Commit 1e854f9c authored by Alexey Kopytov's avatar Alexey Kopytov

Automerge.

parents 55105a88 d61b21c3
......@@ -5220,8 +5220,10 @@ void do_connect(struct st_command *command)
}
#endif
#ifndef EMBEDDED_LIBRARY
if (opt_protocol)
mysql_options(&con_slot->mysql, MYSQL_OPT_PROTOCOL, (char*) &opt_protocol);
#endif
#ifdef HAVE_SMEM
if (con_shm)
......@@ -6179,8 +6181,10 @@ get_one_option(int optid, const struct my_option *opt,
print_version();
exit(0);
case OPT_MYSQL_PROTOCOL:
#ifndef EMBEDDED_LIBRARY
opt_protocol= find_type_or_exit(argument, &sql_protocol_typelib,
opt->name);
#endif
break;
case '?':
usage();
......@@ -7932,8 +7936,10 @@ int main(int argc, char **argv)
mysql_options(&con->mysql, MYSQL_SET_CHARSET_DIR,
opt_charsets_dir);
#ifndef EMBEDDED_LIBRARY
if (opt_protocol)
mysql_options(&con->mysql,MYSQL_OPT_PROTOCOL,(char*)&opt_protocol);
#endif
#ifdef HAVE_OPENSSL
......
......@@ -2529,4 +2529,62 @@ SELECT * FROM t1 FOR UPDATE;
SELECT * FROM t1 GROUP BY (SELECT a FROM t2 LIMIT 1 FOR UPDATE) + t1.a;
ERROR 40001: Deadlock found when trying to get lock; try restarting transaction
DROP TABLE t1,t2;
#
# Bug#55656: mysqldump can be slower after bug #39653 fix
#
CREATE TABLE t1 (a INT , b INT, c INT, d INT,
KEY (b), PRIMARY KEY (a,b)) ENGINE=INNODB;
INSERT INTO t1 VALUES (1,1,1,1), (2,2,2,2), (3,3,3,3);
EXPLAIN SELECT COUNT(*) FROM t1;
id 1
select_type SIMPLE
table t1
type index
possible_keys NULL
key b
key_len 4
ref NULL
rows 3
Extra Using index
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b);
EXPLAIN SELECT COUNT(*) FROM t1;
id 1
select_type SIMPLE
table t1
type index
possible_keys NULL
key b
key_len 8
ref NULL
rows 3
Extra Using index
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b,c);
EXPLAIN SELECT COUNT(*) FROM t1;
id 1
select_type SIMPLE
table t1
type index
possible_keys NULL
key b
key_len 13
ref NULL
rows 3
Extra Using index
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b,c,d);
EXPLAIN SELECT COUNT(*) FROM t1;
id 1
select_type SIMPLE
table t1
type index
possible_keys NULL
key PRIMARY
key_len 8
ref NULL
rows 3
Extra Using index
DROP TABLE t1;
#
End of 5.1 tests
......@@ -768,9 +768,14 @@ START TRANSACTION;
SELECT * FROM t1 LOCK IN SHARE MODE;
connection con1;
let $conn_id= `SELECT CONNECTION_ID()`;
--send SELECT * FROM t1 FOR UPDATE
connection con2;
let $wait_timeout= 2;
let $wait_condition= SELECT 1 FROM INFORMATION_SCHEMA.PROCESSLIST
WHERE ID=$conn_id AND STATE='Sending data';
--source include/wait_condition.inc
--echo # should not crash
--error ER_LOCK_DEADLOCK
SELECT * FROM t1 GROUP BY (SELECT a FROM t2 LIMIT 1 FOR UPDATE) + t1.a;
......@@ -781,5 +786,30 @@ disconnect con2;
DROP TABLE t1,t2;
--echo #
--echo # Bug#55656: mysqldump can be slower after bug #39653 fix
--echo #
CREATE TABLE t1 (a INT , b INT, c INT, d INT,
KEY (b), PRIMARY KEY (a,b)) ENGINE=INNODB;
INSERT INTO t1 VALUES (1,1,1,1), (2,2,2,2), (3,3,3,3);
--query_vertical EXPLAIN SELECT COUNT(*) FROM t1
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b);
