/* * Copyright (c) 2015-2017 Red Hat, Inc. * * All rights reserved. * * Author: Jan Friesse (jfriesse@redhat.com) * * This software licensed under BSD license, the text of which follows: * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - Neither the name of the Red Hat, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "log.h" #include "qnet-config.h" #include "qnetd-algorithm.h" #include "qnetd-algo-test.h" #include "qnetd-algo-ffsplit.h" #include "qnetd-algo-2nodelms.h" #include "qnetd-algo-lms.h" static struct qnetd_algorithm *qnetd_algorithm_array[QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE]; enum tlv_reply_error_code qnetd_algorithm_client_init(struct qnetd_client *client) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_client_init unhandled decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->init(client)); } enum tlv_reply_error_code qnetd_algorithm_config_node_list_received(struct qnetd_client *client, uint32_t msg_seq_num, int config_version_set, uint64_t config_version, const struct node_list *nodes, int initial, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_config_node_list_received unhandled " "decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->config_node_list_received( client, msg_seq_num, config_version_set, config_version, nodes, initial, result_vote)); } enum tlv_reply_error_code qnetd_algorithm_membership_node_list_received(struct qnetd_client *client, uint32_t msg_seq_num, const struct tlv_ring_id *ring_id, const struct node_list *nodes, enum tlv_heuristics heuristics, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_membership_node_list_received unhandled " "decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->membership_node_list_received( client, msg_seq_num, ring_id, nodes, heuristics, result_vote)); } enum tlv_reply_error_code qnetd_algorithm_quorum_node_list_received(struct qnetd_client *client, uint32_t msg_seq_num, enum tlv_quorate quorate, const struct node_list *nodes, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "algorithm_quorum_node_list_received unhandled " "decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->quorum_node_list_received( client, msg_seq_num, quorate, nodes, result_vote)); } void qnetd_algorithm_client_disconnect(struct qnetd_client *client, int server_going_down) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_client_disconnect unhandled decision " "algorithm"); return; } qnetd_algorithm_array[client->decision_algorithm]->client_disconnect(client, server_going_down); } enum tlv_reply_error_code qnetd_algorithm_ask_for_vote_received(struct qnetd_client *client, uint32_t msg_seq_num, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_ask_for_vote_received unhandled " "decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->ask_for_vote_received( client, msg_seq_num, result_vote)); } enum tlv_reply_error_code qnetd_algorithm_vote_info_reply_received(struct qnetd_client *client, uint32_t msg_seq_num) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_vote_info_reply_received unhandled decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->vote_info_reply_received( client, msg_seq_num)); } enum tlv_reply_error_code qnetd_algorithm_heuristics_change_received(struct qnetd_client *client, uint32_t msg_seq_num, enum tlv_heuristics heuristics, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_ask_for_vote_received unhandled " "decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->heuristics_change_received( client, msg_seq_num, heuristics, result_vote)); } enum tlv_reply_error_code qnetd_algorithm_timer_callback(struct qnetd_client *client, int *reschedule_timer, int *send_vote, enum tlv_vote *result_vote) { if (client->decision_algorithm >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE || qnetd_algorithm_array[client->decision_algorithm] == NULL) { log(LOG_CRIT, "qnetd_algorithm_timer_callback unhandled decision algorithm"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } return (qnetd_algorithm_array[client->decision_algorithm]->timer_callback( client, reschedule_timer, send_vote, result_vote)); } int qnetd_algorithm_register(enum tlv_decision_algorithm_type algorithm_number, struct qnetd_algorithm *algorithm) { if (algorithm_number >= QNETD_STATIC_SUPPORTED_DECISION_ALGORITHMS_SIZE) { log(LOG_CRIT, "Failed to register unsupported decision algorithm %u", algorithm_number); return (-1); } if (qnetd_algorithm_array[algorithm_number] != NULL) { log(LOG_CRIT, "Failed to register decision algorithm %u, " "it's already registered.", algorithm_number); return (-1); } qnetd_algorithm_array[algorithm_number] = algorithm; return (0); } int qnetd_algorithm_register_all(void) { if (qnetd_algo_test_register() != 0) { log(LOG_CRIT, "Failed to register decision algorithm 'test'"); return (-1); } if (qnetd_algo_ffsplit_register() != 0) { log(LOG_CRIT, "Failed to register decision algorithm 'ffsplit'"); return (-1); } if (qnetd_algo_2nodelms_register() != 0) { log(LOG_CRIT, "Failed to register decision algorithm '2nodelms'"); return (-1); } if (qnetd_algo_lms_register() != 0) { log(LOG_CRIT, "Failed to register decision algorithm 'lms'"); return (-1); } return (0); }