/*
* Assign a value to a field.
*/
HB_ERRCODE hb_rddPutFieldValue( PHB_ITEM pItem, PHB_SYMB pFieldSymbol )
{
HB_ERRCODE errCode;
HB_TRACE( HB_TR_DEBUG, ( "hb_rddPutFieldValue(%p, %p)", pItem, pFieldSymbol ) );
errCode = hb_rddFieldPut( pItem, pFieldSymbol );
if( errCode == HB_FAILURE && hb_vmRequestQuery() == 0 )
{
/*
* generate an error with retry possibility
* (user created error handler can make this field accessible)
*/
PHB_ITEM pError = hb_errRT_New( ES_ERROR, NULL, EG_NOVAR, EDBCMD_NOVAR,
NULL, pFieldSymbol->szName, 0, EF_CANRETRY );
while( hb_errLaunch( pError ) == E_RETRY )
{
errCode = hb_rddFieldPut( pItem, pFieldSymbol );
if( errCode == HB_SUCCESS || hb_vmRequestQuery() != 0 )
break;
}
hb_itemRelease( pError );
}
return errCode;
}
static void hb_hrbExit( PHRB_BODY pHrbBody )
{
if( pHrbBody->fExit )
{
if( hb_vmRequestReenter() )
{
HB_ULONG ul;
pHrbBody->fExit = HB_FALSE;
pHrbBody->fInit = HB_TRUE;
for( ul = 0; ul < pHrbBody->ulSymbols; ul++ )
{
if( ( pHrbBody->pSymRead[ ul ].scope.value & HB_FS_INITEXIT ) == HB_FS_EXIT )
{
hb_vmPushSymbol( pHrbBody->pSymRead + ul );
hb_vmPushNil();
hb_vmProc( 0 );
if( hb_vmRequestQuery() != 0 )
break;
}
}
hb_vmRequestRestore();
}
}
}
static void hb_hrbDo( PHRB_BODY pHrbBody, int iPCount, PHB_ITEM * pParams )
{
PHB_ITEM pRetVal = NULL;
int i;
hb_hrbInit( pHrbBody, iPCount, pParams );
/* May not have a startup symbol, if first symbol was an INIT Symbol (was executed already). */
if( pHrbBody->lSymStart >= 0 && hb_vmRequestQuery() == 0 )
{
hb_vmPushSymbol( &pHrbBody->pSymRead[ pHrbBody->lSymStart ] );
hb_vmPushNil();
for( i = 0; i < iPCount; i++ )
hb_vmPush( pParams[ i ] );
hb_vmProc( ( HB_USHORT ) iPCount );
pRetVal = hb_itemNew( NULL );
hb_itemMove( pRetVal, hb_stackReturnItem() );
}
if( pRetVal )
hb_itemReturnRelease( pRetVal );
}
/* performs all tasks defined for idle state */
void hb_idleState( void )
{
PHB_IDLEDATA pIdleData = ( PHB_IDLEDATA ) hb_stackGetTSD( &s_idleData );
if( ! pIdleData->fIamIdle )
{
pIdleData->fIamIdle = HB_TRUE;
hb_releaseCPU();
if( hb_vmRequestQuery() == 0 )
{
if( pIdleData->fCollectGarbage )
{
hb_gcCollectAll( HB_FALSE );
pIdleData->fCollectGarbage = HB_FALSE;
}
if( pIdleData->pIdleTasks && pIdleData->iIdleTask < pIdleData->iIdleMaxTask )
{
hb_itemRelease( hb_itemDo( pIdleData->pIdleTasks[ pIdleData->iIdleTask ], 0 ) );
++pIdleData->iIdleTask;
if( pIdleData->iIdleTask == pIdleData->iIdleMaxTask && hb_setGetIdleRepeat() )
{
pIdleData->iIdleTask = 0; /* restart processing of idle tasks */
pIdleData->fCollectGarbage = HB_TRUE;
}
}
}
pIdleData->fIamIdle = HB_FALSE;
}
}
static long s_srvRecvAll( PHB_CONSRV conn, void * buffer, long len )
{
HB_BYTE * ptr = ( HB_BYTE * ) buffer;
long lRead = 0, l;
HB_MAXUINT end_timer;
end_timer = conn->timeout > 0 ? hb_dateMilliSeconds() + conn->timeout : 0;
while( lRead < len && ! conn->stop )
{
if( conn->zstream )
l = hb_znetRead( conn->zstream, conn->sd, ptr + lRead, len - lRead, 1000 );
else
l = hb_socketRecv( conn->sd, ptr + lRead, len - lRead, 0, 1000 );
if( l <= 0 )
{
if( hb_socketGetError() != HB_SOCKET_ERR_TIMEOUT ||
hb_vmRequestQuery() != 0 ||
( end_timer != 0 && end_timer <= hb_dateMilliSeconds() ) )
break;
}
else
{
lRead += l;
conn->rd_count += l;
}
}
return lRead;
}
static void s_pp_msg( void * cargo, int iErrorFmt, int iLine,
const char * szModule, char cPrefix, int iValue,
const char * szText,
const char * szPar1, const char * szPar2 )
{
HB_SYMBOL_UNUSED( cargo );
/* ignore all warning messages and errors when break or quit request */
if( cPrefix != 'W' && hb_vmRequestQuery() == 0 )
{
char szMsgBuf[ 512 ], szLine[ 512 ];
PHB_ITEM pError;
hb_snprintf( szMsgBuf, sizeof( szMsgBuf ), szText, szPar1, szPar2 );
if( ! szModule || *szModule == 0 || strcmp( szModule, "{SOURCE}.prg" ) == 0 )
hb_snprintf( szLine, sizeof( szLine ),
"line:%i", iLine );
else
hb_snprintf( szLine, sizeof( szLine ),
iErrorFmt == HB_ERRORFMT_CLIPPER ? "%s(%i)" : "%s:%i",
szModule, iLine );
pError = hb_errRT_New( ES_ERROR, "COMPILER", 1001, ( HB_ERRCODE ) iValue,
szMsgBuf, szLine, 0 /*OsCode*/, EF_NONE );
hb_errLaunch( pError );
hb_errRelease( pError );
}
}
static void hb_hrbInit( PHRB_BODY pHrbBody, int iPCount, PHB_ITEM * pParams )
{
if( pHrbBody->fInit )
{
if( hb_vmRequestReenter() )
{
HB_ULONG ul;
HB_BOOL fRepeat, fClipInit = HB_TRUE;
int i;
pHrbBody->fInit = HB_FALSE;
pHrbBody->fExit = HB_TRUE;
do
{
fRepeat = HB_FALSE;
ul = pHrbBody->ulSymbols;
while( ul-- )
{
/* Check INIT functions */
if( ( pHrbBody->pSymRead[ ul ].scope.value & HB_FS_INITEXIT ) == HB_FS_INIT )
{
if( strcmp( pHrbBody->pSymRead[ ul ].szName, "CLIPINIT$" ) ?
