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/* Copyright (c) 2008, 2023, Oracle and/or its affiliates.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License, version 2.0,
as published by the Free Software Foundation.
This program is also distributed with certain software (including
but not limited to OpenSSL) that is licensed under separate terms,
as designated in a particular file or component or in included license
documentation. The authors of MySQL hereby grant you an additional
permission to link the program and your derivative works with the
separately licensed software that they have included with MySQL.
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, version 2.0, 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,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA */
#include "rpl_handler.h"
#include "debug_sync.h" // DEBUG_SYNC
#include "log.h" // sql_print_error
#include "replication.h" // Trans_param
#include "rpl_mi.h" // Master_info
#include "sql_class.h" // THD
#include "sql_plugin.h" // plugin_int_to_ref
#include <vector>
Trans_delegate *transaction_delegate;
Binlog_storage_delegate *binlog_storage_delegate;
Server_state_delegate *server_state_delegate;
#ifdef HAVE_REPLICATION
Binlog_transmit_delegate *binlog_transmit_delegate;
Binlog_relay_IO_delegate *binlog_relay_io_delegate;
#endif /* HAVE_REPLICATION */
bool opt_replication_optimize_for_static_plugin_config= 0;
bool opt_replication_sender_observe_commit_only= 0;
int32 opt_atomic_replication_sender_observe_commit_only= 0;
Observer_info::Observer_info(void *ob, st_plugin_int *p)
: observer(ob), plugin_int(p)
{
plugin= plugin_int_to_ref(plugin_int);
}
Delegate::Delegate(
#ifdef HAVE_PSI_INTERFACE
PSI_rwlock_key key
#endif
)
{
inited= FALSE;
my_atomic_fas32(&m_configured_lock_type,
opt_replication_optimize_for_static_plugin_config
? DELEGATE_SPIN_LOCK
: DELEGATE_OS_LOCK);
my_atomic_store32(&m_acquired_locks, 0);
#ifdef HAVE_PSI_INTERFACE
if (mysql_rwlock_init(key, &lock)) return;
#else
if (mysql_rwlock_init(0, &lock)) return;
#endif
init_sql_alloc(key_memory_delegate, &memroot, 1024, 0);
inited= TRUE;
}
Delegate::~Delegate()
{
inited= FALSE;
mysql_rwlock_destroy(&lock);
free_root(&memroot, MYF(0));
}
int Delegate::add_observer(void *observer, st_plugin_int *plugin)
{
int ret= FALSE;
if (!inited) return TRUE;
write_lock();
Observer_info_iterator iter(observer_info_list);
Observer_info *info= iter++;
while (info && info->observer != observer) info= iter++;
if (!info)
{
info= new Observer_info(observer, plugin);
if (!info || observer_info_list.push_back(info, &memroot))
ret= TRUE;
else if (this->use_spin_lock_type())
acquire_plugin_ref_count(info);
}
else
ret= TRUE;
unlock();
return ret;
}
int Delegate::remove_observer(void *observer, st_plugin_int *plugin)
{
int ret= FALSE;
if (!inited) return TRUE;
write_lock();
Observer_info_iterator iter(observer_info_list);
Observer_info *info= iter++;
while (info && info->observer != observer) info= iter++;
if (info)
{
iter.remove();
delete info;
}
else
ret= TRUE;
unlock();
return ret;
}
Delegate::Observer_info_iterator Delegate::observer_info_iter()
{
return Observer_info_iterator(observer_info_list);
}
bool Delegate::is_empty()
{
DBUG_PRINT("debug", ("is_empty: %d", observer_info_list.is_empty()));
return observer_info_list.is_empty();
}
int Delegate::read_lock()
{
if (!inited) return 1;
this->lock_it(DELEGATE_LOCK_MODE_SHARED);
return 0;
}
int Delegate::write_lock()
{
if (!inited) return 1;
this->lock_it(DELEGATE_LOCK_MODE_EXCLUSIVE);
return 0;
}
int Delegate::unlock()
{
if (!inited) return 1;
int result= 0;
if (my_atomic_load32(&m_acquired_locks) > 0)
{
my_atomic_add32(&m_acquired_locks, -DELEGATE_SPIN_LOCK);
if (m_spin_lock.is_exclusive_acquisition())
m_spin_lock.release_exclusive();
else
{
assert(m_spin_lock.is_shared_acquisition());
m_spin_lock.release_shared();
}
}
else
{
assert(my_atomic_load32(&m_acquired_locks) < 0);
