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Kirill Smelkov
mariadb
Commits
409b9f22
Commit
409b9f22
authored
Jun 29, 2004
by
pekka@mysql.com
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Merge pnousiainen@bk-internal.mysql.com:/home/bk/mysql-4.1-ndb
into mysql.com:/space/pekka/ndb/version/my41
parents
146d6887
c5278ebe
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+517
-0
ndb/test/ndbapi/Makefile.am
ndb/test/ndbapi/Makefile.am
+3
-0
ndb/test/ndbapi/testDeadlock.cpp
ndb/test/ndbapi/testDeadlock.cpp
+514
-0
No files found.
ndb/test/ndbapi/Makefile.am
View file @
409b9f22
...
...
@@ -28,6 +28,7 @@ testScanInterpreter \
testSystemRestart
\
testTimeout
\
testTransactions
\
testDeadlock
\
test_event
#flexTimedAsynch
...
...
@@ -61,6 +62,7 @@ testScanInterpreter_SOURCES = testScanInterpreter.cpp
testSystemRestart_SOURCES
=
testSystemRestart.cpp
testTimeout_SOURCES
=
testTimeout.cpp
testTransactions_SOURCES
=
testTransactions.cpp
testDeadlock_SOURCES
=
testDeadlock.cpp
test_event_SOURCES
=
test_event.cpp
INCLUDES_LOC
=
-I
$(top_srcdir)
/ndb/include/kernel
...
...
@@ -77,3 +79,4 @@ testBackup_LDADD = $(LDADD) bank/libbank.a
# Don't update the files from bitkeeper
%
::
SCCS/s.%
ndb/test/ndbapi/testDeadlock.cpp
0 → 100644
View file @
409b9f22
/* Copyright (C) 2003 MySQL AB
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; either version 2 of the License, or
(at your option) any later version.
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_global.h>
#include <NdbMain.h>
#include <NdbApi.hpp>
#include <NdbOut.hpp>
#include <NdbMutex.h>
#include <NdbCondition.h>
#include <NdbThread.h>
#include <NdbTest.hpp>
struct
Opt
{
bool
m_dbg
;
const
char
*
m_scan
;
const
char
*
m_tname
;
const
char
*
m_xname
;
Opt
()
:
m_dbg
(
true
),
m_scan
(
"tx"
),
m_tname
(
"T"
),
m_xname
(
"X"
)
{}
};
static
void
printusage
()
{
Opt
d
;
ndbout
<<
"usage: testDeadlock"
<<
endl
<<
"-scan tx scan table, index ["
<<
d
.
m_scan
<<
"]"
<<
endl
;
}
static
Opt
g_opt
;
static
NdbMutex
ndbout_mutex
=
NDB_MUTEX_INITIALIZER
;
#define DBG(x) \
do { \
if (! g_opt.m_dbg) break; \
NdbMutex_Lock(&ndbout_mutex); \
ndbout << "line " << __LINE__ << " " << x << endl; \
NdbMutex_Unlock(&ndbout_mutex); \
} while (0)
#define CHK(x) \
do { \
if (x) break; \
ndbout << "line " << __LINE__ << ": " << #x << " failed" << endl; \
return -1; \
} while (0)
#define CHN(p, x) \
do { \
if (x) break; \
ndbout << "line " << __LINE__ << ": " << #x << " failed" << endl; \
ndbout << (p)->getNdbError() << endl; \
return -1; \
} while (0)
// threads
typedef
int
(
*
Runstep
)(
struct
Thr
&
thr
);
struct
Thr
{
enum
State
{
Wait
,
Start
,
Stop
,
Stopped
,
Exit
};
State
m_state
;
int
m_no
;
Runstep
m_runstep
;
int
m_ret
;
NdbMutex
*
m_mutex
;
NdbCondition
*
m_cond
;
NdbThread
*
m_thread
;
void
*
m_status
;
Ndb
*
m_ndb
;
NdbConnection
*
m_con
;
NdbScanOperation
*
m_scanop
;
NdbIndexScanOperation
*
m_indexscanop
;
NdbResultSet
*
m_rs
;
//
Thr
(
int
no
);
~
Thr
();
int
run
();
void
start
(
Runstep
runstep
);
void
stop
();
void
stopped
();
void
lock
()
{
NdbMutex_Lock
(
m_mutex
);
}
void
unlock
()
{
NdbMutex_Unlock
(
m_mutex
);
}
void
wait
()
{
NdbCondition_Wait
(
m_cond
,
m_mutex
);
}
void
signal
()
{
NdbCondition_Signal
(
m_cond
);
}
void
exit
();
void
join
()
{
NdbThread_WaitFor
(
m_thread
,
&
m_status
);
}
};
static
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Thr
&
thr
)
{
out
<<
"thr "
<<
thr
.
