Exemplo n.º 1
0
void NetworkAdapter::init(unsigned char PinEthLink_UB, unsigned char pMacAddr_UB[6], IPAddress IpAddr_X, IPAddress SubnetMaskAddr_X, IPAddress GatewayAddr_X, IPAddress DnsIpAddr_X) {
    GL_NetworkAdapterParam_X.PintEthLink_UB = PinEthLink_UB;
    pinMode(GL_NetworkAdapterParam_X.PintEthLink_UB, INPUT);

    for (int i = 0; i < 6; i++)
        GL_NetworkAdapterParam_X.pMacAddr_UB[i] = pMacAddr_UB[i];

    GL_NetworkAdapterParam_X.IpAddr_X = IpAddr_X;
    GL_NetworkAdapterParam_X.SubnetMaskAddr_X = SubnetMaskAddr_X;
    GL_NetworkAdapterParam_X.GatewayAddr_X = GatewayAddr_X;
    GL_NetworkAdapterParam_X.DnsIpAddr_X = DnsIpAddr_X;

    GL_NetworkAdapterParam_X.IsDhcp_B = false;
    GL_NetworkAdapterParam_X.AdvancedConfig_B = true;

    GL_NetworkAdapterParam_X.IsInitialized_B = true;
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Network Adapter Initialized");
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "MAC Address = " + HexArrayToString(GL_NetworkAdapterParam_X.pMacAddr_UB, sizeof(GL_NetworkAdapterParam_X.pMacAddr_UB), ":"));
    DBG_PRINT(DEBUG_SEVERITY_INFO, "IP Address = ");
    DBG_PRINTDATA(IpAddr_X);
    DBG_ENDSTR();
    DBG_PRINT(DEBUG_SEVERITY_INFO, "Subnet Mask = ");
    DBG_PRINTDATA(SubnetMaskAddr_X);
    DBG_ENDSTR();
    DBG_PRINT(DEBUG_SEVERITY_INFO, "Gateway Address = ");
    DBG_PRINTDATA(GatewayAddr_X);
    DBG_ENDSTR();
    DBG_PRINT(DEBUG_SEVERITY_INFO, "DNS Address = ");
    DBG_PRINTDATA(DnsIpAddr_X);
    DBG_ENDSTR();
}
Exemplo n.º 2
0
bool  IRrecv::decodeTcl112ac (decode_results *results)
{
	unsigned long  data   = 0;  // Somewhere to build our code
	int            offset = 1;  // Skip the Gap reading

	DBG_PRINTLN("Checking right amount of data: ");
	DBG_PRINTLN(irparams.rawlen);

	// Check we have the right amount of data
	if (irparams.rawlen != 1 + 2 + (2 * BITS) + 1)  return false ;

	// Check initial Mark+Space match
	if (!MATCH_MARK (results->rawbuf[offset++], HDR_MARK ))  return false ;
	if (!MATCH_SPACE(results->rawbuf[offset++], HDR_SPACE))  return false ;

	// Read the bits in
	for (int i = 0;  i < BITS;  i++) {
		// Each bit looks like: MARK + SPACE_1 -> 1
		//                 or : MARK + SPACE_0 -> 0
		if (!MATCH_MARK(results->rawbuf[offset++], BIT_MARK))  return false ;

		// IR data is big-endian, so we shuffle it in from the right:
		if      (MATCH_SPACE(results->rawbuf[offset], ONE_SPACE))   data = (data << 1) | 1 ;
		else if (MATCH_SPACE(results->rawbuf[offset], ZERO_SPACE))  data = (data << 1) | 0 ;
		else                                                        return false ;
		offset++;
	}

