/* Copyright 2008-2015 Codership Oy This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1301 USA */ #include "wsrep_var.h" #include #include #include #include #include "wsrep_priv.h" #include "wsrep_thd.h" #include "wsrep_xid.h" #include #include #include static long wsrep_prev_slave_threads = wsrep_slave_threads; int wsrep_init_vars() { wsrep_provider = my_strdup(WSREP_NONE, MYF(MY_WME)); wsrep_provider_options= my_strdup("", MYF(MY_WME)); wsrep_cluster_address = my_strdup("", MYF(MY_WME)); wsrep_cluster_name = my_strdup(WSREP_CLUSTER_NAME, MYF(MY_WME)); wsrep_node_name = my_strdup("", MYF(MY_WME)); wsrep_node_address = my_strdup("", MYF(MY_WME)); wsrep_node_incoming_address= my_strdup(WSREP_NODE_INCOMING_AUTO, MYF(MY_WME)); wsrep_start_position = my_strdup(WSREP_START_POSITION_ZERO, MYF(MY_WME)); return 0; } extern ulong innodb_lock_schedule_algorithm; bool wsrep_on_update (sys_var *self, THD* thd, enum_var_type var_type) { if (var_type == OPT_GLOBAL) { // FIXME: this variable probably should be changed only per session thd->variables.wsrep_on = global_system_variables.wsrep_on; } return false; } bool wsrep_on_check(sys_var *self, THD* thd, set_var* var) { bool new_wsrep_on= (bool)var->save_result.ulonglong_value; if (new_wsrep_on && innodb_lock_schedule_algorithm != 0) { my_message(ER_WRONG_ARGUMENTS, " WSREP (galera) can't be enabled " "if innodb_lock_schedule_algorithm=VATS. Please configure" " innodb_lock_schedule_algorithm=FCFS and restart.", MYF(0)); return true; } return false; } bool wsrep_causal_reads_update (sys_var *self, THD* thd, enum_var_type var_type) { // global setting should not affect session setting. // if (var_type == OPT_GLOBAL) { // thd->variables.wsrep_causal_reads = global_system_variables.wsrep_causal_reads; // } if (thd->variables.wsrep_causal_reads) { thd->variables.wsrep_sync_wait |= WSREP_SYNC_WAIT_BEFORE_READ; } else { thd->variables.wsrep_sync_wait &= ~WSREP_SYNC_WAIT_BEFORE_READ; } // update global settings too. if (global_system_variables.wsrep_causal_reads) { global_system_variables.wsrep_sync_wait |= WSREP_SYNC_WAIT_BEFORE_READ; } else { global_system_variables.wsrep_sync_wait &= ~WSREP_SYNC_WAIT_BEFORE_READ; } return false; } bool wsrep_sync_wait_update (sys_var* self, THD* thd, enum_var_type var_type) { // global setting should not affect session setting. // if (var_type == OPT_GLOBAL) { // thd->variables.wsrep_sync_wait = global_system_variables.wsrep_sync_wait; // } thd->variables.wsrep_causal_reads = thd->variables.wsrep_sync_wait & WSREP_SYNC_WAIT_BEFORE_READ; // update global settings too global_system_variables.wsrep_causal_reads = global_system_variables.wsrep_sync_wait & WSREP_SYNC_WAIT_BEFORE_READ; return false; } /* Verify the format of the given UUID:seqno. @return true Fail false Pass */ static bool wsrep_start_position_verify (const char* start_str) { size_t start_len; wsrep_uuid_t uuid; ssize_t uuid_len; // Check whether it has minimum acceptable length. start_len = strlen (start_str); if (start_len < 34) return true; /* Parse the input to check whether UUID length is acceptable and seqno has been provided. */ uuid_len = wsrep_uuid_scan (start_str, start_len, &uuid); if (uuid_len < 0 || (start_len - uuid_len) < 2) return true; // Separator must follow the UUID. if (start_str[uuid_len] != ':') return true; char* endptr; wsrep_seqno_t const seqno __attribute__((unused)) // to avoid GCC warnings (strtoll(&start_str[uuid_len + 1], &endptr, 10)); // Remaining string was seqno. if (*endptr == '\0') return false; return true; } static bool wsrep_set_local_position(const