Merge branch 'beta' into bump-2023.3.0

This commit is contained in:
Jesse Hills 2023-03-16 09:38:19 +13:00
commit 33339e3bd8
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GPG Key ID: BEAAE804EFD8E83A
207 changed files with 6360 additions and 1672 deletions

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@ -23,6 +23,11 @@ permissions:
contents: read contents: read
packages: read packages: read
concurrency:
# yamllint disable-line rule:line-length
group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
cancel-in-progress: true
jobs: jobs:
check-docker: check-docker:
name: Build docker containers name: Build docker containers

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@ -7,6 +7,7 @@ on:
branches: [dev, beta, release] branches: [dev, beta, release]
pull_request: pull_request:
merge_group:
permissions: permissions:
contents: read contents: read
@ -181,9 +182,22 @@ jobs:
- name: Run yamllint - name: Run yamllint
if: matrix.id == 'yamllint' if: matrix.id == 'yamllint'
uses: frenck/action-yamllint@v1.3.1 uses: frenck/action-yamllint@v1.4.0
- name: Suggested changes - name: Suggested changes
run: script/ci-suggest-changes run: script/ci-suggest-changes
# yamllint disable-line rule:line-length # yamllint disable-line rule:line-length
if: always() && (matrix.id == 'clang-tidy' || matrix.id == 'clang-format' || matrix.id == 'lint-python') if: always() && (matrix.id == 'clang-tidy' || matrix.id == 'clang-format' || matrix.id == 'lint-python')
ci-status:
name: CI Status
runs-on: ubuntu-latest
needs: [ci]
if: always()
steps:
- name: Successful deploy
if: ${{ !(contains(needs.*.result, 'failure')) }}
run: exit 0
- name: Failing deploy
if: ${{ contains(needs.*.result, 'failure') }}
run: exit 1

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@ -3,7 +3,7 @@
# See https://pre-commit.com/hooks.html for more hooks # See https://pre-commit.com/hooks.html for more hooks
repos: repos:
- repo: https://github.com/ambv/black - repo: https://github.com/ambv/black
rev: 22.12.0 rev: 23.1.0
hooks: hooks:
- id: black - id: black
args: args:
@ -27,7 +27,7 @@ repos:
- --branch=release - --branch=release
- --branch=beta - --branch=beta
- repo: https://github.com/asottile/pyupgrade - repo: https://github.com/asottile/pyupgrade
rev: v3.3.0 rev: v3.3.1
hooks: hooks:
- id: pyupgrade - id: pyupgrade
args: [--py39-plus] args: [--py39-plus]

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@ -11,6 +11,7 @@ esphome/*.py @esphome/core
esphome/core/* @esphome/core esphome/core/* @esphome/core
# Integrations # Integrations
esphome/components/absolute_humidity/* @DAVe3283
esphome/components/ac_dimmer/* @glmnet esphome/components/ac_dimmer/* @glmnet
esphome/components/adc/* @esphome/core esphome/components/adc/* @esphome/core
esphome/components/adc128s102/* @DeerMaximum esphome/components/adc128s102/* @DeerMaximum
@ -24,6 +25,7 @@ esphome/components/analog_threshold/* @ianchi
esphome/components/animation/* @syndlex esphome/components/animation/* @syndlex
esphome/components/anova/* @buxtronix esphome/components/anova/* @buxtronix
esphome/components/api/* @OttoWinter esphome/components/api/* @OttoWinter
esphome/components/as7341/* @mrgnr
esphome/components/async_tcp/* @OttoWinter esphome/components/async_tcp/* @OttoWinter
esphome/components/atc_mithermometer/* @ahpohl esphome/components/atc_mithermometer/* @ahpohl
esphome/components/b_parasite/* @rbaron esphome/components/b_parasite/* @rbaron
@ -90,11 +92,13 @@ esphome/components/factory_reset/* @anatoly-savchenkov
esphome/components/fastled_base/* @OttoWinter esphome/components/fastled_base/* @OttoWinter
esphome/components/feedback/* @ianchi esphome/components/feedback/* @ianchi
esphome/components/fingerprint_grow/* @OnFreund @loongyh esphome/components/fingerprint_grow/* @OnFreund @loongyh
esphome/components/fs3000/* @kahrendt
esphome/components/globals/* @esphome/core esphome/components/globals/* @esphome/core
esphome/components/gpio/* @esphome/core esphome/components/gpio/* @esphome/core
esphome/components/gps/* @coogle esphome/components/gps/* @coogle
esphome/components/graph/* @synco esphome/components/graph/* @synco
esphome/components/growatt_solar/* @leeuwte esphome/components/growatt_solar/* @leeuwte
esphome/components/haier/* @Yarikx
esphome/components/havells_solar/* @sourabhjaiswal esphome/components/havells_solar/* @sourabhjaiswal
esphome/components/hbridge/fan/* @WeekendWarrior esphome/components/hbridge/fan/* @WeekendWarrior
esphome/components/hbridge/light/* @DotNetDann esphome/components/hbridge/light/* @DotNetDann
@ -107,17 +111,20 @@ esphome/components/hte501/* @Stock-M
esphome/components/hydreon_rgxx/* @functionpointer esphome/components/hydreon_rgxx/* @functionpointer
esphome/components/i2c/* @esphome/core esphome/components/i2c/* @esphome/core
esphome/components/i2s_audio/* @jesserockz esphome/components/i2s_audio/* @jesserockz
esphome/components/ili9xxx/* @nielsnl68
esphome/components/improv_base/* @esphome/core esphome/components/improv_base/* @esphome/core
esphome/components/improv_serial/* @esphome/core esphome/components/improv_serial/* @esphome/core
esphome/components/ina260/* @MrEditor97 esphome/components/ina260/* @MrEditor97
esphome/components/inkbird_ibsth1_mini/* @fkirill esphome/components/inkbird_ibsth1_mini/* @fkirill
esphome/components/inkplate6/* @jesserockz esphome/components/inkplate6/* @jesserockz
esphome/components/integration/* @OttoWinter esphome/components/integration/* @OttoWinter
esphome/components/internal_temperature/* @Mat931
esphome/components/interval/* @esphome/core esphome/components/interval/* @esphome/core
esphome/components/json/* @OttoWinter esphome/components/json/* @OttoWinter
esphome/components/kalman_combinator/* @Cat-Ion esphome/components/kalman_combinator/* @Cat-Ion
esphome/components/key_collector/* @ssieb esphome/components/key_collector/* @ssieb
esphome/components/key_provider/* @ssieb esphome/components/key_provider/* @ssieb
esphome/components/kuntze/* @ssieb
esphome/components/lcd_menu/* @numo68 esphome/components/lcd_menu/* @numo68
esphome/components/ld2410/* @sebcaps esphome/components/ld2410/* @sebcaps
esphome/components/ledc/* @OttoWinter esphome/components/ledc/* @OttoWinter
@ -160,8 +167,9 @@ esphome/components/modbus_controller/select/* @martgras @stegm
esphome/components/modbus_controller/sensor/* @martgras esphome/components/modbus_controller/sensor/* @martgras
esphome/components/modbus_controller/switch/* @martgras esphome/components/modbus_controller/switch/* @martgras
esphome/components/modbus_controller/text_sensor/* @martgras esphome/components/modbus_controller/text_sensor/* @martgras
esphome/components/mopeka_ble/* @spbrogan esphome/components/mopeka_ble/* @Fabian-Schmidt @spbrogan
esphome/components/mopeka_pro_check/* @spbrogan esphome/components/mopeka_pro_check/* @spbrogan
esphome/components/mopeka_std_check/* @Fabian-Schmidt
esphome/components/mpl3115a2/* @kbickar esphome/components/mpl3115a2/* @kbickar
esphome/components/mpu6886/* @fabaff esphome/components/mpu6886/* @fabaff
esphome/components/network/* @esphome/core esphome/components/network/* @esphome/core
@ -208,6 +216,7 @@ esphome/components/sdm_meter/* @jesserockz @polyfaces
esphome/components/sdp3x/* @Azimath esphome/components/sdp3x/* @Azimath
esphome/components/selec_meter/* @sourabhjaiswal esphome/components/selec_meter/* @sourabhjaiswal
esphome/components/select/* @esphome/core esphome/components/select/* @esphome/core
esphome/components/sen21231/* @shreyaskarnik
esphome/components/sen5x/* @martgras esphome/components/sen5x/* @martgras
esphome/components/sensirion_common/* @martgras esphome/components/sensirion_common/* @martgras
esphome/components/sensor/* @esphome/core esphome/components/sensor/* @esphome/core

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@ -6,9 +6,9 @@
ARG BASEIMGTYPE=docker ARG BASEIMGTYPE=docker
# https://github.com/hassio-addons/addon-debian-base/releases # https://github.com/hassio-addons/addon-debian-base/releases
FROM ghcr.io/hassio-addons/debian-base:6.2.0 AS base-hassio FROM ghcr.io/hassio-addons/debian-base:6.2.3 AS base-hassio
# https://hub.docker.com/_/debian?tab=tags&page=1&name=bullseye # https://hub.docker.com/_/debian?tab=tags&page=1&name=bullseye
FROM debian:bullseye-20221024-slim AS base-docker FROM debian:bullseye-20230208-slim AS base-docker
FROM base-${BASEIMGTYPE} AS base FROM base-${BASEIMGTYPE} AS base
@ -26,7 +26,7 @@ RUN \
python3-cryptography=3.3.2-1 \ python3-cryptography=3.3.2-1 \
iputils-ping=3:20210202-1 \ iputils-ping=3:20210202-1 \
git=1:2.30.2-1 \ git=1:2.30.2-1 \
curl=7.74.0-1.3+deb11u5 \ curl=7.74.0-1.3+deb11u7 \
openssh-client=1:8.4p1-5+deb11u1 \ openssh-client=1:8.4p1-5+deb11u1 \
&& rm -rf \ && rm -rf \
/tmp/* \ /tmp/* \
@ -51,7 +51,7 @@ RUN \
# Ubuntu python3-pip is missing wheel # Ubuntu python3-pip is missing wheel
pip3 install --no-cache-dir \ pip3 install --no-cache-dir \
wheel==0.37.1 \ wheel==0.37.1 \
platformio==6.1.5 \ platformio==6.1.6 \
# Change some platformio settings # Change some platformio settings
&& platformio settings set enable_telemetry No \ && platformio settings set enable_telemetry No \
&& platformio settings set check_platformio_interval 1000000 \ && platformio settings set check_platformio_interval 1000000 \

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@ -254,7 +254,11 @@ async def repeat_action_to_code(config, action_id, template_arg, args):
var = cg.new_Pvariable(action_id, template_arg) var = cg.new_Pvariable(action_id, template_arg)
count_template = await cg.templatable(config[CONF_COUNT], args, cg.uint32) count_template = await cg.templatable(config[CONF_COUNT], args, cg.uint32)
cg.add(var.set_count(count_template)) cg.add(var.set_count(count_template))
actions = await build_action_list(config[CONF_THEN], template_arg, args) actions = await build_action_list(
config[CONF_THEN],
cg.TemplateArguments(cg.uint32, *template_arg.args),
[(cg.uint32, "iteration"), *args],
)
cg.add(var.add_then(actions)) cg.add(var.add_then(actions))
return var return var

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@ -47,6 +47,7 @@ from esphome.cpp_helpers import ( # noqa
build_registry_list, build_registry_list,
extract_registry_entry_config, extract_registry_entry_config,
register_parented, register_parented,
past_safe_mode,
) )
from esphome.cpp_types import ( # noqa from esphome.cpp_types import ( # noqa
global_ns, global_ns,
@ -63,6 +64,7 @@ from esphome.cpp_types import ( # noqa
uint16, uint16,
uint32, uint32,
uint64, uint64,
int16,
int32, int32,
int64, int64,
size_t, size_t,

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@ -0,0 +1 @@
CODEOWNERS = ["@DAVe3283"]

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@ -0,0 +1,182 @@
#include "esphome/core/log.h"
#include "absolute_humidity.h"
namespace esphome {
namespace absolute_humidity {
static const char *const TAG = "absolute_humidity.sensor";
void AbsoluteHumidityComponent::setup() {
ESP_LOGCONFIG(TAG, "Setting up absolute humidity '%s'...", this->get_name().c_str());
ESP_LOGD(TAG, " Added callback for temperature '%s'", this->temperature_sensor_->get_name().c_str());
this->temperature_sensor_->add_on_state_callback([this](float state) { this->temperature_callback_(state); });
if (this->temperature_sensor_->has_state()) {
this->temperature_callback_(this->temperature_sensor_->get_state());
}
ESP_LOGD(TAG, " Added callback for relative humidity '%s'", this->humidity_sensor_->get_name().c_str());
this->humidity_sensor_->add_on_state_callback([this](float state) { this->humidity_callback_(state); });
if (this->humidity_sensor_->has_state()) {
this->humidity_callback_(this->humidity_sensor_->get_state());
}
}
void AbsoluteHumidityComponent::dump_config() {
LOG_SENSOR("", "Absolute Humidity", this);
switch (this->equation_) {
case BUCK:
ESP_LOGCONFIG(TAG, "Saturation Vapor Pressure Equation: Buck");
break;
case TETENS:
ESP_LOGCONFIG(TAG, "Saturation Vapor Pressure Equation: Tetens");
break;
case WOBUS:
ESP_LOGCONFIG(TAG, "Saturation Vapor Pressure Equation: Wobus");
break;
default:
ESP_LOGE(TAG, "Invalid saturation vapor pressure equation selection!");
break;
}
ESP_LOGCONFIG(TAG, "Sources");
ESP_LOGCONFIG(TAG, " Temperature: '%s'", this->temperature_sensor_->get_name().c_str());
ESP_LOGCONFIG(TAG, " Relative Humidity: '%s'", this->humidity_sensor_->get_name().c_str());
}
float AbsoluteHumidityComponent::get_setup_priority() const { return setup_priority::DATA; }
void AbsoluteHumidityComponent::loop() {
if (!this->next_update_) {
return;
}
this->next_update_ = false;
// Ensure we have source data
const bool no_temperature = std::isnan(this->temperature_);
const bool no_humidity = std::isnan(this->humidity_);
if (no_temperature || no_humidity) {
if (no_temperature) {
ESP_LOGW(TAG, "No valid state from temperature sensor!");
}
if (no_humidity) {
ESP_LOGW(TAG, "No valid state from temperature sensor!");
}
ESP_LOGW(TAG, "Unable to calculate absolute humidity.");
this->publish_state(NAN);
this->status_set_warning();
return;
}
// Convert to desired units
const float temperature_c = this->temperature_;
const float temperature_k = temperature_c + 273.15;
const float hr = this->humidity_ / 100;
// Calculate saturation vapor pressure
float es;
switch (this->equation_) {
case BUCK:
es = es_buck(temperature_c);
break;
case TETENS:
es = es_tetens(temperature_c);
break;
case WOBUS:
es = es_wobus(temperature_c);
break;
default:
ESP_LOGE(TAG, "Invalid saturation vapor pressure equation selection!");
this->publish_state(NAN);
this->status_set_error();
return;
}
ESP_LOGD(TAG, "Saturation vapor pressure %f kPa", es);
// Calculate absolute humidity
const float absolute_humidity = vapor_density(es, hr, temperature_k);
// Publish absolute humidity
ESP_LOGD(TAG, "Publishing absolute humidity %f g/m³", absolute_humidity);
this->status_clear_warning();
this->publish_state(absolute_humidity);
}
// Buck equation (https://en.wikipedia.org/wiki/Arden_Buck_equation)
// More accurate than Tetens in normal meteorologic conditions
float AbsoluteHumidityComponent::es_buck(float temperature_c) {
float a, b, c, d;
if (temperature_c >= 0) {
a = 0.61121;
b = 18.678;
c = 234.5;
d = 257.14;
} else {
a = 0.61115;
b = 18.678;
c = 233.7;
d = 279.82;
}
return a * expf((b - (temperature_c / c)) * (temperature_c / (d + temperature_c)));
}
// Tetens equation (https://en.wikipedia.org/wiki/Tetens_equation)
float AbsoluteHumidityComponent::es_tetens(float temperature_c) {
float a, b;
if (temperature_c >= 0) {
a = 17.27;
b = 237.3;
} else {
a = 21.875;
b = 265.5;
}
return 0.61078 * expf((a * temperature_c) / (temperature_c + b));
}
// Wobus equation
// https://wahiduddin.net/calc/density_altitude.htm
// https://wahiduddin.net/calc/density_algorithms.htm
// Calculate the saturation vapor pressure (kPa)
float AbsoluteHumidityComponent::es_wobus(float t) {
// THIS FUNCTION RETURNS THE SATURATION VAPOR PRESSURE ESW (MILLIBARS)
// OVER LIQUID WATER GIVEN THE TEMPERATURE T (CELSIUS). THE POLYNOMIAL
// APPROXIMATION BELOW IS DUE TO HERMAN WOBUS, A MATHEMATICIAN WHO
// WORKED AT THE NAVY WEATHER RESEARCH FACILITY, NORFOLK, VIRGINIA,
// BUT WHO IS NOW RETIRED. THE COEFFICIENTS OF THE POLYNOMIAL WERE
// CHOSEN TO FIT THE VALUES IN TABLE 94 ON PP. 351-353 OF THE SMITH-
// SONIAN METEOROLOGICAL TABLES BY ROLAND LIST (6TH EDITION). THE
// APPROXIMATION IS VALID FOR -50 < T < 100C.
//
// Baker, Schlatter 17-MAY-1982 Original version.
const float c0 = +0.99999683e00;
const float c1 = -0.90826951e-02;
const float c2 = +0.78736169e-04;
const float c3 = -0.61117958e-06;
const float c4 = +0.43884187e-08;
const float c5 = -0.29883885e-10;
const float c6 = +0.21874425e-12;
const float c7 = -0.17892321e-14;
const float c8 = +0.11112018e-16;
const float c9 = -0.30994571e-19;
const float p = c0 + t * (c1 + t * (c2 + t * (c3 + t * (c4 + t * (c5 + t * (c6 + t * (c7 + t * (c8 + t * (c9)))))))));
return 0.61078 / pow(p, 8);
}
// From https://www.environmentalbiophysics.org/chalk-talk-how-to-calculate-absolute-humidity/
// H/T to https://esphome.io/cookbook/bme280_environment.html
// H/T to https://carnotcycle.wordpress.com/2012/08/04/how-to-convert-relative-humidity-to-absolute-humidity/
float AbsoluteHumidityComponent::vapor_density(float es, float hr, float ta) {
// es = saturated vapor pressure (kPa)
// hr = relative humidity [0-1]
// ta = absolute temperature (K)
const float ea = hr * es * 1000; // vapor pressure of the air (Pa)
const float mw = 18.01528; // molar mass of water (g⋅mol⁻¹)
const float r = 8.31446261815324; // molar gas constant (J⋅K⁻¹)
return (ea * mw) / (r * ta);
}
} // namespace absolute_humidity
} // namespace esphome

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@ -0,0 +1,76 @@
#pragma once
#include "esphome/core/component.h"
#include "esphome/components/sensor/sensor.h"
namespace esphome {
namespace absolute_humidity {
/// Enum listing all implemented saturation vapor pressure equations.
enum SaturationVaporPressureEquation {
BUCK,
TETENS,
WOBUS,
};
/// This class implements calculation of absolute humidity from temperature and relative humidity.
class AbsoluteHumidityComponent : public sensor::Sensor, public Component {
public:
AbsoluteHumidityComponent() = default;
void set_temperature_sensor(sensor::Sensor *temperature_sensor) { this->temperature_sensor_ = temperature_sensor; }
void set_humidity_sensor(sensor::Sensor *humidity_sensor) { this->humidity_sensor_ = humidity_sensor; }
void set_equation(SaturationVaporPressureEquation equation) { this->equation_ = equation; }
void setup() override;
void dump_config() override;
float get_setup_priority() const override;
void loop() override;
protected:
void temperature_callback_(float state) {
this->next_update_ = true;
this->temperature_ = state;
}
void humidity_callback_(float state) {
this->next_update_ = true;
this->humidity_ = state;
}
/** Buck equation for saturation vapor pressure in kPa.
*
* @param temperature_c Air temperature in °C.
*/
static float es_buck(float temperature_c);
/** Tetens equation for saturation vapor pressure in kPa.
*
* @param temperature_c Air temperature in °C.
*/
static float es_tetens(float temperature_c);
/** Wobus equation for saturation vapor pressure in kPa.
*
* @param temperature_c Air temperature in °C.
*/
static float es_wobus(float temperature_c);
/** Calculate vapor density (absolute humidity) in g/m³.
*
* @param es Saturation vapor pressure in kPa.
* @param hr Relative humidity 0 to 1.
* @param ta Absolute temperature in K.
* @param heater_duration The duration in ms that the heater should turn on for when measuring.
*/
static float vapor_density(float es, float hr, float ta);
sensor::Sensor *temperature_sensor_{nullptr};
sensor::Sensor *humidity_sensor_{nullptr};
bool next_update_{false};
float temperature_{NAN};
float humidity_{NAN};
SaturationVaporPressureEquation equation_;
};
} // namespace absolute_humidity
} // namespace esphome

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@ -0,0 +1,56 @@
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import sensor
from esphome.const import (
CONF_HUMIDITY,
CONF_TEMPERATURE,
STATE_CLASS_MEASUREMENT,
CONF_EQUATION,
ICON_WATER,
UNIT_GRAMS_PER_CUBIC_METER,
)
absolute_humidity_ns = cg.esphome_ns.namespace("absolute_humidity")
AbsoluteHumidityComponent = absolute_humidity_ns.class_(
"AbsoluteHumidityComponent", sensor.Sensor, cg.Component
)
SaturationVaporPressureEquation = absolute_humidity_ns.enum(
"SaturationVaporPressureEquation"
)
EQUATION = {
"BUCK": SaturationVaporPressureEquation.BUCK,
"TETENS": SaturationVaporPressureEquation.TETENS,
"WOBUS": SaturationVaporPressureEquation.WOBUS,
}
CONFIG_SCHEMA = (
sensor.sensor_schema(
unit_of_measurement=UNIT_GRAMS_PER_CUBIC_METER,
icon=ICON_WATER,
accuracy_decimals=2,
state_class=STATE_CLASS_MEASUREMENT,
)
.extend(
{
cv.GenerateID(): cv.declare_id(AbsoluteHumidityComponent),
cv.Required(CONF_TEMPERATURE): cv.use_id(sensor.Sensor),
cv.Required(CONF_HUMIDITY): cv.use_id(sensor.Sensor),
cv.Optional(CONF_EQUATION, default="WOBUS"): cv.enum(EQUATION, upper=True),
}
)
.extend(cv.COMPONENT_SCHEMA)
)
async def to_code(config):
var = await sensor.new_sensor(config)
await cg.register_component(var, config)
temperature_sensor = await cg.get_variable(config[CONF_TEMPERATURE])
cg.add(var.set_temperature_sensor(temperature_sensor))
humidity_sensor = await cg.get_variable(config[CONF_HUMIDITY])
cg.add(var.set_humidity_sensor(humidity_sensor))
cg.add(var.set_equation(config[CONF_EQUATION]))

