Initial configuration.h -> variants refactor (#1104)

* Initial configuration to variants refactor
1.2-legacy
Ben Meadors 2022-01-18 18:35:42 -06:00 zatwierdzone przez GitHub
rodzic 9f0ddda6ca
commit 4e3fda87a1
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@ -83,7 +83,7 @@ lib_deps =
https://github.com/geeksville/ArduinoThread.git#72921ac222eed6f526ba1682023cee290d9aa1b3
PubSubClient
; Common settings for conventional (non Portduino) Ardino targets
; Common settings for conventional (non Portduino) Arduino targets
[arduino_base]
framework = arduino
@ -157,7 +157,7 @@ board = ttgo-t-beam
lib_deps =
${esp32_base.lib_deps}
build_flags =
${esp32_base.build_flags} -D TBEAM_V10
${esp32_base.build_flags} -D TBEAM_V10 -I variants/tbeam
; The original TBEAM board without the AXP power chip and a few other changes
; Note: I've heard reports this didn't work. Disabled until someone with a 0.7 can test and debug.
@ -165,53 +165,53 @@ build_flags =
extends = esp32_base
board = ttgo-t-beam
build_flags =
${esp32_base.build_flags} -D TBEAM_V07
${esp32_base.build_flags} -D TBEAM_V07 -I variants/tbeam_v07
[env:heltec-v1]
;build_type = debug ; to make it possible to step through our jtag debugger
extends = esp32_base
board = heltec_wifi_lora_32
build_flags =
${esp32_base.build_flags} -D HELTEC_V1
${esp32_base.build_flags} -D HELTEC_V1 -I variants/heltec_v1
[env:heltec-v2.0]
;build_type = debug ; to make it possible to step through our jtag debugger
extends = esp32_base
board = heltec_wifi_lora_32_V2
build_flags =
${esp32_base.build_flags} -D HELTEC_V2_0
${esp32_base.build_flags} -D HELTEC_V2_0 -I variants/heltec_v2
[env:heltec-v2.1]
;build_type = debug ; to make it possible to step through our jtag debugger
extends = esp32_base
board = heltec_wifi_lora_32_V2
build_flags =
${esp32_base.build_flags} -D HELTEC_V2_1
${esp32_base.build_flags} -D HELTEC_V2_1 -I variants/heltec_v2
[env:tlora-v1]
extends = esp32_base
board = ttgo-lora32-v1
build_flags =
${esp32_base.build_flags} -D TLORA_V1
${esp32_base.build_flags} -D TLORA_V1 -I variants/tlora_v1
; note: the platformio definition for lora32-v2 seems stale, it is missing a pins_arduino.h file, therefore I don't think it works
[env:tlora_v1_3]
extends = esp32_base
board = ttgo-lora32-v1
build_flags =
${esp32_base.build_flags} -D TLORA_V1_3
${esp32_base.build_flags} -D TLORA_V1_3 -I variants/tlora_v1_3
[env:tlora-v2]
extends = esp32_base
board = ttgo-lora32-v1
build_flags =
${esp32_base.build_flags} -D TLORA_V2
${esp32_base.build_flags} -D TLORA_V2 -I variants/tlora_v2
[env:tlora-v2-1-1.6]
extends = esp32_base
board = ttgo-lora32-v1
build_flags =
${esp32_base.build_flags} -D TLORA_V2_1_16
${esp32_base.build_flags} -D TLORA_V2_1_16 -I variants/tlora_v2_1_16
; Meshtastic DIY v1 by Nano VHF Schematic based on ESP32-WROOM-32 (38 pins) devkit & EBYTE E22 SX1262/SX1268 module
[env:meshtastic-diy-v1]
@ -221,6 +221,7 @@ build_flags =
${esp32_base.build_flags}
-D DIY_V1
-D EBYTE_E22
-I variants/meshtastic_diy_v1
; The Heltec Cubecell plus
; IMPORTANT NOTE: This target doesn't yet work and probably won't ever work. I'm keeping it around for now.
@ -365,18 +366,6 @@ debug_tool = jlink
; If not set we will default to uploading over serial (first it forces bootloader entry by talking 1200bps to cdcacm)
;upload_protocol = jlink
; Note, this board is not yet supported! It will not work without futher development.
; THIS IS UNTESTED (I don't have this board), but other developers can use it as a starting point
[env:rak4600]
extends = nrf52_base
board = wiscore_rak4600
# add our variants files to the include and src paths
# define build flags for the TFT_eSPI library
build_flags = ${nrf52_base.build_flags} -Ivariants/WisCore_RAK4600_Board
src_filter = ${nrf52_base.src_filter} +<../variants/WisCore_RAK4600_Board>
lib_deps =
${arduino_base.lib_deps}
; The PPR board
[env:ppr]
extends = nrf52_base
@ -475,8 +464,15 @@ lib_deps =
; The Portduino based sim environment on top of any host OS, all hardware will be simulated
[env:native]
platform = https://github.com/geeksville/platform-native.git
src_filter = ${env.src_filter} -<esp32/> -<nimble/> -<nrf52/> -<mesh/http/> -<plugins/esp32>
build_flags = ${arduino_base.build_flags} -O0
src_filter =
${env.src_filter}
-<esp32/>
-<nimble/>
-<nrf52/>
-<mesh/http/>
-<plugins/esp32>
+<../variants/portduino>
build_flags = ${arduino_base.build_flags} -O0 -I variants/portduino
framework = arduino
board = cross_platform
lib_deps =
@ -486,8 +482,15 @@ lib_deps =
; The Portduino based sim environment on top of a linux OS and touching linux hardware devices
[env:linux]
platform = https://github.com/geeksville/platform-native.git
src_filter = ${env.src_filter} -<esp32/> -<nimble/> -<nrf52/> -<mesh/http/> -<plugins/esp32>
build_flags = ${arduino_base.build_flags} -O0 -lgpiod
src_filter =
${env.src_filter}
-<esp32/>
-<nimble/>
-<nrf52/>
-<mesh/http/>
-<plugins/esp32>
+<../variants/portduino>
build_flags = ${arduino_base.build_flags} -O0 -lgpiod -I variants/portduino
framework = arduino
board = linux_hardware
lib_deps =
@ -500,4 +503,4 @@ lib_deps =
;extends = esp32_base
;board = genieblocks_lora
;build_flags =
; ${esp32_base.build_flags} -D GENIEBLOCKS
; ${esp32_base.build_flags} -D GENIEBLOCKS -Ivariants/genieblocks