	// Success
	results->bits        = BITS;
	results->value       = data;
	results->decode_type = TCL112AC;
	return true;
}
Exemplo n.º 3
0
void ProcessCheckCmd(void) {
	boolean FoundStx_B = false;
	unsigned char Temp_UB = 0x00;

	while (WCmdMedium_DataAvailable()) {
		// Look for the Start Of Transmit byte
		if (WCmdMedium_ReadByte() == WCMD_STX) {
			FoundStx_B = true;
			DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Found STX");
			break;
		}
	}

	if (FoundStx_B && (WCmdMedium_DataAvailable() > 0)) {

		// Get Command ID and Parameters bit
		Temp_UB = WCmdMedium_ReadByte();
		GL_WCmdParam_X.CmdId_UB = Temp_UB & WCMD_CMD_ID_MASK;
		GL_WCmdParam_X.HasParam_B = ((Temp_UB & WCMD_PARAM_BIT_MASK) == WCMD_PARAM_BIT_MASK) ? true : false;

		DBG_PRINT(DEBUG_SEVERITY_INFO, "Command ID = 0x");
		DBG_PRINTDATABASE(GL_WCmdParam_X.CmdId_UB, HEX);
		DBG_ENDSTR();
		DBG_PRINT(DEBUG_SEVERITY_INFO, "Has Param ? = ");
		DBG_PRINTDATABASE(GL_WCmdParam_X.HasParam_B, BIN);
		DBG_ENDSTR();

		// Get Parameters if any
		if (GL_WCmdParam_X.HasParam_B) {
			GL_WCmdParam_X.ParamNb_UL = WCmdMedium_ReadByte();

			DBG_PRINT(DEBUG_SEVERITY_INFO, "Param Number = ");
			DBG_PRINTDATA(GL_WCmdParam_X.ParamNb_UL);
			DBG_ENDSTR();

            //DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Param List = ");
            for (int i = 0; i < GL_WCmdParam_X.ParamNb_UL; i++) {
                //DBG_PRINTDATA(i);
                //DBG_PRINTDATA(" - ");
                GL_WCmdParam_X.pParamBuffer_UB[i] = WCmdMedium_ReadByte();
                //DBG_PRINTDATABASE(GL_WCmdParam_X.pParamBuffer_UB[i], HEX);
                //DBG_ENDSTR();
            }
		}

		// Check for End Of Transmit byte
		if (WCmdMedium_ReadByte() == WCMD_ETX) {
			DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Found ETX");
			TransitionToProcessCmd();
		}
		else {
			DBG_PRINTLN(DEBUG_SEVERITY_WARNING, "Do NOT Found ETX");
			GL_WCmdParam_X.FctSts_E = WCMD_FCT_STS_BAD_PACKET;
			TransitionToSendResp();
		}

	}

}
Exemplo n.º 4
0
void EButton::setEvents( const event_t eKeyPressed, 
				const event_t eKeyDoublePressed, const event_t eKeyHold )
{
	eventKeyPressed        = eKeyPressed;
	eventKeyDoublePressed  = eKeyDoublePressed;
	eventKeyHold           = eKeyHold;
	DBG_PRINTLN( eventKeyPressed );
	DBG_PRINTLN( eventKeyDoublePressed );
	DBG_PRINTLN( eventKeyHold );
};
Exemplo n.º 5
0
void EOutputDevice::off()
//выключение устройства с сохранением соответствующих полей
{
	isOn = false;
	if ( this->reverseOn ) {
		digitalWrite( this->port, HIGH );
		DBG_PRINTLN( F("EOD:off() REVERSE, OFF") );
	}  else {
		digitalWrite( this->port, LOW );
		DBG_PRINTLN( F("EOD:off() NO REVERSE, OFF") );
	};
};
Exemplo n.º 6
0
void NetworkAdapter::init(unsigned char PinEthLink_UB, unsigned char pMacAddr_UB[6]) {
    GL_NetworkAdapterParam_X.PintEthLink_UB = PinEthLink_UB;
    pinMode(GL_NetworkAdapterParam_X.PintEthLink_UB, INPUT);

    for (int i = 0; i < 6; i++)
        GL_NetworkAdapterParam_X.pMacAddr_UB[i] = pMacAddr_UB[i];