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@ -16,13 +16,16 @@ ADC128S102Sensor = adc128s102_ns.class_(
) )
CONF_ADC128S102_ID = "adc128s102_id" CONF_ADC128S102_ID = "adc128s102_id"
CONFIG_SCHEMA = sensor.SENSOR_SCHEMA.extend( CONFIG_SCHEMA = (
sensor.sensor_schema(ADC128S102Sensor)
.extend(
{ {
cv.GenerateID(): cv.declare_id(ADC128S102Sensor),
cv.GenerateID(CONF_ADC128S102_ID): cv.use_id(ADC128S102), cv.GenerateID(CONF_ADC128S102_ID): cv.use_id(ADC128S102),
cv.Required(CONF_CHANNEL): cv.int_range(min=0, max=7), cv.Required(CONF_CHANNEL): cv.int_range(min=0, max=7),
} }
).extend(cv.polling_component_schema("60s")) )
.extend(cv.polling_component_schema("60s"))
)
async def to_code(config): async def to_code(config):

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@ -15,18 +15,24 @@ AnalogThresholdBinarySensor = analog_threshold_ns.class_(
CONF_UPPER = "upper" CONF_UPPER = "upper"
CONF_LOWER = "lower" CONF_LOWER = "lower"
CONFIG_SCHEMA = binary_sensor.BINARY_SENSOR_SCHEMA.extend( CONFIG_SCHEMA = (
binary_sensor.binary_sensor_schema(AnalogThresholdBinarySensor)
.extend(
{ {
cv.GenerateID(): cv.declare_id(AnalogThresholdBinarySensor),
cv.Required(CONF_SENSOR_ID): cv.use_id(sensor.Sensor), cv.Required(CONF_SENSOR_ID): cv.use_id(sensor.Sensor),
cv.Required(CONF_THRESHOLD): cv.Any( cv.Required(CONF_THRESHOLD): cv.Any(
cv.float_, cv.float_,
cv.Schema( cv.Schema(
{cv.Required(CONF_UPPER): cv.float_, cv.Required(CONF_LOWER): cv.float_} {
cv.Required(CONF_UPPER): cv.float_,
cv.Required(CONF_LOWER): cv.float_,
}
), ),
), ),
} }
).extend(cv.COMPONENT_SCHEMA) )
.extend(cv.COMPONENT_SCHEMA)
)
async def to_code(config): async def to_code(config):

View File

@ -829,7 +829,7 @@ message ListEntitiesClimateResponse {
repeated ClimateMode supported_modes = 7; repeated ClimateMode supported_modes = 7;
float visual_min_temperature = 8; float visual_min_temperature = 8;
float visual_max_temperature = 9; float visual_max_temperature = 9;
float visual_temperature_step = 10; float visual_target_temperature_step = 10;
// for older peer versions - in new system this // for older peer versions - in new system this
// is if CLIMATE_PRESET_AWAY exists is supported_presets // is if CLIMATE_PRESET_AWAY exists is supported_presets
bool legacy_supports_away = 11; bool legacy_supports_away = 11;
@ -842,6 +842,7 @@ message ListEntitiesClimateResponse {
bool disabled_by_default = 18; bool disabled_by_default = 18;
string icon = 19; string icon = 19;
EntityCategory entity_category = 20; EntityCategory entity_category = 20;
float visual_current_temperature_step = 21;
} }
message ClimateStateResponse { message ClimateStateResponse {
option (id) = 47; option (id) = 47;
@ -1338,3 +1339,23 @@ message BluetoothGATTNotifyResponse {
uint64 address = 1; uint64 address = 1;
uint32 handle = 2; uint32 handle = 2;
} }
message BluetoothDevicePairingResponse {
option (id) = 85;
option (source) = SOURCE_SERVER;
option (ifdef) = "USE_BLUETOOTH_PROXY";
uint64 address = 1;
bool paired = 2;
int32 error = 3;
}
message BluetoothDeviceUnpairingResponse {
option (id) = 86;
option (source) = SOURCE_SERVER;
option (ifdef) = "USE_BLUETOOTH_PROXY";
uint64 address = 1;
bool success = 2;
int32 error = 3;
}

View File

@ -548,7 +548,9 @@ bool APIConnection::send_climate_info(climate::Climate *climate) {
msg.visual_min_temperature = traits.get_visual_min_temperature(); msg.visual_min_temperature = traits.get_visual_min_temperature();
msg.visual_max_temperature = traits.get_visual_max_temperature(); msg.visual_max_temperature = traits.get_visual_max_temperature();
msg.visual_temperature_step = traits.get_visual_temperature_step(); msg.visual_target_temperature_step = traits.get_visual_target_temperature_step();
msg.visual_current_temperature_step = traits.get_visual_current_temperature_step();
msg.legacy_supports_away = traits.supports_preset(climate::CLIMATE_PRESET_AWAY); msg.legacy_supports_away = traits.supports_preset(climate::CLIMATE_PRESET_AWAY);
msg.supports_action = traits.get_supports_action(); msg.supports_action = traits.get_supports_action();
@ -951,7 +953,7 @@ DeviceInfoResponse APIConnection::device_info(const DeviceInfoRequest &msg) {
resp.webserver_port = USE_WEBSERVER_PORT; resp.webserver_port = USE_WEBSERVER_PORT;
#endif #endif
#ifdef USE_BLUETOOTH_PROXY #ifdef USE_BLUETOOTH_PROXY
resp.bluetooth_proxy_version = bluetooth_proxy::global_bluetooth_proxy->has_active() ? 3 : 1; resp.bluetooth_proxy_version = bluetooth_proxy::global_bluetooth_proxy->has_active() ? 4 : 1;
#endif #endif
return resp; return resp;
} }

View File

@ -3451,7 +3451,11 @@ bool ListEntitiesClimateResponse::decode_32bit(uint32_t field_id, Proto32Bit val
return true; return true;
} }
case 10: { case 10: {
this->visual_temperature_step = value.as_float(); this->visual_target_temperature_step = value.as_float();
return true;
}
case 21: {
this->visual_current_temperature_step = value.as_float();
return true; return true;
} }
default: default:
@ -3470,7 +3474,7 @@ void ListEntitiesClimateResponse::encode(ProtoWriteBuffer buffer) const {
} }
buffer.encode_float(8, this->visual_min_temperature); buffer.encode_float(8, this->visual_min_temperature);
buffer.encode_float(9, this->visual_max_temperature); buffer.encode_float(9, this->visual_max_temperature);
buffer.encode_float(10, this->visual_temperature_step); buffer.encode_float(10, this->visual_target_temperature_step);
buffer.encode_bool(11, this->legacy_supports_away); buffer.encode_bool(11, this->legacy_supports_away);
buffer.encode_bool(12, this->supports_action); buffer.encode_bool(12, this->supports_action);
for (auto &it : this->supported_fan_modes) { for (auto &it : this->supported_fan_modes) {
@ -3491,6 +3495,7 @@ void ListEntitiesClimateResponse::encode(ProtoWriteBuffer buffer) const {
buffer.encode_bool(18, this->disabled_by_default); buffer.encode_bool(18, this->disabled_by_default);
buffer.encode_string(19, this->icon); buffer.encode_string(19, this->icon);
buffer.encode_enum<enums::EntityCategory>(20, this->entity_category); buffer.encode_enum<enums::EntityCategory>(20, this->entity_category);
buffer.encode_float(21, this->visual_current_temperature_step);
} }
#ifdef HAS_PROTO_MESSAGE_DUMP #ifdef HAS_PROTO_MESSAGE_DUMP
void ListEntitiesClimateResponse::dump_to(std::string &out) const { void ListEntitiesClimateResponse::dump_to(std::string &out) const {
@ -3537,8 +3542,8 @@ void ListEntitiesClimateResponse::dump_to(std::string &out) const {
out.append(buffer); out.append(buffer);
out.append("\n"); out.append("\n");
out.append(" visual_temperature_step: "); out.append(" visual_target_temperature_step: ");
sprintf(buffer, "%g", this->visual_temperature_step); sprintf(buffer, "%g", this->visual_target_temperature_step);
out.append(buffer); out.append(buffer);
out.append("\n"); out.append("\n");
@ -3591,6 +3596,11 @@ void ListEntitiesClimateResponse::dump_to(std::string &out) const {
out.append(" entity_category: "); out.append(" entity_category: ");
out.append(proto_enum_to_string<enums::EntityCategory>(this->entity_category)); out.append(proto_enum_to_string<enums::EntityCategory>(this->entity_category));
out.append("\n"); out.append("\n");
out.append(" visual_current_temperature_step: ");
sprintf(buffer, "%g", this->visual_current_temperature_step);
out.append(buffer);
out.append("\n");
out.append("}"); out.append("}");
} }
#endif #endif
@ -5964,6 +5974,92 @@ void BluetoothGATTNotifyResponse::dump_to(std::string &out) const {
out.append("}"); out.append("}");
} }
#endif #endif
bool BluetoothDevicePairingResponse::decode_varint(uint32_t field_id, ProtoVarInt value) {
switch (field_id) {
case 1: {
this->address = value.as_uint64();
return true;
}
case 2: {
this->paired = value.as_bool();
return true;
}
case 3: {
this->error = value.as_int32();
return true;
}
default:
return false;
}
}
void BluetoothDevicePairingResponse::encode(ProtoWriteBuffer buffer) const {
buffer.encode_uint64(1, this->address);
buffer.encode_bool(2, this->paired);
buffer.encode_int32(3, this->error);
}
#ifdef HAS_PROTO_MESSAGE_DUMP
void BluetoothDevicePairingResponse::dump_to(std::string &out) const {
__attribute__((unused)) char buffer[64];
out.append("BluetoothDevicePairingResponse {\n");
out.append(" address: ");
sprintf(buffer, "%llu", this->address);
out.append(buffer);
out.append("\n");
out.append(" paired: ");
out.append(YESNO(this->paired));
out.append("\n");
out.append(" error: ");
sprintf(buffer, "%d", this->error);
out.append(buffer);
out.append("\n");
out.append("}");
}
#endif
bool BluetoothDeviceUnpairingResponse::decode_varint(uint32_t field_id, ProtoVarInt value) {
switch (field_id) {
case 1: {
this->address = value.as_uint64();
return true;
}
case 2: {
this->success = value.as_bool();
return true;
}
case 3: {
this->error = value.as_int32();
return true;
}
default:
return false;
}
}
void BluetoothDeviceUnpairingResponse::encode(ProtoWriteBuffer buffer) const {
buffer.encode_uint64(1, this->address);
buffer.encode_bool(2, this->success);
buffer.encode_int32(3, this->error);
}
#ifdef HAS_PROTO_MESSAGE_DUMP
void BluetoothDeviceUnpairingResponse::dump_to(std::string &out) const {
__attribute__((unused)) char buffer[64];
out.append("BluetoothDeviceUnpairingResponse {\n");
out.append(" address: ");
sprintf(buffer, "%llu", this->address);
out.append(buffer);
out.append("\n");
out.append(" success: ");
out.append(YESNO(this->success));
out.append("\n");
out.append(" error: ");
sprintf(buffer, "%d", this->error);
out.append(buffer);
out.append("\n");
out.append("}");
}
#endif
} // namespace api } // namespace api
} // namespace esphome } // namespace esphome

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@ -915,7 +915,7 @@ class ListEntitiesClimateResponse : public ProtoMessage {
std::vector<enums::ClimateMode> supported_modes{}; std::vector<enums::ClimateMode> supported_modes{};
float visual_min_temperature{0.0f}; float visual_min_temperature{0.0f};
float visual_max_temperature{0.0f}; float visual_max_temperature{0.0f};
float visual_temperature_step{0.0f}; float visual_target_temperature_step{0.0f};
bool legacy_supports_away{false}; bool legacy_supports_away{false};
bool supports_action{false}; bool supports_action{false};
std::vector<enums::ClimateFanMode> supported_fan_modes{}; std::vector<enums::ClimateFanMode> supported_fan_modes{};
@ -926,6 +926,7 @@ class ListEntitiesClimateResponse : public ProtoMessage {
bool disabled_by_default{false}; bool disabled_by_default{false};
std::string icon{}; std::string icon{};
enums::EntityCategory entity_category{}; enums::EntityCategory entity_category{};
float visual_current_temperature_step{0.0f};
void encode(ProtoWriteBuffer buffer) const override; void encode(ProtoWriteBuffer buffer) const override;
#ifdef HAS_PROTO_MESSAGE_DUMP #ifdef HAS_PROTO_MESSAGE_DUMP
void dump_to(std::string &out) const override; void dump_to(std::string &out) const override;
@ -1527,6 +1528,32 @@ class BluetoothGATTNotifyResponse : public ProtoMessage {
protected: protected:
bool decode_varint(uint32_t field_id, ProtoVarInt value) override; bool decode_varint(uint32_t field_id, ProtoVarInt value) override;
}; };
class BluetoothDevicePairingResponse : public ProtoMessage {
public:
uint64_t address{0};
bool paired{false};
int32_t error{0};
void encode(ProtoWriteBuffer buffer) const override;
#ifdef HAS_PROTO_MESSAGE_DUMP
void dump_to(std::string &out) const override;
#endif
protected:
bool decode_varint(uint32_t field_id, ProtoVarInt value) override;
};
class BluetoothDeviceUnpairingResponse : public ProtoMessage {
public:
uint64_t address{0};
bool success{false};
int32_t error{0};
void encode(ProtoWriteBuffer buffer) const override;
#ifdef HAS_PROTO_MESSAGE_DUMP
void dump_to(std::string &out) const override;
#endif
protected:
bool decode_varint(uint32_t field_id, ProtoVarInt value) override;
};
} // namespace api } // namespace api
} // namespace esphome } // namespace esphome

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@ -425,6 +425,22 @@ bool APIServerConnectionBase::send_bluetooth_gatt_notify_response(const Bluetoot
return this->send_message_<BluetoothGATTNotifyResponse>(msg, 84); return this->send_message_<BluetoothGATTNotifyResponse>(msg, 84);
} }
#endif #endif
#ifdef USE_BLUETOOTH_PROXY
bool APIServerConnectionBase::send_bluetooth_device_pairing_response(const BluetoothDevicePairingResponse &msg) {
#ifdef HAS_PROTO_MESSAGE_DUMP
ESP_LOGVV(TAG, "send_bluetooth_device_pairing_response: %s", msg.dump().c_str());
#endif
return this->send_message_<BluetoothDevicePairingResponse>(msg, 85);
}
#endif
#ifdef USE_BLUETOOTH_PROXY
bool APIServerConnectionBase::send_bluetooth_device_unpairing_response(const BluetoothDeviceUnpairingResponse &msg) {
#ifdef HAS_PROTO_MESSAGE_DUMP
ESP_LOGVV(TAG, "send_bluetooth_device_unpairing_response: %s", msg.dump().c_str());
#endif
return this->send_message_<BluetoothDeviceUnpairingResponse>(msg, 86);
}
#endif
bool APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type, uint8_t *msg_data) { bool APIServerConnectionBase::read_message(uint32_t msg_size, uint32_t msg_type, uint8_t *msg_data) {
switch (msg_type) { switch (msg_type) {
case 1: { case 1: {

View File

@ -209,6 +209,12 @@ class APIServerConnectionBase : public ProtoService {
#endif #endif
#ifdef USE_BLUETOOTH_PROXY #ifdef USE_BLUETOOTH_PROXY
bool send_bluetooth_gatt_notify_response(const BluetoothGATTNotifyResponse &msg); bool send_bluetooth_gatt_notify_response(const BluetoothGATTNotifyResponse &msg);
#endif
#ifdef USE_BLUETOOTH_PROXY
bool send_bluetooth_device_pairing_response(const BluetoothDevicePairingResponse &msg);
#endif
#ifdef USE_BLUETOOTH_PROXY
bool send_bluetooth_device_unpairing_response(const BluetoothDeviceUnpairingResponse &msg);
#endif #endif
protected: protected:
bool read_message(uint32_t msg_size, uint32_t msg_type, uint8_t *msg_data) override; bool read_message(uint32_t msg_size, uint32_t msg_type, uint8_t *msg_data) override;

View File

@ -309,6 +309,28 @@ void APIServer::send_bluetooth_device_connection(uint64_t address, bool connecte
} }
} }
void APIServer::send_bluetooth_device_pairing(uint64_t address, bool paired, esp_err_t error) {
BluetoothDevicePairingResponse call;
call.address = address;
call.paired = paired;
call.error = error;
for (auto &client : this->clients_) {
client->send_bluetooth_device_pairing_response(call);
}
}
void APIServer::send_bluetooth_device_unpairing(uint64_t address, bool success, esp_err_t error) {
BluetoothDeviceUnpairingResponse call;
call.address = address;
call.success = success;
call.error = error;
for (auto &client : this->clients_) {
client->send_bluetooth_device_unpairing_response(call);
}
}
void APIServer::send_bluetooth_connections_free(uint8_t free, uint8_t limit) { void APIServer::send_bluetooth_connections_free(uint8_t free, uint8_t limit) {
BluetoothConnectionsFreeResponse call; BluetoothConnectionsFreeResponse call;
call.free = free; call.free = free;

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@ -78,6 +78,8 @@ class APIServer : public Component, public Controller {
#ifdef USE_BLUETOOTH_PROXY #ifdef USE_BLUETOOTH_PROXY
void send_bluetooth_le_advertisement(const BluetoothLEAdvertisementResponse &call); void send_bluetooth_le_advertisement(const BluetoothLEAdvertisementResponse &call);
void send_bluetooth_device_connection(uint64_t address, bool connected, uint16_t mtu = 0, esp_err_t error = ESP_OK); void send_bluetooth_device_connection(uint64_t address, bool connected, uint16_t mtu = 0, esp_err_t error = ESP_OK);
void send_bluetooth_device_pairing(uint64_t address, bool paired, esp_err_t error = ESP_OK);
void send_bluetooth_device_unpairing(uint64_t address, bool success, esp_err_t error = ESP_OK);
void send_bluetooth_connections_free(uint8_t free, uint8_t limit); void send_bluetooth_connections_free(uint8_t free, uint8_t limit);
void send_bluetooth_gatt_read_response(const BluetoothGATTReadResponse &call); void send_bluetooth_gatt_read_response(const BluetoothGATTReadResponse &call);
void send_bluetooth_gatt_write_response(const BluetoothGATTWriteResponse &call); void send_bluetooth_gatt_write_response(const BluetoothGATTWriteResponse &call);

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View File

@ -0,0 +1,271 @@
#include "as7341.h"
#include "esphome/core/log.h"
#include "esphome/core/hal.h"
namespace esphome {
namespace as7341 {
static const char *const TAG = "as7341";
void AS7341Component::setup() {
ESP_LOGCONFIG(TAG, "Setting up AS7341...");
LOG_I2C_DEVICE(this);
// Verify device ID
uint8_t id;
this->read_byte(AS7341_ID, &id);
ESP_LOGCONFIG(TAG, " Read ID: 0x%X", id);
if ((id & 0xFC) != (AS7341_CHIP_ID << 2)) {
this->mark_failed();
return;
}
// Power on (enter IDLE state)
if (!this->enable_power(true)) {
ESP_LOGE(TAG, " Power on failed!");
this->mark_failed();
return;
}
// Set configuration
this->write_byte(AS7341_CONFIG, 0x00);
this->setup_atime(this->atime_);
this->setup_astep(this->astep_);
this->setup_gain(this->gain_);
}
void AS7341Component::dump_config() {
ESP_LOGCONFIG(TAG, "AS7341:");
LOG_I2C_DEVICE(this);
if (this->is_failed()) {
ESP_LOGE(TAG, "Communication with AS7341 failed!");
}
LOG_UPDATE_INTERVAL(this);
ESP_LOGCONFIG(TAG, " Gain: %u", get_gain());
ESP_LOGCONFIG(TAG, " ATIME: %u", get_atime());
ESP_LOGCONFIG(TAG, " ASTEP: %u", get_astep());
LOG_SENSOR(" ", "F1", this->f1_);
LOG_SENSOR(" ", "F2", this->f2_);
LOG_SENSOR(" ", "F3", this->f3_);
LOG_SENSOR(" ", "F4", this->f4_);
LOG_SENSOR(" ", "F5", this->f5_);
LOG_SENSOR(" ", "F6", this->f6_);
LOG_SENSOR(" ", "F7", this->f7_);
LOG_SENSOR(" ", "F8", this->f8_);
LOG_SENSOR(" ", "Clear", this->clear_);
LOG_SENSOR(" ", "NIR", this->nir_);
}
float AS7341Component::get_setup_priority() const { return setup_priority::DATA; }
void AS7341Component::update() {
this->read_channels(this->channel_readings_);
if (this->f1_ != nullptr) {
this->f1_->publish_state(this->channel_readings_[0]);
}
if (this->f2_ != nullptr) {
this->f2_->publish_state(this->channel_readings_[1]);
}
if (this->f3_ != nullptr) {
this->f3_->publish_state(this->channel_readings_[2]);
}
if (this->f4_ != nullptr) {
this->f4_->publish_state(this->channel_readings_[3]);
}
if (this->f5_ != nullptr) {
this->f5_->publish_state(this->channel_readings_[6]);
}
if (this->f6_ != nullptr) {
this->f6_->publish_state(this->channel_readings_[7]);
}
if (this->f7_ != nullptr) {
this->f7_->publish_state(this->channel_readings_[8]);
}
if (this->f8_ != nullptr) {
this->f8_->publish_state(this->channel_readings_[9]);
}
if (this->clear_ != nullptr) {
this->clear_->publish_state(this->channel_readings_[10]);
}
if (this->nir_ != nullptr) {
this->nir_->publish_state(this->channel_readings_[11]);
}
}
AS7341Gain AS7341Component::get_gain() {
uint8_t data;
this->read_byte(AS7341_CFG1, &data);
return (AS7341Gain) data;
}
uint8_t AS7341Component::get_atime() {
uint8_t data;
this->read_byte(AS7341_ATIME, &data);
return data;
}
uint16_t AS7341Component::get_astep() {
uint16_t data;
this->read_byte_16(AS7341_ASTEP, &data);
return this->swap_bytes(data);
}
bool AS7341Component::setup_gain(AS7341Gain gain) { return this->write_byte(AS7341_CFG1, gain); }
bool AS7341Component::setup_atime(uint8_t atime) { return this->write_byte(AS7341_ATIME, atime); }
bool AS7341Component::setup_astep(uint16_t astep) { return this->write_byte_16(AS7341_ASTEP, swap_bytes(astep)); }
bool AS7341Component::read_channels(uint16_t *data) {
this->set_smux_low_channels(true);
this->enable_spectral_measurement(true);
this->wait_for_data();
bool low_success = this->read_bytes_16(AS7341_CH0_DATA_L, data, 6);
this->set_smux_low_channels(false);
this->enable_spectral_measurement(true);
this->wait_for_data();
bool high_sucess = this->read_bytes_16(AS7341_CH0_DATA_L, &data[6], 6);
return low_success && high_sucess;
}
void AS7341Component::set_smux_low_channels(bool enable) {
this->enable_spectral_measurement(false);
this->set_smux_command(AS7341_SMUX_CMD_WRITE);
if (enable) {
this->configure_smux_low_channels();
} else {
this->configure_smux_high_channels();
}
this->enable_smux();
}
bool AS7341Component::set_smux_command(AS7341SmuxCommand command) {
uint8_t data = command << 3; // Write to bits 4:3 of the register
return this->write_byte(AS7341_CFG6, data);
}
void AS7341Component::configure_smux_low_channels() {
// SMUX Config for F1,F2,F3,F4,NIR,Clear
this->write_byte(0x00, 0x30); // F3 left set to ADC2
this->write_byte(0x01, 0x01); // F1 left set to ADC0
this->write_byte(0x02, 0x00); // Reserved or disabled
this->write_byte(0x03, 0x00); // F8 left disabled
this->write_byte(0x04, 0x00); // F6 left disabled
this->write_byte(0x05, 0x42); // F4 left connected to ADC3/f2 left connected to ADC1
this->write_byte(0x06, 0x00); // F5 left disbled
this->write_byte(0x07, 0x00); // F7 left disbled
this->write_byte(0x08, 0x50); // CLEAR connected to ADC4
this->write_byte(0x09, 0x00); // F5 right disabled
this->write_byte(0x0A, 0x00); // F7 right disabled
this->write_byte(0x0B, 0x00); // Reserved or disabled
this->write_byte(0x0C, 0x20); // F2 right connected to ADC1
this->write_byte(0x0D, 0x04); // F4 right connected to ADC3
this->write_byte(0x0E, 0x00); // F6/F8 right disabled
this->write_byte(0x0F, 0x30); // F3 right connected to AD2
this->write_byte(0x10, 0x01); // F1 right connected to AD0
this->write_byte(0x11, 0x50); // CLEAR right connected to AD4
this->write_byte(0x12, 0x00); // Reserved or disabled
this->write_byte(0x13, 0x06); // NIR connected to ADC5
}
void AS7341Component::configure_smux_high_channels() {
// SMUX Config for F5,F6,F7,F8,NIR,Clear
this->write_byte(0x00, 0x00); // F3 left disable
this->write_byte(0x01, 0x00); // F1 left disable
this->write_byte(0x02, 0x00); // reserved/disable
this->write_byte(0x03, 0x40); // F8 left connected to ADC3
this->write_byte(0x04, 0x02); // F6 left connected to ADC1
this->write_byte(0x05, 0x00); // F4/ F2 disabled
this->write_byte(0x06, 0x10); // F5 left connected to ADC0
this->write_byte(0x07, 0x03); // F7 left connected to ADC2
this->write_byte(0x08, 0x50); // CLEAR Connected to ADC4
this->write_byte(0x09, 0x10); // F5 right connected to ADC0
this->write_byte(0x0A, 0x03); // F7 right connected to ADC2
this->write_byte(0x0B, 0x00); // Reserved or disabled
this->write_byte(0x0C, 0x00); // F2 right disabled
this->write_byte(0x0D, 0x00); // F4 right disabled
this->write_byte(0x0E, 0x24); // F8 right connected to ADC2/ F6 right connected to ADC1
this->write_byte(0x0F, 0x00); // F3 right disabled
this->write_byte(0x10, 0x00); // F1 right disabled
this->write_byte(0x11, 0x50); // CLEAR right connected to AD4
this->write_byte(0x12, 0x00); // Reserved or disabled
this->write_byte(0x13, 0x06); // NIR connected to ADC5
}
bool AS7341Component::enable_smux() {
this->set_register_bit(AS7341_ENABLE, 4);
uint16_t timeout = 1000;
for (uint16_t time = 0; time < timeout; time++) {
// The SMUXEN bit is cleared once the SMUX operation is finished
bool smuxen = this->read_register_bit(AS7341_ENABLE, 4);
if (!smuxen) {
return true;
}
delay(1);
}
return false;
}
bool AS7341Component::wait_for_data() {
uint16_t timeout = 1000;
for (uint16_t time = 0; time < timeout; time++) {
if (this->is_data_ready()) {
return true;
}
delay(1);
}
return false;
}
bool AS7341Component::is_data_ready() { return this->read_register_bit(AS7341_STATUS2, 6); }
bool AS7341Component::enable_power(bool enable) { return this->write_register_bit(AS7341_ENABLE, enable, 0); }
bool AS7341Component::enable_spectral_measurement(bool enable) {
return this->write_register_bit(AS7341_ENABLE, enable, 1);
}
bool AS7341Component::read_register_bit(uint8_t address, uint8_t bit_position) {
uint8_t data;
this->read_byte(address, &data);
bool bit = (data & (1 << bit_position)) > 0;
return bit;
}
bool AS7341Component::write_register_bit(uint8_t address, bool value, uint8_t bit_position) {
if (value) {
return this->set_register_bit(address, bit_position);
}
return this->clear_register_bit(address, bit_position);
}
bool AS7341Component::set_register_bit(uint8_t address, uint8_t bit_position) {
uint8_t data;
this->read_byte(address, &data);
data |= (1 << bit_position);
return this->write_byte(address, data);
}
bool AS7341Component::clear_register_bit(uint8_t address, uint8_t bit_position) {
uint8_t data;
this->read_byte(address, &data);
data &= ~(1 << bit_position);
return this->write_byte(address, data);
}
uint16_t AS7341Component::swap_bytes(uint16_t data) { return (data >> 8) | (data << 8); }
} // namespace as7341
} // namespace esphome