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@ -0,0 +1,61 @@
// DEBUG LED
#ifndef LED_INVERTED
#define LED_INVERTED 0 // define as 1 if LED is active low (on)
#endif
// -----------------------------------------------------------------------------
// DEBUG
// -----------------------------------------------------------------------------
#ifdef CONSOLE_MAX_BAUD
#define SERIAL_BAUD CONSOLE_MAX_BAUD
#else
#define SERIAL_BAUD 921600 // Serial debug baud rate
#endif
#include "SerialConsole.h"
#define DEBUG_PORT (*console) // Serial debug port
// What platforms should use SEGGER?
#ifdef NRF52_SERIES
// Always include the SEGGER code on NRF52 - because useful for debugging
#include "SEGGER_RTT.h"
// The channel we send stdout data to
#define SEGGER_STDOUT_CH 0
// Debug printing to segger console
#define SEGGER_MSG(...) SEGGER_RTT_printf(SEGGER_STDOUT_CH, __VA_ARGS__)
// If we are not on a NRF52840 (which has built in USB-ACM serial support) and we don't have serial pins hooked up, then we MUST
// use SEGGER for debug output
#if !defined(PIN_SERIAL_RX) && !defined(NRF52840_XXAA)
// No serial ports on this board - ONLY use segger in memory console
#define USE_SEGGER
#endif
#else
#define SERIAL0_RX_GPIO 3 // Always GPIO3 on ESP32
#endif
#ifdef USE_SEGGER
#define DEBUG_MSG(...) SEGGER_RTT_printf(0, __VA_ARGS__)
#else
#ifdef DEBUG_PORT
#define DEBUG_MSG(...) DEBUG_PORT.logDebug(__VA_ARGS__)
#else
#define DEBUG_MSG(...)
#endif
#endif
// -----------------------------------------------------------------------------
// AXP192 (Rev1-specific options)
// -----------------------------------------------------------------------------
#define GPS_POWER_CTRL_CH 3
#define LORA_POWER_CTRL_CH 2
// Default Bluetooth PIN
#define defaultBLEPin 123456

