osd-contiki/tests/rftest-rx.c

#define GPIO_FUNC_SEL0  0x80000018 /* GPIO 15 - 0;  2 bit blocks */

#define BASE_UART1      0x80005000
#define UART1_CON       0x80005000
#define UART1_STAT      0x80005004
#define UART1_DATA      0x80005008
#define UR1CON          0x8000500c
#define UT1CON          0x80005010
#define UART1_CTS       0x80005014
#define UART1_BR        0x80005018

#include "maca.h"
#include "embedded_types.h"

#define reg(x) (*(volatile uint32_t *)(x))

#define DELAY 400000
#define DATA  0x00401000;

#define NL "\033[K\r\n"

void putc(uint8_t c);
void puts(uint8_t *s);
void put_hex(uint8_t x);
void put_hex16(uint16_t x);
void put_hex32(uint32_t x);

const uint8_t hex[16]={'0','1','2','3','4','5','6','7',
		 '8','9','a','b','c','d','e','f'};

void magic(void) {
#define X     0x80009a000
#define Y     0x80009a008
#define VAL   0x0000f7df
	volatile uint32_t x,y;
	x = reg(X);      /* get X */
	x &= 0xfffeffff; /* clear bit 16 */
	reg(X) = x;      /* put it back  */
	y = reg(Y);      /* get Y */
	y |= VAL;        /* or with the VAL */
	x = reg(X);      /* get X again */
	x |= 16;         /* or with 16 */
	reg(X) = x;      /* put X back */
	reg(Y) = y;      /* put Y back */
}

uint32_t ackBox[10];

#define command_xcvr_rx() \
	do { \
		maca_txlen = (uint32_t)1<<16;	\
		maca_dmatx = (uint32_t)&ackBox; \
		maca_dmarx = DATA;		     \
		maca_tmren = (maca_cpl_clk | maca_soft_clk);	      \
		maca_control = (control_prm | control_asap | control_seq_rx); \
	}while(FALSE)


void dump_regs(uint32_t base, uint32_t len) {
	volatile uint32_t i;
    
	puts("base +0       +4       +8       +c       +10      +14      +18      +1c      \n\r");                                                     
	for (i = 0; i < len; i ++) {                                                                                                                   
		if ((i & 7) == 0) {                                                                                                                   
			put_hex16(4 * i);                                                                                                             
		}                                                                                                                                     
		puts(" ");                                                                                                                            
		put_hex32(reg(base+(4*i)));                                                                                                      
		if ((i & 7) == 7)                                                                                                                     
			puts(NL);                                                                                                                     
	}                                                                                                                                             
	puts(NL); 
}

__attribute__ ((section ("startup")))
void main(void) {
	uint8_t c;
	volatile uint32_t i;
	uint32_t tmp;
	volatile uint32_t *data;
	uint16_t status;

	/* Restore UART regs. to default */
	/* in case there is still bootloader state leftover */

	reg(UART1_CON) = 0x0000c800; /* mask interrupts, 16 bit sample --- helps explain the baud rate */

	/* INC = 767; MOD = 9999 works: 115200 @ 24 MHz 16 bit sample */
	#define INC 767
	#define MOD 9999
	reg(UART1_BR) = INC<<16 | MOD; 

	/* see Section 11.5.1.2 Alternate Modes */
	/* you must enable the peripheral first BEFORE setting the function in GPIO_FUNC_SEL */
	/* From the datasheet: "The peripheral function will control operation of the pad IF */
	/* THE PERIPHERAL IS ENABLED. */
	reg(UART1_CON) = 0x00000003; /* enable receive and transmit */
	reg(GPIO_FUNC_SEL0) = ( (0x01 << (14*2)) | (0x01 << (15*2)) ); /* set GPIO15-14 to UART (UART1 TX and RX)*/

	reset_maca();
	radio_init();
	flyback_init();
	vreg_init();
	init_phy();

	set_power(0x0f); /* 0dbm */
	set_channel(0); /* channel 11 */

        reg(MACA_CONTROL) = SMAC_MACA_CNTL_INIT_STATE;
	for(i=0; i<DELAY; i++) { continue; }

	data = (void *)DATA;
	data[0] = 0xdeadbeef;
	reg(MACA_DMARX) = DATA; /* put data somewhere */
	reg(MACA_PREAMBLE) = 0;

