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|
/* -*- mode: c; c-basic-offset: 4; indent-tabs-mode: nil -*- */
/* kdc/do_tgs_req.c - KDC Routines to deal with TGS_REQ's */
/*
* Copyright 1990, 1991, 2001, 2007, 2008, 2009, 2013, 2014 by the
* Massachusetts Institute of Technology. All Rights Reserved.
*
* Export of this software from the United States of America may
* require a specific license from the United States Government.
* It is the responsibility of any person or organization contemplating
* export to obtain such a license before exporting.
*
* WITHIN THAT CONSTRAINT, permission to use, copy, modify, and
* distribute this software and its documentation for any purpose and
* without fee is hereby granted, provided that the above copyright
* notice appear in all copies and that both that copyright notice and
* this permission notice appear in supporting documentation, and that
* the name of M.I.T. not be used in advertising or publicity pertaining
* to distribution of the software without specific, written prior
* permission. Furthermore if you modify this software you must label
* your software as modified software and not distribute it in such a
* fashion that it might be confused with the original M.I.T. software.
* M.I.T. makes no representations about the suitability of
* this software for any purpose. It is provided "as is" without express
* or implied warranty.
*/
/*
* Copyright (c) 2006-2008, Novell, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * 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.
* * The copyright holder's name is not used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT OWNER 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 "k5-int.h"
#include <syslog.h>
#ifdef HAVE_NETINET_IN_H
#include <sys/types.h>
#include <netinet/in.h>
#ifndef hpux
#include <arpa/inet.h>
#endif
#endif
#include "kdc_util.h"
#include "kdc_audit.h"
#include "policy.h"
#include "extern.h"
#include "adm_proto.h"
#include <ctype.h>
struct tgs_req_info {
/* The decoded request. Ownership is transferred to this structure. This
* will be replaced with the inner FAST body if present. */
krb5_kdc_req *req;
/*
* The decrypted authentication header ticket from the request's
* PA-TGS-REQ, the KDB entry for its server, its encryption key, the
* PA-TGS-REQ subkey if present, and the decoded and verified header ticket
* PAC if present.
*/
krb5_ticket *header_tkt;
krb5_db_entry *header_server;
krb5_keyblock *header_key;
krb5_keyblock *subkey;
krb5_pac header_pac;
/*
* If a second ticket is present and this is a U2U or S4U2Proxy request,
* the decoded and verified PAC if present, the KDB entry for the second
* ticket server server, and the key used to decrypt the second ticket.
*/
krb5_pac stkt_pac;
krb5_db_entry *stkt_server;
krb5_keyblock *stkt_server_key;
/* For cross-realm S4U2Proxy requests, the client principal retrieved from
* stkt_pac. */
krb5_principal stkt_pac_client;
/* Storage for the local TGT KDB entry for the service realm if that isn't
* the header server. */
krb5_db_entry *local_tgt_storage;
/* The decrypted first key of the local TGT entry. */
krb5_keyblock local_tgt_key;
/* The server KDB entry. Normally the requested server, but for referral
* and alternate TGS replies this will be a cross-realm TGT entry. */
krb5_db_entry *server;
/*
* The subject client KDB entry for an S4U2Self request, or the header
* ticket client KDB entry for other requests. NULL if
* NO_AUTH_DATA_REQUIRED is set on the server KDB entry and this isn't an
* S4U2Self request, or if the client is in another realm and the KDB
* cannot map its principal name.
*/
krb5_db_entry *client;
/* The decoded S4U2Self padata from the request, if present. */
krb5_pa_s4u_x509_user *s4u2self;
/* Authentication indicators retrieved from the header ticket, for
* non-S4U2Self requests. */
krb5_data **auth_indicators;
/* Storage for a transited list with the header TGT realm added, if that
* realm is different from the client and server realm. */
krb5_data new_transited;
/* The KDB flags applicable to this request (a subset of {CROSS_REALM,
* ISSUING_REFERRAL, PROTOCOL_TRANSITION, CONSTRAINED_DELEGATION}). */
unsigned int flags;
/* Booleans for two of the above flags, for convenience. */
krb5_boolean is_referral;
krb5_boolean is_crossrealm;
/* The authtime of subject_tkt. On early failures this may be 0. */
krb5_timestamp authtime;
/* The following fields are (or contain) alias pointers and should not be
* freed. */
/* The transited list implied by the request, aliasing new_transited or the
* header ticket transited field. */
krb5_transited transited;
/* Alias to the decrypted second ticket within req, if one applies to this
* request. */
const krb5_ticket *stkt;
/* Alias to stkt for S4U2Proxy requests, header_tkt otherwise. */
krb5_enc_tkt_part *subject_tkt;
/* Alias to local_tgt_storage or header_server. */
krb5_db_entry *local_tgt;
/* For either kind of S4U request, an alias to the requested client
* principal name. */
krb5_principal s4u_cprinc;
/* An alias to the client principal name we should issue the ticket for
* (either header_tkt->enc_part2->client or s4u_cprinc). */
krb5_principal tkt_client;
/* The client principal of the PA-TGS-REQ header ticket. On early failures
* this may be NULL. */
krb5_principal cprinc;
/* The canonicalized request server principal or referral/alternate TGT.