m_no
;
return
out
;
}
extern
"C"
{
static
void
*
runthread
(
void
*
arg
);
}
Thr
::
Thr
(
int
no
)
{
m_state
=
Wait
;
m_no
=
no
;
m_runstep
=
0
;
m_ret
=
0
;
m_mutex
=
NdbMutex_Create
();
m_cond
=
NdbCondition_Create
();
assert
(
m_mutex
!=
0
&&
m_cond
!=
0
);
const
unsigned
stacksize
=
256
*
1024
;
const
NDB_THREAD_PRIO
prio
=
NDB_THREAD_PRIO_LOW
;
m_thread
=
NdbThread_Create
(
runthread
,
(
void
**
)
this
,
stacksize
,
"me"
,
prio
);
if
(
m_thread
==
0
)
{
DBG
(
"create thread failed: errno="
<<
errno
);
m_ret
=
-
1
;
}
m_status
=
0
;
m_ndb
=
0
;
m_con
=
0
;
m_scanop
=
0
;
m_indexscanop
=
0
;
m_rs
=
0
;
}
Thr
::~
Thr
()
{
if
(
m_thread
!=
0
)
NdbThread_Destroy
(
&
m_thread
);
if
(
m_cond
!=
0
)
NdbCondition_Destroy
(
m_cond
);
if
(
m_mutex
!=
0
)
NdbMutex_Destroy
(
m_mutex
);
}
static
void
*
runthread
(
void
*
arg
)
{
Thr
&
thr
=
*
(
Thr
*
)
arg
;
thr
.
run
();
return
0
;
}
int
Thr
::
run
()
{
DBG
(
*
this
<<
" run"
);
while
(
true
)
{
lock
();
while
(
m_state
!=
Start
&&
m_state
!=
Exit
)
{
wait
();
}
if
(
m_state
==
Exit
)
{
DBG
(
*
this
<<
" exit"
);
unlock
();
break
;
}
m_ret
=
(
*
m_runstep
)(
*
this
);
m_state
=
Stopped
;
signal
();
unlock
();
if
(
m_ret
!=
0
)
{
DBG
(
*
this
<<
" error exit"
);
break
;
}
}
delete
m_ndb
;
m_ndb
=
0
;
return
0
;
}
void
Thr
::
start
(
Runstep
runstep
)
{
lock
();
m_state
=
Start
;
m_runstep
=
runstep
;
signal
();
unlock
();
}
void
Thr
::
stopped
()
{
lock
();
while
(
m_state
!=
Stopped
)
{
wait
();
}
m_state
=
Wait
;
unlock
();
}
void
Thr
::
exit
()
{
lock
();
m_state
=
Exit
;
signal
();
unlock
();
}
// general
static
int
runstep_connect
(
Thr
&
thr
)
{
Ndb
*
ndb
=
thr
.
m_ndb
=
new
Ndb
(
"TEST_DB"
);
CHN
(
ndb
,
ndb
->
init
()
==
0
);
CHN
(
ndb
,
ndb
->
waitUntilReady
()
==
0
);
DBG
(
thr
<<
" connected"
);
return
0
;
}
static
int
runstep_starttx
(
Thr
&
thr
)
{
Ndb
*
ndb
=
thr
.
m_ndb
;
assert
(
ndb
!=
0
);
CHN
(
ndb
,
(
thr
.
m_con
=
ndb
->
startTransaction
())
!=
0
);
DBG
(
"thr "
<<
thr
.
m_no
<<
" tx started"
);
return
0
;
}
/*
* WL1822 flush locks
*
* Table T with 3 tuples X, Y, Z.
* Two transactions (* = lock wait).
*
* - tx1 reads and locks Z
* - tx2 scans X, Y, *Z
* - tx2 returns X, Y before lock wait on Z
* - tx1 reads and locks *X
* - api asks for next tx2 result
* - LQH unlocks X via ACC or TUX [*]
* - tx1 gets lock on X
* - tx1 returns X to api
* - api commits tx1
* - tx2 gets lock on Z
* - tx2 returs Z to api
*
* The point is deadlock is avoided due to [*].