    GL_NetworkAdapterParam_X.IsDhcp_B = true;
    GL_NetworkAdapterParam_X.AdvancedConfig_B = false;

    GL_NetworkAdapterParam_X.IsInitialized_B = true;
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Network Adapter Initialized");
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "MAC Address = " + HexArrayToString(GL_NetworkAdapterParam_X.pMacAddr_UB, sizeof(GL_NetworkAdapterParam_X.pMacAddr_UB), ":"));
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "DHCP Configuration");
}
STATIC void A6(void)
#endif /* KSTACK_MEMORY_MAPPING */
{
    KnxMsg_Buffer * pBuffer;

/*
**      Send a N_Data_Individual.req with T_DISCONNECT_REQ_PDU, priority = SYSTEM,
**      destination = connection_address, sequence = 0 to the network layer (remote device).
*/

    DBG_PRINTLN("A6()");

    KnxMsg_AllocateBuffer(&pBuffer);

    if (pBuffer != (KnxMsg_Buffer *)NULL) {
        T_Disconnect_Req(pBuffer, KnxTlc_GetSourceAddress(), /* KnxADR_GetPhysAddr(), */ KnxTlc_GetConnectionAddress());
    } else {
        /* Errorhandling. */
    }

    /* Send a T_Disconnect.ind to the user. */
    /* Handled by callback. */
//#if 0
    if (KnxMsg_ScratchBufferPtr == (KnxMsg_Buffer *)NULL) {
        KnxMsg_AllocateBuffer(&KnxMsg_ScratchBufferPtr);
    } else {
        (void)KnxMsg_ClearBuffer(KnxMsg_ScratchBufferPtr);
    }

    T_Disconnect_Ind(KnxMsg_ScratchBufferPtr, KnxTlc_GetSourceAddress(), /* KnxADR_GetPhysAddr(), */ KnxTlc_GetConnectionAddress());
//#endif

    KnxTlc_StopAcknowledgementTimeoutTimer();
    KnxTlc_StopConnectionTimeoutTimer();
}
Exemplo n.º 8
0
void ProcessProcessCmd(void) {

	int i = 0;
	GL_WCmdParam_X.FctSts_E = WCMD_FCT_STS_ERROR;

	// Look for the command ID in the table of fonction handler
	for (i = 0; i < GL_WCmdFctNb_UL; i++) {
		if (GL_pWCmdFctDescr_X[i].CmdID_UB == GL_WCmdParam_X.CmdId_UB) {
			DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Found Command ID. Call Function...");
			GL_WCmdParam_X.FctSts_E = GL_pWCmdFctDescr_X[i].FctHandler(GL_WCmdParam_X.pParamBuffer_UB, GL_WCmdParam_X.ParamNb_UL, GL_WCmdParam_X.pAnsBuffer_UB, &(GL_WCmdParam_X.AnsNb_UL));
			DBG_PRINT(DEBUG_SEVERITY_INFO, "Status = ");
			DBG_PRINTDATA(GL_WCmdParam_X.FctSts_E);
			DBG_PRINTDATA(" - Number of Bytes in Answer = ");
			DBG_PRINTDATA(GL_WCmdParam_X.AnsNb_UL);
			DBG_ENDSTR();
			break;
		}
	}

	// Check if the ID has been found and call the appropriate function
	if (i == GL_WCmdFctNb_UL) {
		GL_WCmdParam_X.FctSts_E = WCMD_FCT_STS_UNKNOWN;
		DBG_PRINT(DEBUG_SEVERITY_WARNING, "Command ID Unknown [0x");
		DBG_PRINTDATABASE(GL_WCmdParam_X.CmdId_UB, HEX);
		DBG_PRINTDATA("]");
		DBG_ENDSTR();
	}