! fClipInit : fClipInit )
{
hb_vmPushSymbol( pHrbBody->pSymRead + ul );
hb_vmPushNil();
for( i = 0; i < iPCount; i++ )
hb_vmPush( pParams[ i ] );
hb_vmProc( ( HB_USHORT ) iPCount );
if( hb_vmRequestQuery() != 0 )
break;
}
else if( fClipInit )
fRepeat = HB_TRUE;
}
}
fClipInit = HB_FALSE;
}
while( fRepeat && hb_vmRequestQuery() == 0 );
hb_vmRequestRestore();
}
}
}
static HB_ERRCODE hb_errRT_SQLBASE( HB_ERRCODE errGenCode, HB_ERRCODE errSubCode, const char * szDescription, const char * szOperation )
{
PHB_ITEM pError;
HB_ERRCODE iRet = HB_FAILURE;
if( hb_vmRequestQuery() == 0 )
{
pError = hb_errRT_New( ES_ERROR, "SQLBASE", errGenCode, errSubCode, szDescription, szOperation, 0, EF_NONE );
iRet = hb_errLaunch( pError );
hb_itemRelease( pError );
}
return iRet;
}
static HB_ERRCODE hb_rddEvalWABlock( AREAP pArea, void * pBlock )
{
PHB_ITEM pItem;
hb_rddSelectWorkAreaNumber( pArea->uiArea );
pItem = hb_vmEvalBlockOrMacro( ( PHB_ITEM ) pBlock );
if( hb_vmRequestQuery() != 0 ||
( HB_IS_LOGICAL( pItem ) && ! hb_itemGetL( pItem ) ) )
return HB_FAILURE;
else
return HB_SUCCESS;
}
void hb_idleSleep( double dSeconds )
{
if( dSeconds >= 0 )
{
HB_MAXUINT end_timer = hb_dateMilliSeconds() + ( HB_MAXUINT ) ( dSeconds * 1000 );
do
{
hb_idleState();
}
while( hb_dateMilliSeconds() < end_timer && hb_vmRequestQuery() == 0 );
hb_idleReset();
}
}
void hb_idleSleep( double dSeconds )
{
if( dSeconds >= 0 )
{
HB_MAXINT timeout = dSeconds > 0 ? ( HB_MAXINT ) ( dSeconds * 1000 ) : 0;
HB_MAXUINT timer = hb_timerInit( timeout );
do
{
hb_idleState();
}
while( ( timeout = hb_timerTest( timeout, &timer ) ) != 0 &&
hb_vmRequestQuery() == 0 );
hb_idleReset();
}
}
void hb_gcRefFree( void * pBlock )
{
if( pBlock )
{
PHB_GARBAGE pAlloc = HB_GC_PTR( pBlock );
if( hb_xRefDec( pAlloc ) )
{
/* Don't release the block that will be deleted during finalization */
if( ! ( pAlloc->used & HB_GC_DELETE ) )
{
pAlloc->used |= HB_GC_DELETE;
/* execute clean-up function */
pAlloc->pFuncs->clear( pBlock );
if( hb_xRefCount( pAlloc ) != 0 )
{
if( pAlloc->used & HB_GC_DELETE )
{
pAlloc->used = s_uUsedFlag;
if( hb_vmRequestQuery() == 0 )
hb_errRT_BASE( EG_DESTRUCTOR, 1301, NULL, "Reference to freed block", 0 );
}
}
else
{
HB_GC_LOCK();
if( pAlloc->locked )
hb_gcUnlink( &s_pLockedBlock, pAlloc );
else
{
hb_gcUnlink( &s_pCurrBlock, pAlloc );
HB_GC_AUTO_DEC();
}
HB_GC_UNLOCK();
HB_GARBAGE_FREE( pAlloc );
}
}
}
}
else
{
hb_errInternal( HB_EI_XFREENULL, NULL, NULL, NULL );
}
}
static long s_srvSendAll( PHB_CONSRV conn, void * buffer, long len )
{
HB_BYTE * ptr = ( HB_BYTE * ) buffer;
long lSent = 0, lLast = 1, l;
HB_MAXUINT end_timer;
if( ! conn->mutex || hb_threadMutexLock( conn->mutex ) )
{
end_timer = conn->timeout > 0 ? hb_dateMilliSeconds() + conn->timeout : 0;
while( lSent < len && ! conn->stop )
{
if( conn->zstream )
l = hb_znetWrite( conn->zstream, conn->sd, ptr + lSent, len - lSent, 1000, &lLast );
else
l = lLast = hb_socketSend( conn->sd, ptr + lSent, len - lSent, 0, 1000 );
if( l > 0 )
{
lSent += l;
conn->wr_count += l;
}
if( lLast <= 0 )
{
if( hb_socketGetError() != HB_SOCKET_ERR_TIMEOUT ||
hb_vmRequestQuery() != 0 ||
( end_timer != 0 && end_timer <= hb_dateMilliSeconds() ) )
break;
}
}
if( conn->zstream && lLast > 0 && ! conn->stop )
{
if( hb_znetFlush( conn->zstream, conn->sd,
conn->timeout > 0 ? conn->timeout : -1 ) != 0 )
lSent = -1;
}
if( conn->mutex )
hb_threadMutexUnlock( conn->mutex );
}
return lSent;
}
HB_EXTERN_BEGIN
static void hb_pp_ErrorMessage( void * cargo, const char * const szMsgTable[],
char cPrefix, int iCode,
const char * szParam1, const char * szParam2 )
{
HB_TRACE( HB_TR_DEBUG, ( "hb_pp_ErrorGen(%p, %p, %c, %d, %s, %s)", cargo, szMsgTable, cPrefix, iCode, szParam1, szParam2 ) );
HB_SYMBOL_UNUSED( cargo );
/* ignore all warning messages and errors when break or quit request */
if( cPrefix != 'W' && hb_vmRequestQuery() == 0 )
{
char szMsgBuf[ 1024 ];
PHB_ITEM pError;
hb_snprintf( szMsgBuf, sizeof( szMsgBuf ), szMsgTable[ iCode - 1 ],
szParam1, szParam2 );
pError = hb_errRT_New( ES_ERROR, "PP", 1001, ( HB_ERRCODE ) iCode, szMsgBuf,
NULL, 0, EF_NONE | EF_CANDEFAULT );
hb_errLaunch( pError );
hb_errRelease( pError );
}
}
static PHB_ITEM hb_i18n_pluralexp_compile( PHB_ITEM pExp )
{
HB_SIZE nLen = hb_itemGetCLen( pExp );
PHB_ITEM pBlock = NULL;
if( nLen > 0 )
{
char * szMacro = ( char * ) hb_xgrab( nLen + 6 );
const char * szType;
PHB_ITEM pMacro;
szMacro[ 0 ] = '{';
szMacro[ 1 ] = '|';
szMacro[ 2 ] = 'n';
szMacro[ 3 ] = '|';
memcpy( &szMacro[ 4 ], hb_itemGetCPtr( pExp ), nLen );
szMacro[ 4 + nLen ] = '}';
szMacro[ 5 + nLen ] = '\0';
pMacro = hb_itemPutCLPtr( NULL, szMacro, nLen );
szType = hb_macroGetType( pMacro );
if( *szType == 'B' )
{
hb_vmPush( pMacro );
hb_macroGetValue( hb_stackItemFromTop( -1 ), 0, 0 );
if( hb_vmRequestQuery() == 0 )
{
pExp = hb_stackItemFromTop( -1 );
if( HB_IS_BLOCK( pExp ) )
pBlock = hb_itemNew( pExp );
hb_stackPop();
}
}
hb_itemRelease( pMacro );
}
return pBlock;
}
static HB_ERRCODE hb_mixErrorRT( ADSXAREAP pArea,
HB_ERRCODE errGenCode, HB_ERRCODE errSubCode,
char * filename, HB_ERRCODE errOsCode,
