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|
/* Support of the Online Certificate Status Protocol (OCSP)
* Copyright (C) 2003 Christoph Gysin, Simon Zwahlen
* Zuercher Hochschule Winterthur
*
* This program 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 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program 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.
*
* RCSID $Id: ocsp.c 4827 2009-01-09 01:36:13Z andreas $
*/
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <freeswan.h>
#include <ipsec_policy.h>
#include "constants.h"
#include "defs.h"
#include "log.h"
#include "x509.h"
#include "crl.h"
#include "ca.h"
#include "rnd.h"
#include "asn1.h"
#include "certs.h"
#include "smartcard.h"
#include <asn1/oid.h>
#include "whack.h"
#include "pkcs1.h"
#include "keys.h"
#include "fetch.h"
#include "ocsp.h"
#define NONCE_LENGTH 16
static const char *const cert_status_names[] = {
"good",
"revoked",
"unknown",
"undefined"
};
static const char *const response_status_names[] = {
"successful",
"malformed request",
"internal error",
"try later",
"status #4",
"signature required",
"unauthorized"
};
/* response container */
typedef struct response response_t;
struct response {
chunk_t tbs;
chunk_t responder_id_name;
chunk_t responder_id_key;
time_t produced_at;
chunk_t responses;
chunk_t nonce;
int algorithm;
chunk_t signature;
};
const response_t empty_response = {
{ NULL, 0 } , /* tbs */
{ NULL, 0 } , /* responder_id_name */
{ NULL, 0 } , /* responder_id_key */
UNDEFINED_TIME, /* produced_at */
{ NULL, 0 } , /* single_response */
{ NULL, 0 } , /* nonce */
OID_UNKNOWN , /* signature_algorithm */
{ NULL, 0 } /* signature */
};
/* single response container */
typedef struct single_response single_response_t;
struct single_response {
single_response_t *next;
int hash_algorithm;
chunk_t issuer_name_hash;
chunk_t issuer_key_hash;
chunk_t serialNumber;
cert_status_t status;
time_t revocationTime;
crl_reason_t revocationReason;
time_t thisUpdate;
time_t nextUpdate;
};
const single_response_t empty_single_response = {
NULL , /* *next */
OID_UNKNOWN , /* hash_algorithm */
{ NULL, 0 } , /* issuer_name_hash */
{ NULL, 0 } , /* issuer_key_hash */
{ NULL, 0 } , /* serial_number */
CERT_UNDEFINED , /* status */
UNDEFINED_TIME , /* revocationTime */
REASON_UNSPECIFIED, /* revocationReason */
UNDEFINED_TIME , /* this_update */
UNDEFINED_TIME /* next_update */
};
/* list of single requests */
typedef struct request_list request_list_t;
struct request_list {
chunk_t request;
request_list_t *next;
};
/* some OCSP specific prefabricated ASN.1 constants */
static u_char ASN1_nonce_oid_str[] = {
0x06, 0x09, 0x2B, 0x06, 0x01, 0x05, 0x05, 0x07, 0x30, 0x01, 0x02
};
static const chunk_t ASN1_nonce_oid = strchunk(ASN1_nonce_oid_str);
static u_char ASN1_response_oid_str[] = {
0x06, 0x09, 0x2B, 0x06, 0x01, 0x05, 0x05, 0x07, 0x30, 0x01, 0x04
};
static const chunk_t ASN1_response_oid = strchunk(ASN1_response_oid_str);
static u_char ASN1_response_content_str[] = {
0x04, 0x0D,
0x30, 0x0B,
0x06, 0x09, 0x2B, 0x06, 0x01, 0x05, 0x05, 0x07, 0x30, 0x01, 0x01
};
static const chunk_t ASN1_response_content = strchunk(ASN1_response_content_str);
/* default OCSP uri */
static chunk_t ocsp_default_uri;
/* ocsp cache: pointer to first element */
static ocsp_location_t *ocsp_cache = NULL;
/* static temporary storage for ocsp requestor information */
static x509cert_t *ocsp_requestor_cert = NULL;
static smartcard_t *ocsp_requestor_sc = NULL;
static const struct RSA_private_key *ocsp_requestor_pri = NULL;
/* asn.1 definitions for parsing */
static const asn1Object_t ocspResponseObjects[] = {
{ 0, "OCSPResponse", ASN1_SEQUENCE, ASN1_NONE }, /* 0 */
{ 1, "responseStatus", ASN1_ENUMERATED, ASN1_BODY }, /* 1 */
{ 1, "responseBytesContext", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 2 */
{ 2, "responseBytes", ASN1_SEQUENCE, ASN1_NONE }, /* 3 */
{ 3, "responseType", ASN1_OID, ASN1_BODY }, /* 4 */
{ 3, "response", ASN1_OCTET_STRING, ASN1_BODY }, /* 5 */
{ 1, "end opt", ASN1_EOC, ASN1_END } /* 6 */
};
#define OCSP_RESPONSE_STATUS 1
#define OCSP_RESPONSE_TYPE 4
#define OCSP_RESPONSE 5
#define OCSP_RESPONSE_ROOF 7
static const asn1Object_t basicResponseObjects[] = {
{ 0, "BasicOCSPResponse", ASN1_SEQUENCE, ASN1_NONE }, /* 0 */
{ 1, "tbsResponseData", ASN1_SEQUENCE, ASN1_OBJ }, /* 1 */
{ 2, "versionContext", ASN1_CONTEXT_C_0, ASN1_NONE |
ASN1_DEF }, /* 2 */
{ 3, "version", ASN1_INTEGER, ASN1_BODY }, /* 3 */
{ 2, "responderIdContext", ASN1_CONTEXT_C_1, ASN1_OPT }, /* 4 */
{ 3, "responderIdByName", ASN1_SEQUENCE, ASN1_OBJ }, /* 5 */