my_atomic_add32(&m_acquired_locks, -DELEGATE_OS_LOCK);
result= mysql_rwlock_unlock(&lock);
}
return result;
}
bool Delegate::is_inited() { return inited; }
void Delegate::update_lock_type()
{
if (!inited) return;
int32 opt_value= opt_replication_optimize_for_static_plugin_config
? DELEGATE_SPIN_LOCK
: DELEGATE_OS_LOCK;
my_atomic_fas32(&m_configured_lock_type, opt_value);
}
void Delegate::update_plugin_ref_count()
{
if (!inited) return;
int32 opt_value= opt_replication_optimize_for_static_plugin_config
? DELEGATE_SPIN_LOCK
: DELEGATE_OS_LOCK;
int32 intern_value= my_atomic_load32(&m_configured_lock_type);
if (intern_value == DELEGATE_SPIN_LOCK && opt_value == DELEGATE_OS_LOCK)
{
for (std::map<plugin_ref, size_t>::iterator ref=
m_acquired_references.begin();
ref != m_acquired_references.end(); ++ref)
{
for (size_t count= ref->second; count != 0; --count)
plugin_unlock(NULL, ref->first);
}
m_acquired_references.clear();
}
else if (intern_value == DELEGATE_OS_LOCK && opt_value == DELEGATE_SPIN_LOCK)
{
Observer_info_iterator iter= observer_info_iter();
for (Observer_info *info= iter++; info; info= iter++)
{
acquire_plugin_ref_count(info);
}
}
}
bool Delegate::use_rw_lock_type()
{
return my_atomic_load32(&m_acquired_locks) <
0 || // If there are acquisitions using the read-write lock
(my_atomic_load32(&m_configured_lock_type) ==
DELEGATE_OS_LOCK && // or the lock type has been set to use the
// read-write lock
my_atomic_load32(&m_acquired_locks) ==
0); // and there are no outstanding acquisitions using shared
// spin-lock, use the read-write lock
}
bool Delegate::use_spin_lock_type()
{
return my_atomic_load32(&m_acquired_locks) >
0 || // If there are acquisitions using the shared spin-lock
(my_atomic_load32(&m_configured_lock_type) ==
DELEGATE_SPIN_LOCK && // or the lock type has been set to use the
// shared spin-lock
my_atomic_load32(&m_acquired_locks) ==
0); // and there are no outstanding acquisitions using read-write
// lock, use the shared spin-lock
}
void Delegate::acquire_plugin_ref_count(Observer_info *info)
{
plugin_ref internal_ref= plugin_lock(NULL, &info->plugin);
++(m_acquired_references[internal_ref]);
}
void Delegate::lock_it(enum_delegate_lock_mode mode)
{
do
{
if (this->use_spin_lock_type())
{
if (mode == DELEGATE_LOCK_MODE_SHARED)
m_spin_lock.acquire_shared();
else
m_spin_lock.acquire_exclusive();
if (my_atomic_load32(&m_configured_lock_type) !=
DELEGATE_SPIN_LOCK) // Lock type changed in the meanwhile, lets
// revert the acquisition and try again
{
if (mode == DELEGATE_LOCK_MODE_SHARED)
m_spin_lock.release_shared();
else
m_spin_lock.release_exclusive();
}
else
{
my_atomic_add32(&m_acquired_locks, DELEGATE_SPIN_LOCK);
break;
}
}
if (this->use_rw_lock_type())
{
if (mode == DELEGATE_LOCK_MODE_SHARED)
mysql_rwlock_rdlock(&lock);
else
mysql_rwlock_wrlock(&lock);
if (my_atomic_load32(&m_configured_lock_type) !=
DELEGATE_OS_LOCK) // Lock type changed in the meanwhile, lets revert
// the acquisition and try again
mysql_rwlock_unlock(&lock);
else
{
my_atomic_add32(&m_acquired_locks, DELEGATE_OS_LOCK);
break;
}
}
} while (true);
}
/*
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)
{
my_bool null_val;
THD *thd= current_thd;
/* Protects thd->user_vars. */
mysql_mutex_lock(&thd->LOCK_thd_data);
user_var_entry *entry=
(user_var_entry*) my_hash_search(&thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
{
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 1;
}
*value= entry->val_int(&null_val);
if (null_value)
*null_value= null_val;
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 0;
}
int get_user_var_real(const char *name,
double *value, int *null_value)
{
my_bool null_val;
THD *thd= current_thd;
/* Protects thd->user_vars. */
mysql_mutex_lock(&thd->LOCK_thd_data);
user_var_entry *entry=
(user_var_entry*) my_hash_search(&thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
{
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 1;
