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nexedi
MariaDB
Commits
76bdccd0
Commit
76bdccd0
authored
Dec 27, 2005
by
pekka@mysql.com
Browse files
Options
Browse Files
Download
Plain Diff
Merge pnousiainen@bk-internal.mysql.com:/home/bk/mysql-5.0
into mysql.com:/space/pekka/ndb/version/my50
parents
cb25f0f0
a4fc69db
Changes
4
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Inline
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Showing
4 changed files
with
1293 additions
and
2 deletions
+1293
-2
ndb/src/kernel/blocks/dbtup/DbtupCommit.cpp
ndb/src/kernel/blocks/dbtup/DbtupCommit.cpp
+2
-0
ndb/src/ndbapi/NdbEventOperationImpl.cpp
ndb/src/ndbapi/NdbEventOperationImpl.cpp
+1
-1
ndb/test/ndbapi/Makefile.am
ndb/test/ndbapi/Makefile.am
+4
-1
ndb/test/ndbapi/test_event_merge.cpp
ndb/test/ndbapi/test_event_merge.cpp
+1286
-0
No files found.
ndb/src/kernel/blocks/dbtup/DbtupCommit.cpp
View file @
76bdccd0
...
...
@@ -445,6 +445,7 @@ Dbtup::commitRecord(Signal* signal,
befOpPtr
.
p
->
changeMask
.
bitOR
(
attributeMask
);
befOpPtr
.
p
->
gci
=
regOperPtr
->
gci
;
befOpPtr
.
p
->
optype
=
opType
;
operPtr
.
p
=
befOpPtr
.
p
;
checkDetachedTriggers
(
signal
,
befOpPtr
.
p
,
...
...
@@ -483,6 +484,7 @@ Dbtup::commitRecord(Signal* signal,
befOpPtr
.
p
->
pageIndex
=
befOpPtr
.
p
->
pageIndexC
;
befOpPtr
.
p
->
gci
=
regOperPtr
->
gci
;
befOpPtr
.
p
->
optype
=
opType
;
operPtr
.
p
=
befOpPtr
.
p
;
checkDetachedTriggers
(
signal
,
befOpPtr
.
p
,
...
...
ndb/src/ndbapi/NdbEventOperationImpl.cpp
View file @
76bdccd0
...
...
@@ -250,10 +250,10 @@ NdbEventOperationImpl::execute()
int
hasSubscriber
;
int
r
=
m_bufferHandle
->
prepareAddSubscribeEvent
(
this
,
hasSubscriber
/*return value*/
);
m_error
.
code
=
4709
;
if
(
r
<
0
)
{
m_error
.
code
=
4709
;
DBUG_RETURN
(
-
1
);
}
...
...
ndb/test/ndbapi/Makefile.am
View file @
76bdccd0
...
...
@@ -35,7 +35,8 @@ testPartitioning \
testBitfield
\
DbCreate DbAsyncGenerator
\
test_event_multi_table
\
testSRBank
testSRBank
\
test_event_merge
#flexTimedAsynch
#testBlobs
...
...
@@ -80,6 +81,7 @@ DbCreate_SOURCES = bench/mainPopulate.cpp bench/dbPopulate.cpp bench/userInterfa
DbAsyncGenerator_SOURCES
=
bench/mainAsyncGenerator.cpp bench/asyncGenerator.cpp bench/ndb_async2.cpp bench/dbGenerator.h bench/macros.h bench/userInterface.h bench/testData.h bench/testDefinitions.h bench/ndb_schema.hpp bench/ndb_error.hpp
test_event_multi_table_SOURCES
=
test_event_multi_table.cpp
testSRBank_SOURCES
=
testSRBank.cpp
test_event_merge_SOURCES
=
test_event_merge.cpp
INCLUDES_LOC
=
-I
$(top_srcdir)
/ndb/include/kernel
...
...
@@ -160,3 +162,4 @@ testScan.dsp: Makefile \
@
$(top_srcdir)
/ndb/config/win-includes
$@
$(INCLUDES)
@
$(top_srcdir)
/ndb/config/win-sources
$@
$(testScan_SOURCES)
@
$(top_srcdir)
/ndb/config/win-libraries
$@
LINK
$(LDADD)
ndb/test/ndbapi/test_event_merge.cpp
0 → 100644
View file @
76bdccd0
/* Copyright (C) 2005 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 <ndb_opts.h>
#include <NdbApi.hpp>
#include <NdbTest.hpp>
#include <my_sys.h>
#include <ndb_version.h>
#if NDB_VERSION_D < MAKE_VERSION(5, 1, 0)
#define version50
#else
#undef version50
#endif
#if !defined(min) || !defined(max)
#define min(x, y) ((x) < (y) ? (x) : (y))
#define max(x, y) ((x) > (y) ? (x) : (y))
#endif
/*
* Test composite operations on same PK via events. The merge of event
* data can happen in 2 places:
*
* 1) In TUP at commit, the detached triggers report a single composite
* operation and its post/pre data
*
* 2) In event API version >= 5.1 separate commits within same GCI are
* by default merged. This is required to read blob data via NdbBlob.
*
* This test program ignores Blob columns in version 5.0.
*
* There are 5 ways (ignoring NUL operand) to compose 2 ops:
* 5.0 bugs 5.1 bugs
* INS o DEL = NUL
* INS o UPD = INS 5.1
* DEL o INS = UPD type=INS 5.1
* UPD o DEL = DEL no event
* UPD o UPD = UPD
*/
struct
Opts
{
my_bool
abort_on_error
;
int
loglevel
;
uint
loop
;
uint
maxops
;
uint
maxpk
;
const
char
*
opstr
;
uint
seed
;
my_bool
separate_events
;
my_bool
use_table
;
};
static
Opts
g_opts
;
static
const
uint
g_maxops
=
10000
;
static
const
uint
g_maxpk
=
100
;
static
Ndb_cluster_connection
*
g_ncc
=
0
;
static
Ndb
*
g_ndb
=
0
;
static
NdbDictionary
::
Dictionary
*
g_dic
=
0
;
static
NdbTransaction
*
g_con
=
0
;
static
NdbOperation
*
g_op
=
0
;
static
const
char
*
g_tabname
=
"tem1"
;
static
const
char
*
g_evtname
=
"tem1ev1"
;
static
const
uint
g_charlen
=
5
;
static
const
char
*
g_csname
=
"latin1_swedish_ci"
;
static
const
NdbDictionary
::
Table
*
g_tab
=
0
;
static
const
NdbDictionary
::
Event
*
g_evt
=
0
;
static
NdbEventOperation
*
g_evt_op
=
0
;
static
uint
urandom
(
uint
n
)
{
uint
r
=
(
uint
)
random
();
if
(
n
!=
0
)
r
=
r
%
n
;
return
r
;
}
static
int
&
g_loglevel
=
g_opts
.
