//-------------------------------------------------------------------- void ccreg(char *in) { uint8_t hb, out, addr; if(in[1] == 'w' && fromhex(in+2, &addr, 1) && fromhex(in+4, &hb, 1)) { cc1100_writeReg(addr, hb); ccStrobe( CC1100_SCAL ); ccRX(); DH2(addr); DH2(hb); DNL(); } else if(fromhex(in+1, &hb, 1)) { if(hb == 0x99) { for(uint8_t i = 0; i < 0x30; i++) { DH2(cc1100_readReg(i)); if((i&7) == 7) DNL(); } } else { out = cc1100_readReg(hb); DC('C'); // prefix DH2(hb); // register number DS_P( PSTR(" = ") ); DH2(out); // result, hex DS_P( PSTR(" / ") ); DU(out,2); // result, decimal DNL(); } } }
static void fht80b_sendpacket(void) { ccStrobe(CC1100_SIDLE); // Don't let the CC1101 to disturb us // avg. FHT packet is 75ms. // The first delay is larger, as we don't know if we received the first or // second FHT actuator message. my_delay_ms(fht80b_out[2]==FHT_CAN_XMIT ? 155 : 75); addParityAndSendData(fht80b_out, 5, FHT_CSUM_START, 1); ccRX(); // reception might be lost due to LOVF fht_display_buf(fht80b_out); }
void set_txrestore() { #ifdef HAS_MBUS if(mbus_mode != WMBUS_NONE) { // rf_mbus.c handles cc1101 configuration on its own. // if mbus is activated the configuration must not be // changed here, that leads to a crash! return; } #endif if(tx_report) { set_ccon(); ccRX(); } else { set_ccoff(); } }
void rf_router_task(void) { if(rf_router_status == RF_ROUTER_INACTIVE) return; uint8_t hsec = (uint8_t)ticks; if(rf_router_status == RF_ROUTER_GOT_DATA) { uint8_t len = cc1100_readReg(CC1100_RXFIFO); uint8_t proto = 0; if(len > 5) { rb_reset(&TTY_Rx_Buffer); CC1100_ASSERT; cc1100_sendbyte( CC1100_READ_BURST | CC1100_RXFIFO ); proto = cc1100_sendbyte(0); while(--len) rb_put(&TTY_Rx_Buffer, cc1100_sendbyte(0)); CC1100_DEASSERT; } set_txrestore(); rf_router_status = RF_ROUTER_INACTIVE; if(proto == RF_ROUTER_PROTO_ID) { uint8_t id; if(fromhex(TTY_Rx_Buffer.buf, &id, 1) == 1 && // it is for us id == rf_router_myid) { if(TTY_Rx_Buffer.buf[4] == 'U') { // "Display" the data while(TTY_Rx_Buffer.nbytes) // downlink: RFR->CUL DC(rb_get(&TTY_Rx_Buffer)); DNL(); } else { // uplink: CUL->RFR TTY_Rx_Buffer.nbytes -= 4; // Skip dest/src bytes TTY_Rx_Buffer.getoff = 4; rb_put(&TTY_Rx_Buffer, '\n'); input_handle_func(DISPLAY_RFROUTER); // execute the command } } else { rb_reset(&TTY_Rx_Buffer); } } } else if(rf_router_status == RF_ROUTER_DATA_WAIT) { uint8_t diff = hsec - rf_router_hsec; if(diff > 7) { // 3 (delay above) + 3 ( ((4+64)*8)/250kBaud ) set_txrestore(); rf_router_status = RF_ROUTER_INACTIVE; } } else if(rf_router_status == RF_ROUTER_SYNC_RCVD) { ccInitChip(EE_FASTRF_CFG); ccRX(); rf_router_status = RF_ROUTER_DATA_WAIT; rf_router_hsec = hsec; } }
void send_belfox(char *msg) { uint8_t repeat=BELFOX_REPEAT; uint8_t len=strnlen(msg,BELFOX_LEN+2)-1; // assert if length incorrect if (len != BELFOX_LEN) return; LED_ON(); #if defined (HAS_IRRX) || defined (HAS_IRTX) // Block IR_Reception cli(); #endif #ifdef USE_RF_MODE change_RF_mode(RF_mode_slow); #else #ifdef HAS_MORITZ uint8_t restore_moritz = 0; if(moritz_on) { restore_moritz = 1; moritz_on = 0; set_txreport("21"); } #endif if(!cc_on) set_ccon(); #endif ccTX(); // Enable TX do { send_sync(); // sync for(int i = 1; i <= BELFOX_LEN; i++) // loop input, for example 'L111001100110' send_bit(msg[i] == '1'); CC1100_OUT_PORT &= ~_BV(CC1100_OUT_PIN); // final low to complete last bit my_delay_ms(BELFOX_PAUSE); // pause } while(--repeat > 0); if(TX_REPORT) { // Enable RX ccRX(); } else { ccStrobe(CC1100_SIDLE); } #if defined (HAS_IRRX) || defined (HAS_IRTX) // Activate IR_Reception sei(); #endif #ifdef USE_RF_MODE restore_RF_mode(); #else #ifdef HAS_MORITZ if(restore_moritz) rf_moritz_init(); #endif #endif LED_OFF(); }