char* const value, size_t length, bool const sst) { wsrep_uuid_t uuid; size_t const uuid_len = wsrep_uuid_scan(value, length, &uuid); wsrep_seqno_t const seqno = strtoll(value + uuid_len + 1, NULL, 10); if (sst) { return wsrep_sst_received (wsrep, uuid, seqno, NULL, 0, false); } else { // initialization local_uuid = uuid; local_seqno = seqno; } return false; } bool wsrep_start_position_check (sys_var *self, THD* thd, set_var* var) { char start_pos_buf[FN_REFLEN]; if ((! var->save_result.string_value.str) || (var->save_result.string_value.length > (FN_REFLEN - 1))) // safety goto err; memcpy(start_pos_buf, var->save_result.string_value.str, var->save_result.string_value.length); start_pos_buf[var->save_result.string_value.length]= 0; // Verify the format. if (wsrep_start_position_verify(start_pos_buf)) return true; /* As part of further verification, we try to update the value and catch errors (if any). */ if (wsrep_set_local_position(var->save_result.string_value.str, var->save_result.string_value.length, true)) { goto err; } return false; err: my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, var->save_result.string_value.str ? var->save_result.string_value.str : "NULL"); return true; } bool wsrep_start_position_update (sys_var *self, THD* thd, enum_var_type type) { // Print a confirmation that wsrep_start_position has been updated. WSREP_INFO ("wsrep_start_position set to '%s'", wsrep_start_position); return false; } bool wsrep_start_position_init (const char* val) { if (NULL == val || wsrep_start_position_verify (val)) { WSREP_ERROR("Bad initial value for wsrep_start_position: %s", (val ? val : "")); return true; } if (wsrep_set_local_position (val, strlen(val), false)) { WSREP_ERROR("Failed to set initial wsep_start_position: %s", val); return true; } return false; } static int get_provider_option_value(const char* opts, const char* opt_name, ulong* opt_value) { int ret= 1; ulong opt_value_tmp; char *opt_value_str, *s, *opts_copy= my_strdup(opts, MYF(MY_WME)); if ((opt_value_str= strstr(opts_copy, opt_name)) == NULL) goto end; opt_value_str= strtok_r(opt_value_str, "=", &s); if (opt_value_str == NULL) goto end; opt_value_str= strtok_r(NULL, ";", &s); if (opt_value_str == NULL) goto end; opt_value_tmp= strtoul(opt_value_str, NULL, 10); if (errno == ERANGE) goto end; *opt_value= opt_value_tmp; ret= 0; end: my_free(opts_copy); return ret; } static bool refresh_provider_options() { DBUG_ASSERT(wsrep); WSREP_DEBUG("refresh_provider_options: %s", (wsrep_provider_options) ? wsrep_provider_options : "null"); char* opts= wsrep->options_get(wsrep); if (opts) { wsrep_provider_options_init(opts); get_provider_option_value(wsrep_provider_options, (char*)"repl.max_ws_size", &wsrep_max_ws_size); free(opts); } else { WSREP_ERROR("Failed to get provider options"); return true; } return false; } static int wsrep_provider_verify (const char* provider_str) { MY_STAT f_stat; char path[FN_REFLEN]; if (!provider_str || strlen(provider_str)== 0) return 1; if (!strcmp(provider_str, WSREP_NONE)) return 0; if (!unpack_filename(path, provider_str)) return 1; /* check that provider file exists */ memset(&f_stat, 0, sizeof(MY_STAT)); if (!my_stat(path, &f_stat, MYF(0))) { return 1; } return 0; } bool wsrep_provider_check (sys_var *self, THD* thd, set_var* var) { char wsrep_provider_buf[FN_REFLEN]; if ((! var->save_result.string_value.str) || (var->save_result.string_value.length > (FN_REFLEN - 1))) // safety goto err; memcpy(wsrep_provider_buf, var->save_result.string_value.str, var->save_result.string_value.length); wsrep_provider_buf[var->save_result.string_value.length]= 