b15f/firmware/request_handlers.cpp

#include "request_handlers.h"

void handleRequest()
{
	const uint8_t req = usart.readByte();
	
	wdt_reset();
	
	switch(req)
	{
		case RQ_DISCARD:
			break;

		case RQ_TEST:
			rqTestConnection();
			break;
		
		case RQ_INFO:
			rqBoardInfo();
			break;
		
		case RQ_INT_TEST:
			rqTestIntConv();
			break;

		case RQ_SELF_TEST:
			rqSelfTest();
			break;
			
		case RQ_DIGITAL_WRITE_0:
			rqDigitalWrite0();
			break;

		case RQ_DIGITAL_WRITE_1:
			rqDigitalWrite1();
			break;

		case RQ_DIGITAL_READ_0:
			rqDigitalRead0();
			break;

		case RQ_DIGITAL_READ_1:
			rqDigitalRead1();
			break;
			
		case RQ_READ_DIP_SWITCH:
			rqReadDipSwitch();
			break;

		case RQ_ANALOG_WRITE_0:
			rqAnalogWrite0();
			break;

		case RQ_ANALOG_WRITE_1:
			rqAnalogWrite1();
			break;

		case RQ_ANALOG_READ:
			rqAnalogRead();
			break;
			
		case RQ_ADC_DAC_STROKE:
			rqAdcDacStroke();
			break;
			
		case RQ_PWM_SET_FREQ:
			rqPwmSetFreq();
			break;
			
		case RQ_PWM_SET_VALUE:
			rqPwmSetValue();
			break;
			
		case RQ_SET_MEM_8:
			rqSetMem8();
			break;
			
		case RQ_GET_MEM_8:
			rqGetMem8();
			break;

		default:
			break;
	}
	
	usart.initRX();
	
	wdt_disable();
}

void rqTestConnection()
{
	usart.initTX();
	uint8_t dummy = usart.readByte();
	usart.writeByte(USART::MSG_OK);
	usart.writeByte(dummy);
	usart.flush();
}

void rqBoardInfo()
{
	usart.initTX();
	usart.writeByte(3); // Anzahl an Strings
	usart.writeStr(DATE, sizeof(DATE));
	usart.writeStr(TIME, sizeof(TIME));
	usart.writeStr(FSRC, sizeof(FSRC));
	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqTestIntConv()
{
	usart.initTX();
	uint16_t d = usart.readInt();
	usart.writeInt(d * 3);
	usart.flush();
}

void rqSelfTest()
{
	usart.initTX();
	usart.writeByte(USART::MSG_OK);
	usart.flush();
	
	wdt_disable();
	
	while(1)
	{
		testAll();
	}
}

void rqDigitalWrite0()
{
	usart.initTX();
	uint8_t port = usart.readByte();
	dio0.writePortA(port);

	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqDigitalWrite1()
{
	usart.initTX();
	uint8_t port = usart.readByte();
	dio1.writePortA(port);

	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqDigitalRead0()
{
	usart.initTX();
	uint8_t port = dio0.readPortB();
	usart.writeByte(port);
	usart.flush();
}

void rqDigitalRead1()
{
	usart.initTX();
	uint8_t port = dio1.readPortB();
	usart.writeByte(port);
	usart.flush();
}

void rqReadDipSwitch()
{
	usart.initTX();
	uint8_t port = dsw.readPortB();
	usart.writeByte(port);
	usart.flush();
}

void rqAnalogWrite0()
{
	usart.initTX();
	uint16_t value = usart.readInt();
	dac0.setValue(value);

	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqAnalogWrite1()
{
	usart.initTX();
	uint16_t value = usart.readInt();
	dac1.setValue(value);