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@ -0,0 +1,144 @@
#pragma once
#include "esphome/core/component.h"
#include "esphome/components/sensor/sensor.h"
#include "esphome/components/i2c/i2c.h"
namespace esphome {
namespace as7341 {
static const uint8_t AS7341_CHIP_ID = 0X09;
static const uint8_t AS7341_CONFIG = 0x70;
static const uint8_t AS7341_LED = 0x74;
static const uint8_t AS7341_ENABLE = 0x80;
static const uint8_t AS7341_ATIME = 0x81;
static const uint8_t AS7341_WTIME = 0x83;
static const uint8_t AS7341_AUXID = 0x90;
static const uint8_t AS7341_REVID = 0x91;
static const uint8_t AS7341_ID = 0x92;
static const uint8_t AS7341_STATUS = 0x93;
static const uint8_t AS7341_CH0_DATA_L = 0x95;
static const uint8_t AS7341_CH0_DATA_H = 0x96;
static const uint8_t AS7341_CH1_DATA_L = 0x97;
static const uint8_t AS7341_CH1_DATA_H = 0x98;
static const uint8_t AS7341_CH2_DATA_L = 0x99;
static const uint8_t AS7341_CH2_DATA_H = 0x9A;
static const uint8_t AS7341_CH3_DATA_L = 0x9B;
static const uint8_t AS7341_CH3_DATA_H = 0x9C;
static const uint8_t AS7341_CH4_DATA_L = 0x9D;
static const uint8_t AS7341_CH4_DATA_H = 0x9E;
static const uint8_t AS7341_CH5_DATA_L = 0x9F;
static const uint8_t AS7341_CH5_DATA_H = 0xA0;
static const uint8_t AS7341_STATUS2 = 0xA3;
static const uint8_t AS7341_CFG1 = 0xAA; ///< Controls ADC Gain
static const uint8_t AS7341_CFG6 = 0xAF; // Stores SMUX command
static const uint8_t AS7341_CFG9 = 0xB2; // Config for system interrupts (SMUX, Flicker detection)
static const uint8_t AS7341_ASTEP = 0xCA; // LSB
static const uint8_t AS7341_ASTEP_MSB = 0xCB; // MSB
enum AS7341AdcChannel {
AS7341_ADC_CHANNEL_0,
AS7341_ADC_CHANNEL_1,
AS7341_ADC_CHANNEL_2,
AS7341_ADC_CHANNEL_3,
AS7341_ADC_CHANNEL_4,
AS7341_ADC_CHANNEL_5,
};
enum AS7341SmuxCommand {
AS7341_SMUX_CMD_ROM_RESET, ///< ROM code initialization of SMUX
AS7341_SMUX_CMD_READ, ///< Read SMUX configuration to RAM from SMUX chain
AS7341_SMUX_CMD_WRITE, ///< Write SMUX configuration from RAM to SMUX chain
};
enum AS7341Gain {
AS7341_GAIN_0_5X,
AS7341_GAIN_1X,
AS7341_GAIN_2X,
AS7341_GAIN_4X,
AS7341_GAIN_8X,
AS7341_GAIN_16X,
AS7341_GAIN_32X,
AS7341_GAIN_64X,
AS7341_GAIN_128X,
AS7341_GAIN_256X,
AS7341_GAIN_512X,
};
class AS7341Component : public PollingComponent, public i2c::I2CDevice {
public:
void setup() override;
void dump_config() override;
float get_setup_priority() const override;
void update() override;
void set_f1_sensor(sensor::Sensor *f1_sensor) { this->f1_ = f1_sensor; }
void set_f2_sensor(sensor::Sensor *f2_sensor) { f2_ = f2_sensor; }
void set_f3_sensor(sensor::Sensor *f3_sensor) { f3_ = f3_sensor; }
void set_f4_sensor(sensor::Sensor *f4_sensor) { f4_ = f4_sensor; }
void set_f5_sensor(sensor::Sensor *f5_sensor) { f5_ = f5_sensor; }
void set_f6_sensor(sensor::Sensor *f6_sensor) { f6_ = f6_sensor; }
void set_f7_sensor(sensor::Sensor *f7_sensor) { f7_ = f7_sensor; }
void set_f8_sensor(sensor::Sensor *f8_sensor) { f8_ = f8_sensor; }
void set_clear_sensor(sensor::Sensor *clear_sensor) { clear_ = clear_sensor; }
void set_nir_sensor(sensor::Sensor *nir_sensor) { nir_ = nir_sensor; }
void set_gain(AS7341Gain gain) { gain_ = gain; }
void set_atime(uint8_t atime) { atime_ = atime; }
void set_astep(uint16_t astep) { astep_ = astep; }
AS7341Gain get_gain();
uint8_t get_atime();
uint16_t get_astep();
bool setup_gain(AS7341Gain gain);
bool setup_atime(uint8_t atime);
bool setup_astep(uint16_t astep);
uint16_t read_channel(AS7341AdcChannel channel);
bool read_channels(uint16_t *data);
void set_smux_low_channels(bool enable);
bool set_smux_command(AS7341SmuxCommand command);
void configure_smux_low_channels();
void configure_smux_high_channels();
bool enable_smux();
bool wait_for_data();
bool is_data_ready();
bool enable_power(bool enable);
bool enable_spectral_measurement(bool enable);
bool read_register_bit(uint8_t address, uint8_t bit_position);
bool write_register_bit(uint8_t address, bool value, uint8_t bit_position);
bool set_register_bit(uint8_t address, uint8_t bit_position);
bool clear_register_bit(uint8_t address, uint8_t bit_position);
uint16_t swap_bytes(uint16_t data);
protected:
sensor::Sensor *f1_{nullptr};
sensor::Sensor *f2_{nullptr};
sensor::Sensor *f3_{nullptr};
sensor::Sensor *f4_{nullptr};
sensor::Sensor *f5_{nullptr};
sensor::Sensor *f6_{nullptr};
sensor::Sensor *f7_{nullptr};
sensor::Sensor *f8_{nullptr};
sensor::Sensor *clear_{nullptr};
sensor::Sensor *nir_{nullptr};
uint16_t astep_;
AS7341Gain gain_;
uint8_t atime_;
uint16_t channel_readings_[12];
};
} // namespace as7341
} // namespace esphome

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@ -0,0 +1,112 @@
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import i2c, sensor
from esphome.const import (
CONF_GAIN,
CONF_ID,
DEVICE_CLASS_ILLUMINANCE,
ICON_BRIGHTNESS_5,
STATE_CLASS_MEASUREMENT,
)
CODEOWNERS = ["@mrgnr"]
DEPENDENCIES = ["i2c"]
as7341_ns = cg.esphome_ns.namespace("as7341")
AS7341Component = as7341_ns.class_(
"AS7341Component", cg.PollingComponent, i2c.I2CDevice
)
CONF_ATIME = "atime"
CONF_ASTEP = "astep"
CONF_F1 = "f1"
CONF_F2 = "f2"
CONF_F3 = "f3"
CONF_F4 = "f4"
CONF_F5 = "f5"
CONF_F6 = "f6"
CONF_F7 = "f7"
CONF_F8 = "f8"
CONF_CLEAR = "clear"
CONF_NIR = "nir"
UNIT_COUNTS = "#"
AS7341_GAIN = as7341_ns.enum("AS7341Gain")
GAIN_OPTIONS = {
"X0.5": AS7341_GAIN.AS7341_GAIN_0_5X,
"X1": AS7341_GAIN.AS7341_GAIN_1X,
"X2": AS7341_GAIN.AS7341_GAIN_2X,
"X4": AS7341_GAIN.AS7341_GAIN_4X,
"X8": AS7341_GAIN.AS7341_GAIN_8X,
"X16": AS7341_GAIN.AS7341_GAIN_16X,
"X32": AS7341_GAIN.AS7341_GAIN_32X,
"X64": AS7341_GAIN.AS7341_GAIN_64X,
"X128": AS7341_GAIN.AS7341_GAIN_128X,
"X256": AS7341_GAIN.AS7341_GAIN_256X,
"X512": AS7341_GAIN.AS7341_GAIN_512X,
}
SENSOR_SCHEMA = sensor.sensor_schema(
unit_of_measurement=UNIT_COUNTS,
icon=ICON_BRIGHTNESS_5,
accuracy_decimals=0,
device_class=DEVICE_CLASS_ILLUMINANCE,
state_class=STATE_CLASS_MEASUREMENT,
)
CONFIG_SCHEMA = (
cv.Schema(
{
cv.GenerateID(): cv.declare_id(AS7341Component),
cv.Optional(CONF_F1): SENSOR_SCHEMA,
cv.Optional(CONF_F2): SENSOR_SCHEMA,
cv.Optional(CONF_F3): SENSOR_SCHEMA,
cv.Optional(CONF_F4): SENSOR_SCHEMA,
cv.Optional(CONF_F5): SENSOR_SCHEMA,
cv.Optional(CONF_F6): SENSOR_SCHEMA,
cv.Optional(CONF_F7): SENSOR_SCHEMA,
cv.Optional(CONF_F8): SENSOR_SCHEMA,
cv.Optional(CONF_CLEAR): SENSOR_SCHEMA,
cv.Optional(CONF_NIR): SENSOR_SCHEMA,
cv.Optional(CONF_GAIN, default="X8"): cv.enum(GAIN_OPTIONS),
cv.Optional(CONF_ATIME, default=29): cv.int_range(min=0, max=255),
cv.Optional(CONF_ASTEP, default=599): cv.int_range(min=0, max=65534),
}
)
.extend(cv.polling_component_schema("60s"))
.extend(i2c.i2c_device_schema(0x39))
)
SENSORS = {
CONF_F1: "set_f1_sensor",
CONF_F2: "set_f2_sensor",
CONF_F3: "set_f3_sensor",
CONF_F4: "set_f4_sensor",
CONF_F5: "set_f5_sensor",
CONF_F6: "set_f6_sensor",
CONF_F7: "set_f7_sensor",
CONF_F8: "set_f8_sensor",
CONF_CLEAR: "set_clear_sensor",
CONF_NIR: "set_nir_sensor",
}
async def to_code(config):
var = cg.new_Pvariable(config[CONF_ID])
await cg.register_component(var, config)
await i2c.register_i2c_device(var, config)
cg.add(var.set_gain(config[CONF_GAIN]))
cg.add(var.set_atime(config[CONF_ATIME]))
cg.add(var.set_astep(config[CONF_ASTEP]))
for conf_id, set_sensor_func in SENSORS.items():
if conf_id in config:
sens = await sensor.new_sensor(config[conf_id])
cg.add(getattr(var, set_sensor_func)(sens))

View File

@ -80,7 +80,7 @@ async def to_code(config):
cg.add(var.set_address(config[CONF_MAC_ADDRESS].as_hex)) cg.add(var.set_address(config[CONF_MAC_ADDRESS].as_hex))
for (config_key, setter) in [ for config_key, setter in [
(CONF_TEMPERATURE, var.set_temperature), (CONF_TEMPERATURE, var.set_temperature),
(CONF_HUMIDITY, var.set_humidity), (CONF_HUMIDITY, var.set_humidity),
(CONF_BATTERY_VOLTAGE, var.set_battery_voltage), (CONF_BATTERY_VOLTAGE, var.set_battery_voltage),

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@ -1,3 +1,5 @@
#ifdef USE_ESP32
#include "bedjet_hub.h" #include "bedjet_hub.h"
#include "bedjet_child.h" #include "bedjet_child.h"
#include "bedjet_const.h" #include "bedjet_const.h"
@ -541,3 +543,5 @@ void BedJetHub::register_child(BedJetClient *obj) {
} // namespace bedjet } // namespace bedjet
} // namespace esphome } // namespace esphome
#endif

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@ -1,4 +1,5 @@
#pragma once #pragma once
#ifdef USE_ESP32
#include "esphome/components/ble_client/ble_client.h" #include "esphome/components/ble_client/ble_client.h"
#include "esphome/components/esp32_ble_tracker/esp32_ble_tracker.h" #include "esphome/components/esp32_ble_tracker/esp32_ble_tracker.h"
@ -14,8 +15,6 @@
#include "esphome/components/time/real_time_clock.h" #include "esphome/components/time/real_time_clock.h"
#endif #endif
#ifdef USE_ESP32
#include <esp_gattc_api.h> #include <esp_gattc_api.h>
namespace esphome { namespace esphome {

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@ -27,13 +27,13 @@ from esphome.const import (
CONF_TIMING, CONF_TIMING,
CONF_TRIGGER_ID, CONF_TRIGGER_ID,
CONF_MQTT_ID, CONF_MQTT_ID,
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_BATTERY, DEVICE_CLASS_BATTERY,
DEVICE_CLASS_BATTERY_CHARGING, DEVICE_CLASS_BATTERY_CHARGING,
DEVICE_CLASS_CARBON_MONOXIDE, DEVICE_CLASS_CARBON_MONOXIDE,
DEVICE_CLASS_COLD, DEVICE_CLASS_COLD,
DEVICE_CLASS_CONNECTIVITY, DEVICE_CLASS_CONNECTIVITY,
DEVICE_CLASS_DOOR, DEVICE_CLASS_DOOR,
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_GARAGE_DOOR, DEVICE_CLASS_GARAGE_DOOR,
DEVICE_CLASS_GAS, DEVICE_CLASS_GAS,
DEVICE_CLASS_HEAT, DEVICE_CLASS_HEAT,
@ -62,13 +62,13 @@ from esphome.util import Registry
CODEOWNERS = ["@esphome/core"] CODEOWNERS = ["@esphome/core"]
DEVICE_CLASSES = [ DEVICE_CLASSES = [
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_BATTERY, DEVICE_CLASS_BATTERY,
DEVICE_CLASS_BATTERY_CHARGING, DEVICE_CLASS_BATTERY_CHARGING,
DEVICE_CLASS_CARBON_MONOXIDE, DEVICE_CLASS_CARBON_MONOXIDE,
DEVICE_CLASS_COLD, DEVICE_CLASS_COLD,
DEVICE_CLASS_CONNECTIVITY, DEVICE_CLASS_CONNECTIVITY,
DEVICE_CLASS_DOOR, DEVICE_CLASS_DOOR,
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_GARAGE_DOOR, DEVICE_CLASS_GARAGE_DOOR,
DEVICE_CLASS_GAS, DEVICE_CLASS_GAS,
DEVICE_CLASS_HEAT, DEVICE_CLASS_HEAT,
@ -393,28 +393,21 @@ def binary_sensor_schema(
entity_category: str = _UNDEF, entity_category: str = _UNDEF,
device_class: str = _UNDEF, device_class: str = _UNDEF,
) -> cv.Schema: ) -> cv.Schema:
schema = BINARY_SENSOR_SCHEMA schema = {}
if class_ is not _UNDEF: if class_ is not _UNDEF:
schema = schema.extend({cv.GenerateID(): cv.declare_id(class_)}) # Not cv.optional
if icon is not _UNDEF: schema[cv.GenerateID()] = cv.declare_id(class_)
schema = schema.extend({cv.Optional(CONF_ICON, default=icon): cv.icon})
if entity_category is not _UNDEF: for key, default, validator in [
schema = schema.extend( (CONF_ICON, icon, cv.icon),
{ (CONF_ENTITY_CATEGORY, entity_category, cv.entity_category),
cv.Optional( (CONF_DEVICE_CLASS, device_class, validate_device_class),
CONF_ENTITY_CATEGORY, default=entity_category ]:
): cv.entity_category if default is not _UNDEF:
} schema[cv.Optional(key, default=default)] = validator
)
if device_class is not _UNDEF: return BINARY_SENSOR_SCHEMA.extend(schema)
schema = schema.extend(
{
cv.Optional(
CONF_DEVICE_CLASS, default=device_class
): validate_device_class
}
)
return schema
async def setup_binary_sensor_core_(var, config): async def setup_binary_sensor_core_(var, config):

View File

@ -19,6 +19,15 @@ namespace binary_sensor {
} \ } \
} }
#define SUB_BINARY_SENSOR(name) \
protected: \
binary_sensor::BinarySensor *name##_binary_sensor_{nullptr}; \
\
public: \
void set_##name##_binary_sensor(binary_sensor::BinarySensor *binary_sensor) { \
this->name##_binary_sensor_ = binary_sensor; \
}
/** Base class for all binary_sensor-type classes. /** Base class for all binary_sensor-type classes.
* *
* This class includes a callback that components such as MQTT can subscribe to for state changes. * This class includes a callback that components such as MQTT can subscribe to for state changes.