}
*value= entry->val_real(&null_val);
if (null_value)
*null_value= null_val;
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 0;
}
int get_user_var_str(const char *name, char *value,
size_t len, unsigned int precision, int *null_value)
{
String str;
my_bool null_val;
THD *thd= current_thd;
/* Protects thd->user_vars. */
mysql_mutex_lock(&thd->LOCK_thd_data);
user_var_entry *entry=
(user_var_entry*) my_hash_search(&thd->user_vars,
(uchar*) name, strlen(name));
if (!entry)
{
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 1;
}
entry->val_str(&null_val, &str, precision);
strncpy(value, str.c_ptr(), len);
if (null_value)
*null_value= null_val;
mysql_mutex_unlock(&thd->LOCK_thd_data);
return 0;
}
int delegates_init()
{
static my_aligned_storage<sizeof(Trans_delegate),
MY_ALIGNOF(longlong)> trans_mem;
static my_aligned_storage<sizeof(Binlog_storage_delegate),
MY_ALIGNOF(longlong)> storage_mem;
static my_aligned_storage<sizeof(Server_state_delegate),
MY_ALIGNOF(longlong)> server_state_mem;
#ifdef HAVE_REPLICATION
static my_aligned_storage<sizeof(Binlog_transmit_delegate),
MY_ALIGNOF(longlong)> transmit_mem;
static my_aligned_storage<sizeof(Binlog_relay_IO_delegate),
MY_ALIGNOF(longlong)> relay_io_mem;
#endif
void *place_trans_mem= trans_mem.data;
void *place_storage_mem= storage_mem.data;
void *place_state_mem= server_state_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;
}
server_state_delegate= new (place_state_mem) Server_state_delegate;
#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_shutdown()
{
if (opt_replication_optimize_for_static_plugin_config)
{
opt_replication_optimize_for_static_plugin_config= false;
delegates_acquire_locks();
delegates_update_lock_type();
delegates_release_locks();
}
}
void delegates_destroy()
{
if (transaction_delegate)
transaction_delegate->~Trans_delegate();
if (binlog_storage_delegate)
binlog_storage_delegate->~Binlog_storage_delegate();
if (server_state_delegate)
server_state_delegate->~Server_state_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 */
}
static void delegates_update_plugin_ref_count()
{
if (transaction_delegate)
transaction_delegate->update_plugin_ref_count();
if (binlog_storage_delegate)
binlog_storage_delegate->update_plugin_ref_count();
if (server_state_delegate)
server_state_delegate->update_plugin_ref_count();
#ifdef HAVE_REPLICATION
if (binlog_transmit_delegate)
binlog_transmit_delegate->update_plugin_ref_count();
if (binlog_relay_io_delegate)
binlog_relay_io_delegate->update_plugin_ref_count();
#endif /* HAVE_REPLICATION */
}
void delegates_acquire_locks()
{
if (transaction_delegate)
transaction_delegate->write_lock();
if (binlog_storage_delegate)
binlog_storage_delegate->write_lock();
if (server_state_delegate)
server_state_delegate->write_lock();
#ifdef HAVE_REPLICATION
if (binlog_transmit_delegate)
binlog_transmit_delegate->write_lock();
if (binlog_relay_io_delegate)
binlog_relay_io_delegate->write_lock();
#endif /* HAVE_REPLICATION */
}
void delegates_release_locks()
{
if (transaction_delegate)
transaction_delegate->unlock();
if (binlog_storage_delegate)
binlog_storage_delegate->unlock();
if (server_state_delegate)
server_state_delegate->unlock();
#ifdef HAVE_REPLICATION
if (binlog_transmit_delegate)
binlog_transmit_delegate->unlock();
if (binlog_relay_io_delegate)
binlog_relay_io_delegate->unlock();
#endif /* HAVE_REPLICATION */
}
void delegates_update_lock_type()
{
delegates_update_plugin_ref_count();
if (transaction_delegate)
transaction_delegate->update_lock_type();
if (binlog_storage_delegate)
binlog_storage_delegate->update_lock_type();
if (server_state_delegate)
server_state_delegate->update_lock_type();
#ifdef HAVE_REPLICATION
if (binlog_transmit_delegate)
binlog_transmit_delegate->update_lock_type();
if (binlog_relay_io_delegate)
binlog_relay_io_delegate->update_lock_type();
#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 .
