Commit 5e68b4ab authored by jonas@perch.ndb.mysql.com's avatar jonas@perch.ndb.mysql.com

Merge joreland@bk-internal.mysql.com:/home/bk/mysql-5.0

into  perch.ndb.mysql.com:/home/jonas/src/mysql-5.0
parents d2b378d5 b4ecd41e
......@@ -41,7 +41,9 @@ public:
* @param parallel No of fragments to scan in parallel (0=max)
*/
virtual int readTuples(LockMode lock_mode = LM_Read,
Uint32 scan_flags = 0, Uint32 parallel = 0);
Uint32 scan_flags = 0,
Uint32 parallel = 0,
Uint32 batch = 0);
#ifndef DOXYGEN_SHOULD_SKIP_INTERNAL
/**
......@@ -69,7 +71,7 @@ public:
(SF_ReadRangeNo & -(Int32)read_range_no) |
(SF_KeyInfo & -(Int32)keyinfo);
return readTuples(lock_mode, scan_flags, parallel);
return readTuples(lock_mode, scan_flags, parallel, batch);
}
#endif
......
......@@ -57,7 +57,9 @@ public:
*/
virtual
int readTuples(LockMode lock_mode = LM_Read,
Uint32 scan_flags = 0, Uint32 parallel = 0);
Uint32 scan_flags = 0,
Uint32 parallel = 0,
Uint32 batch = 0);
#ifndef DOXYGEN_SHOULD_SKIP_DEPRECATED
/**
......
......@@ -235,6 +235,7 @@
#define ZSCAN_MARKERS 18
#define ZOPERATION_EVENT_REP 19
#define ZPREP_DROP_TABLE 20
#define ZENABLE_EXPAND_CHECK 21
/* ------------------------------------------------------------------------- */
/* NODE STATE DURING SYSTEM RESTART, VARIABLES CNODES_SR_STATE */
......
......@@ -437,6 +437,33 @@ void Dblqh::execCONTINUEB(Signal* signal)
checkDropTab(signal);
return;
break;
case ZENABLE_EXPAND_CHECK:
{
jam();
fragptr.i = signal->theData[1];
if (fragptr.i != RNIL)
{
jam();
ptrCheckGuard(fragptr, cfragrecFileSize, fragrecord);
signal->theData[0] = fragptr.p->tabRef;
signal->theData[1] = fragptr.p->fragId;
sendSignal(DBACC_REF, GSN_EXPANDCHECK2, signal, 2, JBB);
signal->theData[0] = ZENABLE_EXPAND_CHECK;
signal->theData[1] = fragptr.p->nextFrag;
sendSignal(DBLQH_REF, GSN_CONTINUEB, signal, 2, JBB);
return;
}
else
{
jam();
StartRecConf * conf = (StartRecConf*)signal->getDataPtrSend();
conf->startingNodeId = getOwnNodeId();
sendSignal(cmasterDihBlockref, GSN_START_RECCONF, signal,
StartRecConf::SignalLength, JBB);
return;
}
}
default:
ndbrequire(false);
break;
......@@ -7373,15 +7400,15 @@ void Dblqh::scanLockReleasedLab(Signal* signal)
scanptr.p->m_curr_batch_size_rows = 0;
scanptr.p->m_curr_batch_size_bytes = 0;
closeScanLab(signal);
} else if (scanptr.p->m_last_row && !scanptr.p->scanLockHold) {
jam();
closeScanLab(signal);
return;
} else if (scanptr.p->check_scan_batch_completed() &&
scanptr.p->scanLockHold != ZTRUE) {
jam();
scanptr.p->scanState = ScanRecord::WAIT_SCAN_NEXTREQ;
sendScanFragConf(signal, ZFALSE);
} else if (scanptr.p->m_last_row && !scanptr.p->scanLockHold) {
jam();
closeScanLab(signal);
return;
} else {
jam();
/*
......@@ -15589,20 +15616,21 @@ void Dblqh::srFourthComp(Signal* signal)
} else if ((cstartType == NodeState::ST_NODE_RESTART) ||
(cstartType == NodeState::ST_SYSTEM_RESTART)) {
jam();
if(cstartType == NodeState::ST_SYSTEM_RESTART)
{
jam();
signal->theData[0] = ZENABLE_EXPAND_CHECK;
signal->theData[1] = c_redo_log_complete_frags;
sendSignal(DBLQH_REF, GSN_CONTINUEB, signal, 2, JBB);
}
else
{
jam();
StartRecConf * conf = (StartRecConf*)signal->getDataPtrSend();
conf->startingNodeId = getOwnNodeId();
sendSignal(cmasterDihBlockref, GSN_START_RECCONF, signal,
StartRecConf::SignalLength, JBB);
if(cstartType == NodeState::ST_SYSTEM_RESTART){
fragptr.i = c_redo_log_complete_frags;
while(fragptr.i != RNIL){
ptrCheckGuard(fragptr, cfragrecFileSize, fragrecord);
signal->theData[0] = fragptr.p->tabRef;
signal->theData[1] = fragptr.p->fragId;
sendSignal(DBACC_REF, GSN_EXPANDCHECK2, signal, 2, JBB);
fragptr.i = fragptr.p->nextFrag;
}
}
} else {
ndbrequire(false);
......
