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/* Copyright (c) 2000, 2017, Oracle and/or its affiliates.
Copyright (c) 2009, 2022, MariaDB Corporation
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 St, Fifth Floor, Boston, MA 02110-1335 USA */
/**
@addtogroup Replication
@{
@file
@brief Code to run the io thread and the sql thread on the
replication slave.
*/
#include "mariadb.h"
#include "sql_priv.h"
#include "slave.h"
#include "sql_parse.h" // execute_init_command
#include "sql_table.h" // mysql_rm_table
#include "rpl_mi.h"
#include "rpl_rli.h"
#include "sql_repl.h"
#include "rpl_filter.h"
#include "repl_failsafe.h"
#include "transaction.h"
#include <thr_alarm.h>
#include <my_dir.h>
#include <sql_common.h>
#include <errmsg.h>
#include <ssl_compat.h>
#include "unireg.h"
#include <mysys_err.h>
#include <signal.h>
#include <mysql.h>
#include <myisam.h>
#include "sql_base.h" // close_thread_tables
#include "tztime.h" // struct Time_zone
#include "log_event.h" // Rotate_log_event,
// Create_file_log_event,
// Format_description_log_event
#include "wsrep_mysqld.h"
#ifdef WITH_WSREP
#include "wsrep_trans_observer.h"
#endif
class Master_info_index;
Master_info_index *master_info_index;
#ifdef HAVE_REPLICATION
#include "rpl_tblmap.h"
#include "debug_sync.h"
#include "rpl_parallel.h"
#include "sql_show.h"
#include "semisync_slave.h"
#include "sql_manager.h"
#define FLAGSTR(V,F) ((V)&(F)?#F" ":"")
#define MAX_SLAVE_RETRY_PAUSE 5
/*
a parameter of sql_slave_killed() to defer the killed status
*/
#define SLAVE_WAIT_GROUP_DONE 60
bool use_slave_mask = 0;
MY_BITMAP slave_error_mask;
char slave_skip_error_names[SHOW_VAR_FUNC_BUFF_SIZE];
uint *slave_transaction_retry_errors;
uint slave_transaction_retry_error_length= 0;
char slave_transaction_retry_error_names[SHOW_VAR_FUNC_BUFF_SIZE];
char* slave_load_tmpdir = 0;
Master_info *active_mi= 0;
my_bool replicate_same_server_id;
ulonglong relay_log_space_limit = 0;
ulonglong opt_read_binlog_speed_limit = 0;
const char *relay_log_index= 0;
const char *relay_log_basename= 0;
LEX_CSTRING default_master_connection_name= { (char*) "", 0 };
/*
When slave thread exits, we need to remember the temporary tables so we
can re-use them on slave start.
TODO: move the vars below under Master_info
*/
int disconnect_slave_event_count = 0, abort_slave_event_count = 0;
static pthread_key(Master_info*, RPL_MASTER_INFO);
enum enum_slave_reconnect_actions
{
SLAVE_RECON_ACT_REG= 0,
SLAVE_RECON_ACT_DUMP= 1,
SLAVE_RECON_ACT_EVENT= 2,
SLAVE_RECON_ACT_MAX
};
enum enum_slave_reconnect_messages
{
SLAVE_RECON_MSG_WAIT= 0,
SLAVE_RECON_MSG_KILLED_WAITING= 1,
SLAVE_RECON_MSG_AFTER= 2,
SLAVE_RECON_MSG_FAILED= 3,
SLAVE_RECON_MSG_COMMAND= 4,
SLAVE_RECON_MSG_KILLED_AFTER= 5,
SLAVE_RECON_MSG_MAX
};
static const char *reconnect_messages[SLAVE_RECON_ACT_MAX][SLAVE_RECON_MSG_MAX]=
{
{
"Waiting to reconnect after a failed registration on master",
"Slave I/O thread killed while waiting to reconnect after a failed \
registration on master",
"Reconnecting after a failed registration on master",
"failed registering on master, reconnecting to try again, \
log '%s' at position %llu%s",
"COM_REGISTER_SLAVE",
"Slave I/O thread killed during or after reconnect"
},
{
"Waiting to reconnect after a failed binlog dump request",
"Slave I/O thread killed while retrying master dump",
"Reconnecting after a failed binlog dump request",
"failed dump request, reconnecting to try again, log '%s' at position %llu%s",
"COM_BINLOG_DUMP",
"Slave I/O thread killed during or after reconnect"
},
{
"Waiting to reconnect after a failed master event read",
"Slave I/O thread killed while waiting to reconnect after a failed read",
"Reconnecting after a failed master event read",
"Slave I/O thread: Failed reading log event, reconnecting to retry, \
log '%s' at position %llu%s",
"",
"Slave I/O thread killed during or after a reconnect done to recover from \
failed read"
}
};
typedef enum { SLAVE_THD_IO, SLAVE_THD_SQL} SLAVE_THD_TYPE;
static int process_io_rotate(Master_info* mi, Rotate_log_event* rev);
static int process_io_create_file(Master_info* mi, Create_file_log_event* cev);
static bool wait_for_relay_log_space(Relay_log_info* rli);
static bool io_slave_killed(Master_info* mi);
static bool sql_slave_killed(rpl_group_info *rgi);
static int init_slave_thread(THD*, Master_info *, SLAVE_THD_TYPE);
static void make_slave_skip_errors_printable(void);
static void make_slave_transaction_retry_errors_printable(void);
static int safe_connect(THD* thd, MYSQL* mysql, Master_info* mi);
static int safe_reconnect(THD*, MYSQL*, Master_info*, bool);
static int connect_to_master(THD*, MYSQL*, Master_info*, bool, bool);
static Log_event* next_event(rpl_group_info* rgi, ulonglong *event_size);
static int queue_event(Master_info *mi,const uchar *buf, ulong event_len);
static int terminate_slave_thread(THD *, mysql_mutex_t *, mysql_cond_t *,
volatile uint *, bool);
static bool check_io_slave_killed(Master_info *mi, const char *info);
static bool send_show_master_info_data(THD *, Master_info *, bool, String *);
/*
Function to set the slave's max_allowed_packet based on the value
of slave_max_allowed_packet.
@in_param thd Thread handler for slave
@in_param mysql MySQL connection handle
*/
static void set_slave_max_allowed_packet(THD *thd, MYSQL *mysql)
{
DBUG_ENTER("set_slave_max_allowed_packet");
// thd and mysql must be valid
DBUG_ASSERT(thd && mysql);
thd->variables.max_allowed_packet= slave_max_allowed_packet;
thd->net.max_packet_size= slave_max_allowed_packet;
/*
Adding MAX_LOG_EVENT_HEADER_LEN to the max_packet_size on the I/O
thread and the mysql->option max_allowed_packet, since a
replication event can become this much larger than
the corresponding packet (query) sent from client to master.
*/
thd->net.max_packet_size+= MAX_LOG_EVENT_HEADER;
/*
Skipping the setting of mysql->net.max_packet size to slave
max_allowed_packet since this is done during mysql_real_connect.
*/
mysql->options.max_allowed_packet=
slave_max_allowed_packet+MAX_LOG_EVENT_HEADER;
DBUG_VOID_RETURN;
}
/*
Find out which replications threads are running
SYNOPSIS
init_thread_mask()
mask Return value here
mi master_info for slave
inverse If set, returns which threads are not running
IMPLEMENTATION
Get a bit mask for which threads are running so that we can later restart
these threads.
RETURN
mask If inverse == 0, running threads
If inverse == 1, stopped threads
*/
void init_thread_mask(int* mask,Master_info* mi,bool inverse)
{
bool set_io = mi->slave_running, set_sql = mi->rli.slave_running;
int tmp_mask=0;
DBUG_ENTER("init_thread_mask");
if (set_io)
tmp_mask |= SLAVE_IO;
if (set_sql)
tmp_mask |= SLAVE_SQL;
if (inverse)
tmp_mask^= (SLAVE_IO | SLAVE_SQL);
*mask = tmp_mask;
DBUG_VOID_RETURN;
}
/*
lock_slave_threads() against other threads doing STOP, START or RESET SLAVE
*/
void Master_info::lock_slave_threads()
{
DBUG_ENTER("lock_slave_threads");
mysql_mutex_lock(&start_stop_lock);
DBUG_VOID_RETURN;
}
/*
unlock_slave_threads()
*/
void Master_info::unlock_slave_threads()
{
DBUG_ENTER("unlock_slave_threads");
mysql_mutex_unlock(&start_stop_lock);
DBUG_VOID_RETURN;
}
#ifdef HAVE_PSI_INTERFACE
static PSI_thread_key key_thread_slave_io, key_thread_slave_sql;
static PSI_thread_info all_slave_threads[]=
{
{ &key_thread_slave_io, "slave_io", PSI_FLAG_GLOBAL},
{ &key_thread_slave_sql, "slave_sql", PSI_FLAG_GLOBAL}
};
static void init_slave_psi_keys(void)
{
const char* category= "sql";
int count;
if (PSI_server == NULL)
return;
count= array_elements(all_slave_threads);
PSI_server->register_thread(category, all_slave_threads, count);
}
#endif /* HAVE_PSI_INTERFACE */
/*
Note: This definition needs to be kept in sync with the one in
mysql_system_tables.sql which is used by mysql_create_db.
*/
static const char gtid_pos_table_definition1[]=
"CREATE TABLE ";
static const char gtid_pos_table_definition2[]=
" (domain_id INT UNSIGNED NOT NULL, "
"sub_id BIGINT UNSIGNED NOT NULL, "
"server_id INT UNSIGNED NOT NULL, "
"seq_no BIGINT UNSIGNED NOT NULL, "
"PRIMARY KEY (domain_id, sub_id)) CHARSET=latin1 "
"COMMENT='Replication slave GTID position' "
"ENGINE=";
/*
Build a query string
CREATE TABLE mysql.gtid_slave_pos_<engine> ... ENGINE=<engine>
*/
static bool
build_gtid_pos_create_query(THD *thd, String *query,
LEX_CSTRING *table_name,
LEX_CSTRING *engine_name)
{
bool err= false;
err|= query->append(gtid_pos_table_definition1,
sizeof(gtid_pos_table_definition1)-1);
err|= append_identifier(thd, query, table_name);
err|= query->append(gtid_pos_table_definition2,
sizeof(gtid_pos_table_definition2)-1);
err|= append_identifier(thd, query, engine_name);
return err;
}
static int
gtid_pos_table_creation(THD *thd, plugin_ref engine, LEX_CSTRING *table_name)
{
int err;
StringBuffer<sizeof(gtid_pos_table_definition1) +
sizeof(gtid_pos_table_definition1) +
2*FN_REFLEN> query;
if (build_gtid_pos_create_query(thd, &query, table_name, plugin_name(engine)))
{
my_error(ER_OUT_OF_RESOURCES, MYF(0));
return 1;
}
thd->set_db(&MYSQL_SCHEMA_NAME);
thd->clear_error();
ulonglong thd_saved_option= thd->variables.option_bits;
/* This query shuold not be binlogged. */
thd->variables.option_bits&= ~(ulonglong)OPTION_BIN_LOG;
thd->set_query_and_id(query.c_ptr(), query.length(), thd->charset(),
next_query_id());
Parser_state parser_state;
err= parser_state.init(thd, thd->query(), thd->query_length());
if (err)
goto end;
mysql_parse(thd, thd->query(), thd->query_length(), &parser_state);
if (unlikely(thd->is_error()))
err= 1;
/* The warning is relevant to 10.3 and earlier. */
sql_print_warning("The automatically created table '%s' name may not be "
"entirely in lowercase. The table name will be converted "
"to lowercase to any future upgrade to 10.4.0 and later "
"version where it will be auto-created at once "
"in lowercase.",
table_name->str);
end:
thd->variables.option_bits= thd_saved_option;
thd->reset_query();
return err;
}
static THD *new_bg_THD()
{
THD *thd= new THD(next_thread_id());
thd->thread_stack= (char*) &thd;
thd->store_globals();
thd->system_thread = SYSTEM_THREAD_SLAVE_BACKGROUND;
thd->security_ctx->skip_grants();
thd->set_command(COM_DAEMON);
thd->variables.wsrep_on= 0;
return thd;
}
static void bg_gtid_delete_pending(void *)
{
THD *thd= new_bg_THD();
rpl_slave_state::list_element *list;
list= rpl_global_gtid_slave_state->gtid_grab_pending_delete_list();
rpl_global_gtid_slave_state->gtid_delete_pending(thd, &list);
if (list)
rpl_global_gtid_slave_state->put_back_list(list);
delete thd;
}
static void bg_gtid_pos_auto_create(void *hton)
{
THD *thd= NULL;
int UNINIT_VAR(err);
plugin_ref engine= NULL, *auto_engines;
rpl_slave_state::gtid_pos_table *entry;
StringBuffer<FN_REFLEN> loc_table_name;
LEX_CSTRING table_name;
/*
Check that the plugin is still in @@gtid_pos_auto_engines, and lock
it.
*/
mysql_mutex_lock(&LOCK_global_system_variables);
for (auto_engines= opt_gtid_pos_auto_plugins;
auto_engines && *auto_engines;
++auto_engines)
{
if (plugin_hton(*auto_engines) == hton)
{
engine= my_plugin_lock(NULL, *auto_engines);
break;
}
}
mysql_mutex_unlock(&LOCK_global_system_variables);
if (!engine)
{
/* The engine is gone from @@gtid_pos_auto_engines, so no action. */
goto end;
}
/* Find the entry for the table to auto-create. */
mysql_mutex_lock(&rpl_global_gtid_slave_state->LOCK_slave_state);
entry= rpl_global_gtid_slave_state->
gtid_pos_tables.load(std::memory_order_relaxed);
while (entry)
{
if (entry->table_hton == hton &&
entry->state == rpl_slave_state::GTID_POS_CREATE_REQUESTED)
break;
entry= entry->next;
}
if (entry)
{
entry->state = rpl_slave_state::GTID_POS_CREATE_IN_PROGRESS;
err= loc_table_name.append(entry->table_name.str, entry->table_name.length);
}
mysql_mutex_unlock(&rpl_global_gtid_slave_state->LOCK_slave_state);
if (!entry)
goto end;
if (err)
{
sql_print_error("Out of memory while trying to auto-create GTID position table");
goto end;
}
table_name.str= loc_table_name.c_ptr_safe();
table_name.length= loc_table_name.length();
thd= new_bg_THD();
err= gtid_pos_table_creation(thd, engine, &table_name);
if (err)
{
sql_print_error("Error auto-creating GTID position table `mysql.%s`: %s Error_code: %d",
table_name.str, thd->get_stmt_da()->message(),
thd->get_stmt_da()->sql_errno());
thd->clear_error();
goto end;
}
/* Now enable the entry for the auto-created table. */
mysql_mutex_lock(&rpl_global_gtid_slave_state->LOCK_slave_state);
entry= rpl_global_gtid_slave_state->
gtid_pos_tables.load(std::memory_order_relaxed);
while (entry)
{
if (entry->table_hton == hton &&
entry->state == rpl_slave_state::GTID_POS_CREATE_IN_PROGRESS)
{
entry->state= rpl_slave_state::GTID_POS_AVAILABLE;
break;
}
entry= entry->next;
}
mysql_mutex_unlock(&rpl_global_gtid_slave_state->LOCK_slave_state);
end:
delete thd;
if (engine)
plugin_unlock(NULL, engine);
}
static bool slave_background_thread_gtid_loaded;
static void bg_rpl_load_gtid_slave_state(void *)
{
THD *thd= new_bg_THD();
thd->set_psi(PSI_CALL_get_thread());
thd_proc_info(thd, "Loading slave GTID position from table");
if (rpl_load_gtid_slave_state(thd))
sql_print_warning("Failed to load slave replication state from table "
"%s.%s: %u: %s", "mysql",
rpl_gtid_slave_state_table_name.str,
thd->get_stmt_da()->sql_errno(),
thd->get_stmt_da()->message());
// hijacking global_rpl_thread_pool cond here - it's only once on startup
mysql_mutex_lock(&global_rpl_thread_pool.LOCK_rpl_thread_pool);
slave_background_thread_gtid_loaded= true;
mysql_cond_signal(&global_rpl_thread_pool.COND_rpl_thread_pool);
mysql_mutex_unlock(&global_rpl_thread_pool.LOCK_rpl_thread_pool);
delete thd;
}
static void bg_slave_kill(void *victim)
{
THD *to_kill= (THD *)victim;
DBUG_EXECUTE_IF("rpl_delay_deadlock_kill", my_sleep(1500000););
to_kill->awake(KILL_CONNECTION);
mysql_mutex_lock(&to_kill->LOCK_wakeup_ready);
to_kill->rgi_slave->killed_for_retry= rpl_group_info::RETRY_KILL_KILLED;
mysql_cond_broadcast(&to_kill->COND_wakeup_ready);
mysql_mutex_unlock(&to_kill->LOCK_wakeup_ready);
}
void slave_background_kill_request(THD *to_kill)
{
if (to_kill->rgi_slave->killed_for_retry)
return; // Already deadlock killed.
to_kill->rgi_slave->killed_for_retry= rpl_group_info::RETRY_KILL_PENDING;
mysql_manager_submit(bg_slave_kill, to_kill);
}
/*
This function must only be called from a slave SQL thread (or worker thread),
to ensure that the table_entry will not go away before we can lock the
LOCK_slave_state.
*/
void slave_background_gtid_pos_create_request(
rpl_slave_state::gtid_pos_table *table_entry)
{
if (table_entry->state != rpl_slave_state::GTID_POS_AUTO_CREATE)
return;
mysql_mutex_lock(&rpl_global_gtid_slave_state->LOCK_slave_state);
if (table_entry->state != rpl_slave_state::GTID_POS_AUTO_CREATE)
{
mysql_mutex_unlock(&rpl_global_gtid_slave_state->LOCK_slave_state);
return;
}
table_entry->state= rpl_slave_state::GTID_POS_CREATE_REQUESTED;
mysql_mutex_unlock(&rpl_global_gtid_slave_state->LOCK_slave_state);
mysql_manager_submit(bg_gtid_pos_auto_create, table_entry->table_hton);
}
/*
Request the manager thread to delete no longer used rows from the
mysql.gtid_slave_pos* tables.
*/
void slave_background_gtid_pending_delete_request(void)
{
mysql_manager_submit(bg_gtid_delete_pending, NULL);
}
/* Initialize slave structures */
int init_slave()
{
DBUG_ENTER("init_slave");
int error= 0;
#ifdef HAVE_PSI_INTERFACE
init_slave_psi_keys();
#endif
if (global_rpl_thread_pool.init(opt_slave_parallel_threads))
return 1;
slave_background_thread_gtid_loaded= false;
mysql_manager_submit(bg_rpl_load_gtid_slave_state, NULL);
// hijacking global_rpl_thread_pool cond here - it's only once on startup
mysql_mutex_lock(&global_rpl_thread_pool.LOCK_rpl_thread_pool);
while (!slave_background_thread_gtid_loaded)
mysql_cond_wait(&global_rpl_thread_pool.COND_rpl_thread_pool,
&global_rpl_thread_pool.LOCK_rpl_thread_pool);
mysql_mutex_unlock(&global_rpl_thread_pool.LOCK_rpl_thread_pool);
/*
This is called when mysqld starts. Before client connections are
accepted. However bootstrap may conflict with us if it does START SLAVE.
So it's safer to take the lock.
*/
if (pthread_key_create(&RPL_MASTER_INFO, NULL))
goto err;
master_info_index= new Master_info_index;
if (!master_info_index || master_info_index->init_all_master_info())
{
sql_print_error("Failed to initialize multi master structures");
DBUG_RETURN(1);
}
if (!(active_mi= new Master_info(&default_master_connection_name,
relay_log_recovery)) ||
active_mi->error())
{
delete active_mi;
active_mi= 0;
sql_print_error("Failed to allocate memory for the Master Info structure");
goto err;
}
if (master_info_index->add_master_info(active_mi, FALSE))
{
delete active_mi;
active_mi= 0;
goto err;
}
/*
If master_host is not specified, try to read it from the master_info file.
If master_host is specified, create the master_info file if it doesn't
exists.
*/
if (init_master_info(active_mi,master_info_file,relay_log_info_file,
1, (SLAVE_IO | SLAVE_SQL)))
{
sql_print_error("Failed to initialize the master info structure");
goto err;
}
/* If server id is not set, start_slave_thread() will say it */
if (active_mi->host[0] && !opt_skip_slave_start)
{
int error;
THD *thd= new THD(next_thread_id());
thd->thread_stack= (char*) &thd;
thd->store_globals();
error= start_slave_threads(0, /* No active thd */
1 /* need mutex */,
1 /* wait for start*/,
active_mi,
master_info_file,
relay_log_info_file,
SLAVE_IO | SLAVE_SQL);
thd->reset_globals();
delete thd;
if (unlikely(error))
{
sql_print_error("Failed to create slave threads");
goto err;
}
}
end:
DBUG_RETURN(error);
err:
error= 1;
goto end;
}
/*
Updates the master info based on the information stored in the
relay info and ignores relay logs previously retrieved by the IO
thread, which thus starts fetching again based on to the
group_master_log_pos and group_master_log_name. Eventually, the old
relay logs will be purged by the normal purge mechanism.
In the feature, we should improve this routine in order to avoid throwing
away logs that are safely stored in the disk. Note also that this recovery
routine relies on the correctness of the relay-log.info and only tolerates
coordinate problems in master.info.
In this function, there is no need for a mutex as the caller
(i.e. init_slave) already has one acquired.
Specifically, the following structures are updated:
1 - mi->master_log_pos <-- rli->group_master_log_pos
2 - mi->master_log_name <-- rli->group_master_log_name
3 - It moves the relay log to the new relay log file, by
rli->group_relay_log_pos <-- BIN_LOG_HEADER_SIZE;
rli->event_relay_log_pos <-- BIN_LOG_HEADER_SIZE;
rli->group_relay_log_name <-- rli->relay_log.get_log_fname();
rli->event_relay_log_name <-- rli->relay_log.get_log_fname();
If there is an error, it returns (1), otherwise returns (0).
*/
int init_recovery(Master_info* mi, const char** errmsg)
{
DBUG_ENTER("init_recovery");
Relay_log_info *rli= &mi->rli;
if (rli->group_master_log_name[0])
{
mi->master_log_pos= MY_MAX(BIN_LOG_HEADER_SIZE,
rli->group_master_log_pos);
strmake_buf(mi->master_log_name, rli->group_master_log_name);
sql_print_warning("Recovery from master pos %ld and file %s.",
(ulong) mi->master_log_pos, mi->master_log_name);
strmake_buf(rli->group_relay_log_name, rli->relay_log.get_log_fname());
strmake_buf(rli->event_relay_log_name, rli->relay_log.get_log_fname());
rli->group_relay_log_pos= rli->event_relay_log_pos= BIN_LOG_HEADER_SIZE;
}
DBUG_RETURN(0);
}
/**
Convert slave skip errors bitmap into a printable string.
*/
static void make_slave_skip_errors_printable(void)
{
/*
To be safe, we want 10 characters of room in the buffer for a number
plus terminators. Also, we need some space for constant strings.
10 characters must be sufficient for a number plus {',' | '...'}
plus a NUL terminator. That is a max 6 digit number.
*/
const size_t MIN_ROOM= 10;
DBUG_ENTER("make_slave_skip_errors_printable");
DBUG_ASSERT(sizeof(slave_skip_error_names) > MIN_ROOM);
DBUG_ASSERT(MAX_SLAVE_ERROR <= 999999); // 6 digits
/* Make @@slave_skip_errors show the nice human-readable value. */
opt_slave_skip_errors= slave_skip_error_names;
if (!use_slave_mask || bitmap_is_clear_all(&slave_error_mask))
{
/* purecov: begin tested */
memcpy(slave_skip_error_names, STRING_WITH_LEN("OFF"));
/* purecov: end */
}
else if (bitmap_is_set_all(&slave_error_mask))
{
/* purecov: begin tested */
memcpy(slave_skip_error_names, STRING_WITH_LEN("ALL"));
/* purecov: end */
}
else
{
char *buff= slave_skip_error_names;
char *bend= buff + sizeof(slave_skip_error_names) - MIN_ROOM;
int errnum;
for (errnum= 0; errnum < MAX_SLAVE_ERROR; errnum++)
{
if (bitmap_is_set(&slave_error_mask, errnum))
{
if (buff >= bend)
break; /* purecov: tested */
buff= int10_to_str(errnum, buff, 10);
*buff++= ',';
}
}
if (buff != slave_skip_error_names)
buff--; // Remove last ','
if (errnum < MAX_SLAVE_ERROR)
{
/* Couldn't show all errors */
buff= strmov(buff, "..."); /* purecov: tested */
}
*buff=0;
}
DBUG_PRINT("init", ("error_names: '%s'", slave_skip_error_names));
DBUG_VOID_RETURN;
}
/*
Init function to set up array for errors that should be skipped for slave
SYNOPSIS
init_slave_skip_errors()
arg List of errors numbers to skip, separated with ','
NOTES
Called from get_options() in mysqld.cc on start-up
*/
bool init_slave_skip_errors(const char* arg)
{
const char *p;
DBUG_ENTER("init_slave_skip_errors");
if (!arg || !*arg) // No errors defined
goto end;
if (my_bitmap_init(&slave_error_mask,0,MAX_SLAVE_ERROR))
DBUG_RETURN(1);
use_slave_mask= 1;
for (;my_isspace(system_charset_info,*arg);++arg)
/* empty */;
if (!system_charset_info->strnncoll((uchar*)arg,4,(const uchar*)"all",4))
{
bitmap_set_all(&slave_error_mask);
goto end;
}
for (p= arg ; *p; )
{
long err_code;
if (!(p= str2int(p, 10, 0, LONG_MAX, &err_code)))
break;
if (err_code < MAX_SLAVE_ERROR)
bitmap_set_bit(&slave_error_mask,(uint)err_code);
while (!my_isdigit(system_charset_info,*p) && *p)
p++;
}
end:
make_slave_skip_errors_printable();
DBUG_RETURN(0);
}
/**
Make printable version if slave_transaction_retry_errors
This is never empty as at least ER_LOCK_DEADLOCK and ER_LOCK_WAIT_TIMEOUT
will be there
*/
static void make_slave_transaction_retry_errors_printable(void)
{
/*
To be safe, we want 10 characters of room in the buffer for a number
plus terminators. Also, we need some space for constant strings.
10 characters must be sufficient for a number plus {',' | '...'}
plus a NUL terminator. That is a max 6 digit number.
*/
const size_t MIN_ROOM= 10;
char *buff= slave_transaction_retry_error_names;
char *bend= buff + sizeof(slave_transaction_retry_error_names) - MIN_ROOM;
uint i;
DBUG_ENTER("make_slave_transaction_retry_errors_printable");
DBUG_ASSERT(sizeof(slave_transaction_retry_error_names) > MIN_ROOM);
/* Make @@slave_transaction_retry_errors show a human-readable value */
opt_slave_transaction_retry_errors= slave_transaction_retry_error_names;
for (i= 0; i < slave_transaction_retry_error_length && buff < bend; i++)
{
buff= int10_to_str(slave_transaction_retry_errors[i], buff, 10);
*buff++= ',';
}
if (buff != slave_transaction_retry_error_names)
buff--; // Remove last ','
if (i < slave_transaction_retry_error_length)
{
/* Couldn't show all errors */
buff= strmov(buff, "..."); /* purecov: tested */
}
*buff=0;
DBUG_PRINT("exit", ("error_names: '%s'",
slave_transaction_retry_error_names));
DBUG_VOID_RETURN;
}
#define DEFAULT_SLAVE_RETRY_ERRORS 9
bool init_slave_transaction_retry_errors(const char* arg)
{
const char *p;
long err_code;
uint i;
DBUG_ENTER("init_slave_transaction_retry_errors");
/* Handle empty strings */
if (!arg)
arg= "";
slave_transaction_retry_error_length= DEFAULT_SLAVE_RETRY_ERRORS;
for (;my_isspace(system_charset_info,*arg);++arg)
/* empty */;
for (p= arg; *p; )
{
if (!(p= str2int(p, 10, 0, LONG_MAX, &err_code)))
break;
slave_transaction_retry_error_length++;
while (!my_isdigit(system_charset_info,*p) && *p)
p++;
}
if (unlikely(!(slave_transaction_retry_errors=
(uint *) my_once_alloc(sizeof(int) *
slave_transaction_retry_error_length,
MYF(MY_WME)))))
DBUG_RETURN(1);
/*
Temporary error codes:
currently, InnoDB deadlock detected by InnoDB or lock
wait timeout (innodb_lock_wait_timeout exceeded
*/
slave_transaction_retry_errors[0]= ER_NET_READ_ERROR;
slave_transaction_retry_errors[1]= ER_NET_READ_INTERRUPTED;
slave_transaction_retry_errors[2]= ER_NET_ERROR_ON_WRITE;
slave_transaction_retry_errors[3]= ER_NET_WRITE_INTERRUPTED;
slave_transaction_retry_errors[4]= ER_LOCK_WAIT_TIMEOUT;
slave_transaction_retry_errors[5]= ER_LOCK_DEADLOCK;
slave_transaction_retry_errors[6]= ER_CONNECT_TO_FOREIGN_DATA_SOURCE;
slave_transaction_retry_errors[7]= 2013; /* CR_SERVER_LOST */
slave_transaction_retry_errors[8]= 12701; /* ER_SPIDER_REMOTE_SERVER_GONE_AWAY_NUM */
/* Add user codes after this */
for (p= arg, i= DEFAULT_SLAVE_RETRY_ERRORS; *p; )
{
if (!(p= str2int(p, 10, 0, LONG_MAX, &err_code)))
break;
if (err_code > 0)
slave_transaction_retry_errors[i++]= (uint) err_code;
while (!my_isdigit(system_charset_info,*p) && *p)
p++;
}
slave_transaction_retry_error_length= i;
make_slave_transaction_retry_errors_printable();
DBUG_RETURN(0);
}
int terminate_slave_threads(Master_info* mi,int thread_mask,bool skip_lock)
{
DBUG_ENTER("terminate_slave_threads");
if (!mi->inited)
DBUG_RETURN(0); /* successfully do nothing */
int error,force_all = (thread_mask & SLAVE_FORCE_ALL);
int retval= 0;
mysql_mutex_t *sql_lock = &mi->rli.run_lock, *io_lock = &mi->run_lock;
mysql_mutex_t *log_lock= mi->rli.relay_log.get_log_lock();
if (thread_mask & (SLAVE_SQL|SLAVE_FORCE_ALL))
{
DBUG_PRINT("info",("Terminating SQL thread"));
if (mi->using_parallel() && mi->rli.abort_slave && mi->rli.stop_for_until)
{
mi->rli.stop_for_until= false;
mi->rli.parallel.stop_during_until();
}
else
mi->rli.abort_slave=1;
if (unlikely((error= terminate_slave_thread(mi->rli.sql_driver_thd,
sql_lock,
&mi->rli.stop_cond,
&mi->rli.slave_running,
skip_lock))) &&
!force_all)
DBUG_RETURN(error);
retval= error;
mysql_mutex_lock(log_lock);
DBUG_PRINT("info",("Flushing relay-log info file."));
if (current_thd)
THD_STAGE_INFO(current_thd, stage_flushing_relay_log_info_file);
if (mi->rli.flush() || my_sync(mi->rli.info_fd, MYF(MY_WME)))
retval= ER_ERROR_DURING_FLUSH_LOGS;
mysql_mutex_unlock(log_lock);
}
if (thread_mask & (SLAVE_IO|SLAVE_FORCE_ALL))
{
DBUG_PRINT("info",("Terminating IO thread"));
mi->abort_slave=1;
if (unlikely((error= terminate_slave_thread(mi->io_thd, io_lock,
&mi->stop_cond,
&mi->slave_running,
skip_lock))) &&
!force_all)
DBUG_RETURN(error);
if (!retval)
retval= error;
mysql_mutex_lock(log_lock);
DBUG_PRINT("info",("Flushing relay log and master info file."));
if (current_thd)
THD_STAGE_INFO(current_thd, stage_flushing_relay_log_and_master_info_repository);
if (likely(mi->fd >= 0))
{
if (flush_master_info(mi, TRUE, FALSE) || my_sync(mi->fd, MYF(MY_WME)))
retval= ER_ERROR_DURING_FLUSH_LOGS;
}
if (mi->rli.relay_log.is_open() &&
my_sync(mi->rli.relay_log.get_log_file()->file, MYF(MY_WME)))
retval= ER_ERROR_DURING_FLUSH_LOGS;
mysql_mutex_unlock(log_lock);
}
DBUG_RETURN(retval);
}
/**
Wait for a slave thread to terminate.
This function is called after requesting the thread to terminate
(by setting @c abort_slave member of @c Relay_log_info or @c
Master_info structure to 1). Termination of the thread is
controlled with the the predicate <code>*slave_running</code>.
Function will acquire @c term_lock before waiting on the condition
unless @c skip_lock is true in which case the mutex should be owned
by the caller of this function and will remain acquired after
return from the function.
@param term_lock
Associated lock to use when waiting for @c term_cond
@param term_cond
Condition that is signalled when the thread has terminated
@param slave_running
Pointer to predicate to check for slave thread termination
@param skip_lock
If @c true the lock will not be acquired before waiting on
the condition. In this case, it is assumed that the calling
function acquires the lock before calling this function.
@retval 0 All OK ER_SLAVE_NOT_RUNNING otherwise.
@note If the executing thread has to acquire term_lock (skip_lock
is false), the negative running status does not represent
any issue therefore no error is reported.
