openssl/crypto/x509/x509_set.c

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/*
* Copyright 1995-2017 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the OpenSSL license (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 <stdio.h>
#include "internal/cryptlib.h"
#include "internal/refcount.h"
#include <openssl/asn1.h>
#include <openssl/objects.h>
#include <openssl/evp.h>
#include <openssl/x509.h>
#include <openssl/x509v3.h>
#include "crypto/asn1.h"
#include "crypto/x509.h"
#include "x509_local.h"
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int X509_set_version(X509 *x, long version)
{
if (x == NULL)
return 0;
if (version == 0) {
ASN1_INTEGER_free(x->cert_info.version);
x->cert_info.version = NULL;
return 1;
}
if (x->cert_info.version == NULL) {
if ((x->cert_info.version = ASN1_INTEGER_new()) == NULL)
return 0;
}
return ASN1_INTEGER_set(x->cert_info.version, version);
}
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int X509_set_serialNumber(X509 *x, ASN1_INTEGER *serial)
{
ASN1_INTEGER *in;
if (x == NULL)
return 0;
in = &x->cert_info.serialNumber;
if (in != serial)
return ASN1_STRING_copy(in, serial);
return 1;
}
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int X509_set_issuer_name(X509 *x, X509_NAME *name)
{
if (x == NULL)
return 0;
return X509_NAME_set(&x->cert_info.issuer, name);
}
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int X509_set_subject_name(X509 *x, X509_NAME *name)
{
if (x == NULL)
return 0;
return X509_NAME_set(&x->cert_info.subject, name);
}
int x509_set1_time(ASN1_TIME **ptm, const ASN1_TIME *tm)
{
ASN1_TIME *in;
in = *ptm;
if (in != tm) {
in = ASN1_STRING_dup(tm);
if (in != NULL) {
ASN1_TIME_free(*ptm);
*ptm = in;
}
}
return (in != NULL);
}
int X509_set1_notBefore(X509 *x, const ASN1_TIME *tm)
{
if (x == NULL)
return 0;
return x509_set1_time(&x->cert_info.validity.notBefore, tm);
}
int X509_set1_notAfter(X509 *x, const ASN1_TIME *tm)
{
if (x == NULL)
return 0;
return x509_set1_time(&x->cert_info.validity.notAfter, tm);
}
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int X509_set_pubkey(X509 *x, EVP_PKEY *pkey)
{
if (x == NULL)
return 0;
return X509_PUBKEY_set(&(x->cert_info.key), pkey);
}
int X509_up_ref(X509 *x)
{
int i;
if (CRYPTO_UP_REF(&x->references, &i, x->lock) <= 0)
return 0;
REF_PRINT_COUNT("X509", x);
REF_ASSERT_ISNT(i < 2);
return ((i > 1) ? 1 : 0);
}
long X509_get_version(const X509 *x)
{
return ASN1_INTEGER_get(x->cert_info.version);
}
const ASN1_TIME *X509_get0_notBefore(const X509 *x)
{
return x->cert_info.validity.notBefore;
}
const ASN1_TIME *X509_get0_notAfter(const X509 *x)
{
return x->cert_info.validity.notAfter;
}
ASN1_TIME *X509_getm_notBefore(const X509 *x)
{
return x->cert_info.validity.notBefore;
}
ASN1_TIME *X509_getm_notAfter(const X509 *x)
{
return x->cert_info.validity.notAfter;
}
int X509_get_signature_type(const X509 *x)
{
return EVP_PKEY_type(OBJ_obj2nid(x->sig_alg.algorithm));
}
X509_PUBKEY *X509_get_X509_PUBKEY(const X509 *x)
{
return x->cert_info.key;
}
const STACK_OF(X509_EXTENSION) *X509_get0_extensions(const X509 *x)
{
return x->cert_info.extensions;
}
void X509_get0_uids(const X509 *x, const ASN1_BIT_STRING **piuid,
const ASN1_BIT_STRING **psuid)
{
if (piuid != NULL)
*piuid = x->cert_info.issuerUID;
if (psuid != NULL)
*psuid = x->cert_info.subjectUID;
}
const X509_ALGOR *X509_get0_tbs_sigalg(const X509 *x)
{
return &x->cert_info.signature;
}
int X509_SIG_INFO_get(const X509_SIG_INFO *siginf, int *mdnid, int *pknid,
int *secbits, uint32_t *flags)
{
if (mdnid != NULL)
*mdnid = siginf->mdnid;
if (pknid != NULL)
*pknid = siginf->pknid;
if (secbits != NULL)
*secbits = siginf->secbits;
if (flags != NULL)
*flags = siginf->flags;
return (siginf->flags & X509_SIG_INFO_VALID) != 0;
}
void X509_SIG_INFO_set(X509_SIG_INFO *siginf, int mdnid, int pknid,
int secbits, uint32_t flags)
{
siginf->mdnid = mdnid;
siginf->pknid = pknid;
siginf->secbits = secbits;
siginf->flags = flags;
}
int X509_get_signature_info(X509 *x, int *mdnid, int *pknid, int *secbits,
uint32_t *flags)
{
X509_check_purpose(x, -1, -1);
return X509_SIG_INFO_get(&x->siginf, mdnid, pknid, secbits, flags);
}
static void x509_sig_info_init(X509_SIG_INFO *siginf, const X509_ALGOR *alg,
const ASN1_STRING *sig)
{
int pknid, mdnid;
const EVP_MD *md;
siginf->mdnid = NID_undef;
siginf->pknid = NID_undef;
siginf->secbits = -1;
siginf->flags = 0;
if (!OBJ_find_sigid_algs(OBJ_obj2nid(alg->algorithm), &mdnid, &pknid)
|| pknid == NID_undef)
return;
siginf->pknid = pknid;
if (mdnid == NID_undef) {
/* If we have one, use a custom handler for this algorithm */
const EVP_PKEY_ASN1_METHOD *ameth = EVP_PKEY_asn1_find(NULL, pknid);
if (ameth == NULL || ameth->siginf_set == NULL
|| ameth->siginf_set(siginf, alg, sig) == 0)
return;
siginf->flags |= X509_SIG_INFO_VALID;
return;
}
siginf->flags |= X509_SIG_INFO_VALID;
siginf->mdnid = mdnid;
md = EVP_get_digestbynid(mdnid);
if (md == NULL)
return;
/* Security bits: half number of bits in digest */
siginf->secbits = EVP_MD_size(md) * 4;
/*
* SHA1 and MD5 are known to be broken. Reduce security bits so that
* they're no longer accepted at security level 1. The real values don't
* really matter as long as they're lower than 80, which is our security
* level 1.
* https://eprint.iacr.org/2020/014 puts a chosen-prefix attack for SHA1 at
* 2^63.4
* https://documents.epfl.ch/users/l/le/lenstra/public/papers/lat.pdf
* puts a chosen-prefix attack for MD5 at 2^39.
*/
if (mdnid == NID_sha1)
siginf->secbits = 63;
else if (mdnid == NID_md5)
siginf->secbits = 39;
switch (mdnid) {
case NID_sha1:
case NID_sha256:
case NID_sha384:
case NID_sha512:
siginf->flags |= X509_SIG_INFO_TLS;
}
}
void x509_init_sig_info(X509 *x)
{
x509_sig_info_init(&x->siginf, &x->sig_alg, &x->signature);
}