/* * Copyright (c) 2015-2020 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 #include "log.h" #include "log-common.h" #include "qnetd-algo-ffsplit.h" #include "qnetd-log-debug.h" #include "qnetd-cluster-list.h" #include "qnetd-cluster.h" #include "qnetd-client-send.h" enum qnetd_algo_ffsplit_cluster_state { QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_CHANGE, QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_STABLE_MEMBERSHIP, QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_NACKS, QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_ACKS, }; struct qnetd_algo_ffsplit_cluster_data { enum qnetd_algo_ffsplit_cluster_state cluster_state; struct node_list quorate_partition_node_list; }; enum qnetd_algo_ffsplit_client_state { QNETD_ALGO_FFSPLIT_CLIENT_STATE_WAITING_FOR_CHANGE, QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK, QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK, }; struct qnetd_algo_ffsplit_client_data { enum qnetd_algo_ffsplit_client_state client_state; uint32_t vote_info_expected_seq_num; }; enum tlv_reply_error_code qnetd_algo_ffsplit_client_init(struct qnetd_client *client) { struct qnetd_algo_ffsplit_cluster_data *cluster_data; struct qnetd_algo_ffsplit_client_data *client_data; if (qnetd_cluster_size(client->cluster) == 1) { cluster_data = malloc(sizeof(*cluster_data)); if (cluster_data == NULL) { log(LOG_ERR, "ffsplit: Can't initialize cluster data for client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } memset(cluster_data, 0, sizeof(*cluster_data)); cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_CHANGE; node_list_init(&cluster_data->quorate_partition_node_list); client->cluster->algorithm_data = cluster_data; } client_data = malloc(sizeof(*client_data)); if (client_data == NULL) { log(LOG_ERR, "ffsplit: Can't initialize node data for client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } memset(client_data, 0, sizeof(*client_data)); client_data->client_state = QNETD_ALGO_FFSPLIT_CLIENT_STATE_WAITING_FOR_CHANGE; client->algorithm_data = client_data; return (TLV_REPLY_ERROR_CODE_NO_ERROR); } static int qnetd_algo_ffsplit_is_preferred_partition(const struct qnetd_client *client, const struct node_list *config_node_list, const struct node_list *membership_node_list) { uint32_t preferred_node_id; struct node_list_entry *node_entry; int case_processed; preferred_node_id = 0; case_processed = 0; switch (client->tie_breaker.mode) { case TLV_TIE_BREAKER_MODE_LOWEST: node_entry = TAILQ_FIRST(config_node_list); preferred_node_id = node_entry->node_id; TAILQ_FOREACH(node_entry, config_node_list, entries) { if (node_entry->node_id < preferred_node_id) { preferred_node_id = node_entry->node_id; } } case_processed = 1; break; case TLV_TIE_BREAKER_MODE_HIGHEST: node_entry = TAILQ_FIRST(config_node_list); preferred_node_id = node_entry->node_id; TAILQ_FOREACH(node_entry, config_node_list, entries) { if (node_entry->node_id > preferred_node_id) { preferred_node_id = node_entry->node_id; } } case_processed = 1; break; case TLV_TIE_BREAKER_MODE_NODE_ID: preferred_node_id = client->tie_breaker.node_id; case_processed = 1; break; } if (!case_processed) { log(LOG_CRIT, "qnetd_algo_ffsplit_is_preferred_partition unprocessed " "tie_breaker.mode"); exit(EXIT_FAILURE); } return (node_list_find_node_id(membership_node_list, preferred_node_id) != NULL); } static int qnetd_algo_ffsplit_is_membership_stable(const struct qnetd_client *client, int client_leaving, const struct tlv_ring_id *ring_id, const struct node_list *config_node_list, const struct node_list *membership_node_list) { const struct qnetd_client *iter_client1, *iter_client2; const struct node_list *config_node_list1, *config_node_list2; const struct node_list *membership_node_list1, *membership_node_list2; const struct node_list_entry *iter_node1, *iter_node2; const struct node_list_entry *iter_node3, *iter_node4; const struct