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gnupg/g10/encrypt.c
Werner Koch d528d0b065
gpg: New commands --add-recipients and --change-recipients.
* g10/gpg.c (aAddRecipients, aChangeRecipients): New consts.
(opts): Add --add-recipients and --change-recipients.
(main): Handle them.
* g10/gpg.h (struct server_control_s): Add fields modify_recipients,
clear_recipients, and last_read_ctb.
* g10/armor.c (was_armored): New.
* g10/decrypt.c (decrypt_message): Add optional arg 'remusr'.  Handle
re-encryption if desired.
* g10/encrypt.c (write_pubkey_enc): Factor info printing out to ...
(show_encrypted_for_user_info): new.
(reencrypt_to_new_recipients): New.
* g10/packet.h (struct parse_packet_ctx_s): Add fields only_fookey_enc
and last_ctb.
(init_parse_packet): Clear them.
* g10/parse-packet.c (parse): Store CTB in the context.  Early return
on pubkey_enc and symkey_enc packets if requested.
* g10/mainproc.c (proc_encrypted): Allow for PKT being NULL.  Return
early in modify-recipients mode.
(proc_encryption_packets): Add two optional args 'r_dek' and 'r_list'.
Adjust callers.  Call do_proc_packets in modify-recipients mode
depending on the optional args.
(do_proc_packets): Add arg 'keep_dek_and_list'.  Adjust callers.  Save
the last read CTB in CTRL and return after the last fooenc_enc
packets.
--

This basically works but does not yet handle symmetric encrypted
packets (symkey_enc).

GnuPG-bug-id: 1825
(Yes, this is an at least 9 year old feature request)
2024-09-09 16:47:04 +02:00

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/* encrypt.c - Main encryption driver
* Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005,
* 2006, 2009 Free Software Foundation, Inc.
* Copyright (C) 2016, 2023 g10 Code GmbH
*
* 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 3 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, see <https://www.gnu.org/licenses/>.
* SPDX-License-Identifier: GPL-3.0-or-later
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "gpg.h"
#include "options.h"
#include "packet.h"
#include "../common/status.h"
#include "../common/iobuf.h"
#include "keydb.h"
#include "../common/util.h"
#include "main.h"
#include "filter.h"
#include "trustdb.h"
#include "../common/i18n.h"
#include "../common/status.h"
#include "pkglue.h"
#include "../common/compliance.h"
static int encrypt_simple( const char *filename, int mode, int use_seskey );
static int write_pubkey_enc_from_list (ctrl_t ctrl,
PK_LIST pk_list, DEK *dek, iobuf_t out);
/* Helper for show the "encrypted for USER" during encryption.
* PUBKEY_USAGE is used to figure out whether this is an ADSK key. */
static void
show_encrypted_for_user_info (ctrl_t ctrl, unsigned int pubkey_usage,
PKT_pubkey_enc *enc, DEK *dek)
{
char *ustr = get_user_id_string_native (ctrl, enc->keyid);
if ((pubkey_usage & PUBKEY_USAGE_RENC))
{
char *tmpustr = xstrconcat (ustr, " [ADSK]", NULL);
xfree (ustr);
ustr = tmpustr;
}
log_info (_("%s/%s.%s encrypted for: \"%s\"\n"),
openpgp_pk_algo_name (enc->pubkey_algo),
openpgp_cipher_algo_name (dek->algo),
dek->use_aead? openpgp_aead_algo_name (dek->use_aead)
/**/ : "CFB",
ustr );
xfree (ustr);
}
/****************
* Encrypt FILENAME with only the symmetric cipher. Take input from
* stdin if FILENAME is NULL. If --force-aead is used we use an SKESK.
*/
int
encrypt_symmetric (const char *filename)
{
return encrypt_simple( filename, 1, opt.force_aead);
}
/****************
* Encrypt FILENAME as a literal data packet only. Take input from
* stdin if FILENAME is NULL.
*/
int
encrypt_store (const char *filename)
{
return encrypt_simple( filename, 0, 0 );
}
/* Create and setup a DEK structure and print appropriate warnings.
