UART console application for testing SX1272/SX1276
This is a UART console test application for using SX127x library driver for SX1272/SX1276 radio transceivers. Serial console is provided at 57600bps. Refer to Serial Communication with a PC for information about using the serial port with your PC.
Using this command interface, you can exercise the functionality of radio chip without needing specialized software application for your PC.
Commands which can be used include ?
to list available commands, or .
to query status from radio chip, for example.
The serial console allows you to configure the radio chip, such as setting spreading factor, bandwidth, operating frequency, etc.
A simple chat application is provided to try communications between two boards. The SX127x library object is instantiated with pin assignments generic arduino headers, but can be easily reassigned for any mbed board.
The same driver library can operate for both SX1272 and SX1276. Upon starting, the driver auto-detects whether SX1272 or SX1276 transceiver chip is connected by attempting to change the LowFrequencyModeOn
bit in RegOpMode
register. If this bit can be changed, then the radio device is SX1276. This bit is not implemented in SX1272. A few of the radio driver functions select behavior based on this detection. The differences between these two devices is small, from a software perspective.
Using with SX1276MB1xAS Shield
This component plugs into any board with arduino uno headers.
There are two different version of this shield. European version (MAS), and North American (LAS). The LAS shield uses PA_BOOST transmit pin to permit +20dBm power. The MAS version uses RFO transmit pin in Europe. This software reads RF switch pin (A4 pin) pulling resistor to determine which type of shield is installed.
Using with your own production board
This software is useful for validating RF performance your own LoRa board design, because only two external pins needs to be provided to PC (UART TX/RX). You can select an mbed platform which matches the CPU on your own board. If the memory size doesnt match exactly, you can export the program to an offline toolchain and edit the target type or linker file there.
Transmitter Test Guidelines
FSK mode is used for transmitter testing, because an unmodulated carrier can be sent, permitting easy measurement of TX power and frequency error.
commands used for transmitter testing:
frf915.0
change to your desired RF center frequency (in this case 915MHz)L
to toggle the radio chip into FSK mode.fdev0
to configure TX frequency deviation to zero, to put the transmitted carrier on the center frequency.pas
to select which TX pin is connected to antenna matching (RFO vs PA_BOOST).op<dBm>
to configure TX power.- If you desire to test higher power PA_BOOST, use
ocp<mA>
w 01 03
put radio chip into transmit mode (skips writing to FIFO). This will cause radio to transmit preamble, because the FIFO is empty in TX mode. Since Fdev is zero, an unmodulated carrier is sent.- Spectrum analyzer can now be used to to observe TX power, harmonics, power consumption, or frequency error.
stby
to end transmission, or useh
to reset radio chip to default condition.- Use period
.
command at any time to review current radio configuration.
LoRa transmitter testing
- use
L
command to toggle radio into LoRa, if necessary. - Normally the
tx
command is used to manually send single packets. txc
will toggleTxContinuousMode
in LoRa modem to send continuous modulated transmission.- Useful for checking adjacent channel power.
- enter
txc
again to end transmission.
Receiver Test Guidelines
FSK mode is used for receiver sensitivity testing, allowing the use of a BERT signal generator (such as R/S SMIQ03B). Using this method provides real-time indication of receiver sensitivity, useful for tuning and impedance matching. The radio chip outputs DCLK and DATA digital signals which are connected back to BERT signal generator.
commands used for receiver testing:
L
to toggle the radio chip into FSK mode.datam
to toggle FSK modem into continuous mode. This disables packet engine and gives direct access to demodulator.- configure DIO1 pin to DCLK function, and DIO2 pin to DATA function:
dio
command to list current DIO pin asignmentsd1
to cycle DIO1 function untilDclk
is selectedd2
for DIO2, onlyData
function is available in FSK continuous mode
frf915.0
change to your desired RF center frequency (in this case 915MHz)rx
to start receiverstby
to disable receiver
Full command list
Arguments shown in square brackets []
indicate required. <>
are optional, where leaving off the argument usually causes a read of the item, and providing the value causes a write operation. You should always have the radio chip datasheet on-hand when using these commands.
Hitting <enter> key by itself will repeat last command.
<Ctrl-C> will cancel an operation in progress.
command list: common commands (both LoRa and FSK)
command | description |
---|---|
. (period) | print current radio status |
? | list available commands |
L | toggle active radio modem (LoRa vs FSK) |
h | hardware reset, put radio into default power-on condition |
frf<MHz> | get/set RF operating frequency |
rx | start radio receiver (any received packets are printed onto your serial terminal) |
rssi | read instantaneous RSSI (level read at the time command is issued) |
tx<%d> | transmit test packet. Packet length value can be provided as argument, or uses last value if not provided |
payl<%d> | get/set payload length |
bw<KHz> | get/set bandwidth. In LoRa mode, both receive and transmit bandwidth are changed. For FSK, only receive bandwidth is affected. bwa accesses AFC bandwidth in FSK |
pas | toggle RFO / PA_BOOST transmit pin output selection |
op<dBm> | get/set TX output power. Value is provided in dBm. Special case is value of 20dBm (on PA_BOOST), which causes increase in TX DAC voltage |
ocp<mA> | get/set TX current limit, in milliamps. Necessary adjustment when +20dBm is used |
dio | show DIO pin assignments |
d<0-5> | change DIO pin assignment, the pin number is given as arguement. Each pin has up to 4 possible functions |
pres<%d> | set preamble length. LoRa: number of symbols. FSK: number of bytes |
crcon | toggle crcOn |
lnab | cycle LNA-boost setting (receiver performance adjustment) |
R | read all radio registers (use only while reading chip datasheet) |
r[%x] | read single radio register (use only while reading chip datasheet) |
w[%x %x] | write single radio register (use only while reading chip datasheet) |
pllbw | change PLL bandwidth |
stby | set chip mode to standby |
sleep | set chip mode to sleep |
fstx | set chip mode to fstx |
fsrx | set chip mode to fsrx |
Eiger range test commands | description |
pid<%d> | get set ID number in range test payload |
pertx<%d> | start Eiger PER transmit. The count of packets to send is provided as arguement |
perrx | start Eiger PER receive |
txpd<%d> | get/set tx delay between PER packets transmitted |
command list: LoRa modem commands
LoRa command | LoRa description |
---|---|
iqinv | toggle RX IQ invert |
cin | toggle TX IQ invert |
lhp<%d> | (RX) get/set hop period |
sync<%x> | get/set sync (post-preamble gap, single byte) |
cr<1-4> | get/set codingRate |
lhm | toggle explicit/implicit (explicit mode sends payload length with each packet) |
sf<%d> | get/set spreadingFactor (SF7 to SF12) |
ldr | toggle LowDataRateOptimize (changes payload encoding, for long packets) |
txc | toggle TxContinuousMode |
rxt<%d> | get/set SymbTimeout |
rxs | start RX_SINGLE (receives only for SymbTimeout symbols) |
cad<%d num tries> | run channel activity detection |
command list: FSK modem commands
FSK command | FSK description |
---|---|
c<%d> | get/set test cases. Several FSK bitrates/bandwidths pre-configured to give optimal performance. |
fdev<kHz> | (TX) get/set frequency deviation |
mods | (TX) increment modulation shaping |
par | (TX) increment paRamp |
datam | toggle DataMode (packet/continuous) |
fifot | toggle TxStartCondition (FifoThreshold level vs FifoNotEmpty) |
br<%f kbps> | get/set bitrate |
dcf | increment DcFree (manchester / whitening) |
pktf | toggle PacketFormat fixed/variable length |
syncon | toggle SyncOn (frame sync, SFD enable) |
bitsync | toggle BitSyncOn (continuous mode only) |
syncw<hex bytes> | get/set syncword. Sync bytes are provided by hex octects separated by spaces. |
fei | (RX) read FEI |
rxt | (RX) increment RxTrigger (RX start on rssi vs. preamble detect) |
rssit<-dBm> | (RX) get/set rssi threshold (trigger level for RSSI interrupt) |
rssis<%d> | (RX) get/set rssi smoothing |
rssio<%d> | (RX) get/set rssi offset |
agcauto | (RX) toggle AgcAutoOn (true = LNA gain set automatically) |
afcauto | (RX) toggle AfcAutoOn |
ac | (RX) AfcClear |
ar | (RX) increment AutoRestartRxMode |
alc | (RX) toggle AfcAutoClearOn (only if AfcAutoOn is set) |
prep | (RX) toggle PreamblePolarity (0xAA vs 0x55) |
pde | (RX) toggle PreambleDetectorOn |
pds<%d> | (RX) get/set PreambleDetectorSize |
pdt<%d> | (RX) get/set PreambleDetectorTol |
mp | (RX) toggle MapPreambleDetect (DIO function RSSI vs PreambleDetect) |
thr<%d> | get/set FifoThreshold (triggers FifoLevel interrupt) |
poll | toggle poll_irq_en. Radio events read from DIO pins vs polling of IrqFlags register |
E | empty out FIFO |
clkout | increment ClkOut divider |
ook | enter OOK mode |
ookt | increment OokThreshType |
ooks | increment OokPeakTheshStep |
sqlch<%d> | get/set OokFixedThresh |
main.cpp@20:b11592c9ba5f, 2016-08-31 (annotated)
- Committer:
- dudmuck
- Date:
- Wed Aug 31 23:55:27 2016 +0000
- Revision:
- 20:b11592c9ba5f
- Parent:
- 19:be8a8b0e7320
- Child:
- 21:b84a77dfb43c
added FSK test "c6" for spurious preamble detection test (FSK only). Corrected mDot support.
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
dudmuck | 1:1cd0afbed23c | 1 | #include "sx127x_lora.h" |
dudmuck | 1:1cd0afbed23c | 2 | #include "sx127x_fsk.h" |
dudmuck | 19:be8a8b0e7320 | 3 | #define __STDC_FORMAT_MACROS |
dudmuck | 19:be8a8b0e7320 | 4 | #include <inttypes.h> |
dudmuck | 18:9530d682fd9a | 5 | //#include "kermit.h" |
dudmuck | 0:be215de91a68 | 6 | |
dudmuck | 13:c73caaee93a5 | 7 | //#define FSK_PER |
dudmuck | 10:d9bb2ce57f05 | 8 | //#define START_EIGER_RX |
dudmuck | 10:d9bb2ce57f05 | 9 | //#define START_EIGER_TX |
dudmuck | 10:d9bb2ce57f05 | 10 | |
dudmuck | 10:d9bb2ce57f05 | 11 | DigitalOut led1(LED1); |
dudmuck | 0:be215de91a68 | 12 | Serial pc(USBTX, USBRX); |
dudmuck | 0:be215de91a68 | 13 | |
dudmuck | 0:be215de91a68 | 14 | uint8_t tx_cnt; |
dudmuck | 0:be215de91a68 | 15 | char pcbuf[64]; |
dudmuck | 5:360069ec9953 | 16 | int pcbuf_len; |
dudmuck | 0:be215de91a68 | 17 | |
dudmuck | 0:be215de91a68 | 18 | typedef enum { |
dudmuck | 0:be215de91a68 | 19 | APP_NONE = 0, |
dudmuck | 0:be215de91a68 | 20 | APP_CHAT |
dudmuck | 0:be215de91a68 | 21 | } app_e; |
dudmuck | 0:be215de91a68 | 22 | |
dudmuck | 0:be215de91a68 | 23 | app_e app = APP_NONE; |
dudmuck | 0:be215de91a68 | 24 | |
dudmuck | 18:9530d682fd9a | 25 | #define FSK_LARGE_PKT_THRESHOLD 0x3f |
dudmuck | 7:c3c54f222ced | 26 | |
dudmuck | 18:9530d682fd9a | 27 | bool ook_test_en; |
dudmuck | 18:9530d682fd9a | 28 | bool poll_irq_en; |
dudmuck | 20:b11592c9ba5f | 29 | volatile RegIrqFlags2_t fsk_RegIrqFlags2_prev; |
dudmuck | 20:b11592c9ba5f | 30 | volatile RegIrqFlags1_t fsk_RegIrqFlags1_prev; |
dudmuck | 20:b11592c9ba5f | 31 | Timer rx_start_timer; |
dudmuck | 20:b11592c9ba5f | 32 | uint32_t secs_rx_start; |
dudmuck | 1:1cd0afbed23c | 33 | |
dudmuck | 8:227605e4a760 | 34 | /***************************** eiger per: *************************************************/ |
dudmuck | 8:227605e4a760 | 35 | |
dudmuck | 18:9530d682fd9a | 36 | uint32_t num_cads; |
dudmuck | 18:9530d682fd9a | 37 | bool cadper_enable; |
dudmuck | 8:227605e4a760 | 38 | bool per_en; |
dudmuck | 8:227605e4a760 | 39 | float per_tx_delay = 0.1; |
dudmuck | 8:227605e4a760 | 40 | int per_id; |
dudmuck | 18:9530d682fd9a | 41 | uint32_t PacketTxCnt, PacketTxCntEnd; |
dudmuck | 8:227605e4a760 | 42 | uint32_t PacketPerOkCnt; |
dudmuck | 8:227605e4a760 | 43 | int PacketRxSequencePrev; |
dudmuck | 8:227605e4a760 | 44 | uint32_t PacketPerKoCnt; |
dudmuck | 8:227605e4a760 | 45 | uint32_t PacketNormalCnt; |
dudmuck | 8:227605e4a760 | 46 | Timeout per_timeout; |
dudmuck | 8:227605e4a760 | 47 | |
dudmuck | 18:9530d682fd9a | 48 | |
dudmuck | 18:9530d682fd9a | 49 | |
dudmuck | 0:be215de91a68 | 50 | /******************************************************************************/ |
dudmuck | 9:2f13a9ef27b4 | 51 | #ifdef TARGET_MTS_MDOT_F411RE |
dudmuck | 9:2f13a9ef27b4 | 52 | // mosi, miso, sclk, cs, rst, dio0, dio1 |
dudmuck | 9:2f13a9ef27b4 | 53 | SX127x radio(LORA_MOSI, LORA_MISO, LORA_SCK, LORA_NSS, LORA_RESET, LORA_DIO0, LORA_DIO1); |
dudmuck | 9:2f13a9ef27b4 | 54 | |
dudmuck | 9:2f13a9ef27b4 | 55 | DigitalOut txctl(LORA_TXCTL); |
dudmuck | 9:2f13a9ef27b4 | 56 | DigitalOut rxctl(LORA_RXCTL); |
dudmuck | 9:2f13a9ef27b4 | 57 | |
dudmuck | 9:2f13a9ef27b4 | 58 | void rfsw_callback() |
dudmuck | 9:2f13a9ef27b4 | 59 | { |
dudmuck | 9:2f13a9ef27b4 | 60 | /* SKY13350 */ |
dudmuck | 9:2f13a9ef27b4 | 61 | if (radio.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) { // start of transmission |
dudmuck | 9:2f13a9ef27b4 | 62 | txctl = 1; |
dudmuck | 9:2f13a9ef27b4 | 63 | rxctl = 0; |
dudmuck | 9:2f13a9ef27b4 | 64 | } else { // reception: |
dudmuck | 9:2f13a9ef27b4 | 65 | txctl = 0; |
dudmuck | 9:2f13a9ef27b4 | 66 | rxctl = 1; |
dudmuck | 9:2f13a9ef27b4 | 67 | } |
dudmuck | 9:2f13a9ef27b4 | 68 | } |
dudmuck | 9:2f13a9ef27b4 | 69 | |
dudmuck | 15:c69b942685ea | 70 | #define FSK_RSSI_OFFSET 0 |
dudmuck | 15:c69b942685ea | 71 | #define FSK_RSSI_SMOOTHING 2 |
dudmuck | 20:b11592c9ba5f | 72 | DigitalIn dio2(LORA_DIO2); |
dudmuck | 20:b11592c9ba5f | 73 | DigitalIn dio4(LORA_DIO4); |
dudmuck | 15:c69b942685ea | 74 | |
dudmuck | 9:2f13a9ef27b4 | 75 | #else /********************* ...mDot **********************/ |
dudmuck | 0:be215de91a68 | 76 | |
dudmuck | 5:360069ec9953 | 77 | // pin: 3 8 1 7 10 12 5 |
dudmuck | 5:360069ec9953 | 78 | // mosi, miso, sclk, cs, rst, dio0, dio1 |
dudmuck | 6:fe16f96ee335 | 79 | SX127x radio(D11, D12, D13, D10, A0, D2, D3); // sx1276 arduino shield |
dudmuck | 0:be215de91a68 | 80 | |
dudmuck | 15:c69b942685ea | 81 | // for SX1276 arduino shield: |
dudmuck | 7:c3c54f222ced | 82 | #ifdef TARGET_LPC11U6X |
dudmuck | 15:c69b942685ea | 83 | //DigitalOut rfsw(P0_23); |
dudmuck | 15:c69b942685ea | 84 | DigitalInOut rfsw(P0_23); |
dudmuck | 7:c3c54f222ced | 85 | #else |
dudmuck | 15:c69b942685ea | 86 | //DigitalOut rfsw(A4); |
dudmuck | 15:c69b942685ea | 87 | DigitalInOut rfsw(A4); |
dudmuck | 7:c3c54f222ced | 88 | #endif |
dudmuck | 6:fe16f96ee335 | 89 | |
dudmuck | 14:c57ea544dc18 | 90 | DigitalIn dio2(D4); |
dudmuck | 20:b11592c9ba5f | 91 | DigitalIn dio4(D8); |
dudmuck | 14:c57ea544dc18 | 92 | |
dudmuck | 6:fe16f96ee335 | 93 | void rfsw_callback() |
dudmuck | 6:fe16f96ee335 | 94 | { |
dudmuck | 6:fe16f96ee335 | 95 | if (radio.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) |
dudmuck | 6:fe16f96ee335 | 96 | rfsw = 1; |
dudmuck | 6:fe16f96ee335 | 97 | else |
dudmuck | 6:fe16f96ee335 | 98 | rfsw = 0; |
dudmuck | 6:fe16f96ee335 | 99 | } |
dudmuck | 6:fe16f96ee335 | 100 | |
dudmuck | 15:c69b942685ea | 101 | #define FSK_RSSI_OFFSET 5 |
dudmuck | 15:c69b942685ea | 102 | #define FSK_RSSI_SMOOTHING 2 |
dudmuck | 15:c69b942685ea | 103 | |
dudmuck | 15:c69b942685ea | 104 | typedef enum { |
dudmuck | 15:c69b942685ea | 105 | SHIELD_TYPE_NONE = 0, |
dudmuck | 15:c69b942685ea | 106 | SHIELD_TYPE_LAS, |
dudmuck | 15:c69b942685ea | 107 | SHIELD_TYPE_MAS, |
dudmuck | 15:c69b942685ea | 108 | } shield_type_e; |
dudmuck | 15:c69b942685ea | 109 | shield_type_e shield_type; |
dudmuck | 15:c69b942685ea | 110 | |
dudmuck | 9:2f13a9ef27b4 | 111 | #endif /* !TARGET_MTS_MDOT_F411RE */ |
dudmuck | 9:2f13a9ef27b4 | 112 | |
dudmuck | 9:2f13a9ef27b4 | 113 | SX127x_fsk fsk(radio); |
dudmuck | 9:2f13a9ef27b4 | 114 | SX127x_lora lora(radio); |
dudmuck | 18:9530d682fd9a | 115 | //Kermit kermit(lora); |
dudmuck | 9:2f13a9ef27b4 | 116 | |
dudmuck | 20:b11592c9ba5f | 117 | volatile bool saved_dio4; |
dudmuck | 20:b11592c9ba5f | 118 | |
dudmuck | 0:be215de91a68 | 119 | void printLoraIrqs_(bool clear) |
dudmuck | 0:be215de91a68 | 120 | { |
dudmuck | 0:be215de91a68 | 121 | //in radio class -- RegIrqFlags_t RegIrqFlags; |
dudmuck | 0:be215de91a68 | 122 | |
dudmuck | 0:be215de91a68 | 123 | //already read RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 0:be215de91a68 | 124 | printf("\r\nIrqFlags:"); |
dudmuck | 1:1cd0afbed23c | 125 | if (lora.RegIrqFlags.bits.CadDetected) |
dudmuck | 0:be215de91a68 | 126 | printf("CadDetected "); |
dudmuck | 1:1cd0afbed23c | 127 | if (lora.RegIrqFlags.bits.FhssChangeChannel) { |
dudmuck | 0:be215de91a68 | 128 | //radio.RegHopChannel.octet = radio.read_reg(REG_LR_HOPCHANNEL); |
dudmuck | 1:1cd0afbed23c | 129 | printf("FhssChangeChannel:%d ", lora.RegHopChannel.bits.FhssPresentChannel); |
dudmuck | 0:be215de91a68 | 130 | } |
dudmuck | 1:1cd0afbed23c | 131 | if (lora.RegIrqFlags.bits.CadDone) |
dudmuck | 0:be215de91a68 | 132 | printf("CadDone "); |
dudmuck | 1:1cd0afbed23c | 133 | if (lora.RegIrqFlags.bits.TxDone) |
dudmuck | 0:be215de91a68 | 134 | printf("TxDone "); |
dudmuck | 1:1cd0afbed23c | 135 | if (lora.RegIrqFlags.bits.ValidHeader) |
dudmuck | 0:be215de91a68 | 136 | printf("[42mValidHeader[0m "); |
dudmuck | 1:1cd0afbed23c | 137 | if (lora.RegIrqFlags.bits.PayloadCrcError) |
dudmuck | 0:be215de91a68 | 138 | printf("[41mPayloadCrcError[0m "); |
dudmuck | 1:1cd0afbed23c | 139 | if (lora.RegIrqFlags.bits.RxDone) |
dudmuck | 0:be215de91a68 | 140 | printf("[42mRxDone[0m "); |
dudmuck | 1:1cd0afbed23c | 141 | if (lora.RegIrqFlags.bits.RxTimeout) |
dudmuck | 0:be215de91a68 | 142 | printf("RxTimeout "); |
dudmuck | 0:be215de91a68 | 143 | |
dudmuck | 0:be215de91a68 | 144 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 145 | |
dudmuck | 0:be215de91a68 | 146 | if (clear) |
dudmuck | 1:1cd0afbed23c | 147 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 0:be215de91a68 | 148 | |
dudmuck | 0:be215de91a68 | 149 | } |
dudmuck | 0:be215de91a68 | 150 | |
dudmuck | 1:1cd0afbed23c | 151 | void lora_printCodingRate(bool from_rx) |
dudmuck | 0:be215de91a68 | 152 | { |
dudmuck | 1:1cd0afbed23c | 153 | uint8_t d = lora.getCodingRate(from_rx); |
dudmuck | 0:be215de91a68 | 154 | printf("CodingRate:"); |
dudmuck | 0:be215de91a68 | 155 | switch (d) { |
dudmuck | 0:be215de91a68 | 156 | case 1: printf("4/5 "); break; |
dudmuck | 0:be215de91a68 | 157 | case 2: printf("4/6 "); break; |
dudmuck | 0:be215de91a68 | 158 | case 3: printf("4/7 "); break; |
dudmuck | 0:be215de91a68 | 159 | case 4: printf("4/8 "); break; |
dudmuck | 0:be215de91a68 | 160 | default: |
dudmuck | 0:be215de91a68 | 161 | printf("%d ", d); |
dudmuck | 0:be215de91a68 | 162 | break; |
dudmuck | 0:be215de91a68 | 163 | } |
dudmuck | 0:be215de91a68 | 164 | } |
dudmuck | 0:be215de91a68 | 165 | |
dudmuck | 1:1cd0afbed23c | 166 | void lora_printHeaderMode() |
dudmuck | 0:be215de91a68 | 167 | { |
dudmuck | 1:1cd0afbed23c | 168 | if (lora.getHeaderMode()) |
dudmuck | 0:be215de91a68 | 169 | printf("implicit "); |
dudmuck | 0:be215de91a68 | 170 | else |
dudmuck | 0:be215de91a68 | 171 | printf("explicit "); |
dudmuck | 0:be215de91a68 | 172 | } |
dudmuck | 0:be215de91a68 | 173 | |
dudmuck | 1:1cd0afbed23c | 174 | void lora_printBw() |
dudmuck | 0:be215de91a68 | 175 | { |
dudmuck | 19:be8a8b0e7320 | 176 | (void)lora.getBw(); |
dudmuck | 0:be215de91a68 | 177 | |
dudmuck | 0:be215de91a68 | 178 | printf("Bw:"); |
dudmuck | 0:be215de91a68 | 179 | if (radio.type == SX1276) { |
dudmuck | 1:1cd0afbed23c | 180 | switch (lora.RegModemConfig.sx1276bits.Bw) { |
dudmuck | 0:be215de91a68 | 181 | case 0: printf("7.8KHz "); break; |
dudmuck | 0:be215de91a68 | 182 | case 1: printf("10.4KHz "); break; |
dudmuck | 0:be215de91a68 | 183 | case 2: printf("15.6KHz "); break; |
dudmuck | 0:be215de91a68 | 184 | case 3: printf("20.8KHz "); break; |
dudmuck | 0:be215de91a68 | 185 | case 4: printf("31.25KHz "); break; |
dudmuck | 0:be215de91a68 | 186 | case 5: printf("41.7KHz "); break; |
dudmuck | 0:be215de91a68 | 187 | case 6: printf("62.5KHz "); break; |
dudmuck | 0:be215de91a68 | 188 | case 7: printf("125KHz "); break; |
dudmuck | 0:be215de91a68 | 189 | case 8: printf("250KHz "); break; |
dudmuck | 0:be215de91a68 | 190 | case 9: printf("500KHz "); break; |
dudmuck | 1:1cd0afbed23c | 191 | default: printf("%x ", lora.RegModemConfig.sx1276bits.Bw); break; |
dudmuck | 0:be215de91a68 | 192 | } |
dudmuck | 0:be215de91a68 | 193 | } else if (radio.type == SX1272) { |
dudmuck | 1:1cd0afbed23c | 194 | switch (lora.RegModemConfig.sx1272bits.Bw) { |
dudmuck | 0:be215de91a68 | 195 | case 0: printf("125KHz "); break; |
dudmuck | 0:be215de91a68 | 196 | case 1: printf("250KHz "); break; |
dudmuck | 0:be215de91a68 | 197 | case 2: printf("500KHz "); break; |
dudmuck | 0:be215de91a68 | 198 | case 3: printf("11b "); break; |
dudmuck | 0:be215de91a68 | 199 | } |
dudmuck | 0:be215de91a68 | 200 | } |
dudmuck | 0:be215de91a68 | 201 | } |
dudmuck | 0:be215de91a68 | 202 | |
dudmuck | 1:1cd0afbed23c | 203 | void lora_printAllBw() |
dudmuck | 0:be215de91a68 | 204 | { |
dudmuck | 0:be215de91a68 | 205 | int i, s; |
dudmuck | 0:be215de91a68 | 206 | |
dudmuck | 0:be215de91a68 | 207 | if (radio.type == SX1276) { |
dudmuck | 1:1cd0afbed23c | 208 | s = lora.RegModemConfig.sx1276bits.Bw; |
dudmuck | 0:be215de91a68 | 209 | for (i = 0; i < 10; i++ ) { |
dudmuck | 1:1cd0afbed23c | 210 | lora.RegModemConfig.sx1276bits.Bw = i; |
dudmuck | 0:be215de91a68 | 211 | printf("%d ", i); |
dudmuck | 1:1cd0afbed23c | 212 | lora_printBw(); |
dudmuck | 0:be215de91a68 | 213 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 214 | } |
dudmuck | 1:1cd0afbed23c | 215 | lora.RegModemConfig.sx1276bits.Bw = s; |
dudmuck | 0:be215de91a68 | 216 | } else if (radio.type == SX1272) { |
dudmuck | 1:1cd0afbed23c | 217 | s = lora.RegModemConfig.sx1272bits.Bw; |
dudmuck | 0:be215de91a68 | 218 | for (i = 0; i < 3; i++ ) { |
dudmuck | 1:1cd0afbed23c | 219 | lora.RegModemConfig.sx1272bits.Bw = i; |
dudmuck | 0:be215de91a68 | 220 | printf("%d ", i); |
dudmuck | 1:1cd0afbed23c | 221 | lora_printBw(); |
dudmuck | 0:be215de91a68 | 222 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 223 | } |
dudmuck | 1:1cd0afbed23c | 224 | lora.RegModemConfig.sx1272bits.Bw = s; |
dudmuck | 0:be215de91a68 | 225 | } |
dudmuck | 0:be215de91a68 | 226 | } |
dudmuck | 0:be215de91a68 | 227 | |
dudmuck | 1:1cd0afbed23c | 228 | void lora_printSf() |
dudmuck | 0:be215de91a68 | 229 | { |
dudmuck | 0:be215de91a68 | 230 | // spreading factor same between sx127[26] |
dudmuck | 1:1cd0afbed23c | 231 | printf("sf:%d ", lora.getSf()); |
dudmuck | 0:be215de91a68 | 232 | } |
dudmuck | 0:be215de91a68 | 233 | |
dudmuck | 1:1cd0afbed23c | 234 | void lora_printRxPayloadCrcOn() |
dudmuck | 0:be215de91a68 | 235 | { |
dudmuck | 1:1cd0afbed23c | 236 | bool on = lora.getRxPayloadCrcOn(); |
dudmuck | 18:9530d682fd9a | 237 | printf("RxPayloadCrcOn:%d = ", on); |
dudmuck | 18:9530d682fd9a | 238 | if (lora.getHeaderMode()) |
dudmuck | 18:9530d682fd9a | 239 | printf("Rx/"); // implicit mode |
dudmuck | 18:9530d682fd9a | 240 | |
dudmuck | 0:be215de91a68 | 241 | if (on) |
dudmuck | 18:9530d682fd9a | 242 | printf("Tx CRC Enabled\r\n"); |
dudmuck | 0:be215de91a68 | 243 | else |
dudmuck | 18:9530d682fd9a | 244 | printf("Tx CRC disabled\r\n"); |
dudmuck | 0:be215de91a68 | 245 | } |
dudmuck | 0:be215de91a68 | 246 | |
dudmuck | 1:1cd0afbed23c | 247 | void lora_printTxContinuousMode() |
dudmuck | 0:be215de91a68 | 248 | { |
dudmuck | 1:1cd0afbed23c | 249 | printf("TxContinuousMode:%d ", lora.RegModemConfig2.sx1276bits.TxContinuousMode); // same for sx1272 and sx1276 |
dudmuck | 0:be215de91a68 | 250 | } |
dudmuck | 0:be215de91a68 | 251 | |
dudmuck | 1:1cd0afbed23c | 252 | void lora_printAgcAutoOn() |
dudmuck | 0:be215de91a68 | 253 | { |
dudmuck | 1:1cd0afbed23c | 254 | printf("AgcAutoOn:%d", lora.getAgcAutoOn()); |
dudmuck | 0:be215de91a68 | 255 | } |
dudmuck | 0:be215de91a68 | 256 | |
dudmuck | 1:1cd0afbed23c | 257 | void lora_print_dio() |
dudmuck | 0:be215de91a68 | 258 | { |
dudmuck | 1:1cd0afbed23c | 259 | radio.RegDioMapping2.octet = radio.read_reg(REG_DIOMAPPING2); |
dudmuck | 0:be215de91a68 | 260 | printf("DIO5:"); |
dudmuck | 0:be215de91a68 | 261 | switch (radio.RegDioMapping2.bits.Dio5Mapping) { |
dudmuck | 0:be215de91a68 | 262 | case 0: printf("ModeReady"); break; |
dudmuck | 0:be215de91a68 | 263 | case 1: printf("ClkOut"); break; |
dudmuck | 0:be215de91a68 | 264 | case 2: printf("ClkOut"); break; |
dudmuck | 0:be215de91a68 | 265 | } |
dudmuck | 0:be215de91a68 | 266 | printf(" DIO4:"); |
dudmuck | 0:be215de91a68 | 267 | switch (radio.RegDioMapping2.bits.Dio4Mapping) { |
dudmuck | 0:be215de91a68 | 268 | case 0: printf("CadDetected"); break; |
dudmuck | 0:be215de91a68 | 269 | case 1: printf("PllLock"); break; |
dudmuck | 0:be215de91a68 | 270 | case 2: printf("PllLock"); break; |
dudmuck | 0:be215de91a68 | 271 | } |
dudmuck | 0:be215de91a68 | 272 | radio.RegDioMapping1.octet = radio.read_reg(REG_DIOMAPPING1); |
dudmuck | 0:be215de91a68 | 273 | printf(" DIO3:"); |
dudmuck | 0:be215de91a68 | 274 | switch (radio.RegDioMapping1.bits.Dio3Mapping) { |
dudmuck | 0:be215de91a68 | 275 | case 0: printf("CadDone"); break; |
dudmuck | 0:be215de91a68 | 276 | case 1: printf("ValidHeader"); break; |
dudmuck | 0:be215de91a68 | 277 | case 2: printf("PayloadCrcError"); break; |
dudmuck | 0:be215de91a68 | 278 | } |
dudmuck | 0:be215de91a68 | 279 | printf(" DIO2:"); |
dudmuck | 0:be215de91a68 | 280 | switch (radio.RegDioMapping1.bits.Dio2Mapping) { |
dudmuck | 0:be215de91a68 | 281 | case 0: |
dudmuck | 0:be215de91a68 | 282 | case 1: |
dudmuck | 0:be215de91a68 | 283 | case 2: |
dudmuck | 0:be215de91a68 | 284 | printf("FhssChangeChannel"); |
dudmuck | 0:be215de91a68 | 285 | break; |
dudmuck | 0:be215de91a68 | 286 | } |
dudmuck | 0:be215de91a68 | 287 | printf(" DIO1:"); |
dudmuck | 0:be215de91a68 | 288 | switch (radio.RegDioMapping1.bits.Dio1Mapping) { |
dudmuck | 0:be215de91a68 | 289 | case 0: printf("RxTimeout"); break; |
dudmuck | 0:be215de91a68 | 290 | case 1: printf("FhssChangeChannel"); break; |
dudmuck | 0:be215de91a68 | 291 | case 2: printf("CadDetected"); break; |
dudmuck | 0:be215de91a68 | 292 | } |
dudmuck | 0:be215de91a68 | 293 | printf(" DIO0:"); |
dudmuck | 0:be215de91a68 | 294 | switch (radio.RegDioMapping1.bits.Dio0Mapping) { |
dudmuck | 0:be215de91a68 | 295 | case 0: printf("RxDone"); break; |
dudmuck | 0:be215de91a68 | 296 | case 1: printf("TxDone"); break; |
dudmuck | 0:be215de91a68 | 297 | case 2: printf("CadDone"); break; |
dudmuck | 0:be215de91a68 | 298 | } |
dudmuck | 0:be215de91a68 | 299 | |
dudmuck | 0:be215de91a68 | 300 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 301 | } |
dudmuck | 0:be215de91a68 | 302 | |
dudmuck | 1:1cd0afbed23c | 303 | void fsk_print_dio() |
dudmuck | 1:1cd0afbed23c | 304 | { |
dudmuck | 1:1cd0afbed23c | 305 | radio.RegDioMapping2.octet = radio.read_reg(REG_DIOMAPPING2); |
dudmuck | 1:1cd0afbed23c | 306 | |
dudmuck | 2:c6b23a43a9d9 | 307 | printf("DIO5:"); |
dudmuck | 1:1cd0afbed23c | 308 | switch (radio.RegDioMapping2.bits.Dio5Mapping) { |
dudmuck | 1:1cd0afbed23c | 309 | case 0: printf("ClkOut"); break; |
dudmuck | 1:1cd0afbed23c | 310 | case 1: printf("PllLock"); break; |
dudmuck | 1:1cd0afbed23c | 311 | case 2: |
dudmuck | 1:1cd0afbed23c | 312 | if (fsk.RegPktConfig2.bits.DataModePacket) |
dudmuck | 1:1cd0afbed23c | 313 | printf("data"); |
dudmuck | 1:1cd0afbed23c | 314 | else { |
dudmuck | 1:1cd0afbed23c | 315 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 1:1cd0afbed23c | 316 | printf("preamble"); |
dudmuck | 1:1cd0afbed23c | 317 | else |
dudmuck | 1:1cd0afbed23c | 318 | printf("rssi"); |
dudmuck | 1:1cd0afbed23c | 319 | } |
dudmuck | 1:1cd0afbed23c | 320 | break; |
dudmuck | 1:1cd0afbed23c | 321 | case 3: printf("ModeReady"); break; |
dudmuck | 1:1cd0afbed23c | 322 | } |
dudmuck | 1:1cd0afbed23c | 323 | |
dudmuck | 2:c6b23a43a9d9 | 324 | printf(" DIO4:"); |
dudmuck | 1:1cd0afbed23c | 325 | switch (radio.RegDioMapping2.bits.Dio4Mapping) { |
dudmuck | 1:1cd0afbed23c | 326 | case 0: printf("temp/eol"); break; |
dudmuck | 1:1cd0afbed23c | 327 | case 1: printf("PllLock"); break; |
dudmuck | 1:1cd0afbed23c | 328 | case 2: printf("TimeOut"); break; |
dudmuck | 1:1cd0afbed23c | 329 | case 3: |
dudmuck | 1:1cd0afbed23c | 330 | if (fsk.RegPktConfig2.bits.DataModePacket) { |
dudmuck | 1:1cd0afbed23c | 331 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 1:1cd0afbed23c | 332 | printf("preamble"); |
dudmuck | 1:1cd0afbed23c | 333 | else |
dudmuck | 1:1cd0afbed23c | 334 | printf("rssi"); |
dudmuck | 1:1cd0afbed23c | 335 | } else |
dudmuck | 1:1cd0afbed23c | 336 | printf("ModeReady"); |
dudmuck | 1:1cd0afbed23c | 337 | break; |
dudmuck | 1:1cd0afbed23c | 338 | } |
dudmuck | 1:1cd0afbed23c | 339 | |
dudmuck | 1:1cd0afbed23c | 340 | radio.RegDioMapping1.octet = radio.read_reg(REG_DIOMAPPING1); |
dudmuck | 1:1cd0afbed23c | 341 | |
dudmuck | 2:c6b23a43a9d9 | 342 | printf(" DIO3:"); |
dudmuck | 1:1cd0afbed23c | 343 | switch (radio.RegDioMapping1.bits.Dio3Mapping) { |
dudmuck | 1:1cd0afbed23c | 344 | case 0: printf("Timeout"); break; |
dudmuck | 1:1cd0afbed23c | 345 | case 1: |
dudmuck | 1:1cd0afbed23c | 346 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 1:1cd0afbed23c | 347 | printf("preamble"); |
dudmuck | 1:1cd0afbed23c | 348 | else |
dudmuck | 1:1cd0afbed23c | 349 | printf("rssi"); |
dudmuck | 1:1cd0afbed23c | 350 | break; |
dudmuck | 1:1cd0afbed23c | 351 | case 2: printf("?automode_status?"); break; |
dudmuck | 1:1cd0afbed23c | 352 | case 3: printf("TempChange/LowBat"); break; |
dudmuck | 1:1cd0afbed23c | 353 | } |
dudmuck | 1:1cd0afbed23c | 354 | |
dudmuck | 2:c6b23a43a9d9 | 355 | printf(" DIO2:"); |
dudmuck | 1:1cd0afbed23c | 356 | if (fsk.RegPktConfig2.bits.DataModePacket) { |
dudmuck | 1:1cd0afbed23c | 357 | switch (radio.RegDioMapping1.bits.Dio2Mapping) { |
dudmuck | 1:1cd0afbed23c | 358 | case 0: printf("FifoFull"); break; |
dudmuck | 1:1cd0afbed23c | 359 | case 1: printf("RxReady"); break; |
dudmuck | 1:1cd0afbed23c | 360 | case 2: printf("FifoFull/rx-timeout"); break; |
dudmuck | 1:1cd0afbed23c | 361 | case 3: printf("FifoFull/rx-syncadrs"); break; |
dudmuck | 1:1cd0afbed23c | 362 | } |
dudmuck | 1:1cd0afbed23c | 363 | } else { |
dudmuck | 1:1cd0afbed23c | 364 | printf("Data"); |
dudmuck | 1:1cd0afbed23c | 365 | } |
dudmuck | 1:1cd0afbed23c | 366 | |
dudmuck | 2:c6b23a43a9d9 | 367 | printf(" DIO1:"); |
