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totemconfig.c
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/*
* Copyright (c) 2002-2005 MontaVista Software, Inc.
* Copyright (c) 2006-2013 Red Hat, Inc.
*
* All rights reserved.
*
* Author: Steven Dake (sdake@redhat.com)
* 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 MontaVista Software, 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 <config.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <sys/param.h>
#include <corosync/swab.h>
#include <qb/qblist.h>
#include <qb/qbdefs.h>
#include <corosync/totem/totem.h>
#include <corosync/config.h>
#include <corosync/logsys.h>
#include <corosync/icmap.h>
#include "util.h"
#include "totemconfig.h"
#define TOKEN_RETRANSMITS_BEFORE_LOSS_CONST 4
#define TOKEN_TIMEOUT 1000
#define TOKEN_COEFFICIENT 650
#define JOIN_TIMEOUT 50
#define MERGE_TIMEOUT 200
#define DOWNCHECK_TIMEOUT 1000
#define FAIL_TO_RECV_CONST 2500
#define SEQNO_UNCHANGED_CONST 30
#define MINIMUM_TIMEOUT (int)(1000/HZ)*3
#define MAX_NETWORK_DELAY 50
#define WINDOW_SIZE 50
#define MAX_MESSAGES 17
#define MISS_COUNT_CONST 5
/* These currently match the defaults in libknet.h */
#define KNET_PING_INTERVAL 1000
#define KNET_PING_TIMEOUT 2000
#define KNET_PING_PRECISION 2048
#define DEFAULT_PORT 5405
static char error_string_response[512];
static void add_totem_config_notification(struct totem_config *totem_config);
/* All the volatile parameters are uint32s, luckily */
static uint32_t *totem_get_param_by_name(struct totem_config *totem_config, const char *param_name)
{
if (strcmp(param_name, "totem.token") == 0)
return &totem_config->token_timeout;
if (strcmp(param_name, "totem.token_retransmit") == 0)
return &totem_config->token_retransmit_timeout;
if (strcmp(param_name, "totem.hold") == 0)
return &totem_config->token_hold_timeout;
if (strcmp(param_name, "totem.token_retransmits_before_loss_const") == 0)
return &totem_config->token_retransmits_before_loss_const;
if (strcmp(param_name, "totem.join") == 0)
return &totem_config->join_timeout;
if (strcmp(param_name, "totem.send_join") == 0)
return &totem_config->send_join_timeout;
if (strcmp(param_name, "totem.consensus") == 0)
return &totem_config->consensus_timeout;
if (strcmp(param_name, "totem.merge") == 0)
return &totem_config->merge_timeout;
if (strcmp(param_name, "totem.downcheck") == 0)
return &totem_config->downcheck_timeout;
if (strcmp(param_name, "totem.fail_recv_const") == 0)
return &totem_config->fail_to_recv_const;
if (strcmp(param_name, "totem.seqno_unchanged_const") == 0)
return &totem_config->seqno_unchanged_const;
if (strcmp(param_name, "totem.heartbeat_failures_allowed") == 0)
return &totem_config->heartbeat_failures_allowed;
if (strcmp(param_name, "totem.max_network_delay") == 0)
return &totem_config->max_network_delay;
if (strcmp(param_name, "totem.window_size") == 0)
return &totem_config->window_size;
if (strcmp(param_name, "totem.max_messages") == 0)
return &totem_config->max_messages;
if (strcmp(param_name, "totem.miss_count_const") == 0)
return &totem_config->miss_count_const;
return NULL;
}
/*
* Read key_name from icmap. If key is not found or key_name == delete_key or if allow_zero is false
* and readed value is zero, default value is used and stored into totem_config.
*/
static void totem_volatile_config_set_value (struct totem_config *totem_config,
const char *key_name, const char *deleted_key, unsigned int default_value,
int allow_zero_value)
{
char runtime_key_name[ICMAP_KEYNAME_MAXLEN];
if (icmap_get_uint32(key_name, totem_get_param_by_name(totem_config, key_name)) != CS_OK ||
(deleted_key != NULL && strcmp(deleted_key, key_name) == 0) ||
(!allow_zero_value && *totem_get_param_by_name(totem_config, key_name) == 0)) {
*totem_get_param_by_name(totem_config, key_name) = default_value;
}
/*
* Store totem_config value to cmap runtime section
*/
if (strlen("runtime.config.") + strlen(key_name) >= ICMAP_KEYNAME_MAXLEN) {
/*
* This shouldn't happen
*/
return ;
}
strcpy(runtime_key_name, "runtime.config.");
strcat(runtime_key_name, key_name);
icmap_set_uint32(runtime_key_name, *totem_get_param_by_name(totem_config, key_name));
}
/*
* Read and validate config values from cmap and store them into totem_config. If key doesn't exists,
* default value is stored. deleted_key is name of key beeing processed by delete operation
* from cmap. It is considered as non existing even if it can be read. Can be NULL.
