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path: root/lib/opencdk/pubkey.c
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/* pubkey.c - Public key API
 * Copyright (C) 2002-2012 Free Software Foundation, Inc.
 *
 * Author: Timo Schulz
 *
 * This file is part of OpenCDK.
 *
 * The OpenCDK library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * as published by the Free Software Foundation; either version 2.1 of
 * the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>
 *
 */

#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <gnutls_int.h>
#include <gnutls_datum.h>
#include <gnutls_pk.h>
#include <gnutls_sig.h>
#include <x509/common.h>
#include "opencdk.h"
#include "main.h"
#include "packet.h"

/* This function gets the signature parameters and encodes
 * them into a way for _gnutls_pk_verify to use.
 */
static cdk_error_t
sig_to_datum (gnutls_datum_t * r_sig, cdk_pkt_signature_t sig)
{
  int err;
  cdk_error_t rc;

  if (!r_sig || !sig)
    return CDK_Inv_Value;

  rc = 0;
  if (is_RSA (sig->pubkey_algo))
    {
      err = _gnutls_mpi_dprint (sig->mpi[0], r_sig);
      if (err < 0)
        rc = map_gnutls_error (err);
    }
  else if (is_DSA (sig->pubkey_algo))
    {
      err = _gnutls_encode_ber_rs (r_sig, sig->mpi[0], sig->mpi[1]);
      if (err < 0)
        rc = map_gnutls_error (err);
    }
  else
    rc = CDK_Inv_Algo;
  return rc;
}

/**
 * cdk_pk_verify:
 * @pk: the public key
 * @sig: signature
 * @md: the message digest
 *
 * Verify the signature in @sig and compare it with the message digest in @md.
 **/
cdk_error_t
cdk_pk_verify (cdk_pubkey_t pk, cdk_pkt_signature_t sig, const byte * md)
{
  gnutls_datum_t s_sig = { NULL, 0}, di = {NULL, 0};
  byte *encmd = NULL;
  size_t enclen;
  cdk_error_t rc;
  int ret, algo;
  unsigned int i;
  gnutls_pk_params_st params;

  if (!pk || !sig || !md)
    {
      gnutls_assert ();
      return CDK_Inv_Value;
    }

  if (is_DSA (pk->pubkey_algo))
    algo = GNUTLS_PK_DSA;
  else if (is_RSA (pk->pubkey_algo))
    algo = GNUTLS_PK_RSA;
  else
    {
      gnutls_assert ();
      return CDK_Inv_Value;
    }

  rc = sig_to_datum (&s_sig, sig);
  if (rc)
    {
      gnutls_assert ();
      goto leave;
    }

  rc = _gnutls_set_datum (&di, md, _gnutls_hash_get_algo_len (sig->digest_algo));
  if (rc < 0)
    {
      rc = gnutls_assert_val(CDK_Out_Of_Core);
      goto leave;
    }  

  rc = pk_prepare_hash (algo, sig->digest_algo, &di);
  if (rc < 0)
    {
      rc = gnutls_assert_val(CDK_General_Error);
      goto leave;
    }

  params.params_nr = cdk_pk_get_npkey (pk->pubkey_algo);
  for (i = 0; i < params.params_nr; i++)
    params.params[i] = pk->mpi[i];
  params.flags = 0;
  ret = _gnutls_pk_verify (algo, &di, &s_sig, &params);

  if (ret < 0)
    {
      gnutls_assert ();
      rc = map_gnutls_error (ret);
      goto leave;
    }

  rc = 0;

leave:
  _gnutls_free_datum (&s_sig);
  _gnutls_free_datum (&di);
  cdk_free (encmd);
  return rc;
}


/**
 * cdk_pk_get_nbits:
 * @pk: the public key
 * 
 * Return the length of the public key in bits.
 * The meaning of length is actually the size of the 'prime'
 * object in the key. For RSA keys the modulus, for ElG/DSA
 * the size of the public prime.
 **/
int
cdk_pk_get_nbits (cdk_pubkey_t pk)
{
  if (!pk || !pk->mpi[0])
    return 0;
  return _gnutls_mpi_get_nbits (pk->mpi[0]);
}


/**
 * cdk_pk_get_npkey:
 * @algo: The public key algorithm.
 * 
 * Return the number of multiprecison integer forming an public
 * key with the given algorithm.
 */
int
cdk_pk_get_npkey (int algo)
{
  if (is_RSA (algo))
    return RSA_PUBLIC_PARAMS;
  else if (is_DSA (algo))
    return DSA_PUBLIC_PARAMS;
  else if (is_ELG (algo))
    return 3;
  else
    {
      gnutls_assert ();
      return 0;
    }
}


