📄 cluster.c
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/* * net/tipc/cluster.c: TIPC cluster management routines * * Copyright (c) 2000-2006, Ericsson AB * Copyright (c) 2005, Wind River Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * 3. Neither the names of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * 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 "core.h"#include "cluster.h"#include "addr.h"#include "node_subscr.h"#include "link.h"#include "node.h"#include "net.h"#include "msg.h"#include "bearer.h"static void tipc_cltr_multicast(struct cluster *c_ptr, struct sk_buff *buf, u32 lower, u32 upper);static struct sk_buff *tipc_cltr_prepare_routing_msg(u32 data_size, u32 dest);struct node **tipc_local_nodes = NULL;struct node_map tipc_cltr_bcast_nodes = {0,{0,}};u32 tipc_highest_allowed_slave = 0;struct cluster *tipc_cltr_create(u32 addr){ struct _zone *z_ptr; struct cluster *c_ptr; int max_nodes; c_ptr = kzalloc(sizeof(*c_ptr), GFP_ATOMIC); if (c_ptr == NULL) { warn("Cluster creation failure, no memory\n"); return NULL; } c_ptr->addr = tipc_addr(tipc_zone(addr), tipc_cluster(addr), 0); if (in_own_cluster(addr)) max_nodes = LOWEST_SLAVE + tipc_max_slaves; else max_nodes = tipc_max_nodes + 1; c_ptr->nodes = kcalloc(max_nodes + 1, sizeof(void*), GFP_ATOMIC); if (c_ptr->nodes == NULL) { warn("Cluster creation failure, no memory for node area\n"); kfree(c_ptr); return NULL; } if (in_own_cluster(addr)) tipc_local_nodes = c_ptr->nodes; c_ptr->highest_slave = LOWEST_SLAVE - 1; c_ptr->highest_node = 0; z_ptr = tipc_zone_find(tipc_zone(addr)); if (!z_ptr) { z_ptr = tipc_zone_create(addr); } if (!z_ptr) { kfree(c_ptr->nodes); kfree(c_ptr); return NULL; } tipc_zone_attach_cluster(z_ptr, c_ptr); c_ptr->owner = z_ptr; return c_ptr;}void tipc_cltr_delete(struct cluster *c_ptr){ u32 n_num; if (!c_ptr) return; for (n_num = 1; n_num <= c_ptr->highest_node; n_num++) { tipc_node_delete(c_ptr->nodes[n_num]); } for (n_num = LOWEST_SLAVE; n_num <= c_ptr->highest_slave; n_num++) { tipc_node_delete(c_ptr->nodes[n_num]); } kfree(c_ptr->nodes); kfree(c_ptr);}u32 tipc_cltr_next_node(struct cluster *c_ptr, u32 addr){ struct node *n_ptr; u32 n_num = tipc_node(addr) + 1; if (!c_ptr) return addr; for (; n_num <= c_ptr->highest_node; n_num++) { n_ptr = c_ptr->nodes[n_num]; if (n_ptr && tipc_node_has_active_links(n_ptr)) return n_ptr->addr; } for (n_num = 1; n_num < tipc_node(addr); n_num++) { n_ptr = c_ptr->nodes[n_num]; if (n_ptr && tipc_node_has_active_links(n_ptr)) return n_ptr->addr; } return 0;}void tipc_cltr_attach_node(struct cluster *c_ptr, struct node *n_ptr){ u32 n_num = tipc_node(n_ptr->addr); u32 max_n_num = tipc_max_nodes; if (in_own_cluster(n_ptr->addr)) max_n_num = tipc_highest_allowed_slave; assert(n_num > 0); assert(n_num <= max_n_num); assert(c_ptr->nodes[n_num] == 0); c_ptr->nodes[n_num] = n_ptr; if (n_num > c_ptr->highest_node) c_ptr->highest_node = n_num;}/** * tipc_cltr_select_router - select router to a cluster * * Uses deterministic and fair algorithm. */u32 tipc_cltr_select_router(struct cluster *c_ptr, u32 ref){ u32 n_num; u32 ulim = c_ptr->highest_node; u32 