/** BEGIN COPYRIGHT BLOCK * This Program is free software; you can redistribute it and/or modify it under * the terms of the GNU General Public License as published by the Free Software * Foundation; version 2 of the License. * * This Program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with * this Program; if not, write to the Free Software Foundation, Inc., 59 Temple * Place, Suite 330, Boston, MA 02111-1307 USA. * * In addition, as a special exception, Red Hat, Inc. gives You the additional * right to link the code of this Program with code not covered under the GNU * General Public License ("Non-GPL Code") and to distribute linked combinations * including the two, subject to the limitations in this paragraph. Non-GPL Code * permitted under this exception must only link to the code of this Program * through those well defined interfaces identified in the file named EXCEPTION * found in the source code files (the "Approved Interfaces"). The files of * Non-GPL Code may instantiate templates or use macros or inline functions from * the Approved Interfaces without causing the resulting work to be covered by * the GNU General Public License. Only Red Hat, Inc. may make changes or * additions to the list of Approved Interfaces. You must obey the GNU General * Public License in all respects for all of the Program code and other code used * in conjunction with the Program except the Non-GPL Code covered by this * exception. If you modify this file, you may extend this exception to your * version of the file, but you are not obligated to do so. If you do not wish to * provide this exception without modification, you must delete this exception * statement from your version and license this file solely under the GPL without * exception. * * * Copyright (C) 2001 Sun Microsystems, Inc. Used by permission. * Copyright (C) 2005 Red Hat, Inc. * All rights reserved. * END COPYRIGHT BLOCK **/ #ifdef HAVE_CONFIG_H # include #endif /* ldaputil.c -- LDAP utility functions and wrappers */ #ifdef _WIN32 #include /* for getcwd */ #else #include #include #include #include #endif #include #include #include "slap.h" #include "prtime.h" #include "prinrval.h" #include "snmp_collator.h" #if !defined(USE_OPENLDAP) #include #include #endif #ifdef MEMPOOL_EXPERIMENTAL void _free_wrapper(void *ptr) { slapi_ch_free(&ptr); } #endif /* * Function: slapi_ldap_unbind() * Purpose: release an LDAP session obtained from a call to slapi_ldap_init(). */ void slapi_ldap_unbind( LDAP *ld ) { if ( ld != NULL ) { ldap_unbind_ext( ld, NULL, NULL ); } } const char * slapi_urlparse_err2string( int err ) { const char *s="internal error"; switch( err ) { case 0: s = "no error"; break; case LDAP_URL_ERR_BADSCOPE: s = "invalid search scope"; break; case LDAP_URL_ERR_MEM: s = "unable to allocate memory"; break; case LDAP_URL_ERR_PARAM: s = "bad parameter to an LDAP URL function"; break; #if defined(USE_OPENLDAP) case LDAP_URL_ERR_BADSCHEME: s = "does not begin with ldap://, ldaps://, or ldapi://"; break; case LDAP_URL_ERR_BADENCLOSURE: s = "missing trailing '>' in enclosure"; break; case LDAP_URL_ERR_BADURL: s = "not a valid LDAP URL"; break; case LDAP_URL_ERR_BADHOST: s = "hostname part of url is not valid or not given"; break; case LDAP_URL_ERR_BADATTRS: s = "attribute list not formatted correctly or missing"; break; case LDAP_URL_ERR_BADFILTER: s = "search filter not correct"; break; case LDAP_URL_ERR_BADEXTS: s = "extensions not specified correctly"; break; #else /* !USE_OPENLDAP */ case LDAP_URL_ERR_NOTLDAP: s = "missing ldap:// or ldaps:// or ldapi://"; break; case LDAP_URL_ERR_NODN: s = "missing suffix"; break; #endif } return( s ); } /* there are various differences among url parsers - directory server needs the ability to parse partial URLs - those with no dn - and needs to be able to tell if it is a secure url (ldaps) or not */ int slapi_ldap_url_parse(const char *url, LDAPURLDesc **ludpp, int require_dn, int *secure) { PR_ASSERT(url); PR_ASSERT(ludpp); int rc; if (secure) { *secure = 0; } #if defined(HAVE_LDAP_URL_PARSE_NO_DEFAULTS) rc = ldap_url_parse_no_defaults(url, ludpp, require_dn); if (!rc && *ludpp && secure) { *secure = (*ludpp)->lud_options & LDAP_URL_OPT_SECURE; } #else /* openldap */ #if defined(HAVE_LDAP_URL_PARSE_EXT) rc = ldap_url_parse_ext(url, ludpp, require_dn ? LDAP_PVT_URL_PARSE_NONE : LDAP_PVT_URL_PARSE_NOEMPTY_DN); #else rc = ldap_url_parse(url, ludpp); if (rc || !*ludpp || !require_dn) { /* failed - see if failure was due to missing dn */ size_t len = strlen(url); /* assume the url is just scheme://host:port[/] - add the empty string as the DN (adding a trailing / first if needed) and try to parse again */ char *urlcopy = slapi_ch_smprintf("%s%s%s", url, (url[len-1] == '/' ? "" : "/"), ""); rc = ldap_url_parse(urlcopy, ludpp); slapi_ch_free_string(&urlcopy); if (0 == rc) { /* only problem was the DN - free it */ slapi_ch_free_string(&((*ludpp)->lud_dn)); } } #endif if (!rc && *ludpp && secure) { *secure = (*ludpp)->lud_scheme && !strcmp((*ludpp)->lud_scheme, "ldaps"); } #endif /* openldap */ return rc; } #include int slapi_ldap_get_lderrno(LDAP *ld, char **m, char **s) { int rc = LDAP_SUCCESS; #if defined(USE_OPENLDAP) ldap_get_option(ld, LDAP_OPT_RESULT_CODE, &rc); if (m) { ldap_get_option(ld, LDAP_OPT_MATCHED_DN, m); } if (s) { #ifdef LDAP_OPT_DIAGNOSTIC_MESSAGE ldap_get_option(ld, LDAP_OPT_DIAGNOSTIC_MESSAGE, s); #else ldap_get_option(ld, LDAP_OPT_ERROR_STRING, s); #endif } #else /* !USE_OPENLDAP */ rc = ldap_get_lderrno( ld, m, s ); #endif return rc; } void slapi_ldif_put_type_and_value_with_options( char **out, const char *t, const char *val, int vlen, unsigned long options ) { #if defined(USE_OPENLDAP) /* openldap always wraps and always does conservative base64 encoding we unwrap here, but clients will have to do their own base64 decode */ int type = LDIF_PUT_VALUE; char *save = *out; if (options & LDIF_OPT_VALUE_IS_URL) { type = LDIF_PUT_URL; } ldif_sput( out, type, t, val, vlen ); if (options & LDIF_OPT_NOWRAP) { /* modify out in place, stripping out continuation lines */ char *src = save; char *dest = save; for (; src && *src && (src != *out); ++src) { if (!strncmp(src, "\n ", 2)) { src += 2; /* skip continuation */ } *dest++ = *src; } *dest = '\n'; } #else ldif_put_type_and_value_with_options( out, (char *)t, (char *)val, vlen, options ); #endif } void slapi_ldap_value_free( char **vals ) { #if defined(USE_OPENLDAP) slapi_ch_array_free(vals); #else ldap_value_free(vals); #endif } int slapi_ldap_count_values( char **vals ) { #if defined(USE_OPENLDAP) return ldap_count_values_len((struct berval **)vals); #else return ldap_count_values(vals); #endif } /* Perform LDAP init and return an LDAP* handle. If ldapurl is given, that is used as the basis for the protocol, host, port, and whether to use starttls (given on the end as ldap://..../?????starttlsOID If hostname is given, LDAP or LDAPS is assumed, and this will override the hostname from the ldapurl, if any. If port is > 0, this is the port number to use. It will override the port in the ldapurl, if any. If no port is given in port or ldapurl, the default will be used based on the secure setting (389 for ldap, 636 for ldaps, 389 for starttls) secure takes 1 of 3 values - 0 means regular ldap, 1 means ldaps, 2 means regular ldap with starttls. filename is the ldapi file name - if this is given, and no other options are given, ldapi is assumed. */ /* util_sasl_path: the string argument for putenv. It must be a global or a static */ char util_sasl_path[MAXPATHLEN]; LDAP * slapi_ldap_init_ext( const char *ldapurl, /* full ldap url */ const char *hostname, /* can also use this to override host in url */ int port, /* can also use this to override port in url */ int secure, /* 0 for ldap, 1 for ldaps, 2 for starttls - override proto in url */ int shared, /* if true, LDAP* will be shared among multiple threads */ const char *filename /* for ldapi */ ) { LDAPURLDesc *ludp = NULL; LDAP *ld = NULL; int rc = 0; int secureurl = 0; /* We need to provide a sasl path used for client connections, especially if the server is not set up to be a sasl server - since mozldap provides no way to override the default path programatically, we set the sasl path to the environment variable SASL_PATH. */ char *configpluginpath = config_get_saslpath(); char *pluginpath = configpluginpath; char *pp = NULL; if (NULL == pluginpath || (*pluginpath == '\0')) { slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_init_ext", "configpluginpath == NULL\n"); if (!(pluginpath = getenv("SASL_PATH"))) { #if defined(LINUX) && defined(__LP64__) pluginpath = "/usr/lib64/sasl2"; #else pluginpath = "/usr/lib/sasl2"; #endif } } if ('\0' == util_sasl_path[0] || /* first time */ NULL == (pp = strchr(util_sasl_path, '=')) || /* invalid arg for putenv */ (0 != strcmp(++pp, pluginpath)) /* sasl_path has been updated */ ) { PR_snprintf(util_sasl_path, sizeof(util_sasl_path), "SASL_PATH=%s", pluginpath); slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_init_ext", "putenv(%s)\n", util_sasl_path); putenv(util_sasl_path); } slapi_ch_free_string(&configpluginpath); /* if ldapurl is given, parse it */ if (ldapurl && ((rc = slapi_ldap_url_parse(ldapurl, &ludp, 0, &secureurl)) || !ludp)) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "Could not parse given LDAP URL [%s] : error [%s]\n", ldapurl ? ldapurl : "NULL", slapi_urlparse_err2string(rc)); goto done; } /* use url host if no host given */ if (!hostname && ludp && ludp->lud_host) { hostname = ludp->lud_host; } /* use url port if no port given */ if (!port && ludp && ludp->lud_port) { port = ludp->lud_port; } /* use secure setting from url if none given */ if (!secure && ludp) { if (secureurl) { secure = 1; } else if (0/* starttls option - not supported yet in LDAP URLs */) { secure = 2; } } /* ldap_url_parse doesn't yet handle ldapi */ /* if (!filename && ludp && ludp->lud_file) { filename = ludp->lud_file; } */ #ifdef MEMPOOL_EXPERIMENTAL { /* * slapi_ch_malloc functions need to be set to LDAP C SDK */ struct ldap_memalloc_fns memalloc_fns; memalloc_fns.ldapmem_malloc = (LDAP_MALLOC_CALLBACK *)slapi_ch_malloc; memalloc_fns.ldapmem_calloc = (LDAP_CALLOC_CALLBACK *)slapi_ch_calloc; memalloc_fns.ldapmem_realloc = (LDAP_REALLOC_CALLBACK *)slapi_ch_realloc; memalloc_fns.ldapmem_free = (LDAP_FREE_CALLBACK *)_free_wrapper; } /* * MEMPOOL_EXPERIMENTAL: * These LDAP C SDK init function needs to be revisited. * In ldap_init called via ldapssl_init and prldap_init initializes * options and set default values including memalloc_fns, then it * initializes as sasl client by calling sasl_client_init. In * sasl_client_init, it creates mechlist using the malloc function * available at the moment which could mismatch the malloc/free functions * set later. */ #endif #if defined(USE_OPENLDAP) if (ldapurl) { rc = ldap_initialize(&ld, ldapurl); if (rc) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "Could not initialize LDAP connection to [%s]: %d:%s\n", ldapurl, rc, ldap_err2string(rc)); goto done; } } else { char *makeurl = NULL; if (filename) { makeurl = slapi_ch_smprintf("ldapi://%s/", filename); } else { /* host port */ makeurl = slapi_ch_smprintf("ldap%s://%s:%d/", (secure == 1 ? "s" : ""), hostname, port); } rc = ldap_initialize(&ld, makeurl); if (rc) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "Could not initialize LDAP connection to [%s]: %d:%s\n", makeurl, rc, ldap_err2string(rc)); slapi_ch_free_string(&makeurl); goto done; } slapi_ch_free_string(&makeurl); } #else /* !USE_OPENLDAP */ if (filename) { /* ldapi in mozldap client is not yet supported */ } else if (secure == 1) { ld = ldapssl_init(hostname, port, secure); } else { /* regular ldap and/or starttls */ /* * Leverage the libprldap layer to take care of all the NSPR * integration. * Note that ldapssl_init() uses libprldap implicitly. */ ld = prldap_init(hostname, port, shared); } #endif /* !USE_OPENLDAP */ /* Update snmp interaction table */ if (hostname) { if (ld == NULL) { set_snmp_interaction_row((char *)hostname, port, -1); } else { set_snmp_interaction_row((char *)hostname, port, 0); } } if ((ld != NULL) && !filename) { /* * Set the outbound LDAP I/O timeout based on the server config. */ int io_timeout_ms = config_get_outbound_ldap_io_timeout(); if (io_timeout_ms > 0) { #if defined(USE_OPENLDAP) struct timeval tv; tv.tv_sec = io_timeout_ms / 1000; tv.tv_usec = (io_timeout_ms % 1000) * 1000; if (LDAP_OPT_SUCCESS != ldap_set_option(ld, LDAP_OPT_NETWORK_TIMEOUT, &tv)) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set outbound I/O " "timeout to %dms\n", io_timeout_ms); slapi_ldap_unbind(ld); ld = NULL; goto done; } #else /* !USE_OPENLDAP */ if (prldap_set_session_option(ld, NULL, PRLDAP_OPT_IO_MAX_TIMEOUT, io_timeout_ms) != LDAP_SUCCESS) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set outbound I/O " "timeout to %dms\n", io_timeout_ms); slapi_ldap_unbind(ld); ld = NULL; goto done; } #endif /* !USE_OPENLDAP */ } /* * Set SSL strength (server certificate validity checking). */ if (secure > 0) { #if !defined(USE_OPENLDAP) int ssl_strength = 0; #endif LDAP *myld = NULL; /* we can only use the set functions below with a real LDAP* if it has already gone through ldapssl_init - so, use NULL if using starttls */ if (secure == 1) { myld = ld; } if (config_get_ssl_check_hostname()) { /* check hostname against name in certificate */ #if defined(USE_OPENLDAP) if ((rc = ldap_set_option(ld, LDAP_OPT_X_TLS_REQUIRE_CERT, "hard"))) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set REQUIRE_CERT option to hard\n"); } #else /* !USE_OPENLDAP */ ssl_strength = LDAPSSL_AUTH_CNCHECK; #endif /* !USE_OPENLDAP */ } else { /* verify certificate only */ #if defined(USE_OPENLDAP) if ((rc = ldap_set_option(ld, LDAP_OPT_X_TLS_REQUIRE_CERT, "allow"))) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set REQUIRE_CERT option to allow\n"); } #else /* !USE_OPENLDAP */ ssl_strength = LDAPSSL_AUTH_CERT; #endif /* !USE_OPENLDAP */ } #if defined(USE_OPENLDAP) #if defined(LDAP_OPT_X_TLS_PROTOCOL_MIN) if ((rc = ldap_set_option(ld, LDAP_OPT_X_TLS_PROTOCOL_MIN, LDAP_OPT_X_TLS_PROTOCOL_SSL3))) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set minimum TLS protocol level to SSL3n"); } #endif /* LDAP_OPT_X_TLS_PROTOCOL_MIN */ #else /* !USE_OPENLDAP */ if ((rc = ldapssl_set_strength(myld, ssl_strength)) || (rc = ldapssl_set_option(myld, SSL_ENABLE_SSL2, PR_FALSE)) || (rc = ldapssl_set_option(myld, SSL_ENABLE_SSL3, PR_TRUE)) || (rc = ldapssl_set_option(myld, SSL_ENABLE_TLS, PR_TRUE))) { int prerr = PR_GetError(); slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_init_ext", "failed: unable to set SSL options (" SLAPI_COMPONENT_NAME_NSPR " error %d - %s)", prerr, slapd_pr_strerror(prerr)); } if (secure == 1) { /* tell bind code we are using SSL */ ldap_set_option(ld, LDAP_OPT_SSL, LDAP_OPT_ON); } #endif /* !USE_OPENLDAP */ } } if (ld && (secure == 2)) { /* We don't have a way to stash context data with the LDAP*, so we stash the information in the client controls (currently unused). We don't want to open the connection in ldap_init, since that's not the semantic - the connection is not usually opened until the first operation is sent, which is usually the bind - or in this case, the start_tls - so we stash the start_tls so we can do it in slapi_ldap_bind - note that this will get cleaned up when the LDAP* is disposed of */ LDAPControl start_tls_dummy_ctrl; LDAPControl **clientctrls = NULL; /* returns copy of controls */ ldap_get_option(ld, LDAP_OPT_CLIENT_CONTROLS, &clientctrls); start_tls_dummy_ctrl.ldctl_oid = START_TLS_OID; start_tls_dummy_ctrl.ldctl_value.bv_val = NULL; start_tls_dummy_ctrl.ldctl_value.bv_len = 0; start_tls_dummy_ctrl.ldctl_iscritical = 0; slapi_add_control_ext(&clientctrls, &start_tls_dummy_ctrl, 1); /* set option frees old list and copies the new list */ ldap_set_option(ld, LDAP_OPT_CLIENT_CONTROLS, clientctrls); ldap_controls_free(clientctrls); /* free the copy */ } slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_init_ext", "Success: set up conn to [%s:%d]%s\n", hostname, port, (secure == 2) ? " using startTLS" : ((secure == 1) ? " using SSL" : "")); done: ldap_free_urldesc(ludp); return( ld ); } /* * Function: slapi_ldap_init() * Description: just like ldap_ssl_init() but also arranges for the LDAP * session handle returned to be safely