int xa_open (char * xa_info, int rmid, long flags)
{ int rc;
char new_xa_info[512];
ReformatOpenString(xa_info, new_xa_info, TRUE);
/* convert ODBC DSN and info to Ingres format XA OpenString */
Prologue("xa_open"); /* single thread LIBQXA and set error handler */
ReformatOpenString(xa_info, errlog_xa_info, FALSE); /* xa_info w/o passwords*/
rc=piixa_switch->xa_open_entry(new_xa_info, rmid, flags);
Epilogue();
return(rc);
// char s[512];
// memset(s,'\0',sizeof(s));
// wsprintf(s,"rmid=0x%8.8x flags=0x%8.8x\n",(long)rmid, flags);
// strcpy(s,"xa_info=");
// if (xa_info)
// strncat(s,xa_info,sizeof(s)-10);
// else
// strcat(s,"<null>");
// MessageBox(NULL, s, "xa_open", MB_ICONINFORMATION|MB_OK);
// return XA_OK;
}
void FiniSubProg( void )
{
FrlFini( &ITPool );
CheckCSList( CS_EMPTY_LIST ); // all control structures should be finished
if( !Remember.endstmt ) {
Error( EN_NO_END );
}
if( ( SgmtSw & SG_SYMTAB_RESOLVED ) == 0 ) {
STResolve();
SgmtSw |= SG_SYMTAB_RESOLVED;
}
if(( ProgSw & PS_BLOCK_DATA ) != 0 ) {
GEndBlockData();
} else if(( ProgSw & PS_IN_SUBPROGRAM ) != 0 ) {
Epilogue();
} else if( ( ProgSw & PS_ERROR ) == 0 ) {
GReturn();
}
DumpEntries();
BIResolveUndefTypes();
STDump();
TDSubFini();
BIEndSubProg();
EnPurge(); // Must come after TDSubFini() for optimizing compiler
SubProgId = NULL;
}
void CRULogCleanupTaskExecutor::Work()
{
switch(GetState())
{
case EX_START:
{
RUASSERT(FALSE == IsTransactionOpen());
Start();
break;
}
case EX_CLEAN:
{
RUASSERT(FALSE == IsTransactionOpen());
Clean();
break;
}
case EX_EPILOGUE:
{
RUASSERT(FALSE == IsTransactionOpen());
Epilogue();
break;
}
default: RUASSERT(FALSE);
}
}
int xa_complete(int * handle, int * retval, int rmid, long flags)
{ int rc;
Prologue("xa_complete"); /* single thread LIBQXA and set error handler */
rc=piixa_switch->xa_complete_entry(handle, retval, rmid, flags);
Epilogue();
return(rc);
}
int xa_forget (XID * xid, int rmid, long flags)
{ int rc;
Prologue("xa_forget"); /* single thread LIBQXA and set error handler */
rc=piixa_switch->xa_forget_entry(xid, rmid, flags);
Epilogue();
return(rc);
}
int xa_recover (XID * xids, long count, int rmid, long flags)
{ int rc;
Prologue("xa_recover"); /* single thread LIBQXA and set error handler */
rc=piixa_switch->xa_recover_entry(xids, count, rmid, flags);
Epilogue();
return(rc);
}
int xa_close (char * xa_info, int rmid, long flags)
{ int rc;
Prologue("xa_close"); /* single thread LIBQXA and set error handler */
rc=piixa_switch->xa_close_entry(xa_info, rmid, flags);
Epilogue();
return(rc);
}
void CRUUnAuditRefreshTaskExecutor::Work()
{
switch (GetState())
{
case EX_START: // MAIN PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
Start();
break;
}
case EX_PROLOGUE: // MAIN PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
// Turn the MV (+ optionally its indexes) non-available
Prologue();
break;
}
case EX_PURGE_DATA: // MAIN PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
// Execute purgedata from the MV (with indexes)
PurgeData();
break;
}
case EX_REFRESH: // REMOTE PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
// Execute the incremental INTERNAL REFRESH
Refresh();
break;
}
case EX_RECOMPUTE: // REMOTE PROCESS
{
// Execute INTERNAL REFRESH RECOMPUTE
Recompute();
break;
}
case EX_POPINDEX: // REMOTE PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
PopulateIndexes();
