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nexedi
MariaDB
Commits
aca5ac19
Commit
aca5ac19
authored
Apr 23, 2007
by
tomas@whalegate.ndb.mysql.com
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new ndb tool to measure replication latency
parent
f24ada7f
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319 additions
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1 deletion
+319
-1
.bzrignore
.bzrignore
+13
-0
storage/ndb/test/tools/Makefile.am
storage/ndb/test/tools/Makefile.am
+2
-1
storage/ndb/test/tools/rep_latency.cpp
storage/ndb/test/tools/rep_latency.cpp
+304
-0
No files found.
.bzrignore
View file @
aca5ac19
...
...
@@ -2934,3 +2934,16 @@ win/vs71cache.txt
win/vs8cache.txt
zlib/*.ds?
zlib/*.vcproj
storage/ndb/test/tools/rep_latency
storage/ndb/test/ndbapi/testIndexStat
storage/ndb/test/ndbapi/testInterpreter
storage/ndb/ndbapi-examples/mgmapi_logevent/mgmapi_logevent
storage/ndb/ndbapi-examples/mgmapi_logevent2/mgmapi_logevent2
storage/ndb/ndbapi-examples/ndbapi_async/ndbapi_async
storage/ndb/ndbapi-examples/ndbapi_async1/ndbapi_async1
storage/ndb/ndbapi-examples/ndbapi_event/ndbapi_event
storage/ndb/ndbapi-examples/ndbapi_retries/ndbapi_retries
storage/ndb/ndbapi-examples/ndbapi_scan/ndbapi_scan
storage/ndb/ndbapi-examples/ndbapi_simple/ndbapi_simple
storage/ndb/ndbapi-examples/ndbapi_simple_dual/ndbapi_simple_dual
storage/ndb/ndbapi-examples/ndbapi_simple_index/ndbapi_simple_index
storage/ndb/test/tools/Makefile.am
View file @
aca5ac19
...
...
@@ -13,7 +13,7 @@
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
ndbtest_PROGRAMS
=
hugoLoad hugoFill hugoLockRecords hugoPkDelete hugoPkRead hugoPkReadRecord hugoPkUpdate hugoScanRead hugoScanUpdate restart verify_index copy_tab create_index ndb_cpcc listen_event
ndbtest_PROGRAMS
=
hugoLoad hugoFill hugoLockRecords hugoPkDelete hugoPkRead hugoPkReadRecord hugoPkUpdate hugoScanRead hugoScanUpdate restart verify_index copy_tab create_index ndb_cpcc listen_event
rep_latency
# transproxy
...
...
@@ -33,6 +33,7 @@ copy_tab_SOURCES = copy_tab.cpp
create_index_SOURCES
=
create_index.cpp
ndb_cpcc_SOURCES
=
cpcc.cpp
listen_event_SOURCES
=
listen.cpp
rep_latency_SOURCES
=
rep_latency.cpp
include
$(top_srcdir)/storage/ndb/config/common.mk.am
include
$(top_srcdir)/storage/ndb/config/type_ndbapitest.mk.am
...
...
storage/ndb/test/tools/rep_latency.cpp
0 → 100644
View file @
aca5ac19
/* 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; version 2 of the License.
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 */
/*
* Update on master wait for update on slave
*
*/
#include <NdbApi.hpp>
#include <NdbSleep.h>
#include <sys/time.h>
#include <NdbOut.hpp>
#include <NDBT.hpp>
struct
Xxx
{
Ndb
*
ndb
;
const
NdbDictionary
::
Table
*
table
;
Uint32
pk_col
;
Uint32
col
;
};
struct
XxxR
{
Uint32
pk_val
;
Uint32
val
;
struct
timeval
start_time
;
Uint32
latency
;
};
static
int
prepare_master_or_slave
(
Ndb
&
myNdb
,
const
char
*
table
,
const
char
*
pk
,
Uint32
pk_val
,
const
char
*
col
,
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
);
static
void
run_master_update
(
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
);
static
void
run_slave_wait
(
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
);
#define PRINT_ERROR(code,msg) \
g_err << "Error in " << __FILE__ << ", line: " << __LINE__ \
<< ", code: " << code \
<< ", msg: " << msg << ".\n"
#define APIERROR(error) { \
PRINT_ERROR((error).code, (error).message); \
exit(-1); }
int
main
(
int
argc
,
char
**
argv
)
{
if
(
argc
!=
8
)
{
ndbout
<<
"Arguments are <connect_string cluster 1> <connect_string cluster 2> <database> <table name> <primary key> <value of primary key> <attribute to update>.