tlv_ring_id *ring_id1, *ring_id2; /* * Test if all active clients share same config list. */ TAILQ_FOREACH(iter_client1, &client->cluster->client_list, cluster_entries) { TAILQ_FOREACH(iter_client2, &client->cluster->client_list, cluster_entries) { if (iter_client1 == iter_client2) { continue; } if (iter_client1->node_id == client->node_id) { if (client_leaving) { continue; } config_node_list1 = config_node_list; } else { config_node_list1 = &iter_client1->configuration_node_list; } if (iter_client2->node_id == client->node_id) { if (client_leaving) { continue; } config_node_list2 = config_node_list; } else { config_node_list2 = &iter_client2->configuration_node_list; } /* * Walk thru all node ids in given config node list... */ TAILQ_FOREACH(iter_node1, config_node_list1, entries) { /* * ... and try to find given node id in other list */ iter_node2 = node_list_find_node_id(config_node_list2, iter_node1->node_id); if (iter_node2 == NULL) { /* * Node with iter_node1->node_id was not found in * config_node_list2 -> lists doesn't match */ return (0); } } } } /* * Test if same partitions share same ring ids and membership node list */ TAILQ_FOREACH(iter_client1, &client->cluster->client_list, cluster_entries) { if (iter_client1->node_id == client->node_id) { if (client_leaving) { continue; } membership_node_list1 = membership_node_list; ring_id1 = ring_id; } else { membership_node_list1 = &iter_client1->last_membership_node_list; ring_id1 = &iter_client1->last_ring_id; } /* * Walk thru all memberships nodes */ TAILQ_FOREACH(iter_node1, membership_node_list1, entries) { /* * try to find client with given node id */ iter_client2 = qnetd_cluster_find_client_by_node_id(client->cluster, iter_node1->node_id); if (iter_client2 == NULL) { /* * Client with given id is not connected */ continue; } if (iter_client2->node_id == client->node_id) { if (client_leaving) { continue; } membership_node_list2 = membership_node_list; ring_id2 = ring_id; } else { membership_node_list2 = &iter_client2->last_membership_node_list; ring_id2 = &iter_client2->last_ring_id; } /* * Compare ring ids */ if (!tlv_ring_id_eq(ring_id1, ring_id2)) { return (0); } /* * Now compare that membership node list equals, so walk thru all * members ... */ TAILQ_FOREACH(iter_node3, membership_node_list1, entries) { /* * ... and try to find given node id in other membership node list */ iter_node4 = node_list_find_node_id(membership_node_list2, iter_node3->node_id); if (iter_node4 == NULL) { /* * Node with iter_node3->node_id was not found in * membership_node_list2 -> lists doesn't match */ return (0); } } } } return (1); } static void qnetd_algo_ffsplit_get_active_clients_in_partition_stats(const struct qnetd_client *client, const struct node_list *client_membership_node_list, enum tlv_heuristics client_heuristics, size_t *no_clients, size_t *no_heuristics_pass, size_t *no_heuristics_fail) { const struct node_list_entry *iter_node; const struct qnetd_client *iter_client; enum tlv_heuristics iter_heuristics; *no_clients = 0; *no_heuristics_pass = 0; *no_heuristics_fail = 0; if (client == NULL || client_membership_node_list == NULL) { return ; } TAILQ_FOREACH(iter_node, client_membership_node_list, entries) { iter_client = qnetd_cluster_find_client_by_node_id(client->cluster, iter_node->node_id); if (iter_client != NULL) { (*no_clients)++; if (iter_client == client) { iter_heuristics = client_heuristics; } else { iter_heuristics = iter_client->last_heuristics; } if (iter_heuristics == TLV_HEURISTICS_PASS) { (*no_heuristics_pass)++; } else if (iter_heuristics == TLV_HEURISTICS_FAIL) { (*no_heuristics_fail)++; } } } } /* * Compares two partitions. Return 1 if client1, config_node_list1, membership_node_list1 is * "better" than client2, config_node_list2, membership_node_list2 */ static int qnetd_algo_ffsplit_partition_cmp(const struct qnetd_client *client1, const struct node_list *config_node_list1, const