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mariadb/sql/rpl_handler.cc
Michael Widenius 4aaa38d26e Enusure that my_global.h is included first 
- Added sql/mariadb.h file that should be included first by files in sql
  directory, if sql_plugin.h is not used (sql_plugin.h adds SHOW variables
  that must be done before my_global.h is included)
- Removed a lot of include my_global.h from include files
- Removed include's of some files that my_global.h automatically includes
- Removed duplicated include's of my_sys.h
- Replaced include my_config.h with my_global.h
2017-08-24 01:05:44 +02:00

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/* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
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 02110-1301 USA */
#include "mariadb.h"
#include "sql_priv.h"
#include "unireg.h"
#include "rpl_mi.h"
#include "sql_repl.h"
#include "log_event.h"
#include "rpl_filter.h"
#include <my_dir.h>
#include "rpl_handler.h"
Trans_delegate *transaction_delegate;
Binlog_storage_delegate *binlog_storage_delegate;
#ifdef HAVE_REPLICATION
Binlog_transmit_delegate *binlog_transmit_delegate;
Binlog_relay_IO_delegate *binlog_relay_io_delegate;
#endif /* HAVE_REPLICATION */
/*
structure to save transaction log filename and position
*/
typedef struct Trans_binlog_info {
my_off_t log_pos;
char log_file[FN_REFLEN];
} Trans_binlog_info;
int get_user_var_int(const char *name,
long long int *value, int *null_value)
{
bool null_val;
user_var_entry *entry=
(user_var_entry*) my_hash_search(&current_thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
return 1;
*value= entry->val_int(&null_val);
if (null_value)
*null_value= null_val;
return 0;
}
int get_user_var_real(const char *name,
double *value, int *null_value)
{
bool null_val;
user_var_entry *entry=
(user_var_entry*) my_hash_search(&current_thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
return 1;
*value= entry->val_real(&null_val);
if (null_value)
*null_value= null_val;
return 0;
}
int get_user_var_str(const char *name, char *value,
size_t len, unsigned int precision, int *null_value)
{
String str;
bool null_val;
user_var_entry *entry=
(user_var_entry*) my_hash_search(&current_thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
return 1;
entry->val_str(&null_val, &str, precision);
strncpy(value, str.c_ptr(), len);
if (null_value)
*null_value= null_val;
return 0;
}
int delegates_init()
{
static my_aligned_storage<sizeof(Trans_delegate), MY_ALIGNOF(long)> trans_mem;
static my_aligned_storage<sizeof(Binlog_storage_delegate),
MY_ALIGNOF(long)> storage_mem;
#ifdef HAVE_REPLICATION
static my_aligned_storage<sizeof(Binlog_transmit_delegate),
MY_ALIGNOF(long)> transmit_mem;
static my_aligned_storage<sizeof(Binlog_relay_IO_delegate),
MY_ALIGNOF(long)> relay_io_mem;
#endif
void *place_trans_mem= trans_mem.data;
void *place_storage_mem= storage_mem.data;
transaction_delegate= new (place_trans_mem) Trans_delegate;
if (!transaction_delegate->is_inited())
{
sql_print_error("Initialization of transaction delegates failed. "
"Please report a bug.");
return 1;
}
binlog_storage_delegate= new (place_storage_mem) Binlog_storage_delegate;
if (!binlog_storage_delegate->is_inited())
{
sql_print_error("Initialization binlog storage delegates failed. "
"Please report a bug.");
return 1;
}
#ifdef HAVE_REPLICATION
void *place_transmit_mem= transmit_mem.data;
void *place_relay_io_mem= relay_io_mem.data;
binlog_transmit_delegate= new (place_transmit_mem) Binlog_transmit_delegate;
if (!binlog_transmit_delegate->is_inited())
{
sql_print_error("Initialization of binlog transmit delegates failed. "
"Please report a bug.");
return 1;
}
binlog_relay_io_delegate= new (place_relay_io_mem) Binlog_relay_IO_delegate;
if (!binlog_relay_io_delegate->is_inited())
{
sql_print_error("Initialization binlog relay IO delegates failed. "
"Please report a bug.");
return 1;
}
#endif
return 0;
}
void delegates_destroy()
{
if (transaction_delegate)
transaction_delegate->~Trans_delegate();
if (binlog_storage_delegate)
binlog_storage_delegate->~Binlog_storage_delegate();
#ifdef HAVE_REPLICATION
if (binlog_transmit_delegate)
binlog_transmit_delegate->~Binlog_transmit_delegate();
if (binlog_relay_io_delegate)
binlog_relay_io_delegate->~Binlog_relay_IO_delegate();
#endif /* HAVE_REPLICATION */
}
/*
This macro is used by almost all the Delegate methods to iterate
over all the observers running given callback function of the
delegate.
