/* * COPYRIGHT (C) 2006,2007 * THE REGENTS OF THE UNIVERSITY OF MICHIGAN * ALL RIGHTS RESERVED * * Permission is granted to use, copy, create derivative works * and redistribute this software and such derivative works * for any purpose, so long as the name of The University of * Michigan is not used in any advertising or publicity * pertaining to the use of distribution of this software * without specific, written prior authorization. If the * above copyright notice or any other identification of the * University of Michigan is included in any copy of any * portion of this software, then the disclaimer below must * also be included. * * THIS SOFTWARE IS PROVIDED AS IS, WITHOUT REPRESENTATION * FROM THE UNIVERSITY OF MICHIGAN AS TO ITS FITNESS FOR ANY * PURPOSE, AND WITHOUT WARRANTY BY THE UNIVERSITY OF * MICHIGAN OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING * WITHOUT LIMITATION THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE * REGENTS OF THE UNIVERSITY OF MICHIGAN SHALL NOT BE LIABLE * FOR ANY DAMAGES, INCLUDING SPECIAL, INDIRECT, INCIDENTAL, OR * CONSEQUENTIAL DAMAGES, WITH RESPECT TO ANY CLAIM ARISING * OUT OF OR IN CONNECTION WITH THE USE OF THE SOFTWARE, EVEN * IF IT HAS BEEN OR IS HEREAFTER ADVISED OF THE POSSIBILITY OF * SUCH DAMAGES. */ #include #include #include #include #include "pkinit.h" static krb5_error_code pkinit_server_get_edata(krb5_context context, krb5_kdc_req * request, struct _krb5_db_entry_new * client, struct _krb5_db_entry_new * server, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, krb5_pa_data * data); static krb5_error_code pkinit_server_verify_padata(krb5_context context, struct _krb5_db_entry_new * client, krb5_data *req_pkt, krb5_kdc_req * request, krb5_enc_tkt_part * enc_tkt_reply, krb5_pa_data * data, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, void **pa_request_context, krb5_data **e_data, krb5_authdata ***authz_data); static krb5_error_code pkinit_server_return_padata(krb5_context context, krb5_pa_data * padata, struct _krb5_db_entry_new * client, krb5_data *req_pkt, krb5_kdc_req * request, krb5_kdc_rep * reply, struct _krb5_key_data * client_key, krb5_keyblock * encrypting_key, krb5_pa_data ** send_pa, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, void **pa_request_context); static int pkinit_server_get_flags (krb5_context kcontext, krb5_preauthtype patype); static krb5_error_code pkinit_init_kdc_req_context (krb5_context, void **blob); static void pkinit_fini_kdc_req_context (krb5_context context, void *blob); static int pkinit_server_plugin_init_realm (krb5_context context, const char *realmname, pkinit_kdc_context *pplgctx); static void pkinit_server_plugin_fini_realm (krb5_context context, pkinit_kdc_context plgctx); static int pkinit_server_plugin_init (krb5_context context, void **blob, const char **realmnames); static void pkinit_server_plugin_fini (krb5_context context, void *blob); static pkinit_kdc_context pkinit_find_realm_context (krb5_context context, void *pa_plugin_context, krb5_principal princ); static krb5_error_code pkinit_create_edata(krb5_context context, pkinit_plg_crypto_context plg_cryptoctx, pkinit_req_crypto_context req_cryptoctx, pkinit_identity_crypto_context id_cryptoctx, pkinit_plg_opts *opts, krb5_error_code err_code, krb5_data **e_data) { krb5_error_code retval = KRB5KRB_ERR_GENERIC; pkiDebug("pkinit_create_edata: creating edata for error %d (%s)\n", err_code, error_message(err_code)); switch(err_code) { case KRB5KDC_ERR_CANT_VERIFY_CERTIFICATE: retval = pkinit_create_td_trusted_certifiers(context, plg_cryptoctx, req_cryptoctx, id_cryptoctx, e_data); break; case KRB5KDC_ERR_DH_KEY_PARAMETERS_NOT_ACCEPTED: retval = pkinit_create_td_dh_parameters(context, plg_cryptoctx, req_cryptoctx, id_cryptoctx, opts, e_data); break; case KRB5KDC_ERR_INVALID_CERTIFICATE: case KRB5KDC_ERR_REVOKED_CERTIFICATE: retval = pkinit_create_td_invalid_certificate(context, plg_cryptoctx, req_cryptoctx, id_cryptoctx, e_data); break; default: pkiDebug("no edata needed for error %d (%s)\n", err_code, error_message(err_code)); retval = 0; goto cleanup; } cleanup: return retval; } /* ARGSUSED */ static krb5_error_code pkinit_server_get_edata(krb5_context context, krb5_kdc_req * request, struct _krb5_db_entry_new * client, struct _krb5_db_entry_new * server, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, krb5_pa_data * data) { krb5_error_code retval = 0; pkinit_kdc_context plgctx = NULL; pkiDebug("pkinit_server_get_edata: entered!