{ 2, "end choice", ASN1_EOC, ASN1_END }, /* 6 */
{ 2, "responderIdContext", ASN1_CONTEXT_C_2, ASN1_OPT }, /* 7 */
{ 3, "responderIdByKey", ASN1_OCTET_STRING, ASN1_BODY }, /* 8 */
{ 2, "end choice", ASN1_EOC, ASN1_END }, /* 9 */
{ 2, "producedAt", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 10 */
{ 2, "responses", ASN1_SEQUENCE, ASN1_OBJ }, /* 11 */
{ 2, "responseExtensionsContext", ASN1_CONTEXT_C_1, ASN1_OPT }, /* 12 */
{ 3, "responseExtensions", ASN1_SEQUENCE, ASN1_LOOP }, /* 13 */
{ 4, "extension", ASN1_SEQUENCE, ASN1_NONE }, /* 14 */
{ 5, "extnID", ASN1_OID, ASN1_BODY }, /* 15 */
{ 5, "critical", ASN1_BOOLEAN, ASN1_BODY |
ASN1_DEF }, /* 16 */
{ 5, "extnValue", ASN1_OCTET_STRING, ASN1_BODY }, /* 17 */
{ 4, "end loop", ASN1_EOC, ASN1_END }, /* 18 */
{ 2, "end opt", ASN1_EOC, ASN1_END }, /* 19 */
{ 1, "signatureAlgorithm", ASN1_EOC, ASN1_RAW }, /* 20 */
{ 1, "signature", ASN1_BIT_STRING, ASN1_BODY }, /* 21 */
{ 1, "certsContext", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 22 */
{ 2, "certs", ASN1_SEQUENCE, ASN1_LOOP }, /* 23 */
{ 3, "certificate", ASN1_SEQUENCE, ASN1_OBJ }, /* 24 */
{ 2, "end loop", ASN1_EOC, ASN1_END }, /* 25 */
{ 1, "end opt", ASN1_EOC, ASN1_END } /* 26 */
};
#define BASIC_RESPONSE_TBS_DATA 1
#define BASIC_RESPONSE_VERSION 3
#define BASIC_RESPONSE_ID_BY_NAME 5
#define BASIC_RESPONSE_ID_BY_KEY 8
#define BASIC_RESPONSE_PRODUCED_AT 10
#define BASIC_RESPONSE_RESPONSES 11
#define BASIC_RESPONSE_EXT_ID 15
#define BASIC_RESPONSE_CRITICAL 16
#define BASIC_RESPONSE_EXT_VALUE 17
#define BASIC_RESPONSE_ALGORITHM 20
#define BASIC_RESPONSE_SIGNATURE 21
#define BASIC_RESPONSE_CERTIFICATE 24
#define BASIC_RESPONSE_ROOF 27
static const asn1Object_t responsesObjects[] = {
{ 0, "responses", ASN1_SEQUENCE, ASN1_LOOP }, /* 0 */
{ 1, "singleResponse", ASN1_EOC, ASN1_RAW }, /* 1 */
{ 0, "end loop", ASN1_EOC, ASN1_END } /* 2 */
};
#define RESPONSES_SINGLE_RESPONSE 1
#define RESPONSES_ROOF 3
static const asn1Object_t singleResponseObjects[] = {
{ 0, "singleResponse", ASN1_SEQUENCE, ASN1_BODY }, /* 0 */
{ 1, "certID", ASN1_SEQUENCE, ASN1_NONE }, /* 1 */
{ 2, "algorithm", ASN1_EOC, ASN1_RAW }, /* 2 */
{ 2, "issuerNameHash", ASN1_OCTET_STRING, ASN1_BODY }, /* 3 */
{ 2, "issuerKeyHash", ASN1_OCTET_STRING, ASN1_BODY }, /* 4 */
{ 2, "serialNumber", ASN1_INTEGER, ASN1_BODY }, /* 5 */
{ 1, "certStatusGood", ASN1_CONTEXT_S_0, ASN1_OPT }, /* 6 */
{ 1, "end opt", ASN1_EOC, ASN1_END }, /* 7 */
{ 1, "certStatusRevoked", ASN1_CONTEXT_C_1, ASN1_OPT }, /* 8 */
{ 2, "revocationTime", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 9 */
{ 2, "revocationReason", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 10 */
{ 3, "crlReason", ASN1_ENUMERATED, ASN1_BODY }, /* 11 */
{ 2, "end opt", ASN1_EOC, ASN1_END }, /* 12 */
{ 1, "end opt", ASN1_EOC, ASN1_END }, /* 13 */
{ 1, "certStatusUnknown", ASN1_CONTEXT_S_2, ASN1_OPT }, /* 14 */
{ 1, "end opt", ASN1_EOC, ASN1_END }, /* 15 */
{ 1, "thisUpdate", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 16 */
{ 1, "nextUpdateContext", ASN1_CONTEXT_C_0, ASN1_OPT }, /* 17 */
{ 2, "nextUpdate", ASN1_GENERALIZEDTIME, ASN1_BODY }, /* 18 */
{ 1, "end opt", ASN1_EOC, ASN1_END }, /* 19 */
{ 1, "singleExtensionsContext", ASN1_CONTEXT_C_1, ASN1_OPT }, /* 20 */
{ 2, "singleExtensions", ASN1_SEQUENCE, ASN1_LOOP }, /* 21 */
{ 3, "extension", ASN1_SEQUENCE, ASN1_NONE }, /* 22 */
{ 4, "extnID", ASN1_OID, ASN1_BODY }, /* 23 */
{ 4, "critical", ASN1_BOOLEAN, ASN1_BODY |
ASN1_DEF }, /* 24 */
{ 4, "extnValue", ASN1_OCTET_STRING, ASN1_BODY }, /* 25 */
{ 2, "end loop", ASN1_EOC, ASN1_END }, /* 26 */
{ 1, "end opt", ASN1_EOC, ASN1_END } /* 27 */
};
#define SINGLE_RESPONSE_ALGORITHM 2
#define SINGLE_RESPONSE_ISSUER_NAME_HASH 3
#define SINGLE_RESPONSE_ISSUER_KEY_HASH 4
#define SINGLE_RESPONSE_SERIAL_NUMBER 5
#define SINGLE_RESPONSE_CERT_STATUS_GOOD 6
#define SINGLE_RESPONSE_CERT_STATUS_REVOKED 8
#define SINGLE_RESPONSE_CERT_STATUS_REVOCATION_TIME 9
#define SINGLE_RESPONSE_CERT_STATUS_CRL_REASON 11
#define SINGLE_RESPONSE_CERT_STATUS_UNKNOWN 14
#define SINGLE_RESPONSE_THIS_UPDATE 16
#define SINGLE_RESPONSE_NEXT_UPDATE 18
#define SINGLE_RESPONSE_EXT_ID 23
#define SINGLE_RESPONSE_CRITICAL 24
#define SINGLE_RESPONSE_EXT_VALUE 25
#define SINGLE_RESPONSE_ROOF 28
/* build an ocsp location from certificate information
* without unsharing its contents
*/
static bool
build_ocsp_location(const x509cert_t *cert, ocsp_location_t *location)
{
static u_char digest[SHA1_DIGEST_SIZE]; /* temporary storage */
location->uri = cert->accessLocation;