* On early failures this may be the requested server instead. */
krb5_principal sprinc;
};
static krb5_error_code
db_get_svc_princ(krb5_context, krb5_principal, krb5_flags,
krb5_db_entry **, const char **);
static krb5_error_code
prepare_error_tgs(struct kdc_request_state *state, krb5_kdc_req *request,
krb5_ticket *ticket, krb5_error_code code,
krb5_principal canon_server, krb5_data **response,
const char *status, krb5_pa_data **e_data)
{
krb5_context context = state->realm_data->realm_context;
krb5_error errpkt;
krb5_error_code retval = 0;
krb5_data *scratch, *e_data_asn1 = NULL, *fast_edata = NULL;
errpkt.magic = KV5M_ERROR;
errpkt.ctime = 0;
errpkt.cusec = 0;
retval = krb5_us_timeofday(context, &errpkt.stime, &errpkt.susec);
if (retval)
return(retval);
errpkt.error = errcode_to_protocol(code);
errpkt.server = request->server;
if (ticket && ticket->enc_part2)
errpkt.client = ticket->enc_part2->client;
else
errpkt.client = NULL;
errpkt.text.length = strlen(status);
if (!(errpkt.text.data = strdup(status)))
return ENOMEM;
if (!(scratch = (krb5_data *)malloc(sizeof(*scratch)))) {
free(errpkt.text.data);
return ENOMEM;
}
if (e_data != NULL) {
retval = encode_krb5_padata_sequence(e_data, &e_data_asn1);
if (retval) {
free(scratch);
free(errpkt.text.data);
return retval;
}
errpkt.e_data = *e_data_asn1;
} else
errpkt.e_data = empty_data();
retval = kdc_fast_handle_error(context, state, request, e_data,
&errpkt, &fast_edata);
if (retval) {
free(scratch);
free(errpkt.text.data);
krb5_free_data(context, e_data_asn1);
return retval;
}
if (fast_edata)
errpkt.e_data = *fast_edata;
if (kdc_fast_hide_client(state) && errpkt.client != NULL)
errpkt.client = (krb5_principal)krb5_anonymous_principal();
retval = krb5_mk_error(context, &errpkt, scratch);
free(errpkt.text.data);
krb5_free_data(context, e_data_asn1);
krb5_free_data(context, fast_edata);
if (retval)
free(scratch);
else
*response = scratch;
return retval;
}
/* KDC options that require a second ticket */
#define STKT_OPTIONS (KDC_OPT_CNAME_IN_ADDL_TKT | KDC_OPT_ENC_TKT_IN_SKEY)
/*
* If req is a second-ticket request and a second ticket is present, decrypt
* it. Set *stkt_out to an alias to the ticket with populated enc_part2. Set
* *server_out to the server DB entry and *key_out to the ticket decryption
* key.
*/
static krb5_error_code
decrypt_2ndtkt(krb5_context context, krb5_kdc_req *req, krb5_flags flags,
krb5_db_entry *local_tgt, krb5_keyblock *local_tgt_key,
const krb5_ticket **stkt_out, krb5_pac *pac_out,
krb5_db_entry **server_out, krb5_keyblock **key_out,
const char **status)
{
krb5_error_code retval;
krb5_db_entry *server = NULL;
krb5_keyblock *key = NULL;
krb5_kvno kvno;
krb5_ticket *stkt;
*stkt_out = NULL;
*pac_out = NULL;
*server_out = NULL;
*key_out = NULL;
if (!(req->kdc_options & STKT_OPTIONS) || req->second_ticket == NULL ||
req->second_ticket[0] == NULL)
return 0;
stkt = req->second_ticket[0];
retval = kdc_get_server_key(context, stkt, flags, TRUE, &server, &key,
&kvno);
if (retval != 0) {
*status = "2ND_TKT_SERVER";
goto cleanup;
}
retval = krb5_decrypt_tkt_part(context, key, stkt);
if (retval != 0) {
*status = "2ND_TKT_DECRYPT";
goto cleanup;
}
retval = get_verified_pac(context, stkt->enc_part2, server, key, local_tgt,
local_tgt_key, pac_out);
if (retval != 0) {
*status = "2ND_TKT_PAC";
goto cleanup;
}
*stkt_out = stkt;
*server_out = server;
*key_out = key;
server = NULL;
key = NULL;
cleanup:
krb5_db_free_principal(context, server);
krb5_free_keyblock(context, key);
return retval;
}
static krb5_error_code
get_2ndtkt_enctype(krb5_kdc_req *req, krb5_enctype *useenctype,
const char **status)
{
krb5_enctype etype;
krb5_ticket *stkt = req->second_ticket[0];
int i;
etype = stkt->enc_part2->session->enctype;
if (!krb5_c_valid_enctype(etype)) {
*status = "BAD_ETYPE_IN_2ND_TKT";
return KRB5KDC_ERR_ETYPE_NOSUPP;
}
for (i = 0; i < req->nktypes; i++) {
if (req->ktype[i] == etype) {
*useenctype = etype;
break;
}
}
return 0;
}
static krb5_error_code
gen_session_key(krb5_context context, krb5_kdc_req *req, krb5_db_entry *server,
krb5_keyblock *skey, const char **status)
{
krb5_error_code retval;
krb5_enctype useenctype = 0;
/*
* Some special care needs to be taken in the user-to-user
* case, since we don't know what keytypes the application server
* which is doing user-to-user authentication can support. We
* know that it at least must be able to support the encryption
* type of the session key in the TGT, since otherwise it won't be
* able to decrypt the U2U ticket! So we use that in preference
* to anything else.
