ESP32-PaxCounter/src/paxcounter.conf

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// ----- Paxcounter user config file ------
//
// --> adapt to your needs and use case <--
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//
// Note: After editing, before "build", use "clean" button in PlatformIO!
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// Verbose enables serial output
#define VERBOSE 1 // comment out to silence the device, for mute use build option
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// Payload send cycle and encoding
#define SEND_SECS 30 // payload send cycle [seconds/2] -> 240 sec.
#define PAYLOAD_ENCODER 3 // payload encoder: 1=Plain, 2=Packed, 3=CayenneLPP dynamic, 4=CayenneLPP packed
// Set this to include BLE counting and vendor filter functions
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#define VENDORFILTER 1 // comment out if you want to count things, not people
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#define BLECOUNTER 1 // comment out if you don't want BLE count, saves power & memory
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// BLE scan parameters
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#define BLESCANTIME 0 // [seconds] scan duration, 0 means infinite [default], see note below
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#define BLESCANWINDOW 80 // [milliseconds] scan window, see below, 3 .. 10240, default 80ms
#define BLESCANINTERVAL 80 // [illiseconds] scan interval, see below, 3 .. 10240, default 80ms = 100% duty cycle
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/* Note: guide for setting bluetooth parameters
*
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* |< Scan Window > |< Scan Window > | ... |< Scan Window > |
* |< Scan Interval >|< Scan Interval >| ... |< Scan Interval >|
* |< Scan duration >|
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*
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* Scan duration sets how long scanning should be going on, before starting a new scan cycle. 0 means infinite (default).
* Scan window sets how much of the interval should be occupied by scanning. Should be >= BLESCANINTERVAL.
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* Scan interval is how long scanning should be done on each channel. BLE uses 3 channels for advertising.
* -> Adjust these values with power consumption in mind if power is limited.
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* -> Scan interval can be changed during runtime by remote comammand.
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*/
// WiFi scan parameters
#define WIFI_CHANNEL_MIN 1 // start channel number where scan begings
#define WIFI_CHANNEL_MAX 13 // total channel number to scan
#define WIFI_MY_COUNTRY "EU" // select locale for Wifi RF settings
#define WIFI_CHANNEL_SWITCH_INTERVAL 50 // [seconds/100] -> 0,5 sec.
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// LoRa payload default parameters
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#define PAYLOAD_ENCODER 1 // select payload encoder: 1=Plain [default], 2=Packed, 3=CayenneLPP
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#define SEND_SECS 120 // payload send cycle [seconds/2] -> 240 sec.
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#define MEM_LOW 2048 // [Bytes] low memory threshold triggering a send cycle
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#define RETRANSMIT_RCMD 5 // [seconds] wait time before retransmitting rcommand results
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#define PAYLOAD_BUFFER_SIZE 51 // maximum size of payload block per transmit
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#define LORASFDEFAULT 9 // 7 ... 12 SF, according to LoRaWAN specs
#define MAXLORARETRY 500 // maximum count of TX retries if LoRa busy
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// Ports on which the device sends and listenes on LoRaWAN and SPI
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#define COUNTERPORT 1 // Port on which device sends counts
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#define RCMDPORT 2 // Port on which device listenes for remote commands
#define STATUSPORT 2 // Port on which device sends remote command results
#define CONFIGPORT 3 // Port on which device sends gps query results
#define GPSPORT 4 // Port on which device sends gps query results
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#define BUTTONPORT 5 // Port on which device sends button pressed signal
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#define CAYENNEPORT 2 // Port for Cayenne LPP 2.0 packet sensor encoding
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// Default RGB LED luminosity (in %)
#define RGBLUMINOSITY 30 // 30%
// OLED Display refresh cycle (in Milliseconds)
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#define DISPLAYREFRESH_MS 40 // e.g. 40ms -> 1000/40 = 25 frames per second
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// LMIC settings
// define hardware independent LMIC settings here, settings of standard library in /lmic/config.h will be ignored
// define hardware specifics settings in platformio.ini as build_flag for hardware environment
// Select frequency band here according to national regulations
#define CFG_eu868 1
//#define CFG_us915 1
// This is the SX1272/SX1273 radio, which is also used on the HopeRF
// RFM92 boards.
//#define CFG_sx1272_radio 1
// This is the SX1276/SX1277/SX1278/SX1279 radio, which is also used on
// the HopeRF RFM95 boards.
//#define CFG_sx1276_radio 1
// 16 μs per tick
// LMIC requires ticks to be 15.5μs - 100 μs long
#define US_PER_OSTICK_EXPONENT 4
#define US_PER_OSTICK (1 << US_PER_OSTICK_EXPONENT)
#define OSTICKS_PER_SEC (1000000 / US_PER_OSTICK)
// Set this to 1 to enable some basic debug output (using printf) about
// RF settings used during transmission and reception. Set to 2 to
// enable more verbose output. Make sure that printf is actually
// configured (e.g. on AVR it is not by default), otherwise using it can
// cause crashing.
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//#define LMIC_DEBUG_LEVEL 1
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// Enable this to allow using printf() to print to the given serial port
// (or any other Print object). This can be easy for debugging. The
// current implementation only works on AVR, though.
//#define LMIC_PRINTF_TO Serial
// Any runtime assertion failures are printed to this serial port (or
// any other Print object). If this is unset, any failures just silently
// halt execution.
#define LMIC_FAILURE_TO Serial
// Uncomment this to disable all code related to joining
//#define DISABLE_JOIN
// Uncomment this to disable all code related to ping
#define DISABLE_PING
// Uncomment this to disable all code related to beacon tracking.
// Requires ping to be disabled too
#define DISABLE_BEACONS
// Uncomment these to disable the corresponding MAC commands.
// Class A
//#define DISABLE_MCMD_DCAP_REQ // duty cycle cap
//#define DISABLE_MCMD_DN2P_SET // 2nd DN window param
//#define DISABLE_MCMD_SNCH_REQ // set new channel
// Class B
//#define DISABLE_MCMD_PING_SET // set ping freq, automatically disabled by DISABLE_PING
//#define DISABLE_MCMD_BCNI_ANS // next beacon start, automatical disabled by DISABLE_BEACON
// In LoRaWAN, a gateway applies I/Q inversion on TX, and nodes do the
// same on RX. This ensures that gateways can talk to nodes and vice
// versa, but gateways will not hear other gateways and nodes will not
// hear other nodes. By uncommenting this macro, this inversion is
// disabled and this node can hear other nodes. If two nodes both have
// this macro set, they can talk to each other (but they can no longer
// hear gateways). This should probably only be used when debugging
// and/or when talking to the radio directly (e.g. like in the "raw"
// example).
//#define DISABLE_INVERT_IQ_ON_RX
// This allows choosing between multiple included AES implementations.
// Make sure exactly one of these is uncommented.
//
// This selects the original AES implementation included LMIC. This
// implementation is optimized for speed on 32-bit processors using
// fairly big lookup tables, but it takes up big amounts of flash on the
// AVR architecture.
#define USE_ORIGINAL_AES
//
// This selects the AES implementation written by Ideetroon for their
// own LoRaWAN library. It also uses lookup tables, but smaller
// byte-oriented ones, making it use a lot less flash space (but it is
// also about twice as slow as the original).
// #define USE_IDEETRON_AES