/* * Copyright (c) 1997-2007 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 "kdc_locl.h" #ifdef TIME_T_SIGNED #if SIZEOF_TIME_T == 4 #define MAX_TIME ((time_t)INT32_MAX) #elif SIZEOF_TIME_T == 8 #define MAX_TIME ((time_t)INT64_MAX) #else #error "Unexpected sizeof(time_t)" #endif #else #if SIZEOF_TIME_T == 4 #define MAX_TIME ((time_t)UINT32_MAX) #else #define MAX_TIME ((time_t)UINT64_MAX) #endif #endif #undef __attribute__ #define __attribute__(X) void _kdc_fix_time(time_t **t) { if(*t == NULL){ ALLOC(*t); **t = MAX_TIME; } if(**t == 0) **t = MAX_TIME; /* fix for old clients */ } static int realloc_method_data(METHOD_DATA *md) { PA_DATA *pa; pa = realloc(md->val, (md->len + 1) * sizeof(*md->val)); if(pa == NULL) return ENOMEM; md->val = pa; md->len++; return 0; } static krb5_error_code get_pa_etype_info2(krb5_context context, krb5_kdc_configuration *config, METHOD_DATA *md, Key *ckey, krb5_boolean include_salt); static krb5_error_code set_salt_padata(krb5_context context, krb5_kdc_configuration *config, METHOD_DATA *md, Key *key) { if (!key->salt) return 0; return get_pa_etype_info2(context, config, md, key, TRUE); } const PA_DATA* _kdc_find_padata(const KDC_REQ *req, int *start, int type) { if (req->padata == NULL) return NULL; while((size_t)*start < req->padata->len){ (*start)++; if(req->padata->val[*start - 1].padata_type == (unsigned)type) return &req->padata->val[*start - 1]; } return NULL; } /* * This is a hack to allow predefined weak services, like afs to * still use weak types */ krb5_boolean _kdc_is_weak_exception(krb5_principal principal, krb5_enctype etype) { if (principal->name.name_string.len > 0 && strcmp(principal->name.name_string.val[0], "afs") == 0 && (etype == ETYPE_DES_CBC_CRC || etype == ETYPE_DES_CBC_MD4 || etype == ETYPE_DES_CBC_MD5)) return TRUE; return FALSE; } /* * Detect if `key' is the using the the precomputed `default_salt'. */ static krb5_boolean is_default_salt_p(const krb5_salt *default_salt, const Key *key) { if (key->salt == NULL) return TRUE; if (default_salt->salttype != key->salt->type) return FALSE; if (krb5_data_cmp(&default_salt->saltvalue, &key->salt->salt) != 0) return FALSE; return TRUE; } /* * Detect if `key' is the using the the precomputed `default_salt' * (for des-cbc-crc) or any salt otherwise. * * This is for avoiding Kerberos v4 (yes really) keys in AS-REQ as * that salt is strange, and a buggy client will try to use the * principal as the salt and not the returned value. */ static krb5_boolean is_good_salt_p(const krb5_salt *default_salt, const Key *key) { if (key->key.keytype == KRB5_ENCTYPE_DES_CBC_CRC) return is_default_salt_p(default_salt, key); return TRUE; } krb5_boolean _kdc_is_anon_request(const KDC_REQ *req) { const KDC_REQ_BODY *b = &req->req_body; /* * Versions of Heimdal from 0.9rc1 through 1.50 use bit 14 instead * of 16 for request_anonymous, as indicated in the anonymous draft * prior to version 11. Bit 14 is assigned to S4U2Proxy, but S4U2Proxy * requests are only sent to the TGS and, in any case, would have an * additional ticket present. */ return b->kdc_options.request_anonymous || (b->kdc_options.cname_in_addl_tkt && !b->additional_tickets); } /* * return the first appropriate key of `princ' in `ret_key'. Look for * all the etypes in (`etypes', `len'), stopping as soon as we find * one, but preferring one that has default salt. * * XXX This function does way way too much. Split it up! * * XXX `etypes' and `len' are always `b->etype.val' and `b->etype.len' -- the * etype list from the KDC-REQ-BODY, which is available here as * `r->req->req_body', so we could just stop having it passed in. * * XXX Picking an enctype(s) for PA-ETYPE-INFO* is rather different than * picking an enctype for a ticket's session key. The former is what we do * here when `(flags & KFE_IS_PREAUTH)', the latter otherwise. */ krb5_error_code _kdc_find_etype(astgs_request_t r, uint32_t flags, krb5_enctype *etypes, unsigned len, krb5_enctype *ret_enctype, Key **ret_key, krb5_boolean *ret_default_salt) { krb5_boolean use_strongest_session_key; krb5_boolean is_preauth = flags & KFE_IS_PREAUTH; krb5_boolean is_tgs = flags & KFE_IS_TGS; hdb_entry *princ; krb5_principal request_princ; krb5_error_code ret; krb5_salt def_salt; krb5_enctype enctype = ETYPE_NULL; const krb5_enctype *p; Key *key = NULL; size_t i, k, m; if (is_preauth && (flags & KFE_USE_CLIENT) && r->client->flags.synthetic) return KRB5KDC_ERR_ETYPE_NOSUPP; if ((flags & KFE_USE_CLIENT) && !r->client->flags.synthetic) { princ = r->client; request_princ = r->client_princ; } else { princ = r->server; request_princ = r->server->principal; } use_strongest_session_key = is_preauth ? r->config->preauth_use_strongest_session_key : (is_tgs ? r->config->tgt_use_strongest_session_key : r->config->svc_use_strongest_session_key); /* We'll want to avoid keys with v4 salted keys in the pre-auth case... */ ret = krb5_get_pw_salt(r->context, request_princ, &def_salt); if (ret) return ret; ret = KRB5KDC_ERR_ETYPE_NOSUPP; /* * Pick an enctype that is in the intersection of: * * - permitted_enctypes (local policy) * - requested enctypes (KDC-REQ-BODY's etype list) * - the client's long-term keys' enctypes * OR * the server's configured etype list * * There are two sub-cases: * * - use local enctype preference (local policy) * - use the client's preference list */ if (use_strongest_session_key) { /* * Pick the strongest key that the KDC, target service, and * client all support, using the local cryptosystem enctype * list in strongest-to-weakest order to drive the search. * * This is not what RFC4120 says to do, but it encourages * adoption of stronger enctypes. This doesn't play well with * clients that have multiple Kerberos client implementations * with different supported enctype lists sharing the same ccache. */ /* drive the search with local supported enctypes list */ p = krb5_kerberos_enctypes(r->context); for (i = 0; p[i] != ETYPE_NULL && enctype == ETYPE_NULL; i++) { if (krb5_enctype_valid(r->context, p[i]) != 0 && !_kdc_is_weak_exception(princ->principal, p[i])) continue; /* check that the client supports it too */ for (k = 0; k < len && enctype == ETYPE_NULL; k++) { if (p[i] != etypes[k]) continue; if (!is_preauth && (flags & KFE_USE_CLIENT)) { /* * It suffices that the client says it supports this * enctype in its KDC-REQ-BODY's etype list, which is what * `etypes' is here. */ enctype = p[i]; ret = 0; break; } /* check target princ support */ key = NULL; if (!is_preauth && !(flags & KFE_USE_CLIENT) && princ->etypes) { /* * Use the etypes list from the server's HDB entry instead * of deriving it from its long-term keys. This allows an * entry to have just one long-term key but record support * for multiple enctypes. */ for (m = 0; m < princ->etypes->len; m++) { if (p[i] == princ->etypes->val[m]) { enctype = p[i]; ret = 0; break; } } } else { /* * Use the entry's long-term keys as the source of its * supported enctypes, either because we're making * PA-ETYPE-INFO* or because we're selecting a session key * enctype. */ while (hdb_next_enctype2key(r->context, princ, NULL, p[i], &key) == 0) { if (key->key.keyvalue.length == 0) { ret = KRB5KDC_ERR_NULL_KEY; continue; } enctype = p[i]; ret = 0; if (is_preauth && ret_key != NULL && !is_good_salt_p(&def_salt, key)) continue; } } } } } else { /* * Pick the first key from the client's enctype list that is * supported by the cryptosystem and by the given principal. * * RFC4120 says we SHOULD pick the first _strong_ key from the * client's list... not the first key... If the admin disallows * weak enctypes in krb5.conf and selects this key selection * algorithm, then we get exactly what RFC4120 says. */ for(i = 0; ret != 0 && i < len; i++) { if (krb5_enctype_valid(r->context, etypes[i]) != 0 && !