/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2012 Milan Jurik. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ns_sldap.h" #include "ns_internal.h" #include "ns_connmgmt.h" #include "ns_cache_door.h" /* Additional headers for addTypedEntry Conversion routines */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static int send_to_cachemgr(const char *, ns_ldap_attr_t **, ns_ldap_error_t **); static int escape_str(char *, char *); /* * If the rdn is a mapped attr: * return NS_LDAP_SUCCESS and a new_dn. * If no mapped attr is found in the rdn: * return NS_LDAP_SUCCESS and *new_dn == NULL * For example: * service = abc * dn = cn=foo,dc=bar,dc=com * attributeMapping: abc:cn=sn * Then: * new_dn = sn=foo,dc=bar,dc=com * */ static int replace_mapped_attr_in_dn( const char *service, const char *dn, char **new_dn) { char **mappedattr; char **dnArray = NULL; char *rservice; char *cur = NULL; int len = 0, orig_len = 0, mapped_len = 0; int dn_len = 0; *new_dn = NULL; /* * separate dn into individual componets * e.g. * "automountKey=user_01" , "automountMapName_test=auto_home", ... */ dnArray = ldap_explode_dn(dn, 0); if (!dnArray || !*dnArray) return (NS_LDAP_INVALID_PARAM); cur = strchr(dnArray[0], '='); if (!cur) { __s_api_free2dArray(dnArray); return (NS_LDAP_INVALID_PARAM); } *cur = '\0'; /* we only check schema mapping for automount, not for auto_* */ if (strncasecmp(service, NS_LDAP_TYPE_AUTOMOUNT, sizeof (NS_LDAP_TYPE_AUTOMOUNT) - 1) == 0) rservice = "automount"; else rservice = (char *)service; mappedattr = __ns_ldap_getMappedAttributes(rservice, dnArray[0]); if (!mappedattr || !mappedattr[0]) { __s_api_free2dArray(dnArray); if (mappedattr) __s_api_free2dArray(mappedattr); return (NS_LDAP_SUCCESS); } orig_len = strlen(dnArray[0]); /* * The new length is *dn length + (difference between * orig attr and mapped attr) + 1 ; * e.g. * automountKey=aa,automountMapName=auto_home,dc=foo,dc=com * ==> * cn=aa,automountMapName=auto_home,dc=foo,dc=com */ mapped_len = strlen(mappedattr[0]); dn_len = strlen(dn); len = dn_len - orig_len + mapped_len + 1; *new_dn = (char *)calloc(1, len); if (*new_dn == NULL) { __s_api_free2dArray(dnArray); __s_api_free2dArray(mappedattr); return (NS_LDAP_MEMORY); } (void) snprintf(*new_dn, len, "%s=%s", mappedattr[0], dn + orig_len +1); __s_api_free2dArray(dnArray); __s_api_free2dArray(mappedattr); return (NS_LDAP_SUCCESS); } /* * The following function is only used by the * "gecos" 1 to N attribute mapping code. It expects * and handle only one data/length pair. */ static int init_bval_mod( LDAPMod *mod, int mop, char *mtype, char *mvptr, int mvlen) { struct berval **bmodval; /* dup attribute name */ mod->mod_type = strdup(mtype); if (mod->mod_type == NULL) return (-1); /* * assume single value, * since only one value/length pair passed in */ bmodval = (struct berval **)calloc(2, sizeof (struct berval *)); if (bmodval == NULL) { free(mod->mod_type); mod->mod_type = NULL; return (-1); } bmodval[0] = (struct berval *)calloc(1, sizeof (struct berval)); if (bmodval[0] == NULL) { free(mod->mod_type); mod->mod_type = NULL; free(bmodval); return (-1); } /* set pointer to data */ bmodval[0]->bv_val = mvptr; /* set length */ bmodval[0]->bv_len = mvlen; /* * turn on the BVALUE bit to indicate * that the length of data is supplied */ mod->mod_op = mop | LDAP_MOD_BVALUES; mod->mod_bvalues = bmodval; return (0); } static void freeModList(LDAPMod **mods) { int i, j; int name_is_oc; if (mods == NULL) return; for (i = 0; mods[i]; i++) { /* free attribute name */ name_is_oc = FALSE; if (mods[i]->mod_type) { if (strcasecmp(mods[i]->mod_type, "objectclass") == 0) name_is_oc = TRUE; free(mods[i]->mod_type); } if (mods[i]->mod_bvalues == NULL) continue; /* * LDAP_MOD_BVALUES is only set by * the "gecos" 1 to N attribute mapping * code, and the attribute is single valued. */ if (mods[i]->mod_op & LDAP_MOD_BVALUES) { if (mods[i]->mod_bvalues[0]) free(mods[i]->mod_bvalues[0]); } else { if (name_is_oc) { /* * only values for the "objectclass" * were dupped using strdup. * other attribute values were * not dupped, but via pointer * assignment. So here the * values for "objectclass" * is freed one by one, * but the values for other * attributes need not be freed. */ for (j = 0; mods[i]->mod_values[j]; j++) free(mods[i]->mod_values[j]); } } free(mods[i]->mod_bvalues); } /* modlist */ free((char *)(mods[0])); free(mods); } static LDAPMod ** __s_api_makeModListCount( const char *service, const ns_ldap_attr_t * const *attr, const int mod_op, const int count, const int flags) { LDAPMod **mods, *modlist; char **modval; char **mapping; int i; int j; int k, rc, vlen; char *c, *comma1 = NULL, *comma2 = NULL; int schema_mapping_existed = FALSE; int auto_service = FALSE; /* * add 2 for "gecos" 1 to up to 3 attribute mapping */ mods = (LDAPMod **)calloc((count + 3), sizeof (LDAPMod *)); if (mods == NULL) { return (NULL); } /* * add 2 for "gecos" 1 to up to 3 attribute mapping */ modlist = (LDAPMod *)calloc(count + 2, sizeof (LDAPMod)); if (modlist == NULL) { free(mods); return (NULL); } if (service != NULL && strncasecmp(service, NS_LDAP_TYPE_AUTOMOUNT, sizeof (NS_LDAP_TYPE_AUTOMOUNT) - 1) == 0) auto_service = TRUE; /* * see if schema mapping existed for the given service */ mapping = __ns_ldap_getOrigAttribute(service, NS_HASH_SCHEMA_MAPPING_EXISTED); if (mapping) { schema_mapping_existed = TRUE; __s_api_free2dArray(mapping); mapping = NULL; } for (i = 0, k = 0; k < count && attr[k] != NULL; i++, k++) { mods[i] = &modlist[i]; mods[i]->mod_op = mod_op; /* * Perform attribute mapping if necessary. */ if (schema_mapping_existed && (flags & NS_LDAP_NOMAP) == 0) { mapping = __ns_ldap_getMappedAttributes(service, attr[k]->attrname); } else mapping = NULL; if (mapping == NULL && auto_service && (flags & NS_LDAP_NOMAP) == 0) { /* * if service == auto_xxx and * no mapped attribute is found * and NS_LDAP_NOMAP is not set * then try automount's mapped attribute */ mapping = __ns_ldap_getMappedAttributes("automount", attr[k]->attrname); } if (mapping == NULL) { mods[i]->mod_type = strdup(attr[k]->attrname); if (mods[i]->mod_type == NULL) goto free_memory; } else { /* * 1 to N attribute mapping is only done for "gecos", * and only 1 to 3 mapping. * nine cases here: * * A. attrMap=passwd:gecos=a * 1. gecos="xx,yy,zz" -> a="xx,yy,zz" * 2. gecos="xx,yy" -> a="xx,yy" * 3. gecos="xx" -> a="xx" * * B. attrMap=passwd:gecos=a b * 4. gecos="xx,yy,zz" -> a="xx" b="yy,zz" * 5. gecos="xx,yy" -> a="xx" b="yy" * 6. gecos="xx" -> a="xx" * * C. attrMap=passwd:gecos=a b c * 7. gecos="xx,yy,zz" -> a="xx" b="yy" c="zz" * 8. gecos="xx,yy" -> a="xx" b="yy" * 9. gecos="xx" -> a="xx" * * This can be grouped as: * * c1 cases: 1,2,3,6,9 * if ((attrMap=passwd:gecos=a) || * (no "," in gecos value)) * same as other no-mapping attributes, * no special processing needed * else * * c2 cases: 4,5,8 * if ((attrMap=passwd:gecos=a b) || * (only one "," in gecos value)) * a=xx b=yy[,...] * else * * c3 case: 7 * a=xx b=yy c=... * * notes: in case c2 and c3, ... could still contain "," */ if (strcasecmp(service, "passwd") == 0 && strcasecmp(attr[k]->attrname, "gecos") == 0 && mapping[1] && attr[k]->attrvalue[0] && (comma1 = strchr(attr[k]->attrvalue[0], COMMATOK)) != NULL) { /* is there a second comma? */ if (*(comma1 + 1) != '\0') comma2 = strchr(comma1 + 1, COMMATOK); /* * Process case c2 or c3. * case c2: mapped to two attributes or just * one comma */ if (mapping[2] == NULL || comma2 == NULL) { /* case c2 */ /* * int mod structure for the first attribute */ vlen = comma1 - attr[k]->attrvalue[0]; c = attr[k]->attrvalue[0]; if (vlen > 0 && c) { rc = init_bval_mod(mods[i], mod_op, mapping[0], c, vlen); if (rc != 0) goto free_memory; } else { /* don't leave a hole in mods array */ mods[i] = NULL; i--; } /* * init mod structure for the 2nd attribute */ if (*(comma1 + 1) == '\0') { __s_api_free2dArray(mapping); mapping = NULL; continue; } i++; mods[i] = &modlist[i]; /* * get pointer to data. * Skip leading spaces. */ for (c = comma1 + 1; *c == SPACETOK; c++) { /* empty */ } /* get data length */ vlen = strlen(attr[k]->attrvalue[0]) - (c - attr[k]->attrvalue[0]); if (vlen > 0 && c) { rc = init_bval_mod(mods[i], mod_op, mapping[1], c, vlen); if (rc != 0) goto free_memory; } else { /* don't leave a hole in mods array */ mods[i] = NULL; i--; } /* done with the mapping array */ __s_api_free2dArray(mapping); mapping = NULL; continue; } else { /* case c3 */ /* * int mod structure for the first attribute */ vlen = comma1 - attr[k]->attrvalue[0]; c = attr[k]->attrvalue[0]; if (vlen > 0 && c) { rc = init_bval_mod(mods[i], mod_op, mapping[0], c, vlen); if (rc != 0) goto free_memory; } else { /* don't leave a hole in mods array */ mods[i] = NULL; i--; } /* * init mod structure for the 2nd attribute */ i++; mods[i] = &modlist[i]; /* * get pointer to data. * Skip leading spaces. */ for (c = comma1 + 1; *c == SPACETOK; c++) { /* empty */ }; /* get data length */ vlen = comma2 - c; if (vlen > 0 && c) { rc = init_bval_mod(mods[i], mod_op, mapping[1], c, vlen); if (rc != 0) goto free_memory; } else { /* don't leave a hole in mods array */ mods[i] = NULL; i--; } /* * init mod structure for the 3rd attribute */ if (*(comma2 + 1) == '\0') { __s_api_free2dArray(mapping); mapping = NULL; continue; } i++; mods[i] = &modlist[i]; /* * get pointer to data. * Skip leading spaces. */ for (c = comma2 + 1; *c == SPACETOK; c++) { /* empty */ } /* get data length */ vlen = strlen(attr[k]->attrvalue[0]) - (c - attr[k]->attrvalue[0]); if (vlen > 0 && c) { rc = init_bval_mod(mods[i], mod_op, mapping[2], c, vlen); if (rc != 0) goto free_memory; } else { /* don't leave a hole in mods array */ mods[i] = NULL; i--; } /* done with the mapping array */ __s_api_free2dArray(mapping); mapping = NULL; continue; } } /* case c1 */ mods[i]->mod_type = strdup(mapping[0]); if (mods[i]->mod_type == NULL) { goto free_memory; } __s_api_free2dArray(mapping); mapping = NULL; } modval = (char **)calloc(attr[k]->value_count+1, sizeof (char *)); if (modval == NULL) goto free_memory; /* * Perform objectclass mapping. * Note that the values for the "objectclass" attribute * will be dupped using strdup. Values for other * attributes will be referenced via pointer * assignments. */ if (strcasecmp(mods[i]->mod_type, "objectclass") == 0) { for (j = 0; j < attr[k]->value_count; j++) { if (schema_mapping_existed && (flags & NS_LDAP_NOMAP) == 0) mapping = __ns_ldap_getMappedObjectClass( service, attr[k]->attrvalue[j]); else mapping = NULL; if (mapping == NULL && auto_service && (flags & NS_LDAP_NOMAP) == 0) /* * if service == auto_xxx and * no mapped objectclass is found * then try automount */ mapping = __ns_ldap_getMappedObjectClass( "automount", attr[k]->attrvalue[j]); if (mapping && mapping[0]) { /* assume single mapping */ modval[j] = strdup(mapping[0]); } else { modval[j] = strdup(attr[k]-> attrvalue[j]); } if (modval[j] == NULL) goto free_memory; } } else { for (j = 0; j < attr[k]->value_count; j++) { /* ASSIGN NOT COPY */ modval[j] = attr[k]->attrvalue[j]; } } mods[i]->mod_values = modval; } return (mods); free_memory: freeModList(mods); if (mapping) __s_api_free2dArray(mapping); return (NULL); } static LDAPMod ** __s_api_makeModList( const char *service, const ns_ldap_attr_t * const *attr, const int mod_op, const int flags) { ns_ldap_attr_t **aptr = (ns_ldap_attr_t **)attr; int count = 0; if (aptr == NULL) return (NULL); /* count number of attributes */ while (*aptr++) count++; return (__s_api_makeModListCount(service, attr, mod_op, count, flags)); } static void __s_cvt_freeEntryRdn(ns_ldap_entry_t **entry, char **rdn) { if (*entry != NULL) { __ns_ldap_freeEntry(*entry); *entry = NULL; } if (*rdn != NULL) { free(*rdn); *rdn = NULL; } } /* * This state machine performs one or more LDAP add/delete/modify * operations to configured LDAP servers. */ static int write_state_machine( int ldap_op, char *dn, LDAPMod **mods, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { ConnectionID connectionId = -1; Connection *conp = NULL; LDAPMessage *res; char *target_dn = NULL; char errstr[MAXERROR]; int rc = NS_LDAP_SUCCESS; int return_rc = NS_LDAP_SUCCESS; int followRef = FALSE; int target_dn_allocated = FALSE; int len; int msgid; int Errno; boolean_t from_get_lderrno = B_FALSE; int always = 1; char *err, *errmsg = NULL; /* referrals returned by the LDAP operation */ char **referrals = NULL; /* * list of referrals used by the state machine, built from * the referrals variable above */ ns_referral_info_t *ref_list = NULL; /* current referral */ ns_referral_info_t *current_ref = NULL; ns_write_state_t state = W_INIT, new_state, err_state = W_INIT; int do_not_fail_if_new_pwd_reqd = 0; ns_ldap_passwd_status_t pwd_status = NS_PASSWD_GOOD; int passwd_mgmt = 0; int i = 0; int ldap_error; int nopasswd_acct_mgmt = 0; ns_conn_user_t *conn_user = NULL; while (always) { switch (state) { case W_EXIT: /* return the MT connection and free the conn user */ if (conn_user != NULL) { if (conn_user->use_mt_conn == B_TRUE) { if (conn_user->ns_error != NULL) { *errorp = conn_user->ns_error; conn_user->ns_error = NULL; return_rc = conn_user->ns_rc; } if (conn_user->conn_mt != NULL) __s_api_conn_mt_return( conn_user); } __s_api_conn_user_free(conn_user); } if (connectionId > -1) DropConnection(connectionId, NS_LDAP_NEW_CONN); if (ref_list) __s_api_deleteRefInfo(ref_list); if (target_dn && target_dn_allocated) free(target_dn); return (return_rc); case W_INIT: /* see if need to follow referrals */ rc = __s_api_toFollowReferrals(flags, &followRef, errorp); if (rc != NS_LDAP_SUCCESS) { return_rc = rc; new_state = W_ERROR; break; } len = strlen(dn); if (dn[len-1] == COMMATOK) rc = __s_api_append_default_basedn( dn, &target_dn, &target_dn_allocated, errorp); else target_dn = dn; if (rc != NS_LDAP_SUCCESS) { return_rc = rc; new_state = W_ERROR; } else new_state = GET_CONNECTION; break; case GET_CONNECTION: /* identify self as a write user */ conn_user = __s_api_conn_user_init(NS_CONN_USER_WRITE, NULL, B_FALSE); rc = __s_api_getConnection(NULL, flags, cred, &connectionId, &conp, errorp, do_not_fail_if_new_pwd_reqd, nopasswd_acct_mgmt, conn_user); /* * If password control attached * in *errorp, * e.g. rc == NS_LDAP_SUCCESS_WITH_INFO, * free the error structure (we do not need * the password management info). * Reset rc to NS_LDAP_SUCCESS. */ if (rc == NS_LDAP_SUCCESS_WITH_INFO) { (void) __ns_ldap_freeError(errorp); *errorp = NULL; rc = NS_LDAP_SUCCESS; } if (rc != NS_LDAP_SUCCESS) { return_rc = rc; new_state = W_ERROR; break; } if (followRef) new_state = SELECT_OPERATION_ASYNC; else new_state = SELECT_OPERATION_SYNC; break; case SELECT_OPERATION_SYNC: if (ldap_op == LDAP_REQ_ADD) new_state = DO_ADD_SYNC; else if (ldap_op == LDAP_REQ_DELETE) new_state = DO_DELETE_SYNC; else if (ldap_op == LDAP_REQ_MODIFY) new_state = DO_MODIFY_SYNC; break; case SELECT_OPERATION_ASYNC: if (ldap_op == LDAP_REQ_ADD) new_state = DO_ADD_ASYNC; else if (ldap_op == LDAP_REQ_DELETE) new_state = DO_DELETE_ASYNC; else if (ldap_op == LDAP_REQ_MODIFY) new_state = DO_MODIFY_ASYNC; break; case DO_ADD_SYNC: rc = ldap_add_ext_s(conp->ld, target_dn, mods, NULL, NULL); new_state = GET_RESULT_SYNC; break; case DO_DELETE_SYNC: rc = ldap_delete_ext_s(conp->ld, target_dn, NULL, NULL); new_state = GET_RESULT_SYNC; break; case DO_MODIFY_SYNC: rc = ldap_modify_ext_s(conp->ld, target_dn, mods, NULL, NULL); new_state = GET_RESULT_SYNC; break; case DO_ADD_ASYNC: rc = ldap_add_ext(conp->ld, target_dn, mods, NULL, NULL, &msgid); new_state = GET_RESULT_ASYNC; break; case DO_DELETE_ASYNC: rc = ldap_delete_ext(conp->ld, target_dn, NULL, NULL, &msgid); new_state = GET_RESULT_ASYNC; break; case DO_MODIFY_ASYNC: rc = ldap_modify_ext(conp->ld, target_dn, mods, NULL, NULL, &msgid); new_state = GET_RESULT_ASYNC; break; case GET_RESULT_SYNC: if (rc != LDAP_SUCCESS) { Errno = rc; (void) ldap_get_lderrno(conp->ld, NULL, &errmsg); /* * No need to deal with the error message if * it's an empty string. */ if (errmsg != NULL && *errmsg == '\0') errmsg = NULL; if (errmsg != NULL) { /* * ldap_get_lderrno does not expect * errmsg to be freed after use, while * ldap_parse_result below does, so set * a flag to indicate source. */ from_get_lderrno = B_TRUE; } new_state = W_LDAP_ERROR; } else { return_rc = NS_LDAP_SUCCESS; new_state = W_EXIT; } break; case GET_RESULT_ASYNC: rc = ldap_result(conp->ld, msgid, 1, (struct timeval *)NULL, &res); /* if no server response, set Errno */ if (rc == -1) { (void) ldap_get_option(conp->ld, LDAP_OPT_ERROR_NUMBER, &Errno); new_state = W_LDAP_ERROR; break; } if (rc == LDAP_RES_ADD || rc == LDAP_RES_MODIFY || rc == LDAP_RES_DELETE) { new_state = PARSE_RESULT; break; } else { return_rc = rc; new_state = W_ERROR; } break; case PARSE_RESULT: /* * need Errno, referrals, error msg, * and the last "1" is to free * the result (res) */ rc = ldap_parse_result(conp->ld, res, &Errno, NULL, &errmsg, &referrals, NULL, 1); /* * free errmsg if it is an empty string */ if (errmsg && *errmsg == '\0') { ldap_memfree(errmsg); errmsg = NULL; } /* * If we received referral data, process * it if: * - we are configured to follow referrals * - and not already in referral mode (to keep * consistency with search_state_machine() * which follows 1 level of referrals only; * see proc_result_referrals() and * proc_search_references(). */ if (Errno == LDAP_REFERRAL && followRef && !ref_list) { for (i = 0; referrals[i] != NULL; i++) { /* add to referral list */ rc = __s_api_addRefInfo(&ref_list, referrals[i], NULL, NULL, NULL, conp->ld); if (rc != NS_LDAP_SUCCESS) { __s_api_deleteRefInfo(ref_list); ref_list = NULL; break; } } ldap_value_free(referrals); if (ref_list == NULL) { if (rc != NS_LDAP_MEMORY) rc = NS_LDAP_INTERNAL; return_rc = rc; new_state = W_ERROR; } else { new_state = GET_REFERRAL_CONNECTION; current_ref = ref_list; } if (errmsg) { ldap_memfree(errmsg); errmsg = NULL; } break; } if (Errno != LDAP_SUCCESS) { new_state = W_LDAP_ERROR; } else { return_rc = NS_LDAP_SUCCESS; new_state = W_EXIT; } break; case GET_REFERRAL_CONNECTION: /* * since we are starting