loglevel
;
// default log level
#define chkdb(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " FAIL " << #x << endl; errdb(); if (g_opts.abort_on_error) abort(); return -1; } while (0)
#define chkrc(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " FAIL " << #x << endl; if (g_opts.abort_on_error) abort(); return -1; } while (0)
#define reqrc(x) \
do { if (x) break; ndbout << "line " << __LINE__ << " ASSERT " << #x << endl; abort(); } while (0)
#define ll0(x) \
do { if (g_loglevel < 0) break; ndbout << x << endl; } while (0)
#define ll1(x) \
do { if (g_loglevel < 1) break; ndbout << x << endl; } while (0)
#define ll2(x) \
do { if (g_loglevel < 2) break; ndbout << x << endl; } while (0)
static
void
errdb
()
{
uint
any
=
0
;
if
(
g_ndb
!=
0
)
{
const
NdbError
&
e
=
g_ndb
->
getNdbError
();
if
(
e
.
code
!=
0
)
ll0
(
++
any
<<
" ndb: error "
<<
e
);
}
if
(
g_dic
!=
0
)
{
const
NdbError
&
e
=
g_dic
->
getNdbError
();
if
(
e
.
code
!=
0
)
ll0
(
++
any
<<
" dic: error "
<<
e
);
}
if
(
g_con
!=
0
)
{
const
NdbError
&
e
=
g_con
->
getNdbError
();
if
(
e
.
code
!=
0
)
ll0
(
++
any
<<
" con: error "
<<
e
);
}
if
(
g_op
!=
0
)
{
const
NdbError
&
e
=
g_op
->
getNdbError
();
if
(
e
.
code
!=
0
)
ll0
(
++
any
<<
" op: error "
<<
e
);
}
if
(
g_evt_op
!=
0
)
{
const
NdbError
&
e
=
g_evt_op
->
getNdbError
();
if
(
e
.
code
!=
0
)
ll0
(
++
any
<<
" evt_op: error "
<<
e
);
}
if
(
!
any
)
ll0
(
"unknown db error"
);
}
struct
Col
{
uint
no
;
const
char
*
name
;
NdbDictionary
::
Column
::
Type
type
;
bool
pk
;
bool
nullable
;
uint
length
;
uint
size
;
};
static
Col
g_col
[]
=
{
{
0
,
"pk1"
,
NdbDictionary
::
Column
::
Unsigned
,
true
,
false
,
1
,
4
},
{
1
,
"pk2"
,
NdbDictionary
::
Column
::
Char
,
true
,
false
,
g_charlen
,
g_charlen
},
{
2
,
"seq"
,
NdbDictionary
::
Column
::
Unsigned
,
false
,
false
,
1
,
4
},
{
3
,
"cc1"
,
NdbDictionary
::
Column
::
Char
,
false
,
true
,
g_charlen
,
g_charlen
}
};
static
const
uint
g_ncol
=
sizeof
(
g_col
)
/
sizeof
(
g_col
[
0
]);
static
const
Col
&
getcol
(
uint
i
)
{
if
(
i
<
g_ncol
)
return
g_col
[
i
];
assert
(
false
);
return
g_col
[
g_ncol
];
}
static
const
Col
&
getcol
(
const
char
*
name
)
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
if
(
strcmp
(
g_col
[
i
].
name
,
name
)
==
0
)
break
;
return
getcol
(
i
);
}
static
int
createtable
()
{
g_tab
=
0
;
NdbDictionary
::
Table
tab
(
g_tabname
);
tab
.
setLogging
(
false
);
CHARSET_INFO
*
cs
;
chkrc
((
cs
=
get_charset_by_name
(
g_csname
,
MYF
(
0
)))
!=
0
);
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
g_col
[
i
];
NdbDictionary
::
Column
col
(
c
.
name
);
col
.
setType
(
c
.
type
);
col
.
setPrimaryKey
(
c
.
pk
);
if
(
!
c
.
pk
)
col
.
setNullable
(
true
);
col
.
setLength
(
c
.
length
);
switch
(
c
.
type
)
{
case
NdbDictionary
:
:
Column
::
Unsigned
:
break
;
case
NdbDictionary
:
:
Column
::
Char
:
col
.
setLength
(
c
.
length
);
col
.
setCharset
(
cs
);
break
;
default:
assert
(
false
);
break
;
}
tab
.
addColumn
(
col
);
}
g_dic
=
g_ndb
->
getDictionary
();
if
(
!
g_opts
.
use_table
)
{
if
(
g_dic
->
getTable
(
g_tabname
)
!=
0
)
chkdb
(
g_dic
->
dropTable
(
g_tabname
)
==
0
);
chkdb
(
g_dic
->
createTable
(
tab
)
==
0
);
}
chkdb
((
g_tab
=
g_dic
->
getTable
(
g_tabname
))
!=
0
);
g_dic
=
0
;
if
(
!
g_opts
.
use_table
)
{
// extra row for GCI probe
chkdb
((
g_con
=
g_ndb
->
startTransaction
())
!=
0
);
chkdb
((
g_op
=
g_con
->
getNdbOperation
(
g_tabname
))
!=
0
);
chkdb
(
g_op
->
insertTuple
()
==
0
);
Uint32
pk1
;
char
pk2
[
g_charlen
];
pk1
=
g_maxpk
;
memset
(
pk2
,
0x20
,
g_charlen
);
chkdb
(
g_op
->
equal
(
"pk1"
,
(
char
*
)
&
pk1
)
==
0
);
chkdb
(
g_op
->
equal
(
"pk2"
,
(
char
*
)
&
pk2
[
0
])
==
0
);
chkdb
(
g_con
->
execute
(
Commit
)
==
0
);
g_ndb
->
closeTransaction
(
g_con
);
g_op
=
0
;
g_con
=
0
;
}
return
0
;
}
static
int
droptable
()
{
if
(
!
g_opts
.
use_table
)
{
g_dic
=
g_ndb
->
getDictionary
();
chkdb
(
g_dic
->
dropTable
(
g_tab
->
getName
())
==
0
);
g_tab
=
0
;
g_dic
=
0
;
}
return
0
;
}
struct
Data
{
Uint32
pk1
;
char
pk2
[
g_charlen
];
Uint32
seq
;
char
cc1
[
g_charlen
];
void
*
ptr
[
g_ncol
];
int
ind
[
g_ncol
];
// -1 = no data, 1 = NULL, 0 = not NULL
void
init
()
{
uint
i
;
pk1
=
0
;
memset
(
pk2
,
0
,
sizeof
(
pk2
));
seq
=
0
;
memset
(
cc1
,
0
,
sizeof
(
cc1
));
ptr
[
0
]
=
&
pk1
;
ptr
[
1
]
=
pk2
;
ptr
[
2
]
=
&
seq
;
ptr
[
3
]
=
cc1
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
ind
[
i
]
=
-
1
;
}
};
static
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Data
&
d
)
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
getcol
(
i
);
out
<<
(
i
==
0
?