*/
#define FOREACH_OBSERVER(r, f, do_lock, args) \
param.server_id= thd->variables.server_id; \
read_lock(); \
Observer_info_iterator iter= observer_info_iter(); \
Observer_info *info= iter++; \
for (; info; info= iter++) \
{ \
if (do_lock) plugin_lock(thd, plugin_int_to_ref(info->plugin_int)); \
if (((Observer *)info->observer)->f \
&& ((Observer *)info->observer)->f args) \
{ \
r= 1; \
sql_print_error("Run function '" #f "' in plugin '%s' failed", \
info->plugin_int->name.str); \
break; \
} \
} \
unlock();
int Trans_delegate::after_commit(THD *thd, bool all)
{
Trans_param param;
Trans_binlog_info *log_info;
bool is_real_trans= (all || thd->transaction.all.ha_list == 0);
int ret= 0;
param.flags = is_real_trans ? TRANS_IS_REAL_TRANS : 0;
log_info= thd->semisync_info;
param.log_file= log_info && log_info->log_file[0] ? log_info->log_file : 0;
param.log_pos= log_info ? log_info->log_pos : 0;
FOREACH_OBSERVER(ret, after_commit, false, (&param));
/*
This is the end of a real transaction or autocommit statement, we
can mark the memory unused.
*/
if (is_real_trans && log_info)
{
log_info->log_file[0]= 0;
log_info->log_pos= 0;
}
return ret;
}
int Trans_delegate::after_rollback(THD *thd, bool all)
{
Trans_param param;
Trans_binlog_info *log_info;
bool is_real_trans= (all || thd->transaction.all.ha_list == 0);
int ret= 0;
param.flags = is_real_trans ? TRANS_IS_REAL_TRANS : 0;
log_info= thd->semisync_info;
param.log_file= log_info && log_info->log_file[0] ? log_info->log_file : 0;
param.log_pos= log_info ? log_info->log_pos : 0;
FOREACH_OBSERVER(ret, after_rollback, false, (&param));
/*
This is the end of a real transaction or autocommit statement, we
can mark the memory unused.
*/
if (is_real_trans && log_info)
{
log_info->log_file[0]= 0;
log_info->log_pos= 0;
}
return ret;
}
int Binlog_storage_delegate::after_flush(THD *thd,
const char *log_file,
my_off_t log_pos,
bool synced,
bool first_in_group,
bool last_in_group)
{
Binlog_storage_param param;
Trans_binlog_info *log_info;
uint32 flags=0;
int ret= 0;
if (synced)
flags |= BINLOG_STORAGE_IS_SYNCED;
if (first_in_group)
flags|= BINLOG_GROUP_COMMIT_LEADER;
if (last_in_group)
flags|= BINLOG_GROUP_COMMIT_TRAILER;
if (!(log_info= thd->semisync_info))
{
if(!(log_info=
(Trans_binlog_info*) my_malloc(sizeof(Trans_binlog_info), MYF(0))))
return 1;
thd->semisync_info= log_info;
}
strcpy(log_info->log_file, log_file+dirname_length(log_file));
log_info->log_pos = log_pos;
FOREACH_OBSERVER(ret, after_flush, false,
(&param, log_info->log_file, log_info->log_pos, flags));
return ret;
}
int Binlog_storage_delegate::after_sync(THD *thd,
const char *log_file,
my_off_t log_pos,
bool first_in_group,
bool last_in_group)
{
Binlog_storage_param param;
uint32 flags=0;
if (first_in_group)
flags|= BINLOG_GROUP_COMMIT_LEADER;
if (last_in_group)
flags|= BINLOG_GROUP_COMMIT_TRAILER;
int ret= 0;
FOREACH_OBSERVER(ret, after_sync, false,
(&param, log_file+dirname_length(log_file), log_pos, flags));
return ret;
}
#ifdef HAVE_REPLICATION
int Binlog_transmit_delegate::transmit_start(THD *thd, ushort flags,
const char *log_file,
my_off_t log_pos)
{
Binlog_transmit_param param;
param.flags= flags;
int ret= 0;
FOREACH_OBSERVER(ret, transmit_start, true, (&param, log_file, log_pos));
return ret;
}
int Binlog_transmit_delegate::transmit_stop(THD *thd, ushort flags)
{
Binlog_transmit_param param;
param.flags= flags;
int ret= 0;
FOREACH_OBSERVER(ret, transmit_stop, false, (&param));
return ret;
}
int Binlog_transmit_delegate::reserve_header(THD *thd, ushort flags,
String *packet)
{
/* NOTE2ME: Maximum extra header size for each observer, I hope 32
bytes should be enough for each Observer to reserve their extra
header. If later found this is not enough, we can increase this
/HEZX
*/
#define RESERVE_HEADER_SIZE 32
unsigned char header[RESERVE_HEADER_SIZE];
ulong hlen;
Binlog_transmit_param param;
param.flags= flags;
param.server_id= thd->variables.server_id;
int ret= 0;
read_lock();
Observer_info_iterator iter= observer_info_iter();
Observer_info *info= iter++;
for (; info; info= iter++)
{
hlen= 0;
if (((Observer *)info->observer)->reserve_header
&& ((Observer *)info->observer)->reserve_header(&param,
header,
RESERVE_HEADER_SIZE,
&hlen))
{
ret= 1;
break;
}
if (hlen == 0)
continue;
if (hlen > RESERVE_HEADER_SIZE || packet->append((char *)header, hlen))
{
ret= 1;
break;
}
}
unlock();
return ret;
}