0; if (!wsrep_provider_verify(wsrep_provider_buf)) return 0; err: my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, var->save_result.string_value.str ? var->save_result.string_value.str : "NULL"); return 1; } bool wsrep_provider_update (sys_var *self, THD* thd, enum_var_type type) { bool rcode= false; bool wsrep_on_saved= thd->variables.wsrep_on; thd->variables.wsrep_on= false; WSREP_DEBUG("wsrep_provider_update: %s", wsrep_provider); /* stop replication is heavy operation, and includes closing all client connections. Closing clients may need to get LOCK_global_system_variables at least in MariaDB. Note: releasing LOCK_global_system_variables may cause race condition, if there can be several concurrent clients changing wsrep_provider */ mysql_mutex_unlock(&LOCK_global_system_variables); wsrep_stop_replication(thd); mysql_mutex_lock(&LOCK_global_system_variables); if (wsrep_inited == 1) wsrep_deinit(false); char* tmp= strdup(wsrep_provider); // wsrep_init() rewrites provider //when fails if (wsrep_init()) { my_error(ER_CANT_OPEN_LIBRARY, MYF(0), tmp); rcode = true; } free(tmp); // we sure don't want to use old address with new provider wsrep_cluster_address_init(NULL); wsrep_provider_options_init(NULL); thd->variables.wsrep_on= wsrep_on_saved; refresh_provider_options(); return rcode; } void wsrep_provider_init (const char* value) { WSREP_DEBUG("wsrep_provider_init: %s -> %s", (wsrep_provider) ? wsrep_provider : "null", (value) ? value : "null"); if (NULL == value || wsrep_provider_verify (value)) { WSREP_ERROR("Bad initial value for wsrep_provider: %s", (value ? value : "")); return; } if (wsrep_provider) my_free((void *)wsrep_provider); wsrep_provider = my_strdup(value, MYF(0)); } bool wsrep_provider_options_check(sys_var *self, THD* thd, set_var* var) { if (wsrep == NULL) { my_message(ER_WRONG_ARGUMENTS, "WSREP (galera) not started", MYF(0)); return true; } return false; } bool wsrep_provider_options_update(sys_var *self, THD* thd, enum_var_type type) { DBUG_ASSERT(wsrep); wsrep_status_t ret= wsrep->options_set(wsrep, wsrep_provider_options); if (ret != WSREP_OK) { WSREP_ERROR("Set options returned %d", ret); refresh_provider_options(); return true; } return refresh_provider_options(); } void wsrep_provider_options_init(const char* value) { if (wsrep_provider_options && wsrep_provider_options != value) my_free((void *)wsrep_provider_options); wsrep_provider_options = (value) ? my_strdup(value, MYF(0)) : NULL; } static int wsrep_cluster_address_verify (const char* cluster_address_str) { /* There is no predefined address format, it depends on provider. */ return 0; } bool wsrep_cluster_address_check (sys_var *self, THD* thd, set_var* var) { char addr_buf[FN_REFLEN]; if ((! var->save_result.string_value.str) || (var->save_result.string_value.length >= sizeof(addr_buf))) // safety goto err; strmake(addr_buf, var->save_result.string_value.str, MY_MIN(sizeof(addr_buf)-1, var->save_result.string_value.length)); if (!wsrep_cluster_address_verify(addr_buf)) return 0; err: my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, var->save_result.string_value.str ? var->save_result.string_value.str : "NULL"); return 1; } bool wsrep_cluster_address_update (sys_var *self, THD* thd, enum_var_type type) { bool wsrep_on_saved; /* Do not proceed if wsrep provider is not loaded. */ if (!wsrep) { WSREP_INFO("wsrep provider is not loaded, can't re(start) replication."); return false; } wsrep_on_saved= thd->variables.wsrep_on; thd->variables.wsrep_on= false; /* stop replication is heavy