dudmuck | 1:1cd0afbed23c | 368 | if (fsk.RegPktConfig2.bits.DataModePacket) { |
dudmuck | 1:1cd0afbed23c | 369 | switch (radio.RegDioMapping1.bits.Dio1Mapping) { |
dudmuck | 1:1cd0afbed23c | 370 | case 0: printf("FifoThresh"); break; |
dudmuck | 1:1cd0afbed23c | 371 | case 1: printf("FifoEmpty"); break; |
dudmuck | 1:1cd0afbed23c | 372 | case 2: printf("FifoFull"); break; |
dudmuck | 1:1cd0afbed23c | 373 | case 3: printf("[41m-3-[0m"); break; |
dudmuck | 1:1cd0afbed23c | 374 | } |
dudmuck | 1:1cd0afbed23c | 375 | } else { |
dudmuck | 1:1cd0afbed23c | 376 | switch (radio.RegDioMapping1.bits.Dio1Mapping) { |
dudmuck | 1:1cd0afbed23c | 377 | case 0: printf("Dclk"); break; |
dudmuck | 1:1cd0afbed23c | 378 | case 1: |
dudmuck | 1:1cd0afbed23c | 379 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 1:1cd0afbed23c | 380 | printf("preamble"); |
dudmuck | 1:1cd0afbed23c | 381 | else |
dudmuck | 1:1cd0afbed23c | 382 | printf("rssi"); |
dudmuck | 1:1cd0afbed23c | 383 | break; |
dudmuck | 1:1cd0afbed23c | 384 | case 2: printf("[41m-2-[0m"); break; |
dudmuck | 1:1cd0afbed23c | 385 | case 3: printf("[41m-3-[0m"); break; |
dudmuck | 1:1cd0afbed23c | 386 | } |
dudmuck | 1:1cd0afbed23c | 387 | } |
dudmuck | 1:1cd0afbed23c | 388 | |
dudmuck | 2:c6b23a43a9d9 | 389 | printf(" DIO0:"); |
dudmuck | 1:1cd0afbed23c | 390 | if (fsk.RegPktConfig2.bits.DataModePacket) { |
dudmuck | 1:1cd0afbed23c | 391 | switch (radio.RegDioMapping1.bits.Dio0Mapping) { |
dudmuck | 1:1cd0afbed23c | 392 | case 0: printf("PayloadReady/PacketSent"); break; |
dudmuck | 1:1cd0afbed23c | 393 | case 1: printf("CrcOk"); break; |
dudmuck | 1:1cd0afbed23c | 394 | case 2: printf("[41m-2-[0m"); break; |
dudmuck | 1:1cd0afbed23c | 395 | case 3: printf("TempChange/LowBat"); break; |
dudmuck | 1:1cd0afbed23c | 396 | } |
dudmuck | 1:1cd0afbed23c | 397 | } else { |
dudmuck | 1:1cd0afbed23c | 398 | switch (radio.RegDioMapping1.bits.Dio0Mapping) { |
dudmuck | 1:1cd0afbed23c | 399 | case 0: printf("SyncAdrs/TxReady"); break; |
dudmuck | 1:1cd0afbed23c | 400 | case 1: |
dudmuck | 1:1cd0afbed23c | 401 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 1:1cd0afbed23c | 402 | printf("preamble"); |
dudmuck | 1:1cd0afbed23c | 403 | else |
dudmuck | 1:1cd0afbed23c | 404 | printf("rssi"); |
dudmuck | 1:1cd0afbed23c | 405 | break; |
dudmuck | 1:1cd0afbed23c | 406 | case 2: printf("RxReady"); break; |
dudmuck | 1:1cd0afbed23c | 407 | case 3: printf("[41m-3-[0m"); break; |
dudmuck | 1:1cd0afbed23c | 408 | } |
dudmuck | 1:1cd0afbed23c | 409 | } |
dudmuck | 1:1cd0afbed23c | 410 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 411 | } |
dudmuck | 1:1cd0afbed23c | 412 | |
dudmuck | 0:be215de91a68 | 413 | void lora_print_status() |
dudmuck | 15:c69b942685ea | 414 | { |
dudmuck | 0:be215de91a68 | 415 | radio.RegOpMode.octet = radio.read_reg(REG_OPMODE); |
dudmuck | 0:be215de91a68 | 416 | if (!radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 0:be215de91a68 | 417 | printf("FSK\r\n"); |
dudmuck | 0:be215de91a68 | 418 | return; |
dudmuck | 0:be215de91a68 | 419 | } |
dudmuck | 0:be215de91a68 | 420 | |
dudmuck | 1:1cd0afbed23c | 421 | lora_print_dio(); |
dudmuck | 0:be215de91a68 | 422 | printf("LoRa "); |
dudmuck | 0:be215de91a68 | 423 | |
dudmuck | 0:be215de91a68 | 424 | // printing LoRa registers at 0x0d -> 0x3f |
dudmuck | 0:be215de91a68 | 425 | |
dudmuck | 1:1cd0afbed23c | 426 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 1:1cd0afbed23c | 427 | lora.RegModemConfig2.octet = radio.read_reg(REG_LR_MODEMCONFIG2); |
dudmuck | 0:be215de91a68 | 428 | |
dudmuck | 1:1cd0afbed23c | 429 | lora_printCodingRate(false); // false: transmitted coding rate |
dudmuck | 1:1cd0afbed23c | 430 | lora_printHeaderMode(); |
dudmuck | 1:1cd0afbed23c | 431 | lora_printBw(); |
dudmuck | 1:1cd0afbed23c | 432 | lora_printSf(); |
dudmuck | 1:1cd0afbed23c | 433 | lora_printRxPayloadCrcOn(); |
dudmuck | 0:be215de91a68 | 434 | // RegModemStat |
dudmuck | 0:be215de91a68 | 435 | printf("ModemStat:0x%02x\r\n", radio.read_reg(REG_LR_MODEMSTAT)); |
dudmuck | 0:be215de91a68 | 436 | |
dudmuck | 0:be215de91a68 | 437 | // fifo ptrs: |
dudmuck | 1:1cd0afbed23c | 438 | lora.RegPayloadLength = radio.read_reg(REG_LR_PAYLOADLENGTH); |
dudmuck | 1:1cd0afbed23c | 439 | lora.RegRxMaxPayloadLength = radio.read_reg(REG_LR_RX_MAX_PAYLOADLENGTH); |
dudmuck | 0:be215de91a68 | 440 | printf("fifoptr=0x%02x txbase=0x%02x rxbase=0x%02x payloadLength=0x%02x maxlen=0x%02x", |
dudmuck | 0:be215de91a68 | 441 | radio.read_reg(REG_LR_FIFOADDRPTR), |
dudmuck | 0:be215de91a68 | 442 | radio.read_reg(REG_LR_FIFOTXBASEADDR), |
dudmuck | 0:be215de91a68 | 443 | radio.read_reg(REG_LR_FIFORXBASEADDR), |
dudmuck | 1:1cd0afbed23c | 444 | lora.RegPayloadLength, |
dudmuck | 1:1cd0afbed23c | 445 | lora.RegRxMaxPayloadLength |
dudmuck | 0:be215de91a68 | 446 | ); |
dudmuck | 0:be215de91a68 | 447 | |
dudmuck | 1:1cd0afbed23c | 448 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 0:be215de91a68 | 449 | printLoraIrqs_(false); |
dudmuck | 0:be215de91a68 | 450 | |
dudmuck | 1:1cd0afbed23c | 451 | lora.RegHopPeriod = radio.read_reg(REG_LR_HOPPERIOD); |
dudmuck | 1:1cd0afbed23c | 452 | if (lora.RegHopPeriod != 0) { |
dudmuck | 1:1cd0afbed23c | 453 | printf("\r\nHopPeriod:0x%02x\r\n", lora.RegHopPeriod); |
dudmuck | 0:be215de91a68 | 454 | } |
dudmuck | 0:be215de91a68 | 455 | |
dudmuck | 18:9530d682fd9a | 456 | printf("SymbTimeout:%d ", radio.read_u16(REG_LR_MODEMCONFIG2) & 0x3ff); |
dudmuck | 0:be215de91a68 | 457 | |
dudmuck | 1:1cd0afbed23c | 458 | lora.RegPreamble = radio.read_u16(REG_LR_PREAMBLEMSB); |
dudmuck | 4:7a9007dfc0e5 | 459 | printf("PreambleLength:%d ", lora.RegPreamble); |
dudmuck | 0:be215de91a68 | 460 | |
dudmuck | 0:be215de91a68 | 461 | if (radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER || radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER_SINGLE) { |
dudmuck | 15:c69b942685ea | 462 | printf("rssi:%ddBm ", lora.get_current_rssi()); |
dudmuck | 0:be215de91a68 | 463 | } |
dudmuck | 0:be215de91a68 | 464 | |
dudmuck | 1:1cd0afbed23c | 465 | lora_printTxContinuousMode(); |
dudmuck | 0:be215de91a68 | 466 | |
dudmuck | 0:be215de91a68 | 467 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 468 | lora_printAgcAutoOn(); |
dudmuck | 0:be215de91a68 | 469 | if (radio.type == SX1272) { |
dudmuck | 1:1cd0afbed23c | 470 | printf(" LowDataRateOptimize:%d\r\n", lora.RegModemConfig.sx1272bits.LowDataRateOptimize); |
dudmuck | 0:be215de91a68 | 471 | } |
dudmuck | 0:be215de91a68 | 472 | |
dudmuck | 0:be215de91a68 | 473 | printf("\r\nHeaderCount:%d PacketCount:%d, ", |
dudmuck | 0:be215de91a68 | 474 | radio.read_u16(REG_LR_RXHEADERCNTVALUE_MSB), radio.read_u16(REG_LR_RXPACKETCNTVALUE_MSB)); |
dudmuck | 0:be215de91a68 | 475 | |
dudmuck | 0:be215de91a68 | 476 | printf("Lora detection threshold:%02x\r\n", radio.read_reg(REG_LR_DETECTION_THRESHOLD)); |
dudmuck | 1:1cd0afbed23c | 477 | lora.RegTest31.octet = radio.read_reg(REG_LR_TEST31); |
dudmuck | 1:1cd0afbed23c | 478 | printf("detect_trig_same_peaks_nb:%d\r\n", lora.RegTest31.bits.detect_trig_same_peaks_nb); |
dudmuck | 0:be215de91a68 | 479 | |
dudmuck | 0:be215de91a68 | 480 | if (radio.type == SX1272) { |
dudmuck | 1:1cd0afbed23c | 481 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 6:fe16f96ee335 | 482 | printf("LowDataRateOptimize:%d ", lora.RegModemConfig.sx1272bits.LowDataRateOptimize); |
dudmuck | 0:be215de91a68 | 483 | } else if (radio.type == SX1276) { |
dudmuck | 1:1cd0afbed23c | 484 | lora.RegModemConfig3.octet = radio.read_reg(REG_LR_MODEMCONFIG3); |
dudmuck | 6:fe16f96ee335 | 485 | printf("LowDataRateOptimize:%d ", lora.RegModemConfig3.sx1276bits.LowDataRateOptimize); |
dudmuck | 0:be215de91a68 | 486 | } |
dudmuck | 0:be215de91a68 | 487 | |
dudmuck | 6:fe16f96ee335 | 488 | printf(" invert: rx=%d tx=%d\r\n", lora.RegTest33.bits.invert_i_q, !lora.RegTest33.bits.chirp_invert_tx); |
dudmuck | 6:fe16f96ee335 | 489 | |
dudmuck | 0:be215de91a68 | 490 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 491 | //printf("A %02x\r\n", radio.RegModemConfig2.octet); |
dudmuck | 0:be215de91a68 | 492 | } |
dudmuck | 0:be215de91a68 | 493 | |
dudmuck | 1:1cd0afbed23c | 494 | uint16_t |
dudmuck | 1:1cd0afbed23c | 495 | fsk_get_PayloadLength(void) |
dudmuck | 1:1cd0afbed23c | 496 | { |
dudmuck | 1:1cd0afbed23c | 497 | fsk.RegPktConfig2.word = radio.read_u16(REG_FSK_PACKETCONFIG2); |
dudmuck | 1:1cd0afbed23c | 498 | |
dudmuck | 1:1cd0afbed23c | 499 | return fsk.RegPktConfig2.bits.PayloadLength; |
dudmuck | 1:1cd0afbed23c | 500 | } |
dudmuck | 1:1cd0afbed23c | 501 | |
dudmuck | 1:1cd0afbed23c | 502 | void fsk_printAddressFiltering() |
dudmuck | 1:1cd0afbed23c | 503 | { |
dudmuck | 1:1cd0afbed23c | 504 | uint8_t FSKRegNodeAdrs, FSKRegBroadcastAdrs; |
dudmuck | 1:1cd0afbed23c | 505 | |
dudmuck | 1:1cd0afbed23c | 506 | printf(" AddressFiltering:"); |
dudmuck | 1:1cd0afbed23c | 507 | switch (fsk.RegPktConfig1.bits.AddressFiltering) { |
dudmuck | 1:1cd0afbed23c | 508 | case 0: printf("off"); break; |
dudmuck | 1:1cd0afbed23c | 509 | case 1: // NodeAddress |
dudmuck | 1:1cd0afbed23c | 510 | FSKRegNodeAdrs = radio.read_reg(REG_FSK_NODEADRS); |
dudmuck | 6:fe16f96ee335 | 511 | printf("NodeAdrs:%02x\r\n", FSKRegNodeAdrs); |
dudmuck | 1:1cd0afbed23c | 512 | break; |
dudmuck | 1:1cd0afbed23c | 513 | case 2: // NodeAddress & BroadcastAddress |
dudmuck | 1:1cd0afbed23c | 514 | FSKRegNodeAdrs = radio.read_reg(REG_FSK_NODEADRS); |
dudmuck | 1:1cd0afbed23c | 515 | printf("NodeAdrs:%02x ", FSKRegNodeAdrs); |
dudmuck | 1:1cd0afbed23c | 516 | FSKRegBroadcastAdrs = radio.read_reg(REG_FSK_BROADCASTADRS); |
dudmuck | 6:fe16f96ee335 | 517 | printf("BroadcastAdrs:%02x\r\n", FSKRegBroadcastAdrs ); |
dudmuck | 1:1cd0afbed23c | 518 | break; |
dudmuck | 1:1cd0afbed23c | 519 | default: |
dudmuck | 1:1cd0afbed23c | 520 | printf("%d", fsk.RegPktConfig1.bits.AddressFiltering); |
dudmuck | 1:1cd0afbed23c | 521 | break; |
dudmuck | 1:1cd0afbed23c | 522 | } |
dudmuck | 1:1cd0afbed23c | 523 | } |
dudmuck | 1:1cd0afbed23c | 524 | |
dudmuck | 1:1cd0afbed23c | 525 | void fsk_print_IrqFlags2() |
dudmuck | 1:1cd0afbed23c | 526 | { |
dudmuck | 2:c6b23a43a9d9 | 527 | RegIrqFlags2_t RegIrqFlags2; |
dudmuck | 1:1cd0afbed23c | 528 | |
dudmuck | 1:1cd0afbed23c | 529 | printf("IrqFlags2: "); |
dudmuck | 2:c6b23a43a9d9 | 530 | RegIrqFlags2.octet = radio.read_reg(REG_FSK_IRQFLAGS2); |
dudmuck | 2:c6b23a43a9d9 | 531 | if (RegIrqFlags2.bits.FifoFull) |
dudmuck | 1:1cd0afbed23c | 532 | printf("FifoFull "); |
dudmuck | 2:c6b23a43a9d9 | 533 | if (RegIrqFlags2.bits.FifoEmpty) |
dudmuck | 1:1cd0afbed23c | 534 | printf("FifoEmpty "); |
dudmuck | 2:c6b23a43a9d9 | 535 | if (RegIrqFlags2.bits.FifoLevel) |
dudmuck | 1:1cd0afbed23c | 536 | printf("FifoLevel "); |
dudmuck | 2:c6b23a43a9d9 | 537 | if (RegIrqFlags2.bits.FifoOverrun) |
dudmuck | 1:1cd0afbed23c | 538 | printf("FifoOverrun "); |
dudmuck | 2:c6b23a43a9d9 | 539 | if (RegIrqFlags2.bits.PacketSent) |
dudmuck | 1:1cd0afbed23c | 540 | printf("PacketSent "); |
dudmuck | 2:c6b23a43a9d9 | 541 | if (RegIrqFlags2.bits.PayloadReady) |
dudmuck | 1:1cd0afbed23c | 542 | printf("PayloadReady "); |
dudmuck | 2:c6b23a43a9d9 | 543 | if (RegIrqFlags2.bits.CrcOk) |
dudmuck | 1:1cd0afbed23c | 544 | printf("CrcOk "); |
dudmuck | 2:c6b23a43a9d9 | 545 | if (RegIrqFlags2.bits.LowBat) |
dudmuck | 1:1cd0afbed23c | 546 | printf("LowBat "); |
dudmuck | 2:c6b23a43a9d9 | 547 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 548 | } |
dudmuck | 1:1cd0afbed23c | 549 | |
dudmuck | 1:1cd0afbed23c | 550 | void |
dudmuck | 1:1cd0afbed23c | 551 | fsk_print_status() |
dudmuck | 1:1cd0afbed23c | 552 | { |
dudmuck | 1:1cd0afbed23c | 553 | //uint16_t s; |
dudmuck | 2:c6b23a43a9d9 | 554 | RegIrqFlags1_t RegIrqFlags1; |
dudmuck | 1:1cd0afbed23c | 555 | |
dudmuck | 1:1cd0afbed23c | 556 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 1:1cd0afbed23c | 557 | printf("LoRa\r\n"); |
dudmuck | 1:1cd0afbed23c | 558 | return; |
dudmuck | 1:1cd0afbed23c | 559 | } |
dudmuck | 1:1cd0afbed23c | 560 | |
dudmuck | 1:1cd0afbed23c | 561 | if (radio.RegOpMode.bits.ModulationType == 0) { |
dudmuck | 1:1cd0afbed23c | 562 | printf("FSK "); |
dudmuck | 1:1cd0afbed23c | 563 | switch (radio.RegOpMode.bits.ModulationShaping) { |
dudmuck | 1:1cd0afbed23c | 564 | case 1: printf("BT1.0 "); break; |
dudmuck | 1:1cd0afbed23c | 565 | case 2: printf("BT0.5 "); break; |
dudmuck | 1:1cd0afbed23c | 566 | case 3: printf("BT0.3 "); break; |
dudmuck | 1:1cd0afbed23c | 567 | } |
dudmuck | 1:1cd0afbed23c | 568 | } else if (radio.RegOpMode.bits.ModulationType == 1) { |
dudmuck | 1:1cd0afbed23c | 569 | printf("OOK "); |
dudmuck | 18:9530d682fd9a | 570 | switch (radio.RegOpMode.bits.ModulationShaping) { |
dudmuck | 18:9530d682fd9a | 571 | case 1: printf("Fcutoff=bitrate"); break; |
dudmuck | 18:9530d682fd9a | 572 | case 2: printf("Fcutoff=2*bitrate"); break; |
dudmuck | 18:9530d682fd9a | 573 | case 3: printf("?"); break; |
dudmuck | 18:9530d682fd9a | 574 | } |
dudmuck | 1:1cd0afbed23c | 575 | } |
dudmuck | 1:1cd0afbed23c | 576 | |
dudmuck | 19:be8a8b0e7320 | 577 | printf("%" PRIu32 "bps fdev:%" PRIu32 "Hz\r\n", fsk.get_bitrate(), fsk.get_tx_fdev_hz()); |
dudmuck | 1:1cd0afbed23c | 578 | |
dudmuck | 1:1cd0afbed23c | 579 | fsk.RegPktConfig2.word = radio.read_u16(REG_FSK_PACKETCONFIG2); |
dudmuck | 1:1cd0afbed23c | 580 | |
dudmuck | 1:1cd0afbed23c | 581 | fsk_print_dio(); |
dudmuck | 1:1cd0afbed23c | 582 | |
dudmuck | 19:be8a8b0e7320 | 583 | printf("rxbw:%" PRIu32 "Hz ", fsk.get_rx_bw_hz(REG_FSK_RXBW)); |
dudmuck | 19:be8a8b0e7320 | 584 | printf("afcbw:%" PRIu32 "Hz\r\n", fsk.get_rx_bw_hz(REG_FSK_AFCBW)); |
dudmuck | 1:1cd0afbed23c | 585 | |
dudmuck | 1:1cd0afbed23c | 586 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 1:1cd0afbed23c | 587 | printf("RssiOffset:%ddB smoothing:%dsamples\r\n", fsk.RegRssiConfig.bits.RssiOffset, 1 << (fsk.RegRssiConfig.bits.RssiSmoothing+1)); |
dudmuck | 1:1cd0afbed23c | 588 | |
dudmuck | 1:1cd0afbed23c | 589 | |
dudmuck | 1:1cd0afbed23c | 590 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 1:1cd0afbed23c | 591 | |
dudmuck | 1:1cd0afbed23c | 592 | if (fsk.RegPktConfig2.bits.DataModePacket) { |
dudmuck | 1:1cd0afbed23c | 593 | uint16_t len; |
dudmuck | 1:1cd0afbed23c | 594 | /* packet mode */ |
dudmuck | 1:1cd0afbed23c | 595 | len = fsk_get_PayloadLength(); |
dudmuck | 1:1cd0afbed23c | 596 | printf("packet RegPayloadLength:0x%03x ", len); |
dudmuck | 1:1cd0afbed23c | 597 | |
dudmuck | 1:1cd0afbed23c | 598 | if (fsk.RegPktConfig2.bits.BeaconOn) |
dudmuck | 1:1cd0afbed23c | 599 | printf("BeaconOn "); |
dudmuck | 1:1cd0afbed23c | 600 | |
dudmuck | 1:1cd0afbed23c | 601 | fsk.RegFifoThreshold.octet = radio.read_reg(REG_FSK_FIFOTHRESH); |
dudmuck | 1:1cd0afbed23c | 602 | printf("FifoThreshold:%d TxStartCondition:", fsk.RegFifoThreshold.bits.FifoThreshold); |
dudmuck | 1:1cd0afbed23c | 603 | if (fsk.RegFifoThreshold.bits.TxStartCondition) |
dudmuck | 1:1cd0afbed23c | 604 | printf("!FifoEmpty"); |
dudmuck | 1:1cd0afbed23c | 605 | else |
dudmuck | 1:1cd0afbed23c | 606 | printf("FifoLevel"); |
dudmuck | 1:1cd0afbed23c | 607 | |
dudmuck | 1:1cd0afbed23c | 608 | printf("\r\nAutoRestartRxMode:"); |
dudmuck | 1:1cd0afbed23c | 609 | switch (fsk.RegSyncConfig.bits.AutoRestartRxMode) { |
dudmuck | 1:1cd0afbed23c | 610 | case 0: printf("off "); break; |
dudmuck | 1:1cd0afbed23c | 611 | case 1: printf("no-pll-wait "); break; |
dudmuck | 1:1cd0afbed23c | 612 | case 2: printf("pll-wait "); break; |
dudmuck | 1:1cd0afbed23c | 613 | case 3: printf("3 "); break; |
dudmuck | 1:1cd0afbed23c | 614 | } |
dudmuck | 1:1cd0afbed23c | 615 | //...todo |
dudmuck | 1:1cd0afbed23c | 616 | |
dudmuck | 1:1cd0afbed23c | 617 | printf("PreambleSize:%d ", radio.read_u16(REG_FSK_PREAMBLEMSB)); |
dudmuck | 1:1cd0afbed23c | 618 | |
dudmuck | 1:1cd0afbed23c | 619 | fsk.RegOokPeak.octet = radio.read_reg(REG_FSK_OOKPEAK); |
dudmuck | 1:1cd0afbed23c | 620 | if (fsk.RegOokPeak.bits.barker_en) |
dudmuck | 1:1cd0afbed23c | 621 | printf("barker "); |
dudmuck | 1:1cd0afbed23c | 622 | if (!fsk.RegOokPeak.bits.BitSyncOn) |
dudmuck | 1:1cd0afbed23c | 623 | printf("BitSyncOff "); |
dudmuck | 1:1cd0afbed23c | 624 | //...todo |
dudmuck | 1:1cd0afbed23c | 625 | |
dudmuck | 1:1cd0afbed23c | 626 | fsk.RegPktConfig1.octet = radio.read_reg(REG_FSK_PACKETCONFIG1); |
dudmuck | 1:1cd0afbed23c | 627 | if (fsk.RegPktConfig1.bits.PacketFormatVariable) |
dudmuck | 1:1cd0afbed23c | 628 | printf("variable"); |
dudmuck | 1:1cd0afbed23c | 629 | else |
dudmuck | 1:1cd0afbed23c | 630 | printf("fixed"); |
dudmuck | 1:1cd0afbed23c | 631 | printf("-length\r\ncrc"); |
dudmuck | 1:1cd0afbed23c | 632 | if (fsk.RegPktConfig1.bits.CrcOn) { |
dudmuck | 1:1cd0afbed23c | 633 | printf("On"); |
dudmuck | 1:1cd0afbed23c | 634 | } else |
dudmuck | 1:1cd0afbed23c | 635 | printf("Off"); |
dudmuck | 1:1cd0afbed23c | 636 | printf(" crctype:"); |
dudmuck | 1:1cd0afbed23c | 637 | if (fsk.RegPktConfig1.bits.CrCWhiteningType) |
dudmuck | 1:1cd0afbed23c | 638 | printf("IBM"); |
dudmuck | 1:1cd0afbed23c | 639 | else |
dudmuck | 1:1cd0afbed23c | 640 | printf("CCITT"); |
dudmuck | 1:1cd0afbed23c | 641 | printf(" dcFree:"); |
dudmuck | 1:1cd0afbed23c | 642 | switch (fsk.RegPktConfig1.bits.DcFree) { |
dudmuck | 1:1cd0afbed23c | 643 | case 0: printf("none "); break; |
dudmuck | 1:1cd0afbed23c | 644 | case 1: printf("Manchester "); break; |
dudmuck | 1:1cd0afbed23c | 645 | case 2: printf("Whitening "); break; |
dudmuck | 1:1cd0afbed23c | 646 | case 3: printf("[41mreserved[0m "); break; |
dudmuck | 1:1cd0afbed23c | 647 | } |
dudmuck | 1:1cd0afbed23c | 648 | fsk_printAddressFiltering(); |
dudmuck | 1:1cd0afbed23c | 649 | |
dudmuck | 1:1cd0afbed23c | 650 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 651 | fsk_print_IrqFlags2(); |
dudmuck | 1:1cd0afbed23c | 652 | } else { |
dudmuck | 1:1cd0afbed23c | 653 | /* continuous mode */ |
dudmuck | 1:1cd0afbed23c | 654 | printf("[7mcontinuous[27m "); |
dudmuck | 1:1cd0afbed23c | 655 | } |
dudmuck | 1:1cd0afbed23c | 656 | |
dudmuck | 1:1cd0afbed23c | 657 | fsk.RegPreambleDetect.octet = radio.read_reg(REG_FSK_PREAMBLEDETECT); |
dudmuck | 1:1cd0afbed23c | 658 | printf("PreambleDetect:"); |
dudmuck | 1:1cd0afbed23c | 659 | if (fsk.RegPreambleDetect.bits.PreambleDetectorOn) { |
dudmuck | 1:1cd0afbed23c | 660 | printf("size=%d,tol=%d ", |
dudmuck | 1:1cd0afbed23c | 661 | fsk.RegPreambleDetect.bits.PreambleDetectorSize, |
dudmuck | 1:1cd0afbed23c | 662 | fsk.RegPreambleDetect.bits.PreambleDetectorTol); |
dudmuck | 1:1cd0afbed23c | 663 | } else |
dudmuck | 1:1cd0afbed23c | 664 | printf("Off "); |
dudmuck | 1:1cd0afbed23c | 665 | |
dudmuck | 18:9530d682fd9a | 666 | if (fsk.RegSyncConfig.bits.SyncOn) { |
dudmuck | 18:9530d682fd9a | 667 | printf(" syncsize:%d ", fsk.RegSyncConfig.bits.SyncSize); |
dudmuck | 18:9530d682fd9a | 668 | printf(" : %02x ", radio.read_reg(REG_FSK_SYNCVALUE1)); |
dudmuck | 18:9530d682fd9a | 669 | printf("%02x ", radio.read_reg(REG_FSK_SYNCVALUE2)); |
dudmuck | 18:9530d682fd9a | 670 | printf("%02x ", radio.read_reg(REG_FSK_SYNCVALUE3)); |
dudmuck | 18:9530d682fd9a | 671 | printf("%02x ", radio.read_reg(REG_FSK_SYNCVALUE4)); |
dudmuck | 18:9530d682fd9a | 672 | } else |
dudmuck | 18:9530d682fd9a | 673 | printf("Sync Off"); |
dudmuck | 1:1cd0afbed23c | 674 | printf("\r\n"); // end sync config |
dudmuck | 1:1cd0afbed23c | 675 | |
dudmuck | 1:1cd0afbed23c | 676 | fsk.RegAfcFei.octet = radio.read_reg(REG_FSK_AFCFEI); |
dudmuck | 1:1cd0afbed23c | 677 | printf("afcAutoClear:"); |
dudmuck | 1:1cd0afbed23c | 678 | if (fsk.RegAfcFei.bits.AfcAutoClearOn) |
dudmuck | 1:1cd0afbed23c | 679 | printf("On"); |
dudmuck | 1:1cd0afbed23c | 680 | else |
dudmuck | 1:1cd0afbed23c | 681 | printf("OFF"); |
dudmuck | 1:1cd0afbed23c | 682 | printf(" afc:%dHz ", (int)(FREQ_STEP_HZ * radio.read_s16(REG_FSK_AFCMSB))); |
dudmuck | 1:1cd0afbed23c | 683 | |
dudmuck | 1:1cd0afbed23c | 684 | printf("fei:%dHz\r\n", (int)(FREQ_STEP_HZ * radio.read_s16(REG_FSK_FEIMSB))); |
dudmuck | 1:1cd0afbed23c | 685 | |
dudmuck | 1:1cd0afbed23c | 686 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 1:1cd0afbed23c | 687 | printf("RxTrigger:"); |
dudmuck | 1:1cd0afbed23c | 688 | switch (fsk.RegRxConfig.bits.RxTrigger) { |
dudmuck | 1:1cd0afbed23c | 689 | case 0: printf("none "); break; |
dudmuck | 1:1cd0afbed23c | 690 | case 1: printf("rssi "); break; |
dudmuck | 1:1cd0afbed23c | 691 | case 6: printf("preamble "); break; |
dudmuck | 1:1cd0afbed23c | 692 | case 7: printf("both "); break; |
dudmuck | 1:1cd0afbed23c | 693 | default: printf("-%d- ", fsk.RegRxConfig.bits.RxTrigger); break; |
dudmuck | 1:1cd0afbed23c | 694 | } |
dudmuck | 1:1cd0afbed23c | 695 | printf("AfcAuto:"); |
dudmuck | 1:1cd0afbed23c | 696 | if (fsk.RegRxConfig.bits.AfcAutoOn) |
dudmuck | 1:1cd0afbed23c | 697 | printf("On "); |
dudmuck | 1:1cd0afbed23c | 698 | else |
dudmuck | 1:1cd0afbed23c | 699 | printf("OFF "); |
dudmuck | 15:c69b942685ea | 700 | |
dudmuck | 15:c69b942685ea | 701 | radio.RegLna.octet = radio.read_reg(REG_LNA); |
dudmuck | 1:1cd0afbed23c | 702 | if (!fsk.RegRxConfig.bits.AgcAutoOn) { |
dudmuck | 1:1cd0afbed23c | 703 | printf("AgcAutoOff:G%d ", radio.RegLna.bits.LnaGain); |
dudmuck | 1:1cd0afbed23c | 704 | } |
dudmuck | 15:c69b942685ea | 705 | printf("LnaBoostHF:%d ", radio.RegLna.bits.LnaBoostHF); |
dudmuck | 1:1cd0afbed23c | 706 | |
dudmuck | 1:1cd0afbed23c | 707 | fsk.RegTimerResol.octet = radio.read_reg(REG_FSK_TIMERRESOL); |
dudmuck | 1:1cd0afbed23c | 708 | if (fsk.RegTimerResol.bits.hlm_started) |
dudmuck | 1:1cd0afbed23c | 709 | printf("[35mhlm_started[0m "); |
dudmuck | 1:1cd0afbed23c | 710 | else |
dudmuck | 1:1cd0afbed23c | 711 | printf("hlm_stopped "); |
dudmuck | 1:1cd0afbed23c | 712 | |
dudmuck | 1:1cd0afbed23c | 713 | fsk.RegRssiThresh = radio.read_reg(REG_FSK_RSSITHRESH); |
dudmuck | 1:1cd0afbed23c | 714 | printf("rssiThreshold:-%.1f@%02x ", fsk.RegRssiThresh / 2.0, REG_FSK_RSSITHRESH); |
dudmuck | 1:1cd0afbed23c | 715 | |
dudmuck | 1:1cd0afbed23c | 716 | radio.RegOpMode.octet = radio.read_reg(REG_OPMODE); |
dudmuck | 1:1cd0afbed23c | 717 | if (radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER || |
dudmuck | 1:1cd0afbed23c | 718 | radio.RegOpMode.bits.Mode == RF_OPMODE_SYNTHESIZER_RX) |
dudmuck | 1:1cd0afbed23c | 719 | { |
dudmuck | 1:1cd0afbed23c | 720 | printf("rssi:-%.1f ", radio.read_reg(REG_FSK_RSSIVALUE) / 2.0); |
dudmuck | 1:1cd0afbed23c | 721 | } |
dudmuck | 1:1cd0afbed23c | 722 | |
dudmuck | 1:1cd0afbed23c | 723 | fsk.RegSeqConfig1.octet = radio.read_reg(REG_FSK_SEQCONFIG1); |
dudmuck | 1:1cd0afbed23c | 724 | printf("\r\nsequencer: "); |
dudmuck | 1:1cd0afbed23c | 725 | printf("FromStart:"); |
dudmuck | 1:1cd0afbed23c | 726 | switch (fsk.RegSeqConfig1.bits.FromStart) { |
dudmuck | 1:1cd0afbed23c | 727 | case 0: |
dudmuck | 1:1cd0afbed23c | 728 | printf("lowPowerSelection-"); |
dudmuck | 1:1cd0afbed23c | 729 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 730 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 731 | else |
dudmuck | 1:1cd0afbed23c | 732 | printf("sequencerOff"); |
dudmuck | 1:1cd0afbed23c | 733 | break; |
dudmuck | 1:1cd0afbed23c | 734 | case 1: printf("rx"); break; |
dudmuck | 1:1cd0afbed23c | 735 | case 2: printf("tx"); break; |
dudmuck | 1:1cd0afbed23c | 736 | case 3: printf("tx on fifolevel"); break; |
dudmuck | 1:1cd0afbed23c | 737 | } |
dudmuck | 1:1cd0afbed23c | 738 | printf(" lowPowerSelection:"); |
dudmuck | 1:1cd0afbed23c | 739 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 740 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 741 | else |
dudmuck | 1:1cd0afbed23c | 742 | printf("SequencerOff"); |
dudmuck | 1:1cd0afbed23c | 743 | if (fsk.RegSeqConfig1.bits.FromStart != 0 && |
dudmuck | 1:1cd0afbed23c | 744 | fsk.RegSeqConfig1.bits.LowPowerSelection != 0) |
dudmuck | 1:1cd0afbed23c | 745 | { // if sequencer enabled: |
dudmuck | 1:1cd0afbed23c | 746 | printf("\r\nsequencer: IdleMode:"); |
dudmuck | 1:1cd0afbed23c | 747 | if (fsk.RegSeqConfig1.bits.IdleMode) |
dudmuck | 1:1cd0afbed23c | 748 | printf("Sleep"); |
dudmuck | 1:1cd0afbed23c | 749 | else |
dudmuck | 1:1cd0afbed23c | 750 | printf("standby"); |
dudmuck | 1:1cd0afbed23c | 751 | printf("\r\nsequencer: FromIdle to:"); |
dudmuck | 1:1cd0afbed23c | 752 | if (fsk.RegSeqConfig1.bits.FromIdle) |
dudmuck | 1:1cd0afbed23c | 753 | printf("rx"); |
dudmuck | 1:1cd0afbed23c | 754 | else |
dudmuck | 1:1cd0afbed23c | 755 | printf("tx"); |
dudmuck | 1:1cd0afbed23c | 756 | printf("\r\nsequencer: FromTransmit to:"); |
dudmuck | 1:1cd0afbed23c | 757 | if (fsk.RegSeqConfig1.bits.FromTransmit) |
dudmuck | 1:1cd0afbed23c | 758 | printf("rx-on-PacketSent"); |
dudmuck | 1:1cd0afbed23c | 759 | else { |
dudmuck | 1:1cd0afbed23c | 760 | printf("lowPowerSelection-"); |
dudmuck | 1:1cd0afbed23c | 761 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 762 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 763 | else |
dudmuck | 1:1cd0afbed23c | 764 | printf("SequencerOff"); |
dudmuck | 1:1cd0afbed23c | 765 | printf("-on-PacketSent"); |
dudmuck | 1:1cd0afbed23c | 766 | } |
dudmuck | 1:1cd0afbed23c | 767 | fsk.RegSeqConfig2.octet = radio.read_reg(REG_FSK_SEQCONFIG2); |
dudmuck | 1:1cd0afbed23c | 768 | printf("\r\nsequencer: FromReceive:"); |
dudmuck | 1:1cd0afbed23c | 769 | switch (fsk.RegSeqConfig2.bits.FromReceive) { |
dudmuck | 1:1cd0afbed23c | 770 | case 1: printf("PacketRecevied on PayloadReady"); break; |
dudmuck | 1:1cd0afbed23c | 771 | case 2: |
dudmuck | 1:1cd0afbed23c | 772 | printf("lowPowerSelection-"); |
dudmuck | 1:1cd0afbed23c | 773 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 774 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 775 | else |
dudmuck | 1:1cd0afbed23c | 776 | printf("SequencerOff"); |
dudmuck | 1:1cd0afbed23c | 777 | printf("-on-payloadReady"); |
dudmuck | 1:1cd0afbed23c | 778 | break; |
dudmuck | 1:1cd0afbed23c | 779 | case 3: printf("PacketRecevied-on-CrcOk"); break; |
dudmuck | 1:1cd0afbed23c | 780 | case 4: printf("SequencerOff-on-Rssi"); break; |
dudmuck | 1:1cd0afbed23c | 781 | case 5: printf("SequencerOff-on-SyncAddress"); break; |
dudmuck | 1:1cd0afbed23c | 782 | case 6: printf("SequencerOff-PreambleDetect"); break; |
dudmuck | 1:1cd0afbed23c | 783 | default: printf("-%d-", fsk.RegSeqConfig2.bits.FromReceive); break; |
dudmuck | 1:1cd0afbed23c | 784 | } |
dudmuck | 1:1cd0afbed23c | 785 | printf("\r\nsequencer: FromRxTimeout:"); |
dudmuck | 1:1cd0afbed23c | 786 | switch (fsk.RegSeqConfig2.bits.FromRxTimeout) { |
dudmuck | 1:1cd0afbed23c | 787 | case 0: printf("rx"); break; |
dudmuck | 1:1cd0afbed23c | 788 | case 1: printf("tx"); break; |
dudmuck | 1:1cd0afbed23c | 789 | case 2: |
dudmuck | 1:1cd0afbed23c | 790 | printf("lowPowerSelection-"); |
dudmuck | 1:1cd0afbed23c | 791 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 792 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 793 | else |
dudmuck | 1:1cd0afbed23c | 794 | printf("SequencerOff"); |
dudmuck | 1:1cd0afbed23c | 795 | break; |
dudmuck | 1:1cd0afbed23c | 796 | case 3: printf("SequencerOff"); break; |
dudmuck | 1:1cd0afbed23c | 797 | } |
dudmuck | 1:1cd0afbed23c | 798 | printf("\r\nsequencer: FromPacketReceived to:"); |
dudmuck | 1:1cd0afbed23c | 799 | switch (fsk.RegSeqConfig2.bits.FromPacketReceived) { |
dudmuck | 1:1cd0afbed23c | 800 | case 0: printf("SequencerOff"); break; |
dudmuck | 1:1cd0afbed23c | 801 | case 1: printf("tx on FifoEmpty"); break; |
dudmuck | 1:1cd0afbed23c | 802 | case 2: |
dudmuck | 1:1cd0afbed23c | 803 | printf("lowPowerSelection-"); |
dudmuck | 1:1cd0afbed23c | 804 | if (fsk.RegSeqConfig1.bits.LowPowerSelection) |
dudmuck | 1:1cd0afbed23c | 805 | printf("idle"); |
dudmuck | 1:1cd0afbed23c | 806 | else |
dudmuck | 1:1cd0afbed23c | 807 | printf("sequencerOff"); |
dudmuck | 1:1cd0afbed23c | 808 | break; |
dudmuck | 1:1cd0afbed23c | 809 | case 3: printf("rx via fs"); break; |
dudmuck | 1:1cd0afbed23c | 810 | case 4: printf("rx"); break; |
dudmuck | 1:1cd0afbed23c | 811 | } |
dudmuck | 1:1cd0afbed23c | 812 | |
dudmuck | 1:1cd0afbed23c | 813 | fsk.RegTimerResol.octet = radio.read_reg(REG_FSK_TIMERRESOL); |
dudmuck | 1:1cd0afbed23c | 814 | printf("\r\nsequencer: timer1:"); |
dudmuck | 1:1cd0afbed23c | 815 | switch (fsk.RegTimerResol.bits.timer1_resol) { |
dudmuck | 1:1cd0afbed23c | 816 | case 0: printf("off"); break; |
dudmuck | 1:1cd0afbed23c | 817 | case 1: printf("%dus", radio.read_reg(REG_FSK_TIMER1COEF) * 64); break; |
dudmuck | 1:1cd0afbed23c | 818 | case 2: printf("%.1fms", radio.read_reg(REG_FSK_TIMER1COEF) * 4.1); break; |
dudmuck | 1:1cd0afbed23c | 819 | case 3: printf("%.1fs", radio.read_reg(REG_FSK_TIMER1COEF) * 0.262); break; |
dudmuck | 1:1cd0afbed23c | 820 | } |
dudmuck | 1:1cd0afbed23c | 821 | |
dudmuck | 1:1cd0afbed23c | 822 | printf(" timer2:"); |
dudmuck | 1:1cd0afbed23c | 823 | switch (fsk.RegTimerResol.bits.timer2_resol) { |
dudmuck | 1:1cd0afbed23c | 824 | case 0: printf("off"); break; |
dudmuck | 1:1cd0afbed23c | 825 | case 1: printf("%dus", radio.read_reg(REG_FSK_TIMER2COEF) * 64); break; |
dudmuck | 1:1cd0afbed23c | 826 | case 2: printf("%.1fms", radio.read_reg(REG_FSK_TIMER2COEF) * 4.1); break; |
dudmuck | 1:1cd0afbed23c | 827 | case 3: printf("%.1fs", radio.read_reg(REG_FSK_TIMER2COEF) * 0.262); break; |
dudmuck | 1:1cd0afbed23c | 828 | } |
dudmuck | 1:1cd0afbed23c | 829 | } // ..if sequencer enabled |
dudmuck | 1:1cd0afbed23c | 830 | |
dudmuck | 1:1cd0afbed23c | 831 | printf("\r\nIrqFlags1:"); |
dudmuck | 2:c6b23a43a9d9 | 832 | RegIrqFlags1.octet = radio.read_reg(REG_FSK_IRQFLAGS1); |
dudmuck | 2:c6b23a43a9d9 | 833 | if (RegIrqFlags1.bits.ModeReady) |
dudmuck | 1:1cd0afbed23c | 834 | printf("ModeReady "); |
dudmuck | 2:c6b23a43a9d9 | 835 | if (RegIrqFlags1.bits.RxReady) |
dudmuck | 1:1cd0afbed23c | 836 | printf("RxReady "); |
dudmuck | 2:c6b23a43a9d9 | 837 | if (RegIrqFlags1.bits.TxReady) |
dudmuck | 1:1cd0afbed23c | 838 | printf("TxReady "); |
dudmuck | 2:c6b23a43a9d9 | 839 | if (RegIrqFlags1.bits.PllLock) |
dudmuck | 1:1cd0afbed23c | 840 | printf("PllLock "); |
dudmuck | 2:c6b23a43a9d9 | 841 | if (RegIrqFlags1.bits.Rssi) |
dudmuck | 1:1cd0afbed23c | 842 | printf("Rssi "); |
dudmuck | 2:c6b23a43a9d9 | 843 | if (RegIrqFlags1.bits.Timeout) |
dudmuck | 1:1cd0afbed23c | 844 | printf("Timeout "); |
dudmuck | 2:c6b23a43a9d9 | 845 | if (RegIrqFlags1.bits.PreambleDetect) |
dudmuck | 1:1cd0afbed23c | 846 | printf("PreambleDetect "); |
dudmuck | 2:c6b23a43a9d9 | 847 | if (RegIrqFlags1.bits.SyncAddressMatch) |
dudmuck | 1:1cd0afbed23c | 848 | printf("SyncAddressMatch "); |
dudmuck | 1:1cd0afbed23c | 849 | |
dudmuck | 1:1cd0afbed23c | 850 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 851 | |
dudmuck | 1:1cd0afbed23c | 852 | /* TODO if (!SX1272FSK->RegPktConfig1.bits.PacketFormatVariable) { // if fixed-length packet format: |