""
:
" "
)
<<
c
.
name
<<
"="
;
if
(
d
.
ind
[
i
]
==
-
1
)
continue
;
if
(
d
.
ind
[
i
]
==
1
)
{
out
<<
"NULL"
;
continue
;
}
switch
(
c
.
type
)
{
case
NdbDictionary
:
:
Column
::
Unsigned
:
out
<<
*
(
Uint32
*
)
d
.
ptr
[
i
];
break
;
case
NdbDictionary
:
:
Column
::
Char
:
{
char
buf
[
g_charlen
+
1
];
memcpy
(
buf
,
d
.
ptr
[
i
],
g_charlen
);
uint
n
=
g_charlen
;
while
(
1
)
{
buf
[
n
]
=
0
;
if
(
n
==
0
||
buf
[
n
-
1
]
!=
0x20
)
break
;
n
--
;
}
out
<<
buf
;
}
break
;
default:
out
<<
"?"
;
break
;
}
}
return
out
;
}
static
const
uint
g_optypes
=
3
;
// real ops 0-2
/*
* Represents single or composite operation or received event. The
* post/pre data is either computed here for operations or received from
* the event.
*/
struct
Op
{
// single or composite
enum
Kind
{
OP
=
1
,
EV
=
2
};
enum
Type
{
NUL
=
-
1
,
INS
,
DEL
,
UPD
};
Kind
kind
;
Type
type
;
Op
*
next_op
;
// within one commit
Op
*
next_com
;
// next commit chain or next event
uint
num_op
;
uint
num_com
;
Data
data
[
2
];
// 0-post 1-pre
bool
match
;
// matched to event
void
init
()
{
assert
(
kind
==
OP
||
kind
==
EV
);
type
=
NUL
;
next_op
=
next_com
=
0
;
num_op
=
num_com
=
0
;
data
[
0
].
init
();
data
[
1
].
init
();
match
=
false
;
}
};
static
NdbOut
&
operator
<<
(
NdbOut
&
out
,
Op
::
Type
t
)
{
switch
(
t
)
{
case
Op
:
:
NUL
:
out
<<
"NUL"
;
break
;
case
Op
:
:
INS
:
out
<<
"INS"
;
break
;
case
Op
:
:
DEL
:
out
<<
"DEL"
;
break
;
case
Op
:
:
UPD
:
out
<<
"UPD"
;
break
;
default:
out
<<
(
int
)
t
;
break
;
}
return
out
;
}
static
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Op
&
op
)
{
out
<<
"t="
<<
op
.
type
;
out
<<
" "
<<
op
.
data
[
0
];
out
<<
" ["
<<
op
.
data
[
1
]
<<
"]"
;
return
out
;
}
static
int
seteventtype
(
Op
*
ev
,
NdbDictionary
::
Event
::
TableEvent
te
)
{
Op
::
Type
t
=
Op
::
NUL
;
switch
(
te
)
{
case
NdbDictionary
:
:
Event
::
TE_INSERT
:
t
=
Op
::
INS
;
break
;
case
NdbDictionary
:
:
Event
::
TE_DELETE
:
t
=
Op
::
DEL
;
break
;
case
NdbDictionary
:
:
Event
::
TE_UPDATE
:
t
=
Op
::
UPD
;
break
;
default:
ll0
(
"EVT: "
<<
*
ev
<<
": bad event type"
<<
(
int
)
te
);
return
-
1
;
}
ev
->
type
=
t
;
return
0
;
}
static
uint
g_usedops
=
0
;
static
uint
g_usedevs
=
0
;
static
Op
g_oplist
[
g_maxops
];
static
Op
g_evlist
[
g_maxops
];
static
uint
g_maxcom
=
8
;
// max ops per commit
static
Op
*
g_pk_op
[
g_maxpk
];
static
Op
*
g_pk_ev
[
g_maxpk
];
static
uint
g_seq
=
0
;
static
NdbRecAttr
*
g_ra
[
2
][
g_ncol
];
// 0-post 1-pre
static
Op
*
g_rec_ev
;
static
uint
g_ev_cnt
[
g_maxpk
];
static
uint
getfreeops
()
{
assert
(
g_opts
.
maxops
>=
g_usedops
);
return
g_opts
.
maxops
-
g_usedops
;
}
static
uint
getfreeevs
()
{
assert
(
g_opts
.
maxops
>=
g_usedevs
);
return
g_opts
.
maxops
-
g_usedevs
;
}
static
Op
*
getop
()
{
if
(
g_usedops
<
g_opts
.
maxops
)
{
Op
*
op
=
&
g_oplist
[
g_usedops
++
];
op
->
kind
=
Op
::
OP
;
op
->
init
();
return
op
;
}
assert
(
false
);
return
0
;
}
static
Op
*
getev
()
{
if
(
g_usedevs
<
g_opts
.
maxops
)
{
Op
*
ev
=
&
g_evlist
[
g_usedevs
++
];
ev
->
kind
=
Op
::
EV
;
ev
->
init
();
return
ev
;
}
assert
(
false
);
return
0
;
}
static
void
resetmem
()
{
int
i
,
j
;
for
(
j
=
0
;
j
<
2
;
j
++
)
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
g_ra
[
j
][
i
]
=
0
;
g_rec_ev
=
0
;
for
(
i
=
0
;
i
<
g_opts
.
maxpk
;
i
++
)
g_pk_op
[
i
]
=
0
;
for
(
i
=
0
;
i
<
g_opts
.
maxpk
;
i
++
)
g_ev_cnt
[
i
]
=
0
;
g_seq
=
0
;
g_usedops
=
0
;
g_usedevs
=
0
;
}
struct
Comp
{
Op
::
Type
t1
,
t2
,
t3
;
};
static
Comp
g_comp
[]
=
{
{
Op
::
INS
,
Op
::
DEL
,
Op
::
NUL
},
{
Op
::
INS
,
Op
::
UPD
,
Op
::
INS
},
{
Op
::
DEL
,
Op
::
INS
,
Op
::
UPD
},
{
Op
::
UPD
,
Op
::
DEL
,
Op
::
DEL
},
{
Op
::
UPD
,
Op
::
UPD
,
Op
::
UPD
}
};
static
const
uint
g_ncomp
=
sizeof
(
g_comp
)
/
sizeof
(
g_comp
[
0
]);
static
int
checkop
(
const
Op
*
op
,
Uint32
&
pk1
)
{
const
Data
(
&
d
)[
2
]
=
op
->
data
;
Op
::
Type
t
=
op
->
type
;
chkrc
(
t
==
Op
::
NUL
||
t
==
Op
::
INS
||
t
==
Op
::
DEL
||
t
==
Op
::
UPD
);
{
const
Col
&
c
=
getcol
(
"pk1"
);
chkrc
(
d
[
0
].