--query_vertical EXPLAIN SELECT COUNT(*) FROM t1
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b,c);
--query_vertical EXPLAIN SELECT COUNT(*) FROM t1
DROP INDEX b ON t1;
CREATE INDEX b ON t1(a,b,c,d);
--query_vertical EXPLAIN SELECT COUNT(*) FROM t1
DROP TABLE t1;
--echo #
--echo End of 5.1 tests
......@@ -5063,70 +5063,93 @@ void sql_perror(const char *message)
}
#ifdef __WIN__
extern "C" my_bool reopen_fstreams(const char *filename,
FILE *outstream, FILE *errstream)
{
int handle_fd;
int stream_fd;
HANDLE osfh;
DBUG_ASSERT(filename && (outstream || errstream));
if ((osfh= CreateFile(filename, GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE |
FILE_SHARE_DELETE, NULL,
OPEN_ALWAYS, FILE_ATTRIBUTE_NORMAL,
NULL)) == INVALID_HANDLE_VALUE)
return TRUE;
if ((handle_fd= _open_osfhandle((intptr_t)osfh,
_O_APPEND | _O_TEXT)) == -1)
{
CloseHandle(osfh);
return TRUE;
}
if (outstream)
{
stream_fd= _fileno(outstream);
if (_dup2(handle_fd, stream_fd) < 0)
{
CloseHandle(osfh);
return TRUE;
}
}
if (errstream)
{
stream_fd= _fileno(errstream);
if (_dup2(handle_fd, stream_fd) < 0)
{
CloseHandle(osfh);
return TRUE;
}
}
_close(handle_fd);
return FALSE;
}
#else
extern "C" my_bool reopen_fstreams(const char *filename,
FILE *outstream, FILE *errstream)
{
if (outstream && !freopen(filename, "a+", outstream))
return TRUE;
if (errstream && !freopen(filename, "a+", errstream))
return TRUE;
return FALSE;
}
#endif
/*
Unfortunately, there seems to be no good way
to restore the original streams upon failure.
*/
static bool redirect_std_streams(const char *file)
{
if (freopen(file, "a+", stdout) && freopen(file, "a+", stderr))
{
setbuf(stderr, NULL);
return FALSE;
}
if (reopen_fstreams(file, stdout, stderr))
return TRUE;
return TRUE;
setbuf(stderr, NULL);
return FALSE;
}
bool flush_error_log()
{
bool result=0;
bool result= 0;
if (opt_error_log)
{
char err_renamed[FN_REFLEN], *end;
end= strmake(err_renamed,log_error_file,FN_REFLEN-5);
strmov(end, "-old");
VOID(pthread_mutex_lock(&LOCK_error_log));
#ifdef __WIN__
char err_temp[FN_REFLEN+5];
/*
On Windows is necessary a temporary file for to rename
the current error file.
*/
strxmov(err_temp, err_renamed,"-tmp",NullS);
(void) my_delete(err_temp, MYF(0));
if (freopen(err_temp,"a+",stdout))
{
int fd;
size_t bytes;
uchar buf[IO_SIZE];
freopen(err_temp,"a+",stderr);
setbuf(stderr, NULL);
(void) my_delete(err_renamed, MYF(0));
my_rename(log_error_file,err_renamed,MYF(0));
redirect_std_streams(log_error_file);
if ((fd = my_open(err_temp, O_RDONLY, MYF(0))) >= 0)
{
while ((bytes= my_read(fd, buf, IO_SIZE, MYF(0))) &&
bytes != MY_FILE_ERROR)
my_fwrite(stderr, buf, bytes, MYF(0));
my_close(fd, MYF(0));
}
(void) my_delete(err_temp, MYF(0));
}
else
result= 1;
#else
my_rename(log_error_file,err_renamed,MYF(0));
if (redirect_std_streams(log_error_file))
result= 1;
#endif
if (redirect_std_streams(log_error_file))
result= 1;
VOID(pthread_mutex_unlock(&LOCK_error_log));
}
return result;
return result;
}
void MYSQL_BIN_LOG::signal_update()
......