Add observer plugins to the thd->lex list, after each statement, all
plugins add to thd->lex will be automatically unlocked.
*/
#define FOREACH_OBSERVER(r, f, thd, args) \
/* \
Use a struct to make sure that they are allocated adjacent, check \
delete_dynamic(). \
*/ \
Prealloced_array<plugin_ref, 8> plugins(PSI_NOT_INSTRUMENTED); \
read_lock(); \
Observer_info_iterator iter= observer_info_iter(); \
Observer_info *info= iter++; \
for (; info; info= iter++) \
{ \
bool replication_optimize_for_static_plugin_config= \
this->use_spin_lock_type(); \
plugin_ref plugin= (replication_optimize_for_static_plugin_config \
? info->plugin \
: my_plugin_lock(0, &info->plugin)); \
if (!plugin) \
{ \
/* plugin is not intialized or deleted, this is not an error */ \
r= 0; \
break; \
} \
if (!replication_optimize_for_static_plugin_config) \
plugins.push_back(plugin); \
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(); \
/* \
Unlock plugins should be done after we released the Delegate lock \
to avoid possible deadlock when this is the last user of the \
plugin, and when we unlock the plugin, it will try to \
deinitialize the plugin, which will try to lock the Delegate in \
order to remove the observers. \
*/ \
if (!plugins.empty()) plugin_unlock_list(0, &plugins[0], plugins.size());
#define FOREACH_OBSERVER_ERROR_OUT(r, f, thd, args, out) \
/* \
Use a struct to make sure that they are allocated adjacent, check \
delete_dynamic(). \
*/ \
Prealloced_array<plugin_ref, 8> plugins(PSI_NOT_INSTRUMENTED); \
read_lock(); \
Observer_info_iterator iter= observer_info_iter(); \
Observer_info *info= iter++; \
\
int error_out= 0; \
for (; info; info= iter++) \
{ \
bool replication_optimize_for_static_plugin_config= \
this->use_spin_lock_type(); \
plugin_ref plugin= (replication_optimize_for_static_plugin_config \
? info->plugin \
: my_plugin_lock(0, &info->plugin)); \
if (!plugin) \
{ \
/* plugin is not intialized or deleted, this is not an error */ \
r= 0; \
break; \
} \
if (!replication_optimize_for_static_plugin_config) \
plugins.push_back(plugin); \
\
bool hook_error= false; \
hook_error= ((Observer *)info->observer)->f(args, error_out); \
\
out+= error_out; \
if (hook_error) \
{ \
r= 1; \
sql_print_error("Run function '" #f "' in plugin '%s' failed", \
info->plugin_int->name.str); \
break; \
} \
} \
unlock(); \
/* \
Unlock plugins should be done after we released the Delegate lock \
to avoid possible deadlock when this is the last user of the \
plugin, and when we unlock the plugin, it will try to \
deinitialize the plugin, which will try to lock the Delegate in \
order to remove the observers. \
*/ \
if (!plugins.empty()) plugin_unlock_list(0, &plugins[0], plugins.size());
int Trans_delegate::before_commit(THD *thd, bool all,
IO_CACHE *trx_cache_log,
IO_CACHE *stmt_cache_log,
ulonglong cache_log_max_size)
{
DBUG_ENTER("Trans_delegate::before_commit");
Trans_param param;
TRANS_PARAM_ZERO(param);
param.server_id= thd->server_id;
param.server_uuid= server_uuid;
param.thread_id= thd->thread_id();
param.gtid_info.type= thd->variables.gtid_next.type;
param.gtid_info.sidno= thd->variables.gtid_next.gtid.sidno;
param.gtid_info.gno= thd->variables.gtid_next.gtid.gno;
param.trx_cache_log= trx_cache_log;
param.stmt_cache_log= stmt_cache_log;
param.cache_log_max_size= cache_log_max_size;
param.rpl_channel_type = thd->rpl_thd_ctx.get_rpl_channel_type();
bool is_real_trans=
(all || !thd->get_transaction()->is_active(Transaction_ctx::SESSION));
if (is_real_trans)
param.flags|= TRANS_IS_REAL_TRANS;
int ret= 0;
FOREACH_OBSERVER(ret, before_commit, thd, (¶m));
DBUG_RETURN(ret);
}
/**
Helper method to check if the given table has 'CASCADE' foreign key or not.