ind
[
c
.
no
]
==
0
);
pk1
=
d
[
0
].
pk1
;
chkrc
(
pk1
<
g_opts
.
maxpk
);
}
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
getcol
(
i
);
if
(
t
!=
Op
::
NUL
)
{
if
(
c
.
pk
)
{
chkrc
(
d
[
0
].
ind
[
i
]
==
0
);
// even DEL has PK in post data
if
(
t
==
Op
::
INS
)
{
chkrc
(
d
[
1
].
ind
[
i
]
==
-
1
);
}
else
if
(
t
==
Op
::
DEL
)
{
#ifdef ndb_event_cares_about_pk_pre_data
chkrc
(
d
[
1
].
ind
[
i
]
==
-
1
);
#endif
}
else
{
#ifdef ndb_event_cares_about_pk_pre_data
chkrc
(
d
[
1
].
ind
[
i
]
==
0
);
#endif
}
}
else
{
if
(
t
==
Op
::
INS
)
{
chkrc
(
d
[
0
].
ind
[
i
]
>=
0
);
chkrc
(
d
[
1
].
ind
[
i
]
==
-
1
);
}
else
if
(
t
==
Op
::
DEL
)
{
chkrc
(
d
[
0
].
ind
[
i
]
==
-
1
);
chkrc
(
d
[
1
].
ind
[
i
]
>=
0
);
}
else
if
(
op
->
kind
==
Op
::
OP
)
{
chkrc
(
d
[
0
].
ind
[
i
]
>=
0
);
chkrc
(
d
[
1
].
ind
[
i
]
>=
0
);
}
}
}
}
return
0
;
}
static
Comp
*
comptype
(
Op
::
Type
t1
,
Op
::
Type
t2
)
// only non-NUL
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncomp
;
i
++
)
if
(
g_comp
[
i
].
t1
==
t1
&&
g_comp
[
i
].
t2
==
t2
)
return
&
g_comp
[
i
];
return
0
;
}
static
void
copycol
(
const
Col
&
c
,
const
Data
&
d1
,
Data
&
d3
)
{
if
((
d3
.
ind
[
c
.
no
]
=
d1
.
ind
[
c
.
no
])
!=
-
1
)
memmove
(
d3
.
ptr
[
c
.
no
],
d1
.
ptr
[
c
.
no
],
c
.
size
);
}
static
void
copykeys
(
const
Data
&
d1
,
Data
&
d3
)
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
g_col
[
i
];
if
(
c
.
pk
)
copycol
(
c
,
d1
,
d3
);
}
}
static
void
copydata
(
const
Data
&
d1
,
Data
&
d3
)
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
g_col
[
i
];
copycol
(
c
,
d1
,
d3
);
}
}
static
void
copyop
(
const
Op
*
op1
,
Op
*
op3
)
{
op3
->
type
=
op1
->
type
;
copydata
(
op1
->
data
[
0
],
op3
->
data
[
0
]);
copydata
(
op1
->
data
[
1
],
op3
->
data
[
1
]);
Uint32
pk1_tmp
;
reqrc
(
checkop
(
op3
,
pk1_tmp
)
==
0
);
}
// not needed for ops
static
void
compdata
(
const
Data
&
d1
,
const
Data
&
d2
,
Data
&
d3
)
// d2 overrides d1
{
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
g_col
[
i
];
const
Data
*
d
=
0
;
if
(
d1
.
ind
[
i
]
==
-
1
&&
d2
.
ind
[
i
]
==
-
1
)
d3
.
ind
[
i
]
=
-
1
;
else
if
(
d1
.
ind
[
i
]
==
-
1
&&
d2
.
ind
[
i
]
!=
-
1
)
d
=
&
d2
;
else
if
(
d1
.
ind
[
i
]
!=
-
1
&&
d2
.
ind
[
i
]
==
-
1
)
d
=
&
d1
;
else
d
=
&
d2
;
if
(
d
!=
0
)
copycol
(
c
,
*
d
,
d3
);
}
}
static
int
compop
(
const
Op
*
op1
,
const
Op
*
op2
,
Op
*
op3
)
// op1 o op2 = op3
{
Comp
*
comp
;
if
(
op2
->
type
==
Op
::
NUL
)
{
copyop
(
op1
,
op3
);
return
0
;
}
if
(
op1
->
type
==
Op
::
NUL
)
{
copyop
(
op2
,
op3
);
return
0
;
}
chkrc
((
comp
=
comptype
(
op1
->
type
,
op2
->
type
))
!=
0
);
op3
->
type
=
comp
->
t3
;
copykeys
(
op2
->
data
[
0
],
op3
->
data
[
0
]);
if
(
op3
->
type
!=
Op
::
DEL
)
copydata
(
op2
->
data
[
0
],
op3
->
data
[
0
]);
if
(
op3
->
type
!=
Op
::
INS
)
copydata
(
op1
->
data
[
1
],
op3
->
data
[
1
]);
Uint32
pk1_tmp
;
reqrc
(
checkop
(
op3
,
pk1_tmp
)
==
0
);
// not eliminating identical post-pre fields
return
0
;
}
static
int
createevent
()
{
ll1
(
"createevent"
);
g_evt
=
0
;
g_dic
=
g_ndb
->
getDictionary
();
NdbDictionary
::
Event
evt
(
g_evtname
);
evt
.
setTable
(
*
g_tab
);
evt
.
addTableEvent
(
NdbDictionary
::
Event
::
TE_ALL
);
// pk always
evt
.
addEventColumn
(
"pk1"
);
evt
.
addEventColumn
(
"pk2"
);
// simple cols
evt
.
addEventColumn
(
"seq"
);
evt
.
addEventColumn
(
"cc1"
);
if
(
g_dic
->
getEvent
(
evt
.
getName
())
!=
0
)
chkdb
(
g_dic
->
dropEvent
(
evt
.
getName
())
==
0
);
chkdb
(
g_dic
->
createEvent
(
evt
)
==
0
);
chkdb
((
g_evt
=
g_dic
->
getEvent
(
evt
.