/**
 * cdk_pk_get_nskey:
 * @algo: the public key algorithm
 * 
 * Return the number of multiprecision integers forming an
 * secret key with the given algorithm.
 **/
int
cdk_pk_get_nskey (int algo)
{
  int ret;

  if (is_RSA (algo))
    ret = RSA_PRIVATE_PARAMS - 2;       /* we don't have exp1 and exp2 */
  else if (is_DSA (algo))
    ret = DSA_PRIVATE_PARAMS;
  else if (is_ELG (algo))
    ret = 4;
  else
    {
      gnutls_assert ();
      return 0;
    }

  ret -= cdk_pk_get_npkey (algo);
  return ret;
}


/**
 * cdk_pk_get_nbits:
 * @algo: the public key algorithm
 * 
 * Return the number of MPIs a signature consists of.
 **/
int
cdk_pk_get_nsig (int algo)
{
  if (is_RSA (algo))
    return 1;
  else if (is_DSA (algo))
    return 2;
  else
    return 0;
}


/**
 * cdk_pk_get_nenc: 
 * @algo: the public key algorithm
 * 
 * Return the number of MPI's the encrypted data consists of.
 **/
int
cdk_pk_get_nenc (int algo)
{
  if (is_RSA (algo))
    return 1;
  else if (is_ELG (algo))
    return 2;
  else
    return 0;
}


int
_cdk_pk_algo_usage (int algo)
{
  int usage;

  /* The ElGamal sign+encrypt algorithm is not supported any longer. */
  switch (algo)
    {
    case CDK_PK_RSA:
      usage = CDK_KEY_USG_SIGN | CDK_KEY_USG_ENCR;
      break;
    case CDK_PK_RSA_E:
      usage = CDK_KEY_USG_ENCR;
      break;
    case CDK_PK_RSA_S:
      usage = CDK_KEY_USG_SIGN;
      break;
    case CDK_PK_ELG_E:
      usage = CDK_KEY_USG_ENCR;
      break;
    case CDK_PK_DSA:
      usage = CDK_KEY_USG_SIGN;
      break;
    default:
      usage = 0;
    }
  return usage;
}

/* You can use a NULL buf to get the output size only
 */
static cdk_error_t
mpi_to_buffer (bigint_t a, byte * buf, size_t buflen,
               size_t * r_nwritten, size_t * r_nbits)
{
  size_t nbits;
  int err;

  if (!a || !r_nwritten)
    {
      gnutls_assert ();
      return CDK_Inv_Value;
    }

  nbits = _gnutls_mpi_get_nbits (a);
  if (r_nbits)
    *r_nbits = nbits;

  if (r_nwritten)
    *r_nwritten = (nbits + 7) / 8 + 2;

  if ((nbits + 7) / 8 + 2 > buflen)
    return CDK_Too_Short;

  *r_nwritten = buflen;
  err = _gnutls_mpi_print (a, buf, r_nwritten);
  if (err < 0)
    {
      gnutls_assert ();
      return map_gnutls_error (err);
    }

  return 0;
}


/**
 * cdk_pk_get_mpi:
 * @pk: public key
 * @idx: index of the MPI to retrieve
 * @buf: buffer to hold the raw data
 * @r_nwritten: output how large the raw data is
 * @r_nbits: size of the MPI in bits.
 * 
 * Return the MPI with the given index of the public key.
 **/
cdk_error_t
cdk_pk_get_mpi (cdk_pubkey_t pk, size_t idx,
                byte * buf, size_t buflen, size_t * r_nwritten,
                size_t * r_nbits)
{
  if (!pk || !r_nwritten)
    return CDK_Inv_Value;

  if ((ssize_t) idx > cdk_pk_get_npkey (pk->pubkey_algo))
    return CDK_Inv_Value;
  return mpi_to_buffer (pk->mpi[idx], buf, buflen, r_nwritten, r_nbits);
}