\n"); /* * If we don't have a realm context for the given realm, * don't tell the client that we support pkinit! */ plgctx = pkinit_find_realm_context(context, pa_plugin_context, request->server); if (plgctx == NULL) retval = EINVAL; return retval; } static krb5_error_code verify_client_san(krb5_context context, pkinit_kdc_context plgctx, pkinit_kdc_req_context reqctx, krb5_principal client, int *valid_san) { krb5_error_code retval; krb5_principal *princs = NULL; krb5_principal *upns = NULL; int i; #ifdef DEBUG_SAN_INFO char *client_string = NULL, *san_string; #endif retval = crypto_retrieve_cert_sans(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, &princs, plgctx->opts->allow_upn ? &upns : NULL, NULL); if (retval) { pkiDebug("%s: error from retrieve_certificate_sans()\n", __FUNCTION__); retval = KRB5KDC_ERR_CLIENT_NAME_MISMATCH; goto out; } /* XXX Verify this is consistent with client side XXX */ #if 0 retval = call_san_checking_plugins(context, plgctx, reqctx, princs, upns, NULL, &plugin_decision, &ignore); pkiDebug("%s: call_san_checking_plugins() returned retval %d\n", __FUNCTION__); if (retval) { retval = KRB5KDC_ERR_CLIENT_NAME_MISMATCH; goto cleanup; } pkiDebug("%s: call_san_checking_plugins() returned decision %d\n", __FUNCTION__, plugin_decision); if (plugin_decision != NO_DECISION) { retval = plugin_decision; goto out; } #endif #ifdef DEBUG_SAN_INFO krb5_unparse_name(context, client, &client_string); #endif pkiDebug("%s: Checking pkinit sans\n", __FUNCTION__); for (i = 0; princs != NULL && princs[i] != NULL; i++) { #ifdef DEBUG_SAN_INFO krb5_unparse_name(context, princs[i], &san_string); pkiDebug("%s: Comparing client '%s' to pkinit san value '%s'\n", __FUNCTION__, client_string, san_string); krb5_free_unparsed_name(context, san_string); #endif if (krb5_principal_compare(context, princs[i], client)) { pkiDebug("%s: pkinit san match found\n", __FUNCTION__); *valid_san = 1; retval = 0; goto out; } } pkiDebug("%s: no pkinit san match found\n", __FUNCTION__); /* * XXX if cert has names but none match, should we * be returning KRB5KDC_ERR_CLIENT_NAME_MISMATCH here? */ if (upns == NULL) { pkiDebug("%s: no upn sans (or we wouldn't accept them anyway)\n", __FUNCTION__); retval = KRB5KDC_ERR_CLIENT_NAME_MISMATCH; goto out; } pkiDebug("%s: Checking upn sans\n", __FUNCTION__); for (i = 0; upns[i] != NULL; i++) { #ifdef DEBUG_SAN_INFO krb5_unparse_name(context, upns[i], &san_string); pkiDebug("%s: Comparing client '%s' to upn san value '%s'\n", __FUNCTION__, client_string, san_string); krb5_free_unparsed_name(context, san_string); #endif if (krb5_principal_compare(context, upns[i], client)) { pkiDebug("%s: upn san match found\n", __FUNCTION__); *valid_san = 1; retval = 0; goto out; } } pkiDebug("%s: no upn san match found\n", __FUNCTION__); /* We found no match */ if (princs != NULL || upns != NULL) { *valid_san = 0; /* XXX ??? If there was one or more name in the cert, but * none matched the client name, then return mismatch? */ retval = KRB5KDC_ERR_CLIENT_NAME_MISMATCH; } retval = 0; out: if (princs != NULL) { for (i = 0; princs[i] != NULL; i++) krb5_free_principal(context, princs[i]); free(princs); } if (upns != NULL) { for (i = 0; upns[i] != NULL; i++) krb5_free_principal(context, upns[i]); free(upns); } #ifdef DEBUG_SAN_INFO if (client_string != NULL) krb5_free_unparsed_name(context, client_string); #endif pkiDebug("%s: returning retval %d, valid_san %d\n", __FUNCTION__, retval, *valid_san); return retval; } static krb5_error_code verify_client_eku(krb5_context context, pkinit_kdc_context plgctx, pkinit_kdc_req_context reqctx, int *eku_accepted) { krb5_error_code retval; *eku_accepted = 0; if (plgctx->opts->require_eku == 0) { pkiDebug("%s: configuration requests no EKU checking\n", __FUNCTION__); *eku_accepted = 1; retval = 0; goto out; } retval = crypto_check_cert_eku(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, 0, /* kdc cert */ plgctx->opts->accept_secondary_eku, eku_accepted); if (retval) { pkiDebug("%s: Error from crypto_check_cert_eku %d (%s)\n", __FUNCTION__, retval, error_message(retval)); goto out; } out: pkiDebug("%s: returning retval %d, eku_accepted %d\n", __FUNCTION__, retval, *eku_accepted); return retval; } /* ARGSUSED */ static krb5_error_code pkinit_server_verify_padata(krb5_context context, struct _krb5_db_entry_new * client, krb5_data *req_pkt, krb5_kdc_req * request, krb5_enc_tkt_part * enc_tkt_reply, krb5_pa_data * data, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, void **pa_request_context, krb5_data **e_data, krb5_authdata ***authz_data) { krb5_error_code retval = 0; krb5_octet_data authp_data = {0, 0, NULL}, krb5_authz = {0, 0, NULL}; krb5_data *encoded_pkinit_authz_data = NULL; krb5_pa_pk_as_req *reqp = NULL; krb5_pa_pk_as_req_draft9 *reqp9 = NULL; krb5_auth_pack *auth_pack = NULL; krb5_auth_pack_draft9 *auth_pack9 = NULL; pkinit_kdc_context plgctx = NULL; pkinit_kdc_req_context reqctx; /* Solaris Kerberos: set but not used */ #if 0 krb5_preauthtype pa_type; #endif krb5_checksum cksum = {0, 0, 0, NULL}; krb5_data *der_req = NULL; int valid_eku = 0, valid_san = 0; krb5_authdata **my_authz_data = NULL, *pkinit_authz_data = NULL; krb5_kdc_req *tmp_as_req = NULL; krb5_data k5data; pkiDebug("pkinit_verify_padata: entered!