getName
()))
!=
0
);
g_dic
=
0
;
return
0
;
}
static
int
dropevent
()
{
ll1
(
"dropevent"
);
g_dic
=
g_ndb
->
getDictionary
();
chkdb
(
g_dic
->
dropEvent
(
g_evt
->
getName
())
==
0
);
g_evt
=
0
;
g_dic
=
0
;
return
0
;
}
static
int
createeventop
()
{
ll1
(
"createeventop"
);
#ifdef version50
uint
bsz
=
10
*
g_opts
.
maxops
;
chkdb
((
g_evt_op
=
g_ndb
->
createEventOperation
(
g_evt
->
getName
(),
bsz
))
!=
0
);
#else
chkdb
((
g_evt_op
=
g_ndb
->
createEventOperation
(
g_evt
->
getName
()))
!=
0
);
#endif
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
g_col
[
i
];
Data
(
&
d
)[
2
]
=
g_rec_ev
->
data
;
switch
(
c
.
type
)
{
case
NdbDictionary
:
:
Column
::
Unsigned
:
case
NdbDictionary
:
:
Column
::
Char
:
chkdb
((
g_ra
[
0
][
i
]
=
g_evt_op
->
getValue
(
c
.
name
,
(
char
*
)
d
[
0
].
ptr
[
i
]))
!=
0
);
chkdb
((
g_ra
[
1
][
i
]
=
g_evt_op
->
getPreValue
(
c
.
name
,
(
char
*
)
d
[
1
].
ptr
[
i
]))
!=
0
);
break
;
default:
assert
(
false
);
break
;
}
}
return
0
;
}
static
int
dropeventop
()
{
ll1
(
"dropeventop"
);
chkdb
(
g_ndb
->
dropEventOperation
(
g_evt_op
)
==
0
);
g_evt_op
=
0
;
return
0
;
}
static
int
waitgci
()
// wait for event to be installed and for at least 1 GCI to pass
{
const
uint
ngci
=
3
;
ll1
(
"waitgci "
<<
ngci
);
Uint32
gci
[
2
];
uint
i
=
0
;
while
(
1
)
{
chkdb
((
g_con
=
g_ndb
->
startTransaction
())
!=
0
);
{
// forced to exec a dummy op
Uint32
pk1
;
char
pk2
[
g_charlen
];
pk1
=
g_maxpk
;
memset
(
pk2
,
0x20
,
g_charlen
);
chkdb
((
g_op
=
g_con
->
getNdbOperation
(
g_tabname
))
!=
0
);
chkdb
(
g_op
->
readTuple
()
==
0
);
chkdb
(
g_op
->
equal
(
"pk1"
,
(
char
*
)
&
pk1
)
==
0
);
chkdb
(
g_op
->
equal
(
"pk2"
,
(
char
*
)
&
pk2
[
0
])
==
0
);
chkdb
(
g_con
->
execute
(
Commit
)
==
0
);
g_op
=
0
;
}
gci
[
i
]
=
g_con
->
getGCI
();
g_ndb
->
closeTransaction
(
g_con
);
g_con
=
0
;
if
(
i
==
1
&&
gci
[
0
]
+
ngci
<=
gci
[
1
])
{
ll1
(
"waitgci: "
<<
gci
[
0
]
<<
" "
<<
gci
[
1
]);
break
;
}
i
=
1
;
}
return
0
;
}
static
int
makeop
(
Op
*
op
,
Uint32
pk1
,
Op
::
Type
t
,
const
Op
*
prev_op
)
{
op
->
type
=
t
;
if
(
t
!=
Op
::
INS
)
copydata
(
prev_op
->
data
[
0
],
op
->
data
[
1
]);
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
getcol
(
i
);
Data
(
&
d
)[
2
]
=
op
->
data
;
if
(
i
==
getcol
(
"pk1"
).
no
)
{
d
[
0
].
pk1
=
pk1
;
d
[
0
].
ind
[
i
]
=
0
;
continue
;
}
if
(
i
==
getcol
(
"pk2"
).
no
)
{
sprintf
(
d
[
0
].
pk2
,
"%-*u"
,
g_charlen
,
d
[
0
].
pk1
);
d
[
0
].
ind
[
i
]
=
0
;
continue
;
}
if
(
t
==
Op
::
DEL
)
{
d
[
0
].
ind
[
i
]
=
-
1
;
continue
;
}
if
(
i
==
getcol
(
"seq"
).
no
)
{
d
[
0
].
seq
=
g_seq
++
;
d
[
0
].
ind
[
i
]
=
0
;
continue
;
}
uint
u
;
u
=
urandom
(
100
);
if
(
c
.
nullable
&&
u
<
20
)
{
d
[
0
].
ind
[
i
]
=
1
;
continue
;
}
switch
(
c
.
type
)
{
case
NdbDictionary
:
:
Column
::
Unsigned
:
{
u
=
urandom
(
0
);
Uint32
*
p
=
(
Uint32
*
)
d
[
0
].
ptr
[
i
];
*
p
=
u
;
}
break
;
case
NdbDictionary
:
:
Column
::
Char
:
{
u
=
urandom
(
g_charlen
);
char
*
p
=
(
char
*
)
d
[
0
].
ptr
[
i
];
uint
j
;
for
(
j
=
0
;
j
<
g_charlen
;
j
++
)
{
uint
v
=
urandom
(
3
);
p
[
j
]
=
j
<
u
?
"abcde"
[
v
]
:
0x20
;
}
}
break
;
default:
assert
(
false
);
break
;
}
d
[
0
].
ind
[
i
]
=
0
;
}
Uint32
pk1_tmp
=
~
(
Uint32
)
0
;
chkrc
(
checkop
(
op
,
pk1_tmp
)
==
0
);
reqrc
(
pk1
==
pk1_tmp
);
return
0
;
}
static
void
makeop
(
Op
*
tot_op
,
Op
*
com_op
,
Uint32
pk1
,
Op
::
Type
t
)
{
Op
tmp_op
;
tmp_op
.
kind
=
Op
::
OP
;
Op
*
op
=
getop
();
reqrc
(
makeop
(
op
,
pk1
,
t
,
tot_op
)
==
0
);
// add to end
Op
*
last_op
=
com_op
;
while
(
last_op
->
next_op
!=
0
)
last_op
=
last_op
->
next_op
;
last_op
->
next_op
=
op
;
// merge into chain head
tmp_op
.
init
();
reqrc
(
compop
(
com_op
,
op
,
&
tmp_op
)
==
0
);
copyop
(
&
tmp_op
,
com_op
);
// merge into total op
tmp_op
.
init
();
reqrc
(
compop
(
tot_op
,
op
,
&
tmp_op
)
==
0
);
copyop
(
&
tmp_op
,
tot_op
);
// counts
com_op
->
num_op
+=
1
;
tot_op
->
num_op
+=
1
;
}
static
void
makeops
()
{
ll1
(
"makeops"
);
uint
resv
=
g_opts
.
opstr
==
0
?