* PK_LIST gives the list of public keys. Always returns a DEK. The
* actual session needs to be added later. */
static DEK *
create_dek_with_warnings (pk_list_t pk_list)
{
DEK *dek;
dek = xmalloc_secure_clear (sizeof *dek);
if (!opt.def_cipher_algo)
{
/* Try to get it from the prefs. */
dek->algo = select_algo_from_prefs (pk_list, PREFTYPE_SYM, -1, NULL);
if (dek->algo == -1)
{
/* If does not make sense to fallback to the rfc4880
* required 3DES if we will reject that algo later. Thus we
* fallback to AES anticipating RFC4880bis rules. */
if (opt.flags.allow_old_cipher_algos)
dek->algo = CIPHER_ALGO_3DES;
else
dek->algo = CIPHER_ALGO_AES;
}
/* In case 3DES has been selected, print a warning if any key
* does not have a preference for AES. This should help to
* identify why encrypting to several recipients falls back to
* 3DES. */
if (opt.verbose && dek->algo == CIPHER_ALGO_3DES)
warn_missing_aes_from_pklist (pk_list);
}
else
{
if (!opt.expert
&& (select_algo_from_prefs (pk_list, PREFTYPE_SYM,
opt.def_cipher_algo, NULL)
!= opt.def_cipher_algo))
{
log_info(_("WARNING: forcing symmetric cipher %s (%d)"
" violates recipient preferences\n"),
openpgp_cipher_algo_name (opt.def_cipher_algo),
opt.def_cipher_algo);
}
dek->algo = opt.def_cipher_algo;
}
return dek;
}
/* Check whether all encryption keys are compliant with the current
* mode and issue respective status lines. DEK has the info about the
* session key and PK_LIST the list of public keys. */
static gpg_error_t
check_encryption_compliance (DEK *dek, pk_list_t pk_list)
{
gpg_error_t err = 0;
pk_list_t pkr;
int compliant;
/* First check whether we should use the algo at all. */
if (openpgp_cipher_blocklen (dek->algo) < 16
&& !opt.flags.allow_old_cipher_algos)
{
log_error (_("cipher algorithm '%s' may not be used for encryption\n"),
openpgp_cipher_algo_name (dek->algo));
if (!opt.quiet)
log_info (_("(use option \"%s\" to override)\n"),
"--allow-old-cipher-algos");
err = gpg_error (GPG_ERR_CIPHER_ALGO);
goto leave;
}
/* Now check the compliance. */
if (! gnupg_cipher_is_allowed (opt.compliance, 1, dek->algo,
GCRY_CIPHER_MODE_CFB))
{
log_error (_("cipher algorithm '%s' may not be used in %s mode\n"),
openpgp_cipher_algo_name (dek->algo),
gnupg_compliance_option_string (opt.compliance));
err = gpg_error (GPG_ERR_CIPHER_ALGO);
goto leave;
}
if (!gnupg_rng_is_compliant (opt.compliance))
{
err = gpg_error (GPG_ERR_FORBIDDEN);
log_error (_("%s is not compliant with %s mode\n"),
"RNG",
gnupg_compliance_option_string (opt.compliance));
write_status_error ("random-compliance", err);
goto leave;
}
/* From here on we only test for CO_DE_VS - if we ever want to
* return other compliance mode values we need to change this to
* loop over all those values. */
compliant = gnupg_gcrypt_is_compliant (CO_DE_VS);
if (!gnupg_cipher_is_compliant (CO_DE_VS, dek->algo, GCRY_CIPHER_MODE_CFB))
compliant = 0;
for (pkr = pk_list; pkr; pkr = pkr->next)
{
PKT_public_key *pk = pkr->pk;
unsigned int nbits = nbits_from_pk (pk);
if (!gnupg_pk_is_compliant (opt.compliance, pk->pubkey_algo, 0,
pk->pkey, nbits, NULL))
log_info (_("WARNING: key %s is not suitable for encryption"
" in %s mode\n"),
keystr_from_pk (pk),
gnupg_compliance_option_string (opt.compliance));
if (compliant
&& !gnupg_pk_is_compliant (CO_DE_VS, pk->pubkey_algo, 0, pk->pkey,
nbits, NULL))
compliant = 0; /* Not compliant - reset flag. */
}
/* If we are compliant print the status for de-vs compliance. */
if (compliant)
write_status_strings (STATUS_ENCRYPTION_COMPLIANCE_MODE,
gnupg_status_compliance_flag (CO_DE_VS),
NULL);
/* Check whether we should fail the operation. */
if (opt.flags.require_compliance
&& opt.compliance == CO_DE_VS
&& !compliant)
{
compliance_failure ();
err = gpg_error (GPG_ERR_FORBIDDEN);
goto leave;
}
leave:
return err;
}
/* Encrypt a session key using DEK and store a pointer to the result
* at R_ENCKEY and its length at R_ENCKEYLEN.
*
* R_SESKEY points to the unencrypted session key (.KEY, .KEYLEN) and
* the algorithm that will be used to encrypt the contents of the
* SKESK packet (.ALGO). If R_SESKEY points to NULL, then a random
* session key that is appropriate for DEK->ALGO is generated and
* stored at R_SESKEY. If AEAD_ALGO is not 0 the given AEAD algorithm
* is used for encryption.
