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ee9b01aa50e8862e80ff999b4f95fde68ee33669
heimdal/lib/hx509/cert.c
Love Hörnquist Åstrand 0efe7f3455 add _hx509_cert_get_keyusage 
git-svn-id: svn://svn.h5l.se/heimdal/trunk/heimdal@18025 ec53bebd-3082-4978-b11e-865c3cabbd6b
2006-09-05 20:52:35 +00:00

2018 lines
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/*
* Copyright (c) 2004 - 2006 Kungliga Tekniska Högskolan
* (Royal Institute of Technology, Stockholm, Sweden).
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include "hx_locl.h"
RCSID("$Id$");
#include "crypto-headers.h"
struct hx509_verify_ctx_data {
hx509_certs trust_anchors;
int flags;
#define HX509_VERIFY_CTX_F_TIME_SET 1
#define HX509_VERIFY_CTX_F_ALLOW_PROXY_CERTIFICATE 2
time_t time_now;
unsigned int max_depth;
#define HX509_VERIFY_MAX_DEPTH 30
hx509_revoke_ctx revoke_ctx;
};
struct _hx509_cert_attrs {
size_t len;
hx509_cert_attribute *val;
};
struct hx509_cert_data {
unsigned int ref;
char *friendlyname;
Certificate *data;
hx509_private_key private_key;
struct _hx509_cert_attrs attrs;
hx509_name basename;
_hx509_cert_release_func release;
void *ctx;
};
typedef struct hx509_name_constraints {
NameConstraints *val;
size_t len;
} hx509_name_constraints;
#define GeneralSubtrees_SET(g,var) \
(g)->len = (var)->len, (g)->val = (var)->val;
/*
*
*/
void
_hx509_abort(const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
vprintf(fmt, ap);
va_end(ap);
printf("\n");
fflush(stdout);
abort();
}
/*
*
*/
int
hx509_context_init(hx509_context *context)
{
*context = calloc(1, sizeof(**context));
if (*context == NULL)
return ENOMEM;
_hx509_ks_mem_register(*context);
_hx509_ks_file_register(*context);
_hx509_ks_pkcs12_register(*context);
_hx509_ks_pkcs11_register(*context);
_hx509_ks_dir_register(*context);
ENGINE_add_conf_module();
(*context)->ocsp_time_diff = HX509_DEFAULT_OCSP_TIME_DIFF;
initialize_hx_error_table_r(&(*context)->et_list);
return 0;
}
void
hx509_context_set_missing_revoke(hx509_context context, int flag)
{
if (flag)
context->flags |= HX509_CTX_VERIFY_MISSING_OK;
else
context->flags &= ~HX509_CTX_VERIFY_MISSING_OK;
}
void
hx509_context_free(hx509_context *context)
{
if ((*context)->ks_ops) {
free((*context)->ks_ops);
(*context)->ks_ops = NULL;
}
(*context)->ks_num_ops = 0;
free_error_table ((*context)->et_list);
free(*context);
*context = NULL;
}
/*
*
*/
Certificate *
_hx509_get_cert(hx509_cert cert)
{
return cert->data;
}
/*
*
*/
#if 0
void
_hx509_print_cert_subject(hx509_cert cert)
{
char *subject_name;
hx509_name name;
int ret;
ret = hx509_cert_get_subject(cert, &name);
if (ret)
abort();
ret = hx509_name_to_string(name, &subject_name);
hx509_name_free(&name);
if (ret)
abort();
printf("name: %s\n", subject_name);
free(subject_name);
}
#endif
/*
*
*/
int
_hx509_cert_get_version(const Certificate *t)
{
return t->tbsCertificate.version ? *t->tbsCertificate.version + 1 : 1;
}
int
hx509_cert_init(hx509_context context, const Certificate *c, hx509_cert *cert)
{
int ret;
*cert = malloc(sizeof(**cert));
if (*cert == NULL)
return ENOMEM;
(*cert)->ref = 1;
(*cert)->friendlyname = NULL;
(*cert)->attrs.len = 0;
(*cert)->attrs.val = NULL;
(*cert)->private_key = NULL;
(*cert)->basename = NULL;
(*cert)->release = NULL;
(*cert)->ctx = NULL;
(*cert)->data = malloc(sizeof(*(*cert)->data));
if ((*cert)->data == NULL) {
free(*cert);
return ENOMEM;
}
memset((*cert)->data, 0, sizeof(*(*cert)->data));
ret = copy_Certificate(c, (*cert)->data);
if (ret) {
free((*cert)->data);
free(*cert);
}
return ret;
}
void
_hx509_cert_set_release(hx509_cert cert,
_hx509_cert_release_func release,
void *ctx)
{
cert->release = release;
cert->ctx = ctx;
}
/* Doesn't make a copy of `private_key'. */
int
_hx509_cert_assign_key(hx509_cert cert, hx509_private_key private_key)
{
if (cert->private_key)
_hx509_free_private_key(&cert->private_key);
cert->private_key = private_key;
return 0;
}
void
hx509_cert_free(hx509_cert cert)
{
int i;
if (cert == NULL)
return;
if (cert->ref <= 0)
_hx509_abort("refcount <= 0");
if (--cert->ref > 0)
return;
if (cert->release)
(cert->release)(cert, cert->ctx);
if (cert->private_key)
_hx509_free_private_key(&cert->private_key);
free_Certificate(cert->data);
free(cert->data);
for (i = 0; i < cert->attrs.len; i++) {
free_octet_string(&cert->attrs.val[i]->data);
free_oid(&cert->attrs.val[i]->oid);
free(cert->attrs.val[i]);
}
free(cert->attrs.val);
free(cert->friendlyname);
if (cert->basename)
hx509_name_free(&cert->basename);
memset(cert, 0, sizeof(cert));
free(cert);
}
hx509_cert
hx509_cert_ref(hx509_cert cert)
{
if (cert->ref <= 0)
_hx509_abort("refcount <= 0");
cert->ref++;
if (cert->ref == 0)
_hx509_abort("refcount == 0");
return cert;
}
int
hx509_verify_init_ctx(hx509_context context, hx509_verify_ctx *ctx)
{
hx509_verify_ctx c;
c = calloc(1, sizeof(*c));
if (c == NULL)
return ENOMEM;
c->max_depth = HX509_VERIFY_MAX_DEPTH;
*ctx = c;
return 0;
}
void
hx509_verify_destroy_ctx(hx509_verify_ctx ctx)
{
if (ctx)
memset(ctx, 0, sizeof(*ctx));
free(ctx);
}
void
hx509_verify_attach_anchors(hx509_verify_ctx ctx, hx509_certs set)
{
ctx->trust_anchors = set;
}
void