	// Go to Send Response state
	TransitionToSendResp();
}
Exemplo n.º 9
0
boolean GP2Y1010Sensor::run()
{
    uint16_t value;

    digitalWrite(auxiliaryPin,LOW); // power on the LED
    delayMicroseconds(GP2Y1010_SAMPLE_TIME);

    value = (uint16_t)analogRead(attachPin); // read the dust value

    digitalWrite(auxiliaryPin,HIGH); // power on the LED

    /**  **/
    dustDensity = 0.83*(float)value - 100;

    if ( dustDensity < 0 )
    {
        dustDensity = 0;
    }
    else if ( dustDensity > 520 )
    {
        dustDensity = 520;
    }


    DBG_PRINT("Dust raw value=");
    DBG_PRINTLN(value);

    return true;
}
Exemplo n.º 10
0
int  IRrecv::getRClevel (decode_results *results,  int *offset,  int *used,  int t1)
{
	int  width;
	int  val;
	int  correction;
	int  avail;

	if (*offset >= results->rawlen)  return SPACE ;  // After end of recorded buffer, assume SPACE.
	width      = results->rawbuf[*offset];
	val        = ((*offset) % 2) ? MARK : SPACE;
	correction = (val == MARK) ? MARK_EXCESS : - MARK_EXCESS;

	if      (MATCH(width, (  t1) + correction))  avail = 1 ;
	else if (MATCH(width, (2*t1) + correction))  avail = 2 ;
	else if (MATCH(width, (3*t1) + correction))  avail = 3 ;
	else                                         return -1 ;

	(*used)++;
	if (*used >= avail) {
		*used = 0;
		(*offset)++;
	}

	DBG_PRINTLN( (val == MARK) ? "MARK" : "SPACE" );

	return val;
}
Exemplo n.º 11
0
/* ******************************************************************************** */
void IndicatorInterface_Init(void) {

	// Fill-Up LD5218 Parameters and Function
	GL_pIndicatorInterface_X[INDICATOR_LD5218].FctHandler = LD5218_ProcessFrame;
	for (int i = 0; i < INDICATOR_INTERFACE_FRAME_NUM; i++) {
		GL_pIndicatorInterface_X[INDICATOR_LD5218].pFrame[i].Size_UB = GL_pLD5218Frames_X[i].Size_UB;
		GL_pIndicatorInterface_X[INDICATOR_LD5218].pFrame[i].RespSize_UB = GL_pLD5218Frames_X[i].RespSize_UB;
		for (int j = 0; j < GL_pIndicatorInterface_X[INDICATOR_LD5218].pFrame[i].Size_UB; j++)
			GL_pIndicatorInterface_X[INDICATOR_LD5218].pFrame[i].pWords_UB[j] = GL_pLD5218Frames_X[i].pWords_UB[j];
	}

    // Fill-Up GI400 Parameters and Function
    GL_pIndicatorInterface_X[INDICATOR_GI400].FctHandler = GI400_ProcessFrame;
    for (int i = 0; i < INDICATOR_INTERFACE_FRAME_NUM; i++) {
        GL_pIndicatorInterface_X[INDICATOR_GI400].pFrame[i].Size_UB = GL_pGI400Frames_X[i].Size_UB;
        GL_pIndicatorInterface_X[INDICATOR_GI400].pFrame[i].RespSize_UB = GL_pGI400Frames_X[i].RespSize_UB;
        for (int j = 0; j < GL_pIndicatorInterface_X[INDICATOR_GI400].pFrame[i].Size_UB; j++)
            GL_pIndicatorInterface_X[INDICATOR_GI400].pFrame[i].pWords_UB[j] = GL_pGI400Frames_X[i].pWords_UB[j];
    }

	// Do the same for other indicators..
	// ...