*/
static gpg_error_t
encrypt_seskey (DEK *dek, aead_algo_t aead_algo,
DEK **r_seskey, void **r_enckey, size_t *r_enckeylen)
{
gpg_error_t err;
gcry_cipher_hd_t hd = NULL;
byte *buf = NULL;
DEK *seskey;
*r_enckey = NULL;
*r_enckeylen = 0;
if (*r_seskey)
seskey = *r_seskey;
else
{
seskey = xtrycalloc (1, sizeof(DEK));
if (!seskey)
{
err = gpg_error_from_syserror ();
goto leave;
}
seskey->algo = dek->algo;
make_session_key (seskey);
/*log_hexdump( "thekey", c->key, c->keylen );*/
}
if (aead_algo)
{
unsigned int noncelen;
enum gcry_cipher_modes ciphermode;
byte ad[4];
err = openpgp_aead_algo_info (aead_algo, &ciphermode, &noncelen);
if (err)
goto leave;
/* Allocate space for the nonce, the key, and the authentication
* tag (16). */
buf = xtrymalloc_secure (noncelen + seskey->keylen + 16);
if (!buf)
{
err = gpg_error_from_syserror ();
goto leave;
}
gcry_randomize (buf, noncelen, GCRY_STRONG_RANDOM);
err = openpgp_cipher_open (&hd, dek->algo,
ciphermode, GCRY_CIPHER_SECURE);
if (!err)
err = gcry_cipher_setkey (hd, dek->key, dek->keylen);
if (!err)
err = gcry_cipher_setiv (hd, buf, noncelen);
if (err)
goto leave;
ad[0] = (0xc0 | PKT_SYMKEY_ENC);
ad[1] = 5;
ad[2] = dek->algo;
ad[3] = aead_algo;
err = gcry_cipher_authenticate (hd, ad, 4);
if (err)
goto leave;
memcpy (buf + noncelen, seskey->key, seskey->keylen);
gcry_cipher_final (hd);
err = gcry_cipher_encrypt (hd, buf + noncelen, seskey->keylen, NULL,0);
if (err)
goto leave;
err = gcry_cipher_gettag (hd, buf + noncelen + seskey->keylen, 16);
if (err)
goto leave;
*r_enckeylen = noncelen + seskey->keylen + 16;
*r_enckey = buf;
buf = NULL;
}
else
{
/* In the old version 4 SKESK the encrypted session key is
* prefixed with a one-octet algorithm id. */
buf = xtrymalloc_secure (1 + seskey->keylen);
if (!buf)
{
err = gpg_error_from_syserror ();
goto leave;
}
buf[0] = seskey->algo;
memcpy (buf + 1, seskey->key, seskey->keylen);
err = openpgp_cipher_open (&hd, dek->algo, GCRY_CIPHER_MODE_CFB, 1);
if (!err)
err = gcry_cipher_setkey (hd, dek->key, dek->keylen);
if (!err)
err = gcry_cipher_setiv (hd, NULL, 0);
if (!err)
err = gcry_cipher_encrypt (hd, buf, seskey->keylen + 1, NULL, 0);
if (err)
goto leave;
*r_enckeylen = seskey->keylen + 1;
*r_enckey = buf;
buf = NULL;
}
/* Return the session key in case we allocated it. */
*r_seskey = seskey;
seskey = NULL;
leave:
gcry_cipher_close (hd);
if (seskey != *r_seskey)
xfree (seskey);
xfree (buf);
return err;
}
/* Return the AEAD algo if we shall use AEAD mode. Returns 0 if AEAD
* shall not be used. */
aead_algo_t
use_aead (pk_list_t pk_list, int algo)
{
int can_use;
can_use = openpgp_cipher_get_algo_blklen (algo) == 16;
/* With --force-aead we want AEAD. */
if (opt.force_aead)
{
if (!can_use)
{
log_info ("Warning: request to use OCB ignored for cipher '%s'\n",
openpgp_cipher_algo_name (algo));
return 0;
}
return AEAD_ALGO_OCB;
}
/* AEAD does only work with 128 bit cipher blocklength. */
if (!can_use)
return 0;
/* Note the user which keys have no AEAD feature flag set. */
if (opt.verbose)
warn_missing_aead_from_pklist (pk_list);
/* If all keys support AEAD we can use it. */
return select_aead_from_pklist (pk_list);
}
/* Shall we use the MDC? Yes - unless rfc-2440 compatibility is
* requested. */
int
use_mdc (pk_list_t pk_list,int algo)
{
(void)pk_list;
(void)algo;
/* RFC-2440 don't has MDC - this is the only way to create a legacy
* non-MDC encryption packet. */
if (RFC2440)
return 0;
return 1; /* In all other cases we use the MDC */
}
/* This function handles the --symmetric only (MODE true) and --store
* (MODE false) cases. We don't want to use USE_SESKEY by default
* very old gnupg versions can't handle it, and there isn't really any
* point unless we're making a message that can be decrypted by a
* public key or passphrase. */
static int
encrypt_simple (const char *filename, int mode, int use_seskey)
{
iobuf_t inp, out;
PACKET pkt;
PKT_plaintext *pt = NULL;
STRING2KEY *s2k = NULL;
void *enckey = NULL;
size_t enckeylen = 0;
int rc = 0;
u32 filesize;
cipher_filter_context_t cfx;
armor_filter_context_t *afx = NULL;
compress_filter_context_t zfx;
text_filter_context_t tfx;
progress_filter_context_t *pfx;
int do_compress = !!default_compress_algo();
if (!gnupg_rng_is_compliant (opt.compliance))
{