\n
"
;
exit
(
-
1
);
}
// ndb_init must be called first
ndb_init
();
{
const
char
*
opt_connectstring1
=
argv
[
1
];
const
char
*
opt_connectstring2
=
argv
[
2
];
const
char
*
opt_db
=
argv
[
3
];
const
char
*
opt_table
=
argv
[
4
];
const
char
*
opt_pk
=
argv
[
5
];
const
Uint32
opt_pk_val
=
atoi
(
argv
[
6
]);
const
char
*
opt_col
=
argv
[
7
];
// Object representing the cluster 1
Ndb_cluster_connection
cluster1_connection
(
opt_connectstring1
);
// Object representing the cluster 2
Ndb_cluster_connection
cluster2_connection
(
opt_connectstring2
);
// connect cluster 1 and run application
// Connect to cluster 1 management server (ndb_mgmd)
if
(
cluster1_connection
.
connect
(
4
/* retries */
,
5
/* delay between retries */
,
1
/* verbose */
))
{
g_err
<<
"Cluster 1 management server was not ready within 30 secs.
\n
"
;
exit
(
-
1
);
}
// Optionally connect and wait for the storage nodes (ndbd's)
if
(
cluster1_connection
.
wait_until_ready
(
30
,
0
)
<
0
)
{
g_err
<<
"Cluster 1 was not ready within 30 secs.
\n
"
;
exit
(
-
1
);
}
// connect cluster 2 and run application
// Connect to cluster management server (ndb_mgmd)
if
(
cluster2_connection
.
connect
(
4
/* retries */
,
5
/* delay between retries */
,
1
/* verbose */
))
{
g_err
<<
"Cluster 2 management server was not ready within 30 secs.
\n
"
;
exit
(
-
1
);
}
// Optionally connect and wait for the storage nodes (ndbd's)
if
(
cluster2_connection
.
wait_until_ready
(
30
,
0
)
<
0
)
{
g_err
<<
"Cluster 2 was not ready within 30 secs.
\n
"
;
exit
(
-
1
);
}
// Object representing the database
Ndb
myNdb1
(
&
cluster1_connection
,
opt_db
);
Ndb
myNdb2
(
&
cluster2_connection
,
opt_db
);
//
struct
Xxx
xxx1
;
struct
Xxx
xxx2
;
struct
XxxR
xxxr
;
prepare_master_or_slave
(
myNdb1
,
opt_table
,
opt_pk
,
opt_pk_val
,
opt_col
,
xxx1
,
xxxr
);
prepare_master_or_slave
(
myNdb2
,
opt_table
,
opt_pk
,
opt_pk_val
,
opt_col
,
xxx2
,
xxxr
);
while
(
1
)
{
// run the application code
run_master_update
(
xxx1
,
xxxr
);
run_slave_wait
(
xxx2
,
xxxr
);
ndbout
<<
"latency: "
<<
xxxr
.
latency
<<
endl
;
}
}
// Note: all connections must have been destroyed before calling ndb_end()
ndb_end
(
0
);
return
0
;
}
static
int
prepare_master_or_slave
(
Ndb
&
myNdb
,
const
char
*
table
,
const
char
*
pk
,
Uint32
pk_val
,
const
char
*
col
,
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
)
{
if
(
myNdb
.
init
())
APIERROR
(
myNdb
.
getNdbError
());
const
NdbDictionary
::
Dictionary
*
myDict
=
myNdb
.
getDictionary
();
const
NdbDictionary
::
Table
*
myTable
=
myDict
->
getTable
(
table
);
if
(
myTable
==
NULL
)
APIERROR
(
myDict
->
getNdbError
());
const
NdbDictionary
::
Column
*
myPkCol
=
myTable
->
getColumn
(
pk
);
if
(
myPkCol
==
NULL
)
APIERROR
(
myDict
->
getNdbError
());
if
(
myPkCol
->
getType
()
!=
NdbDictionary
::
Column
::
Unsigned
)
{
PRINT_ERROR
(
0
,
"Primary key column not of type unsigned"
);
exit
(
-
1
);
}
const
NdbDictionary
::
Column
*
myCol
=
myTable
->
getColumn
(
col
);
if
(
myCol
==
NULL
)
APIERROR
(
myDict
->
getNdbError
());
if
(
myCol
->
getType
()
!=
NdbDictionary
::
Column
::
Unsigned
)
{
PRINT_ERROR
(
0
,
"Update column not of type unsigned"
);
exit
(
-
1
);
}
xxx
.
ndb
=
&
myNdb
;
xxx
.
table
=
myTable
;
xxx
.
pk_col
=
myPkCol
->
getColumnNo
();
xxx
.
col
=
myCol
->
getColumnNo
();
xxxr
.
pk_val
=
pk_val
;
return
0
;
}
static
void
run_master_update
(
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
)
{
Ndb
*
ndb
=
xxx
.
ndb
;
const
NdbDictionary
::
Table
*
myTable
=
xxx
.
