Add support for BME680 using libalgobsec proprietary algorithms for precise Indoor Air Quality (IAQ) measurement. Unlike traditional CO2 sensors - and good ones are expensive - it measures nearly all VOCs compounds in the air (plus other gases) and compensates those measurements with its built-in temperature and humidity sensors to determine indoor air quality.
Co-authored-by: Max Prokhorov <prokhorov.max@outlook.com>
Add new V3.0 version of PZEM004T, not tested. Default to factory default address 0xf8, configurable through pzemv30Addr 8-bit number
Add 'frequency' measurement & 'hz' unit
Add pz.address that configures address
Implemented energy reset
Right now we only support a single device. No way to test this properly (mostly, how exactly we need to connect this stuff), so left as not implemented.
- introduce zero threshold setting to reset value to 0 below a certain point (resolve#2264)
for example, set pwrPZeroThreshold0 10.0 for active power (or pwrQ... for apparent, pwrModS... for reactive) will reset always reset value to 0, similar to what turned off relay does. Default value is nan, since we can't use 0.0 on account of negative values.
- fix energy magnitude indexes usage, properly reset in API
- simplify sending pwr and emon Visible flags
- allow to use settings prefixes more, remove snsMinDelta & snsMaxDelta and use relative magnitude indexes
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.
* broker: declare and define per module
We no longer need to specify each Broker type in broker.h
But, we exchange that bit for explicit initialization of the instance
Define helper macros to generate boilerplate code
- namespace with Instance, Register(), Publish()
- forward Register(...) -> Instance.Register(...),
Publish(...) -> Instance.Publish(...)
* don't check for broker when deps enable it
* emon: configure ratios without reboot
* settings: serialize() support
* debug: use vsnprintf from newlib, not from sdk
* settings/experimental: show defaults via `get`
* emon: override base methods, fix defaults
* sensor/emon: expose internal index calculation
- refactor configuration to use the correct index when accessing indexed
sensor methods. store index value on magnitude, refactor loops to
accomodate this new functionality
- rename slot(index) -> description(index), since we use 'slot' as
numeric value
- general conversion from .ino modules into a separate .cpp files
- clean-up internal headers, place libraries into .h. guard .cpp with _SUPPORT flags
- fix some instances of shared variables instead of public methods
- tweak build system to still build a single source file via os environment variable ESPURNA_BUILD_SINGLE_SOURCE
* hlw8012: load hardware-specific ratios
* hlw8012: read energy in pre() callback
* dcz: nvalue should be integer
* sns: fix pressure constrain
* sns: load ratios based on index too
* sns: per-magnitude corrections (still limited by type)
* sns: attach units to index
* ADC_VCC is not macro
* In esp.h ADC_VCC and ADC_TOUT is not macro, so define macro.
* ADC_VCC and ADC_TOUT fixes in utils.ino and sensors.h
* Adding support for I2C temperature and humidity sensor HDC1080 / 831R
* Added HDC1080 to test\build\sensor.h and arduino.h
* added brackets
* Revert ADC_MODE_VALUE to initial values
* Eof newline
* Eof newline
Co-authored-by: Max Prokhorov <prokhorov.max@outlook.com>
- Domoticz only accepts svalue <pressure>;<forecast>,
failing to display anything otherwise.
We don't have any forecast calculation (yet?), simply send dummy value.
- Move Domoticz code outside of sensor.ino
- Update sensor classes to support a generic way to store energy values
- Update sensor conversion code to deal with units and not magnitudes
- Add magnitude<->unit for sensors, generic way of defining used unit. Convert from sensor magnitude unit to the one used for display.
- Reset energy value based on index through external means (MQTT, HTTP)
- Rework energy timestamping, update webui with 'last saved' value
While this solves the energy conversion issues and we are finally seeing the real value, what I don't really like:
- KilowattHour and WattHour are separate enum tags, thus sort-of are different types altogether
- Conversion code in Energy object should probably use some generic 'ratio' calculation? (https://en.cppreference.com/w/cpp/numeric/ratio/ratio)
- We are still using runtime checks to do calculations and depend that sensor outputs only one specific value type.
Consider this a fix for energy display / storage and preliminary work on sensor.ino
Further sensor refactoring... soon.
* Sensors: refactor configuration
- move sensor implementaion to the .ino,
remove dependency undef / define from sensor files
- update test/build/sensor.h from SENSOR_SUPPORT
- allow to change sensor config variables externally
- `#include <...>` for global headers and libraries,
fix relative path for math library
* add missing sns <-> i2c dependency
* ledrelay should return relay_none as default
* rollback to original test header
* include debug header when requested (relative)
* scripts: memanalyzer fixes
- cleanup duplication
- cleanup external dependencies
- properly use subprocess when calling pio, add debug mode
- cleanup argparse usage, use store_true actions instead of counters
- use python3 syntax and python3 shebang by default
- fix some issues with module dependencies
* move to scripts
* use simple return
* quick fix for rfm
* codacy unused import
* formatting
* show defaults
* while at it, rewrite to make pylint happy
* fix unused
* add windows support + note
- mask is defined as (relay# status << number)
- transparently handle base-2 and base-10 numbers
- if the relay mode requires us to save the mask, it will be saved as base-2
- add experimental `relayDummy` to configure dummy relays at runtime
- add tuya-generic-dimmer #1729
- cleanup broker interface to allow Tuya module to properly receive events, modify broker methods to allow different function signatures
- add basic tests for Tuya frame and data protocol
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Added T6613
* Updated copyright string
* Buffer from 6 bytes to 8 bytes
Current gcc-4 does not mark this as warning, but gcc-9 notices the 3 char size requirement. Buffer should be 8
* Use 5000ppm max
* Use indexed keys for energy saving
* match else even when rtcmem cannot fit the value
* fix energy reset placement
* fix rtcmem->energy size check
* revert to pre 62a2b9e value, handle update from 1.13.5
* Add Shelly 2.5
* Add ADE7953 sensor support
* Fix compilation
* Use only one instance
* WIP: Not working, I got StoreProhibited exception
* Fix exception
* Fix merge issues
* Apply request review changes
* declare struct before using it
* uninterruptible delay
* try optimized reg_size
* fix types
* Remove gpio 0 input in analog sensor
* Add energy to ADE7953, it is not finished yet
* Add new method to save energy with index
* Finish energy for ADE7953
* Core 2.6.0+ fixes
* fix env -> config, run travis04 job
* don't duplicate free heap in frag data, use single stats struct
* fix dtostrf warnings, bump buffer sizes
* ...and even less words for fragmentation stat
- update every dynamicjsonbuffer with fixed size constructor argument
- change to ws callback registration to use a class builder (just cosmetic)
- test multiple ws data callbacks for each module
- remove some of the static strings in favour of ws data callback
- improve sensor ws callback data size, remove duplicated strings
- use static buffer in wsDebugSend
- postpone wsSend until loop, implement wsPost to allow other modules to queue message callbacks. remove Ticker based ws callbacks for data
- update WebUI files
- store system crash counter and reset reason in rtcmem instead of eeprom
- store relay state mask in rtc in addition to the eeprom
- store relay state in eeprom only when boot mode requires it
- simplify relay state mask calculation / reading using std::bitset
- light state save and restore
- energy total save and restore