dudmuck | 1:1cd0afbed23c | 853 | s = fsk_get_PayloadLength(); |
dudmuck | 1:1cd0afbed23c | 854 | if (s > FSK_LARGE_PKT_THRESHOLD) |
dudmuck | 1:1cd0afbed23c | 855 | flags.fifo_flow_ctl = 1; |
dudmuck | 1:1cd0afbed23c | 856 | else |
dudmuck | 1:1cd0afbed23c | 857 | flags.fifo_flow_ctl = 0; |
dudmuck | 1:1cd0afbed23c | 858 | }*/ |
dudmuck | 1:1cd0afbed23c | 859 | |
dudmuck | 1:1cd0afbed23c | 860 | fsk.RegImageCal.octet = radio.read_reg(REG_FSK_IMAGECAL); |
dudmuck | 1:1cd0afbed23c | 861 | if (fsk.RegImageCal.bits.TempMonitorOff) { |
dudmuck | 1:1cd0afbed23c | 862 | printf("[42mTempMonitorOff[\r0m\n"); |
dudmuck | 1:1cd0afbed23c | 863 | } else { |
dudmuck | 1:1cd0afbed23c | 864 | printf("TempThreshold:"); |
dudmuck | 1:1cd0afbed23c | 865 | switch (fsk.RegImageCal.bits.TempThreshold) { |
dudmuck | 1:1cd0afbed23c | 866 | case 0: printf("5C"); break; |
dudmuck | 1:1cd0afbed23c | 867 | case 1: printf("10C"); break; |
dudmuck | 1:1cd0afbed23c | 868 | case 2: printf("15C"); break; |
dudmuck | 1:1cd0afbed23c | 869 | case 3: printf("20C"); break; |
dudmuck | 1:1cd0afbed23c | 870 | } |
dudmuck | 1:1cd0afbed23c | 871 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 872 | } |
dudmuck | 1:1cd0afbed23c | 873 | if (fsk.RegImageCal.bits.ImageCalRunning) |
dudmuck | 1:1cd0afbed23c | 874 | printf("[33mImageCalRunning[\r0m\n"); |
dudmuck | 1:1cd0afbed23c | 875 | |
dudmuck | 1:1cd0afbed23c | 876 | /* printf("flags.fifo_flow_ctl:%d pktidx:%d rx_pktlen:%d", flags.fifo_flow_ctl, pktidx, rx_pktlen); |
dudmuck | 6:fe16f96ee335 | 877 | printf("\r\n"); |
dudmuck | 1:1cd0afbed23c | 878 | |
dudmuck | 6:fe16f96ee335 | 879 | //printf("DIO0_PIN:%d\r\n", digitalRead(DIO0_PIN)); |
dudmuck | 6:fe16f96ee335 | 880 | printf("pkt_buf_len=%d remaining=%d\r\n", pk*/ |
dudmuck | 1:1cd0afbed23c | 881 | } |
dudmuck | 1:1cd0afbed23c | 882 | |
dudmuck | 0:be215de91a68 | 883 | void printOpMode() |
dudmuck | 0:be215de91a68 | 884 | { |
dudmuck | 0:be215de91a68 | 885 | radio.RegOpMode.octet = radio.read_reg(REG_OPMODE); |
dudmuck | 0:be215de91a68 | 886 | switch (radio.RegOpMode.bits.Mode) { |
dudmuck | 0:be215de91a68 | 887 | case RF_OPMODE_SLEEP: printf("[7msleep[0m"); break; |
dudmuck | 0:be215de91a68 | 888 | case RF_OPMODE_STANDBY: printf("[7mstby[0m"); break; |
dudmuck | 0:be215de91a68 | 889 | case RF_OPMODE_SYNTHESIZER_TX: printf("[33mfstx[0m"); break; |
dudmuck | 0:be215de91a68 | 890 | case RF_OPMODE_TRANSMITTER: printf("[31mtx[0m"); break; |
dudmuck | 0:be215de91a68 | 891 | case RF_OPMODE_SYNTHESIZER_RX: printf("[33mfsrx[0m"); break; |
dudmuck | 0:be215de91a68 | 892 | case RF_OPMODE_RECEIVER: printf("[32mrx[0m"); break; |
dudmuck | 0:be215de91a68 | 893 | case 6: |
dudmuck | 0:be215de91a68 | 894 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 0:be215de91a68 | 895 | printf("[42mrxs[0m"); |
dudmuck | 0:be215de91a68 | 896 | else |
dudmuck | 0:be215de91a68 | 897 | printf("-6-"); |
dudmuck | 0:be215de91a68 | 898 | break; // todo: different lora/fsk |
dudmuck | 0:be215de91a68 | 899 | case 7: |
dudmuck | 0:be215de91a68 | 900 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 0:be215de91a68 | 901 | printf("[45mcad[0m"); |
dudmuck | 0:be215de91a68 | 902 | else |
dudmuck | 0:be215de91a68 | 903 | printf("-7-"); |
dudmuck | 0:be215de91a68 | 904 | break; // todo: different lora/fsk |
dudmuck | 0:be215de91a68 | 905 | } |
dudmuck | 0:be215de91a68 | 906 | } |
dudmuck | 0:be215de91a68 | 907 | |
dudmuck | 0:be215de91a68 | 908 | void |
dudmuck | 0:be215de91a68 | 909 | printPa() |
dudmuck | 0:be215de91a68 | 910 | { |
dudmuck | 0:be215de91a68 | 911 | radio.RegPaConfig.octet = radio.read_reg(REG_PACONFIG); |
dudmuck | 0:be215de91a68 | 912 | if (radio.RegPaConfig.bits.PaSelect) { |
dudmuck | 0:be215de91a68 | 913 | float output_dBm = 17 - (15-radio.RegPaConfig.bits.OutputPower); |
dudmuck | 0:be215de91a68 | 914 | printf(" PABOOST OutputPower=%.1fdBm", output_dBm); |
dudmuck | 0:be215de91a68 | 915 | } else { |
dudmuck | 0:be215de91a68 | 916 | float pmax = (0.6*radio.RegPaConfig.bits.MaxPower) + 10.8; |
dudmuck | 0:be215de91a68 | 917 | float output_dBm = pmax - (15-radio.RegPaConfig.bits.OutputPower); |
dudmuck | 20:b11592c9ba5f | 918 | #ifdef TARGET_MTS_MDOT_F411RE |
dudmuck | 20:b11592c9ba5f | 919 | printf(" \x1b[31mRFO pmax=%.1fdBm OutputPower=%.1fdBm\x1b[0m", pmax, output_dBm); // not connected |
dudmuck | 20:b11592c9ba5f | 920 | #else |
dudmuck | 0:be215de91a68 | 921 | printf(" RFO pmax=%.1fdBm OutputPower=%.1fdBm", pmax, output_dBm); |
dudmuck | 20:b11592c9ba5f | 922 | #endif |
dudmuck | 0:be215de91a68 | 923 | } |
dudmuck | 0:be215de91a68 | 924 | } |
dudmuck | 0:be215de91a68 | 925 | |
dudmuck | 0:be215de91a68 | 926 | void /* things always present, whether lora or fsk */ |
dudmuck | 0:be215de91a68 | 927 | common_print_status() |
dudmuck | 0:be215de91a68 | 928 | { |
dudmuck | 0:be215de91a68 | 929 | printf("version:0x%02x %.3fMHz ", radio.read_reg(REG_VERSION), radio.get_frf_MHz()); |
dudmuck | 0:be215de91a68 | 930 | printOpMode(); |
dudmuck | 0:be215de91a68 | 931 | |
dudmuck | 0:be215de91a68 | 932 | printPa(); |
dudmuck | 0:be215de91a68 | 933 | |
dudmuck | 0:be215de91a68 | 934 | radio.RegOcp.octet = radio.read_reg(REG_OCP); |
dudmuck | 0:be215de91a68 | 935 | if (radio.RegOcp.bits.OcpOn) { |
dudmuck | 0:be215de91a68 | 936 | int imax = 0; |
dudmuck | 0:be215de91a68 | 937 | if (radio.RegOcp.bits.OcpTrim < 16) |
dudmuck | 0:be215de91a68 | 938 | imax = 45 + (5 * radio.RegOcp.bits.OcpTrim); |
dudmuck | 0:be215de91a68 | 939 | else if (radio.RegOcp.bits.OcpTrim < 28) |
dudmuck | 0:be215de91a68 | 940 | imax = -30 + (10 * radio.RegOcp.bits.OcpTrim); |
dudmuck | 0:be215de91a68 | 941 | else |
dudmuck | 0:be215de91a68 | 942 | imax = 240; |
dudmuck | 0:be215de91a68 | 943 | printf(" OcpOn %dmA ", imax); |
dudmuck | 0:be215de91a68 | 944 | } else |
dudmuck | 0:be215de91a68 | 945 | printf(" OcpOFF "); |
dudmuck | 0:be215de91a68 | 946 | |
dudmuck | 0:be215de91a68 | 947 | printf("\r\n"); |
dudmuck | 8:227605e4a760 | 948 | |
dudmuck | 8:227605e4a760 | 949 | if (per_en) { |
dudmuck | 18:9530d682fd9a | 950 | if (cadper_enable) { |
dudmuck | 19:be8a8b0e7320 | 951 | printf("cadper %" PRIu32 ", ", num_cads); |
dudmuck | 18:9530d682fd9a | 952 | } |
dudmuck | 8:227605e4a760 | 953 | printf("per_tx_delay:%f\r\n", per_tx_delay); |
dudmuck | 8:227605e4a760 | 954 | printf("PER device ID:%d\r\n", per_id); |
dudmuck | 8:227605e4a760 | 955 | } |
dudmuck | 18:9530d682fd9a | 956 | |
dudmuck | 20:b11592c9ba5f | 957 | if (poll_irq_en) { |
dudmuck | 18:9530d682fd9a | 958 | printf("poll_irq_en\r\n"); |
dudmuck | 20:b11592c9ba5f | 959 | if (!radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 20:b11592c9ba5f | 960 | printf("saved irqs: %02x %02x\r\n", fsk_RegIrqFlags1_prev.octet, fsk_RegIrqFlags2_prev.octet); |
dudmuck | 20:b11592c9ba5f | 961 | } |
dudmuck | 20:b11592c9ba5f | 962 | } |
dudmuck | 0:be215de91a68 | 963 | |
dudmuck | 0:be215de91a68 | 964 | } |
dudmuck | 0:be215de91a68 | 965 | |
dudmuck | 0:be215de91a68 | 966 | void print_rx_buf(int len) |
dudmuck | 0:be215de91a68 | 967 | { |
dudmuck | 0:be215de91a68 | 968 | int i; |
dudmuck | 0:be215de91a68 | 969 | |
dudmuck | 0:be215de91a68 | 970 | printf("000:"); |
dudmuck | 0:be215de91a68 | 971 | for (i = 0; i < len; i++) { |
dudmuck | 0:be215de91a68 | 972 | //printf("(%d)%02x ", i % 16, rx_buf[i]); |
dudmuck | 0:be215de91a68 | 973 | printf("%02x ", radio.rx_buf[i]); |
dudmuck | 0:be215de91a68 | 974 | if (i % 16 == 15 && i != len-1) |
dudmuck | 0:be215de91a68 | 975 | printf("\r\n%03d:", i+1); |
dudmuck | 0:be215de91a68 | 976 | |
dudmuck | 0:be215de91a68 | 977 | } |
dudmuck | 0:be215de91a68 | 978 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 979 | } |
dudmuck | 0:be215de91a68 | 980 | |
dudmuck | 7:c3c54f222ced | 981 | void print_rx_verbose(uint8_t dlen) |
dudmuck | 7:c3c54f222ced | 982 | { |
dudmuck | 7:c3c54f222ced | 983 | float dbm; |
dudmuck | 7:c3c54f222ced | 984 | printLoraIrqs_(false); |
dudmuck | 7:c3c54f222ced | 985 | if (lora.RegHopPeriod > 0) { |
dudmuck | 7:c3c54f222ced | 986 | lora.RegHopChannel.octet = radio.read_reg(REG_LR_HOPCHANNEL); |
dudmuck | 7:c3c54f222ced | 987 | printf("HopCH:%d ", lora.RegHopChannel.bits.FhssPresentChannel); |
dudmuck | 7:c3c54f222ced | 988 | } |
dudmuck | 7:c3c54f222ced | 989 | printf("%dHz ", lora.get_freq_error_Hz()); |
dudmuck | 7:c3c54f222ced | 990 | lora_printCodingRate(true); // true: of received packet |
dudmuck | 7:c3c54f222ced | 991 | dbm = lora.get_pkt_rssi(); |
dudmuck | 7:c3c54f222ced | 992 | printf(" crc%s %.1fdB %.1fdBm\r\n", |
dudmuck | 7:c3c54f222ced | 993 | lora.RegHopChannel.bits.RxPayloadCrcOn ? "On" : "OFF", |
dudmuck | 7:c3c54f222ced | 994 | lora.RegPktSnrValue / 4.0, |
dudmuck | 7:c3c54f222ced | 995 | dbm |
dudmuck | 7:c3c54f222ced | 996 | ); |
dudmuck | 7:c3c54f222ced | 997 | print_rx_buf(dlen); |
dudmuck | 18:9530d682fd9a | 998 | } |
dudmuck | 7:c3c54f222ced | 999 | |
dudmuck | 18:9530d682fd9a | 1000 | void set_per_en(bool en) |
dudmuck | 18:9530d682fd9a | 1001 | { |
dudmuck | 18:9530d682fd9a | 1002 | if (en) { |
dudmuck | 18:9530d682fd9a | 1003 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 1004 | if (radio.type == SX1272) { |
dudmuck | 18:9530d682fd9a | 1005 | lora.RegModemConfig.sx1272bits.LowDataRateOptimize = 1; |
dudmuck | 18:9530d682fd9a | 1006 | radio.write_reg(REG_LR_MODEMCONFIG, lora.RegModemConfig.octet); |
dudmuck | 18:9530d682fd9a | 1007 | } else if (radio.type == SX1276) { |
dudmuck | 18:9530d682fd9a | 1008 | lora.RegModemConfig3.sx1276bits.LowDataRateOptimize = 1; |
dudmuck | 18:9530d682fd9a | 1009 | radio.write_reg(REG_LR_MODEMCONFIG3, lora.RegModemConfig3.octet); |
dudmuck | 18:9530d682fd9a | 1010 | } |
dudmuck | 18:9530d682fd9a | 1011 | lora.RegPayloadLength = 9; |
dudmuck | 18:9530d682fd9a | 1012 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1013 | radio.RegDioMapping1.bits.Dio3Mapping = 1; // to ValidHeader |
dudmuck | 18:9530d682fd9a | 1014 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 1015 | } else { // fsk.. |
dudmuck | 18:9530d682fd9a | 1016 | //fsk_tx_length = 9; |
dudmuck | 7:c3c54f222ced | 1017 | } |
dudmuck | 20:b11592c9ba5f | 1018 | PacketRxSequencePrev = 0; // transmitter side PacketTxCnt is 1 at first TX |
dudmuck | 18:9530d682fd9a | 1019 | //PacketRxSequence = 0; |
dudmuck | 18:9530d682fd9a | 1020 | PacketPerKoCnt = 0; |
dudmuck | 18:9530d682fd9a | 1021 | PacketPerOkCnt = 0; |
dudmuck | 18:9530d682fd9a | 1022 | PacketNormalCnt = 0; |
dudmuck | 18:9530d682fd9a | 1023 | } // ..if (per_en) |
dudmuck | 18:9530d682fd9a | 1024 | else { |
dudmuck | 18:9530d682fd9a | 1025 | per_timeout.detach(); |
dudmuck | 18:9530d682fd9a | 1026 | } |
dudmuck | 18:9530d682fd9a | 1027 | |
dudmuck | 18:9530d682fd9a | 1028 | per_en = en; |
dudmuck | 18:9530d682fd9a | 1029 | } |
dudmuck | 7:c3c54f222ced | 1030 | |
dudmuck | 8:227605e4a760 | 1031 | void per_cb() |
dudmuck | 8:227605e4a760 | 1032 | { |
dudmuck | 8:227605e4a760 | 1033 | int i; |
dudmuck | 8:227605e4a760 | 1034 | |
dudmuck | 8:227605e4a760 | 1035 | PacketTxCnt++; |
dudmuck | 8:227605e4a760 | 1036 | |
dudmuck | 8:227605e4a760 | 1037 | radio.tx_buf[0] = per_id; |
dudmuck | 8:227605e4a760 | 1038 | radio.tx_buf[1] = PacketTxCnt >> 24; |
dudmuck | 8:227605e4a760 | 1039 | radio.tx_buf[2] = PacketTxCnt >> 16; |
dudmuck | 8:227605e4a760 | 1040 | radio.tx_buf[3] = PacketTxCnt >> 8; |
dudmuck | 8:227605e4a760 | 1041 | radio.tx_buf[4] = PacketTxCnt; |
dudmuck | 8:227605e4a760 | 1042 | radio.tx_buf[5] = 'P'; |
dudmuck | 8:227605e4a760 | 1043 | radio.tx_buf[6] = 'E'; |
dudmuck | 8:227605e4a760 | 1044 | radio.tx_buf[7] = 'R'; |
dudmuck | 8:227605e4a760 | 1045 | radio.tx_buf[8] = 0; |
dudmuck | 8:227605e4a760 | 1046 | for (i = 0; i < 8; i++) |
dudmuck | 8:227605e4a760 | 1047 | radio.tx_buf[8] += radio.tx_buf[i]; |
dudmuck | 8:227605e4a760 | 1048 | |
dudmuck | 13:c73caaee93a5 | 1049 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 13:c73caaee93a5 | 1050 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 13:c73caaee93a5 | 1051 | } else { |
dudmuck | 13:c73caaee93a5 | 1052 | fsk.start_tx(9); |
dudmuck | 13:c73caaee93a5 | 1053 | } |
dudmuck | 10:d9bb2ce57f05 | 1054 | |
dudmuck | 10:d9bb2ce57f05 | 1055 | led1 = !led1.read(); |
dudmuck | 18:9530d682fd9a | 1056 | |
dudmuck | 18:9530d682fd9a | 1057 | if (PacketTxCnt == PacketTxCntEnd) { |
dudmuck | 18:9530d682fd9a | 1058 | set_per_en(false); |
dudmuck | 18:9530d682fd9a | 1059 | return; |
dudmuck | 18:9530d682fd9a | 1060 | } |
dudmuck | 8:227605e4a760 | 1061 | } |
dudmuck | 8:227605e4a760 | 1062 | |
dudmuck | 13:c73caaee93a5 | 1063 | int per_parse_rx(uint8_t len) |
dudmuck | 13:c73caaee93a5 | 1064 | { |
dudmuck | 13:c73caaee93a5 | 1065 | if (len > 8 && radio.rx_buf[5] == 'P' && radio.rx_buf[6] == 'E' && radio.rx_buf[7] == 'R') { |
dudmuck | 13:c73caaee93a5 | 1066 | int i; |
dudmuck | 13:c73caaee93a5 | 1067 | float per; |
dudmuck | 13:c73caaee93a5 | 1068 | |
dudmuck | 13:c73caaee93a5 | 1069 | /* this is PER packet */ |
dudmuck | 19:be8a8b0e7320 | 1070 | int PacketRxSequence = (radio.rx_buf[1] << 24) | (radio.rx_buf[2] << 16) | (radio.rx_buf[3] << 8) | radio.rx_buf[4]; |
dudmuck | 13:c73caaee93a5 | 1071 | PacketPerOkCnt++; |
dudmuck | 13:c73caaee93a5 | 1072 | |
dudmuck | 13:c73caaee93a5 | 1073 | if( PacketRxSequence <= PacketRxSequencePrev ) |
dudmuck | 13:c73caaee93a5 | 1074 | { // Sequence went back => resynchronization |
dudmuck | 13:c73caaee93a5 | 1075 | // dont count missed packets this time |
dudmuck | 13:c73caaee93a5 | 1076 | i = 0; |
dudmuck | 13:c73caaee93a5 | 1077 | } |
dudmuck | 13:c73caaee93a5 | 1078 | else |
dudmuck | 13:c73caaee93a5 | 1079 | { |
dudmuck | 13:c73caaee93a5 | 1080 | // determine number of missed packets |
dudmuck | 13:c73caaee93a5 | 1081 | i = PacketRxSequence - PacketRxSequencePrev - 1; |
dudmuck | 13:c73caaee93a5 | 1082 | } |
dudmuck | 13:c73caaee93a5 | 1083 | |
dudmuck | 13:c73caaee93a5 | 1084 | led1 = !led1.read(); |
dudmuck | 13:c73caaee93a5 | 1085 | // be ready for the next |
dudmuck | 13:c73caaee93a5 | 1086 | PacketRxSequencePrev = PacketRxSequence; |
dudmuck | 13:c73caaee93a5 | 1087 | // increment 'missed' counter for the RX session |
dudmuck | 13:c73caaee93a5 | 1088 | PacketPerKoCnt += i; |
dudmuck | 18:9530d682fd9a | 1089 | per = ( (float)1.0 - ( float )PacketPerOkCnt / ( float )( PacketPerOkCnt + PacketPerKoCnt ) ) * (float)100.0; |
dudmuck | 19:be8a8b0e7320 | 1090 | printf("%d, ok=%" PRIu32 " missed=%" PRIu32 " normal=%" PRIu32 " per:%.3f ", PacketRxSequence, PacketPerOkCnt, PacketPerKoCnt, PacketNormalCnt, per); |
dudmuck | 15:c69b942685ea | 1091 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 15:c69b942685ea | 1092 | printf("pkt:%ddBm, snr:%.1fdB, %ddBm\r\n", lora.get_pkt_rssi(), lora.RegPktSnrValue / 4.0, lora.get_current_rssi()); |
dudmuck | 15:c69b942685ea | 1093 | else { |
dudmuck | 16:b9d36c60f2d3 | 1094 | wait_us(10000); |
dudmuck | 15:c69b942685ea | 1095 | printf(" -%.1fdBm\r\n", radio.read_reg(REG_FSK_RSSIVALUE) / 2.0); |
dudmuck | 15:c69b942685ea | 1096 | } |
dudmuck | 15:c69b942685ea | 1097 | |
dudmuck | 13:c73caaee93a5 | 1098 | return 1; |
dudmuck | 13:c73caaee93a5 | 1099 | } else { |
dudmuck | 13:c73caaee93a5 | 1100 | return 0; |
dudmuck | 13:c73caaee93a5 | 1101 | } |
dudmuck | 13:c73caaee93a5 | 1102 | } |
dudmuck | 13:c73caaee93a5 | 1103 | |
dudmuck | 18:9530d682fd9a | 1104 | typedef enum { |
dudmuck | 18:9530d682fd9a | 1105 | ON_TXDONE_STATE_NONE = 0, |
dudmuck | 18:9530d682fd9a | 1106 | ON_TXDONE_STATE_SYNC_HI_NIBBLE, |
dudmuck | 18:9530d682fd9a | 1107 | ON_TXDONE_STATE_SYNC_LO_NIBBLE, |
dudmuck | 18:9530d682fd9a | 1108 | ON_TXDONE_STATE_PAYLOAD_LENGTH, |
dudmuck | 18:9530d682fd9a | 1109 | } on_txdone_state_e; |
dudmuck | 18:9530d682fd9a | 1110 | |
dudmuck | 18:9530d682fd9a | 1111 | on_txdone_state_e on_txdone_state; |
dudmuck | 18:9530d682fd9a | 1112 | |
dudmuck | 18:9530d682fd9a | 1113 | uint8_t lora_sync_byte; |
dudmuck | 18:9530d682fd9a | 1114 | float on_txdone_delay; |
dudmuck | 18:9530d682fd9a | 1115 | Timeout on_txdone_timeout; |
dudmuck | 18:9530d682fd9a | 1116 | uint8_t on_txdone_repeat_cnt; |
dudmuck | 18:9530d682fd9a | 1117 | |
dudmuck | 18:9530d682fd9a | 1118 | void txdone_timeout_cb() |
dudmuck | 18:9530d682fd9a | 1119 | { |
dudmuck | 18:9530d682fd9a | 1120 | uint8_t nib; |
dudmuck | 18:9530d682fd9a | 1121 | |
dudmuck | 18:9530d682fd9a | 1122 | switch (on_txdone_state) { |
dudmuck | 18:9530d682fd9a | 1123 | case ON_TXDONE_STATE_SYNC_HI_NIBBLE: |
dudmuck | 18:9530d682fd9a | 1124 | nib = lora_sync_byte >> 4; |
dudmuck | 18:9530d682fd9a | 1125 | if (nib >= 15) { |
dudmuck | 18:9530d682fd9a | 1126 | on_txdone_state = ON_TXDONE_STATE_SYNC_LO_NIBBLE; |
dudmuck | 18:9530d682fd9a | 1127 | lora_sync_byte = 0x00; |
dudmuck | 18:9530d682fd9a | 1128 | } else |
dudmuck | 18:9530d682fd9a | 1129 | nib++; |
dudmuck | 18:9530d682fd9a | 1130 | |
dudmuck | 18:9530d682fd9a | 1131 | lora_sync_byte = nib << 4; |
dudmuck | 18:9530d682fd9a | 1132 | |
dudmuck | 18:9530d682fd9a | 1133 | radio.write_reg(REG_LR_SYNC_BYTE, lora_sync_byte); |
dudmuck | 18:9530d682fd9a | 1134 | printf("upper %02x\r\n", lora_sync_byte); |
dudmuck | 18:9530d682fd9a | 1135 | break; |
dudmuck | 18:9530d682fd9a | 1136 | case ON_TXDONE_STATE_SYNC_LO_NIBBLE: |
dudmuck | 18:9530d682fd9a | 1137 | nib = lora_sync_byte & 0x0f; |
dudmuck | 18:9530d682fd9a | 1138 | if (nib >= 15) { |
dudmuck | 18:9530d682fd9a | 1139 | on_txdone_state = ON_TXDONE_STATE_SYNC_LO_NIBBLE; |
dudmuck | 18:9530d682fd9a | 1140 | lora_sync_byte = 0x00; |
dudmuck | 18:9530d682fd9a | 1141 | } else |
dudmuck | 18:9530d682fd9a | 1142 | nib++; |
dudmuck | 18:9530d682fd9a | 1143 | |
dudmuck | 18:9530d682fd9a | 1144 | lora_sync_byte = nib & 0x0f; |
dudmuck | 18:9530d682fd9a | 1145 | |
dudmuck | 18:9530d682fd9a | 1146 | radio.write_reg(REG_LR_SYNC_BYTE, lora_sync_byte); |
dudmuck | 18:9530d682fd9a | 1147 | printf("lower %02x\r\n", lora_sync_byte); |
dudmuck | 18:9530d682fd9a | 1148 | break; |
dudmuck | 18:9530d682fd9a | 1149 | case ON_TXDONE_STATE_PAYLOAD_LENGTH: |
dudmuck | 18:9530d682fd9a | 1150 | if (++on_txdone_repeat_cnt >= 10) { |
dudmuck | 18:9530d682fd9a | 1151 | on_txdone_repeat_cnt = 0; |
dudmuck | 18:9530d682fd9a | 1152 | if (lora.RegPayloadLength == 255) { |
dudmuck | 18:9530d682fd9a | 1153 | lora.RegPayloadLength = 1; |
dudmuck | 18:9530d682fd9a | 1154 | printf("done\r\n"); |
dudmuck | 18:9530d682fd9a | 1155 | on_txdone_state = ON_TXDONE_STATE_NONE; |
dudmuck | 18:9530d682fd9a | 1156 | return; |
dudmuck | 18:9530d682fd9a | 1157 | } |
dudmuck | 18:9530d682fd9a | 1158 | lora.RegPayloadLength++; |
dudmuck | 18:9530d682fd9a | 1159 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1160 | printf("pl %d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1161 | } |
dudmuck | 18:9530d682fd9a | 1162 | tx_cnt++; |
dudmuck | 18:9530d682fd9a | 1163 | radio.tx_buf[0] = tx_cnt; |
dudmuck | 18:9530d682fd9a | 1164 | radio.tx_buf[1] = ~tx_cnt; |
dudmuck | 18:9530d682fd9a | 1165 | break; |
dudmuck | 18:9530d682fd9a | 1166 | default: |
dudmuck | 18:9530d682fd9a | 1167 | return; |
dudmuck | 18:9530d682fd9a | 1168 | } // ..switch (on_txdone_state) |
dudmuck | 18:9530d682fd9a | 1169 | |
dudmuck | 18:9530d682fd9a | 1170 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1171 | } |
dudmuck | 18:9530d682fd9a | 1172 | |
dudmuck | 20:b11592c9ba5f | 1173 | |
dudmuck | 18:9530d682fd9a | 1174 | void |
dudmuck | 18:9530d682fd9a | 1175 | poll_service_radio() |
dudmuck | 18:9530d682fd9a | 1176 | { |
dudmuck | 18:9530d682fd9a | 1177 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 1178 | } else { // fsk: |
dudmuck | 20:b11592c9ba5f | 1179 | /*RegIrqFlags2_t RegIrqFlags2; |
dudmuck | 18:9530d682fd9a | 1180 | if (radio.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) { |
dudmuck | 18:9530d682fd9a | 1181 | RegIrqFlags2.octet = radio.read_reg(REG_FSK_IRQFLAGS2); |
dudmuck | 18:9530d682fd9a | 1182 | if (RegIrqFlags2.bits.PacketSent) { |
dudmuck | 18:9530d682fd9a | 1183 | radio.set_opmode(RF_OPMODE_SLEEP); |
dudmuck | 18:9530d682fd9a | 1184 | printf("poll mode fsk tx done\r\n"); |
dudmuck | 18:9530d682fd9a | 1185 | } |
dudmuck | 20:b11592c9ba5f | 1186 | }*/ |
dudmuck | 20:b11592c9ba5f | 1187 | static uint8_t rssi; |
dudmuck | 20:b11592c9ba5f | 1188 | RegIrqFlags2_t RegIrqFlags2; |
dudmuck | 20:b11592c9ba5f | 1189 | RegIrqFlags1_t RegIrqFlags1; |
dudmuck | 20:b11592c9ba5f | 1190 | RegIrqFlags1.octet = radio.read_reg(REG_FSK_IRQFLAGS1); |
dudmuck | 20:b11592c9ba5f | 1191 | if (RegIrqFlags1.octet != fsk_RegIrqFlags1_prev.octet) { |
dudmuck | 20:b11592c9ba5f | 1192 | printf("iF1:"); |
dudmuck | 20:b11592c9ba5f | 1193 | if (RegIrqFlags1.bits.ModeReady ^ fsk_RegIrqFlags1_prev.bits.ModeReady) { |
dudmuck | 20:b11592c9ba5f | 1194 | printf("ModeReady-"); |
dudmuck | 20:b11592c9ba5f | 1195 | if (RegIrqFlags1.bits.ModeReady) |
dudmuck | 20:b11592c9ba5f | 1196 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1197 | else |
dudmuck | 20:b11592c9ba5f | 1198 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1199 | } |
dudmuck | 20:b11592c9ba5f | 1200 | if (RegIrqFlags1.bits.RxReady ^ fsk_RegIrqFlags1_prev.bits.RxReady) { |
dudmuck | 20:b11592c9ba5f | 1201 | printf("RxReady-"); |
dudmuck | 20:b11592c9ba5f | 1202 | if (RegIrqFlags1.bits.RxReady) |
dudmuck | 20:b11592c9ba5f | 1203 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1204 | else |
dudmuck | 20:b11592c9ba5f | 1205 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1206 | } |
dudmuck | 20:b11592c9ba5f | 1207 | if (RegIrqFlags1.bits.TxReady ^ fsk_RegIrqFlags1_prev.bits.TxReady) { |
dudmuck | 20:b11592c9ba5f | 1208 | printf("TxReady-"); |
dudmuck | 20:b11592c9ba5f | 1209 | if (RegIrqFlags1.bits.TxReady) |
dudmuck | 20:b11592c9ba5f | 1210 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1211 | else |
dudmuck | 20:b11592c9ba5f | 1212 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1213 | } |
dudmuck | 20:b11592c9ba5f | 1214 | if (RegIrqFlags1.bits.PllLock ^ fsk_RegIrqFlags1_prev.bits.PllLock) { |
dudmuck | 20:b11592c9ba5f | 1215 | printf("PllLock-"); |
dudmuck | 20:b11592c9ba5f | 1216 | if (RegIrqFlags1.bits.PllLock) |
dudmuck | 20:b11592c9ba5f | 1217 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1218 | else |
dudmuck | 20:b11592c9ba5f | 1219 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1220 | } |
dudmuck | 20:b11592c9ba5f | 1221 | if (RegIrqFlags1.bits.Rssi ^ fsk_RegIrqFlags1_prev.bits.Rssi) { |
dudmuck | 20:b11592c9ba5f | 1222 | printf("Rssi-"); |
dudmuck | 20:b11592c9ba5f | 1223 | if (RegIrqFlags1.bits.Rssi) |
dudmuck | 20:b11592c9ba5f | 1224 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1225 | else |
dudmuck | 20:b11592c9ba5f | 1226 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1227 | } |
dudmuck | 20:b11592c9ba5f | 1228 | if (RegIrqFlags1.bits.Timeout ^ fsk_RegIrqFlags1_prev.bits.Timeout) { |
dudmuck | 20:b11592c9ba5f | 1229 | printf("Timeout-"); |
dudmuck | 20:b11592c9ba5f | 1230 | if (RegIrqFlags1.bits.Timeout) |
dudmuck | 20:b11592c9ba5f | 1231 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1232 | else |
dudmuck | 20:b11592c9ba5f | 1233 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1234 | } |
dudmuck | 20:b11592c9ba5f | 1235 | if (RegIrqFlags1.bits.PreambleDetect ^ fsk_RegIrqFlags1_prev.bits.PreambleDetect) { |
dudmuck | 20:b11592c9ba5f | 1236 | printf("PreambleDetect-"); |
dudmuck | 20:b11592c9ba5f | 1237 | if (RegIrqFlags1.bits.PreambleDetect) |
dudmuck | 20:b11592c9ba5f | 1238 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1239 | else |
dudmuck | 20:b11592c9ba5f | 1240 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1241 | } |
dudmuck | 20:b11592c9ba5f | 1242 | if (RegIrqFlags1.bits.SyncAddressMatch ^ fsk_RegIrqFlags1_prev.bits.SyncAddressMatch) { |
dudmuck | 20:b11592c9ba5f | 1243 | printf("SyncAddressMatch-"); |
dudmuck | 20:b11592c9ba5f | 1244 | if (RegIrqFlags1.bits.SyncAddressMatch) |
dudmuck | 20:b11592c9ba5f | 1245 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1246 | else |
dudmuck | 20:b11592c9ba5f | 1247 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1248 | } |
dudmuck | 20:b11592c9ba5f | 1249 | fsk_RegIrqFlags1_prev.octet = RegIrqFlags1.octet; |
dudmuck | 20:b11592c9ba5f | 1250 | printf("\r\n"); |
dudmuck | 20:b11592c9ba5f | 1251 | fflush(stdout); |
dudmuck | 20:b11592c9ba5f | 1252 | } |
dudmuck | 20:b11592c9ba5f | 1253 | RegIrqFlags2.octet = radio.read_reg(REG_FSK_IRQFLAGS2); |
dudmuck | 20:b11592c9ba5f | 1254 | if (RegIrqFlags2.octet != fsk_RegIrqFlags2_prev.octet) { |
dudmuck | 20:b11592c9ba5f | 1255 | printf("iF2:"); |
dudmuck | 20:b11592c9ba5f | 1256 | if (RegIrqFlags2.bits.FifoFull ^ fsk_RegIrqFlags2_prev.bits.FifoFull) { |
dudmuck | 20:b11592c9ba5f | 1257 | printf("FifoFull-"); |
dudmuck | 20:b11592c9ba5f | 1258 | if (RegIrqFlags2.bits.FifoFull) |
dudmuck | 20:b11592c9ba5f | 1259 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1260 | else |
dudmuck | 20:b11592c9ba5f | 1261 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1262 | } |
dudmuck | 20:b11592c9ba5f | 1263 | if (RegIrqFlags2.bits.FifoEmpty ^ fsk_RegIrqFlags2_prev.bits.FifoEmpty) { |
dudmuck | 20:b11592c9ba5f | 1264 | printf("FifoEmpty-"); |
dudmuck | 20:b11592c9ba5f | 1265 | if (RegIrqFlags2.bits.FifoEmpty) |
dudmuck | 20:b11592c9ba5f | 1266 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1267 | else { |
dudmuck | 20:b11592c9ba5f | 1268 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1269 | rssi = radio.read_reg(REG_FSK_RSSIVALUE); |
dudmuck | 20:b11592c9ba5f | 1270 | } |
dudmuck | 20:b11592c9ba5f | 1271 | } |
dudmuck | 20:b11592c9ba5f | 1272 | if (RegIrqFlags2.bits.FifoLevel ^ fsk_RegIrqFlags2_prev.bits.FifoLevel) { |
dudmuck | 20:b11592c9ba5f | 1273 | printf("FifoLevel-"); |
dudmuck | 20:b11592c9ba5f | 1274 | if (RegIrqFlags2.bits.FifoLevel) |
dudmuck | 20:b11592c9ba5f | 1275 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1276 | else |
dudmuck | 20:b11592c9ba5f | 1277 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1278 | } |
dudmuck | 20:b11592c9ba5f | 1279 | if (RegIrqFlags2.bits.FifoOverrun ^ fsk_RegIrqFlags2_prev.bits.FifoOverrun) { |
dudmuck | 20:b11592c9ba5f | 1280 | printf("FifoOverrun-"); |
dudmuck | 20:b11592c9ba5f | 1281 | if (RegIrqFlags2.bits.FifoOverrun) |
dudmuck | 20:b11592c9ba5f | 1282 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1283 | else |
dudmuck | 20:b11592c9ba5f | 1284 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1285 | } |
dudmuck | 20:b11592c9ba5f | 1286 | if (RegIrqFlags2.bits.PacketSent ^ fsk_RegIrqFlags2_prev.bits.PacketSent) { |
dudmuck | 20:b11592c9ba5f | 1287 | printf("PacketSent-"); |
dudmuck | 20:b11592c9ba5f | 1288 | if (RegIrqFlags2.bits.PacketSent) { |
dudmuck | 20:b11592c9ba5f | 1289 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1290 | } else |
dudmuck | 20:b11592c9ba5f | 1291 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1292 | } |
dudmuck | 20:b11592c9ba5f | 1293 | if (RegIrqFlags2.bits.PayloadReady ^ fsk_RegIrqFlags2_prev.bits.PayloadReady) { |
dudmuck | 20:b11592c9ba5f | 1294 | printf("PayloadReady-"); |
dudmuck | 20:b11592c9ba5f | 1295 | if (RegIrqFlags2.bits.PayloadReady) |
dudmuck | 20:b11592c9ba5f | 1296 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1297 | else |
dudmuck | 20:b11592c9ba5f | 1298 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1299 | } |
dudmuck | 20:b11592c9ba5f | 1300 | if (RegIrqFlags2.bits.CrcOk ^ fsk_RegIrqFlags2_prev.bits.CrcOk) { |
dudmuck | 20:b11592c9ba5f | 1301 | printf("CrcOk-"); |
dudmuck | 20:b11592c9ba5f | 1302 | if (RegIrqFlags2.bits.CrcOk) |
dudmuck | 20:b11592c9ba5f | 1303 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1304 | else |
dudmuck | 20:b11592c9ba5f | 1305 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1306 | } |
dudmuck | 20:b11592c9ba5f | 1307 | if (RegIrqFlags2.bits.LowBat ^ fsk_RegIrqFlags2_prev.bits.LowBat) { |
dudmuck | 20:b11592c9ba5f | 1308 | printf("LowBat-"); |
dudmuck | 20:b11592c9ba5f | 1309 | if (RegIrqFlags2.bits.LowBat) |
dudmuck | 20:b11592c9ba5f | 1310 | printf("on "); |
dudmuck | 20:b11592c9ba5f | 1311 | else |
dudmuck | 20:b11592c9ba5f | 1312 | printf("off "); |
dudmuck | 20:b11592c9ba5f | 1313 | } |
dudmuck | 20:b11592c9ba5f | 1314 | fsk_RegIrqFlags2_prev.octet = RegIrqFlags2.octet; |
dudmuck | 20:b11592c9ba5f | 1315 | printf("\r\n"); |
dudmuck | 20:b11592c9ba5f | 1316 | fflush(stdout); |
dudmuck | 20:b11592c9ba5f | 1317 | |
dudmuck | 20:b11592c9ba5f | 1318 | if (RegIrqFlags2.bits.PacketSent) { |
dudmuck | 20:b11592c9ba5f | 1319 | if (fsk.tx_done_sleep) |
dudmuck | 20:b11592c9ba5f | 1320 | radio.set_opmode(RF_OPMODE_SLEEP); |
dudmuck | 20:b11592c9ba5f | 1321 | else |
dudmuck | 20:b11592c9ba5f | 1322 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 20:b11592c9ba5f | 1323 | } |
dudmuck | 20:b11592c9ba5f | 1324 | |
dudmuck | 20:b11592c9ba5f | 1325 | if (RegIrqFlags2.bits.CrcOk || RegIrqFlags2.bits.PayloadReady) { |
dudmuck | 20:b11592c9ba5f | 1326 | if (fsk.RegRxConfig.bits.AfcAutoOn) { |
dudmuck | 20:b11592c9ba5f | 1327 | fsk.RegAfcValue = radio.read_s16(REG_FSK_AFCMSB); |
dudmuck | 20:b11592c9ba5f | 1328 | printf("%dHz ", (int)(FREQ_STEP_HZ * fsk.RegAfcValue)); |
dudmuck | 20:b11592c9ba5f | 1329 | if (rssi != 0) { |
dudmuck | 20:b11592c9ba5f | 1330 | printf("pkt:-%.1fdBm ", rssi / 2.0); |
dudmuck | 20:b11592c9ba5f | 1331 | rssi = 0; |
dudmuck | 20:b11592c9ba5f | 1332 | } |
dudmuck | 20:b11592c9ba5f | 1333 | } |
dudmuck | 20:b11592c9ba5f | 1334 | if (fsk.RegPktConfig1.bits.PacketFormatVariable) { |
dudmuck | 20:b11592c9ba5f | 1335 | fsk.rx_buf_length = radio.read_reg(REG_FIFO); |
dudmuck | 20:b11592c9ba5f | 1336 | } else { |
dudmuck | 20:b11592c9ba5f | 1337 | fsk.rx_buf_length = fsk.RegPktConfig2.bits.PayloadLength; |
dudmuck | 20:b11592c9ba5f | 1338 | } |
dudmuck | 20:b11592c9ba5f | 1339 | |
dudmuck | 20:b11592c9ba5f | 1340 | radio.m_cs = 0; |
dudmuck | 20:b11592c9ba5f | 1341 | radio.m_spi.write(REG_FIFO); // bit7 is low for reading from radio |
dudmuck | 20:b11592c9ba5f | 1342 | for (int i = 0; i < fsk.rx_buf_length; i++) { |
dudmuck | 20:b11592c9ba5f | 1343 | radio.rx_buf[i] = radio.m_spi.write(0); |
dudmuck | 20:b11592c9ba5f | 1344 | } |
dudmuck | 20:b11592c9ba5f | 1345 | radio.m_cs = 1; |
dudmuck | 20:b11592c9ba5f | 1346 | /****/ |
dudmuck | 20:b11592c9ba5f | 1347 | if (per_en) { |
dudmuck | 20:b11592c9ba5f | 1348 | if (!per_parse_rx(fsk.rx_buf_length)) { |
dudmuck | 20:b11592c9ba5f | 1349 | PacketNormalCnt++; |
dudmuck | 20:b11592c9ba5f | 1350 | print_rx_buf(fsk.rx_buf_length); |
dudmuck | 20:b11592c9ba5f | 1351 | } |
dudmuck | 20:b11592c9ba5f | 1352 | } else { |
dudmuck | 20:b11592c9ba5f | 1353 | print_rx_buf(fsk.rx_buf_length); |
dudmuck | 20:b11592c9ba5f | 1354 | } |
dudmuck | 20:b11592c9ba5f | 1355 | fflush(stdout); |