hx509_verify_attach_revoke(hx509_verify_ctx ctx, hx509_revoke_ctx revoke_ctx)
{
ctx->revoke_ctx = revoke_ctx;
}
void
hx509_verify_set_time(hx509_verify_ctx ctx, time_t t)
{
ctx->flags |= HX509_VERIFY_CTX_F_TIME_SET;
ctx->time_now = t;
}
void
hx509_verify_set_proxy_certificate(hx509_verify_ctx ctx, int boolean)
{
if (boolean)
ctx->flags |= HX509_VERIFY_CTX_F_ALLOW_PROXY_CERTIFICATE;
else
ctx->flags &= ~HX509_VERIFY_CTX_F_ALLOW_PROXY_CERTIFICATE;
}
static const Extension *
find_extension(const Certificate *cert, const heim_oid *oid, int *idx)
{
const TBSCertificate *c = &cert->tbsCertificate;
if (c->version == NULL || *c->version < 2 || c->extensions == NULL)
return NULL;
for (;*idx < c->extensions->len; (*idx)++) {
if (heim_oid_cmp(&c->extensions->val[*idx].extnID, oid) == 0)
return &c->extensions->val[(*idx)++];
}
return NULL;
}
static int
find_extension_auth_key_id(const Certificate *subject,
AuthorityKeyIdentifier *ai)
{
const Extension *e;
size_t size;
int i = 0;
memset(ai, 0, sizeof(*ai));
e = find_extension(subject, oid_id_x509_ce_authorityKeyIdentifier(), &i);
if (e == NULL)
return HX509_EXTENSION_NOT_FOUND;
return decode_AuthorityKeyIdentifier(e->extnValue.data,
e->extnValue.length,
ai, &size);
}
static int
find_extension_subject_key_id(const Certificate *issuer,
SubjectKeyIdentifier *si)
{
const Extension *e;
size_t size;
int i = 0;
memset(si, 0, sizeof(*si));
e = find_extension(issuer, oid_id_x509_ce_subjectKeyIdentifier(), &i);
if (e == NULL)
return HX509_EXTENSION_NOT_FOUND;
return decode_SubjectKeyIdentifier(e->extnValue.data,
e->extnValue.length,
si, &size);
}
static int
find_extension_name_constraints(const Certificate *subject,
NameConstraints *nc)
{
const Extension *e;
size_t size;
int i = 0;
memset(nc, 0, sizeof(*nc));
e = find_extension(subject, oid_id_x509_ce_nameConstraints(), &i);
if (e == NULL)
return HX509_EXTENSION_NOT_FOUND;
return decode_NameConstraints(e->extnValue.data,
e->extnValue.length,
nc, &size);
}
static int
find_extension_subject_alt_name(const Certificate *cert, int *i,
GeneralNames *sa)
{
const Extension *e;
size_t size;
memset(sa, 0, sizeof(*sa));
e = find_extension(cert, oid_id_x509_ce_subjectAltName(), i);
if (e == NULL)
return HX509_EXTENSION_NOT_FOUND;
return decode_GeneralNames(e->extnValue.data,
e->extnValue.length,
sa, &size);
}
static int
find_extension_eku(const Certificate *cert, ExtKeyUsage *eku)
{
const Extension *e;
size_t size;
int i = 0;
memset(eku, 0, sizeof(*eku));
e = find_extension(cert, oid_id_x509_ce_extKeyUsage(), &i);
if (e == NULL)
return HX509_EXTENSION_NOT_FOUND;
return decode_ExtKeyUsage(e->extnValue.data,
e->extnValue.length,
eku, &size);
}
static int
add_to_list(hx509_octet_string_list *list, const heim_octet_string *entry)
{
void *p;
int ret;
p = realloc(list->val, (list->len + 1) * sizeof(list->val[0]));
if (p == NULL)
return ENOMEM;
list->val = p;
ret = copy_octet_string(entry, &list->val[list->len]);
if (ret)
return ret;
list->len++;
return 0;
}
void
hx509_free_octet_string_list(hx509_octet_string_list *list)
{
int i;
for (i = 0; i < list->len; i++)
free_octet_string(&list->val[i]);
free(list->val);
list->val = NULL;
list->len = 0;
}
int
hx509_cert_find_subjectAltName_otherName(hx509_cert cert,
const heim_oid *oid,
hx509_octet_string_list *list)
{
GeneralNames sa;
int ret, i, j;
list->val = NULL;
list->len = 0;
i = 0;
while (1) {
ret = find_extension_subject_alt_name(_hx509_get_cert(cert), &i, &sa);
i++;
if (ret == HX509_EXTENSION_NOT_FOUND) {
ret = 0;
break;
} else if (ret != 0)
break;
for (j = 0; j < sa.len; j++) {
if (sa.val[j].element == choice_GeneralName_otherName &&
heim_oid_cmp(&sa.val[j].u.otherName.type_id, oid) == 0)
{
ret = add_to_list(list, &sa.val[j].u.otherName.value);
if (ret) {
free_GeneralNames(&sa);
return ret;
}
}
}
free_GeneralNames(&sa);
}
return ret;
}
static int
check_key_usage(hx509_context context, const Certificate *cert,
unsigned flags, int req_present)
{
const Extension *e;
KeyUsage ku;
size_t size;
int ret, i = 0;
unsigned ku_flags;
if (_hx509_cert_get_version(cert) < 3)
return 0;
e = find_extension(cert, oid_id_x509_ce_keyUsage(), &i);
if (e == NULL) {
if (req_present) {
hx509_set_error_string(context, 0, HX509_KU_CERT_MISSING,
"Required extension key "
"usage missing from certifiate");
return HX509_KU_CERT_MISSING;
}
return 0;
}
ret = decode_KeyUsage(e->extnValue.data, e->extnValue.length, &ku, &size);
if (ret)
return ret;
ku_flags = KeyUsage2int(ku);
if ((ku_flags & flags) != flags) {
hx509_set_error_string(context, 0, HX509_KU_CERT_MISSING,
"Key usage missing from certifiate");
return HX509_KU_CERT_MISSING;
}
return 0;
}
int
_hx509_check_key_usage(hx509_context context, hx509_cert cert,
unsigned flags, int req_present)
{
return check_key_usage(context, _hx509_get_cert(cert), flags, req_present);
}
enum certtype { PROXY_CERT, EE_CERT, CA_CERT };
static int
check_basic_constraints(hx509_context context, const Certificate *cert,
enum certtype type, int depth)
{
BasicConstraints bc;
const Extension *e;
size_t size;
int ret, i = 0;
if (_hx509_cert_get_version(cert) < 3)
return 0;
e = find_extension(cert, oid_id_x509_ce_basicConstraints(), &i);
if (e == NULL) {