@param[in] TABLE Table object that needs to be verified.
@param[in] THD Current execution thread.
@return bool TRUE If the table has 'CASCADE' foreign key.
FALSE If the table does not have 'CASCADE' foreign key.
*/
bool has_cascade_foreign_key(TABLE *table, THD *thd)
{
DBUG_ENTER("has_cascade_foreign_key");
List<FOREIGN_KEY_INFO> f_key_list;
table->file->get_foreign_key_list(thd, &f_key_list);
FOREIGN_KEY_INFO *f_key_info;
List_iterator_fast<FOREIGN_KEY_INFO> foreign_key_iterator(f_key_list);
while ((f_key_info=foreign_key_iterator++))
{
/*
The possible values for update_method are
{"CASCADE", "SET NULL", "NO ACTION", "RESTRICT"}.
Hence we are avoiding the usage of strncmp
("'update_method' value with 'CASCADE' or 'SET NULL'") and just comparing
the first character of the update_method value with 'C' or 'S'.
*/
if (f_key_info->update_method->str[0] == 'C' ||
f_key_info->delete_method->str[0] == 'C' ||
f_key_info->update_method->str[0] == 'S' ||
f_key_info->delete_method->str[0] == 'S')
{
assert(!strncmp(f_key_info->update_method->str, "CASCADE", 7) ||
!strncmp(f_key_info->delete_method->str, "CASCADE", 7) ||
!strncmp(f_key_info->update_method->str, "SET NUL", 7) ||
!strncmp(f_key_info->delete_method->str, "SET NUL", 7));
DBUG_RETURN(TRUE);
}
}
DBUG_RETURN(FALSE);
}
/**
Helper method to create table information for the hook call
*/
void
Trans_delegate::prepare_table_info(THD* thd,
Trans_table_info*& table_info_list,
uint& number_of_tables)
{
DBUG_ENTER("Trans_delegate::prepare_table_info");
TABLE* open_tables= thd->open_tables;
// Fail if tables are not open
if(open_tables == NULL)
{
DBUG_VOID_RETURN;
}
//Gather table information
std::vector<Trans_table_info> table_info_holder;
for(; open_tables != NULL; open_tables= open_tables->next)
{
Trans_table_info table_info = {0,0,0,0};
if (open_tables->no_replicate)
{
continue;
}
table_info.table_name= open_tables->s->table_name.str;
uint primary_keys= 0;
if(open_tables->key_info != NULL && (open_tables->s->primary_key < MAX_KEY))
{
primary_keys= open_tables->s->primary_key;
//if primary keys is still 0, lets double check on another var
if(primary_keys == 0)
{
primary_keys= open_tables->key_info->user_defined_key_parts;
}
}
table_info.number_of_primary_keys= primary_keys;
table_info.db_type= open_tables->s->db_type()->db_type;
/*
Find out if the table has foreign key with ON UPDATE/DELETE CASCADE
clause.
*/
table_info.has_cascade_foreign_key= has_cascade_foreign_key(open_tables, thd);
table_info_holder.push_back(table_info);
}
//Now that one has all the information, one should build the
// data that will be delivered to the plugin
if(table_info_holder.size() > 0)
{
number_of_tables= table_info_holder.size();
table_info_list= (Trans_table_info*)my_malloc(
PSI_NOT_INSTRUMENTED,
number_of_tables * sizeof(Trans_table_info),
MYF(0));
std::vector<Trans_table_info>::iterator table_info_holder_it
= table_info_holder.begin();
for(int table= 0;
table_info_holder_it != table_info_holder.end();
table_info_holder_it++, table++)
{
table_info_list[table].number_of_primary_keys
= (*table_info_holder_it).number_of_primary_keys;
table_info_list[table].table_name
= (*table_info_holder_it).table_name;
table_info_list[table].db_type
= (*table_info_holder_it).db_type;
table_info_list[table].has_cascade_foreign_key
= (*table_info_holder_it).has_cascade_foreign_key;
}
}
DBUG_VOID_RETURN;
}
/**
Helper that gathers all table runtime information
@param[in] THD the current execution thread
@param[out] ctx_info Trans_context_info in which the result is stored.