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@ -1,3 +1,5 @@
#ifdef USE_ESP32
#include "automation.h" #include "automation.h"
#include <esp_bt_defs.h> #include <esp_bt_defs.h>
@ -73,3 +75,5 @@ void BLEWriterClientNode::gattc_event_handler(esp_gattc_cb_event_t event, esp_ga
} // namespace ble_client } // namespace ble_client
} // namespace esphome } // namespace esphome
#endif

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@ -1,13 +1,13 @@
#pragma once #pragma once
#ifdef USE_ESP32
#include <utility> #include <utility>
#include <vector> #include <vector>
#include "esphome/core/automation.h" #include "esphome/core/automation.h"
#include "esphome/components/ble_client/ble_client.h" #include "esphome/components/ble_client/ble_client.h"
#ifdef USE_ESP32
namespace esphome { namespace esphome {
namespace ble_client { namespace ble_client {
class BLEClientConnectTrigger : public Trigger<>, public BLEClientNode { class BLEClientConnectTrigger : public Trigger<>, public BLEClientNode {

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@ -158,6 +158,25 @@ bool BluetoothConnection::gattc_event_handler(esp_gattc_cb_event_t event, esp_ga
return true; return true;
} }
void BluetoothConnection::gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_cb_param_t *param) {
BLEClientBase::gap_event_handler(event, param);
switch (event) {
case ESP_GAP_BLE_AUTH_CMPL_EVT:
if (memcmp(param->ble_security.auth_cmpl.bd_addr, this->remote_bda_, 6) != 0)
break;
if (param->ble_security.auth_cmpl.success) {
api::global_api_server->send_bluetooth_device_pairing(this->address_, true);
} else {
api::global_api_server->send_bluetooth_device_pairing(this->address_, false,
param->ble_security.auth_cmpl.fail_reason);
}
break;
default:
break;
}
}
esp_err_t BluetoothConnection::read_characteristic(uint16_t handle) { esp_err_t BluetoothConnection::read_characteristic(uint16_t handle) {
if (!this->connected()) { if (!this->connected()) {
ESP_LOGW(TAG, "[%d] [%s] Cannot read GATT characteristic, not connected.", this->connection_index_, ESP_LOGW(TAG, "[%d] [%s] Cannot read GATT characteristic, not connected.", this->connection_index_,

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@ -13,6 +13,7 @@ class BluetoothConnection : public esp32_ble_client::BLEClientBase {
public: public:
bool gattc_event_handler(esp_gattc_cb_event_t event, esp_gatt_if_t gattc_if, bool gattc_event_handler(esp_gattc_cb_event_t event, esp_gatt_if_t gattc_if,
esp_ble_gattc_cb_param_t *param) override; esp_ble_gattc_cb_param_t *param) override;
void gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_cb_param_t *param) override;
esp_err_t read_characteristic(uint16_t handle); esp_err_t read_characteristic(uint16_t handle);
esp_err_t write_characteristic(uint16_t handle, const std::string &data, bool response); esp_err_t write_characteristic(uint16_t handle, const std::string &data, bool response);

View File

@ -257,12 +257,7 @@ void BluetoothProxy::bluetooth_device_request(const api::BluetoothDeviceRequest
ESP_LOGI(TAG, "[%d] [%s] Connecting v1", connection->get_connection_index(), connection->address_str().c_str()); ESP_LOGI(TAG, "[%d] [%s] Connecting v1", connection->get_connection_index(), connection->address_str().c_str());
} }
if (msg.has_address_type) { if (msg.has_address_type) {
connection->remote_bda_[0] = (msg.address >> 40) & 0xFF; uint64_to_bd_addr(msg.address, connection->remote_bda_);
connection->remote_bda_[1] = (msg.address >> 32) & 0xFF;
connection->remote_bda_[2] = (msg.address >> 24) & 0xFF;
connection->remote_bda_[3] = (msg.address >> 16) & 0xFF;
connection->remote_bda_[4] = (msg.address >> 8) & 0xFF;
connection->remote_bda_[5] = (msg.address >> 0) & 0xFF;
connection->set_remote_addr_type(static_cast<esp_ble_addr_type_t>(msg.address_type)); connection->set_remote_addr_type(static_cast<esp_ble_addr_type_t>(msg.address_type));
connection->set_state(espbt::ClientState::DISCOVERED); connection->set_state(espbt::ClientState::DISCOVERED);
} else { } else {
@ -290,10 +285,28 @@ void BluetoothProxy::bluetooth_device_request(const api::BluetoothDeviceRequest
} }
break; break;
} }
case api::enums::BLUETOOTH_DEVICE_REQUEST_TYPE_PAIR: case api::enums::BLUETOOTH_DEVICE_REQUEST_TYPE_PAIR: {
case api::enums::BLUETOOTH_DEVICE_REQUEST_TYPE_UNPAIR: auto *connection = this->get_connection_(msg.address, false);
if (connection != nullptr) {
if (!connection->is_paired()) {
auto err = connection->pair();
if (err != ESP_OK) {
api::global_api_server->send_bluetooth_device_pairing(msg.address, false, err);
}
} else {
api::global_api_server->send_bluetooth_device_pairing(msg.address, true);
}
}
break; break;
} }
case api::enums::BLUETOOTH_DEVICE_REQUEST_TYPE_UNPAIR: {
esp_bd_addr_t address;
uint64_to_bd_addr(msg.address, address);
esp_err_t ret = esp_ble_remove_bond_device(address);
api::global_api_server->send_bluetooth_device_unpairing(msg.address, ret == ESP_OK, ret);
break;
}
}
} }
void BluetoothProxy::bluetooth_gatt_read(const api::BluetoothGATTReadRequest &msg) { void BluetoothProxy::bluetooth_gatt_read(const api::BluetoothGATTReadRequest &msg) {

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@ -44,6 +44,15 @@ class BluetoothProxy : public esp32_ble_tracker::ESPBTDeviceListener, public Com
int get_bluetooth_connections_free(); int get_bluetooth_connections_free();
int get_bluetooth_connections_limit() { return this->connections_.size(); } int get_bluetooth_connections_limit() { return this->connections_.size(); }
static void uint64_to_bd_addr(uint64_t address, esp_bd_addr_t bd_addr) {
bd_addr[0] = (address >> 40) & 0xff;
bd_addr[1] = (address >> 32) & 0xff;
bd_addr[2] = (address >> 24) & 0xff;
bd_addr[3] = (address >> 16) & 0xff;
bd_addr[4] = (address >> 8) & 0xff;
bd_addr[5] = (address >> 0) & 0xff;
}
void set_active(bool active) { this->active_ = active; } void set_active(bool active) { this->active_ = active; }
bool has_active() { return this->active_; } bool has_active() { return this->active_; }

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@ -117,18 +117,24 @@ void BME680Component::setup() {
this->calibration_.gh2 = cal2[12] << 8 | cal2[13]; this->calibration_.gh2 = cal2[12] << 8 | cal2[13];
this->calibration_.gh3 = cal2[15]; this->calibration_.gh3 = cal2[15];
if (!this->read_byte(0x02, &this->calibration_.res_heat_range)) { uint8_t temp_var = 0;
if (!this->read_byte(0x02, &temp_var)) {
this->mark_failed(); this->mark_failed();
return; return;
} }
if (!this->read_byte(0x00, &this->calibration_.res_heat_val)) { this->calibration_.res_heat_range = ((temp_var & 0x30) / 16);
if (!this->read_byte(0x00, &temp_var)) {
this->mark_failed(); this->mark_failed();
return; return;
} }
if (!this->read_byte(0x04, &this->calibration_.range_sw_err)) { this->calibration_.res_heat_val = (int8_t) temp_var;
if (!this->read_byte(0x04, &temp_var)) {
this->mark_failed(); this->mark_failed();
return; return;
} }
this->calibration_.range_sw_err = ((int8_t) temp_var & (int8_t) 0xf0) / 16;
this->calibration_.ambient_temperature = 25; // prime ambient temperature this->calibration_.ambient_temperature = 25; // prime ambient temperature
@ -181,7 +187,7 @@ void BME680Component::setup() {
return; return;
} }
gas0_control &= ~0b00001000; gas0_control &= ~0b00001000;
gas0_control |= heat_off ? 0b100 : 0b000; gas0_control |= heat_off << 3;
if (!this->write_byte(BME680_REGISTER_CONTROL_GAS0, gas0_control)) { if (!this->write_byte(BME680_REGISTER_CONTROL_GAS0, gas0_control)) {
this->mark_failed(); this->mark_failed();
return; return;
@ -249,12 +255,12 @@ uint8_t BME680Component::calc_heater_resistance_(uint16_t temperature) {
if (temperature > 400) if (temperature > 400)
temperature = 400; temperature = 400;
const uint8_t ambient_temperature = this->calibration_.ambient_temperature; const int8_t ambient_temperature = this->calibration_.ambient_temperature;
const int8_t gh1 = this->calibration_.gh1; const int8_t gh1 = this->calibration_.gh1;
const int16_t gh2 = this->calibration_.gh2; const int16_t gh2 = this->calibration_.gh2;
const int8_t gh3 = this->calibration_.gh3; const int8_t gh3 = this->calibration_.gh3;
const uint8_t res_heat_range = this->calibration_.res_heat_range; const uint8_t res_heat_range = this->calibration_.res_heat_range;
const uint8_t res_heat_val = this->calibration_.res_heat_val; const int8_t res_heat_val = this->calibration_.res_heat_val;
uint8_t heatr_res; uint8_t heatr_res;
int32_t var1; int32_t var1;
@ -293,35 +299,57 @@ uint8_t BME680Component::calc_heater_duration_(uint16_t duration) {
void BME680Component::read_data_() { void BME680Component::read_data_() {
uint8_t data[15]; uint8_t data[15];
if (!this->read_bytes(BME680_REGISTER_FIELD0, data, 15)) { if (!this->read_bytes(BME680_REGISTER_FIELD0, data, 15)) {
if (this->temperature_sensor_ != nullptr)
this->temperature_sensor_->publish_state(NAN);
if (this->pressure_sensor_ != nullptr)
this->pressure_sensor_->publish_state(NAN);
if (this->humidity_sensor_ != nullptr)
this->humidity_sensor_->publish_state(NAN);
if (this->gas_resistance_sensor_ != nullptr)
this->gas_resistance_sensor_->publish_state(NAN);
ESP_LOGW(TAG, "Communication with BME680 failed!");
this->status_set_warning(); this->status_set_warning();
return; return;
} }
this->status_clear_warning();
uint32_t raw_temperature = (uint32_t(data[5]) << 12) | (uint32_t(data[6]) << 4) | (uint32_t(data[7]) >> 4); uint32_t raw_temperature = (uint32_t(data[5]) << 12) | (uint32_t(data[6]) << 4) | (uint32_t(data[7]) >> 4);
uint32_t raw_pressure = (uint32_t(data[2]) << 12) | (uint32_t(data[3]) << 4) | (uint32_t(data[4]) >> 4); uint32_t raw_pressure = (uint32_t(data[2]) << 12) | (uint32_t(data[3]) << 4) | (uint32_t(data[4]) >> 4);
uint32_t raw_humidity = (uint32_t(data[8]) << 8) | uint32_t(data[9]); uint32_t raw_humidity = (uint32_t(data[8]) << 8) | uint32_t(data[9]);
uint16_t raw_gas = (uint16_t(data[13]) << 2) | (uint16_t(14) >> 6); uint16_t raw_gas = (uint16_t)((uint32_t) data[13] * 4 | (((uint32_t) data[14]) / 64));
uint8_t gas_range = data[14] & 0x0F; uint8_t gas_range = data[14] & 0x0F;
float temperature = this->calc_temperature_(raw_temperature); float temperature = this->calc_temperature_(raw_temperature);
float pressure = this->calc_pressure_(raw_pressure); float pressure = this->calc_pressure_(raw_pressure);
float humidity = this->calc_humidity_(raw_humidity); float humidity = this->calc_humidity_(raw_humidity);
float gas_resistance = NAN; float gas_resistance = this->calc_gas_resistance_(raw_gas, gas_range);
if (data[14] & 0x20) {
gas_resistance = this->calc_gas_resistance_(raw_gas, gas_range); bool gas_valid = (data[14] >> 5) & 1;
} bool heat_stable = (data[14] >> 4) & 1;
if (this->heater_temperature_ == 0 || this->heater_duration_ == 0)
heat_stable = true; // Allow reporting gas resistance when heater is disabled
ESP_LOGD(TAG, "Got temperature=%.1f°C pressure=%.1fhPa humidity=%.1f%% gas_resistance=%.1fΩ", temperature, pressure, ESP_LOGD(TAG, "Got temperature=%.1f°C pressure=%.1fhPa humidity=%.1f%% gas_resistance=%.1fΩ", temperature, pressure,
humidity, gas_resistance); humidity, gas_resistance);
if (!gas_valid)
ESP_LOGW(TAG, "Gas measurement unsuccessful, reading invalid!");
if (!heat_stable)
ESP_LOGW(TAG, "Heater unstable, reading invalid! (Normal for a few readings after a power cycle)");
if (this->temperature_sensor_ != nullptr) if (this->temperature_sensor_ != nullptr)
this->temperature_sensor_->publish_state(temperature); this->temperature_sensor_->publish_state(temperature);
if (this->pressure_sensor_ != nullptr) if (this->pressure_sensor_ != nullptr)
this->pressure_sensor_->publish_state(pressure); this->pressure_sensor_->publish_state(pressure);
if (this->humidity_sensor_ != nullptr) if (this->humidity_sensor_ != nullptr)
this->humidity_sensor_->publish_state(humidity); this->humidity_sensor_->publish_state(humidity);
if (this->gas_resistance_sensor_ != nullptr) if (this->gas_resistance_sensor_ != nullptr) {
if (gas_valid && heat_stable) {
this->gas_resistance_sensor_->publish_state(gas_resistance); this->gas_resistance_sensor_->publish_state(gas_resistance);
this->status_clear_warning(); } else {
this->status_set_warning();
this->gas_resistance_sensor_->publish_state(NAN);
}
}
} }
float BME680Component::calc_temperature_(uint32_t raw_temperature) { float BME680Component::calc_temperature_(uint32_t raw_temperature) {
@ -428,20 +456,22 @@ float BME680Component::calc_humidity_(uint16_t raw_humidity) {
return calc_hum; return calc_hum;
} }
uint32_t BME680Component::calc_gas_resistance_(uint16_t raw_gas, uint8_t range) { float BME680Component::calc_gas_resistance_(uint16_t raw_gas, uint8_t range) {
float calc_gas_res; float calc_gas_res;
float var1 = 0; float var1 = 0;
float var2 = 0; float var2 = 0;
float var3 = 0; float var3 = 0;
float raw_gas_f = raw_gas;
float range_f = 1U << range;
const float range_sw_err = this->calibration_.range_sw_err; const float range_sw_err = this->calibration_.range_sw_err;
var1 = 1340.0f + (5.0f * range_sw_err); var1 = 1340.0f + (5.0f * range_sw_err);
var2 = var1 * (1.0f + BME680_GAS_LOOKUP_TABLE_1[range] / 100.0f); var2 = var1 * (1.0f + BME680_GAS_LOOKUP_TABLE_1[range] / 100.0f);
var3 = 1.0f + (BME680_GAS_LOOKUP_TABLE_2[range] / 100.0f); var3 = 1.0f + (BME680_GAS_LOOKUP_TABLE_2[range] / 100.0f);
calc_gas_res = 1.0f / (var3 * 0.000000125f * float(1 << range) * (((float(raw_gas) - 512.0f) / var2) + 1.0f)); calc_gas_res = 1.0f / (var3 * 0.000000125f * range_f * (((raw_gas_f - 512.0f) / var2) + 1.0f));
return static_cast<uint32_t>(calc_gas_res); return calc_gas_res;
} }
uint32_t BME680Component::calc_meas_duration_() { uint32_t BME680Component::calc_meas_duration_() {
uint32_t tph_dur; // Calculate in us uint32_t tph_dur; // Calculate in us

View File

@ -59,11 +59,11 @@ struct BME680CalibrationData {
int8_t gh3; int8_t gh3;
uint8_t res_heat_range; uint8_t res_heat_range;
uint8_t res_heat_val; int8_t res_heat_val;
uint8_t range_sw_err; int8_t range_sw_err;
float tfine; float tfine;
uint8_t ambient_temperature; int8_t ambient_temperature;
}; };
class BME680Component : public PollingComponent, public i2c::I2CDevice { class BME680Component : public PollingComponent, public i2c::I2CDevice {
@ -117,7 +117,7 @@ class BME680Component : public PollingComponent, public i2c::I2CDevice {
/// Calculate the relative humidity in % using the provided raw ADC value. /// Calculate the relative humidity in % using the provided raw ADC value.
float calc_humidity_(uint16_t raw_humidity); float calc_humidity_(uint16_t raw_humidity);
/// Calculate the gas resistance in Ω using the provided raw ADC value. /// Calculate the gas resistance in Ω using the provided raw ADC value.
uint32_t calc_gas_resistance_(uint16_t raw_gas, uint8_t range); float calc_gas_resistance_(uint16_t raw_gas, uint8_t range);
/// Calculate how long the sensor will take until we can retrieve data. /// Calculate how long the sensor will take until we can retrieve data.
uint32_t calc_meas_duration_(); uint32_t calc_meas_duration_();

View File

@ -6,6 +6,7 @@ from esphome.const import CONF_ID
CODEOWNERS = ["@trvrnrth"] CODEOWNERS = ["@trvrnrth"]
DEPENDENCIES = ["i2c"] DEPENDENCIES = ["i2c"]
AUTO_LOAD = ["sensor", "text_sensor"] AUTO_LOAD = ["sensor", "text_sensor"]
MULTI_CONF = True
CONF_BME680_BSEC_ID = "bme680_bsec_id" CONF_BME680_BSEC_ID = "bme680_bsec_id"
CONF_TEMPERATURE_OFFSET = "temperature_offset" CONF_TEMPERATURE_OFFSET = "temperature_offset"
@ -54,6 +55,7 @@ async def to_code(config):
await cg.register_component(var, config) await cg.register_component(var, config)
await i2c.register_i2c_device(var, config) await i2c.register_i2c_device(var, config)
cg.add(var.set_device_id(str(config[CONF_ID])))
cg.add(var.set_temperature_offset(config[CONF_TEMPERATURE_OFFSET])) cg.add(var.set_temperature_offset(config[CONF_TEMPERATURE_OFFSET]))
cg.add(var.set_iaq_mode(config[CONF_IAQ_MODE])) cg.add(var.set_iaq_mode(config[CONF_IAQ_MODE]))
cg.add(var.set_sample_rate(config[CONF_SAMPLE_RATE])) cg.add(var.set_sample_rate(config[CONF_SAMPLE_RATE]))

