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gnupg/g10/misc.c

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/* misc.c - miscellaneous functions
* Copyright (C) 1998, 1999, 2000 Free Software Foundation, Inc.
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*
* This file is part of GnuPG.
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*
* GnuPG is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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#include <errno.h>
#if defined(__linux__) && defined(__alpha__) && __GLIBC__ < 2
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#include <asm/sysinfo.h>
#include <asm/unistd.h>
#endif
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#ifdef HAVE_SETRLIMIT
#include <sys/time.h>
#include <sys/resource.h>
#endif
#include <assert.h>
#include <gcrypt.h>
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#include "util.h"
#include "main.h"
#include "options.h"
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#include "i18n.h"
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#define MAX_EXTERN_MPI_BITS 16384
#if defined(__linux__) && defined(__alpha__) && __GLIBC__ < 2
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#warning using trap_unaligned
static int
setsysinfo(unsigned long op, void *buffer, unsigned long size,
int *start, void *arg, unsigned long flag)
{
return syscall(__NR_osf_setsysinfo, op, buffer, size, start, arg, flag);
}
void
trap_unaligned(void)
{
unsigned int buf[2];
buf[0] = SSIN_UACPROC;
buf[1] = UAC_SIGBUS | UAC_NOPRINT;
setsysinfo(SSI_NVPAIRS, buf, 1, 0, 0, 0);
}
#else
void
trap_unaligned(void)
{ /* dummy */
}
#endif
int
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disable_core_dumps()
{
#ifdef HAVE_DOSISH_SYSTEM
return 0;
#else
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#ifdef HAVE_SETRLIMIT
struct rlimit limit;
limit.rlim_cur = 0;
limit.rlim_max = 0;
if( !setrlimit( RLIMIT_CORE, &limit ) )
return 0;
if( errno != EINVAL && errno != ENOSYS )
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log_fatal(_("can't disable core dumps: %s\n"), strerror(errno) );
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#endif
return 1;
#endif
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}
/****************
* write an mpi to out.
*/
int
mpi_write( IOBUF out, MPI a )
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{
char buffer[(MAX_EXTERN_MPI_BITS+7)/8];
size_t nbytes;
int rc;
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nbytes = (MAX_EXTERN_MPI_BITS+7)/8;
rc = gcry_mpi_print( GCRYMPI_FMT_PGP, buffer, &nbytes, a );
if( !rc )
rc = iobuf_write( out, buffer, nbytes );
return rc;
}
/****************
* Writye a MPI to out, but in this case it is an opaque one,
* s used vor v3 protected keys.
*/
int
mpi_write_opaque( IOBUF out, MPI a )
{
size_t nbytes, nbits;
int rc;
char *p;
assert( gcry_mpi_get_flag( a, GCRYMPI_FLAG_OPAQUE ) );
p = gcry_mpi_get_opaque( a, &nbits );
nbytes = (nbits+7) / 8;
iobuf_put( out, nbits >> 8 );
iobuf_put( out, nbits );
rc = iobuf_write( out, p, nbytes );
return rc;
}
/****************
* Read an external representation of an mpi and return the MPI
* The external format is a 16 bit unsigned value stored in network byte order,
* giving the number of bits for the following integer. The integer is stored
* with MSB first (left padded with zeroes to align on a byte boundary).
*/
MPI
mpi_read(IOBUF inp, unsigned int *ret_nread, int secure)
{
int c, c1, c2, i;
unsigned int nbits, nbytes, nread=0;
MPI a = NULL;
byte *buf = NULL;
byte *p;
if( (c = c1 = iobuf_get(inp)) == -1 )
goto leave;
nbits = c << 8;
if( (c = c2 = iobuf_get(inp)) == -1 )
goto leave;
nbits |= c;
if( nbits > MAX_EXTERN_MPI_BITS ) {
log_error("mpi too large (%u bits)\n", nbits);
goto leave;
}
nread = 2;
nbytes = (nbits+7) / 8;
buf = secure? gcry_xmalloc_secure( nbytes+2 ) : gcry_xmalloc( nbytes+2 );
p = buf;
p[0] = c1;
p[1] = c2;
for( i=0 ; i < nbytes; i++ ) {
p[i+2] = iobuf_get(inp) & 0xff;
nread++;
}
nread += nbytes;
if( gcry_mpi_scan( &a, GCRYMPI_FMT_PGP, buf, &nread ) )
a = NULL;
leave:
gcry_free(buf);
if( nread > *ret_nread )
log_bug("mpi larger than packet");
else
*ret_nread = nread;
return a;
}
/****************
* Same as mpi_read but the value is stored as an opaque MPI.