*/
static void totem_volatile_config_read (struct totem_config *totem_config, const char *deleted_key)
{
uint32_t u32;
totem_volatile_config_set_value(totem_config, "totem.token_retransmits_before_loss_const", deleted_key,
TOKEN_RETRANSMITS_BEFORE_LOSS_CONST, 0);
totem_volatile_config_set_value(totem_config, "totem.token", deleted_key, TOKEN_TIMEOUT, 0);
if (totem_config->interface_count > 0 && totem_config->interfaces[0].member_count > 2) {
u32 = TOKEN_COEFFICIENT;
icmap_get_uint32("totem.token_coefficient", &u32);
totem_config->token_timeout += (totem_config->interfaces[0].member_count - 2) * u32;
/*
* Store totem_config value to cmap runtime section
*/
icmap_set_uint32("runtime.config.totem.token", totem_config->token_timeout);
}
totem_volatile_config_set_value(totem_config, "totem.max_network_delay", deleted_key, MAX_NETWORK_DELAY, 0);
totem_volatile_config_set_value(totem_config, "totem.window_size", deleted_key, WINDOW_SIZE, 0);
totem_volatile_config_set_value(totem_config, "totem.max_messages", deleted_key, MAX_MESSAGES, 0);
totem_volatile_config_set_value(totem_config, "totem.miss_count_const", deleted_key, MISS_COUNT_CONST, 0);
totem_volatile_config_set_value(totem_config, "totem.token_retransmit", deleted_key,
(int)(totem_config->token_timeout / (totem_config->token_retransmits_before_loss_const + 0.2)), 0);
totem_volatile_config_set_value(totem_config, "totem.hold", deleted_key,
(int)(totem_config->token_retransmit_timeout * 0.8 - (1000/HZ)), 0);
totem_volatile_config_set_value(totem_config, "totem.join", deleted_key, JOIN_TIMEOUT, 0);
totem_volatile_config_set_value(totem_config, "totem.consensus", deleted_key,
(int)(float)(1.2 * totem_config->token_timeout), 0);
totem_volatile_config_set_value(totem_config, "totem.merge", deleted_key, MERGE_TIMEOUT, 0);
totem_volatile_config_set_value(totem_config, "totem.downcheck", deleted_key, DOWNCHECK_TIMEOUT, 0);
totem_volatile_config_set_value(totem_config, "totem.fail_recv_const", deleted_key, FAIL_TO_RECV_CONST, 0);
totem_volatile_config_set_value(totem_config, "totem.seqno_unchanged_const", deleted_key,
SEQNO_UNCHANGED_CONST, 0);
totem_volatile_config_set_value(totem_config, "totem.send_join", deleted_key, 0, 1);
totem_volatile_config_set_value(totem_config, "totem.heartbeat_failures_allowed", deleted_key, 0, 1);
}
static int totem_volatile_config_validate (
struct totem_config *totem_config,
const char **error_string)
{
static char local_error_reason[512];
const char *error_reason = local_error_reason;
if (totem_config->max_network_delay < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The max_network_delay parameter (%d ms) may not be less than (%d ms).",
totem_config->max_network_delay, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->token_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The token timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->token_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->token_retransmit_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The token retransmit timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->token_retransmit_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->token_hold_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The token hold timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->token_hold_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->join_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The join timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->join_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->consensus_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The consensus timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->consensus_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->consensus_timeout < totem_config->join_timeout) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The consensus timeout parameter (%d ms) may not be less than join timeout (%d ms).",
totem_config->consensus_timeout, totem_config->join_timeout);
goto parse_error;
}
if (totem_config->merge_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The merge timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->merge_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
if (totem_config->downcheck_timeout < MINIMUM_TIMEOUT) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The downcheck timeout parameter (%d ms) may not be less than (%d ms).",
totem_config->downcheck_timeout, MINIMUM_TIMEOUT);
goto parse_error;
}
return 0;
parse_error:
snprintf (error_string_response, sizeof(error_string_response),
"parse error in config: %s\n", error_reason);
*error_string = error_string_response;
return (-1);
}
static int totem_get_crypto(struct totem_config *totem_config)
{
char *str;
const char *tmp_cipher;
const char *tmp_hash;
tmp_hash = "none";
tmp_cipher = "none";
if (icmap_get_string("totem.crypto_cipher", &str) == CS_OK) {
if (strcmp(str, "none") == 0) {
tmp_cipher = "none";
}
if (strcmp(str, "aes256") == 0) {
tmp_cipher = "aes256";
}
if (strcmp(str, "aes192") == 0) {
tmp_cipher = "aes192";
}
if (strcmp(str, "aes128") == 0) {
tmp_cipher = "aes128";
}
if (strcmp(str, "aes256") == 0) {
tmp_cipher = "aes256";
}
if (strcmp(str, "3des") == 0) {
tmp_cipher = "3des";
}
free(str);
}
if (icmap_get_string("totem.crypto_hash", &str) == CS_OK) {
if (strcmp(str, "none") == 0) {
tmp_hash = "none";
}
if (strcmp(str, "md5") == 0) {
tmp_hash = "md5";
}
if (strcmp(str, "sha1") == 0) {
tmp_hash = "sha1";
}
if (strcmp(str, "sha256") == 0) {
tmp_hash = "sha256";
}
if (strcmp(str, "sha384") == 0) {
tmp_hash = "sha384";
}
if (strcmp(str, "sha512") == 0) {
tmp_hash = "sha512";
}
free(str);
}
if ((strcmp(tmp_cipher, "none") != 0) &&
(strcmp(tmp_hash, "none") == 0)) {
return -1;
}
free(totem_config->crypto_cipher_type);
free(totem_config->crypto_hash_type);
totem_config->crypto_cipher_type = strdup(tmp_cipher);
totem_config->crypto_hash_type = strdup(tmp_hash);
return 0;
}
static int totem_config_get_ip_version(void)
{
int res;
char *str;
res = AF_INET;
if (icmap_get_string("totem.ip_version", &str) == CS_OK) {
if (strcmp(str, "ipv4") == 0) {
res = AF_INET;
}
if (strcmp(str, "ipv6") == 0) {
res = AF_INET6;
}
free(str);
}
return (res);
}
static uint16_t generate_cluster_id (const char *cluster_name)
{
int i;
int value = 0;
for (i = 0; i < strlen(cluster_name); i++) {
value <<= 1;
value += cluster_name[i];
}
