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bdb9c2b314
* kbx/keybox-openpgp.c (parse_key): Use algo constants and add experimental support for EdDSA.
519 lines
15 KiB
C
519 lines
15 KiB
C
/* keybox-openpgp.c - OpenPGP key parsing
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* Copyright (C) 2001, 2003, 2011 Free Software Foundation, Inc.
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*
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* This file is part of GnuPG.
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*
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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
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* 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
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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/* This is a simple OpenPGP parser suitable for all OpenPGP key
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material. It just provides the functionality required to build and
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parse an KBX OpenPGP key blob. Thus it is not a complete parser.
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However it is self-contained and optimized for fast in-memory
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parsing. Note that we don't support old ElGamal v3 keys
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anymore. */
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#include <config.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <errno.h>
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#include <assert.h>
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#include "keybox-defs.h"
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#include <gcrypt.h>
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#include "../common/openpgpdefs.h"
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/* Assume a valid OpenPGP packet at the address pointed to by BUFBTR
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which has a maximum length as stored at BUFLEN. Return the header
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information of that packet and advance the pointer stored at BUFPTR
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to the next packet; also adjust the length stored at BUFLEN to
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match the remaining bytes. If there are no more packets, store NULL
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at BUFPTR. Return an non-zero error code on failure or the
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following data on success:
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R_DATAPKT = Pointer to the begin of the packet data.
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R_DATALEN = Length of this data. This has already been checked to fit
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into the buffer.
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R_PKTTYPE = The packet type.
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R_NTOTAL = The total number of bytes of this packet
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Note that these values are only updated on success.
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*/
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static gpg_error_t
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next_packet (unsigned char const **bufptr, size_t *buflen,
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unsigned char const **r_data, size_t *r_datalen, int *r_pkttype,
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size_t *r_ntotal)
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{
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const unsigned char *buf = *bufptr;
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size_t len = *buflen;
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int c, ctb, pkttype;
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unsigned long pktlen;
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if (!len)
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return gpg_error (GPG_ERR_NO_DATA);
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ctb = *buf++; len--;
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if ( !(ctb & 0x80) )
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return gpg_error (GPG_ERR_INV_PACKET); /* Invalid CTB. */
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pktlen = 0;
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if ((ctb & 0x40)) /* New style (OpenPGP) CTB. */
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{
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pkttype = (ctb & 0x3f);
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if (!len)
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return gpg_error (GPG_ERR_INV_PACKET); /* No 1st length byte. */
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c = *buf++; len--;
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if (pkttype == PKT_COMPRESSED)
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return gpg_error (GPG_ERR_UNEXPECTED); /* ... packet in a keyblock. */
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if ( c < 192 )
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pktlen = c;
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else if ( c < 224 )
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{
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pktlen = (c - 192) * 256;
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if (!len)
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return gpg_error (GPG_ERR_INV_PACKET); /* No 2nd length byte. */
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c = *buf++; len--;
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pktlen += c + 192;
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}
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else if (c == 255)
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{
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if (len <4 )
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return gpg_error (GPG_ERR_INV_PACKET); /* No length bytes. */
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pktlen = (*buf++) << 24;
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pktlen |= (*buf++) << 16;
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pktlen |= (*buf++) << 8;
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pktlen |= (*buf++);
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len -= 4;
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}
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else /* Partial length encoding is not allowed for key packets. */
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return gpg_error (GPG_ERR_UNEXPECTED);
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}
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else /* Old style CTB. */
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{
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int lenbytes;
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pktlen = 0;
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pkttype = (ctb>>2)&0xf;
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lenbytes = ((ctb&3)==3)? 0 : (1<<(ctb & 3));
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if (!lenbytes) /* Not allowed in key packets. */
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return gpg_error (GPG_ERR_UNEXPECTED);
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if (len < lenbytes)
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return gpg_error (GPG_ERR_INV_PACKET); /* Not enough length bytes. */
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for (; lenbytes; lenbytes--)
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{
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pktlen <<= 8;
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pktlen |= *buf++; len--;
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}
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}
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/* Do some basic sanity check. */
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switch (pkttype)
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{
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case PKT_SIGNATURE:
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case PKT_SECRET_KEY:
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case PKT_PUBLIC_KEY:
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case PKT_SECRET_SUBKEY:
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case PKT_MARKER:
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case PKT_RING_TRUST:
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case PKT_USER_ID:
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case PKT_PUBLIC_SUBKEY:
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case PKT_OLD_COMMENT:
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case PKT_ATTRIBUTE:
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case PKT_COMMENT:
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case PKT_GPG_CONTROL:
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break; /* Okay these are allowed packets. */
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default:
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return gpg_error (GPG_ERR_UNEXPECTED);
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}
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if (pktlen == (unsigned long)(-1))
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return gpg_error (GPG_ERR_INV_PACKET);
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if (pktlen > len)
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return gpg_error (GPG_ERR_INV_PACKET); /* Packet length header too long. */
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*r_data = buf;
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*r_datalen = pktlen;
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*r_pkttype = pkttype;
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*r_ntotal = (buf - *bufptr) + pktlen;
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*bufptr = buf + pktlen;
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*buflen = len - pktlen;
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if (!*buflen)
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*bufptr = NULL;
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return 0;
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}
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/* Parse a key packet and store the information in KI. */
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static gpg_error_t
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parse_key (const unsigned char *data, size_t datalen,
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struct _keybox_openpgp_key_info *ki)
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{
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gpg_error_t err;
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const unsigned char *data_start = data;
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int i, version, algorithm;
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size_t n;
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int npkey;
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unsigned char hashbuffer[768];
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const unsigned char *mpi_n = NULL;
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size_t mpi_n_len = 0, mpi_e_len = 0;
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gcry_md_hd_t md;
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int is_ecc = 0;
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if (datalen < 5)
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return gpg_error (GPG_ERR_INV_PACKET);
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version = *data++; datalen--;
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if (version < 2 || version > 4 )
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return gpg_error (GPG_ERR_INV_PACKET); /* Invalid version. */
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/*timestamp = ((data[0]<<24)|(data[1]<<16)|(data[2]<<8)|(data[3]));*/
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data +=4; datalen -=4;
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if (version < 4)
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{
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if (datalen < 2)
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return gpg_error (GPG_ERR_INV_PACKET);
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data +=2; datalen -= 2;
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}
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if (!datalen)
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return gpg_error (GPG_ERR_INV_PACKET);
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algorithm = *data++; datalen--;
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switch (algorithm)
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{
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case PUBKEY_ALGO_RSA:
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case PUBKEY_ALGO_RSA_E:
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case PUBKEY_ALGO_RSA_S:
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npkey = 2;
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break;
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case PUBKEY_ALGO_ELGAMAL_E:
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case PUBKEY_ALGO_ELGAMAL:
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npkey = 3;
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break;
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case PUBKEY_ALGO_DSA:
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npkey = 4;
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break;
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case PUBKEY_ALGO_ECDH:
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npkey = 3;
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is_ecc = 1;
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break;
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case PUBKEY_ALGO_ECDSA:
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case PUBKEY_ALGO_EDDSA:
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npkey = 2;
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is_ecc = 1;
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break;
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default: /* Unknown algorithm. */
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return gpg_error (GPG_ERR_UNKNOWN_ALGORITHM);
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}
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ki->algo = algorithm;
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for (i=0; i < npkey; i++ )
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{
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unsigned int nbits, nbytes;
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if (datalen < 2)
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return gpg_error (GPG_ERR_INV_PACKET);
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if (is_ecc && (i == 0 || i == 2))
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{
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nbytes = data[0];
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if (nbytes < 2 || nbytes > 254)
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return gpg_error (GPG_ERR_INV_PACKET);
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nbytes++; /* The size byte itself. */
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if (datalen < nbytes)
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return gpg_error (GPG_ERR_INV_PACKET);
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}
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else
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{
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nbits = ((data[0]<<8)|(data[1]));
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data += 2;
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datalen -= 2;
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nbytes = (nbits+7) / 8;
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if (datalen < nbytes)
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return gpg_error (GPG_ERR_INV_PACKET);
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/* For use by v3 fingerprint calculation we need to know the RSA
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modulus and exponent. */
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if (i==0)
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{
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mpi_n = data;
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mpi_n_len = nbytes;
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}
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else if (i==1)
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mpi_e_len = nbytes;
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}
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data += nbytes; datalen -= nbytes;