operation, and includes closing all client connections. Closing clients may need to get LOCK_global_system_variables at least in MariaDB. Note: releasing LOCK_global_system_variables may cause race condition, if there can be several concurrent clients changing wsrep_provider */ mysql_mutex_unlock(&LOCK_global_system_variables); wsrep_stop_replication(thd); /* Unlock and lock LOCK_wsrep_slave_threads to maintain lock order & avoid any potential deadlock. */ mysql_mutex_unlock(&LOCK_wsrep_slave_threads); mysql_mutex_lock(&LOCK_global_system_variables); mysql_mutex_lock(&LOCK_wsrep_slave_threads); if (wsrep_start_replication()) { wsrep_create_rollbacker(); wsrep_create_appliers(wsrep_slave_threads); } thd->variables.wsrep_on= wsrep_on_saved; return false; } void wsrep_cluster_address_init (const char* value) { WSREP_DEBUG("wsrep_cluster_address_init: %s -> %s", (wsrep_cluster_address) ? wsrep_cluster_address : "null", (value) ? value : "null"); my_free((void*) wsrep_cluster_address); wsrep_cluster_address= my_strdup(value ? value : "", MYF(0)); } /* wsrep_cluster_name cannot be NULL or an empty string. */ bool wsrep_cluster_name_check (sys_var *self, THD* thd, set_var* var) { if (!var->save_result.string_value.str || (var->save_result.string_value.length == 0)) { my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, (var->save_result.string_value.str ? var->save_result.string_value.str : "NULL")); return 1; } return 0; } bool wsrep_cluster_name_update (sys_var *self, THD* thd, enum_var_type type) { return 0; } bool wsrep_node_name_check (sys_var *self, THD* thd, set_var* var) { // TODO: for now 'allow' 0-length string to be valid (default) if (!var->save_result.string_value.str) { my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, (var->save_result.string_value.str ? var->save_result.string_value.str : "NULL")); return 1; } return 0; } bool wsrep_node_name_update (sys_var *self, THD* thd, enum_var_type type) { return 0; } // TODO: do something more elaborate, like checking connectivity bool wsrep_node_address_check (sys_var *self, THD* thd, set_var* var) { char addr_buf[FN_REFLEN]; if ((! var->save_result.string_value.str) || (var->save_result.string_value.length > (FN_REFLEN - 1))) // safety goto err; memcpy(addr_buf, var->save_result.string_value.str, var->save_result.string_value.length); addr_buf[var->save_result.string_value.length]= 0; // TODO: for now 'allow' 0-length string to be valid (default) return 0; err: my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), var->var->name.str, var->save_result.string_value.str ? var->save_result.string_value.str : "NULL"); return 1; } bool wsrep_node_address_update (sys_var *self, THD* thd, enum_var_type type) { return 0; } void wsrep_node_address_init (const char* value) { if (wsrep_node_address && strcmp(wsrep_node_address, value)) my_free ((void*)wsrep_node_address); wsrep_node_address = (value) ? my_strdup(value, MYF(0)) : NULL; } static void wsrep_slave_count_change_update () { wsrep_slave_count_change += (wsrep_slave_threads - wsrep_prev_slave_threads); wsrep_prev_slave_threads = wsrep_slave_threads; } bool wsrep_slave_threads_update (sys_var *self, THD* thd, enum_var_type type) { wsrep_slave_count_change_update(); if (wsrep_slave_count_change > 0) { wsrep_create_appliers(wsrep_slave_count_change); wsrep_slave_count_change = 0; } return false; } bool wsrep_desync_check (sys_var *self, THD* thd, set_var* var) { if (wsrep == NULL) { my_message(ER_WRONG_ARGUMENTS, "WSREP (galera) not started", MYF(0)); return true; } bool new_wsrep_desync= (bool) var->save_result.ulonglong_value; if (wsrep_desync == new_wsrep_desync) { if (new_wsrep_desync) { push_warning (thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_VALUE_FOR_VAR, "'wsrep_desync' is already ON."); } else { push_warning (thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_VALUE_FOR_VAR, "'wsrep_desync' is already OFF."); } return false; } wsrep_status_t ret(WSREP_WARNING); if (new_wsrep_desync) { ret = wsrep->desync (wsrep); if (ret != WSREP_OK) { WSREP_WARN ("SET desync failed %d for schema: %s, query: %s", ret, (thd->db ? thd->db : "(null)"), thd->query()); my_error (ER_CANNOT_USER, MYF(0), "'desync'", thd->query()); return true; } } else { ret = wsrep->resync (wsrep); if (ret != WSREP_OK) { WSREP_WARN ("SET resync failed %d for schema: %s, query: %s", ret, (thd->db ? thd->db : "(null)"), thd->query()); my_error (ER_CANNOT_USER, MYF(0), "'resync'", thd->query()); return true; } } return false; } bool wsrep_desync_update (sys_var *self, THD* thd, enum_var_type type) { DBUG_ASSERT(wsrep); return false; } bool wsrep_max_ws_size_check(sys_var *self, THD* thd, set_var* var) { if (wsrep == NULL) { my_message(ER_WRONG_ARGUMENTS, "WSREP (galera) not started", MYF(0)); return true; } return false; } bool wsrep_max_ws_size_update (sys_var *self, THD *thd, enum_var_type) { DBUG_ASSERT(wsrep); char max_ws_size_opt[128]; my_snprintf(max_ws_size_opt, sizeof(max_ws_size_opt), "repl.max_ws_size=%d", wsrep_max_ws_size); wsrep_status_t ret= wsrep->options_set(wsrep, max_ws_size_opt); if (ret != WSREP_OK) { WSREP_ERROR("Set options returned %d", ret); refresh_provider_options(); return true; } return refresh_provider_options(); } static SHOW_VAR wsrep_status_vars[]= { {"connected", (char*) &wsrep_connected, SHOW_BOOL}, {"ready", (char*) &wsrep_ready, SHOW_BOOL}, {"cluster_state_uuid",(char*) &wsrep_cluster_state_uuid,SHOW_CHAR_PTR}, {"cluster_conf_id", (char*) &wsrep_cluster_conf_id, SHOW_LONGLONG}, {"cluster_status", (char*) &wsrep_cluster_status, SHOW_CHAR_PTR}, {"cluster_size", (char*) &wsrep_cluster_size, SHOW_LONG_NOFLUSH}, {"local_index", (char*) &wsrep_local_index, SHOW_LONG_NOFLUSH}, {"local_bf_aborts", (char*) &wsrep_show_bf_aborts, SHOW_SIMPLE_FUNC}, {"provider_name", (char*) &wsrep_provider_name, SHOW_CHAR_PTR}, {"provider_version", (char*) &wsrep_provider_version, SHOW_CHAR_PTR}, {"provider_vendor", (char*) &wsrep_provider_vendor, SHOW_CHAR_PTR}, {"thread_count", (char*) &wsrep_running_threads, SHOW_LONG_NOFLUSH} }; static int show_var_cmp(const void *var1, const void *var2) { return strcasecmp(((SHOW_VAR*)var1)->name, ((SHOW_VAR*)var2)->name); } int wsrep_show_status (THD *thd, SHOW_VAR *var, char *buff, enum enum_var_type scope) { uint i, maxi= SHOW_VAR_FUNC_BUFF_SIZE / sizeof(*var) - 1; SHOW_VAR *v= (SHOW_VAR *)buff; var->type= SHOW_ARRAY; var->value= buff; for (i=0; i < array_elements(wsrep_status_vars); i++) *v++= wsrep_status_vars[i]; DBUG_ASSERT(i < maxi); if (wsrep != NULL) { wsrep_stats_var* stats= wsrep->stats_get(wsrep); for (wsrep_stats_var *sv= stats; i < maxi && sv && sv->name; i++, sv++, v++) { v->name = thd->strdup(sv->name); switch (sv->type) { case WSREP_VAR_INT64: v->value = (char*)thd->memdup(&sv->value._integer64, sizeof(longlong)); v->type = SHOW_LONGLONG; break; case WSREP_VAR_STRING: v->value = thd->strdup(sv->value._string); v->type = SHOW_CHAR; break; case WSREP_VAR_DOUBLE: v->value = (char*)thd->memdup(&sv->value._double, sizeof(double)); v->type = SHOW_DOUBLE; break; } } wsrep->stats_free(wsrep, stats); } my_qsort(buff, i, sizeof(*v), show_var_cmp); v->name= 0; // terminator return 0; }