return (value & 0xFFFF);
}
static int get_cluster_mcast_addr (
const char *cluster_name,
unsigned int linknumber,
int ip_version,
struct totem_ip_address *res)
{
uint16_t clusterid;
char addr[INET6_ADDRSTRLEN + 1];
int err;
if (cluster_name == NULL) {
return (-1);
}
clusterid = generate_cluster_id(cluster_name) + linknumber;
memset (res, 0, sizeof(*res));
switch (ip_version) {
case AF_INET:
snprintf(addr, sizeof(addr), "239.192.%d.%d", clusterid >> 8, clusterid % 0xFF);
break;
case AF_INET6:
snprintf(addr, sizeof(addr), "ff15::%x", clusterid);
break;
default:
/*
* Unknown family
*/
return (-1);
}
err = totemip_parse (res, addr, ip_version);
return (err);
}
static unsigned int generate_nodeid_for_duplicate_test(
struct totem_config *totem_config,
char *addr)
{
unsigned int nodeid;
struct totem_ip_address totemip;
/* AF_INET hard-coded here because auto-generated nodeids
are only for IPv4 */
if (totemip_parse(&totemip, addr, AF_INET) != 0)
return -1;
memcpy (&nodeid, &totemip.addr, sizeof (unsigned int));
#if __BYTE_ORDER == __LITTLE_ENDIAN
nodeid = swab32 (nodeid);
#endif
if (totem_config->clear_node_high_bit) {
nodeid &= 0x7FFFFFFF;
}
return nodeid;
}
static int check_for_duplicate_nodeids(
struct totem_config *totem_config,
const char **error_string)
{
icmap_iter_t iter;
icmap_iter_t subiter;
const char *iter_key;
int res = 0;
int retval = 0;
char tmp_key[ICMAP_KEYNAME_MAXLEN];
char *ring0_addr=NULL;
char *ring0_addr1=NULL;
unsigned int node_pos;
unsigned int node_pos1;
unsigned int nodeid;
unsigned int nodeid1;
int autogenerated;
iter = icmap_iter_init("nodelist.node.");
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "nodelist.node.%u.%s", &node_pos, tmp_key);
if (res != 2) {
continue;
}
if (strcmp(tmp_key, "ring0_addr") != 0) {
continue;
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.nodeid", node_pos);
autogenerated = 0;
if (icmap_get_uint32(tmp_key, &nodeid) != CS_OK) {
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.ring0_addr", node_pos);
if (icmap_get_string(tmp_key, &ring0_addr) != CS_OK) {
continue;
}
/* Generate nodeid so we can check that auto-generated nodeids don't clash either */
nodeid = generate_nodeid_for_duplicate_test(totem_config, ring0_addr);
if (nodeid == -1) {
continue;
}
autogenerated = 1;
}
node_pos1 = 0;
subiter = icmap_iter_init("nodelist.node.");
while (((iter_key = icmap_iter_next(subiter, NULL, NULL)) != NULL) && (node_pos1 < node_pos)) {
res = sscanf(iter_key, "nodelist.node.%u.%s", &node_pos1, tmp_key);
if ((res != 2) || (node_pos1 >= node_pos)) {
continue;
}
if (strcmp(tmp_key, "ring0_addr") != 0) {
continue;
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.nodeid", node_pos1);
if (icmap_get_uint32(tmp_key, &nodeid1) != CS_OK) {
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.ring0_addr", node_pos1);
if (icmap_get_string(tmp_key, &ring0_addr1) != CS_OK) {
continue;
}
nodeid1 = generate_nodeid_for_duplicate_test(totem_config, ring0_addr1);
if (nodeid1 == -1) {
continue;
}
}
if (nodeid == nodeid1) {
retval = -1;
snprintf (error_string_response, sizeof(error_string_response),
"Nodeid %u%s%s%s appears twice in corosync.conf", nodeid,
autogenerated?"(autogenerated from ":"",
autogenerated?ring0_addr:"",
autogenerated?")":"");
log_printf (LOGSYS_LEVEL_ERROR, error_string_response);
*error_string = error_string_response;
break;
}
}
icmap_iter_finalize(subiter);
}
icmap_iter_finalize(iter);
return retval;
}
static int find_local_node_in_nodelist(struct totem_config *totem_config)
{
icmap_iter_t iter;
const char *iter_key;
int res = 0;
unsigned int node_pos;
int local_node_pos = -1;
struct totem_ip_address bind_addr;
int interface_up, interface_num;
char tmp_key[ICMAP_KEYNAME_MAXLEN];
char *node_addr_str;
struct totem_ip_address node_addr;
res = totemip_iface_check(&totem_config->interfaces[0].bindnet,
&bind_addr, &interface_up, &interface_num,
totem_config->clear_node_high_bit);
if (res == -1) {
return (-1);
}
iter = icmap_iter_init("nodelist.node.");
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "nodelist.node.%u.%s", &node_pos, tmp_key);
if (res != 2) {
continue;
}
if (strcmp(tmp_key, "ring0_addr") != 0) {
continue;
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.ring0_addr", node_pos);
if (icmap_get_string(tmp_key, &node_addr_str) != CS_OK) {
continue;
}
res = totemip_parse (&node_addr, node_addr_str, totem_config->ip_version);
free(node_addr_str);
if (res == -1) {
continue ;
}
if (totemip_equal(&bind_addr, &node_addr)) {
local_node_pos = node_pos;
}
}
icmap_iter_finalize(iter);
return (local_node_pos);
}
/*
* Compute difference between two set of totem interface arrays. set1 and set2
* are changed so for same ring, ip existing in both set1 and set2 are cleared
* (set to 0), and ips which are only in set1 or set2 remains untouched.
* totempg_node_add/remove is called.
*/
static void compute_interfaces_diff(int interface_count,
struct totem_interface *set1,
struct totem_interface *set2)
{
int ring_no, set1_pos, set2_pos;
struct totem_ip_address empty_ip_address;
memset(&empty_ip_address, 0, sizeof(empty_ip_address));
for (ring_no = 0; ring_no < interface_count; ring_no++) {
for (set1_pos = 0; set1_pos < set1[ring_no].member_count; set1_pos++) {
for (set2_pos = 0; set2_pos < set2[ring_no].member_count; set2_pos++) {
/*
* For current ring_no remove all set1 items existing
* in set2
*/
if (memcmp(&set1[ring_no].member_list[set1_pos],
&set2[ring_no].member_list[set2_pos],
sizeof(struct totem_ip_address)) == 0) {
memset(&set1[ring_no].member_list[set1_pos], 0,
sizeof(struct totem_ip_address));
memset(&set2[ring_no].member_list[set2_pos], 0,
sizeof(struct totem_ip_address));
}
}
}
}
for (ring_no = 0; ring_no < interface_count; ring_no++) {
for (set1_pos = 0; set1_pos < set1[ring_no].member_count; set1_pos++) {
/*
* All items which remained in set1 doesn't exists in set2 any longer so
* node has to be removed.
*/
if (memcmp(&set1[ring_no].member_list[set1_pos], &empty_ip_address, sizeof(empty_ip_address)) != 0) {
log_printf(LOGSYS_LEVEL_DEBUG,
"removing dynamic member %s for ring %u",
totemip_print(&set1[ring_no].member_list[set1_pos]),
ring_no);
totempg_member_remove(&set1[ring_no].member_list[set1_pos], ring_no);
}
}
for (set2_pos = 0; set2_pos < set2[ring_no].member_count; set2_pos++) {
/*
* All items which remained in set2 doesn't existed in set1 so this is no node
* and has to be added.