* The test is for 1 db node and 1 fragment table.
*/
static
char
wl1822_scantx
=
0
;
static
const
Uint32
wl1822_valA
[
3
]
=
{
0
,
1
,
2
};
static
const
Uint32
wl1822_valB
[
3
]
=
{
3
,
4
,
5
};
static
Uint32
wl1822_bufA
=
~
0
;
static
Uint32
wl1822_bufB
=
~
0
;
// map scan row to key (A) and reverse
static
unsigned
wl1822_r2k
[
3
]
=
{
0
,
0
,
0
};
static
unsigned
wl1822_k2r
[
3
]
=
{
0
,
0
,
0
};
static
int
wl1822_createtable
(
Thr
&
thr
)
{
Ndb
*
ndb
=
thr
.
m_ndb
;
assert
(
ndb
!=
0
);
NdbDictionary
::
Dictionary
*
dic
=
ndb
->
getDictionary
();
// drop T
if
(
dic
->
getTable
(
g_opt
.
m_tname
)
!=
0
)
CHN
(
dic
,
dic
->
dropTable
(
g_opt
.
m_tname
)
==
0
);
// create T
NdbDictionary
::
Table
tab
(
g_opt
.
m_tname
);
tab
.
setFragmentType
(
NdbDictionary
::
Object
::
FragAllSmall
);
{
NdbDictionary
::
Column
col
(
"A"
);
col
.
setType
(
NdbDictionary
::
Column
::
Unsigned
);
col
.
setPrimaryKey
(
true
);
tab
.
addColumn
(
col
);
}
{
NdbDictionary
::
Column
col
(
"B"
);
col
.
setType
(
NdbDictionary
::
Column
::
Unsigned
);
col
.
setPrimaryKey
(
false
);
tab
.
addColumn
(
col
);
}
CHN
(
dic
,
dic
->
createTable
(
tab
)
==
0
);
// create X
NdbDictionary
::
Index
ind
(
g_opt
.
m_xname
);
ind
.
setTable
(
g_opt
.
m_tname
);
ind
.
setType
(
NdbDictionary
::
Index
::
OrderedIndex
);
ind
.
setLogging
(
false
);
ind
.
addColumn
(
"B"
);
CHN
(
dic
,
dic
->
createIndex
(
ind
)
==
0
);
DBG
(
"created "
<<
g_opt
.
m_tname
<<
", "
<<
g_opt
.
m_xname
);
return
0
;
}
static
int
wl1822_insertrows
(
Thr
&
thr
)
{
// insert X, Y, Z
Ndb
*
ndb
=
thr
.
m_ndb
;
assert
(
ndb
!=
0
);
NdbConnection
*
con
;
NdbOperation
*
op
;
for
(
unsigned
k
=
0
;
k
<
3
;
k
++
)
{
CHN
(
ndb
,
(
con
=
ndb
->
startTransaction
())
!=
0
);
CHN
(
con
,
(
op
=
con
->
getNdbOperation
(
g_opt
.
m_tname
))
!=
0
);
CHN
(
op
,
op
->
insertTuple
()
==
0
);
CHN
(
op
,
op
->
equal
(
"A"
,
(
char
*
)
&
wl1822_valA
[
k
])
==
0
);
CHN
(
op
,
op
->
setValue
(
"B"
,
(
char
*
)
&
wl1822_valB
[
k
])
==
0
);
CHN
(
con
,
con
->
execute
(
Commit
)
==
0
);
ndb
->
closeTransaction
(
con
);
}
DBG
(
"inserted X, Y, Z"
);
return
0
;
}
static
int
wl1822_getscanorder
(
Thr
&
thr
)
{
// cheat, table order happens to be key order in my test
wl1822_r2k
[
0
]
=
0
;
wl1822_r2k
[
1
]
=
1
;
wl1822_r2k
[
2
]
=
2
;
wl1822_k2r
[
0
]
=
0
;
wl1822_k2r
[
1
]
=
1
;
wl1822_k2r
[
2
]
=
2
;
DBG
(
"scan order determined"
);
return
0
;
}
static
int
wl1822_tx1_readZ
(
Thr
&
thr
)
{
// tx1 read Z with exclusive lock
NdbConnection
*
con
=
thr
.
m_con
;
assert
(
con
!=
0
);
NdbOperation
*
op
;
CHN
(
con
,
(
op
=
con
->
getNdbOperation
(
g_opt
.
