Commit 52bc6179 authored by 's avatar

Manual Merge for bug#50157

parents 718e1032 85589577
......@@ -120,8 +120,27 @@ min(a)
select max(a) from t1;
max(a)
300
# BUG#50157
# semi-sync replication crashes when replicating a transaction which
# include 'CREATE TEMPORARY TABLE `MyISAM_t` SELECT * FROM `Innodb_t` ;
[ on master ]
SET SESSION AUTOCOMMIT= 0;
CREATE TABLE t2(c1 INT) ENGINE=innodb;
BEGIN;
# Even though it is in a transaction, this statement is binlogged into binlog
# file immediately.
CREATE TEMPORARY TABLE t3 SELECT c1 FROM t2 where 1=1;
# These statements will not be binlogged until the transaction is committed
INSERT INTO t2 VALUES(11);
INSERT INTO t2 VALUES(22);
COMMIT;
DROP TABLE t2, t3;
SET SESSION AUTOCOMMIT= 1;
#
# Test semi-sync master will switch OFF after one transacton
# Test semi-sync master will switch OFF after one transaction
# timeout waiting for slave reply.
#
include/stop_slave.inc
......@@ -135,7 +154,7 @@ Variable_name Value
Rpl_semi_sync_master_no_tx 0
show status like 'Rpl_semi_sync_master_yes_tx';
Variable_name Value
Rpl_semi_sync_master_yes_tx 301
Rpl_semi_sync_master_yes_tx 304
show status like 'Rpl_semi_sync_master_clients';
Variable_name Value
Rpl_semi_sync_master_clients 1
......@@ -150,7 +169,7 @@ Variable_name Value
Rpl_semi_sync_master_no_tx 1
show status like 'Rpl_semi_sync_master_yes_tx';
Variable_name Value
Rpl_semi_sync_master_yes_tx 301
Rpl_semi_sync_master_yes_tx 304
insert into t1 values (100);
[ master status should be OFF ]
show status like 'Rpl_semi_sync_master_status';
......@@ -161,7 +180,7 @@ Variable_name Value
Rpl_semi_sync_master_no_tx 302
show status like 'Rpl_semi_sync_master_yes_tx';
Variable_name Value
Rpl_semi_sync_master_yes_tx 301
Rpl_semi_sync_master_yes_tx 304
#
# Test semi-sync status on master will be ON again when slave catches up
#
......@@ -194,7 +213,7 @@ Variable_name Value
Rpl_semi_sync_master_no_tx 302
show status like 'Rpl_semi_sync_master_yes_tx';
Variable_name Value
Rpl_semi_sync_master_yes_tx 301
Rpl_semi_sync_master_yes_tx 304
show status like 'Rpl_semi_sync_master_clients';
Variable_name Value
Rpl_semi_sync_master_clients 1
......@@ -213,7 +232,7 @@ Variable_name Value
Rpl_semi_sync_master_no_tx 302
SHOW STATUS LIKE 'Rpl_semi_sync_master_yes_tx';
Variable_name Value
Rpl_semi_sync_master_yes_tx 302
Rpl_semi_sync_master_yes_tx 305
FLUSH NO_WRITE_TO_BINLOG STATUS;
[ Semi-sync master status variables after FLUSH STATUS ]
SHOW STATUS LIKE 'Rpl_semi_sync_master_no_tx';
......
......@@ -11,6 +11,7 @@ disable_query_log;
connection master;
call mtr.add_suppression("Timeout waiting for reply of binlog");
call mtr.add_suppression("Read semi-sync reply");
call mtr.add_suppression("Unsafe statement binlogged in statement format since BINLOG_FORMAT = STATEMENT.");
connection slave;
call mtr.add_suppression("Master server does not support semi-sync");
call mtr.add_suppression("Semi-sync slave .* reply");
......@@ -193,8 +194,38 @@ select count(distinct a) from t1;
select min(a) from t1;
select max(a) from t1;
--echo
--echo # BUG#50157
--echo # semi-sync replication crashes when replicating a transaction which
--echo # include 'CREATE TEMPORARY TABLE `MyISAM_t` SELECT * FROM `Innodb_t` ;
connection master;
echo [ on master ];
SET SESSION AUTOCOMMIT= 0;
CREATE TABLE t2(c1 INT) ENGINE=innodb;
sync_slave_with_master;
connection master;
BEGIN;
--echo
--echo # Even though it is in a transaction, this statement is binlogged into binlog
--echo # file immediately.
