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opnsense-src/crypto/openssl/apps/genrsa.c
Pierre Pronchery b077aed33b Merge OpenSSL 3.0.9 
Migrate to OpenSSL 3.0 in advance of FreeBSD 14.0.  OpenSSL 1.1.1 (the
version we were previously using) will be EOL as of 2023-09-11.

Most of the base system has already been updated for a seamless switch
to OpenSSL 3.0.  For many components we've added
`-DOPENSSL_API_COMPAT=0x10100000L` to CFLAGS to specify the API version,
which avoids deprecation warnings from OpenSSL 3.0.  Changes have also
been made to avoid OpenSSL APIs that were already deprecated in OpenSSL
1.1.1.  The process of updating to contemporary APIs can continue after
this merge.

Additional changes are still required for libarchive and Kerberos-
related libraries or tools; workarounds will immediately follow this
commit.  Fixes are in progress in the upstream projects and will be
incorporated when those are next updated.

There are some performance regressions in benchmarks (certain tests in
`openssl speed`) and in some OpenSSL consumers in ports (e.g.  haproxy).
Investigation will continue for these.

Netflix's testing showed no functional regression and a rather small,
albeit statistically significant, increase in CPU consumption with
OpenSSL 3.0.

Thanks to ngie@ and des@ for updating base system components, to
antoine@ and bofh@ for ports exp-runs and port fixes/workarounds, and to
Netflix and everyone who tested prior to commit or contributed to this
update in other ways.

PR:		271615
PR:		271656 [exp-run]
Relnotes:	Yes
Sponsored by:	The FreeBSD Foundation
2023-06-23 18:53:36 -04:00

