pktlen = 0; leave: return 0; }