if (location->uri.ptr == NULL)
{
ca_info_t *ca = get_ca_info(cert->issuer, cert->authKeySerialNumber
, cert->authKeyID);
if (ca != NULL && ca->ocspuri != NULL)
setchunk(location->uri, ca->ocspuri, strlen(ca->ocspuri))
else
/* abort if no ocsp location uri is defined */
return FALSE;
}
setchunk(location->authNameID, digest, SHA1_DIGEST_SIZE);
compute_digest(cert->issuer, OID_SHA1, &location->authNameID);
location->next = NULL;
location->issuer = cert->issuer;
location->authKeyID = cert->authKeyID;
location->authKeySerialNumber = cert->authKeySerialNumber;
if (cert->authKeyID.ptr == NULL)
{
x509cert_t *authcert = get_authcert(cert->issuer
, cert->authKeySerialNumber, cert->authKeyID, AUTH_CA);
if (authcert != NULL)
{
location->authKeyID = authcert->subjectKeyID;
location->authKeySerialNumber = authcert->serialNumber;
}
}
location->nonce = empty_chunk;
location->certinfo = NULL;
return TRUE;
}
/*
* compare two ocsp locations for equality
*/
static bool
same_ocsp_location(const ocsp_location_t *a, const ocsp_location_t *b)
{
return ((a->authKeyID.ptr != NULL)
? same_keyid(a->authKeyID, b->authKeyID)
: (same_dn(a->issuer, b->issuer)
&& same_serial(a->authKeySerialNumber, b->authKeySerialNumber)))
&& same_chunk(a->uri, b->uri);
}
/*
* find an existing ocsp location in a chained list
*/
ocsp_location_t*
get_ocsp_location(const ocsp_location_t * loc, ocsp_location_t *chain)
{
while (chain != NULL)
{
if (same_ocsp_location(loc, chain))
return chain;
chain = chain->next;
}
return NULL;
}
/* retrieves the status of a cert from the ocsp cache
* returns CERT_UNDEFINED if no status is found
*/
static cert_status_t
get_ocsp_status(const ocsp_location_t *loc, chunk_t serialNumber
,time_t *nextUpdate, time_t *revocationTime, crl_reason_t *revocationReason)
{
ocsp_certinfo_t *certinfo, **certinfop;
int cmp = -1;
/* find location */
ocsp_location_t *location = get_ocsp_location(loc, ocsp_cache);
if (location == NULL)
return CERT_UNDEFINED;
/* traverse list of certinfos in increasing order */
certinfop = &location->certinfo;
certinfo = *certinfop;
while (certinfo != NULL)
{
cmp = cmp_chunk(serialNumber, certinfo->serialNumber);
if (cmp <= 0)
break;
certinfop = &certinfo->next;
certinfo = *certinfop;
}
if (cmp == 0)
{
*nextUpdate = certinfo->nextUpdate;
*revocationTime = certinfo->revocationTime;
*revocationReason = certinfo->revocationReason;
return certinfo->status;
}
return CERT_UNDEFINED;
}
/*
* verify the ocsp status of a certificate
*/
cert_status_t
verify_by_ocsp(const x509cert_t *cert, time_t *until
, time_t *revocationDate, crl_reason_t *revocationReason)
{
cert_status_t status;
ocsp_location_t location;
time_t nextUpdate = 0;
*revocationDate = UNDEFINED_TIME;
*revocationReason = REASON_UNSPECIFIED;
/* is an ocsp location defined? */
if (!build_ocsp_location(cert, &location))
return CERT_UNDEFINED;
lock_ocsp_cache("verify_by_ocsp");
status = get_ocsp_status(&location, cert->serialNumber, &nextUpdate
, revocationDate, revocationReason);
unlock_ocsp_cache("verify_by_ocsp");
if (status == CERT_UNDEFINED || nextUpdate < time(NULL))
{
plog("ocsp status is stale or not in cache");
add_ocsp_fetch_request(&location, cert->serialNumber);
/* inititate fetching of ocsp status */
wake_fetch_thread("verify_by_ocsp");
}
*until = nextUpdate;
return status;
}
/*
* check if an ocsp status is about to expire
*/
void
check_ocsp(void)
{
ocsp_location_t *location;
lock_ocsp_cache("check_ocsp");
location = ocsp_cache;
while (location != NULL)
{
char buf[BUF_LEN];
bool first = TRUE;
ocsp_certinfo_t *certinfo = location->certinfo;
while (certinfo != NULL)
{
if (!certinfo->once)
{
time_t time_left = certinfo->nextUpdate - time(NULL);
DBG(DBG_CONTROL,
if (first)
{
dntoa(buf, BUF_LEN, location->issuer);
DBG_log("issuer: '%s'", buf);
if (location->authKeyID.ptr != NULL)
{
datatot(location->authKeyID.ptr, location->authKeyID.len
, ':', buf, BUF_LEN);
DBG_log("authkey: %s", buf);
}
first = FALSE;
}
datatot(certinfo->serialNumber.ptr, certinfo->serialNumber.len
, ':', buf, BUF_LEN);
DBG_log("serial: %s, %ld seconds left", buf, time_left)
)
if (time_left < 2*crl_check_interval)
add_ocsp_fetch_request(location, certinfo->serialNumber);
}
certinfo = certinfo->next;
}
location = location->next;
}
unlock_ocsp_cache("check_ocsp");
}
/*
* frees the allocated memory of a certinfo struct
*/
static void
free_certinfo(ocsp_certinfo_t *certinfo)
{
freeanychunk(certinfo->serialNumber);
pfree(certinfo);
}
/*
* frees all certinfos in a chained list
*/
static void
free_certinfos(ocsp_certinfo_t *chain)
{
ocsp_certinfo_t *certinfo;