HB_USHORT uiFlags )
{
PHB_ITEM pError;
HB_ERRCODE iRet = HB_FAILURE;
if( hb_vmRequestQuery() == 0 )
{
pError = hb_errNew();
hb_errPutGenCode( pError, errGenCode );
hb_errPutSubCode( pError, errSubCode );
hb_errPutOsCode( pError, errOsCode );
hb_errPutDescription( pError, hb_langDGetErrorDesc( errGenCode ) );
if( filename )
hb_errPutFileName( pError, filename );
if( uiFlags )
hb_errPutFlags( pError, uiFlags );
iRet = SELF_ERROR( ( AREAP ) pArea, pError );
hb_errRelease( pError );
}
return iRet;
}
PHB_ITEM hb_errLaunchSubst( PHB_ITEM pError )
{
PHB_ITEM pResult;
HB_TRACE( HB_TR_DEBUG, ( "hb_errLaunchSubst(%p)", pError ) );
if( pError )
{
PHB_ERRDATA pErrData = ( PHB_ERRDATA ) hb_stackGetTSD( &s_errData );
HB_USHORT uiFlags = hb_errGetFlags( pError );
/* Check if we have a valid error handler */
if( ! pErrData->errorBlock || ! HB_IS_EVALITEM( pErrData->errorBlock ) )
hb_errInternal( HB_EI_ERRNOBLOCK, NULL, NULL, NULL );
/* Check if the error launcher was called too many times recursively */
if( pErrData->iLaunchCount == HB_ERROR_LAUNCH_MAX )
hb_errInternal( HB_EI_ERRTOOMANY, NULL, NULL, NULL );
/* Launch the error handler: "xResult := Eval( ErrorBlock(), oError )" */
pErrData->iLaunchCount++;
/* set DosError() to last OS error code */
pErrData->uiErrorDOS = ( int ) hb_errGetOsCode( pError );
/* Add one try to the counter. */
if( uiFlags & EF_CANRETRY )
hb_errPutTries( pError, ( HB_USHORT ) ( hb_errGetTries( pError ) + 1 ) );
if( pErrData->errorHandler )
{
/* there is a low-level error handler defined - use it instead
* of normal Harbour level one
*/
pErrData->errorHandler->Error = pError;
pErrData->errorHandler->ErrorBlock = pErrData->errorBlock;
pResult = ( pErrData->errorHandler->Func )( pErrData->errorHandler );
pErrData->errorHandler->Error = NULL;
}
else
pResult = hb_itemDo( pErrData->errorBlock, 1, pError );
pErrData->iLaunchCount--;
/* Check results */
if( hb_vmRequestQuery() != 0 )
{
if( pResult )
hb_itemRelease( pResult );
pResult = NULL;
}
else
{
/* If the canSubstitute flag has not been set,
consider it as a failure. */
if( ! ( uiFlags & EF_CANSUBSTITUTE ) )
hb_errInternal( HB_EI_ERRRECFAILURE, NULL, NULL, NULL );
}
}
else
pResult = hb_itemNew( NULL );
return pResult;
}
HB_USHORT hb_errLaunch( PHB_ITEM pError )
{
HB_USHORT uiAction = E_DEFAULT; /* Needed to avoid GCC -O2 warning */
HB_TRACE( HB_TR_DEBUG, ( "hb_errLaunch(%p)", pError ) );
if( pError )
{
PHB_ERRDATA pErrData = ( PHB_ERRDATA ) hb_stackGetTSD( &s_errData );
HB_USHORT uiFlags = hb_errGetFlags( pError );
PHB_ITEM pResult;
/* Check if we have a valid error handler */
if( ! pErrData->errorBlock || ! HB_IS_EVALITEM( pErrData->errorBlock ) )
hb_errInternal( HB_EI_ERRNOBLOCK, NULL, NULL, NULL );
/* Check if the error launcher was called too many times recursively */
if( pErrData->iLaunchCount == HB_ERROR_LAUNCH_MAX )
hb_errInternal( HB_EI_ERRTOOMANY, NULL, NULL, NULL );
/* Launch the error handler: "lResult := Eval( ErrorBlock(), oError )" */
pErrData->iLaunchCount++;
/* set DosError() to last OS error code */
pErrData->uiErrorDOS = ( int ) hb_errGetOsCode( pError );
/* Add one try to the counter. */
if( uiFlags & EF_CANRETRY )
hb_errPutTries( pError, ( HB_USHORT ) ( hb_errGetTries( pError ) + 1 ) );
if( pErrData->errorHandler )
{
/* there is a low-level error handler defined - use it instead
* of normal Harbour level one
*/
pErrData->errorHandler->Error = pError;
pErrData->errorHandler->ErrorBlock = pErrData->errorBlock;
pResult = ( pErrData->errorHandler->Func )( pErrData->errorHandler );
pErrData->errorHandler->Error = NULL;
}
else
pResult = hb_itemDo( pErrData->errorBlock, 1, pError );
pErrData->iLaunchCount--;
/* Check results */
if( hb_vmRequestQuery() != 0 )
{
if( pResult )
hb_itemRelease( pResult );
uiAction = E_BREAK;
}
else if( pResult )
{
HB_BOOL bFailure = HB_FALSE;
/* If the error block didn't return a logical value, */
/* or the canSubstitute flag has been set, consider it as a failure */
if( ! HB_IS_LOGICAL( pResult ) || ( uiFlags & EF_CANSUBSTITUTE ) )
bFailure = HB_TRUE;
else
{
uiAction = hb_itemGetL( pResult ) ? E_RETRY : E_DEFAULT;
if( ( uiAction == E_DEFAULT && !( uiFlags & EF_CANDEFAULT ) ) ||
( uiAction == E_RETRY && !( uiFlags & EF_CANRETRY ) ) )
bFailure = HB_TRUE;
}
hb_itemRelease( pResult );
if( bFailure )
hb_errInternal( HB_EI_ERRRECFAILURE, NULL, NULL, NULL );
}
else
hb_errInternal( HB_EI_ERRRECFAILURE, NULL, NULL, NULL );
}
else
uiAction = E_RETRY; /* Clipper does this, undocumented */
return uiAction;
}
static void s_inetRecvPattern( const char * const * patterns, int * patternsizes,
int iPatternsCount, int iParam )
{
PHB_SOCKET_STRUCT socket = HB_PARSOCKET( 1 );
PHB_ITEM pResult = hb_param( iParam, HB_IT_BYREF );
PHB_ITEM pMaxSize = hb_param( iParam + 1, HB_IT_NUMERIC );
PHB_ITEM pBufferSize = hb_param( iParam + 2, HB_IT_NUMERIC );
char cChar = '\0';
char * buffer;
int iPaternFound = 0;
int iTimeElapsed = 0;
int iPos = 0;
int iLen;
int iAllocated, iBufferSize, iMax;
int i;
if( socket == NULL )
{
hb_inetErrRT();
return;
}
else if( ! hb_inetIsOpen( socket ) )
{
if( pResult )
hb_itemPutNI( pResult, -1 );
hb_retc_null();