	puts("maca_base\n\r");
	dump_regs(MACA_BASE, 96);
	puts("modem write base\n\r");
	dump_regs(0x80009000, 96);
	puts("modem read base\n\r");
	dump_regs(0x800091c0, 96);
	puts("CRM\n\r");
	dump_regs(0x80003000, 96);
	puts("reserved modem_base\n\r");
	dump_regs(0x80009200, 192);

	command_xcvr_rx();

	puts("\033[H\033[2J");
	while(1) {		
		uint32_t TsmRxSteps, LastWarmupStep, LastWarmupData, LastWarmdownStep, LastWarmdownData;
		
		puts("\033[Hrftest-rx --- " );
		puts(" maca_getrxlvl: 0x");
		put_hex(reg(MACA_GETRXLVL));
		puts(" data[0]: 0x");
		put_hex32(data[0]);
		puts(" status: 0x");
		put_hex32(reg(MACA_STATUS));
		puts(" random: 0x");
		put_hex32(reg(MACA_RANDOM));
		puts(NL);

		puts("Maca_base");
		puts(NL);
		dump_regs(MACA_BASE,96);

		puts("0x80009000");
		puts(NL);
		dump_regs(0x80009000,192);
		
/* 		/\* start rx sequence *\/ */
/* 		reg(MACA_CONTROL) = 0x00031a01; /\* abort *\/ */
/* 		while (((tmp = reg(MACA_STATUS)) & 15) == 14) */
/* 			puts("."); */
/* 		puts("abort status is "); put_hex32(tmp); puts(NL); */
/* 		puts("1 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */
/* 		puts("2 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */
/* 		puts("3 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */


  /* read TSM_RX_STEPS */
		
/* 		TsmRxSteps = (*((volatile uint32_t *)(0x80009204))); */
		
/* 		puts("TsmRxSteps: "); */
/* 		put_hex32(TsmRxSteps); */
/* 		puts(NL);  */
		
/* 		/\* isolate the RX_WU_STEPS *\/ */
/* 		/\* shift left to align with 32-bit addressing *\/ */
/* 		LastWarmupStep = (TsmRxSteps & 0x1f) << 2; */
/* 		/\* Read "current" TSM step and save this value for later *\/ */
/* 		LastWarmupData = (*((volatile uint32_t *)(0x80009300 + LastWarmupStep))); */
		
/* 		puts("LastWarmupData: "); */
/* 		put_hex32(LastWarmupData); */
/* 		puts(NL); */
		
/* 		/\* isolate the RX_WD_STEPS *\/ */
/* 		/\* right-shift bits down to bit 0 position *\/ */
/* 		/\* left-shift to align with 32-bit addressing *\/ */
/* 		LastWarmdownStep = ((TsmRxSteps & 0x1f00) >> 8) << 2; */
/* 		/\* write "last warmdown data" to current TSM step to shutdown rx *\/ */
/* 		LastWarmdownData = (*((volatile uint32_t *)(0x80009300 + LastWarmdownStep))); */
		
/* 		puts("LastWarmdownData: "); */
/* 		put_hex32(LastWarmdownData); */
/* 		puts(NL); */
		
		
/* 		status = reg(MACA_STATUS) & 0x0000ffff; */
/* 		switch(status)  */
/* 		{ */
/* 		case(cc_aborted): */
/* 		{ */
/* 			puts("aborted\n\r"); */
/* 			ResumeMACASync(); */

/* 			command_xcvr_rx(); */

/* 			break; */
			
/* 		} */
/* 		case(cc_not_completed): */
/* 		{ */
/* 			puts("not completed\n\r"); */
/* 			ResumeMACASync(); */
/* 			break; */
			
/* 		} */
/* 		case(cc_success): */
/* 		{ */
/* 			puts("success\n\r"); */
/* 			break; */
			
/* 		} */
/* 		default: */
/* 		{ */
/* 			puts("status: "); */
/* 			put_hex16(status); */
/* 			ResumeMACASync(); */
/* 			command_xcvr_rx(); */

/* 		} */
/* 		} */
		
/* 		reg(MACA_CONTROL) = 0x00031a04; /\* receive *\/ */
/* 		while (((tmp = reg(MACA_STATUS)) & 15) == 14) */
/* 			puts("."); */
/* 		puts("complete status is "); put_hex32(tmp); puts(NL); */
/* 		puts("1 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */
/* 		puts("2 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */
/* 		puts("3 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */

/* 		puts(NL);		 */
/* 		for(i=0; i<DELAY; i++) { continue; } */
/* 		for(i=0; i<DELAY; i++) { continue; } */
/* 		for(i=0; i<DELAY; i++) { continue; } */
/* 		for(i=0; i<DELAY; i++) { continue; } */
/* 		for(i=0; i<DELAY; i++) { continue; } */

		
	};
}

void putc(uint8_t c) {
	while(reg(UT1CON)==31); /* wait for there to be room in the buffer */
	reg(UART1_DATA) = c;
}
	
void puts(uint8_t *s) {
	while(s && *s!=0) {
		putc(*s++);
	}
}

void put_hex(uint8_t x)
{
        putc(hex[x >> 4]);
        putc(hex[x & 15]);
}

void put_hex16(uint16_t x)
{
        put_hex((x >> 8) & 0xFF);
        put_hex((x) & 0xFF);
}

void put_hex32(uint32_t x)
{
        put_hex((x >> 24) & 0xFF);
        put_hex((x >> 16) & 0xFF);
        put_hex((x >> 8) & 0xFF);
        put_hex((x) & 0xFF);
}
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00			`#define GPIO_FUNC_SEL0 0x80000018 /* GPIO 15 - 0; 2 bit blocks */`

			`#define BASE_UART1 0x80005000`
			`#define UART1_CON 0x80005000`
			`#define UART1_STAT 0x80005004`
			`#define UART1_DATA 0x80005008`
			`#define UR1CON 0x8000500c`
			`#define UT1CON 0x80005010`
			`#define UART1_CTS 0x80005014`
			`#define UART1_BR 0x80005018`

lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`#include "maca.h"`
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00			`#include "embedded_types.h"`

checkpoint 2009-04-02 20:54:02 +02:00			`#define reg(x) ((volatile uint32_t )(x))`

			`#define DELAY 400000`
			`#define DATA 0x00401000;`

found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`#define NL "\033[K\r\n"`

checkpoint 2009-04-02 20:54:02 +02:00			`void putc(uint8_t c);`
			`void puts(uint8_t *s);`
			`void put_hex(uint8_t x);`
			`void put_hex16(uint16_t x);`
			`void put_hex32(uint32_t x);`

			`const uint8_t hex[16]={'0','1','2','3','4','5','6','7',`
			`'8','9','a','b','c','d','e','f'};`

found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`void magic(void) {`
			`#define X 0x80009a000`
			`#define Y 0x80009a008`
			`#define VAL 0x0000f7df`
			`volatile uint32_t x,y;`
			`x = reg(X); /* get X */`
			`x &= 0xfffeffff; /* clear bit 16 */`
			`reg(X) = x; /* put it back */`
			`y = reg(Y); /* get Y */`
			`y \|= VAL; /* or with the VAL */`
			`x = reg(X); /* get X again */`
			`x \|= 16; /* or with 16 */`
			`reg(X) = x; /* put X back */`
			`reg(Y) = y; /* put Y back */`
			`}`

			`uint32_t ackBox[10];`

			`#define command_xcvr_rx() \`
			`do { \`
			`maca_txlen = (uint32_t)1<<16; \`
			`maca_dmatx = (uint32_t)&ackBox; \`
			`maca_dmarx = DATA; \`
			`maca_tmren = (maca_cpl_clk \| maca_soft_clk); \`
			`maca_control = (control_prm \| control_asap \| control_seq_rx); \`
			`}while(FALSE)`


			`void dump_regs(uint32_t base, uint32_t len) {`
			`volatile uint32_t i;`

			`puts("base +0 +4 +8 +c +10 +14 +18 +1c \n\r");`
			`for (i = 0; i < len; i ++) {`
			`if ((i & 7) == 0) {`
			`put_hex16(4 * i);`
			`}`
			`puts(" ");`
			`put_hex32(reg(base+(4*i)));`
			`if ((i & 7) == 7)`
			`puts(NL);`
			`}`
			`puts(NL);`
			`}`

checkpoint 2009-04-02 20:54:02 +02:00			`__attribute__ ((section ("startup")))`
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00			`void main(void) {`
checkpoint 2009-04-02 20:54:02 +02:00			`uint8_t c;`
			`volatile uint32_t i;`
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`uint32_t tmp;`
checkpoint 2009-04-02 20:54:02 +02:00			`volatile uint32_t *data;`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`uint16_t status;`
checkpoint 2009-04-02 20:54:02 +02:00
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00			`/* Restore UART regs. to default */`
			`/* in case there is still bootloader state leftover */`