* This function is used to read encrypted MPI of v3 packets.
*/
GCRY_MPI
mpi_read_opaque(IOBUF inp, unsigned *ret_nread )
{
int c, c1, c2, i;
unsigned nbits, nbytes, nread=0;
GCRY_MPI a = NULL;
byte *buf = NULL;
byte *p;
if( (c = c1 = iobuf_get(inp)) == -1 )
goto leave;
nbits = c << 8;
if( (c = c2 = iobuf_get(inp)) == -1 )
goto leave;
nbits |= c;
if( nbits > MAX_EXTERN_MPI_BITS ) {
log_error("mpi too large (%u bits)\n", nbits);
goto leave;
}
nread = 2;
nbytes = (nbits+7) / 8;
buf = gcry_xmalloc( nbytes );
p = buf;
for( i=0 ; i < nbytes; i++ ) {
p[i] = iobuf_get(inp) & 0xff;
}
nread += nbytes;
a = gcry_mpi_set_opaque(NULL, buf, nbits );
buf = NULL;
leave:
gcry_free(buf);
if( nread > *ret_nread )
log_bug("mpi larger than packet");
else
*ret_nread = nread;
return a;
}
int
mpi_print( FILE *fp, MPI a, int mode )
{
int n=0;
if( !a )
return fprintf(fp, "[MPI_NULL]");
if( !mode ) {
unsigned int n1;
n1 = gcry_mpi_get_nbits(a);
n += fprintf(fp, "[%u bits]", n1);
}
else {
int rc;
char *buffer;
rc = gcry_mpi_aprint( GCRYMPI_FMT_HEX, (void **)&buffer, NULL, a );
assert( !rc );
fputs( buffer, fp );
n += strlen(buffer);
gcry_free( buffer );
}
return n;
}
u16
checksum_u16( unsigned n )
{
u16 a;
a = (n >> 8) & 0xff;
a += n & 0xff;
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return a;
}
u16
checksum( byte *p, unsigned n )
{
u16 a;
for(a=0; n; n-- )
a += *p++;
return a;
}
u16
checksum_mpi( MPI a )
{
int rc;
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u16 csum;
byte *buffer;
size_t nbytes;
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rc = gcry_mpi_print( GCRYMPI_FMT_PGP, NULL, &nbytes, a );
assert( !rc );
/* fixme: for numbers not in the suecre memory we
* should use a stack based buffer and only allocate
* a larger one when the mpi_print return an error
*/
buffer = gcry_is_secure(a)? gcry_xmalloc_secure(nbytes) : gcry_xmalloc(nbytes);
rc = gcry_mpi_print( GCRYMPI_FMT_PGP, buffer, &nbytes, a );
assert( !rc );
csum = checksum( buffer, nbytes );
gcry_free( buffer );
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return csum;
}
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u32
buffer_to_u32( const byte *buffer )
{
unsigned long a;
a = *buffer << 24;
a |= buffer[1] << 16;
a |= buffer[2] << 8;
a |= buffer[3];
return a;
}
static void
no_exp_algo(void)
{
static int did_note = 0;
if( !did_note ) {
did_note = 1;
log_info(_("Experimental algorithms should not be used!\n"));
}
}
void
print_pubkey_algo_note( int algo )
{
if( algo >= 100 && algo <= 110 )
no_exp_algo();
}
void
print_cipher_algo_note( int algo )
{
if( algo >= 100 && algo <= 110 )
no_exp_algo();
else if( algo == GCRY_CIPHER_3DES
|| algo == GCRY_CIPHER_CAST5
|| algo == GCRY_CIPHER_BLOWFISH
|| algo == GCRY_CIPHER_RIJNDAEL
|| algo == GCRY_CIPHER_TWOFISH
)
;
else {
static int did_note = 0;
if( !did_note ) {
did_note = 1;
log_info(_("this cipher algorithm is depreciated; "
"please use a more standard one!\n"));
}
}
}
void
print_digest_algo_note( int algo )
{
if( algo >= 100 && algo <= 110 )
no_exp_algo();
}
/****************
* Wrapper around the libgcrypt function with addional checks on
* openPGP contraints for the algo ID.