	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqAnalogRead()
{
	usart.initTX();
	uint8_t channel = usart.readByte();
	uint16_t value = adu.getValue(channel);
	usart.writeInt(value);
	usart.flush();
}

void rqAdcDacStroke()
{	
	uint8_t channel_a = usart.readByte();
	uint8_t channel_b = usart.readByte();
	
	int16_t start = static_cast<int16_t>(usart.readInt());
	int16_t delta = static_cast<int16_t>(usart.readInt());
	int16_t count = static_cast<int16_t>(usart.readInt());
	
	count *= delta;
	
	for(int16_t i = start; i < count; i += delta)
	{
		dac0.setValue(i);
		wdt_reset();

		uint16_t val_a = adu.getValue(channel_a);
		uint16_t val_b = adu.getValue(channel_b);
		
		usart.initTX();
		usart.writeInt(val_a);
		usart.writeInt(val_b);
		usart.flush();
	}
	
	usart.initTX();
	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqPwmSetFreq()
{
	usart.initTX();
	uint32_t freq = usart.readU32();
    pwm.setFrequency(freq);

	usart.writeByte(pwm.getTop());
	usart.flush();
}

void rqPwmSetValue()
{
	usart.initTX();
	uint16_t value = usart.readByte();
    pwm.setValue(value);

	usart.writeByte(USART::MSG_OK);
	usart.flush();
}

void rqSetMem8()
{
	usart.initTX();
	uint16_t reg = usart.readInt();
	uint8_t val = usart.readByte();
    
    (*(volatile uint8_t *) reg) = val;
	usart.writeByte((*(volatile uint8_t *) reg));    
	usart.flush();
}

void rqGetMem8()
{
	usart.initTX();
	uint16_t reg = usart.readInt();
    
	usart.writeByte((*(volatile uint8_t *) reg));
	usart.flush();
}

void rqSetMem16()
{
	usart.initTX();
	uint16_t reg = usart.readInt();
	uint16_t val = usart.readInt();
    
    (*(volatile uint16_t *) reg) = val;
	usart.writeInt((*(volatile uint16_t *) reg));    
	usart.flush();
}

void rqGetMem16()
{
	usart.initTX();
	uint16_t reg = usart.readInt();
    
	usart.writeInt((*(volatile uint16_t *) reg));
	usart.flush();
}
added interrupt counters 2019-06-21 12:05:57 +00:00			`#include "request_handlers.h"`
int test geht 2019-03-26 14:02:58 +00:00
main revised 2019-04-03 12:58:50 +00:00			`void handleRequest()`
			`{`
			`const uint8_t req = usart.readByte();`

			`wdt_reset();`

			`switch(req)`
			`{`
B15F.cpp refactored 2019-06-21 12:31:14 +00:00			`case RQ_DISCARD:`
main revised 2019-04-03 12:58:50 +00:00			`break;`

			`case RQ_TEST:`
			`rqTestConnection();`
			`break;`

			`case RQ_INFO:`
			`rqBoardInfo();`
			`break;`

B15F.cpp refactored 2019-06-21 12:31:14 +00:00			`case RQ_INT_TEST:`
main revised 2019-04-03 12:58:50 +00:00			`rqTestIntConv();`
			`break;`

B15F.cpp refactored 2019-06-21 12:31:14 +00:00			`case RQ_SELF_TEST:`
main revised 2019-04-03 12:58:50 +00:00			`rqSelfTest();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_DIGITAL_WRITE_0:`
main revised 2019-04-03 12:58:50 +00:00			`rqDigitalWrite0();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_DIGITAL_WRITE_1:`
main revised 2019-04-03 12:58:50 +00:00			`rqDigitalWrite1();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_DIGITAL_READ_0:`
main revised 2019-04-03 12:58:50 +00:00			`rqDigitalRead0();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_DIGITAL_READ_1:`
main revised 2019-04-03 12:58:50 +00:00			`rqDigitalRead1();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_READ_DIP_SWITCH:`
main revised 2019-04-03 12:58:50 +00:00			`rqReadDipSwitch();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_ANALOG_WRITE_0:`
main revised 2019-04-03 12:58:50 +00:00			`rqAnalogWrite0();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_ANALOG_WRITE_1:`
main revised 2019-04-03 12:58:50 +00:00			`rqAnalogWrite1();`
			`break;`

request names refactored 2019-06-21 12:37:42 +00:00			`case RQ_ANALOG_READ:`
main revised 2019-04-03 12:58:50 +00:00			`rqAnalogRead();`
			`break;`