_kdc_is_weak_exception(princ->principal, etypes[i])) continue; key = NULL; while (ret != 0 && hdb_next_enctype2key(r->context, princ, NULL, etypes[i], &key) == 0) { if (key->key.keyvalue.length == 0) { ret = KRB5KDC_ERR_NULL_KEY; continue; } enctype = etypes[i]; ret = 0; if (is_preauth && ret_key != NULL && !is_good_salt_p(&def_salt, key)) continue; } } } if (ret == 0 && enctype == ETYPE_NULL) { /* * if the service principal is one for which there is a known 1DES * exception and no other enctype matches both the client request and * the service key list, provide a DES-CBC-CRC key. */ if (ret_key == NULL && _kdc_is_weak_exception(princ->principal, ETYPE_DES_CBC_CRC)) { ret = 0; enctype = ETYPE_DES_CBC_CRC; } else { ret = KRB5KDC_ERR_ETYPE_NOSUPP; } } if (ret == 0) { if (ret_enctype != NULL) *ret_enctype = enctype; if (ret_key != NULL) *ret_key = key; if (ret_default_salt != NULL) *ret_default_salt = is_default_salt_p(&def_salt, key); } krb5_free_salt (r->context, def_salt); return ret; } /* * The principal's session_etypes must be sorted in order of strength, with * preferred etype first. */ krb5_error_code _kdc_find_session_etype(astgs_request_t r, krb5_enctype *etypes, size_t len, const hdb_entry *princ, krb5_enctype *ret_enctype) { size_t i; if (princ->session_etypes == NULL) { /* The principal must have session etypes available. */ return KRB5KDC_ERR_ETYPE_NOSUPP; } /* Loop over the client's specified etypes. */ for (i = 0; i < len; ++i) { size_t j; /* Check that the server also supports the etype. */ for (j = 0; j < princ->session_etypes->len; ++j) { if (princ->session_etypes->val[j] == etypes[i]) { *ret_enctype = etypes[i]; return 0; } } } return KRB5KDC_ERR_ETYPE_NOSUPP; } krb5_error_code _kdc_make_anonymous_principalname (PrincipalName *pn) { pn->name_type = KRB5_NT_WELLKNOWN; pn->name_string.len = 2; pn->name_string.val = calloc(2, sizeof(*pn->name_string.val)); if (pn->name_string.val == NULL) goto failed; pn->name_string.val[0] = strdup(KRB5_WELLKNOWN_NAME); if (pn->name_string.val[0] == NULL) goto failed; pn->name_string.val[1] = strdup(KRB5_ANON_NAME); if (pn->name_string.val[1] == NULL) goto failed; return 0; failed: free_PrincipalName(pn); pn->name_type = KRB5_NT_UNKNOWN; pn->name_string.len = 0; pn->name_string.val = NULL; return ENOMEM; } static void _kdc_r_log(astgs_request_t r, int level, const char *fmt, ...) __attribute__ ((__format__ (__printf__, 3, 4))) { va_list ap; char *s; va_start(ap, fmt); s = kdc_log_msg_va(r->context, r->config, level, fmt, ap); if(s) free(s); va_end(ap); } void _kdc_set_const_e_text(astgs_request_t r, const char *e_text) { /* We should never see this */ if (r->e_text) { kdc_log(r->context, r->config, 1, "trying to replace e-text \"%s\" with \"%s\"\n", r->e_text, e_text); return; } r->e_text = e_text; kdc_log(r->context, r->config, 4, "%s", e_text); } void _kdc_set_e_text(astgs_request_t r, const char *fmt, ...) __attribute__ ((__format__ (__printf__, 2, 3))) { va_list ap; char *e_text = NULL; int vasprintf_ret; va_start(ap, fmt); vasprintf_ret = vasprintf(&e_text, fmt, ap); va_end(ap); if (vasprintf_ret < 0 || !e_text) { /* not much else to do... */ kdc_log(r->context, r->config, 1, "Could not set e_text: %s (out of memory)", fmt); return; } /* We should never see this */ if (r->e_text) { kdc_log(r->context, r->config, 1, "trying to replace e-text: %s\n", e_text); free(e_text); return; } r->e_text = e_text; r->e_text_buf = e_text; kdc_log(r->context, r->config, 4, "%s", e_text); } void _kdc_log_timestamp(astgs_request_t r, const char *type, KerberosTime authtime, KerberosTime *starttime, KerberosTime endtime, KerberosTime *renew_till) { krb5_kdc_configuration *config = r->config; char authtime_str[100], starttime_str[100], endtime_str[100], renewtime_str[100]; if (authtime) kdc_audit_setkv_number((kdc_request_t)r, "auth", authtime); if (starttime && *starttime) kdc_audit_setkv_number((kdc_request_t)r, "start", *starttime); if (endtime) kdc_audit_setkv_number((kdc_request_t)r, "end", endtime); if (renew_till && *renew_till) kdc_audit_setkv_number((kdc_request_t)r, "renew", *renew_till); krb5_format_time(r->context, authtime, authtime_str, sizeof(authtime_str), TRUE); if (starttime) krb5_format_time(r->context, *starttime, starttime_str, sizeof(starttime_str), TRUE); else strlcpy(starttime_str, "unset", sizeof(starttime_str)); krb5_format_time(r->context, endtime, endtime_str, sizeof(endtime_str), TRUE); if (renew_till) krb5_format_time(r->context, *renew_till, renewtime_str, sizeof(renewtime_str), TRUE); else strlcpy(renewtime_str, "unset", sizeof(renewtime_str)); kdc_log(r->context, config, 4, "%s authtime: %s starttime: %s endtime: %s renew till: %s", type, authtime_str, starttime_str, endtime_str, renewtime_str); } /* * */ #ifdef PKINIT static krb5_error_code pa_pkinit_validate(astgs_request_t r, const PA_DATA *pa) { pk_client_params *pkp = NULL; char *client_cert = NULL; krb5_error_code ret; ret = _kdc_pk_rd_padata(r, pa, &pkp); if (ret || pkp == NULL) { ret = KRB5KRB_AP_ERR_BAD_INTEGRITY; _kdc_r_log(r, 4, "Failed to decode PKINIT PA-DATA -- %s", r->cname); goto out; } ret = _kdc_pk_check_client(r, pkp, &client_cert); if (client_cert) kdc_audit_addkv((kdc_request_t)r, 0, KDC_REQUEST_KV_PKINIT_CLIENT_CERT, "%s", client_cert); if (ret) { _kdc_set_e_text(r, "PKINIT certificate not allowed to " "impersonate principal"); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_NAME_UNAUTHORIZED); goto out; } r->pa_endtime = _kdc_pk_endtime(pkp); if (!r->client->flags.synthetic) r->pa_max_life = _kdc_pk_max_life(pkp); _kdc_r_log(r, 4, "PKINIT pre-authentication succeeded -- %s using %s", r->cname, client_cert); ret = _kdc_pk_mk_pa_reply(r, pkp); if (ret) { _kdc_set_e_text(r, "Failed to build PK-INIT reply"); goto out; } ret = _kdc_add_initial_verified_cas(r->context, r->config, pkp, &r->et); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_PREAUTH_SUCCEEDED); out: if (pkp) _kdc_pk_free_client_param(r->context, pkp); free(client_cert); return ret; } #endif /* PKINIT */ static krb5_error_code pa_gss_validate(astgs_request_t r, const PA_DATA *pa) { gss_client_params *gcp = NULL; char *client_name = NULL; krb5_error_code ret; int open = 0; ret = _kdc_gss_rd_padata(r, pa, &gcp, &open); if (ret && gcp == NULL) return ret; if (open) { ret = _kdc_gss_check_client(r, gcp, &client_name); if (client_name) kdc_audit_addkv((kdc_request_t)r, 0, KDC_REQUEST_KV_GSS_INITIATOR, "%s", client_name); if (ret) { _kdc_set_e_text(r, "GSS-API client not allowed to " "impersonate principal"); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_NAME_UNAUTHORIZED); goto out; } r->pa_endtime = _kdc_gss_endtime(r, gcp); _kdc_r_log(r, 4, "GSS pre-authentication succeeded -- %s using %s", r->cname, client_name); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_PREAUTH_SUCCEEDED); ret = _kdc_gss_mk_composite_name_ad(r, gcp); if (ret) { _kdc_set_e_text(r, "Failed to build GSS authorization data"); goto out; } } ret = _kdc_gss_mk_pa_reply(r, gcp); if (ret) { if (ret != KRB5_KDC_ERR_MORE_PREAUTH_DATA_REQUIRED) _kdc_set_e_text(r, "Failed to build GSS pre-authentication reply"); goto out; } ret = kdc_request_set_attribute((kdc_request_t)r, HSTR("org.h5l.pa-gss-client-params"), gcp); if (ret) goto out; out: kdc_object_release(gcp); free(client_name); return ret; } static krb5_error_code pa_gss_finalize_pac(astgs_request_t r) { gss_client_params *gcp; gcp = kdc_request_get_attribute((kdc_request_t)r, HSTR("org.h5l.pa-gss-client-params")); heim_assert(gcp != NULL, "invalid GSS-API client params"); return _kdc_gss_finalize_pac(r, gcp); } static krb5_error_code pa_enc_chal_validate(astgs_request_t r, const PA_DATA *pa) { krb5_data pepper1, pepper2; int invalidPassword = 0; EncryptedData enc_data; krb5_enctype aenctype; krb5_error_code ret; struct Key *k; size_t size; int i; heim_assert(r->armor_crypto != NULL, "ENC-CHAL called for non FAST"); if (_kdc_is_anon_request(&r->req)) { ret = KRB5KRB_AP_ERR_BAD_INTEGRITY; kdc_log(r->context, r->config, 4, "ENC-CHALL doesn't support anon"); return ret; } if (r->client->flags.locked_out) { ret = KRB5KDC_ERR_CLIENT_REVOKED; kdc_log(r->context, r->config, 0, "Client (%s) is locked out", r->cname); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_LOCKED_OUT); return ret; } ret = decode_EncryptedData(pa->padata_value.data, pa->padata_value.length, &enc_data, &size); if (ret) { ret = KRB5KRB_AP_ERR_BAD_INTEGRITY; _kdc_r_log(r, 4, "Failed to decode PA-DATA -- %s", r->cname); return ret; } pepper1.data = "clientchallengearmor"; pepper1.length = strlen(pepper1.data); pepper2.data = "challengelongterm"; pepper2.length = strlen(pepper2.data); krb5_crypto_getenctype(r->context, r->armor_crypto, &aenctype); kdc_log(r->context, r->config, 5, "FAST armor enctype is: %d", (int)aenctype); for (i = 0; i < r->client->keys.len; i++) { krb5_crypto challengecrypto, longtermcrypto; krb5_keyblock challengekey; k = &r->client->keys.val[i]; ret = krb5_crypto_init(r->context, &k->key, 0, &longtermcrypto); if (ret) continue; ret = krb5_crypto_fx_cf2(r->context, r->armor_crypto, longtermcrypto, &pepper1, &pepper2, aenctype, &challengekey); if (ret) { krb5_crypto_destroy(r->context, longtermcrypto); continue; } ret = krb5_crypto_init(r->context, &challengekey, 0, &challengecrypto); krb5_free_keyblock_contents(r->context, &challengekey); if (ret) { krb5_crypto_destroy(r->context, longtermcrypto); continue; } ret = _krb5_validate_pa_enc_challenge(r->context, challengecrypto, KRB5_KU_ENC_CHALLENGE_CLIENT, &enc_data, r->cname); krb5_crypto_destroy(r->context, challengecrypto); if (ret) { const char *msg; krb5_error_code ret2; char *str = NULL; krb5_crypto_destroy(r->context, longtermcrypto); invalidPassword = (ret == KRB5KRB_AP_ERR_BAD_INTEGRITY); if (!invalidPassword) { goto out; } ret2 = krb5_enctype_to_string(r->context, k->key.keytype, &str); if (ret2) str = NULL; msg = krb5_get_error_message(r->context, ret); _kdc_r_log(r, 2, "Failed to decrypt ENC-CHAL -- %s " "(enctype %s) error %s", r->cname, str ? str : "unknown enctype", msg); krb5_free_error_message(r->context, msg); free(str); continue; } /* * Found a key that the client used, lets pick that as the reply key */ krb5_free_keyblock_contents(r->context, &r->reply_key); ret = krb5_copy_keyblock_contents(r->context, &k->key, &r->reply_key); if (ret) { krb5_crypto_destroy(r->context, longtermcrypto); goto out; } krb5_free_keyblock_contents(r->context, &challengekey); /* * Provide KDC authentication to the client, uses a different * challenge key (different pepper). */ pepper1.data = "kdcchallengearmor"; pepper1.length = strlen(pepper1.data); ret = krb5_crypto_fx_cf2(r->context, r->armor_crypto, longtermcrypto, &pepper1, &pepper2, aenctype, &challengekey); krb5_crypto_destroy(r->context, longtermcrypto); if (ret) goto out; ret = krb5_crypto_init(r->context, &challengekey, 0, &challengecrypto); krb5_free_keyblock_contents(r->context, &challengekey); if (ret) goto out; ret = _krb5_make_pa_enc_challenge(r->context, challengecrypto, KRB5_KU_ENC_CHALLENGE_KDC, r->rep.padata); krb5_crypto_destroy(r->context, challengecrypto); if (ret) goto out; if (ret == 0) ret = set_salt_padata(r->context, r->config, r->rep.padata, k); /* * Success */ kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_VALIDATED_LONG_TERM_KEY); goto out; } if (invalidPassword) { kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_WRONG_LONG_TERM_KEY); ret = KRB5KDC_ERR_PREAUTH_FAILED; } else { ret = KRB5KDC_ERR_ETYPE_NOSUPP; } out: free_EncryptedData(&enc_data); return ret; } static krb5_error_code pa_enc_ts_validate(astgs_request_t r, const PA_DATA *pa) { EncryptedData enc_data; krb5_error_code ret; krb5_crypto crypto; krb5_data ts_data; PA_ENC_TS_ENC p; size_t len; Key *pa_key; char *str; if (r->armor_crypto && !r->config->enable_armored_pa_enc_timestamp) { ret = KRB5KDC_ERR_POLICY; kdc_log(r->context, r->config, 0, "Armored encrypted timestamp pre-authentication is disabled"); return ret; } else if (!r->armor_crypto && !r->config->enable_unarmored_pa_enc_timestamp) { ret = KRB5KDC_ERR_POLICY; kdc_log(r->context, r->config, 0, "Unarmored encrypted timestamp pre-authentication is disabled"); return ret; } if (r->client->flags.locked_out) { ret = KRB5KDC_ERR_CLIENT_REVOKED; kdc_log(r->context, r->config, 0, "Client (%s) is locked out", r->cname); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_LOCKED_OUT); return ret; } ret = decode_EncryptedData(pa->padata_value.data, pa->padata_value.length, &enc_data, &len); if (ret) { ret = KRB5KRB_AP_ERR_BAD_INTEGRITY; _kdc_r_log(r, 4, "Failed to decode PA-DATA -- %s", r->cname); goto out; } ret = hdb_enctype2key(r->context, r->client, NULL, enc_data.etype, &pa_key); if(ret){ char *estr; _kdc_set_e_text(r, "No key matching entype"); ret = KRB5KDC_ERR_ETYPE_NOSUPP; if(krb5_enctype_to_string(r->context, enc_data.etype, &estr)) estr = NULL; if(estr == NULL) _kdc_r_log(r, 4, "No client key matching pa-data (%d) -- %s", enc_data.etype, r->cname); else _kdc_r_log(r, 4, "No client key matching pa-data (%s) -- %s", estr, r->cname); free(estr); free_EncryptedData(&enc_data); goto out; } try_next_key: ret = krb5_crypto_init(r->context, &pa_key->key, 0, &crypto); if (ret) { const char *msg = krb5_get_error_message(r->context, ret); _kdc_r_log(r, 4, "krb5_crypto_init failed: %s", msg); krb5_free_error_message(r->context, msg); free_EncryptedData(&enc_data); goto out; } ret = krb5_decrypt_EncryptedData (r->context, crypto, KRB5_KU_PA_ENC_TIMESTAMP, &enc_data, &ts_data); krb5_crypto_destroy(r->context, crypto); /* * Since the user might have several keys with the same * enctype but with diffrent salting, we need to try all * the keys with the same enctype. */ if(ret){ krb5_error_code ret2; const char *msg = krb5_get_error_message(r->context, ret); ret2 = krb5_enctype_to_string(r->context, pa_key->key.keytype, &str); if (ret2) str = NULL; _kdc_r_log(r, 2, "Failed to decrypt PA-DATA -- %s " "(enctype %s) error %s", r->cname, str ? str : "unknown enctype", msg); krb5_xfree(str); krb5_free_error_message(r->context, msg); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_PA_ETYPE, pa_key->key.keytype); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_WRONG_LONG_TERM_KEY); if(hdb_next_enctype2key(r->context, r->client, NULL, enc_data.etype, &pa_key) == 0) goto try_next_key; free_EncryptedData(&enc_data); ret = KRB5KDC_ERR_PREAUTH_FAILED; goto out; } free_EncryptedData(&enc_data); ret = decode_PA_ENC_TS_ENC(ts_data.data, ts_data.length, &p, &len); krb5_data_free(&ts_data); if(ret){ ret = KRB5KDC_ERR_PREAUTH_FAILED; _kdc_r_log(r, 4, "Failed to decode PA-ENC-TS_ENC -- %s", r->cname); goto out; } if (labs(kdc_time - p.patimestamp) > r->context->max_skew) { char client_time[100]; krb5_format_time(r->context, p.patimestamp, client_time, sizeof(client_time), TRUE); ret = KRB5KRB_AP_ERR_SKEW; _kdc_r_log(r, 4, "Too large time skew, " "client time %s is out by %u > %u seconds -- %s", client_time, (unsigned)labs(kdc_time - p.patimestamp), r->context->max_skew, r->cname); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_TIME_SKEW); /* * The following is needed to make windows clients to * retry using the timestamp in the error message, if * there is a e_text, they become unhappy. */ r->e_text = NULL; free_PA_ENC_TS_ENC(&p); goto out; } free_PA_ENC_TS_ENC(&p); ret = set_salt_padata(r->context, r->config, r->rep.padata, pa_key); if (ret == 0) ret = krb5_copy_keyblock_contents(r->context, &pa_key->key, &r->reply_key); if (ret) return ret; ret = krb5_enctype_to_string(r->context, pa_key->key.keytype, &str); if (ret) str = NULL; _kdc_r_log(r, 4, "ENC-TS Pre-authentication succeeded -- %s using %s", r->cname, str ? str : "unknown enctype"); krb5_xfree(str); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_PA_ETYPE, pa_key->key.keytype); kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_VALIDATED_LONG_TERM_KEY); ret = 0; out: return ret; } struct kdc_patypes { int type; char *name; unsigned int flags; #define PA_ANNOUNCE 1 #define PA_REQ_FAST 2 /* only use inside fast */ #define PA_SYNTHETIC_OK 4 #define PA_REPLACE_REPLY_KEY 8 /* PA mech replaces reply key */ #define PA_USES_LONG_TERM_KEY 16 /* PA mech uses client's long-term key */ krb5_error_code (*validate)(astgs_request_t, const PA_DATA *pa); krb5_error_code (*finalize_pac)(astgs_request_t r); void (*cleanup)(astgs_request_t r); }; static const struct kdc_patypes pat[] = { #ifdef PKINIT { KRB5_PADATA_PK_AS_REQ, "PK-INIT(ietf)", PA_ANNOUNCE | PA_SYNTHETIC_OK | PA_REPLACE_REPLY_KEY, pa_pkinit_validate, NULL, NULL }, { KRB5_PADATA_PK_AS_REQ_WIN, "PK-INIT(win2k)", PA_ANNOUNCE | PA_REPLACE_REPLY_KEY, pa_pkinit_validate, NULL, NULL }, { KRB5_PADATA_PKINIT_KX, "Anonymous PK-INIT", PA_ANNOUNCE, NULL, NULL, NULL }, #else { KRB5_PADATA_PK_AS_REQ, "PK-INIT(ietf)", 0, NULL , NULL, NULL }, { KRB5_PADATA_PK_AS_REQ_WIN, "PK-INIT(win2k)", 0, NULL, NULL, NULL }, { KRB5_PADATA_PKINIT_KX, "Anonymous PK-INIT", 0, NULL, NULL, NULL }, #endif { KRB5_PADATA_PA_PK_OCSP_RESPONSE , "OCSP", 0, NULL, NULL, NULL }, { KRB5_PADATA_ENC_TIMESTAMP , "ENC-TS", PA_ANNOUNCE | PA_USES_LONG_TERM_KEY, pa_enc_ts_validate, NULL, NULL }, { KRB5_PADATA_ENCRYPTED_CHALLENGE , "ENC-CHAL", PA_ANNOUNCE | PA_USES_LONG_TERM_KEY | PA_REQ_FAST, pa_enc_chal_validate, NULL, NULL }, { KRB5_PADATA_REQ_ENC_PA_REP , "REQ-ENC-PA-REP", 0, NULL, NULL, NULL }, { KRB5_PADATA_FX_FAST, "FX-FAST", PA_ANNOUNCE, NULL, NULL, NULL }, { KRB5_PADATA_FX_ERROR, "FX-ERROR", 0, NULL, NULL, NULL }, { KRB5_PADATA_FX_COOKIE, "FX-COOKIE", 0, NULL, NULL, NULL }, { KRB5_PADATA_GSS , "GSS", PA_ANNOUNCE | PA_SYNTHETIC_OK | PA_REPLACE_REPLY_KEY, pa_gss_validate, pa_gss_finalize_pac, NULL }, }; static void log_patypes(astgs_request_t r, METHOD_DATA *padata) { krb5_kdc_configuration *config = r->config; struct rk_strpool *p = NULL; char *str; size_t n, m; for (n = 0; n < padata->len; n++) { for (m = 0; m < sizeof(pat) / sizeof(pat[0]); m++) { if (padata->val[n].padata_type == pat[m].type) { p = rk_strpoolprintf(p, "%s", pat[m].name); break; } } if (m == sizeof(pat) / sizeof(pat[0])) p = rk_strpoolprintf(p, "%d", padata->val[n].padata_type); if (p && n + 1 < padata->len) p = rk_strpoolprintf(p, ", "); if (p == NULL) { kdc_log(r->context, config, 1, "out of memory"); return; } } if (p == NULL) p = rk_strpoolprintf(p, "none"); str = rk_strpoolcollect(p); kdc_log(r->context, config, 4, "Client sent patypes: %s", str); kdc_audit_addkv((kdc_request_t)r, KDC_AUDIT_EATWHITE, "client-pa", "%s", str); free(str); } static krb5_boolean pa_used_flag_isset(astgs_request_t r, unsigned int flag) { if (r->pa_used == NULL) return FALSE; return (r->pa_used->flags & flag) == flag; } /* * */ krb5_error_code _kdc_encode_reply(krb5_context context, krb5_kdc_configuration *config, astgs_request_t r, uint32_t nonce, krb5_enctype etype, int skvno, const EncryptionKey *skey, int ckvno, int rk_is_subkey, krb5_data *reply) { unsigned char *buf; size_t buf_size; size_t len = 0; krb5_error_code ret; krb5_crypto crypto; KDC_REP *rep = &r->rep; EncTicketPart *et = &r->et; EncKDCRepPart *ek = &r->ek; heim_assert(rep->padata != NULL, "reply padata uninitialized"); ASN1_MALLOC_ENCODE(EncTicketPart, buf, buf_size, et, &len, ret); if(ret) { const char *msg = krb5_get_error_message(context, ret); kdc_log(context, config, 4, "Failed to encode ticket: %s", msg); krb5_free_error_message(context, msg); return ret; } if(buf_size != len) krb5_abortx(context, "Internal error in ASN.1 encoder"); ret = krb5_crypto_init(context, skey, etype, &crypto); if (ret) { const char *msg = krb5_get_error_message(context, ret); kdc_log(context, config, 4, "krb5_crypto_init failed: %s", msg); krb5_free_error_message(context, msg); free(buf); return ret; } ret = krb5_encrypt_EncryptedData(context, crypto, KRB5_KU_TICKET, buf, len, skvno, &rep->ticket.enc_part); free(buf); krb5_crypto_destroy(context, crypto); if(ret) { const char *msg = krb5_get_error_message(context, ret); kdc_log(context, config, 4, "Failed to encrypt data: %s", msg); krb5_free_error_message(context, msg); return ret; } if (r && r->armor_crypto) { KrbFastFinished finished; krb5_data data; kdc_log(context, config, 4, "FAST armor protection"); memset(&finished, 0, sizeof(finished)); krb5_data_zero(&data); finished.timestamp = kdc_time; finished.usec = 0; finished.crealm = et->crealm; finished.cname = et->cname; ASN1_MALLOC_ENCODE(Ticket, data.data, data.length, &rep->ticket, &len, ret); if (ret) return ret; if (data.length != len) krb5_abortx(context, "internal asn.1 error"); ret = krb5_create_checksum(context, r->armor_crypto, KRB5_KU_FAST_FINISHED, 0, data.data, data.length, &finished.ticket_checksum); krb5_data_free(&data); if (ret) return ret; ret = _kdc_fast_mk_response(context, r->armor_crypto, rep->padata, &r->strengthen_key, &finished, nonce, &data); free_Checksum(&finished.ticket_checksum); if (ret) return ret; free_METHOD_DATA(r->rep.padata); ret = krb5_padata_add(context, rep->padata, KRB5_PADATA_FX_FAST, data.data, data.length); if (ret) return ret; /* * Hide client name for privacy reasons */ if (r->fast.flags.requested_hidden_names) { Realm anon_realm = KRB5_ANON_REALM; free_Realm(&rep->crealm); ret = copy_Realm(&anon_realm, &rep->crealm); if (ret == 0) { free_PrincipalName(&rep->cname); ret = _kdc_make_anonymous_principalname(&rep->cname); } if (ret) return ret; } } if (rep->padata->len == 0) { free_METHOD_DATA(rep->padata); free(rep->padata); rep->padata = NULL; } if(rep->msg_type == krb_as_rep && !config->encode_as_rep_as_tgs_rep) ASN1_MALLOC_ENCODE(EncASRepPart, buf, buf_size, ek, &len, ret); else ASN1_MALLOC_ENCODE(EncTGSRepPart, buf, buf_size, ek, &len, ret); if(ret) { const char *msg = krb5_get_error_message(context, ret); kdc_log(context, config, 4, "Failed to encode KDC-REP: %s", msg); krb5_free_error_message(context, msg); return ret; } if(buf_size != len) { free(buf); kdc_log(context, config, 4, "Internal error in ASN.1 encoder"); _kdc_set_e_text(r, "KDC internal error"); return KRB5KRB_ERR_GENERIC; } ret = krb5_crypto_init(context, &r->reply_key, 0, &crypto); if (ret) { const char *msg = krb5_get_error_message(context, ret); free(buf); kdc_log(context, config, 4, "krb5_crypto_init failed: %s", msg); krb5_free_error_message(context, msg); return ret; } if(rep->msg_type == krb_as_rep) { ret = krb5_encrypt_EncryptedData(context, crypto, KRB5_KU_AS_REP_ENC_PART, buf, len, ckvno, &rep->enc_part); free(buf); if (ret == 0) ASN1_MALLOC_ENCODE(AS_REP, buf, buf_size, rep, &len, ret); } else { ret = krb5_encrypt_EncryptedData(context, crypto, rk_is_subkey ? KRB5_KU_TGS_REP_ENC_PART_SUB_KEY : KRB5_KU_TGS_REP_ENC_PART_SESSION, buf, len, ckvno, &rep->enc_part); free(buf); if (ret == 0) ASN1_MALLOC_ENCODE(TGS_REP, buf, buf_size, rep, &len, ret); } krb5_crypto_destroy(context, crypto); if(ret) { const char *msg = krb5_get_error_message(context, ret); kdc_log(context, config, 4, "Failed to encode KDC-REP: %s", msg); krb5_free_error_message(context, msg); return ret; } if(buf_size != len) { free(buf); kdc_log(context, config, 4, "Internal error in ASN.1 encoder"); _kdc_set_e_text(r, "KDC internal error"); return KRB5KRB_ERR_GENERIC; } reply->data = buf; reply->length = buf_size; return 0; } /* * */ static krb5_error_code get_pa_etype_info(krb5_context context, krb5_kdc_configuration *config, METHOD_DATA *md, Key *ckey, krb5_boolean include_salt) { krb5_error_code ret = 0; ETYPE_INFO_ENTRY eie; /* do not free this one */ ETYPE_INFO ei; PA_DATA pa; size_t len; /* * Code moved here from what used to be make_etype_info_entry() because * using the ASN.1 compiler-generated SEQUENCE OF add functions makes that * old function's body and this one's small and clean. * * The following comment blocks were there: * * According to `the specs', we can't send a salt if we have AFS3 salted * key, but that requires that you *know* what cell you are using (e.g by * assuming that the cell is the same as the realm in lower case) * * We shouldn't sent salttype since it is incompatible with the * specification and it breaks windows clients. The afs salting problem * is solved by using KRB5-PADATA-AFS3-SALT implemented in Heimdal 0.7 and * later. * * We return no salt type at all, as that should indicate the default salt * type and make everybody happy. some systems (like w2k) dislike being * told the salt type here. */ pa.padata_type = KRB5_PADATA_ETYPE_INFO; pa.padata_value.data = NULL; pa.padata_value.length = 0; ei.len = 0; ei.val = NULL; eie.etype = ckey->key.keytype; eie.salttype = NULL; eie.salt = NULL; if (include_salt && ckey->salt) eie.salt = &ckey->salt->salt; ret = add_ETYPE_INFO(&ei, &eie); if (ret == 0) ASN1_MALLOC_ENCODE(ETYPE_INFO, pa.padata_value.data, pa.padata_value.length, &ei, &len, ret); if (ret == 0) add_METHOD_DATA(md, &pa); free_ETYPE_INFO(&ei); free_PA_DATA(&pa); return ret; } /* * */ extern int _krb5_AES_SHA1_string_to_default_iterator; extern int _krb5_AES_SHA2_string_to_default_iterator; static krb5_error_code make_s2kparams(int value, size_t len, krb5_data **ps2kparams) { krb5_data *s2kparams; krb5_error_code ret; ALLOC(s2kparams); if (s2kparams == NULL) return ENOMEM; ret = krb5_data_alloc(s2kparams, len); if (ret) { free(s2kparams); return ret; } _krb5_put_int(s2kparams->data, value, len); *ps2kparams = s2kparams; return 0; } static krb5_error_code make_etype_info2_entry(ETYPE_INFO2_ENTRY *ent, Key *key, krb5_boolean include_salt) { krb5_error_code ret; ent->etype = key->key.keytype; if (key->salt && include_salt) { ALLOC(ent->salt); if (ent->salt == NULL) return ENOMEM; *ent->salt = malloc(key->salt->salt.length + 1); if (*ent->salt == NULL) { free(ent->salt); ent->salt = NULL; return ENOMEM; } memcpy(*ent->salt, key->salt->salt.data, key->salt->salt.length); (*ent->salt)[key->salt->salt.length] = '\0'; } else ent->salt = NULL; ent->s2kparams = NULL; switch (key->key.keytype) { case ETYPE_AES128_CTS_HMAC_SHA1_96: case ETYPE_AES256_CTS_HMAC_SHA1_96: ret = make_s2kparams(_krb5_AES_SHA1_string_to_default_iterator, 4, &ent->s2kparams); break; case KRB5_ENCTYPE_AES128_CTS_HMAC_SHA256_128: case KRB5_ENCTYPE_AES256_CTS_HMAC_SHA384_192: ret = make_s2kparams(_krb5_AES_SHA2_string_to_default_iterator, 4, &ent->s2kparams); break; case ETYPE_DES_CBC_CRC: case ETYPE_DES_CBC_MD4: case ETYPE_DES_CBC_MD5: /* Check if this was a AFS3 salted key */ if(key->salt && key->salt->type == hdb_afs3_salt) ret = make_s2kparams(1, 1, &ent->s2kparams); else ret = 0; break; default: ret = 0; break; } return