api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago api: rework plain and JSON implementations (#2405)
- match paths through a custom AsyncWebHandler instead of using generic not-found fallback handler
- allow MQTT-like patterns when registering paths (`simple/path`, `path/+/something`, `path/#`)
Replaces `relay/0`, `relay/1` etc. with `relay/+`. Magnitudes are plain paths, but using `/+` in case there's more than 1 magnitude of the same type.
- restore `std::function` as callback container (no more single-byte arg nonsense). Still, limit to 1 type per handler type
- adds JSON handlers which will receive JsonObject root as both input and output. Same logic as plain - GET returns resource data, PUT updates it.
- breaking change to `apiAuthenticate(request)`, it no longer will do `request->send(403)` and expect this to be handled externally.
- allow `Api-Key` header containing the key, works for both GET & PUT plain requests. The only way to set apikey for JSON.
- add `ApiRequest::param` to retrieve both GET and PUT params (aka args), remove ApiBuffer
- remove `API_BUFFER_SIZE`. Allow custom form-data key=value pairs for requests, allow to send basic `String`.
- add `API_JSON_BUFFER_SIZE` for the JSON buffer (both input and output)
- `/apis` replaced with `/api/list`, no longer uses custom handler and is an `apiRegister` callback
- `/api/rpc` custom handler replaced with an `apiRegister` callback
WIP further down:
- no more `webLog` for API requests, unless `webAccessLog` / `WEB_ACCESS_LOG` is set to `1`. This also needs to happen to the other handlers.
- migrate to ArduinoJson v6, since it become apparent it is actually a good upgrade :)
- actually make use of JSON endpoints more, right now it's just existing GET for sensors and relays
- fork ESPAsyncWebServer to cleanup path parsing and temporary objects attached to the request (also, fix things a lot of things based on PRs there...) 3 years ago Terminal: change command-line parser (#2247)
Change the underlying command line handling:
- switch to a custom parser, inspired by redis / sds
- update terminalRegisterCommand signature, pass only bare minimum
- clean-up `help` & `commands`. update settings `set`, `get` and `del`
- allow our custom test suite to run command-line tests
- clean-up Stream IO to allow us to print large things into debug stream (for example, `eeprom.dump`)
- send parsing errors to the debug log
As a proof of concept, introduce `TERMINAL_MQTT_SUPPORT` and `TERMINAL_WEB_API_SUPPORT`
- MQTT subscribes to the `<root>/cmd/set` and sends response to the `<root>/cmd`. We can't output too much, as we don't have any large-send API.
- Web API listens to the `/api/cmd?apikey=...&line=...` (or PUT, params inside the body). This one is intended as a possible replacement of the `API_SUPPORT`. Internals introduce a 'task' around the AsyncWebServerRequest object that will simulate what WiFiClient does and push data into it continuously, switching between CONT and SYS.
Both are experimental. We only accept a single command and not every command is updated to use Print `ctx.output` object. We are also somewhat limited by the Print / Stream overall, perhaps I am overestimating the usefulness of Arduino compatibility to such an extent :)
Web API handler can also sometimes show only part of the result, whenever the command tries to yield() by itself waiting for something. Perhaps we would need to create a custom request handler for that specific use-case. 4 years ago providers: relays, lights and buttons refactoring (#2414)
- gpio module now tracks the known providers (right now, hardware and mcp expander)
- refactored relay struct to use 'Provider' implementing setup,notify,change,boot instead of just BasePin actions
- refactored button module to use gpio provider instead of referencing types itself
- removed dual & stm code from buttons, migrate both to relay module
- added status notify and change callbacks for relayStatus (i.e. 'notify' when relay status was called, but not changed. and 'changed' when it did)
- relays runtime configuration keys
- relay command now shows configured relays and current & target statuses
- refactor the code using relayStatus(0, blah) under LIGHT_PROVIDER check to use lightState instead
- remove rfbridge code form relay module. implement through a basic state listener in the rfbridge module, depend on RELAY_SUPPORT
- allow to bind rf codes to real relays
- drop tuya-specific lights provider, remove tuya code from relays and lights modules
- integrate tuya via relay listeners and providers, use lights custom provider
- implement channel transitions for tuya. disabled by default, and transition time and step are overridden to 2000 + 100. needs to be set to some value below the total time (i.e. `total transition time / step time == number of steps`, we need to figure out a correct time that serial comms could handle)
- lights custom provider (global, not per-pin) and state listeners
- remove lights code from relay module. implement through providers & listeners in the lights module, depend on RELAY_SUPPORT
- lights per-channel relay provider (unused atm), depend on RELAY_SUPPORT
- refactored channel transition - calculate step only once, make sure time + step values are sane, generate quick transitions with very small delay (10ms hardcoded) for transitions during OFF state i.e. we no longer waste 500ms (or whatever transition time is set to) on boot doing nothing
- transition time + step parameter for the lightUpdate
- report mask parameter for the lightUpdate
- minor fixes across the board
resolve #2222 3 years ago providers: relays, lights and buttons refactoring (#2414)
- gpio module now tracks the known providers (right now, hardware and mcp expander)
- refactored relay struct to use 'Provider' implementing setup,notify,change,boot instead of just BasePin actions
- refactored button module to use gpio provider instead of referencing types itself
- removed dual & stm code from buttons, migrate both to relay module
- added status notify and change callbacks for relayStatus (i.e. 'notify' when relay status was called, but not changed. and 'changed' when it did)
- relays runtime configuration keys
- relay command now shows configured relays and current & target statuses
- refactor the code using relayStatus(0, blah) under LIGHT_PROVIDER check to use lightState instead
- remove rfbridge code form relay module. implement through a basic state listener in the rfbridge module, depend on RELAY_SUPPORT
- allow to bind rf codes to real relays
- drop tuya-specific lights provider, remove tuya code from relays and lights modules
- integrate tuya via relay listeners and providers, use lights custom provider
- implement channel transitions for tuya. disabled by default, and transition time and step are overridden to 2000 + 100. needs to be set to some value below the total time (i.e. `total transition time / step time == number of steps`, we need to figure out a correct time that serial comms could handle)
- lights custom provider (global, not per-pin) and state listeners
- remove lights code from relay module. implement through providers & listeners in the lights module, depend on RELAY_SUPPORT
- lights per-channel relay provider (unused atm), depend on RELAY_SUPPORT
- refactored channel transition - calculate step only once, make sure time + step values are sane, generate quick transitions with very small delay (10ms hardcoded) for transitions during OFF state i.e. we no longer waste 500ms (or whatever transition time is set to) on boot doing nothing
- transition time + step parameter for the lightUpdate
- report mask parameter for the lightUpdate
- minor fixes across the board
resolve #2222 3 years ago |
|
- /*
-
- SENSOR MODULE
-
- Copyright (C) 2016-2019 by Xose Pérez <xose dot perez at gmail dot com>
-
- */
-
- #include "sensor.h"
-
- #if SENSOR_SUPPORT
-
- #include "api.h"
- #include "broker.h"
- #include "domoticz.h"
- #include "i2c.h"
- #include "mqtt.h"
- #include "ntp.h"
- #include "relay.h"
- #include "terminal.h"
- #include "thingspeak.h"
- #include "rtcmem.h"
- #include "ws.h"
-
- #include <cfloat>
- #include <cmath>
- #include <limits>
- #include <vector>
-
- //--------------------------------------------------------------------------------
-
- // TODO: namespace { ... } ? sensor ctors need to work though
-
- #include "filters/LastFilter.h"
- #include "filters/MaxFilter.h"
- #include "filters/MedianFilter.h"
- #include "filters/MovingAverageFilter.h"
- #include "filters/SumFilter.h"
-
- #include "sensors/BaseSensor.h"
- #include "sensors/BaseEmonSensor.h"
- #include "sensors/BaseAnalogSensor.h"
-
- #if AM2320_SUPPORT
- #include "sensors/AM2320Sensor.h"
- #endif
-
- #if ANALOG_SUPPORT
- #include "sensors/AnalogSensor.h"
- #endif
-
- #if BH1750_SUPPORT
- #include "sensors/BH1750Sensor.h"
- #endif
-
- #if BMP180_SUPPORT
- #include "sensors/BMP180Sensor.h"
- #endif
-
- #if BMX280_SUPPORT
- #include "sensors/BMX280Sensor.h"
- #endif
-
- #if BME680_SUPPORT
- #include "sensors/BME680Sensor.h"
- #endif
-
- #if CSE7766_SUPPORT
- #include "sensors/CSE7766Sensor.h"
- #endif
-
- #if DALLAS_SUPPORT
- #include "sensors/DallasSensor.h"
- #endif
-
- #if DHT_SUPPORT
- #include "sensors/DHTSensor.h"
- #endif
-
- #if DIGITAL_SUPPORT
- #include "sensors/DigitalSensor.h"
- #endif
-
- #if ECH1560_SUPPORT
- #include "sensors/ECH1560Sensor.h"
- #endif
-
- #if EMON_ADC121_SUPPORT
- #include "sensors/EmonADC121Sensor.h"
- #endif
-
- #if EMON_ADS1X15_SUPPORT
- #include "sensors/EmonADS1X15Sensor.h"
- #endif
-
- #if EMON_ANALOG_SUPPORT
- #include "sensors/EmonAnalogSensor.h"