\n"); /* Solaris Kerberos */ if (data == NULL || data->length == 0 || data->contents == NULL) return 0; if (pa_plugin_context == NULL || e_data == NULL) return EINVAL; plgctx = pkinit_find_realm_context(context, pa_plugin_context, request->server); if (plgctx == NULL) return 0; #ifdef DEBUG_ASN1 print_buffer_bin(data->contents, data->length, "/tmp/kdc_as_req"); #endif /* create a per-request context */ retval = pkinit_init_kdc_req_context(context, (void **)&reqctx); if (retval) goto cleanup; reqctx->pa_type = data->pa_type; PADATA_TO_KRB5DATA(data, &k5data); switch ((int)data->pa_type) { case KRB5_PADATA_PK_AS_REQ: pkiDebug("processing KRB5_PADATA_PK_AS_REQ\n"); retval = k5int_decode_krb5_pa_pk_as_req(&k5data, &reqp); if (retval) { pkiDebug("decode_krb5_pa_pk_as_req failed\n"); goto cleanup; } #ifdef DEBUG_ASN1 print_buffer_bin(reqp->signedAuthPack.data, reqp->signedAuthPack.length, "/tmp/kdc_signed_data"); #endif retval = cms_signeddata_verify(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, CMS_SIGN_CLIENT, plgctx->opts->require_crl_checking, reqp->signedAuthPack.data, reqp->signedAuthPack.length, &authp_data.data, &authp_data.length, &krb5_authz.data, &krb5_authz.length); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: pkiDebug("processing KRB5_PADATA_PK_AS_REQ_OLD\n"); retval = k5int_decode_krb5_pa_pk_as_req_draft9(&k5data, &reqp9); if (retval) { pkiDebug("decode_krb5_pa_pk_as_req_draft9 failed\n"); goto cleanup; } #ifdef DEBUG_ASN1 print_buffer_bin(reqp9->signedAuthPack.data, reqp9->signedAuthPack.length, "/tmp/kdc_signed_data_draft9"); #endif retval = cms_signeddata_verify(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, CMS_SIGN_DRAFT9, plgctx->opts->require_crl_checking, reqp9->signedAuthPack.data, reqp9->signedAuthPack.length, &authp_data.data, &authp_data.length, &krb5_authz.data, &krb5_authz.length); break; default: pkiDebug("unrecognized pa_type = %d\n", data->pa_type); retval = EINVAL; goto cleanup; } if (retval) { pkiDebug("pkcs7_signeddata_verify failed\n"); goto cleanup; } retval = verify_client_san(context, plgctx, reqctx, request->client, &valid_san); if (retval) goto cleanup; if (!valid_san) { pkiDebug("%s: did not find an acceptable SAN in user certificate\n", __FUNCTION__); retval = KRB5KDC_ERR_CLIENT_NAME_MISMATCH; goto cleanup; } retval = verify_client_eku(context, plgctx, reqctx, &valid_eku); if (retval) goto cleanup; if (!valid_eku) { pkiDebug("%s: did not find an acceptable EKU in user certificate\n", __FUNCTION__); retval = KRB5KDC_ERR_INCONSISTENT_KEY_PURPOSE; goto cleanup; } #ifdef DEBUG_ASN1 print_buffer_bin(authp_data.data, authp_data.length, "/tmp/kdc_auth_pack"); #endif OCTETDATA_TO_KRB5DATA(&authp_data, &k5data); switch ((int)data->pa_type) { case KRB5_PADATA_PK_AS_REQ: retval = k5int_decode_krb5_auth_pack(&k5data, &auth_pack); if (retval) { pkiDebug("failed to decode krb5_auth_pack\n"); goto cleanup; } /* check dh parameters */ if (auth_pack->clientPublicValue != NULL) { retval = server_check_dh(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, &auth_pack->clientPublicValue->algorithm.parameters, plgctx->opts->dh_min_bits); if (retval) { pkiDebug("bad dh parameters\n"); goto cleanup; } } /* * The KDC may have modified the request after decoding it. * We need to compute the checksum on the data that * came from the client. Therefore, we use the original * packet contents. */ retval = k5int_decode_krb5_as_req(req_pkt, &tmp_as_req); if (retval) { pkiDebug("decode_krb5_as_req returned %d\n", (int)retval); goto cleanup; } retval = k5int_encode_krb5_kdc_req_body(tmp_as_req, &der_req); if (retval) { pkiDebug("encode_krb5_kdc_req_body returned %d\n", (int) retval); goto cleanup; } retval = krb5_c_make_checksum(context, CKSUMTYPE_NIST_SHA, NULL, 0, der_req, &cksum); if (retval) { pkiDebug("unable to calculate AS REQ checksum\n"); goto cleanup; } if (cksum.length != auth_pack->pkAuthenticator.paChecksum.length || memcmp(cksum.contents, auth_pack->pkAuthenticator.paChecksum.contents, cksum.length)) { pkiDebug("failed to match the checksum\n"); #ifdef DEBUG_CKSUM pkiDebug("calculating checksum on buf size (%d)\n", req_pkt->length); print_buffer(req_pkt->data, req_pkt->length); pkiDebug("received checksum type=%d size=%d ", auth_pack->pkAuthenticator.paChecksum.checksum_type, auth_pack->pkAuthenticator.paChecksum.length); print_buffer(auth_pack->pkAuthenticator.paChecksum.contents, auth_pack->pkAuthenticator.paChecksum.length); pkiDebug("expected checksum type=%d size=%d ", cksum.checksum_type, cksum.length); print_buffer(cksum.contents, cksum.length); #endif retval = KRB5KDC_ERR_PA_CHECKSUM_MUST_BE_INCLUDED; goto cleanup; } /* check if kdcPkId present and match KDC's subjectIdentifier */ if (reqp->kdcPkId.data != NULL) { int valid_kdcPkId = 0; retval = pkinit_check_kdc_pkid(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, reqp->kdcPkId.data, reqp->kdcPkId.length, &valid_kdcPkId); if (retval) goto cleanup; if (!valid_kdcPkId) pkiDebug("kdcPkId in AS_REQ does not match KDC's cert" "RFC says to ignore and proceed\n"); } /* remember the decoded auth_pack for verify_padata routine */ reqctx->rcv_auth_pack = auth_pack; auth_pack = NULL; break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: retval = k5int_decode_krb5_auth_pack_draft9(&k5data, &auth_pack9); if (retval) { pkiDebug("failed to decode krb5_auth_pack_draft9\n"); goto cleanup; } if (auth_pack9->clientPublicValue != NULL) { retval = server_check_dh(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, &auth_pack9->clientPublicValue->algorithm.parameters, plgctx->opts->dh_min_bits); if (retval) { pkiDebug("bad dh parameters\n"); goto cleanup; } } /* remember the decoded auth_pack for verify_padata routine */ reqctx->rcv_auth_pack9 = auth_pack9; auth_pack9 = NULL; break; } /* return authorization data to be included in the ticket */ switch ((int)data->pa_type) { case KRB5_PADATA_PK_AS_REQ: my_authz_data = malloc(2 * sizeof(*my_authz_data)); if (my_authz_data == NULL) { retval = ENOMEM; pkiDebug("Couldn't allocate krb5_authdata ptr array\n"); goto cleanup; } my_authz_data[1] = NULL; my_authz_data[0] = malloc(sizeof(krb5_authdata)); if (my_authz_data[0] == NULL) { retval = ENOMEM; pkiDebug("Couldn't allocate krb5_authdata\n"); free(my_authz_data); goto cleanup; } /* AD-INITIAL-VERIFIED-CAS must be wrapped in AD-IF-RELEVANT */ my_authz_data[0]->magic = KV5M_AUTHDATA; my_authz_data[0]->ad_type = KRB5_AUTHDATA_IF_RELEVANT; /* create an internal AD-INITIAL-VERIFIED-CAS data */ pkinit_authz_data = malloc(sizeof(krb5_authdata)); if (pkinit_authz_data == NULL) { retval = ENOMEM; pkiDebug("Couldn't allocate krb5_authdata\n"); free(my_authz_data[0]); free(my_authz_data); goto cleanup; } pkinit_authz_data->ad_type = KRB5_AUTHDATA_INITIAL_VERIFIED_CAS; /* content of this ad-type contains the certification path with which the client certificate was validated */ pkinit_authz_data->contents = krb5_authz.data; pkinit_authz_data->length = krb5_authz.length; retval = k5int_encode_krb5_authdata_elt(pkinit_authz_data, &encoded_pkinit_authz_data); #ifdef DEBUG_ASN1 print_buffer_bin((unsigned char *)encoded_pkinit_authz_data->data, encoded_pkinit_authz_data->length, "/tmp/kdc_pkinit_authz_data"); #endif free(pkinit_authz_data); if (retval) { pkiDebug("k5int_encode_krb5_authdata_elt failed\n"); free(my_authz_data[0]); free(my_authz_data); goto cleanup; } my_authz_data[0]->contents = (krb5_octet *) encoded_pkinit_authz_data->data; my_authz_data[0]->length = encoded_pkinit_authz_data->length; *authz_data = my_authz_data; pkiDebug("Returning %d bytes of authorization data\n", krb5_authz.length); encoded_pkinit_authz_data->data = NULL; /* Don't free during cleanup*/ free(encoded_pkinit_authz_data); break; default: *authz_data = NULL; } /* remember to set the PREAUTH flag in the reply */ enc_tkt_reply->flags |= TKT_FLG_PRE_AUTH; *pa_request_context = reqctx; reqctx = NULL; cleanup: if (retval && data->pa_type == KRB5_PADATA_PK_AS_REQ) { pkiDebug("pkinit_verify_padata failed: creating e-data\n"); if (pkinit_create_edata(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, plgctx->opts, retval, e_data)) pkiDebug("pkinit_create_edata failed\n"); } switch ((int)data->pa_type) { case KRB5_PADATA_PK_AS_REQ: free_krb5_pa_pk_as_req(&reqp); if (cksum.contents != NULL) free(cksum.contents); if (der_req != NULL) krb5_free_data(context, der_req); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: free_krb5_pa_pk_as_req_draft9(&reqp9); } if (tmp_as_req != NULL) k5int_krb5_free_kdc_req(context, tmp_as_req); if (authp_data.data != NULL) free(authp_data.data); if (krb5_authz.data != NULL) free(krb5_authz.data); if (reqctx != NULL) pkinit_fini_kdc_req_context(context, reqctx); if (auth_pack != NULL) free_krb5_auth_pack(&auth_pack); if (auth_pack9 != NULL) free_krb5_auth_pack_draft9(context, &auth_pack9); return retval; } /* ARGSUSED */ static krb5_error_code pkinit_server_return_padata(krb5_context context, krb5_pa_data * padata, struct _krb5_db_entry_new * client, krb5_data *req_pkt, krb5_kdc_req * request, krb5_kdc_rep * reply, struct _krb5_key_data * client_key, krb5_keyblock * encrypting_key, krb5_pa_data ** send_pa, preauth_get_entry_data_proc server_get_entry_data, void *pa_plugin_context, void **pa_request_context) { krb5_error_code retval = 0; krb5_data scratch = {0, 0, NULL}; krb5_pa_pk_as_req *reqp = NULL; krb5_pa_pk_as_req_draft9 *reqp9 = NULL; int i = 0; unsigned char *subjectPublicKey = NULL; unsigned char *dh_pubkey = NULL, *server_key = NULL; unsigned int subjectPublicKey_len = 0; unsigned int server_key_len = 0, dh_pubkey_len = 0; krb5_kdc_dh_key_info dhkey_info; krb5_data *encoded_dhkey_info = NULL; krb5_pa_pk_as_rep *rep = NULL; krb5_pa_pk_as_rep_draft9 *rep9 = NULL; krb5_data *out_data = NULL; krb5_enctype enctype = -1; krb5_reply_key_pack *key_pack = NULL; krb5_reply_key_pack_draft9 *key_pack9 = NULL; krb5_data *encoded_key_pack = NULL; unsigned int num_types; krb5_cksumtype *cksum_types = NULL; pkinit_kdc_context plgctx; pkinit_kdc_req_context reqctx; int fixed_keypack = 0; *send_pa = NULL; /* Solaris Kerberos */ if (padata == NULL || padata->length == 0 || padata->contents == NULL) return 0; if (pa_request_context == NULL || *pa_request_context == NULL) { pkiDebug("missing request context \n"); return EINVAL; } plgctx = pkinit_find_realm_context(context, pa_plugin_context, request->server); if (plgctx == NULL) { pkiDebug("Unable to locate correct realm context\n"); return ENOENT; } pkiDebug("pkinit_return_padata: entered!\n"); reqctx = (pkinit_kdc_req_context)*pa_request_context; if (encrypting_key->contents) { free(encrypting_key->contents); encrypting_key->length = 0; encrypting_key->contents = NULL; } for(i = 0; i < request->nktypes; i++) { enctype = request->ktype[i]; if (!krb5_c_valid_enctype(enctype)) continue; else { pkiDebug("KDC picked etype = %d\n", enctype); break; } } if (i == request->nktypes) { retval = KRB5KDC_ERR_ETYPE_NOSUPP; goto cleanup; } switch((int)reqctx->pa_type) { case KRB5_PADATA_PK_AS_REQ: init_krb5_pa_pk_as_rep(&rep); if (rep == NULL) { retval = ENOMEM; goto cleanup; } /* let's assume it's RSA. we'll reset it to DH if needed */ rep->choice = choice_pa_pk_as_rep_encKeyPack; break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: init_krb5_pa_pk_as_rep_draft9(&rep9); if (rep9 == NULL) { retval = ENOMEM; goto cleanup; } rep9->choice = choice_pa_pk_as_rep_draft9_encKeyPack; break; default: retval = KRB5KDC_ERR_PREAUTH_FAILED; goto cleanup; } if (reqctx->rcv_auth_pack != NULL && reqctx->rcv_auth_pack->clientPublicValue != NULL) { subjectPublicKey = reqctx->rcv_auth_pack->clientPublicValue->subjectPublicKey.data; subjectPublicKey_len = reqctx->rcv_auth_pack->clientPublicValue->subjectPublicKey.length; rep->choice = choice_pa_pk_as_rep_dhInfo; } else if (reqctx->rcv_auth_pack9 != NULL && reqctx->rcv_auth_pack9->clientPublicValue != NULL) { subjectPublicKey = reqctx->rcv_auth_pack9->clientPublicValue->subjectPublicKey.data; subjectPublicKey_len = reqctx->rcv_auth_pack9->clientPublicValue->subjectPublicKey.length; rep9->choice = choice_pa_pk_as_rep_draft9_dhSignedData; } /* if this DH, then process finish computing DH key */ if (((rep != NULL) && (rep->choice == choice_pa_pk_as_rep_dhInfo)) || ((rep9 != NULL) && rep9->choice == choice_pa_pk_as_rep_draft9_dhSignedData)) { pkiDebug("received DH key delivery AS REQ\n"); retval = server_process_dh(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, subjectPublicKey, subjectPublicKey_len, &dh_pubkey, &dh_pubkey_len, &server_key, &server_key_len); if (retval) { pkiDebug("failed to process/create dh paramters\n"); goto cleanup; } } if ((rep9 != NULL && rep9->choice == choice_pa_pk_as_rep_draft9_dhSignedData) || (rep != NULL && rep->choice == choice_pa_pk_as_rep_dhInfo)) { retval = pkinit_octetstring2key(context, enctype, server_key, server_key_len, encrypting_key); if (retval) { pkiDebug("pkinit_octetstring2key failed: %s\n", error_message(retval)); goto cleanup; } dhkey_info.subjectPublicKey.length = dh_pubkey_len; dhkey_info.subjectPublicKey.data = dh_pubkey; dhkey_info.nonce = request->nonce; dhkey_info.dhKeyExpiration = 0; retval = k5int_encode_krb5_kdc_dh_key_info(&dhkey_info, &encoded_dhkey_info); if (retval) { pkiDebug("encode_krb5_kdc_dh_key_info failed\n"); goto cleanup; } #ifdef DEBUG_ASN1 print_buffer_bin((unsigned char *)encoded_dhkey_info->data, encoded_dhkey_info->length, "/tmp/kdc_dh_key_info"); #endif switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: retval = cms_signeddata_create(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, CMS_SIGN_SERVER, 1, (unsigned char *)encoded_dhkey_info->data, encoded_dhkey_info->length, &rep->u.dh_Info.dhSignedData.data, &rep->u.dh_Info.dhSignedData.length); if (retval) { pkiDebug("failed to create pkcs7 signed data\n"); goto cleanup; } break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: retval = cms_signeddata_create(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, CMS_SIGN_DRAFT9, 1, (unsigned char *)encoded_dhkey_info->data, encoded_dhkey_info->length, &rep9->u.dhSignedData.data, &rep9->u.dhSignedData.length); if (retval) { pkiDebug("failed to create pkcs7 signed data\n"); goto cleanup; } break; } } else { pkiDebug("received RSA key delivery AS REQ\n"); retval = krb5_c_make_random_key(context, enctype, encrypting_key); if (retval) { pkiDebug("unable