m_tname
))
!=
0
);
CHN
(
op
,
op
->
readTupleExclusive
()
==
0
);
CHN
(
op
,
op
->
equal
(
"A"
,
wl1822_valA
[
wl1822_r2k
[
2
]])
==
0
);
wl1822_bufB
=
~
0
;
CHN
(
op
,
op
->
getValue
(
"B"
,
(
char
*
)
&
wl1822_bufB
)
!=
0
);
CHN
(
con
,
con
->
execute
(
NoCommit
)
==
0
);
CHK
(
wl1822_bufB
==
wl1822_valB
[
wl1822_r2k
[
2
]]);
DBG
(
"tx1 locked Z"
);
return
0
;
}
static
int
wl1822_tx2_scanXY
(
Thr
&
thr
)
{
// tx2 scan X, Y with exclusive lock
NdbConnection
*
con
=
thr
.
m_con
;
assert
(
con
!=
0
);
NdbScanOperation
*
scanop
;
NdbIndexScanOperation
*
indexscanop
;
NdbResultSet
*
rs
;
if
(
wl1822_scantx
==
't'
)
{
CHN
(
con
,
(
scanop
=
thr
.
m_scanop
=
con
->
getNdbScanOperation
(
g_opt
.
m_tname
))
!=
0
);
DBG
(
"tx2 scan exclusive "
<<
g_opt
.
m_tname
);
}
if
(
wl1822_scantx
==
'x'
)
{
CHN
(
con
,
(
scanop
=
thr
.
m_scanop
=
indexscanop
=
thr
.
m_indexscanop
=
con
->
getNdbIndexScanOperation
(
g_opt
.
m_xname
,
g_opt
.
m_tname
))
!=
0
);
DBG
(
"tx2 scan exclusive "
<<
g_opt
.
m_xname
);
}
CHN
(
scanop
,
(
rs
=
thr
.
m_rs
=
scanop
->
readTuplesExclusive
(
16
))
!=
0
);
CHN
(
scanop
,
scanop
->
getValue
(
"A"
,
(
char
*
)
&
wl1822_bufA
)
!=
0
);
CHN
(
scanop
,
scanop
->
getValue
(
"B"
,
(
char
*
)
&
wl1822_bufB
)
!=
0
);
CHN
(
con
,
con
->
execute
(
NoCommit
)
==
0
);
unsigned
row
=
0
;
while
(
row
<
2
)
{
DBG
(
"before row "
<<
row
);
int
ret
;
wl1822_bufA
=
wl1822_bufB
=
~
0
;
CHN
(
con
,
(
ret
=
rs
->
nextResult
(
true
))
==
0
);
DBG
(
"got row "
<<
row
<<
" a="
<<
wl1822_bufA
<<
" b="
<<
wl1822_bufB
);
CHK
(
wl1822_bufA
==
wl1822_valA
[
wl1822_r2k
[
row
]]);
CHK
(
wl1822_bufB
==
wl1822_valB
[
wl1822_r2k
[
row
]]);
row
++
;
}
return
0
;
}
static
int
wl1822_tx1_readX_commit
(
Thr
&
thr
)
{
// tx1 read X with exclusive lock and commit
NdbConnection
*
con
=
thr
.
m_con
;
assert
(
con
!=
0
);
NdbOperation
*
op
;
CHN
(
con
,
(
op
=
con
->
getNdbOperation
(
g_opt
.
m_tname
))
!=
0
);
CHN
(
op
,
op
->
readTupleExclusive
()
==
0
);
CHN
(
op
,
op
->
equal
(
"A"
,
wl1822_valA
[
wl1822_r2k
[
2
]])
==
0
);
wl1822_bufB
=
~
0
;
CHN
(
op
,
op
->
getValue
(
"B"
,
(
char
*
)
&
wl1822_bufB
)
!=
0
);
CHN
(
con
,
con
->
execute
(
NoCommit
)
==
0
);
CHK
(
wl1822_bufB
==
wl1822_valB
[
wl1822_r2k
[
2
]]);
DBG
(
"tx1 locked X"
);
CHN
(
con
,
con
->
execute
(
Commit
)
==
0
);
DBG
(
"tx1 commit"
);
return
0
;
}
static
int
wl1822_tx2_scanZ_close
(
Thr
&
thr
)
{
// tx2 scan Z with exclusive lock and close scan
Ndb
*
ndb
=
thr
.