......@@ -7047,6 +7047,18 @@ void Dbtc::checkScanActiveInFailedLqh(Signal* signal,
found = true;
}
}
ScanFragList deliv(c_scan_frag_pool, scanptr.p->m_delivered_scan_frags);
for(deliv.first(ptr); !ptr.isNull(); deliv.next(ptr))
{
jam();
if (refToNode(ptr.p->lqhBlockref) == failedNodeId)
{
jam();
found = true;
break;
}
}
}
if(found){
jam();
......
......@@ -26,12 +26,12 @@ public:
void init() { m_confs.clear(); m_nRefs = 0; }
template<typename SignalClass>
void init(SafeCounterManager& mgr,
bool init(SafeCounterManager& mgr,
NodeReceiverGroup rg, Uint16 GSN, Uint32 senderData)
{
init();
SafeCounter tmp(mgr, m_sc);
tmp.init<SignalClass>(rg, GSN, senderData);
return tmp.init<SignalClass>(rg, GSN, senderData);
}
bool ignoreRef(SafeCounterManager& mgr, Uint32 nodeId)
......
......@@ -230,10 +230,13 @@ inline
bool
SafeCounter::init(NodeReceiverGroup rg, Uint16 GSN, Uint32 senderData){
bool b = init<Ref>(rg.m_block, GSN, senderData);
if (init<Ref>(rg.m_block, GSN, senderData))
{
m_nodes = rg.m_nodes;
m_count = m_nodes.count();
return b;
return true;
}
return false;
}
template<typename Ref>
......@@ -241,10 +244,13 @@ inline
bool
SafeCounter::init(NodeReceiverGroup rg, Uint32 senderData){
bool b = init<Ref>(rg.m_block, Ref::GSN, senderData);
if (init<Ref>(rg.m_block, Ref::GSN, senderData))
{
m_nodes = rg.m_nodes;
m_count = m_nodes.count();
return b;
return true;
}
return false;
}
inline
......
......@@ -30,6 +30,7 @@ extern my_bool opt_core;
#define MAX_LINE_LENGTH 255
#define KEY_INTERNAL 0
#define MAX_INT_RNIL 0xfffffeff
#define MAX_PORT_NO 65535
#define _STR_VALUE(x) #x
#define STR_VALUE(x) _STR_VALUE(x)
......@@ -422,7 +423,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
UNDEFINED,
"1",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
CFG_DB_NO_REPLICAS,
......@@ -1462,7 +1463,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
NDB_PORT,
"0",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
KEY_INTERNAL,
......@@ -1474,7 +1475,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
CFG_NODE_ARBIT_RANK,
......@@ -1616,7 +1617,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
CFG_TCP_SEND_BUFFER_SIZE,
......@@ -1722,7 +1723,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
CFG_SHM_SIGNUM,
......@@ -1944,7 +1945,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
ConfigInfo::CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
STR_VALUE(MAX_PORT_NO) },
{
CFG_SCI_HOST1_ID_0,
......
......@@ -121,7 +121,15 @@ NdbReceiver::calculate_batch_size(Uint32 key_size,
* no more than MAX_SCAN_BATCH_SIZE is sent from all nodes in total per
* batch.
*/
if (batch_size == 0)
{
batch_byte_size= max_batch_byte_size;
}
else
{
batch_byte_size= batch_size * tot_size;
}
if (batch_byte_size * parallelism > max_scan_batch_size) {
batch_byte_size= max_scan_batch_size / parallelism;
}
......