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@ -0,0 +1,7 @@
// TODO refactor this out with better radio configuration system
#ifdef USE_RF95
#define RF95_RESET LORA_RESET
#define RF95_IRQ LORA_DIO0 // on SX1262 version this is a no connect DIO0
#define RF95_DIO1 LORA_DIO1 // Note: not really used for RF95
#define RF95_DIO2 LORA_DIO2 // Note: not really used for RF95
#endif

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@ -45,10 +45,6 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
// If we are using the JTAG port for debugging, some pins must be left free for that (and things like GPS have to be disabled)
// we don't support jtag on the ttgo - access to gpio 12 is a PITA
#ifdef ARDUINO_HELTEC_WIFI_LORA_32_V2
//#define USE_JTAG
#endif
#define REQUIRE_RADIO true // If true, we will fail to start if the radio is not found
/// Convert a preprocessor name into a quoted string
@ -88,18 +84,6 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
#define BUTTON_PIN_TOUCH PIN_BUTTON_TOUCH
#endif
// FIXME, use variant.h defs for all of this!!! (even on the ESP32 targets)
#elif defined(CubeCell_BoardPlus)
//
// Standard definitions for CubeCell targets
//
#define NO_ESP32 // Don't use ESP32 libs (mainly bluetooth)
#define LED_PIN -1 // FIXME totally bogus
#define BUTTON_PIN -1
#else
//
@ -169,338 +153,51 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TBEAM
// #define BUTTON_NEED_PULLUP // if set we need to turn on the internal CPU pullup during sleep
#define I2C_SDA 21
#define I2C_SCL 22
#define BUTTON_PIN 38 // The middle button GPIO on the T-Beam
//#define BUTTON_PIN_ALT 13 // Alternate GPIO for an external button if needed. Does anyone use this? It is not documented anywhere.
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define LED_INVERTED 1
#define LED_PIN 4 // Newer tbeams (1.1) have an extra led on GPIO4
// TTGO uses a common pinout for their SX1262 vs RF95 modules - both can be enabled and we will probe at runtime for RF95 and if
// not found then probe for SX1262
#define USE_RF95
#define USE_SX1262
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 23
#define LORA_DIO1 33 // SX1262 IRQ
#define LORA_DIO2 32 // SX1262 BUSY
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262, if DIO3 is high the TXCO is enabled
#ifdef USE_SX1262
#define SX126X_CS RF95_NSS // FIXME - we really should define LORA_CS instead
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
#define SX126X_E22 // Not really an E22 but TTGO seems to be trying to clone that
// Internally the TTGO module hooks the SX1262-DIO2 in to control the TX/RX switch (which is the default for the sx1262interface
// code)
#endif
// Leave undefined to disable our PMU IRQ handler. DO NOT ENABLE THIS because the pmuirq can cause sperious interrupts
// and waking from light sleep
// #define PMU_IRQ 35
#define AXP192_SLAVE_ADDRESS 0x34
#elif defined(TBEAM_V07)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TBEAM0p7
// #define BUTTON_NEED_PULLUP // if set we need to turn on the internal CPU pullup during sleep
#define I2C_SDA 21
#define I2C_SCL 22
#define BUTTON_PIN 39
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 23
#define LORA_DIO1 33 // Not really used
#define LORA_DIO2 32 // Not really used
// This board has different GPS pins than all other boards
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 12
#define GPS_TX_PIN 15
#elif defined(DIY_V1)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_DIY_V1
// For OLED LCD
#define I2C_SDA 21
#define I2C_SCL 22
// GPS
#undef GPS_RX_PIN
#define GPS_RX_PIN 15
//#undef GPS_TX_PIN
//#define GPS_TX_PIN 12 // not connected
#define BUTTON_PIN 39 // The middle button GPIO on the T-Beam
#define EXT_NOTIFY_OUT 12 // Overridden default pin to use for Ext Notify Plugin (#975).
#define LED_PIN 2 // add status LED (compatible with core-pcb and DIY targets)
#define LORA_DIO0 26 // a No connect on the SX1262/SX1268 module
#define LORA_RESET 23 // RST for SX1276, and for SX1262/SX1268
#define LORA_DIO1 33 // IRQ for SX1262/SX1268