rc = gpg_error (GPG_ERR_FORBIDDEN);
log_error (_("%s is not compliant with %s mode\n"),
"RNG",
gnupg_compliance_option_string (opt.compliance));
write_status_error ("random-compliance", rc);
return rc;
}
pfx = new_progress_context ();
memset( &cfx, 0, sizeof cfx);
memset( &zfx, 0, sizeof zfx);
memset( &tfx, 0, sizeof tfx);
init_packet(&pkt);
/* Prepare iobufs. */
inp = iobuf_open(filename);
if (inp)
iobuf_ioctl (inp, IOBUF_IOCTL_NO_CACHE, 1, NULL);
if (inp && is_secured_file (iobuf_get_fd (inp)))
{
iobuf_close (inp);
inp = NULL;
gpg_err_set_errno (EPERM);
}
if (!inp)
{
rc = gpg_error_from_syserror ();
log_error(_("can't open '%s': %s\n"), filename? filename: "[stdin]",
strerror(errno) );
release_progress_context (pfx);
return rc;
}
handle_progress (pfx, inp, filename);
if (opt.textmode)
iobuf_push_filter( inp, text_filter, &tfx );
cfx.dek = NULL;
if ( mode )
{
aead_algo_t aead_algo;
rc = setup_symkey (&s2k, &cfx.dek);
if (rc)
{
iobuf_close (inp);
if (gpg_err_code (rc) == GPG_ERR_CIPHER_ALGO
|| gpg_err_code (rc) == GPG_ERR_DIGEST_ALGO)
; /* Error has already been printed. */
else
log_error (_("error creating passphrase: %s\n"), gpg_strerror (rc));
release_progress_context (pfx);
return rc;
}
if (use_seskey && s2k->mode != 1 && s2k->mode != 3)
{
use_seskey = 0;
log_info (_("can't use a SKESK packet due to the S2K mode\n"));
}
/* See whether we want to use AEAD. */
aead_algo = use_aead (NULL, cfx.dek->algo);
if ( use_seskey )
{
DEK *dek = NULL;
rc = encrypt_seskey (cfx.dek, aead_algo, &dek, &enckey, &enckeylen);
if (rc)
{
xfree (cfx.dek);
xfree (s2k);
iobuf_close (inp);
release_progress_context (pfx);
return rc;
}
/* Replace key in DEK. */
xfree (cfx.dek);
cfx.dek = dek;
}
if (aead_algo)
cfx.dek->use_aead = aead_algo;
else
cfx.dek->use_mdc = !!use_mdc (NULL, cfx.dek->algo);
if (opt.verbose)
log_info(_("using cipher %s.%s\n"),
openpgp_cipher_algo_name (cfx.dek->algo),
cfx.dek->use_aead? openpgp_aead_algo_name (cfx.dek->use_aead)
/**/ : "CFB");
}
if (rc || (rc = open_outfile (GNUPG_INVALID_FD, filename, opt.armor? 1:0,
0, &out )))
{
iobuf_cancel (inp);
xfree (cfx.dek);
xfree (s2k);
release_progress_context (pfx);
return rc;
}
if ( opt.armor )
{
afx = new_armor_context ();
push_armor_filter (afx, out);
}
if ( s2k )
{
/* Fixme: This is quite similar to write_symkey_enc. */
PKT_symkey_enc *enc = xmalloc_clear (sizeof *enc + enckeylen);
enc->version = cfx.dek->use_aead ? 5 : 4;
enc->cipher_algo = cfx.dek->algo;
enc->aead_algo = cfx.dek->use_aead;
enc->s2k = *s2k;
if (enckeylen)
{
enc->seskeylen = enckeylen;
memcpy (enc->seskey, enckey, enckeylen);
}
pkt.pkttype = PKT_SYMKEY_ENC;
pkt.pkt.symkey_enc = enc;
if ((rc = build_packet( out, &pkt )))
log_error("build symkey packet failed: %s\n", gpg_strerror (rc) );
xfree (enc);
xfree (enckey);
enckey = NULL;
}
if (!opt.no_literal)
pt = setup_plaintext_name (filename, inp);
/* Note that PGP 5 has problems decrypting symmetrically encrypted
data if the file length is in the inner packet. It works when
only partial length headers are use. In the past, we always used
partial body length here, but since PGP 2, PGP 6, and PGP 7 need
the file length, and nobody should be using PGP 5 nowadays
anyway, this is now set to the file length. Note also that this
only applies to the RFC-1991 style symmetric messages, and not
the RFC-2440 style. PGP 6 and 7 work with either partial length
or fixed length with the new style messages. */
if ( !iobuf_is_pipe_filename (filename) && *filename && !opt.textmode )
{
uint64_t tmpsize;
tmpsize = iobuf_get_filelength(inp);
if (!tmpsize && opt.verbose)
log_info(_("WARNING: '%s' is an empty file\n"), filename );
/* We can't encode the length of very large files because
OpenPGP uses only 32 bit for file sizes. So if the
size of a file is larger than 2^32 minus some bytes for
packet headers, we switch to partial length encoding. */
if ( tmpsize < (IOBUF_FILELENGTH_LIMIT - 65536) )
filesize = tmpsize;
else
filesize = 0;
}
else
filesize = opt.set_filesize ? opt.set_filesize : 0; /* stdin */
/* Register the cipher filter. */
if (mode)
iobuf_push_filter (out,
cfx.dek->use_aead? cipher_filter_aead
/**/ : cipher_filter_cfb,
&cfx );
if (do_compress
&& cfx.dek
&& (cfx.dek->use_mdc || cfx.dek->use_aead)
&& !opt.explicit_compress_option