--disable_warnings
CREATE TEMPORARY TABLE t3 SELECT c1 FROM t2 where 1=1;
--enable_warnings
--echo
--echo # These statements will not be binlogged until the transaction is committed
INSERT INTO t2 VALUES(11);
INSERT INTO t2 VALUES(22);
COMMIT;
DROP TABLE t2, t3;
SET SESSION AUTOCOMMIT= 1;
sync_slave_with_master;
--echo #
--echo # Test semi-sync master will switch OFF after one transacton
--echo # Test semi-sync master will switch OFF after one transaction
--echo # timeout waiting for slave reply.
--echo #
connection slave;
......
......@@ -65,7 +65,7 @@ static int gettimeofday(struct timeval *tv, void *tz)
ActiveTranx::ActiveTranx(mysql_mutex_t *lock,
unsigned long trace_level)
: Trace(trace_level),
: Trace(trace_level), allocator_(max_connections),
num_entries_(max_connections << 1), /* Transaction hash table size
* is set to double the size
* of max_connections */
......@@ -115,25 +115,6 @@ unsigned int ActiveTranx::get_hash_value(const char *log_file_name,
return (hash1 + hash2) % num_entries_;
}
ActiveTranx::TranxNode* ActiveTranx::alloc_tranx_node()
{
MYSQL_THD thd= (MYSQL_THD)current_thd;
/* The memory allocated for TranxNode will be automatically freed at
the end of the command of current THD. And because
ha_autocommit_or_rollback() will always be called before that, so
we are sure that the node will be removed from the active list
before it get freed. */
TranxNode *trx_node = (TranxNode *)thd_alloc(thd, sizeof(TranxNode));
if (trx_node)
{
trx_node->log_name_[0] = '\0';
trx_node->log_pos_= 0;
trx_node->next_= 0;
trx_node->hash_next_= 0;
}
return trx_node;
}
int ActiveTranx::compare(const char *log_file_name1, my_off_t log_file_pos1,
const char *log_file_name2, my_off_t log_file_pos2)
{
......@@ -159,7 +140,7 @@ int ActiveTranx::insert_tranx_node(const char *log_file_name,
function_enter(kWho);
ins_node = alloc_tranx_node();
ins_node = allocator_.allocate_node();
if (!ins_node)
{
sql_print_error("%s: transaction node allocation failed for: (%s, %lu)",
......@@ -271,6 +252,7 @@ int ActiveTranx::clear_active_tranx_nodes(const char *log_file_name,
/* Clear the hash table. */
memset(trx_htb_, 0, num_entries_ * sizeof(TranxNode *));
allocator_.free_all_nodes();
/* Clear the active transaction list. */
if (trx_front_ != NULL)
......@@ -311,6 +293,7 @@ int ActiveTranx::clear_active_tranx_nodes(const char *log_file_name,
}
trx_front_ = new_front;
allocator_.free_nodes_before(trx_front_);
if (trace_level_ & kTraceDetail)
sql_print_information("%s: cleared %d nodes back until pos (%s, %lu)",
......
......@@ -26,6 +26,266 @@ extern PSI_mutex_key key_ss_mutex_LOCK_binlog_;
extern PSI_cond_key key_ss_cond_COND_binlog_send_;
#endif
struct TranxNode {
char log_name_[FN_REFLEN];
my_off_t log_pos_;
struct TranxNode *next_; /* the next node in the sorted list */
struct TranxNode *hash_next_; /* the next node during hash collision */
};
/**
@class TranxNodeAllocator
This class provides memory allocating and freeing methods for
TranxNode. The main target is performance.
@section ALLOCATE How to allocate a node
The pointer of the first node after 'last_node' in current_block is
returned. current_block will move to the next free Block when all nodes of
it are in use. A new Block is allocated and is put into the rear of the
Block link table if no Block is free.
The list starts up empty (ie, there is no allocated Block).
After some nodes are freed, there probably are some free nodes before
the sequence of the allocated nodes, but we do not reuse it. It is better
to keep the allocated nodes are in the sequence, for it is more efficient
for allocating and freeing TranxNode.
@section FREENODE How to free nodes
There are two methods for freeing nodes. They are free_all_nodes and
free_nodes_before.
'A Block is free' means all of its nodes are free.