#define LORA_DIO2 32 // BUSY for SX1262/SX1268
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262/SX1268, if DIO3 is high the TXCO is enabled
#define RF95_SCK 5
#define RF95_MISO 19
#define RF95_MOSI 27
#define RF95_NSS 18
// supported modules list
#define USE_SX1262
#define USE_SX1268
#define USE_LLCC68
// common pinouts for SX126X modules
#define SX126X_CS 18 // NSS for SX126X
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
#define SX126X_RXEN 14
#define SX126X_TXEN 13
#ifdef EBYTE_E22
// Internally the TTGO module hooks the SX126x-DIO2 in to control the TX/RX switch
// (which is the default for the sx1262interface code)
#define SX126X_E22
#endif
#elif defined(ARDUINO_HELTEC_WIFI_LORA_32_V2)
// the default ESP32 Pin of 15 is the Oled SCL, set to 36 and 37 and works fine.
// Tested on Neo6m module.
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#ifndef USE_JTAG // gpio15 is TDO for JTAG, so no I2C on this board while doing jtag
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#endif
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#ifndef USE_JTAG
#define LORA_RESET 14
#endif
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
// ratio of voltage divider = 3.20 (R1=100k, R2=220k)
#define ADC_MULTIPLIER 3.2
#ifdef HELTEC_V2_0
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_HELTEC_V2_0
#define BATTERY_PIN 13 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#endif
#ifdef HELTEC_V2_1
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_HELTEC_V2_1
#define BATTERY_PIN 37 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#endif
#elif defined(ARDUINO_HELTEC_WIFI_LORA_32)
// the default ESP32 Pin of 15 is the Oled SCL, set to 36 and 37 and works fine.
// Tested on Neo6m module.
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#ifndef USE_JTAG // gpio15 is TDO for JTAG, so no I2C on this board while doing jtag
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#endif
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#ifndef USE_JTAG
#define LORA_RESET 14
#endif
#define LORA_DIO1 33 // Not really used
#define LORA_DIO2 32 // Not really used
// ratio of voltage divider = 3.20 (R1=100k, R2=220k)
#define ADC_MULTIPLIER 3.2
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_HELTEC_V1
#define BATTERY_PIN 13 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#elif defined(TLORA_V1)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TLORA_V1
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
// #define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 2 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define BUTTON_NEED_PULLUP
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
#elif defined(TLORA_V2)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TLORA_V2
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 13 // per @eugene
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN \
0 // If defined, this will be used for user button presses, if your board doesn't have a physical switch, you can wire one
// between this pin and ground
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
#elif defined(TLORA_V1_3)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TLORA_V1_1p3
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 13 // per @eugene
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 36
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
#elif defined(TLORA_V2_1_16)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_TLORA_V2_1_1p6
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 15 // per @der_bear on the forum, 36 is incorrect for this board type and 15 is a better pick
#define GPS_TX_PIN 13
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 12 // If defined, this will be used for user button presses,
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
#elif defined(GENIEBLOCKS)
// This string must exactly match the case used in release file names or the android updater won't work
#define HW_VENDOR HardwareModel_GENIEBLOCKS
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 5
#define GPS_TX_PIN 18
#define GPS_RESET_N 10