return;
}
iBufferSize = pBufferSize ? hb_itemGetNI( pBufferSize ) : 80;
iMax = pMaxSize ? hb_itemGetNI( pMaxSize ) : 0;
socket->iError = HB_INET_ERR_OK;
buffer = ( char * ) hb_xgrab( iBufferSize );
iAllocated = iBufferSize;
do
{
if( iPos == iAllocated - 1 )
{
iAllocated += iBufferSize;
buffer = ( char * ) hb_xrealloc( buffer, iAllocated );
}
iLen = s_inetRecv( socket, &cChar, 1, HB_TRUE, socket->iTimeout );
if( iLen == -1 && s_inetIsTimeout( socket ) )
{
iLen = -2; /* this signals timeout */
if( socket->pPeriodicBlock )
{
HB_BOOL fResult;
iTimeElapsed += socket->iTimeout;
hb_execFromArray( socket->pPeriodicBlock );
fResult = hb_parl( -1 ) && hb_vmRequestQuery() == 0;
if( fResult &&
( socket->iTimeLimit == -1 || iTimeElapsed < socket->iTimeLimit ) )
iLen = 1;
}
}
else if( iLen > 0 )
{
buffer[ iPos++ ] = cChar;
for( i = 0; i < iPatternsCount; ++i )
{
if( patternsizes[ i ] <= iPos &&
cChar == patterns[ i ][ patternsizes[ i ] - 1 ] )
{
if( memcmp( buffer + iPos - patternsizes[ i ],
patterns[ i ], patternsizes[ i ] ) == 0 )
{
iPaternFound = i + 1;
break;
}
}
}
}
}
while( iLen > 0 && iPaternFound == 0 && ( iMax == 0 || iPos < iMax ) );
if( iPaternFound )
{
socket->iCount = iPos;
if( pResult )
hb_itemPutNI( pResult, iPos );
hb_retclen_buffer( buffer, iPos - patternsizes[ iPaternFound - 1 ] );
}
else
{
if( iLen == 0 )
socket->iError = HB_INET_ERR_CLOSEDCONN;
else if( iLen < 0 )
hb_inetGetError( socket );
else
{
socket->iError = HB_INET_ERR_BUFFOVERRUN;
iLen = -1;
}
if( pResult )
hb_itemPutNI( pResult, iLen );
hb_xfree( buffer );
hb_retc_null();
}
}
PHB_SSLSTREAM hb_ssl_socketNew( HB_SOCKET sd, SSL * ssl, HB_BOOL fServer,
HB_MAXINT timeout, int * piResult )
{
int iResult;
PHB_SSLSTREAM pStream;
HB_MAXUINT timer;
pStream = ( HB_SSLSTREAM * ) hb_xgrabz( sizeof( HB_SSLSTREAM ) );
timer = timeout <= 0 ? 0 : hb_dateMilliSeconds();
pStream->ssl = ssl;
pStream->pSSL = hb_itemNew( hb_param( 2, HB_IT_POINTER ) );
pStream->blocking = timeout < 0;
if( hb_socketSetBlockingIO( sd, pStream->blocking ) < 0 )
pStream->blocking = ! pStream->blocking;
SSL_set_mode( ssl, HB_SSL_MODE_AUTO_RETRY );
iResult = SSL_set_fd( ssl, sd );
while( iResult == 1 )
{
if( fServer )
iResult = SSL_accept( ssl );
else
iResult = SSL_connect( ssl );
if( iResult != 1 && hb_vmRequestQuery() == 0 )
{
int iError = SSL_get_error( ssl, iResult );
if( iError == SSL_ERROR_WANT_READ ||
iError == SSL_ERROR_WANT_WRITE )
{
if( timeout < 0 )
{
iResult = 1;
continue;
}
else if( timeout > 0 )
{
HB_MAXUINT timecurr = hb_dateMilliSeconds();
if( timecurr > timer )
{
timeout -= timecurr - timer;
timer = timecurr;
}
if( timeout > 0 )
{
if( iError == SSL_ERROR_WANT_READ )
iError = hb_socketSelectRead( sd, timeout );
else
iError = hb_socketSelectWrite( sd, timeout );
if( iError > 0 )
{
iResult = 1;
continue;
}
}
}
hb_socketSetError( HB_SOCKET_ERR_TIMEOUT );
}
}
break;
}
if( iResult != 1 )
{
hb_ssl_socketClose( pStream );
pStream = NULL;
}
else
pStream->blocking = hb_socketSetBlockingIO( sd, HB_FALSE ) < 0;
if( piResult )
*piResult = iResult;
return pStream;
}
long hb_ssl_socketRead( PHB_SSLSTREAM pStream, HB_SOCKET sd,
void * buffer, long len, HB_MAXINT timeout )
{
HB_MAXUINT timer = timeout <= 0 ? 0 : hb_dateMilliSeconds();
long lRead = -1;
int iToRead = -1;
/* sd = SSL_get_rfd( pStream->ssl ); */
#if LONG_MAX > INT_MAX
if( len > INT_MAX )
len = INT_MAX;
#endif
#if 0
while( ERR_get_error() != 0 ) { /* eat pending errors */ }
#endif
if( pStream->blocking ? timeout >= 0 : timeout < 0 )
{
if( hb_socketSetBlockingIO( sd, timeout < 0 ) >= 0 )
pStream->blocking = ! pStream->blocking;
}
if( len > 0 )
{
iToRead = SSL_pending( pStream->ssl );
if( iToRead <= 0 )
{
iToRead = timeout < 0 ? 1 : hb_socketSelectRead( sd, timeout );
if( iToRead > 0 )
iToRead = ( int ) len;
else if( iToRead == 0 )
hb_socketSetError( HB_SOCKET_ERR_TIMEOUT );
}
else if( iToRead > len )
iToRead = ( int ) len;
}
while( iToRead > 0 )
{
lRead = SSL_read( pStream->ssl, buffer, iToRead );
if( lRead > 0 )
hb_socketSetError( 0 );
else
{
int iError = SSL_get_error( pStream->ssl, ( int ) lRead );
switch( iError )
{
case SSL_ERROR_ZERO_RETURN:
hb_socketSetError( HB_SOCKET_ERR_PIPE );
lRead = 0;
break;
case SSL_ERROR_WANT_READ:
case SSL_ERROR_WANT_WRITE:
if( hb_vmRequestQuery() == 0 )
{
if( timeout > 0 )
{
HB_MAXUINT timecurr = hb_dateMilliSeconds();
if( timecurr > timer )
timeout -= timecurr - timer;
if( timeout > 0 )
{
timer = timecurr;
if( iError == SSL_ERROR_WANT_READ )
iError = hb_socketSelectRead( sd, timeout );
else
iError = hb_socketSelectWrite( sd, timeout );
if( iError > 0 )
continue;
else if( iError < 0 )
break;
}
}
hb_socketSetError( HB_SOCKET_ERR_TIMEOUT );
break;
}
default:
hb_socketSetError( HB_SSL_SOCK_ERROR_BASE + iError );
}
}
break;
}
return lRead;
}
PHB_SSLSTREAM hb_ssl_socketNew( HB_SOCKET sd, SSL * ssl, HB_BOOL fServer,
HB_MAXINT timeout, PHB_ITEM pSSL,
int * piResult )
{
int iResult;
PHB_SSLSTREAM pStream;
HB_MAXUINT timer;
pStream = ( HB_SSLSTREAM * ) hb_xgrabz( sizeof( HB_SSLSTREAM ) );
timer = timeout <= 0 ? 0 : hb_dateMilliSeconds();
pStream->ssl = ssl;
pStream->pSSL = pSSL ? hb_itemNew( pSSL ) : NULL;