@subsection free_nodes_before
As all allocated nodes are in the sequence, 'Before one node' means all
nodes before given node in the same Block and all Blocks before the Block
which containing the given node. As such, all Blocks before the given one
('node') are free Block and moved into the rear of the Block link table.
The Block containing the given 'node', however, is not. For at least the
given 'node' is still in use. This will waste at most one Block, but it is
more efficient.
*/
#define BLOCK_TRANX_NODES 16
class TranxNodeAllocator
{
public:
/**
@param reserved_nodes
The number of reserved TranxNodes. It is used to set 'reserved_blocks'
which can contain at least 'reserved_nodes' number of TranxNodes. When
freeing memory, we will reserve at least reserved_blocks of Blocks not
freed.
*/
TranxNodeAllocator(uint reserved_nodes) :
reserved_blocks(reserved_nodes/BLOCK_TRANX_NODES +
(reserved_nodes%BLOCK_TRANX_NODES > 1 ? 2 : 1)),
first_block(NULL), last_block(NULL),
current_block(NULL), last_node(-1), block_num(0) {}
~TranxNodeAllocator()
{
Block *block= first_block;
while (block != NULL)
{
Block *next= block->next;
free_block(block);
block= next;
}
}
/**
The pointer of the first node after 'last_node' in current_block is
returned. current_block will move to the next free Block when all nodes of
it are in use. A new Block is allocated and is put into the rear of the
Block link table if no Block is free.
@return Return a TranxNode *, or NULL if an error occured.
*/
TranxNode *allocate_node()
{
TranxNode *trx_node;
Block *block= current_block;
if (last_node == BLOCK_TRANX_NODES-1)
{
current_block= current_block->next;
last_node= -1;
}
if (current_block == NULL && allocate_block())
{
current_block= block;
if (current_block)
last_node= BLOCK_TRANX_NODES-1;
return NULL;
}
trx_node= &(current_block->nodes[++last_node]);
trx_node->log_name_[0] = '\0';
trx_node->log_pos_= 0;
trx_node->next_= 0;
trx_node->hash_next_= 0;
return trx_node;
}
/**
All nodes are freed.
@return Return 0, or 1 if an error occured.
*/
int free_all_nodes()
{
current_block= first_block;
last_node= -1;
free_blocks();
return 0;
}
/**
All Blocks before the given 'node' are free Block and moved into the rear
of the Block link table.
@param node All nodes before 'node' will be freed
@return Return 0, or 1 if an error occured.
*/
int free_nodes_before(TranxNode* node)
{
Block *block;
Block *prev_block;
block= first_block;
while (block != current_block->next)
{
/* Find the Block containing the given node */
if (&(block->nodes[0]) <= node && &(block->nodes[BLOCK_TRANX_NODES]) >= node)
{
/* All Blocks before the given node are put into the rear */
if (first_block != block)
{
last_block->next= first_block;
first_block= block;
last_block= prev_block;
last_block->next= NULL;
free_blocks();
}
return 0;
}
prev_block= block;
block= block->next;
}
/* Node does not find should never happen */
DBUG_ASSERT(0);
return 1;
}
private:
uint reserved_blocks;
/**
A sequence memory which contains BLOCK_TRANX_NODES TranxNodes.
BLOCK_TRANX_NODES The number of TranxNodes which are in a Block.
next Every Block has a 'next' pointer which points to the next Block.
These linking Blocks constitute a Block link table.
*/
struct Block {
Block *next;
TranxNode nodes[BLOCK_TRANX_NODES];
};
/**
The 'first_block' is the head of the Block link table;
*/
Block *first_block;
/**
The 'last_block' is the rear of the Block link table;
*/
Block *last_block;
/**
current_block always points the Block in the Block link table in
which the last allocated node is. The Blocks before it are all in use
and the Blocks after it are all free.
*/
Block *current_block;
/**
It always points to the last node which has been allocated in the
current_block.
*/
int last_node;
/**
How many Blocks are in the Block link table.
*/
uint block_num;
/**
Allocate a block and then assign it to current_block.
*/
int allocate_block()
{
Block *block= (Block *)my_malloc(sizeof(Block), MYF(0));
if (block)
{
block->next= NULL;
if (first_block == NULL)
first_block= block;
else
last_block->next= block;
/* New Block is always put into the rear */
last_block= block;
/* New Block is always the current_block */
current_block= block;
++block_num;
return 0;
}
return 1;
}
/**
Free a given Block.
@param block The Block will be freed.