			`case RQ_ADC_DAC_STROKE:`
			`rqAdcDacStroke();`
			`break;`
PWM ansteuerbar und TOP wird returned 2019-05-28 10:32:31 +00:00
			`case RQ_PWM_SET_FREQ:`
			`rqPwmSetFreq();`
			`break;`

			`case RQ_PWM_SET_VALUE:`
			`rqPwmSetValue();`
			`break;`
remote set and get register by address 2019-05-29 08:13:36 +00:00
added mem 16 2019-06-21 14:32:04 +00:00			`case RQ_SET_MEM_8:`
			`rqSetMem8();`
remote set and get register by address 2019-05-29 08:13:36 +00:00			`break;`

added mem 16 2019-06-21 14:32:04 +00:00			`case RQ_GET_MEM_8:`
			`rqGetMem8();`
remote set and get register by address 2019-05-29 08:13:36 +00:00			`break;`
main revised 2019-04-03 12:58:50 +00:00
			`default:`
			`break;`
			`}`

			`usart.initRX();`

			`wdt_disable();`
			`}`

int test geht 2019-03-26 14:02:58 +00:00			`void rqTestConnection()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint8_t dummy = usart.readByte();`
			`usart.writeByte(USART::MSG_OK);`
			`usart.writeByte(dummy);`
			`usart.flush();`
int test geht 2019-03-26 14:02:58 +00:00			`}`

			`void rqBoardInfo()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`usart.writeByte(3); // Anzahl an Strings`
			`usart.writeStr(DATE, sizeof(DATE));`
			`usart.writeStr(TIME, sizeof(TIME));`
			`usart.writeStr(FSRC, sizeof(FSRC));`
			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
int test geht 2019-03-26 14:02:58 +00:00			`}`

			`void rqTestIntConv()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint16_t d = usart.readInt();`
			`usart.writeInt(d * 3);`
			`usart.flush();`
int test geht 2019-03-26 14:02:58 +00:00			`}`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00
Version 0.2 2019-04-03 10:05:08 +00:00			`void rqSelfTest()`
			`{`
			`usart.initTX();`
			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`

			`wdt_disable();`

			`while(1)`
			`{`
			`testAll();`
			`}`
			`}`

im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`void rqDigitalWrite0()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint8_t port = usart.readByte();`
make it volatile 2019-04-03 06:40:14 +00:00			`dio0.writePortA(port);`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

			`void rqDigitalWrite1()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint8_t port = usart.readByte();`
make it volatile 2019-04-03 06:40:14 +00:00			`dio1.writePortA(port);`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

			`void rqDigitalRead0()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
make it volatile 2019-04-03 06:40:14 +00:00			`uint8_t port = dio0.readPortB();`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(port);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

			`void rqDigitalRead1()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
make it volatile 2019-04-03 06:40:14 +00:00			`uint8_t port = dio1.readPortB();`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(port);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

fancy tests 2019-04-03 07:34:22 +00:00			`void rqReadDipSwitch()`
			`{`
			`usart.initTX();`
			`uint8_t port = dsw.readPortB();`
			`usart.writeByte(port);`
			`usart.flush();`
			`}`

im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`void rqAnalogWrite0()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint16_t value = usart.readInt();`
make it volatile 2019-04-03 06:40:14 +00:00			`dac0.setValue(value);`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

			`void rqAnalogWrite1()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint16_t value = usart.readInt();`
make it volatile 2019-04-03 06:40:14 +00:00			`dac1.setValue(value);`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`

			`void rqAnalogRead()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.initTX();`
			`uint8_t channel = usart.readByte();`
make it volatile 2019-04-03 06:40:14 +00:00			`uint16_t value = adu.getValue(channel);`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeInt(value);`
			`usart.flush();`
im Moment fehlerhafte WDT Konfig 2019-03-26 15:30:49 +00:00			`}`
complex stroke erste version 2019-03-27 09:33:26 +00:00
			`void rqAdcDacStroke()`
			`{`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`uint8_t channel_a = usart.readByte();`
			`uint8_t channel_b = usart.readByte();`
stroke verbessert 2019-03-27 09:49:26 +00:00
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`int16_t start = static_cast<int16_t>(usart.readInt());`
			`int16_t delta = static_cast<int16_t>(usart.readInt());`
			`int16_t count = static_cast<int16_t>(usart.readInt());`
complex stroke erste version 2019-03-27 09:33:26 +00:00
			`count *= delta;`