#define GPS_EXTINT 23 // On MAX-M8 module pin name is EXTINT. On L70 module pin name is STANDBY.
#define BATTERY_PIN 39 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define BATTERY_EN_PIN 14 // Voltage voltage divider enable pin connected to mosfet
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 2
#define LED_PIN 12 // If defined we will blink this LED
//#define BUTTON_PIN 36 // If defined, this will be used for user button presses (ToDo problem on that line on debug screen -->
// Long press start!) #define BUTTON_NEED_PULLUP //GPIOs 34 to 39 are GPIs – input only pins. These pins dont have internal
// pull-ups or pull-down resistors.
#define USE_RF95
#define LORA_DIO0 38 // a No connect on the SX1262 module
#define LORA_RESET 9
#define RF95_SCK 22
#define RF95_MISO 19
#define RF95_MOSI 13
#define RF95_NSS 21
#endif
@ -533,100 +230,8 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
#define HW_VENDOR HardwareModel_PORTDUINO
#define USE_SIM_RADIO
// Pine64 uses a common pinout for their SX1262 vs RF95 modules - both can be enabled and we will probe at runtime for RF95 and if
// not found then probe for SX1262. Currently the RF95 code is disabled because I think the RF95 module won't need to ship.
// #define USE_RF95
#define USE_SX1262
// Fake SPI device selections
#define RF95_SCK 5
#define RF95_MISO 19
#define RF95_MOSI 27
#define RF95_NSS RADIOLIB_NC // the ch341f spi controller does CS for us
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 33 // SX1262 IRQ, called DIO0 on pinelora schematic, pin 7 on ch341f "ack" - FIXME, enable hwints in linux
#define LORA_DIO2 32 // SX1262 BUSY, actually connected to "DIO5" on pinelora schematic, pin 8 on ch341f "slct"
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262, if DIO3 is high the TXCO is enabled
#ifdef USE_SX1262
#define SX126X_CS 20 // CS0 on pinelora schematic, hooked to gpio D0 on ch341f
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
// HOPE RFM90 does not have a TCXO therefore not SX126X_E22
#endif
#endif
// DEBUG LED
#ifndef LED_INVERTED
#define LED_INVERTED 0 // define as 1 if LED is active low (on)
#endif
#ifdef USE_RF95
#define RF95_RESET LORA_RESET
#define RF95_IRQ LORA_DIO0 // on SX1262 version this is a no connect DIO0
#define RF95_DIO1 LORA_DIO1 // Note: not really used for RF95
#define RF95_DIO2 LORA_DIO2 // Note: not really used for RF95
#endif
// -----------------------------------------------------------------------------
// DEBUG
// -----------------------------------------------------------------------------
#ifdef CONSOLE_MAX_BAUD
#define SERIAL_BAUD CONSOLE_MAX_BAUD
#else
#define SERIAL_BAUD 921600 // Serial debug baud rate
#endif
#include "SerialConsole.h"
#define DEBUG_PORT (*console) // Serial debug port
// What platforms should use SEGGER?
#ifdef NRF52_SERIES
// Always include the SEGGER code on NRF52 - because useful for debugging
#include "SEGGER_RTT.h"
// The channel we send stdout data to
#define SEGGER_STDOUT_CH 0
// Debug printing to segger console
#define SEGGER_MSG(...) SEGGER_RTT_printf(SEGGER_STDOUT_CH, __VA_ARGS__)
// If we are not on a NRF52840 (which has built in USB-ACM serial support) and we don't have serial pins hooked up, then we MUST
// use SEGGER for debug output
#if !defined(PIN_SERIAL_RX) && !defined(NRF52840_XXAA)
// No serial ports on this board - ONLY use segger in memory console
#define USE_SEGGER
#endif
#else
#define SERIAL0_RX_GPIO 3 // Always GPIO3 on ESP32
#endif
#ifdef USE_SEGGER
#define DEBUG_MSG(...) SEGGER_RTT_printf(0, __VA_ARGS__)
#else
#ifdef DEBUG_PORT
#define DEBUG_MSG(...) DEBUG_PORT.logDebug(__VA_ARGS__)
#else
#define DEBUG_MSG(...)
#endif
#endif
// -----------------------------------------------------------------------------
// AXP192 (Rev1-specific options)
// -----------------------------------------------------------------------------
#define GPS_POWER_CTRL_CH 3
#define LORA_POWER_CTRL_CH 2
// Default Bluetooth PIN
#define defaultBLEPin 123456
#include "variant.h"
#include "RF95Configuration.h"
#include "DebugConfiguration.h"