checkpoint 2009-04-02 20:54:02 +02:00			`reg(UART1_CON) = 0x0000c800; /* mask interrupts, 16 bit sample --- helps explain the baud rate */`
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00
			`/* INC = 767; MOD = 9999 works: 115200 @ 24 MHz 16 bit sample */`
			`#define INC 767`
			`#define MOD 9999`
checkpoint 2009-04-02 20:54:02 +02:00			`reg(UART1_BR) = INC<<16 \| MOD;`
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00
			`/* see Section 11.5.1.2 Alternate Modes */`
			`/* you must enable the peripheral first BEFORE setting the function in GPIO_FUNC_SEL */`
			`/* From the datasheet: "The peripheral function will control operation of the pad IF */`
			`/* THE PERIPHERAL IS ENABLED. */`
checkpoint 2009-04-02 20:54:02 +02:00			`reg(UART1_CON) = 0x00000003; /* enable receive and transmit */`
			`reg(GPIO_FUNC_SEL0) = ( (0x01 << (142)) \| (0x01 << (152)) ); /* set GPIO15-14 to UART (UART1 TX and RX)*/`
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`reset_maca();`
fill with the magic data... going to try this in place of their radio init and see if that gets there board working. 2009-04-08 00:52:12 +02:00			`radio_init();`
checkpoint 2009-04-11 23:17:37 +02:00			`flyback_init();`
			`vreg_init();`
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`init_phy();`

Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`set_power(0x0f); /* 0dbm */`
			`set_channel(0); /* channel 11 */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`reg(MACA_CONTROL) = SMAC_MACA_CNTL_INIT_STATE;`
			`for(i=0; i<DELAY; i++) { continue; }`
checkpoint 2009-04-02 20:54:02 +02:00
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`data = (void *)DATA;`
checkpoint 2009-04-02 20:54:02 +02:00			`data[0] = 0xdeadbeef;`
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`reg(MACA_DMARX) = DATA; /* put data somewhere */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`reg(MACA_PREAMBLE) = 0;`

			`puts("maca_base\n\r");`
			`dump_regs(MACA_BASE, 96);`
			`puts("modem write base\n\r");`
			`dump_regs(0x80009000, 96);`
			`puts("modem read base\n\r");`
			`dump_regs(0x800091c0, 96);`
			`puts("CRM\n\r");`
			`dump_regs(0x80003000, 96);`
			`puts("reserved modem_base\n\r");`
			`dump_regs(0x80009200, 192);`

			`command_xcvr_rx();`
checkpoint 2009-04-02 20:54:02 +02:00
			`puts("\033[H\033[2J");`
			`while(1) {`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`uint32_t TsmRxSteps, LastWarmupStep, LastWarmupData, LastWarmdownStep, LastWarmdownData;`

lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`puts("\033[Hrftest-rx --- " );`
checkpoint 2009-04-02 20:54:02 +02:00			`puts(" maca_getrxlvl: 0x");`
			`put_hex(reg(MACA_GETRXLVL));`
			`puts(" data[0]: 0x");`
			`put_hex32(data[0]);`
			`puts(" status: 0x");`
			`put_hex32(reg(MACA_STATUS));`
			`puts(" random: 0x");`
			`put_hex32(reg(MACA_RANDOM));`
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`puts(NL);`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
			`puts("Maca_base");`
lots of code. Still doesn't work though. Thanks Jim! 2009-04-03 00:05:13 +02:00			`puts(NL);`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00			`dump_regs(MACA_BASE,96);`

			`puts("0x80009000");`
			`puts(NL);`
			`dump_regs(0x80009000,192);`

			`/* /\* start rx sequence \/ /`
			`/* reg(MACA_CONTROL) = 0x00031a01; /\* abort \/ /`
			`/* while (((tmp = reg(MACA_STATUS)) & 15) == 14) */`
			`/* puts("."); */`
			`/* puts("abort status is "); put_hex32(tmp); puts(NL); */`
			`/* puts("1 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`
			`/* puts("2 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`
			`/* puts("3 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`