&& is_file_compressed (inp))
{
if (opt.verbose)
log_info(_("'%s' already compressed\n"), filename? filename: "[stdin]");
do_compress = 0;
}
if (!opt.no_literal)
{
/* Note that PT has been initialized above in !no_literal mode. */
pt->timestamp = make_timestamp();
pt->mode = opt.mimemode? 'm' : opt.textmode? 't' : 'b';
pt->len = filesize;
pt->new_ctb = !pt->len;
pt->buf = inp;
pkt.pkttype = PKT_PLAINTEXT;
pkt.pkt.plaintext = pt;
cfx.datalen = filesize && !do_compress ? calc_packet_length( &pkt ) : 0;
}
else
{
cfx.datalen = filesize && !do_compress ? filesize : 0;
pkt.pkttype = 0;
pkt.pkt.generic = NULL;
}
/* Register the compress filter. */
if ( do_compress )
{
if (cfx.dek && (cfx.dek->use_mdc || cfx.dek->use_aead))
zfx.new_ctb = 1;
push_compress_filter (out, &zfx, default_compress_algo());
}
/* Do the work. */
if (!opt.no_literal)
{
if ( (rc = build_packet( out, &pkt )) )
log_error("build_packet failed: %s\n", gpg_strerror (rc) );
}
else
{
/* User requested not to create a literal packet, so we copy the
plain data. */
iobuf_copy (out, inp);
if ((rc = iobuf_error (inp)))
log_error (_("error reading '%s': %s\n"),
iobuf_get_fname_nonnull (inp), gpg_strerror (rc));
else if ((rc = iobuf_error (out)))
log_error (_("error writing '%s': %s\n"),
iobuf_get_fname_nonnull (out), gpg_strerror (rc));
}
/* Finish the stuff. */
iobuf_close (inp);
if (rc)
iobuf_cancel(out);
else
{
iobuf_close (out); /* fixme: check returncode */
if (mode)
write_status ( STATUS_END_ENCRYPTION );
}
if (pt)
pt->buf = NULL;
free_packet (&pkt, NULL);
xfree (enckey);
xfree (cfx.dek);
xfree (s2k);
release_armor_context (afx);
release_progress_context (pfx);
return rc;
}
gpg_error_t
setup_symkey (STRING2KEY **symkey_s2k, DEK **symkey_dek)
{
int canceled;
int defcipher;
int s2kdigest;
defcipher = default_cipher_algo ();
if (openpgp_cipher_blocklen (defcipher) < 16
&& !opt.flags.allow_old_cipher_algos)
{
log_error (_("cipher algorithm '%s' may not be used for encryption\n"),
openpgp_cipher_algo_name (defcipher));
if (!opt.quiet)
log_info (_("(use option \"%s\" to override)\n"),
"--allow-old-cipher-algos");
return gpg_error (GPG_ERR_CIPHER_ALGO);
}
if (!gnupg_cipher_is_allowed (opt.compliance, 1, defcipher,
GCRY_CIPHER_MODE_CFB))
{
log_error (_("cipher algorithm '%s' may not be used in %s mode\n"),
openpgp_cipher_algo_name (defcipher),
gnupg_compliance_option_string (opt.compliance));
return gpg_error (GPG_ERR_CIPHER_ALGO);
}
s2kdigest = S2K_DIGEST_ALGO;
if (!gnupg_digest_is_allowed (opt.compliance, 1, s2kdigest))
{
log_error (_("digest algorithm '%s' may not be used in %s mode\n"),
gcry_md_algo_name (s2kdigest),
gnupg_compliance_option_string (opt.compliance));
return gpg_error (GPG_ERR_DIGEST_ALGO);
}
*symkey_s2k = xmalloc_clear (sizeof **symkey_s2k);
(*symkey_s2k)->mode = opt.s2k_mode;
(*symkey_s2k)->hash_algo = s2kdigest;
*symkey_dek = passphrase_to_dek (defcipher,
*symkey_s2k, 1, 0, NULL, 0, &canceled);
if (!*symkey_dek || !(*symkey_dek)->keylen)
{
xfree(*symkey_dek);
xfree(*symkey_s2k);
return gpg_error (canceled?GPG_ERR_CANCELED:GPG_ERR_INV_PASSPHRASE);
}
return 0;
}
static int
write_symkey_enc (STRING2KEY *symkey_s2k, aead_algo_t aead_algo,
DEK *symkey_dek, DEK *dek, iobuf_t out)
{
int rc;
void *enckey;
size_t enckeylen;
PKT_symkey_enc *enc;
PACKET pkt;
rc = encrypt_seskey (symkey_dek, aead_algo, &dek, &enckey, &enckeylen);
if (rc)
return rc;
enc = xtrycalloc (1, sizeof (PKT_symkey_enc) + enckeylen);
if (!enc)
{
rc = gpg_error_from_syserror ();
xfree (enckey);
return rc;
}
enc->version = aead_algo? 5 : 4;
enc->cipher_algo = opt.s2k_cipher_algo;
enc->aead_algo = aead_algo;
enc->s2k = *symkey_s2k;
enc->seskeylen = enckeylen;
memcpy (enc->seskey, enckey, enckeylen);
xfree (enckey);
pkt.pkttype = PKT_SYMKEY_ENC;
pkt.pkt.symkey_enc = enc;
if ((rc=build_packet(out,&pkt)))
log_error("build symkey_enc packet failed: %s\n",gpg_strerror (rc));
xfree (enc);
return rc;
}
/*
* Encrypt the file with the given userids (or ask if none is
* supplied). Either FILENAME or FILEFD must be given, but not both.
* The caller may provide a checked list of public keys in
* PROVIDED_KEYS; if not the function builds a list of keys on its own.
*
* Note that FILEFD and OUTPUTFD are currently only used by
* cmd_encrypt in the not yet finished server.c.
