/* ldb database module utility library Copyright (C) Andrew Bartlett 2018 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; either version 3 of the License, or (at your option) any later version. 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, see . */ /* * Common utility functions for SamDb audit logging. * */ #include "includes.h" #include "ldb_module.h" #include "lib/audit_logging/audit_logging.h" #include "dsdb/samdb/samdb.h" #include "dsdb/samdb/ldb_modules/util.h" #include "libcli/security/dom_sid.h" #include "libcli/security/security_token.h" #include "auth/common_auth.h" #include "param/param.h" #include "dsdb/samdb/ldb_modules/util.h" #include "dsdb/samdb/ldb_modules/audit_util_proto.h" #define MAX_LENGTH 1024 #define min(a, b) (((a)>(b))?(b):(a)) /* * List of attributes considered secret or confidential the values of these * attributes should not be displayed in log messages. */ static const char * const secret_attributes[] = { DSDB_SECRET_ATTRIBUTES, NULL}; /* * List of attributes that contain a password, used to detect password changes */ static const char * const password_attributes[] = { DSDB_PASSWORD_ATTRIBUTES, NULL}; /* * @brief Should the value of the specified value be redacted. * * The values of secret or password attributes should not be displayed. * * @param name The attributes name. * * @return True if the attribute should be redacted */ bool dsdb_audit_redact_attribute(const char * name) { if (ldb_attr_in_list(secret_attributes, name)) { return true; } if (ldb_attr_in_list(password_attributes, name)) { return true; } return false; } /* * @brief is the attribute a password attribute? * * Is the attribute a password attribute. * * @return True if the attribute is a "Password" attribute. */ bool dsdb_audit_is_password_attribute(const char * name) { bool is_password = ldb_attr_in_list(password_attributes, name); return is_password; } /* * @brief Get the remote address from the ldb context. * * The remote address is stored in the ldb opaque value "remoteAddress" * it is the responsibility of the higher level code to ensure that this * value is set. * * @param ldb the ldb_context. * * @return the remote address if known, otherwise NULL. */ const struct tsocket_address *dsdb_audit_get_remote_address( struct ldb_context *ldb) { void *opaque_remote_address = NULL; struct tsocket_address *remote_address; opaque_remote_address = ldb_get_opaque(ldb, "remoteAddress"); if (opaque_remote_address == NULL) { return NULL; } remote_address = talloc_get_type(opaque_remote_address, struct tsocket_address); return remote_address; } /* * @brief Get the actual user SID from ldb context. * * The actual user SID is stored in the ldb opaque value "networkSessionInfo" * it is the responsibility of the higher level code to ensure that this * value is set. * * @param ldb the ldb_context. * * @return the users actual sid. */ const struct dom_sid *dsdb_audit_get_actual_sid(struct ldb_context *ldb) { void *opaque_session = NULL; struct auth_session_info *session = NULL; struct security_token *user_token = NULL; opaque_session = ldb_get_opaque(ldb, DSDB_NETWORK_SESSION_INFO); if (opaque_session == NULL) { return NULL; } session = talloc_get_type(opaque_session, struct auth_session_info); if (session == NULL) { return NULL; } user_token = session->security_token; if (user_token == NULL) { return NULL; } return &user_token->sids[0]; } /* * @brief get the ldb error string. * * Get the ldb error string if set, otherwise get the generic error code * for the status code. * * @param ldb the ldb_context. * @param status the ldb_status code. * * @return a string describing the error. */ const char *dsdb_audit_get_ldb_error_string( struct ldb_module *module, int status) { struct ldb_context *ldb = ldb_module_get_ctx(module); const char *err_string = ldb_errstring(ldb); if (err_string == NULL) { return ldb_strerror(status); } return err_string; } /* * @brief get the SID of the user performing the operation. * * Get the SID of the user performing the operation. * * @param module the ldb_module. * * @return the SID of the currently logged on user. */ const struct dom_sid *dsdb_audit_get_user_sid(const struct ldb_module *module) { struct security_token *user_token = NULL; /* * acl_user_token does not alter module so it's safe * to discard the const. */ user_token = acl_user_token(discard_const(module)); if (user_token == NULL) { return NULL; } return &user_token->sids[0]; } /* * @brief is operation being performed using the system session. * * Is the operation being performed using the system session. * * @param module the ldb_module. * * @return true if the operation is being performed using the system session. */ bool dsdb_audit_is_system_session(const struct ldb_module *module) { struct security_token *user_token = NULL; /* * acl_user_token does not alter module and security_token_is_system * does not alter the security token so it's safe to discard the const. */ user_token = acl_user_token(discard_const(module)); if (user_token == NULL) { return false; } return security_token_is_system(user_token);; } /* * @brief get the session identifier GUID * * Get the GUID that uniquely identifies the