switch(type) {
case PROXY_CERT:
case EE_CERT:
return 0;
case CA_CERT: {
char *name;
ret = _hx509_unparse_Name(&cert->tbsCertificate.subject, &name);
assert(ret == 0);
hx509_set_error_string(context, 0, HX509_EXTENSION_NOT_FOUND,
"basicConstraints missing from "
"CA certifiacte %s", name);
free(name);
return HX509_EXTENSION_NOT_FOUND;
}
}
}
ret = decode_BasicConstraints(e->extnValue.data,
e->extnValue.length, &bc,
&size);
if (ret)
return ret;
switch(type) {
case PROXY_CERT:
if (bc.cA != NULL && *bc.cA)
ret = HX509_PARENT_IS_CA;
break;
case EE_CERT:
ret = 0;
break;
case CA_CERT:
if (bc.cA == NULL || !*bc.cA)
ret = HX509_PARENT_NOT_CA;
else if (bc.pathLenConstraint)
if (depth - 1 > *bc.pathLenConstraint)
ret = HX509_CA_PATH_TOO_DEEP;
break;
}
free_BasicConstraints(&bc);
return ret;
}
int
_hx509_cert_is_parent_cmp(const Certificate *subject,
const Certificate *issuer,
int allow_self_signed)
{
int diff;
AuthorityKeyIdentifier ai;
SubjectKeyIdentifier si;
int ret_ai, ret_si;
diff = _hx509_name_cmp(&issuer->tbsCertificate.subject,
&subject->tbsCertificate.issuer);
if (diff)
return diff;
memset(&ai, 0, sizeof(ai));
memset(&si, 0, sizeof(si));
/*
* Try to find AuthorityKeyIdentifier, if its not present in the
* subject certificate nor the parent.
*/
ret_ai = find_extension_auth_key_id(subject, &ai);
if (ret_ai && ret_ai != HX509_EXTENSION_NOT_FOUND)
return 1;
ret_si = find_extension_subject_key_id(issuer, &si);
if (ret_si && ret_si != HX509_EXTENSION_NOT_FOUND)
return -1;
if (ret_si && ret_ai)
goto out;
if (ret_ai)
goto out;
if (ret_si) {
if (allow_self_signed)
diff = 0;
else
diff = -1;
goto out;
}
if (ai.keyIdentifier == NULL) /* XXX */
diff = -1;
else
diff = heim_octet_string_cmp(ai.keyIdentifier, &si);
if (diff)
goto out;
out:
free_AuthorityKeyIdentifier(&ai);
free_SubjectKeyIdentifier(&si);
return diff;
}
static int
certificate_is_anchor(hx509_context context,
hx509_certs trust_anchors,
const hx509_cert cert)
{
hx509_query q;
hx509_cert c;
int ret;
_hx509_query_clear(&q);
q.match = HX509_QUERY_MATCH_CERTIFICATE;
q.certificate = _hx509_get_cert(cert);
ret = hx509_certs_find(context, trust_anchors, &q, &c);
if (ret == 0)
hx509_cert_free(c);
return ret == 0;
}
static int
certificate_is_self_signed(const Certificate *cert)
{
return _hx509_cert_is_parent_cmp(cert, cert, 1) == 0;
}
/*
* The subjectName is "null" when its empty set of relative DBs.
*/
static int
subject_null_p(const Certificate *c)
{
return c->tbsCertificate.subject.u.rdnSequence.len == 0;
}
static int
find_parent(hx509_context context,
hx509_certs trust_anchors,
hx509_path *path,
hx509_certs pool,
hx509_cert current,
hx509_cert *parent)
{
AuthorityKeyIdentifier ai;
hx509_query q;
int ret;
*parent = NULL;
memset(&ai, 0, sizeof(ai));
_hx509_query_clear(&q);
if (!subject_null_p(current->data)) {
q.match |= HX509_QUERY_FIND_ISSUER_CERT;
q.subject = _hx509_get_cert(current);
} else {
ret = find_extension_auth_key_id(current->data, &ai);
if (ret) {
hx509_set_error_string(context, 0, HX509_CERTIFICATE_MALFORMED,
"Subjectless certificate missing AuthKeyID");
return HX509_CERTIFICATE_MALFORMED;
}
if (ai.keyIdentifier == NULL) {
free_AuthorityKeyIdentifier(&ai);
hx509_set_error_string(context, 0, HX509_CERTIFICATE_MALFORMED,
"Subjectless certificate missing keyIdentifier "
"inside AuthKeyID");
return HX509_CERTIFICATE_MALFORMED;
}
q.subject_id = ai.keyIdentifier;
q.match = HX509_QUERY_MATCH_SUBJECT_KEY_ID;
}
q.path = path;
q.match |= HX509_QUERY_NO_MATCH_PATH;
if (pool) {
ret = hx509_certs_find(context, pool, &q, parent);
if (ret == 0) {
free_AuthorityKeyIdentifier(&ai);
return 0;
}
}
/*
* Assume trust anchors isn't proxy certificates, require
* KeyUsage.KeyCertSign
*/
q.match |= HX509_QUERY_KU_KEYCERTSIGN;
ret = hx509_certs_find(context, trust_anchors, &q, parent);
if (ret == 0) {
free_AuthorityKeyIdentifier(&ai);
return ret;
}
free_AuthorityKeyIdentifier(&ai);
{
hx509_name name;
char *str;
ret = hx509_cert_get_subject(current, &name);
if (ret) {
hx509_clear_error_string(context);
return HX509_ISSUER_NOT_FOUND;
}
ret = hx509_name_to_string(name, &str);
hx509_name_free(&name);
if (ret) {
hx509_clear_error_string(context);
return HX509_ISSUER_NOT_FOUND;
}
hx509_set_error_string(context, 0, HX509_ISSUER_NOT_FOUND,
"Failed to find issuer for"
"certificate with subject: %s", str);
free(str);
}
return HX509_ISSUER_NOT_FOUND;
}
/*
*
*/
static int
is_proxy_cert(hx509_context context, const Certificate *cert, ProxyCertInfo *rinfo)
{
ProxyCertInfo info;
const Extension *e;
size_t size;
int ret, i = 0;
if (rinfo)
memset(rinfo, 0, sizeof(*rinfo));
e = find_extension(cert, oid_id_pe_proxyCertInfo(), &i);
if (e == NULL) {
hx509_clear_error_string(context);
return HX509_EXTENSION_NOT_FOUND;
}
ret = decode_ProxyCertInfo(e->extnValue.data,
e->extnValue.length,
&info,
&size);
if (ret) {
hx509_clear_error_string(context);
return ret;
}
if (size != e->extnValue.length) {
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
return HX509_EXTRA_DATA_AFTER_STRUCTURE;
}
if (rinfo)
*rinfo = info;
return 0;
}
/*
* Path operations are like MEMORY based keyset, but with exposed
* internal so we can do easy searches.