over, * discard the old error info */ return_rc = NS_LDAP_SUCCESS; if (*errorp) (void) __ns_ldap_freeError(errorp); if (connectionId > -1) DropConnection(connectionId, NS_LDAP_NEW_CONN); /* set it up to use a referral connection */ if (conn_user != NULL) { /* * If an MT connection is being used, * return it to the pool. */ if (conn_user->conn_mt != NULL) __s_api_conn_mt_return(conn_user); conn_user->referral = B_TRUE; } rc = __s_api_getConnection(current_ref->refHost, 0, cred, &connectionId, &conp, errorp, do_not_fail_if_new_pwd_reqd, nopasswd_acct_mgmt, conn_user); /* * If password control attached * in errorp, * e.g. rc == NS_LDAP_SUCCESS_WITH_INFO, * free the error structure (we do not need * the password management info). * Reset rc to NS_LDAP_SUCCESS. */ if (rc == NS_LDAP_SUCCESS_WITH_INFO) { (void) __ns_ldap_freeError(errorp); *errorp = NULL; rc = NS_LDAP_SUCCESS; } if (rc != NS_LDAP_SUCCESS) { return_rc = rc; /* * If current referral is not * available for some reason, * try next referral in the list. * Get LDAP error code from errorp. */ if (*errorp != NULL) { ns_write_state_t get_ref = GET_REFERRAL_CONNECTION; ldap_error = (*errorp)->status; if (ldap_error == LDAP_BUSY || ldap_error == LDAP_UNAVAILABLE || ldap_error == LDAP_UNWILLING_TO_PERFORM || ldap_error == LDAP_CONNECT_ERROR || ldap_error == LDAP_SERVER_DOWN) { current_ref = current_ref->next; if (current_ref == NULL) { /* no more referral to follow */ new_state = W_ERROR; } else new_state = get_ref; /* * free errorp before going to * next referral */ (void) __ns_ldap_freeError( errorp); *errorp = NULL; break; } /* * free errorp before going to W_ERROR */ (void) __ns_ldap_freeError(errorp); *errorp = NULL; } /* else, exit */ __s_api_deleteRefInfo(ref_list); ref_list = NULL; new_state = W_ERROR; if (conn_user != NULL) conn_user->referral = B_FALSE; break; } /* target DN may changed due to referrals */ if (current_ref->refDN) { if (target_dn && target_dn_allocated) { free(target_dn); target_dn = NULL; target_dn_allocated = FALSE; } target_dn = current_ref->refDN; } new_state = SELECT_OPERATION_SYNC; break; case W_LDAP_ERROR: /* * map error code and error message * to password status if necessary. * This is to see if password updates * failed due to password policy or * password syntax checking. */ if (errmsg) { /* * check if server supports * password management */ passwd_mgmt = __s_api_contain_passwd_control_oid( conp->controls); if (passwd_mgmt) pwd_status = __s_api_set_passwd_status( Errno, errmsg); /* * free only if not returned by ldap_get_lderrno */ if (!from_get_lderrno) ldap_memfree(errmsg); errmsg = NULL; from_get_lderrno = B_FALSE; } (void) snprintf(errstr, sizeof (errstr), "%s", ldap_err2string(Errno)); err = strdup(errstr); if (pwd_status != NS_PASSWD_GOOD) { MKERROR_PWD_MGMT(*errorp, Errno, err, pwd_status, 0, NULL); } else { MKERROR(LOG_INFO, *errorp, Errno, err, NULL); } if (conn_user != NULL && (Errno == LDAP_SERVER_DOWN || Errno == LDAP_CONNECT_ERROR)) { __s_api_conn_mt_close(conn_user, Errno, errorp); } return_rc = NS_LDAP_INTERNAL; new_state = W_EXIT; break; case W_ERROR: default: (void) sprintf(errstr, gettext("Internal write State machine exit" " (state = %d, rc = %d)."), err_state, return_rc); err = strdup(errstr); MKERROR(LOG_WARNING, *errorp, return_rc, err, NULL); new_state = W_EXIT; break; } if (new_state == W_ERROR) err_state = state; if (conn_user != NULL && conn_user->bad_mt_conn == B_TRUE) { __s_api_conn_mt_close(conn_user, 0, NULL); new_state = W_EXIT; } state = new_state; } /* * should never be here, the next line is to eliminating * lint message */ return (NS_LDAP_INTERNAL); } /*ARGSUSED*/ int __ns_ldap_addAttr( const char *service, const char *dn, const ns_ldap_attr_t * const *attr, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { LDAPMod **mods; int rc = 0; #ifdef DEBUG (void) fprintf(stderr, "__ns_ldap_addAttr START\n"); #endif *errorp = NULL; /* Sanity check */ if ((attr == NULL) || (*attr == NULL) || (dn == NULL) || (cred == NULL)) return (NS_LDAP_INVALID_PARAM); mods = __s_api_makeModList(service, attr, LDAP_MOD_ADD, flags); if (mods == NULL) { return (NS_LDAP_MEMORY); } rc = write_state_machine(LDAP_REQ_MODIFY, (char *)dn, mods, cred, flags, errorp); freeModList(mods); return (rc); } /*ARGSUSED*/ int __ns_ldap_delAttr( const char *service, const char *dn, const ns_ldap_attr_t * const *attr, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { LDAPMod **mods; int rc = 0; #ifdef DEBUG (void) fprintf(stderr, "__ns_ldap_delAttr START\n"); #endif *errorp = NULL; /* Sanity check */ if ((attr == NULL) || (*attr == NULL) || (dn == NULL) || (cred == NULL)) return (NS_LDAP_INVALID_PARAM); mods = __s_api_makeModList(service, attr, LDAP_MOD_DELETE, flags); if (mods == NULL) { return (NS_LDAP_MEMORY); } rc = write_state_machine(LDAP_REQ_MODIFY, (char *)dn, mods, cred, flags, errorp); freeModList(mods); return (rc); } /* Retrieve the admin bind password from the configuration, if allowed. */ static int get_admin_passwd(ns_cred_t *cred, ns_ldap_error_t **errorp) { void **paramVal = NULL; int rc, ldaprc; char *modparamVal = NULL; /* * For GSSAPI/Kerberos, host credential is used, no need to get * admin bind password */ if (cred->auth.saslmech == NS_LDAP_SASL_GSSAPI) return (NS_LDAP_SUCCESS); /* * Retrieve admin bind password. * The admin bind password is available * only in the ldap_cachemgr process as * they are not exposed outside of that * process. */ paramVal = NULL; if ((ldaprc = __ns_ldap_getParam(NS_LDAP_ADMIN_BINDPASSWD_P, ¶mVal, errorp)) != NS_LDAP_SUCCESS) return (ldaprc); if (paramVal == NULL || *paramVal == NULL) { rc = NS_LDAP_CONFIG; *errorp = __s_api_make_error(NS_CONFIG_NODEFAULT, gettext("Admin bind password not configured")); if (*errorp == NULL) rc = NS_LDAP_MEMORY; return (rc); } modparamVal = dvalue((char *)*paramVal); (void) memset(*paramVal, 0, strlen((char *)*paramVal)); (void) __ns_ldap_freeParam(¶mVal); if (modparamVal == NULL || *((char *)modparamVal) == '\0') { if (modparamVal != NULL) free(modparamVal); rc = NS_LDAP_CONFIG; *errorp = __s_api_make_error(NS_CONFIG_SYNTAX, gettext("bind password not valid")); if (*errorp == NULL) rc = NS_LDAP_MEMORY; return (rc); } cred->cred.unix_cred.passwd = modparamVal; return (NS_LDAP_SUCCESS); } boolean_t __ns_ldap_is_shadow_update_enabled(void) { int **enable_shadow = NULL; ns_ldap_error_t *errorp = NULL; if (__ns_ldap_getParam(NS_LDAP_ENABLE_SHADOW_UPDATE_P, (void ***)&enable_shadow, &errorp) != NS_LDAP_SUCCESS) { if (errorp) (void) __ns_ldap_freeError(&errorp); return (B_FALSE); } if ((enable_shadow != NULL && *enable_shadow != NULL) && (*enable_shadow[0] == NS_LDAP_ENABLE_SHADOW_UPDATE_TRUE)) { (void) __ns_ldap_freeParam((void ***)&enable_shadow); return (B_TRUE); } if (enable_shadow != NULL) (void) __ns_ldap_freeParam((void ***)&enable_shadow); return (B_FALSE); } /* * __ns_ldap_repAttr modifies ldap attributes of the 'dn' entry stored * on the LDAP server. 'service' indicates the type of database entries * to modify. When the Native LDAP client is configured with 'shadow update * enabled', Shadowshadow(4) entries can only be modified by privileged users. * Such users use the NS_LDAP_UPDATE_SHADOW flag to indicate the call is * for such a shadow(4) update, which would be forwarded to ldap_cachemgr * for performing the LDAP modify operation. ldap_cachemgr would call * this function again and use the special service NS_ADMIN_SHADOW_UPDATE * to identify itself, so that admin credential would be obtained and * the actual LDAP modify operation be done. */ /*ARGSUSED*/ int __ns_ldap_repAttr( const char *service, const char *dn, const ns_ldap_attr_t * const *attr, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { LDAPMod **mods; int rc = 0; boolean_t priv; boolean_t shadow_update_enabled = B_FALSE; #ifdef DEBUG (void) fprintf(stderr, "__ns_ldap_repAttr START\n"); #endif *errorp = NULL; /* Sanity check */ if (attr == NULL || *attr == NULL || dn == NULL) return (NS_LDAP_INVALID_PARAM); /* Privileged shadow modify? */ if ((flags & NS_LDAP_UPDATE_SHADOW) != 0 && strcmp(service, "shadow") == 0) { /* Shadow update enabled ? If not, error out */ shadow_update_enabled = __ns_ldap_is_shadow_update_enabled(); if (!shadow_update_enabled) { *errorp = __s_api_make_error(NS_CONFIG_NOTALLOW, gettext("Shadow Update is not enabled")); return (NS_LDAP_CONFIG); } /* privileged shadow modify requires euid 0 or all zone privs */ priv = (geteuid() == 0); if (!priv) { priv_set_t *ps = priv_allocset(); /* caller */ priv_set_t *zs; /* zone */ (void) getppriv(PRIV_EFFECTIVE, ps); zs = priv_str_to_set("zone", ",", NULL); priv = priv_isequalset(ps, zs); priv_freeset(ps); priv_freeset(zs); } if (!priv) return (NS_LDAP_OP_FAILED); rc = send_to_cachemgr(dn, (ns_ldap_attr_t **)attr, errorp); return (rc); } if (cred == NULL) return (NS_LDAP_INVALID_PARAM); /* * If service is NS_ADMIN_SHADOW_UPDATE, the caller should be * ldap_cachemgr. We need to get the admin cred to do work. * If the caller is not ldap_cachemgr, but use the service * NS_ADMIN_SHADOW_UPDATE, get_admin_passwd() will fail, * as the admin cred is not available to the caller. */ if (strcmp(service, NS_ADMIN_SHADOW_UPDATE) == 0) { if ((rc = get_admin_passwd((ns_cred_t *)cred, errorp)) != NS_LDAP_SUCCESS) return (rc); } mods = __s_api_makeModList(service, attr, LDAP_MOD_REPLACE, flags); if (mods == NULL) return (NS_LDAP_MEMORY); rc = write_state_machine(LDAP_REQ_MODIFY, (char *)dn, mods, cred, flags, errorp); freeModList(mods); return (rc); } /*ARGSUSED*/ int __ns_ldap_addEntry( const char *service, const char *dn, const ns_ldap_entry_t *entry, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { char *new_dn = NULL; LDAPMod **mods = NULL; const ns_ldap_attr_t * const *attr; int nAttr = 0; int rc = 0; #ifdef DEBUG (void) fprintf(stderr, "__ns_ldap_addEntry START\n"); #endif if ((entry == NULL) || (dn == NULL) || (cred == NULL)) return (NS_LDAP_INVALID_PARAM); *errorp = NULL; /* Construct array of LDAPMod representing attributes of new entry. */ nAttr = entry->attr_count; attr = (const ns_ldap_attr_t * const *)(entry->attr_pair); mods = __s_api_makeModListCount(service, attr, LDAP_MOD_ADD, nAttr, flags); if (mods == NULL) { return (NS_LDAP_MEMORY); } rc = replace_mapped_attr_in_dn(service, dn, &new_dn); if (rc != NS_LDAP_SUCCESS) { freeModList(mods); return (rc); } rc = write_state_machine(LDAP_REQ_ADD, new_dn ? new_dn : (char *)dn, mods, cred, flags, errorp); if (new_dn) free(new_dn); freeModList(mods); return (rc); } /*ARGSUSED*/ int __ns_ldap_delEntry( const char *service, const char *dn, const ns_cred_t *cred, const int flags, ns_ldap_error_t ** errorp) { int rc; #ifdef DEBUG (void) fprintf(stderr, "__ns_ldap_delEntry START\n"); #endif if ((dn == NULL) || (cred == NULL)) return (NS_LDAP_INVALID_PARAM); *errorp = NULL; rc = write_state_machine(LDAP_REQ_DELETE, (char *)dn, NULL, cred, flags, errorp); return (rc); } /* * Add Typed Entry Helper routines */ /* * Add Typed Entry Conversion routines */ static int __s_add_attr(ns_ldap_entry_t *e, char *attrname, char *value) { ns_ldap_attr_t *a; char *v; a = (ns_ldap_attr_t *)calloc(1, sizeof (ns_ldap_attr_t)); if (a == NULL) return (NS_LDAP_MEMORY); a->attrname = strdup(attrname); if (a->attrname == NULL) return (NS_LDAP_MEMORY); a->attrvalue = (char **)calloc(1, sizeof (char **)); if (a->attrvalue == NULL) return (NS_LDAP_MEMORY); a->value_count = 1; a->attrvalue[0] = NULL; v = strdup(value); if (v == NULL) return (NS_LDAP_MEMORY); a->attrvalue[0] = v; e->attr_pair[e->attr_count] = a; e->attr_count++; return (NS_LDAP_SUCCESS); } static int __s_add_attrlist(ns_ldap_entry_t *e, char *attrname, char **argv) { ns_ldap_attr_t *a; char *v; char **av; int i, j; a = (ns_ldap_attr_t *)calloc(1, sizeof (ns_ldap_attr_t)); if (a == NULL) return (NS_LDAP_MEMORY); a->attrname = strdup(attrname); if (a->attrname == NULL) return (NS_LDAP_MEMORY); for (i = 0, av = argv; *av != NULL; av++, i++) ; a->attrvalue = (char **)calloc(i, sizeof (char *)); if (a->attrvalue == NULL) return (NS_LDAP_MEMORY); a->value_count = i; for (j = 0; j < i; j++) { v = strdup(argv[j]); if (v == NULL) return (NS_LDAP_MEMORY); a->attrvalue[j] = v; } e->attr_pair[e->attr_count] = a; e->attr_count++; return (NS_LDAP_SUCCESS); } static ns_ldap_entry_t * __s_mk_entry(char **objclass, int max_attr) { ns_ldap_entry_t *e; e = (ns_ldap_entry_t *)calloc(1, sizeof (ns_ldap_entry_t)); if (e == NULL) return (NULL); /* allocate attributes, +1 for objectclass, +1 for NULL terminator */ e->attr_pair = (ns_ldap_attr_t **) calloc(max_attr + 2, sizeof (ns_ldap_attr_t *)); if (e->attr_pair == NULL) { free(e); return (NULL); } e->attr_count = 0; if (__s_add_attrlist(e, "objectClass", objclass) != NS_LDAP_SUCCESS) { free(e->attr_pair); free(e); return (NULL); } return (e); } /* * Conversion: passwd * Input format: struct passwd * Exported objectclass: posixAccount */ static int __s_cvt_passwd(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct passwd *ptr; int max_attr = 9; char ibuf[10]; static char *oclist[] = { "posixAccount", "shadowAccount", "account", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct passwd *)data; if (ptr->pw_name == NULL || ptr->pw_uid > MAXUID || ptr->pw_gid > MAXUID || ptr->pw_dir == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "uid=%s", ptr->pw_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "uid", ptr->pw_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "cn", ptr->pw_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->pw_passwd != NULL && ptr->pw_passwd[0] != '\0') { rc = __s_add_attr(e, "userPassword", ptr->pw_passwd); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } (void) sprintf(ibuf, "%u", ptr->pw_uid); rc = __s_add_attr(e, "uidNumber", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } (void) sprintf(ibuf, "%u", ptr->pw_gid); rc = __s_add_attr(e, "gidNumber", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->pw_gecos != NULL && ptr->pw_gecos[0] != '\0') { rc = __s_add_attr(e, "gecos", ptr->pw_gecos); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } rc = __s_add_attr(e, "homeDirectory", ptr->pw_dir); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->pw_shell != NULL && ptr->pw_shell[0] != '\0') { rc = __s_add_attr(e, "loginShell", ptr->pw_shell); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * escape_str function escapes special characters in str and * copies to escstr string. * * return 0 for successful * 1 for fail */ static int escape_str(char *escstr, char *str) { int index = 0; while ((*str != '\0') && (index < (RDNSIZE - 1))) { if (*str == '+' || *str == ';' || *str == '>' || *str == '<' || *str == ',' || *str == '"' || *str == '\\' || *str == '=' || (*str == '#' && index == 0)) { *escstr++ = '\\'; *escstr++ = *str++; index += 2; } else { *escstr++ = *str++; index++; } } if (*str == '\0') { *escstr = '\0'; return (0); } else { return (1); } } /* * Conversion: project * Input format: struct project * Exported objectclass: SolarisProject */ static int __s_cvt_project(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct project *ptr; int max_attr = 9; char ibuf[11]; static char *oclist[] = { "SolarisProject", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct project *)data; if (ptr->pj_name == NULL || ptr->pj_projid > MAXUID) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "SolarisProjectName=%s", ptr->pj_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ /* Project name */ rc = __s_add_attr(e, "SolarisProjectName", ptr->pj_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* * Project ID: * ibuf is 11 chars big, which should be enough for string * representation of 32bit number + nul-car */ if (snprintf(ibuf, sizeof (ibuf), "%u", ptr->pj_projid) < 0) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_INVALID_PARAM); } rc = __s_add_attr(e, "SolarisProjectID", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* Comment/Description */ if (ptr->pj_comment != NULL && ptr->pj_comment[0] != '\0') { rc = __s_add_attr(e, "description", ptr->pj_comment); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } /* Attributes */ if (ptr->pj_attr != NULL && ptr->pj_attr[0] != '\0') { rc = __s_add_attr(e, "SolarisProjectAttr", ptr->pj_attr); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } /* Users */ if (ptr->pj_users != NULL) { rc = __s_add_attrlist(e, "memberUid", ptr->pj_users); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } /* Groups */ if (ptr->pj_groups != NULL) { rc = __s_add_attrlist(e, "memberGid", ptr->pj_groups); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: shadow * Input format: struct shadow * Exported objectclass: shadowAccount */ static int __s_cvt_shadow(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct spwd *ptr; int max_attr = 10; char ibuf[10]; static char *oclist[] = { "posixAccount", "shadowAccount", "account", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct spwd *)data; if (ptr->sp_namp == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "uid=%s", ptr->sp_namp); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "uid", ptr->sp_namp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->sp_pwdp == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_INVALID_PARAM); } else { rc = __s_add_attr(e, "userPassword", ptr->sp_pwdp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_lstchg >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_lstchg); rc = __s_add_attr(e, "shadowLastChange", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_min >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_min); rc = __s_add_attr(e, "shadowMin", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_max >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_max); rc = __s_add_attr(e, "shadowMax", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_warn >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_warn); rc = __s_add_attr(e, "shadowWarning", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_inact >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_inact); rc = __s_add_attr(e, "shadowInactive", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->sp_expire >= 0) { (void) sprintf(ibuf, "%d", ptr->sp_expire); rc = __s_add_attr(e, "shadowExpire", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } (void) sprintf(ibuf, "%d", ptr->sp_flag); rc = __s_add_attr(e, "shadowFlag", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: group * Input format: struct group * Exported objectclass: posixGroup */ static int __s_cvt_group(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct group *ptr; int i, j, k; char **nm, **lm; int max_attr = 4; char ibuf[10]; static char *oclist[] = { "posixGroup", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct group *)data; if (ptr->gr_name == NULL || ptr->gr_gid > MAXUID) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->gr_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "cn", ptr->gr_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } (void) sprintf(ibuf, "%u", ptr->gr_gid); rc = __s_add_attr(e, "gidNumber", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->gr_passwd && ptr->gr_passwd[0] != '\0') { rc = __s_add_attr(e, "userPassword", ptr->gr_passwd); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->gr_mem && ptr->gr_mem[0]) { lm = ptr->gr_mem; for (i = 0; *lm; i++, lm++) ; lm = ptr->gr_mem; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) { nm[j] = strdup(lm[j]); if (nm[j] == NULL) { for (k = 0; k < j; k++) free(nm[k]); free(nm); __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } } rc = __s_add_attrlist(e, "memberUid", nm); for (j = 0; j < i; j++) { free(nm[j]); } free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: hosts * Input format: struct hostent * Exported objectclass: ipHost */ static int __s_cvt_hosts(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct hostent *ptr; int max_attr = 6; int i, j, k; char **nm, **lm; static char *oclist[] = { "ipHost", "device", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct hostent *)data; if (ptr->h_name == NULL || ptr->h_addr_list == NULL || ptr->h_addr_list[0] == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s+ipHostNumber=%s", ptr->h_name, ptr->h_addr_list[0]); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ if (ptr->h_aliases && ptr->h_aliases[0]) { lm = ptr->h_aliases; /* * If there is a description, 'i' will contain * the index of the description in the aliases list */ for (i = 0; *lm && (*lm)[0] != '#'; i++, lm++) ; lm = ptr->h_aliases; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } nm[0] = ptr->h_name; for (j = 0; j < i; j++) nm[j+1] = ptr->h_aliases[j]; rc = __s_add_attrlist(e, "cn", nm); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); free(nm); return (rc); } if (lm[i] && lm[i][0] == '#') { nm[0] = &(lm[i][1]); nm[1] = NULL; rc = __s_add_attrlist(e, "description", nm); } free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { rc = __s_add_attr(e, "cn", ptr->h_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->h_addr_list && ptr->h_addr_list[0]) { lm = ptr->h_addr_list; for (i = 0; *lm; i++, lm++) ; lm = ptr->h_addr_list; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) { nm[j] = strdup(lm[j]); if (nm[j] == NULL) { for (k = 0; k < j; k++) free(nm[k]); free(nm); __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } } rc = __s_add_attrlist(e, "ipHostNumber", nm); for (j = 0; j < i; j++) { free(nm[j]); } free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_INVALID_PARAM); } return (NS_LDAP_SUCCESS); } /* * Conversion: rpc * Input format: struct rpcent * Exported objectclass: oncRpc */ static int __s_cvt_rpc(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct rpcent *ptr; int max_attr = 3; int i, j; char **nm; char ibuf[10]; static char *oclist[] = { "oncRpc", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct rpcent *)data; if (ptr->r_name == NULL || ptr->r_number < 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->r_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ if (ptr->r_aliases && ptr->r_aliases[0]) { nm = ptr->r_aliases; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } nm[0] = ptr->r_name; for (j = 0; j < i; j++) nm[j+1] = ptr->r_aliases[j]; rc = __s_add_attrlist(e, "cn", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { rc = __s_add_attr(e, "cn", ptr->r_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->r_number >= 0) { (void) sprintf(ibuf, "%d", ptr->r_number); rc = __s_add_attr(e, "oncRpcNumber", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: protocols * Input format: struct protoent * Exported objectclass: ipProtocol */ static int __s_cvt_protocols(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct protoent *ptr; int max_attr = 3; int i, j; char ibuf[10]; char **nm; static char *oclist[] = { "ipProtocol", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct protoent *)data; if (ptr->p_name == NULL || ptr->p_proto < 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->p_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ if (ptr->p_aliases && ptr->p_aliases[0]) { nm = ptr->p_aliases; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } nm[0] = ptr->p_name; for (j = 0; j < i; j++) nm[j+1] = ptr->p_aliases[j]; rc = __s_add_attrlist(e, "cn", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { rc = __s_add_attr(e, "cn", ptr->p_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } (void) sprintf(ibuf, "%d", ptr->p_proto); rc = __s_add_attr(e, "ipProtocolNumber", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: services * Input format: struct servent * Exported objectclass: ipService */ static int __s_cvt_services(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; char esc_str[RDNSIZE]; /* routine specific */ struct servent *ptr; int max_attr = 4; int i, j; char ibuf[10]; char **nm; static char *oclist[] = { "ipService", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct servent *)data; if (ptr->s_name == NULL || ptr->s_port < 0 || ptr->s_proto == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* * Escape special characters in service name. */ if (escape_str(esc_str, ptr->s_name) != 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s+ipServiceProtocol=%s", esc_str, ptr->s_proto); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ if (ptr->s_aliases && ptr->s_aliases[0]) { nm = ptr->s_aliases; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } nm[0] = ptr->s_name; for (j = 0; j < i; j++) nm[j+1] = ptr->s_aliases[j]; rc = __s_add_attrlist(e, "cn", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { rc = __s_add_attr(e, "cn", ptr->s_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } (void) sprintf(ibuf, "%d", ptr->s_port); rc = __s_add_attr(e, "ipServicePort", ibuf); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "ipServiceProtocol", ptr->s_proto); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: networks * Input format: struct netent * Exported objectclass: ipNetwork */ static int __s_cvt_networks(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct netent *ptr; int max_attr = 4; int i, j; char cp[64]; char **nm; static char *oclist[] = { "ipNetwork", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct netent *)data; if (ptr->n_name == NULL || ptr->n_net == 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } (void) snprintf(cp, sizeof (cp), "%d.%d.%d.%d", (ptr->n_net & 0xFF000000) >> 24, (ptr->n_net & 0x00FF0000) >> 16, (ptr->n_net & 0x0000FF00) >> 8, (ptr->n_net & 0x000000FF)); /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "ipNetworkNumber=%s", cp); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ if (ptr->n_aliases && ptr->n_aliases[0]) { nm = ptr->n_aliases; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } nm[0] = ptr->n_name; for (j = 0; j < i; j++) nm[j+1] = ptr->n_aliases[j]; rc = __s_add_attrlist(e, "cn", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } else { rc = __s_add_attr(e, "cn", ptr->n_name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } rc = __s_add_attr(e, "ipNetworkNumber", cp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: netmasks * Input format: struct _ns_netmasks * Exported objectclass: ipNetwork */ static int __s_cvt_netmasks(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_netmasks *ptr; int max_attr = 4; static char *oclist[] = { "ipNetwork", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_netmasks *)data; if (ptr->netnumber == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "ipNetworkNumber=%s", ptr->netnumber); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "ipNetworkNumber", ptr->netnumber); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->netmask != NULL) { rc = __s_add_attr(e, "ipNetmaskNumber", ptr->netmask); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: netgroups * Input format: struct _ns_netgroups * Exported objectclass: nisNetgroup */ static int __s_cvt_netgroups(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_netgroups *ptr; int max_attr = 6; int i, j; char **nm; static char *oclist[] = { "nisNetgroup", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_netgroups *)data; if (ptr->name == NULL || *ptr->name == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* Error check the data and add the attributes */ if (ptr->triplet && ptr->triplet[0]) { nm = ptr->triplet; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) nm[j] = ptr->triplet[j]; rc = __s_add_attrlist(e, "nisNetgroupTriple", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->netgroup && ptr->netgroup[0]) { nm = ptr->netgroup; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) nm[j] = ptr->netgroup[j]; rc = __s_add_attrlist(e, "memberNisNetgroup", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: bootparams * Input format: struct _ns_bootp * Exported objectclass: bootableDevice, device */ static int __s_cvt_bootparams(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_bootp *ptr; int max_attr = 4; int i, j; char **nm; static char *oclist[] = { "bootableDevice", "device", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_bootp *)data; if (ptr->name == NULL || *ptr->name == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* Error check the data and add the attributes */ if (ptr->param && ptr->param[0]) { nm = ptr->param; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) nm[j] = ptr->param[j]; rc = __s_add_attrlist(e, "bootParameter", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: ethers * Input format: struct _ns_ethers * Exported objectclass: ieee802Device, device */ static int __s_cvt_ethers(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_ethers *ptr; int max_attr = 4; static char *oclist[] = { "ieee802Device", "device", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_ethers *)data; if (ptr->name == NULL || *ptr->name == '\0' || ptr->ether == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "macAddress", ptr->ether); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * This function is used when processing an ethers (objectclass: ieee802Device) * or a bootparams (objectclass: bootableDevice) entry, and the entry is * already found in LDAP. Since both ethers and bootparams share the same * LDAP container, we want to check that the entry found in LDAP is: * - either the same entry (same cn, same objectclass): we don't do anything * in this case * - or an entry which does not have the objectclass we are interesting in: * in this case, we modify the existing entry by adding the relevant * objectclass (ieee802Device or bootableDevice) and the relevant attribute(s) * from the attribute list previously computing by the relevant conversion * function. * Note: from conversion functions __s_cvt_ethers() and __s_cvt_bootparams() * we know that there is only 1 more attribute today to add (macAddress * or bootParameter) */ #define _MAX_ATTR_ETHBOOTP 2 static int modify_ethers_bootp( const char *service, const char *rdn, const char *fulldn, const ns_ldap_attr_t * const *attrlist, const ns_cred_t *cred, const int flags, ns_ldap_error_t **errorp) { char filter[BUFSIZ]; ns_ldap_result_t *resultp; int rc = 0; int i; ns_ldap_attr_t *new_attrlist[_MAX_ATTR_ETHBOOTP+1]; ns_ldap_attr_t new_attrlist0; char *new_attrvalue0[1]; const ns_ldap_attr_t * const *aptr = attrlist; ns_ldap_attr_t *aptr2; ns_ldap_error_t *new_errorp = NULL; if (rdn == NULL || fulldn == NULL || attrlist == NULL || errorp == NULL || service == NULL) return (NS_LDAP_OP_FAILED); bzero(&new_attrlist, sizeof (new_attrlist)); bzero(&new_attrlist0, sizeof (new_attrlist0)); new_attrlist[0] = &new_attrlist0; new_attrlist[0]->attrvalue = new_attrvalue0; new_attrlist[0]->attrname = "objectclass"; new_attrlist[0]->value_count = 1; if (strcasecmp(service, "ethers") == NULL) { (void) snprintf(&filter[0], sizeof (filter), "(&(objectClass=ieee802Device)(%s))", rdn); new_attrlist[0]->attrvalue[0] = "ieee802Device"; } else { (void) snprintf(&filter[0], sizeof (filter), "(&(objectClass=bootableDevice)(%s))", rdn); new_attrlist[0]->attrvalue[0] = "bootableDevice"; } rc = __ns_ldap_list(service, filter, NULL, (const char **)NULL, NULL, NS_LDAP_SCOPE_SUBTREE, &resultp, &new_errorp, NULL, NULL); switch (rc) { case NS_LDAP_SUCCESS: /* * entry already exists for this service * return NS_LDAP_INTERNAL and do not modify the incoming errorp */ rc = NS_LDAP_INTERNAL; break; case NS_LDAP_NOTFOUND: /* * entry not found with the given objectclasss but entry exists * hence add the relevant attribute (macAddress or bootparams). */ i = 1; while (*aptr && (i < _MAX_ATTR_ETHBOOTP)) { /* aptr2 needed here to avoid lint warning */ aptr2 = (ns_ldap_attr_t *)*aptr++; if ((strcasecmp(aptr2->attrname, "cn") != 0) && (strcasecmp(aptr2->attrname, "objectclass") != 0)) { new_attrlist[i++] = (ns_ldap_attr_t *)aptr2; } } if (i != _MAX_ATTR_ETHBOOTP) { /* we haven't found all expected attributes */ rc = NS_LDAP_OP_FAILED; break; } aptr = (const ns_ldap_attr_t * const *) new_attrlist; /* clean errorp first */ (void) __ns_ldap_freeError(errorp); rc = __ns_ldap_addAttr(service, fulldn, aptr, cred, flags, errorp); break; default: /* * unexpected error happenned * returning relevant error */ (void) __ns_ldap_freeError(errorp); *errorp = new_errorp; break; } return (rc); } /* * Conversion: publickey * Input format: struct _ns_pubkey * Exported objectclass: NisKeyObject */ static int __s_cvt_publickey(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_pubkey *ptr; int max_attr = 3; static char *oclist[] = { "NisKeyObject", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_pubkey *)data; if (ptr->name == NULL || *ptr->name == '\0' || ptr->pubkey == NULL || ptr->privkey == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ if (ptr->hostcred == NS_HOSTCRED_FALSE) (void) snprintf(trdn, RDNSIZE, "uid=%s", ptr->name); else (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* Error check the data and add the attributes */ rc = __s_add_attr(e, "nisPublickey", ptr->pubkey); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "nisSecretkey", ptr->privkey); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: aliases * Input format: struct _ns_alias * Exported objectclass: mailGroup */ static int __s_cvt_aliases(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_alias *ptr; int max_attr = 4; int i, j; char **nm; static char *oclist[] = { "mailGroup", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_alias *)data; if (ptr->alias == NULL || *ptr->alias == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->alias); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "mail", (char *)ptr->alias); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* Error check the data and add the attributes */ if (ptr->member && ptr->member[0]) { nm = ptr->member; for (i = 0; *nm; i++, nm++) ; nm = (char **)calloc(i+2, sizeof (char *)); if (nm == NULL) { __s_cvt_freeEntryRdn(entry, rdn); return (NS_LDAP_MEMORY); } for (j = 0; j < i; j++) nm[j] = ptr->member[j]; rc = __s_add_attrlist(e, "mgrpRFC822MailMember", nm); free(nm); nm = NULL; if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: automount * Input format: struct _ns_automount * Exported objectclass: automount */ static int __s_cvt_auto_mount(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ struct _ns_automount *ptr; int max_attr = 6; void **paramVal = NULL; char **mappedschema = NULL; int version1 = 0; static char *oclist[] = { NULL, "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); /* determine profile version number */ rc = __ns_ldap_getParam(NS_LDAP_FILE_VERSION_P, ¶mVal, errorp); if (paramVal && *paramVal && strcasecmp(*paramVal, NS_LDAP_VERSION_1) == 0) version1 = 1; if (paramVal) (void) __ns_ldap_freeParam(¶mVal); if (rc && errorp) (void) __ns_ldap_freeError(errorp); /* use old schema for version 1 profiles */ if (version1) oclist[0] = "nisObject"; else oclist[0] = "automount"; *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (struct _ns_automount *)data; if (ptr->key == NULL || *ptr->key == '\0' || ptr->value == NULL || ptr->mapname == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, version1 ? "cn=%s" : "automountKey=%s", ptr->key); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, version1 ? "cn" : "automountKey", (char *)ptr->key); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, version1 ? "nisMapEntry" : "automountInformation", (char *)ptr->value); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } /* * even for version 2, if automount is mapped to nisObject we * still need 'nisMapName' attribute */ mappedschema = __ns_ldap_getMappedObjectClass("automount", "automount"); if (mappedschema && mappedschema[0] && strcasecmp(mappedschema[0], "nisObject") == 0) version1 = 1; if (mappedschema) __s_api_free2dArray(mappedschema); if (version1) { rc = __s_add_attr(e, "nisMapName", (char *)ptr->mapname); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: auth_attr * Input format: authstr_t * Exported objectclass: SolarisAuthAttr */ static int __s_cvt_authattr(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ authstr_t *ptr; int max_attr = 6; static char *oclist[] = { "SolarisAuthAttr", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (authstr_t *)data; if (ptr->name == NULL || ptr->name[0] == '\0' || ptr->attr == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisAttrKeyValue", ptr->attr); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->res1 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved1", ptr->res1); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->res2 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved2", ptr->res2); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->short_desc != NULL) { rc = __s_add_attr(e, "SolarisAttrShortDesc", ptr->short_desc); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->long_desc != NULL) { rc = __s_add_attr(e, "SolarisAttrLongDesc", ptr->long_desc); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: exec_attr * Input format: execstr_t * Exported objectclass: SolarisExecAttr */ static int __s_cvt_execattr(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; char esc_str[RDNSIZE]; /* routine specific */ execstr_t *ptr; int max_attr = 7; static char *oclist[] = { "SolarisExecAttr", "SolarisProfAttr", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (execstr_t *)data; if (ptr->name == NULL || ptr->name[0] == '\0' || ptr->policy == NULL || ptr->policy[0] == '\0' || ptr->type == NULL || ptr->type[0] == '\0' || ptr->id == NULL || ptr->id[0] == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* * Escape special characters in ProfileID. */ if (escape_str(esc_str, ptr->id) != 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s+SolarisKernelSecurityPolicy=%s" "+SolarisProfileType=%s+SolarisProfileId=%s", ptr->name, ptr->policy, ptr->type, esc_str); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisKernelSecurityPolicy", ptr->policy); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisProfileType", ptr->type); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisProfileId", ptr->id); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisAttrKeyValue", ptr->attr); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->res1 != NULL) { rc = __s_add_attr(e, "SolarisAttrRes1", ptr->res1); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->res2 != NULL) { rc = __s_add_attr(e, "SolarisAttrRes2", ptr->res2); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: prof_attr * Input format: profstr_t * Exported objectclass: SolarisProfAttr */ static int __s_cvt_profattr(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ profstr_t *ptr; int max_attr = 5; static char *oclist[] = { "SolarisProfAttr", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (profstr_t *)data; if (ptr->name == NULL || ptr->name[0] == '\0' || ptr->attr == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "cn=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "cn", ptr->name); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisAttrKeyValue", ptr->attr); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->res1 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved1", ptr->res1); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->res2 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved2", ptr->res2); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->desc != NULL) { rc = __s_add_attr(e, "SolarisAttrLongDesc", ptr->desc); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: user_attr * Input format: userstr_t * Exported objectclass: SolarisUserAttr */ static int __s_cvt_userattr(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ userstr_t *ptr; int max_attr = 5; static char *oclist[] = { "SolarisUserAttr", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (userstr_t *)data; if (ptr->name == NULL || ptr->name[0] == '\0' || ptr->attr == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "uid=%s", ptr->name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* * SolarisUserAttr has no uid attribute */ rc = __s_add_attr(e, "SolarisAttrKeyValue", ptr->attr); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } if (ptr->qualifier != NULL) { rc = __s_add_attr(e, "SolarisUserQualifier", ptr->qualifier); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->res1 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved1", ptr->res1); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->res2 != NULL) { rc = __s_add_attr(e, "SolarisAttrReserved2", ptr->res2); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: audit_user * Input format: au_user_str_t * Exported objectclass: SolarisAuditUser */ static int __s_cvt_audituser(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ au_user_str_t *ptr; int max_attr = 3; static char *oclist[] = { "SolarisAuditUser", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (au_user_str_t *)data; if (ptr->au_name == NULL || ptr->au_name[0] == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "uid=%s", ptr->au_name); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } /* * Solaris AuditUser has no uid attribute */ if (ptr->au_always != NULL) { rc = __s_add_attr(e, "SolarisAuditAlways", ptr->au_always); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } if (ptr->au_never != NULL) { rc = __s_add_attr(e, "SolarisAuditNever", ptr->au_never); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } } return (NS_LDAP_SUCCESS); } /* * Conversion: tnrhtp * Input format: tsol_tpstr_t * Exported objectclass: ipTnetTemplate */ static int __s_cvt_tnrhtp(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; char esc_str[RDNSIZE]; /* routine specific */ int max_attr = 2; tsol_tpstr_t *ptr; static char *oclist[] = { "ipTnetTemplate", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (tsol_tpstr_t *)data; if (ptr->template == NULL || *ptr->template == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* * Escape special characters in Template name. */ if (escape_str(esc_str, ptr->template) != 0) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "ipTnetTemplateName=%s", esc_str); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "ipTnetTemplateName", ptr->template); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "SolarisAttrKeyValue", ptr->attrs); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Conversion: tnrhdb * Input format: tsol_rhstr_t * Exported objectclass: ipTnetHost */ static int __s_cvt_tnrhdb(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp) { ns_ldap_entry_t *e; int rc; char trdn[RDNSIZE]; /* routine specific */ tsol_rhstr_t *ptr; int max_attr = 2; static char *oclist[] = { "ipTnetHost", "ipTnetTemplate", "top", NULL }; if (data == NULL || rdn == NULL || entry == NULL || errorp == NULL) return (NS_LDAP_OP_FAILED); *entry = e = __s_mk_entry(oclist, max_attr); if (e == NULL) return (NS_LDAP_MEMORY); /* Convert the structure */ ptr = (tsol_rhstr_t *)data; if (ptr->address == NULL || *ptr->address == '\0' || ptr->template == NULL || *ptr->template == '\0') { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_INVALID_PARAM); } /* Create an appropriate rdn */ (void) snprintf(trdn, RDNSIZE, "ipTnetNumber=%s", ptr->address); *rdn = strdup(trdn); if (*rdn == NULL) { __ns_ldap_freeEntry(e); *entry = NULL; return (NS_LDAP_MEMORY); } rc = __s_add_attr(e, "ipTnetNumber", ptr->address); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } rc = __s_add_attr(e, "ipTnetTemplateName", ptr->template); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(entry, rdn); return (rc); } return (NS_LDAP_SUCCESS); } /* * Add Typed Entry Conversion data structures */ typedef struct __ns_cvt_type { const char *service; int flags; #define AE 1 /* alway add entries */ int (*cvt_rtn)(const void *data, char **rdn, ns_ldap_entry_t **entry, ns_ldap_error_t **errorp); } __ns_cvt_type_t; static __ns_cvt_type_t __s_cvtlist[] = { { NS_LDAP_TYPE_PASSWD, 0, __s_cvt_passwd }, { NS_LDAP_TYPE_GROUP, 0, __s_cvt_group }, { NS_LDAP_TYPE_HOSTS, 0, __s_cvt_hosts }, { NS_LDAP_TYPE_IPNODES, 0, __s_cvt_hosts }, { NS_LDAP_TYPE_RPC, 0, __s_cvt_rpc }, { NS_LDAP_TYPE_PROTOCOLS, 0, __s_cvt_protocols }, { NS_LDAP_TYPE_NETWORKS, 0, __s_cvt_networks }, { NS_LDAP_TYPE_NETGROUP, 0, __s_cvt_netgroups }, { NS_LDAP_TYPE_ALIASES, 0, __s_cvt_aliases }, { NS_LDAP_TYPE_SERVICES, 0, __s_cvt_services }, { NS_LDAP_TYPE_ETHERS, 0, __s_cvt_ethers }, { NS_LDAP_TYPE_SHADOW, 0, __s_cvt_shadow }, { NS_LDAP_TYPE_NETMASKS, 0, __s_cvt_netmasks }, { NS_LDAP_TYPE_BOOTPARAMS, 0, __s_cvt_bootparams }, { NS_LDAP_TYPE_AUTHATTR, 0, __s_cvt_authattr }, { NS_LDAP_TYPE_EXECATTR, 0, __s_cvt_execattr }, { NS_LDAP_TYPE_PROFILE, 0, __s_cvt_profattr }, { NS_LDAP_TYPE_USERATTR, AE, __s_cvt_userattr }, { NS_LDAP_TYPE_AUTOMOUNT, 0, __s_cvt_auto_mount }, { NS_LDAP_TYPE_PUBLICKEY, AE, __s_cvt_publickey }, { NS_LDAP_TYPE_AUUSER, AE, __s_cvt_audituser }, { NS_LDAP_TYPE_TNRHTP, 0, __s_cvt_tnrhtp }, { NS_LDAP_TYPE_TNRHDB, 0, __s_cvt_tnrhdb }, { NS_LDAP_TYPE_PROJECT, 0, __s_cvt_project }, { NULL, 0, NULL }, }; /* * Add Typed Entry Routine */ /*ARGSUSED*/ int __ns_ldap_addTypedEntry( const char *servicetype, const char *basedn, const void *data, const int create, const ns_cred_t *cred, const int flags, ns_ldap_error_t **errorp) { char *rdn = NULL, *fulldn = NULL; void **paramVal = NULL; ns_ldap_entry_t *entry = NULL; const