*/
if (memcmp(&set2[ring_no].member_list[set2_pos], &empty_ip_address, sizeof(empty_ip_address)) != 0) {
log_printf(LOGSYS_LEVEL_DEBUG,
"adding dynamic member %s for ring %u",
totemip_print(&set2[ring_no].member_list[set2_pos]),
ring_no);
totempg_member_add(&set2[ring_no].member_list[set2_pos], ring_no);
}
}
}
}
static void put_nodelist_members_to_config(struct totem_config *totem_config, int reload)
{
icmap_iter_t iter, iter2;
const char *iter_key, *iter_key2;
int res = 0;
unsigned int node_pos;
char tmp_key[ICMAP_KEYNAME_MAXLEN];
char tmp_key2[ICMAP_KEYNAME_MAXLEN];
char *node_addr_str;
int member_count;
unsigned int linknumber = 0;
int i, j;
struct totem_interface *orig_interfaces = NULL;
struct totem_interface *new_interfaces = NULL;
if (reload) {
/*
* We need to compute diff only for reload. Also for initial configuration
* not all totem structures are initialized so corosync will crash during
* member_add/remove
*/
orig_interfaces = malloc (sizeof (struct totem_interface) * INTERFACE_MAX);
assert(orig_interfaces != NULL);
new_interfaces = malloc (sizeof (struct totem_interface) * INTERFACE_MAX);
assert(new_interfaces != NULL);
memcpy(orig_interfaces, totem_config->interfaces, sizeof (struct totem_interface) * INTERFACE_MAX);
}
/* Clear out nodelist so we can put the new one in if needed */
for (i = 0; i < totem_config->interface_count; i++) {
for (j = 0; j < PROCESSOR_COUNT_MAX; j++) {
memset(&totem_config->interfaces[i].member_list[j], 0, sizeof(struct totem_ip_address));
}
totem_config->interfaces[i].member_count = 0;
}
iter = icmap_iter_init("nodelist.node.");
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "nodelist.node.%u.%s", &node_pos, tmp_key);
if (res != 2) {
continue;
}
if (strcmp(tmp_key, "ring0_addr") != 0) {
continue;
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.", node_pos);
iter2 = icmap_iter_init(tmp_key);
while ((iter_key2 = icmap_iter_next(iter2, NULL, NULL)) != NULL) {
unsigned int nodeid;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.nodeid", node_pos);
if (icmap_get_uint32(tmp_key, &nodeid) != CS_OK) {
}
res = sscanf(iter_key2, "nodelist.node.%u.ring%u%s", &node_pos, &linknumber, tmp_key2);
if (res != 3 || strcmp(tmp_key2, "_addr") != 0) {
continue;
}
if (icmap_get_string(iter_key2, &node_addr_str) != CS_OK) {
continue;
}
member_count = totem_config->interfaces[linknumber].member_count;
res = totemip_parse(&totem_config->interfaces[linknumber].member_list[member_count],
node_addr_str, totem_config->ip_version);
if (res != -1) {
totem_config->interfaces[linknumber].member_list[member_count].nodeid = nodeid;
totem_config->interfaces[linknumber].member_count++;
}
free(node_addr_str);
}
icmap_iter_finalize(iter2);
}
icmap_iter_finalize(iter);
if (reload) {
memcpy(new_interfaces, totem_config->interfaces, sizeof (struct totem_interface) * INTERFACE_MAX);
compute_interfaces_diff(totem_config->interface_count, orig_interfaces, new_interfaces);
free(new_interfaces);
free(orig_interfaces);
}
}
static void nodelist_dynamic_notify(
int32_t event,
const char *key_name,
struct icmap_notify_value new_val,
struct icmap_notify_value old_val,
void *user_data)
{
int res;
unsigned int ring_no;
unsigned int member_no;
char tmp_str[ICMAP_KEYNAME_MAXLEN];
uint8_t reloading;
struct totem_config *totem_config = (struct totem_config *)user_data;
/*
* If a full reload is in progress then don't do anything until it's done and
* can reconfigure it all atomically
*/
if (icmap_get_uint8("config.totemconfig_reload_in_progress", &reloading) == CS_OK && reloading) {
return ;
}
res = sscanf(key_name, "nodelist.node.%u.ring%u%s", &member_no, &ring_no, tmp_str);
if (res != 3)
return ;
if (strcmp(tmp_str, "_addr") != 0) {
return;
}
put_nodelist_members_to_config(totem_config, 1);
}
/*
* Tries to find node (node_pos) in config nodelist which address matches any
* local interface. Address can be stored in ring0_addr or if ipaddr_key_prefix is not NULL
* key with prefix ipaddr_key is used (there can be multiuple of them)
* This function differs * from find_local_node_in_nodelist because it doesn't need bindnetaddr,
* but doesn't work when bind addr is network address (so IP must be exact
* match).
*
* Returns 1 on success (address was found, node_pos is then correctly set) or 0 on failure.