/**
 * cdk_sk_get_mpi:
 * @sk: secret key
 * @idx: index of the MPI to retrieve
 * @buf: buffer to hold the raw data
 * @r_nwritten: output length of the raw data
 * @r_nbits: length of the MPI data in bits.
 * 
 * Return the MPI of the given secret key with the
 * index @idx. It is important to check if the key
 * is protected and thus no real MPI data will be returned then.
 **/
cdk_error_t
cdk_sk_get_mpi (cdk_pkt_seckey_t sk, size_t idx,
                byte * buf, size_t buflen, size_t * r_nwritten,
                size_t * r_nbits)
{
  if (!sk || !r_nwritten)
    return CDK_Inv_Value;

  if ((ssize_t) idx > cdk_pk_get_nskey (sk->pubkey_algo))
    return CDK_Inv_Value;
  return mpi_to_buffer (sk->mpi[idx], buf, buflen, r_nwritten, r_nbits);
}


static u16
checksum_mpi (bigint_t m)
{
  byte buf[MAX_MPI_BYTES + 2];
  size_t nread;
  unsigned int i;
  u16 chksum = 0;

  if (!m)
    return 0;
  nread = DIM (buf);
  if (_gnutls_mpi_print_pgp (m, buf, &nread) < 0)
    return 0;
  for (i = 0; i < nread; i++)
    chksum += buf[i];
  return chksum;
}

/**
 * cdk_pk_from_secret_key:
 * @sk: the secret key
 * @ret_pk: the new public key
 *
 * Create a new public key from a secret key.
 **/
cdk_error_t
cdk_pk_from_secret_key (cdk_pkt_seckey_t sk, cdk_pubkey_t * ret_pk)
{
  if (!sk)
    return CDK_Inv_Value;
  return _cdk_copy_pubkey (ret_pk, sk->pk);
}


int
_cdk_sk_get_csum (cdk_pkt_seckey_t sk)
{
  u16 csum = 0, i;

  if (!sk)
    return 0;
  for (i = 0; i < cdk_pk_get_nskey (sk->pubkey_algo); i++)
    csum += checksum_mpi (sk->mpi[i]);
  return csum;
}


/**
 * cdk_pk_get_fingerprint:
 * @pk: the public key
 * @fpr: the buffer to hold the fingerprint
 * 
 * Return the fingerprint of the given public key.
 * The buffer must be at least 20 octets.
 * This function should be considered deprecated and
 * the new cdk_pk_to_fingerprint() should be used whenever
 * possible to avoid overflows.
 **/
cdk_error_t
cdk_pk_get_fingerprint (cdk_pubkey_t pk, byte * fpr)
{
  digest_hd_st hd;
  int md_algo;
  int dlen = 0;
  int err;

  if (!pk || !fpr)
    return CDK_Inv_Value;

  if (pk->version < 4 && is_RSA (pk->pubkey_algo))
    md_algo = GNUTLS_DIG_MD5;   /* special */
  else
    md_algo = GNUTLS_DIG_SHA1;
  dlen = _gnutls_hash_get_algo_len (md_algo);
  err = _gnutls_hash_init (&hd, md_algo);
  if (err < 0)
    {
      gnutls_assert ();
      return map_gnutls_error (err);
    }
  _cdk_hash_pubkey (pk, &hd, 1);
  _gnutls_hash_deinit (&hd, fpr);
  if (dlen == 16)
    memset (fpr + 16, 0, 4);
  return 0;
}


/**
 * cdk_pk_to_fingerprint:
 * @pk: the public key
 * @fprbuf: buffer to save the fingerprint
 * @fprbuflen: buffer size
 * @r_nout: actual length of the fingerprint.
 * 
 * Calculate a fingerprint of the given key and
 * return it in the given byte array.
 **/
cdk_error_t
cdk_pk_to_fingerprint (cdk_pubkey_t pk,
                       byte * fprbuf, size_t fprbuflen, size_t * r_nout)
{
  size_t key_fprlen;
  cdk_error_t err;

  if (!pk)
    return CDK_Inv_Value;

  if (pk->version < 4)
    key_fprlen = 16;
  else
    key_fprlen = 20;

  /* Only return the required buffer size for the fingerprint. */
  if (!fprbuf && !fprbuflen && r_nout)
    {
      *r_nout = key_fprlen;
      return 0;
    }

  if (!fprbuf || key_fprlen > fprbuflen)
    return CDK_Too_Short;

  err = cdk_pk_get_fingerprint (pk, fprbuf);
  if (r_nout)
    *r_nout = key_fprlen;

  return err;
}


/**
 * cdk_pk_fingerprint_get_keyid:
 * @fpr: the key fingerprint
 * @fprlen: the length of the fingerprint
 * 
 * Derive the key ID from the key fingerprint.
 * For version 3 keys, this is not working.
 **/
u32
cdk_pk_fingerprint_get_keyid (const byte * fpr, size_t fprlen, u32 * keyid)
{
  u32 lowbits = 0;