break;
}
case EX_EPILOGUE: // MAIN PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
// Turn the MV (+ optionally indexes) back to available
// Perform the final metadata update
Epilogue();
break;
}
default: RUASSERT(FALSE);
}
}
void CRUTableSyncTaskExecutor::Work()
{
switch (GetState())
{
case EX_INC_EPOCH: // REMOTE PROCESS
{
IncEpoch();
break;
}
case EX_EPILOGUE: // MAIN PROCESS
{
Epilogue();
break;
}
default: RUASSERT(FALSE);
}
}
void Plugin::ExecuteFunction(ExecuteStruct& es, const std::function<void()>& f)
{
Prologue();
++Activity;
try
{
f();
}
catch (SException &e)
{
if (ProcessSEHException(this, m_model->GetExportName(es.id), e.GetInfo()))
{
m_model->GetOwner()->UnloadPlugin(this, es.id);
es.Result = es.Default;
Global->ProcessException=FALSE;
}
else
{
throw;
}
}
catch (std::exception &e)
{
if (ProcessStdException(e, this, m_model->GetExportName(es.id)))
{
m_model->GetOwner()->UnloadPlugin(this, es.id);
es.Result = es.Default;
Global->ProcessException = FALSE;
}
else
{
throw;
}
}
--Activity;
Epilogue();
}
void CRUAuditRefreshTaskExecutor::Work()
{
switch (GetState())
{
case EX_START: // MAIN PROCESS
{
// This state only logs the opening message
Start();
break;
}
case EX_PROLOGUE: // MAIN PROCESS
{
// This state just starts a transaction
Prologue();
break;
}
case EX_PURGE_DATA: // MAIN PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
// Execute purgedata from the MV (with indexes)
PurgeData();
break;
}
case EX_REMOTE_START:
{
// this state starts up the table lock protocol
// and starts a transaction
RemoteStart();
break;
}
case EX_RECOMPUTE: // REMOTE PROCESS
{
// This state execute an internal refresh recompute statement
Recompute();
break;
}
case EX_REFRESH: // REMOTE PROCESS
{
// This state execute an internal refresh statement
// It may be a multi delta refresh or a single delta refresh
Refresh();
break;
}
case EX_POPINDEX: // REMOTE PROCESS
{
RUASSERT(FALSE == IsTransactionOpen());
PopulateIndexes();
break;
}
case EX_REMOTE_END: // REMOTE PROCESS
{
RemoteEnd();
break;
}
case EX_EPILOGUE: // MAIN PROCESS
{
// Update all meta-data concerning the mv and used tables objects
Epilogue();
break;
}
default: RUASSERT(FALSE);
}
}
int main()
{
SStreamStdin s_in;
IntelibReader reader;
headerlist = (L|
"sexpress/sexpress.hpp",
"sexpress/iexcept.hpp",
"scheme/scheme.hpp",
"scheme/schsymb.hpp",
"scheme/schfun.hpp",
"scheme/schpack.hpp");
funclist = *PTheEmptyList;
do {
SReference r;
try {
r = reader.Read(s_in);
}
catch(const IntelibX_reader_error &err) {
fprintf(stderr, "reader: %s %s line %d\n",
err.Description(),
err.Parameter()->TextRepresentation().c_str(),
err.Line()
);
return 1;
}
if(r==IntelibReader::EofMarker) {
break;
}
SExpressionCons *c = r.SimpleCastGetPtr<SExpressionCons>();
if(!c) continue;
if(c->Car().IsEql(directives)) {
for(SReference i=r.Cdr(); !i.IsEmptyList(); i=i.Cdr()) {
ProcessDirective(i.Car());
}
} else {
ProcessDirective(r);
}
} while(true);
try {
Preamble(headerlist);
Funclist(funclist);
Listbegin();
List(funclist);
Epilogue();
}
catch(const IntelibX& ex) {
fprintf(stderr, "Exception [%s] (%s) caught "
"during execution of the file\n",
ex.Description(),
ex.Parameter().GetPtr() ?
ex.Parameter()->TextRepresentation().c_str() : "");
#if 0
if(ex.Stack().GetPtr()) {
fprintf(stderr, "%s",
stack_representation(ex.Stack()).c_str());
}
#endif
return 1;
}
return 0;
}