*/
int totem_config_find_local_addr_in_nodelist(const char *ipaddr_key_prefix, unsigned int *node_pos)
{
struct qb_list_head addrs;
struct totem_ip_if_address *if_addr;
icmap_iter_t iter, iter2;
const char *iter_key, *iter_key2;
struct qb_list_head *list;
const char *ipaddr_key;
int ip_version;
struct totem_ip_address node_addr;
char *node_addr_str;
int node_found = 0;
int res = 0;
char tmp_key[ICMAP_KEYNAME_MAXLEN];
if (totemip_getifaddrs(&addrs) == -1) {
return 0;
}
ip_version = totem_config_get_ip_version();
iter = icmap_iter_init("nodelist.node.");
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "nodelist.node.%u.%s", node_pos, tmp_key);
if (res != 2) {
continue;
}
if (strcmp(tmp_key, "ring0_addr") != 0) {
continue;
}
if (icmap_get_string(iter_key, &node_addr_str) != CS_OK) {
continue ;
}
free(node_addr_str);
/*
* ring0_addr found -> let's iterate thru ipaddr_key_prefix
*/
snprintf(tmp_key, sizeof(tmp_key), "nodelist.node.%u.%s", *node_pos,
(ipaddr_key_prefix != NULL ? ipaddr_key_prefix : "ring0_addr"));
iter2 = icmap_iter_init(tmp_key);
while ((iter_key2 = icmap_iter_next(iter2, NULL, NULL)) != NULL) {
/*
* ring0_addr must be exact match, not prefix
*/
ipaddr_key = (ipaddr_key_prefix != NULL ? iter_key2 : tmp_key);
if (icmap_get_string(ipaddr_key, &node_addr_str) != CS_OK) {
continue ;
}
if (totemip_parse(&node_addr, node_addr_str, ip_version) == -1) {
free(node_addr_str);
continue ;
}
free(node_addr_str);
/*
* Try to match ip with if_addrs
*/
node_found = 0;
qb_list_for_each(list, &(addrs)) {
if_addr = qb_list_entry(list, struct totem_ip_if_address, list);
if (totemip_equal(&node_addr, &if_addr->ip_addr)) {
node_found = 1;
break;
}
}
if (node_found) {
break ;
}
}
icmap_iter_finalize(iter2);
if (node_found) {
break ;
}
}
icmap_iter_finalize(iter);
totemip_freeifaddrs(&addrs);
return (node_found);
}
static void config_convert_nodelist_to_interface(struct totem_config *totem_config)
{
int res = 0;
unsigned int node_pos;
char tmp_key[ICMAP_KEYNAME_MAXLEN];
char tmp_key2[ICMAP_KEYNAME_MAXLEN];
char *node_addr_str;
unsigned int linknumber = 0;
icmap_iter_t iter;
const char *iter_key;
if (totem_config_find_local_addr_in_nodelist(NULL, &node_pos)) {
/*
* We found node, so create interface section
*/
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.", node_pos);
iter = icmap_iter_init(tmp_key);
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "nodelist.node.%u.ring%u%s", &node_pos, &linknumber, tmp_key2);
if (res != 3 || strcmp(tmp_key2, "_addr") != 0) {
continue ;
}
if (icmap_get_string(iter_key, &node_addr_str) != CS_OK) {
continue;
}
snprintf(tmp_key2, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.bindnetaddr", linknumber);
icmap_set_string(tmp_key2, node_addr_str);
free(node_addr_str);
}
icmap_iter_finalize(iter);
}
}
extern int totem_config_read (
struct totem_config *totem_config,
const char **error_string,
uint64_t *warnings)
{
int res = 0;
char *str;
unsigned int linknumber = 0;
int member_count = 0;
icmap_iter_t iter, member_iter;
const char *iter_key;
const char *member_iter_key;
char linknumber_key[ICMAP_KEYNAME_MAXLEN];
char tmp_key[ICMAP_KEYNAME_MAXLEN];
uint8_t u8;
uint16_t u16;
uint32_t u32;
char *cluster_name = NULL;
int i;
int local_node_pos;
int nodeid_set;
*warnings = 0;
memset (totem_config, 0, sizeof (struct totem_config));
totem_config->interfaces = malloc (sizeof (struct totem_interface) * INTERFACE_MAX);
if (totem_config->interfaces == 0) {
*error_string = "Out of memory trying to allocate ethernet interface storage area";
return -1;
}
memset (totem_config->interfaces, 0,
sizeof (struct totem_interface) * INTERFACE_MAX);
strcpy (totem_config->link_mode, "passive");
icmap_get_uint32("totem.version", (uint32_t *)&totem_config->version);
if (totem_get_crypto(totem_config) != 0) {
*error_string = "crypto_cipher requires crypto_hash with value other than none";
return -1;
}
if (icmap_get_string("totem.link_mode", &str) == CS_OK) {
if (strlen(str) >= TOTEM_LINK_MODE_BYTES) {
*error_string = "totem.link_mode is too long";
free(str);
return -1;
}
strcpy (totem_config->link_mode, str);
free(str);
}
icmap_get_uint32("totem.nodeid", &totem_config->node_id);
totem_config->clear_node_high_bit = 0;
if (icmap_get_string("totem.clear_node_high_bit", &str) == CS_OK) {
if (strcmp (str, "yes") == 0) {
totem_config->clear_node_high_bit = 1;
}
free(str);
}
icmap_get_uint32("totem.threads", &totem_config->threads);
icmap_get_uint32("totem.netmtu", &totem_config->net_mtu);
if (icmap_get_string("totem.cluster_name", &cluster_name) != CS_OK) {
cluster_name = NULL;
}
totem_config->ip_version = totem_config_get_ip_version();
if (icmap_get_string("totem.interface.0.bindnetaddr", &str) != CS_OK) {
/*
* We were not able to find ring 0 bindnet addr. Try to use nodelist informations
*/
config_convert_nodelist_to_interface(totem_config);
} else {
free(str);
}
/*
* Broadcast option is global but set in interface section,
* so reset before processing interfaces.
*/
totem_config->broadcast_use = 0;
iter = icmap_iter_init("totem.interface.");
while ((iter_key = icmap_iter_next(iter, NULL, NULL)) != NULL) {
res = sscanf(iter_key, "totem.interface.%[^.].%s", linknumber_key, tmp_key);
if (res != 2) {
continue;
}
if (strcmp(tmp_key, "bindnetaddr") != 0) {
continue;
}
member_count = 0;
linknumber = atoi(linknumber_key);
if (linknumber >= INTERFACE_MAX) {
free(cluster_name);
snprintf (error_string_response, sizeof(error_string_response),
"parse error in config: interface ring number %u is bigger than allowed maximum %u\n",
linknumber, INTERFACE_MAX - 1);
*error_string = error_string_response;
return -1;
}
/*
* Get the bind net address
*/
if (icmap_get_string(iter_key, &str) == CS_OK) {
res = totemip_parse (&totem_config->interfaces[linknumber].bindnet, str,
totem_config->ip_version);
free(str);
}
/*
* Get interface multicast address
*/
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.mcastaddr", linknumber);
if (icmap_get_string(tmp_key, &str) == CS_OK) {
res = totemip_parse (&totem_config->interfaces[linknumber].mcast_addr, str, totem_config->ip_version);
free(str);
} else {
/*
* User not specified address -> autogenerate one from cluster_name key
* (if available). Return code is intentionally ignored, because
* udpu doesn't need mcastaddr and validity of mcastaddr for udp is
* checked later anyway.