ret; } /* * Return an ETYPE-INFO2. Enctypes are storted the same way as in the * database (client supported enctypes first, then the unsupported * enctypes). */ static krb5_error_code get_pa_etype_info2(krb5_context context, krb5_kdc_configuration *config, METHOD_DATA *md, Key *ckey, krb5_boolean include_salt) { krb5_error_code ret = 0; ETYPE_INFO2 pa; unsigned char *buf; size_t len; pa.len = 1; pa.val = calloc(1, sizeof(pa.val[0])); if(pa.val == NULL) return ENOMEM; ret = make_etype_info2_entry(&pa.val[0], ckey, include_salt); if (ret) { free_ETYPE_INFO2(&pa); return ret; } ASN1_MALLOC_ENCODE(ETYPE_INFO2, buf, len, &pa, &len, ret); free_ETYPE_INFO2(&pa); if(ret) return ret; ret = realloc_method_data(md); if(ret) { free(buf); return ret; } md->val[md->len - 1].padata_type = KRB5_PADATA_ETYPE_INFO2; md->val[md->len - 1].padata_value.length = len; md->val[md->len - 1].padata_value.data = buf; return 0; } /* * Return 0 if the client have only older enctypes, this is for * determining if the server should send ETYPE_INFO2 or not. */ static int newer_enctype_present(krb5_context context, struct KDC_REQ_BODY_etype *etype_list) { size_t i; for (i = 0; i < etype_list->len; i++) { if (!krb5_is_enctype_old(context, etype_list->val[i])) return 1; } return 0; } static krb5_error_code get_pa_etype_info_both(krb5_context context, krb5_kdc_configuration *config, struct KDC_REQ_BODY_etype *etype_list, METHOD_DATA *md, Key *ckey, krb5_boolean include_salt) { krb5_error_code ret; /* * Windows 2019 (and earlier versions) always sends the salt * and Samba has testsuites that check this behaviour, so a * Samba AD DC will set this flag to match the AS-REP packet * more closely. */ if (config->force_include_pa_etype_salt) include_salt = TRUE; /* * RFC4120 requires: * When the AS server is to include pre-authentication data in a * KRB-ERROR or in an AS-REP, it MUST use PA-ETYPE-INFO2, not * PA-ETYPE-INFO, if the etype field of the client's AS-REQ lists * at least one "newer" encryption type. Otherwise (when the etype * field of the client's AS-REQ does not list any "newer" encryption * types), it MUST send both PA-ETYPE-INFO2 and PA-ETYPE-INFO (both * with an entry for each enctype). A "newer" enctype is any enctype * first officially specified concurrently with or subsequent to the * issue of this RFC. The enctypes DES, 3DES, or RC4 and any defined * in [RFC1510] are not "newer" enctypes. * * It goes on to state: * The preferred ordering of the "hint" pre-authentication data that * affect client key selection is: ETYPE-INFO2, followed by ETYPE-INFO, * followed by PW-SALT. As noted in Section 3.1.3, a KDC MUST NOT send * ETYPE-INFO or PW-SALT when the client's AS-REQ includes at least one * "newer" etype. */ ret = get_pa_etype_info2(context, config, md, ckey, include_salt); if (ret) return ret; if (!newer_enctype_present(context, etype_list)) ret = get_pa_etype_info(context, config, md, ckey, include_salt); return ret; } /* * */ void _log_astgs_req(astgs_request_t r, krb5_enctype setype) { const KDC_REQ_BODY *b = &r->req.req_body; krb5_enctype cetype = r->reply_key.keytype; krb5_error_code ret; struct rk_strpool *p; struct rk_strpool *s = NULL; char *str; char *cet; char *set; size_t i; /* * we are collecting ``p'' and ``s''. The former is a textual * representation of the enctypes as strings which will be used * for debugging. The latter is a terse comma separated list of * the %d's of the enctypes to emit into our audit trail to * conserve space in the logs. */ p = rk_strpoolprintf(NULL, "%s", "Client supported enctypes: "); for (i = 0; i < b->etype.len; i++) { ret = krb5_enctype_to_string(r->context, b->etype.val[i], &str); if (ret == 0) { p = rk_strpoolprintf(p, "%s", str); free(str); } else p = rk_strpoolprintf(p, "%d", b->etype.val[i]); if (p == NULL) { rk_strpoolfree(s); _kdc_r_log(r, 4, "out of memory"); return; } s = rk_strpoolprintf(s, "%d", b->etype.val[i]); if (i + 1 < b->etype.len) { p = rk_strpoolprintf(p, ", "); s = rk_strpoolprintf(s, ","); } } if (p == NULL) p = rk_strpoolprintf(p, "no encryption types"); str = rk_strpoolcollect(s); if (str) kdc_audit_addkv((kdc_request_t)r, KDC_AUDIT_EATWHITE, "etypes", "%s", str); free(str); ret = krb5_enctype_to_string(r->context, cetype, &cet); if(ret == 0) { ret = krb5_enctype_to_string(r->context, setype, &set); if (ret == 0) { p = rk_strpoolprintf(p, ", using %s/%s", cet, set); free(set); } free(cet); } if (ret != 0) p = rk_strpoolprintf(p, ", using enctypes %d/%d", cetype, setype); str = rk_strpoolcollect(p); if (str) _kdc_r_log(r, 4, "%s", str); free(str); kdc_audit_addkv((kdc_request_t)r, 0, "etype", "%d/%d", cetype, setype); { char fixedstr[128]; int result; result = unparse_flags(KDCOptions2int(b->kdc_options), asn1_KDCOptions_units(), fixedstr, sizeof(fixedstr)); if (result > 0) { _kdc_r_log(r, 4, "Requested flags: %s", fixedstr); kdc_audit_addkv((kdc_request_t)r, KDC_AUDIT_EATWHITE, "flags", "%s", fixedstr); } } } /* * verify the flags on `client' and `server', returning 0 * if they are OK and generating an error messages and returning * and error code otherwise. */ KDC_LIB_FUNCTION krb5_error_code KDC_LIB_CALL kdc_check_flags(astgs_request_t r, krb5_boolean is_as_req, hdb_entry *client, hdb_entry *server) { if (client != NULL) { /* check client */ if (client->flags.locked_out) { kdc_audit_addreason((kdc_request_t)r, "Client is locked out"); return KRB5KDC_ERR_CLIENT_REVOKED; } if (client->flags.invalid) { kdc_audit_addreason((kdc_request_t)r, "Client has invalid bit set"); return KRB5KDC_ERR_POLICY; } if (!client->flags.client) { kdc_audit_addreason((kdc_request_t)r, "Principal may not act as client"); return KRB5KDC_ERR_POLICY; } if (client->valid_start && *client->valid_start > kdc_time) { char starttime_str[100]; krb5_format_time(r->context, *client->valid_start, starttime_str, sizeof(starttime_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Client not yet valid " "until %s", starttime_str); return KRB5KDC_ERR_CLIENT_NOTYET; } if (client->valid_end && *client->valid_end < kdc_time) { char endtime_str[100]; krb5_format_time(r->context, *client->valid_end, endtime_str, sizeof(endtime_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Client expired at %s", endtime_str); return KRB5KDC_ERR_NAME_EXP; } if (client->flags.require_pwchange && (server == NULL || !server->flags.change_pw)) return KRB5KDC_ERR_KEY_EXPIRED; if (client->pw_end && *client->pw_end < kdc_time && (server == NULL || !server->flags.change_pw)) { char pwend_str[100]; krb5_format_time(r->context, *client->pw_end, pwend_str, sizeof(pwend_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Client's key has expired " "at %s", pwend_str); return KRB5KDC_ERR_KEY_EXPIRED; } } /* check server */ if (server != NULL) { if (server->flags.locked_out) { kdc_audit_addreason((kdc_request_t)r, "Server locked out"); return KRB5KDC_ERR_SERVICE_REVOKED; } if (server->flags.invalid) { kdc_audit_addreason((kdc_request_t)r, "Server has invalid flag set"); return KRB5KDC_ERR_POLICY; } if (!server->flags.server) { kdc_audit_addreason((kdc_request_t)r, "Principal may not act as server"); return KRB5KDC_ERR_POLICY; } if (!is_as_req && server->flags.initial) { kdc_audit_addreason((kdc_request_t)r, "AS-REQ is required for server"); return KRB5KDC_ERR_POLICY; } if (server->valid_start && *server->valid_start > kdc_time) { char starttime_str[100]; krb5_format_time(r->context, *server->valid_start, starttime_str, sizeof(starttime_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Server not yet valid " "until %s", starttime_str); return KRB5KDC_ERR_SERVICE_NOTYET; } if (server->valid_end && *server->valid_end < kdc_time) { char endtime_str[100]; krb5_format_time(r->context, *server->valid_end, endtime_str, sizeof(endtime_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Server expired at %s", endtime_str); return KRB5KDC_ERR_SERVICE_EXP; } if (server->pw_end && *server->pw_end < kdc_time) { char pwend_str[100]; krb5_format_time(r->context, *server->pw_end, pwend_str, sizeof(pwend_str), TRUE); kdc_audit_addreason((kdc_request_t)r, "Server's key has expired " "at %s", pwend_str); return KRB5KDC_ERR_KEY_EXPIRED; } } return 0; } /* * Return TRUE if `from' is part of `addresses' taking into consideration * the configuration variables that tells us how strict we should be about * these checks */ krb5_boolean _kdc_check_addresses(astgs_request_t r, HostAddresses *addresses, const struct sockaddr *from) { krb5_kdc_configuration *config = r->config; krb5_error_code ret; krb5_address addr; krb5_boolean