2
*
g_opts
.
maxpk
:
0
;
// for final deletes
uint
next
=
g_opts
.
opstr
==
0
?
g_maxcom
:
strlen
(
g_opts
.
opstr
);
Op
tmp_op
;
tmp_op
.
kind
=
Op
::
OP
;
Uint32
pk1
=
0
;
while
(
getfreeops
()
>=
resv
+
2
+
next
&&
pk1
<
g_opts
.
maxpk
)
{
if
(
g_opts
.
opstr
==
0
)
pk1
=
urandom
(
g_opts
.
maxpk
);
ll2
(
"makeops: pk1="
<<
pk1
<<
" free="
<<
getfreeops
());
// total op on the pk so far
// optype either NUL=initial/deleted or INS=created
Op
*
tot_op
=
g_pk_op
[
pk1
];
if
(
tot_op
==
0
)
tot_op
=
g_pk_op
[
pk1
]
=
getop
();
//1
assert
(
tot_op
->
type
==
Op
::
NUL
||
tot_op
->
type
==
Op
::
INS
);
// add new commit chain to end
Op
*
last_com
=
tot_op
;
while
(
last_com
->
next_com
!=
0
)
last_com
=
last_com
->
next_com
;
Op
*
com_op
=
getop
();
//2
last_com
->
next_com
=
com_op
;
// length of random chain
uint
len
=
~
0
;
if
(
g_opts
.
opstr
==
0
)
len
=
1
+
urandom
(
g_maxcom
-
1
);
ll2
(
"makeops: com chain"
);
uint
n
=
0
;
while
(
1
)
{
// random or from g_opts.opstr
Op
::
Type
t
;
if
(
g_opts
.
opstr
==
0
)
{
if
(
n
==
len
)
break
;
do
{
t
=
(
Op
::
Type
)
urandom
(
g_optypes
);
}
while
(
tot_op
->
type
==
Op
::
NUL
&&
(
t
==
Op
::
DEL
||
t
==
Op
::
UPD
)
||
tot_op
->
type
==
Op
::
INS
&&
t
==
Op
::
INS
);
}
else
{
uint
m
=
strlen
(
g_opts
.
opstr
);
uint
k
=
tot_op
->
num_com
+
tot_op
->
num_op
;
assert
(
k
<
m
);
char
c
=
g_opts
.
opstr
[
k
];
if
(
c
==
'c'
)
{
if
(
k
+
1
==
m
)
pk1
+=
1
;
break
;
}
const
char
*
p
=
"idu"
;
const
char
*
q
=
strchr
(
p
,
c
);
assert
(
q
!=
0
);
t
=
(
Op
::
Type
)(
q
-
p
);
}
makeop
(
tot_op
,
com_op
,
pk1
,
t
);
assert
(
tot_op
->
type
==
Op
::
NUL
||
tot_op
->
type
==
Op
::
INS
);
n
++
;
}
tot_op
->
num_com
+=
1
;
}
assert
(
getfreeops
()
>=
resv
);
// terminate with DEL if necessary
for
(
pk1
=
0
;
pk1
<
g_opts
.
maxpk
;
pk1
++
)
{
Op
*
tot_op
=
g_pk_op
[
pk1
];
if
(
tot_op
==
0
)
continue
;
if
(
tot_op
->
type
==
Op
::
NUL
)
continue
;
assert
(
g_opts
.
opstr
==
0
);
Op
*
last_com
=
tot_op
;
while
(
last_com
->
next_com
!=
0
)
last_com
=
last_com
->
next_com
;
Op
*
com_op
=
getop
();
//1
last_com
->
next_com
=
com_op
;
makeop
(
tot_op
,
com_op
,
pk1
,
Op
::
DEL
);
assert
(
tot_op
->
type
==
Op
::
NUL
);
tot_op
->
num_com
+=
1
;
}
}
static
int
addndbop
(
Op
*
op
)
{
chkdb
((
g_op
=
g_con
->
getNdbOperation
(
g_tabname
))
!=
0
);
switch
(
op
->
type
)
{
case
Op
:
:
INS
:
chkdb
(
g_op
->
insertTuple
()
==
0
);
break
;
case
Op
:
:
DEL
:
chkdb
(
g_op
->
deleteTuple
()
==
0
);
break
;
case
Op
:
:
UPD
:
chkdb
(
g_op
->
updateTuple
()
==
0
);
break
;
default:
assert
(
false
);
break
;
}
uint
i
;
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
getcol
(
i
);
const
Data
&
d
=
op
->
data
[
0
];
if
(
!
c
.
pk
)
continue
;
chkdb
(
g_op
->
equal
(
c
.
name
,
(
char
*
)
d
.
ptr
[
i
])
==
0
);
}
if
(
op
->
type
!=
Op
::
DEL
)
{
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
{
const
Col
&
c
=
getcol
(
i
);
const
Data
&
d
=
op
->
data
[
0
];
if
(
c
.
pk
)
continue
;
if
(
d
.
ind
[
i
]
==
-
1
)
continue
;
const
char
*
ptr
=
d
.
ind
[
i
]
==
0
?
(
char
*
)
d
.
ptr
[
i
]
:
0
;
chkdb
(
g_op
->
setValue
(
c
.
name
,
ptr
)
==
0
);
}
}
g_op
=
0
;
return
0
;
}
static
int
runops
()
{
ll1
(
"runops"
);
Uint32
pk1
;
const
Op
*
com_op
[
g_maxpk
];
uint
left
=
0
;
for
(
pk1
=
0
;
pk1
<
g_opts
.
maxpk
;
pk1
++
)
{
com_op
[
pk1
]
=
0
;
// total op on the pk
Op
*
tot_op
=
g_pk_op
[
pk1
];
if
(
tot_op
==
0
)
continue
;
// first commit chain
assert
(
tot_op
->
next_com
!=
0
);
com_op
[
pk1
]
=
tot_op
->
next_com
;
left
++
;
}
while
(
left
!=
0
)
{
pk1
=
urandom
(
g_opts
.
maxpk
);
if
(
com_op
[
pk1
]
==
0
)
continue
;
// do the ops in one transaction
ll2
(
"runops: pk1="
<<
pk1
);
chkdb
((
g_con
=
g_ndb
->
startTransaction
())
!=
0
);
// first op in chain
Op
*
op
=
com_op
[
pk1
]
->
next_op
;
assert
(
op
!=
0
);
while
(
op
!=
0
)
{
ll2
(
"add op:"
<<
*
op
);
chkrc
(
addndbop
(
op
)
==
0
);
op
=
op
->
next_op
;
}
chkdb
(
g_con
->
execute
(
Commit
)
==
0
);
g_ndb
->
closeTransaction
(
g_con
);
g_con
=
0
;
// next chain
com_op
[
pk1
]
=
com_op
[
pk1
]
->
next_com
;
if
(
com_op
[
pk1
]
==
0
)
{
assert
(
left
!=
0
);
left
--
;
}
}
assert
(
left
==
0
);
return
0
;
}
static
int
matchevent
(
Op
*
ev
)
{
Op
::
Type
t
=
ev
->
type
;
Data
(
&
d
)[
2
]
=
ev
->
data
;
// get PK
Uint32
pk1
=
d
[
0
].