......@@ -199,6 +199,9 @@ typedef fp_except fp_except_t;
# endif
#endif
extern "C" my_bool reopen_fstreams(const char *filename,
FILE *outstream, FILE *errstream);
inline void setup_fpu()
{
#if defined(__FreeBSD__) && defined(HAVE_IEEEFP_H)
......@@ -3821,13 +3824,15 @@ static int init_server_components()
opt_error_log= 1; // Too long file name
else
{
my_bool res;
#ifndef EMBEDDED_LIBRARY
if (freopen(log_error_file, "a+", stdout))
res= reopen_fstreams(log_error_file, stdout, stderr);
#else
res= reopen_fstreams(log_error_file, NULL, stderr);
#endif
{
if (freopen(log_error_file, "a+", stderr))
setbuf(stderr, NULL);
}
if (!res)
setbuf(stderr, NULL);
}
}
......@@ -4475,8 +4480,8 @@ we force server id to 2, but this MySQL server will not act as a slave.");
#ifdef __WIN__
if (!opt_console)
{
freopen(log_error_file,"a+",stdout);
freopen(log_error_file,"a+",stderr);
if (reopen_fstreams(log_error_file, stdout, stderr))
unireg_abort(1);
setbuf(stderr, NULL);
FreeConsole(); // Remove window
}
......
......@@ -13017,6 +13017,34 @@ static int test_if_order_by_key(ORDER *order, TABLE *table, uint idx,
}
/**
Find shortest key suitable for full table scan.
@param table Table to scan
@param usable_keys Allowed keys
@note
As far as
1) clustered primary key entry data set is a set of all record
fields (key fields and not key fields) and
2) secondary index entry data is a union of its key fields and
primary key fields (at least InnoDB and its derivatives don't
duplicate primary key fields there, even if the primary and
the secondary keys have a common subset of key fields),
then secondary index entry data is always a subset of primary key entry.
Unfortunately, key_info[nr].key_length doesn't show the length
of key/pointer pair but a sum of key field lengths only, thus
we can't estimate index IO volume comparing only this key_length
value of secondary keys and clustered PK.
So, try secondary keys first, and choose PK only if there are no
usable secondary covering keys or found best secondary key include
all table fields (i.e. same as PK):
@return
MAX_KEY no suitable key found
key index otherwise
*/
uint find_shortest_key(TABLE *table, const key_map *usable_keys)
{
uint best= MAX_KEY;
......@@ -13029,23 +13057,6 @@ uint find_shortest_key(TABLE *table, const key_map *usable_keys)
uint min_length= (uint) ~0;
for (uint nr=0; nr < table->s->keys ; nr++)
{
/*
As far as
1) clustered primary key entry data set is a set of all record
fields (key fields and not key fields) and
2) secondary index entry data is a union of its key fields and
primary key fields (at least InnoDB and its derivatives don't
duplicate primary key fields there, even if the primary and
the secondary keys have a common subset of key fields),
then secondary index entry data is always a subset of primary key
entry, and the PK is always longer.
Unfortunately, key_info[nr].key_length doesn't show the length
of key/pointer pair but a sum of key field lengths only, thus
we can't estimate index IO volume comparing only this key_length
value of seconday keys and clustered PK.
So, try secondary keys first, and choose PK only if there are no
usable secondary covering keys:
*/
if (nr == usable_clustered_pk)
continue;
if (usable_keys->is_set(nr))
......@@ -13058,7 +13069,20 @@ uint find_shortest_key(TABLE *table, const key_map *usable_keys)
}
}
}
return best != MAX_KEY ? best : usable_clustered_pk;
if (usable_clustered_pk != MAX_KEY)
{
/*
If the primary key is clustered and found shorter key covers all table
fields then primary key scan normally would be faster because amount of
data to scan is the same but PK is clustered.
It's safe to compare key parts with table fields since duplicate key
parts aren't allowed.
*/
if (best == MAX_KEY ||
table->key_info[best].key_parts >= table->s->fields)
best= usable_clustered_pk;
}
return best;
}
/**
......
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