- #endif
-
- #if EVENTS_SUPPORT
- #include "sensors/EventSensor.h"
- #endif
-
- #if EZOPH_SUPPORT
- #include "sensors/EZOPHSensor.h"
- #endif
-
- #if GEIGER_SUPPORT
- #include "sensors/GeigerSensor.h"
- #endif
-
- #if GUVAS12SD_SUPPORT
- #include "sensors/GUVAS12SDSensor.h"
- #endif
-
- #if HLW8012_SUPPORT
- #include "sensors/HLW8012Sensor.h"
- #endif
-
- #if LDR_SUPPORT
- #include "sensors/LDRSensor.h"
- #endif
-
- #if MAX6675_SUPPORT
- #include "sensors/MAX6675Sensor.h"
- #endif
-
- #if MICS2710_SUPPORT
- #include "sensors/MICS2710Sensor.h"
- #endif
-
- #if MICS5525_SUPPORT
- #include "sensors/MICS5525Sensor.h"
- #endif
-
- #if MHZ19_SUPPORT
- #include "sensors/MHZ19Sensor.h"
- #endif
-
- #if NTC_SUPPORT
- #include "sensors/NTCSensor.h"
- #endif
-
- #if SDS011_SUPPORT
- #include "sensors/SDS011Sensor.h"
- #endif
-
- #if SENSEAIR_SUPPORT
- #include "sensors/SenseAirSensor.h"
- #endif
-
- #if PMSX003_SUPPORT
- #include "sensors/PMSX003Sensor.h"
- #endif
-
- #if PULSEMETER_SUPPORT
- #include "sensors/PulseMeterSensor.h"
- #endif
-
- #if PZEM004T_SUPPORT
- #include "sensors/PZEM004TSensor.h"
- #endif
-
- #if SHT3X_I2C_SUPPORT
- #include "sensors/SHT3XI2CSensor.h"
- #endif
-
- #if SI7021_SUPPORT
- #include "sensors/SI7021Sensor.h"
- #endif
-
- #if SONAR_SUPPORT
- #include "sensors/SonarSensor.h"
- #endif
-
- #if T6613_SUPPORT
- #include "sensors/T6613Sensor.h"
- #endif
-
- #if TMP3X_SUPPORT
- #include "sensors/TMP3XSensor.h"
- #endif
-
- #if V9261F_SUPPORT
- #include "sensors/V9261FSensor.h"
- #endif
-
- #if VEML6075_SUPPORT
- #include "sensors/VEML6075Sensor.h"
- #endif
-
- #if VL53L1X_SUPPORT
- #include "sensors/VL53L1XSensor.h"
- #endif
-
- #if ADE7953_SUPPORT
- #include "sensors/ADE7953Sensor.h"
- #endif
-
- #if SI1145_SUPPORT
- #include "sensors/SI1145Sensor.h"
- #endif
-
- #if HDC1080_SUPPORT
- #include "sensors/HDC1080Sensor.h"
- #endif
-
- #if PZEM004TV30_SUPPORT
- // TODO: this is temporary, until we have external API giving us swserial stream objects
- #include <SoftwareSerial.h>
- #include "sensors/PZEM004TV30Sensor.h"
- #endif
-
- //--------------------------------------------------------------------------------
-
- struct sensor_magnitude_t {
-
- private:
-
- constexpr static double _unset = std::numeric_limits<double>::quiet_NaN();
- static unsigned char _counts[MAGNITUDE_MAX];
-
- sensor_magnitude_t& operator=(const sensor_magnitude_t&) = default;
-
- void move(sensor_magnitude_t&& other) noexcept {
- *this = other;
- other.filter = nullptr;
- }
-
- public:
-
- static unsigned char counts(unsigned char type) {
- return _counts[type];
- }
-
- sensor_magnitude_t() = delete;
- sensor_magnitude_t(const sensor_magnitude_t&) = delete;
- sensor_magnitude_t(sensor_magnitude_t&& other) noexcept {
- *this = other;
- other.filter = nullptr;
- }
-
- sensor_magnitude_t& operator=(sensor_magnitude_t&& other) noexcept {
- move(std::move(other));
- return *this;
- }
-
- ~sensor_magnitude_t() noexcept {
- delete filter;
- }
-
- sensor_magnitude_t(unsigned char slot, unsigned char index_local, unsigned char type, sensor::Unit units, BaseSensor* sensor);
-
- BaseSensor * sensor { nullptr }; // Sensor object
- BaseFilter * filter { nullptr }; // Filter object
-
- unsigned char slot { 0u }; // Sensor slot # taken by the magnitude, used to access the measurement
- unsigned char type { MAGNITUDE_NONE }; // Type of measurement, returned by the BaseSensor::type(slot)
-
- unsigned char index_local { 0u }; // N'th magnitude of it's type, local to the sensor
- unsigned char index_global { 0u }; // ... and across all of the active sensors
-
- sensor::Unit units { sensor::Unit::None }; // Units of measurement
- unsigned char decimals { 0u }; // Number of decimals in textual representation
-
- double last { _unset }; // Last raw value from sensor (unfiltered)
- double reported { _unset }; // Last reported value
- double min_change { 0.0 }; // Minimum value change to report
- double max_change { 0.0 }; // Maximum value change to report
- double correction { 0.0 }; // Value correction (applied when processing)
-
- double zero_threshold { _unset }; // Reset value to zero when below threshold (applied when reading)
-
- };
-
- static_assert(
- std::is_nothrow_move_constructible<sensor_magnitude_t>::value,
- "std::vector<sensor_magnitude_t> should be able to work with resize()"
- );
-
- static_assert(
- !std::is_copy_constructible<sensor_magnitude_t>::value,
- "std::vector<sensor_magnitude_t> should only use move ctor"
- );
-
- unsigned char sensor_magnitude_t::_counts[MAGNITUDE_MAX] = {0};
-
- namespace sensor {
-
- // Base units
- // TODO: implement through a single class and allow direct access to the ::value
-
- KWh::KWh() :
- value(0)
- {}
-
- KWh::KWh(uint32_t value) :
- value(value)
- {}
-
- Ws::Ws() :
- value(0)
- {}
-
- Ws::Ws(uint32_t value) :
- value(value)
- {}
-
- // Generic storage. Most of the time we init this on boot with both members or start at 0 and increment with watt-second
-
- Energy::Energy(KWh kwh, Ws ws) :
- kwh(kwh)
- {
- *this += ws;
- }
-
- Energy::Energy(KWh kwh) :
- kwh(kwh),
- ws()
- {}
-
- Energy::Energy(Ws ws) :
- kwh()
- {
- *this += ws;
- }
-
- Energy::Energy(double raw) {
- *this = raw;
- }
-
- Energy& Energy::operator =(double raw) {
- double _wh;
- kwh = modf(raw, &_wh);
- ws = _wh * 3600.0;
- return *this;
- }
-
- Energy& Energy::operator +=(Ws _ws) {
- while (_ws.value >= KwhMultiplier) {
- _ws.value -= KwhMultiplier;
- ++kwh.value;
- }
- ws.value += _ws.value;
- while (ws.value >= KwhMultiplier) {
- ws.value -= KwhMultiplier;
- ++kwh.value;
- }
- return *this;
- }
-
- Energy Energy::operator +(Ws watt_s) {
- Energy result(*this);
- result += watt_s;
- return result;
- }
-
- Energy::operator bool() {
- return (kwh.value > 0) && (ws.value > 0);
- }
-
- Ws Energy::asWs() {
- auto _kwh = kwh.value;
- while (_kwh >= KwhLimit) {
- _kwh -= KwhLimit;
- }
-
- return (_kwh * KwhMultiplier) + ws.value;
- }
-
- double Energy::asDouble() {
- return (double)kwh.value + ((double)ws.value / (double)KwhMultiplier);
- }
-
- void Energy::reset() {
- kwh.value = 0;
- ws.value = 0;
- }
-
- } // namespace sensor
-
- // -----------------------------------------------------------------------------
- // Configuration
- // -----------------------------------------------------------------------------
-
- constexpr double _magnitudeCorrection(unsigned char type) {
- return (
- (MAGNITUDE_TEMPERATURE == type) ? (SENSOR_TEMPERATURE_CORRECTION) :
- (MAGNITUDE_HUMIDITY == type) ? (SENSOR_HUMIDITY_CORRECTION) :
- (MAGNITUDE_LUX == type) ? (SENSOR_LUX_CORRECTION) :
- (MAGNITUDE_PRESSURE == type) ? (SENSOR_PRESSURE_CORRECTION) :
- 0.0
- );
- }
-
- constexpr bool _magnitudeCanUseCorrection(unsigned char type) {
- return (
- (MAGNITUDE_TEMPERATURE == type) ? (true) :
- (MAGNITUDE_HUMIDITY == type) ? (true) :
- (MAGNITUDE_LUX == type) ? (true) :
- (MAGNITUDE_PRESSURE == type) ? (true) :
- false
- );
- }
-
- // -----------------------------------------------------------------------------
- // Energy persistence
- // -----------------------------------------------------------------------------
-
- std::vector<unsigned char> _sensor_save_count;
- unsigned char _sensor_save_every = SENSOR_SAVE_EVERY;
-
- bool _sensorIsEmon(BaseSensor* sensor) {
- return sensor->type() & sensor::type::Emon;
- }
-
- sensor::Energy _sensorRtcmemLoadEnergy(unsigned char index) {
- return sensor::Energy {
- sensor::KWh { Rtcmem->energy[index].kwh },
- sensor::Ws { Rtcmem->energy[index].ws }
- };
- }
-
- void _sensorRtcmemSaveEnergy(unsigned char index, const sensor::Energy& source) {
- Rtcmem->energy[index].kwh = source.kwh.value;
- Rtcmem->energy[index].ws = source.ws.value;
- }
-
- sensor::Energy _sensorParseEnergy(const String& value) {
- sensor::Energy result;
- if (!value.length()) {
- return result;
- }
-
- const char* p { value.c_str() };
-
- char* endp { nullptr };
- auto kwh = strtoul(p, &endp, 10);
- if (!endp || (endp == p)) {
- return result;
- }
- result.kwh = kwh;
-
- const char* plus { strchr(p, '+') };
- if (!plus) {
- return result;
- }
-
- p = plus + 1;
- if (*p == '\0') {
- return result;
- }
-
- auto ws = strtoul(p, &endp, 10);
- if (!endp || (endp == p)) {
- return result;
- }
- result.ws = ws;
-
- return result;
- }
-
- void _sensorApiResetEnergy(const sensor_magnitude_t& magnitude, const char* payload) {
- if (!payload || !strlen(payload)) return;
-
- auto* sensor = static_cast<BaseEmonSensor*>(magnitude.sensor);
- auto energy = _sensorParseEnergy(payload);
-
- sensor->resetEnergy(magnitude.index_local, energy);
- }
-
- void _sensorApiResetEnergy(const sensor_magnitude_t& magnitude, const String& payload) {
- _sensorApiResetEnergy(magnitude, payload.c_str());
- }
-
- sensor::Energy _sensorEnergyTotal(unsigned char index) {
- sensor::Energy result;
-
- if (rtcmemStatus() && (index < (sizeof(Rtcmem->energy) / sizeof(*Rtcmem->energy)))) {
- result = _sensorRtcmemLoadEnergy(index);
- } else {
- result = _sensorParseEnergy(getSetting({"eneTotal", index}));
- }
-
- return result;
- }
-
- sensor::Energy sensorEnergyTotal() {
- return _sensorEnergyTotal(0);
- }
-
- void _sensorResetEnergyTotal(unsigned char index) {
- delSetting({"eneTotal", index});
- delSetting({"eneTime", index});
- if (index < (sizeof(Rtcmem->energy) / sizeof(*Rtcmem->energy))) {
- Rtcmem->energy[index].kwh = 0;
- Rtcmem->energy[index].ws = 0;
- }
- }
-
- void _magnitudeSaveEnergyTotal(sensor_magnitude_t& magnitude, bool persistent) {
- if (magnitude.type != MAGNITUDE_ENERGY) return;
-
- auto* sensor = static_cast<BaseEmonSensor*>(magnitude.sensor);
-
- const auto energy = sensor->totalEnergy();