*/
if (req->kdc_options & KDC_OPT_ENC_TKT_IN_SKEY) {
retval = get_2ndtkt_enctype(req, &useenctype, status);
if (retval != 0)
return retval;
}
if (useenctype == 0) {
useenctype = select_session_keytype(context, server,
req->nktypes, req->ktype);
}
if (useenctype == 0) {
/* unsupported ktype */
*status = "BAD_ENCRYPTION_TYPE";
return KRB5KDC_ERR_ETYPE_NOSUPP;
}
return krb5_c_make_random_key(context, useenctype, skey);
}
/*
* The request seems to be for a ticket-granting service somewhere else,
* but we don't have a ticket for the final TGS. Try to give the requestor
* some intermediate realm.
*/
static krb5_error_code
find_alternate_tgs(krb5_context context, krb5_principal princ,
krb5_db_entry **server_ptr, const char **status)
{
krb5_error_code retval;
krb5_principal *plist = NULL, *pl2;
krb5_data tmp;
krb5_db_entry *server = NULL;
*server_ptr = NULL;
assert(is_cross_tgs_principal(princ));
retval = krb5_walk_realm_tree(context, &princ->realm, &princ->data[1],
&plist, KRB5_REALM_BRANCH_CHAR);
if (retval)
goto cleanup;
/* move to the end */
for (pl2 = plist; *pl2; pl2++);
/* the first entry in this array is for krbtgt/local@local, so we
ignore it */
while (--pl2 > plist) {
tmp = *krb5_princ_realm(context, *pl2);
krb5_princ_set_realm(context, *pl2, &princ->realm);
retval = db_get_svc_princ(context, *pl2, 0, &server, status);
krb5_princ_set_realm(context, *pl2, &tmp);
if (retval == KRB5_KDB_NOENTRY)
continue;
else if (retval)
goto cleanup;
log_tgs_alt_tgt(context, server->princ);
*server_ptr = server;
server = NULL;
goto cleanup;
}
cleanup:
if (retval == 0 && *server_ptr == NULL)
retval = KRB5_KDB_NOENTRY;
if (retval != 0)
*status = "UNKNOWN_SERVER";
krb5_free_realm_tree(context, plist);
krb5_db_free_principal(context, server);
return retval;
}
/* Return true if item is an element of the space/comma-separated list. */
static krb5_boolean
in_list(const char *list, const char *item)
{
const char *p;
int len = strlen(item);
if (list == NULL)
return FALSE;
for (p = strstr(list, item); p != NULL; p = strstr(p + 1, item)) {
if ((p == list || isspace((unsigned char)p[-1]) || p[-1] == ',') &&
(p[len] == '\0' || isspace((unsigned char)p[len]) ||
p[len] == ','))
return TRUE;
}
return FALSE;
}
/*
* Check whether the request satisfies the conditions for generating a referral
* TGT. The caller checks whether the hostname component looks like a FQDN.
*/
static krb5_boolean
is_referral_req(kdc_realm_t *realm, krb5_kdc_req *request)
{
krb5_boolean ret = FALSE;
char *stype = NULL;
char *hostbased = realm->realm_hostbased;
char *no_referral = realm->realm_no_referral;
if (!(request->kdc_options & KDC_OPT_CANONICALIZE))
return FALSE;
if (request->kdc_options & KDC_OPT_ENC_TKT_IN_SKEY)
return FALSE;
if (request->server->length != 2)
return FALSE;
stype = data2string(&request->server->data[0]);
if (stype == NULL)
return FALSE;
switch (request->server->type) {
case KRB5_NT_UNKNOWN:
/* Allow referrals for NT-UNKNOWN principals, if configured. */
if (!in_list(hostbased, stype) && !in_list(hostbased, "*"))
goto cleanup;
/* FALLTHROUGH */
case KRB5_NT_SRV_HST:
case KRB5_NT_SRV_INST:
/* Deny referrals for specific service types, if configured. */
if (in_list(no_referral, stype) || in_list(no_referral, "*"))
goto cleanup;
ret = TRUE;
break;
default:
goto cleanup;
}
cleanup:
free(stype);
return ret;
}
/*
* Find a remote realm TGS principal for an unknown host-based service
* principal.