m_ndb
;
NdbConnection
*
con
=
thr
.
m_con
;
NdbScanOperation
*
scanop
=
thr
.
m_scanop
;
NdbResultSet
*
rs
=
thr
.
m_rs
;
assert
(
ndb
!=
0
&&
con
!=
0
&&
scanop
!=
0
&&
rs
!=
0
);
unsigned
row
=
2
;
while
(
true
)
{
DBG
(
"before row "
<<
row
);
int
ret
;
wl1822_bufA
=
wl1822_bufB
=
~
0
;
CHN
(
con
,
(
ret
=
rs
->
nextResult
(
true
))
==
0
||
ret
==
1
);
if
(
ret
==
1
)
break
;
DBG
(
"got row "
<<
row
<<
" a="
<<
wl1822_bufA
<<
" b="
<<
wl1822_bufB
);
CHK
(
wl1822_bufA
==
wl1822_valA
[
wl1822_r2k
[
row
]]);
CHK
(
wl1822_bufB
==
wl1822_valB
[
wl1822_r2k
[
row
]]);
row
++
;
}
ndb
->
closeTransaction
(
con
);
CHK
(
row
==
3
);
return
0
;
}
// threads are synced between each step
static
Runstep
wl1822_step
[][
2
]
=
{
{
runstep_connect
,
runstep_connect
},
{
wl1822_createtable
,
0
},
{
wl1822_insertrows
,
0
},
{
wl1822_getscanorder
,
0
},
{
runstep_starttx
,
runstep_starttx
},
{
wl1822_tx1_readZ
,
0
},
{
0
,
wl1822_tx2_scanXY
},
{
wl1822_tx1_readX_commit
,
wl1822_tx2_scanZ_close
}
};
const
unsigned
wl1822_stepcount
=
sizeof
(
wl1822_step
)
/
sizeof
(
wl1822_step
[
0
]);
static
int
wl1822_main
(
char
scantx
)
{
wl1822_scantx
=
scantx
;
static
const
unsigned
thrcount
=
2
;
// create threads for tx1 and tx2
Thr
*
thrlist
[
2
];
for
(
int
n
=
0
;
n
<
thrcount
;
n
++
)
{
Thr
&
thr
=
*
(
thrlist
[
n
]
=
new
Thr
(
1
+
n
));
CHK
(
thr
.
m_ret
==
0
);
}
// run the steps
for
(
unsigned
i
=
0
;
i
<
wl1822_stepcount
;
i
++
)
{
DBG
(
"step "
<<
i
<<
" start"
);
for
(
int
n
=
0
;
n
<
thrcount
;
n
++
)
{
Thr
&
thr
=
*
thrlist
[
n
];
Runstep
runstep
=
wl1822_step
[
i
][
n
];
if
(
runstep
!=
0
)
thr
.
start
(
runstep
);
}
for
(
int
n
=
0
;
n
<
thrcount
;
n
++
)
{
Thr
&
thr
=
*
thrlist
[
n
];
Runstep
runstep
=
wl1822_step
[
i
][
n
];
if
(
runstep
!=
0
)
thr
.
stopped
();
}
}
// delete threads
for
(
int
n
=
0
;
n
<
thrcount
;
n
++
)
{
Thr
&
thr
=
*
thrlist
[
n
];
thr
.
exit
();
thr
.
join
();
delete
&
thr
;
}
return
0
;
}
NDB_COMMAND
(
testOdbcDriver
,
"testDeadlock"
,
"testDeadlock"
,
"testDeadlock"
,
65535
)
{
while
(
++
argv
,
--
argc
>
0
)
{
const
char
*
arg
=
argv
[
0
];
if
(
strcmp
(
arg
,
"-scan"
)
==
0
)
{
if
(
++
argv
,
--
argc
>
0
)
{
g_opt
.
m_scan
=
strdup
(
argv
[
0
]);
continue
;
}
}
printusage
();
return
NDBT_ProgramExit
(
NDBT_WRONGARGS
);
}
if
(
strchr
(
g_opt
.
m_scan
,
't'
)
!=
0
&&
wl1822_main
(
't'
)
==
-
1
||
strchr
(
g_opt
.
m_scan
,
'x'
)
!=
0
&&
wl1822_main
(
'x'
)
==
-
1
)
{
return
NDBT_ProgramExit
(
NDBT_FAILED
);
}
return
NDBT_ProgramExit
(
NDBT_OK
);
}
// vim: set sw=2 et:
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