*/
(void)get_cluster_mcast_addr (cluster_name,
linknumber,
totem_config->ip_version,
&totem_config->interfaces[linknumber].mcast_addr);
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.broadcast", linknumber);
if (icmap_get_string(tmp_key, &str) == CS_OK) {
if (strcmp (str, "yes") == 0) {
totem_config->broadcast_use = 1;
}
free(str);
}
/*
* Get mcast port
*/
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.mcastport", linknumber);
if (icmap_get_uint16(tmp_key, &totem_config->interfaces[linknumber].ip_port) != CS_OK) {
if (totem_config->broadcast_use) {
totem_config->interfaces[linknumber].ip_port = DEFAULT_PORT + (2 * linknumber);
} else {
totem_config->interfaces[linknumber].ip_port = DEFAULT_PORT;
}
}
/*
* Get the TTL
*/
totem_config->interfaces[linknumber].ttl = 1;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.ttl", linknumber);
if (icmap_get_uint8(tmp_key, &u8) == CS_OK) {
totem_config->interfaces[linknumber].ttl = u8;
}
/*
* Get the knet link params
*/
totem_config->interfaces[linknumber].knet_link_priority = 1;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.knet_link_priority", linknumber);
if (icmap_get_uint8(tmp_key, &u8) == CS_OK) {
totem_config->interfaces[linknumber].knet_link_priority = u8;
}
totem_config->interfaces[linknumber].knet_ping_interval = KNET_PING_INTERVAL;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.knet_ping_interval", linknumber);
if (icmap_get_uint32(tmp_key, &u32) == CS_OK) {
totem_config->interfaces[linknumber].knet_ping_interval = u32;
}
totem_config->interfaces[linknumber].knet_ping_timeout = KNET_PING_TIMEOUT;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.knet_ping_timeout", linknumber);
if (icmap_get_uint32(tmp_key, &u32) == CS_OK) {
totem_config->interfaces[linknumber].knet_ping_timeout = u32;
}
totem_config->interfaces[linknumber].knet_ping_precision = KNET_PING_PRECISION;
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.knet_ping_precision", linknumber);
if (icmap_get_uint32(tmp_key, &u32) == CS_OK) {
totem_config->interfaces[linknumber].knet_ping_precision = u32;
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.member.", linknumber);
member_iter = icmap_iter_init(tmp_key);
while ((member_iter_key = icmap_iter_next(member_iter, NULL, NULL)) != NULL) {
if (member_count == 0) {
if (icmap_get_string("nodelist.node.0.ring0_addr", &str) == CS_OK) {
free(str);
*warnings |= TOTEM_CONFIG_WARNING_MEMBERS_IGNORED;
break;
} else {
*warnings |= TOTEM_CONFIG_WARNING_MEMBERS_DEPRECATED;
}
}
if (icmap_get_string(member_iter_key, &str) == CS_OK) {
res = totemip_parse (&totem_config->interfaces[linknumber].member_list[member_count++],
str, totem_config->ip_version);
}
}
icmap_iter_finalize(member_iter);
totem_config->interfaces[linknumber].member_count = member_count;
totem_config->interface_count++;
}
icmap_iter_finalize(iter);
/*
* Use broadcast is global, so if set, make sure to fill mcast addr correctly
*/
if (totem_config->broadcast_use) {
for (linknumber = 0; linknumber < totem_config->interface_count; linknumber++) {
totemip_parse (&totem_config->interfaces[linknumber].mcast_addr,
"255.255.255.255", 0);
}
}
/*
* Store automatically generated items back to icmap
*/
for (i = 0; i < totem_config->interface_count; i++) {
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.mcastaddr", i);
if (icmap_get_string(tmp_key, &str) == CS_OK) {
free(str);
} else {
str = (char *)totemip_print(&totem_config->interfaces[i].mcast_addr);
icmap_set_string(tmp_key, str);
}
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "totem.interface.%u.mcastport", i);
if (icmap_get_uint16(tmp_key, &u16) != CS_OK) {
icmap_set_uint16(tmp_key, totem_config->interfaces[i].ip_port);
}
}
totem_config->transport_number = TOTEM_TRANSPORT_KNET;
if (icmap_get_string("totem.transport", &str) == CS_OK) {
if (strcmp (str, "udpu") == 0) {
totem_config->transport_number = TOTEM_TRANSPORT_UDPU;
}
if (strcmp (str, "udp") == 0) {
totem_config->transport_number = TOTEM_TRANSPORT_UDP;
}
if (strcmp (str, "knet") == 0) {
totem_config->transport_number = TOTEM_TRANSPORT_KNET;
}
free(str);
}
free(cluster_name);
/*
* Check existence of nodelist
*/
if (icmap_get_string("nodelist.node.0.ring0_addr", &str) == CS_OK) {
free(str);
/*
* find local node
*/
local_node_pos = find_local_node_in_nodelist(totem_config);
if (local_node_pos != -1) {
icmap_set_uint32("nodelist.local_node_pos", local_node_pos);
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.nodeid", local_node_pos);
nodeid_set = (totem_config->node_id != 0);
if (icmap_get_uint32(tmp_key, &totem_config->node_id) == CS_OK && nodeid_set) {
*warnings |= TOTEM_CONFIG_WARNING_TOTEM_NODEID_IGNORED;
}
/*
* Make localnode ring0_addr read only, so we can be sure that local
* node never changes. If rebinding to other IP would be in future
* supported, this must be changed and handled properly!