int Binlog_transmit_delegate::before_send_event(THD *thd, ushort flags,
String *packet,
const char *log_file,
my_off_t log_pos)
{
Binlog_transmit_param param;
param.flags= flags;
int ret= 0;
FOREACH_OBSERVER(ret, before_send_event, false,
(&param, (uchar *)packet->c_ptr(),
packet->length(),
log_file+dirname_length(log_file), log_pos));
return ret;
}
int Binlog_transmit_delegate::after_send_event(THD *thd, ushort flags,
String *packet)
{
Binlog_transmit_param param;
param.flags= flags;
int ret= 0;
FOREACH_OBSERVER(ret, after_send_event, false,
(&param, packet->c_ptr(), packet->length()));
return ret;
}
int Binlog_transmit_delegate::after_reset_master(THD *thd, ushort flags)
{
Binlog_transmit_param param;
param.flags= flags;
int ret= 0;
FOREACH_OBSERVER(ret, after_reset_master, false, (&param));
return ret;
}
void Binlog_relay_IO_delegate::init_param(Binlog_relay_IO_param *param,
Master_info *mi)
{
param->mysql= mi->mysql;
param->user= mi->user;
param->host= mi->host;
param->port= mi->port;
param->master_log_name= mi->master_log_name;
param->master_log_pos= mi->master_log_pos;
}
int Binlog_relay_IO_delegate::thread_start(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
int ret= 0;
FOREACH_OBSERVER(ret, thread_start, true, (&param));
return ret;
}
int Binlog_relay_IO_delegate::thread_stop(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
int ret= 0;
FOREACH_OBSERVER(ret, thread_stop, false, (&param));
return ret;
}
int Binlog_relay_IO_delegate::before_request_transmit(THD *thd,
Master_info *mi,
ushort flags)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
int ret= 0;
FOREACH_OBSERVER(ret, before_request_transmit, false, (&param, (uint32)flags));
return ret;
}
int Binlog_relay_IO_delegate::after_read_event(THD *thd, Master_info *mi,
const char *packet, ulong len,
const char **event_buf,
ulong *event_len)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
int ret= 0;
FOREACH_OBSERVER(ret, after_read_event, false,
(&param, packet, len, event_buf, event_len));
return ret;
}
int Binlog_relay_IO_delegate::after_queue_event(THD *thd, Master_info *mi,
const char *event_buf,
ulong event_len,
bool synced)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
uint32 flags=0;
if (synced)
flags |= BINLOG_STORAGE_IS_SYNCED;
int ret= 0;
FOREACH_OBSERVER(ret, after_queue_event, false,
(&param, event_buf, event_len, flags));
return ret;
}
int Binlog_relay_IO_delegate::after_reset_slave(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(&param, mi);
int ret= 0;
FOREACH_OBSERVER(ret, after_reset_slave, false, (&param));
return ret;
}
#endif /* HAVE_REPLICATION */
int register_trans_observer(Trans_observer *observer, void *p)
{
return transaction_delegate->add_observer(observer, (st_plugin_int *)p);
}
int unregister_trans_observer(Trans_observer *observer, void *p)
{
return transaction_delegate->remove_observer(observer, (st_plugin_int *)p);
}
int register_binlog_storage_observer(Binlog_storage_observer *observer, void *p)
{
return binlog_storage_delegate->add_observer(observer, (st_plugin_int *)p);
}
int unregister_binlog_storage_observer(Binlog_storage_observer *observer, void *p)
{
return binlog_storage_delegate->remove_observer(observer, (st_plugin_int *)p);
}
#ifdef HAVE_REPLICATION
int register_binlog_transmit_observer(Binlog_transmit_observer *observer, void *p)
{
return binlog_transmit_delegate->add_observer(observer, (st_plugin_int *)p);
}
int unregister_binlog_transmit_observer(Binlog_transmit_observer *observer, void *p)
{
return binlog_transmit_delegate->remove_observer(observer, (st_plugin_int *)p);
}
int register_binlog_relay_io_observer(Binlog_relay_IO_observer *observer, void *p)
{
return binlog_relay_io_delegate->add_observer(observer, (st_plugin_int *)p);
}
int unregister_binlog_relay_io_observer(Binlog_relay_IO_observer *observer, void *p)
{
return binlog_relay_io_delegate->remove_observer(observer, (st_plugin_int *)p);
}
#else
int register_binlog_transmit_observer(Binlog_transmit_observer *observer, void *p)
{
return 0;
}
int unregister_binlog_transmit_observer(Binlog_transmit_observer *observer, void *p)
{
return 0;
}
int register_binlog_relay_io_observer(Binlog_relay_IO_observer *observer, void *p)
{
return 0;
}
int unregister_binlog_relay_io_observer(Binlog_relay_IO_observer *observer, void *p)
{
return 0;
}
#endif /* HAVE_REPLICATION */
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