*/
static krb5_int32
find_referral_tgs(kdc_realm_t *realm, krb5_kdc_req *request,
krb5_principal *krbtgt_princ)
{
krb5_context context = realm->realm_context;
krb5_error_code retval = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN;
char **realms = NULL, *hostname = NULL;
krb5_data srealm = request->server->realm;
if (!is_referral_req(realm, request))
goto cleanup;
hostname = data2string(&request->server->data[1]);
if (hostname == NULL) {
retval = ENOMEM;
goto cleanup;
}
/* If the hostname doesn't contain a '.', it's not a FQDN. */
if (strchr(hostname, '.') == NULL)
goto cleanup;
retval = krb5_get_host_realm(context, hostname, &realms);
if (retval) {
/* no match found */
kdc_err(context, retval, "unable to find realm of host");
goto cleanup;
}
/* Don't return a referral to the empty realm or the service realm. */
if (realms == NULL || realms[0] == NULL || *realms[0] == '\0' ||
data_eq_string(srealm, realms[0])) {
retval = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN;
goto cleanup;
}
retval = krb5_build_principal(context, krbtgt_princ,
srealm.length, srealm.data,
"krbtgt", realms[0], (char *)0);
cleanup:
krb5_free_host_realm(context, realms);
free(hostname);
return retval;
}
static krb5_error_code
db_get_svc_princ(krb5_context ctx, krb5_principal princ,
krb5_flags flags, krb5_db_entry **server,
const char **status)
{
krb5_error_code ret;
ret = krb5_db_get_principal(ctx, princ, flags, server);
if (ret == KRB5_KDB_CANTLOCK_DB)
ret = KRB5KDC_ERR_SVC_UNAVAILABLE;
if (ret != 0) {
*status = "LOOKING_UP_SERVER";
}
return ret;
}
static krb5_error_code
search_sprinc(kdc_realm_t *realm, krb5_kdc_req *req,
krb5_flags flags, krb5_db_entry **server, const char **status)
{
krb5_context context = realm->realm_context;
krb5_error_code ret;
krb5_principal princ = req->server;
krb5_principal reftgs = NULL;
krb5_boolean allow_referral;
/* Do not allow referrals for u2u or ticket modification requests, because
* the server is supposed to match an already-issued ticket. */
allow_referral = !(req->kdc_options & NO_REFERRAL_OPTION);
if (!allow_referral)
flags &= ~KRB5_KDB_FLAG_REFERRAL_OK;
ret = db_get_svc_princ(context, princ, flags, server, status);
if (ret == 0 || ret != KRB5_KDB_NOENTRY || !allow_referral)
goto cleanup;
if (!is_cross_tgs_principal(req->server)) {
ret = find_referral_tgs(realm, req, &reftgs);
if (ret != 0)
goto cleanup;
ret = db_get_svc_princ(context, reftgs, flags, server, status);
if (ret == 0 || ret != KRB5_KDB_NOENTRY)
goto cleanup;
princ = reftgs;
}
ret = find_alternate_tgs(context, princ, server, status);
cleanup:
if (ret != 0 && ret != KRB5KDC_ERR_SVC_UNAVAILABLE) {
ret = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN;
if (*status == NULL)
*status = "LOOKING_UP_SERVER";
}
krb5_free_principal(context, reftgs);
return ret;
}
/*
* Transfer ownership of *reqptr to *t and fill *t with information about the
* request. Decode the PA-TGS-REQ header ticket and the second ticket if
* applicable, and decode and verify their PACs if present. Decode and verify
* the S4U2Self request pa-data if present. Extract authentication indicators
* from the subject ticket. Construct the transited list implied by the
* request.
*/
static krb5_error_code
gather_tgs_req_info(kdc_realm_t *realm, krb5_kdc_req **reqptr, krb5_data *pkt,
const krb5_fulladdr *from,
struct kdc_request_state *fast_state,
krb5_audit_state *au_state, struct tgs_req_info *t,
const char **status)
{
krb5_context context = realm->realm_context;
krb5_error_code ret;
krb5_pa_data *pa_tgs_req;
unsigned int s_flags;
krb5_enc_tkt_part *header_enc;
krb5_data d;
/* Transfer ownership of *reqptr to *t. */
t->req = *reqptr;
*reqptr = NULL;
if (t->req->msg_type != KRB5_TGS_REQ)
return KRB5_BADMSGTYPE;
/* Initially set t->sprinc to the outer request server, for logging of
* early failures. */
t->sprinc = t->req->server;
/* Read the PA-TGS-REQ authenticator and decrypt the header ticket. */
ret = kdc_process_tgs_req(realm, t->req, from, pkt, &t->header_tkt,
&t->header_server, &t->header_key, &t->subkey,
&pa_tgs_req);
if (t->header_tkt != NULL && t->header_tkt->enc_part2 != NULL)
t->cprinc = t->header_tkt->enc_part2->client;
if (ret) {
*status = "PROCESS_TGS";
return ret;
}
ret = kau_make_tkt_id(context, t->header_tkt, &au_state->tkt_in_id);
if (ret)
return ret;
header_enc = t->header_tkt->enc_part2;
/* If PA-FX-FAST-REQUEST padata is present, replace t->req with the inner
* request body. */
d = make_data(pa_tgs_req->contents, pa_tgs_req->length);
ret = kdc_find_fast(&t->req, &d, t->subkey, header_enc->session,
fast_state, NULL);
if (ret) {
*status = "FIND_FAST";
return ret;
}
/* Reset t->sprinc for the inner body and check it. */
t->sprinc = t->req->server;
if (t->sprinc == NULL) {
*status = "NULL_SERVER";
return KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN;
}
/* The header ticket server is usually a TGT, but if it is not, fetch the
* local TGT for the realm. Get the decrypted first local TGT key. */
ret = get_local_tgt(context, &t->sprinc->realm, t->header_server,
&t->local_tgt, &t->local_tgt_storage,
&t->local_tgt_key);
if (ret) {
*status = "GET_LOCAL_TGT";
return ret;
}
/* Decode and verify the header ticket PAC. */
ret = get_verified_pac(context, header_enc, t->header_server,
t->header_key, t->local_tgt, &t->local_tgt_key,
&t->header_pac);
if (ret) {
*status = "HEADER_PAC";
return ret;
}
au_state->request = t->req;
au_state->stage = SRVC_PRINC;
/* Look up the server principal entry, or a referral/alternate TGT. Reset
* t->sprinc to the canonical server name (its final value). */
s_flags = (t->req->kdc_options & KDC_OPT_CANONICALIZE) ?