  /* In this case we say the key is a V3 RSA key and we can't
     use the fingerprint to get the keyid. */
  if (fpr && fprlen == 16)
    {
      keyid[0] = 0;
      keyid[1] = 0;
      return 0;
    }
  else if (keyid && fpr)
    {
      keyid[0] = _cdk_buftou32 (fpr + 12);
      keyid[1] = _cdk_buftou32 (fpr + 16);
      lowbits = keyid[1];
    }
  else if (fpr)
    lowbits = _cdk_buftou32 (fpr + 16);
  return lowbits;
}


/**
 * cdk_pk_get_keyid:
 * @pk: the public key
 * @keyid: buffer to store the key ID
 * 
 * Calculate the key ID of the given public key.
 **/
u32
cdk_pk_get_keyid (cdk_pubkey_t pk, u32 * keyid)
{
  u32 lowbits = 0;
  byte buf[24];

  if (pk && (!pk->keyid[0] || !pk->keyid[1]))
    {
      if (pk->version < 4 && is_RSA (pk->pubkey_algo))
        {
          byte p[MAX_MPI_BYTES];
          size_t n;

          n = MAX_MPI_BYTES;
          _gnutls_mpi_print (pk->mpi[0], p, &n);
          pk->keyid[0] =
            p[n - 8] << 24 | p[n - 7] << 16 | p[n - 6] << 8 | p[n - 5];
          pk->keyid[1] =
            p[n - 4] << 24 | p[n - 3] << 16 | p[n - 2] << 8 | p[n - 1];
        }
      else if (pk->version == 4)
        {
          cdk_pk_get_fingerprint (pk, buf);
          pk->keyid[0] = _cdk_buftou32 (buf + 12);
          pk->keyid[1] = _cdk_buftou32 (buf + 16);
        }
    }
  lowbits = pk ? pk->keyid[1] : 0;
  if (keyid && pk)
    {
      keyid[0] = pk->keyid[0];
      keyid[1] = pk->keyid[1];
    }

  return lowbits;
}


/**
 * cdk_sk_get_keyid:
 * @sk: the secret key
 * @keyid: buffer to hold the key ID
 * 
 * Calculate the key ID of the secret key, actually the public key.
 **/
u32
cdk_sk_get_keyid (cdk_pkt_seckey_t sk, u32 * keyid)
{
  u32 lowbits = 0;

  if (sk && sk->pk)
    {
      lowbits = cdk_pk_get_keyid (sk->pk, keyid);
      sk->keyid[0] = sk->pk->keyid[0];
      sk->keyid[1] = sk->pk->keyid[1];
    }

  return lowbits;
}


/**
 * cdk_sig_get_keyid:
 * @sig: the signature
 * @keyid: buffer to hold the key ID
 * 
 * Retrieve the key ID from the given signature.
 **/
u32
cdk_sig_get_keyid (cdk_pkt_signature_t sig, u32 * keyid)
{
  u32 lowbits = sig ? sig->keyid[1] : 0;

  if (keyid && sig)
    {
      keyid[0] = sig->keyid[0];
      keyid[1] = sig->keyid[1];
    }
  return lowbits;
}


/* Return the key ID from the given packet.
   If this is not possible, 0 is returned */
u32
_cdk_pkt_get_keyid (cdk_packet_t pkt, u32 * keyid)
{
  u32 lowbits;

  if (!pkt)
    return 0;

  switch (pkt->pkttype)
    {
    case CDK_PKT_PUBLIC_KEY:
    case CDK_PKT_PUBLIC_SUBKEY:
      lowbits = cdk_pk_get_keyid (pkt->pkt.public_key, keyid);
      break;

    case CDK_PKT_SECRET_KEY:
    case CDK_PKT_SECRET_SUBKEY:
      lowbits = cdk_sk_get_keyid (pkt->pkt.secret_key, keyid);
      break;

    case CDK_PKT_SIGNATURE:
      lowbits = cdk_sig_get_keyid (pkt->pkt.signature, keyid);
      break;

    default:
      lowbits = 0;
      break;
    }

  return lowbits;
}


/* Get the fingerprint of the packet if possible. */
cdk_error_t
_cdk_pkt_get_fingerprint (cdk_packet_t pkt, byte * fpr)
{
  if (!pkt || !fpr)
    return CDK_Inv_Value;

  switch (pkt->pkttype)
    {
    case CDK_PKT_PUBLIC_KEY:
    case CDK_PKT_PUBLIC_SUBKEY:
      return cdk_pk_get_fingerprint (pkt->pkt.public_key, fpr);

    case CDK_PKT_SECRET_KEY:
    case CDK_PKT_SECRET_SUBKEY:
      return cdk_pk_get_fingerprint (pkt->pkt.secret_key->pk, fpr);

    default:
      return CDK_Inv_Mode;
    }
  return 0;
}