*/
int
openpgp_cipher_test_algo( int algo )
{
if( algo < 0 || algo > 110 )
return GCRYERR_INV_CIPHER_ALGO;
return gcry_cipher_test_algo(algo);
}
int
openpgp_pk_test_algo( int algo, unsigned int usage_flags )
{
size_t n = usage_flags;
if( algo < 0 || algo > 110 )
return GCRYERR_INV_PK_ALGO;
return gcry_pk_algo_info( algo, GCRYCTL_TEST_ALGO, NULL, &n );
}
int
openpgp_pk_algo_usage ( int algo )
{
int usage = 0;
/* some are hardwired */
switch ( algo ) {
case GCRY_PK_RSA:
usage = GCRY_PK_USAGE_SIGN | GCRY_PK_USAGE_ENCR;
break;
case GCRY_PK_RSA_E:
usage = GCRY_PK_USAGE_ENCR;
break;
case GCRY_PK_RSA_S:
usage = GCRY_PK_USAGE_SIGN;
break;
case GCRY_PK_ELG_E:
usage = GCRY_PK_USAGE_ENCR;
break;
case GCRY_PK_DSA:
usage = GCRY_PK_USAGE_SIGN;
break;
case GCRY_PK_ELG:
usage = GCRY_PK_USAGE_SIGN | GCRY_PK_USAGE_ENCR;
break;
default:
usage = gcry_pk_algo_info ( algo, GCRYCTL_GET_ALGO_USAGE,
NULL, NULL);
}
return usage;
}
int
openpgp_md_test_algo( int algo )
{
if( algo < 0 || algo > 110 )
return GCRYERR_INV_MD_ALGO;
return gcry_md_test_algo(algo);
}
int
pubkey_get_npkey( int algo )
{
int n = gcry_pk_algo_info( algo, GCRYCTL_GET_ALGO_NPKEY, NULL, 0 );
return n > 0? n : 0;
}
int
pubkey_get_nskey( int algo )
{
int n = gcry_pk_algo_info( algo, GCRYCTL_GET_ALGO_NSKEY, NULL, 0 );
return n > 0? n : 0;
}
int
pubkey_get_nsig( int algo )
{
int n = gcry_pk_algo_info( algo, GCRYCTL_GET_ALGO_NSIGN, NULL, 0 );
return n > 0? n : 0;
}
int
pubkey_get_nenc( int algo )
{
int n = gcry_pk_algo_info( algo, GCRYCTL_GET_ALGO_NENCR, NULL, 0 );
return n > 0? n : 0;
}
unsigned int
pubkey_nbits( int algo, MPI *key )
{
int rc, nbits;
GCRY_SEXP sexp;
if( algo == GCRY_PK_DSA ) {
rc = gcry_sexp_build ( &sexp, NULL,
"(public-key(dsa(p%m)(q%m)(g%m)(y%m)))",
key[0], key[1], key[2], key[3] );
}
else if( algo == GCRY_PK_ELG || algo == GCRY_PK_ELG_E ) {
rc = gcry_sexp_build ( &sexp, NULL,
"(public-key(elg(p%m)(g%m)(y%m)))",
key[0], key[1], key[2] );
}
else if( algo == GCRY_PK_RSA ) {
rc = gcry_sexp_build ( &sexp, NULL,
"(public-key(rsa(n%m)(e%m)))",
key[0], key[1] );
}
else
return 0;
if ( rc )
BUG ();
nbits = gcry_pk_get_nbits( sexp );
gcry_sexp_release( sexp );
return nbits;
}