*/
static int
terminate_slave_thread(THD *thd,
mysql_mutex_t *term_lock,
mysql_cond_t *term_cond,
volatile uint *slave_running,
bool skip_lock)
{
DBUG_ENTER("terminate_slave_thread");
if (!skip_lock)
{
mysql_mutex_lock(term_lock);
}
else
{
mysql_mutex_assert_owner(term_lock);
}
if (!*slave_running)
{
if (!skip_lock)
{
/*
if run_lock (term_lock) is acquired locally then either
slave_running status is fine
*/
mysql_mutex_unlock(term_lock);
DBUG_RETURN(0);
}
else
{
DBUG_RETURN(ER_SLAVE_NOT_RUNNING);
}
}
DBUG_ASSERT(thd != 0);
THD_CHECK_SENTRY(thd);
/*
Is is critical to test if the slave is running. Otherwise, we might
be referening freed memory trying to kick it
*/
while (*slave_running) // Should always be true
{
int error __attribute__((unused));
DBUG_PRINT("loop", ("killing slave thread"));
mysql_mutex_lock(&thd->LOCK_thd_kill);
mysql_mutex_lock(&thd->LOCK_thd_data);
#ifndef DONT_USE_THR_ALARM
/*
Error codes from pthread_kill are:
EINVAL: invalid signal number (can't happen)
ESRCH: thread already killed (can happen, should be ignored)
*/
int err __attribute__((unused))= pthread_kill(thd->real_id, thr_client_alarm);
DBUG_ASSERT(err != EINVAL);
#endif
thd->awake_no_mutex(NOT_KILLED);
mysql_mutex_unlock(&thd->LOCK_thd_kill);
mysql_mutex_unlock(&thd->LOCK_thd_data);
/*
There is a small chance that slave thread might miss the first
alarm. To protect againts it, resend the signal until it reacts
*/
struct timespec abstime;
set_timespec(abstime,2);
error= mysql_cond_timedwait(term_cond, term_lock, &abstime);
DBUG_ASSERT(error == ETIMEDOUT || error == 0);
}
DBUG_ASSERT(*slave_running == 0);
if (!skip_lock)
mysql_mutex_unlock(term_lock);
DBUG_RETURN(0);
}
int start_slave_thread(
#ifdef HAVE_PSI_INTERFACE
PSI_thread_key thread_key,
#endif
pthread_handler h_func, mysql_mutex_t *start_lock,
mysql_mutex_t *cond_lock,
mysql_cond_t *start_cond,
volatile uint *slave_running,
volatile ulong *slave_run_id,
Master_info* mi)
{
pthread_t th;
ulong start_id;
int error;
DBUG_ENTER("start_slave_thread");
DBUG_ASSERT(mi->inited);
if (start_lock)
mysql_mutex_lock(start_lock);
if (!global_system_variables.server_id)
{
if (start_cond)
mysql_cond_broadcast(start_cond);
if (start_lock)
mysql_mutex_unlock(start_lock);
sql_print_error("Server id not set, will not start slave");
DBUG_RETURN(ER_BAD_SLAVE);
}
if (*slave_running)
{
if (start_cond)
mysql_cond_broadcast(start_cond);
if (start_lock)
mysql_mutex_unlock(start_lock);
DBUG_RETURN(ER_SLAVE_MUST_STOP);
}
start_id= *slave_run_id;
DBUG_PRINT("info",("Creating new slave thread"));
if (unlikely((error= mysql_thread_create(thread_key,
&th, &connection_attrib, h_func,
(void*)mi))))
{
sql_print_error("Can't create slave thread (errno= %d).", error);
if (start_lock)
mysql_mutex_unlock(start_lock);
DBUG_RETURN(ER_SLAVE_THREAD);
}
/*
In the following loop we can't check for thd->killed as we have to
wait until THD structures for the slave thread are created
before we can return.
This should be ok as there is no major work done in the slave
threads before they signal that we can stop waiting.
*/
if (start_cond && cond_lock) // caller has cond_lock
{
THD* thd = current_thd;
while (start_id == *slave_run_id)
{
DBUG_PRINT("sleep",("Waiting for slave thread to start"));
PSI_stage_info saved_stage= {0, "", 0};
thd->ENTER_COND(start_cond, cond_lock,
& stage_waiting_for_slave_thread_to_start,
& saved_stage);
/*
It is not sufficient to test this at loop bottom. We must test
it after registering the mutex in enter_cond(). If the kill
happens after testing of thd->killed and before the mutex is
registered, we could otherwise go waiting though thd->killed is
set.
*/
mysql_cond_wait(start_cond, cond_lock);
thd->EXIT_COND(& saved_stage);
mysql_mutex_lock(cond_lock); // re-acquire it as exit_cond() released
}
}
if (start_lock)
mysql_mutex_unlock(start_lock);
DBUG_RETURN(0);
}
/*
start_slave_threads()
NOTES
SLAVE_FORCE_ALL is not implemented here on purpose since it does not make
sense to do that for starting a slave--we always care if it actually
started the threads that were not previously running
*/
int start_slave_threads(THD *thd,
bool need_slave_mutex, bool wait_for_start,
Master_info* mi, const char* master_info_fname,
const char* slave_info_fname, int thread_mask)
{
mysql_mutex_t *lock_io=0, *lock_sql=0, *lock_cond_io=0, *lock_cond_sql=0;
mysql_cond_t* cond_io=0, *cond_sql=0;
int error=0;
const char *errmsg;
DBUG_ENTER("start_slave_threads");
if (need_slave_mutex)
{
lock_io = &mi->run_lock;
lock_sql = &mi->rli.run_lock;
}
if (wait_for_start)
{
cond_io = &mi->start_cond;
cond_sql = &mi->rli.start_cond;
lock_cond_io = &mi->run_lock;
lock_cond_sql = &mi->rli.run_lock;
}
/*
If we are using GTID and both SQL and IO threads are stopped, then get
rid of all relay logs.
Relay logs are not very useful when using GTID, except as a buffer
between the fetch in the IO thread and the apply in SQL thread. However
while one of the threads is running, they are in use and cannot be
removed.
*/
if (mi->using_gtid != Master_info::USE_GTID_NO &&
!mi->slave_running && !mi->rli.slave_running)
{
/*
purge_relay_logs() clears the mi->rli.group_master_log_pos.
So save and restore them, like we do in CHANGE MASTER.
(We are not going to use them for GTID, but it might be worth to
keep them in case connection with GTID fails and user wants to go
back and continue with previous old-style replication coordinates).
*/
mi->master_log_pos = MY_MAX(BIN_LOG_HEADER_SIZE,
mi->rli.group_master_log_pos);
strmake(mi->master_log_name, mi->rli.group_master_log_name,
sizeof(mi->master_log_name)-1);
purge_relay_logs(&mi->rli, thd, 0, &errmsg);
mi->rli.group_master_log_pos= mi->master_log_pos;
strmake(mi->rli.group_master_log_name, mi->master_log_name,
sizeof(mi->rli.group_master_log_name)-1);
error= rpl_load_gtid_state(&mi->gtid_current_pos, mi->using_gtid ==
Master_info::USE_GTID_CURRENT_POS);
mi->events_queued_since_last_gtid= 0;
mi->gtid_reconnect_event_skip_count= 0;
mi->rli.restart_gtid_pos.reset();
}
if (likely(!error) && likely((thread_mask & SLAVE_IO)))
error= start_slave_thread(
#ifdef HAVE_PSI_INTERFACE
key_thread_slave_io,
#endif
handle_slave_io, lock_io, lock_cond_io,
cond_io,
&mi->slave_running, &mi->slave_run_id,
mi);
if (likely(!error) && likely(thread_mask & SLAVE_SQL))
{
error= start_slave_thread(
#ifdef HAVE_PSI_INTERFACE
key_thread_slave_sql,
#endif
handle_slave_sql, lock_sql, lock_cond_sql,
cond_sql,
&mi->rli.slave_running, &mi->rli.slave_run_id,
mi);
if (unlikely(error))
terminate_slave_threads(mi, thread_mask & SLAVE_IO, !need_slave_mutex);
}
DBUG_RETURN(error);
}
/*
Kill slaves preparing for shutdown
*/
void slave_prepare_for_shutdown()
{
mysql_mutex_lock(&LOCK_active_mi);
master_info_index->free_connections();
mysql_mutex_unlock(&LOCK_active_mi);
// It's safe to destruct worker pool now when
// all driver threads are gone.
global_rpl_thread_pool.deactivate();
}
/*
Release slave threads at time of executing shutdown.
*/
void end_slave()
{
DBUG_ENTER("end_slave");
/*
This is called when the server terminates, in close_connections().
It terminates slave threads. However, some CHANGE MASTER etc may still be
running presently. If a START SLAVE was in progress, the mutex lock below
will make us wait until slave threads have started, and START SLAVE
returns, then we terminate them here.
We can also be called by cleanup(), which only happens if some
startup parameter to the server was wrong.
*/
mysql_mutex_lock(&LOCK_active_mi);
/*
master_info_index should not have any threads anymore as they where
killed as part of slave_prepare_for_shutdown()
*/
delete master_info_index;
master_info_index= 0;
active_mi= 0;
mysql_mutex_unlock(&LOCK_active_mi);
global_rpl_thread_pool.destroy();
free_all_rpl_filters();
DBUG_VOID_RETURN;
}
static bool io_slave_killed(Master_info* mi)
{
DBUG_ENTER("io_slave_killed");
DBUG_ASSERT(mi->slave_running); // tracking buffer overrun
DBUG_RETURN(mi->abort_slave || mi->io_thd->killed);
}
/**
The function analyzes a possible killed status and makes
a decision whether to accept it or not.
Normally upon accepting the sql thread goes to shutdown.
In the event of deffering decision @rli->last_event_start_time waiting
timer is set to force the killed status be accepted upon its expiration.
@param thd pointer to a THD instance
@param rli pointer to Relay_log_info instance
@return TRUE the killed status is recognized, FALSE a possible killed
status is deferred.
*/
static bool sql_slave_killed(rpl_group_info *rgi)
{
bool ret= FALSE;
Relay_log_info *rli= rgi->rli;
THD *thd= rgi->thd;
DBUG_ENTER("sql_slave_killed");
DBUG_ASSERT(rli->sql_driver_thd == thd);
DBUG_ASSERT(rli->slave_running == 1);// tracking buffer overrun
if (rli->sql_driver_thd->killed || rli->abort_slave)
{
/*
The transaction should always be binlogged if OPTION_BINLOG_THIS_TRX is
set (it implies that something can not be rolled back). And such
case should be regarded similarly as modifing a
non-transactional table because retrying of the transaction will
lead to an error or inconsistency as well.
Example: OPTION_BINLOG_THIS_TRX is set if a temporary table is created
or dropped.
Note that transaction.all.modified_non_trans_table may be 1
if last statement was a single row transaction without begin/end.
Testing this flag must always be done in connection with
rli->is_in_group().
*/
if ((thd->transaction->all.modified_non_trans_table ||
(thd->variables.option_bits & OPTION_BINLOG_THIS_TRX)) &&
rli->is_in_group())
{
char msg_stopped[]=
"... Slave SQL Thread stopped with incomplete event group "
"having non-transactional changes. "
"If the group consists solely of row-based events, you can try "
"to restart the slave with --slave-exec-mode=IDEMPOTENT, which "
"ignores duplicate key, key not found, and similar errors (see "
"documentation for details).";
DBUG_PRINT("info", ("modified_non_trans_table: %d OPTION_BEGIN: %d "
"OPTION_BINLOG_THIS_TRX: %d is_in_group: %d",
thd->transaction->all.modified_non_trans_table,
MY_TEST(thd->variables.option_bits & OPTION_BEGIN),
MY_TEST(thd->variables.option_bits & OPTION_BINLOG_THIS_TRX),
rli->is_in_group()));
if (rli->abort_slave)
{
DBUG_PRINT("info",
("Request to stop slave SQL Thread received while "
"applying a group that has non-transactional "
"changes; waiting for completion of the group ... "));
/*
Slave sql thread shutdown in face of unfinished group
modified Non-trans table is handled via a timer. The slave
may eventually give out to complete the current group and in
that case there might be issues at consequent slave restart,
see the error message. WL#2975 offers a robust solution
requiring to store the last exectuted event's coordinates
along with the group's coordianates instead of waiting with
@c last_event_start_time the timer.
*/
if (rgi->last_event_start_time == 0)
rgi->last_event_start_time= my_time(0);
ret= difftime(my_time(0), rgi->last_event_start_time) <=
SLAVE_WAIT_GROUP_DONE ? FALSE : TRUE;
DBUG_EXECUTE_IF("stop_slave_middle_group",
DBUG_EXECUTE_IF("incomplete_group_in_relay_log",
ret= TRUE;);); // time is over
if (ret == 0)
{
rli->report(WARNING_LEVEL, 0, rgi->gtid_info(),
"Request to stop slave SQL Thread received while "
"applying a group that has non-transactional "
"changes; waiting for completion of the group ... ");
}
else
{
rli->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, rgi->gtid_info(),
ER_THD(thd, ER_SLAVE_FATAL_ERROR), msg_stopped);
}
}
else
{
ret= TRUE;
rli->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, rgi->gtid_info(),
ER_THD(thd, ER_SLAVE_FATAL_ERROR),
msg_stopped);
}
}
else
{
ret= TRUE;
}
}
if (ret)
rgi->last_event_start_time= 0;
DBUG_RETURN(ret);
}
/*
skip_load_data_infile()
NOTES
This is used to tell a 3.23 master to break send_file()
*/
void skip_load_data_infile(NET *net)
{
DBUG_ENTER("skip_load_data_infile");
(void)net_request_file(net, "/dev/null");
(void)my_net_read(net); // discard response
(void)net_write_command(net, 0, (uchar*) "", 0, (uchar*) "", 0); // ok
DBUG_VOID_RETURN;
}
bool net_request_file(NET* net, const char* fname)
{
DBUG_ENTER("net_request_file");
DBUG_RETURN(net_write_command(net, 251, (uchar*) fname, strlen(fname),
(uchar*) "", 0));
}
/*
From other comments and tests in code, it looks like
sometimes Query_log_event and Load_log_event can have db == 0
(see rewrite_db() above for example)
(cases where this happens are unclear; it may be when the master is 3.23).
*/
const char *print_slave_db_safe(const char* db)
{
DBUG_ENTER("*print_slave_db_safe");
DBUG_RETURN((db ? db : ""));
}
#endif /* HAVE_REPLICATION */
bool Sql_cmd_show_slave_status::execute(THD *thd)
{
#ifndef HAVE_REPLICATION
my_ok(thd);
return false;
#else
DBUG_ENTER("Sql_cmd_show_slave_status::execute");
bool res= true;
/* Accept one of two privileges */
if (check_global_access(thd, PRIV_STMT_SHOW_SLAVE_STATUS))
goto error;
if (is_show_all_slaves_stat())
{
mysql_mutex_lock(&LOCK_active_mi);
res= show_all_master_info(thd);
mysql_mutex_unlock(&LOCK_active_mi);
}
else
{
LEX_MASTER_INFO *lex_mi= &thd->lex->mi;
Master_info *mi;
if ((mi= get_master_info(&lex_mi->connection_name,
Sql_condition::WARN_LEVEL_ERROR)))
{
res= show_master_info(thd, mi, 0);
mi->release();
}
}
error:
DBUG_RETURN(res);
#endif
}
int init_strvar_from_file(char *var, int max_size, IO_CACHE *f,
const char *default_val)
{
size_t length;
DBUG_ENTER("init_strvar_from_file");
if ((length=my_b_gets(f,var, max_size)))
{
char* last_p = var + length -1;
if (*last_p == '\n')
*last_p = 0; // if we stopped on newline, kill it
else
{
/*
If we truncated a line or stopped on last char, remove all chars
up to and including newline.
*/
int c;
while (((c=my_b_get(f)) != '\n' && c != my_b_EOF)) ;
}
DBUG_RETURN(0);
}
else if (default_val)
{
strmake(var, default_val, max_size-1);
DBUG_RETURN(0);
}
DBUG_RETURN(1);
}
/*
when moving these functions to mysys, don't forget to
remove slave.cc from libmysqld/CMakeLists.txt
*/
int init_intvar_from_file(int* var, IO_CACHE* f, int default_val)
{
char buf[32];
DBUG_ENTER("init_intvar_from_file");
if (my_b_gets(f, buf, sizeof(buf)))
{
*var = atoi(buf);
DBUG_RETURN(0);
}
else if (default_val)
{
*var = default_val;
DBUG_RETURN(0);
}
DBUG_RETURN(1);
}
int init_floatvar_from_file(float* var, IO_CACHE* f, float default_val)
{
char buf[16];
DBUG_ENTER("init_floatvar_from_file");
if (my_b_gets(f, buf, sizeof(buf)))
{
if (sscanf(buf, "%f", var) != 1)
DBUG_RETURN(1);
else
DBUG_RETURN(0);
}
else if (default_val != 0.0)
{
*var = default_val;
DBUG_RETURN(0);
}
DBUG_RETURN(1);
}
/**
A master info read method
This function is called from @c init_master_info() along with
relatives to restore some of @c active_mi members.
Particularly, this function is responsible for restoring
IGNORE_SERVER_IDS list of servers whose events the slave is
going to ignore (to not log them in the relay log).
Items being read are supposed to be decimal output of values of a
type shorter or equal of @c long and separated by the single space.
It also used to restore DO_DOMAIN_IDS & IGNORE_DOMAIN_IDS lists.
@param arr @c DYNAMIC_ARRAY pointer to storage for servers id
@param f @c IO_CACHE pointer to the source file
@retval 0 All OK
@retval non-zero An error
*/
int init_dynarray_intvar_from_file(DYNAMIC_ARRAY* arr, IO_CACHE* f)
{
int ret= 0;
char buf[16 * (sizeof(long)*4 + 1)]; // static buffer to use most of times
char *buf_act= buf; // actual buffer can be dynamic if static is short
char *token, *last;
uint num_items; // number of items of `arr'
size_t read_size;
DBUG_ENTER("init_dynarray_intvar_from_file");
if ((read_size= my_b_gets(f, buf_act, sizeof(buf))) == 0)
{
DBUG_RETURN(0); // no line in master.info
}
if (read_size + 1 == sizeof(buf) && buf[sizeof(buf) - 2] != '\n')
{
/*
short read happend; allocate sufficient memory and make the 2nd read
*/
char buf_work[(sizeof(long)*3 + 1)*16];
memcpy(buf_work, buf, sizeof(buf_work));
num_items= atoi(strtok_r(buf_work, " ", &last));
size_t snd_size;
/*
max size lower bound approximate estimation bases on the formula:
(the items number + items themselves) *
(decimal size + space) - 1 + `\n' + '\0'
*/
size_t max_size= (1 + num_items) * (sizeof(long)*3 + 1) + 1;
buf_act= (char*) my_malloc(key_memory_Rpl_info_file_buffer, max_size,
MYF(MY_WME));
memcpy(buf_act, buf, read_size);
snd_size= my_b_gets(f, buf_act + read_size, max_size - read_size);
if (snd_size == 0 ||
((snd_size + 1 == max_size - read_size) && buf_act[max_size - 2] != '\n'))
{
/*
failure to make the 2nd read or short read again
*/
ret= 1;
goto err;
}
}
token= strtok_r(buf_act, " ", &last);
if (token == NULL)
{
ret= 1;
goto err;
}
num_items= atoi(token);
for (uint i=0; i < num_items; i++)
{
token= strtok_r(NULL, " ", &last);
if (token == NULL)
{
ret= 1;
goto err;
}
else
{
ulong val= atol(token);
insert_dynamic(arr, (uchar *) &val);
}
}
err:
if (buf_act != buf)
my_free(buf_act);
DBUG_RETURN(ret);
}
#ifdef HAVE_REPLICATION
/*
Check if the error is caused by network.
@param[in] errorno Number of the error.
RETURNS:
TRUE network error
FALSE not network error
*/
bool is_network_error(uint errorno)
{
if (errorno == CR_CONNECTION_ERROR ||
errorno == CR_CONN_HOST_ERROR ||
errorno == CR_SERVER_GONE_ERROR ||
errorno == CR_SERVER_LOST ||
errorno == ER_CON_COUNT_ERROR ||
errorno == ER_CONNECTION_KILLED ||
errorno == ER_NEW_ABORTING_CONNECTION ||
errorno == ER_NET_READ_INTERRUPTED ||
errorno == ER_SERVER_SHUTDOWN)
return TRUE;
#ifdef WITH_WSREP
if (errorno == ER_UNKNOWN_COM_ERROR)
return TRUE;
#endif
return FALSE;
}
/*
Note that we rely on the master's version (3.23, 4.0.14 etc) instead of
relying on the binlog's version. This is not perfect: imagine an upgrade
of the master without waiting that all slaves are in sync with the master;
then a slave could be fooled about the binlog's format. This is what happens
when people upgrade a 3.23 master to 4.0 without doing RESET MASTER: 4.0
slaves are fooled. So we do this only to distinguish between 3.23 and more
recent masters (it's too late to change things for 3.23).
RETURNS
0 ok
1 error
2 transient network problem, the caller should try to reconnect
*/
static int get_master_version_and_clock(MYSQL* mysql, Master_info* mi)
{
char err_buff[MAX_SLAVE_ERRMSG], err_buff2[MAX_SLAVE_ERRMSG];
const char* errmsg= 0;
int err_code= 0;
MYSQL_RES *master_res= 0;
MYSQL_ROW master_row;
uint version= mysql_get_server_version(mysql) / 10000;
DBUG_ENTER("get_master_version_and_clock");
/*
Free old description_event_for_queue (that is needed if we are in
a reconnection).
*/
delete mi->rli.relay_log.description_event_for_queue;
mi->rli.relay_log.description_event_for_queue= 0;
if (!my_isdigit(&my_charset_bin,*mysql->server_version))
{
errmsg= err_buff2;
snprintf(err_buff2, sizeof(err_buff2),
"Master reported unrecognized MariaDB version: %s",
mysql->server_version);
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), err_buff2);
}
else
{
DBUG_EXECUTE_IF("mock_mariadb_primary_v5_in_get_master_version",
version= 5;);
/*
Note the following switch will bug when we have MySQL branch 30 ;)
*/
switch (version) {
case 0:
case 1:
case 2:
errmsg= err_buff2;
snprintf(err_buff2, sizeof(err_buff2),
"Master reported unrecognized MariaDB version: %s",
mysql->server_version);
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), err_buff2);
break;
case 3:
mi->rli.relay_log.description_event_for_queue= new
Format_description_log_event(1, mysql->server_version);
break;
case 4:
mi->rli.relay_log.description_event_for_queue= new
Format_description_log_event(3, mysql->server_version);
break;
default:
/*
Master is MySQL >=5.0. Give a default Format_desc event, so that we can
take the early steps (like tests for "is this a 3.23 master") which we
have to take before we receive the real master's Format_desc which will
override this one. Note that the Format_desc we create below is garbage
(it has the format of the *slave*); it's only good to help know if the
master is 3.23, 4.0, etc.
*/
mi->rli.relay_log.description_event_for_queue= new
Format_description_log_event(4, mysql->server_version);
break;
}
}
/*
This does not mean that a 5.0 slave will be able to read a 6.0 master; but
as we don't know yet, we don't want to forbid this for now. If a 5.0 slave
can't read a 6.0 master, this will show up when the slave can't read some
events sent by the master, and there will be error messages.
*/
if (errmsg)
goto err;
/* as we are here, we tried to allocate the event */
if (!mi->rli.relay_log.description_event_for_queue)
{
errmsg= "default Format_description_log_event";
err_code= ER_SLAVE_CREATE_EVENT_FAILURE;
sprintf(err_buff, ER_DEFAULT(err_code), errmsg);
goto err;
}
/*
FD_q's (A) is set initially from RL's (A): FD_q.(A) := RL.(A).
It's necessary to adjust FD_q.(A) at this point because in the following
course FD_q is going to be dumped to RL.
Generally FD_q is derived from a received FD_m (roughly FD_q := FD_m)
in queue_event and the master's (A) is installed.
At one step with the assignment the Relay-Log's checksum alg is set to
a new value: RL.(A) := FD_q.(A). If the slave service is stopped
the last time assigned RL.(A) will be passed over to the restarting
service (to the current execution point).
RL.A is a "codec" to verify checksum in queue_event() almost all the time
the first fake Rotate event.
Starting from this point IO thread will executes the following checksum
warmup sequence of actions:
FD_q.A := RL.A,
A_m^0 := master.@@global.binlog_checksum,
{queue_event(R_f): verifies(R_f, A_m^0)},
{queue_event(FD_m): verifies(FD_m, FD_m.A), dump(FD_q), rotate(RL),
FD_q := FD_m, RL.A := FD_q.A)}
See legends definition on MYSQL_BIN_LOG::relay_log_checksum_alg
docs lines (binlog.h).
In above A_m^0 - the value of master's
@@binlog_checksum determined in the upcoming handshake (stored in
mi->checksum_alg_before_fd).
After the warm-up sequence IO gets to "normal" checksum verification mode
to use RL.A in
{queue_event(E_m): verifies(E_m, RL.A)}
until it has received a new FD_m.
*/
mi->rli.relay_log.description_event_for_queue->checksum_alg=
mi->rli.relay_log.relay_log_checksum_alg;
DBUG_ASSERT(mi->rli.relay_log.description_event_for_queue->checksum_alg !=
BINLOG_CHECKSUM_ALG_UNDEF);
DBUG_ASSERT(mi->rli.relay_log.relay_log_checksum_alg !=
BINLOG_CHECKSUM_ALG_UNDEF);
/*
Compare the master and slave's clock. Do not die if master's clock is
unavailable (very old master not supporting UNIX_TIMESTAMP()?).
*/
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF("dbug.before_get_UNIX_TIMESTAMP",
{
const char act[]=
"now "
"wait_for signal.get_unix_timestamp";
DBUG_ASSERT(debug_sync_service);
DBUG_ASSERT(!debug_sync_set_action(current_thd,
STRING_WITH_LEN(act)));
};);
#endif
master_res= NULL;
if (!mysql_real_query(mysql, STRING_WITH_LEN("SELECT UNIX_TIMESTAMP()")) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)))
{
mysql_mutex_lock(&mi->data_lock);
mi->clock_diff_with_master=
(DBUG_IF("negate_clock_diff_with_master") ?
0:
(long) (time((time_t *) 0) - strtoul(master_row[0], 0, 10)));
mysql_mutex_unlock(&mi->data_lock);
}
else if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Get master clock failed with error: %s", mysql_error(mysql));
goto network_err;
}
else
{
mysql_mutex_lock(&mi->data_lock);
mi->clock_diff_with_master= 0; /* The "most sensible" value */
mysql_mutex_unlock(&mi->data_lock);
sql_print_warning("\"SELECT UNIX_TIMESTAMP()\" failed on master, "
"do not trust column Seconds_Behind_Master of SHOW "
"SLAVE STATUS. Error: %s (%d)",
mysql_error(mysql), mysql_errno(mysql));
}
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
/*
Check that the master's server id and ours are different. Because if they
are equal (which can result from a simple copy of master's datadir to slave,
thus copying some my.cnf), replication will work but all events will be
skipped.
Do not die if SHOW VARIABLES LIKE 'SERVER_ID' fails on master (very old
master?).
Note: we could have put a @@SERVER_ID in the previous SELECT
UNIX_TIMESTAMP() instead, but this would not have worked on 3.23 masters.
*/
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF("dbug.before_get_SERVER_ID",
{
const char act[]=
"now "
"wait_for signal.get_server_id";
DBUG_ASSERT(debug_sync_service);
DBUG_ASSERT(!debug_sync_set_action(current_thd,
STRING_WITH_LEN(act)));
};);
#endif
master_res= NULL;
master_row= NULL;
if (!mysql_real_query(mysql,
STRING_WITH_LEN("SHOW VARIABLES LIKE 'SERVER_ID'")) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)))
{
if ((global_system_variables.server_id ==
(mi->master_id= strtoul(master_row[1], 0, 10))) &&
!mi->rli.replicate_same_server_id)
{
errmsg= "The slave I/O thread stops because master and slave have equal \
MariaDB server ids; these ids must be different for replication to work (or \
the --replicate-same-server-id option must be used on slave but this does \
not always make sense; please check the manual before using it).";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), errmsg);
goto err;
}
}
else if (mysql_errno(mysql))
{
if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Get master SERVER_ID failed with error: %s", mysql_error(mysql));
goto network_err;
}
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is encountered \
when it try to get the value of SERVER_ID variable from master.";
err_code= mysql_errno(mysql);
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
else if (!master_row && master_res)
{
mi->report(WARNING_LEVEL, ER_UNKNOWN_SYSTEM_VARIABLE, NULL,
"Unknown system variable 'SERVER_ID' on master, \
maybe it is a *VERY OLD MASTER*.");
}
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
if (mi->master_id == 0 && mi->ignore_server_ids.elements > 0)
{
errmsg= "Slave configured with server id filtering could not detect the master server id.";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), errmsg);
goto err;
}
/*
Check that the master's global character_set_server and ours are the same.
Not fatal if query fails (old master?).
Note that we don't check for equality of global character_set_client and
collation_connection (neither do we prevent their setting in
set_var.cc). That's because from what I (Guilhem) have tested, the global
values of these 2 are never used (new connections don't use them).
We don't test equality of global collation_database either as it's is
going to be deprecated (made read-only) in 4.1 very soon.
The test is only relevant if master < 5.0.3 (we'll test only if it's older
than the 5 branch; < 5.0.3 was alpha...), as >= 5.0.3 master stores
charset info in each binlog event.
We don't do it for 3.23 because masters <3.23.50 hang on
SELECT @@unknown_var (BUG#7965 - see changelog of 3.23.50). So finally we
test only if master is 4.x.
*/
/* redundant with rest of code but safer against later additions */
if (version == 3)
goto err;
if (version == 4)
{
master_res= NULL;
if (!mysql_real_query(mysql,
STRING_WITH_LEN("SELECT @@GLOBAL.COLLATION_SERVER")) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)))
{
if (strcmp(master_row[0],
global_system_variables.collation_server->coll_name.str))
{
errmsg= "The slave I/O thread stops because master and slave have \
different values for the COLLATION_SERVER global variable. The values must \
be equal for the Statement-format replication to work";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), errmsg);
goto err;
}
}
else if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Get master COLLATION_SERVER failed with error: %s", mysql_error(mysql));
goto network_err;
}
else if (mysql_errno(mysql) != ER_UNKNOWN_SYSTEM_VARIABLE)
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is encountered \
when it try to get the value of COLLATION_SERVER global variable from master.";
err_code= mysql_errno(mysql);
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
else
mi->report(WARNING_LEVEL, ER_UNKNOWN_SYSTEM_VARIABLE, NULL,
"Unknown system variable 'COLLATION_SERVER' on master, \
maybe it is a *VERY OLD MASTER*. *NOTE*: slave may experience \
inconsistency if replicated data deals with collation.");
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
}
/*
Perform analogous check for time zone. Theoretically we also should
perform check here to verify that SYSTEM time zones are the same on
slave and master, but we can't rely on value of @@system_time_zone
variable (it is time zone abbreviation) since it determined at start
time and so could differ for slave and master even if they are really
in the same system time zone. So we are omiting this check and just
relying on documentation. Also according to Monty there are many users
who are using replication between servers in various time zones. Hence
such check will broke everything for them. (And now everything will
work for them because by default both their master and slave will have
'SYSTEM' time zone).
This check is only necessary for 4.x masters (and < 5.0.4 masters but
those were alpha).
*/
if (version == 4)
{
master_res= NULL;
if (!mysql_real_query(mysql, STRING_WITH_LEN("SELECT @@GLOBAL.TIME_ZONE")) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)))
{
if (strcmp(master_row[0],
global_system_variables.time_zone->get_name()->ptr()))
{
errmsg= "The slave I/O thread stops because master and slave have \
different values for the TIME_ZONE global variable. The values must \
be equal for the Statement-format replication to work";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, ER_DEFAULT(err_code), errmsg);
goto err;
}
}
else if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(err_code= mysql_errno(mysql)))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Get master TIME_ZONE failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else if (err_code == ER_UNKNOWN_SYSTEM_VARIABLE)
{
/* We use ERROR_LEVEL to get the error logged to file */
mi->report(ERROR_LEVEL, err_code, NULL,
"MariaDB master doesn't have a TIME_ZONE variable. Note that"
"if your timezone is not same between master and slave, your "
"slave may get wrong data into timestamp columns");
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is encountered \
when it try to get the value of TIME_ZONE global variable from master.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
}
if (mi->heartbeat_period != 0.0)
{
const char query_format[]= "SET @master_heartbeat_period= %llu";
char query[sizeof(query_format) + 32];
/*
the period is an ulonglong of nano-secs.
*/
my_snprintf(query, sizeof(query), query_format,
(ulonglong) (mi->heartbeat_period*1000000000UL));
DBUG_EXECUTE_IF("simulate_slave_heartbeat_network_error",
{ static ulong dbug_count= 0;
if (++dbug_count < 3)
goto heartbeat_network_error;
});
if (mysql_real_query(mysql, query, (ulong)strlen(query)))
{
if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
if (is_network_error(mysql_errno(mysql)))
{
IF_DBUG(heartbeat_network_error: , )
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"SET @master_heartbeat_period to master failed with error: %s",
mysql_error(mysql));
mysql_free_result(mysql_store_result(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is encountered "
"when it tries to SET @master_heartbeat_period on master.";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
mysql_free_result(mysql_store_result(mysql));
goto err;
}
}
mysql_free_result(mysql_store_result(mysql));
}
/*
Querying if master is capable to checksum and notifying it about own
CRC-awareness. The master's side instant value of @@global.binlog_checksum
is stored in the dump thread's uservar area as well as cached locally
to become known in consensus by master and slave.
*/
DBUG_EXECUTE_IF("simulate_slave_unaware_checksum",
mi->checksum_alg_before_fd= BINLOG_CHECKSUM_ALG_OFF;
goto past_checksum;);
{
int rc;
const char query[]= "SET @master_binlog_checksum= @@global.binlog_checksum";
master_res= NULL;
mi->checksum_alg_before_fd= BINLOG_CHECKSUM_ALG_UNDEF; //initially undefined
/*
@c checksum_alg_before_fd is queried from master in this block.
If master is old checksum-unaware the value stays undefined.
Once the first FD will be received its alg descriptor will replace
the being queried one.