*/
snprintf(tmp_key, ICMAP_KEYNAME_MAXLEN, "nodelist.node.%u.ring0_addr", local_node_pos);
icmap_set_ro_access(tmp_key, 0, 1);
icmap_set_ro_access("nodelist.local_node_pos", 0, 1);
}
put_nodelist_members_to_config(totem_config, 0);
}
/*
* Get things that might change in the future (and can depend on totem_config->interfaces);
*/
totem_volatile_config_read(totem_config, NULL);
icmap_set_uint8("config.totemconfig_reload_in_progress", 0);
add_totem_config_notification(totem_config);
return 0;
}
int totem_config_validate (
struct totem_config *totem_config,
const char **error_string)
{
static char local_error_reason[512];
char parse_error[512];
const char *error_reason = local_error_reason;
int i, j;
unsigned int interface_max = INTERFACE_MAX;
unsigned int port1, port2;
if (totem_config->interface_count == 0) {
error_reason = "No interfaces defined";
goto parse_error;
}
for (i = 0; i < totem_config->interface_count; i++) {
/*
* Some error checking of parsed data to make sure its valid
*/
struct totem_ip_address null_addr;
memset (&null_addr, 0, sizeof (struct totem_ip_address));
if ((totem_config->transport_number == 0) &&
memcmp (&totem_config->interfaces[i].mcast_addr, &null_addr,
sizeof (struct totem_ip_address)) == 0) {
error_reason = "No multicast address specified";
goto parse_error;
}
if (totem_config->interfaces[i].ip_port == 0) {
error_reason = "No multicast port specified";
goto parse_error;
}
if (totem_config->interfaces[i].ttl > 255) {
error_reason = "Invalid TTL (should be 0..255)";
goto parse_error;
}
if (totem_config->transport_number != TOTEM_TRANSPORT_UDP &&
totem_config->interfaces[i].ttl != 1) {
error_reason = "Can only set ttl on multicast transport types";
goto parse_error;
}
if (totem_config->interfaces[i].knet_link_priority > 255) {
error_reason = "Invalid link priority (should be 0..255)";
goto parse_error;
}
if (totem_config->transport_number != TOTEM_TRANSPORT_KNET &&
totem_config->interfaces[i].knet_link_priority != 1) {
error_reason = "Can only set link priority on knet transport type";
goto parse_error;
}
if (totem_config->interfaces[i].mcast_addr.family == AF_INET6 &&
totem_config->node_id == 0) {
error_reason = "An IPV6 network requires that a node ID be specified.";
goto parse_error;
}
if (totem_config->broadcast_use == 0 && totem_config->transport_number == TOTEM_TRANSPORT_UDP) {
if (totem_config->interfaces[i].mcast_addr.family != totem_config->interfaces[i].bindnet.family) {
error_reason = "Multicast address family does not match bind address family";
goto parse_error;
}
if (totemip_is_mcast (&totem_config->interfaces[i].mcast_addr) != 0) {
error_reason = "mcastaddr is not a correct multicast address.";
goto parse_error;
}
}
if (totem_config->interfaces[0].bindnet.family != totem_config->interfaces[i].bindnet.family) {
error_reason = "Not all bind address belong to the same IP family";
goto parse_error;
}
/*
* Ensure mcast address/port differs
*/
if (totem_config->transport_number == TOTEM_TRANSPORT_UDP) {
for (j = i + 1; j < totem_config->interface_count; j++) {
port1 = totem_config->interfaces[i].ip_port;
port2 = totem_config->interfaces[j].ip_port;
if (totemip_equal(&totem_config->interfaces[i].mcast_addr,
&totem_config->interfaces[j].mcast_addr) &&
(((port1 > port2 ? port1 : port2) - (port1 < port2 ? port1 : port2)) <= 1)) {
error_reason = "Interfaces multicast address/port pair must differ";
goto parse_error;
}
}
}
}
if (totem_config->version != 2) {
error_reason = "This totem parser can only parse version 2 configurations.";
goto parse_error;
}
if (totem_volatile_config_validate(totem_config, error_string) == -1) {
return (-1);
}
if (check_for_duplicate_nodeids(totem_config, error_string) == -1) {
return (-1);
}
/*
* KNET Link values validation
*/
if (strcmp (totem_config->link_mode, "active") &&
strcmp (totem_config->link_mode, "rr") &&
strcmp (totem_config->link_mode, "passive")) {
snprintf (local_error_reason, sizeof(local_error_reason),
"The Knet link mode \"%s\" specified is invalid. It must be active, passive or rr.\n", totem_config->link_mode);
goto parse_error;
}
/* Only Knet does multiple interfaces */
if (totem_config->transport_number != TOTEM_TRANSPORT_KNET) {
interface_max = 1;
}
if (interface_max < totem_config->interface_count) {
snprintf (parse_error, sizeof(parse_error),
"%d is too many configured interfaces for non-Knet transport.",
totem_config->interface_count);
error_reason = parse_error;
goto parse_error;
}
/* Only knet allows crypto */
if (totem_config->transport_number != TOTEM_TRANSPORT_KNET) {
if ((strcmp(totem_config->crypto_cipher_type, "none") != 0) ||
(strcmp(totem_config->crypto_hash_type, "none") != 0)) {
snprintf (parse_error, sizeof(parse_error),
"crypto_cipher & crypto_hash are only valid for the Knet transport.");
error_reason = parse_error;
goto parse_error;
}
}
if (totem_config->net_mtu == 0) {
totem_config->net_mtu = 1500;
}
return 0;
parse_error:
snprintf (error_string_response, sizeof(error_string_response),
"parse error in config: %s\n", error_reason);
*error_string = error_string_response;
return (-1);
}
static int read_keyfile (
const char *key_location,
struct totem_config *totem_config,
const char **error_string)
{
int fd;
int res;
ssize_t expected_key_len = sizeof (totem_config->private_key);
int saved_errno;
char error_str[100];
const char *error_ptr;
fd = open (key_location, O_RDONLY);
if (fd == -1) {
error_ptr = qb_strerror_r(errno, error_str, sizeof(error_str));
snprintf (error_string_response, sizeof(error_string_response),
"Could not open %s: %s\n",
key_location, error_ptr);
goto parse_error;
}
res = read (fd, totem_config->private_key, expected_key_len);
saved_errno = errno;
close (fd);
if (res == -1) {
error_ptr = qb_strerror_r (saved_errno, error_str, sizeof(error_str));
snprintf (error_string_response, sizeof(error_string_response),
"Could not read %s: %s\n",
key_location, error_ptr);
goto parse_error;
}
totem_config->private_key_len = expected_key_len;
if (res != expected_key_len) {
snprintf (error_string_response, sizeof(error_string_response),
"Could only read %d bits of 1024 bits from %s.\n",
res * 8, key_location);
goto parse_error;
}
return 0;
parse_error:
*error_string = error_string_response;