View File

@ -10,19 +10,24 @@ static const char *const TAG = "bme680_bsec.sensor";
static const std::string IAQ_ACCURACY_STATES[4] = {"Stabilizing", "Uncertain", "Calibrating", "Calibrated"}; static const std::string IAQ_ACCURACY_STATES[4] = {"Stabilizing", "Uncertain", "Calibrating", "Calibrated"};
BME680BSECComponent *BME680BSECComponent::instance; // NOLINT(cppcoreguidelines-avoid-non-const-global-variables) std::vector<BME680BSECComponent *>
BME680BSECComponent::instances; // NOLINT(cppcoreguidelines-avoid-non-const-global-variables)
uint8_t BME680BSECComponent::work_buffer_[BSEC_MAX_WORKBUFFER_SIZE] = {0};
void BME680BSECComponent::setup() { void BME680BSECComponent::setup() {
ESP_LOGCONFIG(TAG, "Setting up BME680 via BSEC..."); ESP_LOGCONFIG(TAG, "Setting up BME680(%s) via BSEC...", this->device_id_.c_str());
BME680BSECComponent::instance = this;
this->bsec_status_ = bsec_init(); uint8_t new_idx = BME680BSECComponent::instances.size();
if (this->bsec_status_ != BSEC_OK) { BME680BSECComponent::instances.push_back(this);
this->mark_failed();
return;
}
this->bme680_.dev_id = this->address_; this->bsec_state_data_valid_ = false;
// Initialize the bme680_ structure (passed-in to the bme680_* functions) and the BME680 device
this->bme680_.dev_id =
new_idx; // This is a "Place holder to store the id of the device structure" (see bme680_defs.h).
// This will be passed-in as first parameter to the next "read" and "write" function pointers.
// We currently use the index of the object in the BME680BSECComponent::instances vector to identify
// the different devices in the system.
this->bme680_.intf = BME680_I2C_INTF; this->bme680_.intf = BME680_I2C_INTF;
this->bme680_.read = BME680BSECComponent::read_bytes_wrapper; this->bme680_.read = BME680BSECComponent::read_bytes_wrapper;
this->bme680_.write = BME680BSECComponent::write_bytes_wrapper; this->bme680_.write = BME680BSECComponent::write_bytes_wrapper;
@ -35,29 +40,30 @@ void BME680BSECComponent::setup() {
return; return;
} }
if (this->sample_rate_ == SAMPLE_RATE_ULP) { // Initialize the BSEC library
const uint8_t bsec_config[] = { if (this->reinit_bsec_lib_() != 0) {
#include "config/generic_33v_300s_28d/bsec_iaq.txt"
};
this->set_config_(bsec_config);
} else {
const uint8_t bsec_config[] = {
#include "config/generic_33v_3s_28d/bsec_iaq.txt"
};
this->set_config_(bsec_config);
}
this->update_subscription_();
if (this->bsec_status_ != BSEC_OK) {
this->mark_failed(); this->mark_failed();
return; return;
} }
// Load the BSEC library state from storage
this->load_state_(); this->load_state_();
} }
void BME680BSECComponent::set_config_(const uint8_t *config) { void BME680BSECComponent::set_config_() {
uint8_t work_buffer[BSEC_MAX_WORKBUFFER_SIZE]; if (this->sample_rate_ == SAMPLE_RATE_ULP) {
this->bsec_status_ = bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, work_buffer, sizeof(work_buffer)); const uint8_t config[] = {
#include "config/generic_33v_300s_28d/bsec_iaq.txt"
};
this->bsec_status_ =
bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
} else {
const uint8_t config[] = {
#include "config/generic_33v_3s_28d/bsec_iaq.txt"
};
this->bsec_status_ =
bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
}
} }
float BME680BSECComponent::calc_sensor_sample_rate_(SampleRate sample_rate) { float BME680BSECComponent::calc_sensor_sample_rate_(SampleRate sample_rate) {
@ -118,10 +124,12 @@ void BME680BSECComponent::update_subscription_() {
uint8_t num_sensor_settings = BSEC_MAX_PHYSICAL_SENSOR; uint8_t num_sensor_settings = BSEC_MAX_PHYSICAL_SENSOR;
this->bsec_status_ = this->bsec_status_ =
bsec_update_subscription(virtual_sensors, num_virtual_sensors, sensor_settings, &num_sensor_settings); bsec_update_subscription(virtual_sensors, num_virtual_sensors, sensor_settings, &num_sensor_settings);
ESP_LOGV(TAG, "%s: updating subscription for %d virtual sensors (out=%d sensors)", this->device_id_.c_str(),
num_virtual_sensors, num_sensor_settings);
} }
void BME680BSECComponent::dump_config() { void BME680BSECComponent::dump_config() {
ESP_LOGCONFIG(TAG, "BME680 via BSEC:"); ESP_LOGCONFIG(TAG, "%s via BSEC:", this->device_id_.c_str());
bsec_version_t version; bsec_version_t version;
bsec_get_version(&version); bsec_get_version(&version);
@ -185,23 +193,31 @@ void BME680BSECComponent::run_() {
return; return;
} }
ESP_LOGV(TAG, "Performing sensor run"); ESP_LOGV(TAG, "%s: Performing sensor run", this->device_id_.c_str());
bsec_bme_settings_t bme680_settings; // Restore BSEC library state
this->bsec_status_ = bsec_sensor_control(curr_time_ns, &bme680_settings); // The reinit_bsec_lib_ method is computationally expensive: it takes 1200÷2900 microseconds on a ESP32.
// It can be skipped entirely when there is only one device (since the BSEC library won't be shared)
if (BME680BSECComponent::instances.size() > 1) {
int res = this->reinit_bsec_lib_();
if (res != 0)
return;
}
this->bsec_status_ = bsec_sensor_control(curr_time_ns, &this->bme680_settings_);
if (this->bsec_status_ < BSEC_OK) { if (this->bsec_status_ < BSEC_OK) {
ESP_LOGW(TAG, "Failed to fetch sensor control settings (BSEC Error Code %d)", this->bsec_status_); ESP_LOGW(TAG, "Failed to fetch sensor control settings (BSEC Error Code %d)", this->bsec_status_);
return; return;
} }
this->next_call_ns_ = bme680_settings.next_call; this->next_call_ns_ = this->bme680_settings_.next_call;
if (bme680_settings.trigger_measurement) { if (this->bme680_settings_.trigger_measurement) {
this->bme680_.tph_sett.os_temp = bme680_settings.temperature_oversampling; this->bme680_.tph_sett.os_temp = this->bme680_settings_.temperature_oversampling;
this->bme680_.tph_sett.os_pres = bme680_settings.pressure_oversampling; this->bme680_.tph_sett.os_pres = this->bme680_settings_.pressure_oversampling;
this->bme680_.tph_sett.os_hum = bme680_settings.humidity_oversampling; this->bme680_.tph_sett.os_hum = this->bme680_settings_.humidity_oversampling;
this->bme680_.gas_sett.run_gas = bme680_settings.run_gas; this->bme680_.gas_sett.run_gas = this->bme680_settings_.run_gas;
this->bme680_.gas_sett.heatr_temp = bme680_settings.heater_temperature; this->bme680_.gas_sett.heatr_temp = this->bme680_settings_.heater_temperature;
this->bme680_.gas_sett.heatr_dur = bme680_settings.heating_duration; this->bme680_.gas_sett.heatr_dur = this->bme680_settings_.heating_duration;
this->bme680_.power_mode = BME680_FORCED_MODE; this->bme680_.power_mode = BME680_FORCED_MODE;
uint16_t desired_settings = BME680_OST_SEL | BME680_OSP_SEL | BME680_OSH_SEL | BME680_GAS_SENSOR_SEL; uint16_t desired_settings = BME680_OST_SEL | BME680_OSP_SEL | BME680_OSH_SEL | BME680_GAS_SENSOR_SEL;
this->bme680_status_ = bme680_set_sensor_settings(desired_settings, &this->bme680_); this->bme680_status_ = bme680_set_sensor_settings(desired_settings, &this->bme680_);
@ -218,19 +234,26 @@ void BME680BSECComponent::run_() {
uint16_t meas_dur = 0; uint16_t meas_dur = 0;
bme680_get_profile_dur(&meas_dur, &this->bme680_); bme680_get_profile_dur(&meas_dur, &this->bme680_);
// Since we are about to go "out of scope" in the loop, take a snapshot of the state now so we can restore it later
// TODO: it would be interesting to see if this is really needed here, or if it's needed only after each
// bsec_do_steps() call
if (BME680BSECComponent::instances.size() > 1)
this->snapshot_state_();
ESP_LOGV(TAG, "Queueing read in %ums", meas_dur); ESP_LOGV(TAG, "Queueing read in %ums", meas_dur);
this->set_timeout("read", meas_dur, this->set_timeout("read", meas_dur, [this]() { this->read_(); });
[this, curr_time_ns, bme680_settings]() { this->read_(curr_time_ns, bme680_settings); });
} else { } else {
ESP_LOGV(TAG, "Measurement not required"); ESP_LOGV(TAG, "Measurement not required");
this->read_(curr_time_ns, bme680_settings); this->read_();
} }
} }
void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme680_settings) { void BME680BSECComponent::read_() {
ESP_LOGV(TAG, "Reading data"); ESP_LOGV(TAG, "%s: Reading data", this->device_id_.c_str());
int64_t curr_time_ns = this->get_time_ns_();
if (bme680_settings.trigger_measurement) { if (this->bme680_settings_.trigger_measurement) {
while (this->bme680_.power_mode != BME680_SLEEP_MODE) { while (this->bme680_.power_mode != BME680_SLEEP_MODE) {
this->bme680_status_ = bme680_get_sensor_mode(&this->bme680_); this->bme680_status_ = bme680_get_sensor_mode(&this->bme680_);
if (this->bme680_status_ != BME680_OK) { if (this->bme680_status_ != BME680_OK) {
@ -239,7 +262,7 @@ void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme
} }
} }
if (!bme680_settings.process_data) { if (!this->bme680_settings_.process_data) {
ESP_LOGV(TAG, "Data processing not required"); ESP_LOGV(TAG, "Data processing not required");
return; return;
} }
@ -259,35 +282,35 @@ void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme
bsec_input_t inputs[BSEC_MAX_PHYSICAL_SENSOR]; // Temperature, Pressure, Humidity & Gas Resistance bsec_input_t inputs[BSEC_MAX_PHYSICAL_SENSOR]; // Temperature, Pressure, Humidity & Gas Resistance
uint8_t num_inputs = 0; uint8_t num_inputs = 0;
if (bme680_settings.process_data & BSEC_PROCESS_TEMPERATURE) { if (this->bme680_settings_.process_data & BSEC_PROCESS_TEMPERATURE) {
inputs[num_inputs].sensor_id = BSEC_INPUT_TEMPERATURE; inputs[num_inputs].sensor_id = BSEC_INPUT_TEMPERATURE;
inputs[num_inputs].signal = data.temperature / 100.0f; inputs[num_inputs].signal = data.temperature / 100.0f;
inputs[num_inputs].time_stamp = trigger_time_ns; inputs[num_inputs].time_stamp = curr_time_ns;
num_inputs++; num_inputs++;
// Temperature offset from the real temperature due to external heat sources // Temperature offset from the real temperature due to external heat sources
inputs[num_inputs].sensor_id = BSEC_INPUT_HEATSOURCE; inputs[num_inputs].sensor_id = BSEC_INPUT_HEATSOURCE;
inputs[num_inputs].signal = this->temperature_offset_; inputs[num_inputs].signal = this->temperature_offset_;
inputs[num_inputs].time_stamp = trigger_time_ns; inputs[num_inputs].time_stamp = curr_time_ns;
num_inputs++; num_inputs++;
} }
if (bme680_settings.process_data & BSEC_PROCESS_HUMIDITY) { if (this->bme680_settings_.process_data & BSEC_PROCESS_HUMIDITY) {
inputs[num_inputs].sensor_id = BSEC_INPUT_HUMIDITY; inputs[num_inputs].sensor_id = BSEC_INPUT_HUMIDITY;
inputs[num_inputs].signal = data.humidity / 1000.0f; inputs[num_inputs].signal = data.humidity / 1000.0f;
inputs[num_inputs].time_stamp = trigger_time_ns; inputs[num_inputs].time_stamp = curr_time_ns;
num_inputs++; num_inputs++;
} }
if (bme680_settings.process_data & BSEC_PROCESS_PRESSURE) { if (this->bme680_settings_.process_data & BSEC_PROCESS_PRESSURE) {
inputs[num_inputs].sensor_id = BSEC_INPUT_PRESSURE; inputs[num_inputs].sensor_id = BSEC_INPUT_PRESSURE;
inputs[num_inputs].signal = data.pressure; inputs[num_inputs].signal = data.pressure;
inputs[num_inputs].time_stamp = trigger_time_ns; inputs[num_inputs].time_stamp = curr_time_ns;
num_inputs++; num_inputs++;
} }
if (bme680_settings.process_data & BSEC_PROCESS_GAS) { if (this->bme680_settings_.process_data & BSEC_PROCESS_GAS) {
if (data.status & BME680_GASM_VALID_MSK) { if (data.status & BME680_GASM_VALID_MSK) {
inputs[num_inputs].sensor_id = BSEC_INPUT_GASRESISTOR; inputs[num_inputs].sensor_id = BSEC_INPUT_GASRESISTOR;
inputs[num_inputs].signal = data.gas_resistance; inputs[num_inputs].signal = data.gas_resistance;
inputs[num_inputs].time_stamp = trigger_time_ns; inputs[num_inputs].time_stamp = curr_time_ns;
num_inputs++; num_inputs++;
} else { } else {
ESP_LOGD(TAG, "BME680 did not report gas data"); ESP_LOGD(TAG, "BME680 did not report gas data");
@ -298,6 +321,22 @@ void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme
return; return;
} }
// Restore BSEC library state
// The reinit_bsec_lib_ method is computationally expensive: it takes 1200÷2900 microseconds on a ESP32.
// It can be skipped entirely when there is only one device (since the BSEC library won't be shared)
if (BME680BSECComponent::instances.size() > 1) {
int res = this->reinit_bsec_lib_();
if (res != 0)
return;
// Now that the BSEC library has been re-initialized, bsec_sensor_control *NEEDS* to be called in order to support
// multiple devices with a different set of enabled sensors (even if the bme680_settings_ data is not used)
this->bsec_status_ = bsec_sensor_control(curr_time_ns, &this->bme680_settings_);
if (this->bsec_status_ < BSEC_OK) {
ESP_LOGW(TAG, "Failed to fetch sensor control settings (BSEC Error Code %d)", this->bsec_status_);
return;
}
}
bsec_output_t outputs[BSEC_NUMBER_OUTPUTS]; bsec_output_t outputs[BSEC_NUMBER_OUTPUTS];
uint8_t num_outputs = BSEC_NUMBER_OUTPUTS; uint8_t num_outputs = BSEC_NUMBER_OUTPUTS;
this->bsec_status_ = bsec_do_steps(inputs, num_inputs, outputs, &num_outputs); this->bsec_status_ = bsec_do_steps(inputs, num_inputs, outputs, &num_outputs);
@ -305,6 +344,13 @@ void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme
ESP_LOGW(TAG, "BSEC failed to process signals (BSEC Error Code %d)", this->bsec_status_); ESP_LOGW(TAG, "BSEC failed to process signals (BSEC Error Code %d)", this->bsec_status_);
return; return;
} }
ESP_LOGV(TAG, "%s: after bsec_do_steps: num_inputs=%d num_outputs=%d", this->device_id_.c_str(), num_inputs,
num_outputs);
// Since we are about to go "out of scope" in the loop, take a snapshot of the state now so we can restore it later
if (BME680BSECComponent::instances.size() > 1)
this->snapshot_state_();
if (num_outputs < 1) { if (num_outputs < 1) {
ESP_LOGD(TAG, "No signal outputs provided by BSEC"); ESP_LOGD(TAG, "No signal outputs provided by BSEC");
return; return;
@ -314,7 +360,7 @@ void BME680BSECComponent::read_(int64_t trigger_time_ns, bsec_bme_settings_t bme
} }
void BME680BSECComponent::publish_(const bsec_output_t *outputs, uint8_t num_outputs) { void BME680BSECComponent::publish_(const bsec_output_t *outputs, uint8_t num_outputs) {
ESP_LOGV(TAG, "Queuing sensor state publish actions"); ESP_LOGV(TAG, "%s: Queuing sensor state publish actions", this->device_id_.c_str());
for (uint8_t i = 0; i < num_outputs; i++) { for (uint8_t i = 0; i < num_outputs; i++) {
float signal = outputs[i].signal; float signal = outputs[i].signal;
switch (outputs[i].sensor_id) { switch (outputs[i].sensor_id) {
@ -376,12 +422,20 @@ void BME680BSECComponent::publish_sensor_(text_sensor::TextSensor *sensor, const
sensor->publish_state(value); sensor->publish_state(value);
} }
int8_t BME680BSECComponent::read_bytes_wrapper(uint8_t address, uint8_t a_register, uint8_t *data, uint16_t len) { // Communication function - read
return BME680BSECComponent::instance->read_bytes(a_register, data, len) ? 0 : -1; // First parameter is the "dev_id" member of our "bme680_" object, which is passed-back here as-is
int8_t BME680BSECComponent::read_bytes_wrapper(uint8_t devid, uint8_t a_register, uint8_t *data, uint16_t len) {
BME680BSECComponent *inst = instances[devid];
// Use the I2CDevice::read_bytes method to perform the actual I2C register read
return inst->read_bytes(a_register, data, len) ? 0 : -1;
} }
int8_t BME680BSECComponent::write_bytes_wrapper(uint8_t address, uint8_t a_register, uint8_t *data, uint16_t len) { // Communication function - write
return BME680BSECComponent::instance->write_bytes(a_register, data, len) ? 0 : -1; // First parameter is the "dev_id" member of our "bme680_" object, which is passed-back here as-is
int8_t BME680BSECComponent::write_bytes_wrapper(uint8_t devid, uint8_t a_register, uint8_t *data, uint16_t len) {
BME680BSECComponent *inst = instances[devid];
// Use the I2CDevice::write_bytes method to perform the actual I2C register write
return inst->write_bytes(a_register, data, len) ? 0 : -1;
} }
void BME680BSECComponent::delay_ms(uint32_t period) { void BME680BSECComponent::delay_ms(uint32_t period) {
@ -389,41 +443,97 @@ void BME680BSECComponent::delay_ms(uint32_t period) {
delay(period); delay(period);
} }
// Fetch the BSEC library state and save it in the bsec_state_data_ member (volatile memory)
// Used to share the library when using more than one sensor
void BME680BSECComponent::snapshot_state_() {
uint32_t num_serialized_state = BSEC_MAX_STATE_BLOB_SIZE;
this->bsec_status_ = bsec_get_state(0, this->bsec_state_data_, BSEC_MAX_STATE_BLOB_SIZE, this->work_buffer_,
sizeof(this->work_buffer_), &num_serialized_state);
if (this->bsec_status_ != BSEC_OK) {
ESP_LOGW(TAG, "%s: Failed to fetch BSEC library state for snapshot (BSEC Error Code %d)", this->device_id_.c_str(),
this->bsec_status_);
return;
}
this->bsec_state_data_valid_ = true;
}
// Restores the BSEC library state from a snapshot in memory
// Used to share the library when using more than one sensor
void BME680BSECComponent::restore_state_() {
if (!this->bsec_state_data_valid_) {
ESP_LOGV(TAG, "%s: BSEC state data NOT valid, aborting restore_state_()", this->device_id_.c_str());
return;
}
this->bsec_status_ =
bsec_set_state(this->bsec_state_data_, BSEC_MAX_STATE_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
if (this->bsec_status_ != BSEC_OK) {
ESP_LOGW(TAG, "Failed to restore BSEC library state (BSEC Error Code %d)", this->bsec_status_);
return;
}
}
int BME680BSECComponent::reinit_bsec_lib_() {
this->bsec_status_ = bsec_init();
if (this->bsec_status_ != BSEC_OK) {
this->mark_failed();
return -1;
}
this->set_config_();
if (this->bsec_status_ != BSEC_OK) {
this->mark_failed();
return -2;
}
this->restore_state_();
this->update_subscription_();
if (this->bsec_status_ != BSEC_OK) {
this->mark_failed();
return -3;
}
return 0;
}
void BME680BSECComponent::load_state_() { void BME680BSECComponent::load_state_() {
uint32_t hash = fnv1_hash("bme680_bsec_state_" + to_string(this->address_)); uint32_t hash = fnv1_hash("bme680_bsec_state_" + this->device_id_);
this->bsec_state_ = global_preferences->make_preference<uint8_t[BSEC_MAX_STATE_BLOB_SIZE]>(hash, true); this->bsec_state_ = global_preferences->make_preference<uint8_t[BSEC_MAX_STATE_BLOB_SIZE]>(hash, true);
uint8_t state[BSEC_MAX_STATE_BLOB_SIZE]; if (!this->bsec_state_.load(&this->bsec_state_data_)) {
if (this->bsec_state_.load(&state)) { // No saved BSEC library state available
ESP_LOGV(TAG, "Loading state"); return;
uint8_t work_buffer[BSEC_MAX_WORKBUFFER_SIZE]; }
this->bsec_status_ = bsec_set_state(state, BSEC_MAX_STATE_BLOB_SIZE, work_buffer, sizeof(work_buffer));
ESP_LOGV(TAG, "%s: Loading BSEC library state", this->device_id_.c_str());
this->bsec_status_ =
bsec_set_state(this->bsec_state_data_, BSEC_MAX_STATE_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
if (this->bsec_status_ != BSEC_OK) { if (this->bsec_status_ != BSEC_OK) {
ESP_LOGW(TAG, "Failed to load state (BSEC Error Code %d)", this->bsec_status_); ESP_LOGW(TAG, "%s: Failed to load BSEC library state (BSEC Error Code %d)", this->device_id_.c_str(),
} this->bsec_status_);
ESP_LOGI(TAG, "Loaded state"); return;
} }
// All OK: set the BSEC state data as valid
this->bsec_state_data_valid_ = true;
ESP_LOGI(TAG, "%s: Loaded BSEC library state", this->device_id_.c_str());
} }
void BME680BSECComponent::save_state_(uint8_t accuracy) { void BME680BSECComponent::save_state_(uint8_t accuracy) {
if (accuracy < 3 || (millis() - this->last_state_save_ms_ < this->state_save_interval_ms_)) { if (accuracy < 3 || (millis() - this->last_state_save_ms_ < this->state_save_interval_ms_)) {
return; return;
} }
if (BME680BSECComponent::instances.size() <= 1) {
ESP_LOGV(TAG, "Saving state"); // When a single device is in use, no snapshot is taken regularly so one is taken now
// On multiple devices, a snapshot is taken at every loop, so there is no need to take one here
uint8_t state[BSEC_MAX_STATE_BLOB_SIZE]; this->snapshot_state_();
uint8_t work_buffer[BSEC_MAX_STATE_BLOB_SIZE];
uint32_t num_serialized_state = BSEC_MAX_STATE_BLOB_SIZE;
this->bsec_status_ =
bsec_get_state(0, state, BSEC_MAX_STATE_BLOB_SIZE, work_buffer, BSEC_MAX_STATE_BLOB_SIZE, &num_serialized_state);
if (this->bsec_status_ != BSEC_OK) {
ESP_LOGW(TAG, "Failed fetch state for save (BSEC Error Code %d)", this->bsec_status_);
return;
} }
if (!this->bsec_state_data_valid_)
return;
if (!this->bsec_state_.save(&state)) { ESP_LOGV(TAG, "%s: Saving state", this->device_id_.c_str());
if (!this->bsec_state_.save(&this->bsec_state_data_)) {
ESP_LOGW(TAG, "Failed to save state"); ESP_LOGW(TAG, "Failed to save state");
return; return;
} }

View File

@ -31,6 +31,7 @@ enum SampleRate {
class BME680BSECComponent : public Component, public i2c::I2CDevice { class BME680BSECComponent : public Component, public i2c::I2CDevice {
public: public:
void set_device_id(const std::string &devid) { this->device_id_.assign(devid); }
void set_temperature_offset(float offset) { this->temperature_offset_ = offset; } void set_temperature_offset(float offset) { this->temperature_offset_ = offset; }
void set_iaq_mode(IAQMode iaq_mode) { this->iaq_mode_ = iaq_mode; } void set_iaq_mode(IAQMode iaq_mode) { this->iaq_mode_ = iaq_mode; }
void set_state_save_interval(uint32_t interval) { this->state_save_interval_ms_ = interval; } void set_state_save_interval(uint32_t interval) { this->state_save_interval_ms_ = interval; }
@ -50,9 +51,9 @@ class BME680BSECComponent : public Component, public i2c::I2CDevice {
void set_co2_equivalent_sensor(sensor::Sensor *sensor) { this->co2_equivalent_sensor_ = sensor; } void set_co2_equivalent_sensor(sensor::Sensor *sensor) { this->co2_equivalent_sensor_ = sensor; }
void set_breath_voc_equivalent_sensor(sensor::Sensor *sensor) { this->breath_voc_equivalent_sensor_ = sensor; } void set_breath_voc_equivalent_sensor(sensor::Sensor *sensor) { this->breath_voc_equivalent_sensor_ = sensor; }
static BME680BSECComponent *instance; static std::vector<BME680BSECComponent *> instances;
static int8_t read_bytes_wrapper(uint8_t address, uint8_t a_register, uint8_t *data, uint16_t len); static int8_t read_bytes_wrapper(uint8_t devid, uint8_t a_register, uint8_t *data, uint16_t len);
static int8_t write_bytes_wrapper(uint8_t address, uint8_t a_register, uint8_t *data, uint16_t len); static int8_t write_bytes_wrapper(uint8_t devid, uint8_t a_register, uint8_t *data, uint16_t len);
static void delay_ms(uint32_t period); static void delay_ms(uint32_t period);
void setup() override; void setup() override;
@ -61,23 +62,33 @@ class BME680BSECComponent : public Component, public i2c::I2CDevice {
void loop() override; void loop() override;
protected: protected:
void set_config_(const uint8_t *config); void set_config_();
float calc_sensor_sample_rate_(SampleRate sample_rate); float calc_sensor_sample_rate_(SampleRate sample_rate);
void update_subscription_(); void update_subscription_();
void run_(); void run_();
void read_(int64_t trigger_time_ns, bsec_bme_settings_t bme680_settings); void read_();
void publish_(const bsec_output_t *outputs, uint8_t num_outputs); void publish_(const bsec_output_t *outputs, uint8_t num_outputs);
int64_t get_time_ns_(); int64_t get_time_ns_();
void publish_sensor_(sensor::Sensor *sensor, float value, bool change_only = false); void publish_sensor_(sensor::Sensor *sensor, float value, bool change_only = false);
void publish_sensor_(text_sensor::TextSensor *sensor, const std::string &value); void publish_sensor_(text_sensor::TextSensor *sensor, const std::string &value);
void load_state_(); void snapshot_state_(); // Fetch the current BSEC library state and save it in the bsec_state_data_ member (volatile
void save_state_(uint8_t accuracy); // memory)
void restore_state_(); // Push the state contained in the bsec_state_data_ member (volatile memory) to the BSEC
// library
int reinit_bsec_lib_(); // Prepare the BSEC library to be used again after this object returns active
// (as the library may have been used by other objects)
void load_state_(); // Initialize the ESP preferences object; retrieve the BSEC library state from the ESP
// preferences (storage); then save it in the bsec_state_data_ member (volatile memory) and
// push it to the BSEC library
void save_state_(
uint8_t accuracy); // Save the bsec_state_data_ member (volatile memory) to the ESP preferences (storage)
void queue_push_(std::function<void()> &&f) { this->queue_.push(std::move(f)); } void queue_push_(std::function<void()> &&f) { this->queue_.push(std::move(f)); }
static uint8_t work_buffer_[BSEC_MAX_WORKBUFFER_SIZE];
struct bme680_dev bme680_; struct bme680_dev bme680_;
bsec_library_return_t bsec_status_{BSEC_OK}; bsec_library_return_t bsec_status_{BSEC_OK};
int8_t bme680_status_{BME680_OK}; int8_t bme680_status_{BME680_OK};
@ -88,10 +99,14 @@ class BME680BSECComponent : public Component, public i2c::I2CDevice {
std::queue<std::function<void()>> queue_; std::queue<std::function<void()>> queue_;
bool bsec_state_data_valid_;
uint8_t bsec_state_data_[BSEC_MAX_STATE_BLOB_SIZE]; // This is the current snapshot of the BSEC library state
ESPPreferenceObject bsec_state_; ESPPreferenceObject bsec_state_;
uint32_t state_save_interval_ms_{21600000}; // 6 hours - 4 times a day uint32_t state_save_interval_ms_{21600000}; // 6 hours - 4 times a day
uint32_t last_state_save_ms_ = 0; uint32_t last_state_save_ms_ = 0;
bsec_bme_settings_t bme680_settings_;
std::string device_id_;
float temperature_offset_{0}; float temperature_offset_{0};
IAQMode iaq_mode_{IAQ_MODE_STATIC}; IAQMode iaq_mode_{IAQ_MODE_STATIC};

View File

@ -11,16 +11,19 @@ from esphome.const import (
CONF_ON_PRESS, CONF_ON_PRESS,
CONF_TRIGGER_ID, CONF_TRIGGER_ID,
CONF_MQTT_ID, CONF_MQTT_ID,
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_RESTART, DEVICE_CLASS_RESTART,
DEVICE_CLASS_UPDATE, DEVICE_CLASS_UPDATE,
) )
from esphome.core import CORE, coroutine_with_priority from esphome.core import CORE, coroutine_with_priority
from esphome.cpp_helpers import setup_entity from esphome.cpp_helpers import setup_entity
from esphome.cpp_generator import MockObjClass
CODEOWNERS = ["@esphome/core"] CODEOWNERS = ["@esphome/core"]
IS_PLATFORM_COMPONENT = True IS_PLATFORM_COMPONENT = True
DEVICE_CLASSES = [ DEVICE_CLASSES = [
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_RESTART, DEVICE_CLASS_RESTART,
DEVICE_CLASS_UPDATE, DEVICE_CLASS_UPDATE,
] ]
@ -54,30 +57,23 @@ _UNDEF = object()
def button_schema( def button_schema(
class_: MockObjClass,
*,
icon: str = _UNDEF, icon: str = _UNDEF,
entity_category: str = _UNDEF, entity_category: str = _UNDEF,
device_class: str = _UNDEF, device_class: str = _UNDEF,
) -> cv.Schema: ) -> cv.Schema:
schema = BUTTON_SCHEMA schema = {cv.GenerateID(): cv.declare_id(class_)}
if icon is not _UNDEF:
schema = schema.extend({cv.Optional(CONF_ICON, default=icon): cv.icon}) for key, default, validator in [
if entity_category is not _UNDEF: (CONF_ICON, icon, cv.icon),
schema = schema.extend( (CONF_ENTITY_CATEGORY, entity_category, cv.entity_category),
{ (CONF_DEVICE_CLASS, device_class, validate_device_class),
cv.Optional( ]:
CONF_ENTITY_CATEGORY, default=entity_category if default is not _UNDEF:
): cv.entity_category schema[cv.Optional(key, default=default)] = validator
}
) return BUTTON_SCHEMA.extend(schema)
if device_class is not _UNDEF:
schema = schema.extend(
{
cv.Optional(
CONF_DEVICE_CLASS, default=device_class
): validate_device_class
}
)
return schema
async def setup_button_core_(var, config): async def setup_button_core_(var, config):

View File

@ -15,6 +15,13 @@ namespace button {
} \ } \
} }
#define SUB_BUTTON(name) \
protected: \
button::Button *name##_button_{nullptr}; \
\
public: \
void set_##name##_button(button::Button *button) { this->name##_button_ = button; }
/** Base class for all buttons. /** Base class for all buttons.
* *
* A button is just a momentary switch that does not have a state, only a trigger. * A button is just a momentary switch that does not have a state, only a trigger.