pk1
;
chkrc
(
pk1
<
g_opts
.
maxpk
);
// on error repeat and print details
uint
loop
=
0
;
while
(
loop
<=
1
)
{
uint
g_loglevel
=
loop
==
0
?
g_opts
.
loglevel
:
2
;
ll1
(
"matchevent: pk1="
<<
pk1
<<
" type="
<<
t
);
ll2
(
"EVT: "
<<
*
ev
);
Op
*
tot_op
=
g_pk_op
[
pk1
];
Op
*
com_op
=
tot_op
?
tot_op
->
next_com
:
0
;
uint
cnt
=
0
;
bool
ok
=
false
;
while
(
com_op
!=
0
)
{
ll2
(
"COM: "
<<
*
com_op
);
Op
*
op
=
com_op
->
next_op
;
assert
(
op
!=
0
);
while
(
op
!=
0
)
{
ll2
(
"---: "
<<
*
op
);
op
=
op
->
next_op
;
}
if
(
com_op
->
type
!=
Op
::
NUL
)
{
if
(
com_op
->
type
==
t
)
{
const
Data
(
&
d2
)[
2
]
=
com_op
->
data
;
if
(
t
==
Op
::
INS
&&
d2
[
0
].
seq
==
d
[
0
].
seq
||
t
==
Op
::
DEL
&&
d2
[
1
].
seq
==
d
[
1
].
seq
||
t
==
Op
::
UPD
&&
d2
[
0
].
seq
==
d
[
0
].
seq
)
{
if
(
cnt
==
g_ev_cnt
[
pk1
])
{
if
(
!
com_op
->
match
)
{
ll2
(
"match pos "
<<
cnt
);
ok
=
com_op
->
match
=
true
;
}
else
{
ll2
(
"duplicate match"
);
}
}
else
{
ll2
(
"match bad pos event="
<<
g_ev_cnt
[
pk1
]
<<
" op="
<<
cnt
);
}
}
}
cnt
++
;
}
com_op
=
com_op
->
next_com
;
}
if
(
ok
)
return
0
;
ll2
(
"no match"
);
if
(
g_loglevel
>=
2
)
return
-
1
;
loop
++
;
}
return
0
;
}
static
int
matchevents
()
{
uint
nomatch
=
0
;
Uint32
pk1
;
for
(
pk1
=
0
;
pk1
<
g_opts
.
maxpk
;
pk1
++
)
{
Op
*
tot_ev
=
g_pk_ev
[
pk1
];
if
(
tot_ev
==
0
)
continue
;
Op
*
com_ev
=
tot_ev
->
next_com
;
while
(
com_ev
!=
0
)
{
if
(
matchevent
(
com_ev
)
<
0
)
nomatch
++
;
g_ev_cnt
[
pk1
]
++
;
com_ev
=
com_ev
->
next_com
;
}
}
chkrc
(
nomatch
==
0
);
return
0
;
}
static
int
matchops
()
{
Uint32
pk1
;
for
(
pk1
=
0
;
pk1
<
g_opts
.
maxpk
;
pk1
++
)
{
Op
*
tot_op
=
g_pk_op
[
pk1
];
if
(
tot_op
==
0
)
continue
;
Op
*
com_op
=
tot_op
->
next_com
;
while
(
com_op
!=
0
)
{
if
(
com_op
->
type
!=
Op
::
NUL
&&
!
com_op
->
match
)
{
ll0
(
"COM: "
<<
*
com_op
);
Op
*
op
=
com_op
->
next_op
;
assert
(
op
!=
0
);
while
(
op
!=
0
)
{
ll0
(
"---: "
<<
*
op
);
op
=
op
->
next_op
;
}
ll0
(
"no matching event"
);
return
-
1
;
}
com_op
=
com_op
->
next_com
;
}
}
return
0
;
}
static
int
runevents
()
{
ll1
(
"runevents"
);
NdbEventOperation
*
evt_op
;
uint
npoll
=
3
;
while
(
npoll
!=
0
)
{
npoll
--
;
int
ret
;
ll1
(
"poll"
);
ret
=
g_ndb
->
pollEvents
(
1000
);
if
(
ret
<=
0
)
continue
;
while
(
1
)
{
g_rec_ev
->
init
();
Data
(
&
d
)[
2
]
=
g_rec_ev
->
data
;
#ifdef version50
int
overrun
=
g_opts
.
maxops
;
chkdb
((
ret
=
g_evt_op
->
next
(
&
overrun
))
>=
0
);
chkrc
(
overrun
==
0
);
if
(
ret
==
0
)
break
;
#else
NdbEventOperation
*
tmp_op
=
g_ndb
->
nextEvent
();
if
(
tmp_op
==
0
)
break
;
reqrc
(
g_evt_op
==
tmp_op
);
#endif
chkrc
(
seteventtype
(
g_rec_ev
,
g_evt_op
->
getEventType
())
==
0
);
// get indicators
{
int
i
,
j
;
for
(
j
=
0
;
j
<
2
;
j
++
)
for
(
i
=
0
;
i
<
g_ncol
;
i
++
)
d
[
j
].
ind
[
i
]
=
g_ra
[
j
][
i
]
->
isNULL
();
}
ll2
(
"runevents: EVT: "
<<
*
g_rec_ev
);
// check basic sanity
Uint32
pk1
=
~
(
Uint32
)
0
;
chkrc
(
checkop
(
g_rec_ev
,
pk1
)
==
0
);
// add to events
chkrc
(
getfreeevs
()
>=
2
);
Op
*
tot_ev
=
g_pk_ev
[
pk1
];
if
(
tot_ev
==
0
)
tot_ev
=
g_pk_ev
[
pk1
]
=
getev
();
//1
Op
*
last_com
=
tot_ev
;
while
(
last_com
->
next_com
!=
0
)
last_com
=
last_com
->
next_com
;
// copy and add
Op
*
ev
=
getev
();
//3
copyop
(
g_rec_ev
,
ev
);
last_com
->
next_com
=
ev
;
}
}
chkrc
(
matchevents
()
==
0
);
chkrc
(
matchops
()
==
0
);
return
0
;
}
static
void
setseed
(
int
n
)
{
uint
seed
;
if
(
n
==
-
1
)
{
if
(
g_opts
.
