unsigned
Ndb_cluster_connection::max_nodegroup()
{
TransporterFacade *tp = m_impl.m_transporter_facade;
if (tp == 0 || tp->ownId() == 0)
return 0;
Bitmask<MAX_NDB_NODES> ng;
tp->lock_mutex();
for(unsigned i= 0; i < no_db_nodes(); i++)
{
//************************************************
// If any node is answering, ndb is answering
//************************************************
trp_node n = tp->theClusterMgr->getNodeInfo(m_impl.m_all_nodes[i].id);
if (n.is_confirmed() && n.m_state.nodeGroup <= MAX_NDB_NODES)
ng.set(n.m_state.nodeGroup);
}
tp->unlock_mutex();
if (ng.isclear())
return 0;
Uint32 n = ng.find_first();
Uint32 m;
do
{
m = n;
} while ((n = ng.find(n+1)) != ng.NotFound);
return m;
}
int
Ndb_cluster_connection::wait_until_ready(int timeout,
int timeout_after_first_alive)
{
DBUG_ENTER("Ndb_cluster_connection::wait_until_ready");
TransporterFacade *tp = TransporterFacade::instance();
if (tp == 0)
{
DBUG_RETURN(-1);
}
if (tp->ownId() == 0)
{
DBUG_RETURN(-1);
}
int secondsCounter = 0;
int milliCounter = 0;
int noChecksSinceFirstAliveFound = 0;
do {
unsigned int foundAliveNode = 0;
tp->lock_mutex();
for(unsigned i= 0; i < no_db_nodes(); i++)
{
//************************************************
// If any node is answering, ndb is answering
//************************************************
if (tp->get_node_alive(m_impl.m_all_nodes[i].id) != 0) {
foundAliveNode++;
}
}
tp->unlock_mutex();
if (foundAliveNode == no_db_nodes())
{
DBUG_RETURN(0);
}
else if (foundAliveNode > 0)
{
noChecksSinceFirstAliveFound++;
// 100 ms delay -> 10*
if (noChecksSinceFirstAliveFound > 10*timeout_after_first_alive)
DBUG_RETURN(1);
}
else if (secondsCounter >= timeout)
{ // no alive nodes and timed out
DBUG_RETURN(-1);
}
NdbSleep_MilliSleep(100);
milliCounter += 100;
if (milliCounter >= 1000) {
secondsCounter++;
milliCounter = 0;
}//if
} while (1);
}
int Ndb_cluster_connection::get_no_ready()
{
TransporterFacade *tp = m_impl.m_transporter_facade;
if (tp == 0 || tp->ownId() == 0)
return -1;
unsigned int foundAliveNode = 0;
tp->lock_mutex();
for(unsigned i= 0; i < no_db_nodes(); i++)
{
//************************************************
// If any node is answering, ndb is answering
//************************************************
if (tp->get_node_alive(m_impl.m_all_nodes[i].id) != 0) {
foundAliveNode++;
}
}
tp->unlock_mutex();
return foundAliveNode;
}
Uint32
Ndb_cluster_connection_impl::get_next_alive_node(Ndb_cluster_connection_node_iter &iter)
{
Uint32 id;
TransporterFacade *tp = m_impl.m_transporter_facade;
if (tp == 0 || tp->ownId() == 0)
return 0;
while ((id = get_next_node(iter)))
{
tp->lock_mutex();
if (tp->get_node_alive(id) != 0)
{
tp->unlock_mutex();
return id;
}
tp->unlock_mutex();
}
return 0;
}
/******************************************************************************
* int init( int aNrOfCon, int aNrOfOp );
*
* Return Value: Return 0 : init was successful.
* Return -1: In all other case.
* Parameters: aNrOfCon : Number of connections offered to the application.
* aNrOfOp : Number of operations offered to the application.
* Remark: Create pointers and idle list Synchronous.
****************************************************************************/
int
Ndb::init(int aMaxNoOfTransactions)
{
DBUG_ENTER("Ndb::init");
int i;
int aNrOfCon;
int aNrOfOp;
int tMaxNoOfTransactions;
NdbApiSignal* tSignal[16]; // Initiate free list of 16 signal objects
if (theInitState != NotInitialised) {
switch(theInitState){
case InitConfigError:
theError.code = 4117;
break;
default:
theError.code = 4104;
break;
}
DBUG_RETURN(-1);
}//if
theInitState = StartingInit;
TransporterFacade * theFacade = theImpl->m_transporter_facade;
theEventBuffer->m_mutex = theFacade->theMutexPtr;
const Uint32 tRef = theImpl->open(theFacade);
if (tRef == 0)
{
theError.code = 4105;
DBUG_RETURN(-1); // no more free blocknumbers
}//if
Uint32 nodeId = refToNode(tRef);
theNdbBlockNumber = refToBlock(tRef);
if (nodeId > 0)
{
connected(Uint32(tRef));
}
/* Init cached min node version */
theFacade->lock_mutex();
theCachedMinDbNodeVersion = theFacade->getMinDbNodeVersion();
theFacade->unlock_mutex();
theDictionary->setTransporter(this, theFacade);
aNrOfCon = theImpl->theNoOfDBnodes;
aNrOfOp = 2*theImpl->theNoOfDBnodes;
// Create connection object in a linked list
if((createConIdleList(aNrOfCon)) == -1){
theError.code = 4000;
goto error_handler;
}
// Create operations in a linked list
if((createOpIdleList(aNrOfOp)) == -1){
theError.code = 4000;
goto error_handler;
}
tMaxNoOfTransactions = aMaxNoOfTransactions;
theMaxNoOfTransactions = tMaxNoOfTransactions;
theRemainingStartTransactions= tMaxNoOfTransactions;
thePreparedTransactionsArray = new NdbTransaction* [tMaxNoOfTransactions];
theSentTransactionsArray = new NdbTransaction* [tMaxNoOfTransactions];
theCompletedTransactionsArray = new NdbTransaction* [tMaxNoOfTransactions];
if ((thePreparedTransactionsArray == NULL) ||
(theSentTransactionsArray == NULL) ||
(theCompletedTransactionsArray == NULL)) {
goto error_handler;
}//if
for (i = 0; i < tMaxNoOfTransactions; i++) {
thePreparedTransactionsArray[i] = NULL;
theSentTransactionsArray[i] = NULL;
theCompletedTransactionsArray[i] = NULL;
}//for
for (i = 0; i < 16; i++){
tSignal[i] = getSignal();
if(tSignal[i] == NULL) {
theError.code = 4000;
goto error_handler;
}
}
for (i = 0; i < 16; i++)
releaseSignal(tSignal[i]);
theInitState = Initialised;
DBUG_RETURN(0);
error_handler:
ndbout << "error_handler" << endl;
releaseTransactionArrays();
delete theDictionary;
theImpl->close();
DBUG_RETURN(-1);
}