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#include "SX1268Interface.h"
#include "LLCC68Interface.h"
#ifdef NRF52_SERIES
#include "variant.h"
#endif
using namespace concurrency;

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#include "RadioInterface.h"
#include "MeshPacketQueue.h"
#ifdef CubeCell_BoardPlus
#define RADIOLIB_SOFTWARE_SERIAL_UNSUPPORTED
#endif
#define RADIOLIB_EXCLUDE_HTTP
#include <RadioLib.h>

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/*
Copyright (c) 2014-2015 Arduino LLC. All right reserved.
Copyright (c) 2016 Sandeep Mistry All right reserved.
Copyright (c) 2018, Adafruit Industries (adafruit.com)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "variant.h"
#include "wiring_constants.h"
#include "wiring_digital.h"
#include "nrf.h"
const uint32_t g_ADigitalPinMap[] = {
// D0 - D7
0, // xtal 1
1, // xtal 2
2, // a0
3, // a1
4, // a2
5, // a3
6, // TXD
7, // GPIO #7
// D8 - D13
8, // RXD
9, // NFC1
10, // NFC2
11, // GPIO11
12, // SCK
13, // MOSI
14, // MISO
15, // GPIO #15
16, // GPIO #16
// function set pins
17, // LED #1 (red)
18, // SWO
19, // LED #2 (blue)
20, // DFU
21, // Reset
22, // Factory Reset
23, // N/A
24, // N/A
25, // SDA
26, // SCL
27, // GPIO #27
28, // A4
29, // A5
30, // A6
31, // A7
};
void initVariant()
{
// LED1 & LED2
pinMode(PIN_LED1, OUTPUT);
ledOff(PIN_LED1);
pinMode(PIN_LED2, OUTPUT);
ledOff(PIN_LED2);
}

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/*
Copyright (c) 2014-2015 Arduino LLC. All right reserved.
Copyright (c) 2016 Sandeep Mistry All right reserved.
Copyright (c) 2018, Adafruit Industries (adafruit.com)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef _VARIANT_RAK4600_
#define _VARIANT_RAK4600_
#define RAK4600
/** Master clock frequency */
#define VARIANT_MCK (64000000ul)
#define USE_LFXO // Board uses 32khz crystal for LF
// define USE_LFRC // Board uses RC for LF
/*----------------------------------------------------------------------------
* Headers
*----------------------------------------------------------------------------*/
#include "WVariant.h"
#ifdef __cplusplus
extern "C"
{
#endif // __cplusplus
// Number of pins defined in PinDescription array
#define PINS_COUNT (32u)
#define NUM_DIGITAL_PINS (32u)
#define NUM_ANALOG_INPUTS (8u)
#define NUM_ANALOG_OUTPUTS (0u)
// LEDs
#define PIN_LED1 (17)
#define PIN_LED2 (19)
#define LED_BUILTIN PIN_LED1
#define LED_CONN PIN_LED2
#define LED_RED PIN_LED1
#define LED_BLUE PIN_LED2
#define LED_STATE_ON 1 // State when LED is litted
/*
* Analog pins
*/
#define PIN_A0 (2)
#define PIN_A1 (3)
#define PIN_A2 (4)
#define PIN_A3 (5)
#define PIN_A4 (28)
#define PIN_A5 (29)
#define PIN_A6 (30)
#define PIN_A7 (31)
static const uint8_t A0 = PIN_A0;
static const uint8_t A1 = PIN_A1;
static const uint8_t A2 = PIN_A2;
static const uint8_t A3 = PIN_A3;
static const uint8_t A4 = PIN_A4;
static const uint8_t A5 = PIN_A5;
static const uint8_t A6 = PIN_A6;
static const uint8_t A7 = PIN_A7;
#define ADC_RESOLUTION 14
// Other pins
#define PIN_AREF (24)
#define PIN_VBAT PIN_A7
#define PIN_NFC1 (9)
#define PIN_NFC2 (10)
static const uint8_t AREF = PIN_AREF;
/*
* Serial interfaces
*/
// Serial
#define PIN_SERIAL_RX (22)
#define PIN_SERIAL_TX (23)
/*
* SPI Interfaces
*/
#define SPI_INTERFACES_COUNT 1
#define PIN_SPI_MISO (6)
#define PIN_SPI_MOSI (5)
#define PIN_SPI_SCK (7)
static const uint8_t SS = 4;
static const uint8_t MOSI = PIN_SPI_MOSI;
static const uint8_t MISO = PIN_SPI_MISO;
static const uint8_t SCK = PIN_SPI_SCK;
/*
* Wire Interfaces
*/
#define WIRE_INTERFACES_COUNT 1
#define PIN_WIRE_SDA (13u)
#define PIN_WIRE_SCL (12u)
#ifdef __cplusplus
}
#endif
/*----------------------------------------------------------------------------
* Arduino objects - C++ only
*----------------------------------------------------------------------------*/
#endif