*/
int
encrypt_crypt (ctrl_t ctrl, gnupg_fd_t filefd, const char *filename,
strlist_t remusr, int use_symkey, pk_list_t provided_keys,
gnupg_fd_t outputfd)
{
iobuf_t inp = NULL;
iobuf_t out = NULL;
PACKET pkt;
PKT_plaintext *pt = NULL;
DEK *symkey_dek = NULL;
STRING2KEY *symkey_s2k = NULL;
int rc = 0;
u32 filesize;
cipher_filter_context_t cfx;
armor_filter_context_t *afx = NULL;
compress_filter_context_t zfx;
text_filter_context_t tfx;
progress_filter_context_t *pfx;
PK_LIST pk_list;
int do_compress;
if (filefd != GNUPG_INVALID_FD && filename)
return gpg_error (GPG_ERR_INV_ARG); /* Both given. */
do_compress = !!opt.compress_algo;
pfx = new_progress_context ();
memset( &cfx, 0, sizeof cfx);
memset( &zfx, 0, sizeof zfx);
memset( &tfx, 0, sizeof tfx);
init_packet(&pkt);
if (use_symkey
&& (rc=setup_symkey(&symkey_s2k,&symkey_dek)))
{
release_progress_context (pfx);
return rc;
}
if (provided_keys)
pk_list = provided_keys;
else
{
if ((rc = build_pk_list (ctrl, remusr, &pk_list)))
{
release_progress_context (pfx);
return rc;
}
}
/* Prepare iobufs. */
#ifdef HAVE_W32_SYSTEM
if (filefd == GNUPG_INVALID_FD)
inp = iobuf_open (filename);
else
{
inp = NULL;
gpg_err_set_errno (ENOSYS);
}
#else
if (filefd == GNUPG_INVALID_FD)
inp = iobuf_open (filename);
else
inp = iobuf_fdopen_nc (filefd, "rb");
#endif
if (inp)
iobuf_ioctl (inp, IOBUF_IOCTL_NO_CACHE, 1, NULL);
if (inp && is_secured_file (iobuf_get_fd (inp)))
{
iobuf_close (inp);
inp = NULL;
gpg_err_set_errno (EPERM);
}
if (!inp)
{
char xname[64];
rc = gpg_error_from_syserror ();
if (filefd != GNUPG_INVALID_FD)
snprintf (xname, sizeof xname, "[fd %d]", FD_DBG (filefd));
else if (!filename)
strcpy (xname, "[stdin]");
else
*xname = 0;
log_error (_("can't open '%s': %s\n"),
*xname? xname : filename, gpg_strerror (rc) );
goto leave;
}
if (opt.verbose)
log_info (_("reading from '%s'\n"), iobuf_get_fname_nonnull (inp));
handle_progress (pfx, inp, filename);
if (opt.textmode)
iobuf_push_filter (inp, text_filter, &tfx);
rc = open_outfile (outputfd, filename, opt.armor? 1:0, 0, &out);
if (rc)
goto leave;
if (opt.armor)
{
afx = new_armor_context ();
push_armor_filter (afx, out);
}
/* Create a session key. */
cfx.dek = create_dek_with_warnings (pk_list);
rc = check_encryption_compliance (cfx.dek, pk_list);
if (rc)
goto leave;
cfx.dek->use_aead = use_aead (pk_list, cfx.dek->algo);
if (!cfx.dek->use_aead)
cfx.dek->use_mdc = !!use_mdc (pk_list, cfx.dek->algo);
make_session_key (cfx.dek);
if (DBG_CRYPTO)
log_printhex (cfx.dek->key, cfx.dek->keylen, "DEK is: ");
rc = write_pubkey_enc_from_list (ctrl, pk_list, cfx.dek, out);
if (rc)
goto leave;
/* We put the passphrase (if any) after any public keys as this
* seems to be the most useful on the recipient side - there is no
* point in prompting a user for a passphrase if they have the
* secret key needed to decrypt. */
if (use_symkey && (rc = write_symkey_enc (symkey_s2k, cfx.dek->use_aead,
symkey_dek, cfx.dek, out)))
goto leave;
if (!opt.no_literal)
pt = setup_plaintext_name (filename, inp);
/* Get the size of the file if possible, i.e., if it is a real file. */
if (filename && *filename
&& !iobuf_is_pipe_filename (filename) && !opt.textmode )
{
uint64_t tmpsize;
tmpsize = iobuf_get_filelength (inp);
if (!tmpsize && opt.verbose)
log_info(_("WARNING: '%s' is an empty file\n"), filename );
/* We can't encode the length of very large files because
OpenPGP uses only 32 bit for file sizes. So if the size
of a file is larger than 2^32 minus some bytes for packet
headers, we switch to partial length encoding. */
if (tmpsize < (IOBUF_FILELENGTH_LIMIT - 65536) )
filesize = tmpsize;
else
filesize = 0;
}
else
filesize = opt.set_filesize ? opt.set_filesize : 0; /* stdin */
/* Register the cipher filter. */
iobuf_push_filter (out,
cfx.dek->use_aead? cipher_filter_aead
/**/ : cipher_filter_cfb,
&cfx);
/* Only do the is-file-already-compressed check if we are using a
* MDC or AEAD. This forces compressed files to be re-compressed if
* we do not have a MDC to give some protection against chosen
* ciphertext attacks. */
if (do_compress
&& (cfx.dek->use_mdc || cfx.dek->use_aead)
&& !opt.explicit_compress_option
&& is_file_compressed (inp))
{
if (opt.verbose)
log_info(_("'%s' already compressed\n"), filename? filename: "[stdin]");
do_compress = 0;
}
if (!opt.no_literal)