*/
rc= mysql_real_query(mysql, query,(ulong)strlen(query));
if (rc != 0)
{
if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
if (mysql_errno(mysql) == ER_UNKNOWN_SYSTEM_VARIABLE)
{
/* Ignore this expected error if not a high error level */
if (global_system_variables.log_warnings > 1)
{
// this is tolerable as OM -> NS is supported
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Notifying master by %s failed with "
"error: %s", query, mysql_error(mysql));
}
}
else
{
if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Notifying master by %s failed with "
"error: %s", query, mysql_error(mysql));
mysql_free_result(mysql_store_result(mysql));
goto network_err;
}
else
{
errmsg= "The slave I/O thread stops because a fatal error is encountered "
"when it tried to SET @master_binlog_checksum on master.";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
mysql_free_result(mysql_store_result(mysql));
goto err;
}
}
}
else
{
mysql_free_result(mysql_store_result(mysql));
if (!mysql_real_query(mysql,
STRING_WITH_LEN("SELECT @master_binlog_checksum")) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)) &&
(master_row[0] != NULL))
{
mi->checksum_alg_before_fd= (enum_binlog_checksum_alg)
(find_type(master_row[0], &binlog_checksum_typelib, 1) - 1);
// valid outcome is either of
DBUG_ASSERT(mi->checksum_alg_before_fd == BINLOG_CHECKSUM_ALG_OFF ||
mi->checksum_alg_before_fd == BINLOG_CHECKSUM_ALG_CRC32);
}
else if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Get master BINLOG_CHECKSUM failed with error: %s", mysql_error(mysql));
goto network_err;
}
else
{
errmsg= "The slave I/O thread stops because a fatal error is encountered "
"when it tried to SELECT @master_binlog_checksum.";
err_code= ER_SLAVE_FATAL_ERROR;
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
mysql_free_result(mysql_store_result(mysql));
goto err;
}
}
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
}
#ifndef DBUG_OFF
past_checksum:
#endif
/*
Request the master to filter away events with the @@skip_replication flag
set, if we are running with
--replicate-events-marked-for-skip=FILTER_ON_MASTER.
*/
if (opt_replicate_events_marked_for_skip == RPL_SKIP_FILTER_ON_MASTER)
{
if (unlikely(mysql_real_query(mysql,
STRING_WITH_LEN("SET skip_replication=1"))))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting master-side filtering of @@skip_replication failed "
"with error: %s", mysql_error(mysql));
goto network_err;
}
else if (err_code == ER_UNKNOWN_SYSTEM_VARIABLE)
{
/*
The master is older than the slave and does not support the
@@skip_replication feature.
This is not a problem, as such master will not generate events with
the @@skip_replication flag set in the first place. We will still
do slave-side filtering of such events though, to handle the (rare)
case of downgrading a master and receiving old events generated from
before the downgrade with the @@skip_replication flag set.
*/
DBUG_PRINT("info", ("Old master does not support master-side filtering "
"of @@skip_replication events."));
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to request filtering of events marked "
"with the @@skip_replication flag.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
}
/* Announce MariaDB slave capabilities. */
DBUG_EXECUTE_IF("simulate_slave_capability_none", goto after_set_capability;);
{
int rc= DBUG_IF("simulate_slave_capability_old_53") ?
mysql_real_query(mysql, STRING_WITH_LEN("SET @mariadb_slave_capability="
STRINGIFY_ARG(MARIA_SLAVE_CAPABILITY_ANNOTATE))) :
mysql_real_query(mysql, STRING_WITH_LEN("SET @mariadb_slave_capability="
STRINGIFY_ARG(MARIA_SLAVE_CAPABILITY_MINE)));
if (unlikely(rc))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting @mariadb_slave_capability failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to set @mariadb_slave_capability.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
}
#ifndef DBUG_OFF
after_set_capability:
#endif
if (!(mi->master_supports_gtid= version >= 10))
{
sql_print_information(
"Slave I/O thread: Falling back to Using_Gtid=No because "
"master does not support GTIDs");
mi->using_gtid= Master_info::USE_GTID_NO;
}
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
/* Request dump to start from slave replication GTID state. */
int rc;
char str_buf[256];
String query_str(str_buf, sizeof(str_buf), system_charset_info);
query_str.length(0);
/*
Read the master @@GLOBAL.gtid_domain_id variable.
This is mostly to check that master is GTID aware, but we could later
perhaps use it to check that different multi-source masters are correctly
configured with distinct domain_id.
*/
if (mysql_real_query(mysql,
STRING_WITH_LEN("SELECT @@GLOBAL.gtid_domain_id")) ||
!(master_res= mysql_store_result(mysql)) ||
!(master_row= mysql_fetch_row(master_res)))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Get master @@GLOBAL.gtid_domain_id failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else
{
errmsg= "The slave I/O thread stops because master does not support "
"MariaDB global transaction id. A fatal error is encountered when "
"it tries to SELECT @@GLOBAL.gtid_domain_id.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
mysql_free_result(master_res);
master_res= NULL;
query_str.append(STRING_WITH_LEN("SET @slave_connect_state='"),
system_charset_info);
if (mi->gtid_current_pos.append_to_string(&query_str))
{
err_code= ER_OUTOFMEMORY;
errmsg= "The slave I/O thread stops because a fatal out-of-memory "
"error is encountered when it tries to compute @slave_connect_state.";
sprintf(err_buff, "%s Error: Out of memory", errmsg);
goto err;
}
query_str.append(STRING_WITH_LEN("'"), system_charset_info);
rc= mysql_real_query(mysql, query_str.ptr(), query_str.length());
if (unlikely(rc))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting @slave_connect_state failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to set @slave_connect_state.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
query_str.length(0);
if (query_str.append(STRING_WITH_LEN("SET @slave_gtid_strict_mode="),
system_charset_info) ||
query_str.append_ulonglong(opt_gtid_strict_mode != false))
{
err_code= ER_OUTOFMEMORY;
errmsg= "The slave I/O thread stops because a fatal out-of-memory "
"error is encountered when it tries to set @slave_gtid_strict_mode.";
sprintf(err_buff, "%s Error: Out of memory", errmsg);
goto err;
}
rc= mysql_real_query(mysql, query_str.ptr(), query_str.length());
if (unlikely(rc))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting @slave_gtid_strict_mode failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to set @slave_gtid_strict_mode.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
query_str.length(0);
if (query_str.append(STRING_WITH_LEN("SET @slave_gtid_ignore_duplicates="),
system_charset_info) ||
query_str.append_ulonglong(opt_gtid_ignore_duplicates != false))
{
err_code= ER_OUTOFMEMORY;
errmsg= "The slave I/O thread stops because a fatal out-of-memory error "
"is encountered when it tries to set @slave_gtid_ignore_duplicates.";
sprintf(err_buff, "%s Error: Out of memory", errmsg);
goto err;
}
rc= mysql_real_query(mysql, query_str.ptr(), query_str.length());
if (unlikely(rc))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting @slave_gtid_ignore_duplicates failed with "
"error: %s", mysql_error(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to set @slave_gtid_ignore_duplicates.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
if (mi->rli.until_condition == Relay_log_info::UNTIL_GTID)
{
query_str.length(0);
query_str.append(STRING_WITH_LEN("SET @slave_until_gtid='"),
system_charset_info);
if (mi->rli.until_gtid_pos.append_to_string(&query_str))
{
err_code= ER_OUTOFMEMORY;
errmsg= "The slave I/O thread stops because a fatal out-of-memory "
"error is encountered when it tries to compute @slave_until_gtid.";
sprintf(err_buff, "%s Error: Out of memory", errmsg);
goto err;
}
query_str.append(STRING_WITH_LEN("'"), system_charset_info);
rc= mysql_real_query(mysql, query_str.ptr(), query_str.length());
if (unlikely(rc))
{
err_code= mysql_errno(mysql);
if (is_network_error(err_code))
{
mi->report(ERROR_LEVEL, err_code, NULL,
"Setting @slave_until_gtid failed with error: %s",
mysql_error(mysql));
goto network_err;
}
else
{
/* Fatal error */
errmsg= "The slave I/O thread stops because a fatal error is "
"encountered when it tries to set @slave_until_gtid.";
sprintf(err_buff, "%s Error: %s", errmsg, mysql_error(mysql));
goto err;
}
}
}
}
else
{
/*
If we are not using GTID to connect this time, then instead request
the corresponding GTID position from the master, so that the user
can reconnect the next time using MASTER_GTID_POS=AUTO.
*/
char quote_buf[2*sizeof(mi->master_log_name)+1];
char str_buf[28+2*sizeof(mi->master_log_name)+10];
String query(str_buf, sizeof(str_buf), system_charset_info);
size_t quote_length;
my_bool overflow;
query.length(0);
query.append(STRING_WITH_LEN("SELECT binlog_gtid_pos('"));
quote_length= escape_quotes_for_mysql(&my_charset_bin, quote_buf,
sizeof(quote_buf),
mi->master_log_name,
strlen(mi->master_log_name),
&overflow);
query.append(quote_buf, quote_length);
query.append(STRING_WITH_LEN("',"));
query.append_ulonglong(mi->master_log_pos);
query.append(')');
if (!mysql_real_query(mysql, query.c_ptr_safe(), query.length()) &&
(master_res= mysql_store_result(mysql)) &&
(master_row= mysql_fetch_row(master_res)) &&
(master_row[0] != NULL))
{
rpl_global_gtid_slave_state->load(mi->io_thd, master_row[0],
strlen(master_row[0]), false, false);
}
else if (check_io_slave_killed(mi, NULL))
goto slave_killed_err;
else if (is_network_error(mysql_errno(mysql)))
{
mi->report(WARNING_LEVEL, mysql_errno(mysql), NULL,
"Get master GTID position failed with error: %s", mysql_error(mysql));
goto network_err;
}
else
{
/*
ToDo: If the master does not have the binlog_gtid_pos() function, it
just means that it is an old master with no GTID support, so we should
do nothing.
However, if binlog_gtid_pos() exists, but fails or returns NULL, then
it means that the requested position is not valid. We could use this
to catch attempts to replicate from within the middle of an event,
avoiding strange failures or possible corruption.
*/
}
if (master_res)
{
mysql_free_result(master_res);
master_res= NULL;
}
}
err:
if (errmsg)
{
if (master_res)
mysql_free_result(master_res);
DBUG_ASSERT(err_code != 0);
mi->report(ERROR_LEVEL, err_code, NULL, "%s", err_buff);
DBUG_RETURN(1);
}
DBUG_RETURN(0);
network_err:
if (master_res)
mysql_free_result(master_res);
DBUG_RETURN(2);
slave_killed_err:
if (master_res)
mysql_free_result(master_res);
DBUG_RETURN(2);
}
static bool wait_for_relay_log_space(Relay_log_info* rli)
{
bool slave_killed=0;
bool ignore_log_space_limit;
Master_info* mi = rli->mi;
PSI_stage_info old_stage;
THD* thd = mi->io_thd;
DBUG_ENTER("wait_for_relay_log_space");
mysql_mutex_lock(&rli->log_space_lock);
thd->ENTER_COND(&rli->log_space_cond,
&rli->log_space_lock,
&stage_waiting_for_relay_log_space,
&old_stage);
while (rli->log_space_limit < rli->log_space_total &&
!(slave_killed=io_slave_killed(mi)) &&
!rli->ignore_log_space_limit)
mysql_cond_wait(&rli->log_space_cond, &rli->log_space_lock);
ignore_log_space_limit= rli->ignore_log_space_limit;
rli->ignore_log_space_limit= 0;
thd->EXIT_COND(&old_stage);
/*
Makes the IO thread read only one event at a time
until the SQL thread is able to purge the relay
logs, freeing some space.
Therefore, once the SQL thread processes this next
event, it goes to sleep (no more events in the queue),
sets ignore_log_space_limit=true and wakes the IO thread.
However, this event may have been enough already for
the SQL thread to purge some log files, freeing
rli->log_space_total .
This guarantees that the SQL and IO thread move
forward only one event at a time (to avoid deadlocks),
when the relay space limit is reached. It also
guarantees that when the SQL thread is prepared to
rotate (to be able to purge some logs), the IO thread
will know about it and will rotate.
NOTE: The ignore_log_space_limit is only set when the SQL
thread sleeps waiting for events.
*/
if (ignore_log_space_limit)
{
#ifndef DBUG_OFF
{
DBUG_PRINT("info", ("log_space_limit=%llu log_space_total=%llu "
"ignore_log_space_limit=%d "
"sql_force_rotate_relay=%d",
rli->log_space_limit, uint64(rli->log_space_total),
(int) rli->ignore_log_space_limit,
(int) rli->sql_force_rotate_relay));
}
#endif
if (rli->sql_force_rotate_relay)
{
mysql_mutex_lock(&mi->data_lock);
rotate_relay_log(rli->mi);
mysql_mutex_unlock(&mi->data_lock);
rli->sql_force_rotate_relay= false;
}
}
DBUG_RETURN(slave_killed);
}
/*
Builds a Rotate from the ignored events' info and writes it to relay log.
SYNOPSIS
write_ignored_events_info_to_relay_log()
thd pointer to I/O thread's thd
mi
DESCRIPTION
Slave I/O thread, going to die, must leave a durable trace of the
ignored events' end position for the use of the slave SQL thread, by
calling this function. Only that thread can call it (see assertion).
*/
static void write_ignored_events_info_to_relay_log(THD *thd, Master_info *mi)
{
Relay_log_info *rli= &mi->rli;
mysql_mutex_t *log_lock= rli->relay_log.get_log_lock();
DBUG_ENTER("write_ignored_events_info_to_relay_log");
DBUG_ASSERT(thd == mi->io_thd);
mysql_mutex_lock(log_lock);
if (rli->ign_master_log_name_end[0] || rli->ign_gtids.count())
{
Rotate_log_event *rev= NULL;
Gtid_list_log_event *glev= NULL;
if (rli->ign_master_log_name_end[0])
{
rev= new Rotate_log_event(rli->ign_master_log_name_end,
0, rli->ign_master_log_pos_end,
Rotate_log_event::DUP_NAME);
rli->ign_master_log_name_end[0]= 0;
if (unlikely(!(bool)rev))
mi->report(ERROR_LEVEL, ER_SLAVE_CREATE_EVENT_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_CREATE_EVENT_FAILURE),
"Rotate_event (out of memory?),"
" SHOW SLAVE STATUS may be inaccurate");
}
if (rli->ign_gtids.count())
{
DBUG_ASSERT(!rli->is_in_group()); // Ensure no active transaction
glev= new Gtid_list_log_event(&rli->ign_gtids,
Gtid_list_log_event::FLAG_IGN_GTIDS);
rli->ign_gtids.reset();
if (unlikely(!(bool)glev))
mi->report(ERROR_LEVEL, ER_SLAVE_CREATE_EVENT_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_CREATE_EVENT_FAILURE),
"Gtid_list_event (out of memory?),"
" gtid_slave_pos may be inaccurate");
}
/* Can unlock before writing as slave SQL thd will soon see our event. */
mysql_mutex_unlock(log_lock);
if (rev)
{
DBUG_PRINT("info",("writing a Rotate event to track down ignored events"));
rev->server_id= 0; // don't be ignored by slave SQL thread
if (unlikely(rli->relay_log.append(rev)))
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"failed to write a Rotate event"
" to the relay log, SHOW SLAVE STATUS may be"
" inaccurate");
delete rev;
}
if (glev)
{
DBUG_PRINT("info",("writing a Gtid_list event to track down ignored events"));
glev->server_id= 0; // don't be ignored by slave SQL thread
glev->set_artificial_event(); // Don't mess up Exec_Master_Log_Pos
if (unlikely(rli->relay_log.append(glev)))
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"failed to write a Gtid_list event to the relay log, "
"gtid_slave_pos may be inaccurate");
delete glev;
}
if (likely (rev || glev))
{
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
if (flush_master_info(mi, TRUE, TRUE))
sql_print_error("Failed to flush master info file");
}
}
else
mysql_mutex_unlock(log_lock);
DBUG_VOID_RETURN;
}
int register_slave_on_master(MYSQL* mysql, Master_info *mi,
bool *suppress_warnings)
{
uchar buf[1024], *pos= buf;
size_t report_host_len=0, report_user_len=0, report_password_len=0;
DBUG_ENTER("register_slave_on_master");
*suppress_warnings= FALSE;
if (report_host)
report_host_len= strlen(report_host);
if (report_host_len > HOSTNAME_LENGTH)
{
sql_print_warning("The length of report_host is %zu. "
"It is larger than the max length(%d), so this "
"slave cannot be registered to the master.",
report_host_len, HOSTNAME_LENGTH);
DBUG_RETURN(0);
}
if (report_user)
report_user_len= strlen(report_user);
if (report_user_len > USERNAME_LENGTH)
{
sql_print_warning("The length of report_user is %zu. "
"It is larger than the max length(%d), so this "
"slave cannot be registered to the master.",
report_user_len, USERNAME_LENGTH);
DBUG_RETURN(0);
}
if (report_password)
report_password_len= strlen(report_password);
if (report_password_len > MAX_PASSWORD_LENGTH)
{
sql_print_warning("The length of report_password is %zu. "
"It is larger than the max length(%d), so this "
"slave cannot be registered to the master.",
report_password_len, MAX_PASSWORD_LENGTH);
DBUG_RETURN(0);
}
int4store(pos, global_system_variables.server_id); pos+= 4;
pos= net_store_data(pos, (uchar*) report_host, report_host_len);
pos= net_store_data(pos, (uchar*) report_user, report_user_len);
pos= net_store_data(pos, (uchar*) report_password, report_password_len);
int2store(pos, (uint16) report_port); pos+= 2;
/*
Fake rpl_recovery_rank, which was removed in BUG#13963,
so that this server can register itself on old servers,
see BUG#49259.
*/
int4store(pos, /* rpl_recovery_rank */ 0); pos+= 4;
/* The master will fill in master_id */
int4store(pos, 0); pos+= 4;
if (simple_command(mysql, COM_REGISTER_SLAVE, buf, (ulong) (pos- buf), 0))
{
if (mysql_errno(mysql) == ER_NET_READ_INTERRUPTED)
{
*suppress_warnings= TRUE; // Suppress reconnect warning
}
else if (!check_io_slave_killed(mi, NULL))
{
char buf[256];
my_snprintf(buf, sizeof(buf), "%s (Errno: %d)", mysql_error(mysql),
mysql_errno(mysql));
mi->report(ERROR_LEVEL, ER_SLAVE_MASTER_COM_FAILURE, NULL,
ER(ER_SLAVE_MASTER_COM_FAILURE), "COM_REGISTER_SLAVE", buf);
}
DBUG_RETURN(1);
}
DBUG_RETURN(0);
}
/**
Execute a SHOW SLAVE STATUS statement.
@param thd Pointer to THD object for the client thread executing the
statement.
@param mi Pointer to Master_info object for the IO thread.
@retval FALSE success
@retval TRUE failure
*/
bool show_master_info(THD *thd, Master_info *mi, bool full)
{
DBUG_ENTER("show_master_info");
String gtid_pos;
List<Item> field_list;
if (full && rpl_global_gtid_slave_state->tostring(>id_pos, NULL, 0))
DBUG_RETURN(TRUE);
show_master_info_get_fields(thd, &field_list, full, gtid_pos.length());
if (thd->protocol->send_result_set_metadata(&field_list,
Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF))
DBUG_RETURN(TRUE);
if (send_show_master_info_data(thd, mi, full, >id_pos))
DBUG_RETURN(TRUE);
my_eof(thd);
DBUG_RETURN(FALSE);
}
void show_master_info_get_fields(THD *thd, List<Item> *field_list,
bool full, size_t gtid_pos_length)
{
Master_info *mi;
MEM_ROOT *mem_root= thd->mem_root;
DBUG_ENTER("show_master_info_get_fields");
if (full)
{
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Connection_name",
MAX_CONNECTION_NAME),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Slave_SQL_State", 30),
mem_root);
}
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Slave_IO_State", 30),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_Host", sizeof(mi->host)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_User", sizeof(mi->user)),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Master_Port", 7, MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Connect_Retry", 10,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_Log_File", FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Read_Master_Log_Pos", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Relay_Log_File", FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Relay_Log_Pos", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Relay_Master_Log_File",
FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Slave_IO_Running", 3),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Slave_SQL_Running", 3),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Rewrite_DB", 23),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Do_DB", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Ignore_DB", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Do_Table", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Ignore_Table", 23),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Wild_Do_Table", 24),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Wild_Ignore_Table",
28),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Last_Errno", 4, MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Last_Error", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Skip_Counter", 10,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Exec_Master_Log_Pos", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Relay_Log_Space", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Until_Condition", 6),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Until_Log_File", FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Until_Log_Pos", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Allowed", 7),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_CA_File",
sizeof(mi->ssl_ca)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_CA_Path",
sizeof(mi->ssl_capath)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Cert",
sizeof(mi->ssl_cert)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Cipher",
sizeof(mi->ssl_cipher)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Key",
sizeof(mi->ssl_key)),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Seconds_Behind_Master", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Verify_Server_Cert",
3),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Last_IO_Errno", 4,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Last_IO_Error", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Last_SQL_Errno", 4,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Last_SQL_Error", 20),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Ignore_Server_Ids",
FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Master_Server_Id", sizeof(ulong),
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Crl",
sizeof(mi->ssl_crl)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Master_SSL_Crlpath",
sizeof(mi->ssl_crlpath)),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Using_Gtid",
sizeof("Current_Pos")-1),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Gtid_IO_Pos", 30),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Do_Domain_Ids",
FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Replicate_Ignore_Domain_Ids",
FN_REFLEN),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Parallel_Mode",
sizeof("conservative")-1),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "SQL_Delay", 10,
MYSQL_TYPE_LONG));
field_list->push_back(new (mem_root)
Item_return_int(thd, "SQL_Remaining_Delay", 8,
MYSQL_TYPE_LONG));
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Slave_SQL_Running_State",
20));
field_list->push_back(new (mem_root)
Item_return_int(thd, "Slave_DDL_Groups", 20,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Slave_Non_Transactional_Groups", 20,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Slave_Transactional_Groups", 20,
MYSQL_TYPE_LONGLONG),
mem_root);
if (full)
{
field_list->push_back(new (mem_root)
Item_return_int(thd, "Retried_transactions", 10,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Max_relay_log_size", 10,
MYSQL_TYPE_LONGLONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Executed_log_entries", 10,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_return_int(thd, "Slave_received_heartbeats", 10,
MYSQL_TYPE_LONG),
mem_root);
field_list->push_back(new (mem_root)
Item_float(thd, "Slave_heartbeat_period", 0.0, 3, 10),
mem_root);
field_list->push_back(new (mem_root)
Item_empty_string(thd, "Gtid_Slave_Pos",
(uint)gtid_pos_length),
mem_root);
}
DBUG_VOID_RETURN;
}
/* Text for Slave_IO_Running */
static const LEX_CSTRING slave_running[]=
{
{ STRING_WITH_LEN("No") },
{ STRING_WITH_LEN("Connecting") },
{ STRING_WITH_LEN("Preparing") },
{ STRING_WITH_LEN("Yes") }
};
static const LEX_CSTRING msg_yes= { STRING_WITH_LEN("Yes") };
static const LEX_CSTRING msg_no= { STRING_WITH_LEN("No") };
#ifndef HAVE_OPENSSL
static const LEX_CSTRING msg_ignored= { STRING_WITH_LEN("Ignored") };
#endif
static bool send_show_master_info_data(THD *thd, Master_info *mi, bool full,
String *gtid_pos)
{
DBUG_ENTER("send_show_master_info_data");
if (mi->host[0])
{
DBUG_PRINT("info",("host is set: '%s'", mi->host));
String *packet= &thd->packet;
Protocol *protocol= thd->protocol;
Rpl_filter *rpl_filter= mi->rpl_filter;
StringBuffer<256> tmp;
const char *msg;
protocol->prepare_for_resend();
/*
slave_running can be accessed without run_lock but not other
non-volotile members like mi->io_thd, which is guarded by the mutex.
*/
if (full)
protocol->store(mi->connection_name.str, mi->connection_name.length,
&my_charset_bin);
mysql_mutex_lock(&mi->run_lock);
if (full)
{
/*
Show what the sql driver replication thread is doing
This is only meaningful if there is only one slave thread.
*/
msg= (mi->rli.sql_driver_thd ?
mi->rli.sql_driver_thd->get_proc_info() : "");
protocol->store_string_or_null(msg, &my_charset_bin);
}
msg= mi->io_thd ? mi->io_thd->get_proc_info() : "";
protocol->store_string_or_null(msg, &my_charset_bin);
mysql_mutex_unlock(&mi->run_lock);
mysql_mutex_lock(&mi->data_lock);
mysql_mutex_lock(&mi->rli.data_lock);
/* err_lock is to protect mi->last_error() */
mysql_mutex_lock(&mi->err_lock);
/* err_lock is to protect mi->rli.last_error() */
mysql_mutex_lock(&mi->rli.err_lock);
protocol->store_string_or_null(mi->host, &my_charset_bin);
protocol->store_string_or_null(mi->user, &my_charset_bin);
protocol->store((uint32) mi->port);
protocol->store((uint32) mi->connect_retry);
protocol->store(mi->master_log_name, strlen(mi->master_log_name),
&my_charset_bin);
protocol->store((ulonglong) mi->master_log_pos);
msg= (mi->rli.group_relay_log_name +
dirname_length(mi->rli.group_relay_log_name));
protocol->store(msg, strlen(msg), &my_charset_bin);
protocol->store((ulonglong) mi->rli.group_relay_log_pos);
protocol->store(mi->rli.group_master_log_name,
strlen(mi->rli.group_master_log_name),
&my_charset_bin);
protocol->store(&slave_running[mi->slave_running], &my_charset_bin);
protocol->store(mi->rli.slave_running ? &msg_yes : &msg_no, &my_charset_bin);
protocol->store(rpl_filter->get_rewrite_db());
protocol->store(rpl_filter->get_do_db());
protocol->store(rpl_filter->get_ignore_db());
rpl_filter->get_do_table(&tmp);
protocol->store(&tmp);
rpl_filter->get_ignore_table(&tmp);
protocol->store(&tmp);
rpl_filter->get_wild_do_table(&tmp);
protocol->store(&tmp);
rpl_filter->get_wild_ignore_table(&tmp);
protocol->store(&tmp);
protocol->store(mi->rli.last_error().number);
protocol->store_string_or_null(mi->rli.last_error().message,
&my_charset_bin);
protocol->store((uint32) mi->rli.slave_skip_counter);
protocol->store((ulonglong) mi->rli.group_master_log_pos);
protocol->store((ulonglong) mi->rli.log_space_total);
msg= (mi->rli.until_condition==Relay_log_info::UNTIL_NONE ? "None" :
(mi->rli.until_condition==Relay_log_info::UNTIL_MASTER_POS? "Master":
(mi->rli.until_condition==Relay_log_info::UNTIL_RELAY_POS? "Relay":
"Gtid")));
protocol->store(msg, strlen(msg), &my_charset_bin);
protocol->store_string_or_null(mi->rli.until_log_name, &my_charset_bin);
protocol->store((ulonglong) mi->rli.until_log_pos);
#ifdef HAVE_OPENSSL
protocol->store(mi->ssl ? &msg_yes : &msg_no, &my_charset_bin);
#else
protocol->store(mi->ssl ? &msg_ignored: &msg_no, &my_charset_bin);
#endif
protocol->store_string_or_null(mi->ssl_ca, &my_charset_bin);
protocol->store_string_or_null(mi->ssl_capath, &my_charset_bin);
protocol->store_string_or_null(mi->ssl_cert, &my_charset_bin);
protocol->store_string_or_null(mi->ssl_cipher, &my_charset_bin);
protocol->store_string_or_null(mi->ssl_key, &my_charset_bin);
/*
Seconds_Behind_Master: if SQL thread is running and I/O thread is
connected, we can compute it otherwise show NULL (i.e. unknown).
*/
if ((mi->slave_running == MYSQL_SLAVE_RUN_READING) &&
mi->rli.slave_running)
{
long time_diff;
bool idle;
time_t stamp= mi->rli.last_master_timestamp;
if (!stamp)
idle= true;
else
{
idle= mi->rli.sql_thread_caught_up;
/*
The idleness of the SQL thread is needed for the parallel slave
because events can be ignored before distribution to a worker thread.
That is, Seconds_Behind_Master should still be calculated and visible
while the slave is processing ignored events, such as those skipped
due to slave_skip_counter.
*/
if (mi->using_parallel() && idle && !mi->rli.parallel.workers_idle())
idle= false;
}
if (idle)
time_diff= 0;
else
{
time_diff= ((long)(time(0) - stamp) - mi->clock_diff_with_master);
/*
Apparently on some systems time_diff can be <0. Here are possible
reasons related to MySQL:
- the master is itself a slave of another master whose time is ahead.
- somebody used an explicit SET TIMESTAMP on the master.
Possible reason related to granularity-to-second of time functions
(nothing to do with MySQL), which can explain a value of -1:
assume the master's and slave's time are perfectly synchronized, and
that at slave's connection time, when the master's timestamp is read,
it is at the very end of second 1, and (a very short time later) when
the slave's timestamp is read it is at the very beginning of second
2. Then the recorded value for master is 1 and the recorded value for
slave is 2. At SHOW SLAVE STATUS time, assume that the difference
between timestamp of slave and rli->last_master_timestamp is 0
(i.e. they are in the same second), then we get 0-(2-1)=-1 as a result.
This confuses users, so we don't go below 0.
last_master_timestamp == 0 (an "impossible" timestamp 1970) is a
special marker to say "consider we have caught up".
*/
if (time_diff < 0)
time_diff= 0;
}
protocol->store((longlong)time_diff);
}
else
{
protocol->store_null();
}
protocol->store(mi->ssl_verify_server_cert? &msg_yes : &msg_no,
&my_charset_bin);
// Last_IO_Errno
protocol->store(mi->last_error().number);
// Last_IO_Error
protocol->store_string_or_null(mi->last_error().message, &my_charset_bin);
// Last_SQL_Errno
protocol->store(mi->rli.last_error().number);
// Last_SQL_Error
protocol->store_string_or_null(mi->rli.last_error().message,
&my_charset_bin);
// Replicate_Ignore_Server_Ids
prot_store_ids(thd, &mi->ignore_server_ids);
// Master_Server_id
protocol->store((uint32) mi->master_id);
// SQL_Delay
// Master_Ssl_Crl
protocol->store_string_or_null(mi->ssl_crl, &my_charset_bin);
// Master_Ssl_Crlpath
protocol->store_string_or_null(mi->ssl_crlpath, &my_charset_bin);
// Using_Gtid
protocol->store_string_or_null(mi->using_gtid_astext(mi->using_gtid),
&my_charset_bin);
// Gtid_IO_Pos
{
mi->gtid_current_pos.to_string(&tmp);
protocol->store(tmp.ptr(), tmp.length(), &my_charset_bin);
}
// Replicate_Do_Domain_Ids & Replicate_Ignore_Domain_Ids
mi->domain_id_filter.store_ids(thd);
// Parallel_Mode
{
const char *mode_name= get_type(&slave_parallel_mode_typelib,
mi->parallel_mode);
protocol->store(mode_name, strlen(mode_name), &my_charset_bin);
}
protocol->store((uint32) mi->rli.get_sql_delay());
// SQL_Remaining_Delay
// THD::proc_info is not protected by any lock, so we read it once
// to ensure that we use the same value throughout this function.
const char *slave_sql_running_state=
mi->rli.sql_driver_thd ? mi->rli.sql_driver_thd->proc_info : "";
if (slave_sql_running_state == Relay_log_info::state_delaying_string)
{
time_t t= my_time(0), sql_delay_end= mi->rli.get_sql_delay_end();
protocol->store((uint32)(t < sql_delay_end ? sql_delay_end - t : 0));
}
else
protocol->store_null();
// Slave_SQL_Running_State
protocol->store_string_or_null(slave_sql_running_state, &my_charset_bin);
protocol->store(mi->total_ddl_groups);
protocol->store(mi->total_non_trans_groups);
protocol->store(mi->total_trans_groups);
if (full)
{
protocol->store((uint32) mi->rli.retried_trans);
protocol->store((ulonglong) mi->rli.max_relay_log_size);
protocol->store(mi->rli.executed_entries);
protocol->store((uint32) mi->received_heartbeats);
protocol->store_double(mi->heartbeat_period, 3);
protocol->store(gtid_pos->ptr(), gtid_pos->length(), &my_charset_bin);
}
mysql_mutex_unlock(&mi->rli.err_lock);
mysql_mutex_unlock(&mi->err_lock);
mysql_mutex_unlock(&mi->rli.data_lock);
mysql_mutex_unlock(&mi->data_lock);
if (my_net_write(&thd->net, (uchar*) thd->packet.ptr(), packet->length()))
DBUG_RETURN(TRUE);
}
DBUG_RETURN(FALSE);
}
/* Used to sort connections by name */
static int cmp_mi_by_name(const Master_info **arg1,
const Master_info **arg2)
{
return my_strcasecmp(system_charset_info, (*arg1)->connection_name.str,
(*arg2)->connection_name.str);
}
/**
Execute a SHOW FULL SLAVE STATUS statement.
@param thd Pointer to THD object for the client thread executing the
statement.
Elements are sorted according to the original connection_name.
@retval FALSE success
@retval TRUE failure
@note
master_info_index is protected by LOCK_active_mi.