	// Print out the allowed interfaces
	DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Indicator Interfaces Initialized : ");
	for (int i = 0; i < INDICATOR_INTERFACE_DEVICES_NUM; i++) {
		DBG_PRINT(DEBUG_SEVERITY_INFO, " - ");
		DBG_PRINTDATA(pIndicatorInterfaceDeviceLut_Str[i]);
		DBG_ENDSTR();
	}
}
Exemplo n.º 12
0
//+=============================================================================
// The match functions were (apparently) originally MACROs to improve code speed
//   (although this would have bloated the code) hence the names being CAPS
// A later release implemented debug output and so they needed to be converted
//   to functions.
// I tried to implement a dual-compile mode (DEBUG/non-DEBUG) but for some
//   reason, no matter what I did I could not get them to function as macros again.
// I have found a *lot* of bugs in the Arduino compiler over the last few weeks,
//   and I am currently assuming that one of these bugs is my problem.
// I may revisit this code at a later date and look at the assembler produced
//   in a hope of finding out what is going on, but for now they will remain as
//   functions even in non-DEBUG mode
//
int  MATCH (int measured,  int desired)
{
 	DBG_PRINT(F("Testing: "));
 	DBG_PRINT(TICKS_LOW(desired), DEC);
 	DBG_PRINT(F(" <= "));
 	DBG_PRINT(measured, DEC);
 	DBG_PRINT(F(" <= "));
 	DBG_PRINT(TICKS_HIGH(desired), DEC);

  bool passed = ((measured >= TICKS_LOW(desired)) && (measured <= TICKS_HIGH(desired)));
  if (passed)
    DBG_PRINTLN(F("?; passed"));
  else
    DBG_PRINTLN(F("?; FAILED"));
 	return passed;
}
Exemplo n.º 13
0
STATIC void A0(void)
#endif /* KSTACK_MEMORY_MAPPING */
{
    /* do nothing. */
    DBG_PRINTLN("A0()");
    if (KnxMsg_ScratchBufferPtr != (KnxMsg_Buffer *)NULL) {
        KnxMsg_ReleaseBuffer(KnxMsg_ScratchBufferPtr);
    }
}
Exemplo n.º 14
0
STATIC void A11(void)  /* (Client only???) */
#endif /* KSTACK_MEMORY_MAPPING */
{
/* Store event back and handle after next event. Don't change order of T_Data_Connected.req events. */

    DBG_PRINTLN("A11()");

//    (void)KnxMsg_Post(KnxMsg_ScratchBufferPtr);   /* push-bask event. */
}
Exemplo n.º 15
0
STATIC void A8b(void)        /* only local-user (Client only). */
#endif /* KSTACK_MEMORY_MAPPING */
{
    DBG_PRINTLN("A8b()");

    KnxMsg_ReleaseBuffer(KnxMsg_ScratchBufferPtr);
    KnxTlc_StopAcknowledgementTimeoutTimer();
    KnxTlc_SetSequenceNumberSend(KnxTlc_GetSequenceNumberSend() + (uint8_t)1);
    KnxTlc_RestartConnectionTimeoutTimer();
}
Exemplo n.º 16
0
STATIC void A13(void)  /* Nur local-user (Client only). */
#endif /* KSTACK_MEMORY_MAPPING */
{
/*     Send a T_Connect.con to the user. */

    DBG_PRINTLN("A13()");

    //KnxMsg_ScratchBufferPtr->service = KNX_SERVICE_T_CONNECT_CON;
    //(void)KnxMsg_Post(KnxMsg_ScratchBufferPtr);
}
Exemplo n.º 17
0
STATIC void A15(void)   /* only local-user (Client only). */
#endif /* KSTACK_MEMORY_MAPPING */
{
/*      Send a T_Disconnect.con to the management user */

    DBG_PRINTLN("A15()");

    KnxTlc_StopAcknowledgementTimeoutTimer();
    KnxTlc_StopConnectionTimeoutTimer();
}
Exemplo n.º 18
0
/* ******************************************************************************** */
void NetworkAdapter::init(unsigned char PinEthLink_UB) {
    GL_NetworkAdapterParam_X.PintEthLink_UB = PinEthLink_UB;
    pinMode(GL_NetworkAdapterParam_X.PintEthLink_UB, INPUT);

