?? deviceclient.cpp
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#include "stdafx.h"
#include ".\deviceclient.h"
#include "ErrorCode.h"
#include "DebugError.h"
#include "DeviceCtrl.h"
#include "CriticalObj.h"
#include <windows.h>
#ifdef _WINDOWS
#include <math.h>
#endif
CDeviceClient::CDeviceClient(void) :
m_pDeviceCtrl(NULL),
m_pCriticalObject( NULL )
{
}
CDeviceClient::~CDeviceClient(void)
{
BOOL bRet = FALSE;
U32 u32Ret = 0;
u32Ret = Uninitial();
if( u32Ret != RETURN_NO_ERROR )
{
OutputTimeToLog();
OutputDebugLog1( "Unitial error, error code:0x%08x\n", u32Ret );
}
//bRet = m_pCriticalObject->UnitialObj();
//if( bRet == FALSE )
//{
// OutputTimeToLog();
// OutputDebugLog1( "Unitial Critical Object, error code:0x%08x\n", u32Ret );
//}
delete m_pCriticalObject;
m_pCriticalObject = NULL;
}
U32 CDeviceClient::InitialClient( U8 ComPort /* = -1 */)
{
U32 u32Ret = RETURN_NO_ERROR;
if( m_pDeviceCtrl )
{
delete m_pDeviceCtrl;
m_pDeviceCtrl = NULL;
}
if( ComPort == -1 )
{
ComPort = 0;
}
m_pDeviceCtrl = new CDeviceCtrl;
if( m_pDeviceCtrl != NULL )
{
if( m_pDeviceCtrl->OpenPort( 38400, 8, NOPARITY, ONESTOPBIT, ComPort ) == FALSE )
{
delete m_pDeviceCtrl;
m_pDeviceCtrl = NULL;
u32Ret = ERROR_OPEN_PORT;
}
}
else
{
u32Ret = ERROR_NEW_MEMORY;
}
return u32Ret;
}
U32 CDeviceClient::Uninitial()
{
if( m_pDeviceCtrl )
{
m_pDeviceCtrl->ClosePort();
delete m_pDeviceCtrl;
m_pDeviceCtrl = NULL;
}
return 0;
}
U32 CDeviceClient::IsOpen()
{
return m_pDeviceCtrl != NULL ? 1 : 0;
}
U32 CDeviceClient::ScanCard( IN U8 u8Second, IN U8 u8MilliSecond, IN U16 u16Sign,
OUT U8* pCount, OUT INT_DATA_SCAN* pScanBufData, OUT U8* IsOver )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDScan( u8Second, u8MilliSecond, u16Sign );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_SCAN;
break;
}
Sleepms( u8Second*1000 + u8MilliSecond );
//Sleepms( 400 );
bRet = m_pDeviceCtrl->GetScanDataUnit( IsOver, pScanBufData );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_SCAN_RES;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::GetScanData( OUT INT_DATA_SCAN* pScanBufData, U8* IsOver )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->GetScanDataUnit( IsOver, pScanBufData );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_SCAN_RES;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::ReadCardData( IN U32 CardID, IN U8 SectorID,
OUT INT_DATA_CARD* pData, IN U32 DataSize )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( DataSize != sizeof(INT_DATA_CARD) || pData == NULL )
{
u32Ret = ERROR_PARAMETER_INVALID;
break;
}
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDReadData( SectorID, CardID );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_GET_READ_DATA;
break;
}
Sleepms( 1000 );
INT_DATA_CARD CardData;
bRet = m_pDeviceCtrl->GetDataFromCard( &CardData, sizeof(CardData) );
if( bRet == FALSE )
{
u32Ret = ERROR_GET_READ_DATA;
}
memcpy( pData, &CardData, sizeof( CardData ) );
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::ReadRecordData( IN U32 CardID, OUT INT_DATA_CARD* pData, IN U32 DataSize )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( DataSize != sizeof(INT_DATA_CARD) || pData == NULL )
{
u32Ret = ERROR_PARAMETER_INVALID;
break;
}
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDGetRecordData( CardID );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_GET_READ_DATA;
break;
}
Sleepms( 1000 );
INT_DATA_CARD CardData;
bRet = m_pDeviceCtrl->GetDataFromCard( &CardData, sizeof(CardData) );
if( bRet == FALSE )
{
u32Ret = ERROR_GET_READ_DATA;
}
memcpy( pData, &CardData, sizeof( CardData ) );
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::WriteCardData( IN U32 CardID, IN INT_WRITE_CARD_DATA* pWriteData )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( pWriteData == NULL )//&& m_pCriticalObject == NULL )
{
u32Ret = ERROR_PARAMETER_INVALID;
break;
}
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDWriteData( CardID, pWriteData );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_WRITE_DATA;