-
- // Always save to RTCMEM
- if (magnitude.index_global < (sizeof(Rtcmem->energy) / sizeof(*Rtcmem->energy))) {
- _sensorRtcmemSaveEnergy(magnitude.index_global, energy);
- }
-
- // Save to EEPROM every '_sensor_save_every' readings
- // Format is `<kwh>+<ws>`, value without `+` is treated as `<ws>`
- if (persistent && _sensor_save_every) {
- _sensor_save_count[magnitude.index_global] =
- (_sensor_save_count[magnitude.index_global] + 1) % _sensor_save_every;
-
- if (0 == _sensor_save_count[magnitude.index_global]) {
- const String total = String(energy.kwh.value) + "+" + String(energy.ws.value);
- setSetting({"eneTotal", magnitude.index_global}, total);
- #if NTP_SUPPORT
- if (ntpSynced()) setSetting({"eneTime", magnitude.index_global}, ntpDateTime());
- #endif
- }
- }
- }
-
- // ---------------------------------------------------------------------------
-
- BrokerBind(SensorReadBroker);
- BrokerBind(SensorReportBroker);
-
- std::vector<BaseSensor *> _sensors;
- std::vector<sensor_magnitude_t> _magnitudes;
- bool _sensors_ready = false;
-
- bool _sensor_realtime = API_REAL_TIME_VALUES;
- unsigned long _sensor_read_interval = 1000 * SENSOR_READ_INTERVAL;
- unsigned char _sensor_report_every = SENSOR_REPORT_EVERY;
-
- // -----------------------------------------------------------------------------
- // Private
- // -----------------------------------------------------------------------------
-
- BaseFilter* _magnitudeCreateFilter(unsigned char type, size_t size) {
- BaseFilter* filter { nullptr };
-
- switch (type) {
- case MAGNITUDE_IAQ:
- case MAGNITUDE_IAQ_STATIC:
- case MAGNITUDE_ENERGY:
- filter = new LastFilter();
- break;
- case MAGNITUDE_COUNT:
- case MAGNITUDE_GEIGER_CPM:
- case MAGNITUDE_GEIGER_SIEVERT:
- case MAGNITUDE_ENERGY_DELTA:
- filter = new SumFilter();
- break;
- case MAGNITUDE_EVENT:
- case MAGNITUDE_DIGITAL:
- filter = new MaxFilter();
- break;
- default:
- filter = new MedianFilter();
- break;
- }
-
- filter->resize(size);
-
- return filter;
- }
-
- sensor_magnitude_t::sensor_magnitude_t(unsigned char slot_, unsigned char index_local_, unsigned char type_, sensor::Unit units_, BaseSensor* sensor_) :
- sensor(sensor_),
- filter(_magnitudeCreateFilter(type_, _sensor_report_every)),
- slot(slot_),
- type(type_),
- index_local(index_local_),
- index_global(_counts[type]),
- units(units_)
- {
- ++_counts[type];
- }
-
- // Hardcoded decimals for each magnitude
-
- unsigned char _sensorUnitDecimals(sensor::Unit unit) {
- switch (unit) {
- case sensor::Unit::Celcius:
- case sensor::Unit::Farenheit:
- return 1;
- case sensor::Unit::Percentage:
- return 0;
- case sensor::Unit::Hectopascal:
- return 2;
- case sensor::Unit::Ampere:
- return 3;
- case sensor::Unit::Volt:
- return 0;
- case sensor::Unit::Watt:
- case sensor::Unit::Voltampere:
- case sensor::Unit::VoltampereReactive:
- return 0;
- case sensor::Unit::Kilowatt:
- case sensor::Unit::Kilovoltampere:
- case sensor::Unit::KilovoltampereReactive:
- return 3;
- case sensor::Unit::KilowattHour:
- return 3;
- case sensor::Unit::WattSecond:
- return 0;
- case sensor::Unit::CountsPerMinute:
- case sensor::Unit::MicrosievertPerHour:
- return 4;
- case sensor::Unit::Meter:
- return 3;
- case sensor::Unit::Hertz:
- return 1;
- case sensor::Unit::UltravioletIndex:
- return 3;
- case sensor::Unit::Ph:
- return 3;
- case sensor::Unit::None:
- default:
- return 0;
- }
- }
-
- String magnitudeTopic(unsigned char type) {
-
- const __FlashStringHelper* result = nullptr;
-
- switch (type) {
- case MAGNITUDE_TEMPERATURE:
- result = F("temperature");
- break;
- case MAGNITUDE_HUMIDITY:
- result = F("humidity");
- break;
- case MAGNITUDE_PRESSURE:
- result = F("pressure");
- break;
- case MAGNITUDE_CURRENT:
- result = F("current");
- break;
- case MAGNITUDE_VOLTAGE:
- result = F("voltage");
- break;
- case MAGNITUDE_POWER_ACTIVE:
- result = F("power");
- break;
- case MAGNITUDE_POWER_APPARENT:
- result = F("apparent");
- break;
- case MAGNITUDE_POWER_REACTIVE:
- result = F("reactive");
- break;
- case MAGNITUDE_POWER_FACTOR:
- result = F("factor");
- break;
- case MAGNITUDE_ENERGY:
- result = F("energy");
- break;
- case MAGNITUDE_ENERGY_DELTA:
- result = F("energy_delta");
- break;
- case MAGNITUDE_ANALOG:
- result = F("analog");
- break;
- case MAGNITUDE_DIGITAL:
- result = F("digital");
- break;
- case MAGNITUDE_EVENT:
- result = F("event");
- break;
- case MAGNITUDE_PM1dot0:
- result = F("pm1dot0");
- break;
- case MAGNITUDE_PM2dot5:
- result = F("pm2dot5");
- break;
- case MAGNITUDE_PM10:
- result = F("pm10");
- break;
- case MAGNITUDE_CO2:
- result = F("co2");
- break;
- case MAGNITUDE_VOC:
- result = F("voc");
- break;
- case MAGNITUDE_IAQ:
- result = F("iaq");
- break;
- case MAGNITUDE_IAQ_ACCURACY:
- result = F("iaq_accuracy");
- break;
- case MAGNITUDE_IAQ_STATIC:
- result = F("iaq_static");
- break;
- case MAGNITUDE_LUX:
- result = F("lux");
- break;
- case MAGNITUDE_UVA:
- result = F("uva");
- break;
- case MAGNITUDE_UVB:
- result = F("uvb");
- break;
- case MAGNITUDE_UVI:
- result = F("uvi");
- break;
- case MAGNITUDE_DISTANCE:
- result = F("distance");
- break;
- case MAGNITUDE_HCHO:
- result = F("hcho");
- break;
- case MAGNITUDE_GEIGER_CPM:
- result = F("ldr_cpm"); // local dose rate [Counts per minute]
- break;
- case MAGNITUDE_GEIGER_SIEVERT:
- result = F("ldr_uSvh"); // local dose rate [µSievert per hour]
- break;
- case MAGNITUDE_COUNT:
- result = F("count");
- break;
- case MAGNITUDE_NO2:
- result = F("no2");
- break;
- case MAGNITUDE_CO:
- result = F("co");
- break;
- case MAGNITUDE_RESISTANCE:
- result = F("resistance");
- break;
- case MAGNITUDE_PH:
- result = F("ph");
- break;
- case MAGNITUDE_FREQUENCY:
- result = F("frequency");
- break;
- case MAGNITUDE_NONE:
- default:
- result = F("unknown");
- break;
- }
-
- return String(result);
-
- }
-
- String _magnitudeTopic(const sensor_magnitude_t& magnitude) {
- return magnitudeTopic(magnitude.type);
- }
-
- String _magnitudeUnits(const sensor_magnitude_t& magnitude) {
-
- const __FlashStringHelper* result = nullptr;
-
- switch (magnitude.units) {
- case sensor::Unit::Farenheit:
- result = F("°F");
- break;
- case sensor::Unit::Celcius:
- result = F("°C");
- break;
- case sensor::Unit::Percentage:
- result = F("%");
- break;
- case sensor::Unit::Hectopascal:
- result = F("hPa");
- break;
- case sensor::Unit::Ampere:
- result = F("A");
- break;
- case sensor::Unit::Volt:
- result = F("V");
- break;
- case sensor::Unit::Watt:
- result = F("W");
- break;
- case sensor::Unit::Kilowatt:
- result = F("kW");
- break;
- case sensor::Unit::Voltampere:
- result = F("VA");
- break;
- case sensor::Unit::Kilovoltampere:
- result = F("kVA");
- break;
- case sensor::Unit::VoltampereReactive:
- result = F("VAR");
- break;
- case sensor::Unit::KilovoltampereReactive:
- result = F("kVAR");
- break;
- case sensor::Unit::Joule:
- //aka case sensor::Unit::WattSecond:
- result = F("J");
- break;
- case sensor::Unit::KilowattHour:
- result = F("kWh");
- break;
- case sensor::Unit::MicrogrammPerCubicMeter:
- result = F("µg/m³");
- break;
- case sensor::Unit::PartsPerMillion:
- result = F("ppm");
- break;
- case sensor::Unit::Lux:
- result = F("lux");
- break;
- case sensor::Unit::Ohm:
- result = F("ohm");
- break;
- case sensor::Unit::MilligrammPerCubicMeter:
- result = F("mg/m³");
- break;
- case sensor::Unit::CountsPerMinute:
- result = F("cpm");
- break;
- case sensor::Unit::MicrosievertPerHour:
- result = F("µSv/h");
- break;
- case sensor::Unit::Meter:
- result = F("m");
- break;
- case sensor::Unit::Hertz:
- result = F("Hz");
- break;
- case sensor::Unit::None:
- default:
- result = F("");
- break;
- }
-
- return String(result);
-
- }
-
- String magnitudeUnits(unsigned char index) {
- if (index >= magnitudeCount()) return String();
- return _magnitudeUnits(_magnitudes[index]);
- }
-
- // Choose unit based on type of magnitude we use
-
- sensor::Unit _magnitudeUnitFilter(const sensor_magnitude_t& magnitude, sensor::Unit updated) {
- auto result = magnitude.units;
-
- switch (magnitude.type) {
-
- case MAGNITUDE_TEMPERATURE: {
- switch (updated) {
- case sensor::Unit::Celcius:
- case sensor::Unit::Farenheit:
- case sensor::Unit::Kelvin:
- result = updated;
- break;
- default:
- break;
- }
- break;
- }
-
- case MAGNITUDE_POWER_ACTIVE: {
- switch (updated) {
- case sensor::Unit::Kilowatt:
- case sensor::Unit::Watt:
- result = updated;
- break;
- default:
- break;
- }
- break;
- }
-
- case MAGNITUDE_ENERGY: {
- switch (updated) {
- case sensor::Unit::KilowattHour:
- case sensor::Unit::Joule:
- result = updated;
- break;
- default:
- break;
- }
- break;
- }
-
- default:
- result = updated;
- break;
-
- }
-
- return result;
- };
-
- double _magnitudeProcess(const sensor_magnitude_t& magnitude, double value) {
-
- // Process input (sensor) units and convert to the ones that magnitude specifies as output
- switch (magnitude.sensor->units(magnitude.slot)) {
- case sensor::Unit::Celcius:
- if (magnitude.units == sensor::Unit::Farenheit) {
- value = (value * 1.8) + 32.0;
- } else if (magnitude.units == sensor::Unit::Kelvin) {
- value = value + 273.15;
- }
- break;
- case sensor::Unit::Percentage:
- value = constrain(value, 0.0, 100.0);
- break;
- case sensor::Unit::Watt:
- case sensor::Unit::Voltampere:
- case sensor::Unit::VoltampereReactive:
- if ((magnitude.units == sensor::Unit::Kilowatt)
- || (magnitude.units == sensor::Unit::Kilovoltampere)
- || (magnitude.units == sensor::Unit::KilovoltampereReactive)) {
- value = value / 1.0e+3;
- }
- break;
- case sensor::Unit::KilowattHour:
- // TODO: we may end up with inf at some point?