result; krb5_boolean only_netbios = TRUE; size_t i; if (!config->check_ticket_addresses && !config->warn_ticket_addresses) return TRUE; /* * Fields of HostAddresses type are always OPTIONAL and should be non- * empty, but we check for empty just in case as our compiler doesn't * support size constraints on SEQUENCE OF. */ if (addresses == NULL || addresses->len == 0) return config->allow_null_ticket_addresses; for (i = 0; i < addresses->len; ++i) { if (addresses->val[i].addr_type != KRB5_ADDRESS_NETBIOS) { only_netbios = FALSE; } } /* Windows sends it's netbios name, which I can only assume is * used for the 'allowed workstations' check. This is painful, * but we still want to check IP addresses if they happen to be * present. */ if(only_netbios) return config->allow_null_ticket_addresses; ret = krb5_sockaddr2address (r->context, from, &addr); if(ret) return FALSE; result = krb5_address_search(r->context, &addr, addresses); krb5_free_address (r->context, &addr); return result; } /* * */ krb5_error_code _kdc_check_anon_policy(astgs_request_t r) { if (!r->config->allow_anonymous) { kdc_audit_addreason((kdc_request_t)r, "Anonymous tickets denied by local policy"); return KRB5KDC_ERR_POLICY; } return 0; } /* * Determine whether the client requested a PAC be included * or excluded explictly, or whether it doesn't care. */ static uint64_t get_pac_attributes(krb5_context context, KDC_REQ *req) { krb5_error_code ret; PA_PAC_REQUEST pacreq; const PA_DATA *pa; int i = 0; uint32_t pac_attributes; pa = _kdc_find_padata(req, &i, KRB5_PADATA_PA_PAC_REQUEST); if (pa == NULL) return KRB5_PAC_WAS_GIVEN_IMPLICITLY; ret = decode_PA_PAC_REQUEST(pa->padata_value.data, pa->padata_value.length, &pacreq, NULL); if (ret) return KRB5_PAC_WAS_GIVEN_IMPLICITLY; pac_attributes = pacreq.include_pac ? KRB5_PAC_WAS_REQUESTED : 0; free_PA_PAC_REQUEST(&pacreq); return pac_attributes; } /* * */ static krb5_error_code generate_pac(astgs_request_t r, const Key *skey, const Key *tkey, krb5_boolean is_tgs) { krb5_error_code ret; krb5_data data; uint16_t rodc_id; krb5_principal client; krb5_const_principal canon_princ = NULL; r->pac_attributes = get_pac_attributes(r->context, &r->req); kdc_audit_setkv_number((kdc_request_t)r, "pac_attributes", r->pac_attributes); if (!is_tgs && !(r->pac_attributes & (KRB5_PAC_WAS_REQUESTED | KRB5_PAC_WAS_GIVEN_IMPLICITLY))) return 0; /* * When a PA mech does not use the client's long-term key, the PAC * may include the client's long-term key (encrypted in the reply key) * for use by other shared secret authentication protocols, e.g. NTLM. * Validate a PA mech was actually used before doing this. */ ret = _kdc_pac_generate(r, r->client, r->server, r->pa_used && !pa_used_flag_isset(r, PA_USES_LONG_TERM_KEY) ? &r->reply_key : NULL, r->pac_attributes, &r->pac); if (ret) { _kdc_r_log(r, 4, "PAC generation failed for -- %s", r->cname); return ret; } if (r->pac == NULL) return 0; rodc_id = r->server->kvno >> 16; /* libkrb5 expects ticket and PAC client names to match */ ret = _krb5_principalname2krb5_principal(r->context, &client, r->et.cname, r->et.crealm); if (ret) return ret; /* * Include the canonical name of the principal in the authorization * data, if the realms match (if they don't, then the KDC could * impersonate any realm. Windows always canonicalizes the realm, * but Heimdal permits aliases between realms.) */ if (krb5_realm_compare(r->context, client, r->canon_client_princ)) { char *cpn = NULL; canon_princ = r->canon_client_princ; (void) krb5_unparse_name(r->context, canon_princ, &cpn); kdc_audit_addkv((kdc_request_t)r, 0, "canon_client_name", "%s", cpn ? cpn : ""); krb5_xfree(cpn); } if (r->pa_used && r->pa_used->finalize_pac) { ret = r->pa_used->finalize_pac(r); if (ret) return ret; } ret = _krb5_pac_sign(r->context, r->pac, r->et.authtime, client, &skey->key, /* Server key */ &tkey->key, /* TGS key */ rodc_id, NULL, /* UPN */ canon_princ, false, /* add_full_sig */ is_tgs ? &r->pac_attributes : NULL, &data); krb5_free_principal(r->context, client); krb5_pac_free(r->context, r->pac); r->pac = NULL; if (ret) { _kdc_r_log(r, 4, "PAC signing failed for -- %s", r->cname); return ret; } ret = _kdc_tkt_insert_pac(r->context, &r->et, &data); krb5_data_free(&data); return ret; } /* * */ krb5_boolean _kdc_is_anonymous(krb5_context context, krb5_const_principal principal) { return krb5_principal_is_anonymous(context, principal, KRB5_ANON_MATCH_ANY); } /* * Returns TRUE if principal is the unauthenticated anonymous identity, * i.e. WELLKNOWN/ANONYMOUS@WELLKNOWN:ANONYMOUS. Unfortunately due to * backwards compatibility logic in krb5_principal_is_anonymous() we * have to use our own implementation. */ krb5_boolean _kdc_is_anonymous_pkinit(krb5_context context, krb5_const_principal principal) { return _kdc_is_anonymous(context, principal) && strcmp(principal->realm, KRB5_ANON_REALM) == 0; } static int require_preauth_p(astgs_request_t r) { return r->config->require_preauth || r->client->flags.require_preauth || r->server->flags.require_preauth; } /* * */ static krb5_error_code add_enc_pa_rep(astgs_request_t r) { krb5_error_code ret; krb5_crypto crypto; Checksum checksum; krb5_data cdata; size_t len; ret = krb5_crypto_init(r->context, &r->reply_key, 0, &crypto); if (ret) return ret; ret = krb5_create_checksum(r->context, crypto, KRB5_KU_AS_REQ, 0, r->request.data, r->request.length, &checksum); krb5_crypto_destroy(r->context, crypto); if (ret) return ret; ASN1_MALLOC_ENCODE(Checksum, cdata.data, cdata.length, &checksum, &len, ret); free_Checksum(&checksum); if (ret) return ret; heim_assert(cdata.length == len, "ASN.1 internal error"); if (r->ek.encrypted_pa_data == NULL) { ALLOC(r->ek.encrypted_pa_data); if (r->ek.encrypted_pa_data == NULL) return ENOMEM; } ret = krb5_padata_add(r->context, r->ek.encrypted_pa_data, KRB5_PADATA_REQ_ENC_PA_REP, cdata.data, cdata.length); if (ret) return ret; return krb5_padata_add(r->context, r->ek.encrypted_pa_data, KRB5_PADATA_FX_FAST, NULL, 0); } /* * Add an authorization data element indicating that a synthetic * principal was used, so that the TGS does not accidentally * synthesize a non-synthetic principal that has since been deleted. */ static krb5_error_code add_synthetic_princ_ad(astgs_request_t r) { krb5_data data; krb5_data_zero(&data); return _kdc_tkt_add_if_relevant_ad(r->context, &r->et, KRB5_AUTHDATA_SYNTHETIC_PRINC_USED, &data); } static krb5_error_code get_local_tgs(krb5_context context, krb5_kdc_configuration *config, krb5_const_realm realm, HDB **krbtgtdb, hdb_entry **krbtgt) { krb5_error_code ret; krb5_principal tgs_name; *krbtgtdb = NULL; *krbtgt = NULL; ret = krb5_make_principal(context, &tgs_name, realm, KRB5_TGS_NAME, realm, NULL); if (ret) return ret; ret = _kdc_db_fetch(context, config, tgs_name, HDB_F_GET_KRBTGT, NULL, krbtgtdb, krbtgt); krb5_free_principal(context, tgs_name); return ret; } /* * */ krb5_error_code _kdc_as_rep(astgs_request_t r) { krb5_kdc_configuration *config = r->config; KDC_REQ *req = &r->req; const char *from = r->from; KDC_REQ_BODY *b = NULL; KDC_REP *rep = &r->rep; KDCOptions f; krb5_enctype setype; krb5_error_code ret = 0; Key *skey; int found_pa = 0; int i, flags = HDB_F_FOR_AS_REQ; const PA_DATA *pa; krb5_boolean is_tgs; const char *msg; Key *krbtgt_key; memset(rep, 0, sizeof(*rep)); ALLOC(rep->padata); if (rep->padata == NULL) { ret = ENOMEM; krb5_set_error_message(r->context, ret, N_("malloc: out of memory", "")); goto out; } /* * Look for FAST armor and unwrap */ ret = _kdc_fast_unwrap_request(r, NULL, NULL); if (ret) { _kdc_r_log(r, 1, "FAST unwrap request from %s failed: %d", from, ret); goto out; } b = &req->req_body; f = b->kdc_options; if (f.canonicalize) flags |= HDB_F_CANON; if (b->sname == NULL) { ret = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN; _kdc_set_e_text(r, "No server in request"); goto out; } ret = _krb5_principalname2krb5_principal(r->context, &r->server_princ, *(b->sname), b->realm); if (!ret) ret = krb5_unparse_name(r->context, r->server_princ, &r->sname); if (ret) { kdc_log(r->context, config, 2, "AS_REQ malformed server name from %s", from); goto out; } if (b->cname == NULL) { ret = KRB5KDC_ERR_C_PRINCIPAL_UNKNOWN; _kdc_set_e_text(r, "No client in request"); goto out; } ret = _krb5_principalname2krb5_principal(r->context, &r->client_princ, *(b->cname), b->realm); if (!ret) ret = krb5_unparse_name(r->context, r->client_princ, &r->cname); if (ret) { kdc_log(r->context, config, 2, "AS-REQ malformed client name from %s", from); goto out; } kdc_log(r->context, config, 4, "AS-REQ %s from %s for %s", r->cname, r->from, r->sname); is_tgs = krb5_principal_is_krbtgt(r->context, r->server_princ); if (_kdc_is_anonymous(r->context, r->client_princ) && !