KRB5_KDB_FLAG_REFERRAL_OK : 0;
ret = search_sprinc(realm, t->req, s_flags, &t->server, status);
if (ret)
return ret;
t->sprinc = t->server->princ;
/* If we got a cross-realm TGS which is not the requested server, we are
* issuing a referral (or alternate TGT, which we treat similarly). */
if (is_cross_tgs_principal(t->server->princ) &&
!krb5_principal_compare(context, t->req->server, t->server->princ))
t->flags |= KRB5_KDB_FLAG_ISSUING_REFERRAL;
/* Mark the request as cross-realm if the header ticket server is not from
* this realm. */
if (!data_eq(t->header_server->princ->realm, t->sprinc->realm))
t->flags |= KRB5_KDB_FLAG_CROSS_REALM;
t->is_referral = (t->flags & KRB5_KDB_FLAG_ISSUING_REFERRAL);
t->is_crossrealm = (t->flags & KRB5_KDB_FLAG_CROSS_REALM);
/* If S4U2Self padata is present, read it to get the requested principal
* name. Look up the requested client if it is in this realm. */
ret = kdc_process_s4u2self_req(context, t->req, t->server, t->subkey,
header_enc->session, &t->s4u2self,
&t->client, status);
if (t->s4u2self != NULL || ret) {
if (t->s4u2self != NULL)
au_state->s4u2self_user = t->s4u2self->user_id.user;
au_state->status = *status;
kau_s4u2self(context, !ret, au_state);
au_state->s4u2self_user = NULL;
}
if (ret)
return ret;
if (t->s4u2self != NULL) {
t->flags |= KRB5_KDB_FLAG_PROTOCOL_TRANSITION;
t->s4u_cprinc = t->s4u2self->user_id.user;
/*
* For consistency with Active Directory, don't allow authorization
* data to be disabled if S4U2Self is requested. The requesting
* service likely needs a PAC for an S4U2Proxy operation, even if it
* doesn't need authorization data in tickets received from clients.
*/
t->server->attributes &= ~KRB5_KDB_NO_AUTH_DATA_REQUIRED;
}
/* For U2U or S4U2Proxy requests, decrypt the second ticket and read its
* PAC. */
ret = decrypt_2ndtkt(context, t->req, t->flags, t->local_tgt,
&t->local_tgt_key, &t->stkt, &t->stkt_pac,
&t->stkt_server, &t->stkt_server_key, status);
if (ret)
return ret;
/* Determine the subject ticket and set the authtime for logging. For
* S4U2Proxy requests determine the requested client principal. */
if (t->req->kdc_options & KDC_OPT_CNAME_IN_ADDL_TKT) {
t->flags |= KRB5_KDB_FLAG_CONSTRAINED_DELEGATION;
ret = kau_make_tkt_id(context, t->stkt, &au_state->evid_tkt_id);
if (ret)
return ret;
if (t->is_crossrealm) {
/* For cross-realm S4U2PROXY requests, the second ticket is a
* cross TGT with the requested client principal in its PAC. */
if (t->stkt_pac == NULL ||
get_pac_princ_with_realm(context, t->stkt_pac,
&t->stkt_pac_client, NULL) != 0) {
au_state->status = *status = "RBCD_PAC_PRINC";
au_state->violation = PROT_CONSTRAINT;
kau_s4u2proxy(context, FALSE, au_state);
return KRB5KDC_ERR_BADOPTION;
}
t->s4u_cprinc = t->stkt_pac_client;
} else {
/* Otherwise the requested client is the evidence ticket client. */
t->s4u_cprinc = t->stkt->enc_part2->client;
}
t->subject_tkt = t->stkt->enc_part2;
} else {
t->subject_tkt = header_enc;
}
t->authtime = t->subject_tkt->times.authtime;
/* For final S4U requests (either type) the issued ticket will be for the
* requested name; otherwise it will be for the header ticket client. */
t->tkt_client = ((t->flags & KRB5_KDB_FLAGS_S4U) && !t->is_referral) ?
t->s4u_cprinc : header_enc->client;
if (t->s4u2self == NULL) {
/* Extract auth indicators from the subject ticket. Skip this for
* S4U2Self requests as the subject didn't authenticate. */
ret = get_auth_indicators(context, t->subject_tkt, t->local_tgt,
&t->local_tgt_key, &t->auth_indicators);
if (ret) {
*status = "GET_AUTH_INDICATORS";
return ret;
}
if (!(t->server->attributes & KRB5_KDB_NO_AUTH_DATA_REQUIRED)) {
/* Try to look up the subject principal so that KDB modules can add
* additional authdata. Ask the KDB to map foreign principals. */
assert(t->client == NULL);
(void)krb5_db_get_principal(context, t->subject_tkt->client,
t->flags | KRB5_KDB_FLAG_CLIENT |
KRB5_KDB_FLAG_MAP_PRINCIPALS,
&t->client);
}
}
/*
* Compute the transited list implied by the request. Use the existing
* transited list if the realm of the header ticket server is the same as
* the subject or server realm.