to make a session key\n"); goto cleanup; } /* check if PA_TYPE of 132 is present which means the client is * requesting that a checksum is send back instead of the nonce */ for (i = 0; request->padata[i] != NULL; i++) { pkiDebug("%s: Checking pa_type 0x%08x\n", __FUNCTION__, request->padata[i]->pa_type); if (request->padata[i]->pa_type == 132) fixed_keypack = 1; } pkiDebug("%s: return checksum instead of nonce = %d\n", __FUNCTION__, fixed_keypack); /* if this is an RFC reply or draft9 client requested a checksum * in the reply instead of the nonce, create an RFC-style keypack */ if ((int)padata->pa_type == KRB5_PADATA_PK_AS_REQ || fixed_keypack) { init_krb5_reply_key_pack(&key_pack); if (key_pack == NULL) { retval = ENOMEM; goto cleanup; } /* retrieve checksums for a given enctype of the reply key */ retval = krb5_c_keyed_checksum_types(context, encrypting_key->enctype, &num_types, &cksum_types); if (retval) goto cleanup; /* pick the first of acceptable enctypes for the checksum */ retval = krb5_c_make_checksum(context, cksum_types[0], encrypting_key, KRB5_KEYUSAGE_TGS_REQ_AUTH_CKSUM, req_pkt, &key_pack->asChecksum); if (retval) { pkiDebug("unable to calculate AS REQ checksum\n"); goto cleanup; } #ifdef DEBUG_CKSUM pkiDebug("calculating checksum on buf size = %d\n", req_pkt->length); print_buffer(req_pkt->data, req_pkt->length); pkiDebug("checksum size = %d\n", key_pack->asChecksum.length); print_buffer(key_pack->asChecksum.contents, key_pack->asChecksum.length); pkiDebug("encrypting key (%d)\n", encrypting_key->length); print_buffer(encrypting_key->contents, encrypting_key->length); #endif krb5_copy_keyblock_contents(context, encrypting_key, &key_pack->replyKey); retval = k5int_encode_krb5_reply_key_pack(key_pack, &encoded_key_pack); if (retval) { pkiDebug("failed to encode reply_key_pack\n"); goto cleanup; } } switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: rep->choice = choice_pa_pk_as_rep_encKeyPack; retval = cms_envelopeddata_create(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, padata->pa_type, 1, (unsigned char *)encoded_key_pack->data, encoded_key_pack->length, &rep->u.encKeyPack.data, &rep->u.encKeyPack.length); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: /* if the request is from the broken draft9 client that * expects back a nonce, create it now */ if (!fixed_keypack) { init_krb5_reply_key_pack_draft9(&key_pack9); if (key_pack9 == NULL) { retval = ENOMEM; goto cleanup; } key_pack9->nonce = reqctx->rcv_auth_pack9->pkAuthenticator.nonce; krb5_copy_keyblock_contents(context, encrypting_key, &key_pack9->replyKey); retval = k5int_encode_krb5_reply_key_pack_draft9(key_pack9, &encoded_key_pack); if (retval) { pkiDebug("failed to encode reply_key_pack\n"); goto cleanup; } } rep9->choice = choice_pa_pk_as_rep_draft9_encKeyPack; retval = cms_envelopeddata_create(context, plgctx->cryptoctx, reqctx->cryptoctx, plgctx->idctx, padata->pa_type, 1, (unsigned char *)encoded_key_pack->data, encoded_key_pack->length, &rep9->u.encKeyPack.data, &rep9->u.encKeyPack.length); break; } if (retval) { pkiDebug("failed to create pkcs7 enveloped data: %s\n", error_message(retval)); goto cleanup; } #ifdef DEBUG_ASN1 print_buffer_bin((unsigned char *)encoded_key_pack->data, encoded_key_pack->length, "/tmp/kdc_key_pack"); switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: print_buffer_bin(rep->u.encKeyPack.data, rep->u.encKeyPack.length, "/tmp/kdc_enc_key_pack"); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: print_buffer_bin(rep9->u.encKeyPack.data, rep9->u.encKeyPack.length, "/tmp/kdc_enc_key_pack"); break; } #endif } switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: retval = k5int_encode_krb5_pa_pk_as_rep(rep, &out_data); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: retval = k5int_encode_krb5_pa_pk_as_rep_draft9(rep9, &out_data); break; } if (retval) { pkiDebug("failed to encode AS_REP\n"); goto cleanup; } #ifdef DEBUG_ASN1 if (out_data != NULL) print_buffer_bin((unsigned char *)out_data->data, out_data->length, "/tmp/kdc_as_rep"); #endif *send_pa = (krb5_pa_data *) malloc(sizeof(krb5_pa_data)); if (*send_pa == NULL) { retval = ENOMEM; free(out_data->data); free(out_data); out_data = NULL; goto cleanup; } (*send_pa)->magic = KV5M_PA_DATA; switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: (*send_pa)->pa_type = KRB5_PADATA_PK_AS_REP; break; case KRB5_PADATA_PK_AS_REQ_OLD: case KRB5_PADATA_PK_AS_REP_OLD: (*send_pa)->pa_type = KRB5_PADATA_PK_AS_REP_OLD; break; } (*send_pa)->length = out_data->length; (*send_pa)->contents = (krb5_octet *) out_data->data; cleanup: pkinit_fini_kdc_req_context(context, reqctx); if (scratch.data != NULL) free(scratch.data); if (out_data != NULL) free(out_data); if (encoded_dhkey_info != NULL) krb5_free_data(context, encoded_dhkey_info); if (encoded_key_pack != NULL) krb5_free_data(context, encoded_key_pack); if (dh_pubkey != NULL) free(dh_pubkey); if (server_key != NULL) free(server_key); if (cksum_types != NULL) free(cksum_types); switch ((int)padata->pa_type) { case KRB5_PADATA_PK_AS_REQ: free_krb5_pa_pk_as_req(&reqp); free_krb5_pa_pk_as_rep(&rep); free_krb5_reply_key_pack(&key_pack); break; case KRB5_PADATA_PK_AS_REP_OLD: case KRB5_PADATA_PK_AS_REQ_OLD: free_krb5_pa_pk_as_req_draft9(&reqp9); free_krb5_pa_pk_as_rep_draft9(&rep9); if (!fixed_keypack) free_krb5_reply_key_pack_draft9(&key_pack9); else free_krb5_reply_key_pack(&key_pack); break; } if (retval) pkiDebug("pkinit_verify_padata failure"); return retval; } /* ARGSUSED */ static int pkinit_server_get_flags(krb5_context kcontext, krb5_preauthtype patype) { return PA_SUFFICIENT | PA_REPLACES_KEY; } static krb5_preauthtype supported_server_pa_types[] = { KRB5_PADATA_PK_AS_REQ, KRB5_PADATA_PK_AS_REQ_OLD, KRB5_PADATA_PK_AS_REP_OLD, 0 }; /* ARGSUSED */ static void pkinit_fini_kdc_profile(krb5_context context, pkinit_kdc_context plgctx) { /* * There is nothing currently allocated by pkinit_init_kdc_profile() * which needs to be freed here. */ } static krb5_error_code pkinit_init_kdc_profile(krb5_context context, pkinit_kdc_context plgctx) { krb5_error_code retval; char *eku_string = NULL; pkiDebug("%s: entered for realm %s\n", __FUNCTION__, plgctx->realmname); retval = pkinit_kdcdefault_string(context, plgctx->realmname, "pkinit_identity", &plgctx->idopts->identity); if (retval != 0 || NULL == plgctx->idopts->identity) { retval = EINVAL; krb5_set_error_message(context, retval, "No pkinit_identity supplied for realm %s", plgctx->realmname); goto errout; } retval = pkinit_kdcdefault_strings(context, plgctx->realmname, "pkinit_anchors", &plgctx->idopts->anchors); if (retval != 0 || NULL == plgctx->idopts->anchors) { retval = EINVAL; krb5_set_error_message(context, retval, "No pkinit_anchors supplied for realm %s", plgctx->realmname); goto errout; } /* Solaris Kerberos */ (void) pkinit_kdcdefault_strings(context, plgctx->realmname, "pkinit_pool", &plgctx->idopts->intermediates); (void) pkinit_kdcdefault_strings(context, plgctx->realmname, "pkinit_revoke", &plgctx->idopts->crls); (void) pkinit_kdcdefault_string(context, plgctx->realmname, "pkinit_kdc_ocsp", &plgctx->idopts->ocsp); (void) pkinit_kdcdefault_string(context, plgctx->realmname, "pkinit_mappings_file", &plgctx->idopts->dn_mapping_file); (void) pkinit_kdcdefault_integer(context, plgctx->realmname, "pkinit_dh_min_bits", PKINIT_DEFAULT_DH_MIN_BITS, &plgctx->opts->dh_min_bits); if (plgctx->opts->dh_min_bits < 1024) { pkiDebug("%s: invalid value (%d) for pkinit_dh_min_bits, " "using default value (%d) instead\n", __FUNCTION__, plgctx->opts->dh_min_bits, PKINIT_DEFAULT_DH_MIN_BITS); plgctx->opts->dh_min_bits = PKINIT_DEFAULT_DH_MIN_BITS; } (void) pkinit_kdcdefault_boolean(context, plgctx->realmname, "pkinit_allow_upn", 0, &plgctx->opts->allow_upn); (void) pkinit_kdcdefault_boolean(context, plgctx->realmname, "pkinit_require_crl_checking", 0, &plgctx->opts->require_crl_checking); (void) pkinit_kdcdefault_string(context, plgctx->realmname, "pkinit_eku_checking", &eku_string); if (eku_string != NULL) { if (strcasecmp(eku_string, "kpClientAuth") == 0) { plgctx->opts->require_eku = 1; plgctx->opts->accept_secondary_eku = 0; } else if (strcasecmp(eku_string, "scLogin") == 0) { plgctx->opts->require_eku = 1; plgctx->opts->accept_secondary_eku = 1; } else if (strcasecmp(eku_string, "none") == 0) { plgctx->opts->require_eku = 0; plgctx->opts->accept_secondary_eku = 0; } else { pkiDebug("%s: Invalid value for pkinit_eku_checking: '%s'\n", __FUNCTION__, eku_string); } free(eku_string); } return 0; errout: pkinit_fini_kdc_profile(context, plgctx); return retval; } /* ARGSUSED */ static pkinit_kdc_context pkinit_find_realm_context(krb5_context context, void *pa_plugin_context, krb5_principal princ) { int i; pkinit_kdc_context *realm_contexts = pa_plugin_context; if (pa_plugin_context == NULL) return NULL; for (i = 0; realm_contexts[i] != NULL; i++) { pkinit_kdc_context p = realm_contexts[i]; if ((p->realmname_len == princ->realm.length) && (strncmp(p->realmname, princ->realm.data, p->realmname_len) == 0)) { pkiDebug("%s: returning context at %p for realm '%s'\n", __FUNCTION__, p, p->realmname); return p; } } pkiDebug("%s: unable to find realm context for realm '%.