*/
void prepare_transaction_context(THD* thd, Trans_context_info& ctx_info)
{
//Extracting the session value of SQL binlogging
ctx_info.binlog_enabled= thd->variables.sql_log_bin;
//Extracting the session value of binlog format
ctx_info.binlog_format= thd->variables.binlog_format;
//Extracting the global mutable value of binlog checksum
ctx_info.binlog_checksum_options= binlog_checksum_options;
//Extracting the session value of transaction_write_set_extraction
ctx_info.transaction_write_set_extraction=
thd->variables.transaction_write_set_extraction;
//Extracting transaction isolation level
ctx_info.tx_isolation= thd->tx_isolation;
}
int Trans_delegate::before_dml(THD* thd, int& result)
{
DBUG_ENTER("Trans_delegate::before_dml");
Trans_param param;
TRANS_PARAM_ZERO(param);
param.server_id= thd->server_id;
param.server_uuid= server_uuid;
param.thread_id= thd->thread_id();
prepare_table_info(thd, param.tables_info, param.number_of_tables);
prepare_transaction_context(thd, param.trans_ctx_info);
int ret= 0;
FOREACH_OBSERVER_ERROR_OUT(ret, before_dml, thd, ¶m, result);
my_free(param.tables_info);
DBUG_RETURN(ret);
}
int Trans_delegate::before_rollback(THD *thd, bool all)
{
DBUG_ENTER("Trans_delegate::before_rollback");
Trans_param param;
TRANS_PARAM_ZERO(param);
param.server_id= thd->server_id;
param.server_uuid= server_uuid;
param.thread_id= thd->thread_id();
param.rpl_channel_type = thd->rpl_thd_ctx.get_rpl_channel_type();
bool is_real_trans=
(all || !thd->get_transaction()->is_active(Transaction_ctx::SESSION));
if (is_real_trans)
param.flags|= TRANS_IS_REAL_TRANS;
int ret= 0;
FOREACH_OBSERVER(ret, before_rollback, thd, (¶m));
DBUG_RETURN(ret);
}
int Trans_delegate::after_commit(THD *thd, bool all)
{
DBUG_ENTER("Trans_delegate::after_commit");
Trans_param param;
TRANS_PARAM_ZERO(param);
param.server_uuid= server_uuid;
param.thread_id= thd->thread_id();
param.rpl_channel_type = thd->rpl_thd_ctx.get_rpl_channel_type();
bool is_real_trans=
(all || !thd->get_transaction()->is_active(Transaction_ctx::SESSION));
if (is_real_trans)
param.flags|= TRANS_IS_REAL_TRANS;
thd->get_trans_fixed_pos(¶m.log_file, ¶m.log_pos);
param.server_id= thd->server_id;
DBUG_PRINT("enter", ("log_file: %s, log_pos: %llu", param.log_file, param.log_pos));
DEBUG_SYNC(thd, "before_call_after_commit_observer");
int ret= 0;
FOREACH_OBSERVER(ret, after_commit, thd, (¶m));
DBUG_RETURN(ret);
}
int Trans_delegate::after_rollback(THD *thd, bool all)
{
DBUG_ENTER("Trans_delegate::after_rollback");
Trans_param param;
TRANS_PARAM_ZERO(param);
param.server_uuid= server_uuid;
param.thread_id= thd->thread_id();
param.rpl_channel_type = thd->rpl_thd_ctx.get_rpl_channel_type();
bool is_real_trans=
(all || !thd->get_transaction()->is_active(Transaction_ctx::SESSION));
if (is_real_trans)
param.flags|= TRANS_IS_REAL_TRANS;
thd->get_trans_fixed_pos(¶m.log_file, ¶m.log_pos);
param.server_id= thd->server_id;
int ret= 0;
FOREACH_OBSERVER(ret, after_rollback, thd, (¶m));
DBUG_RETURN(ret);
}
int Binlog_storage_delegate::after_flush(THD *thd,
const char *log_file,
my_off_t log_pos)
{
DBUG_ENTER("Binlog_storage_delegate::after_flush");
DBUG_PRINT("enter", ("log_file: %s, log_pos: %llu",
log_file, (ulonglong) log_pos));
Binlog_storage_param param;
param.server_id= thd->server_id;
int ret= 0;
FOREACH_OBSERVER(ret, after_flush, thd, (¶m, log_file, log_pos));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked after ALL recovery operations are performed
* and the server is ready to serve clients.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::before_handle_connection(THD *thd)
{
DBUG_ENTER("Server_state_delegate::before_client_connection");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, before_handle_connection, thd, (¶m));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked before ANY recovery action is started.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::before_recovery(THD *thd)