shareable by multiple threads * if "shared" is non-zero. * Returns: * an LDAP session handle (NULL if some local error occurs). */ LDAP * slapi_ldap_init( char *ldaphost, int ldapport, int secure, int shared ) { return slapi_ldap_init_ext(NULL, ldaphost, ldapport, secure, shared, NULL); } /* * Does the correct bind operation simple/sasl/cert depending * on the arguments passed in. If the user specified to use * starttls in init, this will do the starttls first. If using * ssl or client cert auth, this will initialize the client side * of that. */ int slapi_ldap_bind( LDAP *ld, /* ldap connection */ const char *bindid, /* usually a bind DN for simple bind */ const char *creds, /* usually a password for simple bind */ const char *mech, /* name of mechanism */ LDAPControl **serverctrls, /* additional controls to send */ LDAPControl ***returnedctrls, /* returned controls */ struct timeval *timeout, /* timeout */ int *msgidp /* pass in non-NULL for async handling */ ) { int rc = LDAP_SUCCESS; LDAPControl **clientctrls = NULL; int secure = 0; struct berval bvcreds = {0, NULL}; LDAPMessage *result = NULL; struct berval *servercredp = NULL; /* do starttls if requested NOTE - starttls is an extop, not a control, but we don't have a place we can stash this information in the LDAP*, other than the currently unused clientctrls */ ldap_get_option(ld, LDAP_OPT_CLIENT_CONTROLS, &clientctrls); if (clientctrls && clientctrls[0] && slapi_control_present(clientctrls, START_TLS_OID, NULL, NULL)) { secure = 2; } else { #if defined(USE_OPENLDAP) /* openldap doesn't have a SSL/TLS yes/no flag - so grab the ldapurl, parse it, and see if it is a secure one */ char *ldapurl = NULL; LDAPURLDesc *ludp = NULL; ldap_get_option(ld, LDAP_OPT_URI, &ldapurl); slapi_ldap_url_parse(ldapurl, &ludp, 0, &secure); ldap_free_urldesc(ludp); slapi_ch_free_string(&ldapurl); #else /* !USE_OPENLDAP */ ldap_get_option(ld, LDAP_OPT_SSL, &secure); #endif } ldap_controls_free(clientctrls); ldap_set_option(ld, LDAP_OPT_CLIENT_CONTROLS, NULL); if ((secure > 0) && mech && !strcmp(mech, LDAP_SASL_EXTERNAL)) { /* SSL connections will use the server's security context and cert for client auth */ rc = slapd_SSL_client_auth(ld); if (rc != 0) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not configure the server for cert " "auth - error %d - make sure the server is " "correctly configured for SSL/TLS\n", rc); goto done; } else { slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_bind", "Set up conn to use client auth\n"); } bvcreds.bv_val = NULL; /* ignore username and passed in creds */ bvcreds.bv_len = 0; /* for external auth */ bindid = NULL; } else { /* other type of auth */ bvcreds.bv_val = (char *)creds; bvcreds.bv_len = creds ? strlen(creds) : 0; } if (secure == 2) { /* send start tls */ rc = ldap_start_tls_s(ld, NULL /* serverctrls?? */, NULL); if (LDAP_SUCCESS != rc) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not send startTLS request: " "error %d (%s)\n", rc, ldap_err2string(rc)); goto done; } slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_bind", "startTLS started on connection\n"); } /* The connection has been set up - now do the actual bind, depending on the mechanism and arguments */ if (!mech || (mech == LDAP_SASL_SIMPLE) || !strcmp(mech, LDAP_SASL_EXTERNAL)) { int mymsgid = 0; slapi_log_error(SLAPI_LOG_SHELL, "slapi_ldap_bind", "attempting %s bind with id [%s] creds [%s]\n", mech ? mech : "SIMPLE", bindid, creds); if ((rc = ldap_sasl_bind(ld, bindid, mech, &bvcreds, serverctrls, NULL /* clientctrls */, &mymsgid))) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not send bind request for id " "[%s] mech [%s]: error %d (%s) %d (%s) %d (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc), PR_GetError(), slapd_pr_strerror(PR_GetError()), errno, slapd_system_strerror(errno)); goto done; } if (msgidp) { /* let caller process result */ *msgidp = mymsgid; } else { /* process results */ rc = ldap_result(ld, mymsgid, LDAP_MSG_ALL, timeout, &result); if (-1 == rc) { /* error */ rc = slapi_ldap_get_lderrno(ld, NULL, NULL); slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error reading bind response for id " "[%s] mech [%s]: error %d (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc)); goto done; } else if (rc == 0) { /* timeout */ rc = LDAP_TIMEOUT; slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: timeout after [%ld.%ld] seconds reading " "bind response for [%s] mech [%s]\n", timeout ? timeout->tv_sec : 0, timeout ? timeout->tv_usec : 0, bindid ? bindid : "(anon)", mech ? mech : "SIMPLE"); goto done; } /* if we got here, we were able to read success result */ /* Get the controls sent by the server if requested */ if (returnedctrls) { if ((rc = ldap_parse_result(ld, result, &rc, NULL, NULL, NULL, returnedctrls, 0)) != LDAP_SUCCESS) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not bind id " "[%s] mech [%s]: error %d (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc)); goto done; } } /* parse the bind result and get the ldap error code */ if ((rc = ldap_parse_sasl_bind_result(ld, result, &servercredp, 0))) { rc = slapi_ldap_get_lderrno(ld, NULL, NULL); slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not read bind results for id " "[%s] mech [%s]: error %d (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc)); goto done; } } } else { /* a SASL mech - set the sasl ssf to 0 if using TLS/SSL */ /* openldap supports tls + sasl security */ #if !defined(USE_OPENLDAP) if (secure) { sasl_ssf_t max_ssf = 0; ldap_set_option(ld, LDAP_OPT_X_SASL_SSF_MAX, &max_ssf); } #endif rc = slapd_ldap_sasl_interactive_bind(ld, bindid, creds, mech, serverctrls, returnedctrls, msgidp); if (LDAP_SUCCESS != rc) { slapi_log_error(SLAPI_LOG_FATAL, "slapi_ldap_bind", "Error: could not perform interactive bind for id " "[%s] mech [%s]: error %d (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc)); } } done: slapi_ch_bvfree(&servercredp); ldap_msgfree(result); return rc; } /* the following implements the client side of sasl bind, for LDAP server -> LDAP server SASL */ typedef struct { char *mech; char *authid; char *username; char *passwd; char *realm; } ldapSaslInteractVals; #ifdef HAVE_KRB5 static void set_krb5_creds( const char *authid, const char *username, const char *passwd, const char *realm, ldapSaslInteractVals *vals ); #endif static void * ldap_sasl_set_interact_vals(LDAP *ld, const char *mech, const char *authid, const char *username, const char *passwd, const char *realm) { ldapSaslInteractVals *vals = NULL; char *idprefix = ""; vals = (ldapSaslInteractVals *) slapi_ch_calloc(1, sizeof(ldapSaslInteractVals)); if (!vals) { return NULL; } if (mech) { vals->mech = slapi_ch_strdup(mech); } else { ldap_get_option(ld, LDAP_OPT_X_SASL_MECH, &vals->mech); } if (vals->mech && !strcasecmp(vals->mech, "DIGEST-MD5")) { idprefix = "dn:"; /* prefix name and id with this string */ } if (authid) { /* use explicit passed in value */ vals->authid = slapi_ch_smprintf("%s%s", idprefix, authid); } else { /* use option value if any */ ldap_get_option(ld, LDAP_OPT_X_SASL_AUTHCID, &vals->authid); if (!vals->authid) { /* get server user id? */ vals->authid = slapi_ch_strdup(""); } } if (username) { /* use explicit passed in value */ vals->username = slapi_ch_smprintf("%s%s", idprefix, username); } else { /* use option value if any */ ldap_get_option(ld, LDAP_OPT_X_SASL_AUTHZID, &vals->username); if (!vals->username) { /* use default sasl value */ vals->username = slapi_ch_strdup(""); } } if (passwd) { vals->passwd = slapi_ch_strdup(passwd); } else { vals->passwd = slapi_ch_strdup(""); } if (realm) { vals->realm = slapi_ch_strdup(realm); } else { ldap_get_option(ld, LDAP_OPT_X_SASL_REALM, &vals->realm); if (!vals->realm) { /* use default sasl value */ vals->realm = slapi_ch_strdup(""); } } #ifdef HAVE_KRB5 if (mech && !strcmp(mech, "GSSAPI")) { set_krb5_creds(authid, username, passwd, realm, vals); } #endif /* HAVE_KRB5 */ return vals; } static void ldap_sasl_free_interact_vals(void *defaults) { ldapSaslInteractVals *vals = defaults; if (vals) { slapi_ch_free_string(&vals->mech); slapi_ch_free_string(&vals->authid); slapi_ch_free_string(&vals->username); slapi_ch_free_string(&vals->passwd); slapi_ch_free_string(&vals->realm); slapi_ch_free(&defaults); } } static int ldap_sasl_get_val(ldapSaslInteractVals *vals, sasl_interact_t *interact, unsigned flags) { const char *defvalue = interact->defresult; int authtracelevel = SLAPI_LOG_SHELL; /* special auth tracing */ if (vals != NULL) { switch(interact->id) { case SASL_CB_AUTHNAME: defvalue = vals->authid; slapi_log_error(authtracelevel, "ldap_sasl_get_val", "Using value [%s] for SASL_CB_AUTHNAME\n", defvalue ? defvalue : "(null)"); break; case SASL_CB_USER: defvalue = vals->username; slapi_log_error(authtracelevel, "ldap_sasl_get_val", "Using value [%s] for SASL_CB_USER\n", defvalue ? defvalue : "(null)"); break; case SASL_CB_PASS: defvalue = vals->passwd; slapi_log_error(authtracelevel, "ldap_sasl_get_val", "Using value [%s] for SASL_CB_PASS\n", defvalue ? defvalue : "(null)"); break; case SASL_CB_GETREALM: defvalue = vals->realm; slapi_log_error(authtracelevel, "ldap_sasl_get_val", "Using value [%s] for SASL_CB_GETREALM\n", defvalue ? defvalue : "(null)"); break; } } if (defvalue != NULL) { interact->result = defvalue; if ((char *)interact->result == NULL) return (LDAP_NO_MEMORY); interact->len = strlen((char *)(interact->result)); } return (LDAP_SUCCESS); } static int ldap_sasl_interact_cb(LDAP *ld, unsigned flags, void *defaults, void *prompts) { sasl_interact_t *interact = NULL; ldapSaslInteractVals *sasldefaults = defaults; int rc; if (prompts == NULL) { return (LDAP_PARAM_ERROR); } for (interact = prompts; interact->id != SASL_CB_LIST_END; interact++) { /* Obtain the default value */ if ((rc = ldap_sasl_get_val(sasldefaults, interact, flags)) != LDAP_SUCCESS) { return (rc); } } return (LDAP_SUCCESS); } /* figure out from the context and this error if we should attempt to retry the bind */ static int can_retry_bind(LDAP *ld, const char *mech, const char *bindid, const char *creds, int rc, const char *errmsg) { int localrc = 0; if (errmsg && strstr(errmsg, "Ticket expired")) { localrc = 1; } return localrc; } int slapd_ldap_sasl_interactive_bind( LDAP *ld, /* ldap connection */ const char *bindid, /* usually a bind DN for simple bind */ const char *creds, /* usually a password for simple bind */ const char *mech, /* name of mechanism */ LDAPControl **serverctrls, /* additional controls to send */ LDAPControl ***returnedctrls, /* returned controls */ int *msgidp /* pass in non-NULL for async handling */ ) { int rc = LDAP_SUCCESS; int tries = 0; while (tries < 2) { void *defaults = ldap_sasl_set_interact_vals(ld, mech, bindid, bindid, creds, NULL); /* have to first set the defaults used by the callback function */ /* call the bind function */ /* openldap does not have the ext version - not sure how to get the returned controls */ #if defined(USE_OPENLDAP) rc = ldap_sasl_interactive_bind_s(ld, bindid, mech, serverctrls, NULL, LDAP_SASL_QUIET, ldap_sasl_interact_cb, defaults); #else rc = ldap_sasl_interactive_bind_ext_s(ld, bindid, mech, serverctrls, NULL, LDAP_SASL_QUIET, ldap_sasl_interact_cb, defaults, returnedctrls); #endif ldap_sasl_free_interact_vals(defaults); if (LDAP_SUCCESS != rc) { char *errmsg = NULL; rc = slapi_ldap_get_lderrno(ld, NULL, &errmsg); slapi_log_error(SLAPI_LOG_FATAL, "slapd_ldap_sasl_interactive_bind", "Error: could not perform interactive bind for id " "[%s] mech [%s]: error %d (%s) (%s)\n", bindid ? bindid : "(anon)", mech ? mech : "SIMPLE", rc, ldap_err2string(rc), errmsg); if (can_retry_bind(ld, mech, bindid, creds, rc, errmsg)) { ; /* pass through to retry one time */ } else { break; /* done - fail - cannot retry */ } } else { break; /* done - success */ } tries++; } return rc; } #ifdef HAVE_KRB5 #include /* for some reason this is not in the public API? but it is documented e.g. man kinit */ #ifndef KRB5_ENV_CCNAME #define KRB5_ENV_CCNAME "KRB5CCNAME" #endif static void show_one_credential(int authtracelevel, krb5_context ctx, krb5_creds *cred) { char *logname = "show_one_credential"; krb5_error_code rc; char *name = NULL, *sname = NULL; char startts[BUFSIZ], endts[BUFSIZ], renewts[BUFSIZ]; if ((rc = krb5_unparse_name(ctx, cred->client, &name))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get client name from credential: %d (%s)\n", rc, error_message(rc)); goto cleanup; } if ((rc = krb5_unparse_name(ctx, cred->server, &sname))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get server name from credential: %d (%s)\n", rc, error_message(rc)); goto cleanup; } if (!cred->times.starttime) { cred->times.starttime = cred->times.authtime; } krb5_timestamp_to_sfstring((krb5_timestamp)cred->times.starttime, startts, sizeof(startts), NULL); krb5_timestamp_to_sfstring((krb5_timestamp)cred->times.endtime, endts, sizeof(endts), NULL); krb5_timestamp_to_sfstring((krb5_timestamp)cred->times.renew_till, renewts, sizeof(renewts), NULL); slapi_log_error(authtracelevel, logname, "\tKerberos credential: client [%s] server [%s] " "start time [%s] end time [%s] renew time [%s] " "flags [0x%x]\n", name, sname, startts, endts, renewts, (uint32_t)cred->ticket_flags); cleanup: krb5_free_unparsed_name(ctx, name); krb5_free_unparsed_name(ctx, sname); return; } /* * Call this after storing the credentials in the cache */ static void show_cached_credentials(int authtracelevel, krb5_context ctx, krb5_ccache cc, krb5_principal princ) { char *logname = "show_cached_credentials"; krb5_error_code rc = 0; krb5_creds creds; krb5_cc_cursor cur; char *princ_name = NULL; if ((rc = krb5_unparse_name(ctx, princ, &princ_name))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get principal name from principal: %d (%s)\n", rc, error_message(rc)); goto cleanup; } slapi_log_error(authtracelevel, logname, "Ticket cache: %s:%s\nDefault principal: %s\n\n", krb5_cc_get_type(ctx, cc), krb5_cc_get_name(ctx, cc), princ_name); if ((rc = krb5_cc_start_seq_get(ctx, cc, &cur))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get cursor to iterate cached credentials: " "%d (%s)\n", rc, error_message(rc)); goto cleanup; } while (!(rc = krb5_cc_next_cred(ctx, cc, &cur, &creds))) { show_one_credential(authtracelevel, ctx, &creds); krb5_free_cred_contents(ctx, &creds); } if (rc == KRB5_CC_END) { if ((rc = krb5_cc_end_seq_get(ctx, cc, &cur))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not close cached credentials cursor: " "%d (%s)\n", rc, error_message(rc)); goto cleanup; } } cleanup: krb5_free_unparsed_name(ctx, princ_name); return; } static int looks_like_a_princ_name(const char *name) { /* a valid principal name will be a non-empty string that doesn't have a = in it (which will likely be a bind DN) */ return (name && *name && !strchr(name, '=')); } static int credentials_are_valid( krb5_context ctx, krb5_ccache cc, krb5_principal princ, const char *princ_name, int *rc ) { char *logname = "credentials_are_valid"; int myrc = 0; krb5_creds mcreds; /* match these values */ krb5_creds creds; /* returned creds */ char *tgs_princ_name = NULL; krb5_timestamp currenttime; int authtracelevel = SLAPI_LOG_SHELL; /* special auth tracing */ int realm_len; char *realm_str; int time_buffer = 30; /* seconds - go ahead and renew if creds are about to expire */ memset(&mcreds, 0, sizeof(mcreds)); memset(&creds, 0, sizeof(creds)); *rc = 0; if (!cc) { /* ok - no error */ goto cleanup; } /* have to construct the tgs server principal in order to set mcreds.server required in order to use krb5_cc_retrieve_creds() */ /* get default realm first */ realm_len = krb5_princ_realm(ctx, princ)->length; realm_str = krb5_princ_realm(ctx, princ)->data; tgs_princ_name = slapi_ch_smprintf("%s/%*s@%*s", KRB5_TGS_NAME, realm_len, realm_str, realm_len, realm_str); if ((*rc = krb5_parse_name(ctx, tgs_princ_name, &mcreds.server))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could parse principal [%s]: %d (%s)\n", tgs_princ_name, *rc, error_message(*rc)); goto cleanup; } mcreds.client = princ; if ((*rc = krb5_cc_retrieve_cred(ctx, cc, 0, &mcreds, &creds))) { if (*rc == KRB5_CC_NOTFOUND) { /* ok - no creds for this princ in the cache */ *rc = 0; } goto cleanup; } /* have the creds - now look at the timestamp */ if ((*rc = krb5_timeofday(ctx, ¤ttime))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get