ns_ldap_attr_t *const *modattrlist; ns_ldap_search_desc_t **sdlist; char **dns = NULL; char trdn[RDNSIZE]; char service[BUFSIZE]; int rc = 0; int automount = 0; int i, s; rc = NS_LDAP_OP_FAILED; for (s = 0; __s_cvtlist[s].service != NULL; s++) { if (__s_cvtlist[s].cvt_rtn == NULL) continue; if (strcasecmp(__s_cvtlist[s].service, servicetype) == 0) break; /* Or, check if the servicetype is auto_ */ if (strcmp(__s_cvtlist[s].service, NS_LDAP_TYPE_AUTOMOUNT) == 0 && strncasecmp(servicetype, NS_LDAP_TYPE_AUTOMOUNT, sizeof (NS_LDAP_TYPE_AUTOMOUNT) - 1) == 0) { automount++; break; } } if (__s_cvtlist[s].service == NULL) return (rc); /* Convert the data */ rc = (*__s_cvtlist[s].cvt_rtn)(data, &rdn, &entry, errorp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(&entry, &rdn); return (rc); } if (rdn == NULL) { __ns_ldap_freeEntry(entry); return (NS_LDAP_OP_FAILED); } if (strcmp(servicetype, "publickey") == 0) { struct _ns_pubkey *ptr; ptr = (struct _ns_pubkey *)data; if (ptr->hostcred == NS_HOSTCRED_TRUE) (void) strcpy(service, "hosts"); else (void) strcpy(service, "passwd"); } else (void) strcpy(service, servicetype); /* Create the Full DN */ if (basedn == NULL) { rc = __s_api_get_SSD_from_SSDtoUse_service(service, &sdlist, errorp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(&entry, &rdn); return (rc); } if (sdlist == NULL) { rc = __s_api_getDNs(&dns, service, errorp); if (rc != NS_LDAP_SUCCESS) { if (dns) { __s_api_free2dArray(dns); dns = NULL; } __s_cvt_freeEntryRdn(&entry, &rdn); return (rc); } (void) snprintf(trdn, RDNSIZE, "%s,%s", rdn, dns[0]); __s_api_free2dArray(dns); } else { if (sdlist[0]->basedn) { (void) snprintf(trdn, RDNSIZE, "%s,%s", rdn, sdlist[0]->basedn); } else { __s_cvt_freeEntryRdn(&entry, &rdn); return (NS_LDAP_OP_FAILED); } } i = strlen(trdn) - 1; if (trdn[i] == COMMATOK) { rc = __ns_ldap_getParam(NS_LDAP_SEARCH_BASEDN_P, ¶mVal, errorp); if (rc != NS_LDAP_SUCCESS) { __s_cvt_freeEntryRdn(&entry, &rdn); return (rc); } i = strlen(trdn) + strlen((char *)(paramVal[0])) + 1; fulldn = (char *)calloc(i, 1); if (fulldn == NULL) { (void) __ns_ldap_freeParam(¶mVal); __s_cvt_freeEntryRdn(&entry, &rdn); return (NS_LDAP_MEMORY); } (void) snprintf(fulldn, i, "%s%s", trdn, (char *)(paramVal[0])); (void) __ns_ldap_freeParam(¶mVal); } else { fulldn = strdup(trdn); if (fulldn == NULL) { __s_cvt_freeEntryRdn(&entry, &rdn); return (NS_LDAP_MEMORY); } } } else { i = strlen(rdn) + strlen(basedn) + 2; fulldn = (char *)calloc(i, 1); if (fulldn == NULL) { __s_cvt_freeEntryRdn(&entry, &rdn); return (NS_LDAP_MEMORY); } (void) snprintf(fulldn, i, "%s,%s", rdn, basedn); } modattrlist = (const ns_ldap_attr_t * const *)entry->attr_pair; /* Check to see if the entry exists already */ /* May need to delete or update first */ if (create != 1) { /* Modify the entry */ /* * To add a shadow-like entry, the addTypedEntry function * would call __ns_ldap_repAttr first, and if server says * LDAP_NO_SUCH_OBJECT, then it tries __ns_ldap_addEntry. * This is to allow a netmask entry to be added even if the * base network entry is not in the directory. It would work * because the difference between the schema for the network * and netmask data contains only MAY attributes. * * But for shadow data, the attributes do not have MUST * attributes the base entry needs, so if the __ns_ldap_addEntry * is executed, it would fail. The real reason, however, is that * the base entry did not exist. So returning * LDAP_OBJECT_CLASS_VIOLATION would just confused. */ if ((__s_cvtlist[s].flags & AE) != 0) rc = __ns_ldap_addAttr(service, fulldn, modattrlist, cred, flags, errorp); else { rc = __ns_ldap_repAttr(service, fulldn, modattrlist, cred, flags, errorp); if (rc == NS_LDAP_INTERNAL && *errorp && (*errorp)->status == LDAP_NO_SUCH_OBJECT) { (void) __ns_ldap_freeError(errorp); rc = __ns_ldap_addEntry(service, fulldn, entry, cred, flags, errorp); if (rc == NS_LDAP_INTERNAL && *errorp && (*errorp)->status == LDAP_OBJECT_CLASS_VIOLATION) (*errorp)->status = LDAP_NO_SUCH_OBJECT; } } } else { /* Add the entry */ rc = __ns_ldap_addEntry(service, fulldn, entry, cred, flags, errorp); if (rc == NS_LDAP_INTERNAL && *errorp && (*errorp)->status == LDAP_ALREADY_EXISTS && ((strcmp(service, "ethers") == 0) || (strcmp(service, "bootparams") == 0))) { rc = modify_ethers_bootp(service, rdn, fulldn, modattrlist, cred, flags, errorp); } } /* Free up entry created by conversion routine */ if (fulldn != NULL) free(fulldn); __s_cvt_freeEntryRdn(&entry, &rdn); return (rc); } /* * Append the default base dn to the dn * when it ends with ','. * e.g. * SSD = service:ou=foo, */ int __s_api_append_default_basedn(const char *dn, char **new_dn, int *allocated, ns_ldap_error_t **errp) { int rc = NS_LDAP_SUCCESS, len = 0; void **param = NULL; char *str = NULL; *allocated = FALSE; *new_dn = NULL; if (dn == NULL) return (NS_LDAP_INVALID_PARAM); rc = __ns_ldap_getParam(NS_LDAP_SEARCH_BASEDN_P, (void ***)¶m, errp); if (rc != NS_LDAP_SUCCESS) { if (param) (void) __ns_ldap_freeParam(¶m); return (rc); } len = strlen(dn); str = ((char **)param)[0]; len = len + strlen(str) +1; *new_dn = (char *)malloc(len); if (*new_dn == NULL) { (void) __ns_ldap_freeParam(¶m); return (NS_LDAP_MEMORY); } *allocated = TRUE; (void) strcpy(*new_dn, dn); (void) strcat(*new_dn, str); (void) __ns_ldap_freeParam(¶m); return (NS_LDAP_SUCCESS); } /* * Flatten the input ns_ldap_attr_t list, 'attr', and convert it into an * ldap_strlist_t structure in buffer 'buf', to be used by ldap_cachemgr. * The output contains a count, a list of offsets, which show where the * corresponding copied attribute type and attribute value are located. * For example, for dn=aaaa, userpassword=bbbb, shadowlastchange=cccc, * the output is the ldap_strlist_t structure with: ldap_count = 6, * (buf + ldap_offsets[0]) -> "dn" * (buf + ldap_offsets[1]) -> "aaaa" * (buf + ldap_offsets[2]) -> "userPassword" * (buf + ldap_offsets[3]) -> "bbbb" * (buf + ldap_offsets[4]) -> "shadowlastchange" * (buf + ldap_offsets[5]) -> "cccc" * and all the string data shown above copied into the buffer after * the offset array. The total length of the data will be the return * value, or -1 if error. */ static int attr2list(const char *dn, ns_ldap_attr_t **attr, char *buf, int bufsize) { int c = 0; char *ap; int ao; ldap_strlist_t *al = (ldap_strlist_t *)buf; ns_ldap_attr_t *a = (ns_ldap_attr_t *)*attr; ns_ldap_attr_t **aptr = (ns_ldap_attr_t **)attr; /* bufsize > strlen(dn) + strlen("dn") + 1 ('\0') */ if ((strlen(dn) + 2 + 1) >= bufsize) return (-1); /* count number of attributes */ while (*aptr++) c++; al->ldap_count = 2 + c * 2; ao = sizeof (al->ldap_count) + sizeof (al->ldap_offsets[0]) * al->ldap_count; if (ao > bufsize) return (-1); al->ldap_offsets[0] = ao; ap = buf + ao; ao += 3; /* copy entry DN */ if (ao > bufsize) return (-1); (void) strlcpy(ap, "dn", bufsize); ap += 3; al->ldap_offsets[1] = ao; ao += strlen(dn) + 1; if (ao > bufsize) return (-1); (void) strlcpy(ap, dn, bufsize); ap = buf + ao; aptr = attr; for (c = 2; c < al->ldap_count; c++, aptr++) { a = *aptr; if (a->attrname == NULL || a->attrvalue == NULL || a->value_count != 1 || a->attrvalue[0] == NULL) return (-1); al->ldap_offsets[c] = ao; ao += strlen(a->attrname) + 1; if (ao > bufsize) return (-1); (void) strlcpy(ap, a->attrname, bufsize); ap = buf + ao; c++; al->ldap_offsets[c] = ao; ao += strlen(a->attrvalue[0]) + 1; (void) strlcpy(ap, a->attrvalue[0], bufsize); ap = buf + ao; }; return (ao); } /* * Send a modify request to the ldap_cachemgr daemon * which will use the admin credential to perform the * operation. */ static int send_to_cachemgr( const char *dn, ns_ldap_attr_t **attr, ns_ldap_error_t **errorp) { union { ldap_data_t s_d; char s_b[DOORBUFFERSIZE]; } space; ldap_data_t *sptr; int ndata; int adata; int len; int rc; char errstr[MAXERROR]; ldap_admin_mod_result_t *admin_result; *errorp = NULL; (void) memset(space.s_b, 0, DOORBUFFERSIZE); len = attr2list(dn, attr, (char *)&space.s_d.ldap_call.ldap_u.strlist, sizeof (space) - offsetof(ldap_return_t, ldap_u)); if (len <= 0) return (NS_LDAP_INVALID_PARAM); adata = sizeof (ldap_call_t) + len; ndata = sizeof (space); space.s_d.ldap_call.ldap_callnumber = ADMINMODIFY; sptr = &space.s_d; switch (__ns_ldap_trydoorcall(&sptr, &ndata, &adata)) { case NS_CACHE_SUCCESS: break; case NS_CACHE_NOTFOUND: (void) snprintf(errstr, sizeof (errstr), gettext("Door call ADMINMODIFY to " "ldap_cachemgr failed - error: %d"), space.s_d.ldap_ret.ldap_errno); MKERROR(LOG_WARNING, *errorp, NS_CONFIG_CACHEMGR, strdup(errstr), NULL); return (NS_LDAP_OP_FAILED); default: return (NS_LDAP_OP_FAILED); } admin_result = &sptr->ldap_ret.ldap_u.admin_result; if (admin_result->ns_err == NS_LDAP_SUCCESS) rc = NS_LDAP_SUCCESS; else { rc = admin_result->ns_err; if (admin_result->msg_size == 0) *errorp = __s_api_make_error(admin_result->status, NULL); else *errorp = __s_api_make_error(admin_result->status, admin_result->msg); } /* clean up the door call */ if (sptr != &space.s_d) { (void) munmap((char *)sptr, ndata); } return (rc); }