{
DBUG_ENTER("Server_state_delegate::before_recovery");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, before_recovery, thd, (¶m));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked after the recovery from the engine
* is complete.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::after_engine_recovery(THD *thd)
{
DBUG_ENTER("Server_state_delegate::after_engine_recovery");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, after_engine_recovery, thd, (¶m));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked after the server has completed the
* local recovery. The server can proceed with the further operations
* like engaging in distributed recovery etc.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::after_recovery(THD *thd)
{
DBUG_ENTER("Server_state_delegate::after_recovery");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, after_recovery, thd, (¶m));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked before server shutdown action is
* initiated.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::before_server_shutdown(THD *thd)
{
DBUG_ENTER("Server_state_delegate::before_server_shutdown");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, before_server_shutdown, thd, (¶m));
DBUG_RETURN(ret);
}
/**
* This hook MUST be invoked after server shutdown operation is
* complete.
*
* @param[in] thd The thread context.
* @return 0 on success, >0 otherwise.
*/
int Server_state_delegate::after_server_shutdown(THD *thd)
{
DBUG_ENTER("Server_state_delegate::after_server_shutdown");
Server_state_param param;
int ret= 0;
FOREACH_OBSERVER(ret, after_server_shutdown, thd, (¶m));
DBUG_RETURN(ret);
}
int Binlog_storage_delegate::after_sync(THD *thd,
const char *log_file,
my_off_t log_pos)
{
DBUG_ENTER("Binlog_storage_delegate::after_sync");
DBUG_PRINT("enter", ("log_file: %s, log_pos: %llu",
log_file, (ulonglong) log_pos));
Binlog_storage_param param;
param.server_id= thd->server_id;
assert(log_pos != 0);
int ret= 0;
FOREACH_OBSERVER(ret, after_sync, thd, (¶m, log_file, log_pos));
DEBUG_SYNC(thd, "after_call_after_sync_observer");
DBUG_RETURN(ret);
}
#ifdef HAVE_REPLICATION
int Binlog_transmit_delegate::transmit_start(THD *thd, ushort flags,
const char *log_file,
my_off_t log_pos,
bool *observe_transmission)
{
Binlog_transmit_param param;
param.flags= flags;
param.server_id= thd->server_id;
int ret= 0;
FOREACH_OBSERVER(ret, transmit_start, thd, (¶m, log_file, log_pos));
*observe_transmission= param.should_observe();
return ret;
}
int Binlog_transmit_delegate::transmit_stop(THD *thd, ushort flags)
{
Binlog_transmit_param param;
param.flags= flags;
param.server_id= thd->server_id;
DBUG_EXECUTE_IF("crash_binlog_transmit_hook", DBUG_SUICIDE(););
int ret= 0;
FOREACH_OBSERVER(ret, transmit_stop, thd, (¶m));
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->server_id;
DBUG_EXECUTE_IF("crash_binlog_transmit_hook", DBUG_SUICIDE(););
int ret= 0;
read_lock();
Observer_info_iterator iter= observer_info_iter();
Observer_info *info= iter++;
for (; info; info= iter++)
{
bool replication_optimize_for_static_plugin_config=
this->use_spin_lock_type();
plugin_ref plugin= (replication_optimize_for_static_plugin_config
? info->plugin
: my_plugin_lock(thd, &info->plugin));
if (!plugin)
{
ret= 1;
break;
}
hlen= 0;
if (((Observer *)info->observer)->reserve_header
&& ((Observer *)info->observer)->reserve_header(¶m,
header,
RESERVE_HEADER_SIZE,
&hlen))
{
ret= 1;
if (!replication_optimize_for_static_plugin_config)
plugin_unlock(thd, plugin);
break;
}
if (!replication_optimize_for_static_plugin_config)
plugin_unlock(thd, plugin);