current time: %d (%s)\n", *rc, error_message(*rc)); goto cleanup; } if (currenttime > (creds.times.endtime + time_buffer)) { slapi_log_error(authtracelevel, logname, "Credentials for [%s] have expired or will soon " "expire - now [%d] endtime [%d]\n", princ_name, currenttime, creds.times.endtime); goto cleanup; } myrc = 1; /* credentials are valid */ cleanup: krb5_free_cred_contents(ctx, &creds); slapi_ch_free_string(&tgs_princ_name); if (mcreds.server) { krb5_free_principal(ctx, mcreds.server); } return myrc; } /* * This implementation assumes that we want to use the * keytab from the default keytab env. var KRB5_KTNAME * as. This code is very similar to kinit -k -t. We * get a krb context, get the default keytab, get * the credentials from the keytab, authenticate with * those credentials, create a ccache, store the * credentials in the ccache, and set the ccache * env var to point to those credentials. */ static void set_krb5_creds( const char *authid, const char *username, const char *passwd, const char *realm, ldapSaslInteractVals *vals ) { char *logname = "set_krb5_creds"; const char *cc_type = "MEMORY"; /* keep cred cache in memory */ krb5_context ctx = NULL; krb5_ccache cc = NULL; krb5_principal princ = NULL; char *princ_name = NULL; krb5_error_code rc = 0; krb5_creds creds; krb5_keytab kt = NULL; char *cc_name = NULL; char ktname[MAX_KEYTAB_NAME_LEN]; static char cc_env_name[1024+32]; /* size from ccdefname.c */ int new_ccache = 0; int authtracelevel = SLAPI_LOG_SHELL; /* special auth tracing not sure what shell was used for, does not appear to be used currently */ /* probably have to put a mutex around this whole thing, to avoid problems with reentrancy, since we are setting a "global" variable via an environment variable */ /* wipe this out so we can safely free it later if we short circuit */ memset(&creds, 0, sizeof(creds)); /* initialize the kerberos context */ if ((rc = krb5_init_context(&ctx))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not init Kerberos context: %d (%s)\n", rc, error_message(rc)); goto cleanup; } /* see if there is already a ccache, and see if there are creds in the ccache */ /* grab the default ccache - note: this does not open the cache */ if ((rc = krb5_cc_default(ctx, &cc))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get default Kerberos ccache: %d (%s)\n", rc, error_message(rc)); goto cleanup; } /* use this cache - construct the full cache name */ cc_name = slapi_ch_smprintf("%s:%s", krb5_cc_get_type(ctx, cc), krb5_cc_get_name(ctx, cc)); /* grab the principal from the ccache - will fail if there is no ccache */ if ((rc = krb5_cc_get_principal(ctx, cc, &princ))) { if (KRB5_FCC_NOFILE == rc) { /* no cache - ok */ slapi_log_error(authtracelevel, logname, "The default credentials cache [%s] not found: " "will create a new one.\n", cc_name); /* close the cache - we will create a new one below */ krb5_cc_close(ctx, cc); cc = NULL; slapi_ch_free_string(&cc_name); /* fall through to the keytab auth code below */ } else { /* fatal */ slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not open default Kerberos ccache [%s]: " "%d (%s)\n", cc_name, rc, error_message(rc)); goto cleanup; } } else { /* have a valid ccache && found principal */ if ((rc = krb5_unparse_name(ctx, princ, &princ_name))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Unable to get name of principal from ccache [%s]: " "%d (%s)\n", cc_name, rc, error_message(rc)); goto cleanup; } slapi_log_error(authtracelevel, logname, "Using principal [%s] from ccache [%s]\n", princ_name, cc_name); } /* if this is not our type of ccache, there is nothing more we can do - just punt and let sasl/gssapi take it's course - this usually means there has been an external kinit e.g. in the start up script, and it is the responsibility of the script to renew those credentials or face lots of sasl/gssapi failures This means, however, that the caller MUST MAKE SURE THERE IS NO DEFAULT CCACHE FILE or the server will attempt to use it (and likely fail) - THERE MUST BE NO DEFAULT CCACHE FILE IF YOU WANT THE SERVER TO AUTHENTICATE WITH THE KEYTAB NOTE: cc types are case sensitive and always upper case */ if (cc && strcmp(cc_type, krb5_cc_get_type(ctx, cc))) { static int errmsgcounter = 0; int loglevel = SLAPI_LOG_FATAL; if (errmsgcounter) { loglevel = authtracelevel; } /* make sure we log this message once, in case the user has done something unintended, we want to make sure they know about it. However, if the user knows what he/she is doing, by using an external ccache file, they probably don't want to be notified with an error every time. */ slapi_log_error(loglevel, logname, "The server will use the external SASL/GSSAPI " "credentials cache [%s:%s]. If you want the " "server to automatically authenticate with its " "keytab, you must remove this cache. If you " "did not intend to use this cache, you will likely " "see many SASL/GSSAPI authentication failures.