table
;
int
retry_sleep
=
10
;
/* 10 milliseconds */
int
retries
=
100
;
while
(
1
)
{
Uint32
val
;
NdbTransaction
*
trans
=
ndb
->
startTransaction
();
if
(
trans
==
NULL
)
goto
err
;
{
NdbOperation
*
op
=
trans
->
getNdbOperation
(
myTable
);
if
(
op
==
NULL
)
APIERROR
(
trans
->
getNdbError
());
op
->
readTupleExclusive
();
op
->
equal
(
xxx
.
pk_col
,
xxxr
.
pk_val
);
op
->
getValue
(
xxx
.
col
,
(
char
*
)
&
val
);
}
if
(
trans
->
execute
(
NdbTransaction
::
NoCommit
))
goto
err
;
//fprintf(stderr, "read %u\n", val);
xxxr
.
val
=
val
+
1
;
{
NdbOperation
*
op
=
trans
->
getNdbOperation
(
myTable
);
if
(
op
==
NULL
)
APIERROR
(
trans
->
getNdbError
());
op
->
updateTuple
();
op
->
equal
(
xxx
.
pk_col
,
xxxr
.
pk_val
);
op
->
setValue
(
xxx
.
col
,
xxxr
.
val
);
}
if
(
trans
->
execute
(
NdbTransaction
::
Commit
))
goto
err
;
ndb
->
closeTransaction
(
trans
);
//fprintf(stderr, "updated to %u\n", xxxr.val);
break
;
err:
const
NdbError
this_error
=
trans
?
trans
->
getNdbError
()
:
ndb
->
getNdbError
();
if
(
this_error
.
status
==
NdbError
::
TemporaryError
)
{
if
(
retries
--
)
{
if
(
trans
)
ndb
->
closeTransaction
(
trans
);
NdbSleep_MilliSleep
(
retry_sleep
);
continue
;
// retry
}
}
if
(
trans
)
ndb
->
closeTransaction
(
trans
);
APIERROR
(
this_error
);
}
/* update done start timer */
gettimeofday
(
&
xxxr
.
start_time
,
0
);
}
static
void
run_slave_wait
(
struct
Xxx
&
xxx
,
struct
XxxR
&
xxxr
)
{
struct
timeval
old_end_time
=
xxxr
.
start_time
,
end_time
;
Ndb
*
ndb
=
xxx
.
ndb
;
const
NdbDictionary
::
Table
*
myTable
=
xxx
.
table
;
int
retry_sleep
=
10
;
/* 10 milliseconds */
int
retries
=
100
;
while
(
1
)
{
Uint32
val
;
NdbTransaction
*
trans
=
ndb
->
startTransaction
();
if
(
trans
==
NULL
)
goto
err
;
{
NdbOperation
*
op
=
trans
->
getNdbOperation
(
myTable
);
if
(
op
==
NULL
)
APIERROR
(
trans
->
getNdbError
());
op
->
readTuple
();
op
->
equal
(
xxx
.
pk_col
,
xxxr
.
pk_val
);
op
->
getValue
(
xxx
.
col
,
(
char
*
)
&
val
);
if
(
trans
->
execute
(
NdbTransaction
::
Commit
))
goto
err
;
}
/* read done, check time of read */
gettimeofday
(
&
end_time
,
0
);
ndb
->
closeTransaction
(
trans
);
//fprintf(stderr, "read %u waiting for %u\n", val, xxxr.val);
if
(
xxxr
.
val
!=
val
)
{
/* expected value not received yet */
retries
=
100
;
NdbSleep_MilliSleep
(
retry_sleep
);
old_end_time
=
end_time
;
continue
;
}
break
;
err:
const
NdbError
this_error
=
trans
?
trans
->
getNdbError
()
:
ndb
->
getNdbError
();
if
(
this_error
.
status
==
NdbError
::
TemporaryError
)
{
if
(
retries
--
)
{
if
(
trans
)
ndb
->
closeTransaction
(
trans
);
NdbSleep_MilliSleep
(
retry_sleep
);
continue
;
// retry
}
}
if
(
trans
)
ndb
->
closeTransaction
(
trans
);
APIERROR
(
this_error
);
}
Int64
elapsed_usec1
=
((
Int64
)
end_time
.
tv_sec
-
(
Int64
)
xxxr
.
start_time
.
tv_sec
)
*
1000
*
1000
+
((
Int64
)
end_time
.
tv_usec
-
(
Int64
)
xxxr
.
start_time
.
tv_usec
);
Int64
elapsed_usec2
=
((
Int64
)
end_time
.
tv_sec
-
(
Int64
)
old_end_time
.
tv_sec
)
*
1000
*
1000
+
((
Int64
)
end_time
.
tv_usec
-
(
Int64
)
old_end_time
.
tv_usec
);
xxxr
.
latency
=
((
elapsed_usec1
-
elapsed_usec2
/
2
)
+
999
)
/
1000
;
}
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