while (chain != NULL)
{
certinfo = chain;
chain = chain->next;
free_certinfo(certinfo);
}
}
/*
* frees the memory allocated to an ocsp location including all certinfos
*/
static void
free_ocsp_location(ocsp_location_t* location)
{
freeanychunk(location->issuer);
freeanychunk(location->authNameID);
freeanychunk(location->authKeyID);
freeanychunk(location->authKeySerialNumber);
freeanychunk(location->uri);
free_certinfos(location->certinfo);
pfree(location);
}
/*
* free a chained list of ocsp locations
*/
void
free_ocsp_locations(ocsp_location_t **chain)
{
while (*chain != NULL)
{
ocsp_location_t *location = *chain;
*chain = location->next;
free_ocsp_location(location);
}
}
/*
* free the ocsp cache
*/
void
free_ocsp_cache(void)
{
lock_ocsp_cache("free_ocsp_cache");
free_ocsp_locations(&ocsp_cache);
unlock_ocsp_cache("free_ocsp_cache");
}
/*
* frees the ocsp cache and global variables
*/
void
free_ocsp(void)
{
pfreeany(ocsp_default_uri.ptr);
free_ocsp_cache();
}
/*
* list a chained list of ocsp_locations
*/
void
list_ocsp_locations(ocsp_location_t *location, bool requests, bool utc
, bool strict)
{
bool first = TRUE;
while (location != NULL)
{
ocsp_certinfo_t *certinfo = location->certinfo;
if (certinfo != NULL)
{
u_char buf[BUF_LEN];
if (first)
{
whack_log(RC_COMMENT, " ");
whack_log(RC_COMMENT, "List of OCSP %s:", requests?
"fetch requests":"responses");
first = FALSE;
}
whack_log(RC_COMMENT, " ");
if (location->issuer.ptr != NULL)
{
dntoa(buf, BUF_LEN, location->issuer);
whack_log(RC_COMMENT, " issuer: '%s'", buf);
}
whack_log(RC_COMMENT, " uri: '%.*s'", (int)location->uri.len
, location->uri.ptr);
if (location->authNameID.ptr != NULL)
{
datatot(location->authNameID.ptr, location->authNameID.len, ':'
, buf, BUF_LEN);
whack_log(RC_COMMENT, " authname: %s", buf);
}
if (location->authKeyID.ptr != NULL)
{
datatot(location->authKeyID.ptr, location->authKeyID.len, ':'
, buf, BUF_LEN);
whack_log(RC_COMMENT, " authkey: %s", buf);
}
if (location->authKeySerialNumber.ptr != NULL)
{
datatot(location->authKeySerialNumber.ptr
, location->authKeySerialNumber.len, ':', buf, BUF_LEN);
whack_log(RC_COMMENT, " aserial: %s", buf);
}
while (certinfo != NULL)
{
char thisUpdate[TIMETOA_BUF];
strcpy(thisUpdate, timetoa(&certinfo->thisUpdate, utc));
if (requests)
{
whack_log(RC_COMMENT, "%s, trials: %d", thisUpdate
, certinfo->trials);
}
else if (certinfo->once)
{
whack_log(RC_COMMENT, "%s, onetime use%s", thisUpdate
, (certinfo->nextUpdate < time(NULL))? " (expired)": "");
}
else
{
whack_log(RC_COMMENT, "%s, until %s %s", thisUpdate
, timetoa(&certinfo->nextUpdate, utc)
, check_expiry(certinfo->nextUpdate, OCSP_WARNING_INTERVAL, strict));
}
datatot(certinfo->serialNumber.ptr, certinfo->serialNumber.len, ':'
, buf, BUF_LEN);
whack_log(RC_COMMENT, " serial: %s, %s", buf
, cert_status_names[certinfo->status]);
certinfo = certinfo->next;
}
}
location = location->next;
}
}
/*
* list the ocsp cache
*/
void
list_ocsp_cache(bool utc, bool strict)
{
lock_ocsp_cache("list_ocsp_cache");
list_ocsp_locations(ocsp_cache, FALSE, utc, strict);
unlock_ocsp_cache("list_ocsp_cache");
}
static bool
get_ocsp_requestor_cert(ocsp_location_t *location)
{
x509cert_t *cert = NULL;
/* initialize temporary static storage */
ocsp_requestor_cert = NULL;
ocsp_requestor_sc = NULL;
ocsp_requestor_pri = NULL;
for (;;)
{
char buf[BUF_LEN];
/* looking for a certificate from the same issuer */
cert = get_x509cert(location->issuer, location->authKeySerialNumber
,location->authKeyID, cert);
if (cert == NULL)
break;
DBG(DBG_CONTROL,
dntoa(buf, BUF_LEN, cert->subject);
DBG_log("candidate: '%s'", buf);
)
if (cert->smartcard)
{
/* look for a matching private key on a smartcard */
smartcard_t *sc = scx_get(cert);
if (sc != NULL)
{
DBG(DBG_CONTROL,
DBG_log("matching smartcard found")
)
if (sc->valid)
{
ocsp_requestor_cert = cert;
ocsp_requestor_sc = sc;
return TRUE;
}
plog("unable to sign ocsp request without PIN");
}
}
else
{
/* look for a matching private key in the chained list */
const struct RSA_private_key *pri = get_x509_private_key(cert);
if (pri != NULL)
{
DBG(DBG_CONTROL,
DBG_log("matching private key found")
)
ocsp_requestor_cert = cert;
ocsp_requestor_pri = pri;
return TRUE;
}
}
}
return FALSE;
}
static chunk_t
generate_signature(chunk_t digest, smartcard_t *sc
, const RSA_private_key_t *pri)
{
chunk_t sigdata;
u_char *pos;
size_t siglen = 0;
if (sc != NULL)
{
/* RSA signature is done on smartcard */
if (!scx_establish_context(sc) || !scx_login(sc))
{
scx_release_context(sc);
return empty_chunk;
}
siglen = scx_get_keylength(sc);