View File

@ -20,6 +20,7 @@ from esphome.const import (
CONF_MODE, CONF_MODE,
CONF_MODE_COMMAND_TOPIC, CONF_MODE_COMMAND_TOPIC,
CONF_MODE_STATE_TOPIC, CONF_MODE_STATE_TOPIC,
CONF_ON_CONTROL,
CONF_ON_STATE, CONF_ON_STATE,
CONF_PRESET, CONF_PRESET,
CONF_PRESET_COMMAND_TOPIC, CONF_PRESET_COMMAND_TOPIC,
@ -104,9 +105,40 @@ CLIMATE_SWING_MODES = {
validate_climate_swing_mode = cv.enum(CLIMATE_SWING_MODES, upper=True) validate_climate_swing_mode = cv.enum(CLIMATE_SWING_MODES, upper=True)
CONF_CURRENT_TEMPERATURE = "current_temperature"
visual_temperature = cv.float_with_unit(
"visual_temperature", "(°C|° C|°|C|° K|° K|K|°F|° F|F)?"
)
def single_visual_temperature(value):
if isinstance(value, dict):
return value
value = visual_temperature(value)
return VISUAL_TEMPERATURE_STEP_SCHEMA(
{
CONF_TARGET_TEMPERATURE: value,
CONF_CURRENT_TEMPERATURE: value,
}
)
# Actions # Actions
ControlAction = climate_ns.class_("ControlAction", automation.Action) ControlAction = climate_ns.class_("ControlAction", automation.Action)
StateTrigger = climate_ns.class_("StateTrigger", automation.Trigger.template()) StateTrigger = climate_ns.class_("StateTrigger", automation.Trigger.template())
ControlTrigger = climate_ns.class_("ControlTrigger", automation.Trigger.template())
VISUAL_TEMPERATURE_STEP_SCHEMA = cv.Any(
single_visual_temperature,
cv.Schema(
{
cv.Required(CONF_TARGET_TEMPERATURE): visual_temperature,
cv.Required(CONF_CURRENT_TEMPERATURE): visual_temperature,
}
),
)
CLIMATE_SCHEMA = cv.ENTITY_BASE_SCHEMA.extend(cv.MQTT_COMMAND_COMPONENT_SCHEMA).extend( CLIMATE_SCHEMA = cv.ENTITY_BASE_SCHEMA.extend(cv.MQTT_COMMAND_COMPONENT_SCHEMA).extend(
{ {
@ -116,9 +148,7 @@ CLIMATE_SCHEMA = cv.ENTITY_BASE_SCHEMA.extend(cv.MQTT_COMMAND_COMPONENT_SCHEMA).
{ {
cv.Optional(CONF_MIN_TEMPERATURE): cv.temperature, cv.Optional(CONF_MIN_TEMPERATURE): cv.temperature,
cv.Optional(CONF_MAX_TEMPERATURE): cv.temperature, cv.Optional(CONF_MAX_TEMPERATURE): cv.temperature,
cv.Optional(CONF_TEMPERATURE_STEP): cv.float_with_unit( cv.Optional(CONF_TEMPERATURE_STEP): VISUAL_TEMPERATURE_STEP_SCHEMA,
"visual_temperature", "(°C|° C|°|C|° K|° K|K|°F|° F|F)?"
),
} }
), ),
cv.Optional(CONF_ACTION_STATE_TOPIC): cv.All( cv.Optional(CONF_ACTION_STATE_TOPIC): cv.All(
@ -175,6 +205,11 @@ CLIMATE_SCHEMA = cv.ENTITY_BASE_SCHEMA.extend(cv.MQTT_COMMAND_COMPONENT_SCHEMA).
cv.Optional(CONF_TARGET_TEMPERATURE_LOW_STATE_TOPIC): cv.All( cv.Optional(CONF_TARGET_TEMPERATURE_LOW_STATE_TOPIC): cv.All(
cv.requires_component("mqtt"), cv.publish_topic cv.requires_component("mqtt"), cv.publish_topic
), ),
cv.Optional(CONF_ON_CONTROL): automation.validate_automation(
{
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(ControlTrigger),
}
),
cv.Optional(CONF_ON_STATE): automation.validate_automation( cv.Optional(CONF_ON_STATE): automation.validate_automation(
{ {
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(StateTrigger), cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(StateTrigger),
@ -193,7 +228,12 @@ async def setup_climate_core_(var, config):
if CONF_MAX_TEMPERATURE in visual: if CONF_MAX_TEMPERATURE in visual:
cg.add(var.set_visual_max_temperature_override(visual[CONF_MAX_TEMPERATURE])) cg.add(var.set_visual_max_temperature_override(visual[CONF_MAX_TEMPERATURE]))
if CONF_TEMPERATURE_STEP in visual: if CONF_TEMPERATURE_STEP in visual:
cg.add(var.set_visual_temperature_step_override(visual[CONF_TEMPERATURE_STEP])) cg.add(
var.set_visual_temperature_step_override(
visual[CONF_TEMPERATURE_STEP][CONF_TARGET_TEMPERATURE],
visual[CONF_TEMPERATURE_STEP][CONF_CURRENT_TEMPERATURE],
)
)
if CONF_MQTT_ID in config: if CONF_MQTT_ID in config:
mqtt_ = cg.new_Pvariable(config[CONF_MQTT_ID], var) mqtt_ = cg.new_Pvariable(config[CONF_MQTT_ID], var)

View File

@ -42,6 +42,13 @@ template<typename... Ts> class ControlAction : public Action<Ts...> {
Climate *climate_; Climate *climate_;
}; };
class ControlTrigger : public Trigger<> {
public:
ControlTrigger(Climate *climate) {
climate->add_on_control_callback([this]() { this->trigger(); });
}
};
class StateTrigger : public Trigger<> { class StateTrigger : public Trigger<> {
public: public:
StateTrigger(Climate *climate) { StateTrigger(Climate *climate) {

View File

@ -44,6 +44,7 @@ void ClimateCall::perform() {
if (this->target_temperature_high_.has_value()) { if (this->target_temperature_high_.has_value()) {
ESP_LOGD(TAG, " Target Temperature High: %.2f", *this->target_temperature_high_); ESP_LOGD(TAG, " Target Temperature High: %.2f", *this->target_temperature_high_);
} }
this->parent_->control_callback_.call();
this->parent_->control(*this); this->parent_->control(*this);
} }
void ClimateCall::validate_() { void ClimateCall::validate_() {
@ -317,6 +318,10 @@ void Climate::add_on_state_callback(std::function<void()> &&callback) {
this->state_callback_.add(std::move(callback)); this->state_callback_.add(std::move(callback));
} }
void Climate::add_on_control_callback(std::function<void()> &&callback) {
this->control_callback_.add(std::move(callback));
}
// Random 32bit value; If this changes existing restore preferences are invalidated // Random 32bit value; If this changes existing restore preferences are invalidated
static const uint32_t RESTORE_STATE_VERSION = 0x848EA6ADUL; static const uint32_t RESTORE_STATE_VERSION = 0x848EA6ADUL;
@ -430,9 +435,11 @@ ClimateTraits Climate::get_traits() {
if (this->visual_max_temperature_override_.has_value()) { if (this->visual_max_temperature_override_.has_value()) {
traits.set_visual_max_temperature(*this->visual_max_temperature_override_); traits.set_visual_max_temperature(*this->visual_max_temperature_override_);
} }
if (this->visual_temperature_step_override_.has_value()) { if (this->visual_target_temperature_step_override_.has_value()) {
traits.set_visual_temperature_step(*this->visual_temperature_step_override_); traits.set_visual_target_temperature_step(*this->visual_target_temperature_step_override_);
traits.set_visual_current_temperature_step(*this->visual_current_temperature_step_override_);
} }
return traits; return traits;
} }
@ -442,8 +449,9 @@ void Climate::set_visual_min_temperature_override(float visual_min_temperature_o
void Climate::set_visual_max_temperature_override(float visual_max_temperature_override) { void Climate::set_visual_max_temperature_override(float visual_max_temperature_override) {
this->visual_max_temperature_override_ = visual_max_temperature_override; this->visual_max_temperature_override_ = visual_max_temperature_override;
} }
void Climate::set_visual_temperature_step_override(float visual_temperature_step_override) { void Climate::set_visual_temperature_step_override(float target, float current) {
this->visual_temperature_step_override_ = visual_temperature_step_override; this->visual_target_temperature_step_override_ = target;
this->visual_current_temperature_step_override_ = current;
} }
#pragma GCC diagnostic push #pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations" #pragma GCC diagnostic ignored "-Wdeprecated-declarations"
@ -541,7 +549,9 @@ void Climate::dump_traits_(const char *tag) {
ESP_LOGCONFIG(tag, " [x] Visual settings:"); ESP_LOGCONFIG(tag, " [x] Visual settings:");
ESP_LOGCONFIG(tag, " - Min: %.1f", traits.get_visual_min_temperature()); ESP_LOGCONFIG(tag, " - Min: %.1f", traits.get_visual_min_temperature());
ESP_LOGCONFIG(tag, " - Max: %.1f", traits.get_visual_max_temperature()); ESP_LOGCONFIG(tag, " - Max: %.1f", traits.get_visual_max_temperature());
ESP_LOGCONFIG(tag, " - Step: %.1f", traits.get_visual_temperature_step()); ESP_LOGCONFIG(tag, " - Step:");
ESP_LOGCONFIG(tag, " Target: %.1f", traits.get_visual_target_temperature_step());
ESP_LOGCONFIG(tag, " Current: %.1f", traits.get_visual_current_temperature_step());
if (traits.get_supports_current_temperature()) { if (traits.get_supports_current_temperature()) {
ESP_LOGCONFIG(tag, " [x] Supports current temperature"); ESP_LOGCONFIG(tag, " [x] Supports current temperature");
} }

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@ -219,6 +219,14 @@ class Climate : public EntityBase {
*/ */
void add_on_state_callback(std::function<void()> &&callback); void add_on_state_callback(std::function<void()> &&callback);
/**
* Add a callback for the climate device configuration; each time the configuration parameters of a climate device
* is updated (using perform() of a ClimateCall), this callback will be called, before any on_state callback.
*
* @param callback The callback to call.
*/
void add_on_control_callback(std::function<void()> &&callback);
/** Make a climate device control call, this is used to control the climate device, see the ClimateCall description /** Make a climate device control call, this is used to control the climate device, see the ClimateCall description
* for more info. * for more info.
* @return A new ClimateCall instance targeting this climate device. * @return A new ClimateCall instance targeting this climate device.
@ -241,7 +249,7 @@ class Climate : public EntityBase {
void set_visual_min_temperature_override(float visual_min_temperature_override); void set_visual_min_temperature_override(float visual_min_temperature_override);
void set_visual_max_temperature_override(float visual_max_temperature_override); void set_visual_max_temperature_override(float visual_max_temperature_override);
void set_visual_temperature_step_override(float visual_temperature_step_override); void set_visual_temperature_step_override(float target, float current);
protected: protected:
friend ClimateCall; friend ClimateCall;
@ -285,10 +293,12 @@ class Climate : public EntityBase {
void dump_traits_(const char *tag); void dump_traits_(const char *tag);
CallbackManager<void()> state_callback_{}; CallbackManager<void()> state_callback_{};
CallbackManager<void()> control_callback_{};
ESPPreferenceObject rtc_; ESPPreferenceObject rtc_;
optional<float> visual_min_temperature_override_{}; optional<float> visual_min_temperature_override_{};
optional<float> visual_max_temperature_override_{}; optional<float> visual_max_temperature_override_{};
optional<float> visual_temperature_step_override_{}; optional<float> visual_target_temperature_step_override_{};
optional<float> visual_current_temperature_step_override_{};
}; };
} // namespace climate } // namespace climate

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@ -3,8 +3,12 @@
namespace esphome { namespace esphome {
namespace climate { namespace climate {
int8_t ClimateTraits::get_temperature_accuracy_decimals() const { int8_t ClimateTraits::get_target_temperature_accuracy_decimals() const {
return step_to_accuracy_decimals(this->visual_temperature_step_); return step_to_accuracy_decimals(this->visual_target_temperature_step_);
}
int8_t ClimateTraits::get_current_temperature_accuracy_decimals() const {
return step_to_accuracy_decimals(this->visual_current_temperature_step_);
} }
} // namespace climate } // namespace climate

View File

@ -147,9 +147,20 @@ class ClimateTraits {
void set_visual_min_temperature(float visual_min_temperature) { visual_min_temperature_ = visual_min_temperature; } void set_visual_min_temperature(float visual_min_temperature) { visual_min_temperature_ = visual_min_temperature; }
float get_visual_max_temperature() const { return visual_max_temperature_; } float get_visual_max_temperature() const { return visual_max_temperature_; }
void set_visual_max_temperature(float visual_max_temperature) { visual_max_temperature_ = visual_max_temperature; } void set_visual_max_temperature(float visual_max_temperature) { visual_max_temperature_ = visual_max_temperature; }
float get_visual_temperature_step() const { return visual_temperature_step_; } float get_visual_target_temperature_step() const { return visual_target_temperature_step_; }
int8_t get_temperature_accuracy_decimals() const; float get_visual_current_temperature_step() const { return visual_current_temperature_step_; }
void set_visual_temperature_step(float temperature_step) { visual_temperature_step_ = temperature_step; } void set_visual_target_temperature_step(float temperature_step) {
visual_target_temperature_step_ = temperature_step;
}
void set_visual_current_temperature_step(float temperature_step) {
visual_current_temperature_step_ = temperature_step;
}
void set_visual_temperature_step(float temperature_step) {
visual_target_temperature_step_ = temperature_step;
visual_current_temperature_step_ = temperature_step;
}
int8_t get_target_temperature_accuracy_decimals() const;
int8_t get_current_temperature_accuracy_decimals() const;
protected: protected:
void set_mode_support_(climate::ClimateMode mode, bool supported) { void set_mode_support_(climate::ClimateMode mode, bool supported) {
@ -186,7 +197,8 @@ class ClimateTraits {
float visual_min_temperature_{10}; float visual_min_temperature_{10};
float visual_max_temperature_{30}; float visual_max_temperature_{30};
float visual_temperature_step_{0.1}; float visual_target_temperature_step_{0.1};
float visual_current_temperature_step_{0.1};
}; };
} // namespace climate } // namespace climate

View File

@ -10,8 +10,20 @@ CONF_RED_INT = "red_int"
CONF_GREEN_INT = "green_int" CONF_GREEN_INT = "green_int"
CONF_BLUE_INT = "blue_int" CONF_BLUE_INT = "blue_int"
CONF_WHITE_INT = "white_int" CONF_WHITE_INT = "white_int"
CONF_HEX = "hex"
CONFIG_SCHEMA = cv.Schema(
def hex_color(value):
if len(value) != 6:
raise cv.Invalid("Color must have six digits")
try:
return (int(value[0:2], 16), int(value[2:4], 16), int(value[4:6], 16))
except ValueError as exc:
raise cv.Invalid("Color must be hexadecimal") from exc
CONFIG_SCHEMA = cv.Any(
cv.Schema(
{ {
cv.Required(CONF_ID): cv.declare_id(ColorStruct), cv.Required(CONF_ID): cv.declare_id(ColorStruct),
cv.Exclusive(CONF_RED, "red"): cv.percentage, cv.Exclusive(CONF_RED, "red"): cv.percentage,
@ -23,10 +35,17 @@ CONFIG_SCHEMA = cv.Schema(
cv.Exclusive(CONF_WHITE, "white"): cv.percentage, cv.Exclusive(CONF_WHITE, "white"): cv.percentage,
cv.Exclusive(CONF_WHITE_INT, "white"): cv.uint8_t, cv.Exclusive(CONF_WHITE_INT, "white"): cv.uint8_t,
} }
).extend(cv.COMPONENT_SCHEMA) ).extend(cv.COMPONENT_SCHEMA),
cv.Schema(
{
cv.Required(CONF_ID): cv.declare_id(ColorStruct),
cv.Required(CONF_HEX): hex_color,
}
).extend(cv.COMPONENT_SCHEMA),
)
async def to_code(config): def from_rgbw(config):
r = 0 r = 0
if CONF_RED in config: if CONF_RED in config:
r = int(config[CONF_RED] * 255) r = int(config[CONF_RED] * 255)
@ -51,6 +70,16 @@ async def to_code(config):
elif CONF_WHITE_INT in config: elif CONF_WHITE_INT in config:
w = config[CONF_WHITE_INT] w = config[CONF_WHITE_INT]
return (r, g, b, w)
async def to_code(config):
if CONF_HEX in config:
r, g, b = config[CONF_HEX]
w = 0
else:
r, g, b, w = from_rgbw(config)
cg.new_variable( cg.new_variable(
config[CONF_ID], config[CONF_ID],
cg.StructInitializer(ColorStruct, ("r", r), ("g", g), ("b", b), ("w", w)), cg.StructInitializer(ColorStruct, ("r", r), ("g", g), ("b", b), ("w", w)),

View File

@ -16,10 +16,9 @@ CopyButton = copy_ns.class_("CopyButton", button.Button, cg.Component)
CONFIG_SCHEMA = ( CONFIG_SCHEMA = (
button.button_schema() button.button_schema(CopyButton)
.extend( .extend(
{ {
cv.GenerateID(): cv.declare_id(CopyButton),
cv.Required(CONF_SOURCE_ID): cv.use_id(button.Button), cv.Required(CONF_SOURCE_ID): cv.use_id(button.Button),
} }
) )

View File

@ -15,12 +15,15 @@ from .. import copy_ns
CopyNumber = copy_ns.class_("CopyNumber", number.Number, cg.Component) CopyNumber = copy_ns.class_("CopyNumber", number.Number, cg.Component)
CONFIG_SCHEMA = number.NUMBER_SCHEMA.extend( CONFIG_SCHEMA = (
number.number_schema(CopyNumber)
.extend(
{ {
cv.GenerateID(): cv.declare_id(CopyNumber),
cv.Required(CONF_SOURCE_ID): cv.use_id(number.Number), cv.Required(CONF_SOURCE_ID): cv.use_id(number.Number),
} }
).extend(cv.COMPONENT_SCHEMA) )
.extend(cv.COMPONENT_SCHEMA)
)
FINAL_VALIDATE_SCHEMA = cv.All( FINAL_VALIDATE_SCHEMA = cv.All(
inherit_property_from(CONF_ICON, CONF_SOURCE_ID), inherit_property_from(CONF_ICON, CONF_SOURCE_ID),

View File

@ -17,6 +17,17 @@ from esphome.const import (
CONF_STOP, CONF_STOP,
CONF_MQTT_ID, CONF_MQTT_ID,
CONF_TRIGGER_ID, CONF_TRIGGER_ID,
DEVICE_CLASS_AWNING,
DEVICE_CLASS_BLIND,
DEVICE_CLASS_CURTAIN,
DEVICE_CLASS_DAMPER,
DEVICE_CLASS_DOOR,
DEVICE_CLASS_EMPTY,
DEVICE_CLASS_GARAGE,
DEVICE_CLASS_GATE,
DEVICE_CLASS_SHADE,
DEVICE_CLASS_SHUTTER,
DEVICE_CLASS_WINDOW,
) )
from esphome.core import CORE, coroutine_with_priority from esphome.core import CORE, coroutine_with_priority
from esphome.cpp_helpers import setup_entity from esphome.cpp_helpers import setup_entity
@ -25,17 +36,17 @@ IS_PLATFORM_COMPONENT = True
CODEOWNERS = ["@esphome/core"] CODEOWNERS = ["@esphome/core"]
DEVICE_CLASSES = [ DEVICE_CLASSES = [
"", DEVICE_CLASS_AWNING,
"awning", DEVICE_CLASS_BLIND,
"blind", DEVICE_CLASS_CURTAIN,
"curtain", DEVICE_CLASS_DAMPER,
"damper", DEVICE_CLASS_DOOR,
"door", DEVICE_CLASS_EMPTY,
"garage", DEVICE_CLASS_GARAGE,
"gate", DEVICE_CLASS_GATE,
"shade", DEVICE_CLASS_SHADE,
"shutter", DEVICE_CLASS_SHUTTER,
"window", DEVICE_CLASS_WINDOW,
] ]
cover_ns = cg.esphome_ns.namespace("cover") cover_ns = cg.esphome_ns.namespace("cover")

View File

@ -10,7 +10,7 @@ CONFIG_SCHEMA = cv.Schema(
{ {
cv.GenerateID(): cv.declare_id(CustomSensorConstructor), cv.GenerateID(): cv.declare_id(CustomSensorConstructor),
cv.Required(CONF_LAMBDA): cv.returning_lambda, cv.Required(CONF_LAMBDA): cv.returning_lambda,
cv.Required(CONF_SENSORS): cv.ensure_list(sensor.SENSOR_SCHEMA), cv.Required(CONF_SENSORS): cv.ensure_list(sensor.sensor_schema()),
} }
) )