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}
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n = data - data_start;
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if (version < 4)
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{
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/* We do not support any other algorithm than RSA in v3
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packets. */
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if (algorithm < 1 || algorithm > 3)
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return gpg_error (GPG_ERR_UNSUPPORTED_ALGORITHM);
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err = gcry_md_open (&md, GCRY_MD_MD5, 0);
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if (err)
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return err; /* Oops */
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gcry_md_write (md, mpi_n, mpi_n_len);
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gcry_md_write (md, mpi_n+mpi_n_len+2, mpi_e_len);
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memcpy (ki->fpr, gcry_md_read (md, 0), 16);
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gcry_md_close (md);
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ki->fprlen = 16;
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if (mpi_n_len < 8)
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{
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/* Moduli less than 64 bit are out of the specs scope. Zero
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them out because this is what gpg does too. */
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memset (ki->keyid, 0, 8);
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}
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else
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memcpy (ki->keyid, mpi_n + mpi_n_len - 8, 8);
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}
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else
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{
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/* Its a pitty that we need to prefix the buffer with the tag
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and a length header: We can't simply pass it to the fast
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hashing function for that reason. It might be a good idea to
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have a scatter-gather enabled hash function. What we do here
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is to use a static buffer if this one is large enough and
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only use the regular hash functions if this buffer is not
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large enough. */
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if ( 3 + n < sizeof hashbuffer )
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{
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hashbuffer[0] = 0x99; /* CTB */
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hashbuffer[1] = (n >> 8); /* 2 byte length header. */
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hashbuffer[2] = n;
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memcpy (hashbuffer + 3, data_start, n);
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gcry_md_hash_buffer (GCRY_MD_SHA1, ki->fpr, hashbuffer, 3 + n);
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}
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else
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{
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err = gcry_md_open (&md, GCRY_MD_SHA1, 0);
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if (err)
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return err; /* Oops */
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gcry_md_putc (md, 0x99 ); /* CTB */
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gcry_md_putc (md, (n >> 8) ); /* 2 byte length header. */
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gcry_md_putc (md, n );
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gcry_md_write (md, data_start, n);
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memcpy (ki->fpr, gcry_md_read (md, 0), 20);
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gcry_md_close (md);
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}
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ki->fprlen = 20;
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memcpy (ki->keyid, ki->fpr+12, 8);
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}
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return 0;
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}
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/* The caller must pass the address of an INFO structure which will
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get filled on success with information pertaining to the OpenPGP
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keyblock IMAGE of length IMAGELEN. Note that a caller does only
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need to release this INFO structure if the function returns
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success. If NPARSED is not NULL the actual number of bytes parsed
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will be stored at this address. */
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gpg_error_t
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_keybox_parse_openpgp (const unsigned char *image, size_t imagelen,
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size_t *nparsed, keybox_openpgp_info_t info)
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{
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gpg_error_t err = 0;
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const unsigned char *image_start, *data;
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size_t n, datalen;
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int pkttype;
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int first = 1;
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int read_error = 0;
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struct _keybox_openpgp_key_info *k, **ktail = NULL;
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struct _keybox_openpgp_uid_info *u, **utail = NULL;
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memset (info, 0, sizeof *info);
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if (nparsed)
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*nparsed = 0;
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image_start = image;
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while (image)
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{
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err = next_packet (&image, &imagelen, &data, &datalen, &pkttype, &n);
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if (err)
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{
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read_error = 1;
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break;
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}
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if (first)
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{
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if (pkttype == PKT_PUBLIC_KEY)
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;
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else if (pkttype == PKT_SECRET_KEY)
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info->is_secret = 1;
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else
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{
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err = gpg_error (GPG_ERR_UNEXPECTED);
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if (nparsed)
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*nparsed += n;
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break;
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}
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first = 0;
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}
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else if (pkttype == PKT_PUBLIC_KEY || pkttype == PKT_SECRET_KEY)
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break; /* Next keyblock encountered - ready. */
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if (nparsed)
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*nparsed += n;
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if (pkttype == PKT_SIGNATURE)