if (siglen == 0)
{
plog("failed to get keylength from smartcard");
scx_release_context(sc);
return empty_chunk;
}
DBG(DBG_CONTROL | DBG_CRYPT,
DBG_log("signing hash with RSA key from smartcard (slot: %d, id: %s)"
, (int)sc->slot, sc->id)
)
pos = build_asn1_object(&sigdata, ASN1_BIT_STRING, 1 + siglen);
*pos++ = 0x00;
scx_sign_hash(sc, digest.ptr, digest.len, pos, siglen);
if (!pkcs11_keep_state)
scx_release_context(sc);
}
else
{
/* RSA signature is done in software */
siglen = pri->pub.k;
pos = build_asn1_object(&sigdata, ASN1_BIT_STRING, 1 + siglen);
*pos++ = 0x00;
sign_hash(pri, digest.ptr, digest.len, pos, siglen);
}
return sigdata;
}
/*
* build signature into ocsp request
* gets built only if a request cert with
* a corresponding private key is found
*/
static chunk_t
build_signature(chunk_t tbsRequest)
{
chunk_t sigdata, certs;
chunk_t digest_info;
u_char digest_buf[MAX_DIGEST_LEN];
chunk_t digest_raw = { digest_buf, MAX_DIGEST_LEN };
if (!compute_digest(tbsRequest, OID_SHA1, &digest_raw))
return empty_chunk;
/* according to PKCS#1 v2.1 digest must be packaged into
* an ASN.1 structure for encryption
*/
digest_info = asn1_wrap(ASN1_SEQUENCE, "cm"
, ASN1_sha1_id
, asn1_simple_object(ASN1_OCTET_STRING, digest_raw));
/* generate the RSA signature */
sigdata = generate_signature(digest_info
, ocsp_requestor_sc
, ocsp_requestor_pri);
freeanychunk(digest_info);
/* has the RSA signature generation been successful? */
if (sigdata.ptr == NULL)
return empty_chunk;
/* include our certificate */
certs = asn1_wrap(ASN1_CONTEXT_C_0, "m"
, asn1_simple_object(ASN1_SEQUENCE
, ocsp_requestor_cert->certificate
)
);
/* build signature comprising algorithm, signature and cert */
return asn1_wrap(ASN1_CONTEXT_C_0, "m"
, asn1_wrap(ASN1_SEQUENCE, "cmm"
, ASN1_sha1WithRSA_id
, sigdata
, certs
)
);
}
/* build request (into requestList)
* no singleRequestExtensions used
*/
static chunk_t
build_request(ocsp_location_t *location, ocsp_certinfo_t *certinfo)
{
chunk_t reqCert = asn1_wrap(ASN1_SEQUENCE, "cmmm"
, ASN1_sha1_id
, asn1_simple_object(ASN1_OCTET_STRING, location->authNameID)
, asn1_simple_object(ASN1_OCTET_STRING, location->authKeyID)
, asn1_simple_object(ASN1_INTEGER, certinfo->serialNumber));
return asn1_wrap(ASN1_SEQUENCE, "m", reqCert);
}
/*
* build requestList (into TBSRequest)
*/
static chunk_t
build_request_list(ocsp_location_t *location)
{
chunk_t requestList;
request_list_t *reqs = NULL;
ocsp_certinfo_t *certinfo = location->certinfo;
u_char *pos;
size_t datalen = 0;
/* build content */
while (certinfo != NULL)
{
/* build request for every certificate in list
* and store them in a chained list
*/
request_list_t *req = alloc_thing(request_list_t, "ocsp request");
req->request = build_request(location, certinfo);
req->next = reqs;
reqs = req;
datalen += req->request.len;
certinfo = certinfo->next;
}
pos = build_asn1_object(&requestList, ASN1_SEQUENCE
, datalen);
/* copy all in chained list, free list afterwards */
while (reqs != NULL)
{
request_list_t *req = reqs;
mv_chunk(&pos, req->request);
reqs = reqs->next;
pfree(req);
}
return requestList;
}
/*
* build requestorName (into TBSRequest)
*/
static chunk_t
build_requestor_name(void)
{
return asn1_wrap(ASN1_CONTEXT_C_1, "m"
, asn1_simple_object(ASN1_CONTEXT_C_4
, ocsp_requestor_cert->subject));
}
/*
* build nonce extension (into requestExtensions)
*/
static chunk_t
build_nonce_extension(ocsp_location_t *location)
{
/* generate a random nonce */
location->nonce.ptr = alloc_bytes(NONCE_LENGTH, "ocsp nonce"),
location->nonce.len = NONCE_LENGTH;
get_rnd_bytes(location->nonce.ptr, NONCE_LENGTH);
return asn1_wrap(ASN1_SEQUENCE, "cm"
, ASN1_nonce_oid
, asn1_simple_object(ASN1_OCTET_STRING, location->nonce));
}
/*
* build requestExtensions (into TBSRequest)
*/
static chunk_t
build_request_ext(ocsp_location_t *location)
{
return asn1_wrap(ASN1_CONTEXT_C_2, "m"
, asn1_wrap(ASN1_SEQUENCE, "mm"
, build_nonce_extension(location)
, asn1_wrap(ASN1_SEQUENCE, "cc"
, ASN1_response_oid
, ASN1_response_content
)
)
);
}
/*
* build TBSRequest (into OCSPRequest)
*/
static chunk_t
build_tbs_request(ocsp_location_t *location, bool has_requestor_cert)
{
/* version is skipped since the default is ok */
return asn1_wrap(ASN1_SEQUENCE, "mmm"
, (has_requestor_cert)
? build_requestor_name()
: empty_chunk
, build_request_list(location)
, build_request_ext(location));
}
/* assembles an ocsp request to given location
* and sets nonce field in location to the sent nonce
*/
chunk_t
build_ocsp_request(ocsp_location_t *location)
{
bool has_requestor_cert;
chunk_t tbsRequest, signature;