*/
bool show_all_master_info(THD* thd)
{
uint i, elements;
String gtid_pos;
Master_info **tmp;
List<Item> field_list;
DBUG_ENTER("show_all_master_info");
mysql_mutex_assert_owner(&LOCK_active_mi);
gtid_pos.length(0);
if (rpl_append_gtid_state(>id_pos, true))
{
my_error(ER_OUT_OF_RESOURCES, MYF(0));
DBUG_RETURN(TRUE);
}
show_master_info_get_fields(thd, &field_list, 1, gtid_pos.length());
if (thd->protocol->send_result_set_metadata(&field_list,
Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF))
DBUG_RETURN(TRUE);
if (!master_info_index ||
!(elements= master_info_index->master_info_hash.records))
goto end;
/*
Sort lines to get them into a predicted order
(needed for test cases and to not confuse users)
*/
if (!(tmp= (Master_info**) thd->alloc(sizeof(Master_info*) * elements)))
DBUG_RETURN(TRUE);
for (i= 0; i < elements; i++)
{
tmp[i]= (Master_info *) my_hash_element(&master_info_index->
master_info_hash, i);
}
my_qsort(tmp, elements, sizeof(Master_info*), (qsort_cmp) cmp_mi_by_name);
for (i= 0; i < elements; i++)
{
if (send_show_master_info_data(thd, tmp[i], 1, >id_pos))
DBUG_RETURN(TRUE);
}
end:
my_eof(thd);
DBUG_RETURN(FALSE);
}
void set_slave_thread_options(THD* thd)
{
DBUG_ENTER("set_slave_thread_options");
/*
It's nonsense to constrain the slave threads with max_join_size; if a
query succeeded on master, we HAVE to execute it. So set
OPTION_BIG_SELECTS. Setting max_join_size to HA_POS_ERROR is not enough
(and it's not needed if we have OPTION_BIG_SELECTS) because an INSERT
SELECT examining more than 4 billion rows would still fail (yes, because
when max_join_size is 4G, OPTION_BIG_SELECTS is automatically set, but
only for client threads.
*/
ulonglong options= (thd->variables.option_bits |
OPTION_BIG_SELECTS | OPTION_BIN_LOG);
if (!opt_log_slave_updates)
options&= ~OPTION_BIN_LOG;
/* For easier test in LOGGER::log_command */
if (thd->variables.log_disabled_statements & LOG_DISABLE_SLAVE)
options|= OPTION_LOG_OFF;
thd->variables.option_bits= options;
thd->variables.completion_type= 0;
thd->variables.sql_log_slow=
!MY_TEST(thd->variables.log_slow_disabled_statements &
LOG_SLOW_DISABLE_SLAVE);
DBUG_VOID_RETURN;
}
void set_slave_thread_default_charset(THD* thd, rpl_group_info *rgi)
{
DBUG_ENTER("set_slave_thread_default_charset");
thd->variables.collation_server=
global_system_variables.collation_server;
thd->update_charset(global_system_variables.character_set_client,
global_system_variables.collation_connection);
thd->system_thread_info.rpl_sql_info->cached_charset_invalidate();
DBUG_VOID_RETURN;
}
/*
init_slave_thread()
*/
static int init_slave_thread(THD* thd, Master_info *mi,
SLAVE_THD_TYPE thd_type)
{
DBUG_ENTER("init_slave_thread");
int simulate_error __attribute__((unused))= 0;
DBUG_EXECUTE_IF("simulate_io_slave_error_on_init",
simulate_error|= (1 << SLAVE_THD_IO););
DBUG_EXECUTE_IF("simulate_sql_slave_error_on_init",
simulate_error|= (1 << SLAVE_THD_SQL););
thd->system_thread = (thd_type == SLAVE_THD_SQL) ?
SYSTEM_THREAD_SLAVE_SQL : SYSTEM_THREAD_SLAVE_IO;
if (init_thr_lock())
{
thd->cleanup();
DBUG_RETURN(-1);
}
/* We must call store_globals() before doing my_net_init() */
thd->store_globals();
if (my_net_init(&thd->net, 0, thd, MYF(MY_THREAD_SPECIFIC)) ||
IF_DBUG(simulate_error & (1<< thd_type), 0))
{
thd->cleanup();
DBUG_RETURN(-1);
}
thd->security_ctx->skip_grants();
thd->slave_thread= 1;
thd->connection_name= mi->connection_name;
thd->variables.sql_log_slow= !MY_TEST(thd->variables.log_slow_disabled_statements & LOG_SLOW_DISABLE_SLAVE);
set_slave_thread_options(thd);
if (thd_type == SLAVE_THD_SQL)
THD_STAGE_INFO(thd, stage_waiting_for_the_next_event_in_relay_log);
else
THD_STAGE_INFO(thd, stage_waiting_for_master_update);
thd->set_time();
/* Do not use user-supplied timeout value for system threads. */
thd->variables.lock_wait_timeout= LONG_TIMEOUT;
DBUG_RETURN(0);
}
/*
Sleep for a given amount of time or until killed.
@param thd Thread context of the current thread.
@param seconds The number of seconds to sleep.
@param func Function object to check if the thread has been killed.
@param info The Rpl_info object associated with this sleep.
@retval True if the thread has been killed, false otherwise.
*/
template <typename killed_func, typename rpl_info>
static bool slave_sleep(THD *thd, time_t seconds,
killed_func func, rpl_info info)
{
bool ret;
struct timespec abstime;
mysql_mutex_t *lock= &info->sleep_lock;
mysql_cond_t *cond= &info->sleep_cond;
/* Absolute system time at which the sleep time expires. */
set_timespec(abstime, seconds);
mysql_mutex_lock(lock);
thd->ENTER_COND(cond, lock, NULL, NULL);
while (! (ret= func(info)))
{
int error= mysql_cond_timedwait(cond, lock, &abstime);
if (error == ETIMEDOUT || error == ETIME)
break;
}
/* Implicitly unlocks the mutex. */
thd->EXIT_COND(NULL);
return ret;
}
static int request_dump(THD *thd, MYSQL* mysql, Master_info* mi,
bool *suppress_warnings)
{
uchar buf[FN_REFLEN + 10];
int len;
ushort binlog_flags = 0; // for now
char* logname = mi->master_log_name;
DBUG_ENTER("request_dump");
*suppress_warnings= FALSE;
if (opt_log_slave_updates && opt_replicate_annotate_row_events)
binlog_flags|= BINLOG_SEND_ANNOTATE_ROWS_EVENT;
if (repl_semisync_slave.request_transmit(mi))
DBUG_RETURN(1);
// TODO if big log files: Change next to int8store()
int4store(buf, (ulong) mi->master_log_pos);
int2store(buf + 4, binlog_flags);
int4store(buf + 6, global_system_variables.server_id);
len = (uint) strlen(logname);
memcpy(buf + 10, logname,len);
if (simple_command(mysql, COM_BINLOG_DUMP, buf, len + 10, 1))
{
/*
Something went wrong, so we will just reconnect and retry later
in the future, we should do a better error analysis, but for
now we just fill up the error log :-)
*/
if (mysql_errno(mysql) == ER_NET_READ_INTERRUPTED ||
mysql_errno(mysql) == ER_NET_ERROR_ON_WRITE)
*suppress_warnings= TRUE; // Suppress reconnect warning
else
sql_print_error("Error on COM_BINLOG_DUMP: %d %s, will retry in %d secs",
mysql_errno(mysql), mysql_error(mysql),
mi->connect_retry);
DBUG_RETURN(1);
}
DBUG_RETURN(0);
}
/*
Read one event from the master
SYNOPSIS
read_event()
mysql MySQL connection
mi Master connection information
suppress_warnings TRUE when a normal net read timeout has caused us to
try a reconnect. We do not want to print anything to
the error log in this case because this a anormal
event in an idle server.
network_read_len get the real network read length in VIO, especially using compressed protocol
RETURN VALUES
'packet_error' Error
number Length of packet
*/
static ulong read_event(MYSQL* mysql, Master_info *mi, bool* suppress_warnings,
ulong* network_read_len)
{
ulong len;
DBUG_ENTER("read_event");
*suppress_warnings= FALSE;
/*
my_real_read() will time us out
We check if we were told to die, and if not, try reading again
*/
#ifndef DBUG_OFF
if (disconnect_slave_event_count && !(mi->events_till_disconnect--))
DBUG_RETURN(packet_error);
#endif
len = cli_safe_read_reallen(mysql, network_read_len);
if (unlikely(len == packet_error || (long) len < 1))
{
if (mysql_errno(mysql) == ER_NET_READ_INTERRUPTED)
{
/*
We are trying a normal reconnect after a read timeout;
we suppress prints to .err file as long as the reconnect
happens without problems
*/
*suppress_warnings=
global_system_variables.log_warnings < 2 ? TRUE : FALSE;
}
else
{
if (!mi->rli.abort_slave)
{
sql_print_error("Error reading packet from server: %s (server_errno=%d)",
mysql_error(mysql), mysql_errno(mysql));
}
}
DBUG_RETURN(packet_error);
}
/* Check if eof packet */
if (len < 8 && mysql->net.read_pos[0] == 254)
{
sql_print_information("Slave: received end packet from server, apparent "
"master shutdown: %s",
mysql_error(mysql));
DBUG_RETURN(packet_error);
}
DBUG_PRINT("exit", ("len: %lu net->read_pos[4]: %d",
len, mysql->net.read_pos[4]));
DBUG_RETURN(len - 1);
}
/**
Check if the current error is of temporary nature of not.
Some errors are temporary in nature, such as
ER_LOCK_DEADLOCK and ER_LOCK_WAIT_TIMEOUT.
@retval 0 if fatal error
@retval 1 temporary error, do retry
*/
int
has_temporary_error(THD *thd)
{
uint current_errno;
DBUG_ENTER("has_temporary_error");
DBUG_EXECUTE_IF("all_errors_are_temporary_errors",
if (thd->get_stmt_da()->is_error())
{
thd->clear_error();
my_error(ER_LOCK_DEADLOCK, MYF(0));
});
/*
If there is no message in THD, we can't say if it's a temporary
error or not. This is currently the case for Incident_log_event,
which sets no message. Return FALSE.
*/
if (!likely(thd->is_error()))
DBUG_RETURN(0);
current_errno= thd->get_stmt_da()->sql_errno();
for (uint i= 0; i < slave_transaction_retry_error_length; i++)
{
if (current_errno == slave_transaction_retry_errors[i])
DBUG_RETURN(1);
}
DBUG_RETURN(0);
}
/**
If this is a lagging slave (specified with CHANGE MASTER TO MASTER_DELAY = X), delays accordingly. Also unlocks rli->data_lock.
Design note: this is the place to unlock rli->data_lock. The lock
must be held when reading delay info from rli, but it should not be
held while sleeping.
@param ev Event that is about to be executed.
@param thd The sql thread's THD object.
@param rli The sql thread's Relay_log_info structure.
@retval 0 If the delay timed out and the event shall be executed.
@retval nonzero If the delay was interrupted and the event shall be skipped.
*/
int
sql_delay_event(Log_event *ev, THD *thd, rpl_group_info *rgi)
{
Relay_log_info* rli= rgi->rli;
long sql_delay= rli->get_sql_delay();
DBUG_ENTER("sql_delay_event");
mysql_mutex_assert_owner(&rli->data_lock);
DBUG_ASSERT(!rli->belongs_to_client());
int type= ev->get_type_code();
if (sql_delay && type != ROTATE_EVENT &&
type != FORMAT_DESCRIPTION_EVENT && type != START_EVENT_V3)
{
// The time when we should execute the event.
time_t sql_delay_end=
ev->when + rli->mi->clock_diff_with_master + sql_delay;
// The current time.
time_t now= my_time(0);
// The time we will have to sleep before executing the event.
unsigned long nap_time= 0;
if (sql_delay_end > now)
nap_time= (ulong)(sql_delay_end - now);
DBUG_PRINT("info", ("sql_delay= %lu "
"ev->when= %lu "
"rli->mi->clock_diff_with_master= %lu "
"now= %ld "
"sql_delay_end= %llu "
"nap_time= %ld",
sql_delay, (long)ev->when,
rli->mi->clock_diff_with_master,
(long)now, (ulonglong)sql_delay_end, (long)nap_time));
if (sql_delay_end > now)
{
DBUG_PRINT("info", ("delaying replication event %lu secs",
nap_time));
rli->start_sql_delay(sql_delay_end);
mysql_mutex_unlock(&rli->data_lock);
DBUG_RETURN(slave_sleep(thd, nap_time, sql_slave_killed, rgi));
}
}
mysql_mutex_unlock(&rli->data_lock);
DBUG_RETURN(0);
}
/*
First half of apply_event_and_update_pos(), see below.
Setup some THD variables for applying the event.
Split out so that it can run with rli->data_lock held in non-parallel
replication, but without the mutex held in the parallel case.
*/
static int
apply_event_and_update_pos_setup(Log_event* ev, THD* thd, rpl_group_info *rgi)
{
DBUG_ENTER("apply_event_and_update_pos_setup");
DBUG_PRINT("exec_event",("%s(type_code: %d; server_id: %d)",
ev->get_type_str(), ev->get_type_code(),
ev->server_id));
DBUG_PRINT("info", ("thd->options: '%s%s%s' rgi->last_event_start_time: %lu",
FLAGSTR(thd->variables.option_bits, OPTION_NOT_AUTOCOMMIT),
FLAGSTR(thd->variables.option_bits, OPTION_BEGIN),
FLAGSTR(thd->variables.option_bits, OPTION_GTID_BEGIN),
(ulong) rgi->last_event_start_time));
/*
Execute the event to change the database and update the binary
log coordinates, but first we set some data that is needed for
the thread.
The event will be executed unless it is supposed to be skipped.
Queries originating from this server must be skipped. Low-level
events (Format_description_log_event, Rotate_log_event,
Stop_log_event) from this server must also be skipped. But for
those we don't want to modify 'group_master_log_pos', because
these events did not exist on the master.
Format_description_log_event is not completely skipped.
Skip queries specified by the user in 'slave_skip_counter'. We
can't however skip events that has something to do with the log
files themselves.
Filtering on own server id is extremely important, to ignore
execution of events created by the creation/rotation of the relay
log (remember that now the relay log starts with its Format_desc,
has a Rotate etc).
*/
/* Use the original server id for logging. */
thd->variables.server_id = ev->server_id;
thd->set_time(); // time the query
thd->lex->current_select= 0;
thd->variables.option_bits=
(thd->variables.option_bits & ~OPTION_SKIP_REPLICATION) |
(ev->flags & LOG_EVENT_SKIP_REPLICATION_F ? OPTION_SKIP_REPLICATION : 0);
ev->thd = thd; // because up to this point, ev->thd == 0
DBUG_RETURN(ev->shall_skip(rgi));
}
/*
Second half of apply_event_and_update_pos(), see below.
Do the actual event apply (or skip), and position update.
*/
static int
apply_event_and_update_pos_apply(Log_event* ev, THD* thd, rpl_group_info *rgi,
int reason)
{
int exec_res= 0;
Relay_log_info* rli= rgi->rli;
DBUG_ENTER("apply_event_and_update_pos_apply");
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF("inject_slave_sql_before_apply_event",
{
DBUG_ASSERT(!debug_sync_set_action
(thd, STRING_WITH_LEN("now WAIT_FOR continue")));
DBUG_SET_INITIAL("-d,inject_slave_sql_before_apply_event");
};);
#endif
if (reason == Log_event::EVENT_SKIP_NOT)
exec_res= ev->apply_event(rgi);
#ifdef WITH_WSREP
if (WSREP(thd)) {
if (exec_res) {
mysql_mutex_lock(&thd->LOCK_thd_data);
switch(thd->wsrep_trx().state()) {
case wsrep::transaction::s_must_replay:
/* this transaction will be replayed,
so not raising slave error here */
WSREP_DEBUG("SQL apply failed for MUST_REPLAY, res %d", exec_res);
exec_res = 0;
break;
default:
WSREP_DEBUG("SQL apply failed, res %d conflict state: %s",
exec_res, wsrep_thd_transaction_state_str(thd));
/*
async replication thread should be stopped, if failure was
not due to optimistic parallel applying or if node
has dropped from cluster
*/
if (thd->system_thread == SYSTEM_THREAD_SLAVE_SQL &&
((rli->mi->using_parallel() &&
rli->mi->parallel_mode <= SLAVE_PARALLEL_CONSERVATIVE) ||
wsrep_ready == 0)) {
rli->abort_slave= 1;
rli->report(ERROR_LEVEL, ER_UNKNOWN_COM_ERROR, rgi->gtid_info(),
"Node has dropped from cluster");
}
break;
}
mysql_mutex_unlock(&thd->LOCK_thd_data);
}
}
#endif
#ifdef DBUG_TRACE
/*
This only prints information to the debug trace.
TODO: Print an informational message to the error log?
*/
static const char *const explain[] = {
// EVENT_SKIP_NOT,
"not skipped",
// EVENT_SKIP_IGNORE,
"skipped because event should be ignored",
// EVENT_SKIP_COUNT
"skipped because event skip counter was non-zero"
};
DBUG_PRINT("info", ("OPTION_BEGIN: %d IN_STMT: %d IN_TRANSACTION: %d",
MY_TEST(thd->variables.option_bits & OPTION_BEGIN),
rli->get_flag(Relay_log_info::IN_STMT),
rli->get_flag(Relay_log_info::IN_TRANSACTION)));
DBUG_PRINT("skip_event", ("%s event was %s",
ev->get_type_str(), explain[reason]));
#endif
DBUG_PRINT("info", ("apply_event error = %d", exec_res));
if (exec_res == 0)
{
if (thd->rgi_slave && (thd->rgi_slave->gtid_ev_flags_extra &
Gtid_log_event::FL_START_ALTER_E1) &&
thd->rgi_slave->get_finish_event_group_called())
DBUG_RETURN(exec_res ? 1 : 0);
int error= ev->update_pos(rgi);
#ifdef DBUG_TRACE
DBUG_PRINT("info", ("update_pos error = %d", error));
if (!rli->belongs_to_client())
{
DBUG_PRINT("info", ("group %llu %s", rli->group_relay_log_pos,
rli->group_relay_log_name));
DBUG_PRINT("info", ("event %llu %s", rli->event_relay_log_pos,
rli->event_relay_log_name));
}
#endif
/*
The update should not fail, so print an error message and
return an error code.
TODO: Replace this with a decent error message when merged
with BUG#24954 (which adds several new error message).
*/
if (unlikely(error))
{
rli->report(ERROR_LEVEL, ER_UNKNOWN_ERROR, rgi->gtid_info(),
"It was not possible to update the positions"
" of the relay log information: the slave may"
" be in an inconsistent state."
" Stopped in %s position %llu",
rli->group_relay_log_name, rli->group_relay_log_pos);
DBUG_RETURN(2);
}
}
else
{
/*
Make sure we do not erroneously update gtid_slave_pos with a lingering
GTID from this failed event group (MDEV-4906).
*/
rgi->gtid_pending= false;
}
DBUG_RETURN(exec_res ? 1 : 0);
}
/**
Applies the given event and advances the relay log position.
This is needed by the sql thread to execute events from the binlog,
and by clients executing BINLOG statements. Conceptually, this
function does:
@code
ev->apply_event(rli);
ev->update_pos(rli);
@endcode
It also does the following maintainance:
- Initializes the thread's server_id and time; and the event's
thread.
- If !rli->belongs_to_client() (i.e., if it belongs to the slave
sql thread instead of being used for executing BINLOG
statements), it does the following things: (1) skips events if it
is needed according to the server id or slave_skip_counter; (2)
unlocks rli->data_lock; (3) sleeps if required by 'CHANGE MASTER
TO MASTER_DELAY=X'; (4) maintains the running state of the sql
thread (rli->thread_state).
- Reports errors as needed.
@param ev The event to apply.
@param thd The client thread that executes the event (i.e., the
slave sql thread if called from a replication slave, or the client
thread if called to execute a BINLOG statement).
@param rli The relay log info (i.e., the slave's rli if called from
a replication slave, or the client's thd->rli_fake if called to
execute a BINLOG statement).
@retval 0 OK.
@retval 1 Error calling ev->apply_event().
@retval 2 No error calling ev->apply_event(), but error calling
ev->update_pos().
This function is only used in non-parallel replication, where it is called
with rli->data_lock held; this lock is released during this function.
*/
int
apply_event_and_update_pos(Log_event* ev, THD* thd, rpl_group_info *rgi)
{
Relay_log_info* rli= rgi->rli;
mysql_mutex_assert_owner(&rli->data_lock);
int reason= apply_event_and_update_pos_setup(ev, thd, rgi);
if (reason == Log_event::EVENT_SKIP_COUNT)
{
DBUG_ASSERT(rli->slave_skip_counter > 0);
rli->slave_skip_counter--;
}
if (reason == Log_event::EVENT_SKIP_NOT)
{
// Sleeps if needed, and unlocks rli->data_lock.
if (sql_delay_event(ev, thd, rgi))
return 0;
}
else
mysql_mutex_unlock(&rli->data_lock);
return apply_event_and_update_pos_apply(ev, thd, rgi, reason);
}
/*
The version of above apply_event_and_update_pos() used in parallel
replication. Unlike the non-parallel case, this function is called without
rli->data_lock held.
*/
int
apply_event_and_update_pos_for_parallel(Log_event* ev, THD* thd,
rpl_group_info *rgi)
{
int rc= 0;
ulong retries= 0;
bool is_sa= rgi->gtid_ev_flags_extra == Gtid_log_event::FL_START_ALTER_E1;
bool is_sa_temp_err= false;
mysql_mutex_assert_not_owner(&rgi->rli->data_lock);
int reason= apply_event_and_update_pos_setup(ev, thd, rgi);
/*
In parallel replication, sql_slave_skip_counter is handled in the SQL
driver thread, so 23 should never see EVENT_SKIP_COUNT here.
*/
DBUG_ASSERT(reason != Log_event::EVENT_SKIP_COUNT);
/*
Calling sql_delay_event() was handled in the SQL driver thread when
doing parallel replication.
*/
do
{
rc= apply_event_and_update_pos_apply(ev, thd, rgi, reason);
if (rc && is_sa)
{
is_sa_temp_err=
is_parallel_retry_error(rgi, thd->get_stmt_da()->sql_errno());
}
}
while(is_sa_temp_err && retries++ < slave_trans_retries);
if (is_sa_temp_err)
{
Master_info *mi= rgi->rli->mi;
mysql_mutex_lock(&mi->start_alter_lock);
DBUG_ASSERT(!rgi->sa_info->direct_commit_alter);
/*
Give up retrying to hand the whole ALTER execution over to
the "Complete" ALTER.
*/
rgi->sa_info->direct_commit_alter= true;
rgi->sa_info->state= start_alter_state::COMPLETED;
mysql_cond_broadcast(&rgi->sa_info->start_alter_cond);
mysql_mutex_unlock(&mi->start_alter_lock);
if (global_system_variables.log_warnings > 2)
{
rpl_gtid *gtid= &rgi->current_gtid;
sql_print_information("Start Alter Query '%s' "
"GTID %u-%u-%llu having a temporary error %d code "
"has been unsuccessfully retried %lu times; its "
"parallel optimistic execution now proceeds in "
"legacy mode",
static_cast<Query_log_event*>(ev)->query,
gtid->domain_id, gtid->server_id, gtid->seq_no,
thd->get_stmt_da()->sql_errno(), retries - 1);
}
thd->clear_error();
thd->reset_killed();
rgi->killed_for_retry = rpl_group_info::RETRY_KILL_NONE;
rc= false;
}
return rc;
}
/**
Keep the relay log transaction state up to date.
The state reflects how things are after the given event, that has just been
read from the relay log, is executed.
This is only needed to ensure we:
- Don't abort the sql driver thread in the middle of an event group.
- Don't rotate the io thread in the middle of a statement or transaction.
The mechanism is that the io thread, when it needs to rotate the relay
log, will wait until the sql driver has read all the cached events
and then continue reading events one by one from the master until
the sql threads signals that log doesn't have an active group anymore.
There are two possible cases. We keep them as 2 separate flags mainly
to make debugging easier.
- IN_STMT is set when we have read an event that should be used
together with the next event. This is for example setting a
variable that is used when executing the next statement.
- IN_TRANSACTION is set when we are inside a BEGIN...COMMIT group
To test the state one should use the is_in_group() function.
*/
inline void update_state_of_relay_log(Relay_log_info *rli, Log_event *ev)
{
Log_event_type typ= ev->get_type_code();
/* check if we are in a multi part event */
if (ev->is_part_of_group())
rli->set_flag(Relay_log_info::IN_STMT);
else if (Log_event::is_group_event(typ))
{
/*
If it was not a is_part_of_group() and not a group event (like
rotate) then we can reset the IN_STMT flag. We have the above
if only to allow us to have a rotate element anywhere.
*/
rli->clear_flag(Relay_log_info::IN_STMT);
}
/* Check for an event that starts or stops a transaction */
if (LOG_EVENT_IS_QUERY(typ))
{
Query_log_event *qev= (Query_log_event*) ev;
/*
Trivial optimization to avoid the following somewhat expensive
checks.
*/
if (qev->q_len <= sizeof("ROLLBACK"))
{
if (qev->is_begin())
rli->set_flag(Relay_log_info::IN_TRANSACTION);
if (qev->is_commit() || qev->is_rollback())
rli->clear_flag(Relay_log_info::IN_TRANSACTION);
}
}
if (typ == XID_EVENT || typ == XA_PREPARE_LOG_EVENT)
rli->clear_flag(Relay_log_info::IN_TRANSACTION);
if (typ == GTID_EVENT &&
!(((Gtid_log_event*) ev)->flags2 & Gtid_log_event::FL_STANDALONE))
{
/* This GTID_EVENT will generate a BEGIN event */
rli->set_flag(Relay_log_info::IN_TRANSACTION);
}
DBUG_PRINT("info", ("event: %u IN_STMT: %d IN_TRANSACTION: %d",
(uint) typ,
rli->get_flag(Relay_log_info::IN_STMT),
rli->get_flag(Relay_log_info::IN_TRANSACTION)));
}
/**
Top-level function for executing the next event in the relay log.
This is called from the SQL thread.
This function reads the event from the relay log, executes it, and
advances the relay log position. It also handles errors, etc.
This function may fail to apply the event for the following reasons:
- The position specfied by the UNTIL condition of the START SLAVE
command is reached.
- It was not possible to read the event from the log.
- The slave is killed.
- An error occurred when applying the event, and the event has been
tried slave_trans_retries times. If the event has been retried
fewer times, 0 is returned.
- init_master_info or init_relay_log_pos failed. (These are called
if a failure occurs when applying the event.)
- An error occurred when updating the binlog position.
@retval 0 The event was applied.
@retval 1 The event was not applied.
*/
static int exec_relay_log_event(THD* thd, Relay_log_info* rli,
rpl_group_info *serial_rgi)
{
ulonglong event_size;
DBUG_ENTER("exec_relay_log_event");
/*
We acquire this mutex since we need it for all operations except
event execution. But we will release it in places where we will
wait for something for example inside of next_event().
*/
mysql_mutex_lock(&rli->data_lock);
Log_event *ev= next_event(serial_rgi, &event_size);
if (sql_slave_killed(serial_rgi))
{
mysql_mutex_unlock(&rli->data_lock);
delete ev;
DBUG_RETURN(1);
}
if (ev)
{
#ifdef WITH_WSREP
if (wsrep_before_statement(thd))
{
mysql_mutex_unlock(&rli->data_lock);
delete ev;
WSREP_INFO("Wsrep before statement error");
DBUG_RETURN(1);
}
#endif /* WITH_WSREP */
int exec_res;
Log_event_type typ= ev->get_type_code();
DBUG_EXECUTE_IF(
"pause_sql_thread_on_next_event",
{
/*
Temporarily unlock data_lock so we can check-in with the IO thread
*/
mysql_mutex_unlock(&rli->data_lock);
DBUG_ASSERT(!debug_sync_set_action(
thd,
STRING_WITH_LEN(
"now SIGNAL paused_on_event WAIT_FOR sql_thread_continue")));
mysql_mutex_lock(&rli->data_lock);
});
/*
Even if we don't execute this event, we keep the master timestamp,
so that seconds behind master shows correct delta (there are events
that are not replayed, so we keep falling behind).
If it is an artificial event, or a relay log event (IO thread generated
event) or ev->when is set to 0, we don't update the
last_master_timestamp.
In parallel replication, we might queue a large number of events, and
the user might be surprised to see a claim that the slave is up to date
long before those queued events are actually executed.
*/
if ((!rli->mi->using_parallel()) &&
event_can_update_last_master_timestamp(ev))
{
rli->last_master_timestamp= ev->when + (time_t) ev->exec_time;
rli->sql_thread_caught_up= false;
DBUG_ASSERT(rli->last_master_timestamp >= 0);
}
/*
This tests if the position of the beginning of the current event
hits the UNTIL barrier.
*/
if ((rli->until_condition == Relay_log_info::UNTIL_MASTER_POS ||
rli->until_condition == Relay_log_info::UNTIL_RELAY_POS) &&
(ev->server_id != global_system_variables.server_id ||
rli->replicate_same_server_id) &&
rli->is_until_satisfied(ev))
{
/*
Setting abort_slave flag because we do not want additional
message about error in query execution to be printed.
*/
rli->abort_slave= 1;
rli->stop_for_until= true;
mysql_mutex_unlock(&rli->data_lock);
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
delete ev;
DBUG_RETURN(1);
}
{ /**
The following failure injecion works in cooperation with tests
setting @@global.debug= 'd,incomplete_group_in_relay_log'.
Xid or Commit events are not executed to force the slave sql
read hanging if the realy log does not have any more events.
*/
DBUG_EXECUTE_IF("incomplete_group_in_relay_log",
if ((typ == XID_EVENT) ||
(LOG_EVENT_IS_QUERY(typ) &&
strcmp("COMMIT", ((Query_log_event *) ev)->query) == 0))
{
DBUG_ASSERT(thd->transaction->all.modified_non_trans_table);
rli->abort_slave= 1;
mysql_mutex_unlock(&rli->data_lock);
delete ev;
serial_rgi->inc_event_relay_log_pos();
DBUG_RETURN(0);
};);
}
update_state_of_relay_log(rli, ev);
if (rli->mi->using_parallel())
{
/*
rli->sql_thread_caught_up is checked and negated here to ensure that
the value of Seconds_Behind_Master in SHOW SLAVE STATUS is consistent
with the update of last_master_timestamp. It was previously unset
immediately after reading an event from the relay log; however, for the
duration between that unset and the time that LMT would be updated
could lead to spikes in SBM.
The check for queued_count == dequeued_count ensures the worker threads
are all idle (i.e. all events have been executed).
*/
if ((unlikely(rli->last_master_timestamp == 0) ||
(rli->sql_thread_caught_up &&
(rli->last_inuse_relaylog->queued_count ==
rli->last_inuse_relaylog->dequeued_count))) &&
event_can_update_last_master_timestamp(ev))
{
if (rli->last_master_timestamp < ev->when)
{
rli->last_master_timestamp= ev->when;
}
rli->sql_thread_caught_up= false;
}
int res= rli->parallel.do_event(serial_rgi, ev, event_size);
/*
In parallel replication, we need to update the relay log position
immediately so that it will be the correct position from which to
read the next event.
*/
if (res == 0)
rli->event_relay_log_pos= rli->future_event_relay_log_pos;
if (res >= 0)
{
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
DBUG_RETURN(res);
}
/*
Else we proceed to execute the event non-parallel.
This is the case for pre-10.0 events without GTID, and for handling
slave_skip_counter.
*/
if (event_can_update_last_master_timestamp(ev))
{
/*
Ignore FD's timestamp as it does not reflect the slave execution
state but likely to reflect a deep past. Consequently when the first
data modification event execution last long all this time
Seconds_Behind_Master is zero.
*/
if (ev->get_type_code() != FORMAT_DESCRIPTION_EVENT &&
rli->last_master_timestamp < ev->when)
rli->last_master_timestamp= ev->when + (time_t) ev->exec_time;
DBUG_ASSERT(rli->last_master_timestamp >= 0);
}
}
if (typ == GTID_EVENT)
{
Gtid_log_event *gev= static_cast<Gtid_log_event *>(ev);
/*
For GTID, allocate a new sub_id for the given domain_id.
The sub_id must be allocated in increasing order of binlog order.
*/
if (event_group_new_gtid(serial_rgi, gev))
{
sql_print_error("Error reading relay log event: %s", "slave SQL thread "
"aborted because of out-of-memory error");
mysql_mutex_unlock(&rli->data_lock);
delete ev;
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
DBUG_RETURN(1);
}
rli->last_seen_gtid= serial_rgi->current_gtid;
rli->last_trans_retry_count= serial_rgi->trans_retries;
if (opt_gtid_ignore_duplicates &&
rli->mi->using_gtid != Master_info::USE_GTID_NO)
{
int res= rpl_global_gtid_slave_state->check_duplicate_gtid
(&serial_rgi->current_gtid, serial_rgi);
if (res < 0)
{
sql_print_error("Error processing GTID event: %s", "slave SQL "
"thread aborted because of out-of-memory error");
mysql_mutex_unlock(&rli->data_lock);
delete ev;
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
DBUG_RETURN(1);
}
/*
If we need to skip this event group (because the GTID was already
applied), then do it using the code for slave_skip_counter, which
is able to handle skipping until the end of the event group.
*/
if (!res)
rli->slave_skip_counter= 1;
}
}
serial_rgi->future_event_relay_log_pos= rli->future_event_relay_log_pos;
serial_rgi->event_relay_log_name= rli->event_relay_log_name;
serial_rgi->event_relay_log_pos= rli->event_relay_log_pos;
exec_res= apply_event_and_update_pos(ev, thd, serial_rgi);
#ifdef WITH_WSREP
WSREP_DEBUG("apply_event_and_update_pos() result: %d", exec_res);
#endif /* WITH_WSREP */
delete_or_keep_event_post_apply(serial_rgi, typ, ev);
/*
update_log_pos failed: this should not happen, so we don't
retry.
*/
if (unlikely(exec_res == 2))
{
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
DBUG_RETURN(1);
}
#ifdef WITH_WSREP
mysql_mutex_lock(&thd->LOCK_thd_data);
enum wsrep::client_error wsrep_error= thd->wsrep_cs().current_error();
mysql_mutex_unlock(&thd->LOCK_thd_data);
if (wsrep_error == wsrep::e_success)
#endif /* WITH_WSREP */
if (slave_trans_retries)
{
int UNINIT_VAR(temp_err);
if (unlikely(exec_res) && (temp_err= has_temporary_error(thd)))
{
const char *errmsg;
rli->clear_error();
/*
We were in a transaction which has been rolled back because of a
temporary error;
let's seek back to BEGIN log event and retry it all again.