struct node_list *membership_node_list1, enum tlv_heuristics heuristics_1, const struct qnetd_client *client2, const struct node_list *config_node_list2, const struct node_list *membership_node_list2, enum tlv_heuristics heuristics_2, const struct node_list *quorate_partition_node_list, int keep_active_partition_tie_breaker) { size_t part1_active_clients, part2_active_clients; size_t part1_no_heuristics_pass, part2_no_heuristics_pass; size_t part1_no_heuristics_fail, part2_no_heuristics_fail; size_t part1_score, part2_score; /* Result of node_list_find_node_id of client 1 node id in quorate_partition_node_list */ struct node_list_entry *qpnl_client1; /* Result of node_list_find_node_id of client 2 node id in quorate_partition_node_list */ struct node_list_entry *qpnl_client2; int res; res = -1; if (node_list_size(config_node_list1) % 2 != 0) { /* * Odd clusters never split into 50:50. */ if (node_list_size(membership_node_list1) > node_list_size(config_node_list1) / 2) { res = 1; goto exit_res; } else { res = 0; goto exit_res; } } else { if (node_list_size(membership_node_list1) > node_list_size(config_node_list1) / 2) { res = 1; goto exit_res; } else if (node_list_size(membership_node_list1) < node_list_size(config_node_list1) / 2) { res = 0; goto exit_res; } /* * 50:50 split */ /* * Check how many active clients are in partitions and heuristics results */ qnetd_algo_ffsplit_get_active_clients_in_partition_stats(client1, membership_node_list1, heuristics_1, &part1_active_clients, &part1_no_heuristics_pass, &part1_no_heuristics_fail); qnetd_algo_ffsplit_get_active_clients_in_partition_stats(client2, membership_node_list2, heuristics_2, &part2_active_clients, &part2_no_heuristics_pass, &part2_no_heuristics_fail); /* * Partition can contain clients with one of 4 states: * 1. Not-connected to qnetd (D) * 2. Disabled heuristics (U) * 3. Enabled heuristics with pass result (P) * 4. Enabled heuristics with fail result (F) * * The question is, what partition should get vote is kind of hard with * so much states. Following simple "score" seems to be good enough, but may * be suboptimal in some cases. As and example let's say there are * 2 partitions with 4 nodes each. Partition 1 looks like PDDD and partition 2 looks * like FUUU. Partition 1 score is 1 + (1 - 0), partition 2 score is 4 + (0 - 1). * Partition 2 wins eventho there is one processor with failed heuristics. */ part1_score = part1_active_clients + (part1_no_heuristics_pass - part1_no_heuristics_fail); part2_score = part2_active_clients + (part2_no_heuristics_pass - part2_no_heuristics_fail); if (part1_score > part2_score) { res = 1; goto exit_res; } else if (part1_score < part2_score) { res = 0; goto exit_res; } /* * This also handles NULL client (best_client) */ if (part1_active_clients > part2_active_clients) { res = 1; goto exit_res; } else if (part1_active_clients < part2_active_clients) { res = 0; goto exit_res; } /* * Use keep active partition tie-breaker if enabled for both clients */ if (keep_active_partition_tie_breaker && client2 != NULL) { qpnl_client1 = node_list_find_node_id(quorate_partition_node_list, client1->node_id); qpnl_client2 = node_list_find_node_id(quorate_partition_node_list, client2->node_id); /* * Client 1 in quorate partition, client 2 isn't and vice-versa. * If both either doesn't exist in quorate partion or both exists use * next tie-breaker */ if (qpnl_client1 != NULL && qpnl_client2 == NULL) { res = 1; goto exit_res; } else if (qpnl_client1 == NULL && qpnl_client2 != NULL) { res = 0; goto exit_res; } } /* * All previous metrics failed (client1 and client2 are equal). * Scores (number of clients + heuristics) are equal, * number of active clients in both partitions equals * and keep_active_partition_tie_breaker is either disabled or both clients * either were or weren't members of previous quorate partition. * Last step is to use tie-breaker. */ if (qnetd_algo_ffsplit_is_preferred_partition(client1, config_node_list1, membership_node_list1)) { res = 1; goto exit_res; } else { res = 0; goto exit_res; } } exit_res: if (res == -1) { log(LOG_CRIT, "qnetd_algo_ffsplit_partition_cmp unhandled case"); exit(EXIT_FAILURE); /* NOTREACHED */ } return (res); } /* * Select best partition for given client->cluster. * If there is no partition which could become quorate, NULL is returned */ static const struct node_list * qnetd_algo_ffsplit_select_partition(const struct qnetd_client *client, int client_leaving, const struct node_list *config_node_list, const struct node_list *membership_node_list, const struct node_list *quorate_partition_node_list, enum tlv_heuristics client_heuristics) { const struct qnetd_client *iter_client; const struct qnetd_client *best_client; const struct node_list *best_config_node_list, *best_membership_node_list; const struct node_list *iter_config_node_list, *iter_membership_node_list; enum tlv_heuristics iter_heuristics, best_heuristics; int keep_active_partition_tie_breaker; best_client = NULL; best_config_node_list = best_membership_node_list = NULL; best_heuristics = TLV_HEURISTICS_UNDEFINED; keep_active_partition_tie_breaker = 1; TAILQ_FOREACH(iter_client, &client->cluster->client_list, cluster_entries) { if (!iter_client->keep_active_partition_tie_breaker) { keep_active_partition_tie_breaker = 0; break; } } /* * Get highest score */ TAILQ_FOREACH(iter_client, &client->cluster->client_list, cluster_entries) { if (iter_client->node_id == client->node_id) { if (client_leaving) { continue; } iter_config_node_list = config_node_list; iter_membership_node_list = membership_node_list; iter_heuristics = client_heuristics; } else { iter_config_node_list = &iter_client->configuration_node_list; iter_membership_node_list = &iter_client->last_membership_node_list; iter_heuristics = iter_client->last_heuristics; } if (qnetd_algo_ffsplit_partition_cmp(iter_client, iter_config_node_list, iter_membership_node_list, iter_heuristics, best_client, best_config_node_list, best_membership_node_list, best_heuristics, quorate_partition_node_list, keep_active_partition_tie_breaker) > 0) { best_client = iter_client; best_config_node_list = iter_config_node_list; best_membership_node_list = iter_membership_node_list; best_heuristics = iter_heuristics; } } return (best_membership_node_list); } /* * Update state of all nodes to match quorate_partition_node_list */ static void qnetd_algo_ffsplit_update_nodes_state(struct qnetd_client *client, int client_leaving, const struct node_list *quorate_partition_node_list) { const struct qnetd_client *iter_client; struct qnetd_algo_ffsplit_client_data *iter_client_data; TAILQ_FOREACH(iter_client, &client->cluster->client_list, cluster_entries) { iter_client_data = (struct qnetd_algo_ffsplit_client_data *)iter_client->algorithm_data; if (iter_client->node_id == client->node_id && client_leaving) { iter_client_data->client_state = QNETD_ALGO_FFSPLIT_CLIENT_STATE_WAITING_FOR_CHANGE; continue; } if (quorate_partition_node_list == NULL || node_list_find_node_id(quorate_partition_node_list, iter_client->node_id) == NULL) { iter_client_data->client_state = QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK; } else { iter_client_data->client_state = QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK; } } } /* * Send vote info. If client_leaving is set, client is ignored. if send_acks * is set, only ACK votes are sent (nodes in QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK state), * otherwise only NACK votes are sent (nodes in QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK state) * * Returns number of send votes */ static size_t qnetd_algo_ffsplit_send_votes(struct qnetd_client *client, int client_leaving, const struct tlv_ring_id *ring_id, int send_acks) { size_t sent_votes; struct qnetd_client *iter_client; struct qnetd_algo_ffsplit_client_data *iter_client_data; const struct tlv_ring_id *ring_id_to_send; enum tlv_vote vote_to_send; sent_votes = 0; TAILQ_FOREACH(iter_client, &client->cluster->client_list, cluster_entries) { if (iter_client->node_id == client->node_id) { if (client_leaving) { continue; } ring_id_to_send = ring_id; } else { ring_id_to_send = &iter_client->last_ring_id; } iter_client_data = (struct qnetd_algo_ffsplit_client_data *)iter_client->algorithm_data; vote_to_send = TLV_VOTE_UNDEFINED; if (send_acks) { if (iter_client_data->client_state == QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK) { vote_to_send = TLV_VOTE_ACK; } } else { if (iter_client_data->client_state == QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK) { vote_to_send = TLV_VOTE_NACK; } } if (vote_to_send != TLV_VOTE_UNDEFINED) { iter_client_data->vote_info_expected_seq_num++; sent_votes++; if (qnetd_client_send_vote_info(iter_client, iter_client_data->vote_info_expected_seq_num, ring_id_to_send, vote_to_send) == -1) { client->schedule_disconnect = 1; } } } return (sent_votes); } /* * Return number of clients in QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK state if sending_acks is * set or number of nodes in QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK state if sending_acks is * not set */ static size_t qnetd_algo_ffsplit_no_clients_in_sending_state(struct qnetd_client *client, int sending_acks) { size_t no_clients; struct qnetd_client *iter_client; struct qnetd_algo_ffsplit_client_data *iter_client_data; no_clients = 0; TAILQ_FOREACH(iter_client, &client->cluster->client_list, cluster_entries) { iter_client_data = (struct qnetd_algo_ffsplit_client_data *)iter_client->algorithm_data; if (sending_acks && iter_client_data->client_state == QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_ACK) { no_clients++; } if (!sending_acks && iter_client_data->client_state == QNETD_ALGO_FFSPLIT_CLIENT_STATE_SENDING_NACK) { no_clients++; } } return (no_clients); } static enum tlv_reply_error_code qnetd_algo_ffsplit_do(struct qnetd_client *client, int client_leaving, const struct tlv_ring_id *ring_id, const struct node_list *config_node_list, const struct node_list *membership_node_list, enum tlv_heuristics client_heuristics, enum tlv_vote *result_vote) { struct qnetd_algo_ffsplit_cluster_data *cluster_data; const struct node_list *quorate_partition_node_list; cluster_data = (struct qnetd_algo_ffsplit_cluster_data *)client->cluster->algorithm_data; cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_STABLE_MEMBERSHIP; if (!qnetd_algo_ffsplit_is_membership_stable(client, client_leaving, ring_id, config_node_list, membership_node_list)) { /* * Wait until membership is stable */ log(LOG_DEBUG, "ffsplit: Membership for cluster %s is not yet stable", client->cluster_name); *result_vote = TLV_VOTE_WAIT_FOR_REPLY; return (TLV_REPLY_ERROR_CODE_NO_ERROR); } log(LOG_DEBUG, "ffsplit: Membership for cluster %s is now stable", client->cluster_name); quorate_partition_node_list = qnetd_algo_ffsplit_select_partition(client, client_leaving, config_node_list, membership_node_list, &cluster_data->quorate_partition_node_list, client_heuristics); node_list_free(&cluster_data->quorate_partition_node_list); if (quorate_partition_node_list == NULL) { log(LOG_DEBUG, "ffsplit: No quorate partition was selected"); } else { log(LOG_DEBUG, "ffsplit: Quorate partition selected"); log_common_debug_dump_node_list(quorate_partition_node_list); if (node_list_clone(&cluster_data->quorate_partition_node_list, quorate_partition_node_list) != 0) { log(LOG_ERR, "ffsplit: Can't clone quourate partition node list"); return (TLV_REPLY_ERROR_CODE_INTERNAL_ERROR); } } qnetd_algo_ffsplit_update_nodes_state(client, client_leaving, quorate_partition_node_list); cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_NACKS; if (qnetd_algo_ffsplit_send_votes(client, client_leaving, ring_id, 0) == 0) { log(LOG_DEBUG, "ffsplit: No client gets NACK"); /* * No one gets nack -> send acks */ cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_ACKS; if (qnetd_algo_ffsplit_send_votes(client, client_leaving, ring_id, 1) == 0) { log(LOG_DEBUG, "ffsplit: No client gets ACK"); /* * No one gets acks -> finished */ cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_CHANGE; } } *result_vote = TLV_VOTE_NO_CHANGE; return (TLV_REPLY_ERROR_CODE_NO_ERROR); } enum tlv_reply_error_code qnetd_algo_ffsplit_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) { enum tlv_reply_error_code reply_error_code; reply_error_code = TLV_REPLY_ERROR_CODE_NO_ERROR; if (node_list_size(nodes) == 0) { /* * Empty node list shouldn't happen */ log(LOG_ERR, "ffsplit: Received empty config node list for client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INVALID_CONFIG_NODE_LIST); } if (node_list_find_node_id(nodes, client->node_id) == NULL) { /* * Current node is not in node list */ log(LOG_ERR, "ffsplit: Received config node list without client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INVALID_CONFIG_NODE_LIST); } if (initial || node_list_size(&client->last_membership_node_list) == 0) { /* * Initial node list -> membership is going to be send by client */ *result_vote = TLV_VOTE_ASK_LATER; } else { reply_error_code = qnetd_algo_ffsplit_do(client, 0, &client->last_ring_id, nodes, &client->last_membership_node_list, client->last_heuristics, result_vote); } return (reply_error_code); } /* * Called after client sent membership node list. * All client fields are already set. Nodes is actual node list. * msg_seq_num is 32-bit number set by client. If client sent config file version, * config_version_set is set to 1 and config_version contains valid config file version. * ring_id and quorate are copied from client votequorum callback. * * Function has to return result_vote. This can be one of ack/nack, ask_later (client * should ask later for a vote) or wait_for_reply (client should wait for reply). * * Return TLV_REPLY_ERROR_CODE_NO_ERROR on success, different TLV_REPLY_ERROR_CODE_* * on failure (error is send back to client) */ enum tlv_reply_error_code qnetd_algo_ffsplit_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) { enum tlv_reply_error_code reply_error_code; reply_error_code = TLV_REPLY_ERROR_CODE_NO_ERROR; if (node_list_size(nodes) == 0) { /* * Empty node list shouldn't happen */ log(LOG_ERR, "ffsplit: Received empty membership node list for client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INVALID_MEMBERSHIP_NODE_LIST); } if (node_list_find_node_id(nodes, client->node_id) == NULL) { /* * Current node is not in node list */ log(LOG_ERR, "ffsplit: Received membership node list without client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_INVALID_MEMBERSHIP_NODE_LIST); } if (node_list_size(&client->configuration_node_list) == 0) { /* * Config node list not received -> it's going to be sent later */ *result_vote = TLV_VOTE_ASK_LATER; } else { reply_error_code = qnetd_algo_ffsplit_do(client, 0, ring_id, &client->configuration_node_list, nodes, heuristics, result_vote); } return (reply_error_code); } enum tlv_reply_error_code qnetd_algo_ffsplit_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) { /* * Quorum node list is informative -> no change */ *result_vote = TLV_VOTE_NO_CHANGE; return (TLV_REPLY_ERROR_CODE_NO_ERROR); } void qnetd_algo_ffsplit_client_disconnect(struct qnetd_client *client, int server_going_down) { enum tlv_vote result_vote; struct qnetd_algo_ffsplit_cluster_data *cluster_data; cluster_data = (struct qnetd_algo_ffsplit_cluster_data *)client->cluster->algorithm_data; if (!server_going_down) { (void)qnetd_algo_ffsplit_do(client, 1, &client->last_ring_id, &client->configuration_node_list, &client->last_membership_node_list, client->last_heuristics, &result_vote); } free(client->algorithm_data); if (qnetd_cluster_size(client->cluster) == 