Commit c5278ebe authored by pekka@mysql.com's avatar pekka@mysql.com

wl1822: verify locks are flushed

parent 90b01f1c
......@@ -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.%
/* 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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