return (-1);
}
int totem_config_keyread (
struct totem_config *totem_config,
const char **error_string)
{
int got_key = 0;
char *key_location = NULL;
int res;
size_t key_len;
memset (totem_config->private_key, 0, 128);
totem_config->private_key_len = 128;
if (strcmp(totem_config->crypto_cipher_type, "none") == 0 &&
strcmp(totem_config->crypto_hash_type, "none") == 0) {
return (0);
}
/* cmap may store the location of the key file */
if (icmap_get_string("totem.keyfile", &key_location) == CS_OK) {
res = read_keyfile(key_location, totem_config, error_string);
free(key_location);
if (res) {
goto key_error;
}
got_key = 1;
} else { /* Or the key itself may be in the cmap */
if (icmap_get("totem.key", NULL, &key_len, NULL) == CS_OK) {
if (key_len > sizeof (totem_config->private_key)) {
sprintf(error_string_response, "key is too long");
goto key_error;
}
if (icmap_get("totem.key", totem_config->private_key, &key_len, NULL) == CS_OK) {
totem_config->private_key_len = key_len;
got_key = 1;
} else {
sprintf(error_string_response, "can't store private key");
goto key_error;
}
}
}
/* In desperation we read the default filename */
if (!got_key) {
const char *filename = getenv("COROSYNC_TOTEM_AUTHKEY_FILE");
if (!filename)
filename = COROSYSCONFDIR "/authkey";
res = read_keyfile(filename, totem_config, error_string);
if (res)
goto key_error;
}
return (0);
key_error:
*error_string = error_string_response;
return (-1);
}
static void debug_dump_totem_config(const struct totem_config *totem_config)
{
log_printf(LOGSYS_LEVEL_DEBUG, "Token Timeout (%d ms) retransmit timeout (%d ms)",
totem_config->token_timeout, totem_config->token_retransmit_timeout);
log_printf(LOGSYS_LEVEL_DEBUG, "token hold (%d ms) retransmits before loss (%d retrans)",
totem_config->token_hold_timeout, totem_config->token_retransmits_before_loss_const);
log_printf(LOGSYS_LEVEL_DEBUG, "join (%d ms) send_join (%d ms) consensus (%d ms) merge (%d ms)",
totem_config->join_timeout, totem_config->send_join_timeout, totem_config->consensus_timeout,
totem_config->merge_timeout);
log_printf(LOGSYS_LEVEL_DEBUG, "downcheck (%d ms) fail to recv const (%d msgs)",
totem_config->downcheck_timeout, totem_config->fail_to_recv_const);
log_printf(LOGSYS_LEVEL_DEBUG,
"seqno unchanged const (%d rotations) Maximum network MTU %d",
totem_config->seqno_unchanged_const, totem_config->net_mtu);
log_printf(LOGSYS_LEVEL_DEBUG,
"window size per rotation (%d messages) maximum messages per rotation (%d messages)",
totem_config->window_size, totem_config->max_messages);
log_printf(LOGSYS_LEVEL_DEBUG, "missed count const (%d messages)", totem_config->miss_count_const);
log_printf(LOGSYS_LEVEL_DEBUG, "heartbeat_failures_allowed (%d)",
totem_config->heartbeat_failures_allowed);
log_printf(LOGSYS_LEVEL_DEBUG, "max_network_delay (%d ms)", totem_config->max_network_delay);
}
static void totem_change_notify(
int32_t event,
const char *key_name,
struct icmap_notify_value new_val,
struct icmap_notify_value old_val,
void *user_data)
{
struct totem_config *totem_config = (struct totem_config *)user_data;
uint32_t *param;
uint8_t reloading;
const char *deleted_key = NULL;
const char *error_string;
/*
* If a full reload is in progress then don't do anything until it's done and
* can reconfigure it all atomically
*/
if (icmap_get_uint8("config.reload_in_progress", &reloading) == CS_OK && reloading)
return;
param = totem_get_param_by_name((struct totem_config *)user_data, key_name);
/*
* Process change only if changed key is found in totem_config (-> param is not NULL)
* or for special key token_coefficient. token_coefficient key is not stored in
* totem_config, but it is used for computation of token timeout.
*/
if (!param && strcmp(key_name, "totem.token_coefficient") != 0)
return;
/*
* Values other than UINT32 are not supported, or needed (yet)
*/
switch (event) {
case ICMAP_TRACK_DELETE:
deleted_key = key_name;
break;
case ICMAP_TRACK_ADD:
case ICMAP_TRACK_MODIFY:
deleted_key = NULL;
break;
default:
break;
}
totem_volatile_config_read (totem_config, deleted_key);
log_printf(LOGSYS_LEVEL_DEBUG, "Totem related config key changed. Dumping actual totem config.");
debug_dump_totem_config(totem_config);
if (totem_volatile_config_validate(totem_config, &error_string) == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
/*
* TODO: Consider corosync exit and/or load defaults for volatile
* values. For now, log error seems to be enough
*/
}
}
static void totem_reload_notify(
int32_t event,
const char *key_name,
struct icmap_notify_value new_val,
struct icmap_notify_value old_val,
void *user_data)
{
struct totem_config *totem_config = (struct totem_config *)user_data;
uint32_t local_node_pos;
const char *error_string;
/* Reload has completed */
if (*(uint8_t *)new_val.data == 0) {
put_nodelist_members_to_config (totem_config, 1);
totem_volatile_config_read (totem_config, NULL);
log_printf(LOGSYS_LEVEL_DEBUG, "Configuration reloaded. Dumping actual totem config.");
debug_dump_totem_config(totem_config);
if (totem_volatile_config_validate(totem_config, &error_string) == -1) {
log_printf (LOGSYS_LEVEL_ERROR, "%s", error_string);
/*
* TODO: Consider corosync exit and/or load defaults for volatile
* values. For now, log error seems to be enough
*/
}
/* Reinstate the local_node_pos */
local_node_pos = find_local_node_in_nodelist(totem_config);
if (local_node_pos != -1) {
icmap_set_uint32("nodelist.local_node_pos", local_node_pos);
}
icmap_set_uint8("config.totemconfig_reload_in_progress", 0);
} else {
icmap_set_uint8("config.totemconfig_reload_in_progress", 1);
}
}
static void add_totem_config_notification(struct totem_config *totem_config)
{
icmap_track_t icmap_track;
icmap_track_add("totem.",
ICMAP_TRACK_ADD | ICMAP_TRACK_DELETE | ICMAP_TRACK_MODIFY | ICMAP_TRACK_PREFIX,
totem_change_notify,
totem_config,
&icmap_track);
icmap_track_add("config.reload_in_progress",
ICMAP_TRACK_ADD | ICMAP_TRACK_MODIFY,
totem_reload_notify,
totem_config,
&icmap_track);
icmap_track_add("nodelist.node.",
ICMAP_TRACK_ADD | ICMAP_TRACK_DELETE | ICMAP_TRACK_MODIFY | ICMAP_TRACK_PREFIX,
nodelist_dynamic_notify,
(void *)totem_config,
&icmap_track);
}

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