    GL_NetworkAdapterParam_X.pMacAddr_UB[0] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR0;
    GL_NetworkAdapterParam_X.pMacAddr_UB[1] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR1;
    GL_NetworkAdapterParam_X.pMacAddr_UB[2] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR2;
    GL_NetworkAdapterParam_X.pMacAddr_UB[3] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR3;
    GL_NetworkAdapterParam_X.pMacAddr_UB[4] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR4;
    GL_NetworkAdapterParam_X.pMacAddr_UB[5] = NETWORK_ADAPTER_DEFAULT_MAC_ADDR5;

    GL_NetworkAdapterParam_X.IsDhcp_B = true;
    GL_NetworkAdapterParam_X.AdvancedConfig_B = false;

    GL_NetworkAdapterParam_X.IsInitialized_B = true;
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Network Adapter Initialized");
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Default MAC Address = " + HexArrayToString(GL_NetworkAdapterParam_X.pMacAddr_UB, sizeof(GL_NetworkAdapterParam_X.pMacAddr_UB), ":"));
    DBG_PRINTLN(DEBUG_SEVERITY_INFO, "DHCP Configuration");
}
Exemplo n.º 19
0
STATIC void A14b(void)  /* wie A14, nur ohne T_DISCONNECT_CON to user. */
#endif /* KSTACK_MEMORY_MAPPING */
{
/*      Send a N_Data_Individual.req with T_DISCONNECT_REQ_PDU, priority = SYSTEM, */
/*      destination = connection_address, sequence = 0 to the network layer (remote device). */

    DBG_PRINTLN(" A14b()");

    KnxTlc_StopAcknowledgementTimeoutTimer();
    KnxTlc_StopConnectionTimeoutTimer();
}
Exemplo n.º 20
0
//+=============================================================================
// The match functions were (apparently) originally MACROs to improve code speed
//   (although this would have bloated the code) hence the names being CAPS
// A later release implemented debug output and so they needed to be converted
//   to functions.
// I tried to implement a dual-compile mode (DEBUG/non-DEBUG) but for some
//   reason, no matter what I did I could not get them to function as macros again.
// I have found a *lot* of bugs in the Arduino compiler over the last few weeks,
//   and I am currently assuming that one of these bugs is my problem.
// I may revisit this code at a later date and look at the assembler produced
//   in a hope of finding out what is going on, but for now they will remain as
//   functions even in non-DEBUG mode
//
int  MATCH (int measured,  int desired)
{
 	DBG_PRINT("Testing: ");
 	DBG_PRINT(TICKS_LOW(desired), DEC);
 	DBG_PRINT(" <= ");
 	DBG_PRINT(measured, DEC);
 	DBG_PRINT(" <= ");
 	DBG_PRINTLN(TICKS_HIGH(desired), DEC);

 	return ((measured >= TICKS_LOW(desired)) && (measured <= TICKS_HIGH(desired)));
}
Exemplo n.º 21
0
void EChain::stop()
{
#ifdef DEBUG_ECHAIN
	DBG_PRINT( "EChain::stop():ON ID=" );
	int port = getID();
	DBG_PRINTLN(port);
#endif   
	chainMode = ecmStop;

	
};
Exemplo n.º 22
0
void EChain::on()
{
    for(int iLed = 0; iLed < numLeds; iLed++) {
        memset(ledBuffer, 255,  numLeds * sizeof(struct CRGB));
	}
#ifdef DEBUG_ECHAIN
	DBG_PRINT( "EChain::on():ON ID=" );
	int port = getID();
	DBG_PRINTLN(port);
#endif   
//	EOutputDevice::on();
	isOn = true;
};
Exemplo n.º 23
0
//+========================================================
// Due to sensor lag, when received, Spaces tend to be 100us too short
//
int  MATCH_SPACE (int measured_ticks,  int desired_us)
{
	DBG_PRINT(F("Testing space (actual vs desired): "));
	DBG_PRINT(measured_ticks * USECPERTICK, DEC);
	DBG_PRINT(F("us vs "));
	DBG_PRINT(desired_us, DEC);
	DBG_PRINT("us");
	DBG_PRINT(": ");
	DBG_PRINT(TICKS_LOW(desired_us - MARK_EXCESS) * USECPERTICK, DEC);
	DBG_PRINT(F(" <= "));
	DBG_PRINT(measured_ticks * USECPERTICK, DEC);
	DBG_PRINT(F(" <= "));
	DBG_PRINT(TICKS_HIGH(desired_us - MARK_EXCESS) * USECPERTICK, DEC);