- if (magnitude.units == sensor::Unit::Joule) {
- value = value * 3.6e+6;
- }
- break;
- default:
- break;
- }
-
- value = value + magnitude.correction;
-
- return roundTo(value, magnitude.decimals);
-
- }
-
- String _magnitudeDescription(const sensor_magnitude_t& magnitude) {
- return magnitude.sensor->description(magnitude.slot);
- }
-
- // -----------------------------------------------------------------------------
-
- // do `callback(type)` for each present magnitude
- template<typename T>
- void _magnitudeForEachCounted(T callback) {
- for (unsigned char type = MAGNITUDE_NONE + 1; type < MAGNITUDE_MAX; ++type) {
- if (sensor_magnitude_t::counts(type)) {
- callback(type);
- }
- }
- }
-
- // check if `callback(type)` returns `true` at least once
- template<typename T>
- bool _magnitudeForEachCountedCheck(T callback) {
- for (unsigned char type = MAGNITUDE_NONE + 1; type < MAGNITUDE_MAX; ++type) {
- if (sensor_magnitude_t::counts(type) && callback(type)) {
- return true;
- }
- }
-
- return false;
- }
-
- // do `callback(type)` for each error type
- template<typename T>
- void _sensorForEachError(T callback) {
- for (unsigned char error = SENSOR_ERROR_OK; error < SENSOR_ERROR_MAX; ++error) {
- callback(error);
- }
- }
-
- const char * const _magnitudeSettingsPrefix(unsigned char type) {
- switch (type) {
- case MAGNITUDE_TEMPERATURE: return "tmp";
- case MAGNITUDE_HUMIDITY: return "hum";
- case MAGNITUDE_PRESSURE: return "press";
- case MAGNITUDE_CURRENT: return "curr";
- case MAGNITUDE_VOLTAGE: return "volt";
- case MAGNITUDE_POWER_ACTIVE: return "pwrP";
- case MAGNITUDE_POWER_APPARENT: return "pwrQ";
- case MAGNITUDE_POWER_REACTIVE: return "pwrModS";
- case MAGNITUDE_POWER_FACTOR: return "pwrPF";
- case MAGNITUDE_ENERGY: return "ene";
- case MAGNITUDE_ENERGY_DELTA: return "eneDelta";
- case MAGNITUDE_ANALOG: return "analog";
- case MAGNITUDE_DIGITAL: return "digital";
- case MAGNITUDE_EVENT: return "event";
- case MAGNITUDE_PM1dot0: return "pm1dot0";
- case MAGNITUDE_PM2dot5: return "pm1dot5";
- case MAGNITUDE_PM10: return "pm10";
- case MAGNITUDE_CO2: return "co2";
- case MAGNITUDE_VOC: return "voc";
- case MAGNITUDE_IAQ: return "iaq";
- case MAGNITUDE_IAQ_ACCURACY: return "iaqAccuracy";
- case MAGNITUDE_IAQ_STATIC: return "iaqStatic";
- case MAGNITUDE_LUX: return "lux";
- case MAGNITUDE_UVA: return "uva";
- case MAGNITUDE_UVB: return "uvb";
- case MAGNITUDE_UVI: return "uvi";
- case MAGNITUDE_DISTANCE: return "distance";
- case MAGNITUDE_HCHO: return "hcho";
- case MAGNITUDE_GEIGER_CPM: return "gcpm";
- case MAGNITUDE_GEIGER_SIEVERT: return "gsiev";
- case MAGNITUDE_COUNT: return "count";
- case MAGNITUDE_NO2: return "no2";
- case MAGNITUDE_CO: return "co";
- case MAGNITUDE_RESISTANCE: return "res";
- case MAGNITUDE_PH: return "ph";
- case MAGNITUDE_FREQUENCY: return "freq";
- default: return nullptr;
- }
- }
-
- template <typename T>
- String _magnitudeSettingsKey(sensor_magnitude_t& magnitude, T&& suffix) {
- return String(_magnitudeSettingsPrefix(magnitude.type)) + suffix;
- }
-
- bool _sensorMatchKeyPrefix(const char * key) {
-
- if (strncmp(key, "sns", 3) == 0) return true;
- if (strncmp(key, "pwr", 3) == 0) return true;
-
- return _magnitudeForEachCountedCheck([key](unsigned char type) {
- const char* const prefix { _magnitudeSettingsPrefix(type) };
- return (strncmp(prefix, key, strlen(prefix)) == 0);
- });
-
- }
-
- const String _sensorQueryDefault(const String& key) {
-
- auto get_defaults = [](unsigned char type, BaseSensor* ptr) -> String {
- if (!ptr) return String();
- auto* sensor = static_cast<BaseEmonSensor*>(ptr);
- switch (type) {
- case MAGNITUDE_CURRENT:
- return String(sensor->defaultCurrentRatio());
- case MAGNITUDE_VOLTAGE:
- return String(sensor->defaultVoltageRatio());
- case MAGNITUDE_POWER_ACTIVE:
- return String(sensor->defaultPowerRatio());
- case MAGNITUDE_ENERGY:
- return String(sensor->defaultEnergyRatio());
- default:
- return String();
- }
- };
-
- auto magnitude_key = [](const sensor_magnitude_t& magnitude) -> SettingsKey {
- switch (magnitude.type) {
- case MAGNITUDE_CURRENT:
- return {"pwrRatioC", magnitude.index_global};
- case MAGNITUDE_VOLTAGE:
- return {"pwrRatioV", magnitude.index_global};
- case MAGNITUDE_POWER_ACTIVE:
- return {"pwrRatioP", magnitude.index_global};
- case MAGNITUDE_ENERGY:
- return {"pwrRatioE", magnitude.index_global};
- default:
- return "";
- }
- };
-
- unsigned char type = MAGNITUDE_NONE;
- BaseSensor* target = nullptr;
-
- for (auto& magnitude : _magnitudes) {
- switch (magnitude.type) {
- case MAGNITUDE_CURRENT:
- case MAGNITUDE_VOLTAGE:
- case MAGNITUDE_POWER_ACTIVE:
- case MAGNITUDE_ENERGY: {
- auto ratioKey(magnitude_key(magnitude));
- if (ratioKey == key) {
- target = magnitude.sensor;
- type = magnitude.type;
- goto return_defaults;
- }
- break;
- }
- default:
- break;
- }
- }
-
- return_defaults:
-
- return get_defaults(type, target);
-
- }
-
- #if WEB_SUPPORT
-
- bool _sensorWebSocketOnKeyCheck(const char* key, JsonVariant&) {
- return _sensorMatchKeyPrefix(key);
- }
-
- // Used by modules to generate magnitude_id<->module_id mapping for the WebUI
-
- void sensorWebSocketMagnitudes(JsonObject& root, const String& prefix) {
-
- // ws produces flat list <prefix>Magnitudes
- const String ws_name = prefix + "Magnitudes";
-
- // config uses <prefix>Magnitude<index> (cut 's')
- const String conf_name = ws_name.substring(0, ws_name.length() - 1);
-
- JsonObject& list = root.createNestedObject(ws_name);
- list["size"] = magnitudeCount();
-
- JsonArray& type = list.createNestedArray("type");
- JsonArray& index = list.createNestedArray("index");
- JsonArray& idx = list.createNestedArray("idx");
-
- for (unsigned char i=0; i<magnitudeCount(); ++i) {
- type.add(magnitudeType(i));
- index.add(magnitudeIndex(i));
- idx.add(getSetting({conf_name, i}, 0));
- }
- }
-
- String sensorError(unsigned char error) {
-
- const __FlashStringHelper* result = nullptr;
-
- switch (error) {
- case SENSOR_ERROR_OK:
- result = F("OK");
- break;
- case SENSOR_ERROR_OUT_OF_RANGE:
- result = F("Out of Range");
- break;
- case SENSOR_ERROR_WARM_UP:
- result = F("Warming Up");
- break;
- case SENSOR_ERROR_TIMEOUT:
- result = F("Timeout");
- break;
- case SENSOR_ERROR_UNKNOWN_ID:
- result = F("Unknown ID");
- break;
- case SENSOR_ERROR_CRC:
- result = F("CRC / Data Error");
- break;
- case SENSOR_ERROR_I2C:
- result = F("I2C Error");
- break;
- case SENSOR_ERROR_GPIO_USED:
- result = F("GPIO Already Used");
- break;
- case SENSOR_ERROR_CALIBRATION:
- result = F("Calibration Error");
- break;
- default:
- case SENSOR_ERROR_OTHER:
- result = F("Other / Unknown Error");
- break;
- }
-
- return result;
-
- }
-
- String magnitudeName(unsigned char type) {
-
- const __FlashStringHelper* result = nullptr;
-
- switch (type) {
- case MAGNITUDE_TEMPERATURE:
- result = F("Temperature");
- break;
- case MAGNITUDE_HUMIDITY:
- result = F("Humidity");
- break;
- case MAGNITUDE_PRESSURE:
- result = F("Pressure");
- break;
- case MAGNITUDE_CURRENT:
- result = F("Current");
- break;
- case MAGNITUDE_VOLTAGE:
- result = F("Voltage");
- break;
- case MAGNITUDE_POWER_ACTIVE:
- result = F("Active Power");
- break;
- case MAGNITUDE_POWER_APPARENT:
- result = F("Apparent Power");
- break;
- case MAGNITUDE_POWER_REACTIVE:
- result = F("Reactive Power");
- break;
- case MAGNITUDE_POWER_FACTOR:
- result = F("Power Factor");
- break;
- case MAGNITUDE_ENERGY:
- result = F("Energy");
- break;
- case MAGNITUDE_ENERGY_DELTA:
- result = F("Energy (delta)");
- break;
- case MAGNITUDE_ANALOG:
- result = F("Analog");
- break;
- case MAGNITUDE_DIGITAL:
- result = F("Digital");
- break;
- case MAGNITUDE_EVENT:
- result = F("Event");
- break;
- case MAGNITUDE_PM1dot0:
- result = F("PM1.0");
- break;
- case MAGNITUDE_PM2dot5:
- result = F("PM2.5");
- break;
- case MAGNITUDE_PM10:
- result = F("PM10");
- break;
- case MAGNITUDE_CO2:
- result = F("CO2");
- break;
- case MAGNITUDE_VOC:
- result = F("VOC");
- break;
- case MAGNITUDE_IAQ_STATIC:
- result = F("IAQ (Static)");
- break;
- case MAGNITUDE_IAQ:
- result = F("IAQ");
- break;
- case MAGNITUDE_IAQ_ACCURACY:
- result = F("IAQ Accuracy");
- break;
- case MAGNITUDE_LUX:
- result = F("Lux");
- break;
- case MAGNITUDE_UVA:
- result = F("UVA");
- break;
- case MAGNITUDE_UVB:
- result = F("UVB");
- break;
- case MAGNITUDE_UVI:
- result = F("UVI");
- break;
- case MAGNITUDE_DISTANCE:
- result = F("Distance");
- break;
- case MAGNITUDE_HCHO:
- result = F("HCHO");
- break;
- case MAGNITUDE_GEIGER_CPM:
- case MAGNITUDE_GEIGER_SIEVERT:
- result = F("Local Dose Rate");
- break;
- case MAGNITUDE_COUNT:
- result = F("Count");
- break;
- case MAGNITUDE_NO2:
- result = F("NO2");
- break;
- case MAGNITUDE_CO:
- result = F("CO");
- break;
- case MAGNITUDE_RESISTANCE:
- result = F("Resistance");
- break;
- case MAGNITUDE_PH:
- result = F("pH");
- break;
- case MAGNITUDE_FREQUENCY:
- result = F("Frequency");
- break;
- case MAGNITUDE_NONE:
- default:
- break;
- }
-
- return String(result);
- }
-
- void _sensorWebSocketOnVisible(JsonObject& root) {
-
- root["snsVisible"] = 1;
-
- // prepare available magnitude types
- JsonArray& magnitudes = root.createNestedArray("snsMagnitudes");
- _magnitudeForEachCounted([&magnitudes](unsigned char type) {
- JsonArray& tuple = magnitudes.createNestedArray();
- tuple.add(type);
- tuple.add(_magnitudeSettingsPrefix(type));
- tuple.add(magnitudeName(type));
- });
-
- // and available error types
- JsonArray& errors = root.createNestedArray("snsErrors");
- _sensorForEachError([&errors](unsigned char error) {
- JsonArray& tuple = errors.createNestedArray();
- tuple.add(error);
- tuple.add(sensorError(error));
- });
-
- }
-
- void _sensorWebSocketMagnitudesConfig(JsonObject& root) {
-
- JsonObject& magnitudes = root.createNestedObject("magnitudesConfig");
- uint8_t size = 0;
-
- JsonArray& index = magnitudes.createNestedArray("index");
- JsonArray& type = magnitudes.createNestedArray("type");
- JsonArray& units = magnitudes.createNestedArray("units");
- JsonArray& description = magnitudes.createNestedArray("description");
-
- for (auto& magnitude : _magnitudes) {
-
- // TODO: we don't display event for some reason?