Note, if lock wait timeout (innodb_lock_wait_timeout exceeded)
there is no rollback since 5.0.13 (ref: manual).
We have to not only seek but also
a) init_master_info(), to seek back to hot relay log's start
for later (for when we will come back to this hot log after
re-processing the possibly existing old logs where BEGIN is:
check_binlog_magic() will then need the cache to be at
position 0 (see comments at beginning of
init_master_info()).
b) init_relay_log_pos(), because the BEGIN may be an older relay log.
*/
if (serial_rgi->trans_retries < slave_trans_retries)
{
if (init_master_info(rli->mi, 0, 0, 0, SLAVE_SQL))
sql_print_error("Failed to initialize the master info structure");
else if (init_relay_log_pos(rli,
rli->group_relay_log_name,
rli->group_relay_log_pos,
1, &errmsg, 1))
sql_print_error("Error initializing relay log position: %s",
errmsg);
else
{
exec_res= 0;
serial_rgi->cleanup_context(thd, 1);
/* chance for concurrent connection to get more locks */
slave_sleep(thd, MY_MAX(MY_MIN(serial_rgi->trans_retries,
MAX_SLAVE_RETRY_PAUSE),
slave_trans_retry_interval),
sql_slave_killed, serial_rgi);
serial_rgi->trans_retries++;
mysql_mutex_lock(&rli->data_lock); // because of SHOW STATUS
rli->retried_trans++;
statistic_increment(slave_retried_transactions, LOCK_status);
mysql_mutex_unlock(&rli->data_lock);
DBUG_PRINT("info", ("Slave retries transaction "
"rgi->trans_retries: %lu",
serial_rgi->trans_retries));
}
}
else
sql_print_error("Slave SQL thread retried transaction %lu time(s) "
"in vain, giving up. Consider raising the value of "
"the slave_transaction_retries variable.",
slave_trans_retries);
}
else if ((exec_res && !temp_err) ||
(opt_using_transactions &&
rli->group_relay_log_pos == rli->event_relay_log_pos))
{
/*
Only reset the retry counter if the entire group succeeded
or failed with a non-transient error. On a successful
event, the execution will proceed as usual; in the case of a
non-transient error, the slave will stop with an error.
*/
serial_rgi->trans_retries= 0; // restart from fresh
DBUG_PRINT("info", ("Resetting retry counter, rgi->trans_retries: %lu",
serial_rgi->trans_retries));
}
}
rli->executed_entries++;
#ifdef WITH_WSREP
wsrep_after_statement(thd);
#endif /* WITH_WSREP */
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF(
"pause_sql_thread_on_fde",
if (ev && typ == FORMAT_DESCRIPTION_EVENT) {
DBUG_ASSERT(!debug_sync_set_action(
thd,
STRING_WITH_LEN(
"now SIGNAL paused_on_fde WAIT_FOR sql_thread_continue")));
});
#endif
DBUG_RETURN(exec_res);
}
mysql_mutex_unlock(&rli->data_lock);
rli->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_READ_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_READ_FAILURE), "\
Could not parse relay log event entry. The possible reasons are: the master's \
binary log is corrupted (you can check this by running 'mysqlbinlog' on the \
binary log), the slave's relay log is corrupted (you can check this by running \
'mysqlbinlog' on the relay log), a network problem, or a bug in the master's \
or slave's MariaDB code. If you want to check the master's binary log or slave's \
relay log, you will be able to know their names by issuing 'SHOW SLAVE STATUS' \
on this slave.\
");
DBUG_RETURN(1);
}
static bool check_io_slave_killed(Master_info *mi, const char *info)
{
if (io_slave_killed(mi))
{
if (info && global_system_variables.log_warnings)
sql_print_information("%s", info);
return TRUE;
}
return FALSE;
}
/**
@brief Try to reconnect slave IO thread.
@details Terminates current connection to master, sleeps for
@c mi->connect_retry msecs and initiates new connection with
@c safe_reconnect(). Variable pointed by @c retry_count is increased -
if it exceeds @c master_retry_count then connection is not re-established
and function signals error.
Unless @c suppres_warnings is TRUE, a warning is put in the server error log
when reconnecting. The warning message and messages used to report errors
are taken from @c messages array. In case @c master_retry_count is exceeded,
no messages are added to the log.
@param[in] thd Thread context.
@param[in] mysql MySQL connection.
@param[in] mi Master connection information.
@param[in,out] retry_count Number of attempts to reconnect.
@param[in] suppress_warnings TRUE when a normal net read timeout
has caused to reconnecting.
@param[in] messages Messages to print/log, see
reconnect_messages[] array.
@retval 0 OK.
@retval 1 There was an error.
*/
static int try_to_reconnect(THD *thd, MYSQL *mysql, Master_info *mi,
uint *retry_count, bool suppress_warnings,
const char *messages[SLAVE_RECON_MSG_MAX])
{
mi->slave_running= MYSQL_SLAVE_RUN_NOT_CONNECT;
thd->proc_info= messages[SLAVE_RECON_MSG_WAIT];
#ifdef SIGNAL_WITH_VIO_CLOSE
thd->clear_active_vio();
#endif
end_server(mysql);
if ((*retry_count)++)
{
if (*retry_count > master_retry_count)
return 1; // Don't retry forever
slave_sleep(thd, mi->connect_retry, io_slave_killed, mi);
}
if (check_io_slave_killed(mi, messages[SLAVE_RECON_MSG_KILLED_WAITING]))
return 1;
thd->proc_info = messages[SLAVE_RECON_MSG_AFTER];
if (!suppress_warnings)
{
char buf[256];
StringBuffer<100> tmp;
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN("; GTID position '"));
mi->gtid_current_pos.append_to_string(&tmp);
if (mi->events_queued_since_last_gtid == 0)
tmp.append(STRING_WITH_LEN("'"));
else
{
tmp.append(STRING_WITH_LEN("', GTID event skip "));
tmp.append_ulonglong((ulonglong)mi->events_queued_since_last_gtid);
}
}
my_snprintf(buf, sizeof(buf), messages[SLAVE_RECON_MSG_FAILED],
IO_RPL_LOG_NAME, mi->master_log_pos,
tmp.c_ptr_safe());
/*
Raise a warining during registering on master/requesting dump.
Log a message reading event.
*/
if (messages[SLAVE_RECON_MSG_COMMAND][0])
{
mi->report(WARNING_LEVEL, ER_SLAVE_MASTER_COM_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_MASTER_COM_FAILURE),
messages[SLAVE_RECON_MSG_COMMAND], buf);
}
else
{
sql_print_information("%s", buf);
}
}
if (safe_reconnect(thd, mysql, mi, 1) || io_slave_killed(mi))
{
if (global_system_variables.log_warnings)
sql_print_information("%s", messages[SLAVE_RECON_MSG_KILLED_AFTER]);
return 1;
}
return 0;
}
/**
Slave IO thread entry point.
@param arg Pointer to Master_info struct that holds information for
the IO thread.
@return Always 0.
*/
pthread_handler_t handle_slave_io(void *arg)
{
THD *thd; // needs to be first for thread_stack
MYSQL *mysql;
Master_info *mi = (Master_info*)arg;
Relay_log_info *rli= &mi->rli;
uint retry_count;
bool suppress_warnings;
int ret;
rpl_io_thread_info io_info;
#ifndef DBUG_OFF
mi->dbug_do_disconnect= false;
#endif
// needs to call my_thread_init(), otherwise we get a coredump in DBUG_ stuff
my_thread_init();
DBUG_ENTER("handle_slave_io");
DBUG_ASSERT(mi->inited);
mysql= NULL ;
retry_count= 0;
thd= new THD(next_thread_id()); // note that contructor of THD uses DBUG_ !
mysql_mutex_lock(&mi->run_lock);
/* Inform waiting threads that slave has started */
mi->slave_run_id++;
#ifndef DBUG_OFF
mi->events_till_disconnect = disconnect_slave_event_count;
#endif
THD_CHECK_SENTRY(thd);
mi->io_thd = thd;
thd->set_psi(PSI_CALL_get_thread());
pthread_detach_this_thread();
thd->thread_stack= (char*) &thd; // remember where our stack is
mi->clear_error();
if (init_slave_thread(thd, mi, SLAVE_THD_IO))
{
mysql_cond_broadcast(&mi->start_cond);
sql_print_error("Failed during slave I/O thread initialization");
goto err_during_init;
}
thd->system_thread_info.rpl_io_info= &io_info;
server_threads.insert(thd);
mi->slave_running = MYSQL_SLAVE_RUN_NOT_CONNECT;
mi->abort_slave = 0;
mysql_mutex_unlock(&mi->run_lock);
mysql_cond_broadcast(&mi->start_cond);
mi->rows_event_tracker.reset();
DBUG_PRINT("master_info",("log_file_name: '%s' position: %llu",
mi->master_log_name, mi->master_log_pos));
/* This must be called before run any binlog_relay_io hooks */
my_pthread_setspecific_ptr(RPL_MASTER_INFO, mi);
/* Load the set of seen GTIDs, if we did not already. */
if (rpl_load_gtid_slave_state(thd))
{
mi->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(), NULL,
"Unable to load replication GTID slave state from mysql.%s: %s",
rpl_gtid_slave_state_table_name.str,
thd->get_stmt_da()->message());
/*
If we are using old-style replication, we can continue, even though we
then will not be able to record the GTIDs we receive. But if using GTID,
we must give up.
*/
if (mi->using_gtid != Master_info::USE_GTID_NO || opt_gtid_strict_mode)
goto err;
}
thd->variables.wsrep_on= 0;
if (DBUG_IF("failed_slave_start")
|| repl_semisync_slave.slave_start(mi))
{
mi->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
ER_THD(thd, ER_SLAVE_FATAL_ERROR),
"Failed to run 'thread_start' hook");
goto err;
}
if (!(mi->mysql = mysql = mysql_init(NULL)))
{
mi->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
ER_THD(thd, ER_SLAVE_FATAL_ERROR), "error in mysql_init()");
goto err;
}
THD_STAGE_INFO(thd, stage_connecting_to_master);
// we can get killed during safe_connect
if (!safe_connect(thd, mysql, mi))
{
if (mi->using_gtid == Master_info::USE_GTID_NO)
sql_print_information("Slave I/O thread: connected to master '%s@%s:%d',"
"replication started in log '%s' at position %llu",
mi->user, mi->host, mi->port,
IO_RPL_LOG_NAME, mi->master_log_pos);
else
{
StringBuffer<100> tmp;
mi->gtid_current_pos.to_string(&tmp);
sql_print_information("Slave I/O thread: connected to master '%s@%s:%d',"
"replication starts at GTID position '%s'",
mi->user, mi->host, mi->port, tmp.c_ptr_safe());
}
}
else
{
sql_print_information("Slave I/O thread killed while connecting to master");
goto err;
}
connected:
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
/*
When the IO thread (re)connects to the master using GTID, it will
connect at the start of an event group. But the IO thread may have
previously logged part of the following event group to the relay
log.
When the IO and SQL thread are started together, we erase any previous
relay logs, but this is not possible/desirable while the SQL thread is
running. To avoid duplicating partial event groups in the relay logs in
this case, we remember the count of events in any partially logged event
group before the reconnect, and then here at connect we set up a counter
to skip the already-logged part of the group.
*/
mi->gtid_reconnect_event_skip_count= mi->events_queued_since_last_gtid;
mi->gtid_event_seen= false;
/*
Reset stale state of the rows-event group tracker at reconnect.
*/
mi->rows_event_tracker.reset();
}
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF("dbug.before_get_running_status_yes",
{
const char act[]=
"now "
"wait_for signal.io_thread_let_running";
DBUG_ASSERT(debug_sync_service);
DBUG_ASSERT(!debug_sync_set_action(thd,
STRING_WITH_LEN(act)));
};);
#endif
mysql_mutex_lock(&mi->run_lock);
mi->slave_running= MYSQL_SLAVE_RUN_CONNECT;
mysql_mutex_unlock(&mi->run_lock);
thd->slave_net = &mysql->net;
THD_STAGE_INFO(thd, stage_checking_master_version);
ret= get_master_version_and_clock(mysql, mi);
if (ret == 1)
/* Fatal error */
goto err;
if (ret == 2)
{
if (check_io_slave_killed(mi, "Slave I/O thread killed "
"while calling get_master_version_and_clock(...)"))
goto err;
suppress_warnings= FALSE;
/*
Try to reconnect because the error was caused by a transient network
problem
*/
if (try_to_reconnect(thd, mysql, mi, &retry_count, suppress_warnings,
reconnect_messages[SLAVE_RECON_ACT_REG]))
goto err;
goto connected;
}
if (mi->rli.relay_log.description_event_for_queue->binlog_version > 1)
{
/*
Register ourselves with the master.
*/
THD_STAGE_INFO(thd, stage_registering_slave_on_master);
if (register_slave_on_master(mysql, mi, &suppress_warnings))
{
if (!check_io_slave_killed(mi, "Slave I/O thread killed "
"while registering slave on master"))
{
sql_print_error("Slave I/O thread couldn't register on master");
if (try_to_reconnect(thd, mysql, mi, &retry_count, suppress_warnings,
reconnect_messages[SLAVE_RECON_ACT_REG]))
goto err;
}
else
goto err;
goto connected;
}
DBUG_EXECUTE_IF("fail_com_register_slave", goto err;);
}
DBUG_PRINT("info",("Starting reading binary log from master"));
thd->set_command(COM_SLAVE_IO);
while (!io_slave_killed(mi))
{
const uchar *event_buf;
THD_STAGE_INFO(thd, stage_requesting_binlog_dump);
if (request_dump(thd, mysql, mi, &suppress_warnings))
{
sql_print_error("Failed on request_dump()");
if (check_io_slave_killed(mi, NullS) ||
try_to_reconnect(thd, mysql, mi, &retry_count, suppress_warnings,
reconnect_messages[SLAVE_RECON_ACT_DUMP]))
goto err;
goto connected;
}
mi->slave_running= MYSQL_SLAVE_RUN_READING;
DBUG_ASSERT(mi->last_error().number == 0);
ulonglong lastchecktime = my_hrtime().val;
ulonglong tokenamount = opt_read_binlog_speed_limit*1024;
while (!io_slave_killed(mi))
{
ulong event_len, network_read_len = 0;
/*
We say "waiting" because read_event() will wait if there's nothing to
read. But if there's something to read, it will not wait. The
important thing is to not confuse users by saying "reading" whereas
we're in fact receiving nothing.
*/
THD_STAGE_INFO(thd, stage_waiting_for_master_to_send_event);
event_len= read_event(mysql, mi, &suppress_warnings, &network_read_len);
if (check_io_slave_killed(mi, NullS))
goto err;
if (unlikely(event_len == packet_error))
{
uint mysql_error_number= mysql_errno(mysql);
switch (mysql_error_number) {
case CR_NET_PACKET_TOO_LARGE:
sql_print_error("\
Log entry on master is longer than slave_max_allowed_packet (%lu) on \
slave. If the entry is correct, restart the server with a higher value of \
slave_max_allowed_packet",
slave_max_allowed_packet);
mi->report(ERROR_LEVEL, ER_NET_PACKET_TOO_LARGE, NULL,
"%s", "Got a packet bigger than 'slave_max_allowed_packet' bytes");
goto err;
case ER_MASTER_FATAL_ERROR_READING_BINLOG:
mi->report(ERROR_LEVEL, ER_MASTER_FATAL_ERROR_READING_BINLOG, NULL,
ER_THD(thd, ER_MASTER_FATAL_ERROR_READING_BINLOG),
mysql_error_number, mysql_error(mysql));
goto err;
case ER_OUT_OF_RESOURCES:
sql_print_error("\
Stopping slave I/O thread due to out-of-memory error from master");
mi->report(ERROR_LEVEL, ER_OUT_OF_RESOURCES, NULL,
"%s", ER_THD(thd, ER_OUT_OF_RESOURCES));
goto err;
}
if (try_to_reconnect(thd, mysql, mi, &retry_count, suppress_warnings,
reconnect_messages[SLAVE_RECON_ACT_EVENT]))
goto err;
goto connected;
} // if (event_len == packet_error)
retry_count=0; // ok event, reset retry counter
THD_STAGE_INFO(thd, stage_queueing_master_event_to_the_relay_log);
event_buf= mysql->net.read_pos + 1;
mi->semi_ack= 0;
if (repl_semisync_slave.
slave_read_sync_header((const uchar*) mysql->net.read_pos + 1,
event_len,
&(mi->semi_ack), &event_buf, &event_len))
{
mi->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
ER_THD(thd, ER_SLAVE_FATAL_ERROR),
"Failed to run 'after_read_event' hook");
goto err;
}
/* Control the binlog read speed of master
when read_binlog_speed_limit is non-zero
*/
ulonglong speed_limit_in_bytes = opt_read_binlog_speed_limit * 1024;
if (speed_limit_in_bytes)
{
/* Prevent the tokenamount become a large value,
for example, the IO thread doesn't work for a long time
*/
if (tokenamount > speed_limit_in_bytes * 2)
{
lastchecktime = my_hrtime().val;
tokenamount = speed_limit_in_bytes * 2;
}
do
{
ulonglong currenttime = my_hrtime().val;
tokenamount += (currenttime - lastchecktime) * speed_limit_in_bytes / (1000*1000);
lastchecktime = currenttime;
if(tokenamount < network_read_len)
{
ulonglong duration =1000ULL*1000 * (network_read_len - tokenamount) / speed_limit_in_bytes;
time_t second_time = (time_t)(duration / (1000 * 1000));
uint micro_time = duration % (1000 * 1000);
// at least sleep 1000 micro second
my_sleep(MY_MAX(micro_time,1000));
/*
If it sleep more than one second,
it should use slave_sleep() to avoid the STOP SLAVE hang.
*/
if (second_time)
slave_sleep(thd, second_time, io_slave_killed, mi);
}
}while(tokenamount < network_read_len);
tokenamount -= network_read_len;
}
if (queue_event(mi, event_buf, event_len))
{
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"could not queue event from master");
goto err;
}
if (rpl_semi_sync_slave_status && (mi->semi_ack & SEMI_SYNC_NEED_ACK))
{
/*
We deliberately ignore the error in slave_reply, such error should
not cause the slave IO thread to stop, and the error messages are
already reported.
*/
DBUG_EXECUTE_IF("simulate_delay_semisync_slave_reply", my_sleep(800000););
(void)repl_semisync_slave.slave_reply(mi);
}
if (mi->using_gtid == Master_info::USE_GTID_NO &&
/*
If rpl_semi_sync_slave_delay_master is enabled, we will flush
master info only when ack is needed. This may lead to at least one
group transaction delay but affords better performance improvement.
*/
(!repl_semisync_slave.get_slave_enabled() ||
(!(mi->semi_ack & SEMI_SYNC_SLAVE_DELAY_SYNC) ||
(mi->semi_ack & (SEMI_SYNC_NEED_ACK)))) &&
(DBUG_IF("failed_flush_master_info") ||
flush_master_info(mi, TRUE, TRUE)))
{
sql_print_error("Failed to flush master info file");
goto err;
}
/*
See if the relay logs take too much space.
We don't lock mi->rli.log_space_lock here; this dirty read saves time
and does not introduce any problem:
- if mi->rli.ignore_log_space_limit is 1 but becomes 0 just after (so
the clean value is 0), then we are reading only one more event as we
should, and we'll block only at the next event. No big deal.
- if mi->rli.ignore_log_space_limit is 0 but becomes 1 just
after (so the clean value is 1), then we are going into
wait_for_relay_log_space() for no reason, but this function
will do a clean read, notice the clean value and exit
immediately.
*/
#ifndef DBUG_OFF
{
DBUG_PRINT("info", ("log_space_limit=%llu log_space_total=%llu "
"ignore_log_space_limit=%d",
rli->log_space_limit, uint64(rli->log_space_total),
(int) rli->ignore_log_space_limit));
}
#endif
if (rli->log_space_limit && rli->log_space_limit <
rli->log_space_total &&
!rli->ignore_log_space_limit)
if (wait_for_relay_log_space(rli))
{
sql_print_error("Slave I/O thread aborted while waiting for relay \
log space");
goto err;
}
}
}
// error = 0;
err:
// print the current replication position
if (mi->using_gtid == Master_info::USE_GTID_NO)
sql_print_information("Slave I/O thread exiting, read up to log '%s', "
"position %llu, master %s:%d", IO_RPL_LOG_NAME, mi->master_log_pos,
mi->host, mi->port);
else
{
StringBuffer<100> tmp;
mi->gtid_current_pos.to_string(&tmp);
sql_print_information("Slave I/O thread exiting, read up to log '%s', "
"position %llu; GTID position %s, master %s:%d",
IO_RPL_LOG_NAME, mi->master_log_pos,
tmp.c_ptr_safe(), mi->host, mi->port);
}
repl_semisync_slave.slave_stop(mi);
thd->reset_query();
thd->reset_db(&null_clex_str);
if (mysql)
{
/*
Here we need to clear the active VIO before closing the
connection with the master. The reason is that THD::awake()
might be called from terminate_slave_thread() because somebody
issued a STOP SLAVE. If that happends, the close_active_vio()
can be called in the middle of closing the VIO associated with
the 'mysql' object, causing a crash.
*/
#ifdef SIGNAL_WITH_VIO_CLOSE
thd->clear_active_vio();
#endif
mysql_close(mysql);
mi->mysql=0;
}
write_ignored_events_info_to_relay_log(thd, mi);
if (mi->using_gtid != Master_info::USE_GTID_NO)
flush_master_info(mi, TRUE, TRUE);
THD_STAGE_INFO(thd, stage_waiting_for_slave_mutex_on_exit);
thd->add_status_to_global();
server_threads.erase(thd);
mysql_mutex_lock(&mi->run_lock);
err_during_init:
/* Forget the relay log's format */
delete mi->rli.relay_log.description_event_for_queue;
mi->rli.relay_log.description_event_for_queue= 0;
// TODO: make rpl_status part of Master_info
change_rpl_status(RPL_ACTIVE_SLAVE,RPL_IDLE_SLAVE);
thd->assert_not_linked();
delete thd;
mi->abort_slave= 0;
mi->slave_running= MYSQL_SLAVE_NOT_RUN;
mi->io_thd= 0;
mi->do_accept_own_server_id= false;
/*
Note: the order of the two following calls (first broadcast, then unlock)
is important. Otherwise a killer_thread can execute between the calls and
delete the mi structure leading to a crash! (see BUG#25306 for details)
*/
mysql_cond_broadcast(&mi->stop_cond); // tell the world we are done
DBUG_EXECUTE_IF("simulate_slave_delay_at_terminate_bug38694", sleep(5););
mysql_mutex_unlock(&mi->run_lock);
DBUG_LEAVE; // Must match DBUG_ENTER()
my_thread_end();
ERR_remove_state(0);
return nullptr;
}
/*
Check the temporary directory used by commands like
LOAD DATA INFILE.
As the directory never changes during a mysqld run, we only
test this once and cache the result. This also resolve a race condition
when this can be run by multiple threads at the same time.
*/
static bool check_temp_dir_run= 0;
static int check_temp_dir_result= 0;
static
int check_temp_dir(char* tmp_file)
{
File fd;
int result= 1; // Assume failure
MY_DIR *dirp;
char tmp_dir[FN_REFLEN];
size_t tmp_dir_size;
DBUG_ENTER("check_temp_dir");
/* This look is safe to use as this function is only called once */
mysql_mutex_lock(&LOCK_start_thread);
if (check_temp_dir_run)
{
if ((result= check_temp_dir_result))
my_message(result, tmp_file, MYF(0));
goto end;
}
check_temp_dir_run= 1;
/*
Get the directory from the temporary file.
*/
dirname_part(tmp_dir, tmp_file, &tmp_dir_size);
/*
Check if the directory exists.
*/
if (!(dirp=my_dir(tmp_dir,MYF(MY_WME))))
goto end;
my_dirend(dirp);
/*
Check permissions to create a file. We use O_TRUNC to ensure that
things works even if we happen to have and old file laying around.
*/
if ((fd= mysql_file_create(key_file_misc,
tmp_file, CREATE_MODE,
O_WRONLY | O_BINARY | O_TRUNC | O_NOFOLLOW,
MYF(MY_WME))) < 0)
goto end;
result= 0; // Directory name ok
/*
Clean up.
*/
mysql_file_close(fd, MYF(0));
mysql_file_delete(key_file_misc, tmp_file, MYF(0));
end:
mysql_mutex_unlock(&LOCK_start_thread);
DBUG_RETURN(result);
}
void
slave_output_error_info(rpl_group_info *rgi, THD *thd)
{
/*
retrieve as much info as possible from the thd and, error
codes and warnings and print this to the error log as to
allow the user to locate the error
*/
Relay_log_info *rli= rgi->rli;
uint32 const last_errno= rli->last_error().number;
if (unlikely(thd->is_error()))
{
char const *const errmsg= thd->get_stmt_da()->message();
DBUG_PRINT("info",
("thd->get_stmt_da()->sql_errno()=%d; rli->last_error.number=%d",
thd->get_stmt_da()->sql_errno(), last_errno));
if (last_errno == 0)
{
/*
This function is reporting an error which was not reported
while executing exec_relay_log_event().
*/
rli->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(),
rgi->gtid_info(), "%s", errmsg);
}
else if (last_errno != thd->get_stmt_da()->sql_errno())
{
/*
* An error was reported while executing exec_relay_log_event()
* however the error code differs from what is in the thread.
* This function prints out more information to help finding
* what caused the problem.
*/
sql_print_error("Slave (additional info): %s Error_code: %d",
errmsg, thd->get_stmt_da()->sql_errno());
}
}
/* Print any warnings issued */
Diagnostics_area::Sql_condition_iterator it=
thd->get_stmt_da()->sql_conditions();
const Sql_condition *err;
/*
Added controlled slave thread cancel for replication
of user-defined variables.
*/
bool udf_error = false;
while ((err= it++))
{
if (err->get_sql_errno() == ER_CANT_OPEN_LIBRARY)
udf_error = true;
sql_print_warning("Slave: %s Error_code: %d", err->get_message_text(), err->get_sql_errno());
}
if (unlikely(udf_error))
{
StringBuffer<100> tmp;
if (rli->mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN("; GTID position '"));
rpl_append_gtid_state(&tmp, false);
tmp.append(STRING_WITH_LEN("'"));
}
sql_print_error("Error loading user-defined library, slave SQL "
"thread aborted. Install the missing library, and restart the "
"slave SQL thread with \"SLAVE START\". We stopped at log '%s' "
"position %llu%s", RPL_LOG_NAME, rli->group_master_log_pos,
tmp.c_ptr_safe());
}
else
{
StringBuffer<100> tmp;
if (rli->mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN("; GTID position '"));
rpl_append_gtid_state(&tmp, false);
tmp.append(STRING_WITH_LEN("'"));
}
sql_print_error("Error running query, slave SQL thread aborted. "
"Fix the problem, and restart the slave SQL thread "
"with \"SLAVE START\". We stopped at log '%s' position "
"%llu%s", RPL_LOG_NAME, rli->group_master_log_pos,
tmp.c_ptr_safe());
}
}
/**
Slave SQL thread entry point.
@param arg Pointer to Relay_log_info object that holds information
for the SQL thread.
@return Always 0.
*/
pthread_handler_t handle_slave_sql(void *arg)
{
THD *thd; /* needs to be first for thread_stack */
char saved_log_name[FN_REFLEN];
char saved_master_log_name[FN_REFLEN];
my_off_t UNINIT_VAR(saved_log_pos);
my_off_t UNINIT_VAR(saved_master_log_pos);
String saved_skip_gtid_pos;
my_off_t saved_skip= 0;
Master_info *mi= ((Master_info*)arg);
Relay_log_info* rli = &mi->rli;
my_bool wsrep_node_dropped __attribute__((unused)) = FALSE;
const char *errmsg;
rpl_group_info *serial_rgi;
rpl_sql_thread_info sql_info(mi->rpl_filter);
// needs to call my_thread_init(), otherwise we get a coredump in DBUG_ stuff
my_thread_init();
DBUG_ENTER("handle_slave_sql");
#ifdef WITH_WSREP
wsrep_restart_point:
#endif
serial_rgi= new rpl_group_info(rli);
thd = new THD(next_thread_id()); // note that contructor of THD uses DBUG_ !
thd->thread_stack = (char*)&thd; // remember where our stack is
thd->system_thread_info.rpl_sql_info= &sql_info;
DBUG_ASSERT(rli->inited);
DBUG_ASSERT(rli->mi == mi);
/*
Reset errors for a clean start (otherwise, if the master is idle, the SQL
thread may execute no Query_log_event, so the error will remain even
though there's no problem anymore). Do not reset the master timestamp
(imagine the slave has caught everything, the STOP SLAVE and START SLAVE:
as we are not sure that we are going to receive a query, we want to
remember the last master timestamp (to say how many seconds behind we are
now.
But the master timestamp is reset by RESET SLAVE & CHANGE MASTER.
*/
rli->clear_error();
mysql_mutex_lock(&rli->run_lock);
DBUG_ASSERT(!rli->slave_running);
errmsg= 0;
#ifndef DBUG_OFF
rli->events_till_abort = abort_slave_event_count;
#endif
/*
THD for the sql driver thd. In parallel replication this is the thread
that reads things from the relay log and calls rpl_parallel::do_event()
to execute queries.
In single thread replication this is the THD for the thread that is
executing SQL queries too.
*/
serial_rgi->thd= rli->sql_driver_thd= thd;
thd->set_psi(PSI_CALL_get_thread());
/* Inform waiting threads that slave has started */
rli->slave_run_id++;
rli->slave_running= MYSQL_SLAVE_RUN_NOT_CONNECT;
pthread_detach_this_thread();
if (opt_slave_parallel_threads > 0 &&
rpl_parallel_activate_pool(&global_rpl_thread_pool))
{
mysql_cond_broadcast(&rli->start_cond);
rli->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
"Failed during parallel slave pool activation");
goto err_during_init;
}
if (init_slave_thread(thd, mi, SLAVE_THD_SQL))
{
/*
TODO: this is currently broken - slave start and change master
will be stuck if we fail here
*/
mysql_cond_broadcast(&rli->start_cond);
rli->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
"Failed during slave thread initialization");
goto err_during_init;
}
thd->init_for_queries();
thd->rgi_slave= serial_rgi;
if ((serial_rgi->deferred_events_collecting= mi->rpl_filter->is_on()))
{
serial_rgi->deferred_events= new Deferred_log_events(rli);
}
/*
binlog_annotate_row_events must be TRUE only after an Annotate_rows event
has been received and only till the last corresponding rbr event has been
applied. In all other cases it must be FALSE.
*/
thd->variables.binlog_annotate_row_events= 0;
/* Ensure that slave can exeute any alter table it gets from master */
thd->variables.alter_algorithm= (ulong) Alter_info::ALTER_TABLE_ALGORITHM_DEFAULT;
server_threads.insert(thd);
/*
We are going to set slave_running to 1. Assuming slave I/O thread is
alive and connected, this is going to make Seconds_Behind_Master be 0
i.e. "caught up". Even if we're just at start of thread. Well it's ok, at
the moment we start we can think we are caught up, and the next second we
start receiving data so we realize we are not caught up and
Seconds_Behind_Master grows. No big deal.
*/
rli->abort_slave = 0;
rli->stop_for_until= false;
mysql_mutex_unlock(&rli->run_lock);
mysql_cond_broadcast(&rli->start_cond);
#ifdef ENABLED_DEBUG_SYNC
DBUG_EXECUTE_IF("delay_sql_thread_after_release_run_lock", {
const char act[]= "now "
"signal sql_thread_run_lock_released "
"wait_for sql_thread_continue";
DBUG_ASSERT(debug_sync_service);
DBUG_ASSERT(!debug_sync_set_action(current_thd, STRING_WITH_LEN(act)));
};);
#endif
rli->parallel.reset();
//tell the I/O thread to take relay_log_space_limit into account from now on
rli->ignore_log_space_limit= 0;
serial_rgi->gtid_sub_id= 0;
serial_rgi->gtid_pending= false;
rli->last_seen_gtid= serial_rgi->current_gtid;
if (mi->using_gtid != Master_info::USE_GTID_NO && mi->using_parallel() &&
rli->restart_gtid_pos.count() > 0)
{
/*
With parallel replication in GTID mode, if we have a multi-domain GTID
position, we need to start some way back in the relay log and skip any
GTID that was already applied before. Since event groups can be split
across multiple relay logs, this earlier starting point may be in the
middle of an already applied event group, so we also need to skip any
remaining part of such group.
*/
rli->gtid_skip_flag = GTID_SKIP_TRANSACTION;
}
else
rli->gtid_skip_flag = GTID_SKIP_NOT;
if (init_relay_log_pos(rli,
rli->group_relay_log_name,
rli->group_relay_log_pos,
1 /*need data lock*/, &errmsg,
1 /*look for a description_event*/))
{
rli->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
"Error initializing relay log position: %s", errmsg);
goto err_before_start;
}
rli->reset_inuse_relaylog();
if (rli->alloc_inuse_relaylog(rli->group_relay_log_name))
goto err_before_start;
strcpy(rli->future_event_master_log_name, rli->group_master_log_name);
THD_CHECK_SENTRY(thd);
#ifndef DBUG_OFF
{
DBUG_PRINT("info", ("my_b_tell(rli->cur_log)=%llu "
"rli->event_relay_log_pos=%llu",
my_b_tell(rli->cur_log), rli->event_relay_log_pos));
DBUG_ASSERT(rli->event_relay_log_pos >= BIN_LOG_HEADER_SIZE);
/*
Wonder if this is correct. I (Guilhem) wonder if my_b_tell() returns the
correct position when it's called just after my_b_seek() (the questionable
stuff is those "seek is done on next read" comments in the my_b_seek()
source code).
The crude reality is that this assertion randomly fails whereas
replication seems to work fine. And there is no easy explanation why it
fails (as we my_b_seek(rli->event_relay_log_pos) at the very end of
init_relay_log_pos() called above). Maybe the assertion would be
meaningful if we held rli->data_lock between the my_b_seek() and the
DBUG_ASSERT().