*/
int
_hx509_path_append(hx509_context context, hx509_path *path, hx509_cert cert)
{
hx509_cert *val;
val = realloc(path->val, (path->len + 1) * sizeof(path->val[0]));
if (val == NULL) {
hx509_set_error_string(context, 0, ENOMEM, "out of memory");
return ENOMEM;
}
path->val = val;
path->val[path->len] = hx509_cert_ref(cert);
path->len++;
return 0;
}
void
_hx509_path_free(hx509_path *path)
{
unsigned i;
for (i = 0; i < path->len; i++)
hx509_cert_free(path->val[i]);
free(path->val);
path->val = NULL;
path->len = 0;
}
/*
* Find path by looking up issuer for the top certificate and continue
* until an anchor certificate is found. A certificate never included
* twice in the path.
*
* The path includes a path from the top certificate to the anchor
* certificate.
*
* The caller needs to free `path´ both on successful built path and
* failure.
*/
int
_hx509_calculate_path(hx509_context context,
hx509_certs trust_anchors,
unsigned int max_depth,
hx509_cert cert,
hx509_certs pool,
hx509_path *path)
{
hx509_cert parent, current;
int ret;
if (max_depth == 0)
max_depth = HX509_VERIFY_MAX_DEPTH;
ret = _hx509_path_append(context, path, cert);
if (ret)
return ret;
current = hx509_cert_ref(cert);
while (!certificate_is_anchor(context, trust_anchors, current)) {
ret = find_parent(context, trust_anchors, path, pool, current, &parent);
hx509_cert_free(current);
if (ret)
return ret;
ret = _hx509_path_append(context, path, parent);
if (ret)
return ret;
current = parent;
if (path->len > max_depth) {
hx509_set_error_string(context, 0, HX509_PATH_TOO_LONG,
"Path too long while bulding certificate chain");
return HX509_PATH_TOO_LONG;
}
}
hx509_cert_free(current);
return 0;
}
static int
AlgorithmIdentifier_cmp(const AlgorithmIdentifier *p,
const AlgorithmIdentifier *q)
{
int diff;
diff = heim_oid_cmp(&p->algorithm, &q->algorithm);
if (diff)
return diff;
if (p->parameters) {
if (q->parameters)
return heim_any_cmp(p->parameters,
q->parameters);
else
return 1;
} else {
if (q->parameters)
return -1;
else
return 0;
}
}
int
_hx509_Certificate_cmp(const Certificate *p, const Certificate *q)
{
int diff;
diff = heim_bit_string_cmp(&p->signatureValue, &q->signatureValue);
if (diff)
return diff;
diff = AlgorithmIdentifier_cmp(&p->signatureAlgorithm,
&q->signatureAlgorithm);
if (diff)
return diff;
diff = heim_octet_string_cmp(&p->tbsCertificate._save,
&q->tbsCertificate._save);
return diff;
}
int
hx509_cert_cmp(hx509_cert p, hx509_cert q)
{
return _hx509_Certificate_cmp(p->data, q->data);
}
int
hx509_cert_get_issuer(hx509_cert p, hx509_name *name)
{
return _hx509_name_from_Name(&p->data->tbsCertificate.issuer, name);
}
int
hx509_cert_get_subject(hx509_cert p, hx509_name *name)
{
return _hx509_name_from_Name(&p->data->tbsCertificate.subject, name);
}
int
hx509_cert_get_base_subject(hx509_context context, hx509_cert c, hx509_name *name)
{
if (c->basename)
return hx509_name_copy(context, c->basename, name);
if (is_proxy_cert(context, c->data, NULL) == 0)
return EINVAL; /* XXX */
return _hx509_name_from_Name(&c->data->tbsCertificate.subject, name);
}
int
hx509_cert_get_serialnumber(hx509_cert p, heim_integer *i)
{
return copy_heim_integer(&p->data->tbsCertificate.serialNumber, i);
}
hx509_private_key
_hx509_cert_private_key(hx509_cert p)
{
return p->private_key;
}
int
_hx509_cert_private_decrypt(const heim_octet_string *ciphertext,
const heim_oid *encryption_oid,
hx509_cert p,
heim_octet_string *cleartext)
{
cleartext->data = NULL;
cleartext->length = 0;
if (p->private_key == NULL)
return EINVAL; /* XXX */
return _hx509_private_key_private_decrypt(ciphertext,
encryption_oid,
p->private_key,
cleartext);
}
int
_hx509_cert_public_encrypt(const heim_octet_string *cleartext,
const hx509_cert p,
heim_oid *encryption_oid,
heim_octet_string *ciphertext)
{
return _hx509_public_encrypt(cleartext, p->data,
encryption_oid, ciphertext);
}
/*
*
*/
time_t
_hx509_Time2time_t(const Time *t)
{
switch(t->element) {
case choice_Time_utcTime:
return t->u.utcTime;
case choice_Time_generalTime:
return t->u.generalTime;
}
return 0;
}
/*
*
*/
static int
init_name_constraints(hx509_name_constraints *nc)
{
memset(nc, 0, sizeof(*nc));
return 0;
}
static int
add_name_constraints(hx509_context context, const Certificate *c, int not_ca,
hx509_name_constraints *nc)
{
NameConstraints tnc;
int ret;
ret = find_extension_name_constraints(c, &tnc);
if (ret == HX509_EXTENSION_NOT_FOUND)
return 0;
else if (ret) {
hx509_set_error_string(context, 0, ret, "Failed getting NameConstraints");
return ret;
} else if (not_ca) {
ret = HX509_VERIFY_CONSTRAINTS;
hx509_set_error_string(context, 0, ret, "Not a CA and "
"have NameConstraints");
} else {
NameConstraints *val;