dudmuck | 20:b11592c9ba5f | 1356 | } // ..if CrcOk or PayloadReady |
dudmuck | 20:b11592c9ba5f | 1357 | } // ..if RegIrqFlags2 changed |
dudmuck | 20:b11592c9ba5f | 1358 | } // ...fsk |
dudmuck | 18:9530d682fd9a | 1359 | } |
dudmuck | 18:9530d682fd9a | 1360 | |
dudmuck | 18:9530d682fd9a | 1361 | void cadper_service() |
dudmuck | 18:9530d682fd9a | 1362 | { |
dudmuck | 18:9530d682fd9a | 1363 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 1364 | |
dudmuck | 18:9530d682fd9a | 1365 | |
dudmuck | 18:9530d682fd9a | 1366 | if (lora.RegIrqFlags.bits.CadDetected) { |
dudmuck | 18:9530d682fd9a | 1367 | lora.start_rx(RF_OPMODE_RECEIVER_SINGLE); |
dudmuck | 18:9530d682fd9a | 1368 | do { |
dudmuck | 18:9530d682fd9a | 1369 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 1370 | if (lora.RegIrqFlags.bits.RxDone) { |
dudmuck | 18:9530d682fd9a | 1371 | service_action_e act = lora.service(); |
dudmuck | 18:9530d682fd9a | 1372 | if (act == SERVICE_READ_FIFO) { |
dudmuck | 18:9530d682fd9a | 1373 | if (!per_parse_rx(lora.RegRxNbBytes)) { |
dudmuck | 18:9530d682fd9a | 1374 | PacketNormalCnt++; |
dudmuck | 18:9530d682fd9a | 1375 | print_rx_verbose(lora.RegRxNbBytes); |
dudmuck | 18:9530d682fd9a | 1376 | } |
dudmuck | 18:9530d682fd9a | 1377 | } |
dudmuck | 18:9530d682fd9a | 1378 | break; |
dudmuck | 18:9530d682fd9a | 1379 | } |
dudmuck | 18:9530d682fd9a | 1380 | } while (!lora.RegIrqFlags.bits.RxTimeout); |
dudmuck | 18:9530d682fd9a | 1381 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 1382 | } |
dudmuck | 18:9530d682fd9a | 1383 | |
dudmuck | 18:9530d682fd9a | 1384 | if (lora.RegIrqFlags.bits.CadDone) { |
dudmuck | 18:9530d682fd9a | 1385 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 1386 | num_cads++; |
dudmuck | 18:9530d682fd9a | 1387 | radio.set_opmode(RF_OPMODE_CAD); |
dudmuck | 18:9530d682fd9a | 1388 | } |
dudmuck | 18:9530d682fd9a | 1389 | |
dudmuck | 18:9530d682fd9a | 1390 | } |
dudmuck | 18:9530d682fd9a | 1391 | |
dudmuck | 20:b11592c9ba5f | 1392 | void cmd_restart_rx(uint8_t); |
dudmuck | 20:b11592c9ba5f | 1393 | Timeout timeout_syncAddress; |
dudmuck | 20:b11592c9ba5f | 1394 | int preamble_to_sync_us; |
dudmuck | 20:b11592c9ba5f | 1395 | bool get_syncAddress; |
dudmuck | 20:b11592c9ba5f | 1396 | float preamble_detect_at; |
dudmuck | 20:b11592c9ba5f | 1397 | |
dudmuck | 20:b11592c9ba5f | 1398 | void callback_sa_timeout() |
dudmuck | 20:b11592c9ba5f | 1399 | { |
dudmuck | 20:b11592c9ba5f | 1400 | printf("syncAddress timeout "); |
dudmuck | 20:b11592c9ba5f | 1401 | if (dio2.read() == 0) { |
dudmuck | 20:b11592c9ba5f | 1402 | //cmd_restart_rx(0); |
dudmuck | 20:b11592c9ba5f | 1403 | rx_start_timer.reset(); |
dudmuck | 20:b11592c9ba5f | 1404 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 20:b11592c9ba5f | 1405 | printf("(false preamble detect at %f, secs:%u)\r\n", preamble_detect_at, time(NULL) - secs_rx_start); |
dudmuck | 20:b11592c9ba5f | 1406 | secs_rx_start = time(NULL); |
dudmuck | 20:b11592c9ba5f | 1407 | radio.set_opmode(RF_OPMODE_RECEIVER); |
dudmuck | 20:b11592c9ba5f | 1408 | } else |
dudmuck | 20:b11592c9ba5f | 1409 | printf("\r\n"); |
dudmuck | 20:b11592c9ba5f | 1410 | } |
dudmuck | 20:b11592c9ba5f | 1411 | |
dudmuck | 0:be215de91a68 | 1412 | void |
dudmuck | 0:be215de91a68 | 1413 | service_radio() |
dudmuck | 0:be215de91a68 | 1414 | { |
dudmuck | 1:1cd0afbed23c | 1415 | service_action_e act; |
dudmuck | 14:c57ea544dc18 | 1416 | static uint8_t rssi = 0; |
dudmuck | 1:1cd0afbed23c | 1417 | |
dudmuck | 1:1cd0afbed23c | 1418 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 1419 | if (cadper_enable) { |
dudmuck | 18:9530d682fd9a | 1420 | cadper_service(); |
dudmuck | 18:9530d682fd9a | 1421 | } |
dudmuck | 4:7a9007dfc0e5 | 1422 | |
dudmuck | 1:1cd0afbed23c | 1423 | act = lora.service(); |
dudmuck | 0:be215de91a68 | 1424 | |
dudmuck | 1:1cd0afbed23c | 1425 | switch (act) { |
dudmuck | 1:1cd0afbed23c | 1426 | case SERVICE_READ_FIFO: |
dudmuck | 8:227605e4a760 | 1427 | if (app == APP_NONE) { |
dudmuck | 8:227605e4a760 | 1428 | if (per_en) { |
dudmuck | 13:c73caaee93a5 | 1429 | if (!per_parse_rx(lora.RegRxNbBytes)) { |
dudmuck | 8:227605e4a760 | 1430 | PacketNormalCnt++; |
dudmuck | 13:c73caaee93a5 | 1431 | print_rx_verbose(lora.RegRxNbBytes); |
dudmuck | 8:227605e4a760 | 1432 | } |
dudmuck | 8:227605e4a760 | 1433 | } else |
dudmuck | 8:227605e4a760 | 1434 | print_rx_verbose(lora.RegRxNbBytes); |
dudmuck | 15:c69b942685ea | 1435 | fflush(stdout); |
dudmuck | 1:1cd0afbed23c | 1436 | } else if (app == APP_CHAT) { |
dudmuck | 1:1cd0afbed23c | 1437 | if (lora.RegHopChannel.bits.RxPayloadCrcOn) { |
dudmuck | 1:1cd0afbed23c | 1438 | if (lora.RegIrqFlags.bits.PayloadCrcError) |
dudmuck | 1:1cd0afbed23c | 1439 | printf("crcError\r\n"); |
dudmuck | 1:1cd0afbed23c | 1440 | else { |
dudmuck | 1:1cd0afbed23c | 1441 | int n = lora.RegRxNbBytes; |
dudmuck | 1:1cd0afbed23c | 1442 | radio.rx_buf[n++] = '\r'; |
dudmuck | 1:1cd0afbed23c | 1443 | radio.rx_buf[n++] = '\n'; |
dudmuck | 1:1cd0afbed23c | 1444 | radio.rx_buf[n] = 0; // null terminate |
dudmuck | 1:1cd0afbed23c | 1445 | printf((char *)radio.rx_buf); |
dudmuck | 1:1cd0afbed23c | 1446 | } |
dudmuck | 1:1cd0afbed23c | 1447 | } else |
dudmuck | 1:1cd0afbed23c | 1448 | printf("crcOff\r\n"); |
dudmuck | 1:1cd0afbed23c | 1449 | |
dudmuck | 1:1cd0afbed23c | 1450 | // clear Irq flags |
dudmuck | 1:1cd0afbed23c | 1451 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 1:1cd0afbed23c | 1452 | // should still be in receive mode |
dudmuck | 0:be215de91a68 | 1453 | } |
dudmuck | 1:1cd0afbed23c | 1454 | break; |
dudmuck | 1:1cd0afbed23c | 1455 | case SERVICE_TX_DONE: |
dudmuck | 1:1cd0afbed23c | 1456 | if (app == APP_CHAT) { |
dudmuck | 18:9530d682fd9a | 1457 | lora.start_rx(RF_OPMODE_RECEIVER); |
dudmuck | 8:227605e4a760 | 1458 | } else if (per_en) { |
dudmuck | 18:9530d682fd9a | 1459 | per_timeout.attach(&per_cb, per_tx_delay); // start next TX |
dudmuck | 18:9530d682fd9a | 1460 | } else if (on_txdone_state != ON_TXDONE_STATE_NONE) { |
dudmuck | 18:9530d682fd9a | 1461 | on_txdone_timeout.attach(&txdone_timeout_cb, on_txdone_delay); |
dudmuck | 1:1cd0afbed23c | 1462 | } |
dudmuck | 1:1cd0afbed23c | 1463 | break; |
dudmuck | 1:1cd0afbed23c | 1464 | case SERVICE_ERROR: |
dudmuck | 1:1cd0afbed23c | 1465 | printf("error\r\n"); |
dudmuck | 1:1cd0afbed23c | 1466 | break; |
dudmuck | 19:be8a8b0e7320 | 1467 | case SERVICE_NONE: |
dudmuck | 19:be8a8b0e7320 | 1468 | break; |
dudmuck | 1:1cd0afbed23c | 1469 | } // ...switch (act) |
dudmuck | 1:1cd0afbed23c | 1470 | } else { |
dudmuck | 1:1cd0afbed23c | 1471 | /* FSK: */ |
dudmuck | 1:1cd0afbed23c | 1472 | act = fsk.service(); |
dudmuck | 1:1cd0afbed23c | 1473 | |
dudmuck | 1:1cd0afbed23c | 1474 | switch (act) { |
dudmuck | 1:1cd0afbed23c | 1475 | case SERVICE_READ_FIFO: |
dudmuck | 2:c6b23a43a9d9 | 1476 | if (app == APP_CHAT) { |
dudmuck | 2:c6b23a43a9d9 | 1477 | int n = fsk.rx_buf_length; |
dudmuck | 2:c6b23a43a9d9 | 1478 | radio.rx_buf[n++] = '\r'; |
dudmuck | 2:c6b23a43a9d9 | 1479 | radio.rx_buf[n++] = '\n'; |
dudmuck | 2:c6b23a43a9d9 | 1480 | radio.rx_buf[n] = 0; // null terminate |
dudmuck | 2:c6b23a43a9d9 | 1481 | printf((char *)radio.rx_buf); |
dudmuck | 2:c6b23a43a9d9 | 1482 | } else { |
dudmuck | 2:c6b23a43a9d9 | 1483 | if (fsk.RegRxConfig.bits.AfcAutoOn) |
dudmuck | 14:c57ea544dc18 | 1484 | printf("%dHz ", (int)(FREQ_STEP_HZ * fsk.RegAfcValue)); |
dudmuck | 14:c57ea544dc18 | 1485 | if (rssi != 0) { |
dudmuck | 15:c69b942685ea | 1486 | printf("pkt:-%.1fdBm ", rssi / 2.0); |
dudmuck | 14:c57ea544dc18 | 1487 | rssi = 0; |
dudmuck | 15:c69b942685ea | 1488 | } |
dudmuck | 13:c73caaee93a5 | 1489 | if (per_en) { |
dudmuck | 13:c73caaee93a5 | 1490 | if (!per_parse_rx(fsk.rx_buf_length)) { |
dudmuck | 13:c73caaee93a5 | 1491 | PacketNormalCnt++; |
dudmuck | 13:c73caaee93a5 | 1492 | print_rx_buf(fsk.rx_buf_length); |
dudmuck | 13:c73caaee93a5 | 1493 | } |
dudmuck | 13:c73caaee93a5 | 1494 | } else { |
dudmuck | 13:c73caaee93a5 | 1495 | print_rx_buf(fsk.rx_buf_length); |
dudmuck | 13:c73caaee93a5 | 1496 | } |
dudmuck | 15:c69b942685ea | 1497 | fflush(stdout); |
dudmuck | 2:c6b23a43a9d9 | 1498 | } |
dudmuck | 1:1cd0afbed23c | 1499 | break; |
dudmuck | 2:c6b23a43a9d9 | 1500 | case SERVICE_TX_DONE: |
dudmuck | 18:9530d682fd9a | 1501 | if (ook_test_en) |
dudmuck | 18:9530d682fd9a | 1502 | radio.set_opmode(RF_OPMODE_SLEEP); |
dudmuck | 2:c6b23a43a9d9 | 1503 | if (app == APP_CHAT) { |
dudmuck | 2:c6b23a43a9d9 | 1504 | fsk.start_rx(); |
dudmuck | 13:c73caaee93a5 | 1505 | } else if (per_en) { |
dudmuck | 13:c73caaee93a5 | 1506 | per_timeout.attach(&per_cb, per_tx_delay); // start next TX |
dudmuck | 13:c73caaee93a5 | 1507 | } |
dudmuck | 2:c6b23a43a9d9 | 1508 | break; |
dudmuck | 19:be8a8b0e7320 | 1509 | case SERVICE_ERROR: |
dudmuck | 19:be8a8b0e7320 | 1510 | case SERVICE_NONE: |
dudmuck | 19:be8a8b0e7320 | 1511 | break; |
dudmuck | 20:b11592c9ba5f | 1512 | } // ...switch (act) |
dudmuck | 14:c57ea544dc18 | 1513 | |
dudmuck | 20:b11592c9ba5f | 1514 | /* FSK receiver handling of preamble detection */ |
dudmuck | 20:b11592c9ba5f | 1515 | if (radio.RegDioMapping2.bits.MapPreambleDetect && radio.RegDioMapping2.bits.Dio4Mapping == 3) { |
dudmuck | 20:b11592c9ba5f | 1516 | if (saved_dio4 != dio4.read()) { |
dudmuck | 20:b11592c9ba5f | 1517 | //printf("predet-dio4:%d\r\n", dio4.read()); |
dudmuck | 20:b11592c9ba5f | 1518 | /* FSK: preamble detect state change */ |
dudmuck | 20:b11592c9ba5f | 1519 | if (dio4.read()) { |
dudmuck | 20:b11592c9ba5f | 1520 | if (radio.RegDioMapping1.bits.Dio2Mapping == 3) { // if we can see SyncAddress |
dudmuck | 20:b11592c9ba5f | 1521 | get_syncAddress = true; |
dudmuck | 20:b11592c9ba5f | 1522 | timeout_syncAddress.attach_us(callback_sa_timeout, preamble_to_sync_us); |
dudmuck | 20:b11592c9ba5f | 1523 | } |
dudmuck | 20:b11592c9ba5f | 1524 | /* how long after RX start is preamble detection occuring? */ |
dudmuck | 20:b11592c9ba5f | 1525 | //printf("preamble detect at %f\r\n", rx_start_timer.read()); |
dudmuck | 20:b11592c9ba5f | 1526 | preamble_detect_at = rx_start_timer.read(); |
dudmuck | 20:b11592c9ba5f | 1527 | } else { |
dudmuck | 20:b11592c9ba5f | 1528 | get_syncAddress = false; |
dudmuck | 20:b11592c9ba5f | 1529 | //printf("preamble detect clear\r\n"); |
dudmuck | 20:b11592c9ba5f | 1530 | } |
dudmuck | 20:b11592c9ba5f | 1531 | saved_dio4 = dio4.read(); |
dudmuck | 20:b11592c9ba5f | 1532 | } |
dudmuck | 20:b11592c9ba5f | 1533 | } // ..if dio4 is |
dudmuck | 20:b11592c9ba5f | 1534 | |
dudmuck | 20:b11592c9ba5f | 1535 | if (radio.RegDioMapping1.bits.Dio2Mapping == 3) { |
dudmuck | 20:b11592c9ba5f | 1536 | if (dio2.read()) { |
dudmuck | 20:b11592c9ba5f | 1537 | if (get_syncAddress) { |
dudmuck | 20:b11592c9ba5f | 1538 | timeout_syncAddress.detach(); |
dudmuck | 20:b11592c9ba5f | 1539 | get_syncAddress = false; |
dudmuck | 20:b11592c9ba5f | 1540 | } |
dudmuck | 15:c69b942685ea | 1541 | rssi = radio.read_reg(REG_FSK_RSSIVALUE); |
dudmuck | 14:c57ea544dc18 | 1542 | } |
dudmuck | 14:c57ea544dc18 | 1543 | } |
dudmuck | 14:c57ea544dc18 | 1544 | |
dudmuck | 20:b11592c9ba5f | 1545 | /*if (radio.RegDioMapping1.bits.Dio1Mapping == 1 && radio.dio1) { |
dudmuck | 20:b11592c9ba5f | 1546 | = radio.read_reg(REG_FSK_RSSIVALUE); |
dudmuck | 20:b11592c9ba5f | 1547 | }*/ |
dudmuck | 20:b11592c9ba5f | 1548 | |
dudmuck | 14:c57ea544dc18 | 1549 | } // ...!radio.RegOpMode.bits.LongRangeMode |
dudmuck | 0:be215de91a68 | 1550 | } |
dudmuck | 0:be215de91a68 | 1551 | |
dudmuck | 5:360069ec9953 | 1552 | /*int get_kbd_str(char* buf, int size) |
dudmuck | 0:be215de91a68 | 1553 | { |
dudmuck | 0:be215de91a68 | 1554 | char c; |
dudmuck | 0:be215de91a68 | 1555 | int i; |
dudmuck | 0:be215de91a68 | 1556 | static int prev_len; |
dudmuck | 0:be215de91a68 | 1557 | |
dudmuck | 0:be215de91a68 | 1558 | for (i = 0;;) { |
dudmuck | 0:be215de91a68 | 1559 | if (pc.readable()) { |
dudmuck | 0:be215de91a68 | 1560 | c = pc.getc(); |
dudmuck | 0:be215de91a68 | 1561 | if (c == 8 && i > 0) { |
dudmuck | 0:be215de91a68 | 1562 | pc.putc(8); |
dudmuck | 0:be215de91a68 | 1563 | pc.putc(' '); |
dudmuck | 0:be215de91a68 | 1564 | pc.putc(8); |
dudmuck | 0:be215de91a68 | 1565 | i--; |
dudmuck | 0:be215de91a68 | 1566 | } else if (c == '\r') { |
dudmuck | 0:be215de91a68 | 1567 | if (i == 0) { |
dudmuck | 0:be215de91a68 | 1568 | return prev_len; // repeat previous |
dudmuck | 0:be215de91a68 | 1569 | } else { |
dudmuck | 0:be215de91a68 | 1570 | buf[i] = 0; // null terminate |
dudmuck | 0:be215de91a68 | 1571 | prev_len = i; |
dudmuck | 0:be215de91a68 | 1572 | return i; |
dudmuck | 0:be215de91a68 | 1573 | } |
dudmuck | 0:be215de91a68 | 1574 | } else if (c == 3) { |
dudmuck | 0:be215de91a68 | 1575 | // ctrl-C abort |
dudmuck | 0:be215de91a68 | 1576 | return -1; |
dudmuck | 0:be215de91a68 | 1577 | } else if (i < size) { |
dudmuck | 0:be215de91a68 | 1578 | buf[i++] = c; |
dudmuck | 0:be215de91a68 | 1579 | pc.putc(c); |
dudmuck | 0:be215de91a68 | 1580 | } |
dudmuck | 4:7a9007dfc0e5 | 1581 | } else { |
dudmuck | 0:be215de91a68 | 1582 | service_radio(); |
dudmuck | 4:7a9007dfc0e5 | 1583 | } |
dudmuck | 0:be215de91a68 | 1584 | } // ...for() |
dudmuck | 5:360069ec9953 | 1585 | }*/ |
dudmuck | 0:be215de91a68 | 1586 | |
dudmuck | 0:be215de91a68 | 1587 | void |
dudmuck | 0:be215de91a68 | 1588 | console_chat() |
dudmuck | 0:be215de91a68 | 1589 | { |
dudmuck | 5:360069ec9953 | 1590 | //int i, len = get_kbd_str(pcbuf, sizeof(pcbuf)); |
dudmuck | 5:360069ec9953 | 1591 | |
dudmuck | 5:360069ec9953 | 1592 | service_radio(); |
dudmuck | 5:360069ec9953 | 1593 | |
dudmuck | 5:360069ec9953 | 1594 | if (pcbuf_len < 0) { |
dudmuck | 0:be215de91a68 | 1595 | printf("chat abort\r\n"); |
dudmuck | 5:360069ec9953 | 1596 | pcbuf_len = 0; |
dudmuck | 0:be215de91a68 | 1597 | app = APP_NONE; |
dudmuck | 0:be215de91a68 | 1598 | return; |
dudmuck | 5:360069ec9953 | 1599 | } else if (pcbuf_len == 0) { |
dudmuck | 5:360069ec9953 | 1600 | return; |
dudmuck | 0:be215de91a68 | 1601 | } else { |
dudmuck | 5:360069ec9953 | 1602 | int i; |
dudmuck | 5:360069ec9953 | 1603 | for (i = 0; i < pcbuf_len; i++) |
dudmuck | 0:be215de91a68 | 1604 | radio.tx_buf[i] = pcbuf[i]; |
dudmuck | 1:1cd0afbed23c | 1605 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 5:360069ec9953 | 1606 | lora.RegPayloadLength = pcbuf_len; |
dudmuck | 1:1cd0afbed23c | 1607 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 5:360069ec9953 | 1608 | lora.start_tx(pcbuf_len); |
dudmuck | 2:c6b23a43a9d9 | 1609 | } else { |
dudmuck | 5:360069ec9953 | 1610 | fsk.start_tx(pcbuf_len); |
dudmuck | 2:c6b23a43a9d9 | 1611 | } |
dudmuck | 5:360069ec9953 | 1612 | pcbuf_len = 0; |
dudmuck | 0:be215de91a68 | 1613 | printf("\r\n"); |
dudmuck | 0:be215de91a68 | 1614 | } |
dudmuck | 0:be215de91a68 | 1615 | } |
dudmuck | 0:be215de91a68 | 1616 | |
dudmuck | 18:9530d682fd9a | 1617 | typedef enum { |
dudmuck | 18:9530d682fd9a | 1618 | TXTICKER_STATE_OFF = 0, |
dudmuck | 18:9530d682fd9a | 1619 | TXTICKER_STATE_TOGGLE_PAYLOAD_BIT, |
dudmuck | 18:9530d682fd9a | 1620 | TXTICKER_STATE_CYCLE_PAYLOAD_LENGTH, |
dudmuck | 18:9530d682fd9a | 1621 | TXTICKER_STATE_CYCLE_CODING_RATE, |
dudmuck | 18:9530d682fd9a | 1622 | TXTICKER_STATE_TOG_HEADER_MODE, |
dudmuck | 18:9530d682fd9a | 1623 | TXTICKER_STATE_TOG_CRC_ON, |
dudmuck | 18:9530d682fd9a | 1624 | TXTICKER_STATE_CYCLE_SYNC_1, |
dudmuck | 18:9530d682fd9a | 1625 | TXTICKER_STATE_CYCLE_SYNC_2, |
dudmuck | 18:9530d682fd9a | 1626 | TXTICKER_STATE_RAMP_PAYLOAD_DATA_START, |
dudmuck | 18:9530d682fd9a | 1627 | TXTICKER_STATE_RAMP_PAYLOAD_DATA, |
dudmuck | 18:9530d682fd9a | 1628 | TXTICKER_STATE_SYMBOL_SWEEP, |
dudmuck | 18:9530d682fd9a | 1629 | TXTICKER_STATE_TOGGLE_ALL_BITS_START, |
dudmuck | 18:9530d682fd9a | 1630 | TXTICKER_STATE_TOGGLE_ALL_BITS, |
dudmuck | 18:9530d682fd9a | 1631 | } txticker_state_e; |
dudmuck | 18:9530d682fd9a | 1632 | |
dudmuck | 18:9530d682fd9a | 1633 | txticker_state_e txticker_state; |
dudmuck | 18:9530d682fd9a | 1634 | float tx_ticker_rate = 0.5; |
dudmuck | 18:9530d682fd9a | 1635 | Ticker tx_ticker; |
dudmuck | 18:9530d682fd9a | 1636 | |
dudmuck | 18:9530d682fd9a | 1637 | uint8_t txticker_sync_byte; |
dudmuck | 18:9530d682fd9a | 1638 | uint8_t payload_length_stop; |
dudmuck | 18:9530d682fd9a | 1639 | uint8_t symbol_num; |
dudmuck | 18:9530d682fd9a | 1640 | uint32_t symbol_sweep_bit_counter = 0; |
dudmuck | 18:9530d682fd9a | 1641 | unsigned int symbol_sweep_bit_counter_stop; |
dudmuck | 18:9530d682fd9a | 1642 | uint8_t symbol_sweep_nbits; |
dudmuck | 18:9530d682fd9a | 1643 | uint8_t byte_pad_length; |
dudmuck | 18:9530d682fd9a | 1644 | |
dudmuck | 18:9530d682fd9a | 1645 | uint8_t tab_current_byte_num; |
dudmuck | 18:9530d682fd9a | 1646 | uint8_t tab_current_bit_in_byte; |
dudmuck | 18:9530d682fd9a | 1647 | |
dudmuck | 18:9530d682fd9a | 1648 | void fp_cb() |
dudmuck | 18:9530d682fd9a | 1649 | { |
dudmuck | 18:9530d682fd9a | 1650 | int i; |
dudmuck | 18:9530d682fd9a | 1651 | if (!radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 1652 | return; |
dudmuck | 18:9530d682fd9a | 1653 | |
dudmuck | 18:9530d682fd9a | 1654 | switch (txticker_state) { |
dudmuck | 18:9530d682fd9a | 1655 | case TXTICKER_STATE_TOGGLE_PAYLOAD_BIT: |
dudmuck | 18:9530d682fd9a | 1656 | /* |
dudmuck | 18:9530d682fd9a | 1657 | { |
dudmuck | 18:9530d682fd9a | 1658 | if (fp_tog_bit_ < 32) { |
dudmuck | 18:9530d682fd9a | 1659 | uint32_t bp = 1 << fp_tog_bit_; |
dudmuck | 18:9530d682fd9a | 1660 | fp_data ^= bp; |
dudmuck | 18:9530d682fd9a | 1661 | //printf("bp%02x ", bp); |
dudmuck | 18:9530d682fd9a | 1662 | } |
dudmuck | 18:9530d682fd9a | 1663 | memcpy(radio.tx_buf, &fp_data, fp_data_length); |
dudmuck | 18:9530d682fd9a | 1664 | printf("TX "); |
dudmuck | 18:9530d682fd9a | 1665 | for (i = 0; i < fp_data_length; i++) |
dudmuck | 18:9530d682fd9a | 1666 | printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1667 | |
dudmuck | 18:9530d682fd9a | 1668 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1669 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1670 | break; |
dudmuck | 18:9530d682fd9a | 1671 | } |
dudmuck | 18:9530d682fd9a | 1672 | */ |
dudmuck | 18:9530d682fd9a | 1673 | tx_ticker.detach(); |
dudmuck | 18:9530d682fd9a | 1674 | break; |
dudmuck | 18:9530d682fd9a | 1675 | case TXTICKER_STATE_CYCLE_PAYLOAD_LENGTH: |
dudmuck | 18:9530d682fd9a | 1676 | { |
dudmuck | 18:9530d682fd9a | 1677 | if (lora.RegPayloadLength > payload_length_stop) |
dudmuck | 18:9530d682fd9a | 1678 | lora.RegPayloadLength = 0; |
dudmuck | 18:9530d682fd9a | 1679 | else |
dudmuck | 18:9530d682fd9a | 1680 | lora.RegPayloadLength++; |
dudmuck | 18:9530d682fd9a | 1681 | |
dudmuck | 18:9530d682fd9a | 1682 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1683 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1684 | printf("RegPayloadLength:%d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1685 | break; |
dudmuck | 18:9530d682fd9a | 1686 | } |
dudmuck | 18:9530d682fd9a | 1687 | case TXTICKER_STATE_CYCLE_CODING_RATE: |
dudmuck | 18:9530d682fd9a | 1688 | { |
dudmuck | 18:9530d682fd9a | 1689 | uint8_t cr = lora.getCodingRate(false); // false: TX coding rate |
dudmuck | 18:9530d682fd9a | 1690 | if (cr == 4) |
dudmuck | 18:9530d682fd9a | 1691 | cr = 0; |
dudmuck | 18:9530d682fd9a | 1692 | else |
dudmuck | 18:9530d682fd9a | 1693 | cr++; |
dudmuck | 18:9530d682fd9a | 1694 | |
dudmuck | 18:9530d682fd9a | 1695 | lora.setCodingRate(cr); |
dudmuck | 18:9530d682fd9a | 1696 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1697 | printf("tx cr:%d\r\n", cr); |
dudmuck | 18:9530d682fd9a | 1698 | break; |
dudmuck | 18:9530d682fd9a | 1699 | } |
dudmuck | 18:9530d682fd9a | 1700 | case TXTICKER_STATE_TOG_HEADER_MODE: |
dudmuck | 18:9530d682fd9a | 1701 | { |
dudmuck | 18:9530d682fd9a | 1702 | lora.setHeaderMode(!lora.getHeaderMode()); |
dudmuck | 18:9530d682fd9a | 1703 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1704 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 18:9530d682fd9a | 1705 | lora_printHeaderMode(); |
dudmuck | 18:9530d682fd9a | 1706 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1707 | break; |
dudmuck | 18:9530d682fd9a | 1708 | } |
dudmuck | 18:9530d682fd9a | 1709 | case TXTICKER_STATE_TOG_CRC_ON: |
dudmuck | 18:9530d682fd9a | 1710 | { |
dudmuck | 18:9530d682fd9a | 1711 | lora.setRxPayloadCrcOn(!lora.getRxPayloadCrcOn()); |
dudmuck | 18:9530d682fd9a | 1712 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1713 | printf("crc on:%d\r\n", lora.getRxPayloadCrcOn()); |
dudmuck | 18:9530d682fd9a | 1714 | break; |
dudmuck | 18:9530d682fd9a | 1715 | } |
dudmuck | 18:9530d682fd9a | 1716 | case TXTICKER_STATE_CYCLE_SYNC_1: |
dudmuck | 18:9530d682fd9a | 1717 | { |
dudmuck | 18:9530d682fd9a | 1718 | /* cycle hi nibble of 0x39 register */ |
dudmuck | 18:9530d682fd9a | 1719 | if ((txticker_sync_byte & 0xf0) == 0xf0) |
dudmuck | 18:9530d682fd9a | 1720 | txticker_sync_byte &= 0x0f; |
dudmuck | 18:9530d682fd9a | 1721 | else |
dudmuck | 18:9530d682fd9a | 1722 | txticker_sync_byte += 0x10; |
dudmuck | 18:9530d682fd9a | 1723 | radio.write_reg(REG_LR_SYNC_BYTE, txticker_sync_byte); |
dudmuck | 18:9530d682fd9a | 1724 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1725 | printf("0x39: %02x\r\n", txticker_sync_byte); |
dudmuck | 18:9530d682fd9a | 1726 | break; |
dudmuck | 18:9530d682fd9a | 1727 | } |
dudmuck | 18:9530d682fd9a | 1728 | case TXTICKER_STATE_CYCLE_SYNC_2: |
dudmuck | 18:9530d682fd9a | 1729 | { |
dudmuck | 18:9530d682fd9a | 1730 | /* cycle lo nibble of 0x39 register */ |
dudmuck | 18:9530d682fd9a | 1731 | if ((txticker_sync_byte & 0x0f) == 0x0f) |
dudmuck | 18:9530d682fd9a | 1732 | txticker_sync_byte &= 0xf0; |
dudmuck | 18:9530d682fd9a | 1733 | else |
dudmuck | 18:9530d682fd9a | 1734 | txticker_sync_byte += 0x01; |
dudmuck | 18:9530d682fd9a | 1735 | radio.write_reg(REG_LR_SYNC_BYTE, txticker_sync_byte); |
dudmuck | 18:9530d682fd9a | 1736 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1737 | printf("0x39: %02x\r\n", txticker_sync_byte); |
dudmuck | 18:9530d682fd9a | 1738 | break; |
dudmuck | 18:9530d682fd9a | 1739 | } |
dudmuck | 18:9530d682fd9a | 1740 | case TXTICKER_STATE_RAMP_PAYLOAD_DATA_START: |
dudmuck | 18:9530d682fd9a | 1741 | txticker_state = TXTICKER_STATE_RAMP_PAYLOAD_DATA; |
dudmuck | 18:9530d682fd9a | 1742 | for (i = 0; i < lora.RegPayloadLength; i++) |
dudmuck | 18:9530d682fd9a | 1743 | radio.tx_buf[i] = 0; |
dudmuck | 18:9530d682fd9a | 1744 | |
dudmuck | 18:9530d682fd9a | 1745 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1746 | printf("payload start, len:%d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1747 | break; |
dudmuck | 18:9530d682fd9a | 1748 | case TXTICKER_STATE_RAMP_PAYLOAD_DATA: |
dudmuck | 18:9530d682fd9a | 1749 | for (i = lora.RegPayloadLength-1; i >= 0; i--) { |
dudmuck | 18:9530d682fd9a | 1750 | //printf("i:%d ", i); |
dudmuck | 18:9530d682fd9a | 1751 | if (radio.tx_buf[i] == 255) { |
dudmuck | 18:9530d682fd9a | 1752 | radio.tx_buf[i] = 0; |
dudmuck | 18:9530d682fd9a | 1753 | } else { |
dudmuck | 18:9530d682fd9a | 1754 | radio.tx_buf[i]++; |
dudmuck | 18:9530d682fd9a | 1755 | break; |
dudmuck | 18:9530d682fd9a | 1756 | } |
dudmuck | 18:9530d682fd9a | 1757 | } |
dudmuck | 18:9530d682fd9a | 1758 | //printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1759 | printf("send:"); |
dudmuck | 18:9530d682fd9a | 1760 | for (i = 0; i < lora.RegPayloadLength; i++) { |
dudmuck | 18:9530d682fd9a | 1761 | printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1762 | } |
dudmuck | 18:9530d682fd9a | 1763 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1764 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1765 | if (radio.tx_buf[0] == 255) { |
dudmuck | 18:9530d682fd9a | 1766 | printf("payload ramp done\r\n"); |
dudmuck | 18:9530d682fd9a | 1767 | tx_ticker.detach(); |
dudmuck | 18:9530d682fd9a | 1768 | } |
dudmuck | 18:9530d682fd9a | 1769 | break; |
dudmuck | 18:9530d682fd9a | 1770 | case TXTICKER_STATE_SYMBOL_SWEEP: // fpsNL command, where N=symbol num, L=nbytes |
dudmuck | 18:9530d682fd9a | 1771 | { |
dudmuck | 18:9530d682fd9a | 1772 | uint32_t mask; |
dudmuck | 18:9530d682fd9a | 1773 | /*for (i = 0; i < lora.RegPayloadLength; i++) |
dudmuck | 18:9530d682fd9a | 1774 | radio.tx_buf[i] = 0;*/ |
dudmuck | 18:9530d682fd9a | 1775 | i = byte_pad_length; |
dudmuck | 19:be8a8b0e7320 | 1776 | printf("bit_counter 0x%" PRIx32 " : ", symbol_sweep_bit_counter); |
dudmuck | 18:9530d682fd9a | 1777 | for (int bn = 0; bn < symbol_sweep_nbits; bn += 2) { |
dudmuck | 18:9530d682fd9a | 1778 | /* 2 lsbits going into first byte */ |
dudmuck | 18:9530d682fd9a | 1779 | mask = 1 << bn; |
dudmuck | 18:9530d682fd9a | 1780 | if (symbol_sweep_bit_counter & mask) |
dudmuck | 18:9530d682fd9a | 1781 | radio.tx_buf[i] |= 1 << symbol_num; |
dudmuck | 18:9530d682fd9a | 1782 | else |
dudmuck | 18:9530d682fd9a | 1783 | radio.tx_buf[i] &= ~(1 << symbol_num); |
dudmuck | 18:9530d682fd9a | 1784 | mask = 2 << bn; |
dudmuck | 18:9530d682fd9a | 1785 | if (symbol_sweep_bit_counter & mask) |
dudmuck | 18:9530d682fd9a | 1786 | radio.tx_buf[i] |= 0x10 << symbol_num; |
dudmuck | 18:9530d682fd9a | 1787 | else |
dudmuck | 18:9530d682fd9a | 1788 | radio.tx_buf[i] &= ~(0x10 << symbol_num); |
dudmuck | 18:9530d682fd9a | 1789 | //printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1790 | i++; |
dudmuck | 18:9530d682fd9a | 1791 | } |
dudmuck | 18:9530d682fd9a | 1792 | for (i = 0; i < lora.RegPayloadLength; i++) |
dudmuck | 18:9530d682fd9a | 1793 | printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1794 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1795 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1796 | if (++symbol_sweep_bit_counter == symbol_sweep_bit_counter_stop) { |
dudmuck | 18:9530d682fd9a | 1797 | printf("stop\r\n"); |
dudmuck | 18:9530d682fd9a | 1798 | tx_ticker.detach(); |
dudmuck | 18:9530d682fd9a | 1799 | } |
dudmuck | 18:9530d682fd9a | 1800 | } |
dudmuck | 18:9530d682fd9a | 1801 | break; |
dudmuck | 18:9530d682fd9a | 1802 | case TXTICKER_STATE_TOGGLE_ALL_BITS_START: |
dudmuck | 18:9530d682fd9a | 1803 | tab_current_byte_num = byte_pad_length; |
dudmuck | 18:9530d682fd9a | 1804 | tab_current_bit_in_byte = 0; |
dudmuck | 18:9530d682fd9a | 1805 | printf("tx "); |
dudmuck | 18:9530d682fd9a | 1806 | for (i = 0; i < lora.RegPayloadLength; i++) { |
dudmuck | 18:9530d682fd9a | 1807 | radio.tx_buf[i] = 0; |
dudmuck | 18:9530d682fd9a | 1808 | printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1809 | } |
dudmuck | 18:9530d682fd9a | 1810 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1811 | txticker_state = TXTICKER_STATE_TOGGLE_ALL_BITS; |
dudmuck | 18:9530d682fd9a | 1812 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1813 | break; |
dudmuck | 18:9530d682fd9a | 1814 | case TXTICKER_STATE_TOGGLE_ALL_BITS: |
dudmuck | 18:9530d682fd9a | 1815 | { |
dudmuck | 18:9530d682fd9a | 1816 | uint8_t mask = 1 << tab_current_bit_in_byte; |
dudmuck | 18:9530d682fd9a | 1817 | radio.tx_buf[tab_current_byte_num] = mask; |
dudmuck | 18:9530d682fd9a | 1818 | printf("bit%d in [%d]: tx ", tab_current_bit_in_byte, tab_current_byte_num); |
dudmuck | 18:9530d682fd9a | 1819 | for (i = 0; i < lora.RegPayloadLength; i++) { |
dudmuck | 18:9530d682fd9a | 1820 | printf("%02x ", radio.tx_buf[i]); |
dudmuck | 18:9530d682fd9a | 1821 | } |
dudmuck | 18:9530d682fd9a | 1822 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1823 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1824 | if (++tab_current_bit_in_byte == 8) { |
dudmuck | 18:9530d682fd9a | 1825 | radio.tx_buf[tab_current_byte_num] = 0; |
dudmuck | 18:9530d682fd9a | 1826 | tab_current_bit_in_byte = 0; |
dudmuck | 18:9530d682fd9a | 1827 | if (++tab_current_byte_num == lora.RegPayloadLength) { |
dudmuck | 18:9530d682fd9a | 1828 | tx_ticker.detach(); |
dudmuck | 18:9530d682fd9a | 1829 | } |
dudmuck | 18:9530d682fd9a | 1830 | } |
dudmuck | 18:9530d682fd9a | 1831 | } |
dudmuck | 18:9530d682fd9a | 1832 | break; |
dudmuck | 18:9530d682fd9a | 1833 | default: |
dudmuck | 18:9530d682fd9a | 1834 | tx_ticker.detach(); |
dudmuck | 18:9530d682fd9a | 1835 | break; |
dudmuck | 18:9530d682fd9a | 1836 | } // ...switch (txticker_state) |
dudmuck | 18:9530d682fd9a | 1837 | } |
dudmuck | 18:9530d682fd9a | 1838 | |
dudmuck | 18:9530d682fd9a | 1839 | void ook_test_tx(int len) |
dudmuck | 18:9530d682fd9a | 1840 | { |
dudmuck | 18:9530d682fd9a | 1841 | int i; |
dudmuck | 18:9530d682fd9a | 1842 | /* |
dudmuck | 18:9530d682fd9a | 1843 | fsk.RegPktConfig2.bits.PayloadLength = i; |
dudmuck | 18:9530d682fd9a | 1844 | radio.write_u16(REG_FSK_PACKETCONFIG2, fsk.RegPktConfig2.word);fsk.RegPktConfig2.bits.PayloadLength = i; |
dudmuck | 18:9530d682fd9a | 1845 | radio.write_u16(REG_FSK_PACKETCONFIG2, fsk.RegPktConfig2.word); |
dudmuck | 18:9530d682fd9a | 1846 | */ |
dudmuck | 18:9530d682fd9a | 1847 | for (i = 0; i < 4; i++) { |
dudmuck | 18:9530d682fd9a | 1848 | radio.tx_buf[i] = 0xaa; |
dudmuck | 18:9530d682fd9a | 1849 | } |
dudmuck | 18:9530d682fd9a | 1850 | |
dudmuck | 18:9530d682fd9a | 1851 | printf("ooktx:"); |
dudmuck | 18:9530d682fd9a | 1852 | for (i = 0; i < len; i++) { |
dudmuck | 18:9530d682fd9a | 1853 | radio.tx_buf[i+4] = rand() & 0xff; |
dudmuck | 18:9530d682fd9a | 1854 | printf("%02x ", radio.tx_buf[i+4]); |
dudmuck | 18:9530d682fd9a | 1855 | } |
dudmuck | 18:9530d682fd9a | 1856 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1857 | fsk.start_tx(len+4); |
dudmuck | 18:9530d682fd9a | 1858 | |
dudmuck | 18:9530d682fd9a | 1859 | while (radio.RegOpMode.bits.Mode == RF_OPMODE_TRANSMITTER) { |
dudmuck | 18:9530d682fd9a | 1860 | if (poll_irq_en) |
dudmuck | 18:9530d682fd9a | 1861 | poll_service_radio(); |
dudmuck | 18:9530d682fd9a | 1862 | else |
dudmuck | 18:9530d682fd9a | 1863 | service_radio(); |
dudmuck | 18:9530d682fd9a | 1864 | } |
dudmuck | 18:9530d682fd9a | 1865 | } |
dudmuck | 18:9530d682fd9a | 1866 | |
dudmuck | 18:9530d682fd9a | 1867 | void cmd_init(uint8_t args_at) |
dudmuck | 10:d9bb2ce57f05 | 1868 | { |
dudmuck | 18:9530d682fd9a | 1869 | printf("init\r\n"); |
dudmuck | 18:9530d682fd9a | 1870 | radio.init(); |
dudmuck | 18:9530d682fd9a | 1871 | if (!radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 1872 | fsk.init(); // put FSK modem to some functioning default |
dudmuck | 18:9530d682fd9a | 1873 | } else { |
dudmuck | 18:9530d682fd9a | 1874 | // lora configuration is more simple |
dudmuck | 18:9530d682fd9a | 1875 | } |
dudmuck | 18:9530d682fd9a | 1876 | } |
dudmuck | 18:9530d682fd9a | 1877 | |
dudmuck | 18:9530d682fd9a | 1878 | void cmd_per_tx_delay(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1879 | { |
dudmuck | 18:9530d682fd9a | 1880 | int i; |
dudmuck | 18:9530d682fd9a | 1881 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 1882 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 1883 | per_tx_delay = i / 1000.0; |