pStream->blocking = timeout < 0;
if( hb_socketSetBlockingIO( sd, pStream->blocking ) < 0 )
pStream->blocking = ! pStream->blocking;
SSL_set_mode( ssl, HB_SSL_MODE_AUTO_RETRY );
iResult = SSL_set_fd( ssl, sd ); /* Truncates `sd` on win64. OpenSSL bug: https://rt.openssl.org/Ticket/Display.html?id=1928&user=guest&pass=guest */
while( iResult == 1 )
{
if( fServer )
iResult = SSL_accept( ssl );
else
iResult = SSL_connect( ssl );
if( iResult != 1 && hb_vmRequestQuery() == 0 )
{
int iError = SSL_get_error( ssl, iResult );
if( iError == SSL_ERROR_WANT_READ ||
iError == SSL_ERROR_WANT_WRITE )
{
if( timeout < 0 )
{
iResult = 1;
continue;
}
else if( timeout > 0 )
{
HB_MAXUINT timecurr = hb_dateMilliSeconds();
if( timecurr > timer )
{
timeout -= timecurr - timer;
if( timeout < 0 )
timeout = 0;
timer = timecurr;
}
if( timeout > 0 )
{
if( iError == SSL_ERROR_WANT_READ )
iError = hb_socketSelectRead( sd, timeout );
else
iError = hb_socketSelectWrite( sd, timeout );
if( iError > 0 )
{
iResult = 1;
continue;
}
}
}
hb_socketSetError( HB_SOCKET_ERR_TIMEOUT );
}
}
break;
}
if( iResult != 1 )
{
hb_ssl_socketClose( pStream );
pStream = NULL;
}
else
pStream->blocking = hb_socketSetBlockingIO( sd, HB_FALSE ) < 0;
if( piResult )
*piResult = iResult;
return pStream;
}
long hb_ssl_socketWrite( PHB_SSLSTREAM pStream, HB_SOCKET sd,
const void * buffer, long len, HB_MAXINT timeout,
long * plast )
{
HB_MAXUINT timer = timeout <= 0 ? 0 : hb_dateMilliSeconds();
long lWritten = 0, lWr = 0;
/* sd = SSL_get_wfd( pStream->ssl ); */
#if LONG_MAX > INT_MAX
if( len > INT_MAX )
len = INT_MAX;
#endif
#if 0
while( ERR_get_error() != 0 ) { /* eat pending errors */ }
#endif
if( pStream->blocking ? timeout >= 0 : timeout < 0 )
{
if( hb_socketSetBlockingIO( sd, timeout < 0 ) >= 0 )
pStream->blocking = ! pStream->blocking;
}
while( len > 0 )
{
lWr = SSL_write( pStream->ssl, buffer, ( int ) len );
if( plast )
*plast = lWr;
if( lWr > 0 )
{
lWritten += lWr;
len -= lWr;
buffer = ( const char * ) buffer + lWr;
hb_socketSetError( 0 );
}
else
{
int iError = SSL_get_error( pStream->ssl, ( int ) lWr );
switch( iError )
{
case SSL_ERROR_WANT_READ:
case SSL_ERROR_WANT_WRITE:
if( hb_vmRequestQuery() == 0 )
{
if( timeout > 0 )
{
HB_MAXUINT timecurr = hb_dateMilliSeconds();
if( timecurr > timer )
timeout -= timecurr - timer;
if( timeout > 0 )
{
timer = timecurr;
if( iError == SSL_ERROR_WANT_READ )
iError = hb_socketSelectRead( sd, timeout );
else
iError = hb_socketSelectWrite( sd, timeout );
if( iError > 0 )
continue;
}
else
iError = 0;
}
else
iError = 0;
if( lWritten == 0 && iError == 0 )
hb_socketSetError( HB_SOCKET_ERR_TIMEOUT );
break;
}
default:
hb_socketSetError( HB_SSL_SOCK_ERROR_BASE + iError );
}
break;
}
}
return lWritten != 0 ? lWritten : lWr;
}
static void s_inetRecvInternal( int iMode )
{
PHB_SOCKET_STRUCT socket = HB_PARSOCKET( 1 );
PHB_ITEM pBuffer = hb_param( 2, HB_IT_STRING );
if( socket == NULL || pBuffer == NULL || ! HB_ISBYREF( 2 ) )
hb_inetErrRT();
else if( ! hb_inetIsOpen( socket ) )
hb_retni( -1 );
else
{
int iLen, iMaxLen, iReceived, iTimeElapsed;
char * buffer;
HB_SIZE nLen;
if( hb_itemGetWriteCL( pBuffer, &buffer, &nLen ) )
iLen = ( int ) nLen;
else
{
iLen = 0;
buffer = NULL;
}
if( HB_ISNUM( 3 ) )
{
iMaxLen = hb_parni( 3 );
if( iMaxLen < 0 )
iMaxLen = 0;
else if( iLen < iMaxLen )
iMaxLen = iLen;
}
else
iMaxLen = iLen;
iReceived = iTimeElapsed = 0;
socket->iError = HB_INET_ERR_OK;
do
{
iLen = s_inetRecv( socket, buffer + iReceived, iMaxLen - iReceived,
HB_FALSE, socket->iTimeout );
if( iLen >= 0 )
{
iReceived += iLen;
if( iMode == 0 ) /* Called from hb_inetRecv()? */
break;
}
else if( iLen == -1 && s_inetIsTimeout( socket ) )
{
/* if we have a pPeriodicBlock, timeLimit is our REAL timeout */
if( socket->pPeriodicBlock )
{
/* timed out; let's see if we have to run a cb routine */
iTimeElapsed += socket->iTimeout;
hb_execFromArray( socket->pPeriodicBlock );
/* do we continue? */
if( hb_parl( -1 ) && hb_vmRequestQuery() == 0 &&
( socket->iTimeLimit == -1 || iTimeElapsed < socket->iTimeLimit ) )
iLen = 1; /* Declare success to continue loop */
}
}
}
while( iReceived < iMaxLen && iLen > 0 );
socket->iCount = iReceived;
if( iLen == 0 )
socket->iError = HB_INET_ERR_CLOSEDCONN;
else if( iLen < 0 )
hb_inetGetError( socket );
hb_retni( iReceived > 0 ? iReceived : iLen );
}
}
int hb_fsProcessRun( const char * pszFileName,
const char * pStdInBuf, HB_SIZE nStdInLen,
char ** pStdOutPtr, HB_SIZE * pulStdOut,
char ** pStdErrPtr, HB_SIZE * pulStdErr,
HB_BOOL fDetach )
{
HB_FHANDLE hStdin, hStdout, hStderr, *phStdin, *phStdout, *phStderr;
char * pOutBuf, *pErrBuf;
HB_SIZE nOutSize, nErrSize, nOutBuf, nErrBuf;
int iResult;
HB_TRACE( HB_TR_DEBUG, ( "hb_fsProcessRun(%s, %p, %" HB_PFS "u, %p, %p, %p, %p, %d)", pStdInBuf, pStdInBuf, nStdInLen, pStdOutPtr, pulStdOut, pStdErrPtr, pulStdErr, fDetach ) );
nOutBuf = nErrBuf = nOutSize = nErrSize = 0;
pOutBuf = pErrBuf = NULL;
hStdin = hStdout = hStderr = FS_ERROR;
phStdin = pStdInBuf ? &hStdin : NULL;
phStdout = pStdOutPtr && pulStdOut ? &hStdout : NULL;
phStderr = pStdErrPtr && pulStdErr ?
