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Commit	Line	Data
	1	Index: clib/rf_asksin.c
	2	===================================================================
	3	--- clib/rf_asksin.c (revision 373)
	4	+++ clib/rf_asksin.c (working copy)
	5	@@ -11,7 +11,7 @@
	6
	7	uint8_t asksin_on = 0;
	8
	9	-const uint8_t PROGMEM ASKSIN_CFG[50] = {
	10	+const uint8_t PROGMEM ASKSIN_CFG[] = {
	11	0x00, 0x07,
	12	0x02, 0x2e,
	13	0x03, 0x0d,
	14	@@ -26,16 +26,17 @@
	15	0x11, 0x93,
	16	0x12, 0x03,
	17	0x15, 0x34,
	18	- 0x17, 0x30, // always go into IDLE
	19	+ 0x17, 0x33, // always go into RX after TX, CCA, ELV uses 0x03
	20	0x18, 0x18,
	21	0x19, 0x16,
	22	0x1B, 0x43,
	23	0x21, 0x56,
	24	0x25, 0x00,
	25	0x26, 0x11,
	26	+ 0x29, 0x59,
	27	+ 0x2c, 0x81,
	28	0x2D, 0x35,
	29	- 0x3e, 0xc3,
	30	- 0xff
	31	+ 0x3e, 0xc3
	32	};
	33
	34	void
	35	@@ -56,18 +57,16 @@
	36	my_delay_us(100);
	37
	38	// load configuration
	39	- for (uint8_t i = 0; i<50; i += 2) {
	40	-
	41	- if (pgm_read_byte( &ASKSIN_CFG[i] )>0x40)
	42	- break;
	43	-
	44	+ for (uint8_t i = 0; i < sizeof(ASKSIN_CFG); i += 2) {
	45	cc1100_writeReg( pgm_read_byte(&ASKSIN_CFG[i]),
	46	pgm_read_byte(&ASKSIN_CFG[i+1]) );
	47	}
	48
	49	ccStrobe( CC1100_SCAL );
	50
	51	- my_delay_ms(1);
	52	+ my_delay_ms(4);
	53	+
	54	+ ccRX();
	55	}
	56
	57	void
	58	@@ -97,13 +96,13 @@
	59	}
	60
	61	rssi = cc1100_sendbyte( 0 );
	62	-
	63	+
	64	CC1100_DEASSERT;
	65
	66	- ccStrobe( CC1100_SFRX );
	67	- ccStrobe( CC1100_SIDLE );
	68	- ccStrobe( CC1100_SNOP );
	69	- ccStrobe( CC1100_SRX );
	70	+ while(cc1100_readReg(CC1100_RXBYTES) & 0x7f)
	71	+ cc1100_readReg( CC1100_RXFIFO );
	72	+
	73	+ ccRX();
	74
	75	dec[0] = enc[0];
	76	dec[1] = (~enc[1]) ^ 0x89;
	77	@@ -113,7 +112,6 @@
	78
	79	dec[l] = enc[l] ^ dec[2];
	80
	81	-
	82	if (tx_report & REP_BINTIME) {
	83
	84	DC('a');
	85	@@ -133,24 +131,17 @@
	86	}
	87
	88	return;
	89	-
	90	}
	91	-
	92	-
	93	- switch (cc1100_readReg( CC1100_MARCSTATE )) {
	94	-
	95	- // RX_OVERFLOW
	96	- case 17:
	97	- // IDLE
	98	- case 1:
	99	- ccStrobe( CC1100_SFRX );
	100	- ccStrobe( CC1100_SIDLE );
	101	- ccStrobe( CC1100_SNOP );
	102	- ccStrobe( CC1100_SRX );
	103	- break;
	104	-
	105	- }
	106
	107	+ switch(cc1100_readReg( CC1100_MARCSTATE )) {
	108	+ case MARCSTATE_RXFIFO_OVERFLOW:
	109	+ ccStrobe( CC1100_SFRX );
	110	+ case MARCSTATE_IDLE:
	111	+ ccStrobe( CC1100_SIDLE );
	112	+ ccStrobe( CC1100_SNOP );
	113	+ ccStrobe( CC1100_SRX );
	114	+ break;
	115	+ }
	116	}
	117
	118	void
	119	@@ -173,20 +164,7 @@
	120	my_delay_ms(3); // 3ms: Found by trial and error
	121	}
	122
	123	- ccStrobe(CC1100_SIDLE);
	124	- ccStrobe(CC1100_SFRX );
	125	- ccStrobe(CC1100_SFTX );
	126	-
	127	- if (dec[2] & (1 << 4)) { //BURST-bit set?
	128	- ccStrobe(CC1100_STX ); //We need to send a burst
	129	-
	130	- //According to ELV, devices get activated every 300ms, so send burst for 360ms
	131	- for(l = 0; l < 3; l++)
	132	- my_delay_ms(120); //arg is uint_8, so loop
	133	- }
	134	-
	135	// "crypt"
	136	-
	137	enc[0] = dec[0];
	138	enc[1] = (~dec[1]) ^ 0x89;
	139
	140	@@ -195,6 +173,15 @@
	141
	142	enc[l] = dec[l] ^ dec[2];
	143
	144	+ ccTX();
	145	+ if (dec[2] & (1 << 4)) { // BURST-bit set?
	146	+ // According to ELV, devices get activated every 300ms, so send burst for 360ms
	147	+ for(l = 0; l < 3; l++)
	148	+ my_delay_ms(120); // arg is uint_8, so loop
	149	+ } else {
	150	+ my_delay_ms(10);
	151	+ }
	152	+
	153	// send
	154	CC1100_ASSERT;
	155	cc1100_sendbyte(CC1100_WRITE_BURST \| CC1100_TXFIFO);
	156	@@ -205,12 +192,17 @@
	157
	158	CC1100_DEASSERT;
	159
	160	- ccStrobe( CC1100_SFRX );
	161	- ccStrobe( CC1100_STX );
	162	+ // wait for TX to finish
	163	+ while(cc1100_readReg( CC1100_MARCSTATE ) == MARCSTATE_TX)
	164	+ ;
	165	+
	166	+ if (cc1100_readReg( CC1100_MARCSTATE ) == MARCSTATE_TXFIFO_UNDERFLOW) {
	167	+ ccStrobe( CC1100_SFTX );
	168	+ ccStrobe( CC1100_SIDLE );
	169	+ ccStrobe( CC1100_SNOP );
	170	+ ccStrobe( CC1100_SRX );
	171	+ }
	172
	173	- while( cc1100_readReg( CC1100_MARCSTATE ) != 1 )
	174	- my_delay_ms(5);
	175	-
	176	if(asksin_on) {
	177	ccRX();
	178	} else {