View File

@ -21,6 +21,7 @@ from esphome.components.esp32.const import (
VARIANT_ESP32, VARIANT_ESP32,
VARIANT_ESP32C3, VARIANT_ESP32C3,
VARIANT_ESP32S2, VARIANT_ESP32S2,
VARIANT_ESP32S3,
) )
WAKEUP_PINS = { WAKEUP_PINS = {
@ -69,6 +70,30 @@ WAKEUP_PINS = {
20, 20,
21, 21,
], ],
VARIANT_ESP32S3: [
0,
1,
2,
3,
4,
5,
6,
7,
8,
9,
10,
11,
12,
13,
14,
15,
16,
17,
18,
19,
20,
21,
],
} }

View File

@ -284,9 +284,10 @@ CONFIG_SCHEMA = cv.Schema(
}, },
], ],
): [ ): [
number.NUMBER_SCHEMA.extend(cv.COMPONENT_SCHEMA).extend( number.number_schema(DemoNumber)
.extend(cv.COMPONENT_SCHEMA)
.extend(
{ {
cv.GenerateID(): cv.declare_id(DemoNumber),
cv.Required(CONF_TYPE): cv.enum(NUMBER_TYPES, int=True), cv.Required(CONF_TYPE): cv.enum(NUMBER_TYPES, int=True),
cv.Required(CONF_MIN_VALUE): cv.float_, cv.Required(CONF_MIN_VALUE): cv.float_,
cv.Required(CONF_MAX_VALUE): cv.float_, cv.Required(CONF_MAX_VALUE): cv.float_,

View File

@ -32,9 +32,11 @@ void Rect::extend(Rect rect) {
this->h = rect.h; this->h = rect.h;
} else { } else {
if (this->x > rect.x) { if (this->x > rect.x) {
this->w = this->w + (this->x - rect.x);
this->x = rect.x; this->x = rect.x;
} }
if (this->y > rect.y) { if (this->y > rect.y) {
this->h = this->h + (this->y - rect.y);
this->y = rect.y; this->y = rect.y;
} }
if (this->x2() < rect.x2()) { if (this->x2() < rect.x2()) {
@ -49,29 +51,35 @@ void Rect::shrink(Rect rect) {
if (!this->inside(rect)) { if (!this->inside(rect)) {
(*this) = Rect(); (*this) = Rect();
} else { } else {
if (this->x < rect.x) {
this->x = rect.x;
}
if (this->y < rect.y) {
this->y = rect.y;
}
if (this->x2() > rect.x2()) { if (this->x2() > rect.x2()) {
this->w = rect.x2() - this->x; this->w = rect.x2() - this->x;
} }
if (this->x < rect.x) {
this->w = this->w + (this->x - rect.x);
this->x = rect.x;
}
if (this->y2() > rect.y2()) { if (this->y2() > rect.y2()) {
this->h = rect.y2() - this->y; this->h = rect.y2() - this->y;
} }
if (this->y < rect.y) {
this->h = this->h + (this->y - rect.y);
this->y = rect.y;
}
} }
} }
bool Rect::inside(int16_t x, int16_t y, bool absolute) { // NOLINT bool Rect::equal(Rect rect) {
return (rect.x == this->x) && (rect.w == this->w) && (rect.y == this->y) && (rect.h == this->h);
}
bool Rect::inside(int16_t test_x, int16_t test_y, bool absolute) { // NOLINT
if (!this->is_set()) { if (!this->is_set()) {
return true; return true;
} }
if (absolute) { if (absolute) {
return ((x >= 0) && (x <= this->w) && (y >= 0) && (y <= this->h)); return ((test_x >= this->x) && (test_x <= this->x2()) && (test_y >= this->y) && (test_y <= this->y2()));
} else { } else {
return ((x >= this->x) && (x <= this->x2()) && (y >= this->y) && (y <= this->y2())); return ((test_x >= 0) && (test_x <= this->w) && (test_y >= 0) && (test_y <= this->h));
} }
} }
@ -80,15 +88,16 @@ bool Rect::inside(Rect rect, bool absolute) {
return true; return true;
} }
if (absolute) { if (absolute) {
return ((rect.x <= this->w) && (rect.w >= 0) && (rect.y <= this->h) && (rect.h >= 0));
} else {
return ((rect.x <= this->x2()) && (rect.x2() >= this->x) && (rect.y <= this->y2()) && (rect.y2() >= this->y)); return ((rect.x <= this->x2()) && (rect.x2() >= this->x) && (rect.y <= this->y2()) && (rect.y2() >= this->y));
} else {
return ((rect.x <= this->w) && (rect.w >= 0) && (rect.y <= this->h) && (rect.h >= 0));
} }
} }
void Rect::info(const std::string &prefix) { void Rect::info(const std::string &prefix) {
if (this->is_set()) { if (this->is_set()) {
ESP_LOGI(TAG, "%s [%3d,%3d,%3d,%3d]", prefix.c_str(), this->x, this->y, this->w, this->h); ESP_LOGI(TAG, "%s [%3d,%3d,%3d,%3d] (%3d,%3d)", prefix.c_str(), this->x, this->y, this->w, this->h, this->x2(),
this->y2());
} else } else
ESP_LOGI(TAG, "%s ** IS NOT SET **", prefix.c_str()); ESP_LOGI(TAG, "%s ** IS NOT SET **", prefix.c_str());
} }
@ -603,10 +612,10 @@ void Font::measure(const char *str, int *width, int *x_offset, int *baseline, in
*x_offset = min_x; *x_offset = min_x;
*width = x - min_x; *width = x - min_x;
} }
const std::vector<Glyph> &Font::get_glyphs() const { return this->glyphs_; }
Font::Font(const GlyphData *data, int data_nr, int baseline, int height) : baseline_(baseline), height_(height) { Font::Font(const GlyphData *data, int data_nr, int baseline, int height) : baseline_(baseline), height_(height) {
glyphs_.reserve(data_nr);
for (int i = 0; i < data_nr; ++i) for (int i = 0; i < data_nr; ++i)
glyphs_.emplace_back(data + i); glyphs_.emplace_back(&data[i]);
} }
bool Image::get_pixel(int x, int y) const { bool Image::get_pixel(int x, int y) const {

View File

@ -120,8 +120,9 @@ class Rect {
void extend(Rect rect); void extend(Rect rect);
void shrink(Rect rect); void shrink(Rect rect);
bool inside(Rect rect, bool absolute = false); bool inside(Rect rect, bool absolute = true);
bool inside(int16_t x, int16_t y, bool absolute = false); bool inside(int16_t test_x, int16_t test_y, bool absolute = true);
bool equal(Rect rect);
void info(const std::string &prefix = "rect info:"); void info(const std::string &prefix = "rect info:");
}; };
@ -526,10 +527,10 @@ class Font {
inline int get_baseline() { return this->baseline_; } inline int get_baseline() { return this->baseline_; }
inline int get_height() { return this->height_; } inline int get_height() { return this->height_; }
const std::vector<Glyph> &get_glyphs() const; const std::vector<Glyph, ExternalRAMAllocator<Glyph>> &get_glyphs() const { return glyphs_; }
protected: protected:
std::vector<Glyph> glyphs_; std::vector<Glyph, ExternalRAMAllocator<Glyph>> glyphs_;
int baseline_; int baseline_;
int height_; int height_;
}; };

View File

@ -4,29 +4,43 @@ from pathlib import Path
import logging import logging
import os import os
from esphome.helpers import copy_file_if_changed, write_file_if_changed from esphome.helpers import copy_file_if_changed, write_file_if_changed, mkdir_p
from esphome.const import ( from esphome.const import (
CONF_BOARD, CONF_BOARD,
CONF_COMPONENTS,
CONF_FRAMEWORK, CONF_FRAMEWORK,
CONF_NAME,
CONF_SOURCE, CONF_SOURCE,
CONF_TYPE, CONF_TYPE,
CONF_VARIANT, CONF_VARIANT,
CONF_VERSION, CONF_VERSION,
CONF_ADVANCED, CONF_ADVANCED,
CONF_REFRESH,
CONF_PATH,
CONF_URL,
CONF_REF,
CONF_IGNORE_EFUSE_MAC_CRC, CONF_IGNORE_EFUSE_MAC_CRC,
KEY_CORE, KEY_CORE,
KEY_FRAMEWORK_VERSION, KEY_FRAMEWORK_VERSION,
KEY_TARGET_FRAMEWORK, KEY_TARGET_FRAMEWORK,
KEY_TARGET_PLATFORM, KEY_TARGET_PLATFORM,
TYPE_GIT,
TYPE_LOCAL,
__version__, __version__,
) )
from esphome.core import CORE, HexInt from esphome.core import CORE, HexInt, TimePeriod
import esphome.config_validation as cv import esphome.config_validation as cv
import esphome.codegen as cg import esphome.codegen as cg
from esphome import git
from .const import ( # noqa from .const import ( # noqa
KEY_BOARD, KEY_BOARD,
KEY_COMPONENTS,
KEY_ESP32, KEY_ESP32,
KEY_PATH,
KEY_REF,
KEY_REFRESH,
KEY_REPO,
KEY_SDKCONFIG_OPTIONS, KEY_SDKCONFIG_OPTIONS,
KEY_VARIANT, KEY_VARIANT,
VARIANT_ESP32C3, VARIANT_ESP32C3,
@ -51,6 +65,7 @@ def set_core_data(config):
if conf[CONF_TYPE] == FRAMEWORK_ESP_IDF: if conf[CONF_TYPE] == FRAMEWORK_ESP_IDF:
CORE.data[KEY_CORE][KEY_TARGET_FRAMEWORK] = "esp-idf" CORE.data[KEY_CORE][KEY_TARGET_FRAMEWORK] = "esp-idf"
CORE.data[KEY_ESP32][KEY_SDKCONFIG_OPTIONS] = {} CORE.data[KEY_ESP32][KEY_SDKCONFIG_OPTIONS] = {}
CORE.data[KEY_ESP32][KEY_COMPONENTS] = {}
elif conf[CONF_TYPE] == FRAMEWORK_ARDUINO: elif conf[CONF_TYPE] == FRAMEWORK_ARDUINO:
CORE.data[KEY_CORE][KEY_TARGET_FRAMEWORK] = "arduino" CORE.data[KEY_CORE][KEY_TARGET_FRAMEWORK] = "arduino"
CORE.data[KEY_CORE][KEY_FRAMEWORK_VERSION] = cv.Version.parse( CORE.data[KEY_CORE][KEY_FRAMEWORK_VERSION] = cv.Version.parse(
@ -104,6 +119,21 @@ def add_idf_sdkconfig_option(name: str, value: SdkconfigValueType):
CORE.data[KEY_ESP32][KEY_SDKCONFIG_OPTIONS][name] = value CORE.data[KEY_ESP32][KEY_SDKCONFIG_OPTIONS][name] = value
def add_idf_component(
name: str, repo: str, ref: str = None, path: str = None, refresh: TimePeriod = None
):
"""Add an esp-idf component to the project."""
if not CORE.using_esp_idf:
raise ValueError("Not an esp-idf project")
if name not in CORE.data[KEY_ESP32][KEY_COMPONENTS]:
CORE.data[KEY_ESP32][KEY_COMPONENTS][name] = {
KEY_REPO: repo,
KEY_REF: ref,
KEY_PATH: path,
KEY_REFRESH: refresh,
}
def _format_framework_arduino_version(ver: cv.Version) -> str: def _format_framework_arduino_version(ver: cv.Version) -> str:
# format the given arduino (https://github.com/espressif/arduino-esp32/releases) version to # format the given arduino (https://github.com/espressif/arduino-esp32/releases) version to
# a PIO platformio/framework-arduinoespressif32 value # a PIO platformio/framework-arduinoespressif32 value
@ -138,18 +168,18 @@ ARDUINO_PLATFORM_VERSION = cv.Version(5, 2, 0)
# The default/recommended esp-idf framework version # The default/recommended esp-idf framework version
# - https://github.com/espressif/esp-idf/releases # - https://github.com/espressif/esp-idf/releases
# - https://api.registry.platformio.org/v3/packages/platformio/tool/framework-espidf # - https://api.registry.platformio.org/v3/packages/platformio/tool/framework-espidf
RECOMMENDED_ESP_IDF_FRAMEWORK_VERSION = cv.Version(4, 4, 2) RECOMMENDED_ESP_IDF_FRAMEWORK_VERSION = cv.Version(4, 4, 4)
# The platformio/espressif32 version to use for esp-idf frameworks # The platformio/espressif32 version to use for esp-idf frameworks
# - https://github.com/platformio/platform-espressif32/releases # - https://github.com/platformio/platform-espressif32/releases
# - https://api.registry.platformio.org/v3/packages/platformio/platform/espressif32 # - https://api.registry.platformio.org/v3/packages/platformio/platform/espressif32
ESP_IDF_PLATFORM_VERSION = cv.Version(5, 2, 0) ESP_IDF_PLATFORM_VERSION = cv.Version(5, 3, 0)
def _arduino_check_versions(value): def _arduino_check_versions(value):
value = value.copy() value = value.copy()
lookups = { lookups = {
"dev": (cv.Version(2, 0, 5), "https://github.com/espressif/arduino-esp32.git"), "dev": (cv.Version(2, 1, 0), "https://github.com/espressif/arduino-esp32.git"),
"latest": (cv.Version(2, 0, 5), None), "latest": (cv.Version(2, 0, 7), None),
"recommended": (RECOMMENDED_ARDUINO_FRAMEWORK_VERSION, None), "recommended": (RECOMMENDED_ARDUINO_FRAMEWORK_VERSION, None),
} }
@ -183,8 +213,8 @@ def _arduino_check_versions(value):
def _esp_idf_check_versions(value): def _esp_idf_check_versions(value):
value = value.copy() value = value.copy()
lookups = { lookups = {
"dev": (cv.Version(5, 0, 0), "https://github.com/espressif/esp-idf.git"), "dev": (cv.Version(5, 1, 0), "https://github.com/espressif/esp-idf.git"),
"latest": (cv.Version(4, 4, 2), None), "latest": (cv.Version(5, 0, 1), None),
"recommended": (RECOMMENDED_ESP_IDF_FRAMEWORK_VERSION, None), "recommended": (RECOMMENDED_ESP_IDF_FRAMEWORK_VERSION, None),
} }
@ -270,6 +300,18 @@ ESP_IDF_FRAMEWORK_SCHEMA = cv.All(
cv.Optional(CONF_IGNORE_EFUSE_MAC_CRC, default=False): cv.boolean, cv.Optional(CONF_IGNORE_EFUSE_MAC_CRC, default=False): cv.boolean,
} }
), ),
cv.Optional(CONF_COMPONENTS, default=[]): cv.ensure_list(
cv.Schema(
{
cv.Required(CONF_NAME): cv.string_strict,
cv.Required(CONF_SOURCE): cv.SOURCE_SCHEMA,
cv.Optional(CONF_PATH): cv.string,
cv.Optional(CONF_REFRESH, default="1d"): cv.All(
cv.string, cv.source_refresh
),
}
)
),
} }
), ),
_esp_idf_check_versions, _esp_idf_check_versions,
@ -372,6 +414,19 @@ async def to_code(config):
), ),
) )
for component in conf[CONF_COMPONENTS]:
source = component[CONF_SOURCE]
if source[CONF_TYPE] == TYPE_GIT:
add_idf_component(
name=component[CONF_NAME],
repo=source[CONF_URL],
ref=source.get(CONF_REF),
path=component.get(CONF_PATH),
refresh=component[CONF_REFRESH],
)
elif source[CONF_TYPE] == TYPE_LOCAL:
_LOGGER.warning("Local components are not implemented yet.")
elif conf[CONF_TYPE] == FRAMEWORK_ARDUINO: elif conf[CONF_TYPE] == FRAMEWORK_ARDUINO:
cg.add_platformio_option("framework", "arduino") cg.add_platformio_option("framework", "arduino")
cg.add_build_flag("-DUSE_ARDUINO") cg.add_build_flag("-DUSE_ARDUINO")
@ -468,6 +523,32 @@ def copy_files():
__version__, __version__,
) )
import shutil
shutil.rmtree(CORE.relative_build_path("components"), ignore_errors=True)
if CORE.data[KEY_ESP32][KEY_COMPONENTS]:
components: dict = CORE.data[KEY_ESP32][KEY_COMPONENTS]
for name, component in components.items():
repo_dir, _ = git.clone_or_update(
url=component[KEY_REPO],
ref=component[KEY_REF],
refresh=component[KEY_REFRESH],
domain="idf_components",
)
mkdir_p(CORE.relative_build_path("components"))
component_dir = repo_dir
if component[KEY_PATH] is not None:
component_dir = component_dir / component[KEY_PATH]
shutil.copytree(
component_dir,
CORE.relative_build_path(f"components/{name}"),
dirs_exist_ok=True,
ignore=shutil.ignore_patterns(".git", ".github"),
)
dir = os.path.dirname(__file__) dir = os.path.dirname(__file__)
post_build_file = os.path.join(dir, "post_build.py.script") post_build_file = os.path.join(dir, "post_build.py.script")
copy_file_if_changed( copy_file_if_changed(

View File

@ -4,6 +4,11 @@ KEY_ESP32 = "esp32"
KEY_BOARD = "board" KEY_BOARD = "board"
KEY_VARIANT = "variant" KEY_VARIANT = "variant"
KEY_SDKCONFIG_OPTIONS = "sdkconfig_options" KEY_SDKCONFIG_OPTIONS = "sdkconfig_options"
KEY_COMPONENTS = "components"
KEY_REPO = "repo"
KEY_REF = "ref"
KEY_REFRESH = "refresh"
KEY_PATH = "path"
VARIANT_ESP32 = "ESP32" VARIANT_ESP32 = "ESP32"
VARIANT_ESP32S2 = "ESP32S2" VARIANT_ESP32S2 = "ESP32S2"

View File

@ -1,15 +1,25 @@
# Source https://github.com/letscontrolit/ESPEasy/pull/3845#issuecomment-1005864664 # Source https://github.com/letscontrolit/ESPEasy/pull/3845#issuecomment-1005864664
import os
if os.environ.get("ESPHOME_USE_SUBPROCESS") is None:
import esptool
else:
import subprocess
from SCons.Script import ARGUMENTS
# pylint: disable=E0602 # pylint: disable=E0602
Import("env") # noqa Import("env") # noqa
import os
import shutil
if os.environ.get("ESPHOME_USE_SUBPROCESS") is None:
try:
import esptool
except ImportError:
env.Execute("$PYTHONEXE -m pip install esptool")
else:
import subprocess
from SCons.Script import ARGUMENTS
# Copy over the default sdkconfig.
from os import path
if path.exists("./sdkconfig.defaults"):
os.makedirs(".temp", exist_ok=True)
shutil.copy("./sdkconfig.defaults", "./.temp/sdkconfig-esp32-idf")
def esp32_create_combined_bin(source, target, env): def esp32_create_combined_bin(source, target, env):
verbose = bool(int(ARGUMENTS.get("PIOVERBOSE", "0"))) verbose = bool(int(ARGUMENTS.get("PIOVERBOSE", "0")))

View File

@ -62,6 +62,7 @@ bool BLEClientBase::parse_device(const espbt::ESPBTDevice &device) {
void BLEClientBase::connect() { void BLEClientBase::connect() {
ESP_LOGI(TAG, "[%d] [%s] 0x%02x Attempting BLE connection", this->connection_index_, this->address_str_.c_str(), ESP_LOGI(TAG, "[%d] [%s] 0x%02x Attempting BLE connection", this->connection_index_, this->address_str_.c_str(),
this->remote_addr_type_); this->remote_addr_type_);
this->paired_ = false;
auto ret = esp_ble_gattc_open(this->gattc_if_, this->remote_bda_, this->remote_addr_type_, true); auto ret = esp_ble_gattc_open(this->gattc_if_, this->remote_bda_, this->remote_addr_type_, true);
if (ret) { if (ret) {
ESP_LOGW(TAG, "[%d] [%s] esp_ble_gattc_open error, status=%d", this->connection_index_, this->address_str_.c_str(), ESP_LOGW(TAG, "[%d] [%s] esp_ble_gattc_open error, status=%d", this->connection_index_, this->address_str_.c_str(),
@ -72,6 +73,8 @@ void BLEClientBase::connect() {
} }
} }
esp_err_t BLEClientBase::pair() { return esp_ble_set_encryption(this->remote_bda_, ESP_BLE_SEC_ENCRYPT); }
void BLEClientBase::disconnect() { void BLEClientBase::disconnect() {
if (this->state_ == espbt::ClientState::IDLE || this->state_ == espbt::ClientState::DISCONNECTING) if (this->state_ == espbt::ClientState::IDLE || this->state_ == espbt::ClientState::DISCONNECTING)
return; return;
@ -247,11 +250,15 @@ void BLEClientBase::gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_
switch (event) { switch (event) {
// This event is sent by the server when it requests security // This event is sent by the server when it requests security
case ESP_GAP_BLE_SEC_REQ_EVT: case ESP_GAP_BLE_SEC_REQ_EVT:
if (memcmp(param->ble_security.auth_cmpl.bd_addr, this->remote_bda_, 6) != 0)
break;
ESP_LOGV(TAG, "[%d] [%s] ESP_GAP_BLE_SEC_REQ_EVT %x", this->connection_index_, this->address_str_.c_str(), event); ESP_LOGV(TAG, "[%d] [%s] ESP_GAP_BLE_SEC_REQ_EVT %x", this->connection_index_, this->address_str_.c_str(), event);
esp_ble_gap_security_rsp(param->ble_security.ble_req.bd_addr, true); esp_ble_gap_security_rsp(param->ble_security.ble_req.bd_addr, true);
break; break;
// This event is sent once authentication has completed // This event is sent once authentication has completed
case ESP_GAP_BLE_AUTH_CMPL_EVT: case ESP_GAP_BLE_AUTH_CMPL_EVT:
if (memcmp(param->ble_security.auth_cmpl.bd_addr, this->remote_bda_, 6) != 0)
break;
esp_bd_addr_t bd_addr; esp_bd_addr_t bd_addr;
memcpy(bd_addr, param->ble_security.auth_cmpl.bd_addr, sizeof(esp_bd_addr_t)); memcpy(bd_addr, param->ble_security.auth_cmpl.bd_addr, sizeof(esp_bd_addr_t));
ESP_LOGI(TAG, "[%d] [%s] auth complete. remote BD_ADDR: %s", this->connection_index_, this->address_str_.c_str(), ESP_LOGI(TAG, "[%d] [%s] auth complete. remote BD_ADDR: %s", this->connection_index_, this->address_str_.c_str(),
@ -260,6 +267,7 @@ void BLEClientBase::gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_
ESP_LOGE(TAG, "[%d] [%s] auth fail reason = 0x%x", this->connection_index_, this->address_str_.c_str(), ESP_LOGE(TAG, "[%d] [%s] auth fail reason = 0x%x", this->connection_index_, this->address_str_.c_str(),
param->ble_security.auth_cmpl.fail_reason); param->ble_security.auth_cmpl.fail_reason);
} else { } else {
this->paired_ = true;
ESP_LOGV(TAG, "[%d] [%s] auth success. address type = %d auth mode = %d", this->connection_index_, ESP_LOGV(TAG, "[%d] [%s] auth success. address type = %d auth mode = %d", this->connection_index_,
this->address_str_.c_str(), param->ble_security.auth_cmpl.addr_type, this->address_str_.c_str(), param->ble_security.auth_cmpl.addr_type,
param->ble_security.auth_cmpl.auth_mode); param->ble_security.auth_cmpl.auth_mode);