dudmuck | 18:9530d682fd9a | 1884 | } |
dudmuck | 18:9530d682fd9a | 1885 | printf("per_tx_delay:%dms\r\n", (int)(per_tx_delay * 1000)); |
dudmuck | 18:9530d682fd9a | 1886 | } |
dudmuck | 18:9530d682fd9a | 1887 | |
dudmuck | 18:9530d682fd9a | 1888 | void cmd_tx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1889 | { |
dudmuck | 18:9530d682fd9a | 1890 | int i; |
dudmuck | 18:9530d682fd9a | 1891 | static uint16_t fsk_tx_length; |
dudmuck | 18:9530d682fd9a | 1892 | |
dudmuck | 18:9530d682fd9a | 1893 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 1894 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 1895 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 1896 | lora.RegPayloadLength = i; |
dudmuck | 18:9530d682fd9a | 1897 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1898 | } |
dudmuck | 18:9530d682fd9a | 1899 | tx_cnt++; |
dudmuck | 18:9530d682fd9a | 1900 | printf("payload:%02x\r\n", tx_cnt); |
dudmuck | 18:9530d682fd9a | 1901 | |
dudmuck | 18:9530d682fd9a | 1902 | for (i = 0; i < lora.RegPayloadLength; i++) |
dudmuck | 18:9530d682fd9a | 1903 | radio.tx_buf[i] = tx_cnt; |
dudmuck | 18:9530d682fd9a | 1904 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 1905 | } else { // FSK: |
dudmuck | 18:9530d682fd9a | 1906 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 1907 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 1908 | fsk_tx_length = i; |
dudmuck | 18:9530d682fd9a | 1909 | } |
dudmuck | 18:9530d682fd9a | 1910 | if (ook_test_en) { |
dudmuck | 18:9530d682fd9a | 1911 | ook_test_tx(fsk_tx_length); |
dudmuck | 18:9530d682fd9a | 1912 | } else { |
dudmuck | 18:9530d682fd9a | 1913 | if (radio.RegOpMode.bits.Mode != RF_OPMODE_TRANSMITTER) { // if not already busy transmitting |
dudmuck | 18:9530d682fd9a | 1914 | tx_cnt++; |
dudmuck | 18:9530d682fd9a | 1915 | printf("payload:%02x\r\n", tx_cnt); |
dudmuck | 18:9530d682fd9a | 1916 | for (i = 0; i < fsk_tx_length; i++) { |
dudmuck | 18:9530d682fd9a | 1917 | radio.tx_buf[i] = tx_cnt; |
dudmuck | 18:9530d682fd9a | 1918 | } |
dudmuck | 18:9530d682fd9a | 1919 | fsk.start_tx(fsk_tx_length); |
dudmuck | 18:9530d682fd9a | 1920 | } |
dudmuck | 18:9530d682fd9a | 1921 | } |
dudmuck | 18:9530d682fd9a | 1922 | } // !LoRa |
dudmuck | 18:9530d682fd9a | 1923 | |
dudmuck | 18:9530d682fd9a | 1924 | } |
dudmuck | 18:9530d682fd9a | 1925 | |
dudmuck | 18:9530d682fd9a | 1926 | void cmd_hw_reset(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1927 | { |
dudmuck | 18:9530d682fd9a | 1928 | printf("hw_reset()\r\n"); |
dudmuck | 18:9530d682fd9a | 1929 | radio.hw_reset(); |
dudmuck | 18:9530d682fd9a | 1930 | ook_test_en = false; |
dudmuck | 18:9530d682fd9a | 1931 | poll_irq_en = false; |
dudmuck | 18:9530d682fd9a | 1932 | } |
dudmuck | 18:9530d682fd9a | 1933 | |
dudmuck | 18:9530d682fd9a | 1934 | void cmd_read_all_regs(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1935 | { |
dudmuck | 18:9530d682fd9a | 1936 | uint8_t a, d; |
dudmuck | 18:9530d682fd9a | 1937 | |
dudmuck | 18:9530d682fd9a | 1938 | // read all registers |
dudmuck | 18:9530d682fd9a | 1939 | for (a = 1; a < 0x71; a++) { |
dudmuck | 18:9530d682fd9a | 1940 | d = radio.read_reg(a); |
dudmuck | 18:9530d682fd9a | 1941 | printf("%02x: %02x\r\n", a, d); |
dudmuck | 18:9530d682fd9a | 1942 | } |
dudmuck | 18:9530d682fd9a | 1943 | } |
dudmuck | 18:9530d682fd9a | 1944 | |
dudmuck | 18:9530d682fd9a | 1945 | void cmd_read_current_rssi(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1946 | { |
dudmuck | 18:9530d682fd9a | 1947 | if (radio.RegOpMode.bits.Mode != RF_OPMODE_RECEIVER) { |
dudmuck | 18:9530d682fd9a | 1948 | radio.set_opmode(RF_OPMODE_RECEIVER); |
dudmuck | 18:9530d682fd9a | 1949 | wait_us(10000); |
dudmuck | 18:9530d682fd9a | 1950 | } |
dudmuck | 18:9530d682fd9a | 1951 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 1952 | printf("rssi:%ddBm\r\n", lora.get_current_rssi()); |
dudmuck | 18:9530d682fd9a | 1953 | else |
dudmuck | 18:9530d682fd9a | 1954 | printf("rssi:-%.1f\r\n", radio.read_reg(REG_FSK_RSSIVALUE) / 2.0); |
dudmuck | 18:9530d682fd9a | 1955 | } |
dudmuck | 18:9530d682fd9a | 1956 | |
dudmuck | 18:9530d682fd9a | 1957 | void cmd_lora_continuous_tx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1958 | { |
dudmuck | 18:9530d682fd9a | 1959 | /* TxContinuousMode same for sx1272 and sx1276 */ |
dudmuck | 18:9530d682fd9a | 1960 | lora.RegModemConfig2.octet = radio.read_reg(REG_LR_MODEMCONFIG2); |
dudmuck | 18:9530d682fd9a | 1961 | lora.RegModemConfig2.sx1276bits.TxContinuousMode ^= 1; |
dudmuck | 18:9530d682fd9a | 1962 | radio.write_reg(REG_LR_MODEMCONFIG2, lora.RegModemConfig2.octet); |
dudmuck | 18:9530d682fd9a | 1963 | lora.RegModemConfig2.octet = radio.read_reg(REG_LR_MODEMCONFIG2); |
dudmuck | 13:c73caaee93a5 | 1964 | |
dudmuck | 18:9530d682fd9a | 1965 | lora_printTxContinuousMode(); |
dudmuck | 18:9530d682fd9a | 1966 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 1967 | } |
dudmuck | 18:9530d682fd9a | 1968 | |
dudmuck | 18:9530d682fd9a | 1969 | void cmd_fsk_test_case(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 1970 | { |
dudmuck | 18:9530d682fd9a | 1971 | if (pcbuf[idx] < '0' || pcbuf[idx] > '9') { |
dudmuck | 19:be8a8b0e7320 | 1972 | printf("%" PRIu32 "bps fdev:%" PRIu32 "hz ", fsk.get_bitrate(), fsk.get_tx_fdev_hz()); |
dudmuck | 19:be8a8b0e7320 | 1973 | printf("rxbw:%" PRIu32 "Hz ", fsk.get_rx_bw_hz(REG_FSK_RXBW)); |
dudmuck | 19:be8a8b0e7320 | 1974 | printf("afcbw:%" PRIu32 "Hz preambleLen:%" PRIu16 "\r\n", fsk.get_rx_bw_hz(REG_FSK_AFCBW), radio.read_u16(REG_FSK_PREAMBLEMSB)); |
dudmuck | 18:9530d682fd9a | 1975 | } else { |
dudmuck | 18:9530d682fd9a | 1976 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 18:9530d682fd9a | 1977 | per_tx_delay = 0.3; |
dudmuck | 18:9530d682fd9a | 1978 | |
dudmuck | 18:9530d682fd9a | 1979 | if (radio.read_reg(REG_FSK_SYNCVALUE1) == 0x55 && radio.read_reg(REG_FSK_SYNCVALUE2)) { |
dudmuck | 18:9530d682fd9a | 1980 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 18:9530d682fd9a | 1981 | fsk.RegSyncConfig.bits.SyncSize = 2; |
dudmuck | 18:9530d682fd9a | 1982 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 1983 | radio.write_reg(REG_FSK_SYNCVALUE3, 0x90); |
dudmuck | 18:9530d682fd9a | 1984 | radio.write_reg(REG_FSK_SYNCVALUE2, 0x4e); |
dudmuck | 18:9530d682fd9a | 1985 | radio.write_reg(REG_FSK_SYNCVALUE1, 0x63); |
dudmuck | 18:9530d682fd9a | 1986 | } |
dudmuck | 18:9530d682fd9a | 1987 | |
dudmuck | 18:9530d682fd9a | 1988 | fsk.RegPreambleDetect.octet = radio.read_reg(REG_FSK_PREAMBLEDETECT); |
dudmuck | 18:9530d682fd9a | 1989 | fsk.RegPreambleDetect.bits.PreambleDetectorOn = 1; |
dudmuck | 18:9530d682fd9a | 1990 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 18:9530d682fd9a | 1991 | |
dudmuck | 18:9530d682fd9a | 1992 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 18:9530d682fd9a | 1993 | fsk.RegRxConfig.bits.AfcAutoOn = 1; |
dudmuck | 18:9530d682fd9a | 1994 | fsk.RegRxConfig.bits.AgcAutoOn = 1; |
dudmuck | 20:b11592c9ba5f | 1995 | fsk.RegRxConfig.bits.RxTrigger = 7; // both |
dudmuck | 18:9530d682fd9a | 1996 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 18:9530d682fd9a | 1997 | |
dudmuck | 18:9530d682fd9a | 1998 | fsk.RegPreambleDetect.bits.PreambleDetectorOn = 1; |
dudmuck | 18:9530d682fd9a | 1999 | fsk.RegPreambleDetect.bits.PreambleDetectorSize = 1; |
dudmuck | 18:9530d682fd9a | 2000 | fsk.RegPreambleDetect.bits.PreambleDetectorTol = 10; |
dudmuck | 18:9530d682fd9a | 2001 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 18:9530d682fd9a | 2002 | |
dudmuck | 18:9530d682fd9a | 2003 | switch (pcbuf[idx]) { |
dudmuck | 18:9530d682fd9a | 2004 | case '0': |
dudmuck | 18:9530d682fd9a | 2005 | fsk.set_bitrate(4800); |
dudmuck | 18:9530d682fd9a | 2006 | fsk.set_tx_fdev_hz(5005); |
dudmuck | 18:9530d682fd9a | 2007 | fsk.set_rx_dcc_bw_hz(10417, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2008 | fsk.set_rx_dcc_bw_hz(50000, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2009 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 18:9530d682fd9a | 2010 | break; |
dudmuck | 18:9530d682fd9a | 2011 | case '1': |
dudmuck | 18:9530d682fd9a | 2012 | fsk.set_bitrate(50000); |
dudmuck | 18:9530d682fd9a | 2013 | fsk.set_tx_fdev_hz(25000); |
dudmuck | 18:9530d682fd9a | 2014 | fsk.set_rx_dcc_bw_hz(62500, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2015 | fsk.set_rx_dcc_bw_hz(100000, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2016 | radio.write_u16(REG_FSK_PREAMBLEMSB, 9); |
dudmuck | 18:9530d682fd9a | 2017 | break; |
dudmuck | 18:9530d682fd9a | 2018 | case '2': |
dudmuck | 18:9530d682fd9a | 2019 | fsk.set_bitrate(38400); |
dudmuck | 18:9530d682fd9a | 2020 | fsk.set_tx_fdev_hz(20020); |
dudmuck | 18:9530d682fd9a | 2021 | fsk.set_rx_dcc_bw_hz(50000, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2022 | fsk.set_rx_dcc_bw_hz(100000, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2023 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 18:9530d682fd9a | 2024 | break; |
dudmuck | 18:9530d682fd9a | 2025 | case '3': |
dudmuck | 18:9530d682fd9a | 2026 | fsk.set_bitrate(1201); |
dudmuck | 18:9530d682fd9a | 2027 | fsk.set_tx_fdev_hz(20020); |
dudmuck | 18:9530d682fd9a | 2028 | fsk.set_rx_dcc_bw_hz(25000, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2029 | fsk.set_rx_dcc_bw_hz(50000, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2030 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 18:9530d682fd9a | 2031 | break; |
dudmuck | 18:9530d682fd9a | 2032 | case '4': |
dudmuck | 18:9530d682fd9a | 2033 | fsk.set_bitrate(1201); |
dudmuck | 18:9530d682fd9a | 2034 | fsk.set_tx_fdev_hz(4028); |
dudmuck | 18:9530d682fd9a | 2035 | fsk.set_rx_dcc_bw_hz(7813, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2036 | fsk.set_rx_dcc_bw_hz(25000, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2037 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 18:9530d682fd9a | 2038 | break; |
dudmuck | 18:9530d682fd9a | 2039 | case '5': |
dudmuck | 18:9530d682fd9a | 2040 | fsk.set_bitrate(1201); |
dudmuck | 18:9530d682fd9a | 2041 | fsk.set_tx_fdev_hz(4028); |
dudmuck | 18:9530d682fd9a | 2042 | fsk.set_rx_dcc_bw_hz(5208, 0); // rxbw |
dudmuck | 18:9530d682fd9a | 2043 | fsk.set_rx_dcc_bw_hz(10417, 1); // afcbw |
dudmuck | 18:9530d682fd9a | 2044 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 20:b11592c9ba5f | 2045 | break; |
dudmuck | 20:b11592c9ba5f | 2046 | case '6': |
dudmuck | 20:b11592c9ba5f | 2047 | fsk.set_bitrate(65536); |
dudmuck | 20:b11592c9ba5f | 2048 | fsk.set_tx_fdev_hz(16384); |
dudmuck | 20:b11592c9ba5f | 2049 | fsk.set_rx_dcc_bw_hz(62500, 0); // rxbw |
dudmuck | 20:b11592c9ba5f | 2050 | fsk.set_rx_dcc_bw_hz(100000, 1); // afcbw |
dudmuck | 20:b11592c9ba5f | 2051 | radio.write_u16(REG_FSK_PREAMBLEMSB, 5); |
dudmuck | 20:b11592c9ba5f | 2052 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 20:b11592c9ba5f | 2053 | fsk.RegSyncConfig.bits.SyncSize = 2; |
dudmuck | 20:b11592c9ba5f | 2054 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 20:b11592c9ba5f | 2055 | radio.write_reg(REG_FSK_SYNCVALUE3, 0x33); |
dudmuck | 20:b11592c9ba5f | 2056 | radio.write_reg(REG_FSK_SYNCVALUE2, 0xcb); |
dudmuck | 20:b11592c9ba5f | 2057 | radio.write_reg(REG_FSK_SYNCVALUE1, 0x82); |
dudmuck | 20:b11592c9ba5f | 2058 | |
dudmuck | 20:b11592c9ba5f | 2059 | fsk.RegRxConfig.bits.RxTrigger = 6; // preamble |
dudmuck | 20:b11592c9ba5f | 2060 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 20:b11592c9ba5f | 2061 | radio.RegDioMapping2.bits.Dio4Mapping = 3; |
dudmuck | 20:b11592c9ba5f | 2062 | radio.RegDioMapping2.bits.MapPreambleDetect = 1; // dio4 to preambleDetect in RX |
dudmuck | 20:b11592c9ba5f | 2063 | radio.write_reg(REG_DIOMAPPING2, radio.RegDioMapping2.octet); |
dudmuck | 20:b11592c9ba5f | 2064 | radio.RegDioMapping1.bits.Dio2Mapping = 3; // dio2 to SyncAddress in RX |
dudmuck | 20:b11592c9ba5f | 2065 | radio.RegDioMapping1.bits.Dio1Mapping = 1; // to FifoEmpty |
dudmuck | 20:b11592c9ba5f | 2066 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 20:b11592c9ba5f | 2067 | break; |
dudmuck | 18:9530d682fd9a | 2068 | } // ...switch (pcbuf[idx]) |
dudmuck | 19:be8a8b0e7320 | 2069 | printf("%" PRIu32 "bps fdev:%" PRIu32 "hz ", fsk.get_bitrate(), fsk.get_tx_fdev_hz()); |
dudmuck | 19:be8a8b0e7320 | 2070 | printf("rxbw:%" PRIu32 "Hz ", fsk.get_rx_bw_hz(REG_FSK_RXBW)); |
dudmuck | 20:b11592c9ba5f | 2071 | printf("afcbw:%" PRIu32 "Hz preambleLen:%" PRIu16 "\r\n", fsk.get_rx_bw_hz(REG_FSK_AFCBW), radio.read_u16(REG_FSK_PREAMBLEMSB)); |
dudmuck | 20:b11592c9ba5f | 2072 | |
dudmuck | 20:b11592c9ba5f | 2073 | /* time between preamble occurring and syncAddress occuring |
dudmuck | 20:b11592c9ba5f | 2074 | * = bitrate in microseconds * 8 * (preamble bytes + sync bytes) |
dudmuck | 20:b11592c9ba5f | 2075 | */ |
dudmuck | 20:b11592c9ba5f | 2076 | preamble_to_sync_us = (1.0 / fsk.get_bitrate())*1e6 * 8 * (radio.read_u16(REG_FSK_PREAMBLEMSB)+1 + fsk.RegSyncConfig.bits.SyncSize+2); |
dudmuck | 20:b11592c9ba5f | 2077 | //printf("bitrate:%d, %f\r\n", fsk.get_bitrate(), 1.0 / fsk.get_bitrate()*1e6); |
dudmuck | 20:b11592c9ba5f | 2078 | printf("preamble_to_sync_us:%d\r\n", preamble_to_sync_us); |
dudmuck | 18:9530d682fd9a | 2079 | } |
dudmuck | 18:9530d682fd9a | 2080 | } |
dudmuck | 18:9530d682fd9a | 2081 | |
dudmuck | 20:b11592c9ba5f | 2082 | void cmd_restart_rx(uint8_t idx) |
dudmuck | 20:b11592c9ba5f | 2083 | { |
dudmuck | 20:b11592c9ba5f | 2084 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 20:b11592c9ba5f | 2085 | fsk.RegRxConfig.bits.RestartRxWithoutPllLock = 1; |
dudmuck | 20:b11592c9ba5f | 2086 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 20:b11592c9ba5f | 2087 | rx_start_timer.reset(); |
dudmuck | 20:b11592c9ba5f | 2088 | secs_rx_start = time(NULL); |
dudmuck | 20:b11592c9ba5f | 2089 | fsk.RegRxConfig.bits.RestartRxWithoutPllLock = 0; |
dudmuck | 20:b11592c9ba5f | 2090 | printf("RestartRxWithoutPllLock\r\n"); |
dudmuck | 20:b11592c9ba5f | 2091 | } |
dudmuck | 20:b11592c9ba5f | 2092 | |
dudmuck | 18:9530d682fd9a | 2093 | void cmd_toggle_modem(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2094 | { |
dudmuck | 18:9530d682fd9a | 2095 | ook_test_en = false; |
dudmuck | 18:9530d682fd9a | 2096 | poll_irq_en = false; |
dudmuck | 18:9530d682fd9a | 2097 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 2098 | fsk.enable(false); |
dudmuck | 18:9530d682fd9a | 2099 | else |
dudmuck | 18:9530d682fd9a | 2100 | lora.enable(); |
dudmuck | 18:9530d682fd9a | 2101 | |
dudmuck | 18:9530d682fd9a | 2102 | radio.RegOpMode.octet = radio.read_reg(REG_OPMODE); |
dudmuck | 18:9530d682fd9a | 2103 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 2104 | printf("LoRa\r\n"); |
dudmuck | 18:9530d682fd9a | 2105 | else |
dudmuck | 18:9530d682fd9a | 2106 | printf("FSK\r\n"); |
dudmuck | 18:9530d682fd9a | 2107 | } |
dudmuck | 18:9530d682fd9a | 2108 | |
dudmuck | 18:9530d682fd9a | 2109 | void cmd_empty_fifo(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2110 | { |
dudmuck | 18:9530d682fd9a | 2111 | RegIrqFlags2_t RegIrqFlags2; |
dudmuck | 18:9530d682fd9a | 2112 | RegIrqFlags2.octet = radio.read_reg(REG_FSK_IRQFLAGS2); |
dudmuck | 18:9530d682fd9a | 2113 | while (!RegIrqFlags2.bits.FifoEmpty) { |
dudmuck | 18:9530d682fd9a | 2114 | if (pc.readable()) |
dudmuck | 18:9530d682fd9a | 2115 | break; |
dudmuck | 18:9530d682fd9a | 2116 | printf("%02x\r\n", radio.read_reg(REG_FIFO)); |
dudmuck | 18:9530d682fd9a | 2117 | RegIrqFlags2.octet = radio.read_reg(REG_FSK_IRQFLAGS2); |
dudmuck | 18:9530d682fd9a | 2118 | } |
dudmuck | 18:9530d682fd9a | 2119 | } |
dudmuck | 18:9530d682fd9a | 2120 | |
dudmuck | 18:9530d682fd9a | 2121 | void cmd_print_status(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2122 | { |
dudmuck | 18:9530d682fd9a | 2123 | if (radio.type == SX1276) { |
dudmuck | 18:9530d682fd9a | 2124 | #ifdef TARGET_MTS_MDOT_F411RE |
dudmuck | 18:9530d682fd9a | 2125 | printf("\r\nSX1276 "); |
dudmuck | 18:9530d682fd9a | 2126 | #else |
dudmuck | 18:9530d682fd9a | 2127 | if (shield_type == SHIELD_TYPE_LAS) |
dudmuck | 18:9530d682fd9a | 2128 | printf("\r\nSX1276LAS "); |
dudmuck | 18:9530d682fd9a | 2129 | if (shield_type == SHIELD_TYPE_MAS) |
dudmuck | 18:9530d682fd9a | 2130 | printf("\r\nSX1276MAS "); |
dudmuck | 18:9530d682fd9a | 2131 | #endif /* !TARGET_MTS_MDOT_F411RE */ |
dudmuck | 18:9530d682fd9a | 2132 | } else if (radio.type == SX1272) |
dudmuck | 18:9530d682fd9a | 2133 | printf("\r\nSX1272 "); |
dudmuck | 18:9530d682fd9a | 2134 | |
dudmuck | 18:9530d682fd9a | 2135 | radio.RegOpMode.octet = radio.read_reg(REG_OPMODE); |
dudmuck | 18:9530d682fd9a | 2136 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 2137 | lora_print_status(); |
dudmuck | 18:9530d682fd9a | 2138 | else |
dudmuck | 18:9530d682fd9a | 2139 | fsk_print_status(); |
dudmuck | 18:9530d682fd9a | 2140 | common_print_status(); |
dudmuck | 18:9530d682fd9a | 2141 | } |
dudmuck | 18:9530d682fd9a | 2142 | |
dudmuck | 18:9530d682fd9a | 2143 | void cmd_hop_period(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2144 | { |
dudmuck | 18:9530d682fd9a | 2145 | int i; |
dudmuck | 18:9530d682fd9a | 2146 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2147 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2148 | lora.RegHopPeriod = i; |
dudmuck | 18:9530d682fd9a | 2149 | radio.write_reg(REG_LR_HOPPERIOD, lora.RegHopPeriod); |
dudmuck | 18:9530d682fd9a | 2150 | if (radio.RegDioMapping1.bits.Dio1Mapping != 1) { |
dudmuck | 18:9530d682fd9a | 2151 | radio.RegDioMapping1.bits.Dio1Mapping = 1; |
dudmuck | 18:9530d682fd9a | 2152 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 2153 | } |
dudmuck | 18:9530d682fd9a | 2154 | } |
dudmuck | 18:9530d682fd9a | 2155 | lora.RegHopPeriod = radio.read_reg(REG_LR_HOPPERIOD); |
dudmuck | 18:9530d682fd9a | 2156 | printf("HopPeriod:0x%02x\r\n", lora.RegHopPeriod); |
dudmuck | 18:9530d682fd9a | 2157 | } |
dudmuck | 18:9530d682fd9a | 2158 | |
dudmuck | 18:9530d682fd9a | 2159 | void cmd_lora_ppg(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2160 | { |
dudmuck | 18:9530d682fd9a | 2161 | int i; |
dudmuck | 18:9530d682fd9a | 2162 | if (pcbuf[idx] != 0) { |
dudmuck | 18:9530d682fd9a | 2163 | sscanf(pcbuf+idx, "%x", &i); |
dudmuck | 18:9530d682fd9a | 2164 | radio.write_reg(REG_LR_SYNC_BYTE, i); |
dudmuck | 18:9530d682fd9a | 2165 | } |
dudmuck | 18:9530d682fd9a | 2166 | printf("lora sync:0x%02x\r\n", radio.read_reg(REG_LR_SYNC_BYTE)); |
dudmuck | 18:9530d682fd9a | 2167 | } |
dudmuck | 18:9530d682fd9a | 2168 | |
dudmuck | 18:9530d682fd9a | 2169 | void cmd_rssi_offset(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2170 | { |
dudmuck | 18:9530d682fd9a | 2171 | int i; |
dudmuck | 18:9530d682fd9a | 2172 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2173 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2174 | fsk.RegRssiConfig.bits.RssiOffset = i; |
dudmuck | 18:9530d682fd9a | 2175 | radio.write_reg(REG_FSK_RSSICONFIG, fsk.RegRssiConfig.octet); |
dudmuck | 18:9530d682fd9a | 2176 | } |
dudmuck | 18:9530d682fd9a | 2177 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 18:9530d682fd9a | 2178 | printf("RssiOffset:%d\r\n", fsk.RegRssiConfig.bits.RssiOffset); |
dudmuck | 18:9530d682fd9a | 2179 | } |
dudmuck | 18:9530d682fd9a | 2180 | |
dudmuck | 18:9530d682fd9a | 2181 | void cmd_rssi_smoothing(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2182 | { |
dudmuck | 18:9530d682fd9a | 2183 | int i; |
dudmuck | 18:9530d682fd9a | 2184 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2185 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2186 | fsk.RegRssiConfig.bits.RssiSmoothing = i; |
dudmuck | 18:9530d682fd9a | 2187 | radio.write_reg(REG_FSK_RSSICONFIG, fsk.RegRssiConfig.octet); |
dudmuck | 18:9530d682fd9a | 2188 | } |
dudmuck | 18:9530d682fd9a | 2189 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 18:9530d682fd9a | 2190 | printf("RssiSmoothing:%d\r\n", fsk.RegRssiConfig.bits.RssiSmoothing); |
dudmuck | 18:9530d682fd9a | 2191 | } |
dudmuck | 18:9530d682fd9a | 2192 | |
dudmuck | 18:9530d682fd9a | 2193 | void cmd_rssi_threshold(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2194 | { |
dudmuck | 19:be8a8b0e7320 | 2195 | if ((pcbuf[idx] >= '0' && pcbuf[idx] <= '9') || pcbuf[idx] == '-') { |
dudmuck | 18:9530d682fd9a | 2196 | float dbm; |
dudmuck | 18:9530d682fd9a | 2197 | sscanf(pcbuf+idx, "%f", &dbm); |
dudmuck | 18:9530d682fd9a | 2198 | dbm *= (float)2.0; |
dudmuck | 18:9530d682fd9a | 2199 | fsk.RegRssiThresh = (int)fabs(dbm); |
dudmuck | 18:9530d682fd9a | 2200 | radio.write_reg(REG_FSK_RSSITHRESH, fsk.RegRssiThresh); |
dudmuck | 18:9530d682fd9a | 2201 | } |
dudmuck | 18:9530d682fd9a | 2202 | fsk.RegRssiThresh = radio.read_reg(REG_FSK_RSSITHRESH); |
dudmuck | 18:9530d682fd9a | 2203 | printf("rssiThreshold:-%.1f\r\n", fsk.RegRssiThresh / 2.0); |
dudmuck | 18:9530d682fd9a | 2204 | } |
dudmuck | 18:9530d682fd9a | 2205 | |
dudmuck | 18:9530d682fd9a | 2206 | void cmd_rx_trigger(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2207 | { |
dudmuck | 18:9530d682fd9a | 2208 | printf("RxTrigger:"); |
dudmuck | 18:9530d682fd9a | 2209 | switch (fsk.RegRxConfig.bits.RxTrigger) { |
dudmuck | 18:9530d682fd9a | 2210 | case 0: fsk.RegRxConfig.bits.RxTrigger = 1; |
dudmuck | 18:9530d682fd9a | 2211 | printf("rssi\r\n"); |
dudmuck | 18:9530d682fd9a | 2212 | break; |
dudmuck | 18:9530d682fd9a | 2213 | case 1: fsk.RegRxConfig.bits.RxTrigger = 6; |
dudmuck | 18:9530d682fd9a | 2214 | printf("preamble\r\n"); |
dudmuck | 18:9530d682fd9a | 2215 | break; |
dudmuck | 18:9530d682fd9a | 2216 | case 6: fsk.RegRxConfig.bits.RxTrigger = 7; |
dudmuck | 18:9530d682fd9a | 2217 | printf("both\r\n"); |
dudmuck | 18:9530d682fd9a | 2218 | break; |
dudmuck | 18:9530d682fd9a | 2219 | case 7: fsk.RegRxConfig.bits.RxTrigger = 0; |
dudmuck | 18:9530d682fd9a | 2220 | printf("none\r\n"); |
dudmuck | 18:9530d682fd9a | 2221 | break; |
dudmuck | 18:9530d682fd9a | 2222 | default: fsk.RegRxConfig.bits.RxTrigger = 0; |
dudmuck | 18:9530d682fd9a | 2223 | printf("none\r\n"); |
dudmuck | 18:9530d682fd9a | 2224 | break; |
dudmuck | 18:9530d682fd9a | 2225 | } |
dudmuck | 18:9530d682fd9a | 2226 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 18:9530d682fd9a | 2227 | } |
dudmuck | 18:9530d682fd9a | 2228 | |
dudmuck | 18:9530d682fd9a | 2229 | void cmd_cadper(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2230 | { |
dudmuck | 18:9530d682fd9a | 2231 | set_per_en(true); |
dudmuck | 18:9530d682fd9a | 2232 | |
dudmuck | 18:9530d682fd9a | 2233 | PacketNormalCnt = 0; |
dudmuck | 20:b11592c9ba5f | 2234 | PacketRxSequencePrev = 0; // transmitter side PacketTxCnt is 1 at first TX |
dudmuck | 18:9530d682fd9a | 2235 | PacketPerKoCnt = 0; |
dudmuck | 18:9530d682fd9a | 2236 | PacketPerOkCnt = 0; |
dudmuck | 18:9530d682fd9a | 2237 | |
dudmuck | 18:9530d682fd9a | 2238 | cadper_enable = true; |
dudmuck | 18:9530d682fd9a | 2239 | |
dudmuck | 18:9530d682fd9a | 2240 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 2241 | /* clear any stale flag */ |
dudmuck | 18:9530d682fd9a | 2242 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 2243 | |
dudmuck | 18:9530d682fd9a | 2244 | /* start first CAD */ |
dudmuck | 18:9530d682fd9a | 2245 | radio.set_opmode(RF_OPMODE_CAD); |
dudmuck | 18:9530d682fd9a | 2246 | num_cads = 0; |
dudmuck | 18:9530d682fd9a | 2247 | } |
dudmuck | 18:9530d682fd9a | 2248 | |
dudmuck | 18:9530d682fd9a | 2249 | #if 0 |
dudmuck | 18:9530d682fd9a | 2250 | void cmd_cadrx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2251 | { |
dudmuck | 18:9530d682fd9a | 2252 | int n_tries = 1; |
dudmuck | 18:9530d682fd9a | 2253 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 2254 | /* clear any stale flag */ |
dudmuck | 18:9530d682fd9a | 2255 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 2256 | |
dudmuck | 18:9530d682fd9a | 2257 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2258 | sscanf(pcbuf+idx, "%d", &n_tries); |
dudmuck | 18:9530d682fd9a | 2259 | } |
dudmuck | 18:9530d682fd9a | 2260 | |
dudmuck | 18:9530d682fd9a | 2261 | while (n_tries > 0) { |
dudmuck | 18:9530d682fd9a | 2262 | radio.set_opmode(RF_OPMODE_CAD); |
dudmuck | 18:9530d682fd9a | 2263 | |
dudmuck | 18:9530d682fd9a | 2264 | do { |
dudmuck | 18:9530d682fd9a | 2265 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 2266 | } while (!lora.RegIrqFlags.bits.CadDetected && !lora.RegIrqFlags.bits.CadDone); |
dudmuck | 18:9530d682fd9a | 2267 | if (lora.RegIrqFlags.bits.CadDetected) { |
dudmuck | 18:9530d682fd9a | 2268 | lora.start_rx(RF_OPMODE_RECEIVER_SINGLE); |
dudmuck | 18:9530d682fd9a | 2269 | n_tries = 1; // end |
dudmuck | 18:9530d682fd9a | 2270 | printf("CadDetected "); |
dudmuck | 18:9530d682fd9a | 2271 | } |
dudmuck | 18:9530d682fd9a | 2272 | if (lora.RegIrqFlags.bits.CadDone) { |
dudmuck | 18:9530d682fd9a | 2273 | printf("CadDone "); |
dudmuck | 18:9530d682fd9a | 2274 | } |
dudmuck | 18:9530d682fd9a | 2275 | |
dudmuck | 18:9530d682fd9a | 2276 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 2277 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2278 | n_tries--; |
dudmuck | 18:9530d682fd9a | 2279 | } |
dudmuck | 18:9530d682fd9a | 2280 | } |
dudmuck | 18:9530d682fd9a | 2281 | #endif /* #if 0 */ |
dudmuck | 18:9530d682fd9a | 2282 | |
dudmuck | 18:9530d682fd9a | 2283 | void cmd_cad(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2284 | { |
dudmuck | 18:9530d682fd9a | 2285 | int n_tries = 1; |
dudmuck | 18:9530d682fd9a | 2286 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 2287 | /* clear any stale flag */ |
dudmuck | 18:9530d682fd9a | 2288 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 2289 | |
dudmuck | 18:9530d682fd9a | 2290 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2291 | sscanf(pcbuf+idx, "%d", &n_tries); |
dudmuck | 18:9530d682fd9a | 2292 | } |
dudmuck | 18:9530d682fd9a | 2293 | |
dudmuck | 18:9530d682fd9a | 2294 | while (n_tries > 0) { |
dudmuck | 18:9530d682fd9a | 2295 | radio.set_opmode(RF_OPMODE_CAD); |
dudmuck | 18:9530d682fd9a | 2296 | |
dudmuck | 18:9530d682fd9a | 2297 | do { |
dudmuck | 18:9530d682fd9a | 2298 | lora.RegIrqFlags.octet = radio.read_reg(REG_LR_IRQFLAGS); |
dudmuck | 18:9530d682fd9a | 2299 | } while (!lora.RegIrqFlags.bits.CadDetected && !lora.RegIrqFlags.bits.CadDone); |
dudmuck | 18:9530d682fd9a | 2300 | if (lora.RegIrqFlags.bits.CadDetected) { |
dudmuck | 18:9530d682fd9a | 2301 | n_tries = 1; // end |
dudmuck | 18:9530d682fd9a | 2302 | printf("CadDetected "); |
dudmuck | 18:9530d682fd9a | 2303 | } |
dudmuck | 18:9530d682fd9a | 2304 | if (lora.RegIrqFlags.bits.CadDone) { |
dudmuck | 18:9530d682fd9a | 2305 | if (n_tries == 1) // print on last try |
dudmuck | 18:9530d682fd9a | 2306 | printf("CadDone "); |
dudmuck | 18:9530d682fd9a | 2307 | } |
dudmuck | 18:9530d682fd9a | 2308 | |
dudmuck | 18:9530d682fd9a | 2309 | radio.write_reg(REG_LR_IRQFLAGS, lora.RegIrqFlags.octet); |
dudmuck | 18:9530d682fd9a | 2310 | n_tries--; |
dudmuck | 18:9530d682fd9a | 2311 | } |
dudmuck | 18:9530d682fd9a | 2312 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2313 | } |
dudmuck | 18:9530d682fd9a | 2314 | |
dudmuck | 18:9530d682fd9a | 2315 | void cmd_rx_timeout(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2316 | { |
dudmuck | 18:9530d682fd9a | 2317 | int symb_timeout; |
dudmuck | 18:9530d682fd9a | 2318 | uint16_t reg_u16 = radio.read_u16(REG_LR_MODEMCONFIG2); |
dudmuck | 18:9530d682fd9a | 2319 | |
dudmuck | 18:9530d682fd9a | 2320 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2321 | sscanf(pcbuf+idx, "%d", &symb_timeout); |
dudmuck | 18:9530d682fd9a | 2322 | reg_u16 &= 0xfc00; |
dudmuck | 18:9530d682fd9a | 2323 | reg_u16 |= symb_timeout; |
dudmuck | 18:9530d682fd9a | 2324 | } |
dudmuck | 18:9530d682fd9a | 2325 | reg_u16 = radio.read_u16(REG_LR_MODEMCONFIG2); |
dudmuck | 18:9530d682fd9a | 2326 | printf("SymbTimeout:%d\r\n", reg_u16 & 0x3ff); |
dudmuck | 18:9530d682fd9a | 2327 | } |
dudmuck | 18:9530d682fd9a | 2328 | |
dudmuck | 18:9530d682fd9a | 2329 | void cmd_rx_single(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2330 | { |
dudmuck | 18:9530d682fd9a | 2331 | lora.start_rx(RF_OPMODE_RECEIVER_SINGLE); |
dudmuck | 18:9530d682fd9a | 2332 | } |
dudmuck | 18:9530d682fd9a | 2333 | |
dudmuck | 18:9530d682fd9a | 2334 | void cmd_rx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2335 | { |
dudmuck | 18:9530d682fd9a | 2336 | set_per_en(false); |
dudmuck | 18:9530d682fd9a | 2337 | |
dudmuck | 18:9530d682fd9a | 2338 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 2339 | lora.start_rx(RF_OPMODE_RECEIVER); |
dudmuck | 18:9530d682fd9a | 2340 | else { |
dudmuck | 20:b11592c9ba5f | 2341 | if (poll_irq_en) { |
dudmuck | 20:b11592c9ba5f | 2342 | fsk_RegIrqFlags2_prev.octet = 0; |
dudmuck | 20:b11592c9ba5f | 2343 | fsk_RegIrqFlags1_prev.octet = 0; |
dudmuck | 20:b11592c9ba5f | 2344 | } |
dudmuck | 20:b11592c9ba5f | 2345 | |
dudmuck | 20:b11592c9ba5f | 2346 | rx_start_timer.start(); |
dudmuck | 20:b11592c9ba5f | 2347 | secs_rx_start = time(NULL); |
dudmuck | 18:9530d682fd9a | 2348 | fsk.start_rx(); |
dudmuck | 18:9530d682fd9a | 2349 | radio.RegDioMapping1.bits.Dio2Mapping = 3; // dio2 to syncadrs |
dudmuck | 18:9530d682fd9a | 2350 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 2351 | if (radio.HF) { |
dudmuck | 18:9530d682fd9a | 2352 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 18:9530d682fd9a | 2353 | fsk.RegRssiConfig.bits.RssiOffset = FSK_RSSI_OFFSET; |
dudmuck | 18:9530d682fd9a | 2354 | fsk.RegRssiConfig.bits.RssiSmoothing = FSK_RSSI_SMOOTHING; |
dudmuck | 18:9530d682fd9a | 2355 | radio.write_reg(REG_FSK_RSSICONFIG, fsk.RegRssiConfig.octet); |
dudmuck | 18:9530d682fd9a | 2356 | } |
dudmuck | 18:9530d682fd9a | 2357 | } |
dudmuck | 18:9530d682fd9a | 2358 | } |
dudmuck | 18:9530d682fd9a | 2359 | |
dudmuck | 18:9530d682fd9a | 2360 | void cmd_radio_reg_read(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2361 | { |
dudmuck | 18:9530d682fd9a | 2362 | int i; |
dudmuck | 18:9530d682fd9a | 2363 | sscanf(pcbuf+idx, "%x", &i); |
dudmuck | 18:9530d682fd9a | 2364 | printf("%02x: %02x\r\n", i, radio.read_reg(i)); |
dudmuck | 18:9530d682fd9a | 2365 | } |
dudmuck | 18:9530d682fd9a | 2366 | |
dudmuck | 18:9530d682fd9a | 2367 | void cmd_radio_reg_write(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2368 | { |
dudmuck | 18:9530d682fd9a | 2369 | int i, n; |
dudmuck | 18:9530d682fd9a | 2370 | sscanf(pcbuf+idx, "%x %x", &i, &n); |
dudmuck | 18:9530d682fd9a | 2371 | radio.write_reg(i, n); |
dudmuck | 18:9530d682fd9a | 2372 | printf("%02x: %02x\r\n", i, radio.read_reg(i)); |
dudmuck | 18:9530d682fd9a | 2373 | } |
dudmuck | 18:9530d682fd9a | 2374 | |
dudmuck | 18:9530d682fd9a | 2375 | void cmd_mod_shaping(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2376 | { |