\n", krb5_cc_get_type(ctx, cc), krb5_cc_get_name(ctx, cc)); errmsgcounter++; goto cleanup; } /* need to figure out which principal to use 1) use the one from the ccache 2) use username 3) construct one in the form ldap/fqdn@REALM */ if (!princ && looks_like_a_princ_name(username) && (rc = krb5_parse_name(ctx, username, &princ))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Error: could not convert [%s] into a kerberos " "principal: %d (%s)\n", username, rc, error_message(rc)); goto cleanup; } /* if still no principal, construct one */ if (!princ && (rc = krb5_sname_to_principal(ctx, NULL, "ldap", KRB5_NT_SRV_HST, &princ))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Error: could not construct ldap service " "principal: %d (%s)\n", rc, error_message(rc)); goto cleanup; } if ((rc = krb5_unparse_name(ctx, princ, &princ_name))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Unable to get name of principal: " "%d (%s)\n", rc, error_message(rc)); goto cleanup; } slapi_log_error(authtracelevel, logname, "Using principal named [%s]\n", princ_name); /* grab the credentials from the ccache, if any - if the credentials are still valid, we do not have to authenticate again */ if (credentials_are_valid(ctx, cc, princ, princ_name, &rc)) { slapi_log_error(authtracelevel, logname, "Credentials for principal [%s] are still " "valid - no auth is necessary.\n", princ_name); goto cleanup; } else if (rc) { /* some error other than "there are no credentials" */ slapi_log_error(SLAPI_LOG_FATAL, logname, "Unable to verify cached credentials for " "principal [%s]: %d (%s)\n", princ_name, rc, error_message(rc)); goto cleanup; } /* find our default keytab */ if ((rc = krb5_kt_default(ctx, &kt))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Unable to get default keytab: %d (%s)\n", rc, error_message(rc)); goto cleanup; } /* get name of keytab for debugging purposes */ if ((rc = krb5_kt_get_name(ctx, kt, ktname, sizeof(ktname)))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Unable to get name of default keytab: %d (%s)\n", rc, error_message(rc)); goto cleanup; } slapi_log_error(authtracelevel, logname, "Using keytab named [%s]\n", ktname); /* now do the actual kerberos authentication using the keytab, and get the creds */ rc = krb5_get_init_creds_keytab(ctx, &creds, princ, kt, 0, NULL, NULL); if (rc) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not get initial credentials for principal [%s] " "in keytab [%s]: %d (%s)\n", princ_name, ktname, rc, error_message(rc)); goto cleanup; } /* completely done with the keytab now, close it */ krb5_kt_close(ctx, kt); kt = NULL; /* no double free */ /* we now have the creds and the principal to which the creds belong - use or allocate a new memory based cache to hold the creds */ if (!cc_name) { #if HAVE_KRB5_CC_NEW_UNIQUE /* krb5_cc_new_unique is a new convenience function which generates a new unique name and returns a memory cache with that name */ if ((rc = krb5_cc_new_unique(ctx, cc_type, NULL, &cc))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not create new unique memory ccache: " "%d (%s)\n", rc, error_message(rc)); goto cleanup; } cc_name = slapi_ch_smprintf("%s:%s", cc_type, krb5_cc_get_name(ctx, cc)); #else /* store the cache in memory - krb5_init_context uses malloc to create the ctx, so the address should be unique enough for our purposes */ if (!(cc_name = slapi_ch_smprintf("%s:%p", cc_type, ctx))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could create Kerberos memory ccache: " "out of memory\n"); rc = 1; goto cleanup; } #endif slapi_log_error(authtracelevel, logname, "Generated new memory ccache [%s]\n", cc_name); new_ccache = 1; /* need to set this in env. */ } else { slapi_log_error(authtracelevel, logname, "Using existing ccache [%s]\n", cc_name); } /* krb5_cc_resolve is basically like an init - this creates the cache structure, and creates a slot for the cache in the static linked list in memory, if there is not already a slot - see cc_memory.c for details cc could already have been created by new_unique above */ if (!cc && (rc = krb5_cc_resolve(ctx, cc_name, &cc))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not create ccache [%s]: %d (%s)\n", cc_name, rc, error_message(rc)); goto cleanup; } /* wipe out previous contents of cache for this principal, if any */ if ((rc = krb5_cc_initialize(ctx, cc, princ))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not initialize ccache [%s] for the new " "credentials for principal [%s]: %d (%s)\n", cc_name, princ_name, rc, error_message(rc)); goto cleanup; } /* store the credentials in the cache */ if ((rc = krb5_cc_store_cred(ctx, cc, &creds))) { slapi_log_error(SLAPI_LOG_FATAL, logname, "Could not store the credentials in the " "ccache [%s] for principal [%s]: %d (%s)\n", cc_name, princ_name, rc, error_message(rc)); goto cleanup; } /* now, do a "klist" to show the credential information, and log it */ show_cached_credentials(authtracelevel, ctx, cc, princ); /* set the CC env var to the value of the cc cache name */ /* since we can't pass krb5 context up and out of here and down through the ldap sasl layer, we set this env var so that calls to krb5_cc_default_name will use this */ if (new_ccache) { PR_snprintf(cc_env_name, sizeof(cc_env_name), "%s=%s", KRB5_ENV_CCNAME, cc_name); PR_SetEnv(cc_env_name); slapi_log_error(authtracelevel, logname, "Set new env for ccache: [%s]\n", cc_env_name); } cleanup: /* use NULL as username and authid */ slapi_ch_free_string(&vals->username); slapi_ch_free_string(&vals->authid); krb5_free_unparsed_name(ctx, princ_name); if (kt) { /* NULL not allowed */ krb5_kt_close(ctx, kt); } if (creds.client == princ) { creds.client = NULL; } krb5_free_cred_contents(ctx, &creds); slapi_ch_free_string(&cc_name); krb5_free_principal(ctx, princ); if (cc) { krb5_cc_close(ctx, cc); } if (ctx) { /* cannot pass NULL to free context */ krb5_free_context(ctx); } return; } #endif /* HAVE_KRB5 */