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/*
* Copyright 1995-2022 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
#include <openssl/opensslconf.h>
#include <stdio.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "apps.h"
#include "progs.h"
#include <openssl/bio.h>
#include <openssl/err.h>
#include <openssl/bn.h>
#include <openssl/rsa.h>
#include <openssl/evp.h>
#include <openssl/x509.h>
#include <openssl/pem.h>
#include <openssl/rand.h>
#define DEFBITS 2048
#define DEFPRIMES 2
static int verbose = 0;
static int genrsa_cb(EVP_PKEY_CTX *ctx);
typedef enum OPTION_choice {
OPT_COMMON,
#ifndef OPENSSL_NO_DEPRECATED_3_0
OPT_3,
#endif
OPT_F4, OPT_ENGINE,
OPT_OUT, OPT_PASSOUT, OPT_CIPHER, OPT_PRIMES, OPT_VERBOSE,
OPT_R_ENUM, OPT_PROV_ENUM, OPT_TRADITIONAL
} OPTION_CHOICE;
const OPTIONS genrsa_options[] = {
{OPT_HELP_STR, 1, '-', "Usage: %s [options] numbits\n"},
OPT_SECTION("General"),
{"help", OPT_HELP, '-', "Display this summary"},
#ifndef OPENSSL_NO_ENGINE
{"engine", OPT_ENGINE, 's', "Use engine, possibly a hardware device"},
#endif
OPT_SECTION("Input"),
#ifndef OPENSSL_NO_DEPRECATED_3_0
{"3", OPT_3, '-', "(deprecated) Use 3 for the E value"},
#endif
{"F4", OPT_F4, '-', "Use the Fermat number F4 (0x10001) for the E value"},
{"f4", OPT_F4, '-', "Use the Fermat number F4 (0x10001) for the E value"},
OPT_SECTION("Output"),
{"out", OPT_OUT, '>', "Output the key to specified file"},
{"passout", OPT_PASSOUT, 's', "Output file pass phrase source"},
{"primes", OPT_PRIMES, 'p', "Specify number of primes"},
{"verbose", OPT_VERBOSE, '-', "Verbose output"},
{"traditional", OPT_TRADITIONAL, '-',
"Use traditional format for private keys"},
{"", OPT_CIPHER, '-', "Encrypt the output with any supported cipher"},
OPT_R_OPTIONS,
OPT_PROV_OPTIONS,
OPT_PARAMETERS(),
{"numbits", 0, 0, "Size of key in bits"},
{NULL}
};
int genrsa_main(int argc, char **argv)
{
BN_GENCB *cb = BN_GENCB_new();
ENGINE *eng = NULL;
BIGNUM *bn = BN_new();
BIO *out = NULL;
EVP_PKEY *pkey = NULL;
EVP_PKEY_CTX *ctx = NULL;
EVP_CIPHER *enc = NULL;
int ret = 1, num = DEFBITS, private = 0, primes = DEFPRIMES;
unsigned long f4 = RSA_F4;
char *outfile = NULL, *passoutarg = NULL, *passout = NULL;
char *prog, *hexe, *dece, *ciphername = NULL;
OPTION_CHOICE o;
int traditional = 0;
if (bn == NULL || cb == NULL)
goto end;
prog = opt_init(argc, argv, genrsa_options);
while ((o = opt_next()) != OPT_EOF) {
switch (o) {
case OPT_EOF:
case OPT_ERR:
opthelp:
BIO_printf(bio_err, "%s: Use -help for summary.\n", prog);
goto end;
case OPT_HELP:
ret = 0;
opt_help(genrsa_options);
goto end;
#ifndef OPENSSL_NO_DEPRECATED_3_0
case OPT_3:
f4 = RSA_3;
break;
#endif
case OPT_F4:
f4 = RSA_F4;
break;
case OPT_OUT:
outfile = opt_arg();
break;
case OPT_ENGINE:
eng = setup_engine(opt_arg(), 0);
break;
case OPT_R_CASES:
if (!opt_rand(o))
goto end;
break;
case OPT_PROV_CASES:
if (!opt_provider(o))
goto end;
break;
case OPT_PASSOUT:
passoutarg = opt_arg();
break;
case OPT_CIPHER:
ciphername = opt_unknown();
break;
case OPT_PRIMES:
primes = opt_int_arg();
break;
case OPT_VERBOSE:
verbose = 1;
break;
case OPT_TRADITIONAL:
traditional = 1;
break;
}
}
/* One optional argument, the bitsize. */
argc = opt_num_rest();
argv = opt_rest();
if (argc == 1) {
if (!opt_int(argv[0], &num) || num <= 0)
goto end;
if (num > OPENSSL_RSA_MAX_MODULUS_BITS)
BIO_printf(bio_err,
"Warning: It is not recommended to use more than %d bit for RSA keys.\n"
" Your key size is %d! Larger key size may behave not as expected.\n",
OPENSSL_RSA_MAX_MODULUS_BITS, num);
} else if (argc > 0) {
BIO_printf(bio_err, "Extra arguments given.\n");
goto opthelp;
}
if (!app_RAND_load())
goto end;
private = 1;
if (ciphername != NULL) {
if (!opt_cipher(ciphername, &enc))
goto end;
}
if (!app_passwd(NULL, passoutarg, NULL, &passout)) {
BIO_printf(bio_err, "Error getting password\n");
goto end;
}
out = bio_open_owner(outfile, FORMAT_PEM, private);
if (out == NULL)
goto end;
if (!init_gen_str(&ctx, "RSA", eng, 0, app_get0_libctx(),
app_get0_propq()))
goto end;
EVP_PKEY_CTX_set_cb(ctx, genrsa_cb);
EVP_PKEY_CTX_set_app_data(ctx, bio_err);
if (EVP_PKEY_CTX_set_rsa_keygen_bits(ctx, num) <= 0) {
BIO_printf(bio_err, "Error setting RSA length\n");
goto end;
}
if (!BN_set_word(bn, f4)) {
BIO_printf(bio_err, "Error allocating RSA public exponent\n");
goto end;
}
if (EVP_PKEY_CTX_set1_rsa_keygen_pubexp(ctx, bn) <= 0) {
BIO_printf(bio_err, "Error setting RSA public exponent\n");
goto end;
}
if (EVP_PKEY_CTX_set_rsa_keygen_primes(ctx, primes) <= 0) {
BIO_printf(bio_err, "Error setting number of primes\n");
goto end;
}
pkey = app_keygen(ctx, "RSA", num, verbose);
if (verbose) {
BIGNUM *e = NULL;
/* Every RSA key has an 'e' */
EVP_PKEY_get_bn_param(pkey, "e", &e);
if (e == NULL) {
BIO_printf(bio_err, "Error cannot access RSA e\n");
goto end;
}
hexe = BN_bn2hex(e);
dece = BN_bn2dec(e);
if (hexe && dece) {
BIO_printf(bio_err, "e is %s (0x%s)\n", dece, hexe);
}
OPENSSL_free(hexe);
OPENSSL_free(dece);
BN_free(e);
}
if (traditional) {
if (!PEM_write_bio_PrivateKey_traditional(out, pkey, enc, NULL, 0,
NULL, passout))
goto end;
} else {
if (!PEM_write_bio_PrivateKey(out, pkey, enc, NULL, 0, NULL, passout))
goto end;
}
ret = 0;
end:
BN_free(bn);
BN_GENCB_free(cb);
EVP_PKEY_CTX_free(ctx);
EVP_PKEY_free(pkey);
EVP_CIPHER_free(enc);
BIO_free_all(out);
release_engine(eng);
OPENSSL_free(passout);
if (ret != 0)
ERR_print_errors(bio_err);
return ret;
}
static int genrsa_cb(EVP_PKEY_CTX *ctx)
{
char c = '*';
BIO *b = EVP_PKEY_CTX_get_app_data(ctx);
int p = EVP_PKEY_CTX_get_keygen_info(ctx, 0);
if (!verbose)
return 1;
if (p == 0)
c = '.';
if (p == 1)
c = '+';
if (p == 2)
c = '*';
if (p == 3)
c = '\n';
BIO_write(b, &c, 1);
(void)BIO_flush(b);
return 1;
}
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