*/
#ifdef SHOULD_BE_CHECKED
DBUG_ASSERT(my_b_tell(rli->cur_log) == rli->event_relay_log_pos);
#endif
}
#endif
DBUG_PRINT("master_info",("log_file_name: %s position: %llu",
rli->group_master_log_name,
rli->group_master_log_pos));
if (global_system_variables.log_warnings)
{
StringBuffer<100> tmp;
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN("; GTID position '"));
rpl_append_gtid_state(&tmp,
mi->using_gtid==Master_info::USE_GTID_CURRENT_POS);
tmp.append(STRING_WITH_LEN("'"));
}
sql_print_information("Slave SQL thread initialized, starting replication "
"in log '%s' at position %llu, relay log '%s' "
"position: %llu%s", RPL_LOG_NAME,
rli->group_master_log_pos, rli->group_relay_log_name,
rli->group_relay_log_pos, tmp.c_ptr_safe());
}
if (check_temp_dir(rli->slave_patternload_file))
{
check_temp_dir_result= thd->get_stmt_da()->sql_errno();
rli->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(), NULL,
"Unable to use slave's temporary directory %s - %s",
slave_load_tmpdir, thd->get_stmt_da()->message());
goto err;
}
else
check_temp_dir_result= 0;
/* Load the set of seen GTIDs, if we did not already. */
if (rpl_load_gtid_slave_state(thd))
{
rli->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(), NULL,
"Unable to load replication GTID slave state from mysql.%s: %s",
rpl_gtid_slave_state_table_name.str,
thd->get_stmt_da()->message());
/*
If we are using old-style replication, we can continue, even though we
then will not be able to record the GTIDs we receive. But if using GTID,
we must give up.
*/
if (mi->using_gtid != Master_info::USE_GTID_NO || opt_gtid_strict_mode)
goto err;
}
/* Re-load the set of mysql.gtid_slave_posXXX tables available. */
if (find_gtid_slave_pos_tables(thd))
{
rli->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(), NULL,
"Error processing replication GTID position tables: %s",
thd->get_stmt_da()->message());
goto err;
}
/* execute init_slave variable */
if (opt_init_slave.length)
{
execute_init_command(thd, &opt_init_slave, &LOCK_sys_init_slave);
if (unlikely(thd->is_slave_error))
{
rli->report(ERROR_LEVEL, thd->get_stmt_da()->sql_errno(), NULL,
"Slave SQL thread aborted. Can't execute init_slave query");
goto err;
}
}
/*
First check until condition - probably there is nothing to execute. We
do not want to wait for next event in this case.
*/
mysql_mutex_lock(&rli->data_lock);
if (rli->slave_skip_counter)
{
strmake_buf(saved_log_name, rli->group_relay_log_name);
strmake_buf(saved_master_log_name, rli->group_master_log_name);
saved_log_pos= rli->group_relay_log_pos;
saved_master_log_pos= rli->group_master_log_pos;
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
saved_skip_gtid_pos.append(STRING_WITH_LEN(", GTID '"));
rpl_append_gtid_state(&saved_skip_gtid_pos, false);
saved_skip_gtid_pos.append(STRING_WITH_LEN("'; "));
}
saved_skip= rli->slave_skip_counter;
}
if ((rli->until_condition == Relay_log_info::UNTIL_MASTER_POS ||
rli->until_condition == Relay_log_info::UNTIL_RELAY_POS) &&
rli->is_until_satisfied(NULL))
{
sql_print_information("Slave SQL thread stopped because it reached its"
" UNTIL position %llu in %s %s file",
rli->until_pos(), rli->until_name(),
rli->until_condition ==
Relay_log_info::UNTIL_MASTER_POS ?
"binlog" : "relaylog");
mysql_mutex_unlock(&rli->data_lock);
goto err;
}
mysql_mutex_unlock(&rli->data_lock);
#ifdef WITH_WSREP
wsrep_open(thd);
if (WSREP_ON_)
wsrep_wait_ready(thd);
if (wsrep_before_command(thd))
{
WSREP_WARN("Slave SQL wsrep_before_command() failed");
goto err;
}
#endif /* WITH_WSREP */
/* Read queries from the IO/THREAD until this thread is killed */
thd->set_command(COM_SLAVE_SQL);
while (!sql_slave_killed(serial_rgi))
{
THD_STAGE_INFO(thd, stage_reading_event_from_the_relay_log);
THD_CHECK_SENTRY(thd);
if (saved_skip && rli->slave_skip_counter == 0)
{
StringBuffer<100> tmp;
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN(", GTID '"));
rpl_append_gtid_state(&tmp, false);
tmp.append(STRING_WITH_LEN("'; "));
}
sql_print_information("'SQL_SLAVE_SKIP_COUNTER=%ld' executed at "
"relay_log_file='%s', relay_log_pos='%ld', master_log_name='%s', "
"master_log_pos='%ld'%s and new position at "
"relay_log_file='%s', relay_log_pos='%ld', master_log_name='%s', "
"master_log_pos='%ld'%s ",
(ulong) saved_skip, saved_log_name, (ulong) saved_log_pos,
saved_master_log_name, (ulong) saved_master_log_pos,
saved_skip_gtid_pos.c_ptr_safe(),
rli->group_relay_log_name, (ulong) rli->group_relay_log_pos,
rli->group_master_log_name, (ulong) rli->group_master_log_pos,
tmp.c_ptr_safe());
saved_skip= 0;
saved_skip_gtid_pos.free();
}
if (exec_relay_log_event(thd, rli, serial_rgi))
{
#ifdef WITH_WSREP
if (WSREP(thd))
{
mysql_mutex_lock(&thd->LOCK_thd_data);
if (thd->wsrep_cs().current_error())
{
wsrep_node_dropped = TRUE;
rli->abort_slave = TRUE;
}
mysql_mutex_unlock(&thd->LOCK_thd_data);
}
#endif /* WITH_WSREP */
DBUG_PRINT("info", ("exec_relay_log_event() failed"));
// do not scare the user if SQL thread was simply killed or stopped
if (!sql_slave_killed(serial_rgi))
{
slave_output_error_info(serial_rgi, thd);
if (WSREP(thd) && rli->last_error().number == ER_UNKNOWN_COM_ERROR)
{
wsrep_node_dropped= TRUE;
}
}
goto err;
}
}
err:
if (mi->using_parallel())
{
rli->parallel.wait_for_done(thd, rli);
};
/* Gtid_list_log_event::do_apply_event has already reported the GTID until */
if (rli->stop_for_until && rli->until_condition != Relay_log_info::UNTIL_GTID)
{
if (global_system_variables.log_warnings > 2)
sql_print_information("Slave SQL thread UNTIL stop was requested at position "
"%llu in %s %s file",
rli->until_log_pos, rli->until_log_name,
rli->until_condition ==
Relay_log_info::UNTIL_MASTER_POS ?
"binlog" : "relaylog");
sql_print_information("Slave SQL thread stopped because it reached its"
" UNTIL position %llu in %s %s file",
rli->until_pos(), rli->until_name(),
rli->until_condition ==
Relay_log_info::UNTIL_MASTER_POS ?
"binlog" : "relaylog");
};
/* Thread stopped. Print the current replication position to the log */
{
StringBuffer<100> tmp;
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
tmp.append(STRING_WITH_LEN("; GTID position '"));
rpl_append_gtid_state(&tmp, false);
tmp.append(STRING_WITH_LEN("'"));
}
sql_print_information("Slave SQL thread exiting, replication stopped in "
"log '%s' at position %llu%s, master: %s:%d", RPL_LOG_NAME,
rli->group_master_log_pos, tmp.c_ptr_safe(),
mi->host, mi->port);
}
#ifdef WITH_WSREP
wsrep_after_command_before_result(thd);
wsrep_after_command_after_result(thd);
#endif /* WITH_WSREP */
err_before_start:
/*
Some events set some playgrounds, which won't be cleared because thread
stops. Stopping of this thread may not be known to these events ("stop"
request is detected only by the present function, not by events), so we
must "proactively" clear playgrounds:
*/
thd->clear_error();
serial_rgi->cleanup_context(thd, 1);
/*
Some extra safety, which should not been needed (normally, event deletion
should already have done these assignments (each event which sets these
variables is supposed to set them to 0 before terminating)).
*/
thd->catalog= 0;
thd->reset_query();
thd->reset_db(&null_clex_str);
if (rli->mi->using_gtid != Master_info::USE_GTID_NO)
{
ulong domain_count;
my_bool save_log_all_errors= thd->log_all_errors;
/*
We don't need to check return value for rli->flush()
as any errors should be logged to stderr
*/
thd->log_all_errors= 1;
rli->flush();
thd->log_all_errors= save_log_all_errors;
if (mi->using_parallel())
{
/*
In parallel replication GTID mode, we may stop with different domains
at different positions in the relay log.
To handle this when we restart the SQL thread, mark the current
per-domain position in the Relay_log_info.
*/
mysql_mutex_lock(&rpl_global_gtid_slave_state->LOCK_slave_state);
domain_count= rpl_global_gtid_slave_state->count();
mysql_mutex_unlock(&rpl_global_gtid_slave_state->LOCK_slave_state);
if (domain_count > 1)
{
inuse_relaylog *ir;
/*
Load the starting GTID position, so that we can skip already applied
GTIDs when we restart the SQL thread. And set the start position in
the relay log back to a known safe place to start (prior to any not
yet applied transaction in any domain).
*/
rli->restart_gtid_pos.load(rpl_global_gtid_slave_state, NULL, 0);
if ((ir= rli->inuse_relaylog_list))
{
rpl_gtid *gtid= ir->relay_log_state;
uint32 count= ir->relay_log_state_count;
while (count > 0)
{
process_gtid_for_restart_pos(rli, gtid);
++gtid;
--count;
}
strmake_buf(rli->group_relay_log_name, ir->name);
rli->group_relay_log_pos= BIN_LOG_HEADER_SIZE;
rli->relay_log_state.load(ir->relay_log_state, ir->relay_log_state_count);
}
}
}
}
THD_STAGE_INFO(thd, stage_waiting_for_slave_mutex_on_exit);
thd->add_status_to_global();
server_threads.erase(thd);
mysql_mutex_lock(&rli->run_lock);
err_during_init:
/* We need data_lock, at least to wake up any waiting master_pos_wait() */
mysql_mutex_lock(&rli->data_lock);
DBUG_ASSERT(rli->slave_running == MYSQL_SLAVE_RUN_NOT_CONNECT); // tracking buffer overrun
/* When master_pos_wait() wakes up it will check this and terminate */
rli->slave_running= MYSQL_SLAVE_NOT_RUN;
/* Forget the relay log's format */
delete rli->relay_log.description_event_for_exec;
rli->relay_log.description_event_for_exec= 0;
rli->reset_inuse_relaylog();
/* Wake up master_pos_wait() */
mysql_mutex_unlock(&rli->data_lock);
DBUG_PRINT("info",("Signaling possibly waiting master_pos_wait() functions"));
mysql_cond_broadcast(&rli->data_cond);
rli->ignore_log_space_limit= 0; /* don't need any lock */
/* we die so won't remember charset - re-update them on next thread start */
thd->system_thread_info.rpl_sql_info->cached_charset_invalidate();
/*
TODO: see if we can do this conditionally in next_event() instead
to avoid unneeded position re-init
We only reset THD::temporary_tables to 0 here and not free it, as this
could be used by slave through Relay_log_info::save_temporary_tables.
*/
thd->temporary_tables= 0;
rli->sql_driver_thd= 0;
thd->rgi_fake= thd->rgi_slave= NULL;
#ifdef WITH_WSREP
/*
If slave stopped due to node going non primary, we set global flag to
trigger automatic restart of slave when node joins back to cluster.
*/
if (WSREP(thd) && wsrep_node_dropped && wsrep_restart_slave)
{
if (wsrep_ready_get())
{
WSREP_INFO("Slave error due to node temporarily non-primary"
"SQL slave will continue");
wsrep_node_dropped= FALSE;
mysql_mutex_unlock(&rli->run_lock);
goto wsrep_restart_point;
}
else
{
WSREP_INFO("Slave error due to node going non-primary");
WSREP_INFO("wsrep_restart_slave was set and therefore slave will be "
"automatically restarted when node joins back to cluster");
wsrep_restart_slave_activated= TRUE;
}
}
wsrep_close(thd);
#endif /* WITH_WSREP */
/*
Note: the order of the broadcast and unlock calls below (first
broadcast, then unlock) is important. Otherwise a killer_thread can
execute between the calls and delete the mi structure leading to a
crash! (see BUG#25306 for details)
*/
mysql_cond_broadcast(&rli->stop_cond);
DBUG_EXECUTE_IF("simulate_slave_delay_at_terminate_bug38694", sleep(5););
mysql_mutex_unlock(&rli->run_lock); // tell the world we are done
rpl_parallel_resize_pool_if_no_slaves();
delete serial_rgi;
delete thd;
DBUG_LEAVE; // Must match DBUG_ENTER()
my_thread_end();
ERR_remove_state(0);
return nullptr;
}
/*
process_io_create_file()
*/
static int process_io_create_file(Master_info* mi, Create_file_log_event* cev)
{
int error = 1;
ulong num_bytes;
bool cev_not_written;
THD *thd = mi->io_thd;
NET *net = &mi->mysql->net;
DBUG_ENTER("process_io_create_file");
if (unlikely(!cev->is_valid()))
DBUG_RETURN(1);
if (!mi->rpl_filter->db_ok(cev->db))
{
skip_load_data_infile(net);
DBUG_RETURN(0);
}
DBUG_ASSERT(cev->inited_from_old);
thd->file_id = cev->file_id = mi->file_id++;
thd->variables.server_id = cev->server_id;
cev_not_written = 1;
if (unlikely(net_request_file(net,cev->fname)))
{
sql_print_error("Slave I/O: failed requesting download of '%s'",
cev->fname);
goto err;
}
/*
This dummy block is so we could instantiate Append_block_log_event
once and then modify it slightly instead of doing it multiple times
in the loop
*/
{
Append_block_log_event aev(thd,0,0,0,0);
for (;;)
{
if (unlikely((num_bytes=my_net_read(net)) == packet_error))
{
sql_print_error("Network read error downloading '%s' from master",
cev->fname);
goto err;
}
if (unlikely(!num_bytes)) /* eof */
{
/* 3.23 master wants it */
net_write_command(net, 0, (uchar*) "", 0, (uchar*) "", 0);
/*
If we wrote Create_file_log_event, then we need to write
Execute_load_log_event. If we did not write Create_file_log_event,
then this is an empty file and we can just do as if the LOAD DATA
INFILE had not existed, i.e. write nothing.
*/
if (unlikely(cev_not_written))
break;
Execute_load_log_event xev(thd,0,0);
xev.log_pos = cev->log_pos;
if (unlikely(mi->rli.relay_log.append(&xev)))
{
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"error writing Exec_load event to relay log");
goto err;
}
mi->rli.relay_log.harvest_bytes_written(&mi->rli.log_space_total);
break;
}
if (unlikely(cev_not_written))
{
cev->block = net->read_pos;
cev->block_len = num_bytes;
if (unlikely(mi->rli.relay_log.append(cev)))
{
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"error writing Create_file event to relay log");
goto err;
}
cev_not_written=0;
mi->rli.relay_log.harvest_bytes_written(&mi->rli.log_space_total);
}
else
{
aev.block = net->read_pos;
aev.block_len = num_bytes;
aev.log_pos = cev->log_pos;
if (unlikely(mi->rli.relay_log.append(&aev)))
{
mi->report(ERROR_LEVEL, ER_SLAVE_RELAY_LOG_WRITE_FAILURE, NULL,
ER_THD(thd, ER_SLAVE_RELAY_LOG_WRITE_FAILURE),
"error writing Append_block event to relay log");
goto err;
}
mi->rli.relay_log.harvest_bytes_written(&mi->rli.log_space_total) ;
}
}
}
error=0;
err:
DBUG_RETURN(error);
}
/*
Start using a new binary log on the master
SYNOPSIS
process_io_rotate()
mi master_info for the slave
rev The rotate log event read from the binary log
DESCRIPTION
Updates the master info with the place in the next binary
log where we should start reading.
Rotate the relay log to avoid mixed-format relay logs.
NOTES
We assume we already locked mi->data_lock
RETURN VALUES
0 ok
1 Log event is illegal
*/
static int process_io_rotate(Master_info *mi, Rotate_log_event *rev)
{
DBUG_ENTER("process_io_rotate");
mysql_mutex_assert_owner(&mi->data_lock);
if (unlikely(!rev->is_valid()))
DBUG_RETURN(1);
/* Safe copy as 'rev' has been "sanitized" in Rotate_log_event's ctor */
memcpy(mi->master_log_name, rev->new_log_ident, rev->ident_len+1);
mi->master_log_pos= rev->pos;
DBUG_PRINT("info", ("master_log_pos: '%s' %lu",
mi->master_log_name, (ulong) mi->master_log_pos));
#ifndef DBUG_OFF
/*
If we do not do this, we will be getting the first
rotate event forever, so we need to not disconnect after one.
*/
if (disconnect_slave_event_count)
mi->events_till_disconnect++;
#endif
/*
If description_event_for_queue is format <4, there is conversion in the
relay log to the slave's format (4). And Rotate can mean upgrade or
nothing. If upgrade, it's to 5.0 or newer, so we will get a Format_desc, so
no need to reset description_event_for_queue now. And if it's nothing (same
master version as before), no need (still using the slave's format).
*/
if (mi->rli.relay_log.description_event_for_queue->binlog_version >= 4)
{
DBUG_ASSERT(mi->rli.relay_log.description_event_for_queue->checksum_alg ==
mi->rli.relay_log.relay_log_checksum_alg);
delete mi->rli.relay_log.description_event_for_queue;
/* start from format 3 (MySQL 4.0) again */
mi->rli.relay_log.description_event_for_queue= new
Format_description_log_event(3);
mi->rli.relay_log.description_event_for_queue->checksum_alg=
mi->rli.relay_log.relay_log_checksum_alg;
}
/*
Rotate the relay log makes binlog format detection easier (at next slave
start or mysqlbinlog)
*/
DBUG_RETURN(rotate_relay_log(mi) /* will take the right mutexes */);
}
/*
Reads a 3.23 event and converts it to the slave's format. This code was
copied from MySQL 4.0.
*/
static int queue_binlog_ver_1_event(Master_info *mi, const uchar *buf,
ulong event_len)
{
const char *errmsg = 0;
ulong inc_pos;
bool ignore_event= 0;
uchar *tmp_buf = 0;
Relay_log_info *rli= &mi->rli;
DBUG_ENTER("queue_binlog_ver_1_event");
/*
If we get Load event, we need to pass a non-reusable buffer
to read_log_event, so we do a trick
*/
if ((uchar)buf[EVENT_TYPE_OFFSET] == LOAD_EVENT)
{
if (unlikely(!(tmp_buf= (uchar*) my_malloc(key_memory_binlog_ver_1_event,
event_len+1, MYF(MY_WME)))))
{
mi->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
ER(ER_SLAVE_FATAL_ERROR), "Memory allocation failed");
DBUG_RETURN(1);
}
memcpy(tmp_buf,buf,event_len);
/*
Create_file constructor wants a 0 as last char of buffer, this 0 will
serve as the string-termination char for the file's name (which is at the
end of the buffer)
We must increment event_len, otherwise the event constructor will not see
this end 0, which leads to segfault.
*/
tmp_buf[event_len++]=0;
int4store(tmp_buf+EVENT_LEN_OFFSET, event_len);
buf= tmp_buf;
}
/*
This will transform LOAD_EVENT into CREATE_FILE_EVENT, ask the master to
send the loaded file, and write it to the relay log in the form of
Append_block/Exec_load (the SQL thread needs the data, as that thread is not
connected to the master).
*/
Log_event *ev=
Log_event::read_log_event(buf, event_len, &errmsg,
mi->rli.relay_log.description_event_for_queue, 0);
if (unlikely(!ev))
{
sql_print_error("Read invalid event from master: '%s',\
master could be corrupt but a more likely cause of this is a bug",
errmsg);
my_free(tmp_buf);
DBUG_RETURN(1);
}
mysql_mutex_lock(&mi->data_lock);
ev->log_pos= mi->master_log_pos; /* 3.23 events don't contain log_pos */
switch (ev->get_type_code()) {
case STOP_EVENT:
ignore_event= 1;
inc_pos= event_len;
break;
case ROTATE_EVENT:
if (unlikely(process_io_rotate(mi,(Rotate_log_event*)ev)))
{
delete ev;
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(1);
}
inc_pos= 0;
break;
case CREATE_FILE_EVENT:
/*
Yes it's possible to have CREATE_FILE_EVENT here, even if we're in
queue_old_event() which is for 3.23 events which don't comprise
CREATE_FILE_EVENT. This is because read_log_event() above has just
transformed LOAD_EVENT into CREATE_FILE_EVENT.
*/
{
/* We come here when and only when tmp_buf != 0 */
DBUG_ASSERT(tmp_buf != 0);
inc_pos=event_len;
ev->log_pos+= inc_pos;
int error = process_io_create_file(mi,(Create_file_log_event*)ev);
delete ev;
mi->master_log_pos += inc_pos;
DBUG_PRINT("info", ("master_log_pos: %lu", (ulong) mi->master_log_pos));
mysql_mutex_unlock(&mi->data_lock);
my_free(tmp_buf);
DBUG_RETURN(error);
}
default:
inc_pos= event_len;
break;
}
if (likely(!ignore_event))
{
if (ev->log_pos)
/*
Don't do it for fake Rotate events (see comment in
Log_event::Log_event(const char* buf...) in log_event.cc).
*/
ev->log_pos+= event_len; /* make log_pos be the pos of the end of the event */
if (unlikely(rli->relay_log.append(ev)))
{
delete ev;
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(1);
}
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
}
delete ev;
mi->master_log_pos+= inc_pos;
DBUG_PRINT("info", ("master_log_pos: %lu", (ulong) mi->master_log_pos));
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(0);
}
/*
Reads a 4.0 event and converts it to the slave's format. This code was copied
from queue_binlog_ver_1_event(), with some affordable simplifications.
*/
static int queue_binlog_ver_3_event(Master_info *mi, const uchar *buf,
ulong event_len)
{
const char *errmsg = 0;
ulong inc_pos;
char *tmp_buf = 0;
Relay_log_info *rli= &mi->rli;
DBUG_ENTER("queue_binlog_ver_3_event");
/* read_log_event() will adjust log_pos to be end_log_pos */
Log_event *ev=
Log_event::read_log_event(buf, event_len, &errmsg,
mi->rli.relay_log.description_event_for_queue, 0);
if (unlikely(!ev))
{
sql_print_error("Read invalid event from master: '%s',\
master could be corrupt but a more likely cause of this is a bug",
errmsg);
my_free(tmp_buf);
DBUG_RETURN(1);
}
mysql_mutex_lock(&mi->data_lock);
switch (ev->get_type_code()) {
case STOP_EVENT:
goto err;
case ROTATE_EVENT:
if (unlikely(process_io_rotate(mi,(Rotate_log_event*)ev)))
{
delete ev;
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(1);
}
inc_pos= 0;
break;
default:
inc_pos= event_len;
break;
}
if (unlikely(rli->relay_log.append(ev)))
{
delete ev;
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(1);
}
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
delete ev;
mi->master_log_pos+= inc_pos;
err:
DBUG_PRINT("info", ("master_log_pos: %lu", (ulong) mi->master_log_pos));
mysql_mutex_unlock(&mi->data_lock);
DBUG_RETURN(0);
}
/*
queue_old_event()
Writes a 3.23 or 4.0 event to the relay log, after converting it to the 5.0
(exactly, slave's) format. To do the conversion, we create a 5.0 event from
the 3.23/4.0 bytes, then write this event to the relay log.
TODO:
Test this code before release - it has to be tested on a separate
setup with 3.23 master or 4.0 master
*/
static int queue_old_event(Master_info *mi, const uchar *buf, ulong event_len)
{
DBUG_ENTER("queue_old_event");
switch (mi->rli.relay_log.description_event_for_queue->binlog_version) {
case 1:
DBUG_RETURN(queue_binlog_ver_1_event(mi,buf,event_len));
case 3:
DBUG_RETURN(queue_binlog_ver_3_event(mi,buf,event_len));
default: /* unsupported format; eg version 2 */
DBUG_PRINT("info",("unsupported binlog format %d in queue_old_event()",
mi->rli.relay_log.description_event_for_queue->binlog_version));
DBUG_RETURN(1);
}
}
/*
queue_event()
If the event is 3.23/4.0, passes it to queue_old_event() which will convert
it. Otherwise, writes a 5.0 (or newer) event to the relay log. Then there is
no format conversion, it's pure read/write of bytes.
So a 5.0.0 slave's relay log can contain events in the slave's format or in
any >=5.0.0 format.
*/
static int queue_event(Master_info* mi, const uchar *buf, ulong event_len)
{
int error= 0;
StringBuffer<1024> error_msg;
ulonglong inc_pos= 0;
ulonglong event_pos;
Relay_log_info *rli= &mi->rli;
mysql_mutex_t *log_lock= rli->relay_log.get_log_lock();
ulong s_id;
bool unlock_data_lock= TRUE;
bool gtid_skip_enqueue= false;
bool got_gtid_event= false;
rpl_gtid event_gtid;
static uint dbug_rows_event_count __attribute__((unused))= 0;
bool is_compress_event = false;
uchar *new_buf = NULL;
uchar new_buf_arr[4096];
bool is_malloc = false;
bool is_rows_event= false;
/*
FD_q must have been prepared for the first R_a event
inside get_master_version_and_clock()
Show-up of FD:s affects checksum_alg at once because
that changes FD_queue.
*/
enum enum_binlog_checksum_alg checksum_alg=
mi->checksum_alg_before_fd != BINLOG_CHECKSUM_ALG_UNDEF ?
mi->checksum_alg_before_fd : mi->rli.relay_log.relay_log_checksum_alg;
const uchar *save_buf= NULL; // needed for checksumming the fake Rotate event
uchar rot_buf[LOG_EVENT_HEADER_LEN + ROTATE_HEADER_LEN + FN_REFLEN];
DBUG_ASSERT(checksum_alg == BINLOG_CHECKSUM_ALG_OFF ||
checksum_alg == BINLOG_CHECKSUM_ALG_UNDEF ||
checksum_alg == BINLOG_CHECKSUM_ALG_CRC32);
DBUG_ENTER("queue_event");
/*
FD_queue checksum alg description does not apply in a case of
FD itself. The one carries both parts of the checksum data.
*/
if (buf[EVENT_TYPE_OFFSET] == FORMAT_DESCRIPTION_EVENT)
{
checksum_alg= get_checksum_alg(buf, event_len);
}
else if (buf[EVENT_TYPE_OFFSET] == START_EVENT_V3)
{
// checksum behaviour is similar to the pre-checksum FD handling
mi->checksum_alg_before_fd= BINLOG_CHECKSUM_ALG_UNDEF;
mi->rli.relay_log.description_event_for_queue->checksum_alg=
mi->rli.relay_log.relay_log_checksum_alg= checksum_alg=
BINLOG_CHECKSUM_ALG_OFF;
}
// does not hold always because of old binlog can work with NM
// DBUG_ASSERT(checksum_alg != BINLOG_CHECKSUM_ALG_UNDEF);
// should hold unless manipulations with RL. Tests that do that
// will have to refine the clause.
DBUG_ASSERT(mi->rli.relay_log.relay_log_checksum_alg !=
BINLOG_CHECKSUM_ALG_UNDEF);
// Emulate the network corruption
DBUG_EXECUTE_IF("corrupt_queue_event",
if (buf[EVENT_TYPE_OFFSET] != FORMAT_DESCRIPTION_EVENT)
{
uchar *debug_event_buf_c= const_cast<uchar*>(buf);
int debug_cor_pos = rand() % (event_len - BINLOG_CHECKSUM_LEN);
debug_event_buf_c[debug_cor_pos] =~ debug_event_buf_c[debug_cor_pos];
DBUG_PRINT("info", ("Corrupt the event at queue_event: byte on position %d", debug_cor_pos));
DBUG_SET("-d,corrupt_queue_event");
}
);
if (event_checksum_test((uchar*) buf, event_len, checksum_alg))
{
error= ER_NETWORK_READ_EVENT_CHECKSUM_FAILURE;
unlock_data_lock= FALSE;
goto err;
}
DBUG_ASSERT(((uchar) buf[FLAGS_OFFSET] & LOG_EVENT_ACCEPT_OWN_F) == 0);
if (mi->rli.relay_log.description_event_for_queue->binlog_version<4 &&
buf[EVENT_TYPE_OFFSET] != FORMAT_DESCRIPTION_EVENT /* a way to escape */)
DBUG_RETURN(queue_old_event(mi,buf,event_len));
#ifdef ENABLED_DEBUG_SYNC
/*
A (+d,dbug.rows_events_to_delay_relay_logging)-test is supposed to
create a few Write_log_events and after receiving the 1st of them
the IO thread signals to launch the SQL thread, and sets itself to
wait for a release signal.
*/
DBUG_EXECUTE_IF("dbug.rows_events_to_delay_relay_logging",
if ((buf[EVENT_TYPE_OFFSET] == WRITE_ROWS_EVENT_V1 ||
buf[EVENT_TYPE_OFFSET] == WRITE_ROWS_EVENT) &&
++dbug_rows_event_count == 2)
{
const char act[]=
"now SIGNAL start_sql_thread "
"WAIT_FOR go_on_relay_logging";
DBUG_ASSERT(debug_sync_service);
DBUG_ASSERT(!debug_sync_set_action(current_thd,
STRING_WITH_LEN(act)));
dbug_rows_event_count = 0;
};);
#endif
s_id= uint4korr(buf + SERVER_ID_OFFSET);
mysql_mutex_lock(&mi->data_lock);
switch (buf[EVENT_TYPE_OFFSET]) {
case STOP_EVENT:
/*
We needn't write this event to the relay log. Indeed, it just indicates a
master server shutdown. The only thing this does is cleaning. But
cleaning is already done on a per-master-thread basis (as the master
server is shutting down cleanly, it has written all DROP TEMPORARY TABLE
prepared statements' deletion are TODO only when we binlog prep stmts).
We don't even increment mi->master_log_pos, because we may be just after
a Rotate event. Btw, in a few milliseconds we are going to have a Start
event from the next binlog (unless the master is presently running
without --log-bin).
*/
goto err;
case ROTATE_EVENT:
{
Rotate_log_event rev(buf, checksum_alg != BINLOG_CHECKSUM_ALG_OFF ?
event_len - BINLOG_CHECKSUM_LEN : event_len,
mi->rli.relay_log.description_event_for_queue);
bool master_changed= false;
bool maybe_crashed= false;
// Exclude server start scenario
if ((mi->prev_master_id && mi->master_id) &&
(mi->prev_master_id != mi->master_id))
master_changed= true;
if ((mi->master_log_name[0]!='\0') &&
(strcmp(rev.new_log_ident, mi->master_log_name) != 0))
maybe_crashed= true;
if (unlikely((mi->gtid_reconnect_event_skip_count && master_changed) ||
maybe_crashed) &&
unlikely(!mi->gtid_event_seen) && rev.is_artificial_event())
{
/*
Artificial Rotate_log_event is the first event we receive at the start
of each master binlog file. It gives the name of the new binlog file.
Normally, we already have this name from the real rotate event at the
end of the previous binlog file (unless we are making a new connection
using GTID). But if the master server restarted/crashed, there is no
rotate event at the end of the prior binlog file, so the name is new.
We use this fact to handle a special case of master crashing. If the
master crashed while writing the binlog, it might end with a partial
event group lacking the COMMIT/XID event, which must be rolled
back. If the slave IO thread happens to get a disconnect in the middle
of exactly this event group, it will try to reconnect at the same GTID
and skip already fetched events. However, that GTID did not commit on
the master before the crash, so it does not really exist, and the
master will connect the slave at the next following GTID starting in
the next binlog. This could confuse the slave and make it mix the
start of one event group with the end of another.
But we detect this case here, by noticing the change of binlog name
which detects the missing rotate event at the end of the previous
binlog file. In this case, we reset the counters to make us not skip
the next event group, and queue an artificial Format Description
event. The previously fetched incomplete event group will then be
rolled back when the Format Description event is executed by the SQL
thread.
A similar case is if the reconnect somehow connects to a different
master server (like due to a network proxy or IP address takeover).
We detect this case by noticing a change of server_id and in this
case likewise rollback the partially received event group.
*/
Format_description_log_event fdle(4);
fdle.checksum_alg= checksum_alg;
/*
Possible crash is flagged in being created FD' common header
to conduct any necessary cleanup by the slave applier.
*/
if (maybe_crashed)
fdle.flags |= LOG_EVENT_BINLOG_IN_USE_F;
if (mi->gtid_reconnect_event_skip_count)
{
if (master_changed)
sql_print_warning("The server_id of master server changed in the "
"middle of GTID %u-%u-%llu. Assuming a change of "
"master server, so rolling back the previously "
"received partial transaction. Expected: %lu, "
"received: %lu", mi->last_queued_gtid.domain_id,
mi->last_queued_gtid.server_id,
mi->last_queued_gtid.seq_no,
mi->prev_master_id, mi->master_id);
else
sql_print_warning("Unexpected change of master binlog file name in "
"the middle of GTID %u-%u-%llu, assuming that "
"master has crashed and rolling back the "
"transaction. Expected: '%s', received: '%s'",
mi->last_queued_gtid.domain_id,
mi->last_queued_gtid.server_id,
mi->last_queued_gtid.seq_no, mi->master_log_name,
rev.new_log_ident);
}
mysql_mutex_lock(log_lock);
if (likely(!rli->relay_log.write_event(&fdle) &&
!rli->relay_log.flush_and_sync(NULL)))
{
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
}
else
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
mysql_mutex_unlock(log_lock);
goto err;
}
rli->relay_log.signal_relay_log_update();
mysql_mutex_unlock(log_lock);
mi->gtid_reconnect_event_skip_count= 0;
mi->events_queued_since_last_gtid= 0;
}
mi->prev_master_id= mi->master_id;
if (unlikely(process_io_rotate(mi, &rev)))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
/*
Checksum special cases for the fake Rotate (R_f) event caused by the protocol
of events generation and serialization in RL where Rotate of master is
queued right next to FD of slave.