dudmuck | 18:9530d682fd9a | 2377 | uint8_t s = fsk.get_modulation_shaping(); |
dudmuck | 18:9530d682fd9a | 2378 | |
dudmuck | 18:9530d682fd9a | 2379 | if (s == 3) |
dudmuck | 18:9530d682fd9a | 2380 | s = 0; |
dudmuck | 18:9530d682fd9a | 2381 | else |
dudmuck | 18:9530d682fd9a | 2382 | s++; |
dudmuck | 18:9530d682fd9a | 2383 | |
dudmuck | 18:9530d682fd9a | 2384 | fsk.set_modulation_shaping(s); |
dudmuck | 18:9530d682fd9a | 2385 | |
dudmuck | 18:9530d682fd9a | 2386 | if (radio.RegOpMode.bits.ModulationType == 0) { |
dudmuck | 18:9530d682fd9a | 2387 | printf("FSK "); |
dudmuck | 18:9530d682fd9a | 2388 | switch (s) { |
dudmuck | 18:9530d682fd9a | 2389 | case 0: printf("off"); break; |
dudmuck | 18:9530d682fd9a | 2390 | case 1: printf("BT1.0 "); break; |
dudmuck | 18:9530d682fd9a | 2391 | case 2: printf("BT0.5 "); break; |
dudmuck | 18:9530d682fd9a | 2392 | case 3: printf("BT0.3 "); break; |
dudmuck | 18:9530d682fd9a | 2393 | } |
dudmuck | 18:9530d682fd9a | 2394 | } else if (radio.RegOpMode.bits.ModulationType == 1) { |
dudmuck | 18:9530d682fd9a | 2395 | printf("OOK "); |
dudmuck | 18:9530d682fd9a | 2396 | switch (s) { |
dudmuck | 18:9530d682fd9a | 2397 | case 0: printf("off"); break; |
dudmuck | 18:9530d682fd9a | 2398 | case 1: printf("Fcutoff=bitrate"); break; |
dudmuck | 18:9530d682fd9a | 2399 | case 2: printf("Fcutoff=2*bitrate"); break; |
dudmuck | 18:9530d682fd9a | 2400 | case 3: printf("?"); break; |
dudmuck | 18:9530d682fd9a | 2401 | } |
dudmuck | 18:9530d682fd9a | 2402 | } |
dudmuck | 18:9530d682fd9a | 2403 | |
dudmuck | 18:9530d682fd9a | 2404 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2405 | } |
dudmuck | 18:9530d682fd9a | 2406 | |
dudmuck | 18:9530d682fd9a | 2407 | void cmd_MapPreambleDetect(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2408 | { |
dudmuck | 18:9530d682fd9a | 2409 | radio.RegDioMapping2.bits.MapPreambleDetect ^= 1; |
dudmuck | 18:9530d682fd9a | 2410 | radio.write_reg(REG_DIOMAPPING2, radio.RegDioMapping2.octet); |
dudmuck | 18:9530d682fd9a | 2411 | printf("MapPreambleDetect:"); |
dudmuck | 18:9530d682fd9a | 2412 | if (radio.RegDioMapping2.bits.MapPreambleDetect) |
dudmuck | 18:9530d682fd9a | 2413 | printf("preamble\r\n"); |
dudmuck | 18:9530d682fd9a | 2414 | else |
dudmuck | 18:9530d682fd9a | 2415 | printf("rssi\r\n"); |
dudmuck | 18:9530d682fd9a | 2416 | } |
dudmuck | 18:9530d682fd9a | 2417 | |
dudmuck | 18:9530d682fd9a | 2418 | void cmd_bgr(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2419 | { |
dudmuck | 18:9530d682fd9a | 2420 | RegPdsTrim1_t pds_trim; |
dudmuck | 18:9530d682fd9a | 2421 | uint8_t adr; |
dudmuck | 18:9530d682fd9a | 2422 | if (radio.type == SX1276) |
dudmuck | 18:9530d682fd9a | 2423 | adr = REG_PDSTRIM1_SX1276; |
dudmuck | 18:9530d682fd9a | 2424 | else |
dudmuck | 18:9530d682fd9a | 2425 | adr = REG_PDSTRIM1_SX1272; |
dudmuck | 18:9530d682fd9a | 2426 | |
dudmuck | 18:9530d682fd9a | 2427 | pds_trim.octet = radio.read_reg(adr); |
dudmuck | 18:9530d682fd9a | 2428 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2429 | int i; |
dudmuck | 18:9530d682fd9a | 2430 | sscanf(&pcbuf[idx], "%d", &i); |
dudmuck | 18:9530d682fd9a | 2431 | pds_trim.bits.prog_txdac = i; |
dudmuck | 18:9530d682fd9a | 2432 | } |
dudmuck | 18:9530d682fd9a | 2433 | radio.write_reg(adr, pds_trim.octet); |
dudmuck | 18:9530d682fd9a | 2434 | printf("prog_txdac:%.1fuA\r\n", 2.5 + (pds_trim.bits.prog_txdac * 0.625)); |
dudmuck | 18:9530d682fd9a | 2435 | /* increase OCP threshold to allow more power */ |
dudmuck | 18:9530d682fd9a | 2436 | radio.RegOcp.octet = radio.read_reg(REG_OCP); |
dudmuck | 18:9530d682fd9a | 2437 | if (radio.RegOcp.bits.OcpTrim < 16) { |
dudmuck | 18:9530d682fd9a | 2438 | radio.RegOcp.bits.OcpTrim = 16; |
dudmuck | 18:9530d682fd9a | 2439 | radio.write_reg(REG_OCP, radio.RegOcp.octet); |
dudmuck | 18:9530d682fd9a | 2440 | } |
dudmuck | 18:9530d682fd9a | 2441 | } |
dudmuck | 18:9530d682fd9a | 2442 | |
dudmuck | 18:9530d682fd9a | 2443 | void cmd_ook(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2444 | { |
dudmuck | 18:9530d682fd9a | 2445 | fsk.set_bitrate(32768); |
dudmuck | 18:9530d682fd9a | 2446 | radio.write_u16(REG_FSK_PREAMBLEMSB, 0); // zero preamble length |
dudmuck | 18:9530d682fd9a | 2447 | radio.RegOpMode.bits.ModulationType = 1; // to ook mode |
dudmuck | 18:9530d682fd9a | 2448 | radio.write_reg(REG_OPMODE, radio.RegOpMode.octet); |
dudmuck | 18:9530d682fd9a | 2449 | fsk.RegSyncConfig.bits.SyncOn = 0; |
dudmuck | 18:9530d682fd9a | 2450 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 2451 | ook_test_en = true; |
dudmuck | 18:9530d682fd9a | 2452 | printf("OOK\r\n"); |
dudmuck | 18:9530d682fd9a | 2453 | } |
dudmuck | 18:9530d682fd9a | 2454 | |
dudmuck | 18:9530d682fd9a | 2455 | void cmd_ocp(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2456 | { |
dudmuck | 18:9530d682fd9a | 2457 | int i; |
dudmuck | 18:9530d682fd9a | 2458 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2459 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2460 | if (i < 130) |
dudmuck | 18:9530d682fd9a | 2461 | radio.RegOcp.bits.OcpTrim = (i - 45) / 5; |
dudmuck | 18:9530d682fd9a | 2462 | else |
dudmuck | 18:9530d682fd9a | 2463 | radio.RegOcp.bits.OcpTrim = (i + 30) / 10; |
dudmuck | 18:9530d682fd9a | 2464 | radio.write_reg(REG_OCP, radio.RegOcp.octet); |
dudmuck | 18:9530d682fd9a | 2465 | } |
dudmuck | 18:9530d682fd9a | 2466 | radio.RegOcp.octet = radio.read_reg(REG_OCP); |
dudmuck | 18:9530d682fd9a | 2467 | if (radio.RegOcp.bits.OcpTrim < 16) |
dudmuck | 18:9530d682fd9a | 2468 | i = 45 + (5 * radio.RegOcp.bits.OcpTrim); |
dudmuck | 18:9530d682fd9a | 2469 | else if (radio.RegOcp.bits.OcpTrim < 28) |
dudmuck | 18:9530d682fd9a | 2470 | i = (10 * radio.RegOcp.bits.OcpTrim) - 30; |
dudmuck | 18:9530d682fd9a | 2471 | else |
dudmuck | 18:9530d682fd9a | 2472 | i = 240; |
dudmuck | 18:9530d682fd9a | 2473 | printf("Ocp: %dmA\r\n", i); |
dudmuck | 18:9530d682fd9a | 2474 | } |
dudmuck | 18:9530d682fd9a | 2475 | |
dudmuck | 18:9530d682fd9a | 2476 | void cmd_op(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2477 | { |
dudmuck | 18:9530d682fd9a | 2478 | int i, dbm; |
dudmuck | 18:9530d682fd9a | 2479 | RegPdsTrim1_t pds_trim; |
dudmuck | 18:9530d682fd9a | 2480 | uint8_t adr; |
dudmuck | 18:9530d682fd9a | 2481 | if (radio.type == SX1276) |
dudmuck | 18:9530d682fd9a | 2482 | adr = REG_PDSTRIM1_SX1276; |
dudmuck | 18:9530d682fd9a | 2483 | else |
dudmuck | 18:9530d682fd9a | 2484 | adr = REG_PDSTRIM1_SX1272; |
dudmuck | 18:9530d682fd9a | 2485 | |
dudmuck | 18:9530d682fd9a | 2486 | pds_trim.octet = radio.read_reg(adr); |
dudmuck | 18:9530d682fd9a | 2487 | |
dudmuck | 19:be8a8b0e7320 | 2488 | if (pcbuf[idx] >= '0' && (pcbuf[idx] <= '9' || pcbuf[idx] == '-')) { |
dudmuck | 18:9530d682fd9a | 2489 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2490 | if (radio.RegPaConfig.bits.PaSelect) { |
dudmuck | 18:9530d682fd9a | 2491 | /* PABOOST used: +2dbm to +17, or +20 */ |
dudmuck | 18:9530d682fd9a | 2492 | if (i == 20) { |
dudmuck | 18:9530d682fd9a | 2493 | printf("+20dBm PADAC bias\r\n"); |
dudmuck | 18:9530d682fd9a | 2494 | i -= 3; |
dudmuck | 18:9530d682fd9a | 2495 | pds_trim.bits.prog_txdac = 7; |
dudmuck | 13:c73caaee93a5 | 2496 | } |
dudmuck | 18:9530d682fd9a | 2497 | if (i > 1) |
dudmuck | 18:9530d682fd9a | 2498 | radio.RegPaConfig.bits.OutputPower = i - 2; |
dudmuck | 18:9530d682fd9a | 2499 | } else { |
dudmuck | 18:9530d682fd9a | 2500 | /* RFO used: -1 to +14dbm */ |
dudmuck | 18:9530d682fd9a | 2501 | if (i < 15) |
dudmuck | 18:9530d682fd9a | 2502 | radio.RegPaConfig.bits.OutputPower = i + 1; |
dudmuck | 18:9530d682fd9a | 2503 | } |
dudmuck | 18:9530d682fd9a | 2504 | radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet); |
dudmuck | 18:9530d682fd9a | 2505 | } |
dudmuck | 18:9530d682fd9a | 2506 | radio.RegPaConfig.octet = radio.read_reg(REG_PACONFIG); |
dudmuck | 18:9530d682fd9a | 2507 | if (radio.RegPaConfig.bits.PaSelect) { |
dudmuck | 18:9530d682fd9a | 2508 | printf("PA_BOOST "); |
dudmuck | 18:9530d682fd9a | 2509 | dbm = radio.RegPaConfig.bits.OutputPower + pds_trim.bits.prog_txdac - 2; |
dudmuck | 18:9530d682fd9a | 2510 | } else { |
dudmuck | 18:9530d682fd9a | 2511 | printf("RFO "); |
dudmuck | 18:9530d682fd9a | 2512 | dbm = radio.RegPaConfig.bits.OutputPower - 1; |
dudmuck | 18:9530d682fd9a | 2513 | } |
dudmuck | 18:9530d682fd9a | 2514 | printf("OutputPower:%ddBm\r\n", dbm); |
dudmuck | 18:9530d682fd9a | 2515 | } |
dudmuck | 18:9530d682fd9a | 2516 | |
dudmuck | 18:9530d682fd9a | 2517 | |
dudmuck | 18:9530d682fd9a | 2518 | |
dudmuck | 18:9530d682fd9a | 2519 | void cmd_fsk_agcauto(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2520 | { |
dudmuck | 18:9530d682fd9a | 2521 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 18:9530d682fd9a | 2522 | fsk.RegRxConfig.bits.AgcAutoOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2523 | printf("AgcAuto:"); |
dudmuck | 18:9530d682fd9a | 2524 | if (fsk.RegRxConfig.bits.AgcAutoOn) |
dudmuck | 18:9530d682fd9a | 2525 | printf("On\r\n"); |
dudmuck | 18:9530d682fd9a | 2526 | else |
dudmuck | 18:9530d682fd9a | 2527 | printf("OFF\r\n"); |
dudmuck | 18:9530d682fd9a | 2528 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 18:9530d682fd9a | 2529 | } |
dudmuck | 18:9530d682fd9a | 2530 | |
dudmuck | 18:9530d682fd9a | 2531 | void cmd_fsk_afcauto(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2532 | { |
dudmuck | 18:9530d682fd9a | 2533 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 18:9530d682fd9a | 2534 | fsk.RegRxConfig.bits.AfcAutoOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2535 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 18:9530d682fd9a | 2536 | printf("AfcAuto:"); |
dudmuck | 18:9530d682fd9a | 2537 | if (fsk.RegRxConfig.bits.AfcAutoOn) |
dudmuck | 18:9530d682fd9a | 2538 | printf("On\r\n"); |
dudmuck | 18:9530d682fd9a | 2539 | else |
dudmuck | 18:9530d682fd9a | 2540 | printf("OFF\r\n"); |
dudmuck | 18:9530d682fd9a | 2541 | } |
dudmuck | 18:9530d682fd9a | 2542 | |
dudmuck | 18:9530d682fd9a | 2543 | void cmd_crcOn(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2544 | { |
dudmuck | 18:9530d682fd9a | 2545 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 2546 | lora.setRxPayloadCrcOn(!lora.getRxPayloadCrcOn()); |
dudmuck | 18:9530d682fd9a | 2547 | lora_printRxPayloadCrcOn(); |
dudmuck | 18:9530d682fd9a | 2548 | } else { |
dudmuck | 18:9530d682fd9a | 2549 | printf("CrcOn:"); |
dudmuck | 18:9530d682fd9a | 2550 | fsk.RegPktConfig1.bits.CrcOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2551 | radio.write_reg(REG_FSK_PACKETCONFIG1, fsk.RegPktConfig1.octet); |
dudmuck | 18:9530d682fd9a | 2552 | if (fsk.RegPktConfig1.bits.CrcOn) |
dudmuck | 18:9530d682fd9a | 2553 | printf("On\r\n"); |
dudmuck | 18:9530d682fd9a | 2554 | else |
dudmuck | 18:9530d682fd9a | 2555 | printf("Off\r\n"); |
dudmuck | 18:9530d682fd9a | 2556 | if (fsk.RegPktConfig2.bits.DataModePacket && radio.RegOpMode.bits.Mode == RF_OPMODE_RECEIVER) { |
dudmuck | 18:9530d682fd9a | 2557 | fsk.config_dio0_for_pktmode_rx(); |
dudmuck | 18:9530d682fd9a | 2558 | } |
dudmuck | 18:9530d682fd9a | 2559 | } |
dudmuck | 18:9530d682fd9a | 2560 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2561 | } |
dudmuck | 18:9530d682fd9a | 2562 | |
dudmuck | 18:9530d682fd9a | 2563 | #ifdef LORA_TX_TEST |
dudmuck | 18:9530d682fd9a | 2564 | void cmd_lora_fixed_payload_symbol(uint8_t idx) // fixed payload, symbol test |
dudmuck | 18:9530d682fd9a | 2565 | { |
dudmuck | 18:9530d682fd9a | 2566 | int n, i; |
dudmuck | 18:9530d682fd9a | 2567 | |
dudmuck | 18:9530d682fd9a | 2568 | symbol_num = pcbuf[idx] - '0'; |
dudmuck | 18:9530d682fd9a | 2569 | sscanf(pcbuf+idx+2, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2570 | n = i >> 2; // num nibbles |
dudmuck | 18:9530d682fd9a | 2571 | printf("%d nibbles: ", n); |
dudmuck | 18:9530d682fd9a | 2572 | lora.RegPayloadLength = byte_pad_length; |
dudmuck | 18:9530d682fd9a | 2573 | while (n > 0) { |
dudmuck | 18:9530d682fd9a | 2574 | lora.RegPayloadLength++; |
dudmuck | 18:9530d682fd9a | 2575 | n -= 2; // one byte = two nibbles |
dudmuck | 18:9530d682fd9a | 2576 | } |
dudmuck | 18:9530d682fd9a | 2577 | printf("%d bytes\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2578 | symbol_sweep_nbits = i >> 2; |
dudmuck | 18:9530d682fd9a | 2579 | symbol_sweep_bit_counter = 0; |
dudmuck | 18:9530d682fd9a | 2580 | symbol_sweep_bit_counter_stop = 1 << symbol_sweep_nbits; // one bit per nibble used in symbol (2bits per byte) |
dudmuck | 18:9530d682fd9a | 2581 | printf("sweep symbol %d, length bytes:%d nbits:%d stop:0x%x\r\n", symbol_num, lora.RegPayloadLength, symbol_sweep_nbits, symbol_sweep_bit_counter_stop); |
dudmuck | 18:9530d682fd9a | 2582 | txticker_state = TXTICKER_STATE_SYMBOL_SWEEP; |
dudmuck | 18:9530d682fd9a | 2583 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2584 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2585 | } |
dudmuck | 18:9530d682fd9a | 2586 | |
dudmuck | 18:9530d682fd9a | 2587 | void cmd_fixed_payload_offset(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2588 | { |
dudmuck | 18:9530d682fd9a | 2589 | int i; |
dudmuck | 18:9530d682fd9a | 2590 | if (pcbuf[idx] >='0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2591 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2592 | byte_pad_length = i; |
dudmuck | 18:9530d682fd9a | 2593 | } |
dudmuck | 18:9530d682fd9a | 2594 | printf("byte_pad_length:%d\r\n", byte_pad_length); |
dudmuck | 18:9530d682fd9a | 2595 | } |
dudmuck | 18:9530d682fd9a | 2596 | |
dudmuck | 18:9530d682fd9a | 2597 | void cmd_lora_fixed_payload(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2598 | { |
dudmuck | 18:9530d682fd9a | 2599 | int n, a, i, d = 0; |
dudmuck | 18:9530d682fd9a | 2600 | for (i = idx; i < pcbuf_len; ) { |
dudmuck | 18:9530d682fd9a | 2601 | //printf("scan:\"%s\"\r\n", pcbuf+i); |
dudmuck | 18:9530d682fd9a | 2602 | sscanf(pcbuf+i, "%x", &n); |
dudmuck | 18:9530d682fd9a | 2603 | //printf("n:%x\r\n", n); |
dudmuck | 18:9530d682fd9a | 2604 | radio.tx_buf[d] = n; |
dudmuck | 18:9530d682fd9a | 2605 | printf("%02x ", n); |
dudmuck | 18:9530d682fd9a | 2606 | while (pcbuf[i] == ' ') |
dudmuck | 18:9530d682fd9a | 2607 | i++; |
dudmuck | 18:9530d682fd9a | 2608 | //printf("%d pcbuf[i]:%x\r\n", i, pcbuf[i]); |
dudmuck | 18:9530d682fd9a | 2609 | for (a = i; pcbuf[a] != ' '; a++) |
dudmuck | 18:9530d682fd9a | 2610 | if (a >= pcbuf_len) |
dudmuck | 18:9530d682fd9a | 2611 | break; |
dudmuck | 18:9530d682fd9a | 2612 | i = a; |
dudmuck | 18:9530d682fd9a | 2613 | while (pcbuf[i] == ' ') { |
dudmuck | 18:9530d682fd9a | 2614 | i++; |
dudmuck | 18:9530d682fd9a | 2615 | if (i >= pcbuf_len) |
dudmuck | 18:9530d682fd9a | 2616 | break; |
dudmuck | 18:9530d682fd9a | 2617 | } |
dudmuck | 18:9530d682fd9a | 2618 | d++; |
dudmuck | 18:9530d682fd9a | 2619 | } |
dudmuck | 18:9530d682fd9a | 2620 | lora.RegPayloadLength = d; |
dudmuck | 18:9530d682fd9a | 2621 | printf("\r\nlora.RegPayloadLength:%d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2622 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2623 | lora.start_tx(lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2624 | } |
dudmuck | 18:9530d682fd9a | 2625 | |
dudmuck | 18:9530d682fd9a | 2626 | void cmd_lora_toggle_crcOn(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2627 | { |
dudmuck | 18:9530d682fd9a | 2628 | /* test lora crc on/off */ |
dudmuck | 18:9530d682fd9a | 2629 | lora.RegPayloadLength = 1; |
dudmuck | 18:9530d682fd9a | 2630 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2631 | txticker_state = TXTICKER_STATE_TOG_CRC_ON; |
dudmuck | 18:9530d682fd9a | 2632 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2633 | } |
dudmuck | 18:9530d682fd9a | 2634 | |
dudmuck | 18:9530d682fd9a | 2635 | void lora_cycle_payload_length(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2636 | { |
dudmuck | 18:9530d682fd9a | 2637 | int i; |
dudmuck | 18:9530d682fd9a | 2638 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2639 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2640 | payload_length_stop = i; |
dudmuck | 18:9530d682fd9a | 2641 | } |
dudmuck | 18:9530d682fd9a | 2642 | txticker_state = TXTICKER_STATE_CYCLE_PAYLOAD_LENGTH; |
dudmuck | 18:9530d682fd9a | 2643 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2644 | } |
dudmuck | 18:9530d682fd9a | 2645 | |
dudmuck | 18:9530d682fd9a | 2646 | void cmd_lora_data_ramp(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2647 | { |
dudmuck | 18:9530d682fd9a | 2648 | // lora payload data ramping |
dudmuck | 18:9530d682fd9a | 2649 | lora.RegPayloadLength = pcbuf[idx] - '0'; |
dudmuck | 18:9530d682fd9a | 2650 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2651 | txticker_state = TXTICKER_STATE_RAMP_PAYLOAD_DATA_START; |
dudmuck | 18:9530d682fd9a | 2652 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2653 | } |
dudmuck | 18:9530d682fd9a | 2654 | |
dudmuck | 18:9530d682fd9a | 2655 | void cmd_lora_sync_lo_nibble(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2656 | { |
dudmuck | 18:9530d682fd9a | 2657 | lora_sync_byte = 0x00; |
dudmuck | 18:9530d682fd9a | 2658 | on_txdone_state = ON_TXDONE_STATE_SYNC_LO_NIBBLE; |
dudmuck | 18:9530d682fd9a | 2659 | on_txdone_delay = 0.100; |
dudmuck | 18:9530d682fd9a | 2660 | txdone_timeout_cb(); |
dudmuck | 18:9530d682fd9a | 2661 | //sync_sweep_timeout.attach(&txdone_timeout_cb, sync_sweep_delay); |
dudmuck | 18:9530d682fd9a | 2662 | } |
dudmuck | 18:9530d682fd9a | 2663 | |
dudmuck | 18:9530d682fd9a | 2664 | void cmd_lora_toggle_header_mode(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2665 | { |
dudmuck | 18:9530d682fd9a | 2666 | lora.RegPayloadLength = 1; |
dudmuck | 18:9530d682fd9a | 2667 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2668 | txticker_state = TXTICKER_STATE_TOG_HEADER_MODE; |
dudmuck | 18:9530d682fd9a | 2669 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2670 | } |
dudmuck | 18:9530d682fd9a | 2671 | |
dudmuck | 18:9530d682fd9a | 2672 | void cmd_lora_sync_sweep(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2673 | { |
dudmuck | 18:9530d682fd9a | 2674 | lora.RegPayloadLength = 1; |
dudmuck | 18:9530d682fd9a | 2675 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2676 | txticker_sync_byte = 0x12; |
dudmuck | 18:9530d682fd9a | 2677 | if (pcbuf[idx] == '1') |
dudmuck | 18:9530d682fd9a | 2678 | txticker_state = TXTICKER_STATE_CYCLE_SYNC_1; |
dudmuck | 18:9530d682fd9a | 2679 | else if (pcbuf[idx] == '2') |
dudmuck | 18:9530d682fd9a | 2680 | txticker_state = TXTICKER_STATE_CYCLE_SYNC_2; |
dudmuck | 18:9530d682fd9a | 2681 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2682 | } |
dudmuck | 18:9530d682fd9a | 2683 | |
dudmuck | 18:9530d682fd9a | 2684 | void cmd_lora_all_payload_lengths(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2685 | { |
dudmuck | 18:9530d682fd9a | 2686 | on_txdone_repeat_cnt = 0; |
dudmuck | 18:9530d682fd9a | 2687 | on_txdone_state = ON_TXDONE_STATE_PAYLOAD_LENGTH; |
dudmuck | 18:9530d682fd9a | 2688 | on_txdone_delay = 0.200; |
dudmuck | 18:9530d682fd9a | 2689 | txdone_timeout_cb(); |
dudmuck | 18:9530d682fd9a | 2690 | lora.RegPayloadLength = 0; |
dudmuck | 18:9530d682fd9a | 2691 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2692 | } |
dudmuck | 18:9530d682fd9a | 2693 | |
dudmuck | 18:9530d682fd9a | 2694 | void cmd_lora_toggle_all_bits(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2695 | { |
dudmuck | 18:9530d682fd9a | 2696 | lora.RegPayloadLength = (pcbuf[idx] - '0') + byte_pad_length; |
dudmuck | 18:9530d682fd9a | 2697 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2698 | txticker_state = TXTICKER_STATE_TOGGLE_ALL_BITS_START; |
dudmuck | 18:9530d682fd9a | 2699 | printf("tab byte length:%d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2700 | |
dudmuck | 18:9530d682fd9a | 2701 | if (lora.RegPayloadLength > 0) |
dudmuck | 18:9530d682fd9a | 2702 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2703 | } |
dudmuck | 18:9530d682fd9a | 2704 | |
dudmuck | 18:9530d682fd9a | 2705 | void cmd_lora_cycle_codingrates(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2706 | { |
dudmuck | 18:9530d682fd9a | 2707 | lora.RegPayloadLength = 1; |
dudmuck | 18:9530d682fd9a | 2708 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2709 | txticker_state = TXTICKER_STATE_CYCLE_CODING_RATE; |
dudmuck | 18:9530d682fd9a | 2710 | tx_ticker.attach(&fp_cb, tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 2711 | } |
dudmuck | 18:9530d682fd9a | 2712 | #endif /* LORA_TX_TEST */ |
dudmuck | 18:9530d682fd9a | 2713 | |
dudmuck | 18:9530d682fd9a | 2714 | void cmd_codingRate(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2715 | { |
dudmuck | 18:9530d682fd9a | 2716 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') |
dudmuck | 18:9530d682fd9a | 2717 | lora.setCodingRate(pcbuf[idx] - '0'); |
dudmuck | 18:9530d682fd9a | 2718 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 18:9530d682fd9a | 2719 | lora_printCodingRate(false); // false: transmitted |
dudmuck | 18:9530d682fd9a | 2720 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2721 | } |
dudmuck | 18:9530d682fd9a | 2722 | |
dudmuck | 18:9530d682fd9a | 2723 | void cmd_lora_header_mode(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2724 | { |
dudmuck | 18:9530d682fd9a | 2725 | lora.setHeaderMode(!lora.getHeaderMode()); |
dudmuck | 18:9530d682fd9a | 2726 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 18:9530d682fd9a | 2727 | lora_printHeaderMode(); |
dudmuck | 18:9530d682fd9a | 2728 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2729 | } |
dudmuck | 18:9530d682fd9a | 2730 | |
dudmuck | 18:9530d682fd9a | 2731 | void cmd_fsk_AfcAutoClearOn(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2732 | { |
dudmuck | 18:9530d682fd9a | 2733 | fsk.RegAfcFei.bits.AfcAutoClearOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2734 | printf("AfcAutoClearOn: "); |
dudmuck | 18:9530d682fd9a | 2735 | radio.write_reg(REG_FSK_AFCFEI, fsk.RegAfcFei.octet); |
dudmuck | 18:9530d682fd9a | 2736 | if (fsk.RegAfcFei.bits.AfcAutoClearOn) |
dudmuck | 18:9530d682fd9a | 2737 | printf("ON\r\n"); |
dudmuck | 18:9530d682fd9a | 2738 | else |
dudmuck | 18:9530d682fd9a | 2739 | printf("off\r\n"); |
dudmuck | 18:9530d682fd9a | 2740 | } |
dudmuck | 18:9530d682fd9a | 2741 | |
dudmuck | 18:9530d682fd9a | 2742 | void cmd_fsk_AutoRestartRxMode(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2743 | { |
dudmuck | 18:9530d682fd9a | 2744 | fsk.RegSyncConfig.bits.AutoRestartRxMode++; |
dudmuck | 18:9530d682fd9a | 2745 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 2746 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 18:9530d682fd9a | 2747 | printf("AutoRestartRxMode:"); |
dudmuck | 18:9530d682fd9a | 2748 | switch (fsk.RegSyncConfig.bits.AutoRestartRxMode) { |
dudmuck | 18:9530d682fd9a | 2749 | case 0: printf("off "); break; |
dudmuck | 18:9530d682fd9a | 2750 | case 1: printf("no-pll-wait "); break; |
dudmuck | 18:9530d682fd9a | 2751 | case 2: printf("pll-wait "); break; |
dudmuck | 18:9530d682fd9a | 2752 | case 3: printf("3 "); break; |
dudmuck | 18:9530d682fd9a | 2753 | } |
dudmuck | 18:9530d682fd9a | 2754 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2755 | } |
dudmuck | 18:9530d682fd9a | 2756 | |
dudmuck | 18:9530d682fd9a | 2757 | void cmd_AfcClear(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2758 | { |
dudmuck | 18:9530d682fd9a | 2759 | printf("clear afc: "); |
dudmuck | 18:9530d682fd9a | 2760 | fsk.RegAfcFei.bits.AfcClear = 1; |
dudmuck | 18:9530d682fd9a | 2761 | radio.write_reg(REG_FSK_AFCFEI, fsk.RegAfcFei.octet); |
dudmuck | 18:9530d682fd9a | 2762 | fsk.RegAfcFei.bits.AfcClear = 0; |
dudmuck | 18:9530d682fd9a | 2763 | printf("%dHz\r\n", (int)(FREQ_STEP_HZ * radio.read_s16(REG_FSK_AFCMSB))); |
dudmuck | 18:9530d682fd9a | 2764 | } |
dudmuck | 18:9530d682fd9a | 2765 | |
dudmuck | 18:9530d682fd9a | 2766 | void cmd_fsk_bitrate(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2767 | { |
dudmuck | 18:9530d682fd9a | 2768 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2769 | float kbits; |
dudmuck | 18:9530d682fd9a | 2770 | sscanf(&pcbuf[idx], "%f", &kbits); |
dudmuck | 18:9530d682fd9a | 2771 | fsk.set_bitrate((int)(kbits*1000)); |
dudmuck | 18:9530d682fd9a | 2772 | } |
dudmuck | 18:9530d682fd9a | 2773 | printf("%fkbps\r\n", fsk.get_bitrate()/(float)1000.0); |
dudmuck | 18:9530d682fd9a | 2774 | } |
dudmuck | 18:9530d682fd9a | 2775 | |
dudmuck | 18:9530d682fd9a | 2776 | void cmd_bandwidth(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2777 | { |
dudmuck | 18:9530d682fd9a | 2778 | int i; |
dudmuck | 18:9530d682fd9a | 2779 | float f; |
dudmuck | 18:9530d682fd9a | 2780 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 2781 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2782 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 18:9530d682fd9a | 2783 | sscanf(&pcbuf[idx], "%d", &i); |
dudmuck | 18:9530d682fd9a | 2784 | lora.setBw_KHz(i); |
dudmuck | 18:9530d682fd9a | 2785 | } else |
dudmuck | 18:9530d682fd9a | 2786 | lora_printAllBw(); |
dudmuck | 18:9530d682fd9a | 2787 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 18:9530d682fd9a | 2788 | printf("current "); |
dudmuck | 18:9530d682fd9a | 2789 | lora_printBw(); |
dudmuck | 18:9530d682fd9a | 2790 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2791 | } else { // FSK: |
dudmuck | 18:9530d682fd9a | 2792 | if (pcbuf[idx] == 'a') { |
dudmuck | 18:9530d682fd9a | 2793 | idx++; |
dudmuck | 18:9530d682fd9a | 2794 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2795 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 18:9530d682fd9a | 2796 | sscanf(&pcbuf[idx], "%f", &f); |
dudmuck | 18:9530d682fd9a | 2797 | fsk.set_rx_dcc_bw_hz((int)(f*(float)1000.0), 1); |
dudmuck | 18:9530d682fd9a | 2798 | } |
dudmuck | 18:9530d682fd9a | 2799 | printf("afcbw:%.3fkHz\r\n", fsk.get_rx_bw_hz(REG_FSK_AFCBW)/1000.0); |
dudmuck | 18:9530d682fd9a | 2800 | } else { |
dudmuck | 18:9530d682fd9a | 2801 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2802 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 18:9530d682fd9a | 2803 | sscanf(&pcbuf[idx], "%f", &f); |
dudmuck | 18:9530d682fd9a | 2804 | fsk.set_rx_dcc_bw_hz((int)(f*(float)1000.0), 0); |
dudmuck | 18:9530d682fd9a | 2805 | } |
dudmuck | 18:9530d682fd9a | 2806 | printf("rxbw:%.3fkHz\r\n", fsk.get_rx_bw_hz(REG_FSK_RXBW)/1000.0); |
dudmuck | 18:9530d682fd9a | 2807 | } |
dudmuck | 18:9530d682fd9a | 2808 | } |
dudmuck | 18:9530d682fd9a | 2809 | } |
dudmuck | 18:9530d682fd9a | 2810 | |
dudmuck | 18:9530d682fd9a | 2811 | void cmd_lora_poll_validHeader(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2812 | { |
dudmuck | 18:9530d682fd9a | 2813 | lora.poll_vh ^= 1; |
dudmuck | 18:9530d682fd9a | 2814 | printf("poll_vh:%d\r\n", lora.poll_vh); |
dudmuck | 18:9530d682fd9a | 2815 | } |
dudmuck | 18:9530d682fd9a | 2816 | |
dudmuck | 18:9530d682fd9a | 2817 | void cmd_fsk_syncword(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2818 | { |
dudmuck | 18:9530d682fd9a | 2819 | int i, d = 0; |
dudmuck | 18:9530d682fd9a | 2820 | uint8_t reg_addr = REG_FSK_SYNCVALUE1; |
dudmuck | 18:9530d682fd9a | 2821 | |
dudmuck | 18:9530d682fd9a | 2822 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 18:9530d682fd9a | 2823 | |
dudmuck | 18:9530d682fd9a | 2824 | if (pcbuf_len != idx) { // something to write? |
dudmuck | 18:9530d682fd9a | 2825 | for (i = idx; i < pcbuf_len; ) { |
dudmuck | 18:9530d682fd9a | 2826 | int a, n; |
dudmuck | 18:9530d682fd9a | 2827 | sscanf(pcbuf+i, "%x", &n); |
dudmuck | 18:9530d682fd9a | 2828 | radio.write_reg(reg_addr++, n); |
dudmuck | 18:9530d682fd9a | 2829 | //printf("%02x ", n); |
dudmuck | 18:9530d682fd9a | 2830 | while (pcbuf[i] == ' ') |
dudmuck | 18:9530d682fd9a | 2831 | i++; |
dudmuck | 18:9530d682fd9a | 2832 | for (a = i; pcbuf[a] != ' '; a++) |
dudmuck | 18:9530d682fd9a | 2833 | if (a >= pcbuf_len) |
dudmuck | 18:9530d682fd9a | 2834 | break; |
dudmuck | 18:9530d682fd9a | 2835 | i = a; |
dudmuck | 18:9530d682fd9a | 2836 | while (pcbuf[i] == ' ') { |
dudmuck | 18:9530d682fd9a | 2837 | i++; |
dudmuck | 18:9530d682fd9a | 2838 | if (i >= pcbuf_len) |
dudmuck | 18:9530d682fd9a | 2839 | break; |
dudmuck | 18:9530d682fd9a | 2840 | } |
dudmuck | 18:9530d682fd9a | 2841 | d++; |
dudmuck | 18:9530d682fd9a | 2842 | } |
dudmuck | 18:9530d682fd9a | 2843 | |
dudmuck | 18:9530d682fd9a | 2844 | fsk.RegSyncConfig.bits.SyncSize = reg_addr - REG_FSK_SYNCVALUE1 - 1; |
dudmuck | 18:9530d682fd9a | 2845 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 2846 | } |
dudmuck | 18:9530d682fd9a | 2847 | |
dudmuck | 18:9530d682fd9a | 2848 | printf("%d: ", fsk.RegSyncConfig.bits.SyncSize); |
dudmuck | 18:9530d682fd9a | 2849 | for (i = 0; i <= fsk.RegSyncConfig.bits.SyncSize; i++) |
dudmuck | 18:9530d682fd9a | 2850 | printf("%02x ", radio.read_reg(REG_FSK_SYNCVALUE1+i)); |
dudmuck | 18:9530d682fd9a | 2851 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2852 | } |
dudmuck | 18:9530d682fd9a | 2853 | |
dudmuck | 18:9530d682fd9a | 2854 | void cmd_fsk_syncOn(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2855 | { |
dudmuck | 18:9530d682fd9a | 2856 | fsk.RegSyncConfig.bits.SyncOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2857 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 2858 | printf("SyncOn:%d\r\n", fsk.RegSyncConfig.bits.SyncOn); |
dudmuck | 18:9530d682fd9a | 2859 | } |
dudmuck | 18:9530d682fd9a | 2860 | |
dudmuck | 18:9530d682fd9a | 2861 | void cmd_fsk_bitsync(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2862 | { |
dudmuck | 18:9530d682fd9a | 2863 | fsk.RegOokPeak.octet = radio.read_reg(REG_FSK_OOKPEAK); |
dudmuck | 18:9530d682fd9a | 2864 | fsk.RegOokPeak.bits.BitSyncOn ^= 1; |
dudmuck | 18:9530d682fd9a | 2865 | radio.write_reg(REG_FSK_OOKPEAK, fsk.RegOokPeak.octet); |
dudmuck | 18:9530d682fd9a | 2866 | if (fsk.RegOokPeak.bits.BitSyncOn) |
dudmuck | 18:9530d682fd9a | 2867 | printf("BitSyncOn\r\n"); |
dudmuck | 18:9530d682fd9a | 2868 | else |
dudmuck | 18:9530d682fd9a | 2869 | printf("BitSync Off\r\n"); |
dudmuck | 18:9530d682fd9a | 2870 | } |
dudmuck | 18:9530d682fd9a | 2871 | |
dudmuck | 18:9530d682fd9a | 2872 | void cmd_lora_sf(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2873 | { |
dudmuck | 18:9530d682fd9a | 2874 | int i; |
dudmuck | 18:9530d682fd9a | 2875 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2876 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2877 | lora.setSf(i); |
dudmuck | 18:9530d682fd9a | 2878 | if (i == 6 && !lora.getHeaderMode()) { |
dudmuck | 18:9530d682fd9a | 2879 | printf("SF6: to implicit header mode\r\n"); |
dudmuck | 18:9530d682fd9a | 2880 | lora.setHeaderMode(true); |