{
pt->timestamp = make_timestamp();
pt->mode = opt.mimemode? 'm' : opt.textmode ? 't' : 'b';
pt->len = filesize;
pt->new_ctb = !pt->len;
pt->buf = inp;
pkt.pkttype = PKT_PLAINTEXT;
pkt.pkt.plaintext = pt;
cfx.datalen = filesize && !do_compress? calc_packet_length( &pkt ) : 0;
}
else
cfx.datalen = filesize && !do_compress ? filesize : 0;
/* Register the compress filter. */
if (do_compress)
{
int compr_algo = opt.compress_algo;
if (compr_algo == -1)
{
compr_algo = select_algo_from_prefs (pk_list, PREFTYPE_ZIP, -1, NULL);
if (compr_algo == -1)
compr_algo = DEFAULT_COMPRESS_ALGO;
/* Theoretically impossible to get here since uncompressed
is implicit. */
}
else if (!opt.expert
&& select_algo_from_prefs(pk_list, PREFTYPE_ZIP,
compr_algo, NULL) != compr_algo)
{
log_info (_("WARNING: forcing compression algorithm %s (%d)"
" violates recipient preferences\n"),
compress_algo_to_string(compr_algo), compr_algo);
}
/* Algo 0 means no compression. */
if (compr_algo)
{
if (cfx.dek && (cfx.dek->use_mdc || cfx.dek->use_aead))
zfx.new_ctb = 1;
push_compress_filter (out,&zfx,compr_algo);
}
}
/* Do the work. */
if (!opt.no_literal)
{
if ((rc = build_packet( out, &pkt )))
log_error ("build_packet failed: %s\n", gpg_strerror (rc));
}
else
{
/* User requested not to create a literal packet, so we copy the
plain data. */
iobuf_copy (out, inp);
if ((rc = iobuf_error (inp)))
log_error (_("error reading '%s': %s\n"),
iobuf_get_fname_nonnull (inp), gpg_strerror (rc));
else if ((rc = iobuf_error (out)))
log_error (_("error writing '%s': %s\n"),
iobuf_get_fname_nonnull (out), gpg_strerror (rc));
}
/* Finish the stuff. */
leave:
iobuf_close (inp);
if (rc)
iobuf_cancel (out);
else
{
iobuf_close (out); /* fixme: check returncode */
write_status (STATUS_END_ENCRYPTION);
}
if (pt)
pt->buf = NULL;
free_packet (&pkt, NULL);
xfree (cfx.dek);
xfree (symkey_dek);
xfree (symkey_s2k);
if (!provided_keys)
release_pk_list (pk_list);
release_armor_context (afx);
release_progress_context (pfx);
return rc;
}
/* Re-encrypt files with a set of new recipients. Note that this
* function is called by decrypt_message. INFP is the iobuf from the
* input file which is positioned right after the pubkey_enc and
* symkey_enc packets. */
gpg_error_t
reencrypt_to_new_recipients (ctrl_t ctrl, int armor, const char *filename,
iobuf_t infp, strlist_t recipients,
DEK *dek, struct pubkey_enc_list *pkenc_list)
{
gpg_error_t err;
int save_no_encrypt_to;
pk_list_t newpk_list = NULL;
iobuf_t outfp = NULL;
armor_filter_context_t *outafx = NULL;
PACKET pkt;
struct pubkey_enc_list *el;
unsigned int count;
/* Get the keys for all additional recipients but do not encrypt to
* the encrypt-to keys. */
save_no_encrypt_to = opt.no_encrypt_to;
opt.no_encrypt_to = 1;
err = build_pk_list (ctrl, recipients, &newpk_list);
opt.no_encrypt_to = save_no_encrypt_to;
if (err)
goto leave;
/* Note that we use by default the suffixes .gpg or .asc */
err = open_outfile (GNUPG_INVALID_FD, filename, armor? 1:0, 0, &outfp);
if (err)
goto leave;
if (armor)
{
outafx = new_armor_context ();
push_armor_filter (outafx, outfp);
}
/* Write the new recipients first. */
err = write_pubkey_enc_from_list (ctrl, newpk_list, dek, outfp);
if (err)
goto leave;
/* The write the old recipients in --add-recipients mode. */
for (count=0, el = pkenc_list; el; el = el->next, count++)
if (!ctrl->clear_recipients)
{
if (opt.verbose)
show_encrypted_for_user_info (ctrl, 0, &el->d, dek);
init_packet (&pkt);
pkt.pkttype = PKT_PUBKEY_ENC;
pkt.pkt.pubkey_enc = &el->d;
err = build_packet (outfp, &pkt);
if (err)
log_error ("build_packet(pubkey_enc) failed: %s\n",
gpg_strerror (err));
}
if (ctrl->clear_recipients && opt.verbose)
log_info (_("number of removed recipients: %u\n"), count);
iobuf_put (outfp, ctrl->last_read_ctb);
/* Finally copy the bulk of the message. */
iobuf_copy (outfp, infp);
if ((err = iobuf_error (infp)))
log_error (_("error reading '%s': %s\n"),
iobuf_get_fname_nonnull (infp), gpg_strerror (err));
else if ((err = iobuf_error (outfp)))
log_error (_("error writing '%s': %s\n"),
iobuf_get_fname_nonnull (outfp), gpg_strerror (err));
leave:
if (err)
iobuf_cancel (outfp);
else
iobuf_close (outfp);
release_armor_context (outafx);
release_pk_list (newpk_list);
return err;
}
/*
* Filter to do a complete public key encryption.