*s'\n", __FUNCTION__, princ->realm.length, princ->realm.data); return NULL; } static int pkinit_server_plugin_init_realm(krb5_context context, const char *realmname, pkinit_kdc_context *pplgctx) { krb5_error_code retval = ENOMEM; pkinit_kdc_context plgctx = NULL; *pplgctx = NULL; plgctx = (pkinit_kdc_context) calloc(1, sizeof(*plgctx)); if (plgctx == NULL) goto errout; pkiDebug("%s: initializing context at %p for realm '%s'\n", __FUNCTION__, plgctx, realmname); (void) memset(plgctx, 0, sizeof(*plgctx)); plgctx->magic = PKINIT_CTX_MAGIC; plgctx->realmname = strdup(realmname); if (plgctx->realmname == NULL) goto errout; plgctx->realmname_len = strlen(plgctx->realmname); retval = pkinit_init_plg_crypto(&plgctx->cryptoctx); if (retval) goto errout; retval = pkinit_init_plg_opts(&plgctx->opts); if (retval) goto errout; retval = pkinit_init_identity_crypto(&plgctx->idctx); if (retval) goto errout; retval = pkinit_init_identity_opts(&plgctx->idopts); if (retval) goto errout; retval = pkinit_init_kdc_profile(context, plgctx); if (retval) goto errout; /* * Solaris Kerberos: * Some methods of storing key information (PKCS11, PKCS12,...) may * require interactive prompting. */ retval = pkinit_identity_set_prompter(plgctx->idctx, krb5_prompter_posix, NULL); if (retval) goto errout; retval = pkinit_identity_initialize(context, plgctx->cryptoctx, NULL, plgctx->idopts, plgctx->idctx, 0, NULL); if (retval) goto errout; pkiDebug("%s: returning context at %p for realm '%s'\n", __FUNCTION__, plgctx, realmname); *pplgctx = plgctx; retval = 0; errout: if (retval) pkinit_server_plugin_fini_realm(context, plgctx); return retval; } static int pkinit_server_plugin_init(krb5_context context, void **blob, const char **realmnames) { krb5_error_code retval = ENOMEM; pkinit_kdc_context plgctx, *realm_contexts = NULL; int i, j; size_t numrealms; retval = pkinit_accessor_init(); if (retval) return retval; /* Determine how many realms we may need to support */ for (i = 0; realmnames[i] != NULL; i++) {}; numrealms = i; realm_contexts = (pkinit_kdc_context *) calloc(numrealms+1, sizeof(pkinit_kdc_context)); if (realm_contexts == NULL) return ENOMEM; for (i = 0, j = 0; i < numrealms; i++) { pkiDebug("%s: processing realm '%s'\n", __FUNCTION__, realmnames[i]); retval = pkinit_server_plugin_init_realm(context, realmnames[i], &plgctx); if (retval == 0 && plgctx != NULL) realm_contexts[j++] = plgctx; } if (j == 0) { /* * Solaris Kerberos * Improve error messages for the common case of a single realm */ if (numrealms != 1) { retval = EINVAL; krb5_set_error_message(context, retval, "No realms configured " "correctly for pkinit support"); } goto errout; } *blob = realm_contexts; retval = 0; pkiDebug("%s: returning context at %p\n", __FUNCTION__, realm_contexts); errout: if (retval) pkinit_server_plugin_fini(context, realm_contexts); return retval; } static void pkinit_server_plugin_fini_realm(krb5_context context, pkinit_kdc_context plgctx) { if (plgctx == NULL) return; pkinit_fini_kdc_profile(context, plgctx); pkinit_fini_identity_opts(plgctx->idopts); pkinit_fini_identity_crypto(plgctx->idctx); pkinit_fini_plg_crypto(plgctx->cryptoctx); pkinit_fini_plg_opts(plgctx->opts); free(plgctx->realmname); free(plgctx); } static void pkinit_server_plugin_fini(krb5_context context, void *blob) { pkinit_kdc_context *realm_contexts = blob; int i; if (realm_contexts == NULL) return; for (i = 0; realm_contexts[i] != NULL; i++) { pkinit_server_plugin_fini_realm(context, realm_contexts[i]); } pkiDebug("%s: freeing context at %p\n", __FUNCTION__, realm_contexts); free(realm_contexts); } static krb5_error_code pkinit_init_kdc_req_context(krb5_context context, void **ctx) { krb5_error_code retval = ENOMEM; pkinit_kdc_req_context reqctx = NULL; reqctx = (pkinit_kdc_req_context)malloc(sizeof(*reqctx)); if (reqctx == NULL) return retval; (void) memset(reqctx, 0, sizeof(*reqctx)); reqctx->magic = PKINIT_CTX_MAGIC; retval = pkinit_init_req_crypto(&reqctx->cryptoctx); if (retval) goto cleanup; reqctx->rcv_auth_pack = NULL; reqctx->rcv_auth_pack9 = NULL; pkiDebug("%s: returning reqctx at %p\n", __FUNCTION__, reqctx); *ctx = reqctx; retval = 0; cleanup: if (retval) pkinit_fini_kdc_req_context(context, reqctx); return retval; } static void pkinit_fini_kdc_req_context(krb5_context context, void *ctx) { pkinit_kdc_req_context reqctx = (pkinit_kdc_req_context)ctx; if (reqctx == NULL || reqctx->magic != PKINIT_CTX_MAGIC) { pkiDebug("pkinit_fini_kdc_req_context: got bad reqctx (%p)!\n", reqctx); return; } pkiDebug("%s: freeing reqctx at %p\n", __FUNCTION__, reqctx); pkinit_fini_req_crypto(reqctx->cryptoctx); if (reqctx->rcv_auth_pack != NULL) free_krb5_auth_pack(&reqctx->rcv_auth_pack); if (reqctx->rcv_auth_pack9 != NULL) free_krb5_auth_pack_draft9(context, &reqctx->rcv_auth_pack9); free(reqctx); } struct krb5plugin_preauth_server_ftable_v1 preauthentication_server_1 = { "pkinit", /* name */ supported_server_pa_types, /* pa_type_list */ pkinit_server_plugin_init, /* (*init_proc) */ pkinit_server_plugin_fini, /* (*fini_proc) */ pkinit_server_get_flags, /* (*flags_proc) */ pkinit_server_get_edata, /* (*edata_proc) */ pkinit_server_verify_padata,/* (*verify_proc) */ pkinit_server_return_padata,/* (*return_proc) */ NULL, /* (*freepa_reqcontext_proc) */ };