watchdog zuverlaessig 2019-03-28 12:32:24 +00:00			`for(int16_t i = start; i < count; i += delta)`
complex stroke erste version 2019-03-27 09:33:26 +00:00			`{`
make it volatile 2019-04-03 06:40:14 +00:00			`dac0.setValue(i);`
boardinfo 2019-03-27 14:48:36 +00:00			`wdt_reset();`
verbesserte Stabilitaet 2019-03-28 14:22:17 +00:00
make it volatile 2019-04-03 06:40:14 +00:00			`uint16_t val_a = adu.getValue(channel_a);`
			`uint16_t val_b = adu.getValue(channel_b);`
Das Wunder 2019-04-02 14:19:42 +00:00
			`usart.initTX();`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeInt(val_a);`
			`usart.writeInt(val_b);`
Das Wunder 2019-04-02 14:19:42 +00:00			`usart.flush();`
complex stroke erste version 2019-03-27 09:33:26 +00:00			`}`

Das Wunder 2019-04-02 14:19:42 +00:00			`usart.initTX();`
endlich geht mal wieder was 2019-04-02 13:32:51 +00:00			`usart.writeByte(USART::MSG_OK);`
Das Wunder 2019-04-02 14:19:42 +00:00			`usart.flush();`
complex stroke erste version 2019-03-27 09:33:26 +00:00			`}`
pwm in MCU added 2019-05-28 09:12:58 +00:00
PWM ansteuerbar und TOP wird returned 2019-05-28 10:32:31 +00:00			`void rqPwmSetFreq()`
			`{`
			`usart.initTX();`
			`uint32_t freq = usart.readU32();`
			`pwm.setFrequency(freq);`

			`usart.writeByte(pwm.getTop());`
			`usart.flush();`
			`}`

			`void rqPwmSetValue()`
pwm in MCU added 2019-05-28 09:12:58 +00:00			`{`
			`usart.initTX();`
			`uint16_t value = usart.readByte();`
PWM ansteuerbar und TOP wird returned 2019-05-28 10:32:31 +00:00			`pwm.setValue(value);`
pwm in MCU added 2019-05-28 09:12:58 +00:00
			`usart.writeByte(USART::MSG_OK);`
			`usart.flush();`
			`}`
remote set and get register by address 2019-05-29 08:13:36 +00:00
added mem 16 2019-06-21 14:32:04 +00:00			`void rqSetMem8()`
remote set and get register by address 2019-05-29 08:13:36 +00:00			`{`
			`usart.initTX();`
added mem 16 2019-06-21 14:32:04 +00:00			`uint16_t reg = usart.readInt();`
			`uint8_t val = usart.readByte();`
remote set and get register by address 2019-05-29 08:13:36 +00:00
			`((volatile uint8_t ) reg) = val;`
			`usart.writeByte(((volatile uint8_t ) reg));`
			`usart.flush();`
			`}`

added mem 16 2019-06-21 14:32:04 +00:00			`void rqGetMem8()`
remote set and get register by address 2019-05-29 08:13:36 +00:00			`{`
			`usart.initTX();`
added mem 16 2019-06-21 14:32:04 +00:00			`uint16_t reg = usart.readInt();`
remote set and get register by address 2019-05-29 08:13:36 +00:00
			`usart.writeByte(((volatile uint8_t ) reg));`
			`usart.flush();`
			`}`

added mem 16 2019-06-21 14:32:04 +00:00			`void rqSetMem16()`
			`{`
			`usart.initTX();`
			`uint16_t reg = usart.readInt();`
			`uint16_t val = usart.readInt();`

			`((volatile uint16_t ) reg) = val;`
			`usart.writeInt(((volatile uint16_t ) reg));`
			`usart.flush();`
			`}`

			`void rqGetMem16()`
			`{`
			`usart.initTX();`
			`uint16_t reg = usart.readInt();`

			`usart.writeInt(((volatile uint16_t ) reg));`
			`usart.flush();`
			`}`