_kdc_is_anon_request(req)) { kdc_log(r->context, config, 2, "Anonymous client w/o anonymous flag"); ret = KRB5KDC_ERR_BADOPTION; goto out; } ret = _kdc_db_fetch(r->context, config, r->client_princ, HDB_F_GET_CLIENT | HDB_F_SYNTHETIC_OK | flags, NULL, &r->clientdb, &r->client); switch (ret) { case 0: /* Success */ break; case HDB_ERR_NOT_FOUND_HERE: kdc_log(r->context, config, 5, "client %s does not have secrets at this KDC, need to proxy", r->cname); goto out; case HDB_ERR_WRONG_REALM: { char *fixed_client_name = NULL; ret = krb5_unparse_name(r->context, r->client->principal, &fixed_client_name); if (ret) { goto out; } kdc_log(r->context, config, 4, "WRONG_REALM - %s -> %s", r->cname, fixed_client_name); free(fixed_client_name); r->e_text = NULL; ret = _kdc_fast_mk_error(r, r->rep.padata, r->armor_crypto, &req->req_body, r->error_code = KRB5_KDC_ERR_WRONG_REALM, r->client->principal, r->server_princ, NULL, NULL, r->reply); goto out; } default: { msg = krb5_get_error_message(r->context, ret); kdc_log(r->context, config, 4, "UNKNOWN -- %s: %s", r->cname, msg); krb5_free_error_message(r->context, msg); ret = KRB5KDC_ERR_C_PRINCIPAL_UNKNOWN; kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_UNKNOWN); goto out; } } ret = _kdc_db_fetch(r->context, config, r->server_princ, HDB_F_GET_SERVER | HDB_F_DELAY_NEW_KEYS | flags | (is_tgs ? HDB_F_GET_KRBTGT : 0), NULL, &r->serverdb, &r->server); switch (ret) { case 0: /* Success */ break; case HDB_ERR_NOT_FOUND_HERE: kdc_log(r->context, config, 5, "target %s does not have secrets at this KDC, need to proxy", r->sname); goto out; default: msg = krb5_get_error_message(r->context, ret); kdc_log(r->context, config, 4, "UNKNOWN -- %s: %s", r->sname, msg); krb5_free_error_message(r->context, msg); ret = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN; goto out; } /* * This has to be here (not later), because we need to have r->sessionetype * set prior to calling pa_pkinit_validate(), which in turn calls * _kdc_pk_mk_pa_reply(), during padata validation. */ /* * Select an enctype for the to-be-issued ticket's session key using the * intersection of the client's requested enctypes and the server's (like a * root krbtgt, but not necessarily) etypes from its HDB entry. */ ret = _kdc_find_session_etype(r, b->etype.val, b->etype.len, r->server, &r->sessionetype); if (ret) { kdc_log(r->context, config, 4, "Client (%s) from %s has no common enctypes with KDC " "to use for the session key", r->cname, from); goto out; } /* * Pre-auth processing */ if(req->padata){ unsigned int n; log_patypes(r, req->padata); /* Check if preauth matching */ for (n = 0; !found_pa && n < sizeof(pat) / sizeof(pat[0]); n++) { if (pat[n].validate == NULL) continue; if (r->armor_crypto == NULL && (pat[n].flags & PA_REQ_FAST)) continue; kdc_log(r->context, config, 5, "Looking for %s pa-data -- %s", pat[n].name, r->cname); i = 0; pa = _kdc_find_padata(req, &i, pat[n].type); if (pa) { if (r->client->flags.synthetic && !(pat[n].flags & PA_SYNTHETIC_OK)) { kdc_log(r->context, config, 4, "UNKNOWN -- %s", r->cname); ret = KRB5KDC_ERR_C_PRINCIPAL_UNKNOWN; goto out; } kdc_audit_addkv((kdc_request_t)r, KDC_AUDIT_VIS, "pa", "%s", pat[n].name); ret = pat[n].validate(r, pa); if (ret != 0) { krb5_error_code ret2; Key *ckey = NULL; krb5_boolean default_salt; if (ret != KRB5_KDC_ERR_MORE_PREAUTH_DATA_REQUIRED && !kdc_audit_getkv((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT)) kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_PREAUTH_FAILED); /* * If there is a client key, send ETYPE_INFO{,2} */ ret2 = _kdc_find_etype(r, KFE_IS_PREAUTH|KFE_USE_CLIENT, b->etype.val, b->etype.len, NULL, &ckey, &default_salt); if (ret2 == 0) { ret2 = get_pa_etype_info_both(r->context, config, &b->etype, r->rep.padata, ckey, !default_salt); if (ret2 != 0) ret = ret2; } goto out; } if (!kdc_audit_getkv((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT)) kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_PREAUTH_SUCCEEDED); kdc_log(r->context, config, 4, "%s pre-authentication succeeded -- %s", pat[n].name, r->cname); found_pa = 1; r->pa_used = &pat[n]; r->et.flags.pre_authent = 1; } } } if (found_pa == 0) { Key *ckey = NULL; size_t n; krb5_boolean default_salt; if (r->client->flags.synthetic) { kdc_log(r->context, config, 4, "UNKNOWN -- %s", r->cname); ret = KRB5KDC_ERR_C_PRINCIPAL_UNKNOWN; goto out; } for (n = 0; n < sizeof(pat) / sizeof(pat[0]); n++) { if ((pat[n].flags & PA_ANNOUNCE) == 0) continue; if (!r->armor_crypto && (pat[n].flags & PA_REQ_FAST)) continue; if (pat[n].type == KRB5_PADATA_ENC_TIMESTAMP) { if (r->armor_crypto && !r->config->enable_armored_pa_enc_timestamp) continue; if (!r->armor_crypto && !r->config->enable_unarmored_pa_enc_timestamp) continue; } ret = krb5_padata_add(r->context, r->rep.padata, pat[n].type, NULL, 0); if (ret) goto out; } /* * If there is a client key, send ETYPE_INFO{,2} */ ret = _kdc_find_etype(r, KFE_IS_PREAUTH|KFE_USE_CLIENT, b->etype.val, b->etype.len, NULL, &ckey, &default_salt); if (ret == 0) { ret = get_pa_etype_info_both(r->context, config, &b->etype, r->rep.padata, ckey, !default_salt); if (ret) goto out; } /* * send requre preauth is its required or anon is requested, * anon is today only allowed via preauth mechanisms. */ if (require_preauth_p(r) || _kdc_is_anon_request(&r->req)) { ret = KRB5KDC_ERR_PREAUTH_REQUIRED; _kdc_set_e_text(r, "Need to use PA-ENC-TIMESTAMP/PA-PK-AS-REQ"); goto out; } if (ckey == NULL) { ret = KRB5KDC_ERR_CLIENT_NOTYET; _kdc_set_e_text(r, "Doesn't have a client key available"); goto out; } krb5_free_keyblock_contents(r->context, &r->reply_key); ret = krb5_copy_keyblock_contents(r->context, &ckey->key, &r->reply_key); if (ret) goto out; } r->canon_client_princ = r->client->principal; /* * Verify flags after the user been required to prove its identity * with in a preauth mech. */ ret = _kdc_check_access(r); if(ret) goto out; if (_kdc_is_anon_request(&r->req)) { ret = _kdc_check_anon_policy(r); if (ret) { _kdc_set_e_text(r, "Anonymous ticket requests are disabled"); goto out; } r->et.flags.anonymous = 1; } kdc_audit_setkv_number((kdc_request_t)r, KDC_REQUEST_KV_AUTH_EVENT, KDC_AUTH_EVENT_CLIENT_AUTHORIZED); /* * Select the best encryption type for the KDC with out regard to * the client since the client never needs to read that data. */ ret = _kdc_get_preferred_key(r->context, config, r->server, r->sname, &setype, &skey); if(ret) goto out; /* If server is not krbtgt, fetch local krbtgt key for signing authdata */ if (is_tgs) { krbtgt_key = skey; } else { ret = get_local_tgs(r->context, config, r->server_princ->realm, &r->krbtgtdb, &r->krbtgt); if (ret) goto out; ret = _kdc_get_preferred_key(r->context, config, r->krbtgt, r->server_princ->realm, NULL, &krbtgt_key); if (ret) goto out; } if(f.renew || f.validate || f.proxy || f.forwarded || f.enc_tkt_in_skey) { ret = KRB5KDC_ERR_BADOPTION; _kdc_set_e_text(r, "Bad KDC options"); goto out; } /* * Build reply */ rep->pvno = 5; rep->msg_type = krb_as_rep; if (!config->historical_anon_realm && _kdc_is_anonymous(r->context, r->client_princ)) { Realm anon_realm = KRB5_ANON_REALM; ret = copy_Realm(&anon_realm, &rep->crealm); } else if (f.canonicalize || r->client->flags.force_canonicalize) ret = copy_Realm(&r->canon_client_princ->realm, &rep->crealm); else ret = copy_Realm(&r->client_princ->realm, &rep->crealm); if (ret) goto out; if (r->et.flags.anonymous) ret = _kdc_make_anonymous_principalname(&rep->cname); else if (f.canonicalize || r->client->flags.force_canonicalize) ret = _krb5_principal2principalname(&rep->cname, r->canon_client_princ); else ret = _krb5_principal2principalname(&rep->cname, r->client_princ); if (ret) goto out; rep->ticket.tkt_vno = 5; if (f.canonicalize || r->server->flags.force_canonicalize) ret = copy_Realm(&r->server->principal->realm, &rep->ticket.realm); else ret = copy_Realm(&r->server_princ->realm, &rep->ticket.realm); if (ret) goto out; if (f.canonicalize || r->server->flags.force_canonicalize) _krb5_principal2principalname(&rep->ticket.sname, r->server->principal); else _krb5_principal2principalname(&rep->ticket.sname, r->server_princ); /* java 1.6 expects the name to be the same type, lets allow that * uncomplicated name-types, when f.canonicalize is not set (to * match Windows Server 1709). */ #define CNT(sp,t) (((sp)->sname->name_type) == KRB5_NT_##t) if (!f.canonicalize && (CNT(b, UNKNOWN) || CNT(b, PRINCIPAL) || CNT(b, SRV_INST) || CNT(b, SRV_HST) || CNT(b, SRV_XHST))) { rep->ticket.sname.name_type = b->sname->name_type; } #undef CNT r->et.flags.initial = 1; if(r->client->flags.forwardable && r->server->flags.forwardable) r->et.flags.forwardable = f.forwardable; if(r->client->flags.proxiable && r->server->flags.proxiable) r->et.flags.proxiable = f.proxiable; else if (f.proxiable) { _kdc_set_e_text(r, "Ticket may not be proxiable"); ret = KRB5KDC_ERR_POLICY; goto out; } if(r->client->flags.postdate && r->server->flags.postdate) r->et.flags.may_postdate = f.allow_postdate; else if (f.allow_postdate){ _kdc_set_e_text(r, "Ticket may not be postdate"); ret = KRB5KDC_ERR_POLICY; goto out; } if (b->addresses) kdc_audit_addaddrs((kdc_request_t)r, b->addresses, "reqaddrs"); /* check for valid set of addresses */ if (!