void it_func(char *in) { if (in[1] == 't') { fromdec (in+2, (uint8_t *)&it_interval); DU(it_interval,0); DNL(); } else if (in[1] == 's') { if (in[2] == 'r') { // Modify Repetition-counter fromdec (in+3, (uint8_t *)&it_repetition); DU(it_repetition,0); DNL(); #ifdef HAS_HOMEEASY } else if (in[2] == 'h') { // HomeEasy it_send (in, DATATYPE_HE); } else if (in[2] == 'e') { // HomeEasy EU it_send (in, DATATYPE_HEEU); #endif } else { it_send (in, DATATYPE_IT); // Sending real data } //sending real data } else if (in[1] == 'r') { // Start of "Set Frequency" (f) #ifdef HAS_ASKSIN if (asksin_on) { restore_asksin = 1; asksin_on = 0; } #endif #ifdef HAS_MORITZ if (moritz_on) { restore_moritz = 1; moritz_on = 0; } #endif it_tunein (); intertechno_on = 1; } else if (in[1] == 'f') { // Set Frequency if (in[2] == '0' ) { it_frequency[0] = 0x10; it_frequency[1] = 0xb0; it_frequency[2] = 0x71; } else { fromhex (in+2, it_frequency, 3); } DC('i');DC('f');DC(':'); DH2(it_frequency[0]); DH2(it_frequency[1]); DH2(it_frequency[2]); DNL(); } else if (in[1] == 'x') { // Reset Frequency back to Eeprom value if(0) { ; #ifdef HAS_ASKSIN } else if (restore_asksin) { restore_asksin = 0; rf_asksin_init(); asksin_on = 1; ccRX(); #endif #ifdef HAS_MORITZ } else if (restore_moritz) { restore_moritz = 0; rf_moritz_init(); #endif } else { ccInitChip(EE_CC1100_CFG); // Set back to Eeprom Values if(tx_report) { // Enable RX ccRX(); } else { ccStrobe(CC1100_SIDLE); } } intertechno_on = 0; } }
static void it_send (char *in, uint8_t datatype) { //while (rf_isreceiving()) { //_delay_ms(1); //} int8_t i, j, k; LED_ON(); #if defined (HAS_IRRX) || defined (HAS_IRTX) //Blockout IR_Reception for the moment cli(); #endif // If NOT InterTechno mode if(!intertechno_on) { #ifdef HAS_ASKSIN if (asksin_on) { restore_asksin = 1; asksin_on = 0; } #endif #ifdef HAS_MORITZ if(moritz_on) { restore_moritz = 1; moritz_on = 0; } #endif it_tunein(); my_delay_ms(3); // 3ms: Found by trial and error } ccStrobe(CC1100_SIDLE); ccStrobe(CC1100_SFRX ); ccStrobe(CC1100_SFTX ); ccTX(); // Enable TX int8_t sizeOfPackage = strlen(in)-1; // IT-V1 = 14, IT-V3 = 33, IT-V3-Dimm = 37 int8_t mode = 0; // IT V1 //DU(sizeOfPackage, 3); if (sizeOfPackage == 33 || sizeOfPackage == 37) { mode = 1; // IT V3 } for(i = 0; i < it_repetition; i++) { if (datatype == DATATYPE_IT) { if (mode == 1) { send_IT_sync_V3(); send_IT_latch_V3(); } else { // Sync-Bit for IT V1 send before package CC1100_SET_OUT; // High my_delay_us(it_interval); CC1100_CLEAR_OUT; // Low for(k = 0; k < 31; k++) { my_delay_us(it_interval); } } #ifdef HAS_HOMEEASY } else if (datatype == DATATYPE_HE) { send_IT_sync_HE(DATATYPE_HE); } else if (datatype == DATATYPE_HEEU) { send_IT_sync_HE(DATATYPE_HEEU); #endif } uint8_t startCount = 1; #ifdef HAS_HOMEEASY if (datatype == DATATYPE_HE || datatype == DATATYPE_HEEU) { startCount = 2; } #endif for(j = startCount; j < sizeOfPackage; j++) { if(in[j+1] == '0') { if (datatype == DATATYPE_IT) { if (mode == 1) { send_IT_bit_V3(0); } else { send_IT_bit(0); } #ifdef HAS_HOMEEASY } else { send_IT_bit_HE(0, datatype); #endif } } else if (in[j+1] == '1') { if (datatype == DATATYPE_IT) { if (mode == 1) { send_IT_bit_V3(1); } else { send_IT_bit(1); } #ifdef HAS_HOMEEASY } else { send_IT_bit_HE(1, datatype); #endif } } else if (in[j+1] == '2') { send_IT_bit_V3(2); } else { if (mode == 1) { send_IT_bit_V3(3); } else { send_IT_bit(2); } } } //if (mode == 1) { // send_IT_sync_V3(); //} } //Do it n Times if(intertechno_on) { if(tx_report) { // Enable RX ccRX(); } else { ccStrobe(CC1100_SIDLE); } } #ifdef HAS_ASKSIN else if (restore_asksin) { restore_asksin = 0; rf_asksin_init(); asksin_on = 1; ccRX(); } #endif #ifdef HAS_MORITZ else if (restore_moritz) { restore_moritz = 0; rf_moritz_init(); } #endif else { set_txrestore(); } #if defined (HAS_IRRX) || defined (HAS_IRTX) //Activate IR_Reception again sei(); #endif LED_OFF(); DC('i');DC('s'); #ifdef HAS_HOMEEASY if (datatype == DATATYPE_HE) { DC('h'); } else if (datatype == DATATYPE_HEEU) { DC('e'); } #endif for(j = 1; j < sizeOfPackage; j++) { if(in[j+1] == '0') { DC('0'); } else if (in[j+1] == '1') { DC('1'); } else if (in[j+1] == '2') { DC('2'); } else { if (datatype == DATATYPE_IT) { if (mode == 1) { DC('D'); } else { DC('F'); } } } } DNL(); }