* globally accessible system timer class; help out with our internal
scheduling by always using strongly typed duration and dynamic
time adjustment for durations longer than system limits
(see `os_timer_t` documentation)
* our own class for scheduled callbacks which are either choosing a
simple function pointer or std function wrapper, depending on the type
passed into the constructor. specifically for scheduled functions,
this allows us to filter globally scheduled functions and push them to
the front of the queue when necessary to ensure certain order of calls
* replace Ticker instances with SystemTimer
* allow types {h, cpp} in unit tests
see #2539
separate color and white channel availability from settings;
allow color, hs, mired inputs but do not send anything when those are disabled
advertise `color_mode` support, match specific number of channels
with some special mode that should be used on the remote
(which are, currently, shown in separate control tabs)
execute multiple transition-initiating functions
when we don't do any transitions or have value changes queued
main application for right now is a simple notification
routine that consists of N single channel on->off transitions
rework more namespaces to use `espurna` root
makes internal references much easier (and shorter)
view class is not specific to settings, could use it across the app
remove duplicate code from IR
- allow both new-pwm and analogWrite (Core) implementations
- rework new-pwm initialization, a bit more sane type for pin config
- remove pin setup from lights, everything is handled by provider already
Core prepares and initializes pins when updating duty, new-pwm does this
when pwm_init is called
- rework internals related to value scaling, allow percentage as pwm duty
and value limit (instead of absolute limit set by lights previously)
Reading clang-tidy reports... Make sure to explicitly handle instances
of float -> (unsigned) long silently removing the fractional part.
Also, small adjustments to the way these values are parsed.
Specifically:
- calculating step & time in the transition function
- rgb channels temperature adjustment from kelvins
Get rid of input & target as bool param. Replace it with more
specific functions, named accordingly, returning the Rgb struct.
(also fixes `rgb` command not returning what the rest of the API returns)
As a side-effect, make RGB payload conversion use a more paranoid parsing & serialization methods.
Namespace build configurations of modules, make more things into constexpr
(not fully finished though)
Unify code using ...Count() to parse IDs
Avoid using unsigned char aka uint8_t as index, prefer size_t
as most code already uses it anyway. Making sure we never accidentally
truncate the value or try to read it as 32bit-wide. Also, simplify
access to built in containers, since those use the wide type as well.
Renames led and button types, more consistent initialization and field access.
- clamp values via helper functions
- unify channel access as long
slightly more ram, but we no longer cast values that are 32bit-wide anyway
- remove css option, send unconditionally as /hex
- reimplement hsv conversion functions (based on HA / python's colorsys)
simplify calculations and allow to return standalone value structs for
RGB and HSV
- named channel accessors
- implement HA color inputs / outputs
Make sure 'custom provider' `lightAdd()` scheduled function locks further channel modifications,
and take care of light sanity checks before the light update is even scheduled.
Reworked rtcmem reader / writer to use default values, instead of accidentaly using
the unitialized mem of the stack. Also, reworked const names used by the lights module
to distinguish them from the build flags.
- retain setting
- generate topic and message in the discovery object instead of
creating them all at once
- re-implement relays, lights and sensors discovery
- rework name normalization, use relative magnitude indexes
- replace original lights code with schema: json, subscribe to a special
topic to handle lights instead of using the common API
(still wip - colors, hs, temperature settings)
resolve#630resolve#1564resolve#2403
- shrink utils source file, move heartbeat and boot management into system
- improvise with 'heartbeat' functionality. include scheduler implementation that will
manage the per-module heartbeat callbacks with individual 'mode' and
'interval' settings. current ones are mqtt (including relays, lights, thermostat), debug and
influxdb. preserve heartbeat NONE, ONCE and REPEAT, REPEAT_STATUS is effectively a hbReport & status bit.
- mqtt heartbeat is managed through mqttHeartbeat() callbacks
- tweak mqtt callbacks to use lists instead of the vector, slighly reducing the size of the .bin
- update WebUI, include report setting and update hbMode values
- make sure general.h settings include new heartbeat,
move constant definitions outside of the header
- correctly include dependencies through the .cpp, avoid leaking
internal details.
- as a side-effect, base headers are no longer included recursively
- 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
- 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...)
- 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
- add ltDimmerGPIO<index> & ltDimmerInv<index> to override / add to hardware configuration. Add pin defaults, mapped as GPIO_NONE. pwm_init() receives resulting GPIO mapping based on settings loader.
- remove bogus _light_channels variable, use this name for channel array instead (...which is vector and has size(). functions always use that value anyway)
- 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
* Light: proper printf format for HSV, use lround
* core: warn about map() and 2.3.0, type-strict constrain()
* use generic format
* value already has brightness