*/
if (!t->is_crossrealm ||
data_eq(t->header_tkt->server->realm, t->tkt_client->realm)) {
t->transited = header_enc->transited;
} else {
if (header_enc->transited.tr_type != KRB5_DOMAIN_X500_COMPRESS) {
*status = "VALIDATE_TRANSIT_TYPE";
return KRB5KDC_ERR_TRTYPE_NOSUPP;
}
ret = add_to_transited(&header_enc->transited.tr_contents,
&t->new_transited, t->header_tkt->server,
t->tkt_client, t->req->server);
if (ret) {
*status = "ADD_TO_TRANSITED_LIST";
return ret;
}
t->transited.tr_type = KRB5_DOMAIN_X500_COMPRESS;
t->transited.tr_contents = t->new_transited;
}
return 0;
}
/* Fill in *times_out with the times of the ticket to be issued. Set the
* TKT_FLG_RENEWABLE bit in *tktflags if the ticket will be renewable. */
static void
compute_ticket_times(kdc_realm_t *realm, struct tgs_req_info *t,
krb5_timestamp kdc_time, krb5_flags *tktflags,
krb5_ticket_times *times)
{
krb5_timestamp hstarttime;
krb5_deltat hlife;
krb5_ticket_times *htimes = &t->header_tkt->enc_part2->times;
if (t->req->kdc_options & KDC_OPT_VALIDATE) {
/* Validation requests preserve the header ticket times. */
*times = *htimes;
return;
}
/* Preserve the authtime from the subject ticket. */
times->authtime = t->authtime;
times->starttime = (t->req->kdc_options & KDC_OPT_POSTDATED) ?
t->req->from : kdc_time;
if (t->req->kdc_options & KDC_OPT_RENEW) {
/* Give the new ticket the same lifetime as the header ticket, but no
* later than the renewable end time. */
hstarttime = htimes->starttime ? htimes->starttime : htimes->authtime;
hlife = ts_delta(htimes->endtime, hstarttime);
times->endtime = ts_min(htimes->renew_till,
ts_incr(times->starttime, hlife));
} else {
kdc_get_ticket_endtime(realm, times->starttime, htimes->endtime,
t->req->till, t->client, t->server,
×->endtime);
}
kdc_get_ticket_renewtime(realm, t->req, t->header_tkt->enc_part2,
t->client, t->server, tktflags, times);
/* starttime is optional, and treated as authtime if not present.
* so we can omit it if it matches. */
if (times->starttime == times->authtime)
times->starttime = 0;
}
/* Check the request in *t against semantic protocol constraints and local
* policy. Determine flags and times for the ticket to be issued. */
static krb5_error_code
check_tgs_req(kdc_realm_t *realm, struct tgs_req_info *t,
krb5_audit_state *au_state, krb5_flags *tktflags,
krb5_ticket_times *times, const char **status,
krb5_pa_data ***e_data)
{
krb5_context context = realm->realm_context;
krb5_error_code ret;
krb5_timestamp kdc_time;
au_state->stage = VALIDATE_POL;
ret = krb5_timeofday(context, &kdc_time);
if (ret)
return ret;
ret = check_tgs_constraints(realm, t->req, t->server, t->header_tkt,
t->header_pac, t->stkt, t->stkt_pac,
t->stkt_server, kdc_time, t->s4u2self,
t->client, t->is_crossrealm, t->is_referral,
status, e_data);
if (ret) {
au_state->violation = PROT_CONSTRAINT;
return ret;
}
ret = check_tgs_policy(realm, t->req, t->server, t->header_tkt,
t->header_pac, t->stkt, t->stkt_pac,
t->stkt_pac_client, t->stkt_server, kdc_time,
t->is_crossrealm, t->is_referral, status, e_data);
if (ret) {
au_state->violation = LOCAL_POLICY;
if (t->flags & KRB5_KDB_FLAG_CONSTRAINED_DELEGATION) {
au_state->status = *status;
kau_s4u2proxy(context, FALSE, au_state);
}
return ret;
}
/* Check auth indicators from the subject ticket, except for S4U2Self
* requests (where the client didn't authenticate). */
if (t->s4u2self == NULL) {
ret = check_indicators(context, t->server, t->auth_indicators);
if (ret) {
*status = "HIGHER_AUTHENTICATION_REQUIRED";
return ret;
}
}
*tktflags = get_ticket_flags(t->req->kdc_options, t->client, t->server,
t->header_tkt->enc_part2);
compute_ticket_times(realm, t, kdc_time, tktflags, times);
/* For S4U2Self requests, check if we need to suppress the forwardable
* ticket flag. */
if (t->s4u2self != NULL && !t->is_referral) {
ret = s4u2self_forwardable(context, t->server, tktflags);
if (ret)
return ret;
}
/* Consult kdcpolicy modules, giving them a chance to modify the times of
* the issued ticket. */
ret = check_kdcpolicy_tgs(context, t->req, t->server, t->header_tkt,
t->auth_indicators, kdc_time, times, status);
if (ret)
return ret;
if (!(t->req->kdc_options & KDC_OPT_DISABLE_TRANSITED_CHECK)) {
/* Check the transited path for the issued ticket and set the
* transited-policy-checked flag if successful. */
ret = kdc_check_transited_list(context, &t->transited.tr_contents,
&t->subject_tkt->client->realm,
&t->req->server->realm);
if (ret) {
/* Log the transited-check failure and continue. */
log_tgs_badtrans(context, t->cprinc, t->sprinc,