Since it's only FD that carries the alg desc of FD_s has to apply to R_m.
Two special rules apply only to the first R_f which comes in before any FD_m.
The 2nd R_f should be compatible with the FD_s that must have taken over
the last seen FD_m's (A).
RSC_1: If OM \and fake Rotate \and slave is configured to
to compute checksum for its first FD event for RL
the fake Rotate gets checksummed here.
*/
if (uint4korr(&buf[0]) == 0 && checksum_alg == BINLOG_CHECKSUM_ALG_OFF &&
mi->rli.relay_log.relay_log_checksum_alg != BINLOG_CHECKSUM_ALG_OFF)
{
ha_checksum rot_crc= 0;
event_len += BINLOG_CHECKSUM_LEN;
memcpy(rot_buf, buf, event_len - BINLOG_CHECKSUM_LEN);
int4store(&rot_buf[EVENT_LEN_OFFSET],
uint4korr(&rot_buf[EVENT_LEN_OFFSET]) + BINLOG_CHECKSUM_LEN);
rot_crc= my_checksum(rot_crc, (const uchar *) rot_buf,
event_len - BINLOG_CHECKSUM_LEN);
int4store(&rot_buf[event_len - BINLOG_CHECKSUM_LEN], rot_crc);
DBUG_ASSERT(event_len == uint4korr(&rot_buf[EVENT_LEN_OFFSET]));
DBUG_ASSERT(mi->rli.relay_log.description_event_for_queue->checksum_alg ==
mi->rli.relay_log.relay_log_checksum_alg);
/* the first one */
DBUG_ASSERT(mi->checksum_alg_before_fd != BINLOG_CHECKSUM_ALG_UNDEF);
save_buf= buf;
buf= rot_buf;
}
else
/*
RSC_2: If NM \and fake Rotate \and slave does not compute checksum
the fake Rotate's checksum is stripped off before relay-logging.
*/
if (uint4korr(&buf[0]) == 0 && checksum_alg != BINLOG_CHECKSUM_ALG_OFF &&
mi->rli.relay_log.relay_log_checksum_alg == BINLOG_CHECKSUM_ALG_OFF)
{
event_len -= BINLOG_CHECKSUM_LEN;
memcpy(rot_buf, buf, event_len);
int4store(&rot_buf[EVENT_LEN_OFFSET],
uint4korr(&rot_buf[EVENT_LEN_OFFSET]) - BINLOG_CHECKSUM_LEN);
DBUG_ASSERT(event_len == uint4korr(&rot_buf[EVENT_LEN_OFFSET]));
DBUG_ASSERT(mi->rli.relay_log.description_event_for_queue->checksum_alg ==
mi->rli.relay_log.relay_log_checksum_alg);
/* the first one */
DBUG_ASSERT(mi->checksum_alg_before_fd != BINLOG_CHECKSUM_ALG_UNDEF);
save_buf= buf;
buf= rot_buf;
}
/*
Now the I/O thread has just changed its mi->master_log_name, so
incrementing mi->master_log_pos is nonsense.
*/
inc_pos= 0;
break;
}
case FORMAT_DESCRIPTION_EVENT:
{
/*
Create an event, and save it (when we rotate the relay log, we will have
to write this event again).
*/
/*
We are the only thread which reads/writes description_event_for_queue.
The relay_log struct does not move (though some members of it can
change), so we needn't any lock (no rli->data_lock, no log lock).
*/
Format_description_log_event* tmp;
const char* errmsg;
// mark it as undefined that is irrelevant anymore
mi->checksum_alg_before_fd= BINLOG_CHECKSUM_ALG_UNDEF;
if (!(tmp= (Format_description_log_event*)
Log_event::read_log_event(buf, event_len, &errmsg,
mi->rli.relay_log.description_event_for_queue,
1)))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
tmp->copy_crypto_data(mi->rli.relay_log.description_event_for_queue);
delete mi->rli.relay_log.description_event_for_queue;
mi->rli.relay_log.description_event_for_queue= tmp;
if (tmp->checksum_alg == BINLOG_CHECKSUM_ALG_UNDEF)
tmp->checksum_alg= BINLOG_CHECKSUM_ALG_OFF;
/* installing new value of checksum Alg for relay log */
mi->rli.relay_log.relay_log_checksum_alg= tmp->checksum_alg;
/*
Do not queue any format description event that we receive after a
reconnect where we are skipping over a partial event group received
before the reconnect.
(If we queued such an event, and it was the first format_description
event after master restart, the slave SQL thread would think that
the partial event group before it in the relay log was from a
previous master crash and should be rolled back).
*/
if (unlikely(mi->gtid_reconnect_event_skip_count && !mi->gtid_event_seen))
gtid_skip_enqueue= true;
/*
Though this does some conversion to the slave's format, this will
preserve the master's binlog format version, and number of event types.
*/
/*
If the event was not requested by the slave (the slave did not ask for
it), i.e. has end_log_pos=0, we do not increment mi->master_log_pos
*/
inc_pos= uint4korr(buf+LOG_POS_OFFSET) ? event_len : 0;
DBUG_PRINT("info",("binlog format is now %d",
mi->rli.relay_log.description_event_for_queue->binlog_version));
}
break;
case HEARTBEAT_LOG_EVENT:
{
/*
HB (heartbeat) cannot come before RL (Relay)
*/
Heartbeat_log_event hb(buf,
mi->rli.relay_log.relay_log_checksum_alg
!= BINLOG_CHECKSUM_ALG_OFF ?
event_len - BINLOG_CHECKSUM_LEN : event_len,
mi->rli.relay_log.description_event_for_queue);
if (!hb.is_valid())
{
error= ER_SLAVE_HEARTBEAT_FAILURE;
error_msg.append(STRING_WITH_LEN("inconsistent heartbeat event content;"));
error_msg.append(STRING_WITH_LEN("the event's data: log_file_name "));
error_msg.append((char*) hb.get_log_ident(), (uint) hb.get_ident_len());
error_msg.append(STRING_WITH_LEN(" log_pos "));
error_msg.append_ulonglong(hb.log_pos);
goto err;
}
mi->received_heartbeats++;
/*
compare local and event's versions of log_file, log_pos.
Heartbeat is sent only after an event corresponding to the corrdinates
the heartbeat carries.
Slave can not have a higher coordinate except in the only
special case when mi->master_log_name, master_log_pos have never
been updated by Rotate event i.e when slave does not have any history
with the master (and thereafter mi->master_log_pos is NULL).
Slave can have lower coordinates, if some event from master was omitted.
TODO: handling `when' for SHOW SLAVE STATUS' snds behind
*/
if (memcmp(mi->master_log_name, hb.get_log_ident(), hb.get_ident_len()) ||
mi->master_log_pos > hb.log_pos) {
/* missed events of heartbeat from the past */
error= ER_SLAVE_HEARTBEAT_FAILURE;
error_msg.append(STRING_WITH_LEN("heartbeat is not compatible with local info;"));
error_msg.append(STRING_WITH_LEN("the event's data: log_file_name "));
error_msg.append((char*) hb.get_log_ident(), (uint) hb.get_ident_len());
error_msg.append(STRING_WITH_LEN(" log_pos "));
error_msg.append_ulonglong(hb.log_pos);
goto err;
}
/*
Heartbeat events doesn't count in the binlog size, so we don't have to
increment mi->master_log_pos
*/
goto skip_relay_logging;
}
break;
case GTID_LIST_EVENT:
{
const char *errmsg;
Gtid_list_log_event *glev;
Log_event *tmp;
uint32 flags;
if (!(tmp= Log_event::read_log_event(buf, event_len, &errmsg,
mi->rli.relay_log.description_event_for_queue,
opt_slave_sql_verify_checksum)))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
glev= static_cast<Gtid_list_log_event *>(tmp);
event_pos= glev->log_pos;
flags= glev->gl_flags;
delete glev;
/*
We use fake Gtid_list events to update the old-style position (among
other things).
Early code created fake Gtid_list events with zero log_pos, those should
not modify old-style position.
*/
if (event_pos == 0 || event_pos <= mi->master_log_pos)
inc_pos= 0;
else
inc_pos= event_pos - mi->master_log_pos;
if (mi->rli.until_condition == Relay_log_info::UNTIL_GTID &&
flags & Gtid_list_log_event::FLAG_UNTIL_REACHED)
{
char str_buf[128];
String str(str_buf, sizeof(str_buf), system_charset_info);
mi->rli.until_gtid_pos.to_string(&str);
sql_print_information("Slave I/O thread stops because it reached its"
" UNTIL master_gtid_pos %s", str.c_ptr_safe());
mi->abort_slave= true;
}
}
break;
case GTID_EVENT:
{
DBUG_EXECUTE_IF("kill_slave_io_after_2_events",
{
mi->dbug_do_disconnect= true;
mi->dbug_event_counter= 2;
};);
uchar gtid_flag;
if (Gtid_log_event::peek(buf, event_len, checksum_alg,
&event_gtid.domain_id, &event_gtid.server_id,
&event_gtid.seq_no, >id_flag,
rli->relay_log.description_event_for_queue))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
got_gtid_event= true;
if (mi->using_gtid == Master_info::USE_GTID_NO)
goto default_action;
if (unlikely(mi->gtid_reconnect_event_skip_count))
{
if (likely(!mi->gtid_event_seen))
{
mi->gtid_event_seen= true;
/*
If we are reconnecting, and we need to skip a partial event group
already queued to the relay log before the reconnect, then we check
that we actually get the same event group (same GTID) as before, so
we do not end up with half of one group and half another.
The only way we should be able to receive a different GTID than what
we expect is if the binlog on the master (or more likely the whole
master server) was replaced with a different one, on the same IP
address, _and_ the new master happens to have domains in a different
order so we get the GTID from a different domain first. Still, it is
best to protect against this case.
*/
if (event_gtid.domain_id != mi->last_queued_gtid.domain_id ||
event_gtid.server_id != mi->last_queued_gtid.server_id ||
event_gtid.seq_no != mi->last_queued_gtid.seq_no)
{
bool first;
error= ER_SLAVE_UNEXPECTED_MASTER_SWITCH;
error_msg.append(STRING_WITH_LEN("Expected: "));
first= true;
rpl_slave_state_tostring_helper(&error_msg, &mi->last_queued_gtid,
&first);
error_msg.append(STRING_WITH_LEN(", received: "));
first= true;
rpl_slave_state_tostring_helper(&error_msg, &event_gtid, &first);
goto err;
}
if (global_system_variables.log_warnings > 1)
{
bool first= true;
StringBuffer<1024> gtid_text;
rpl_slave_state_tostring_helper(>id_text, &mi->last_queued_gtid,
&first);
sql_print_information("Slave IO thread is reconnected to "
"receive Gtid_log_event %s. It is to skip %llu "
"already received events including the gtid one",
gtid_text.ptr(),
mi->events_queued_since_last_gtid);
}
goto default_action;
}
else
{
bool first;
StringBuffer<1024> gtid_text;
gtid_text.append(STRING_WITH_LEN("Last received gtid: "));
first= true;
rpl_slave_state_tostring_helper(>id_text, &mi->last_queued_gtid,
&first);
gtid_text.append(STRING_WITH_LEN(", currently received: "));
first= true;
rpl_slave_state_tostring_helper(>id_text, &event_gtid, &first);
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
sql_print_error("Slave IO thread has received a new Gtid_log_event "
"while skipping already logged events "
"after reconnect. %s. %llu remains to be skipped. "
"The number of originally read events was %llu",
gtid_text.ptr(),
mi->gtid_reconnect_event_skip_count,
mi->events_queued_since_last_gtid);
goto err;
}
}
mi->gtid_event_seen= true;
/*
Unless the previous group is malformed,
we have successfully queued to relay log everything before this GTID, so
in case of reconnect we can start from after any previous GTID.
(We must have updated gtid_current_pos earlier at the end of
the previous event group. Unless ...)
*/
if (unlikely(mi->events_queued_since_last_gtid > 0))
{
/*
...unless the last group has not been completed. An assert below
can be satisfied only with the strict mode that ensures
against "genuine" gtid duplicates.
*/
IF_DBUG(rpl_gtid *gtid_in_slave_state=
mi->gtid_current_pos.find(mi->last_queued_gtid.domain_id),);
// Slave gtid state must not have updated yet to the last received gtid.
DBUG_ASSERT((mi->using_gtid == Master_info::USE_GTID_NO ||
!opt_gtid_strict_mode) ||
(!gtid_in_slave_state ||
!(*gtid_in_slave_state == mi->last_queued_gtid)));
DBUG_EXECUTE_IF("slave_discard_xid_for_gtid_0_x_1000",
{
/* Inject an event group that is missing its XID commit event. */
if ((mi->last_queued_gtid.domain_id == 0 &&
mi->last_queued_gtid.seq_no == 1000) ||
(mi->last_queued_gtid.domain_id == 1 &&
mi->last_queued_gtid.seq_no == 32))
{
sql_print_warning(
"Unexpected break of being relay-logged GTID %u-%u-%llu "
"event group by the current GTID event %u-%u-%llu",
PARAM_GTID(mi->last_queued_gtid),PARAM_GTID(event_gtid));
DBUG_SET("-d,slave_discard_xid_for_gtid_0_x_1000");
goto dbug_gtid_accept;
}
});
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
sql_print_error("Unexpected break of being relay-logged GTID %u-%u-%llu "
"event group by the current GTID event %u-%u-%llu",
PARAM_GTID(mi->last_queued_gtid),PARAM_GTID(event_gtid));
goto err;
}
else if (unlikely(mi->gtid_reconnect_event_skip_count > 0))
{
if (mi->gtid_reconnect_event_skip_count ==
mi->events_queued_since_last_gtid)
{
DBUG_ASSERT(event_gtid == mi->last_queued_gtid);
goto default_action;
}
DBUG_ASSERT(0);
}
// else_likely{...
#ifndef DBUG_OFF
dbug_gtid_accept:
DBUG_EXECUTE_IF("slave_discard_gtid_0_x_1002",
{
if (mi->last_queued_gtid.server_id == 27697 &&
mi->last_queued_gtid.seq_no == 1002)
{
DBUG_SET("-d,slave_discard_gtid_0_x_1002");
goto skip_relay_logging;
}
});
#endif
mi->last_queued_gtid= event_gtid;
mi->last_queued_gtid_standalone=
(gtid_flag & Gtid_log_event::FL_STANDALONE) != 0;
/* Should filter all the subsequent events in the current GTID group? */
mi->domain_id_filter.do_filter(event_gtid.domain_id);
++mi->events_queued_since_last_gtid;
inc_pos= event_len;
/*
To compute `true` is normal for this *now* semisync slave server when
it has passed its crash-recovery as a former master.
*/
mi->do_accept_own_server_id=
(s_id == global_system_variables.server_id &&
rpl_semi_sync_slave_enabled && opt_gtid_strict_mode &&
mi->using_gtid != Master_info::USE_GTID_NO &&
!mysql_bin_log.check_strict_gtid_sequence(event_gtid.domain_id,
event_gtid.server_id,
event_gtid.seq_no,
true));
// ...} eof else_likely
}
break;
/*
Binlog compressed event should uncompress in IO thread
*/
case QUERY_COMPRESSED_EVENT:
inc_pos= event_len;
if (query_event_uncompress(rli->relay_log.description_event_for_queue,
checksum_alg == BINLOG_CHECKSUM_ALG_CRC32,
buf, event_len, new_buf_arr, sizeof(new_buf_arr),
&is_malloc, &new_buf, &event_len))
{
char llbuf[22];
error = ER_BINLOG_UNCOMPRESS_ERROR;
error_msg.append(STRING_WITH_LEN("binlog uncompress error, master log_pos: "));
llstr(mi->master_log_pos, llbuf);
error_msg.append(llbuf, strlen(llbuf));
goto err;
}
buf = new_buf;
is_compress_event = true;
goto default_action;
case WRITE_ROWS_COMPRESSED_EVENT:
case UPDATE_ROWS_COMPRESSED_EVENT:
case DELETE_ROWS_COMPRESSED_EVENT:
case WRITE_ROWS_COMPRESSED_EVENT_V1:
case UPDATE_ROWS_COMPRESSED_EVENT_V1:
case DELETE_ROWS_COMPRESSED_EVENT_V1:
inc_pos = event_len;
{
if (row_log_event_uncompress(rli->relay_log.description_event_for_queue,
checksum_alg == BINLOG_CHECKSUM_ALG_CRC32,
buf, event_len, new_buf_arr,
sizeof(new_buf_arr),
&is_malloc, &new_buf, &event_len))
{
char llbuf[22];
error = ER_BINLOG_UNCOMPRESS_ERROR;
error_msg.append(STRING_WITH_LEN("binlog uncompress error, master log_pos: "));
llstr(mi->master_log_pos, llbuf);
error_msg.append(llbuf, strlen(llbuf));
goto err;
}
}
is_compress_event = true;
buf = new_buf;
/*
As we are uncertain about compressed V2 rows events, we don't track
them
*/
if (LOG_EVENT_IS_ROW_V2((Log_event_type) buf[EVENT_TYPE_OFFSET]))
goto default_action;
/* fall through */
case WRITE_ROWS_EVENT_V1:
case UPDATE_ROWS_EVENT_V1:
case DELETE_ROWS_EVENT_V1:
case WRITE_ROWS_EVENT:
case UPDATE_ROWS_EVENT:
case DELETE_ROWS_EVENT:
{
is_rows_event= true;
mi->rows_event_tracker.update(mi->master_log_name,
mi->master_log_pos,
buf,
mi->rli.relay_log.
description_event_for_queue);
DBUG_EXECUTE_IF("simulate_stmt_end_rows_event_loss",
{
mi->rows_event_tracker.stmt_end_seen= false;
});
}
goto default_action;
#ifndef DBUG_OFF
case XID_EVENT:
DBUG_EXECUTE_IF("slave_discard_xid_for_gtid_0_x_1000",
{
if (mi->last_queued_gtid.server_id == 27697 &&
mi->last_queued_gtid.seq_no == 1000)
{
DBUG_SET("-d,slave_discard_xid_for_gtid_0_x_1000");
goto skip_relay_logging;
}
/* Inject an event group that is missing its XID commit event. */
if (mi->last_queued_gtid.domain_id == 0 &&
mi->last_queued_gtid.seq_no == 1000)
goto skip_relay_logging;
});
goto default_action;
#endif
case START_ENCRYPTION_EVENT:
if (uint2korr(buf + FLAGS_OFFSET) & LOG_EVENT_IGNORABLE_F)
{
/*
If the event was not requested by the slave (the slave did not ask for
it), i.e. has end_log_pos=0, we do not increment mi->master_log_pos
*/
inc_pos= uint4korr(buf+LOG_POS_OFFSET) ? event_len : 0;
break;
}
/* fall through */
default:
default_action:
DBUG_EXECUTE_IF("kill_slave_io_after_2_events",
{
if (mi->dbug_do_disconnect &&
(LOG_EVENT_IS_QUERY((Log_event_type)(uchar)buf[EVENT_TYPE_OFFSET]) ||
((uchar)buf[EVENT_TYPE_OFFSET] == TABLE_MAP_EVENT))
&& (--mi->dbug_event_counter == 0))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
mi->dbug_do_disconnect= false; /* Safety */
goto err;
}
};);
DBUG_EXECUTE_IF("kill_slave_io_before_commit",
{
if ((uchar)buf[EVENT_TYPE_OFFSET] == XID_EVENT ||
((uchar)buf[EVENT_TYPE_OFFSET] == QUERY_EVENT && /* QUERY_COMPRESSED_EVENT would never be commmit or rollback */
Query_log_event::peek_is_commit_rollback(buf,
event_len,
checksum_alg)))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
};);
if (mi->using_gtid != Master_info::USE_GTID_NO)
{
if (likely(mi->gtid_event_seen))
{
if (unlikely(mi->gtid_reconnect_event_skip_count))
{
if (!got_gtid_event &&
mi->gtid_reconnect_event_skip_count ==
mi->events_queued_since_last_gtid)
goto gtid_not_start; // the 1st re-sent must be gtid
--mi->gtid_reconnect_event_skip_count;
gtid_skip_enqueue= true;
}
else if (likely(mi->events_queued_since_last_gtid))
{
DBUG_ASSERT(!got_gtid_event);
++mi->events_queued_since_last_gtid;
}
else if (Log_event::is_group_event((Log_event_type) (uchar)
buf[EVENT_TYPE_OFFSET]))
{
goto gtid_not_start; // no first gtid event in this group
}
}
else if (Log_event::is_group_event((Log_event_type) (uchar)
buf[EVENT_TYPE_OFFSET]))
{
gtid_not_start:
DBUG_ASSERT(!got_gtid_event);
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
sql_print_error("The current group of events starts with "
"a non-GTID %s event; "
"the last seen GTID is %u-%u-%llu",
Log_event::get_type_str((Log_event_type) (uchar)
buf[EVENT_TYPE_OFFSET]),
mi->last_queued_gtid);
goto err;
}
}
if (!is_compress_event)
inc_pos= event_len;
break;
}
/*
Integrity of Rows- event group check.
A sequence of Rows- events must end with STMT_END_F flagged one.
Even when Heartbeat event interrupts Rows- events flow this must indicate a
malfunction e.g logging on the master.
*/
if (((uchar) buf[EVENT_TYPE_OFFSET] != HEARTBEAT_LOG_EVENT) &&
!is_rows_event &&
mi->rows_event_tracker.check_and_report(mi->master_log_name,
mi->master_log_pos))
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
/*
If we filter events master-side (eg. @@skip_replication), we will see holes
in the event positions from the master. If we see such a hole, adjust
mi->master_log_pos accordingly so we maintain the correct position (for
reconnect, MASTER_POS_WAIT(), etc.)
*/
if (inc_pos > 0 &&
event_len >= LOG_POS_OFFSET+4 &&
(event_pos= uint4korr(buf+LOG_POS_OFFSET)) > mi->master_log_pos + inc_pos)
{
inc_pos= event_pos - mi->master_log_pos;
DBUG_PRINT("info", ("Adjust master_log_pos %llu->%llu to account for "
"master-side filtering",
mi->master_log_pos + inc_pos, event_pos));
}
/*
If this event is originating from this server, don't queue it.
We don't check this for 3.23 events because it's simpler like this; 3.23
will be filtered anyway by the SQL slave thread which also tests the
server id (we must also keep this test in the SQL thread, in case somebody
upgrades a 4.0 slave which has a not-filtered relay log).
ANY event coming from ourselves can be ignored: it is obvious for queries;
for STOP_EVENT/ROTATE_EVENT/START_EVENT: these cannot come from ourselves
(--log-slave-updates would not log that) unless this slave is also its
direct master (an unsupported, useless setup!).
*/
mysql_mutex_lock(log_lock);
/*
Write the event to the relay log, unless we reconnected in the middle
of an event group and now need to skip the initial part of the group that
we already wrote before reconnecting.
*/
if (unlikely(gtid_skip_enqueue))
{
mi->master_log_pos+= inc_pos;
if ((uchar)buf[EVENT_TYPE_OFFSET] == FORMAT_DESCRIPTION_EVENT &&
s_id == mi->master_id)
{
/*
If we write this master's description event in the middle of an event
group due to GTID reconnect, SQL thread will think that master crashed
in the middle of the group and roll back the first half, so we must not.
But we still have to write an artificial copy of the masters description
event, to override the initial slave-version description event so that
SQL thread has the right information for parsing the events it reads.
*/
rli->relay_log.description_event_for_queue->created= 0;
rli->relay_log.description_event_for_queue->set_artificial_event();
if (rli->relay_log.append_no_lock
(rli->relay_log.description_event_for_queue))
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
else
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
}
else if (mi->gtid_reconnect_event_skip_count == 0)
{
/*
Add a fake rotate event so that SQL thread can see the old-style
position where we re-connected in the middle of a GTID event group.
*/
Rotate_log_event fake_rev(mi->master_log_name, 0, mi->master_log_pos, 0);
fake_rev.server_id= mi->master_id;
if (rli->relay_log.append_no_lock(&fake_rev))
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
else
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
}
}
else
if ((s_id == global_system_variables.server_id &&
!(mi->rli.replicate_same_server_id ||
mi->do_accept_own_server_id)) ||
event_that_should_be_ignored(buf) ||
/*
the following conjunction deals with IGNORE_SERVER_IDS, if set
If the master is on the ignore list, execution of
format description log events and rotate events is necessary.
*/
(mi->ignore_server_ids.elements > 0 &&
mi->shall_ignore_server_id(s_id) &&
/* everything is filtered out from non-master */
(s_id != mi->master_id ||
/* for the master meta information is necessary */
((uchar)buf[EVENT_TYPE_OFFSET] != FORMAT_DESCRIPTION_EVENT &&
(uchar)buf[EVENT_TYPE_OFFSET] != ROTATE_EVENT))) ||
/*
Check whether it needs to be filtered based on domain_id
(DO_DOMAIN_IDS/IGNORE_DOMAIN_IDS).
*/
(mi->domain_id_filter.is_group_filtered() &&
Log_event::is_group_event((Log_event_type)(uchar)
buf[EVENT_TYPE_OFFSET])))
{
/*
Do not write it to the relay log.
a) We still want to increment mi->master_log_pos, so that we won't
re-read this event from the master if the slave IO thread is now
stopped/restarted (more efficient if the events we are ignoring are big
LOAD DATA INFILE).
b) We want to record that we are skipping events, for the information of
the slave SQL thread, otherwise that thread may let
rli->group_relay_log_pos stay too small if the last binlog's event is
ignored.
But events which were generated by this slave and which do not exist in
the master's binlog (i.e. Format_desc, Rotate & Stop) should not increment
mi->master_log_pos.
If the event is originated remotely and is being filtered out by
IGNORE_SERVER_IDS it increments mi->master_log_pos
as well as rli->group_relay_log_pos.
*/
if (!(s_id == global_system_variables.server_id &&
!mi->rli.replicate_same_server_id) ||
((uchar)buf[EVENT_TYPE_OFFSET] != FORMAT_DESCRIPTION_EVENT &&
(uchar)buf[EVENT_TYPE_OFFSET] != ROTATE_EVENT &&
(uchar)buf[EVENT_TYPE_OFFSET] != STOP_EVENT))
{
mi->master_log_pos+= inc_pos;
memcpy(rli->ign_master_log_name_end, mi->master_log_name, FN_REFLEN);
DBUG_ASSERT(rli->ign_master_log_name_end[0]);
rli->ign_master_log_pos_end= mi->master_log_pos;
if (got_gtid_event)
rli->ign_gtids.update(&event_gtid);
}
// the slave SQL thread needs to re-check
rli->relay_log.signal_relay_log_update();
DBUG_PRINT("info", ("master_log_pos: %lu, event originating from %u server, ignored",
(ulong) mi->master_log_pos, uint4korr(buf + SERVER_ID_OFFSET)));
}
else
{
if (mi->do_accept_own_server_id)
{
int2store(const_cast<uchar*>(buf + FLAGS_OFFSET),
uint2korr(buf + FLAGS_OFFSET) | LOG_EVENT_ACCEPT_OWN_F);
if (checksum_alg != BINLOG_CHECKSUM_ALG_OFF)
{
ha_checksum crc= 0;
crc= my_checksum(crc, (const uchar *) buf,
event_len - BINLOG_CHECKSUM_LEN);
int4store(&buf[event_len - BINLOG_CHECKSUM_LEN], crc);
}
}
if (likely(!rli->relay_log.write_event_buffer((uchar*)buf, event_len)))
{
mi->master_log_pos+= inc_pos;
DBUG_PRINT("info", ("master_log_pos: %lu", (ulong) mi->master_log_pos));
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
}
else
{
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
}
rli->ign_master_log_name_end[0]= 0; // last event is not ignored
if (got_gtid_event)
rli->ign_gtids.remove_if_present(&event_gtid);
if (save_buf != NULL)
buf= save_buf;
}
mysql_mutex_unlock(log_lock);
if (likely(!error) &&
mi->using_gtid != Master_info::USE_GTID_NO &&
mi->events_queued_since_last_gtid > 0 &&
( (mi->last_queued_gtid_standalone &&
(LOG_EVENT_IS_QUERY((Log_event_type)(uchar)
buf[EVENT_TYPE_OFFSET]) ||
(uchar)buf[EVENT_TYPE_OFFSET] == INCIDENT_EVENT)) ||
(!mi->last_queued_gtid_standalone &&
((uchar)buf[EVENT_TYPE_OFFSET] == XID_EVENT ||
(uchar)buf[EVENT_TYPE_OFFSET] == XA_PREPARE_LOG_EVENT ||
((uchar)buf[EVENT_TYPE_OFFSET] == QUERY_EVENT && /* QUERY_COMPRESSED_EVENT would never be commmit or rollback */
Query_log_event::peek_is_commit_rollback(buf, event_len,
checksum_alg))))))
{
/*
The whole of the current event group is queued. So in case of
reconnect we can start from after the current GTID.
*/
if (gtid_skip_enqueue)
{
bool first= true;
StringBuffer<1024> gtid_text;
DBUG_ASSERT(mi->events_queued_since_last_gtid > 1);
rpl_slave_state_tostring_helper(>id_text, &mi->last_queued_gtid,
&first);
sql_print_error("Slave IO thread received a terminal event from "
"group %s whose retrieval was interrupted "
"with reconnect. We still had %llu events to read. "
"The number of originally read events was %llu",
gtid_text.ptr(),
mi->gtid_reconnect_event_skip_count,
mi->events_queued_since_last_gtid);
error= ER_SLAVE_RELAY_LOG_WRITE_FAILURE;
goto err;
}
mi->gtid_current_pos.update(&mi->last_queued_gtid);
mi->events_queued_since_last_gtid= 0;
/* Reset the domain_id_filter flag. */
mi->domain_id_filter.reset_filter();
}
skip_relay_logging:
err:
if (unlock_data_lock)
mysql_mutex_unlock(&mi->data_lock);
DBUG_PRINT("info", ("error: %d", error));
/*
Do not print ER_SLAVE_RELAY_LOG_WRITE_FAILURE error here, as the caller
handle_slave_io() prints it on return.
*/
if (unlikely(error) && error != ER_SLAVE_RELAY_LOG_WRITE_FAILURE)
mi->report(ERROR_LEVEL, error, NULL, ER_DEFAULT(error),
error_msg.ptr());
if (unlikely(is_malloc))
my_free((void *)new_buf);
DBUG_RETURN(error);
}
void end_relay_log_info(Relay_log_info* rli)
{
mysql_mutex_t *log_lock;
DBUG_ENTER("end_relay_log_info");
rli->error_on_rli_init_info= false;
if (!rli->inited)
DBUG_VOID_RETURN;
if (rli->info_fd >= 0)
{
end_io_cache(&rli->info_file);
mysql_file_close(rli->info_fd, MYF(MY_WME));
rli->info_fd = -1;
}
if (rli->cur_log_fd >= 0)
{
end_io_cache(&rli->cache_buf);
mysql_file_close(rli->cur_log_fd, MYF(MY_WME));
rli->cur_log_fd = -1;
}
rli->inited = 0;
log_lock= rli->relay_log.get_log_lock();
mysql_mutex_lock(log_lock);
rli->relay_log.close(LOG_CLOSE_INDEX | LOG_CLOSE_STOP_EVENT);
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
mysql_mutex_unlock(log_lock);
/*
Delete the slave's temporary tables from memory.
In the future there will be other actions than this, to ensure persistance
of slave's temp tables after shutdown.
*/
rli->close_temporary_tables();
DBUG_VOID_RETURN;
}
/**
Hook to detach the active VIO before closing a connection handle.
The client API might close the connection (and associated data)
in case it encounters a unrecoverable (network) error. This hook
is called from the client code before the VIO handle is deleted
allows the thread to detach the active vio so it does not point
to freed memory.
Other calls to THD::clear_active_vio throughout this module are
redundant due to the hook but are left in place for illustrative
purposes.
*/
extern "C" void slave_io_thread_detach_vio()
{
#ifdef SIGNAL_WITH_VIO_CLOSE
THD *thd= current_thd;
if (thd && thd->slave_thread)
thd->clear_active_vio();
#endif
}
/*
Try to connect until successful or slave killed
SYNPOSIS
safe_connect()
thd Thread handler for slave
mysql MySQL connection handle
mi Replication handle
RETURN
0 ok
# Error
*/
static int safe_connect(THD* thd, MYSQL* mysql, Master_info* mi)
{
DBUG_ENTER("safe_connect");
DBUG_RETURN(connect_to_master(thd, mysql, mi, 0, 0));
}
/*
SYNPOSIS
connect_to_master()
IMPLEMENTATION
Try to connect until successful or slave killed or we have retried
master_retry_count times
*/
static int connect_to_master(THD* thd, MYSQL* mysql, Master_info* mi,
bool reconnect, bool suppress_warnings)
{
int slave_was_killed;
int last_errno= -2; // impossible error
ulong err_count=0;
my_bool my_true= 1;
DBUG_ENTER("connect_to_master");
set_slave_max_allowed_packet(thd, mysql);
#ifndef DBUG_OFF
mi->events_till_disconnect = disconnect_slave_event_count;
#endif
ulong client_flag= CLIENT_REMEMBER_OPTIONS;
if (opt_slave_compressed_protocol)
client_flag|= CLIENT_COMPRESS; /* We will use compression */
mysql_options(mysql, MYSQL_OPT_CONNECT_TIMEOUT, (char *) &slave_net_timeout);
mysql_options(mysql, MYSQL_OPT_READ_TIMEOUT, (char *) &slave_net_timeout);
mysql_options(mysql, MYSQL_OPT_USE_THREAD_SPECIFIC_MEMORY,
(char*) &my_true);
#ifdef HAVE_OPENSSL
if (mi->ssl)
{
mysql_ssl_set(mysql,
mi->ssl_key[0]?mi->ssl_key:0,
mi->ssl_cert[0]?mi->ssl_cert:0,
mi->ssl_ca[0]?mi->ssl_ca:0,
mi->ssl_capath[0]?mi->ssl_capath:0,
mi->ssl_cipher[0]?mi->ssl_cipher:0);
mysql_options(mysql, MYSQL_OPT_SSL_CRL,
mi->ssl_crl[0] ? mi->ssl_crl : 0);
mysql_options(mysql, MYSQL_OPT_SSL_CRLPATH,
mi->ssl_crlpath[0] ? mi->ssl_crlpath : 0);
mysql_options(mysql, MYSQL_OPT_SSL_VERIFY_SERVER_CERT,
&mi->ssl_verify_server_cert);
}
#endif
/*
If server's default charset is not supported (like utf16, utf32) as client
charset, then set client charset to 'latin1' (default client charset).