- if (magnitude.type == MAGNITUDE_EVENT) continue;
- ++size;
-
- index.add<uint8_t>(magnitude.index_global);
- type.add<uint8_t>(magnitude.type);
- units.add(_magnitudeUnits(magnitude));
- description.add(_magnitudeDescription(magnitude));
-
- }
-
- magnitudes["size"] = size;
-
- }
-
- void _sensorWebSocketSendData(JsonObject& root) {
-
- char buffer[64];
-
- JsonObject& magnitudes = root.createNestedObject("magnitudes");
- uint8_t size = 0;
-
- JsonArray& value = magnitudes.createNestedArray("value");
- JsonArray& error = magnitudes.createNestedArray("error");
- #if NTP_SUPPORT
- JsonArray& info = magnitudes.createNestedArray("info");
- #endif
-
- for (auto& magnitude : _magnitudes) {
- if (magnitude.type == MAGNITUDE_EVENT) continue;
- ++size;
-
- dtostrf(_magnitudeProcess(magnitude, magnitude.last), 1, magnitude.decimals, buffer);
-
- value.add(buffer);
- error.add(magnitude.sensor->error());
-
- #if NTP_SUPPORT
- if ((_sensor_save_every > 0) && (magnitude.type == MAGNITUDE_ENERGY)) {
- String string = F("Last saved: ");
- string += getSetting({"eneTime", magnitude.index_global}, F("(unknown)"));
- info.add(string);
- } else {
- info.add((uint8_t)0);
- }
- #endif
- }
-
- magnitudes["size"] = size;
-
- }
-
- void _sensorWebSocketOnConnected(JsonObject& root) {
-
- for (auto* sensor [[gnu::unused]] : _sensors) {
-
- if (_sensorIsEmon(sensor)) {
- root["emonVisible"] = 1;
- root["pwrVisible"] = 1;
- }
-
- #if EMON_ANALOG_SUPPORT
- if (sensor->getID() == SENSOR_EMON_ANALOG_ID) {
- root["pwrVoltage"] = ((EmonAnalogSensor *) sensor)->getVoltage();
- }
- #endif
-
- #if HLW8012_SUPPORT
- if (sensor->getID() == SENSOR_HLW8012_ID) {
- root["hlwVisible"] = 1;
- }
- #endif
-
- #if CSE7766_SUPPORT
- if (sensor->getID() == SENSOR_CSE7766_ID) {
- root["cseVisible"] = 1;
- }
- #endif
-
- #if PZEM004T_SUPPORT || PZEM004TV30_SUPPORT
- switch (sensor->getID()) {
- case SENSOR_PZEM004T_ID:
- case SENSOR_PZEM004TV30_ID:
- root["pzemVisible"] = 1;
- break;
- default:
- break;
- }
- #endif
-
- #if PULSEMETER_SUPPORT
- if (sensor->getID() == SENSOR_PULSEMETER_ID) {
- root["pmVisible"] = 1;
- root["pwrRatioE"] = ((PulseMeterSensor *) sensor)->getEnergyRatio();
- }
- #endif
-
- #if MICS2710_SUPPORT || MICS5525_SUPPORT
- switch (sensor->getID()) {
- case SENSOR_MICS2710_ID:
- case SENSOR_MICS5525_ID:
- root["micsVisible"] = 1;
- break;
- default:
- break;
- }
- #endif
-
- }
-
- if (magnitudeCount()) {
- root["snsRead"] = _sensor_read_interval / 1000;
- root["snsReport"] = _sensor_report_every;
- root["snsSave"] = _sensor_save_every;
- _sensorWebSocketMagnitudesConfig(root);
- }
-
- }
-
- #endif // WEB_SUPPORT
-
- #if API_SUPPORT
-
- String _sensorApiMagnitudeName(sensor_magnitude_t& magnitude) {
- String name = magnitudeTopic(magnitude.type);
- if (SENSOR_USE_INDEX || (sensor_magnitude_t::counts(magnitude.type) > 1)) name = name + "/" + String(magnitude.index_global);
-
- return name;
- }
-
- bool _sensorApiTryParseMagnitudeIndex(const char* p, unsigned char type, unsigned char& magnitude_index) {
- char* endp { nullptr };
- const unsigned long result { strtoul(p, &endp, 10) };
- if ((endp == p) || (*endp != '\0') || (result >= sensor_magnitude_t::counts(type))) {
- DEBUG_MSG_P(PSTR("[SENSOR] Invalid magnitude ID (%s)\n"), p);
- return false;
- }
-
- magnitude_index = result;
- return true;
- }
-
- template <typename T>
- bool _sensorApiTryHandle(ApiRequest& request, unsigned char type, T&& callback) {
- unsigned char index { 0u };
- if (request.wildcards()) {
- auto index_param = request.wildcard(0);
- if (!_sensorApiTryParseMagnitudeIndex(index_param.c_str(), type, index)) {
- return false;
- }
- }
-
- for (auto& magnitude : _magnitudes) {
- if ((type == magnitude.type) && (index == magnitude.index_global)) {
- callback(magnitude);
- return true;
- }
- }
-
- return false;
- }
-
- void _sensorApiSetup() {
-
- apiRegister(F("magnitudes"),
- [](ApiRequest&, JsonObject& root) {
- JsonArray& magnitudes = root.createNestedArray("magnitudes");
- for (auto& magnitude : _magnitudes) {
- JsonArray& data = magnitudes.createNestedArray();
- data.add(_sensorApiMagnitudeName(magnitude));
- data.add(magnitude.last);
- data.add(magnitude.reported);
- }
- return true;
- },
- nullptr
- );
-
- _magnitudeForEachCounted([](unsigned char type) {
- String pattern = magnitudeTopic(type);
- if (SENSOR_USE_INDEX || (sensor_magnitude_t::counts(type) > 1)) {
- pattern += "/+";
- }
-
- ApiBasicHandler get {
- [type](ApiRequest& request) {
- return _sensorApiTryHandle(request, type, [&](const sensor_magnitude_t& magnitude) {
- char buffer[64] { 0 };
- dtostrf(
- _sensor_realtime ? magnitude.last : magnitude.reported,
- 1, magnitude.decimals,
- buffer
- );
- request.send(String(buffer));
- return true;
- });
- }
- };
-
- ApiBasicHandler put { nullptr };
- if (type == MAGNITUDE_ENERGY) {
- put = [](ApiRequest& request) {
- return _sensorApiTryHandle(request, MAGNITUDE_ENERGY, [&](const sensor_magnitude_t& magnitude) {
- _sensorApiResetEnergy(magnitude, request.param(F("value")));
- });
- };
- }
-
- apiRegister(pattern, std::move(get), std::move(put));
- });
-
- }
-
- #endif // API_SUPPORT == 1
-
- #if MQTT_SUPPORT
-
- void _sensorMqttCallback(unsigned int type, const char* topic, char* payload) {
- static const auto energy_topic = magnitudeTopic(MAGNITUDE_ENERGY);
- switch (type) {
- case MQTT_MESSAGE_EVENT: {
- String t = mqttMagnitude((char *) topic);
- if (!t.startsWith(energy_topic)) break;
-
- unsigned int index = t.substring(energy_topic.length() + 1).toInt();
- if (index >= sensor_magnitude_t::counts(MAGNITUDE_ENERGY)) break;
-
- for (auto& magnitude : _magnitudes) {
- if (MAGNITUDE_ENERGY != magnitude.type) continue;
- if (index != magnitude.index_global) continue;
- _sensorApiResetEnergy(magnitude, payload);
- break;
- }
- }
- case MQTT_CONNECT_EVENT: {
- for (auto& magnitude : _magnitudes) {
- if (MAGNITUDE_ENERGY == magnitude.type) {
- const String topic = energy_topic + "/+";
- mqttSubscribe(topic.c_str());
- break;
- }
- }
- }
- case MQTT_DISCONNECT_EVENT:
- default:
- break;
- }
- }
-
- #endif // MQTT_SUPPORT == 1
-
- #if TERMINAL_SUPPORT
-
- void _sensorInitCommands() {
- terminalRegisterCommand(F("MAGNITUDES"), [](const terminal::CommandContext&) {
- char last[64];
- char reported[64];
- for (size_t index = 0; index < _magnitudes.size(); ++index) {
- auto& magnitude = _magnitudes.at(index);
- dtostrf(magnitude.last, 1, magnitude.decimals, last);
- dtostrf(magnitude.reported, 1, magnitude.decimals, reported);
- DEBUG_MSG_P(PSTR("[SENSOR] %2u * %s/%u @ %s (last:%s, reported:%s)\n"),
- index,
- magnitudeTopic(magnitude.type).c_str(),
- magnitude.index_global,
- _magnitudeDescription(magnitude).c_str(),
- last, reported
- );
- }
- terminalOK();
- });
- }
-
- #endif // TERMINAL_SUPPORT == 1
-
- void _sensorTick() {
- for (auto* sensor : _sensors) {
- sensor->tick();
- }
- }
-
- void _sensorPre() {
- for (auto* sensor : _sensors) {
- sensor->pre();
- if (!sensor->status()) {
- DEBUG_MSG_P(PSTR("[SENSOR] Error reading data from %s (error: %d)\n"),
- sensor->description().c_str(),
- sensor->error()
- );
- }
- }
- }
-
- void _sensorPost() {
- for (auto* sensor : _sensors) {
- sensor->post();
- }
- }
-
- // -----------------------------------------------------------------------------
- // Sensor initialization
- // -----------------------------------------------------------------------------
-
- void _sensorLoad() {
-
- /*
-
- This is temporal, in the future sensors will be initialized based on
- soft configuration (data stored in EEPROM config) so you will be able
- to define and configure new sensors on the fly
-
- At the time being, only enabled sensors (those with *_SUPPORT to 1) are being
- loaded and initialized here. If you want to add new sensors of the same type
- just duplicate the block and change the arguments for the set* methods.
-
- For example, how to add a second DHT sensor:
-
- #if DHT_SUPPORT
- {
- DHTSensor * sensor = new DHTSensor();
- sensor->setGPIO(DHT2_PIN);
- sensor->setType(DHT2_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- DHT2_PIN and DHT2_TYPE should be globally accessible:
- - as `src_build_flags = -DDHT2_PIN=... -DDHT2_TYPE=...`
- - in custom.h, as `#define ...`
-
- */
-
- #if AM2320_SUPPORT
- {
- AM2320Sensor * sensor = new AM2320Sensor();
- sensor->setAddress(AM2320_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if ANALOG_SUPPORT
- {
- AnalogSensor * sensor = new AnalogSensor();
- sensor->setSamples(ANALOG_SAMPLES);
- sensor->setDelay(ANALOG_DELAY);
- //CICM For analog scaling
- sensor->setFactor(ANALOG_FACTOR);
- sensor->setOffset(ANALOG_OFFSET);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BH1750_SUPPORT
- {
- BH1750Sensor * sensor = new BH1750Sensor();
- sensor->setAddress(BH1750_ADDRESS);
- sensor->setMode(BH1750_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BMP180_SUPPORT
- {
- BMP180Sensor * sensor = new BMP180Sensor();
- sensor->setAddress(BMP180_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if BMX280_SUPPORT
- {
- // Support up to two sensors with full auto-discovery.