&t->transited.tr_contents, ret);
} else {
*tktflags |= TKT_FLG_TRANSIT_POLICY_CHECKED;
}
} else {
krb5_klog_syslog(LOG_INFO, _("not checking transit path"));
}
/* By default, reject the request if the transited path was not checked
* successfully. */
if (realm->realm_reject_bad_transit &&
!(*tktflags & TKT_FLG_TRANSIT_POLICY_CHECKED)) {
*status = "BAD_TRANSIT";
au_state->violation = LOCAL_POLICY;
return KRB5KDC_ERR_POLICY;
}
return 0;
}
/* Construct a response issuing a ticket for the request in *t, using tktflags
* and *times for the ticket flags and times. */
static krb5_error_code
tgs_issue_ticket(kdc_realm_t *realm, struct tgs_req_info *t,
krb5_flags tktflags, krb5_ticket_times *times, krb5_data *pkt,
const krb5_fulladdr *from,
struct kdc_request_state *fast_state,
krb5_audit_state *au_state, const char **status,
krb5_data **response)
{
krb5_context context = realm->realm_context;
krb5_error_code ret;
krb5_keyblock session_key = { 0 }, server_key = { 0 };
krb5_keyblock *ticket_encrypting_key, *subject_key;
krb5_keyblock *initial_reply_key, *fast_reply_key = NULL;
krb5_enc_tkt_part enc_tkt_reply = { 0 };
krb5_ticket ticket_reply = { 0 };
krb5_enc_kdc_rep_part reply_encpart = { 0 };
krb5_kdc_rep reply = { 0 };
krb5_pac subject_pac;
krb5_db_entry *subject_server;
krb5_enc_tkt_part *header_enc_tkt = t->header_tkt->enc_part2;
krb5_last_req_entry nolrentry = { KV5M_LAST_REQ_ENTRY, KRB5_LRQ_NONE, 0 };
krb5_last_req_entry *nolrarray[2] = { &nolrentry, NULL };
au_state->stage = ISSUE_TKT;
ret = gen_session_key(context, t->req, t->server, &session_key, status);
if (ret)
goto cleanup;
if (t->flags & KRB5_KDB_FLAG_CONSTRAINED_DELEGATION) {
subject_pac = t->stkt_pac;
subject_server = t->stkt_server;
subject_key = t->stkt_server_key;
} else {
subject_pac = t->header_pac;
subject_server = t->header_server;
subject_key = t->header_key;
}
initial_reply_key = (t->subkey != NULL) ? t->subkey :
t->header_tkt->enc_part2->session;
if (t->req->kdc_options & KDC_OPT_ENC_TKT_IN_SKEY) {
/* For user-to-user, encrypt the ticket with the second ticket's
* session key. */
ticket_encrypting_key = t->stkt->enc_part2->session;
} else {
/* Otherwise encrypt the ticket with the server entry's first long-term
* key. */
ret = get_first_current_key(context, t->server, &server_key);
if (ret) {
*status = "FINDING_SERVER_KEY";
goto cleanup;
}
ticket_encrypting_key = &server_key;
}
if (t->req->kdc_options & (KDC_OPT_VALIDATE | KDC_OPT_RENEW)) {
/* Copy the header ticket server and all enc-part fields except for
* authorization data. */
ticket_reply.server = t->header_tkt->server;
enc_tkt_reply = *t->header_tkt->enc_part2;
enc_tkt_reply.authorization_data = NULL;
} else {
if (t->req->kdc_options & (KDC_OPT_FORWARDED | KDC_OPT_PROXY)) {
/* Include the requested addresses in the ticket and reply. */
enc_tkt_reply.caddrs = t->req->addresses;
reply_encpart.caddrs = t->req->addresses;
} else {
/* Use the header ticket addresses and omit them from the reply. */
enc_tkt_reply.caddrs = header_enc_tkt->caddrs;
reply_encpart.caddrs = NULL;
}
ticket_reply.server = t->is_referral ? t->sprinc : t->req->server;
}
enc_tkt_reply.flags = tktflags;
enc_tkt_reply.times = *times;
enc_tkt_reply.client = t->tkt_client;
enc_tkt_reply.session = &session_key;
enc_tkt_reply.transited = t->transited;
ret = handle_authdata(realm, t->flags, t->client, t->server,
subject_server, t->local_tgt, &t->local_tgt_key,
initial_reply_key, ticket_encrypting_key,
subject_key, NULL, pkt, t->req, t->s4u_cprinc,
subject_pac, t->subject_tkt, &t->auth_indicators,
&enc_tkt_reply);
if (ret) {
krb5_klog_syslog(LOG_INFO, _("TGS_REQ : handle_authdata (%d)"), ret);
*status = "HANDLE_AUTHDATA";
goto cleanup;
}
ticket_reply.enc_part2 = &enc_tkt_reply;
ret = krb5_encrypt_tkt_part(context, ticket_encrypting_key, &ticket_reply);
if (ret)
goto cleanup;
if (t->req->kdc_options & KDC_OPT_ENC_TKT_IN_SKEY) {
ticket_reply.enc_part.kvno = 0;
kau_u2u(context, TRUE, au_state);
} else {
ticket_reply.enc_part.kvno = current_kvno(t->server);
}
au_state->stage = ENCR_REP;
if (t->s4u2self != NULL &&
krb5int_find_pa_data(context, t->req->padata,
KRB5_PADATA_S4U_X509_USER) != NULL) {
/* Add an S4U2Self response to the encrypted padata (skipped if the
* request only included PA-FOR-USER padata). */
ret = kdc_make_s4u2self_rep(context, t->subkey,
t->header_tkt->enc_part2->session,
t->s4u2self, &reply, &reply_encpart);
if (ret)
goto cleanup;
}
reply_encpart.session = &session_key;
reply_encpart.nonce = t->req->nonce;
reply_encpart.times = enc_tkt_reply.times;