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;
param.server_id= thd->server_id;
DBUG_EXECUTE_IF("crash_binlog_transmit_hook", DBUG_SUICIDE(););
int ret= 0;
FOREACH_OBSERVER(ret, before_send_event, thd,
(¶m, (uchar *)packet->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,
const char *skipped_log_file,
my_off_t skipped_log_pos)
{
Binlog_transmit_param param;
param.flags= flags;
param.server_id= thd->server_id;
DBUG_EXECUTE_IF("crash_binlog_transmit_hook", DBUG_SUICIDE(););
int ret= 0;
FOREACH_OBSERVER(ret, after_send_event, thd,
(¶m, packet->ptr(), packet->length(),
skipped_log_file+dirname_length(skipped_log_file),
skipped_log_pos));
return ret;
}
int Binlog_transmit_delegate::after_reset_master(THD *thd, ushort flags)
{
Binlog_transmit_param param;
param.flags= flags;
param.server_id= thd->server_id;
int ret= 0;
FOREACH_OBSERVER(ret, after_reset_master, thd, (¶m));
return ret;
}
void Binlog_relay_IO_delegate::init_param(Binlog_relay_IO_param *param,
Master_info *mi)
{
param->mysql= mi->mysql;
param->channel_name= mi->get_channel();
param->user= const_cast<char *>(mi->get_user());
param->host= mi->host;
param->port= mi->port;
param->master_log_name= const_cast<char *>(mi->get_master_log_name());
param->master_log_pos= mi->get_master_log_pos();
}
int Binlog_relay_IO_delegate::thread_start(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, thread_start, thd, (¶m));
return ret;
}
int Binlog_relay_IO_delegate::thread_stop(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, thread_stop, thd, (¶m));
return ret;
}
int Binlog_relay_IO_delegate::applier_start(THD *thd, Master_info *mi)
{
Binlog_relay_IO_param param;
init_param(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, applier_start, thd, (¶m));
return ret;
}
int Binlog_relay_IO_delegate::applier_stop(THD *thd,
Master_info *mi,
bool aborted)
{
Binlog_relay_IO_param param;
init_param(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, applier_stop, thd, (¶m, aborted));
return ret;
}
int Binlog_relay_IO_delegate::before_request_transmit(THD *thd,
Master_info *mi,
ushort flags)
{
Binlog_relay_IO_param param;
init_param(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, before_request_transmit, thd, (¶m, (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(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, after_read_event, thd,
(¶m, 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(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
uint32 flags=0;
if (synced)
flags |= BINLOG_STORAGE_IS_SYNCED;
int ret= 0;
FOREACH_OBSERVER(ret, after_queue_event, thd,
(¶m, 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(¶m, mi);
param.server_id= thd->server_id;
param.thread_id= thd->thread_id();
int ret= 0;
FOREACH_OBSERVER(ret, after_reset_slave, thd, (¶m));
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)
{
DBUG_ENTER("register_binlog_storage_observer");
int result= binlog_storage_delegate->add_observer(observer, (st_plugin_int *)p);
DBUG_RETURN(result);
}
int unregister_binlog_storage_observer(Binlog_storage_observer *observer, void *p)
{
return binlog_storage_delegate->remove_observer(observer, (st_plugin_int *)p);
}
int register_server_state_observer(Server_state_observer *observer, void *plugin_var)
{
DBUG_ENTER("register_server_state_observer");
int result= server_state_delegate->add_observer(observer, (st_plugin_int *)plugin_var);
DBUG_RETURN(result);
}
int unregister_server_state_observer(Server_state_observer *observer, void *plugin_var)
{
DBUG_ENTER("unregister_server_state_observer");
int result= server_state_delegate->remove_observer(observer, (st_plugin_int *)plugin_var);
DBUG_RETURN(result);
}
#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);
}
#endif /* HAVE_REPLICATION */