val = realloc(nc->val, sizeof(nc->val[0]) * (nc->len + 1));
if (val == NULL) {
hx509_clear_error_string(context);
ret = ENOMEM;
goto out;
}
nc->val = val;
ret = copy_NameConstraints(&tnc, &nc->val[nc->len]);
if (ret) {
hx509_clear_error_string(context);
goto out;
}
nc->len += 1;
}
out:
free_NameConstraints(&tnc);
return ret;
}
static int
match_RDN(const RelativeDistinguishedName *c,
const RelativeDistinguishedName *n)
{
int i;
if (c->len != n->len)
return HX509_NAME_CONSTRAINT_ERROR;
for (i = 0; i < n->len; i++) {
if (heim_oid_cmp(&c->val[i].type, &n->val[i].type) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
if (_hx509_name_ds_cmp(&c->val[i].value, &n->val[i].value) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
}
return 0;
}
static int
match_X501Name(const Name *c, const Name *n)
{
int i, ret;
if (c->element != choice_Name_rdnSequence
|| n->element != choice_Name_rdnSequence)
return 0;
if (c->u.rdnSequence.len > n->u.rdnSequence.len)
return HX509_NAME_CONSTRAINT_ERROR;
for (i = 0; i < c->u.rdnSequence.len; i++) {
ret = match_RDN(&c->u.rdnSequence.val[i], &n->u.rdnSequence.val[i]);
if (ret)
return ret;
}
return 0;
}
static int
match_general_name(const GeneralName *c, const GeneralName *n, int *match)
{
/*
* Name constraints only apply to the same name type, see RFC3280,
* 4.2.1.11.
*/
assert(c->element == n->element);
switch(c->element) {
case choice_GeneralName_otherName:
if (heim_oid_cmp(&c->u.otherName.type_id,
&n->u.otherName.type_id) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
if (heim_any_cmp(&c->u.otherName.value,
&n->u.otherName.value) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
*match = 1;
return 0;
case choice_GeneralName_rfc822Name: {
const char *s;
size_t len1, len2;
s = strchr(c->u.rfc822Name, '@');
if (s) {
if (strcasecmp(c->u.rfc822Name, n->u.rfc822Name) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
} else {
s = strchr(n->u.rfc822Name, '@');
if (s == NULL)
return HX509_NAME_CONSTRAINT_ERROR;
len1 = strlen(c->u.rfc822Name);
len2 = strlen(s + 1);
if (len1 > len2)
return HX509_NAME_CONSTRAINT_ERROR;
if (strcasecmp(s + 1 + len2 - len1, c->u.rfc822Name) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
if (len1 < len2 && s[len2 - len1] != '.')
return HX509_NAME_CONSTRAINT_ERROR;
}
*match = 1;
return 0;
}
case choice_GeneralName_dNSName: {
size_t len1, len2;
len1 = strlen(c->u.dNSName);
len2 = strlen(n->u.dNSName);
if (len1 > len2)
return HX509_NAME_CONSTRAINT_ERROR;
if (strcasecmp(&n->u.dNSName[len2 - len1], c->u.dNSName) != 0)
return HX509_NAME_CONSTRAINT_ERROR;
*match = 1;
return 0;
}
case choice_GeneralName_directoryName: {
Name c_name, n_name;
int ret;
c_name._save.data = NULL;
c_name._save.length = 0;
c_name.element = c->u.directoryName.element;
c_name.u.rdnSequence = c->u.directoryName.u.rdnSequence;
n_name._save.data = NULL;
n_name._save.length = 0;
n_name.element = n->u.directoryName.element;
n_name.u.rdnSequence = n->u.directoryName.u.rdnSequence;
ret = match_X501Name(&c_name, &n_name);
if (ret == 0)
*match = 1;
return ret;
}
case choice_GeneralName_uniformResourceIdentifier:
case choice_GeneralName_iPAddress:
case choice_GeneralName_registeredID:
default:
return HX509_NAME_CONSTRAINT_ERROR;
}
}
static int
match_alt_name(const GeneralName *n, const Certificate *c,
int *same, int *match)
{
GeneralNames sa;
int ret, i, j;
i = 0;
do {
ret = find_extension_subject_alt_name(c, &i, &sa);
if (ret == HX509_EXTENSION_NOT_FOUND) {
ret = 0;
break;
} else if (ret != 0)
break;
for (j = 0; j < sa.len; j++) {
if (n->element == sa.val[j].element) {
*same = 1;
ret = match_general_name(n, &sa.val[j], match);
}
}
free_GeneralNames(&sa);
} while (1);
return ret;
}
static int
match_tree(const GeneralSubtrees *t, const Certificate *c, int *match)
{
int name, alt_name, same;
unsigned int i;
int ret = 0;
name = alt_name = same = *match = 0;
for (i = 0; i < t->len; i++) {
if (t->val[i].minimum && t->val[i].maximum)
return HX509_RANGE;
/*
* If the constraint apply to directoryNames, test is with
* subjectName of the certificate if the certificate have a
* non-null (empty) subjectName.
*/
if (t->val[i].base.element == choice_GeneralName_directoryName
&& !subject_null_p(c))
{
GeneralName certname;
certname.element = choice_GeneralName_directoryName;
certname.u.directoryName.element =
c->tbsCertificate.subject.element;
certname.u.directoryName.u.rdnSequence =
c->tbsCertificate.subject.u.rdnSequence;
ret = match_general_name(&t->val[i].base, &certname, &name);
}
/* Handle subjectAltNames, this is icky since they
* restrictions only apply if the subjectAltName is of the
* same type. So if there have been a match of type, require
* altname to be set.