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#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 5
#define GPS_TX_PIN 18
#define GPS_RESET_N 10
#define GPS_EXTINT 23 // On MAX-M8 module pin name is EXTINT. On L70 module pin name is STANDBY.
#define BATTERY_PIN 39 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define BATTERY_EN_PIN 14 // Voltage voltage divider enable pin connected to mosfet
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 2
#define LED_PIN 12 // If defined we will blink this LED
//#define BUTTON_PIN 36 // If defined, this will be used for user button presses (ToDo problem on that line on debug screen -->
// Long press start!) #define BUTTON_NEED_PULLUP //GPIOs 34 to 39 are GPIs – input only pins. These pins dont have internal
// pull-ups or pull-down resistors.
#define USE_RF95
#define LORA_DIO0 38 // a No connect on the SX1262 module
#define LORA_RESET 9
#define RF95_SCK 22
#define RF95_MISO 19
#define RF95_MOSI 13
#define RF95_NSS 21

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// the default ESP32 Pin of 15 is the Oled SCL, set to 36 and 37 and works fine.
// Tested on Neo6m module.
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#ifndef USE_JTAG // gpio15 is TDO for JTAG, so no I2C on this board while doing jtag
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#endif
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#ifndef USE_JTAG
#define LORA_RESET 14
#endif
#define LORA_DIO1 33 // Not really used
#define LORA_DIO2 32 // Not really used
// ratio of voltage divider = 3.20 (R1=100k, R2=220k)
#define ADC_MULTIPLIER 3.2
#define BATTERY_PIN 13 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage

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// the default ESP32 Pin of 15 is the Oled SCL, set to 36 and 37 and works fine.
// Tested on Neo6m module.
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#ifndef USE_JTAG // gpio15 is TDO for JTAG, so no I2C on this board while doing jtag
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#endif
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#ifndef USE_JTAG
#define LORA_RESET 14
#endif
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used
// ratio of voltage divider = 3.20 (R1=100k, R2=220k)
#define ADC_MULTIPLIER 3.2
#ifdef HELTEC_V2_0
#define BATTERY_PIN 13 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#endif
#ifdef HELTEC_V2_1
#define BATTERY_PIN 37 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#endif

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// For OLED LCD
#define I2C_SDA 21
#define I2C_SCL 22
// GPS
#undef GPS_RX_PIN
#define GPS_RX_PIN 15
//#undef GPS_TX_PIN
//#define GPS_TX_PIN 12 // not connected
#define BUTTON_PIN 39 // The middle button GPIO on the T-Beam
#define EXT_NOTIFY_OUT 12 // Overridden default pin to use for Ext Notify Plugin (#975).
#define LED_PIN 2 // add status LED (compatible with core-pcb and DIY targets)
#define LORA_DIO0 26 // a No connect on the SX1262/SX1268 module
#define LORA_RESET 23 // RST for SX1276, and for SX1262/SX1268
#define LORA_DIO1 33 // IRQ for SX1262/SX1268
#define LORA_DIO2 32 // BUSY for SX1262/SX1268
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262/SX1268, if DIO3 is high the TXCO is enabled
#define RF95_SCK 5
#define RF95_MISO 19
#define RF95_MOSI 27
#define RF95_NSS 18
// supported modules list
#define USE_SX1262
#define USE_SX1268
#define USE_LLCC68
// common pinouts for SX126X modules
#define SX126X_CS 18 // NSS for SX126X
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
#define SX126X_RXEN 14
#define SX126X_TXEN 13
#ifdef EBYTE_E22
// Internally the TTGO module hooks the SX126x-DIO2 in to control the TX/RX switch
// (which is the default for the sx1262interface code)
#define SX126X_E22
#endif

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#define USE_SIM_RADIO
// Pine64 uses a common pinout for their SX1262 vs RF95 modules - both can be enabled and we will probe at runtime for RF95 and if
// not found then probe for SX1262. Currently the RF95 code is disabled because I think the RF95 module won't need to ship.
// #define USE_RF95
#define USE_SX1262
// Fake SPI device selections
#define RF95_SCK 5
#define RF95_MISO 19
#define RF95_MOSI 27
#define RF95_NSS RADIOLIB_NC // the ch341f spi controller does CS for us
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 33 // SX1262 IRQ, called DIO0 on pinelora schematic, pin 7 on ch341f "ack" - FIXME, enable hwints in linux
#define LORA_DIO2 32 // SX1262 BUSY, actually connected to "DIO5" on pinelora schematic, pin 8 on ch341f "slct"
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262, if DIO3 is high the TXCO is enabled
#ifdef USE_SX1262
#define SX126X_CS 20 // CS0 on pinelora schematic, hooked to gpio D0 on ch341f
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
// HOPE RFM90 does not have a TCXO therefore not SX126X_E22
#endif