  bool passed = ((measured_ticks >= TICKS_LOW (desired_us - MARK_EXCESS))
                && (measured_ticks <= TICKS_HIGH(desired_us - MARK_EXCESS)));
  if (passed)
    DBG_PRINTLN(F("?; passed"));
  else
    DBG_PRINTLN(F("?; FAILED"));
 	return passed;
}
Exemplo n.º 24
0
oid_t EButton::init( const port_t port, const bool reverseOn, const bool pullUp )
{
	oid_t result = EInputDevice::init( port, imUpOnly );
	eventKeyPressed        = evKeyPressed;
	eventKeyDoublePressed  = evKeyDoublePressed;
	eventKeyHold           = evKeyHold;

	DBG_PRINTLN( F("EButton::init_full()") );
	debounceTimer.init( DEBOUNCEDELAY, TIMER_NO_AUTORESTART, TIMER_NO_AUTOSTART );
	doublePressTimer.init( DOUBLEPRESSDELAY, TIMER_NO_AUTORESTART, TIMER_AUTOSTART );
	holdTimer.init( KEYHOLDDELAY, TIMER_NO_AUTORESTART, TIMER_NO_AUTOSTART );
	this->reverseOn = reverseOn;  
	pinMode( this->port, INPUT );       // set this port to INPUT mode
	if ( pullUp ) {
		digitalWrite( this->port, HIGH );
		DBG_PRINT( F("EButton::init PullUp port:") );
		DBG_PRINTLN( this->port );
	}; 
	getData();
	this->currentData = this->currentState;
	return result;
};
Exemplo n.º 25
0
STATIC void A5(void)
#endif /* KSTACK_MEMORY_MAPPING */
{
    /* Send a T_Disconnect.ind to the user. */
    /* Handled by callback. */
    //(void)KnxMsg_ClearBuffer(KnxMsg_ScratchBufferPtr);
    //T_Disconnect_Ind(KnxMsg_ScratchBufferPtr, KnxTlc_GetConnectionAddress(), KnxTlc_GetSourceAddress(), /*KnxADR_GetPhysAddr() */);


    DBG_PRINTLN("A5()");

    KnxTlc_StopAcknowledgementTimeoutTimer();
    KnxTlc_StopConnectionTimeoutTimer();
}
Exemplo n.º 26
0
STATIC void A3(void)
#endif /* KSTACK_MEMORY_MAPPING */
{
/*
**      Send an N_Data_Individual.req with T_ACK_PDU, priority = SYSTEM, destination =
**      connection_address, sequence = sequence of received message to the network
**      layer (remote device).
*/

    DBG_PRINTLN("A3()");