char buf[BUF_LEN];
DBG(DBG_CONTROL,
DBG_log("assembling ocsp request");
dntoa(buf, BUF_LEN, location->issuer);
DBG_log("issuer: '%s'", buf);
if (location->authKeyID.ptr != NULL)
{
datatot(location->authKeyID.ptr, location->authKeyID.len, ':'
, buf, BUF_LEN);
DBG_log("authkey: %s", buf);
}
)
lock_certs_and_keys("build_ocsp_request");
/* looks for requestor cert and matching private key */
has_requestor_cert = get_ocsp_requestor_cert(location);
/* build content */
tbsRequest = build_tbs_request(location, has_requestor_cert);
/* sign tbsReuqest */
signature = (has_requestor_cert)? build_signature(tbsRequest)
: empty_chunk;
unlock_certs_and_keys("build_ocsp_request");
return asn1_wrap(ASN1_SEQUENCE, "mm"
, tbsRequest
, signature);
}
/*
* check if the OCSP response has a valid signature
*/
static bool
valid_ocsp_response(response_t *res)
{
int pathlen;
x509cert_t *authcert;
lock_authcert_list("valid_ocsp_response");
authcert = get_authcert(res->responder_id_name, empty_chunk
, res->responder_id_key, AUTH_OCSP | AUTH_CA);
if (authcert == NULL)
{
plog("no matching ocsp signer cert found");
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
DBG(DBG_CONTROL,
DBG_log("ocsp signer cert found")
)
if (!check_signature(res->tbs, res->signature, res->algorithm
, res->algorithm, authcert))
{
plog("signature of ocsp response is invalid");
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
DBG(DBG_CONTROL,
DBG_log("signature of ocsp response is valid")
)
for (pathlen = 0; pathlen < MAX_CA_PATH_LEN; pathlen++)
{
u_char buf[BUF_LEN];
err_t ugh = NULL;
time_t until;
x509cert_t *cert = authcert;
DBG(DBG_CONTROL,
dntoa(buf, BUF_LEN, cert->subject);
DBG_log("subject: '%s'",buf);
dntoa(buf, BUF_LEN, cert->issuer);
DBG_log("issuer: '%s'",buf);
if (cert->authKeyID.ptr != NULL)
{
datatot(cert->authKeyID.ptr, cert->authKeyID.len, ':'
, buf, BUF_LEN);
DBG_log("authkey: %s", buf);
}
)
ugh = check_validity(authcert, &until);
if (ugh != NULL)
{
plog("%s", ugh);
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
DBG(DBG_CONTROL,
DBG_log("certificate is valid")
)
authcert = get_authcert(cert->issuer, cert->authKeySerialNumber
, cert->authKeyID, AUTH_CA);
if (authcert == NULL)
{
plog("issuer cacert not found");
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
DBG(DBG_CONTROL,
DBG_log("issuer cacert found")
)
if (!check_signature(cert->tbsCertificate, cert->signature
, cert->algorithm, cert->algorithm, authcert))
{
plog("certificate signature is invalid");
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
DBG(DBG_CONTROL,
DBG_log("certificate signature is valid")
)
/* check if cert is self-signed */
if (same_dn(cert->issuer, cert->subject))
{
DBG(DBG_CONTROL,
DBG_log("reached self-signed root ca")
)
unlock_authcert_list("valid_ocsp_response");
return TRUE;
}
}
plog("maximum ca path length of %d levels exceeded", MAX_CA_PATH_LEN);
unlock_authcert_list("valid_ocsp_response");
return FALSE;
}
/*
* parse a basic OCSP response
*/
static bool
parse_basic_ocsp_response(chunk_t blob, int level0, response_t *res)
{
asn1_ctx_t ctx;
bool critical;
chunk_t object;
u_int level, version;
u_char buf[BUF_LEN];
int objectID = 0;
int extn_oid = OID_UNKNOWN;
asn1_init(&ctx, blob, level0, FALSE, DBG_RAW);
while (objectID < BASIC_RESPONSE_ROOF)
{
if (!extract_object(basicResponseObjects, &objectID, &object, &level, &ctx))
return FALSE;
switch (objectID)
{
case BASIC_RESPONSE_TBS_DATA:
res->tbs = object;
break;
case BASIC_RESPONSE_VERSION:
version = (object.len)? (1 + (u_int)*object.ptr) : 1;
if (version != OCSP_BASIC_RESPONSE_VERSION)
{
plog("wrong ocsp basic response version (version= %i)", version);
return FALSE;
}
break;
case BASIC_RESPONSE_ID_BY_NAME:
res->responder_id_name = object;
DBG(DBG_PARSING,
dntoa(buf, BUF_LEN, object);
DBG_log(" '%s'",buf)
)
break;
case BASIC_RESPONSE_ID_BY_KEY:
res->responder_id_key = object;
break;
case BASIC_RESPONSE_PRODUCED_AT:
res->produced_at = asn1totime(&object, ASN1_GENERALIZEDTIME);
break;
case BASIC_RESPONSE_RESPONSES:
res->responses = object;
break;
case BASIC_RESPONSE_EXT_ID:
extn_oid = known_oid(object);
break;
case BASIC_RESPONSE_CRITICAL:
critical = object.len && *object.ptr;
DBG(DBG_PARSING,
DBG_log(" %s",(critical)?"TRUE":"FALSE");
)
break;
case BASIC_RESPONSE_EXT_VALUE:
if (extn_oid == OID_NONCE)
res->nonce = object;
break;
case BASIC_RESPONSE_ALGORITHM:
res->algorithm = parse_algorithmIdentifier(object, level+1, NULL);
break;
case BASIC_RESPONSE_SIGNATURE:
res->signature = object;
break;
case BASIC_RESPONSE_CERTIFICATE:
{
chunk_t blob;