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{
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/* For now we only count the total number of signatures. */
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info->nsigs++;
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}
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else if (pkttype == PKT_USER_ID)
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{
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info->nuids++;
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if (info->nuids == 1)
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{
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info->uids.off = data - image_start;
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info->uids.len = datalen;
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utail = &info->uids.next;
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}
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else
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{
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u = xtrycalloc (1, sizeof *u);
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if (!u)
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{
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err = gpg_error_from_syserror ();
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break;
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}
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u->off = data - image_start;
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u->len = datalen;
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*utail = u;
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utail = &u->next;
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}
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}
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else if (pkttype == PKT_PUBLIC_KEY || pkttype == PKT_SECRET_KEY)
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{
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err = parse_key (data, datalen, &info->primary);
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if (err)
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break;
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}
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else if( pkttype == PKT_PUBLIC_SUBKEY && datalen && *data == '#' )
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{
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/* Early versions of GnuPG used old PGP comment packets;
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* luckily all those comments are prefixed by a hash
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* sign - ignore these packets. */
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}
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else if (pkttype == PKT_PUBLIC_SUBKEY || pkttype == PKT_SECRET_SUBKEY)
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{
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info->nsubkeys++;
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if (info->nsubkeys == 1)
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{
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err = parse_key (data, datalen, &info->subkeys);
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if (err)
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{
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info->nsubkeys--;
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/* We ignore subkeys with unknown algorithms. */
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if (gpg_err_code (err) == GPG_ERR_UNKNOWN_ALGORITHM
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|| gpg_err_code (err) == GPG_ERR_UNSUPPORTED_ALGORITHM)
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err = 0;
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if (err)
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break;
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}
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else
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ktail = &info->subkeys.next;
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}
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else
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{
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k = xtrycalloc (1, sizeof *k);
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if (!k)
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{
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err = gpg_error_from_syserror ();
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break;
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}
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err = parse_key (data, datalen, k);
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if (err)
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{
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xfree (k);
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info->nsubkeys--;
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/* We ignore subkeys with unknown algorithms. */
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if (gpg_err_code (err) == GPG_ERR_UNKNOWN_ALGORITHM
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|| gpg_err_code (err) == GPG_ERR_UNSUPPORTED_ALGORITHM)
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err = 0;
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if (err)
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break;
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}
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else
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{
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*ktail = k;
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ktail = &k->next;
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}
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}
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}
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}
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if (err)
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{
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_keybox_destroy_openpgp_info (info);
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if (!read_error)
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{
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/* Packet parsing worked, thus we should be able to skip the
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rest of the keyblock. */
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while (image)
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{
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if (next_packet (&image, &imagelen,
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&data, &datalen, &pkttype, &n) )
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break; /* Another error - stop here. */
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if (pkttype == PKT_PUBLIC_KEY || pkttype == PKT_SECRET_KEY)
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break; /* Next keyblock encountered - ready. */
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if (nparsed)
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*nparsed += n;
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}
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}
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}
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return err;
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}
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/* Release any malloced data in INFO but not INFO itself! */
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void
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_keybox_destroy_openpgp_info (keybox_openpgp_info_t info)
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{
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struct _keybox_openpgp_key_info *k, *k2;
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struct _keybox_openpgp_uid_info *u, *u2;
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assert (!info->primary.next);
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for (k=info->subkeys.next; k; k = k2)
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{
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k2 = k->next;
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xfree (k);
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}
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|
for (u=info->uids.next; u; u = u2)
|
|
{
|
|
u2 = u->next;
|
|
xfree (u);
|
|
}
|
|
}
|