    (void)KnxMsg_ClearBuffer(KnxMsg_ScratchBufferPtr);
    T_Ack_Req(KnxMsg_ScratchBufferPtr, KnxTlc_GetSourceAddress(), /* KnxADR_GetPhysAddr(), */ KnxTlc_GetConnectionAddress(), KnxTlc_GetSequenceNumberReceived());
    KnxTlc_RestartConnectionTimeoutTimer();
}
Exemplo n.º 27
0
oid_t EInputDevice::init(const port_t port, const InputMode im, const bool reverseOn, bool pullUp)
{
	oid_t result=EDevice::init( port );       
	DBG_PRINTLN( F("EInputdevice::init_full()") );
	debounceTimer.init( DEBOUNCEDELAY, false );
	this->inputMode = im;               //зададим режим создания событий устройства
	this->reverseOn = reverseOn;        //зададим режим реверса
	pinMode( this->port, INPUT );       // после этого запрограммируем порт в режим чтения, подтяжку порта не делаем
#ifdef DEBUG_EINPUTDEVICE
	int tmp = this->port;
#endif
	if (pullUp) {
		digitalWrite( this->port, HIGH );
		DBG_PRINT( F("EInputDevice::init PullUp port:") );
		DBG_PRINTLN( tmp );
	} else {
		digitalWrite( this->port, LOW );
		DBG_PRINT( F("EInputDevice::init PullDown port:") );
		DBG_PRINTLN( tmp );
	}
	getDataFromInput();                           // считаем данные с учетом флага реверса
	this->currentData = this->currentState;
	return result;
};
Exemplo n.º 28
0
/* ******************************************************************************** */
void MemoryCard::init(unsigned char PinChipSelect_UB, unsigned char PinCardDetect_UB, unsigned char PinWriteProtect_UB) {
    GL_pCard_H = &SD;
    GL_PinChipSelect_UB = PinChipSelect_UB;
    GL_PinCardDetect_UB = PinCardDetect_UB;
    GL_PinWriteProtect_UB = PinWriteProtect_UB;

    pinMode(GL_PinChipSelect_UB, OUTPUT);
    pinMode(GL_PinCardDetect_UB, INPUT);
    pinMode(GL_PinWriteProtect_UB, INPUT);

    // Check if Card is present before initialize handle
    if (isCardInserted()) {
        if (GL_pCard_H->begin(GL_PinChipSelect_UB)) {
            GL_MemoryCardParam_X.IsInitialized_B = true;
            DBG_PRINTLN(DEBUG_SEVERITY_INFO, "Memory Card Module Initialized");
        } else {
            GL_MemoryCardParam_X.IsInitialized_B = false;
            DBG_PRINTLN(DEBUG_SEVERITY_ERROR, "Memory Card Module NOT Initialized - Error in low-level function !");
        }
    } else {
        GL_MemoryCardParam_X.IsInitialized_B = false;
        DBG_PRINTLN(DEBUG_SEVERITY_ERROR, "Memory Card Module NOT Initialized - Card not detected !");
    }
}
Exemplo n.º 29
0
//+========================================================
// Due to sensor lag, when received, Spaces tend to be 100us too short
//
int  MATCH_SPACE (int measured_ticks,  int desired_us)
{
	DBG_PRINT("Testing space ");
	DBG_PRINT(measured_ticks * USECPERTICK, DEC);
	DBG_PRINT(" vs ");
	DBG_PRINT(desired_us, DEC);
	DBG_PRINT(": ");
	DBG_PRINT(TICKS_LOW(desired_us - MARK_EXCESS), DEC);
	DBG_PRINT(" <= ");
	DBG_PRINT(measured_ticks, DEC);
	DBG_PRINT(" <= ");
	DBG_PRINTLN(TICKS_HIGH(desired_us - MARK_EXCESS), DEC);

	return ((measured_ticks >= TICKS_LOW (desired_us - MARK_EXCESS))
	     && (measured_ticks <= TICKS_HIGH(desired_us - MARK_EXCESS)));
}
Exemplo n.º 30
0
STATIC void A1(void)
#endif /* KSTACK_MEMORY_MAPPING */
{
    DBG_PRINTLN("A1()");

    //KnxTlc_SetConnectionAddress(KnxTlc_GetSourceAddress());
    KnxTlc_SetConnectionAddress(KnxMsg_GetSourceAddress(KnxMsg_ScratchBufferPtr));

    /* Send a T_CONNECT_ind to the user. */
    KnxMsg_ScratchBufferPtr->service = KNX_SERVICE_T_CONNECT_IND;
    (void)KnxMsg_Post(KnxMsg_ScratchBufferPtr);

    KnxTlc_SetSequenceNumberSend((uint8_t)0);
    KnxTlc_SetSequenceNumberReceived((uint8_t)0);
    KnxTlc_StartConnectionTimeoutTimer();
}