break;
}
Sleepms( 700 );
U8 u8Result;
bRet = m_pDeviceCtrl->GetWriteDataResult( &u8Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_WRITE_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_GET_WRITE_RESULT;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::FlashLED( IN U32 CardID, IN U16 Times, IN U8 LEDStatus )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDFlashLED( CardID, Times, LEDStatus );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_FLASH_LED;
break;
}
Sleepms( 700 );
U8 u8Result;
bRet = m_pDeviceCtrl->GetFlashLEDResult( &u8Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_FLASH_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_GET_WRITE_RESULT;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::Broadcast( IN U8 IsReturnResult, IN U16 Times, IN U16 Sign )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDBroadcast( IsReturnResult, Times, Sign );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_BROADCAST;
break;
}
Sleepms( 700 );
U8 u8Result;
bRet = m_pDeviceCtrl->GetBroadcastResult( &u8Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_BROAD_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_BROADCAST_RES;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::SetOutputPower( IN U32 CardID, IN U8 PowerClass )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDSetOutputPower( CardID, PowerClass );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_SET_POWER;
break;
}
Sleepms( 700 );
U8 u8Result;
bRet = m_pDeviceCtrl->GetOutputPowerResult( &u8Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_POWER_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_SET_POWER_RES;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::SetSpecialFlag( IN U32 CardID, IN U16 Sign )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDSpecialFlag( CardID, 'W', Sign );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_FLAG;
break;
}
Sleepms( 700 );
U8 u8Result;
U16 u16Result;
bRet = m_pDeviceCtrl->GetSpecialFlagResult( &u8Result, &u16Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_FLAG_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_FLAG_RES;
}
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::GetSpecialFlag( IN U32 CardID, OUT U16* pSign )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
U16 u16Temp = 0;
bRet = m_pDeviceCtrl->CMDSpecialFlag( CardID, 'R', u16Temp );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_FLAG;
break;
}
Sleepms( 700 );
U8 u8Result;
U16 u16Result;
bRet = m_pDeviceCtrl->GetSpecialFlagResult( &u8Result, &u16Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_FLAG_RES;
break;
}
if( u8Result != RESULT_SUCCESS )
{
u32Ret = ERROR_FLAG_RES;
}
*pSign = u16Result;
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::GetStartTime( IN U32 CardID, IN U8 Flag, OUT CARD_TIME *pTime )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
CARD_TIME cdTime;
memset( &cdTime, 0, sizeof(CARD_TIME) );
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDSetStartTime( CardID, Flag, 'R', &cdTime );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_GET_TIME;
break;
}
Sleepms( 700 );
bRet = m_pDeviceCtrl->GetStartTime( &cdTime );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_GTIME_RES;
break;
}
memcpy( pTime, &cdTime, sizeof(CARD_TIME) );
} while(0);
//m_pCriticalObject->LeaveCritical();
return u32Ret;
}
U32 CDeviceClient::SetStartTime( IN U32 CardID, IN U8 Flag, IN CARD_TIME *pTime )
{
U32 u32Ret = RETURN_NO_ERROR;
BOOL bRet = FALSE;
//m_pCriticalObject->EnterCritical();
do
{
if( pTime == NULL )
{
u32Ret = ERROR_PARAMETER_INVALID;
break;
}
if( m_pDeviceCtrl == NULL )
{
u32Ret = ERROR_NO_INITIAL;
break;
}
bRet = m_pDeviceCtrl->CMDSetStartTime( CardID, Flag, 'W', pTime );
if( bRet == FALSE )
{
u32Ret = ERROR_CMD_SET_TIME;
break;
}
Sleepms( 700 );
U8 u8Result;
bRet = m_pDeviceCtrl->GetSetStartTimeResult( &u8Result );
if( bRet == FALSE )
{
u32Ret = ERROR_COMMAND_STIME_RES;
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