current authenticated session. * * @param module the ldb_module. * * @return the unique session GUID */ const struct GUID *dsdb_audit_get_unique_session_token( const struct ldb_module *module) { struct ldb_context *ldb = ldb_module_get_ctx(discard_const(module)); struct auth_session_info *session_info = (struct auth_session_info *)ldb_get_opaque( ldb, DSDB_SESSION_INFO); if(!session_info) { return NULL; } return &session_info->unique_session_token; } /* * @brief get the actual user session identifier * * Get the GUID that uniquely identifies the current authenticated session. * This is the session of the connected user, as it may differ from the * session the operation is being performed as, i.e. for operations performed * under the system session. * * @param context the ldb_context. * * @return the unique session GUID */ const struct GUID *dsdb_audit_get_actual_unique_session_token( struct ldb_context *ldb) { struct auth_session_info *session_info = (struct auth_session_info *)ldb_get_opaque( ldb, DSDB_NETWORK_SESSION_INFO); if(!session_info) { return NULL; } return &session_info->unique_session_token; } /* * @brief Get a printable string value for the remote host address. * * Get a printable string representation of the remote host, for display in the * the audit logs. * * @param ldb the ldb context. * @param mem_ctx the talloc memory context that will own the returned string. * * @return A string representation of the remote host address or "Unknown" * */ char *dsdb_audit_get_remote_host(struct ldb_context *ldb, TALLOC_CTX *mem_ctx) { const struct tsocket_address *remote_address; char* remote_host = NULL; remote_address = dsdb_audit_get_remote_address(ldb); if (remote_address == NULL) { remote_host = talloc_asprintf(mem_ctx, "Unknown"); return remote_host; } remote_host = tsocket_address_string(remote_address, mem_ctx); return remote_host; } /* * @brief get a printable representation of the primary DN. * * Get a printable representation of the primary DN. The primary DN is the * DN of the object being added, deleted, modified or renamed. * * @param the ldb_request. * * @return a printable and linearized DN */ const char* dsdb_audit_get_primary_dn(const struct ldb_request *request) { struct ldb_dn *dn = NULL; switch (request->operation) { case LDB_ADD: if (request->op.add.message != NULL) { dn = request->op.add.message->dn; } break; case LDB_MODIFY: if (request->op.mod.message != NULL) { dn = request->op.mod.message->dn; } break; case LDB_DELETE: dn = request->op.del.dn; break; case LDB_RENAME: dn = request->op.rename.olddn; break; default: dn = NULL; break; } if (dn == NULL) { return NULL; } return ldb_dn_get_linearized(dn); } /* * @brief Get the ldb_message from a request. * * Get the ldb_message for the request, returns NULL is there is no * associated ldb_message * * @param The request * * @return the message associated with this request, or NULL */ const struct ldb_message *dsdb_audit_get_message( const struct ldb_request *request) { switch (request->operation) { case LDB_ADD: return request->op.add.message; case LDB_MODIFY: return request->op.mod.message; default: return NULL; } } /* * @brief get the secondary dn, i.e. the target dn for a rename. * * Get the secondary dn, i.e. the target for a rename. This is only applicable * got a rename operation, for the non rename operations this function returns * NULL. * * @param request the ldb_request. * * @return the secondary dn in a printable and linearized form. */ const char *dsdb_audit_get_secondary_dn(const struct ldb_request *request) { switch (request->operation) { case LDB_RENAME: return ldb_dn_get_linearized(request->op.rename.newdn); default: return NULL; } } /* * @brief Map the request operation to a description. * * Get a description of the operation for logging * * @param request the ldb_request * * @return a string describing the operation, or "Unknown" if the operation * is not known. */ const char *dsdb_audit_get_operation_name(const struct ldb_request *request) { switch (request->operation) { case LDB_SEARCH: return "Search"; case LDB_ADD: return "Add"; case LDB_MODIFY: return "Modify"; case LDB_DELETE: return "Delete"; case LDB_RENAME: return "Rename"; case LDB_EXTENDED: return "Extended"; case LDB_REQ_REGISTER_CONTROL: return "Register Control"; case LDB_REQ_REGISTER_PARTITION: return "Register Partition"; default: return "Unknown"; } } /* * @brief get a description of a modify action for logging. * * Get a brief description of the modification action suitable for logging. * * @param flags the ldb_attributes flags. * * @return a brief description, or "unknown". */ const char *dsdb_audit_get_modification_action(unsigned int flags) { switch (LDB_FLAG_MOD_TYPE(flags)) { case LDB_FLAG_MOD_ADD: return "add"; case LDB_FLAG_MOD_DELETE: return "delete"; case LDB_FLAG_MOD_REPLACE: return "replace"; default: return "unknown"; } } /* * @brief Add an ldb_value to a json object array * * Convert the current ldb_value to a JSON object and append it to array. * { * "value":"xxxxxxxx", * "base64":true * "truncated":true * } * * value is the JSON string representation of the ldb_val, * will be null if the value is zero length. The