*/
if (is_supported_parser_charset(default_charset_info))
mysql_options(mysql, MYSQL_SET_CHARSET_NAME, default_charset_info->cs_name.str);
else
{
sql_print_information("'%s' can not be used as client character set. "
"'%s' will be used as default client character set "
"while connecting to master.",
default_charset_info->cs_name.str,
default_client_charset_info->cs_name.str);
mysql_options(mysql, MYSQL_SET_CHARSET_NAME,
default_client_charset_info->cs_name.str);
}
/* This one is not strictly needed but we have it here for completeness */
mysql_options(mysql, MYSQL_SET_CHARSET_DIR, (char *) charsets_dir);
/* Set MYSQL_PLUGIN_DIR in case master asks for an external authentication plugin */
if (opt_plugin_dir_ptr && *opt_plugin_dir_ptr)
mysql_options(mysql, MYSQL_PLUGIN_DIR, opt_plugin_dir_ptr);
/* we disallow empty users */
if (mi->user[0] == 0)
{
mi->report(ERROR_LEVEL, ER_SLAVE_FATAL_ERROR, NULL,
ER_THD(thd, ER_SLAVE_FATAL_ERROR),
"Invalid (empty) username when attempting to "
"connect to the master server. Connection attempt "
"terminated.");
DBUG_RETURN(1);
}
while (!(slave_was_killed = io_slave_killed(mi)) &&
(reconnect ? mysql_reconnect(mysql) != 0 :
mysql_real_connect(mysql, mi->host, mi->user, mi->password, 0,
mi->port, 0, client_flag) == 0))
{
/* Don't repeat last error */
if ((int)mysql_errno(mysql) != last_errno)
{
last_errno=mysql_errno(mysql);
suppress_warnings= 0;
mi->report(ERROR_LEVEL, last_errno, NULL,
"error %s to master '%s@%s:%d'"
" - retry-time: %d maximum-retries: %lu message: %s",
(reconnect ? "reconnecting" : "connecting"),
mi->user, mi->host, mi->port,
mi->connect_retry, master_retry_count,
mysql_error(mysql));
}
/*
By default we try forever. The reason is that failure will trigger
master election, so if the user did not set master_retry_count we
do not want to have election triggered on the first failure to
connect
*/
if (++err_count == master_retry_count)
{
slave_was_killed=1;
if (reconnect)
change_rpl_status(RPL_ACTIVE_SLAVE,RPL_LOST_SOLDIER);
break;
}
slave_sleep(thd,mi->connect_retry,io_slave_killed, mi);
}
if (!slave_was_killed)
{
mi->clear_error(); // clear possible left over reconnect error
if (reconnect)
{
if (!suppress_warnings && global_system_variables.log_warnings)
sql_print_information("Slave: connected to master '%s@%s:%d',"
"replication resumed in log '%s' at "
"position %llu", mi->user, mi->host, mi->port,
IO_RPL_LOG_NAME, mi->master_log_pos);
}
else
{
change_rpl_status(RPL_IDLE_SLAVE,RPL_ACTIVE_SLAVE);
general_log_print(thd, COM_CONNECT_OUT, "%s@%s:%d",
mi->user, mi->host, mi->port);
}
#ifdef SIGNAL_WITH_VIO_CLOSE
thd->set_active_vio(mysql->net.vio);
#endif
}
mysql->reconnect= 1;
DBUG_PRINT("exit",("slave_was_killed: %d", slave_was_killed));
DBUG_RETURN(slave_was_killed);
}
/*
safe_reconnect()
IMPLEMENTATION
Try to connect until successful or slave killed or we have retried
master_retry_count times
*/
static int safe_reconnect(THD* thd, MYSQL* mysql, Master_info* mi,
bool suppress_warnings)
{
DBUG_ENTER("safe_reconnect");
DBUG_RETURN(connect_to_master(thd, mysql, mi, 1, suppress_warnings));
}
#ifdef NOT_USED
MYSQL *rpl_connect_master(MYSQL *mysql)
{
Master_info *mi= my_pthread_getspecific_ptr(Master_info*, RPL_MASTER_INFO);
bool allocated= false;
my_bool my_true= 1;
THD *thd;
if (!mi)
{
sql_print_error("'rpl_connect_master' must be called in slave I/O thread context.");
return NULL;
}
thd= mi->io_thd;
if (!mysql)
{
if(!(mysql= mysql_init(NULL)))
{
sql_print_error("rpl_connect_master: failed in mysql_init()");
return NULL;
}
allocated= true;
}
/*
XXX: copied from connect_to_master, this function should not
change the slave status, so we cannot use connect_to_master
directly
TODO: make this part a seperate function to eliminate duplication
*/
mysql_options(mysql, MYSQL_OPT_CONNECT_TIMEOUT, (char *) &slave_net_timeout);
mysql_options(mysql, MYSQL_OPT_READ_TIMEOUT, (char *) &slave_net_timeout);
mysql_options(mysql, MYSQL_OPT_USE_THREAD_SPECIFIC_MEMORY,
(char*) &my_true);
#ifdef HAVE_OPENSSL
if (mi->ssl)
{
mysql_ssl_set(mysql,
mi->ssl_key[0]?mi->ssl_key:0,
mi->ssl_cert[0]?mi->ssl_cert:0,
mi->ssl_ca[0]?mi->ssl_ca:0,
mi->ssl_capath[0]?mi->ssl_capath:0,
mi->ssl_cipher[0]?mi->ssl_cipher:0);
mysql_options(mysql, MYSQL_OPT_SSL_VERIFY_SERVER_CERT,
&mi->ssl_verify_server_cert);
}
#endif
mysql_options(mysql, MYSQL_SET_CHARSET_NAME,
default_charset_info->cs_name.str);
/* This one is not strictly needed but we have it here for completeness */
mysql_options(mysql, MYSQL_SET_CHARSET_DIR, (char *) charsets_dir);
if (mi->user == NULL
|| mi->user[0] == 0
|| io_slave_killed( mi)
|| !mysql_real_connect(mysql, mi->host, mi->user, mi->password, 0,
mi->port, 0, 0))
{
if (!io_slave_killed( mi))
sql_print_error("rpl_connect_master: error connecting to master: %s (server_error: %d)",
mysql_error(mysql), mysql_errno(mysql));
if (allocated)
mysql_close(mysql); // this will free the object
return NULL;
}
return mysql;
}
#endif
/*
Called when we notice that the current "hot" log got rotated under our feet.
*/
static IO_CACHE *reopen_relay_log(Relay_log_info *rli, const char **errmsg)
{
DBUG_ENTER("reopen_relay_log");
DBUG_ASSERT(rli->cur_log != &rli->cache_buf);
DBUG_ASSERT(rli->cur_log_fd == -1);
IO_CACHE *cur_log = rli->cur_log=&rli->cache_buf;
if ((rli->cur_log_fd=open_binlog(cur_log,rli->event_relay_log_name,
errmsg)) <0)
DBUG_RETURN(0);
/*
We want to start exactly where we was before:
relay_log_pos Current log pos
pending Number of bytes already processed from the event
*/
rli->event_relay_log_pos= MY_MAX(rli->event_relay_log_pos, BIN_LOG_HEADER_SIZE);
my_b_seek(cur_log,rli->event_relay_log_pos);
DBUG_RETURN(cur_log);
}
/**
Reads next event from the relay log. Should be called from the
slave IO thread.
@param rli Relay_log_info structure for the slave IO thread.
@return The event read, or NULL on error. If an error occurs, the
error is reported through the sql_print_information() or
sql_print_error() functions.
The size of the read event (in bytes) is returned in *event_size.
*/
static Log_event* next_event(rpl_group_info *rgi, ulonglong *event_size)
{
Log_event* ev;
Relay_log_info *rli= rgi->rli;
IO_CACHE* cur_log = rli->cur_log;
mysql_mutex_t *log_lock = rli->relay_log.get_log_lock();
const char* errmsg=0;
DBUG_ENTER("next_event");
DBUG_ASSERT(rgi->thd != 0 && rgi->thd == rli->sql_driver_thd);
*event_size= 0;
#ifndef DBUG_OFF
if (abort_slave_event_count && !rli->events_till_abort--)
DBUG_RETURN(0);
#endif
/*
For most operations we need to protect rli members with data_lock,
so we assume calling function acquired this mutex for us and we will
hold it for the most of the loop below However, we will release it
whenever it is worth the hassle, and in the cases when we go into a
mysql_cond_wait() with the non-data_lock mutex
*/
mysql_mutex_assert_owner(&rli->data_lock);
while (!sql_slave_killed(rgi))
{
/*
We can have two kinds of log reading:
hot_log:
rli->cur_log points at the IO_CACHE of relay_log, which
is actively being updated by the I/O thread. We need to be careful
in this case and make sure that we are not looking at a stale log that
has already been rotated. If it has been, we reopen the log.
The other case is much simpler:
We just have a read only log that nobody else will be updating.
*/
ulonglong old_pos;
bool hot_log;
if ((hot_log = (cur_log != &rli->cache_buf)))
{
DBUG_ASSERT(rli->cur_log_fd == -1); // foreign descriptor
mysql_mutex_lock(log_lock);
/*
Reading xxx_file_id is safe because the log will only
be rotated when we hold relay_log.LOCK_log
*/
if (rli->relay_log.get_open_count() != rli->cur_log_old_open_count)
{
// The master has switched to a new log file; Reopen the old log file
cur_log=reopen_relay_log(rli, &errmsg);
mysql_mutex_unlock(log_lock);
if (!cur_log) // No more log files
goto err;
hot_log=0; // Using old binary log
}
}
/*
As there is no guarantee that the relay is open (for example, an I/O
error during a write by the slave I/O thread may have closed it), we
have to test it.
*/
if (!my_b_inited(cur_log))
goto err;
#ifndef DBUG_OFF
{
/* This is an assertion which sometimes fails, let's try to track it */
DBUG_PRINT("info", ("my_b_tell(cur_log)=%llu rli->event_relay_log_pos=%llu",
my_b_tell(cur_log), rli->event_relay_log_pos));
DBUG_ASSERT(my_b_tell(cur_log) >= BIN_LOG_HEADER_SIZE);
DBUG_ASSERT(rli->mi->using_parallel() ||
my_b_tell(cur_log) == rli->event_relay_log_pos);
}
#endif
/*
Relay log is always in new format - if the master is 3.23, the
I/O thread will convert the format for us.
A problem: the description event may be in a previous relay log. So if
the slave has been shutdown meanwhile, we would have to look in old relay
logs, which may even have been deleted. So we need to write this
description event at the beginning of the relay log.
When the relay log is created when the I/O thread starts, easy: the
master will send the description event and we will queue it.
But if the relay log is created by new_file(): then the solution is:
MYSQL_BIN_LOG::open() will write the buffered description event.
*/
old_pos= rli->event_relay_log_pos;
if ((ev= Log_event::read_log_event(cur_log,
rli->relay_log.description_event_for_exec,
opt_slave_sql_verify_checksum)))
{
/*
read it while we have a lock, to avoid a mutex lock in
inc_event_relay_log_pos()
*/
rli->future_event_relay_log_pos= my_b_tell(cur_log);
*event_size= rli->future_event_relay_log_pos - old_pos;
if (hot_log)
mysql_mutex_unlock(log_lock);
DBUG_RETURN(ev);
}
if (opt_reckless_slave) // For mysql-test
cur_log->error = 0;
if (unlikely(cur_log->error < 0))
{
errmsg = "slave SQL thread aborted because of I/O error";
if (hot_log)
mysql_mutex_unlock(log_lock);
goto err;
}
if (!cur_log->error) /* EOF */
{
/*
On a hot log, EOF means that there are no more updates to
process and we must block until I/O thread adds some and
signals us to continue
*/
if (hot_log)
{
/*
We say in Seconds_Behind_Master that we have "caught up". Note that
for example if network link is broken but I/O slave thread hasn't
noticed it (slave_net_timeout not elapsed), then we'll say "caught
up" whereas we're not really caught up. Fixing that would require
internally cutting timeout in smaller pieces in network read, no
thanks. Another example: SQL has caught up on I/O, now I/O has read
a new event and is queuing it; the false "0" will exist until SQL
finishes executing the new event; it will be look abnormal only if
the events have old timestamps (then you get "many", 0, "many").
Transient phases like this can be fixed with implemeting
Heartbeat event which provides the slave the status of the
master at time the master does not have any new update to send.
Seconds_Behind_Master would be zero only when master has no
more updates in binlog for slave. The heartbeat can be sent
in a (small) fraction of slave_net_timeout. Until it's done
rli->sql_thread_caught_up is temporarely (for time of waiting for
the following event) set whenever EOF is reached.
*/
rli->sql_thread_caught_up= true;
DBUG_ASSERT(rli->relay_log.get_open_count() ==
rli->cur_log_old_open_count);
if (rli->ign_master_log_name_end[0])
{
/* We generate and return a Rotate, to make our positions advance */
DBUG_PRINT("info",("seeing an ignored end segment"));
ev= new Rotate_log_event(rli->ign_master_log_name_end,
0, rli->ign_master_log_pos_end,
Rotate_log_event::DUP_NAME);
rli->ign_master_log_name_end[0]= 0;
mysql_mutex_unlock(log_lock);
if (unlikely(!ev))
{
errmsg= "Slave SQL thread failed to create a Rotate event "
"(out of memory?), SHOW SLAVE STATUS may be inaccurate";
goto err;
}
ev->server_id= 0; // don't be ignored by slave SQL thread
DBUG_RETURN(ev);
}
if (rli->ign_gtids.count() && !rli->is_in_group())
{
/*
We generate and return a Gtid_list, to update gtid_slave_pos,
unless being in the middle of a group.
*/
DBUG_PRINT("info",("seeing ignored end gtids"));
ev= new Gtid_list_log_event(&rli->ign_gtids,
Gtid_list_log_event::FLAG_IGN_GTIDS);
rli->ign_gtids.reset();
mysql_mutex_unlock(log_lock);
if (unlikely(!ev))
{
errmsg= "Slave SQL thread failed to create a Gtid_list event "
"(out of memory?), gtid_slave_pos may be inaccurate";
goto err;
}
ev->server_id= 0; // don't be ignored by slave SQL thread
ev->set_artificial_event(); // Don't mess up Exec_Master_Log_Pos
DBUG_RETURN(ev);
}
/*
We have to check sql_slave_killed() here an extra time.
Otherwise we may miss a wakeup, since last check was done
without holding LOCK_log.
*/
if (sql_slave_killed(rgi))
{
mysql_mutex_unlock(log_lock);
break;
}
/*
We can, and should release data_lock while we are waiting for
update. If we do not, show slave status will block
*/
mysql_mutex_unlock(&rli->data_lock);
/*
Possible deadlock :
- the I/O thread has reached log_space_limit
- the SQL thread has read all relay logs, but cannot purge for some
reason:
* it has already purged all logs except the current one
* there are other logs than the current one but they're involved in
a transaction that finishes in the current one (or is not finished)
Solution :
Wake up the possibly waiting I/O thread, and set a boolean asking
the I/O thread to temporarily ignore the log_space_limit
constraint, because we do not want the I/O thread to block because of
space (it's ok if it blocks for any other reason (e.g. because the
master does not send anything). Then the I/O thread stops waiting
and reads one more event and starts honoring log_space_limit again.
If the SQL thread needs more events to be able to rotate the log (it
might need to finish the current group first), then it can ask for
one more at a time. Thus we don't outgrow the relay log indefinitely,
but rather in a controlled manner, until the next rotate.
When the SQL thread starts it sets ignore_log_space_limit to false.
We should also reset ignore_log_space_limit to 0 when the user does
RESET SLAVE, but in fact, no need as RESET SLAVE requires that the
slave be stopped, and the SQL thread sets ignore_log_space_limit
to 0 when
it stops.
*/
mysql_mutex_lock(&rli->log_space_lock);
/*
If we have reached the limit of the relay space and we
are going to sleep, waiting for more events:
1. If outside a group, SQL thread asks the IO thread
to force a rotation so that the SQL thread purges
logs next time it processes an event (thus space is
freed).
2. If in a group, SQL thread asks the IO thread to
ignore the limit and queues yet one more event
so that the SQL thread finishes the group and
is are able to rotate and purge sometime soon.
*/
if (rli->log_space_limit &&
rli->log_space_limit < rli->log_space_total)
{
/* force rotation if not in an unfinished group */
rli->sql_force_rotate_relay= !rli->is_in_group();
/* ask for one more event */
rli->ignore_log_space_limit= true;
}
mysql_cond_broadcast(&rli->log_space_cond);
mysql_mutex_unlock(&rli->log_space_lock);
// Note that wait_for_update_relay_log unlocks lock_log !
rli->relay_log.wait_for_update_relay_log(rli->sql_driver_thd);
// re-acquire data lock since we released it earlier
mysql_mutex_lock(&rli->data_lock);
continue;
}
/*
If the log was not hot, we need to move to the next log in
sequence. The next log could be hot or cold, we deal with both
cases separately after doing some common initialization
*/
end_io_cache(cur_log);
DBUG_ASSERT(rli->cur_log_fd >= 0);
mysql_file_close(rli->cur_log_fd, MYF(MY_WME));
rli->cur_log_fd = -1;
rli->last_inuse_relaylog->completed= true;
rli->relay_log.description_event_for_exec->reset_crypto();
if (relay_log_purge)
{
/*
purge_first_log will properly set up relay log coordinates in rli.
If the group's coordinates are equal to the event's coordinates
(i.e. the relay log was not rotated in the middle of a group),
we can purge this relay log too.
We do ulonglong and string comparisons, this may be slow but
- purging the last relay log is nice (it can save 1GB of disk), so we
like to detect the case where we can do it, and given this,
- I see no better detection method
- purge_first_log is not called that often
*/
if (rli->relay_log.purge_first_log
(rli,
rli->group_relay_log_pos == rli->event_relay_log_pos
&& !strcmp(rli->group_relay_log_name,rli->event_relay_log_name)))
{
errmsg = "Error purging processed logs";
goto err;
}
}
else
{
/*
If hot_log is set, then we already have a lock on
LOCK_log. If not, we have to get the lock.
According to Sasha, the only time this code will ever be executed
is if we are recovering from a bug.
*/
if (rli->relay_log.find_next_log(&rli->linfo, !hot_log))
{
errmsg = "error switching to the next log";
goto err;
}
rli->event_relay_log_pos = BIN_LOG_HEADER_SIZE;
strmake_buf(rli->event_relay_log_name,rli->linfo.log_file_name);
if (rli->flush())
{
errmsg= "error flushing relay log";
goto err;
}
}
/*
Now we want to open this next log. To know if it's a hot log (the one
being written by the I/O thread now) or a cold log, we can use
is_active(); if it is hot, we use the I/O cache; if it's cold we open
the file normally. But if is_active() reports that the log is hot, this
may change between the test and the consequence of the test. So we may
open the I/O cache whereas the log is now cold, which is nonsense.
To guard against this, we need to have LOCK_log.
*/
DBUG_PRINT("info",("hot_log: %d",hot_log));
if (!hot_log) /* if hot_log, we already have this mutex */
mysql_mutex_lock(log_lock);
if (rli->relay_log.is_active(rli->linfo.log_file_name))
{
rli->cur_log= cur_log= rli->relay_log.get_log_file();
rli->cur_log_old_open_count= rli->relay_log.get_open_count();
DBUG_ASSERT(rli->cur_log_fd == -1);
/*
When the SQL thread is [stopped and] (re)started the
following may happen:
1. Log was hot at stop time and remains hot at restart
SQL thread reads again from hot_log (SQL thread was
reading from the active log when it was stopped and the
very same log is still active on SQL thread restart).
In this case, my_b_seek is performed on cur_log, while
cur_log points to relay_log.get_log_file();
2. Log was hot at stop time but got cold before restart
The log was hot when SQL thread stopped, but it is not
anymore when the SQL thread restarts.
In this case, the SQL thread reopens the log, using
cache_buf, ie, cur_log points to &cache_buf, and thence
its coordinates are reset.
3. Log was already cold at stop time
The log was not hot when the SQL thread stopped, and, of
course, it will not be hot when it restarts.
In this case, the SQL thread opens the cold log again,
using cache_buf, ie, cur_log points to &cache_buf, and
thence its coordinates are reset.
4. Log was hot at stop time, DBA changes to previous cold
log and restarts SQL thread
The log was hot when the SQL thread was stopped, but the
user changed the coordinates of the SQL thread to
restart from a previous cold log.
In this case, at start time, cur_log points to a cold
log, opened using &cache_buf as cache, and coordinates
are reset. However, as it moves on to the next logs, it
will eventually reach the hot log. If the hot log is the
same at the time the SQL thread was stopped, then
coordinates were not reset - the cur_log will point to
relay_log.get_log_file(), and not a freshly opened
IO_CACHE through cache_buf. For this reason we need to
deploy a my_b_seek before calling check_binlog_magic at
this point of the code (see: BUG#55263 for more
details).
NOTES:
- We must keep the LOCK_log to read the 4 first bytes, as
this is a hot log (same as when we call read_log_event()
above: for a hot log we take the mutex).
- Because of scenario #4 above, we need to have a
my_b_seek here. Otherwise, we might hit the assertion
inside check_binlog_magic.
*/
my_b_seek(cur_log, (my_off_t) 0);
if (check_binlog_magic(cur_log,&errmsg))
{
if (!hot_log)
mysql_mutex_unlock(log_lock);
goto err;
}
if (rli->alloc_inuse_relaylog(rli->linfo.log_file_name))
{
if (!hot_log)
mysql_mutex_unlock(log_lock);
goto err;
}
if (!hot_log)
mysql_mutex_unlock(log_lock);
continue;
}
if (!hot_log)
mysql_mutex_unlock(log_lock);
/*
if we get here, the log was not hot, so we will have to open it
ourselves. We are sure that the log is still not hot now (a log can get
from hot to cold, but not from cold to hot). No need for LOCK_log.
*/
// open_binlog() will check the magic header
if ((rli->cur_log_fd=open_binlog(cur_log,rli->linfo.log_file_name,
&errmsg)) <0)
goto err;
if (rli->alloc_inuse_relaylog(rli->linfo.log_file_name))
goto err;
}
else
{
/*
Read failed with a non-EOF error.
TODO: come up with something better to handle this error
*/
if (hot_log)
mysql_mutex_unlock(log_lock);
sql_print_error("Slave SQL thread: I/O error reading \
event(errno: %d cur_log->error: %d)",
my_errno,cur_log->error);
// set read position to the beginning of the event
my_b_seek(cur_log,rli->event_relay_log_pos);
/* otherwise, we have had a partial read */
errmsg = "Aborting slave SQL thread because of partial event read";
break; // To end of function
}
}
if (!errmsg && global_system_variables.log_warnings)
{
sql_print_information("Error reading relay log event: %s",
"slave SQL thread was killed");
goto end;
}
err:
if (errmsg)
sql_print_error("Error reading relay log event: %s", errmsg);
end:
/*
Set that we are not caught up so if there is a hang/problem on restart,
Seconds_Behind_Master will still grow.
*/
rli->sql_thread_caught_up= false;
DBUG_RETURN(0);
}
#ifdef WITH_WSREP
enum Log_event_type wsrep_peak_event(rpl_group_info *rgi, ulonglong* event_size)
{
enum Log_event_type ev_type;
mysql_mutex_lock(&rgi->rli->data_lock);
unsigned long long event_pos= rgi->event_relay_log_pos;
unsigned long long orig_future_pos= rgi->future_event_relay_log_pos;
unsigned long long future_pos= rgi->future_event_relay_log_pos;
/* scan the log to read next event and we skip
annotate events. */
do {
my_b_seek(rgi->rli->cur_log, future_pos);
rgi->rli->event_relay_log_pos= future_pos;
rgi->event_relay_log_pos= future_pos;
Log_event* ev= next_event(rgi, event_size);
ev_type= (ev) ? ev->get_type_code() : UNKNOWN_EVENT;
delete ev;
future_pos+= *event_size;
} while (ev_type == ANNOTATE_ROWS_EVENT || ev_type == XID_EVENT);
/* scan the log back and re-set the positions to original values */
rgi->rli->event_relay_log_pos= event_pos;
rgi->event_relay_log_pos= event_pos;
my_b_seek(rgi->rli->cur_log, orig_future_pos);
mysql_mutex_unlock(&rgi->rli->data_lock);
return ev_type;
}
#endif /* WITH_WSREP */
/*
Rotate a relay log (this is used only by FLUSH LOGS; the automatic rotation
because of size is simpler because when we do it we already have all relevant
locks; here we don't, so this function is mainly taking locks).
Returns nothing as we cannot catch any error (MYSQL_BIN_LOG::new_file()
is void).
*/
int rotate_relay_log(Master_info* mi)
{
DBUG_ENTER("rotate_relay_log");
Relay_log_info* rli= &mi->rli;
int error= 0;
DBUG_EXECUTE_IF("crash_before_rotate_relaylog", DBUG_SUICIDE(););
/*
We need to test inited because otherwise, new_file() will attempt to lock
LOCK_log, which may not be inited (if we're not a slave).
*/
if (!rli->inited)
{
DBUG_PRINT("info", ("rli->inited == 0"));
goto end;
}
/* If the relay log is closed, new_file() will do nothing. */
if ((error= rli->relay_log.new_file()))
goto end;
/*
We harvest now, because otherwise BIN_LOG_HEADER_SIZE will not immediately
be counted, so imagine a succession of FLUSH LOGS and assume the slave
threads are started:
relay_log_space decreases by the size of the deleted relay log, but does
not increase, so flush-after-flush we may become negative, which is wrong.
Even if this will be corrected as soon as a query is replicated on the
slave (because the I/O thread will then call harvest_bytes_written() which
will harvest all these BIN_LOG_HEADER_SIZE we forgot), it may give strange
output in SHOW SLAVE STATUS meanwhile. So we harvest now.
If the log is closed, then this will just harvest the last writes, probably
0 as they probably have been harvested.
Note that it needs to be protected by mi->data_lock.
*/
mysql_mutex_assert_owner(&mi->data_lock);
rli->relay_log.harvest_bytes_written(&rli->log_space_total);
end:
DBUG_RETURN(error);
}
/**
Detects, based on master's version (as found in the relay log), if master
has a certain bug.
@param rli Relay_log_info which tells the master's version
@param bug_id Number of the bug as found in bugs.mysql.com
@param report bool report error message, default TRUE
@param pred Predicate function that will be called with @c param to
check for the bug. If the function return @c true, the bug is present,
otherwise, it is not.
@param param State passed to @c pred function.
@return TRUE if master has the bug, FALSE if it does not.
*/
bool rpl_master_has_bug(const Relay_log_info *rli, uint bug_id, bool report,
bool (*pred)(const void *), const void *param,
bool maria_master)
{
struct st_version_range_for_one_bug {
uint bug_id;
Version introduced_in; // first version with bug
Version fixed_in; // first version with fix
};
static struct st_version_range_for_one_bug versions_for_their_bugs[]=
{
{24432, { 5, 0, 24 }, { 5, 0, 38 } },
{24432, { 5, 1, 12 }, { 5, 1, 17 } },
{33029, { 5, 0, 0 }, { 5, 0, 58 } },
{33029, { 5, 1, 0 }, { 5, 1, 12 } },
{37426, { 5, 1, 0 }, { 5, 1, 26 } },
};
static struct st_version_range_for_one_bug versions_for_our_bugs[]=
{
{29621, { 10, 3, 36 }, { 10, 3, 39 } },
{29621, { 10, 4, 26 }, { 10, 4, 29 } },
{29621, { 10, 5, 17 }, { 10, 5, 20 } },
{29621, { 10, 6, 9 }, { 10, 6, 13 } },
{29621, { 10, 7, 5 }, { 10, 7, 9 } },
{29621, { 10, 8, 4 }, { 10, 8, 8 } },
{29621, { 10, 9, 2 }, { 10, 9, 6 } },
{29621, { 10, 10,1 }, { 10, 10,4 } },
{29621, { 10, 11,1 }, { 10, 11,3 } },
};
const Version &master_ver=
rli->relay_log.description_event_for_exec->server_version_split;
struct st_version_range_for_one_bug* versions_for_all_bugs= maria_master ?
versions_for_our_bugs : versions_for_their_bugs;
uint all_size= maria_master ?
sizeof(versions_for_our_bugs)/sizeof(*versions_for_our_bugs) :
sizeof(versions_for_their_bugs)/sizeof(*versions_for_their_bugs);
for (uint i= 0; i < all_size; i++)
{
const Version &introduced_in= versions_for_all_bugs[i].introduced_in;
const Version &fixed_in= versions_for_all_bugs[i].fixed_in;
if ((versions_for_all_bugs[i].bug_id == bug_id) &&
introduced_in <= master_ver &&
fixed_in > master_ver &&
(pred == NULL || (*pred)(param)))
{
const char *bug_source= maria_master ?
"https://jira.mariadb.org/browse/MDEV-" :
"http://bugs.mysql.com/bug.php?id=";
if (!report)
return TRUE;
// a short message for SHOW SLAVE STATUS (message length constraints)
my_printf_error(ER_UNKNOWN_ERROR, "master may suffer from"
" %s%u"
" so slave stops; check error log on slave"
" for more info", MYF(0), bug_source, bug_id);
// a verbose message for the error log
rli->report(ERROR_LEVEL, ER_UNKNOWN_ERROR, NULL,
"According to the master's version ('%s'),"
" it is probable that master suffers from this bug:"
" %s%u"
" and thus replicating the current binary log event"
" may make the slave's data become different from the"
" master's data."
" To take no risk, slave refuses to replicate"
" this event and stops."
" We recommend that all updates be stopped on the"
" master and slave, that the data of both be"
" manually synchronized,"
" that master's binary logs be deleted,"
" that master be upgraded to a version at least"
" equal to '%d.%d.%d'. Then replication can be"
" restarted.",
rli->relay_log.description_event_for_exec->server_version,
bug_source,
bug_id,
fixed_in[0], fixed_in[1], fixed_in[2]);
return TRUE;
}
}
return FALSE;
}
/**
BUG#33029, For all 5.0 up to 5.0.58 exclusive, and 5.1 up to 5.1.12
exclusive, if one statement in a SP generated AUTO_INCREMENT value
by the top statement, all statements after it would be considered
generated AUTO_INCREMENT value by the top statement, and a
erroneous INSERT_ID value might be associated with these statement,
which could cause duplicate entry error and stop the slave.
Detect buggy master to work around.
*/
bool rpl_master_erroneous_autoinc(THD *thd)
{
if (thd->rgi_slave)
{
DBUG_EXECUTE_IF("simulate_bug33029", return TRUE;);
return rpl_master_has_bug(thd->rgi_slave->rli, 33029, FALSE, NULL, NULL);
}
return FALSE;
}
static bool get_row_event_stmt_end(const uchar *buf,
const Format_description_log_event *fdle)
{
uint8 const common_header_len= fdle->common_header_len;
Log_event_type event_type= (Log_event_type)(uchar)buf[EVENT_TYPE_OFFSET];
uint8 const post_header_len= fdle->post_header_len[event_type-1];
const uchar *flag_start= buf + common_header_len;
/*
The term 4 below signifies that master is of 'an intermediate source', see
Rows_log_event::Rows_log_event.
*/
flag_start += RW_MAPID_OFFSET + ((post_header_len == 6) ? 4 : RW_FLAGS_OFFSET);
return (uint2korr(flag_start) & Rows_log_event::STMT_END_F) != 0;
}
/*
Reset log event tracking data.
*/
void Rows_event_tracker::reset()
{
binlog_file_name[0]= 0;
first_seen= last_seen= 0;
stmt_end_seen= false;
}
/*
Update log event tracking data.
The first- and last- seen event binlog position get memorized, as
well as the end-of-statement status of the last one.
*/
void Rows_event_tracker::update(const char *file_name, my_off_t pos,
const uchar *buf,
const Format_description_log_event *fdle)
{
DBUG_ENTER("Rows_event_tracker::update");
if (!first_seen)
{
first_seen= pos;
strmake(binlog_file_name, file_name, sizeof(binlog_file_name) - 1);
}
last_seen= pos;
DBUG_ASSERT(stmt_end_seen == 0); // We can only have one
stmt_end_seen= get_row_event_stmt_end(buf, fdle);
DBUG_VOID_RETURN;
};
/**
The function is called at next event reading
after a sequence of Rows- log-events. It checks the end-of-statement status
of the past sequence to report on any isssue.
In the positive case the tracker gets reset.
@return true when the Rows- event group integrity found compromised,
false otherwise.
*/
bool Rows_event_tracker::check_and_report(const char* file_name,
my_off_t pos)
{
if (last_seen)
{
// there was at least one "block" event previously
if (!stmt_end_seen)
{
sql_print_error("Slave IO thread did not receive an expected "
"Rows-log end-of-statement for event starting "
"at log '%s' position %llu "
"whose last block was seen at log '%s' position %llu. "
"The end-of-statement should have been delivered "
"before the current one at log '%s' position %llu",
binlog_file_name, first_seen,
binlog_file_name, last_seen, file_name, pos);
return true;
}
reset();
}
return false;
}
/**
@} (end of group Replication)
*/
#endif /* HAVE_REPLICATION */
|