*/
ret = match_alt_name(&t->val[i].base, c, &same, &alt_name);
}
if (name && (!same || alt_name))
*match = 1;
return ret;
}
static int
check_name_constraints(hx509_context context,
const hx509_name_constraints *nc,
const Certificate *c)
{
int match, ret;
int i;
for (i = 0 ; i < nc->len; i++) {
GeneralSubtrees gs;
if (nc->val[i].permittedSubtrees) {
GeneralSubtrees_SET(&gs, nc->val[i].permittedSubtrees);
ret = match_tree(&gs, c, &match);
if (ret) {
hx509_clear_error_string(context);
return ret;
}
/* allow null subjectNames, they wont matches anything */
if (match == 0 && !subject_null_p(c)) {
hx509_clear_error_string(context);
return HX509_VERIFY_CONSTRAINTS;
}
}
if (nc->val[i].excludedSubtrees) {
GeneralSubtrees_SET(&gs, nc->val[i].excludedSubtrees);
ret = match_tree(&gs, c, &match);
if (ret) {
hx509_clear_error_string(context);
return ret;
}
if (match) {
hx509_clear_error_string(context);
return HX509_VERIFY_CONSTRAINTS;
}
}
}
return 0;
}
static void
free_name_constraints(hx509_name_constraints *nc)
{
int i;
for (i = 0 ; i < nc->len; i++)
free_NameConstraints(&nc->val[i]);
free(nc->val);
}
int
hx509_verify_path(hx509_context context,
hx509_verify_ctx ctx,
hx509_cert cert,
hx509_certs pool)
{
hx509_name_constraints nc;
hx509_path path;
#if 0
const AlgorithmIdentifier *alg_id;
#endif
int ret, i, proxy_cert_depth;
enum certtype type;
Name proxy_issuer;
memset(&proxy_issuer, 0, sizeof(proxy_issuer));
ret = init_name_constraints(&nc);
if (ret)
return ret;
path.val = NULL;
path.len = 0;
if ((ctx->flags & HX509_VERIFY_CTX_F_TIME_SET) == 0)
ctx->time_now = time(NULL);
/*
* Calculate the path from the certificate user presented to the
* to an anchor.
*/
ret = _hx509_calculate_path(context, ctx->trust_anchors, ctx->max_depth,
cert, pool, &path);
if (ret)
goto out;
#if 0
alg_id = path.val[path->len - 1]->data->tbsCertificate.signature;
#endif
/*
* Check CA and proxy certificate chain from the top of the
* certificate chain. Also check certificate is valid with respect
* to the current time.
*
*/
proxy_cert_depth = 0;
if (ctx->flags & HX509_VERIFY_CTX_F_ALLOW_PROXY_CERTIFICATE)
type = PROXY_CERT;
else
type = EE_CERT;
for (i = 0; i < path.len; i++) {
Certificate *c;
time_t t;
c = _hx509_get_cert(path.val[i]);
/*
* Lets do some basic check on issuer like
* keyUsage.keyCertSign and basicConstraints.cA bit depending
* on what type of certificate this is.
*/
switch (type) {
case CA_CERT:
ret = check_key_usage(context, c, 1 << 5, TRUE); /* XXX make constants */
if (ret)
goto out;
break;
case PROXY_CERT: {
ProxyCertInfo info;
if (is_proxy_cert(context, c, &info) == 0) {
Name name;
int j;
if (info.pCPathLenConstraint != NULL &&
*info.pCPathLenConstraint < i + 1)
{
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
ret = HX509_PATH_TOO_LONG;
goto out;
}
j = 0;
if (find_extension(c, oid_id_x509_ce_subjectAltName(), &j)) {
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
ret = HX509_PROXY_CERT_INVALID;
goto out;
}
j = 0;
if (find_extension(c, oid_id_x509_ce_issuerAltName(), &j)) {
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
ret = HX509_PROXY_CERT_INVALID;
goto out;
}
/*
* The subject name of the proxy certificate should be
* CN=XXX,<proxy issuer>, prune of CN and check if its
* the same over the whole chain of proxy certs and
* then check with the EE cert when we get to it.
*/
ret = copy_Name(&c->tbsCertificate.subject, &name);
if (ret) {
hx509_clear_error_string(context);
free_ProxyCertInfo(&info);
goto out;
}
j = name.u.rdnSequence.len;
if (name.u.rdnSequence.len < 2
|| name.u.rdnSequence.val[j - 1].len > 1
|| heim_oid_cmp(&name.u.rdnSequence.val[j - 1].val[0].type,
oid_id_at_commonName()))
{
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
ret = HX509_PROXY_CERT_NAME_WRONG;
goto out;
}
free_RelativeDistinguishedName(&name.u.rdnSequence.val[j - 1]);
name.u.rdnSequence.len -= 1;
if (proxy_cert_depth) {
ret = _hx509_name_cmp(&proxy_issuer, &name);
free_Name(&name);
if (ret) {
free_ProxyCertInfo(&info);
hx509_clear_error_string(context);
ret = HX509_PROXY_CERT_NAME_WRONG;
goto out;
}
} else {
proxy_issuer = name;
}
free_ProxyCertInfo(&info);
break;
} else {
/*
* Now we are done with the proxy certificates, if
* there where any proxy certificates
* (proxy_cert_depth > 0), check that the proxy issuer
* matched proxy certificates subject.
*/
if (proxy_cert_depth) {
ret = _hx509_name_cmp(&proxy_issuer,
&c->tbsCertificate.subject);
if (ret) {
ret = HX509_PROXY_CERT_NAME_WRONG;
hx509_clear_error_string(context);
goto out;
}
if (cert->basename)
hx509_name_free(&cert->basename);
ret = _hx509_name_from_Name(&proxy_issuer, &cert->basename);
if (ret) {
hx509_clear_error_string(context);
goto out;
}
}
}
type = EE_CERT;
/* FALLTHOUGH */
}
case EE_CERT:
break;
}
ret = check_basic_constraints(context, c, type, i - proxy_cert_depth);
if (ret)
goto out;
t = _hx509_Time2time_t(&c->tbsCertificate.validity.notBefore);
if (t > ctx->time_now) {
ret = HX509_CERT_USED_BEFORE_TIME;
hx509_clear_error_string(context);
goto out;
}
t = _hx509_Time2time_t(&c->tbsCertificate.validity.notAfter);
if (t < ctx->time_now) {
ret = HX509_CERT_USED_AFTER_TIME;
hx509_clear_error_string(context);
goto out;
}
if (type == EE_CERT)
type = CA_CERT;
else if (type == PROXY_CERT)
proxy_cert_depth++;
}
/*
* Verify constraints, do this backward so path constraints are
* checked in the right order.