			`/* read TSM_RX_STEPS */`

Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* TsmRxSteps = (((volatile uint32_t )(0x80009204))); */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* puts("TsmRxSteps: "); */`
			`/* put_hex32(TsmRxSteps); */`
			`/* puts(NL); */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* /\* isolate the RX_WU_STEPS \/ /`
			`/* /\* shift left to align with 32-bit addressing \/ /`
			`/* LastWarmupStep = (TsmRxSteps & 0x1f) << 2; */`
			`/* /\* Read "current" TSM step and save this value for later \/ /`
			`/* LastWarmupData = (((volatile uint32_t )(0x80009300 + LastWarmupStep))); */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* puts("LastWarmupData: "); */`
			`/* put_hex32(LastWarmupData); */`
			`/* puts(NL); */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* /\* isolate the RX_WD_STEPS \/ /`
			`/* /\* right-shift bits down to bit 0 position \/ /`
			`/* /\* left-shift to align with 32-bit addressing \/ /`
			`/* LastWarmdownStep = ((TsmRxSteps & 0x1f00) >> 8) << 2; */`
			`/* /\* write "last warmdown data" to current TSM step to shutdown rx \/ /`
			`/* LastWarmdownData = (((volatile uint32_t )(0x80009300 + LastWarmdownStep))); */`

			`/* puts("LastWarmdownData: "); */`
			`/* put_hex32(LastWarmdownData); */`
			`/* puts(NL); */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00

Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* status = reg(MACA_STATUS) & 0x0000ffff; */`
			`/* switch(status) */`
			`/* { */`
			`/* case(cc_aborted): */`
			`/* { */`
			`/* puts("aborted\n\r"); */`
			`/* ResumeMACASync(); */`
fill with the magic data... going to try this in place of their radio init and see if that gets there board working. 2009-04-08 00:52:12 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* command_xcvr_rx(); */`
fill with the magic data... going to try this in place of their radio init and see if that gets there board working. 2009-04-08 00:52:12 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* break; */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* } */`
			`/* case(cc_not_completed): */`
			`/* { */`
			`/* puts("not completed\n\r"); */`
			`/* ResumeMACASync(); */`
			`/* break; */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* } */`
			`/* case(cc_success): */`
			`/* { */`
			`/* puts("success\n\r"); */`
			`/* break; */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
Ha! I make you work! rftest-rx gets something now. 2009-04-13 20:11:18 +02:00			`/* } */`
			`/* default: */`
			`/* { */`
			`/* puts("status: "); */`
			`/* put_hex16(status); */`
			`/* ResumeMACASync(); */`
			`/* command_xcvr_rx(); */`

			`/* } */`
			`/* } */`
found some magic data. best guess so far. 2009-04-08 00:19:00 +02:00
			`/* reg(MACA_CONTROL) = 0x00031a04; /\* receive \/ /`
			`/* while (((tmp = reg(MACA_STATUS)) & 15) == 14) */`
			`/* puts("."); */`
			`/* puts("complete status is "); put_hex32(tmp); puts(NL); */`
			`/* puts("1 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`
			`/* puts("2 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`
			`/* puts("3 status is "); put_hex32(reg(MACA_STATUS)); puts(NL); */`

			`/* puts(NL); */`
			`/* for(i=0; i<DELAY; i++) { continue; } */`
			`/* for(i=0; i<DELAY; i++) { continue; } */`
			`/* for(i=0; i<DELAY; i++) { continue; } */`
			`/* for(i=0; i<DELAY; i++) { continue; } */`
			`/* for(i=0; i<DELAY; i++) { continue; } */`

checkpoint 2009-04-02 20:54:02 +02:00
starting a rftest rx test. This will put it in the continuous receive mode and send the bytes received to the uart. 2009-04-01 23:57:02 +02:00			`};`
			`}`
checkpoint 2009-04-02 20:54:02 +02:00
			`void putc(uint8_t c) {`
			`while(reg(UT1CON)==31); /* wait for there to be room in the buffer */`
			`reg(UART1_DATA) = c;`
			`}`

			`void puts(uint8_t *s) {`
			`while(s && *s!=0) {`
			`putc(*s++);`
			`}`
			`}`

			`void put_hex(uint8_t x)`
			`{`
			`putc(hex[x >> 4]);`
			`putc(hex[x & 15]);`
			`}`

			`void put_hex16(uint16_t x)`
			`{`
			`put_hex((x >> 8) & 0xFF);`
			`put_hex((x) & 0xFF);`
			`}`

			`void put_hex32(uint32_t x)`
			`{`
			`put_hex((x >> 24) & 0xFF);`
			`put_hex((x >> 16) & 0xFF);`
			`put_hex((x >> 8) & 0xFF);`
			`put_hex((x) & 0xFF);`
			`}`