mask; u32 tstart; assert(!in_own_cluster(c_ptr->addr)); if (!ulim) return 0; /* Start entry must be random */ mask = tipc_max_nodes; while (mask > ulim) mask >>= 1; tstart = ref & mask; n_num = tstart; /* Lookup upwards with wrap-around */ do { if (tipc_node_is_up(c_ptr->nodes[n_num])) break; } while (++n_num <= ulim); if (n_num > ulim) { n_num = 1; do { if (tipc_node_is_up(c_ptr->nodes[n_num])) break; } while (++n_num < tstart); if (n_num == tstart) return 0; } assert(n_num <= ulim); return tipc_node_select_router(c_ptr->nodes[n_num], ref);}/** * tipc_cltr_select_node - select destination node within a remote cluster * * Uses deterministic and fair algorithm. */struct node *tipc_cltr_select_node(struct cluster *c_ptr, u32 selector){ u32 n_num; u32 mask = tipc_max_nodes; u32 start_entry; assert(!in_own_cluster(c_ptr->addr)); if (!c_ptr->highest_node) return NULL; /* Start entry must be random */ while (mask > c_ptr->highest_node) { mask >>= 1; } start_entry = (selector & mask) ? selector & mask : 1u; assert(start_entry <= c_ptr->highest_node); /* Lookup upwards with wrap-around */ for (n_num = start_entry; n_num <= c_ptr->highest_node; n_num++) { if (tipc_node_has_active_links(c_ptr->nodes[n_num])) return c_ptr->nodes[n_num]; } for (n_num = 1; n_num < start_entry; n_num++) { if (tipc_node_has_active_links(c_ptr->nodes[n_num])) return c_ptr->nodes[n_num]; } return NULL;}/* * Routing table management: See description in node.c */static struct sk_buff *tipc_cltr_prepare_routing_msg(u32 data_size, u32 dest){ u32 size = INT_H_SIZE + data_size; struct sk_buff *buf = buf_acquire(size); struct tipc_msg *msg; if (buf) { msg = buf_msg(buf); memset((char *)msg, 0, size); msg_init(msg, ROUTE_DISTRIBUTOR, 0, TIPC_OK, INT_H_SIZE, dest); } return buf;}void tipc_cltr_bcast_new_route(struct cluster *c_ptr, u32 dest, u32 lower, u32 upper){ struct sk_buff *buf = tipc_cltr_prepare_routing_msg(0, c_ptr->addr); struct tipc_msg *msg; if (buf) { msg = buf_msg(buf); msg_set_remote_node(msg, dest); msg_set_type(msg, ROUTE_ADDITION); tipc_cltr_multicast(c_ptr, buf, lower, upper); } else { warn("Memory squeeze: broadcast of new route failed\n"); }}void tipc_cltr_bcast_lost_route(struct cluster *c_ptr, u32 dest, u32 lower, u32 upper){ struct sk_buff *buf = tipc_cltr_prepare_routing_msg(0, c_ptr->addr); struct tipc_msg *msg; if (buf) { msg = buf_msg(buf); msg_set_remote_node(msg, dest); msg_set_type(msg, ROUTE_REMOVAL); tipc_cltr_multicast(c_ptr, buf, lower, upper); } else { warn("Memory squeeze: broadcast of lost route failed\n"); }}void tipc_cltr_send_slave_routes(struct cluster *c_ptr, u32 dest){ struct sk_buff *buf; struct tipc_msg *msg; u32 highest = c_ptr->highest_slave; u32 n_num; int send = 0; assert(!is_slave(dest)); assert(in_own_cluster(dest)); assert(in_own_cluster(c_ptr->addr)); if (highest <= LOWEST_SLAVE) return; buf = tipc_cltr_prepare_routing_msg(highest - LOWEST_SLAVE + 1, c_ptr->addr); if (buf) { msg = buf_msg(buf); msg_set_remote_node(msg, c_ptr->addr); msg_set_type(msg, SLAVE_ROUTING_TABLE); for (n_num = LOWEST_SLAVE; n_num <= highest; n_num++) { if (c_ptr->nodes[n_num] && tipc_node_has_active_links(c_ptr->nodes[n_num])) { send = 1; msg_set_dataoctet(msg, n_num); } } if (send) tipc_link_send(buf, dest, dest); else buf_discard(buf); } else { warn("Memory squeeze: broadcast of lost route failed\n"); }}void tipc_cltr_send_ext_routes(struct cluster *c_ptr, u32 dest){ struct sk_buff *buf; struct tipc_msg *msg; u32 highest = c_ptr->highest_node; u32 n_num; int send = 0; if (in_own_cluster(c_ptr->addr)) return; assert(!is_slave(dest)); assert(in_own_cluster(dest)); highest = c_ptr->highest_node; buf = tipc_cltr_prepare_routing_msg(highest + 1, c_ptr->addr); if (buf) { msg = buf_msg(buf); msg_set_remote_node(msg, c_ptr->addr); msg_set_type(msg, EXT_ROUTING_TABLE); for (n_num = 1; n_num <= highest; n_num++) { if (c_ptr->nodes[n_num] && tipc_node_has_active_links(c_ptr->nodes[n_num])) { send = 1; msg_set_dataoctet(msg, n_num); } } if (send) tipc_link_send(buf, dest, dest); else buf_discard(buf); } else { warn("Memory squeeze: broadcast of external route failed\n"); }}void tipc_cltr_send_local_routes(struct cluster *c_ptr, u32 dest){ struct sk_buff *buf; struct tipc_msg *msg; u32 highest = c_ptr->highest_node; u32 n_num; int send = 0; assert(is_slave(dest)); assert(in_own_cluster(c_ptr->addr)); buf = tipc_cltr_prepare_routing_msg(highest, c_ptr->addr); if (buf) { msg = buf_msg(buf); msg_set_remote_node(msg, c_ptr->addr); msg_set_type(msg, LOCAL_ROUTING_TABLE); for (n_num = 1; n_num <= highest; n_num++) { if (c_ptr->nodes[n_num] && tipc_node_has_active_links(c_ptr->nodes[n_num])) { send = 1; msg_set_dataoctet(msg, n_num); } } if (send) tipc_link_send(buf, dest, dest); else buf_discard(buf); } else { warn("Memory squeeze: broadcast of local route failed\n"); }}void tipc_cltr_recv_routing_table(struct sk_buff *buf){ struct tipc_msg *msg = buf_msg(buf); struct cluster *c_ptr; struct node *n_ptr; unchar *node_table; u32 table_size; u32 router; u32 rem_node = msg_remote_node(msg); u32 z_num; u32 c_num; u32 n_num; c_ptr = tipc_cltr_find(rem_node); if (!c_ptr) { c_ptr = tipc_cltr_create(rem_node); if (!c_ptr) { buf_discard(buf); return; } } node_table = buf->data + msg_hdr_sz(msg); table_size = msg_size(msg) - msg_hdr_sz(msg); router = msg_prevnode(msg); z_num = tipc_zone(rem_node); c_num = tipc_cluster(rem_node); switch (msg_type(msg)) { case LOCAL_ROUTING_TABLE: assert(is_slave(tipc_own_addr)); case EXT_ROUTING_TABLE: for (n_num = 1; n_num < table_size; n_num++) { if (node_table[n_num]) { u32 addr = tipc_addr(z_num, c_num, n_num); n_ptr = c_ptr->nodes[n_num]; if (!n_ptr) { n_ptr = tipc_node_create(addr); } if (n_ptr) tipc_node_add_router(n_ptr, router); } } break; case SLAVE_ROUTING_TABLE: assert(!is_slave(tipc_own_addr)); assert(in_own_cluster(c_ptr->addr)); for (n_num = 1; n_num < table_size; n_num++) { if (node_table[n_num]) { u32 slave_num = n_num + LOWEST_SLAVE; u32 addr = tipc_addr(z_num, c_num, slave_num); n_ptr = c_ptr->nodes[slave_num]; if (!n_ptr) { n_ptr = tipc_node_create(addr); } if (n_ptr) tipc_node_add_router(n_ptr, router); } } break; case ROUTE_ADDITION: if (!is_slave(tipc_own_addr)) { assert(!in_own_cluster(c_ptr->addr) || is_slave(rem_node)); } else { assert(in_own_cluster(c_ptr->addr) && !is_slave(rem_node)); } n_ptr = c_ptr->nodes[tipc_node(rem_node)]; if (!n_ptr) n_ptr = tipc_node_create(rem_node); if (n_ptr) tipc_node_add_router(n_ptr, router); break; case ROUTE_REMOVAL: if (!is_slave(tipc_own_addr)) { assert(!in_own_cluster(c_ptr->addr) || is_slave(rem_node)); } else { assert(in_own_cluster(c_ptr->addr) && !is_slave(rem_node)); } n_ptr = c_ptr->nodes[tipc_node(rem_node)]; if (n_ptr) tipc_node_remove_router(n_ptr, router); break; default: assert(!"Illegal routing manager message received\n"); } buf_discard(buf);}void tipc_cltr_remove_as_router(struct cluster *c_ptr, u32 router){ u32 start_entry; u32 tstop; u32 n_num; if (is_slave(router)) return; /* Slave nodes can not be routers */ if (in_own_cluster(c_ptr->addr)) { start_entry = LOWEST_SLAVE; tstop = c_ptr->highest_slave; } else { start_entry = 1; tstop = c_ptr->highest_node; } for (n_num = start_entry; n_num <= tstop; n_num++) { if (c_ptr->nodes[n_num]) { tipc_node_remove_router(c_ptr->nodes[n_num], router); } }}/** * tipc_cltr_multicast - multicast message to local nodes */static void tipc_cltr_multicast(struct cluster *c_ptr, struct sk_buff *buf, u32 lower, u32 upper){ struct sk_buff *buf_copy; struct node *n_ptr; u32 n_num; u32 tstop; assert(lower <= upper); assert(((lower >= 1) && (lower <= tipc_max_nodes)) || ((lower >= LOWEST_SLAVE) && (lower <= tipc_highest_allowed_slave))); assert(((upper >= 1) && (upper <= tipc_max_nodes)) || ((upper >= LOWEST_SLAVE) && (upper <= tipc_highest_allowed_slave))); assert(in_own_cluster(c_ptr->addr)); tstop = is_slave(upper) ? c_ptr->highest_slave : c_ptr->highest_node; if (tstop > upper) tstop = upper; for (n_num = lower; n_num <= tstop; n_num++) { n_ptr = c_ptr->nodes[n_num]; if (n_ptr && tipc_node_has_active_links(n_ptr)) { buf_copy = skb_copy(buf, GFP_ATOMIC); if (buf_copy == NULL) break; msg_set_destnode(buf_msg(buf_copy), n_ptr->addr); tipc_link_send(buf_copy, n_ptr->addr, n_ptr->addr); } } buf_discard(buf);}/** * tipc_cltr_broadcast - broadcast message to all nodes within cluster */void tipc_cltr_broadcast(struct sk_buff *buf){ struct sk_buff *buf_copy; struct cluster *c_ptr; struct node *n_ptr; u32 n_num; u32 tstart; u32 tstop; u32 node_type; if (tipc_mode == TIPC_NET_MODE) { c_ptr = tipc_cltr_find(tipc_own_addr); assert(in_own_cluster(c_ptr->addr)); /* For now */ /* Send to standard nodes, then repeat loop sending to slaves */ tstart = 1; tstop = c_ptr->highest_node; for (node_type = 1; node_type <= 2; node_type++) { for (n_num = tstart; n_num <= tstop; n_num++) { n_ptr = c_ptr->nodes[n_num]; if (n_ptr && tipc_node_has_active_links(n_ptr)) { buf_copy = skb_copy(buf, GFP_ATOMIC); if (buf_copy == NULL) goto exit; msg_set_destnode(buf_msg(buf_copy), n_ptr->addr); tipc_link_send(buf_copy, n_ptr->addr, n_ptr->addr); } } tstart = LOWEST_SLAVE; tstop = c_ptr->highest_slave; } }exit: buf_discard(buf);}int tipc_cltr_init(void){ tipc_highest_allowed_slave = LOWEST_SLAVE + tipc_max_slaves; return tipc_cltr_create(tipc_own_addr) ? TIPC_OK : -ENOMEM;}⌨️ 快捷键说明
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