*/
int
encrypt_filter (void *opaque, int control,
iobuf_t a, byte *buf, size_t *ret_len)
{
size_t size = *ret_len;
encrypt_filter_context_t *efx = opaque;
int rc = 0;
if (control == IOBUFCTRL_UNDERFLOW) /* decrypt */
{
BUG(); /* not used */
}
else if ( control == IOBUFCTRL_FLUSH ) /* encrypt */
{
if ( !efx->header_okay )
{
efx->header_okay = 1;
efx->cfx.dek = create_dek_with_warnings (efx->pk_list);
rc = check_encryption_compliance (efx->cfx.dek, efx->pk_list);
if (rc)
return rc;
efx->cfx.dek->use_aead = use_aead (efx->pk_list, efx->cfx.dek->algo);
if (!efx->cfx.dek->use_aead)
efx->cfx.dek->use_mdc = !!use_mdc (efx->pk_list,efx->cfx.dek->algo);
make_session_key ( efx->cfx.dek );
if (DBG_CRYPTO)
log_printhex (efx->cfx.dek->key, efx->cfx.dek->keylen, "DEK is: ");
rc = write_pubkey_enc_from_list (efx->ctrl,
efx->pk_list, efx->cfx.dek, a);
if (rc)
return rc;
if(efx->symkey_s2k && efx->symkey_dek)
{
rc = write_symkey_enc (efx->symkey_s2k, efx->cfx.dek->use_aead,
efx->symkey_dek, efx->cfx.dek, a);
if (rc)
return rc;
}
iobuf_push_filter (a,
efx->cfx.dek->use_aead? cipher_filter_aead
/**/ : cipher_filter_cfb,
&efx->cfx);
}
rc = iobuf_write (a, buf, size);
}
else if (control == IOBUFCTRL_FREE)
{
xfree (efx->symkey_dek);
xfree (efx->symkey_s2k);
}
else if ( control == IOBUFCTRL_DESC )
{
mem2str (buf, "encrypt_filter", *ret_len);
}
return rc;
}
/*
* Write a pubkey-enc packet for the public key PK to OUT.
*/
int
write_pubkey_enc (ctrl_t ctrl,
PKT_public_key *pk, int throw_keyid, DEK *dek, iobuf_t out)
{
PACKET pkt;
PKT_pubkey_enc *enc;
int rc;
gcry_mpi_t frame;
print_pubkey_algo_note ( pk->pubkey_algo );
enc = xmalloc_clear ( sizeof *enc );
enc->pubkey_algo = pk->pubkey_algo;
keyid_from_pk( pk, enc->keyid );
enc->throw_keyid = throw_keyid;
enc->seskey_algo = dek->algo; /* (Used only by PUBKEY_ALGO_KYBER.) */
/* Okay, what's going on: We have the session key somewhere in
* the structure DEK and want to encode this session key in an
* integer value of n bits. pubkey_nbits gives us the number of
* bits we have to use. We then encode the session key in some
* way and we get it back in the big integer value FRAME. Then
* we use FRAME, the public key PK->PKEY and the algorithm
* number PK->PUBKEY_ALGO and pass it to pubkey_encrypt which
* returns the encrypted value in the array ENC->DATA. This
* array has a size which depends on the used algorithm (e.g. 2
* for Elgamal). We don't need frame anymore because we have
* everything now in enc->data which is the passed to
* build_packet(). */
frame = encode_session_key (pk->pubkey_algo, dek,
pubkey_nbits (pk->pubkey_algo, pk->pkey));
rc = pk_encrypt (pk, frame, dek->algo, enc->data);
gcry_mpi_release (frame);
if (rc)
log_error ("pubkey_encrypt failed: %s\n", gpg_strerror (rc) );
else
{
if ( opt.verbose )
show_encrypted_for_user_info (ctrl, pk->pubkey_usage, enc, dek);
/* And write it. */
init_packet (&pkt);
pkt.pkttype = PKT_PUBKEY_ENC;
pkt.pkt.pubkey_enc = enc;
rc = build_packet (out, &pkt);
if (rc)
log_error ("build_packet(pubkey_enc) failed: %s\n",
gpg_strerror (rc));
}
free_pubkey_enc(enc);
return rc;
}
/*
* Write pubkey-enc packets from the list of PKs to OUT.
*/
static int
write_pubkey_enc_from_list (ctrl_t ctrl, PK_LIST pk_list, DEK *dek, iobuf_t out)
{
if (opt.throw_keyids && (PGP7 || PGP8))
{
log_info(_("option '%s' may not be used in %s mode\n"),
"--throw-keyids",
gnupg_compliance_option_string (opt.compliance));
compliance_failure();
}
for ( ; pk_list; pk_list = pk_list->next )
{
PKT_public_key *pk = pk_list->pk;
int throw_keyid = (opt.throw_keyids || (pk_list->flags&1));
int rc = write_pubkey_enc (ctrl, pk, throw_keyid, dek, out);
if (rc)
return rc;
}
return 0;
}
void
encrypt_crypt_files (ctrl_t ctrl, int nfiles, char **files, strlist_t remusr)
{
int rc = 0;
if (opt.outfile)
{
log_error(_("--output doesn't work for this command\n"));
return;
}
if (!nfiles)
{
char line[2048];
unsigned int lno = 0;
while ( fgets(line, DIM(line), stdin) )
{
lno++;
if (!*line || line[strlen(line)-1] != '\n')
{
log_error("input line %u too long or missing LF\n", lno);
return;
}
line[strlen(line)-1] = '\0';
print_file_status(STATUS_FILE_START, line, 2);
rc = encrypt_crypt (ctrl, GNUPG_INVALID_FD, line, remusr,
0, NULL, GNUPG_INVALID_FD);
if (rc)
log_error ("encryption of '%s' failed: %s\n",
print_fname_stdin(line), gpg_strerror (rc) );
write_status( STATUS_FILE_DONE );
}
}
else
{
while (nfiles--)
{
print_file_status(STATUS_FILE_START, *files, 2);
if ((rc = encrypt_crypt (ctrl, GNUPG_INVALID_FD, *files, remusr,
0, NULL, GNUPG_INVALID_FD)))
log_error("encryption of '%s' failed: %s\n",
print_fname_stdin(*files), gpg_strerror (rc) );
write_status( STATUS_FILE_DONE );
files++;
}
}
}