( pStdOutPtr == pStdErrPtr ? phStdout : &hStderr ) : NULL;
#if defined( HB_PROCESS_USEFILES )
{
#if defined( HB_OS_WIN_CE )
# define _HB_NULLHANDLE() FS_ERROR
#elif defined( HB_OS_UNIX )
# define _HB_NULLHANDLE() open( "/dev/null", O_RDWR )
#else
# define _HB_NULLHANDLE() open( "NUL:", O_RDWR )
#endif
char sTmpIn[ HB_PATH_MAX ];
char sTmpOut[ HB_PATH_MAX ];
char sTmpErr[ HB_PATH_MAX ];
HB_SYMBOL_UNUSED( phStdin );
HB_SYMBOL_UNUSED( nOutSize );
HB_SYMBOL_UNUSED( nErrSize );
sTmpIn[ 0 ] = sTmpOut[ 0 ] = sTmpErr[ 0 ] = '\0';
if( pStdInBuf )
{
hStdin = hb_fsCreateTempEx( sTmpIn, NULL, NULL, NULL, FC_NORMAL );
if( nStdInLen )
{
hb_fsWriteLarge( hStdin, pStdInBuf, nStdInLen );
hb_fsSeek( hStdin, 0, FS_SET );
}
}
else if( fDetach )
hStdin = _HB_NULLHANDLE();
if( pStdOutPtr && pulStdOut )
hStdout = hb_fsCreateTempEx( sTmpOut, NULL, NULL, NULL, FC_NORMAL );
else if( fDetach )
hStdout = _HB_NULLHANDLE();
if( pStdErrPtr && pulStdErr )
{
if( phStdout == phStderr )
hStderr = hStdout;
else
hStderr = hb_fsCreateTempEx( sTmpErr, NULL, NULL, NULL, FC_NORMAL );
}
else if( fDetach )
hStderr = _HB_NULLHANDLE();
iResult = hb_fsProcessExec( pszFileName, hStdin, hStdout, hStderr );
if( hStdin != FS_ERROR )
{
hb_fsClose( hStdin );
if( sTmpIn[ 0 ] )
hb_fsDelete( sTmpIn );
}
if( hStdout != FS_ERROR )
{
if( pStdOutPtr && pulStdOut )
{
nOutBuf = hb_fsSeek( hStdout, 0, FS_END );
if( nOutBuf )
{
pOutBuf = ( char * ) hb_xgrab( nOutBuf + 1 );
hb_fsSeek( hStdout, 0, FS_SET );
nOutBuf = hb_fsReadLarge( hStdout, pOutBuf, nOutBuf );
}
}
hb_fsClose( hStdout );
if( sTmpOut[ 0 ] )
hb_fsDelete( sTmpOut );
}
if( hStderr != FS_ERROR && hStderr != hStdout )
{
if( pStdErrPtr && pulStdErr )
{
nErrBuf = hb_fsSeek( hStderr, 0, FS_END );
if( nErrBuf )
{
pErrBuf = ( char * ) hb_xgrab( nErrBuf + 1 );
hb_fsSeek( hStderr, 0, FS_SET );
nErrBuf = hb_fsReadLarge( hStderr, pErrBuf, nErrBuf );
}
}
hb_fsClose( hStderr );
if( sTmpErr[ 0 ] )
hb_fsDelete( sTmpErr );
}
}
#else /* ! HB_PROCESS_USEFILES */
{
HB_FHANDLE hProcess;
hb_vmUnlock();
iResult = -1;
hProcess = hb_fsProcessOpen( pszFileName, phStdin, phStdout, phStderr,
fDetach, NULL );
if( hProcess != FS_ERROR )
{
#if defined( HB_OS_WIN )
HB_BOOL fFinished = HB_FALSE, fBlocked;
int iPipeCount = 0;
if( nStdInLen == 0 && hStdin != FS_ERROR )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
}
if( hStdout == hStderr )
hStderr = FS_ERROR;
if( hStdin != FS_ERROR )
++iPipeCount;
if( hStdout != FS_ERROR )
++iPipeCount;
if( hStderr != FS_ERROR )
++iPipeCount;
fBlocked = iPipeCount <= 1;
if( ! fBlocked )
{
if( hStdin != FS_ERROR )
hb_fsPipeUnblock( hStdin );
if( hStdout != FS_ERROR )
hb_fsPipeUnblock( hStdout );
if( hStderr != FS_ERROR )
hb_fsPipeUnblock( hStderr );
}
for( ;; )
{
DWORD dwResult, dwWait;
HB_SIZE nLen;
dwWait = 1000;
if( hStdout != FS_ERROR )
{
if( nOutBuf == nOutSize )
{
if( nOutSize == 0 )
nOutSize = HB_STD_BUFFER_SIZE;
else
nOutSize += nOutSize >> 1;
pOutBuf = ( char * ) hb_xrealloc( pOutBuf, nOutSize + 1 );
}
nLen = hb_fsReadLarge( hStdout, pOutBuf + nOutBuf, nOutSize - nOutBuf );
if( nLen > 0 )
nOutBuf += nLen;
else if( fBlocked )
{
hb_fsClose( hStdout );
hStdout = FS_ERROR;
--iPipeCount;
}
dwWait = nLen > 0 ? 0 : 10;
}
if( hStderr != FS_ERROR )
{
if( nErrBuf == nErrSize )
{
if( nErrSize == 0 )
nErrSize = HB_STD_BUFFER_SIZE;
else
nErrSize += nErrSize >> 1;
pErrBuf = ( char * ) hb_xrealloc( pErrBuf, nErrSize + 1 );
}
nLen = hb_fsReadLarge( hStderr, pErrBuf + nErrBuf, nErrSize - nErrBuf );
if( nLen > 0 )
nErrBuf += nLen;
else if( fBlocked )
{
hb_fsClose( hStderr );
hStderr = FS_ERROR;
--iPipeCount;
}
if( dwWait )
dwWait = nLen > 0 ? 0 : 10;
}
if( fFinished )
{
if( dwWait != 0 )
break;
}
else if( hStdin != FS_ERROR )
{
nLen = ! fBlocked && nStdInLen > 4096 ? 4096 : nStdInLen;
nLen = hb_fsWriteLarge( hStdin, pStdInBuf, nLen );
pStdInBuf += nLen;
nStdInLen -= nLen;
if( nStdInLen == 0 || ( fBlocked && nLen == 0 ) )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
--iPipeCount;
}
else if( dwWait )
dwWait = nLen > 0 ? 0 : 10;
}
if( iPipeCount == 0 )
dwWait = INFINITE;
dwResult = WaitForSingleObject( ( HANDLE ) hb_fsGetOsHandle( hProcess ), dwWait );
if( dwResult == WAIT_OBJECT_0 )
{
if( GetExitCodeProcess( ( HANDLE ) hb_fsGetOsHandle( hProcess ), &dwResult ) )
iResult = ( int ) dwResult;
else
iResult = -2;
fFinished = HB_TRUE;
}
}
if( hStdin != FS_ERROR )
hb_fsClose( hStdin );
if( hStdout != FS_ERROR )
hb_fsClose( hStdout );
if( hStderr != FS_ERROR )
hb_fsClose( hStderr );
CloseHandle( ( HANDLE ) hb_fsGetOsHandle( hProcess ) );
#elif defined( HB_OS_OS2 ) || defined( HB_OS_WIN )
HB_MAXINT nTimeOut = 0;
int iPipeCount = 0;
if( nStdInLen == 0 && hStdin != FS_ERROR )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
}
if( hStdout == hStderr )