*/
for (ret = 0, i = path.len - 1; i >= 0; i--) {
Certificate *c;
c = _hx509_get_cert(path.val[i]);
#if 0
/* check that algorithm and parameters is the same */
/* XXX this is wrong */
ret = alg_cmp(&c->tbsCertificate.signature, alg_id);
if (ret) {
hx509_clear_error_string(context);
ret = HX509_PATH_ALGORITHM_CHANGED;
goto out;
}
#endif
/* verify name constraints, not for selfsigned and anchor */
if (!certificate_is_self_signed(c) || i == path.len - 1) {
ret = check_name_constraints(context, &nc, c);
if (ret) {
goto out;
}
}
ret = add_name_constraints(context, c, i == 0, &nc);
if (ret)
goto out;
/* XXX verify all other silly constraints */
}
/*
* Verify that no certificates has been revoked.
*/
if (ctx->revoke_ctx) {
hx509_certs certs;
ret = hx509_certs_init(context, "MEMORY:revoke-certs", 0,
NULL, &certs);
if (ret)
goto out;
for (i = 0; i < path.len; i++) {
ret = hx509_certs_add(context, certs, path.val[i]);
if (ret) {
hx509_certs_free(&certs);
goto out;
}
}
ret = hx509_certs_merge(context, certs, pool);
if (ret) {
hx509_certs_free(&certs);
goto out;
}
for (i = 0; i < path.len - 1; i++) {
int parent = (i < path.len - 1) ? i + 1 : i;
ret = hx509_revoke_verify(context,
ctx->revoke_ctx,
certs,
ctx->time_now,
path.val[i],
path.val[parent]);
if (ret) {
hx509_certs_free(&certs);
goto out;
}
}
hx509_certs_free(&certs);
}
#if 0
for (i = path.len - 1; i >= 0; i--) {
_hx509_print_cert_subject(path.val[i]);
}
#endif
/*
* Verify signatures, do this backward so public key working
* parameter is passed up from the anchor up though the chain.
*/
for (i = path.len - 1; i >= 0; i--) {
Certificate *signer, *c;
c = _hx509_get_cert(path.val[i]);
/* is last in chain (trust anchor) */
if (i == path.len - 1) {
signer = path.val[i]->data;
/* if trust anchor is not self signed, don't check sig */
if (!certificate_is_self_signed(signer))
continue;
} else {
/* take next certificate in chain */
signer = path.val[i + 1]->data;
}
/* verify signatureValue */
ret = _hx509_verify_signature_bitstring(signer,
&c->signatureAlgorithm,
&c->tbsCertificate._save,
&c->signatureValue);
if (ret) {
hx509_set_error_string(context, 0, ret,
"Failed to verify signature of certificate");
goto out;
}
}
out:
free_Name(&proxy_issuer);
free_name_constraints(&nc);
_hx509_path_free(&path);
return ret;
}
int
hx509_verify_signature(hx509_context context,
const hx509_cert signer,
const AlgorithmIdentifier *alg,
const heim_octet_string *data,
const heim_octet_string *sig)
{
return _hx509_verify_signature(signer->data, alg, data, sig);
}
int
hx509_verify_hostname(hx509_context context,
const hx509_cert cert,
int require_match,
const char *hostname,
const struct sockaddr *sa,
/* XXX krb5_socklen_t */ int sa_size)
{
if (sa && sa_size <= 0)
return EINVAL;
return 0;
}
int
_hx509_set_cert_attribute(hx509_context context,
hx509_cert cert,
const heim_oid *oid,
const heim_octet_string *attr)
{
hx509_cert_attribute a;
void *d;
if (hx509_cert_get_attribute(cert, oid) != NULL)
return 0;
d = realloc(cert->attrs.val,
sizeof(cert->attrs.val[0]) * (cert->attrs.len + 1));
if (d == NULL) {
hx509_clear_error_string(context);
return ENOMEM;
}
cert->attrs.val = d;
a = malloc(sizeof(*a));
if (a == NULL)
return ENOMEM;
copy_octet_string(attr, &a->data);
copy_oid(oid, &a->oid);
cert->attrs.val[cert->attrs.len] = a;
cert->attrs.len++;
return 0;
}
hx509_cert_attribute
hx509_cert_get_attribute(hx509_cert cert, const heim_oid *oid)
{
int i;
for (i = 0; i < cert->attrs.len; i++)
if (heim_oid_cmp(oid, &cert->attrs.val[i]->oid) == 0)
return cert->attrs.val[i];
return NULL;
}
int
hx509_cert_set_friendly_name(hx509_cert cert, const char *name)
{
if (cert->friendlyname)
free(cert->friendlyname);
cert->friendlyname = strdup(name);
if (cert->friendlyname == NULL)
return ENOMEM;
return 0;
}
const char *
hx509_cert_get_friendly_name(hx509_cert cert)
{
hx509_cert_attribute a;
PKCS9_friendlyName n;
size_t sz;
int ret, i;
if (cert->friendlyname)
return cert->friendlyname;
a = hx509_cert_get_attribute(cert, oid_id_pkcs_9_at_friendlyName());
if (a == NULL) {
/* XXX use subject name ? */
return NULL;
}
ret = decode_PKCS9_friendlyName(a->data.data, a->data.length, &n, &sz);
if (ret)
return NULL;
if (n.len != 1) {
free_PKCS9_friendlyName(&n);
return NULL;
}
cert->friendlyname = malloc(n.val[0].length + 1);
if (cert->friendlyname == NULL) {
free_PKCS9_friendlyName(&n);
return NULL;
}
for (i = 0; i < n.val[0].length; i++) {
if (n.val[0].data[i] <= 0xff)
cert->friendlyname[i] = n.val[0].data[i] & 0xff;
else
cert->friendlyname[i] = 'X';
}
cert->friendlyname[i] = '\0';
free_PKCS9_friendlyName(&n);
return cert->friendlyname;
}
void
_hx509_query_clear(hx509_query *q)
{
memset(q, 0, sizeof(*q));
}
int
hx509_query_alloc(hx509_context context, hx509_query **q)