x509cert_t *cert = alloc_thing(x509cert_t, "ocspcert");
clonetochunk(blob, object.ptr, object.len, "ocspcert blob");
*cert = empty_x509cert;
if (parse_x509cert(blob, level+1, cert)
&& cert->isOcspSigner
&& trust_authcert_candidate(cert, NULL))
{
add_authcert(cert, AUTH_OCSP);
}
else
{
DBG(DBG_CONTROL | DBG_PARSING,
DBG_log("embedded ocsp certificate rejected")
)
free_x509cert(cert);
}
}
break;
}
objectID++;
}
return TRUE;
}
/*
* parse an ocsp response and return the result as a response_t struct
*/
static response_status
parse_ocsp_response(chunk_t blob, response_t * res)
{
asn1_ctx_t ctx;
chunk_t object;
u_int level;
int objectID = 0;
int ocspResponseType = OID_UNKNOWN;
response_status rStatus = STATUS_INTERNALERROR;
asn1_init(&ctx, blob, 0, FALSE, DBG_RAW);
while (objectID < OCSP_RESPONSE_ROOF)
{
if (!extract_object(ocspResponseObjects, &objectID, &object, &level, &ctx))
return STATUS_INTERNALERROR;
switch (objectID) {
case OCSP_RESPONSE_STATUS:
rStatus = (response_status) *object.ptr;
switch (rStatus)
{
case STATUS_SUCCESSFUL:
break;
case STATUS_MALFORMEDREQUEST:
case STATUS_INTERNALERROR:
case STATUS_TRYLATER:
case STATUS_SIGREQUIRED:
case STATUS_UNAUTHORIZED:
plog("ocsp response: server said '%s'"
, response_status_names[rStatus]);
return rStatus;
default:
return STATUS_INTERNALERROR;
}
break;
case OCSP_RESPONSE_TYPE:
ocspResponseType = known_oid(object);
break;
case OCSP_RESPONSE:
{
switch (ocspResponseType) {
case OID_BASIC:
if (!parse_basic_ocsp_response(object, level+1, res))
return STATUS_INTERNALERROR;
break;
default:
DBG(DBG_CONTROL,
DBG_log("ocsp response is not of type BASIC");
DBG_dump_chunk("ocsp response OID: ", object);
)
return STATUS_INTERNALERROR;
}
}
break;
}
objectID++;
}
return rStatus;
}
/*
* parse a basic OCSP response
*/
static bool
parse_ocsp_single_response(chunk_t blob, int level0, single_response_t *sres)
{
u_int level, extn_oid;
asn1_ctx_t ctx;
bool critical;
chunk_t object;
int objectID = 0;
asn1_init(&ctx, blob, level0, FALSE, DBG_RAW);
while (objectID < SINGLE_RESPONSE_ROOF)
{
if (!extract_object(singleResponseObjects, &objectID, &object, &level, &ctx))
return FALSE;
switch (objectID)
{
case SINGLE_RESPONSE_ALGORITHM:
sres->hash_algorithm = parse_algorithmIdentifier(object, level+1, NULL);
break;
case SINGLE_RESPONSE_ISSUER_NAME_HASH:
sres->issuer_name_hash = object;
break;
case SINGLE_RESPONSE_ISSUER_KEY_HASH:
sres->issuer_key_hash = object;
break;
case SINGLE_RESPONSE_SERIAL_NUMBER:
sres->serialNumber = object;
break;
case SINGLE_RESPONSE_CERT_STATUS_GOOD:
sres->status = CERT_GOOD;
break;
case SINGLE_RESPONSE_CERT_STATUS_REVOKED:
sres->status = CERT_REVOKED;
break;
case SINGLE_RESPONSE_CERT_STATUS_REVOCATION_TIME:
sres->revocationTime = asn1totime(&object, ASN1_GENERALIZEDTIME);
break;
case SINGLE_RESPONSE_CERT_STATUS_CRL_REASON:
sres->revocationReason = (object.len == 1)
? *object.ptr : REASON_UNSPECIFIED;
break;
case SINGLE_RESPONSE_CERT_STATUS_UNKNOWN:
sres->status = CERT_UNKNOWN;
break;
case SINGLE_RESPONSE_THIS_UPDATE:
sres->thisUpdate = asn1totime(&object, ASN1_GENERALIZEDTIME);
break;
case SINGLE_RESPONSE_NEXT_UPDATE:
sres->nextUpdate = asn1totime(&object, ASN1_GENERALIZEDTIME);
break;
case SINGLE_RESPONSE_EXT_ID:
extn_oid = known_oid(object);
break;
case SINGLE_RESPONSE_CRITICAL:
critical = object.len && *object.ptr;
DBG(DBG_PARSING,
DBG_log(" %s",(critical)?"TRUE":"FALSE");
)
case SINGLE_RESPONSE_EXT_VALUE:
break;
}
objectID++;
}
return TRUE;
}
/*
* add an ocsp location to a chained list
*/
ocsp_location_t*
add_ocsp_location(const ocsp_location_t *loc, ocsp_location_t **chain)
{
ocsp_location_t *location = alloc_thing(ocsp_location_t, "ocsp location");
/* unshare location fields */
clonetochunk(location->issuer
, loc->issuer.ptr, loc->issuer.len
, "ocsp issuer");
clonetochunk(location->authNameID
, loc->authNameID.ptr, loc->authNameID.len
, "ocsp authNameID");
if (loc->authKeyID.ptr == NULL)
location->authKeyID = empty_chunk;
else
clonetochunk(location->authKeyID
, loc->authKeyID.ptr, loc->authKeyID.len
, "ocsp authKeyID");
if (loc->authKeySerialNumber.ptr == NULL)
location->authKeySerialNumber = empty_chunk;
else
clonetochunk(location->authKeySerialNumber
, loc->authKeySerialNumber.ptr, loc->authKeySerialNumber.len
, "ocsp authKeySerialNumber");
clonetochunk(location->uri
, loc->uri.ptr, loc->uri.len
, "ocsp uri");
location->certinfo = NULL;
/* insert new ocsp location in front of chain */
location->next = *chain;
*chain = location;
DBG(DBG_CONTROL,
DBG_log("new ocsp location added")
)
return location;
}
/*
* add a certinfo struct to a chained list