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// #define BUTTON_NEED_PULLUP // if set we need to turn on the internal CPU pullup during sleep
#define I2C_SDA 21
#define I2C_SCL 22
#define BUTTON_PIN 38 // The middle button GPIO on the T-Beam
//#define BUTTON_PIN_ALT 13 // Alternate GPIO for an external button if needed. Does anyone use this? It is not documented anywhere.
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define LED_INVERTED 1
#define LED_PIN 4 // Newer tbeams (1.1) have an extra led on GPIO4
// TTGO uses a common pinout for their SX1262 vs RF95 modules - both can be enabled and we will probe at runtime for RF95 and if
// not found then probe for SX1262
#define USE_RF95
#define USE_SX1262
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 23
#define LORA_DIO1 33 // SX1262 IRQ
#define LORA_DIO2 32 // SX1262 BUSY
#define LORA_DIO3 // Not connected on PCB, but internally on the TTGO SX1262, if DIO3 is high the TXCO is enabled
#ifdef USE_SX1262
#define SX126X_CS RF95_NSS // FIXME - we really should define LORA_CS instead
#define SX126X_DIO1 LORA_DIO1
#define SX126X_BUSY LORA_DIO2
#define SX126X_RESET LORA_RESET
#define SX126X_E22 // Not really an E22 but TTGO seems to be trying to clone that
// Internally the TTGO module hooks the SX1262-DIO2 in to control the TX/RX switch (which is the default for the sx1262interface
// code)
#endif
// Leave undefined to disable our PMU IRQ handler. DO NOT ENABLE THIS because the pmuirq can cause sperious interrupts
// and waking from light sleep
// #define PMU_IRQ 35
#define AXP192_SLAVE_ADDRESS 0x34

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// #define BUTTON_NEED_PULLUP // if set we need to turn on the internal CPU pullup during sleep
#define I2C_SDA 21
#define I2C_SCL 22
#define BUTTON_PIN 39
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 23
#define LORA_DIO1 33 // Not really used
#define LORA_DIO2 32 // Not really used
// This board has different GPS pins than all other boards
#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 12
#define GPS_TX_PIN 15

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#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 37
#define I2C_SDA 4 // I2C pins for this board
#define I2C_SCL 15
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
// #define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 2 // If defined we will blink this LED
#define BUTTON_PIN 0 // If defined, this will be used for user button presses
#define BUTTON_NEED_PULLUP
#define EXT_NOTIFY_OUT 13 // Default pin to use for Ext Notify Plugin.
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used

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#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 13 // per @eugene
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 36
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used

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#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 36
#define GPS_TX_PIN 13 // per @eugene
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN \
0 // If defined, this will be used for user button presses, if your board doesn't have a physical switch, you can wire one
// between this pin and ground
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used

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#undef GPS_RX_PIN
#undef GPS_TX_PIN
#define GPS_RX_PIN 15 // per @der_bear on the forum, 36 is incorrect for this board type and 15 is a better pick
#define GPS_TX_PIN 13
#define BATTERY_PIN 35 // A battery voltage measurement pin, voltage divider connected here to measure battery voltage
#define I2C_SDA 21 // I2C pins for this board
#define I2C_SCL 22
#define RESET_OLED 16 // If defined, this pin will be used to reset the display controller
#define VEXT_ENABLE 21 // active low, powers the oled display and the lora antenna boost
#define LED_PIN 25 // If defined we will blink this LED
#define BUTTON_PIN 12 // If defined, this will be used for user button presses,
#define BUTTON_NEED_PULLUP
#define USE_RF95
#define LORA_DIO0 26 // a No connect on the SX1262 module
#define LORA_RESET 14
#define LORA_DIO1 35 // Not really used
#define LORA_DIO2 34 // Not really used