......@@ -117,7 +117,8 @@ NdbScanOperation::init(const NdbTableImpl* tab, NdbTransaction* myConnection)
int
NdbScanOperation::readTuples(NdbScanOperation::LockMode lm,
Uint32 scan_flags,
Uint32 parallel)
Uint32 parallel,
Uint32 batch)
{
m_ordered = m_descending = false;
Uint32 fragCount = m_currentTable->m_fragmentCount;
......@@ -182,6 +183,9 @@ NdbScanOperation::readTuples(NdbScanOperation::LockMode lm,
if (tupScan && rangeScan)
tupScan = false;
if (rangeScan && (scan_flags & SF_OrderBy))
parallel = fragCount;
theParallelism = parallel;
if(fix_receivers(parallel) == -1){
......@@ -202,6 +206,7 @@ NdbScanOperation::readTuples(NdbScanOperation::LockMode lm,
req->tableSchemaVersion = m_accessTable->m_version;
req->storedProcId = 0xFFFF;
req->buddyConPtr = theNdbCon->theBuddyConPtr;
req->first_batch_size = batch; // Save user specified batch size
Uint32 reqInfo = 0;
ScanTabReq::setParallelism(reqInfo, parallel);
......@@ -750,13 +755,14 @@ int NdbScanOperation::prepareSendScan(Uint32 aTC_ConnectPtr,
* The number of records sent by each LQH is calculated and the kernel
* is informed of this number by updating the SCAN_TABREQ signal
*/
Uint32 batch_size, batch_byte_size, first_batch_size;
ScanTabReq * req = CAST_PTR(ScanTabReq, theSCAN_TABREQ->getDataPtrSend());
Uint32 batch_size = req->first_batch_size; // User specified
Uint32 batch_byte_size, first_batch_size;
theReceiver.calculate_batch_size(key_size,
theParallelism,
batch_size,
batch_byte_size,
first_batch_size);
ScanTabReq * req = CAST_PTR(ScanTabReq, theSCAN_TABREQ->getDataPtrSend());
ScanTabReq::setScanBatch(req->requestInfo, batch_size);
req->batch_byte_size= batch_byte_size;
req->first_batch_size= first_batch_size;
......@@ -1216,13 +1222,14 @@ error:
int
NdbIndexScanOperation::readTuples(LockMode lm,
Uint32 scan_flags,
Uint32 parallel)
Uint32 parallel,
Uint32 batch)
{
const bool order_by = scan_flags & SF_OrderBy;
const bool order_desc = scan_flags & SF_Descending;
const bool read_range_no = scan_flags & SF_ReadRangeNo;
int res = NdbScanOperation::readTuples(lm, scan_flags, 0);
int res = NdbScanOperation::readTuples(lm, scan_flags, parallel, batch);
if(!res && read_range_no)
{
m_read_range_no = 1;
......@@ -1506,6 +1513,66 @@ NdbScanOperation::close_impl(TransporterFacade* tp, bool forceSend){
return -1;
}
bool holdLock = false;
if (theSCAN_TABREQ)
{
ScanTabReq * req = CAST_PTR(ScanTabReq, theSCAN_TABREQ->getDataPtrSend());
holdLock = ScanTabReq::getHoldLockFlag(req->requestInfo);
}
/**
* When using locks, force close of scan directly
*/
if (holdLock && theError.code == 0 &&
(m_sent_receivers_count + m_conf_receivers_count + m_api_receivers_count))
{
TransporterFacade * tp = TransporterFacade::instance();
NdbApiSignal tSignal(theNdb->theMyRef);
tSignal.setSignal(GSN_SCAN_NEXTREQ);
Uint32* theData = tSignal.getDataPtrSend();
Uint64 transId = theNdbCon->theTransactionId;
theData[0] = theNdbCon->theTCConPtr;
theData[1] = 1;
theData[2] = transId;
theData[3] = (Uint32) (transId >> 32);
tSignal.setLength(4);
int ret = tp->sendSignal(&tSignal, nodeId);
if (ret)
{
setErrorCode(4008);
return -1;
}
checkForceSend(forceSend);
/**
* If no receiver is outstanding...
* set it to 1 as execCLOSE_SCAN_REP resets it
*/
m_sent_receivers_count = m_sent_receivers_count ? m_sent_receivers_count : 1;
while(theError.code == 0 && (m_sent_receivers_count + m_conf_receivers_count))
{
theNdb->theImpl->theWaiter.m_node = nodeId;
theNdb->theImpl->theWaiter.m_state = WAIT_SCAN;
int return_code = theNdb->receiveResponse(WAITFOR_SCAN_TIMEOUT);
switch(return_code){
case 0:
break;
case -1:
setErrorCode(4008);
case -2:
m_api_receivers_count = 0;
m_conf_receivers_count = 0;
m_sent_receivers_count = 0;
theNdbCon->theReleaseOnClose = true;
return -1;
}
}
return 0;
}
/**
* Wait for outstanding
*/
......
......@@ -294,6 +294,7 @@ int runRestarts(NDBT_Context* ctx, NDBT_Step* step){
}
i++;
}
ctx->stopTest();
return result;
}
......
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