reply_encpart.last_req = nolrarray;
reply_encpart.key_exp = 0;
reply_encpart.flags = enc_tkt_reply.flags;
reply_encpart.server = ticket_reply.server;
reply.msg_type = KRB5_TGS_REP;
reply.client = enc_tkt_reply.client;
reply.ticket = &ticket_reply;
reply.enc_part.kvno = 0;
reply.enc_part.enctype = initial_reply_key->enctype;
ret = kdc_fast_response_handle_padata(fast_state, t->req, &reply,
initial_reply_key->enctype);
if (ret)
goto cleanup;
ret = kdc_fast_handle_reply_key(fast_state, initial_reply_key,
&fast_reply_key);
if (ret)
goto cleanup;
ret = return_enc_padata(context, pkt, t->req, fast_reply_key, t->server,
&reply_encpart,
t->is_referral &&
(t->req->kdc_options & KDC_OPT_CANONICALIZE));
if (ret) {
*status = "KDC_RETURN_ENC_PADATA";
goto cleanup;
}
ret = kau_make_tkt_id(context, &ticket_reply, &au_state->tkt_out_id);
if (ret)
goto cleanup;
if (kdc_fast_hide_client(fast_state))
reply.client = (krb5_principal)krb5_anonymous_principal();
ret = krb5_encode_kdc_rep(context, KRB5_TGS_REP, &reply_encpart,
t->subkey != NULL, fast_reply_key, &reply,
response);
if (ret)
goto cleanup;
log_tgs_req(context, from, t->req, &reply, t->cprinc, t->sprinc,
t->s4u_cprinc, t->authtime, t->flags, "ISSUE", 0, NULL);
au_state->status = "ISSUE";
au_state->reply = &reply;
if (t->flags & KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)
kau_s4u2proxy(context, TRUE, au_state);
kau_tgs_req(context, TRUE, au_state);
au_state->reply = NULL;
cleanup:
zapfree(ticket_reply.enc_part.ciphertext.data,
ticket_reply.enc_part.ciphertext.length);
zapfree(reply.enc_part.ciphertext.data, reply.enc_part.ciphertext.length);
krb5_free_pa_data(context, reply.padata);
krb5_free_pa_data(context, reply_encpart.enc_padata);
krb5_free_authdata(context, enc_tkt_reply.authorization_data);
krb5_free_keyblock_contents(context, &session_key);
krb5_free_keyblock_contents(context, &server_key);
krb5_free_keyblock(context, fast_reply_key);
return ret;
}
static void
free_req_info(krb5_context context, struct tgs_req_info *t)
{
krb5_free_kdc_req(context, t->req);
krb5_free_ticket(context, t->header_tkt);
krb5_db_free_principal(context, t->header_server);
krb5_free_keyblock(context, t->header_key);
krb5_free_keyblock(context, t->subkey);
krb5_pac_free(context, t->header_pac);
krb5_pac_free(context, t->stkt_pac);
krb5_db_free_principal(context, t->stkt_server);
krb5_free_keyblock(context, t->stkt_server_key);
krb5_db_free_principal(context, t->local_tgt_storage);
krb5_free_keyblock_contents(context, &t->local_tgt_key);
krb5_db_free_principal(context, t->server);
krb5_db_free_principal(context, t->client);
krb5_free_pa_s4u_x509_user(context, t->s4u2self);
krb5_free_principal(context, t->stkt_pac_client);
k5_free_data_ptr_list(t->auth_indicators);
krb5_free_data_contents(context, &t->new_transited);
}
krb5_error_code
process_tgs_req(krb5_kdc_req *request, krb5_data *pkt,
const krb5_fulladdr *from, kdc_realm_t *realm,
krb5_data **response)
{
krb5_context context = realm->realm_context;
krb5_error_code ret;
struct tgs_req_info t = { 0 };
struct kdc_request_state *fast_state = NULL;
krb5_audit_state *au_state = NULL;
krb5_pa_data **e_data = NULL;
krb5_flags tktflags;
krb5_ticket_times times = { 0 };
const char *emsg = NULL, *status = NULL;
ret = kdc_make_rstate(realm, &fast_state);
if (ret)
goto cleanup;
ret = kau_init_kdc_req(context, request, from, &au_state);
if (ret)
goto cleanup;
kau_tgs_req(context, TRUE, au_state);
ret = gather_tgs_req_info(realm, &request, pkt, from, fast_state, au_state,
&t, &status);
if (ret)
goto cleanup;
ret = check_tgs_req(realm, &t, au_state, &tktflags, ×, &status,
&e_data);
if (ret)
goto cleanup;
ret = tgs_issue_ticket(realm, &t, tktflags, ×, pkt, from, fast_state,
au_state, &status, response);
if (ret)
goto cleanup;
cleanup:
if (status == NULL)
status = "UNKNOWN_REASON";
if (ret) {
emsg = krb5_get_error_message(context, ret);
log_tgs_req(context, from, t.req, NULL, t.cprinc, t.sprinc,
t.s4u_cprinc, t.authtime, t.flags, status, ret, emsg);
krb5_free_error_message(context, emsg);
if (au_state != NULL) {
au_state->status = status;
kau_tgs_req(context, FALSE, au_state);
}
}
if (ret && fast_state != NULL) {
ret = prepare_error_tgs(fast_state, t.req, t.header_tkt, ret,
(t.server != NULL) ? t.server->princ : NULL,
response, status, e_data);
}
krb5_free_kdc_req(context, request);
kdc_free_rstate(fast_state);
kau_free_kdc_req(au_state);
free_req_info(context, &t);
krb5_free_pa_data(context, e_data);
return ret;
}
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