- const unsigned char number = constrain(getSetting("bmx280Number", BMX280_NUMBER), 1, 2);
-
- // For second sensor, if BMX280_ADDRESS is 0x00 then auto-discover
- // otherwise choose the other unnamed sensor address
- const auto first = getSetting("bmx280Address", BMX280_ADDRESS);
- const auto second = (first == 0x00) ? 0x00 : (0x76 + 0x77 - first);
-
- const decltype(first) address_map[2] { first, second };
-
- for (unsigned char n=0; n < number; ++n) {
- BMX280Sensor * sensor = new BMX280Sensor();
- sensor->setAddress(address_map[n]);
- _sensors.push_back(sensor);
- }
- }
- #endif
-
- #if BME680_SUPPORT
- {
- BME680Sensor * sensor = new BME680Sensor();
- sensor->setAddress(BME680_I2C_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if CSE7766_SUPPORT
- {
- CSE7766Sensor * sensor = new CSE7766Sensor();
- sensor->setRX(CSE7766_RX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if DALLAS_SUPPORT
- {
- DallasSensor * sensor = new DallasSensor();
- sensor->setGPIO(DALLAS_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if DHT_SUPPORT
- {
- DHTSensor * sensor = new DHTSensor();
- sensor->setGPIO(DHT_PIN);
- sensor->setType(DHT_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if DIGITAL_SUPPORT
- {
- auto getPin = [](unsigned char index) -> int {
- switch (index) {
- case 0: return DIGITAL1_PIN;
- case 1: return DIGITAL2_PIN;
- case 2: return DIGITAL3_PIN;
- case 3: return DIGITAL4_PIN;
- case 4: return DIGITAL5_PIN;
- case 5: return DIGITAL6_PIN;
- case 6: return DIGITAL7_PIN;
- case 7: return DIGITAL8_PIN;
- default: return GPIO_NONE;
- }
- };
-
- auto getDefaultState = [](unsigned char index) -> int {
- switch (index) {
- case 0: return DIGITAL1_DEFAULT_STATE;
- case 1: return DIGITAL2_DEFAULT_STATE;
- case 2: return DIGITAL3_DEFAULT_STATE;
- case 3: return DIGITAL4_DEFAULT_STATE;
- case 4: return DIGITAL5_DEFAULT_STATE;
- case 5: return DIGITAL6_DEFAULT_STATE;
- case 6: return DIGITAL7_DEFAULT_STATE;
- case 7: return DIGITAL8_DEFAULT_STATE;
- default: return 1;
- }
- };
-
- auto getMode = [](unsigned char index) -> int {
- switch (index) {
- case 0: return DIGITAL1_PIN_MODE;
- case 1: return DIGITAL2_PIN_MODE;
- case 2: return DIGITAL3_PIN_MODE;
- case 3: return DIGITAL4_PIN_MODE;
- case 4: return DIGITAL5_PIN_MODE;
- case 5: return DIGITAL6_PIN_MODE;
- case 6: return DIGITAL7_PIN_MODE;
- case 7: return DIGITAL8_PIN_MODE;
- default: return INPUT_PULLUP;
- }
- };
-
- auto pins = gpioPins();
- for (unsigned char index = 0; index < pins; ++index) {
- const auto pin = getPin(index);
- if (pin == GPIO_NONE) break;
-
- DigitalSensor * sensor = new DigitalSensor();
- sensor->setGPIO(pin);
- sensor->setMode(getMode(index));
- sensor->setDefault(getDefaultState(index));
-
- _sensors.push_back(sensor);
- }
- }
- #endif
-
- #if ECH1560_SUPPORT
- {
- ECH1560Sensor * sensor = new ECH1560Sensor();
- sensor->setCLK(ECH1560_CLK_PIN);
- sensor->setMISO(ECH1560_MISO_PIN);
- sensor->setInverted(ECH1560_INVERTED);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ADC121_SUPPORT
- {
- EmonADC121Sensor * sensor = new EmonADC121Sensor();
- sensor->setAddress(EMON_ADC121_I2C_ADDRESS);
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setReference(EMON_REFERENCE_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ADS1X15_SUPPORT
- {
- EmonADS1X15Sensor * sensor = new EmonADS1X15Sensor();
- sensor->setAddress(EMON_ADS1X15_I2C_ADDRESS);
- sensor->setType(EMON_ADS1X15_TYPE);
- sensor->setMask(EMON_ADS1X15_MASK);
- sensor->setGain(EMON_ADS1X15_GAIN);
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(1, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(2, EMON_CURRENT_RATIO);
- sensor->setCurrentRatio(3, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EMON_ANALOG_SUPPORT
- {
- EmonAnalogSensor * sensor = new EmonAnalogSensor();
- sensor->setVoltage(EMON_MAINS_VOLTAGE);
- sensor->setReference(EMON_REFERENCE_VOLTAGE);
- sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EVENTS_SUPPORT
- {
- auto getPin = [](unsigned char index) -> int {
- switch (index) {
- case 0: return EVENTS1_PIN;
- case 1: return EVENTS2_PIN;
- case 2: return EVENTS3_PIN;
- case 3: return EVENTS4_PIN;
- case 4: return EVENTS5_PIN;
- case 5: return EVENTS6_PIN;
- case 6: return EVENTS7_PIN;
- case 7: return EVENTS8_PIN;
- default: return GPIO_NONE;
- }
- };
-
- auto getMode = [](unsigned char index) -> int {
- switch (index) {
- case 0: return EVENTS1_PIN_MODE;
- case 1: return EVENTS2_PIN_MODE;
- case 2: return EVENTS3_PIN_MODE;
- case 3: return EVENTS4_PIN_MODE;
- case 4: return EVENTS5_PIN_MODE;
- case 5: return EVENTS6_PIN_MODE;
- case 6: return EVENTS7_PIN_MODE;
- case 7: return EVENTS8_PIN_MODE;
- default: return INPUT;
- }
- };
-
- auto getDebounce = [](unsigned char index) -> unsigned long {
- switch (index) {
- case 0: return EVENTS1_DEBOUNCE;
- case 1: return EVENTS2_DEBOUNCE;
- case 2: return EVENTS3_DEBOUNCE;
- case 3: return EVENTS4_DEBOUNCE;
- case 4: return EVENTS5_DEBOUNCE;
- case 5: return EVENTS6_DEBOUNCE;
- case 6: return EVENTS7_DEBOUNCE;
- case 7: return EVENTS8_DEBOUNCE;
- default: return 50;
- }
- };
-
- auto getIsrMode = [](unsigned char index) -> int {
- switch (index) {
- case 0: return EVENTS1_INTERRUPT_MODE;
- case 1: return EVENTS2_INTERRUPT_MODE;
- case 2: return EVENTS3_INTERRUPT_MODE;
- case 3: return EVENTS4_INTERRUPT_MODE;
- case 4: return EVENTS5_INTERRUPT_MODE;
- case 5: return EVENTS6_INTERRUPT_MODE;
- case 6: return EVENTS7_INTERRUPT_MODE;
- case 7: return EVENTS8_INTERRUPT_MODE;
- default: return RISING;
- }
- };
-
- auto pins = gpioPins();
- for (unsigned char index = 0; index < pins; ++index) {
- const auto pin = getPin(index);
- if (pin == GPIO_NONE) break;
-
- EventSensor * sensor = new EventSensor();
- sensor->setGPIO(pin);
- sensor->setPinMode(getMode(index));
- sensor->setDebounceTime(getDebounce(index));
- sensor->setInterruptMode(getIsrMode(index));
- _sensors.push_back(sensor);
- }
- }
- #endif
-
- #if GEIGER_SUPPORT
- {
- GeigerSensor * sensor = new GeigerSensor(); // Create instance of thr Geiger module.
- sensor->setGPIO(GEIGER_PIN); // Interrupt pin of the attached geiger counter board.
- sensor->setMode(GEIGER_PIN_MODE); // This pin is an input.
- sensor->setDebounceTime(GEIGER_DEBOUNCE); // Debounce time 25ms, because https://github.com/Trickx/espurna/wiki/Geiger-counter
- sensor->setInterruptMode(GEIGER_INTERRUPT_MODE); // Interrupt triggering: edge detection rising.
- sensor->setCPM2SievertFactor(GEIGER_CPM2SIEVERT); // Conversion factor from counts per minute to µSv/h
- _sensors.push_back(sensor);
- }
- #endif
-
- #if GUVAS12SD_SUPPORT
- {
- GUVAS12SDSensor * sensor = new GUVAS12SDSensor();
- sensor->setGPIO(GUVAS12SD_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SONAR_SUPPORT
- {
- SonarSensor * sensor = new SonarSensor();
- sensor->setEcho(SONAR_ECHO);
- sensor->setIterations(SONAR_ITERATIONS);
- sensor->setMaxDistance(SONAR_MAX_DISTANCE);
- sensor->setTrigger(SONAR_TRIGGER);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if HLW8012_SUPPORT
- {
- HLW8012Sensor * sensor = new HLW8012Sensor();
- sensor->setSEL(getSetting("snsHlw8012SelGPIO", HLW8012_SEL_PIN));
- sensor->setCF(getSetting("snsHlw8012CfGPIO", HLW8012_CF_PIN));
- sensor->setCF1(getSetting("snsHlw8012Cf1GPIO", HLW8012_CF1_PIN));
- sensor->setSELCurrent(HLW8012_SEL_CURRENT);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if LDR_SUPPORT
- {
- LDRSensor * sensor = new LDRSensor();
- sensor->setSamples(LDR_SAMPLES);
- sensor->setDelay(LDR_DELAY);
- sensor->setType(LDR_TYPE);
- sensor->setPhotocellPositionOnGround(LDR_ON_GROUND);
- sensor->setResistor(LDR_RESISTOR);
- sensor->setPhotocellParameters(LDR_MULTIPLICATION, LDR_POWER);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MHZ19_SUPPORT
- {
- MHZ19Sensor * sensor = new MHZ19Sensor();
- sensor->setRX(MHZ19_RX_PIN);
- sensor->setTX(MHZ19_TX_PIN);
- sensor->setCalibrateAuto(getSetting("mhz19CalibrateAuto", false));
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MICS2710_SUPPORT
- {
- MICS2710Sensor * sensor = new MICS2710Sensor();
- sensor->setAnalogGPIO(MICS2710_NOX_PIN);
- sensor->setPreHeatGPIO(MICS2710_PRE_PIN);
- sensor->setR0(MICS2710_R0);
- sensor->setRL(MICS2710_RL);
- sensor->setRS(0);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MICS5525_SUPPORT
- {
- MICS5525Sensor * sensor = new MICS5525Sensor();
- sensor->setAnalogGPIO(MICS5525_RED_PIN);
- sensor->setR0(MICS5525_R0);
- sensor->setRL(MICS5525_RL);
- sensor->setRS(0);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if NTC_SUPPORT
- {
- NTCSensor * sensor = new NTCSensor();
- sensor->setSamples(NTC_SAMPLES);
- sensor->setDelay(NTC_DELAY);
- sensor->setUpstreamResistor(NTC_R_UP);
- sensor->setDownstreamResistor(NTC_R_DOWN);
- sensor->setBeta(NTC_BETA);
- sensor->setR0(NTC_R0);
- sensor->setT0(NTC_T0);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PMSX003_SUPPORT
- {
- PMSX003Sensor * sensor = new PMSX003Sensor();
- #if PMS_USE_SOFT
- sensor->setRX(PMS_RX_PIN);
- sensor->setTX(PMS_TX_PIN);
- #else
- sensor->setSerial(& PMS_HW_PORT);
- #endif
- sensor->setType(PMS_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PULSEMETER_SUPPORT
- {
-
- PulseMeterSensor * sensor = new PulseMeterSensor();
- sensor->setGPIO(PULSEMETER_PIN);
- sensor->setEnergyRatio(PULSEMETER_ENERGY_RATIO);
- sensor->setInterruptMode(PULSEMETER_INTERRUPT_ON);
- sensor->setDebounceTime(PULSEMETER_DEBOUNCE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PZEM004T_SUPPORT
- {
- String addresses = getSetting("pzemAddr", F(PZEM004T_ADDRESSES));
- if (!addresses.length()) {
- DEBUG_MSG_P(PSTR("[SENSOR] PZEM004T Error: no addresses are configured\n"));
- return;
- }
-
- PZEM004TSensor * sensor = PZEM004TSensor::create();
- sensor->setAddresses(addresses.c_str());
- sensor->setRX(getSetting("pzemRX", PZEM004T_RX_PIN));
- sensor->setTX(getSetting("pzemTX", PZEM004T_TX_PIN));
-
- if (!getSetting("pzemSoft", 1 == PZEM004T_USE_SOFT)) {
- sensor->setSerial(& PZEM004T_HW_PORT);
- }
-
- _sensors.push_back(sensor);
-
- #if TERMINAL_SUPPORT
- pzem004tInitCommands();
- #endif
- }
- #endif
-
- #if SENSEAIR_SUPPORT
- {
- SenseAirSensor * sensor = new SenseAirSensor();
- sensor->setRX(SENSEAIR_RX_PIN);
- sensor->setTX(SENSEAIR_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SDS011_SUPPORT
- {
- SDS011Sensor * sensor = new SDS011Sensor();
- sensor->setRX(SDS011_RX_PIN);
- sensor->setTX(SDS011_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SHT3X_I2C_SUPPORT
- {
- SHT3XI2CSensor * sensor = new SHT3XI2CSensor();
- sensor->setAddress(SHT3X_I2C_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SI7021_SUPPORT
- {
- SI7021Sensor * sensor = new SI7021Sensor();
- sensor->setAddress(SI7021_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if T6613_SUPPORT
- {
- T6613Sensor * sensor = new T6613Sensor();
- sensor->setRX(T6613_RX_PIN);
- sensor->setTX(T6613_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if TMP3X_SUPPORT
- {
- TMP3XSensor * sensor = new TMP3XSensor();
- sensor->setType(TMP3X_TYPE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if V9261F_SUPPORT
- {
- V9261FSensor * sensor = new V9261FSensor();
- sensor->setRX(V9261F_PIN);
- sensor->setInverted(V9261F_PIN_INVERSE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if MAX6675_SUPPORT
- {
- MAX6675Sensor * sensor = new MAX6675Sensor();
- sensor->setCS(MAX6675_CS_PIN);
- sensor->setSO(MAX6675_SO_PIN);
- sensor->setSCK(MAX6675_SCK_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if VEML6075_SUPPORT
- {
- VEML6075Sensor * sensor = new VEML6075Sensor();
- sensor->setIntegrationTime(VEML6075_INTEGRATION_TIME);
- sensor->setDynamicMode(VEML6075_DYNAMIC_MODE);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if VL53L1X_SUPPORT
- {
- VL53L1XSensor * sensor = new VL53L1XSensor();
- sensor->setInterMeasurementPeriod(VL53L1X_INTER_MEASUREMENT_PERIOD);
- sensor->setDistanceMode(VL53L1X_DISTANCE_MODE);
- sensor->setMeasurementTimingBudget(VL53L1X_MEASUREMENT_TIMING_BUDGET);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if EZOPH_SUPPORT
- {
- EZOPHSensor * sensor = new EZOPHSensor();
- sensor->setRX(EZOPH_RX_PIN);
- sensor->setTX(EZOPH_TX_PIN);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if ADE7953_SUPPORT
- {
- ADE7953Sensor * sensor = new ADE7953Sensor();
- sensor->setAddress(ADE7953_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if SI1145_SUPPORT
- {
- SI1145Sensor * sensor = new SI1145Sensor();
- sensor->setAddress(SI1145_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if HDC1080_SUPPORT
- {
- HDC1080Sensor * sensor = new HDC1080Sensor();
- sensor->setAddress(HDC1080_ADDRESS);
- _sensors.push_back(sensor);
- }
- #endif
-
- #if PZEM004TV30_SUPPORT
- {
- PZEM004TV30Sensor * sensor = PZEM004TV30Sensor::create();
-
- // TODO: we need an equivalent to the `pzem.address` command
- sensor->setAddress(getSetting("pzemv30Addr", PZEM004TV30Sensor::DefaultAddress));
- sensor->setReadTimeout(getSetting("pzemv30ReadTimeout", PZEM004TV30Sensor::DefaultReadTimeout));
- sensor->setDebug(getSetting("pzemv30Debug", 1 == PZEM004TV30_DEBUG));
-
- bool soft = getSetting("pzemv30Soft", 1 == PZEM004TV30_USE_SOFT);
-
- int tx = getSetting("pzemv30TX", PZEM004TV30_TX_PIN);
- int rx = getSetting("pzemv30RX", PZEM004TV30_RX_PIN);
-
- // we operate only with Serial, as Serial1 cannot not receive any data
- if (!soft) {
- sensor->setStream(&Serial);
- sensor->setDescription("HwSerial");
- Serial.begin(PZEM004TV30Sensor::Baudrate);
- // Core does not allow us to begin(baud, cfg, rx, tx) / pins(rx, tx) before begin(baud)
- // b/c internal UART handler does not exist yet
- // Also see https://github.com/esp8266/Arduino/issues/2380 as to why there is flush()
- if ((tx == 15) && (rx == 13)) {
- Serial.flush();
- Serial.swap();
- }
- } else {
- auto* ptr = new SoftwareSerial(rx, tx);
- sensor->setDescription("SwSerial");
- sensor->setStream(ptr); // we don't care about lifetime
- ptr->begin(PZEM004TV30Sensor::Baudrate);
- }
-
- //TODO: getSetting("pzemv30*Cfg", (SW)SERIAL_8N1); ?