{
*q = calloc(1, sizeof(**q));
if (*q == NULL)
return ENOMEM;
return 0;
}
void
hx509_query_match_option(hx509_query *q, hx509_query_option option)
{
switch(option) {
case HX509_QUERY_OPTION_PRIVATE_KEY:
q->match |= HX509_QUERY_PRIVATE_KEY;
break;
case HX509_QUERY_OPTION_KU_ENCIPHERMENT:
q->match |= HX509_QUERY_KU_ENCIPHERMENT;
break;
case HX509_QUERY_OPTION_KU_DIGITALSIGNATURE:
q->match |= HX509_QUERY_KU_DIGITALSIGNATURE;
break;
case HX509_QUERY_OPTION_END:
default:
break;
}
}
int
hx509_query_match_friendly_name(hx509_query *q, const char *name)
{
if (q->friendlyname)
free(q->friendlyname);
q->friendlyname = strdup(name);
if (q->friendlyname == NULL)
return ENOMEM;
q->match |= HX509_QUERY_MATCH_FRIENDLY_NAME;
return 0;
}
void
hx509_query_free(hx509_context context, hx509_query *q)
{
if (q) {
free(q->friendlyname);
memset(q, 0, sizeof(*q));
}
free(q);
}
int
_hx509_query_match_cert(hx509_context context, const hx509_query *q, hx509_cert cert)
{
Certificate *c = _hx509_get_cert(cert);
if ((q->match & HX509_QUERY_FIND_ISSUER_CERT) &&
_hx509_cert_is_parent_cmp(q->subject, c, 0) != 0)
return 0;
if ((q->match & HX509_QUERY_MATCH_CERTIFICATE) &&
_hx509_Certificate_cmp(q->certificate, c) != 0)
return 0;
if ((q->match & HX509_QUERY_MATCH_SERIALNUMBER)
&& heim_integer_cmp(&c->tbsCertificate.serialNumber, q->serial) != 0)
return 0;
if ((q->match & HX509_QUERY_MATCH_ISSUER_NAME)
&& _hx509_name_cmp(&c->tbsCertificate.issuer, q->issuer_name) != 0)
return 0;
if ((q->match & HX509_QUERY_MATCH_SUBJECT_NAME)
&& _hx509_name_cmp(&c->tbsCertificate.subject, q->subject_name) != 0)
return 0;
if (q->match & HX509_QUERY_MATCH_SUBJECT_KEY_ID) {
SubjectKeyIdentifier si;
int ret;
ret = find_extension_subject_key_id(c, &si);
if (ret == 0) {
if (heim_octet_string_cmp(&si, q->subject_id) != 0)
ret = 1;
free_SubjectKeyIdentifier(&si);
}
if (ret)
return 0;
}
if ((q->match & HX509_QUERY_MATCH_ISSUER_ID))
return 0;
if ((q->match & HX509_QUERY_PRIVATE_KEY) &&
_hx509_cert_private_key(cert) == NULL)
return 0;
{
unsigned ku = 0;
if (q->match & HX509_QUERY_KU_DIGITALSIGNATURE)
ku |= (1 << 0);
if (q->match & HX509_QUERY_KU_NONREPUDIATION)
ku |= (1 << 1);
if (q->match & HX509_QUERY_KU_ENCIPHERMENT)
ku |= (1 << 2);
if (q->match & HX509_QUERY_KU_DATAENCIPHERMENT)
ku |= (1 << 3);
if (q->match & HX509_QUERY_KU_KEYAGREEMENT)
ku |= (1 << 4);
if (q->match & HX509_QUERY_KU_KEYCERTSIGN)
ku |= (1 << 5);
if (q->match & HX509_QUERY_KU_CRLSIGN)
ku |= (1 << 6);
if (ku && check_key_usage(context, c, ku, TRUE))
return 0;
}
if ((q->match & HX509_QUERY_ANCHOR))
return 0;
if (q->match & HX509_QUERY_MATCH_LOCAL_KEY_ID) {
hx509_cert_attribute a;
a = hx509_cert_get_attribute(cert, oid_id_pkcs_9_at_localKeyId());
if (a == NULL)
return 0;
if (heim_octet_string_cmp(&a->data, q->local_key_id) != 0)
return 0;
}
if (q->match & HX509_QUERY_NO_MATCH_PATH) {
size_t i;
for (i = 0; i < q->path->len; i++)
if (hx509_cert_cmp(q->path->val[i], cert) == 0)
return 0;
}
if (q->match & HX509_QUERY_MATCH_FRIENDLY_NAME) {
const char *name = hx509_cert_get_friendly_name(cert);
if (name == NULL)
return 0;
if (strcasecmp(q->friendlyname, name) != 0)
return 0;
}
if (q->match & HX509_QUERY_MATCH_FUNCTION) {
int ret = (*q->cmp_func)(cert);
if (ret != 0)
return 0;
}
if (q->match & HX509_QUERY_MATCH_KEY_HASH_SHA1) {
heim_octet_string os;
int ret;
os.data = c->tbsCertificate.subjectPublicKeyInfo.subjectPublicKey.data;
os.length =
c->tbsCertificate.subjectPublicKeyInfo.subjectPublicKey.length / 8;
ret = _hx509_verify_signature(NULL,
hx509_signature_sha1(),
&os,
q->keyhash_sha1);
if (ret != 0)
return 0;
}
if (q->match & ~HX509_QUERY_MASK)
return 0;
return 1;
}
int
hx509_cert_check_eku(hx509_context context, hx509_cert cert,
const heim_oid *eku, int allow_any_eku)
{
ExtKeyUsage e;
int ret, i;
ret = find_extension_eku(_hx509_get_cert(cert), &e);
if (ret) {
hx509_clear_error_string(context);
return ret;
}
for (i = 0; i < e.len; i++) {
if (heim_oid_cmp(eku, &e.val[i]) == 0) {
free_ExtKeyUsage(&e);
return 0;
}
if (allow_any_eku) {
#if 0
if (heim_oid_cmp(id_any_eku, &e.val[i]) == 0) {
free_ExtKeyUsage(&e);
return 0;
}
#endif
}
}
free_ExtKeyUsage(&e);
hx509_clear_error_string(context);
return HX509_CERTIFICATE_MISSING_EKU;
}
int
_hx509_cert_get_keyusage(hx509_context context,
hx509_cert c,
KeyUsage *ku)
{
Certificate *cert;
const Extension *e;
size_t size;
int ret, i = 0;
memset(ku, 0, sizeof(*ku));
cert = _hx509_get_cert(c);
if (_hx509_cert_get_version(cert) < 3)
return 0;
e = find_extension(cert, oid_id_x509_ce_keyUsage(), &i);
if (e == NULL)
return HX509_KU_CERT_MISSING;
ret = decode_KeyUsage(e->extnValue.data, e->extnValue.length, ku, &size);
if (ret)
return ret;
return 0;
}
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