dudmuck | 18:9530d682fd9a | 2881 | } |
dudmuck | 18:9530d682fd9a | 2882 | } |
dudmuck | 18:9530d682fd9a | 2883 | lora.RegModemConfig2.octet = radio.read_reg(REG_LR_MODEMCONFIG2); |
dudmuck | 18:9530d682fd9a | 2884 | lora_printSf(); |
dudmuck | 18:9530d682fd9a | 2885 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 2886 | } |
dudmuck | 18:9530d682fd9a | 2887 | |
dudmuck | 18:9530d682fd9a | 2888 | void cmd_fsk_TxStartCondition(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2889 | { |
dudmuck | 18:9530d682fd9a | 2890 | fsk.RegFifoThreshold.bits.TxStartCondition ^= 1; |
dudmuck | 18:9530d682fd9a | 2891 | radio.write_reg(REG_FSK_FIFOTHRESH, fsk.RegFifoThreshold.octet); |
dudmuck | 18:9530d682fd9a | 2892 | printf("TxStartCondition:"); |
dudmuck | 18:9530d682fd9a | 2893 | if (fsk.RegFifoThreshold.bits.TxStartCondition) |
dudmuck | 18:9530d682fd9a | 2894 | printf("!FifoEmpty\r\n"); |
dudmuck | 18:9530d682fd9a | 2895 | else |
dudmuck | 18:9530d682fd9a | 2896 | printf("FifoLevel\r\n"); |
dudmuck | 18:9530d682fd9a | 2897 | } |
dudmuck | 18:9530d682fd9a | 2898 | |
dudmuck | 18:9530d682fd9a | 2899 | void cmd_fsk_read_fei(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2900 | { |
dudmuck | 18:9530d682fd9a | 2901 | printf("fei:%dHz\r\n", (int)(FREQ_STEP_HZ * radio.read_s16(REG_FSK_FEIMSB))); |
dudmuck | 18:9530d682fd9a | 2902 | } |
dudmuck | 18:9530d682fd9a | 2903 | |
dudmuck | 18:9530d682fd9a | 2904 | void cmd_fsk_fdev(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2905 | { |
dudmuck | 18:9530d682fd9a | 2906 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2907 | float khz; |
dudmuck | 18:9530d682fd9a | 2908 | sscanf(pcbuf+idx, "%f", &khz); |
dudmuck | 18:9530d682fd9a | 2909 | fsk.set_tx_fdev_hz((int)(khz*1000)); |
dudmuck | 18:9530d682fd9a | 2910 | } |
dudmuck | 18:9530d682fd9a | 2911 | printf("fdev:%fKHz\r\n", fsk.get_tx_fdev_hz()/(float)1000.0); |
dudmuck | 18:9530d682fd9a | 2912 | } |
dudmuck | 18:9530d682fd9a | 2913 | |
dudmuck | 18:9530d682fd9a | 2914 | void cmd_frf(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2915 | { |
dudmuck | 18:9530d682fd9a | 2916 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2917 | float MHz; |
dudmuck | 18:9530d682fd9a | 2918 | sscanf(pcbuf+idx, "%f", &MHz); |
dudmuck | 18:9530d682fd9a | 2919 | //printf("MHz:%f\r\n", MHz); |
dudmuck | 18:9530d682fd9a | 2920 | radio.set_frf_MHz(MHz); |
dudmuck | 18:9530d682fd9a | 2921 | } |
dudmuck | 18:9530d682fd9a | 2922 | printf("%fMHz\r\n", radio.get_frf_MHz()); |
dudmuck | 18:9530d682fd9a | 2923 | #ifndef TARGET_MTS_MDOT_F411RE |
dudmuck | 18:9530d682fd9a | 2924 | radio.RegPaConfig.octet = radio.read_reg(REG_PACONFIG); |
dudmuck | 18:9530d682fd9a | 2925 | if (shield_type == SHIELD_TYPE_LAS) { |
dudmuck | 18:9530d682fd9a | 2926 | // LAS HF=PA_BOOST LF=RFO |
dudmuck | 18:9530d682fd9a | 2927 | if (radio.HF) |
dudmuck | 18:9530d682fd9a | 2928 | radio.RegPaConfig.bits.PaSelect = 1; |
dudmuck | 18:9530d682fd9a | 2929 | else |
dudmuck | 18:9530d682fd9a | 2930 | radio.RegPaConfig.bits.PaSelect = 0; |
dudmuck | 18:9530d682fd9a | 2931 | } |
dudmuck | 18:9530d682fd9a | 2932 | radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet); |
dudmuck | 18:9530d682fd9a | 2933 | #endif /* !TARGET_MTS_MDOT_F411RE */ |
dudmuck | 18:9530d682fd9a | 2934 | } |
dudmuck | 18:9530d682fd9a | 2935 | |
dudmuck | 18:9530d682fd9a | 2936 | void cmd_fsk_PacketFormat(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2937 | { |
dudmuck | 18:9530d682fd9a | 2938 | printf("PacketFormat:"); |
dudmuck | 18:9530d682fd9a | 2939 | fsk.RegPktConfig1.bits.PacketFormatVariable ^= 1; |
dudmuck | 18:9530d682fd9a | 2940 | radio.write_reg(REG_FSK_PACKETCONFIG1, fsk.RegPktConfig1.octet); |
dudmuck | 18:9530d682fd9a | 2941 | if (fsk.RegPktConfig1.bits.PacketFormatVariable) |
dudmuck | 18:9530d682fd9a | 2942 | printf("variable\r\n"); |
dudmuck | 18:9530d682fd9a | 2943 | else |
dudmuck | 18:9530d682fd9a | 2944 | printf("fixed\r\n"); |
dudmuck | 18:9530d682fd9a | 2945 | } |
dudmuck | 18:9530d682fd9a | 2946 | |
dudmuck | 18:9530d682fd9a | 2947 | void cmd_payload_length(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2948 | { |
dudmuck | 18:9530d682fd9a | 2949 | int i; |
dudmuck | 18:9530d682fd9a | 2950 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 2951 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 2952 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 2953 | lora.RegPayloadLength = i; |
dudmuck | 13:c73caaee93a5 | 2954 | radio.write_reg(REG_LR_PAYLOADLENGTH, lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2955 | } else { |
dudmuck | 18:9530d682fd9a | 2956 | fsk.RegPktConfig2.bits.PayloadLength = i; |
dudmuck | 18:9530d682fd9a | 2957 | radio.write_u16(REG_FSK_PACKETCONFIG2, fsk.RegPktConfig2.word); |
dudmuck | 10:d9bb2ce57f05 | 2958 | } |
dudmuck | 18:9530d682fd9a | 2959 | } |
dudmuck | 18:9530d682fd9a | 2960 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 2961 | lora.RegPayloadLength = radio.read_reg(REG_LR_PAYLOADLENGTH); |
dudmuck | 18:9530d682fd9a | 2962 | printf("PayloadLength:%d\r\n", lora.RegPayloadLength); |
dudmuck | 18:9530d682fd9a | 2963 | } else { |
dudmuck | 18:9530d682fd9a | 2964 | printf("PayloadLength:%d\r\n", fsk_get_PayloadLength()); |
dudmuck | 18:9530d682fd9a | 2965 | } |
dudmuck | 18:9530d682fd9a | 2966 | } |
dudmuck | 18:9530d682fd9a | 2967 | |
dudmuck | 18:9530d682fd9a | 2968 | void cmd_paRamp(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 2969 | { |
dudmuck | 18:9530d682fd9a | 2970 | int i; |
dudmuck | 18:9530d682fd9a | 2971 | uint8_t reg_par = radio.read_reg(REG_PARAMP); |
dudmuck | 18:9530d682fd9a | 2972 | uint8_t PaRamp = reg_par & 0x0f; |
dudmuck | 18:9530d682fd9a | 2973 | reg_par &= 0xf0; |
dudmuck | 18:9530d682fd9a | 2974 | if (PaRamp == 15) |
dudmuck | 18:9530d682fd9a | 2975 | PaRamp = 0; |
dudmuck | 18:9530d682fd9a | 2976 | else |
dudmuck | 18:9530d682fd9a | 2977 | PaRamp++; |
dudmuck | 18:9530d682fd9a | 2978 | radio.write_reg(REG_PARAMP, reg_par | PaRamp); |
dudmuck | 18:9530d682fd9a | 2979 | printf("PaRamp:"); |
dudmuck | 18:9530d682fd9a | 2980 | switch (PaRamp) { |
dudmuck | 18:9530d682fd9a | 2981 | case 0: i = 3400; break; |
dudmuck | 18:9530d682fd9a | 2982 | case 1: i = 2000; break; |
dudmuck | 18:9530d682fd9a | 2983 | case 2: i = 1000; break; |
dudmuck | 18:9530d682fd9a | 2984 | case 3: i = 500; break; |
dudmuck | 18:9530d682fd9a | 2985 | case 4: i = 250; break; |
dudmuck | 18:9530d682fd9a | 2986 | case 5: i = 125; break; |
dudmuck | 18:9530d682fd9a | 2987 | case 6: i = 100; break; |
dudmuck | 18:9530d682fd9a | 2988 | case 7: i = 62; break; |
dudmuck | 18:9530d682fd9a | 2989 | case 8: i = 50; break; |
dudmuck | 18:9530d682fd9a | 2990 | case 9: i = 40; break; |
dudmuck | 18:9530d682fd9a | 2991 | case 10: i = 31; break; |
dudmuck | 18:9530d682fd9a | 2992 | case 11: i = 25; break; |
dudmuck | 18:9530d682fd9a | 2993 | case 12: i = 20; break; |
dudmuck | 18:9530d682fd9a | 2994 | case 13: i = 15; break; |
dudmuck | 18:9530d682fd9a | 2995 | case 14: i = 12; break; |
dudmuck | 18:9530d682fd9a | 2996 | case 15: i = 10; break; |
dudmuck | 18:9530d682fd9a | 2997 | } |
dudmuck | 18:9530d682fd9a | 2998 | printf("%dus\r\n", i); |
dudmuck | 18:9530d682fd9a | 2999 | } |
dudmuck | 18:9530d682fd9a | 3000 | |
dudmuck | 18:9530d682fd9a | 3001 | void cmd_paSelect(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3002 | { |
dudmuck | 18:9530d682fd9a | 3003 | radio.RegPaConfig.bits.PaSelect ^= 1; |
dudmuck | 18:9530d682fd9a | 3004 | radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet); |
dudmuck | 18:9530d682fd9a | 3005 | printPa(); |
dudmuck | 18:9530d682fd9a | 3006 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 3007 | } |
dudmuck | 18:9530d682fd9a | 3008 | |
dudmuck | 18:9530d682fd9a | 3009 | void cmd_poll_irq_en(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3010 | { |
dudmuck | 18:9530d682fd9a | 3011 | poll_irq_en ^= 1; |
dudmuck | 18:9530d682fd9a | 3012 | printf("poll_irq_en:"); |
dudmuck | 20:b11592c9ba5f | 3013 | if (poll_irq_en) { |
dudmuck | 18:9530d682fd9a | 3014 | printf("irqFlags register\r\n"); |
dudmuck | 20:b11592c9ba5f | 3015 | fsk_RegIrqFlags1_prev.octet = 0; |
dudmuck | 20:b11592c9ba5f | 3016 | fsk_RegIrqFlags2_prev.octet = 0; |
dudmuck | 20:b11592c9ba5f | 3017 | } else |
dudmuck | 18:9530d682fd9a | 3018 | printf("DIO pin interrupt\r\n"); |
dudmuck | 18:9530d682fd9a | 3019 | } |
dudmuck | 18:9530d682fd9a | 3020 | |
dudmuck | 18:9530d682fd9a | 3021 | void cmd_per_id(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3022 | { |
dudmuck | 18:9530d682fd9a | 3023 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3024 | sscanf(pcbuf+idx, "%d", &per_id); |
dudmuck | 18:9530d682fd9a | 3025 | } |
dudmuck | 18:9530d682fd9a | 3026 | printf("PER device ID:%d\r\n", per_id); |
dudmuck | 18:9530d682fd9a | 3027 | } |
dudmuck | 18:9530d682fd9a | 3028 | |
dudmuck | 18:9530d682fd9a | 3029 | void cmd_pertx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3030 | { |
dudmuck | 18:9530d682fd9a | 3031 | int i; |
dudmuck | 18:9530d682fd9a | 3032 | |
dudmuck | 18:9530d682fd9a | 3033 | if (cadper_enable) |
dudmuck | 18:9530d682fd9a | 3034 | cadper_enable = false; |
dudmuck | 18:9530d682fd9a | 3035 | |
dudmuck | 18:9530d682fd9a | 3036 | set_per_en(true); |
dudmuck | 18:9530d682fd9a | 3037 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3038 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3039 | PacketTxCntEnd = i; |
dudmuck | 18:9530d682fd9a | 3040 | } |
dudmuck | 18:9530d682fd9a | 3041 | PacketTxCnt = 0; |
dudmuck | 18:9530d682fd9a | 3042 | per_timeout.attach(&per_cb, per_tx_delay); |
dudmuck | 18:9530d682fd9a | 3043 | } |
dudmuck | 18:9530d682fd9a | 3044 | |
dudmuck | 18:9530d682fd9a | 3045 | void cmd_perrx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3046 | { |
dudmuck | 18:9530d682fd9a | 3047 | set_per_en(true); |
dudmuck | 18:9530d682fd9a | 3048 | |
dudmuck | 18:9530d682fd9a | 3049 | PacketNormalCnt = 0; |
dudmuck | 20:b11592c9ba5f | 3050 | PacketRxSequencePrev = 0; // transmitter side PacketTxCnt is 1 at first TX |
dudmuck | 18:9530d682fd9a | 3051 | PacketPerKoCnt = 0; |
dudmuck | 18:9530d682fd9a | 3052 | PacketPerOkCnt = 0; |
dudmuck | 18:9530d682fd9a | 3053 | //dio3.rise(&dio3_cb); |
dudmuck | 18:9530d682fd9a | 3054 | |
dudmuck | 18:9530d682fd9a | 3055 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 3056 | lora.start_rx(RF_OPMODE_RECEIVER); |
dudmuck | 13:c73caaee93a5 | 3057 | else { |
dudmuck | 18:9530d682fd9a | 3058 | fsk.start_rx(); |
dudmuck | 18:9530d682fd9a | 3059 | radio.RegDioMapping1.bits.Dio2Mapping = 3; // dio2 to syncadrs |
dudmuck | 18:9530d682fd9a | 3060 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 3061 | if (radio.HF) { |
dudmuck | 18:9530d682fd9a | 3062 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 18:9530d682fd9a | 3063 | fsk.RegRssiConfig.bits.RssiOffset = FSK_RSSI_OFFSET; |
dudmuck | 18:9530d682fd9a | 3064 | fsk.RegRssiConfig.bits.RssiSmoothing = FSK_RSSI_SMOOTHING; |
dudmuck | 18:9530d682fd9a | 3065 | radio.write_reg(REG_FSK_RSSICONFIG, fsk.RegRssiConfig.octet); |
dudmuck | 18:9530d682fd9a | 3066 | } |
dudmuck | 18:9530d682fd9a | 3067 | } |
dudmuck | 18:9530d682fd9a | 3068 | } |
dudmuck | 18:9530d682fd9a | 3069 | |
dudmuck | 18:9530d682fd9a | 3070 | void cmd_fsk_PreambleDetectorOn(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3071 | { |
dudmuck | 18:9530d682fd9a | 3072 | fsk.RegPreambleDetect.bits.PreambleDetectorOn ^= 1; |
dudmuck | 18:9530d682fd9a | 3073 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 18:9530d682fd9a | 3074 | printf("PreambleDetector:"); |
dudmuck | 18:9530d682fd9a | 3075 | if (fsk.RegPreambleDetect.bits.PreambleDetectorOn) |
dudmuck | 18:9530d682fd9a | 3076 | printf("On\r\n"); |
dudmuck | 18:9530d682fd9a | 3077 | else |
dudmuck | 18:9530d682fd9a | 3078 | printf("OFF\r\n"); |
dudmuck | 18:9530d682fd9a | 3079 | } |
dudmuck | 18:9530d682fd9a | 3080 | |
dudmuck | 18:9530d682fd9a | 3081 | void cmd_fsk_PreambleDetectorSize(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3082 | { |
dudmuck | 18:9530d682fd9a | 3083 | int i; |
dudmuck | 18:9530d682fd9a | 3084 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3085 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3086 | fsk.RegPreambleDetect.bits.PreambleDetectorSize = i; |
dudmuck | 18:9530d682fd9a | 3087 | } |
dudmuck | 18:9530d682fd9a | 3088 | printf("PreambleDetectorSize:%d\r\n", fsk.RegPreambleDetect.bits.PreambleDetectorSize); |
dudmuck | 18:9530d682fd9a | 3089 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 18:9530d682fd9a | 3090 | } |
dudmuck | 18:9530d682fd9a | 3091 | |
dudmuck | 18:9530d682fd9a | 3092 | void cmd_fsk_PreambleDetectorTol(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3093 | { |
dudmuck | 18:9530d682fd9a | 3094 | int i; |
dudmuck | 18:9530d682fd9a | 3095 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3096 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3097 | fsk.RegPreambleDetect.bits.PreambleDetectorTol = i; |
dudmuck | 18:9530d682fd9a | 3098 | } |
dudmuck | 18:9530d682fd9a | 3099 | printf("PreambleDetectorTol:%d\r\n", fsk.RegPreambleDetect.bits.PreambleDetectorTol); |
dudmuck | 18:9530d682fd9a | 3100 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 18:9530d682fd9a | 3101 | } |
dudmuck | 18:9530d682fd9a | 3102 | |
dudmuck | 18:9530d682fd9a | 3103 | void cmd_PreambleSize(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3104 | { |
dudmuck | 18:9530d682fd9a | 3105 | int i; |
dudmuck | 18:9530d682fd9a | 3106 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 3107 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3108 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3109 | radio.write_u16(REG_LR_PREAMBLEMSB, i); |
dudmuck | 18:9530d682fd9a | 3110 | } |
dudmuck | 18:9530d682fd9a | 3111 | lora.RegPreamble = radio.read_u16(REG_LR_PREAMBLEMSB); |
dudmuck | 18:9530d682fd9a | 3112 | printf("lora PreambleLength:%d\r\n", lora.RegPreamble); |
dudmuck | 18:9530d682fd9a | 3113 | } else { |
dudmuck | 18:9530d682fd9a | 3114 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3115 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3116 | radio.write_u16(REG_FSK_PREAMBLEMSB, i); |
dudmuck | 18:9530d682fd9a | 3117 | } |
dudmuck | 18:9530d682fd9a | 3118 | printf("PreambleSize:%d\r\n", radio.read_u16(REG_FSK_PREAMBLEMSB)); |
dudmuck | 18:9530d682fd9a | 3119 | } |
dudmuck | 18:9530d682fd9a | 3120 | } |
dudmuck | 18:9530d682fd9a | 3121 | |
dudmuck | 18:9530d682fd9a | 3122 | void cmd_fsk_PreamblePolarity(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3123 | { |
dudmuck | 18:9530d682fd9a | 3124 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 18:9530d682fd9a | 3125 | fsk.RegSyncConfig.bits.PreamblePolarity ^= 1; |
dudmuck | 18:9530d682fd9a | 3126 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 18:9530d682fd9a | 3127 | if (fsk.RegSyncConfig.bits.PreamblePolarity) |
dudmuck | 18:9530d682fd9a | 3128 | printf("0x55\r\n"); |
dudmuck | 18:9530d682fd9a | 3129 | else |
dudmuck | 18:9530d682fd9a | 3130 | printf("0xaa\r\n"); |
dudmuck | 18:9530d682fd9a | 3131 | } |
dudmuck | 18:9530d682fd9a | 3132 | |
dudmuck | 18:9530d682fd9a | 3133 | void cmd_pllbw(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3134 | { |
dudmuck | 18:9530d682fd9a | 3135 | RegPll_t pll; |
dudmuck | 18:9530d682fd9a | 3136 | if (radio.type == SX1272) { |
dudmuck | 18:9530d682fd9a | 3137 | // 0x5c and 0x5e registers |
dudmuck | 18:9530d682fd9a | 3138 | pll.octet = radio.read_reg(REG_PLL_SX1272); |
dudmuck | 18:9530d682fd9a | 3139 | if (pll.bits.PllBandwidth == 3) |
dudmuck | 18:9530d682fd9a | 3140 | pll.bits.PllBandwidth = 0; |
dudmuck | 18:9530d682fd9a | 3141 | else |
dudmuck | 18:9530d682fd9a | 3142 | pll.bits.PllBandwidth++; |
dudmuck | 18:9530d682fd9a | 3143 | radio.write_reg(REG_PLL_SX1272, pll.octet); |
dudmuck | 18:9530d682fd9a | 3144 | pll.octet = radio.read_reg(REG_PLL_LOWPN_SX1272); |
dudmuck | 18:9530d682fd9a | 3145 | if (pll.bits.PllBandwidth == 3) |
dudmuck | 18:9530d682fd9a | 3146 | pll.bits.PllBandwidth = 0; |
dudmuck | 18:9530d682fd9a | 3147 | else |
dudmuck | 18:9530d682fd9a | 3148 | pll.bits.PllBandwidth++; |
dudmuck | 18:9530d682fd9a | 3149 | radio.write_reg(REG_PLL_LOWPN_SX1272, pll.octet); |
dudmuck | 18:9530d682fd9a | 3150 | } else if (radio.type == SX1276) { |
dudmuck | 18:9530d682fd9a | 3151 | // 0x70 register |
dudmuck | 18:9530d682fd9a | 3152 | pll.octet = radio.read_reg(REG_PLL_SX1276); |
dudmuck | 18:9530d682fd9a | 3153 | if (pll.bits.PllBandwidth == 3) |
dudmuck | 18:9530d682fd9a | 3154 | pll.bits.PllBandwidth = 0; |
dudmuck | 18:9530d682fd9a | 3155 | else |
dudmuck | 18:9530d682fd9a | 3156 | pll.bits.PllBandwidth++; |
dudmuck | 18:9530d682fd9a | 3157 | radio.write_reg(REG_PLL_SX1276, pll.octet); |
dudmuck | 18:9530d682fd9a | 3158 | } |
dudmuck | 18:9530d682fd9a | 3159 | switch (pll.bits.PllBandwidth) { |
dudmuck | 18:9530d682fd9a | 3160 | case 0: printf("75"); break; |
dudmuck | 18:9530d682fd9a | 3161 | case 1: printf("150"); break; |
dudmuck | 18:9530d682fd9a | 3162 | case 2: printf("225"); break; |
dudmuck | 18:9530d682fd9a | 3163 | case 3: printf("300"); break; |
dudmuck | 18:9530d682fd9a | 3164 | } |
dudmuck | 18:9530d682fd9a | 3165 | printf("KHz\r\n"); |
dudmuck | 18:9530d682fd9a | 3166 | } |
dudmuck | 18:9530d682fd9a | 3167 | |
dudmuck | 18:9530d682fd9a | 3168 | void cmd_lna_boost(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3169 | { |
dudmuck | 18:9530d682fd9a | 3170 | radio.RegLna.octet = radio.read_reg(REG_LNA); |
dudmuck | 18:9530d682fd9a | 3171 | if (radio.RegLna.bits.LnaBoostHF == 3) |
dudmuck | 18:9530d682fd9a | 3172 | radio.RegLna.bits.LnaBoostHF = 0; |
dudmuck | 18:9530d682fd9a | 3173 | else |
dudmuck | 18:9530d682fd9a | 3174 | radio.RegLna.bits.LnaBoostHF++; |
dudmuck | 18:9530d682fd9a | 3175 | radio.write_reg(REG_LNA, radio.RegLna.octet); |
dudmuck | 18:9530d682fd9a | 3176 | printf("LNA-boost:%d\r\n", radio.RegLna.bits.LnaBoostHF); |
dudmuck | 18:9530d682fd9a | 3177 | } |
dudmuck | 18:9530d682fd9a | 3178 | |
dudmuck | 18:9530d682fd9a | 3179 | void cmd_LowDataRateOptimize(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3180 | { |
dudmuck | 18:9530d682fd9a | 3181 | if (radio.type == SX1272) { |
dudmuck | 18:9530d682fd9a | 3182 | lora.RegModemConfig.octet = radio.read_reg(REG_LR_MODEMCONFIG); |
dudmuck | 18:9530d682fd9a | 3183 | lora.RegModemConfig.sx1272bits.LowDataRateOptimize ^= 1; |
dudmuck | 18:9530d682fd9a | 3184 | printf("LowDataRateOptimize:%d\r\n", lora.RegModemConfig.sx1272bits.LowDataRateOptimize); |
dudmuck | 18:9530d682fd9a | 3185 | radio.write_reg(REG_LR_MODEMCONFIG, lora.RegModemConfig.octet); |
dudmuck | 18:9530d682fd9a | 3186 | } else if (radio.type == SX1276) { |
dudmuck | 18:9530d682fd9a | 3187 | lora.RegModemConfig3.octet = radio.read_reg(REG_LR_MODEMCONFIG3); |
dudmuck | 18:9530d682fd9a | 3188 | lora.RegModemConfig3.sx1276bits.LowDataRateOptimize ^= 1; |
dudmuck | 18:9530d682fd9a | 3189 | printf("LowDataRateOptimize:%d\r\n", lora.RegModemConfig3.sx1276bits.LowDataRateOptimize); |
dudmuck | 18:9530d682fd9a | 3190 | radio.write_reg(REG_LR_MODEMCONFIG3, lora.RegModemConfig3.octet); |
dudmuck | 18:9530d682fd9a | 3191 | } |
dudmuck | 18:9530d682fd9a | 3192 | } |
dudmuck | 18:9530d682fd9a | 3193 | |
dudmuck | 18:9530d682fd9a | 3194 | void cmd_fsk_FifoThreshold(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3195 | { |
dudmuck | 18:9530d682fd9a | 3196 | int i; |
dudmuck | 18:9530d682fd9a | 3197 | fsk.RegFifoThreshold.octet = radio.read_reg(REG_FSK_FIFOTHRESH); |
dudmuck | 18:9530d682fd9a | 3198 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3199 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3200 | fsk.RegFifoThreshold.bits.FifoThreshold = i; |
dudmuck | 18:9530d682fd9a | 3201 | } |
dudmuck | 18:9530d682fd9a | 3202 | radio.write_reg(REG_FSK_FIFOTHRESH, fsk.RegFifoThreshold.octet); |
dudmuck | 18:9530d682fd9a | 3203 | printf("FifoThreshold:%d\r\n", fsk.RegFifoThreshold.bits.FifoThreshold); |
dudmuck | 18:9530d682fd9a | 3204 | fsk.RegFifoThreshold.octet = radio.read_reg(REG_FSK_FIFOTHRESH); |
dudmuck | 18:9530d682fd9a | 3205 | } |
dudmuck | 18:9530d682fd9a | 3206 | |
dudmuck | 18:9530d682fd9a | 3207 | void cmd_tx_ticker_rate(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3208 | { |
dudmuck | 18:9530d682fd9a | 3209 | if (pcbuf[idx] != 0) { |
dudmuck | 18:9530d682fd9a | 3210 | sscanf(pcbuf+idx, "%f", &tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 3211 | } |
dudmuck | 18:9530d682fd9a | 3212 | printf("tx_ticker_rate:%f\r\n", tx_ticker_rate); |
dudmuck | 18:9530d682fd9a | 3213 | } |
dudmuck | 18:9530d682fd9a | 3214 | |
dudmuck | 18:9530d682fd9a | 3215 | void cmd_lora_tx_invert(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3216 | { |
dudmuck | 18:9530d682fd9a | 3217 | lora.invert_tx(lora.RegTest33.bits.chirp_invert_tx); |
dudmuck | 18:9530d682fd9a | 3218 | printf("chirp_invert_tx :%d\r\n", lora.RegTest33.bits.chirp_invert_tx); |
dudmuck | 18:9530d682fd9a | 3219 | } |
dudmuck | 18:9530d682fd9a | 3220 | |
dudmuck | 18:9530d682fd9a | 3221 | void cmd_lora_rx_invert(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3222 | { |
dudmuck | 18:9530d682fd9a | 3223 | lora.invert_rx(!lora.RegTest33.bits.invert_i_q); |
dudmuck | 18:9530d682fd9a | 3224 | printf("rx invert_i_q:%d\r\n", lora.RegTest33.bits.invert_i_q); |
dudmuck | 18:9530d682fd9a | 3225 | } |
dudmuck | 18:9530d682fd9a | 3226 | |
dudmuck | 18:9530d682fd9a | 3227 | void cmd_fsk_dcfree(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3228 | { |
dudmuck | 18:9530d682fd9a | 3229 | fsk.RegPktConfig1.octet = radio.read_reg(REG_FSK_PACKETCONFIG1); |
dudmuck | 18:9530d682fd9a | 3230 | if (fsk.RegPktConfig1.bits.DcFree == 3) |
dudmuck | 18:9530d682fd9a | 3231 | fsk.RegPktConfig1.bits.DcFree = 0; |
dudmuck | 18:9530d682fd9a | 3232 | else |
dudmuck | 18:9530d682fd9a | 3233 | fsk.RegPktConfig1.bits.DcFree++; |
dudmuck | 18:9530d682fd9a | 3234 | printf(" dcFree:"); |
dudmuck | 18:9530d682fd9a | 3235 | switch (fsk.RegPktConfig1.bits.DcFree) { |
dudmuck | 18:9530d682fd9a | 3236 | case 0: printf("none "); break; |
dudmuck | 18:9530d682fd9a | 3237 | case 1: printf("Manchester "); break; |
dudmuck | 18:9530d682fd9a | 3238 | case 2: printf("Whitening "); break; |
dudmuck | 18:9530d682fd9a | 3239 | case 3: printf("[41mreserved[0m "); break; |
dudmuck | 18:9530d682fd9a | 3240 | } |
dudmuck | 18:9530d682fd9a | 3241 | radio.write_reg(REG_FSK_PACKETCONFIG1, fsk.RegPktConfig1.octet); |
dudmuck | 18:9530d682fd9a | 3242 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 3243 | } |
dudmuck | 18:9530d682fd9a | 3244 | |
dudmuck | 18:9530d682fd9a | 3245 | void cmd_fsk_DataMode(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3246 | { |
dudmuck | 18:9530d682fd9a | 3247 | fsk.RegPktConfig2.word = radio.read_u16(REG_FSK_PACKETCONFIG2); |
dudmuck | 18:9530d682fd9a | 3248 | fsk.RegPktConfig2.bits.DataModePacket ^= 1; |
dudmuck | 18:9530d682fd9a | 3249 | radio.write_u16(REG_FSK_PACKETCONFIG2, fsk.RegPktConfig2.word); |
dudmuck | 18:9530d682fd9a | 3250 | printf("datamode:"); |
dudmuck | 18:9530d682fd9a | 3251 | if (fsk.RegPktConfig2.bits.DataModePacket) |
dudmuck | 18:9530d682fd9a | 3252 | printf("packet\r\n"); |
dudmuck | 18:9530d682fd9a | 3253 | else |
dudmuck | 18:9530d682fd9a | 3254 | printf("continuous\r\n"); |
dudmuck | 18:9530d682fd9a | 3255 | } |
dudmuck | 18:9530d682fd9a | 3256 | |
dudmuck | 18:9530d682fd9a | 3257 | void cmd_show_dio(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3258 | { |
dudmuck | 18:9530d682fd9a | 3259 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 3260 | lora_print_dio(); |
dudmuck | 18:9530d682fd9a | 3261 | else |
dudmuck | 18:9530d682fd9a | 3262 | fsk_print_dio(); |
dudmuck | 18:9530d682fd9a | 3263 | } |
dudmuck | 18:9530d682fd9a | 3264 | |
dudmuck | 18:9530d682fd9a | 3265 | void cmd_set_dio(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3266 | { |
dudmuck | 18:9530d682fd9a | 3267 | switch (pcbuf[idx]) { |
dudmuck | 18:9530d682fd9a | 3268 | case '0': |
dudmuck | 18:9530d682fd9a | 3269 | radio.RegDioMapping1.bits.Dio0Mapping++; |
dudmuck | 18:9530d682fd9a | 3270 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 3271 | break; |
dudmuck | 18:9530d682fd9a | 3272 | case '1': |
dudmuck | 18:9530d682fd9a | 3273 | radio.RegDioMapping1.bits.Dio1Mapping++; |
dudmuck | 18:9530d682fd9a | 3274 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 3275 | break; |
dudmuck | 18:9530d682fd9a | 3276 | case '2': |
dudmuck | 18:9530d682fd9a | 3277 | radio.RegDioMapping1.bits.Dio2Mapping++; |
dudmuck | 18:9530d682fd9a | 3278 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 3279 | break; |
dudmuck | 18:9530d682fd9a | 3280 | case '3': |
dudmuck | 18:9530d682fd9a | 3281 | radio.RegDioMapping1.bits.Dio3Mapping++; |
dudmuck | 18:9530d682fd9a | 3282 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 18:9530d682fd9a | 3283 | break; |
dudmuck | 18:9530d682fd9a | 3284 | case '4': |
dudmuck | 18:9530d682fd9a | 3285 | radio.RegDioMapping2.bits.Dio4Mapping++; |
dudmuck | 18:9530d682fd9a | 3286 | radio.write_reg(REG_DIOMAPPING2, radio.RegDioMapping2.octet); |
dudmuck | 18:9530d682fd9a | 3287 | break; |
dudmuck | 18:9530d682fd9a | 3288 | case '5': |
dudmuck | 18:9530d682fd9a | 3289 | radio.RegDioMapping2.bits.Dio5Mapping++; |
dudmuck | 18:9530d682fd9a | 3290 | radio.write_reg(REG_DIOMAPPING2, radio.RegDioMapping2.octet); |
dudmuck | 18:9530d682fd9a | 3291 | break; |
dudmuck | 18:9530d682fd9a | 3292 | } // ...switch (pcbuf[idx]) |
dudmuck | 18:9530d682fd9a | 3293 | if (radio.RegOpMode.bits.LongRangeMode) |
dudmuck | 18:9530d682fd9a | 3294 | lora_print_dio(); |
dudmuck | 18:9530d682fd9a | 3295 | else |
dudmuck | 18:9530d682fd9a | 3296 | fsk_print_dio(); |
dudmuck | 18:9530d682fd9a | 3297 | } |
dudmuck | 18:9530d682fd9a | 3298 | |
dudmuck | 18:9530d682fd9a | 3299 | void cmd_mode_standby(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3300 | { |
dudmuck | 18:9530d682fd9a | 3301 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 18:9530d682fd9a | 3302 | printf("standby\r\n"); |
dudmuck | 18:9530d682fd9a | 3303 | } |
dudmuck | 18:9530d682fd9a | 3304 | |
dudmuck | 18:9530d682fd9a | 3305 | void cmd_mode_sleep(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3306 | { |
dudmuck | 18:9530d682fd9a | 3307 | radio.set_opmode(RF_OPMODE_SLEEP); |
dudmuck | 18:9530d682fd9a | 3308 | printf("sleep\r\n"); |
dudmuck | 18:9530d682fd9a | 3309 | } |
dudmuck | 18:9530d682fd9a | 3310 | |
dudmuck | 18:9530d682fd9a | 3311 | void cmd_mode_fstx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3312 | { |
dudmuck | 18:9530d682fd9a | 3313 | radio.set_opmode(RF_OPMODE_SYNTHESIZER_TX); |
dudmuck | 18:9530d682fd9a | 3314 | printf("fstx\r\n"); |
dudmuck | 18:9530d682fd9a | 3315 | } |
dudmuck | 18:9530d682fd9a | 3316 | |
dudmuck | 18:9530d682fd9a | 3317 | void cmd_mode_fsrx(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3318 | { |
dudmuck | 18:9530d682fd9a | 3319 | radio.set_opmode(RF_OPMODE_SYNTHESIZER_RX); |
dudmuck | 18:9530d682fd9a | 3320 | printf("fsrx\r\n"); |
dudmuck | 18:9530d682fd9a | 3321 | } |
dudmuck | 18:9530d682fd9a | 3322 | |
dudmuck | 18:9530d682fd9a | 3323 | void cmd_chat(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3324 | { |
dudmuck | 18:9530d682fd9a | 3325 | app = APP_CHAT; |
dudmuck | 18:9530d682fd9a | 3326 | lora.start_rx(RF_OPMODE_RECEIVER); |
dudmuck | 18:9530d682fd9a | 3327 | printf("chat start\r\n"); |
dudmuck | 18:9530d682fd9a | 3328 | } |
dudmuck | 18:9530d682fd9a | 3329 | |
dudmuck | 18:9530d682fd9a | 3330 | void cmd_OokThreshType(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3331 | { |
dudmuck | 18:9530d682fd9a | 3332 | fsk.RegOokPeak.octet = radio.read_reg(REG_FSK_OOKPEAK); |
dudmuck | 18:9530d682fd9a | 3333 | if (fsk.RegOokPeak.bits.OokThreshType == 2) |
dudmuck | 18:9530d682fd9a | 3334 | fsk.RegOokPeak.bits.OokThreshType = 0; |
dudmuck | 18:9530d682fd9a | 3335 | else |
dudmuck | 18:9530d682fd9a | 3336 | fsk.RegOokPeak.bits.OokThreshType++; |
dudmuck | 18:9530d682fd9a | 3337 | |
dudmuck | 18:9530d682fd9a | 3338 | radio.write_reg(REG_FSK_OOKPEAK, fsk.RegOokPeak.octet); |
dudmuck | 18:9530d682fd9a | 3339 | printf("OokThreshType:"); |
dudmuck | 18:9530d682fd9a | 3340 | switch (fsk.RegOokPeak.bits.OokThreshType) { |
dudmuck | 18:9530d682fd9a | 3341 | case 0: printf("fixed"); break; |
dudmuck | 18:9530d682fd9a | 3342 | case 1: printf("peak"); break; |
dudmuck | 18:9530d682fd9a | 3343 | case 2: printf("average"); break; |
dudmuck | 18:9530d682fd9a | 3344 | case 3: printf("?"); break; |
dudmuck | 18:9530d682fd9a | 3345 | } |
dudmuck | 18:9530d682fd9a | 3346 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 3347 | } |
dudmuck | 18:9530d682fd9a | 3348 | |
dudmuck | 18:9530d682fd9a | 3349 | void cmd_OokPeakTheshStep(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3350 | { |
dudmuck | 18:9530d682fd9a | 3351 | float f; |
dudmuck | 18:9530d682fd9a | 3352 | fsk.RegOokPeak.octet = radio.read_reg(REG_FSK_OOKPEAK); |
dudmuck | 18:9530d682fd9a | 3353 | if (fsk.RegOokPeak.bits.OokPeakThreshStep == 7) |
dudmuck | 18:9530d682fd9a | 3354 | fsk.RegOokPeak.bits.OokPeakThreshStep = 0; |
dudmuck | 18:9530d682fd9a | 3355 | else |
dudmuck | 18:9530d682fd9a | 3356 | fsk.RegOokPeak.bits.OokPeakThreshStep++; |
dudmuck | 18:9530d682fd9a | 3357 | |
dudmuck | 18:9530d682fd9a | 3358 | radio.write_reg(REG_FSK_OOKPEAK, fsk.RegOokPeak.octet); |
dudmuck | 18:9530d682fd9a | 3359 | switch (fsk.RegOokPeak.bits.OokPeakThreshStep) { |
dudmuck | 18:9530d682fd9a | 3360 | case 0: f = 0.5; break; |
dudmuck | 18:9530d682fd9a | 3361 | case 1: f = 1; break; |
dudmuck | 18:9530d682fd9a | 3362 | case 2: f = 1.5; break; |
dudmuck | 18:9530d682fd9a | 3363 | case 3: f = 2; break; |
dudmuck | 18:9530d682fd9a | 3364 | case 4: f = 3; break; |
dudmuck | 18:9530d682fd9a | 3365 | case 5: f = 4; break; |
dudmuck | 18:9530d682fd9a | 3366 | case 6: f = 5; break; |
dudmuck | 18:9530d682fd9a | 3367 | case 7: f = 6; break; |
dudmuck | 18:9530d682fd9a | 3368 | } |
dudmuck | 18:9530d682fd9a | 3369 | printf("OokPeakThreshStep:%.1fdB\r\n", f); |
dudmuck | 18:9530d682fd9a | 3370 | } |
dudmuck | 18:9530d682fd9a | 3371 | |
dudmuck | 18:9530d682fd9a | 3372 | void cmd_OokFixedThresh(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3373 | { |
dudmuck | 18:9530d682fd9a | 3374 | int i; |
dudmuck | 18:9530d682fd9a | 3375 | if (pcbuf[idx] >= '0' && pcbuf[idx] <= '9') { |
dudmuck | 18:9530d682fd9a | 3376 | sscanf(pcbuf+idx, "%d", &i); |
dudmuck | 18:9530d682fd9a | 3377 | radio.write_reg(REG_FSK_OOKFIX, i); |
dudmuck | 18:9530d682fd9a | 3378 | } |
dudmuck | 18:9530d682fd9a | 3379 | i = radio.read_reg(REG_FSK_OOKFIX); |
dudmuck | 18:9530d682fd9a | 3380 | printf("OokFixedThreshold:%d\r\n", i); |