*/
void free_block(Block *block)
{
my_free(block, MYF(0));
--block_num;
}
/**
If there are some free Blocks and the total number of the Blocks in the
Block link table is larger than the 'reserved_blocks', Some free Blocks
will be freed until the total number of the Blocks is equal to the
'reserved_blocks' or there is only one free Block behind the
'current_block'.
*/
void free_blocks()
{
if (current_block == NULL || current_block->next == NULL)
return;
/* One free Block is always kept behind the current block */
Block *block= current_block->next->next;
while (block_num > reserved_blocks && block != NULL)
{
Block *next= block->next;
free_block(block);
block= next;
}
current_block->next->next= block;
if (block == NULL)
last_block= current_block->next;
}
};
/**
This class manages memory for active transaction list.
......@@ -37,13 +297,8 @@ extern PSI_cond_key key_ss_cond_COND_binlog_send_;
class ActiveTranx
:public Trace {
private:
struct TranxNode {
char log_name_[FN_REFLEN];
my_off_t log_pos_;
struct TranxNode *next_; /* the next node in the sorted list */
struct TranxNode *hash_next_; /* the next node during hash collision */
};
TranxNodeAllocator allocator_;
/* These two record the active transaction list in sort order. */
TranxNode *trx_front_, *trx_rear_;
......@@ -54,24 +309,22 @@ private:
inline void assert_lock_owner();
inline TranxNode* alloc_tranx_node();
inline unsigned int calc_hash(const unsigned char *key,unsigned int length);
unsigned int get_hash_value(const char *log_file_name, my_off_t log_file_pos);
int compare(const char *log_file_name1, my_off_t log_file_pos1,
const TranxNode *node2) {
const TranxNode *node2) {
return compare(log_file_name1, log_file_pos1,
node2->log_name_, node2->log_pos_);
node2->log_name_, node2->log_pos_);
}
int compare(const TranxNode *node1,
const char *log_file_name2, my_off_t log_file_pos2) {
const char *log_file_name2, my_off_t log_file_pos2) {
return compare(node1->log_name_, node1->log_pos_,
log_file_name2, log_file_pos2);
log_file_name2, log_file_pos2);
}
int compare(const TranxNode *node1, const TranxNode *node2) {
return compare(node1->log_name_, node1->log_pos_,
node2->log_name_, node2->log_pos_);
node2->log_name_, node2->log_pos_);
}
public:
......@@ -94,7 +347,7 @@ public:
* 0: success; non-zero: error
*/
int clear_active_tranx_nodes(const char *log_file_name,
my_off_t log_file_pos);
my_off_t log_file_pos);
/* Given a position, check to see whether the position is an active
* transaction's ending position by probing the hash table.
......@@ -105,7 +358,7 @@ public:
* (file_name, file_position).
*/
static int compare(const char *log_file_name1, my_off_t log_file_pos1,
const char *log_file_name2, my_off_t log_file_pos2);
const char *log_file_name2, my_off_t log_file_pos2);
};
......
......@@ -190,8 +190,8 @@ int Trans_delegate::after_commit(THD *thd, bool all)
{
Trans_param param;
bool is_real_trans= (all || thd->transaction.all.ha_list == 0);
if (is_real_trans)
param.flags |= TRANS_IS_REAL_TRANS;
param.flags = is_real_trans ? TRANS_IS_REAL_TRANS : 0;
Trans_binlog_info *log_info=
my_pthread_getspecific_ptr(Trans_binlog_info*, RPL_TRANS_BINLOG_INFO);
......@@ -218,8 +218,8 @@ int Trans_delegate::after_rollback(THD *thd, bool all)
{
Trans_param param;
bool is_real_trans= (all || thd->transaction.all.ha_list == 0);
if (is_real_trans)
param.flags |= TRANS_IS_REAL_TRANS;
param.flags = is_real_trans ? TRANS_IS_REAL_TRANS : 0;
Trans_binlog_info *log_info=
my_pthread_getspecific_ptr(Trans_binlog_info*, RPL_TRANS_BINLOG_INFO);
......@@ -228,7 +228,7 @@ int Trans_delegate::after_rollback(THD *thd, bool all)
param.log_pos= log_info ? log_info->log_pos : 0;
int ret= 0;
FOREACH_OBSERVER(ret, after_commit, thd, (&param));
FOREACH_OBSERVER(ret, after_rollback, thd, (&param));
/*
This is the end of a real transaction or autocommit statement, we
......
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