_kdc_check_addresses(r, b->addresses, r->addr)) { if (r->config->warn_ticket_addresses) { kdc_audit_setkv_bool((kdc_request_t)r, "wrongaddr", TRUE); } else { _kdc_set_e_text(r, "Request from wrong address"); ret = KRB5KRB_AP_ERR_BADADDR; goto out; } } ret = copy_PrincipalName(&rep->cname, &r->et.cname); if (ret) goto out; ret = copy_Realm(&rep->crealm, &r->et.crealm); if (ret) goto out; { time_t start; time_t t; start = r->et.authtime = kdc_time; if(f.postdated && req->req_body.from){ ALLOC(r->et.starttime); start = *r->et.starttime = *req->req_body.from; r->et.flags.invalid = 1; r->et.flags.postdated = 1; /* XXX ??? */ } _kdc_fix_time(&b->till); t = *b->till; /* be careful not overflowing */ /* * Pre-auth can override r->client->max_life if configured. * * See pre-auth methods, specifically PKINIT, which can get or derive * this from the client's certificate. */ if (r->pa_max_life > 0) t = rk_time_add(start, min(rk_time_sub(t, start), r->pa_max_life)); else if (r->client->max_life && *r->client->max_life) t = rk_time_add(start, min(rk_time_sub(t, start), *r->client->max_life)); if (r->server->max_life && *r->server->max_life) t = rk_time_add(start, min(rk_time_sub(t, start), *r->server->max_life)); /* Pre-auth can bound endtime as well */ if (r->pa_endtime > 0) t = rk_time_add(start, min(rk_time_sub(t, start), r->pa_endtime)); #if 0 t = min(t, rk_time_add(start, realm->max_life)); #endif r->et.endtime = t; if(f.renewable_ok && r->et.endtime < *b->till){ f.renewable = 1; if(b->rtime == NULL){ ALLOC(b->rtime); *b->rtime = 0; } if(*b->rtime < *b->till) *b->rtime = *b->till; } if(f.renewable && b->rtime){ t = *b->rtime; if(t == 0) t = MAX_TIME; if(r->client->max_renew && *r->client->max_renew) t = rk_time_add(start, min(rk_time_sub(t, start), *r->client->max_renew)); if(r->server->max_renew && *r->server->max_renew) t = rk_time_add(start, min(rk_time_sub(t, start), *r->server->max_renew)); #if 0 t = min(t, rk_time_add(start, realm->max_renew)); #endif ALLOC(r->et.renew_till); *r->et.renew_till = t; r->et.flags.renewable = 1; } } if(b->addresses){ ALLOC(r->et.caddr); copy_HostAddresses(b->addresses, r->et.caddr); } r->et.transited.tr_type = domain_X500_Compress; krb5_data_zero(&r->et.transited.contents); /* The MIT ASN.1 library (obviously) doesn't tell lengths encoded * as 0 and as 0x80 (meaning indefinite length) apart, and is thus * incapable of correctly decoding SEQUENCE OF's of zero length. * * To fix this, always send at least one no-op last_req * * If there's a pw_end or valid_end we will use that, * otherwise just a dummy lr. */ r->ek.last_req.val = malloc(2 * sizeof(*r->ek.last_req.val)); if (r->ek.last_req.val == NULL) { ret = ENOMEM; goto out; } r->ek.last_req.len = 0; if (r->client->pw_end && (config->kdc_warn_pwexpire == 0 || kdc_time + config->kdc_warn_pwexpire >= *r->client->pw_end)) { r->ek.last_req.val[r->ek.last_req.len].lr_type = LR_PW_EXPTIME; r->ek.last_req.val[r->ek.last_req.len].lr_value = *r->client->pw_end; ++r->ek.last_req.len; } if (r->client->valid_end) { r->ek.last_req.val[r->ek.last_req.len].lr_type = LR_ACCT_EXPTIME; r->ek.last_req.val[r->ek.last_req.len].lr_value = *r->client->valid_end; ++r->ek.last_req.len; } if (r->ek.last_req.len == 0) { r->ek.last_req.val[r->ek.last_req.len].lr_type = LR_NONE; r->ek.last_req.val[r->ek.last_req.len].lr_value = 0; ++r->ek.last_req.len; } r->ek.nonce = b->nonce; if (r->client->valid_end || r->client->pw_end) { ALLOC(r->ek.key_expiration); if (r->client->valid_end) { if (r->client->pw_end) *r->ek.key_expiration = min(*r->client->valid_end, *r->client->pw_end); else *r->ek.key_expiration = *r->client->valid_end; } else *r->ek.key_expiration = *r->client->pw_end; } else r->ek.key_expiration = NULL; r->ek.flags = r->et.flags; r->ek.authtime = r->et.authtime; if (r->et.starttime) { ALLOC(r->ek.starttime); *r->ek.starttime = *r->et.starttime; } r->ek.endtime = r->et.endtime; if (r->et.renew_till) { ALLOC(r->ek.renew_till); *r->ek.renew_till = *r->et.renew_till; } ret = copy_Realm(&rep->ticket.realm, &r->ek.srealm); if (ret) goto out; ret = copy_PrincipalName(&rep->ticket.sname, &r->ek.sname); if (ret) goto out; if(r->et.caddr){ ALLOC(r->ek.caddr); copy_HostAddresses(r->et.caddr, r->ek.caddr); } /* * Check and session and reply keys */ if (r->session_key.keytype == ETYPE_NULL) { ret = krb5_generate_random_keyblock(r->context, r->sessionetype, &r->session_key); if (ret) goto out; } if (r->reply_key.keytype == ETYPE_NULL) { _kdc_set_e_text(r, "Client have no reply key"); ret = KRB5KDC_ERR_CLIENT_NOTYET; goto out; } ret = copy_EncryptionKey(&r->session_key, &r->et.key); if (ret) goto out; ret = copy_EncryptionKey(&r->session_key, &r->ek.key); if (ret) goto out; /* Add the PAC */ if (!r->et.flags.anonymous) { ret = generate_pac(r, skey, krbtgt_key, is_tgs); if (ret) goto out; } if (r->client->flags.synthetic) { ret = add_synthetic_princ_ad(r); if (ret) goto out; } _kdc_log_timestamp(r, "AS-REQ", r->et.authtime, r->et.starttime, r->et.endtime, r->et.renew_till); _log_astgs_req(r, setype); /* * We always say we support FAST/enc-pa-rep */ r->et.flags.enc_pa_rep = r->ek.flags.enc_pa_rep = 1; /* * update reply-key with strengthen-key */ ret = _kdc_fast_strengthen_reply_key(r); if (ret) goto out; /* * Add REQ_ENC_PA_REP if client supports it */ i = 0; pa = _kdc_find_padata(req, &i, KRB5_PADATA_REQ_ENC_PA_REP); if (pa) { ret = add_enc_pa_rep(r); if (ret) { msg = krb5_get_error_message(r->context, ret); _kdc_r_log(r, 4, "add_enc_pa_rep failed: %s: %d", msg, ret); krb5_free_error_message(r->context, msg); goto out; } } /* * Last chance for plugins to update reply */ ret = _kdc_finalize_reply(r); if (ret) goto out; /* * Don't send kvno from client entry if the pre-authentication * mechanism replaced the reply key. */ ret = _kdc_encode_reply(r->context, config, r, req->req_body.nonce, setype, r->server->kvno, &skey->key, pa_used_flag_isset(r, PA_REPLACE_REPLY_KEY) ? 0 : r->client->kvno, 0, r->reply); if (ret) goto out; /* * Check if message too large */ if (r->datagram_reply && r->reply->length > config->max_datagram_reply_length) { krb5_data_free(r->reply); ret = KRB5KRB_ERR_RESPONSE_TOO_BIG; _kdc_set_e_text(r, "Reply packet too large"); } out: r->error_code = ret; { krb5_error_code ret2 = _kdc_audit_request(r); if (ret2) { krb5_data_free(r->reply); ret = ret2; } } /* * In case of a non proxy error, build an error message. */ if (ret != 0 && ret != HDB_ERR_NOT_FOUND_HERE && r->reply->length == 0) { kdc_log(r->context, config, 5, "as-req: sending error: %d to client", ret); ret = _kdc_fast_mk_error(r, r->rep.padata, r->armor_crypto, &req->req_body, r->error_code, r->client_princ, r->server_princ, NULL, NULL, r->reply); } if (r->pa_used && r->pa_used->cleanup) r->pa_used->cleanup(r); free_AS_REP(&r->rep); free_EncTicketPart(&r->et); free_EncKDCRepPart(&r->ek); _kdc_free_fast_state(&r->fast); if (r->client_princ) { krb5_free_principal(r->context, r->client_princ); r->client_princ = NULL; } if (r->server_princ){ krb5_free_principal(r->context, r->server_princ); r->server_princ = NULL; } if (r->client) _kdc_free_ent(r->context, r->clientdb, r->client); if (r->server) _kdc_free_ent(r->context, r->serverdb, r->server); if (r->krbtgt) _kdc_free_ent(r->context, r->krbtgtdb, r->krbtgt); if (r->armor_crypto) { krb5_crypto_destroy(r->context, r->armor_crypto); r->armor_crypto = NULL; } if (r->armor_ticket) krb5_free_ticket(r->context, r->armor_ticket); if (r->armor_server) _kdc_free_ent(r->context, r->armor_serverdb, r->armor_server); krb5_free_keyblock_contents(r->context, &r->reply_key); krb5_free_keyblock_contents(r->context, &r->session_key); krb5_free_keyblock_contents(r->context, &r->strengthen_key); krb5_pac_free(r->context, r->pac); return ret; }