*/
void
add_certinfo(ocsp_location_t *loc, ocsp_certinfo_t *info, ocsp_location_t **chain
, bool request)
{
ocsp_location_t *location;
ocsp_certinfo_t *certinfo, **certinfop;
char buf[BUF_LEN];
time_t now;
int cmp = -1;
location = get_ocsp_location(loc, *chain);
if (location == NULL)
location = add_ocsp_location(loc, chain);
/* traverse list of certinfos in increasing order */
certinfop = &location->certinfo;
certinfo = *certinfop;
while (certinfo != NULL)
{
cmp = cmp_chunk(info->serialNumber, certinfo->serialNumber);
if (cmp <= 0)
break;
certinfop = &certinfo->next;
certinfo = *certinfop;
}
if (cmp != 0)
{
/* add a new certinfo entry */
ocsp_certinfo_t *cnew = alloc_thing(ocsp_certinfo_t, "ocsp certinfo");
clonetochunk(cnew->serialNumber, info->serialNumber.ptr
, info->serialNumber.len, "serialNumber");
cnew->next = certinfo;
*certinfop = cnew;
certinfo = cnew;
}
DBG(DBG_CONTROL,
datatot(info->serialNumber.ptr, info->serialNumber.len, ':'
, buf, BUF_LEN);
DBG_log("ocsp %s for serial %s %s"
, request?"fetch request":"certinfo"
, buf
, (cmp == 0)? (request?"already exists":"updated"):"added")
)
time(&now);
if (request)
{
certinfo->status = CERT_UNDEFINED;
if (cmp != 0)
certinfo->thisUpdate = now;
certinfo->nextUpdate = UNDEFINED_TIME;
}
else
{
certinfo->status = info->status;
certinfo->revocationTime = info->revocationTime;
certinfo->revocationReason = info->revocationReason;
certinfo->thisUpdate = (info->thisUpdate != UNDEFINED_TIME)?
info->thisUpdate : now;
certinfo->once = (info->nextUpdate == UNDEFINED_TIME);
certinfo->nextUpdate = (certinfo->once)?
(now + OCSP_DEFAULT_VALID_TIME) : info->nextUpdate;
}
}
/*
* process received ocsp single response and add it to ocsp cache
*/
static void
process_single_response(ocsp_location_t *location, single_response_t *sres)
{
ocsp_certinfo_t *certinfo, **certinfop;
int cmp = -1;
if (sres->hash_algorithm != OID_SHA1)
{
plog("only SHA-1 hash supported in OCSP single response");
return;
}
if (!(same_chunk(sres->issuer_name_hash, location->authNameID)
&& same_chunk(sres->issuer_key_hash, location->authKeyID)))
{
plog("ocsp single response has wrong issuer");
return;
}
/* traverse list of certinfos in increasing order */
certinfop = &location->certinfo;
certinfo = *certinfop;
while (certinfo != NULL)
{
cmp = cmp_chunk(sres->serialNumber, certinfo->serialNumber);
if (cmp <= 0)
break;
certinfop = &certinfo->next;
certinfo = *certinfop;
}
if (cmp != 0)
{
plog("received unrequested cert status from ocsp server");
return;
}
/* unlink cert from ocsp fetch request list */
*certinfop = certinfo->next;
/* update certinfo using the single response information */
certinfo->thisUpdate = sres->thisUpdate;
certinfo->nextUpdate = sres->nextUpdate;
certinfo->status = sres->status;
certinfo->revocationTime = sres->revocationTime;
certinfo->revocationReason = sres->revocationReason;
/* add or update certinfo in ocsp cache */
lock_ocsp_cache("process_single_response");
add_certinfo(location, certinfo, &ocsp_cache, FALSE);
unlock_ocsp_cache("process_single_response");
/* free certinfo unlinked from ocsp fetch request list */
free_certinfo(certinfo);
}
/*
* parse and verify ocsp response and update the ocsp cache
*/
void
parse_ocsp(ocsp_location_t *location, chunk_t blob)
{
response_t res = empty_response;
/* parse the ocsp response without looking at the single responses yet */
response_status status = parse_ocsp_response(blob, &res);
if (status != STATUS_SUCCESSFUL)
{
plog("error in ocsp response");
return;
}
/* check if there was a nonce in the request */
if (location->nonce.ptr != NULL && res.nonce.ptr == NULL)
{
plog("ocsp response contains no nonce, replay attack possible");
}
/* check if the nonce is identical */
if (res.nonce.ptr != NULL && !same_chunk(res.nonce, location->nonce))
{
plog("invalid nonce in ocsp response");
return;
}
/* check if the response is signed by a trusted key */
if (!valid_ocsp_response(&res))
{
plog("invalid ocsp response");
return;
}
DBG(DBG_CONTROL,
DBG_log("valid ocsp response")
)
/* now parse the single responses one at a time */
{
u_int level;
asn1_ctx_t ctx;
chunk_t object;
int objectID = 0;
asn1_init(&ctx, res.responses, 0, FALSE, DBG_RAW);
while (objectID < RESPONSES_ROOF)
{
if (!extract_object(responsesObjects, &objectID, &object, &level, &ctx))
return;
if (objectID == RESPONSES_SINGLE_RESPONSE)
{
single_response_t sres = empty_single_response;
if (parse_ocsp_single_response(object, level+1, &sres))
{
process_single_response(location, &sres);
}
}
objectID++;
}
}
}
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