- // may not be relevant, but some sources claim we need 8N2
-
- _sensors.push_back(sensor);
- }
- #endif
-
- }
-
- String _magnitudeTopicIndex(const sensor_magnitude_t& magnitude) {
- char buffer[32] = {0};
-
- String topic { magnitudeTopic(magnitude.type) };
- if (SENSOR_USE_INDEX || (sensor_magnitude_t::counts(magnitude.type) > 1)) {
- snprintf(buffer, sizeof(buffer), "%s/%u", topic.c_str(), magnitude.index_global);
- } else {
- snprintf(buffer, sizeof(buffer), "%s", topic.c_str());
- }
-
- return String(buffer);
- }
-
- void _sensorReport(unsigned char index, const sensor_magnitude_t& magnitude) {
-
- // XXX: dtostrf only handles basic floating point values and will never produce scientific notation
- // ensure decimals is within some sane limit and the actual value never goes above this buffer size
- char buffer[64];
- dtostrf(magnitude.reported, 1, magnitude.decimals, buffer);
-
- #if BROKER_SUPPORT
- SensorReportBroker::Publish(magnitudeTopic(magnitude.type), magnitude.index_global, magnitude.reported, buffer);
- #endif
-
- #if MQTT_SUPPORT
- {
- const String topic(_magnitudeTopicIndex(magnitude));
- mqttSend(topic.c_str(), buffer);
-
- #if SENSOR_PUBLISH_ADDRESSES
- String address_topic;
- address_topic.reserve(topic.length() + 1 + strlen(SENSOR_ADDRESS_TOPIC));
-
- address_topic += F(SENSOR_ADDRESS_TOPIC);
- address_topic += '/';
- address_topic += topic;
-
- mqttSend(address_topic.c_str(), magnitude.sensor->address(magnitude.slot).c_str());
- #endif // SENSOR_PUBLISH_ADDRESSES
-
- }
- #endif // MQTT_SUPPORT
-
- // TODO: both integrations depend on the absolute index instead of specific type
- // so, we still need to pass / know the 'global' index inside of _magnitudes[]
-
- #if THINGSPEAK_SUPPORT
- tspkEnqueueMeasurement(index, buffer);
- #endif // THINGSPEAK_SUPPORT
-
- #if DOMOTICZ_SUPPORT
- domoticzSendMagnitude(magnitude.type, index, magnitude.reported, buffer);
- #endif // DOMOTICZ_SUPPORT
-
- }
-
- void _sensorInit() {
-
- _sensors_ready = true;
-
- for (auto& sensor : _sensors) {
-
- // Do not process an already initialized sensor
- if (sensor->ready()) continue;
- DEBUG_MSG_P(PSTR("[SENSOR] Initializing %s\n"), sensor->description().c_str());
-
- // Force sensor to reload config
- sensor->begin();
- if (!sensor->ready()) {
- if (0 != sensor->error()) {
- DEBUG_MSG_P(PSTR("[SENSOR] -> ERROR %d\n"), sensor->error());
- }
- _sensors_ready = false;
- break;
- }
-
- // Initialize sensor magnitudes
- for (unsigned char magnitude_index = 0; magnitude_index < sensor->count(); ++magnitude_index) {
-
- const auto magnitude_type = sensor->type(magnitude_index);
- const auto magnitude_local = sensor->local(magnitude_type);
- _magnitudes.emplace_back(
- magnitude_index, // id of the magnitude, unique to the sensor
- magnitude_local, // index_local, # of the magnitude
- magnitude_type, // specific type of the magnitude
- sensor::Unit::None, // set up later, in configuration
- sensor // bind the sensor to allow us to reference it later
- );
-
- if (_sensorIsEmon(sensor) && (MAGNITUDE_ENERGY == magnitude_type)) {
- const auto index_global = _magnitudes.back().index_global;
- auto* ptr = static_cast<BaseEmonSensor*>(sensor);
- ptr->resetEnergy(magnitude_local, _sensorEnergyTotal(index_global));
- _sensor_save_count.push_back(0);
- }
-
- DEBUG_MSG_P(PSTR("[SENSOR] -> %s:%u\n"),
- magnitudeTopic(magnitude_type).c_str(),
- sensor_magnitude_t::counts(magnitude_type)
- );
-
- }
-
- // Custom initializations are based on IDs
-
- switch (sensor->getID()) {
- case SENSOR_MICS2710_ID:
- case SENSOR_MICS5525_ID: {
- auto* ptr = static_cast<BaseAnalogSensor*>(sensor);
- ptr->setR0(getSetting("snsR0", ptr->getR0()));
- ptr->setRS(getSetting("snsRS", ptr->getRS()));
- ptr->setRL(getSetting("snsRL", ptr->getRL()));
- break;
- }
- default:
- break;
- }
-
- }
-
- }
-
- namespace settings {
- namespace internal {
-
- template <>
- sensor::Unit convert(const String& string) {
- auto len = value.length();
- if (len && isNumber(value)) {
- constexpr int Min { static_cast<int>(sensor::Unit::Min_) };
- constexpr int Max { static_cast<int>(sensor::Unit::Max_) };
- auto num = convert<int>(value);
- if ((Min < num) && (num < Max)) {
- return static_cast<sensor::Unit>(num);
- }
- }
-
- return sensor::Unit::None;
- }
-
- String serialize(sensor::Unit unit) {
- return serialize(static_cast<int>(unit));
- }
-
- } // namespace internal
- } // namespace settings
-
- void _sensorConfigure() {
-
- // General sensor settings for reporting and saving
- _sensor_read_interval = 1000 * constrain(getSetting("snsRead", SENSOR_READ_INTERVAL), SENSOR_READ_MIN_INTERVAL, SENSOR_READ_MAX_INTERVAL);
- _sensor_report_every = constrain(getSetting("snsReport", SENSOR_REPORT_EVERY), SENSOR_REPORT_MIN_EVERY, SENSOR_REPORT_MAX_EVERY);
- _sensor_save_every = getSetting("snsSave", SENSOR_SAVE_EVERY);
-
- _sensor_realtime = getSetting("apiRealTime", 1 == API_REAL_TIME_VALUES);
-
- // pre-load some settings that are controlled via old build flags
- const auto tmp_min_delta = getSetting("tmpMinDelta", TEMPERATURE_MIN_CHANGE);
- const auto hum_min_delta = getSetting("humMinDelta", HUMIDITY_MIN_CHANGE);
- const auto ene_max_delta = getSetting("eneMaxDelta", ENERGY_MAX_CHANGE);
-
- // Apply settings based on sensor type
- for (unsigned char index = 0; index < _sensors.size(); ++index) {
-
- #if MICS2710_SUPPORT || MICS5525_SUPPORT
- {
- if (getSetting("snsResetCalibration", false)) {
- switch (_sensors[index]->getID()) {
- case SENSOR_MICS2710_ID:
- case SENSOR_MICS5525_ID: {
- auto* sensor = static_cast<BaseAnalogSensor*>(_sensors[index]);
- sensor->calibrate();
- setSetting("snsR0", sensor->getR0());
- break;
- }
- default:
- break;
- }
- }
- }
- #endif // MICS2710_SUPPORT || MICS5525_SUPPORT
-
- if (_sensorIsEmon(_sensors[index])) {
-
- // TODO: ::isEmon() ?
- double value;
- auto* sensor = static_cast<BaseEmonSensor*>(_sensors[index]);
-
- if ((value = getSetting("pwrExpectedC", 0.0))) {
- sensor->expectedCurrent(value);
- delSetting("pwrExpectedC");
- setSetting("pwrRatioC", sensor->getCurrentRatio());
- }
-
- if ((value = getSetting("pwrExpectedV", 0.0))) {
- delSetting("pwrExpectedV");
- sensor->expectedVoltage(value);
- setSetting("pwrRatioV", sensor->getVoltageRatio());
- }
-
- if ((value = getSetting("pwrExpectedP", 0.0))) {
- delSetting("pwrExpectedP");
- sensor->expectedPower(value);
- setSetting("pwrRatioP", sensor->getPowerRatio());
- }
-
- if (getSetting("pwrResetE", false)) {
- delSetting("pwrResetE");
- for (size_t index = 0; index < sensor->countDevices(); ++index) {
- sensor->resetEnergy(index);
- _sensorResetEnergyTotal(index);
- }
- }
-
- if (getSetting("pwrResetCalibration", false)) {
- delSetting("pwrResetCalibration");
- delSetting("pwrRatioC");
- delSetting("pwrRatioV");
- delSetting("pwrRatioP");
- sensor->resetRatios();
- }
-
- } // is emon?