1) { /* * Last client in the cluster */ node_list_free(&cluster_data->quorate_partition_node_list); free(client->cluster->algorithm_data); } } enum tlv_reply_error_code qnetd_algo_ffsplit_ask_for_vote_received(struct qnetd_client *client, uint32_t msg_seq_num, enum tlv_vote *result_vote) { /* * Ask for vote is not supported in current algorithm */ return (TLV_REPLY_ERROR_CODE_UNSUPPORTED_DECISION_ALGORITHM_MESSAGE); } enum tlv_reply_error_code qnetd_algo_ffsplit_vote_info_reply_received(struct qnetd_client *client, uint32_t msg_seq_num) { struct qnetd_algo_ffsplit_cluster_data *cluster_data; struct qnetd_algo_ffsplit_client_data *client_data; cluster_data = (struct qnetd_algo_ffsplit_cluster_data *)client->cluster->algorithm_data; client_data = (struct qnetd_algo_ffsplit_client_data *)client->algorithm_data; if (client_data->vote_info_expected_seq_num != msg_seq_num) { log(LOG_DEBUG, "ffsplit: Received old vote info reply from client %s", client->addr_str); return (TLV_REPLY_ERROR_CODE_NO_ERROR); } client_data->client_state = QNETD_ALGO_FFSPLIT_CLIENT_STATE_WAITING_FOR_CHANGE; if (cluster_data->cluster_state != QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_NACKS && cluster_data->cluster_state != QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_ACKS) { return (TLV_REPLY_ERROR_CODE_NO_ERROR); } if (cluster_data->cluster_state == QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_NACKS) { if (qnetd_algo_ffsplit_no_clients_in_sending_state(client, 0) == 0) { log(LOG_DEBUG, "ffsplit: All NACK votes sent for cluster %s", client->cluster_name); cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_SENDING_ACKS; if (qnetd_algo_ffsplit_send_votes(client, 0, &client->last_ring_id, 1) == 0) { log(LOG_DEBUG, "ffsplit: No client gets ACK"); /* * No one gets acks -> finished */ cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_CHANGE; } } } else { if (qnetd_algo_ffsplit_no_clients_in_sending_state(client, 1) == 0) { log(LOG_DEBUG, "ffsplit: All ACK votes sent for cluster %s", client->cluster_name); cluster_data->cluster_state = QNETD_ALGO_FFSPLIT_CLUSTER_STATE_WAITING_FOR_CHANGE; } } return (TLV_REPLY_ERROR_CODE_NO_ERROR); } enum tlv_reply_error_code qnetd_algo_ffsplit_heuristics_change_received(struct qnetd_client *client, uint32_t msg_seq_num, enum tlv_heuristics heuristics, enum tlv_vote *result_vote) { enum tlv_reply_error_code reply_error_code; reply_error_code = TLV_REPLY_ERROR_CODE_NO_ERROR; if (node_list_size(&client->configuration_node_list) == 0 || node_list_size(&client->last_membership_node_list) == 0) { /* * Config or membership node list not received -> it's going to be sent later */ *result_vote = TLV_VOTE_ASK_LATER; } else { reply_error_code = qnetd_algo_ffsplit_do(client, 0, &client->last_ring_id, &client->configuration_node_list, &client->last_membership_node_list, heuristics, result_vote); } return (reply_error_code); } enum tlv_reply_error_code qnetd_algo_ffsplit_timer_callback(struct qnetd_client *client, int *reschedule_timer, int *send_vote, enum tlv_vote *result_vote) { return (TLV_REPLY_ERROR_CODE_NO_ERROR); } static struct qnetd_algorithm qnetd_algo_ffsplit = { .init = qnetd_algo_ffsplit_client_init, .config_node_list_received = qnetd_algo_ffsplit_config_node_list_received, .membership_node_list_received = qnetd_algo_ffsplit_membership_node_list_received, .quorum_node_list_received = qnetd_algo_ffsplit_quorum_node_list_received, .client_disconnect = qnetd_algo_ffsplit_client_disconnect, .ask_for_vote_received = qnetd_algo_ffsplit_ask_for_vote_received, .vote_info_reply_received = qnetd_algo_ffsplit_vote_info_reply_received, .heuristics_change_received = qnetd_algo_ffsplit_heuristics_change_received, .timer_callback = qnetd_algo_ffsplit_timer_callback, }; enum tlv_reply_error_code qnetd_algo_ffsplit_register() { return (qnetd_algorithm_register(TLV_DECISION_ALGORITHM_TYPE_FFSPLIT, &qnetd_algo_ffsplit)); }