hStderr = FS_ERROR;
if( hStdin != FS_ERROR )
++iPipeCount;
if( hStdout != FS_ERROR )
++iPipeCount;
if( hStderr != FS_ERROR )
++iPipeCount;
while( iPipeCount > 0 )
{
HB_MAXINT nNextTOut = 10;
HB_SIZE nLen;
if( hStdin != FS_ERROR )
{
if( iPipeCount == 1 )
nLen = hb_fsWriteLarge( hStdin, pStdInBuf, nStdInLen );
else
nLen = hb_fsPipeWrite( hStdin, pStdInBuf, nStdInLen, nTimeOut );
if( nLen == ( HB_SIZE ) ( iPipeCount == 1 ? 0 : FS_ERROR ) )
nStdInLen = 0;
else if( nLen > 0 )
{
pStdInBuf += nLen;
nStdInLen -= nLen;
nNextTOut = 0;
}
if( nStdInLen == 0 )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
--iPipeCount;
}
}
if( hStdout != FS_ERROR )
{
if( nOutBuf == nOutSize )
{
if( nOutSize == 0 )
nOutSize = HB_STD_BUFFER_SIZE;
else
nOutSize += nOutSize >> 1;
pOutBuf = ( char * ) hb_xrealloc( pOutBuf, nOutSize + 1 );
}
if( iPipeCount == 1 )
nLen = hb_fsReadLarge( hStdout, pOutBuf + nOutBuf, nOutSize - nOutBuf );
else
nLen = hb_fsPipeRead( hStdout, pOutBuf + nOutBuf, nOutSize - nOutBuf, nTimeOut );
if( nLen == ( HB_SIZE ) ( iPipeCount == 1 ? 0 : FS_ERROR ) )
{
hb_fsClose( hStdout );
hStdout = FS_ERROR;
--iPipeCount;
}
else if( nLen > 0 )
{
nOutBuf += nLen;
nNextTOut = 0;
}
}
if( hStderr != FS_ERROR )
{
if( nErrBuf == nErrSize )
{
if( nErrSize == 0 )
nErrSize = HB_STD_BUFFER_SIZE;
else
nErrSize += nErrSize >> 1;
pErrBuf = ( char * ) hb_xrealloc( pErrBuf, nErrSize + 1 );
}
if( iPipeCount == 1 )
nLen = hb_fsReadLarge( hStderr, pErrBuf + nErrBuf, nErrSize - nErrBuf );
else
nLen = hb_fsPipeRead( hStderr, pErrBuf + nErrBuf, nErrSize - nErrBuf, nTimeOut );
if( nLen == ( HB_SIZE ) ( iPipeCount == 1 ? 0 : FS_ERROR ) )
{
hb_fsClose( hStderr );
hStderr = FS_ERROR;
--iPipeCount;
}
else if( nLen > 0 )
{
nErrBuf += nLen;
nNextTOut = 0;
}
}
nTimeOut = nNextTOut;
}
if( hStdin != FS_ERROR )
hb_fsClose( hStdin );
if( hStdout != FS_ERROR )
hb_fsClose( hStdout );
if( hStderr != FS_ERROR )
hb_fsClose( hStderr );
iResult = hb_fsProcessValue( hProcess, HB_TRUE );
#elif defined( HB_OS_UNIX ) && ! defined( HB_OS_SYMBIAN )
if( nStdInLen == 0 && hStdin != FS_ERROR )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
}
if( hStdout == hStderr )
hStderr = FS_ERROR;
if( hStdin != FS_ERROR )
hb_fsPipeUnblock( hStdin );
if( hStdout != FS_ERROR )
hb_fsPipeUnblock( hStdout );
if( hStderr != FS_ERROR )
hb_fsPipeUnblock( hStderr );
for( ;; )
{
HB_BOOL fStdout, fStderr, fStdin;
HB_SIZE nLen;
#if defined( HB_HAS_POLL )
{
struct pollfd fds[ 3 ];
nfds_t nfds = 0;
if( hStdout != FS_ERROR )
{
fds[ nfds ].fd = hStdout;
fds[ nfds ].events = POLLIN;
fds[ nfds++ ].revents = 0;
}
if( hStderr != FS_ERROR )
{
fds[ nfds ].fd = hStderr;
fds[ nfds ].events = POLLIN;
fds[ nfds++ ].revents = 0;
}
if( hStdin != FS_ERROR )
{
fds[ nfds ].fd = hStdin;
fds[ nfds ].events = POLLOUT;
fds[ nfds++ ].revents = 0;
}
if( nfds == 0 )
break;
iResult = poll( fds, nfds, -1 );
hb_fsSetIOError( iResult >= 0, 0 );
if( iResult == -1 && hb_fsOsError() == ( HB_ERRCODE ) EINTR &&
hb_vmRequestQuery() == 0 )
continue;
else if( iResult <= 0 )
break;
nfds = 0;
fStdout = fStderr = fStdin = HB_FALSE;
if( hStdout != FS_ERROR )
{
if( ( fds[ nfds ].revents & POLLIN ) != 0 )
fStdout = HB_TRUE;
else if( ( fds[ nfds ].revents & ( POLLHUP | POLLNVAL | POLLERR ) ) != 0 )
{
hb_fsClose( hStdout );
hStdout = FS_ERROR;
}
nfds++;
}
if( hStderr != FS_ERROR )
{
if( ( fds[ nfds ].revents & POLLIN ) != 0 )
fStderr = HB_TRUE;
else if( ( fds[ nfds ].revents & ( POLLHUP | POLLNVAL | POLLERR ) ) != 0 )
{
hb_fsClose( hStderr );
hStderr = FS_ERROR;
}
nfds++;
}
if( hStdin != FS_ERROR )
{
if( ( fds[ nfds ].revents & POLLOUT ) != 0 )
fStdin = HB_TRUE;
else if( ( fds[ nfds ].revents & ( POLLHUP | POLLNVAL | POLLERR ) ) != 0 )
{
hb_fsClose( hStdin );
hStderr = FS_ERROR;
}
}
}
#else /* ! HB_HAS_POLL */
{
fd_set rfds, wfds, *prfds, *pwfds;
HB_FHANDLE fdMax;
fdMax = 0;
prfds = pwfds = NULL;
if( hStdout != FS_ERROR || hStderr != FS_ERROR )
{
FD_ZERO( &rfds );
if( hStdout != FS_ERROR )
{
FD_SET( hStdout, &rfds );
if( hStdout > fdMax )
fdMax = hStdout;
}
if( hStderr != FS_ERROR )
{
FD_SET( hStderr, &rfds );
if( hStderr > fdMax )
fdMax = hStderr;
}
prfds = &rfds;
}
if( hStdin != FS_ERROR )
{
FD_ZERO( &wfds );
FD_SET( hStdin, &wfds );
if( hStdin > fdMax )
fdMax = hStdin;
pwfds = &wfds;
}
if( prfds == NULL && pwfds == NULL )
break;
iResult = select( fdMax + 1, prfds, pwfds, NULL, NULL );
hb_fsSetIOError( iResult >= 0, 0 );
if( iResult == -1 && hb_fsOsError() != ( HB_ERRCODE ) EINTR &&
hb_vmRequestQuery() == 0 )
continue;
else if( iResult <= 0 )
break;
fStdout = hStdout != FS_ERROR && FD_ISSET( hStdout, &rfds );
fStderr = hStderr != FS_ERROR && FD_ISSET( hStderr, &rfds );
fStdin = hStdin != FS_ERROR && FD_ISSET( hStdin, &wfds );
}
#endif /* ! HB_HAS_POLL */
if( fStdout )