seed
==
0
)
return
;
if
(
g_opts
.
seed
!=
-
1
)
seed
=
(
uint
)
g_opts
.
seed
;
else
seed
=
1
+
(
ushort
)
getpid
();
}
else
{
if
(
g_opts
.
seed
!=
0
)
return
;
seed
=
n
;
}
ll0
(
"seed="
<<
seed
);
srandom
(
seed
);
}
static
int
runtest
()
{
setseed
(
-
1
);
chkrc
(
createtable
()
==
0
);
chkrc
(
createevent
()
==
0
);
uint
n
;
for
(
n
=
0
;
n
<
g_opts
.
loop
;
n
++
)
{
ll0
(
"loop "
<<
n
);
setseed
(
n
);
resetmem
();
g_rec_ev
=
getev
();
chkrc
(
createeventop
()
==
0
);
chkdb
(
g_evt_op
->
execute
()
==
0
);
chkrc
(
waitgci
()
==
0
);
makeops
();
chkrc
(
runops
()
==
0
);
chkrc
(
runevents
()
==
0
);
chkrc
(
dropeventop
()
==
0
);
}
chkrc
(
dropevent
()
==
0
);
chkrc
(
droptable
()
==
0
);
return
0
;
}
NDB_STD_OPTS_VARS
;
static
struct
my_option
my_long_options
[]
=
{
NDB_STD_OPTS
(
"test_event_merge"
),
{
"abort-on-error"
,
1008
,
"Do abort() on any error"
,
(
gptr
*
)
&
g_opts
.
abort_on_error
,
(
gptr
*
)
&
g_opts
.
abort_on_error
,
0
,
GET_BOOL
,
NO_ARG
,
0
,
0
,
0
,
0
,
0
,
0
},
{
"loglevel"
,
1001
,
"Logging level in this program (default 0)"
,
(
gptr
*
)
&
g_opts
.
loglevel
,
(
gptr
*
)
&
g_opts
.
loglevel
,
0
,
GET_INT
,
REQUIRED_ARG
,
0
,
0
,
0
,
0
,
0
,
0
},
{
"loop"
,
1002
,
"Number of test loops (default 1, 0=forever)"
,
(
gptr
*
)
&
g_opts
.
loop
,
(
gptr
*
)
&
g_opts
.
loop
,
0
,
GET_INT
,
REQUIRED_ARG
,
1
,
0
,
0
,
0
,
0
,
0
},
{
"maxops"
,
1003
,
"Number of PK operations (default 2000)"
,
(
gptr
*
)
&
g_opts
.
maxops
,
(
gptr
*
)
&
g_opts
.
maxops
,
0
,
GET_UINT
,
REQUIRED_ARG
,
2000
,
0
,
g_maxops
,
0
,
0
,
0
},
{
"maxpk"
,
1004
,
"Number of different PK values (default 10)"
,
(
gptr
*
)
&
g_opts
.
maxpk
,
(
gptr
*
)
&
g_opts
.
maxpk
,
0
,
GET_UINT
,
REQUIRED_ARG
,
10
,
1
,
g_maxpk
,
0
,
0
,
0
},
{
"opstr"
,
1005
,
"Ops to run e.g. idiucdc (c = commit, default random)"
,
(
gptr
*
)
&
g_opts
.
opstr
,
(
gptr
*
)
&
g_opts
.
opstr
,
0
,
GET_STR_ALLOC
,
REQUIRED_ARG
,
0
,
0
,
0
,
0
,
0
,
0
},
{
"seed"
,
1006
,
"Random seed (0=loop number, default -1=random)"
,
(
gptr
*
)
&
g_opts
.
seed
,
(
gptr
*
)
&
g_opts
.
seed
,
0
,
GET_INT
,
REQUIRED_ARG
,
-
1
,
0
,
0
,
0
,
0
,
0
},
{
"separate-events"
,
1007
,
"Do not combine events per GCI >5.0"
,
(
gptr
*
)
&
g_opts
.
separate_events
,
(
gptr
*
)
&
g_opts
.
separate_events
,
0
,
GET_BOOL
,
NO_ARG
,
0
,
0
,
0
,
0
,
0
,
0
},
{
"use-table"
,
1008
,
"Use existing table 'tem1'"
,
(
gptr
*
)
&
g_opts
.
use_table
,
(
gptr
*
)
&
g_opts
.
use_table
,
0
,
GET_BOOL
,
NO_ARG
,
0
,
0
,
0
,
0
,
0
,
0
},
{
0
,
0
,
0
,
0
,
0
,
0
,
GET_NO_ARG
,
NO_ARG
,
0
,
0
,
0
,
0
,
0
,
0
}
};
static
void
usage
()
{
my_print_help
(
my_long_options
);
}
static
int
checkopts
()
{
if
(
g_opts
.
opstr
!=
0
)
{
const
char
*
s
=
g_opts
.
opstr
;
uint
n
=
strlen
(
s
);
if
(
n
<
3
||
s
[
0
]
!=
'i'
||
s
[
n
-
2
]
!=
'd'
||
s
[
n
-
1
]
!=
'c'
)
return
-
1
;
while
(
*
s
!=
0
)
if
(
strchr
(
"iduc"
,
*
s
++
)
==
0
)
return
-
1
;
}
return
0
;
}
int
main
(
int
argc
,
char
**
argv
)
{
ndb_init
();
const
char
*
progname
=
strchr
(
argv
[
0
],
'/'
)
?
strrchr
(
argv
[
0
],
'/'
)
+
1
:
argv
[
0
];
uint
i
;
ndbout
<<
progname
;
for
(
i
=
1
;
i
<
argc
;
i
++
)
ndbout
<<
" "
<<
argv
[
i
];
ndbout
<<
endl
;
int
ret
;
ret
=
handle_options
(
&
argc
,
&
argv
,
my_long_options
,
ndb_std_get_one_option
);
if
(
ret
!=
0
||
argc
!=
0
||
checkopts
()
!=
0
)
return
NDBT_ProgramExit
(
NDBT_WRONGARGS
);
g_ncc
=
new
Ndb_cluster_connection
();
if
(
g_ncc
->
connect
(
30
)
==
0
)
{
g_ndb
=
new
Ndb
(
g_ncc
,
"TEST_DB"
);
if
(
g_ndb
->
init
()
==
0
&&
g_ndb
->
waitUntilReady
(
30
)
==
0
)
{
if
(
runtest
()
==
0
)
return
NDBT_ProgramExit
(
NDBT_OK
);
}
}
delete
g_ndb
;
delete
g_ncc
;
return
NDBT_ProgramExit
(
NDBT_FAILED
);
}
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