-
- }
-
- // Update magnitude config, filter sizes and reset energy if needed
- {
- for (unsigned char index = 0; index < _magnitudes.size(); ++index) {
-
- auto& magnitude = _magnitudes.at(index);
-
- // process emon-specific settings first. ensure that settings use global index and we access sensor with the local one
- if (_sensorIsEmon(magnitude.sensor)) {
- // TODO: compatibility proxy, fetch global key before indexed
- auto get_ratio = [](const char* key, unsigned char index, double default_value) -> double {
- return getSetting({key, index}, getSetting(key, default_value));
- };
-
- auto* sensor = static_cast<BaseEmonSensor*>(magnitude.sensor);
-
- switch (magnitude.type) {
- case MAGNITUDE_CURRENT:
- sensor->setCurrentRatio(
- magnitude.index_local, get_ratio("pwrRatioC", magnitude.index_global, sensor->defaultCurrentRatio())
- );
- break;
- case MAGNITUDE_POWER_ACTIVE:
- sensor->setPowerRatio(
- magnitude.index_local, get_ratio("pwrRatioP", magnitude.index_global, sensor->defaultPowerRatio())
- );
- break;
- case MAGNITUDE_VOLTAGE:
- sensor->setVoltageRatio(
- magnitude.index_local, get_ratio("pwrRatioV", magnitude.index_global, sensor->defaultVoltageRatio())
- );
- sensor->setVoltage(
- magnitude.index_local, get_ratio("pwrVoltage", magnitude.index_global, sensor->defaultVoltage())
- );
- break;
- case MAGNITUDE_ENERGY:
- sensor->setEnergyRatio(
- magnitude.index_local, get_ratio("pwrRatioE", magnitude.index_global, sensor->defaultEnergyRatio())
- );
- break;
- default:
- break;
- }
- }
-
- // adjust type-specific units
- {
- const sensor::Unit default_unit { magnitude.sensor->units(magnitude.slot) };
- const String key {
- String(_magnitudeSettingsPrefix(magnitude.type)) + F("Units") + String(magnitude.index_global, 10) };
-
- magnitude.units = _magnitudeUnitFilter(magnitude, getSetting(key, default_unit));
- }
-
- // some magnitudes allow to be corrected with an offset
- {
- if (_magnitudeCanUseCorrection(magnitude.type)) {
- auto key = String(_magnitudeSettingsPrefix(magnitude.type)) + F("Correction");
- magnitude.correction = getSetting({key, magnitude.index_global}, getSetting(key, _magnitudeCorrection(magnitude.type)));
- }
- }
-
- // some sensors can override decimal values if sensor has more precision than default
- {
- signed char decimals = magnitude.sensor->decimals(magnitude.units);
- if (decimals < 0) decimals = _sensorUnitDecimals(magnitude.units);
- magnitude.decimals = (unsigned char) decimals;
- }
-
- // Per-magnitude min & max delta settings
- // - min controls whether we report at all when report_count overflows
- // - max will trigger report as soon as read value is greater than the specified delta
- // (atm this works best for accumulated magnitudes, like energy)
- {
- auto min_default = 0.0;
- auto max_default = 0.0;
-
- switch (magnitude.type) {
- case MAGNITUDE_TEMPERATURE:
- min_default = tmp_min_delta;
- break;
- case MAGNITUDE_HUMIDITY:
- min_default = hum_min_delta;
- break;
- case MAGNITUDE_ENERGY:
- max_default = ene_max_delta;
- break;
- default:
- break;
- }
-
- magnitude.min_change = getSetting(
- {_magnitudeSettingsKey(magnitude, F("MinDelta")), magnitude.index_global},
- min_default
- );
- magnitude.max_change = getSetting(
- {_magnitudeSettingsKey(magnitude, F("MaxDelta")), magnitude.index_global},
- max_default
- );
- }
-
- // Sometimes we want to ensure the value is above certain threshold before reporting
- {
- magnitude.zero_threshold = getSetting(
- {_magnitudeSettingsKey(magnitude, F("ZeroThreshold")), magnitude.index_global},
- std::numeric_limits<double>::quiet_NaN()
- );
- }
-
- // in case we don't save energy periodically, purge existing value in ram & settings
- if ((MAGNITUDE_ENERGY == magnitude.type) && (0 == _sensor_save_every)) {
- _sensorResetEnergyTotal(magnitude.index_global);
- }
-
- }
- }
-
- saveSettings();
-
- }
-
- // -----------------------------------------------------------------------------
- // Public
- // -----------------------------------------------------------------------------
-
- unsigned char sensorCount() {
- return _sensors.size();
- }
-
- unsigned char magnitudeCount() {
- return _magnitudes.size();
- }
-
- unsigned char magnitudeType(unsigned char index) {
- if (index < _magnitudes.size()) {
- return _magnitudes[index].type;
- }
- return MAGNITUDE_NONE;
- }
-
- double sensor::Value::get() {
- return _sensor_realtime ? last : reported;
- }
-
- sensor::Value magnitudeValue(unsigned char index) {
- sensor::Value result;
-
- if (index >= _magnitudes.size()) {
- result.last = std::numeric_limits<double>::quiet_NaN(),
- result.reported = std::numeric_limits<double>::quiet_NaN(),
- result.decimals = 0u;
- return result;
- }
-
- auto& magnitude = _magnitudes[index];
- result.last = magnitude.last;
- result.reported = magnitude.reported;
- result.decimals = magnitude.decimals;
-
- return result;
- }
-
- void magnitudeFormat(const sensor::Value& value, char* out, size_t) {
- // TODO: 'size' does not do anything, since dtostrf used here is expected to be 'sane', but
- // it does not allow any size arguments besides for digits after the decimal point
- dtostrf(
- _sensor_realtime ? value.last : value.reported,
- 1, value.decimals,
- out
- );
- }
-
- unsigned char magnitudeIndex(unsigned char index) {
- if (index < _magnitudes.size()) {
- return _magnitudes[index].index_global;
- }
- return 0;
- }
-
- String magnitudeDescription(unsigned char index) {
- if (index < _magnitudes.size()) {
- return _magnitudeDescription(_magnitudes[index]);
- }
- return String();
- }
-
- String magnitudeTopicIndex(unsigned char index) {
- if (index < _magnitudes.size()) {
- return _magnitudeTopicIndex(_magnitudes[index]);
- }
- return String();
- }
-
- // -----------------------------------------------------------------------------
-
- void _sensorBackwards(int version) {
- // Some keys from older versions were longer
- if (version < 3) {
- moveSetting("powerUnits", "pwrUnits");
- moveSetting("energyUnits", "eneUnits");
- }
-
- // Energy is now indexed (based on magnitude.index_global)
- // Also update PZEM004T energy total across multiple devices
- if (version < 5) {
- moveSetting("eneTotal", "eneTotal0");
- moveSettings("pzEneTotal", "eneTotal");
- }
-
- // Unit ID is no longer shared, drop when equal to Min_ or None
- if (version < 5) {
- delSetting("pwrUnits");
- delSetting("eneUnits");
- delSetting("tmpUnits");
- }
- }
-
- void sensorSetup() {
-
- // Settings backwards compatibility
- _sensorBackwards(migrateVersion());
-
- // Load configured sensors and set up all of magnitudes
- _sensorLoad();
- _sensorInit();
-
- // Configure based on settings
- _sensorConfigure();
-
- // Allow us to query key default
- settingsRegisterDefaults({
- [](const char* key) -> bool {
- if (strncmp(key, "pwr", 3) == 0) return true;
- return false;
- },
- _sensorQueryDefault
- });
-
- // Websockets integration, send sensor readings and configuration
- #if WEB_SUPPORT
- wsRegister()
- .onVisible(_sensorWebSocketOnVisible)
- .onConnected(_sensorWebSocketOnConnected)
- .onData(_sensorWebSocketSendData)
- .onKeyCheck(_sensorWebSocketOnKeyCheck);
- #endif
-
- // MQTT receive callback, atm only for energy reset
- #if MQTT_SUPPORT
- mqttRegister(_sensorMqttCallback);
- #endif
-
- // API
- #if API_SUPPORT
- _sensorApiSetup();
- #endif
-
- // Terminal
- #if TERMINAL_SUPPORT
- _sensorInitCommands();
- #endif
-
- // Main callbacks
- espurnaRegisterLoop(sensorLoop);
- espurnaRegisterReload(_sensorConfigure);
-
- }
-
- void sensorLoop() {
-
- // Check if we still have uninitialized sensors
- static unsigned long last_init = 0;
- if (!_sensors_ready) {
- if (millis() - last_init > SENSOR_INIT_INTERVAL) {
- last_init = millis();
- _sensorInit();
- }
- }
-
- if (_magnitudes.size() == 0) return;
-
- // Tick hook, called every loop()
- _sensorTick();
-
- // Check if we should read new data
- static unsigned long last_update = 0;
- static unsigned long report_count = 0;
- if (millis() - last_update > _sensor_read_interval) {
-
- last_update = millis();
- report_count = (report_count + 1) % _sensor_report_every;
-
- double value_raw; // holds the raw value as the sensor returns it
- double value_show; // holds the processed value applying units and decimals
- double value_filtered; // holds the processed value applying filters, and the units and decimals
-
- // Pre-read hook, called every reading
- _sensorPre();
-
- // Get the first relay state
- #if RELAY_SUPPORT && SENSOR_POWER_CHECK_STATUS
- const bool relay_off = (relayCount() == 1) && (relayStatus(0) == 0);
- #endif
-
- // Get readings
- for (unsigned char magnitude_index = 0; magnitude_index < _magnitudes.size(); ++magnitude_index) {
-
- auto& magnitude = _magnitudes[magnitude_index];
-
- if (!magnitude.sensor->status()) continue;
-
- // -------------------------------------------------------------
- // Instant value
- // -------------------------------------------------------------
-
- value_raw = magnitude.sensor->value(magnitude.slot);
-
- // Completely remove spurious values if relay is OFF
- #if RELAY_SUPPORT && SENSOR_POWER_CHECK_STATUS
- switch (magnitude.type) {
- case MAGNITUDE_POWER_ACTIVE:
- case MAGNITUDE_POWER_REACTIVE:
- case MAGNITUDE_POWER_APPARENT:
- case MAGNITUDE_POWER_FACTOR:
- case MAGNITUDE_CURRENT:
- case MAGNITUDE_ENERGY_DELTA:
- if (relay_off) {
- value_raw = 0.0;
- }
- break;
- default:
- break;
- }
- #endif
-
- // In addition to that, we also check that value is above a certain threshold
- if ((!std::isnan(magnitude.zero_threshold)) && ((value_raw < magnitude.zero_threshold))) {
- value_raw = 0.0;
- }
-
- magnitude.last = value_raw;
- magnitude.filter->add(value_raw);
-
- // -------------------------------------------------------------
- // Procesing (units and decimals)
- // -------------------------------------------------------------
-
- value_show = _magnitudeProcess(magnitude, value_raw);
- #if BROKER_SUPPORT
- {
- char buffer[64];
- dtostrf(value_show, 1, magnitude.decimals, buffer);
- SensorReadBroker::Publish(magnitudeTopic(magnitude.type), magnitude.index_global, value_show, buffer);
- }
- #endif
-
- // -------------------------------------------------------------
- // Debug
- // -------------------------------------------------------------
-
- #if SENSOR_DEBUG
- {
- char buffer[64];
- dtostrf(value_show, 1, magnitude.decimals, buffer);
- DEBUG_MSG_P(PSTR("[SENSOR] %s - %s: %s%s\n"),
- _magnitudeDescription(magnitude).c_str(),
- magnitudeTopic(magnitude.type).c_str(),
- buffer,
- _magnitudeUnits(magnitude).c_str()
- );
- }
- #endif
-
- // -------------------------------------------------------------------
- // Report when
- // - report_count overflows after reaching _sensor_report_every
- // - when magnitude specifies max_change and we greater or equal to it
- // -------------------------------------------------------------------
-
- bool report = (0 == report_count);
-
- if (!std::isnan(magnitude.reported) && (magnitude.max_change > 0)) {
- report = (std::abs(value_show - magnitude.reported) >= magnitude.max_change);
- }
-
- // Special case for energy, save readings to RAM and EEPROM
- if (MAGNITUDE_ENERGY == magnitude.type) {
- _magnitudeSaveEnergyTotal(magnitude, report);
- }
-
- if (report) {
- value_filtered = _magnitudeProcess(magnitude, magnitude.filter->result());
-
- magnitude.filter->reset();
- if (magnitude.filter->size() != _sensor_report_every) {
- magnitude.filter->resize(_sensor_report_every);
- }
-
- // Check if there is a minimum change threshold to report
- if (std::isnan(magnitude.reported) || (std::abs(value_filtered - magnitude.reported) >= magnitude.min_change)) {
- magnitude.reported = value_filtered;
- _sensorReport(magnitude_index, magnitude);
- }
-
- } // if (report_count == 0)
-
- }
-
- // Post-read hook, called every reading
- _sensorPost();
-
- // And report data to modules that don't specifically track them
- #if WEB_SUPPORT
- wsPost(_sensorWebSocketSendData);
- #endif
-
- #if THINGSPEAK_SUPPORT
- if (report_count == 0) tspkFlush();
- #endif
-
- }
-
- }
-
- #endif // SENSOR_SUPPORT
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