value will be * truncated if it is more than MAX_LENGTH bytes long. It will also * be base64 encoded if it contains any non printable characters. * * base64 Indicates that the value is base64 encoded, will be absent if the * value is not encoded. * * truncated Indicates that the length of the value exceeded MAX_LENGTH and was * truncated. Note that vales are truncated and then base64 encoded. * so an encoded value can be longer than MAX_LENGTH. * * @param array the JSON array to append the value to. * @param lv the ldb_val to convert and append to the array. * */ static int dsdb_audit_add_ldb_value(struct json_object *array, const struct ldb_val lv) { bool base64; int len; struct json_object value = json_empty_object; int rc = 0; json_assert_is_array(array); if (json_is_invalid(array)) { return -1; } if (lv.length == 0 || lv.data == NULL) { rc = json_add_object(array, NULL, NULL); if (rc != 0) { goto failure; } return 0; } base64 = ldb_should_b64_encode(NULL, &lv); len = min(lv.length, MAX_LENGTH); value = json_new_object(); if (json_is_invalid(&value)) { goto failure; } if (lv.length > MAX_LENGTH) { rc = json_add_bool(&value, "truncated", true); if (rc != 0) { goto failure; } } if (base64) { TALLOC_CTX *ctx = talloc_new(NULL); char *encoded = ldb_base64_encode( ctx, (char*) lv.data, len); if (ctx == NULL) { goto failure; } rc = json_add_bool(&value, "base64", true); if (rc != 0) { TALLOC_FREE(ctx); goto failure; } rc = json_add_string(&value, "value", encoded); if (rc != 0) { TALLOC_FREE(ctx); goto failure; } TALLOC_FREE(ctx); } else { rc = json_add_stringn(&value, "value", (char *)lv.data, len); if (rc != 0) { goto failure; } } /* * As array is a JSON array the element name is NULL */ rc = json_add_object(array, NULL, &value); if (rc != 0) { goto failure; } return 0; failure: /* * In the event of a failure value will not have been added to array * so it needs to be freed to prevent a leak. */ json_free(&value); DBG_ERR("unable to add ldb value to JSON audit message"); return -1; } /* * @brief Build a JSON object containing the attributes in an ldb_message. * * Build a JSON object containing all the attributes in an ldb_message. * The attributes are keyed by attribute name, the values of "secret attributes" * are supressed. * * { * "password":{ * "redacted":true, * "action":"delete" * }, * "name":{ * "values": [ * { * "value":"xxxxxxxx", * "base64":true * "truncated":true * }, * ], * "action":"add", * } * } * * values is an array of json objects generated by add_ldb_value. * redacted indicates that the attribute is secret. * action is only set for modification operations. * * @param operation the ldb operation being performed * @param message the ldb_message to process. * * @return A populated json object. * */ struct json_object dsdb_audit_attributes_json( enum ldb_request_type operation, const struct ldb_message* message) { unsigned int i, j; struct json_object attributes = json_new_object(); if (json_is_invalid(&attributes)) { goto failure; } for (i=0;inum_elements;i++) { struct json_object actions = json_empty_object; struct json_object attribute = json_empty_object; struct json_object action = json_empty_object; const char *name = message->elements[i].name; int rc = 0; action = json_new_object(); if (json_is_invalid(&action)) { goto failure; } /* * If this is a modify operation tag the attribute with * the modification action. */ if (operation == LDB_MODIFY) { const char *act = NULL; const int flags = message->elements[i].flags; act = dsdb_audit_get_modification_action(flags); rc = json_add_string(&action, "action", act); if (rc != 0) { json_free(&action); goto failure; } } if (operation == LDB_ADD) { rc = json_add_string(&action, "action", "add"); if (rc != 0) { json_free(&action); goto failure; } } /* * If the attribute is a secret attribute, tag it as redacted * and don't include the values */ if (dsdb_audit_redact_attribute(name)) { rc = json_add_bool(&action, "redacted", true); if (rc != 0) { json_free(&action); goto failure; } } else { struct json_object values; /* * Add the values for the action */ values = json_new_array(); if (json_is_invalid(&values)) { json_free(&action); goto failure; } for (j=0;jelements[i].num_values;j++) { rc = dsdb_audit_add_ldb_value( &values, message->elements[i].values[j]); if (rc != 0) { json_free(&values); json_free(&action); goto failure; } } rc = json_add_object(&action, "values", &values); if (rc != 0) { json_free(&values); json_free(&action); goto failure; } } attribute = json_get_object(&attributes, name); if (json_is_invalid(&attribute)) { json_free(&action); goto failure; } actions = json_get_array(&attribute, "actions"); if (json_is_invalid(&actions)) { json_free(&action); goto failure; } rc = json_add_object(&actions, NULL, &action); if (rc != 0) { json_free(&action); goto failure; } rc = json_add_object(&attribute, "actions", &actions); if (rc != 0) { json_free(&actions); goto failure; } rc = json_add_object(&attributes, name, &attribute); if (rc != 0) { json_free(&attribute); goto failure; } } return attributes; failure: json_free(&attributes); DBG_ERR("Unable to create ldb attributes JSON audit message\n"); return attributes; }