{
if( nOutBuf == nOutSize )
{
if( nOutSize == 0 )
nOutSize = HB_STD_BUFFER_SIZE;
else
nOutSize += nOutSize >> 1;
pOutBuf = ( char * ) hb_xrealloc( pOutBuf, nOutSize + 1 );
}
nLen = hb_fsReadLarge( hStdout, pOutBuf + nOutBuf, nOutSize - nOutBuf );
if( nLen == 0 )
{
/* zero bytes read after positive Select()
* - writing process closed the pipe
*/
hb_fsClose( hStdout );
hStdout = FS_ERROR;
}
else
nOutBuf += nLen;
}
if( fStderr )
{
if( nErrBuf == nErrSize )
{
if( nErrSize == 0 )
nErrSize = HB_STD_BUFFER_SIZE;
else
nErrSize += nErrSize >> 1;
pErrBuf = ( char * ) hb_xrealloc( pErrBuf, nErrSize + 1 );
}
nLen = hb_fsReadLarge( hStderr, pErrBuf + nErrBuf, nErrSize - nErrBuf );
if( nLen == 0 )
{
/* zero bytes read after positive Select()
* - writing process closed the pipe
*/
hb_fsClose( hStderr );
hStderr = FS_ERROR;
}
else
nErrBuf += nLen;
}
if( fStdin )
{
nLen = hb_fsWriteLarge( hStdin, pStdInBuf, nStdInLen );
pStdInBuf += nLen;
nStdInLen -= nLen;
if( nStdInLen == 0 )
{
hb_fsClose( hStdin );
hStdin = FS_ERROR;
}
}
}
if( hStdin != FS_ERROR )
hb_fsClose( hStdin );
if( hStdout != FS_ERROR )
hb_fsClose( hStdout );
if( hStderr != FS_ERROR )
hb_fsClose( hStderr );
iResult = hb_fsProcessValue( hProcess, HB_TRUE );
#else
int iTODO;
HB_SYMBOL_UNUSED( nStdInLen );
HB_SYMBOL_UNUSED( nOutSize );
HB_SYMBOL_UNUSED( nErrSize );
#endif
}
hb_vmLock();
}
/* Check all memory block if they can be released
*/
void hb_gcCollectAll( HB_BOOL fForce )
{
/* MTNOTE: it's not necessary to protect s_bCollecting with mutex
* because it can be changed at RT only inside this procedure
* when all other threads are stoped by hb_vmSuspendThreads(),
* [druzus]
*/
if( ! s_bCollecting && hb_vmSuspendThreads( fForce ) )
{
PHB_GARBAGE pAlloc, pDelete;
if( ! s_pCurrBlock || s_bCollecting )
{
hb_vmResumeThreads();
return;
}
s_bCollecting = HB_TRUE;
/* Step 1 - mark */
/* All blocks are already marked because we are flipping
* the used/unused flag
*/
/* Step 2 - sweep */
/* check all known places for blocks they are referring */
hb_vmIsStackRef();
hb_vmIsStaticRef();
hb_clsIsClassRef();
/* check list of locked block for blocks referenced from
* locked block
*/
if( s_pLockedBlock )
{
pAlloc = s_pLockedBlock;
do
{
pAlloc->pFuncs->mark( HB_BLOCK_PTR( pAlloc ) );
pAlloc = pAlloc->pNext;
}
while( s_pLockedBlock != pAlloc );
}
/* Step 3 - finalize */
/* Release all blocks that are still marked as unused */
/*
* infinite loop can appear when we are executing clean-up functions
* scanning s_pCurrBlock. It's possible that one of them will free
* the GC block which we are using as stop condition. Only blocks
* for which we set HB_GC_DELETE flag are guarded against releasing.
* To avoid such situation first we are moving blocks which will be
* deleted to separate list. It's additional operation but it can
* even increase the speed when we are deleting only few percent
* of all allocated blocks because in next passes we will scan only
* deleted block list. [druzus]
*/
pAlloc = NULL; /* for stop condition */
do
{
if( s_pCurrBlock->used == s_uUsedFlag )
{
pDelete = s_pCurrBlock;
pDelete->used |= HB_GC_DELETE | HB_GC_DELETELST;
hb_gcUnlink( &s_pCurrBlock, pDelete );
hb_gcLink( &s_pDeletedBlock, pDelete );
HB_GC_AUTO_DEC();
}
else
{
/* at least one block will not be deleted, set new stop condition */
if( ! pAlloc )
pAlloc = s_pCurrBlock;
s_pCurrBlock = s_pCurrBlock->pNext;
}
}
while( pAlloc != s_pCurrBlock );
/* Step 4 - flip flag */
/* Reverse used/unused flag so we don't have to mark all blocks
* during next collecting
*/
s_uUsedFlag ^= HB_GC_USED_FLAG;
#ifdef HB_GC_AUTO
/* store number of marked blocks for automatic GC activation */
s_ulBlocksMarked = s_ulBlocks;
if( s_ulBlocksAuto == 0 )
s_ulBlocksCheck = HB_GC_AUTO_MAX;
else
{
s_ulBlocksCheck = s_ulBlocksMarked + s_ulBlocksAuto;
if( s_ulBlocksCheck <= s_ulBlocksMarked )
s_ulBlocksCheck = HB_GC_AUTO_MAX;
}
#endif
/* call memory manager cleanup function */
hb_xclean();
/* resume suspended threads */
hb_vmResumeThreads();
/* do we have any deleted blocks? */
if( s_pDeletedBlock )
{
/* call a cleanup function */
pAlloc = s_pDeletedBlock;
do
{
s_pDeletedBlock->pFuncs->clear( HB_BLOCK_PTR( s_pDeletedBlock ) );
s_pDeletedBlock = s_pDeletedBlock->pNext;
}
while( pAlloc != s_pDeletedBlock );
/* release all deleted blocks */
do
{
pDelete = s_pDeletedBlock;
hb_gcUnlink( &s_pDeletedBlock, pDelete );
if( hb_xRefCount( pDelete ) != 0 )
{
pDelete->used = s_uUsedFlag;
pDelete->locked = 0;
HB_GC_LOCK();
hb_gcLink( &s_pCurrBlock, pDelete );
HB_GC_AUTO_INC();
HB_GC_UNLOCK();
if( hb_vmRequestQuery() == 0 )
hb_errRT_BASE( EG_DESTRUCTOR, 1302, NULL, "Reference to freed block", 0 );
}
else
HB_GARBAGE_FREE( pDelete );
}
while( s_pDeletedBlock );
}
s_bCollecting = HB_FALSE;
}
}