dudmuck | 18:9530d682fd9a | 3381 | } |
dudmuck | 18:9530d682fd9a | 3382 | |
dudmuck | 18:9530d682fd9a | 3383 | void cmd_clkout(uint8_t idx) |
dudmuck | 18:9530d682fd9a | 3384 | { |
dudmuck | 18:9530d682fd9a | 3385 | RegOsc_t reg_osc; |
dudmuck | 18:9530d682fd9a | 3386 | reg_osc.octet = radio.read_reg(REG_FSK_OSC); |
dudmuck | 18:9530d682fd9a | 3387 | if (reg_osc.bits.ClkOut == 7) |
dudmuck | 18:9530d682fd9a | 3388 | reg_osc.bits.ClkOut = 0; |
dudmuck | 18:9530d682fd9a | 3389 | else |
dudmuck | 18:9530d682fd9a | 3390 | reg_osc.bits.ClkOut++; |
dudmuck | 18:9530d682fd9a | 3391 | |
dudmuck | 18:9530d682fd9a | 3392 | printf("ClkOut:%d\r\n", reg_osc.bits.ClkOut); |
dudmuck | 18:9530d682fd9a | 3393 | radio.write_reg(REG_FSK_OSC, reg_osc.octet); |
dudmuck | 18:9530d682fd9a | 3394 | } |
dudmuck | 18:9530d682fd9a | 3395 | |
dudmuck | 18:9530d682fd9a | 3396 | void cmd_help(uint8_t args_at); |
dudmuck | 18:9530d682fd9a | 3397 | |
dudmuck | 18:9530d682fd9a | 3398 | typedef enum { |
dudmuck | 18:9530d682fd9a | 3399 | MODEM_BOTH, |
dudmuck | 18:9530d682fd9a | 3400 | MODEM_FSK, |
dudmuck | 18:9530d682fd9a | 3401 | MODEM_LORA |
dudmuck | 18:9530d682fd9a | 3402 | } modem_e; |
dudmuck | 18:9530d682fd9a | 3403 | |
dudmuck | 18:9530d682fd9a | 3404 | typedef struct { |
dudmuck | 18:9530d682fd9a | 3405 | modem_e modem; |
dudmuck | 18:9530d682fd9a | 3406 | const char* const cmd; |
dudmuck | 18:9530d682fd9a | 3407 | void (*handler)(uint8_t args_at); |
dudmuck | 18:9530d682fd9a | 3408 | const char* const arg_descr; |
dudmuck | 18:9530d682fd9a | 3409 | const char* const description; |
dudmuck | 18:9530d682fd9a | 3410 | } menu_item_t; |
dudmuck | 18:9530d682fd9a | 3411 | |
dudmuck | 18:9530d682fd9a | 3412 | const menu_item_t menu_items[] = |
dudmuck | 18:9530d682fd9a | 3413 | { /* after first character, command names must be [A-Za-z] */ |
dudmuck | 18:9530d682fd9a | 3414 | { MODEM_BOTH, "chat", cmd_chat, "","start keyboard chat"}, |
dudmuck | 18:9530d682fd9a | 3415 | { MODEM_BOTH, "rssi", cmd_read_current_rssi, "","(RX) read instantaneous RSSI"}, |
dudmuck | 18:9530d682fd9a | 3416 | { MODEM_BOTH, "txpd", cmd_per_tx_delay, "<%d>","get/set PER tx delay (in milliseconds)"}, |
dudmuck | 18:9530d682fd9a | 3417 | { MODEM_BOTH, "pertx", cmd_pertx, "<%d pkt count>","start Eiger PER TX"}, |
dudmuck | 18:9530d682fd9a | 3418 | { MODEM_BOTH, "perrx", cmd_perrx, "","start Eiger PER RX"}, |
dudmuck | 18:9530d682fd9a | 3419 | { MODEM_BOTH, "pres", cmd_PreambleSize, "<%d>", "get/set PreambleSize"}, |
dudmuck | 18:9530d682fd9a | 3420 | { MODEM_BOTH, "pllbw", cmd_pllbw, "", "increment pllbw"}, |
dudmuck | 18:9530d682fd9a | 3421 | { MODEM_BOTH, "lnab", cmd_lna_boost, "", "(RX) increment LNA boost"}, |
dudmuck | 18:9530d682fd9a | 3422 | { MODEM_BOTH, "stby", cmd_mode_standby, "", "set chip mode to standby"}, |
dudmuck | 18:9530d682fd9a | 3423 | { MODEM_BOTH, "sleep", cmd_mode_sleep, "", "set chip mode to sleep"}, |
dudmuck | 18:9530d682fd9a | 3424 | { MODEM_BOTH, "fstx", cmd_mode_fstx, "", "set chip mode to fstx"}, |
dudmuck | 18:9530d682fd9a | 3425 | { MODEM_BOTH, "fsrx", cmd_mode_fsrx, "", "set chip mode to fsrx"}, |
dudmuck | 18:9530d682fd9a | 3426 | { MODEM_BOTH, "crcon", cmd_crcOn, "","toggle crcOn"}, |
dudmuck | 18:9530d682fd9a | 3427 | { MODEM_BOTH, "payl", cmd_payload_length, "<%d>","get/set payload length"}, |
dudmuck | 18:9530d682fd9a | 3428 | { MODEM_BOTH, "bgr", cmd_bgr, "<%d>","(TX) get/set reference for TX DAC"}, |
dudmuck | 18:9530d682fd9a | 3429 | { MODEM_BOTH, "ocp", cmd_ocp, "<%d>","(TX) get/set milliamps current limit"}, |
dudmuck | 18:9530d682fd9a | 3430 | { MODEM_BOTH, "frf", cmd_frf, "<MHz>","get/set RF center frequency"}, |
dudmuck | 18:9530d682fd9a | 3431 | { MODEM_BOTH, "pas", cmd_paSelect, "","(TX) toggle RFO/PA_BOOST"}, |
dudmuck | 18:9530d682fd9a | 3432 | { MODEM_BOTH, "pid", cmd_per_id, "<%d>","get/set ID number in Eiger PER packet"}, |
dudmuck | 18:9530d682fd9a | 3433 | { MODEM_BOTH, "dio", cmd_show_dio, "","print dio mapping"}, |
dudmuck | 18:9530d682fd9a | 3434 | |
dudmuck | 18:9530d682fd9a | 3435 | { MODEM_FSK, "clkout", cmd_clkout, "","increment ClkOut divider"}, |
dudmuck | 18:9530d682fd9a | 3436 | { MODEM_FSK, "ookt", cmd_OokThreshType, "","(RX) increment OokThreshType"}, |
dudmuck | 18:9530d682fd9a | 3437 | { MODEM_FSK, "ooks", cmd_OokPeakTheshStep, "","(RX) increment OokPeakTheshStep"}, |
dudmuck | 18:9530d682fd9a | 3438 | { MODEM_FSK, "sqlch", cmd_OokFixedThresh, "<%d>","(RX) get/set OokFixedThresh"}, |
dudmuck | 18:9530d682fd9a | 3439 | { MODEM_FSK, "rssit", cmd_rssi_threshold, "<-dBm>","(RX) get/set rssi threshold"}, |
dudmuck | 18:9530d682fd9a | 3440 | { MODEM_FSK, "rssis", cmd_rssi_smoothing, "<%d>","(RX) get/set rssi smoothing"}, |
dudmuck | 18:9530d682fd9a | 3441 | { MODEM_FSK, "rssio", cmd_rssi_offset, "<%d>","(RX) get/set rssi offset"}, |
dudmuck | 18:9530d682fd9a | 3442 | { MODEM_FSK, "mods", cmd_mod_shaping, "", "(TX) increment modulation shaping"}, |
dudmuck | 18:9530d682fd9a | 3443 | { MODEM_FSK, "agcauto", cmd_fsk_agcauto, "", "(RX) toggle AgcAutoOn"}, |
dudmuck | 18:9530d682fd9a | 3444 | { MODEM_FSK, "afcauto", cmd_fsk_afcauto, "", "(RX) toggle AfcAutoOn"}, |
dudmuck | 18:9530d682fd9a | 3445 | { MODEM_FSK, "syncw", cmd_fsk_syncword, "<hex bytes>", "get/set syncword"}, |
dudmuck | 18:9530d682fd9a | 3446 | { MODEM_FSK, "syncon", cmd_fsk_syncOn, "", "toggle SyncOn (frame sync, SFD enable)"}, |
dudmuck | 18:9530d682fd9a | 3447 | { MODEM_FSK, "bitsync", cmd_fsk_bitsync, "", "toggle BitSyncOn (continuous mode only)"}, |
dudmuck | 18:9530d682fd9a | 3448 | { MODEM_FSK, "fifot", cmd_fsk_TxStartCondition, "", "(TX) toggle TxStartCondition"}, |
dudmuck | 18:9530d682fd9a | 3449 | { MODEM_FSK, "pktf", cmd_fsk_PacketFormat, "", "toggle PacketFormat fixed/variable length"}, |
dudmuck | 18:9530d682fd9a | 3450 | { MODEM_FSK, "poll", cmd_poll_irq_en, "", "toggle poll_irq_en"}, |
dudmuck | 18:9530d682fd9a | 3451 | { MODEM_FSK, "prep", cmd_fsk_PreamblePolarity, "", "toggle PreamblePolarity"}, |
dudmuck | 18:9530d682fd9a | 3452 | { MODEM_FSK, "datam", cmd_fsk_DataMode, "", "toggle DataMode (packet/continuous)"}, |
dudmuck | 18:9530d682fd9a | 3453 | { MODEM_FSK, "rxt", cmd_rx_trigger, "","(RX) increment RxTrigger"}, |
dudmuck | 18:9530d682fd9a | 3454 | { MODEM_FSK, "ook", cmd_ook, "","enter OOK mode"}, |
dudmuck | 18:9530d682fd9a | 3455 | { MODEM_FSK, "fei", cmd_fsk_read_fei, "","(RX) read FEI"}, |
dudmuck | 18:9530d682fd9a | 3456 | { MODEM_FSK, "fdev", cmd_fsk_fdev, "<kHz>","(TX) get/set fdev"}, |
dudmuck | 18:9530d682fd9a | 3457 | { MODEM_FSK, "par", cmd_paRamp, "","(TX) increment paRamp"}, |
dudmuck | 18:9530d682fd9a | 3458 | { MODEM_FSK, "pde", cmd_fsk_PreambleDetectorOn, "","(RX) toggle PreambleDetectorOn"}, |
dudmuck | 18:9530d682fd9a | 3459 | { MODEM_FSK, "pds", cmd_fsk_PreambleDetectorSize, "<%d>","(RX) get/set PreambleDetectorSize"}, |
dudmuck | 18:9530d682fd9a | 3460 | { MODEM_FSK, "pdt", cmd_fsk_PreambleDetectorTol, "<%d>","(RX) get/set PreambleDetectorTol"}, |
dudmuck | 18:9530d682fd9a | 3461 | { MODEM_FSK, "thr", cmd_fsk_FifoThreshold, "<%d>","get/set FifoThreshold"}, |
dudmuck | 18:9530d682fd9a | 3462 | { MODEM_FSK, "dcf", cmd_fsk_dcfree, "","(RX) increment DcFree"}, |
dudmuck | 18:9530d682fd9a | 3463 | { MODEM_FSK, "br", cmd_fsk_bitrate, "<%f kbps>","get/set bitrate"}, |
dudmuck | 18:9530d682fd9a | 3464 | { MODEM_FSK, "ac", cmd_AfcClear, "","(RX) AfcClear"}, |
dudmuck | 18:9530d682fd9a | 3465 | { MODEM_FSK, "ar", cmd_fsk_AutoRestartRxMode, "","(RX) increment AutoRestartRxMode"}, |
dudmuck | 18:9530d682fd9a | 3466 | { MODEM_FSK, "alc", cmd_fsk_AfcAutoClearOn, "","(RX) toggle AfcAutoClearOn"}, |
dudmuck | 18:9530d682fd9a | 3467 | { MODEM_FSK, "mp", cmd_MapPreambleDetect, "","(RX) toggle MapPreambleDetect"}, |
dudmuck | 20:b11592c9ba5f | 3468 | { MODEM_FSK, "rrx", cmd_restart_rx, "","restart RX"}, |
dudmuck | 18:9530d682fd9a | 3469 | { MODEM_BOTH, "op", cmd_op, "<dBm>","(TX) get/set TX power"}, |
dudmuck | 18:9530d682fd9a | 3470 | |
dudmuck | 18:9530d682fd9a | 3471 | #ifdef LORA_TX_TEST |
dudmuck | 18:9530d682fd9a | 3472 | { MODEM_LORA, "apl", cmd_lora_all_payload_lengths, "","(TXTEST) sweep payload lengths 0->255"}, |
dudmuck | 18:9530d682fd9a | 3473 | { MODEM_LORA, "csn", cmd_lora_sync_sweep, "[12]","(TXTEST) sweep ppg symbol"}, |
dudmuck | 18:9530d682fd9a | 3474 | { MODEM_LORA, "ss", cmd_lora_sync_lo_nibble, "","(TXTEST) ppg low nibble"}, |
dudmuck | 18:9530d682fd9a | 3475 | { MODEM_LORA, "cpl", lora_cycle_payload_length, "[%d stop]","(TXTEST) sweep payload length"}, |
dudmuck | 18:9530d682fd9a | 3476 | { MODEM_LORA, "ro", cmd_lora_data_ramp, "[%d bytes]","(TXTEST) sweep payload data"}, |
dudmuck | 18:9530d682fd9a | 3477 | { MODEM_LORA, "ccr", cmd_lora_cycle_codingrates, "","(TXTEST) cycle coding rates"}, |
dudmuck | 18:9530d682fd9a | 3478 | { MODEM_LORA, "fps", cmd_lora_fixed_payload_symbol, "[symbol_num n_bits]","(TXTEST) sweep symbol, n_bits=bits per symbol set (sf8=24, sf9=28, etc)"}, |
dudmuck | 18:9530d682fd9a | 3479 | { MODEM_LORA, "fpo", cmd_fixed_payload_offset, "<nbytes>","(TXTEST) padding offset for fp tests"}, |
dudmuck | 18:9530d682fd9a | 3480 | { MODEM_LORA, "fp", cmd_lora_fixed_payload, "[bytes]","(TXTEST) fixed payload"}, |
dudmuck | 18:9530d682fd9a | 3481 | { MODEM_LORA, "tab", cmd_lora_toggle_all_bits, "[byte length]","(TXTEST) toggle all bits"}, |
dudmuck | 18:9530d682fd9a | 3482 | { MODEM_LORA, "tcrc", cmd_lora_toggle_crcOn, "","(TXTEST) toggle crcOn"}, |
dudmuck | 18:9530d682fd9a | 3483 | { MODEM_LORA, "thm", cmd_lora_toggle_header_mode, "","(TXTEST) toggle explicit/implicit"}, |
dudmuck | 18:9530d682fd9a | 3484 | { MODEM_BOTH, "ttr", cmd_tx_ticker_rate, "<%f seconds>","(TXTEST) get/set tx_ticker rate"}, |
dudmuck | 18:9530d682fd9a | 3485 | #endif /* LORA_TX_TEST */ |
dudmuck | 18:9530d682fd9a | 3486 | |
dudmuck | 18:9530d682fd9a | 3487 | { MODEM_LORA, "cadper", cmd_cadper, "","Eiger PER RX using CAD" }, |
dudmuck | 18:9530d682fd9a | 3488 | { MODEM_LORA, "cad", cmd_cad, "<%d num tries>","(RX) run channel activity detection" }, |
dudmuck | 18:9530d682fd9a | 3489 | { MODEM_LORA, "iqinv", cmd_lora_rx_invert, "","(RX) toggle RX IQ invert" }, |
dudmuck | 18:9530d682fd9a | 3490 | { MODEM_LORA, "cin", cmd_lora_tx_invert, "","(TX) toggle TX IQ invert" }, |
dudmuck | 18:9530d682fd9a | 3491 | { MODEM_LORA, "lhp", cmd_hop_period, "<%d>","(RX) get/set hop period"}, |
dudmuck | 18:9530d682fd9a | 3492 | { MODEM_LORA, "sync", cmd_lora_ppg, "<%x>","get/set sync (post-preamble gap)"}, |
dudmuck | 18:9530d682fd9a | 3493 | { MODEM_LORA, "cr", cmd_codingRate, "<1-4>","get/set codingRate"}, |
dudmuck | 18:9530d682fd9a | 3494 | { MODEM_LORA, "lhm", cmd_lora_header_mode, "","toggle explicit/implicit"}, |
dudmuck | 18:9530d682fd9a | 3495 | { MODEM_LORA, "vh", cmd_lora_poll_validHeader, "","toggle polling of validHeader"}, |
dudmuck | 18:9530d682fd9a | 3496 | { MODEM_LORA, "sf", cmd_lora_sf, "<%d>","get/set spreadingFactor"}, |
dudmuck | 18:9530d682fd9a | 3497 | { MODEM_LORA, "ldr", cmd_LowDataRateOptimize, "","toggle LowDataRateOptimize"}, |
dudmuck | 18:9530d682fd9a | 3498 | { MODEM_LORA, "txc", cmd_lora_continuous_tx, "","(TX) toggle TxContinuousMode"}, |
dudmuck | 18:9530d682fd9a | 3499 | { MODEM_BOTH, "tx", cmd_tx, "<%d>","transmit packet. optional payload length"}, |
dudmuck | 18:9530d682fd9a | 3500 | { MODEM_BOTH, "bw", cmd_bandwidth, "<kHz>","get/set bandwith"}, |
dudmuck | 18:9530d682fd9a | 3501 | { MODEM_LORA, "rxt", cmd_rx_timeout, "<%d>","(RX) get/set SymbTimeout"}, |
dudmuck | 18:9530d682fd9a | 3502 | { MODEM_LORA, "rxs", cmd_rx_single, "","start RX_SINGLE"}, |
dudmuck | 18:9530d682fd9a | 3503 | { MODEM_BOTH, "rx", cmd_rx, "","start RX"}, |
dudmuck | 18:9530d682fd9a | 3504 | |
dudmuck | 18:9530d682fd9a | 3505 | { MODEM_BOTH, "h", cmd_hw_reset, "","hardware reset"}, |
dudmuck | 18:9530d682fd9a | 3506 | { MODEM_BOTH, "i", cmd_init, "","initialize radio driver"}, |
dudmuck | 18:9530d682fd9a | 3507 | { MODEM_BOTH, "R", cmd_read_all_regs, "","read all radio registers"}, |
dudmuck | 18:9530d682fd9a | 3508 | { MODEM_BOTH, "r", cmd_radio_reg_read, "[%x]","read single radio register"}, |
dudmuck | 18:9530d682fd9a | 3509 | { MODEM_BOTH, "w", cmd_radio_reg_write, "[%x %x]","write single radio register"}, |
dudmuck | 18:9530d682fd9a | 3510 | |
dudmuck | 18:9530d682fd9a | 3511 | { MODEM_BOTH, "L", cmd_toggle_modem, "","toggle between LoRa / FSK"}, |
dudmuck | 18:9530d682fd9a | 3512 | { MODEM_FSK, "E", cmd_empty_fifo, "","empty out FIFO"}, |
dudmuck | 18:9530d682fd9a | 3513 | { MODEM_FSK, "c", cmd_fsk_test_case, "<%d>","get/set test cases"}, |
dudmuck | 18:9530d682fd9a | 3514 | { MODEM_BOTH, "d", cmd_set_dio, "<%d pin num>","increment dio mapping"}, |
dudmuck | 18:9530d682fd9a | 3515 | { MODEM_BOTH, ".", cmd_print_status, "","print status"}, |
dudmuck | 18:9530d682fd9a | 3516 | { MODEM_BOTH, "?", cmd_help, "","this list of commands"}, |
dudmuck | 19:be8a8b0e7320 | 3517 | { MODEM_BOTH, NULL, NULL, NULL, NULL } |
dudmuck | 18:9530d682fd9a | 3518 | }; |
dudmuck | 18:9530d682fd9a | 3519 | |
dudmuck | 18:9530d682fd9a | 3520 | void cmd_help(uint8_t args_at) |
dudmuck | 18:9530d682fd9a | 3521 | { |
dudmuck | 18:9530d682fd9a | 3522 | int i; |
dudmuck | 18:9530d682fd9a | 3523 | |
dudmuck | 18:9530d682fd9a | 3524 | for (i = 0; menu_items[i].cmd != NULL ; i++) { |
dudmuck | 18:9530d682fd9a | 3525 | if (menu_items[i].modem == MODEM_BOTH) |
dudmuck | 18:9530d682fd9a | 3526 | printf("%s%s\t%s\r\n", menu_items[i].cmd, menu_items[i].arg_descr, menu_items[i].description); |
dudmuck | 18:9530d682fd9a | 3527 | } |
dudmuck | 18:9530d682fd9a | 3528 | |
dudmuck | 18:9530d682fd9a | 3529 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 3530 | for (i = 0; menu_items[i].cmd != NULL ; i++) { |
dudmuck | 18:9530d682fd9a | 3531 | if (menu_items[i].modem == MODEM_LORA) |
dudmuck | 18:9530d682fd9a | 3532 | printf("%s%s\t(LoRa) %s\r\n", menu_items[i].cmd, menu_items[i].arg_descr, menu_items[i].description); |
dudmuck | 18:9530d682fd9a | 3533 | } |
dudmuck | 18:9530d682fd9a | 3534 | } else { |
dudmuck | 18:9530d682fd9a | 3535 | for (i = 0; menu_items[i].cmd != NULL ; i++) { |
dudmuck | 18:9530d682fd9a | 3536 | if (menu_items[i].modem == MODEM_FSK) |
dudmuck | 18:9530d682fd9a | 3537 | printf("%s%s\t(FSK) %s\r\n", menu_items[i].cmd, menu_items[i].arg_descr, menu_items[i].description); |
dudmuck | 18:9530d682fd9a | 3538 | } |
dudmuck | 18:9530d682fd9a | 3539 | } |
dudmuck | 10:d9bb2ce57f05 | 3540 | } |
dudmuck | 10:d9bb2ce57f05 | 3541 | |
dudmuck | 0:be215de91a68 | 3542 | void |
dudmuck | 0:be215de91a68 | 3543 | console() |
dudmuck | 0:be215de91a68 | 3544 | { |
dudmuck | 18:9530d682fd9a | 3545 | int i; |
dudmuck | 18:9530d682fd9a | 3546 | uint8_t user_cmd_len; |
dudmuck | 5:360069ec9953 | 3547 | |
dudmuck | 18:9530d682fd9a | 3548 | if (poll_irq_en) |
dudmuck | 18:9530d682fd9a | 3549 | poll_service_radio(); |
dudmuck | 18:9530d682fd9a | 3550 | else |
dudmuck | 18:9530d682fd9a | 3551 | service_radio(); |
dudmuck | 0:be215de91a68 | 3552 | |
dudmuck | 5:360069ec9953 | 3553 | if (pcbuf_len < 0) { |
dudmuck | 0:be215de91a68 | 3554 | printf("abort\r\n"); |
dudmuck | 18:9530d682fd9a | 3555 | cadper_enable = false; |
dudmuck | 8:227605e4a760 | 3556 | per_en = false; |
dudmuck | 5:360069ec9953 | 3557 | pcbuf_len = 0; |
dudmuck | 15:c69b942685ea | 3558 | if ((radio.RegOpMode.bits.Mode != RF_OPMODE_SLEEP) && (radio.RegOpMode.bits.Mode != RF_OPMODE_STANDBY)) { |
dudmuck | 15:c69b942685ea | 3559 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 15:c69b942685ea | 3560 | } |
dudmuck | 18:9530d682fd9a | 3561 | on_txdone_state = ON_TXDONE_STATE_NONE; |
dudmuck | 18:9530d682fd9a | 3562 | tx_ticker.detach(); |
dudmuck | 0:be215de91a68 | 3563 | return; |
dudmuck | 0:be215de91a68 | 3564 | } |
dudmuck | 5:360069ec9953 | 3565 | if (pcbuf_len == 0) |
dudmuck | 5:360069ec9953 | 3566 | return; |
dudmuck | 18:9530d682fd9a | 3567 | |
dudmuck | 0:be215de91a68 | 3568 | printf("\r\n"); |
dudmuck | 18:9530d682fd9a | 3569 | |
dudmuck | 18:9530d682fd9a | 3570 | /* get end of user-entered command */ |
dudmuck | 18:9530d682fd9a | 3571 | user_cmd_len = 1; // first character can be any character |
dudmuck | 18:9530d682fd9a | 3572 | for (i = 1; i <= pcbuf_len; i++) { |
dudmuck | 18:9530d682fd9a | 3573 | if (pcbuf[i] < 'A' || (pcbuf[i] > 'Z' && pcbuf[i] < 'a') || pcbuf[i] > 'z') { |
dudmuck | 18:9530d682fd9a | 3574 | user_cmd_len = i; |
dudmuck | 18:9530d682fd9a | 3575 | break; |
dudmuck | 7:c3c54f222ced | 3576 | } |
dudmuck | 0:be215de91a68 | 3577 | } |
dudmuck | 18:9530d682fd9a | 3578 | |
dudmuck | 18:9530d682fd9a | 3579 | for (i = 0; menu_items[i].cmd != NULL ; i++) { |
dudmuck | 18:9530d682fd9a | 3580 | int mi_len = strlen(menu_items[i].cmd); |
dudmuck | 18:9530d682fd9a | 3581 | if (radio.RegOpMode.bits.LongRangeMode) { |
dudmuck | 18:9530d682fd9a | 3582 | if (menu_items[i].modem == MODEM_FSK) |
dudmuck | 18:9530d682fd9a | 3583 | continue; // FSK commands not used in LoRa |
dudmuck | 18:9530d682fd9a | 3584 | } else { |
dudmuck | 18:9530d682fd9a | 3585 | if (menu_items[i].modem == MODEM_LORA) |
dudmuck | 18:9530d682fd9a | 3586 | continue; // LoRa commands not used in FSK |
dudmuck | 18:9530d682fd9a | 3587 | } |
dudmuck | 18:9530d682fd9a | 3588 | |
dudmuck | 18:9530d682fd9a | 3589 | if (menu_items[i].handler && user_cmd_len == mi_len && (strncmp(pcbuf, menu_items[i].cmd, mi_len) == 0)) { |
dudmuck | 18:9530d682fd9a | 3590 | while (pcbuf[mi_len] == ' ') // skip past spaces |
dudmuck | 18:9530d682fd9a | 3591 | mi_len++; |
dudmuck | 18:9530d682fd9a | 3592 | menu_items[i].handler(mi_len); |
dudmuck | 18:9530d682fd9a | 3593 | break; |
dudmuck | 18:9530d682fd9a | 3594 | } |
dudmuck | 18:9530d682fd9a | 3595 | } |
dudmuck | 18:9530d682fd9a | 3596 | |
dudmuck | 5:360069ec9953 | 3597 | pcbuf_len = 0; |
dudmuck | 0:be215de91a68 | 3598 | printf("> "); |
dudmuck | 18:9530d682fd9a | 3599 | fflush(stdout); |
dudmuck | 0:be215de91a68 | 3600 | } |
dudmuck | 0:be215de91a68 | 3601 | |
dudmuck | 5:360069ec9953 | 3602 | void rx_callback() |
dudmuck | 5:360069ec9953 | 3603 | { |
dudmuck | 5:360069ec9953 | 3604 | static uint8_t pcbuf_idx = 0; |
dudmuck | 5:360069ec9953 | 3605 | static uint8_t prev_len = 0;; |
dudmuck | 5:360069ec9953 | 3606 | char c = pc.getc(); |
dudmuck | 18:9530d682fd9a | 3607 | /*if (kermit.uart_rx_enabled) { |
dudmuck | 18:9530d682fd9a | 3608 | kermit.rx_callback(c); |
dudmuck | 18:9530d682fd9a | 3609 | } else*/ { |
dudmuck | 18:9530d682fd9a | 3610 | if (c == 8) { |
dudmuck | 18:9530d682fd9a | 3611 | if (pcbuf_idx > 0) { |
dudmuck | 18:9530d682fd9a | 3612 | pc.putc(8); |
dudmuck | 18:9530d682fd9a | 3613 | pc.putc(' '); |
dudmuck | 18:9530d682fd9a | 3614 | pc.putc(8); |
dudmuck | 18:9530d682fd9a | 3615 | pcbuf_idx--; |
dudmuck | 18:9530d682fd9a | 3616 | } |
dudmuck | 18:9530d682fd9a | 3617 | } else if (c == 3) { // ctrl-C |
dudmuck | 18:9530d682fd9a | 3618 | pcbuf_len = -1; |
dudmuck | 18:9530d682fd9a | 3619 | } else if (c == '\r') { |
dudmuck | 18:9530d682fd9a | 3620 | if (pcbuf_idx == 0) { |
dudmuck | 18:9530d682fd9a | 3621 | pcbuf_len = prev_len; |
dudmuck | 18:9530d682fd9a | 3622 | } else { |
dudmuck | 18:9530d682fd9a | 3623 | pcbuf[pcbuf_idx] = 0; // null terminate |
dudmuck | 18:9530d682fd9a | 3624 | prev_len = pcbuf_idx; |
dudmuck | 18:9530d682fd9a | 3625 | pcbuf_idx = 0; |
dudmuck | 18:9530d682fd9a | 3626 | pcbuf_len = prev_len; |
dudmuck | 18:9530d682fd9a | 3627 | } |
dudmuck | 18:9530d682fd9a | 3628 | }/* else if (c == SOH) { |
dudmuck | 18:9530d682fd9a | 3629 | kermit.uart_rx_enable(); |
dudmuck | 18:9530d682fd9a | 3630 | }*/ else if (pcbuf_idx < sizeof(pcbuf)) { |
dudmuck | 18:9530d682fd9a | 3631 | pcbuf[pcbuf_idx++] = c; |
dudmuck | 18:9530d682fd9a | 3632 | pc.putc(c); |
dudmuck | 5:360069ec9953 | 3633 | } |
dudmuck | 5:360069ec9953 | 3634 | } |
dudmuck | 5:360069ec9953 | 3635 | } |
dudmuck | 5:360069ec9953 | 3636 | |
dudmuck | 0:be215de91a68 | 3637 | int main() |
dudmuck | 5:360069ec9953 | 3638 | { |
dudmuck | 5:360069ec9953 | 3639 | #if defined(TARGET_NUCLEO_L152RE) && defined(USE_DEBUGGER) |
dudmuck | 5:360069ec9953 | 3640 | DBGMCU_Config(DBGMCU_SLEEP, ENABLE); |
dudmuck | 5:360069ec9953 | 3641 | DBGMCU_Config(DBGMCU_STOP, ENABLE); |
dudmuck | 5:360069ec9953 | 3642 | DBGMCU_Config(DBGMCU_STANDBY, ENABLE); |
dudmuck | 5:360069ec9953 | 3643 | #endif |
dudmuck | 0:be215de91a68 | 3644 | |
dudmuck | 0:be215de91a68 | 3645 | pc.baud(57600); |
dudmuck | 6:fe16f96ee335 | 3646 | printf("\r\nmain()\r\n"); |
dudmuck | 6:fe16f96ee335 | 3647 | |
dudmuck | 5:360069ec9953 | 3648 | pc.attach(rx_callback); |
dudmuck | 0:be215de91a68 | 3649 | |
dudmuck | 15:c69b942685ea | 3650 | #ifndef TARGET_MTS_MDOT_F411RE |
dudmuck | 15:c69b942685ea | 3651 | rfsw.input(); |
dudmuck | 15:c69b942685ea | 3652 | if (rfsw.read()) { |
dudmuck | 15:c69b942685ea | 3653 | shield_type = SHIELD_TYPE_LAS; |
dudmuck | 15:c69b942685ea | 3654 | printf("LAS\r\n"); |
dudmuck | 15:c69b942685ea | 3655 | } else { |
dudmuck | 15:c69b942685ea | 3656 | shield_type = SHIELD_TYPE_MAS; |
dudmuck | 15:c69b942685ea | 3657 | printf("MAS\r\n"); |
dudmuck | 15:c69b942685ea | 3658 | } |
dudmuck | 15:c69b942685ea | 3659 | |
dudmuck | 15:c69b942685ea | 3660 | rfsw.output(); |
dudmuck | 15:c69b942685ea | 3661 | #endif /* !TARGET_MTS_MDOT_F411RE */ |
dudmuck | 6:fe16f96ee335 | 3662 | radio.rf_switch.attach(rfsw_callback); |
dudmuck | 10:d9bb2ce57f05 | 3663 | |
dudmuck | 13:c73caaee93a5 | 3664 | #ifdef FSK_PER |
dudmuck | 13:c73caaee93a5 | 3665 | fsk.enable(false); |
dudmuck | 13:c73caaee93a5 | 3666 | fsk.RegSyncConfig.octet = radio.read_reg(REG_FSK_SYNCCONFIG); |
dudmuck | 13:c73caaee93a5 | 3667 | fsk.RegSyncConfig.bits.SyncSize = 2; |
dudmuck | 13:c73caaee93a5 | 3668 | radio.write_reg(REG_FSK_SYNCCONFIG, fsk.RegSyncConfig.octet); |
dudmuck | 13:c73caaee93a5 | 3669 | radio.write_reg(REG_FSK_SYNCVALUE3, 0x90); |
dudmuck | 13:c73caaee93a5 | 3670 | radio.write_reg(REG_FSK_SYNCVALUE2, 0x4e); |
dudmuck | 13:c73caaee93a5 | 3671 | radio.write_reg(REG_FSK_SYNCVALUE1, 0x63); |
dudmuck | 13:c73caaee93a5 | 3672 | |
dudmuck | 13:c73caaee93a5 | 3673 | fsk.RegPreambleDetect.bits.PreambleDetectorOn = 1; |
dudmuck | 16:b9d36c60f2d3 | 3674 | fsk.RegPreambleDetect.bits.PreambleDetectorSize = 1; |
dudmuck | 16:b9d36c60f2d3 | 3675 | fsk.RegPreambleDetect.bits.PreambleDetectorTol = 10; |
dudmuck | 16:b9d36c60f2d3 | 3676 | radio.write_reg(REG_FSK_PREAMBLEDETECT, fsk.RegPreambleDetect.octet); |
dudmuck | 13:c73caaee93a5 | 3677 | |
dudmuck | 13:c73caaee93a5 | 3678 | fsk.RegRxConfig.octet = radio.read_reg(REG_FSK_RXCONFIG); |
dudmuck | 13:c73caaee93a5 | 3679 | fsk.RegRxConfig.bits.AfcAutoOn = 1; |
dudmuck | 16:b9d36c60f2d3 | 3680 | fsk.RegRxConfig.bits.AgcAutoOn = 1; |
dudmuck | 16:b9d36c60f2d3 | 3681 | fsk.RegRxConfig.bits.RxTrigger = 7; |
dudmuck | 13:c73caaee93a5 | 3682 | radio.write_reg(REG_FSK_RXCONFIG, fsk.RegRxConfig.octet); |
dudmuck | 13:c73caaee93a5 | 3683 | |
dudmuck | 13:c73caaee93a5 | 3684 | radio.set_opmode(RF_OPMODE_STANDBY); |
dudmuck | 13:c73caaee93a5 | 3685 | fsk.set_rx_dcc_bw_hz(41666, 1); // afcbw |
dudmuck | 13:c73caaee93a5 | 3686 | fsk.set_rx_dcc_bw_hz(20833, 0); // rxbw |
dudmuck | 13:c73caaee93a5 | 3687 | |
dudmuck | 13:c73caaee93a5 | 3688 | fsk.set_tx_fdev_hz(10000); |
dudmuck | 13:c73caaee93a5 | 3689 | |
dudmuck | 13:c73caaee93a5 | 3690 | radio.write_u16(REG_FSK_PREAMBLEMSB, 8); |
dudmuck | 13:c73caaee93a5 | 3691 | |
dudmuck | 13:c73caaee93a5 | 3692 | fsk.RegPktConfig2.bits.PayloadLength = 64; |
dudmuck | 13:c73caaee93a5 | 3693 | radio.write_u16(REG_FSK_PACKETCONFIG2, fsk.RegPktConfig2.word); |
dudmuck | 13:c73caaee93a5 | 3694 | |
dudmuck | 13:c73caaee93a5 | 3695 | radio.RegDioMapping2.octet = radio.read_reg(REG_DIOMAPPING2); |
dudmuck | 13:c73caaee93a5 | 3696 | radio.RegDioMapping2.bits.Dio5Mapping = 2; // data output to observation |
dudmuck | 14:c57ea544dc18 | 3697 | radio.RegDioMapping2.bits.Dio4Mapping = 3; // output preamble detect indication |
dudmuck | 14:c57ea544dc18 | 3698 | radio.RegDioMapping2.bits.MapPreambleDetect = 1; |
dudmuck | 13:c73caaee93a5 | 3699 | radio.write_reg(REG_DIOMAPPING2, radio.RegDioMapping2.octet); |
dudmuck | 16:b9d36c60f2d3 | 3700 | |
dudmuck | 16:b9d36c60f2d3 | 3701 | RegPreambleDetect.bits.PreambleDetectorOn = 1; |
dudmuck | 16:b9d36c60f2d3 | 3702 | RegPreambleDetect.bits.PreambleDetectorSize = 1; |
dudmuck | 16:b9d36c60f2d3 | 3703 | RegPreambleDetect.bits.PreambleDetectorTol = 10; |
dudmuck | 16:b9d36c60f2d3 | 3704 | write_reg(REG_FSK_PREAMBLEDETECT, RegPreambleDetect.octet); |
dudmuck | 16:b9d36c60f2d3 | 3705 | |
dudmuck | 13:c73caaee93a5 | 3706 | #endif /* FSK_PER */ |
dudmuck | 10:d9bb2ce57f05 | 3707 | |
dudmuck | 10:d9bb2ce57f05 | 3708 | #ifdef START_EIGER_TX |
dudmuck | 14:c57ea544dc18 | 3709 | uint8_t addr; |
dudmuck | 10:d9bb2ce57f05 | 3710 | radio.set_frf_MHz(915.0); |
dudmuck | 11:81ff5bcafd97 | 3711 | |
dudmuck | 11:81ff5bcafd97 | 3712 | radio.RegOcp.octet = radio.read_reg(REG_OCP); |
dudmuck | 11:81ff5bcafd97 | 3713 | radio.RegOcp.bits.OcpTrim = 20; |
dudmuck | 11:81ff5bcafd97 | 3714 | radio.write_reg(REG_OCP, radio.RegOcp.octet); |
dudmuck | 11:81ff5bcafd97 | 3715 | |
dudmuck | 11:81ff5bcafd97 | 3716 | RegPdsTrim1_t pds_trim; |
dudmuck | 14:c57ea544dc18 | 3717 | if (radio.type == SX1276) |
dudmuck | 14:c57ea544dc18 | 3718 | addr = REG_PDSTRIM1_SX1276; |
dudmuck | 14:c57ea544dc18 | 3719 | else |
dudmuck | 14:c57ea544dc18 | 3720 | addr = REG_PDSTRIM1_SX1272; |
dudmuck | 14:c57ea544dc18 | 3721 | |
dudmuck | 14:c57ea544dc18 | 3722 | pds_trim.octet = radio.read_reg(addr); |
dudmuck | 11:81ff5bcafd97 | 3723 | pds_trim.bits.prog_txdac = 7; |
dudmuck | 14:c57ea544dc18 | 3724 | radio.write_reg(addr, pds_trim.octet); |
dudmuck | 11:81ff5bcafd97 | 3725 | |
dudmuck | 13:c73caaee93a5 | 3726 | #ifndef FSK_PER |
dudmuck | 13:c73caaee93a5 | 3727 | lora.enable(); |
dudmuck | 12:beb0387c1b4c | 3728 | lora.setSf(10); |
dudmuck | 10:d9bb2ce57f05 | 3729 | if (radio.type == SX1276) |
dudmuck | 10:d9bb2ce57f05 | 3730 | lora.setBw(7); // 7 == 125khz |
dudmuck | 13:c73caaee93a5 | 3731 | #endif |
dudmuck | 10:d9bb2ce57f05 | 3732 | |
dudmuck | 10:d9bb2ce57f05 | 3733 | toggle_per_en(); |
dudmuck | 10:d9bb2ce57f05 | 3734 | PacketTxCnt = 0; |
dudmuck | 10:d9bb2ce57f05 | 3735 | per_timeout.attach(&per_cb, per_tx_delay); |
dudmuck | 11:81ff5bcafd97 | 3736 | #endif /* START_EIGER_TX */ |
dudmuck | 10:d9bb2ce57f05 | 3737 | |
dudmuck | 10:d9bb2ce57f05 | 3738 | #ifdef START_EIGER_RX |
dudmuck | 13:c73caaee93a5 | 3739 | |
dudmuck | 10:d9bb2ce57f05 | 3740 | radio.set_frf_MHz(915.0); |
dudmuck | 11:81ff5bcafd97 | 3741 | radio.RegPaConfig.bits.PaSelect = 1; // 0: use RFO for sx1276 shield, 1==PA_BOOST |
dudmuck | 10:d9bb2ce57f05 | 3742 | radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet); |
dudmuck | 10:d9bb2ce57f05 | 3743 | |
dudmuck | 10:d9bb2ce57f05 | 3744 | toggle_per_en(); |
dudmuck | 10:d9bb2ce57f05 | 3745 | PacketNormalCnt = 0; |
dudmuck | 20:b11592c9ba5f | 3746 | PacketRxSequencePrev = 0; |
dudmuck | 10:d9bb2ce57f05 | 3747 | PacketPerKoCnt = 0; |
dudmuck | 13:c73caaee93a5 | 3748 | PacketPerOkCnt = 0; |
dudmuck | 13:c73caaee93a5 | 3749 | |
dudmuck | 13:c73caaee93a5 | 3750 | #ifndef FSK_PER |
dudmuck | 13:c73caaee93a5 | 3751 | lora.enable(); |
dudmuck | 13:c73caaee93a5 | 3752 | lora.setSf(10); |
dudmuck | 13:c73caaee93a5 | 3753 | if (radio.type == SX1276) |
dudmuck | 13:c73caaee93a5 | 3754 | lora.setBw(7); // 7 == 125khz |
dudmuck | 10:d9bb2ce57f05 | 3755 | lora.start_rx(); |
dudmuck | 13:c73caaee93a5 | 3756 | #else |
dudmuck | 13:c73caaee93a5 | 3757 | fsk.start_rx(); |
dudmuck | 14:c57ea544dc18 | 3758 | radio.RegDioMapping1.bits.Dio2Mapping = 3; // dio2 to syncadrs |
dudmuck | 14:c57ea544dc18 | 3759 | radio.write_reg(REG_DIOMAPPING1, radio.RegDioMapping1.octet); |
dudmuck | 15:c69b942685ea | 3760 | |
dudmuck | 15:c69b942685ea | 3761 | if (radio.HF) { |
dudmuck | 15:c69b942685ea | 3762 | fsk.RegRssiConfig.octet = radio.read_reg(REG_FSK_RSSICONFIG); |
dudmuck | 15:c69b942685ea | 3763 | fsk.RegRssiConfig.bits.RssiOffset = FSK_RSSI_OFFSET; |
dudmuck | 15:c69b942685ea | 3764 | fsk.RegRssiConfig.bits.RssiSmoothing = FSK_RSSI_SMOOTHING; |
dudmuck | 15:c69b942685ea | 3765 | radio.write_reg(REG_FSK_RSSICONFIG, fsk.RegRssiConfig.octet); |
dudmuck | 15:c69b942685ea | 3766 | } |
dudmuck | 10:d9bb2ce57f05 | 3767 | #endif |
dudmuck | 13:c73caaee93a5 | 3768 | |
dudmuck | 15:c69b942685ea | 3769 | if (radio.HF) { |
dudmuck | 15:c69b942685ea | 3770 | radio.RegLna.bits.LnaBoostHF = 3; |
dudmuck | 15:c69b942685ea | 3771 | radio.write_reg(REG_LNA, radio.RegLna.octet); |
dudmuck | 15:c69b942685ea | 3772 | } |
dudmuck | 15:c69b942685ea | 3773 | |
dudmuck | 13:c73caaee93a5 | 3774 | #endif /* START_EIGER_RX */ |
dudmuck | 15:c69b942685ea | 3775 | |
dudmuck | 15:c69b942685ea | 3776 | (void)radio.get_frf_MHz(); |
dudmuck | 15:c69b942685ea | 3777 | radio.RegPaConfig.octet = radio.read_reg(REG_PACONFIG); |
dudmuck | 20:b11592c9ba5f | 3778 | #ifdef TARGET_MTS_MDOT_F411RE |
dudmuck | 20:b11592c9ba5f | 3779 | radio.RegPaConfig.bits.PaSelect = 1; // mDot uses PA_BOOST |
dudmuck | 20:b11592c9ba5f | 3780 | #else |
dudmuck | 15:c69b942685ea | 3781 | if (shield_type == SHIELD_TYPE_LAS) { |
dudmuck | 15:c69b942685ea | 3782 | // LAS HF=PA_BOOST LF=RFO |
dudmuck | 15:c69b942685ea | 3783 | if (radio.HF) |
dudmuck | 15:c69b942685ea | 3784 | radio.RegPaConfig.bits.PaSelect = 1; |
dudmuck | 15:c69b942685ea | 3785 | else |
dudmuck | 15:c69b942685ea | 3786 | radio.RegPaConfig.bits.PaSelect = 0; |
dudmuck | 15:c69b942685ea | 3787 | } else if (shield_type == SHIELD_TYPE_MAS) { |
dudmuck | 15:c69b942685ea | 3788 | // MAS HF=RFO LF=RFO |
dudmuck | 15:c69b942685ea | 3789 | radio.RegPaConfig.bits.PaSelect = 0; |
dudmuck | 20:b11592c9ba5f | 3790 | } |
dudmuck | 20:b11592c9ba5f | 3791 | #endif |
dudmuck | 15:c69b942685ea | 3792 | radio.RegPaConfig.bits.OutputPower = 15; |
dudmuck | 15:c69b942685ea | 3793 | radio.write_reg(REG_PACONFIG, radio.RegPaConfig.octet); |
dudmuck | 6:fe16f96ee335 | 3794 | |
dudmuck | 0:be215de91a68 | 3795 | |
dudmuck | 0:be215de91a68 | 3796 | while(1) { |
dudmuck | 0:be215de91a68 | 3797 | switch (app) { |
dudmuck | 0:be215de91a68 | 3798 | case APP_NONE: |
dudmuck | 0:be215de91a68 | 3799 | console(); |
dudmuck | 0:be215de91a68 | 3800 | break; |
dudmuck | 0:be215de91a68 | 3801 | case APP_CHAT: |
dudmuck | 0:be215de91a68 | 3802 | console_chat(); |
dudmuck | 0:be215de91a68 | 3803 | break; |
dudmuck | 0:be215de91a68 | 3804 | } // ...switch (app) |
dudmuck | 5:360069ec9953 | 3805 | |
dudmuck | 5:360069ec9953 | 3806 | #if TARGET_NUCLEO_L152RE |
dudmuck | 5:360069ec9953 | 3807 | //sleep(); |
dudmuck | 5:360069ec9953 | 3808 | #endif |
dudmuck | 0:be215de91a68 | 3809 | } // ...while(1) |
dudmuck | 0:be215de91a68 | 3810 | } |
dudmuck | 0:be215de91a68 | 3811 |