View File

@ -33,6 +33,7 @@ class BLEClientBase : public espbt::ESPBTClient, public Component {
esp_ble_gattc_cb_param_t *param) override; esp_ble_gattc_cb_param_t *param) override;
void gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_cb_param_t *param) override; void gap_event_handler(esp_gap_ble_cb_event_t event, esp_ble_gap_cb_param_t *param) override;
void connect() override; void connect() override;
esp_err_t pair();
void disconnect(); void disconnect();
void release_services(); void release_services();
@ -71,6 +72,7 @@ class BLEClientBase : public espbt::ESPBTClient, public Component {
void set_remote_addr_type(esp_ble_addr_type_t address_type) { this->remote_addr_type_ = address_type; } void set_remote_addr_type(esp_ble_addr_type_t address_type) { this->remote_addr_type_ = address_type; }
uint16_t get_conn_id() const { return this->conn_id_; } uint16_t get_conn_id() const { return this->conn_id_; }
uint64_t get_address() const { return this->address_; } uint64_t get_address() const { return this->address_; }
bool is_paired() const { return this->paired_; }
uint8_t get_connection_index() const { return this->connection_index_; } uint8_t get_connection_index() const { return this->connection_index_; }
@ -86,6 +88,7 @@ class BLEClientBase : public espbt::ESPBTClient, public Component {
uint8_t connection_index_; uint8_t connection_index_;
int16_t service_count_{0}; int16_t service_count_{0};
uint16_t mtu_{23}; uint16_t mtu_{23};
bool paired_{false};
espbt::ConnectionType connection_type_{espbt::ConnectionType::V1}; espbt::ConnectionType connection_type_{espbt::ConnectionType::V1};
std::vector<BLEService *> services_; std::vector<BLEService *> services_;

View File

@ -53,6 +53,14 @@ void ESP32BLETracker::setup() {
ESP_LOGE(TAG, "BLE Tracker was marked failed by ESP32BLE"); ESP_LOGE(TAG, "BLE Tracker was marked failed by ESP32BLE");
return; return;
} }
ExternalRAMAllocator<esp_ble_gap_cb_param_t::ble_scan_result_evt_param> allocator(
ExternalRAMAllocator<esp_ble_gap_cb_param_t::ble_scan_result_evt_param>::ALLOW_FAILURE);
this->scan_result_buffer_ = allocator.allocate(ESP32BLETracker::SCAN_RESULT_BUFFER_SIZE);
if (this->scan_result_buffer_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate buffer for BLE Tracker!");
this->mark_failed();
}
global_esp32_ble_tracker = this; global_esp32_ble_tracker = this;
this->scan_result_lock_ = xSemaphoreCreateMutex(); this->scan_result_lock_ = xSemaphoreCreateMutex();
@ -107,7 +115,7 @@ void ESP32BLETracker::loop() {
xSemaphoreTake(this->scan_result_lock_, 5L / portTICK_PERIOD_MS)) { xSemaphoreTake(this->scan_result_lock_, 5L / portTICK_PERIOD_MS)) {
uint32_t index = this->scan_result_index_; uint32_t index = this->scan_result_index_;
if (index) { if (index) {
if (index >= 16) { if (index >= ESP32BLETracker::SCAN_RESULT_BUFFER_SIZE) {
ESP_LOGW(TAG, "Too many BLE events to process. Some devices may not show up."); ESP_LOGW(TAG, "Too many BLE events to process. Some devices may not show up.");
} }
for (size_t i = 0; i < index; i++) { for (size_t i = 0; i < index; i++) {
@ -322,7 +330,7 @@ void ESP32BLETracker::gap_scan_stop_complete_(const esp_ble_gap_cb_param_t::ble_
void ESP32BLETracker::gap_scan_result_(const esp_ble_gap_cb_param_t::ble_scan_result_evt_param &param) { void ESP32BLETracker::gap_scan_result_(const esp_ble_gap_cb_param_t::ble_scan_result_evt_param &param) {
if (param.search_evt == ESP_GAP_SEARCH_INQ_RES_EVT) { if (param.search_evt == ESP_GAP_SEARCH_INQ_RES_EVT) {
if (xSemaphoreTake(this->scan_result_lock_, 0L)) { if (xSemaphoreTake(this->scan_result_lock_, 0L)) {
if (this->scan_result_index_ < 16) { if (this->scan_result_index_ < ESP32BLETracker::SCAN_RESULT_BUFFER_SIZE) {
this->scan_result_buffer_[this->scan_result_index_++] = param; this->scan_result_buffer_[this->scan_result_index_++] = param;
} }
xSemaphoreGive(this->scan_result_lock_); xSemaphoreGive(this->scan_result_lock_);

View File

@ -101,7 +101,7 @@ class ESPBTDevice {
std::vector<int8_t> tx_powers_{}; std::vector<int8_t> tx_powers_{};
optional<uint16_t> appearance_{}; optional<uint16_t> appearance_{};
optional<uint8_t> ad_flag_{}; optional<uint8_t> ad_flag_{};
std::vector<ESPBTUUID> service_uuids_; std::vector<ESPBTUUID> service_uuids_{};
std::vector<ServiceData> manufacturer_datas_{}; std::vector<ServiceData> manufacturer_datas_{};
std::vector<ServiceData> service_datas_{}; std::vector<ServiceData> service_datas_{};
esp_ble_gap_cb_param_t::ble_scan_result_evt_param scan_result_{}; esp_ble_gap_cb_param_t::ble_scan_result_evt_param scan_result_{};
@ -231,7 +231,12 @@ class ESP32BLETracker : public Component, public GAPEventHandler, public GATTcEv
SemaphoreHandle_t scan_result_lock_; SemaphoreHandle_t scan_result_lock_;
SemaphoreHandle_t scan_end_lock_; SemaphoreHandle_t scan_end_lock_;
size_t scan_result_index_{0}; size_t scan_result_index_{0};
esp_ble_gap_cb_param_t::ble_scan_result_evt_param scan_result_buffer_[16]; #if CONFIG_SPIRAM
const static u_int8_t SCAN_RESULT_BUFFER_SIZE = 32;
#else
const static u_int8_t SCAN_RESULT_BUFFER_SIZE = 16;
#endif // CONFIG_SPIRAM
esp_ble_gap_cb_param_t::ble_scan_result_evt_param *scan_result_buffer_;
esp_bt_status_t scan_start_failed_{ESP_BT_STATUS_SUCCESS}; esp_bt_status_t scan_start_failed_{ESP_BT_STATUS_SUCCESS};
esp_bt_status_t scan_set_param_failed_{ESP_BT_STATUS_SUCCESS}; esp_bt_status_t scan_set_param_failed_{ESP_BT_STATUS_SUCCESS};
}; };

View File

@ -11,6 +11,7 @@ from esphome.const import (
CONF_VOLTAGE_ATTENUATION, CONF_VOLTAGE_ATTENUATION,
) )
from esphome.core import TimePeriod from esphome.core import TimePeriod
from esphome.components import esp32
AUTO_LOAD = ["binary_sensor"] AUTO_LOAD = ["binary_sensor"]
DEPENDENCIES = ["esp32"] DEPENDENCIES = ["esp32"]
@ -50,7 +51,8 @@ VOLTAGE_ATTENUATION = {
"0V": cg.global_ns.TOUCH_HVOLT_ATTEN_0V, "0V": cg.global_ns.TOUCH_HVOLT_ATTEN_0V,
} }
CONFIG_SCHEMA = cv.Schema( CONFIG_SCHEMA = cv.All(
cv.Schema(
{ {
cv.GenerateID(): cv.declare_id(ESP32TouchComponent), cv.GenerateID(): cv.declare_id(ESP32TouchComponent),
cv.Optional(CONF_SETUP_MODE, default=False): cv.boolean, cv.Optional(CONF_SETUP_MODE, default=False): cv.boolean,
@ -73,7 +75,13 @@ CONFIG_SCHEMA = cv.Schema(
VOLTAGE_ATTENUATION VOLTAGE_ATTENUATION
), ),
} }
).extend(cv.COMPONENT_SCHEMA) ).extend(cv.COMPONENT_SCHEMA),
esp32.only_on_variant(
supported=[
esp32.const.VARIANT_ESP32,
]
),
)
async def to_code(config): async def to_code(config):

View File

@ -1,5 +1,6 @@
import esphome.codegen as cg import esphome.codegen as cg
import esphome.config_validation as cv import esphome.config_validation as cv
from esphome.core import CORE
from esphome.components import binary_sensor from esphome.components import binary_sensor
from esphome.const import ( from esphome.const import (
CONF_PIN, CONF_PIN,
@ -7,6 +8,13 @@ from esphome.const import (
CONF_ID, CONF_ID,
) )
from esphome.components.esp32 import gpio from esphome.components.esp32 import gpio
from esphome.components.esp32.const import (
KEY_ESP32,
KEY_VARIANT,
VARIANT_ESP32,
VARIANT_ESP32S2,
VARIANT_ESP32S3,
)
from . import esp32_touch_ns, ESP32TouchComponent from . import esp32_touch_ns, ESP32TouchComponent
DEPENDENCIES = ["esp32_touch", "esp32"] DEPENDENCIES = ["esp32_touch", "esp32"]
@ -15,6 +23,7 @@ CONF_ESP32_TOUCH_ID = "esp32_touch_id"
CONF_WAKEUP_THRESHOLD = "wakeup_threshold" CONF_WAKEUP_THRESHOLD = "wakeup_threshold"
TOUCH_PADS = { TOUCH_PADS = {
VARIANT_ESP32: {
4: cg.global_ns.TOUCH_PAD_NUM0, 4: cg.global_ns.TOUCH_PAD_NUM0,
0: cg.global_ns.TOUCH_PAD_NUM1, 0: cg.global_ns.TOUCH_PAD_NUM1,
2: cg.global_ns.TOUCH_PAD_NUM2, 2: cg.global_ns.TOUCH_PAD_NUM2,
@ -25,14 +34,52 @@ TOUCH_PADS = {
27: cg.global_ns.TOUCH_PAD_NUM7, 27: cg.global_ns.TOUCH_PAD_NUM7,
33: cg.global_ns.TOUCH_PAD_NUM8, 33: cg.global_ns.TOUCH_PAD_NUM8,
32: cg.global_ns.TOUCH_PAD_NUM9, 32: cg.global_ns.TOUCH_PAD_NUM9,
},
VARIANT_ESP32S2: {
1: cg.global_ns.TOUCH_PAD_NUM1,
2: cg.global_ns.TOUCH_PAD_NUM2,
3: cg.global_ns.TOUCH_PAD_NUM3,
4: cg.global_ns.TOUCH_PAD_NUM4,
5: cg.global_ns.TOUCH_PAD_NUM5,
6: cg.global_ns.TOUCH_PAD_NUM6,
7: cg.global_ns.TOUCH_PAD_NUM7,
8: cg.global_ns.TOUCH_PAD_NUM8,
9: cg.global_ns.TOUCH_PAD_NUM9,
10: cg.global_ns.TOUCH_PAD_NUM10,
11: cg.global_ns.TOUCH_PAD_NUM11,
12: cg.global_ns.TOUCH_PAD_NUM12,
13: cg.global_ns.TOUCH_PAD_NUM13,
14: cg.global_ns.TOUCH_PAD_NUM14,
},
VARIANT_ESP32S3: {
1: cg.global_ns.TOUCH_PAD_NUM1,
2: cg.global_ns.TOUCH_PAD_NUM2,
3: cg.global_ns.TOUCH_PAD_NUM3,
4: cg.global_ns.TOUCH_PAD_NUM4,
5: cg.global_ns.TOUCH_PAD_NUM5,
6: cg.global_ns.TOUCH_PAD_NUM6,
7: cg.global_ns.TOUCH_PAD_NUM7,
8: cg.global_ns.TOUCH_PAD_NUM8,
9: cg.global_ns.TOUCH_PAD_NUM9,
10: cg.global_ns.TOUCH_PAD_NUM10,
11: cg.global_ns.TOUCH_PAD_NUM11,
12: cg.global_ns.TOUCH_PAD_NUM12,
13: cg.global_ns.TOUCH_PAD_NUM13,
14: cg.global_ns.TOUCH_PAD_NUM14,
},
} }
def validate_touch_pad(value): def validate_touch_pad(value):
value = gpio.validate_gpio_pin(value) value = gpio.validate_gpio_pin(value)
if value not in TOUCH_PADS: variant = CORE.data[KEY_ESP32][KEY_VARIANT]
if variant not in TOUCH_PADS:
raise cv.Invalid(f"ESP32 variant {variant} does not support touch pads.")
pads = TOUCH_PADS[variant]
if value not in pads:
raise cv.Invalid(f"Pin {value} does not support touch pads.") raise cv.Invalid(f"Pin {value} does not support touch pads.")
return value return cv.enum(pads)(value)
ESP32TouchBinarySensor = esp32_touch_ns.class_( ESP32TouchBinarySensor = esp32_touch_ns.class_(
@ -53,7 +100,7 @@ async def to_code(config):
hub = await cg.get_variable(config[CONF_ESP32_TOUCH_ID]) hub = await cg.get_variable(config[CONF_ESP32_TOUCH_ID])
var = cg.new_Pvariable( var = cg.new_Pvariable(
config[CONF_ID], config[CONF_ID],
TOUCH_PADS[config[CONF_PIN]], config[CONF_PIN],
config[CONF_THRESHOLD], config[CONF_THRESHOLD],
config[CONF_WAKEUP_THRESHOLD], config[CONF_WAKEUP_THRESHOLD],
) )

View File

@ -240,7 +240,6 @@ async def to_code(config):
# Called by writer.py # Called by writer.py
def copy_files(): def copy_files():
dir = os.path.dirname(__file__) dir = os.path.dirname(__file__)
post_build_file = os.path.join(dir, "post_build.py.script") post_build_file = os.path.join(dir, "post_build.py.script")
copy_file_if_changed( copy_file_if_changed(

View File

@ -36,12 +36,25 @@ ETHERNET_TYPES = {
"JL1101": EthernetType.ETHERNET_TYPE_JL1101, "JL1101": EthernetType.ETHERNET_TYPE_JL1101,
} }
emac_rmii_clock_mode_t = cg.global_ns.enum("emac_rmii_clock_mode_t")
emac_rmii_clock_gpio_t = cg.global_ns.enum("emac_rmii_clock_gpio_t") emac_rmii_clock_gpio_t = cg.global_ns.enum("emac_rmii_clock_gpio_t")
CLK_MODES = { CLK_MODES = {
"GPIO0_IN": emac_rmii_clock_gpio_t.EMAC_CLK_IN_GPIO, "GPIO0_IN": (
"GPIO0_OUT": emac_rmii_clock_gpio_t.EMAC_APPL_CLK_OUT_GPIO, emac_rmii_clock_mode_t.EMAC_CLK_EXT_IN,
"GPIO16_OUT": emac_rmii_clock_gpio_t.EMAC_CLK_OUT_GPIO, emac_rmii_clock_gpio_t.EMAC_CLK_IN_GPIO,
"GPIO17_OUT": emac_rmii_clock_gpio_t.EMAC_CLK_OUT_180_GPIO, ),
"GPIO0_OUT": (
emac_rmii_clock_mode_t.EMAC_CLK_OUT,
emac_rmii_clock_gpio_t.EMAC_APPL_CLK_OUT_GPIO,
),
"GPIO16_OUT": (
emac_rmii_clock_mode_t.EMAC_CLK_OUT,
emac_rmii_clock_gpio_t.EMAC_CLK_OUT_GPIO,
),
"GPIO17_OUT": (
emac_rmii_clock_mode_t.EMAC_CLK_OUT,
emac_rmii_clock_gpio_t.EMAC_CLK_OUT_180_GPIO,
),
} }
@ -114,7 +127,7 @@ async def to_code(config):
cg.add(var.set_mdc_pin(config[CONF_MDC_PIN])) cg.add(var.set_mdc_pin(config[CONF_MDC_PIN]))
cg.add(var.set_mdio_pin(config[CONF_MDIO_PIN])) cg.add(var.set_mdio_pin(config[CONF_MDIO_PIN]))
cg.add(var.set_type(config[CONF_TYPE])) cg.add(var.set_type(config[CONF_TYPE]))
cg.add(var.set_clk_mode(CLK_MODES[config[CONF_CLK_MODE]])) cg.add(var.set_clk_mode(*CLK_MODES[config[CONF_CLK_MODE]]))
cg.add(var.set_use_address(config[CONF_USE_ADDRESS])) cg.add(var.set_use_address(config[CONF_USE_ADDRESS]))
if CONF_POWER_PIN in config: if CONF_POWER_PIN in config:

View File

@ -43,13 +43,12 @@ void EthernetComponent::setup() {
eth_phy_config_t phy_config = ETH_PHY_DEFAULT_CONFIG(); eth_phy_config_t phy_config = ETH_PHY_DEFAULT_CONFIG();
phy_config.phy_addr = this->phy_addr_; phy_config.phy_addr = this->phy_addr_;
if (this->power_pin_ != -1)
phy_config.reset_gpio_num = this->power_pin_; phy_config.reset_gpio_num = this->power_pin_;
mac_config.smi_mdc_gpio_num = this->mdc_pin_; mac_config.smi_mdc_gpio_num = this->mdc_pin_;
mac_config.smi_mdio_gpio_num = this->mdio_pin_; mac_config.smi_mdio_gpio_num = this->mdio_pin_;
mac_config.clock_config.rmii.clock_mode = this->clk_mode_ == EMAC_CLK_IN_GPIO ? EMAC_CLK_EXT_IN : EMAC_CLK_OUT; mac_config.clock_config.rmii.clock_mode = this->clk_mode_;
mac_config.clock_config.rmii.clock_gpio = this->clk_mode_; mac_config.clock_config.rmii.clock_gpio = this->clk_gpio_;
esp_eth_mac_t *mac = esp_eth_mac_new_esp32(&mac_config); esp_eth_mac_t *mac = esp_eth_mac_new_esp32(&mac_config);
@ -316,7 +315,10 @@ void EthernetComponent::set_power_pin(int power_pin) { this->power_pin_ = power_
void EthernetComponent::set_mdc_pin(uint8_t mdc_pin) { this->mdc_pin_ = mdc_pin; } void EthernetComponent::set_mdc_pin(uint8_t mdc_pin) { this->mdc_pin_ = mdc_pin; }
void EthernetComponent::set_mdio_pin(uint8_t mdio_pin) { this->mdio_pin_ = mdio_pin; } void EthernetComponent::set_mdio_pin(uint8_t mdio_pin) { this->mdio_pin_ = mdio_pin; }
void EthernetComponent::set_type(EthernetType type) { this->type_ = type; } void EthernetComponent::set_type(EthernetType type) { this->type_ = type; }
void EthernetComponent::set_clk_mode(emac_rmii_clock_gpio_t clk_mode) { this->clk_mode_ = clk_mode; } void EthernetComponent::set_clk_mode(emac_rmii_clock_mode_t clk_mode, emac_rmii_clock_gpio_t clk_gpio) {
this->clk_mode_ = clk_mode;
this->clk_gpio_ = clk_gpio;
}
void EthernetComponent::set_manual_ip(const ManualIP &manual_ip) { this->manual_ip_ = manual_ip; } void EthernetComponent::set_manual_ip(const ManualIP &manual_ip) { this->manual_ip_ = manual_ip; }
std::string EthernetComponent::get_use_address() const { std::string EthernetComponent::get_use_address() const {

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@ -50,7 +50,7 @@ class EthernetComponent : public Component {
void set_mdc_pin(uint8_t mdc_pin); void set_mdc_pin(uint8_t mdc_pin);
void set_mdio_pin(uint8_t mdio_pin); void set_mdio_pin(uint8_t mdio_pin);
void set_type(EthernetType type); void set_type(EthernetType type);
void set_clk_mode(emac_rmii_clock_gpio_t clk_mode); void set_clk_mode(emac_rmii_clock_mode_t clk_mode, emac_rmii_clock_gpio_t clk_gpio);
void set_manual_ip(const ManualIP &manual_ip); void set_manual_ip(const ManualIP &manual_ip);
network::IPAddress get_ip_address(); network::IPAddress get_ip_address();
@ -70,7 +70,8 @@ class EthernetComponent : public Component {
uint8_t mdc_pin_{23}; uint8_t mdc_pin_{23};
uint8_t mdio_pin_{18}; uint8_t mdio_pin_{18};
EthernetType type_{ETHERNET_TYPE_LAN8720}; EthernetType type_{ETHERNET_TYPE_LAN8720};
emac_rmii_clock_gpio_t clk_mode_{EMAC_CLK_IN_GPIO}; emac_rmii_clock_mode_t clk_mode_{EMAC_CLK_EXT_IN};
emac_rmii_clock_gpio_t clk_gpio_{EMAC_CLK_IN_GPIO};
optional<ManualIP> manual_ip_{}; optional<ManualIP> manual_ip_{};
bool started_{false}; bool started_{false};

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@ -1,90 +1,32 @@
import re
import logging import logging
from pathlib import Path from pathlib import Path
import esphome.config_validation as cv import esphome.config_validation as cv
from esphome import git, loader
from esphome.const import ( from esphome.const import (
CONF_COMPONENTS, CONF_COMPONENTS,
CONF_EXTERNAL_COMPONENTS,
CONF_PASSWORD,
CONF_PATH,
CONF_REF, CONF_REF,
CONF_REFRESH, CONF_REFRESH,
CONF_SOURCE, CONF_SOURCE,
CONF_URL,
CONF_TYPE, CONF_TYPE,
CONF_EXTERNAL_COMPONENTS, CONF_URL,
CONF_PATH,
CONF_USERNAME, CONF_USERNAME,
CONF_PASSWORD, TYPE_GIT,
TYPE_LOCAL,
) )
from esphome.core import CORE from esphome.core import CORE
from esphome import git, loader
_LOGGER = logging.getLogger(__name__) _LOGGER = logging.getLogger(__name__)
DOMAIN = CONF_EXTERNAL_COMPONENTS DOMAIN = CONF_EXTERNAL_COMPONENTS
TYPE_GIT = "git"
TYPE_LOCAL = "local"
GIT_SCHEMA = {
cv.Required(CONF_URL): cv.url,
cv.Optional(CONF_REF): cv.git_ref,
cv.Optional(CONF_USERNAME): cv.string,
cv.Optional(CONF_PASSWORD): cv.string,
}
LOCAL_SCHEMA = {
cv.Required(CONF_PATH): cv.directory,
}
def validate_source_shorthand(value):
if not isinstance(value, str):
raise cv.Invalid("Shorthand only for strings")
try:
return SOURCE_SCHEMA({CONF_TYPE: TYPE_LOCAL, CONF_PATH: value})
except cv.Invalid:
pass
# Regex for GitHub repo name with optional branch/tag
# Note: git allows other branch/tag names as well, but never seen them used before
m = re.match(
r"github://(?:([a-zA-Z0-9\-]+)/([a-zA-Z0-9\-\._]+)(?:@([a-zA-Z0-9\-_.\./]+))?|pr#([0-9]+))",
value,
)
if m is None:
raise cv.Invalid(
"Source is not a file system path, in expected github://username/name[@branch-or-tag] or github://pr#1234 format!"
)
if m.group(4):
conf = {
CONF_TYPE: TYPE_GIT,
CONF_URL: "https://github.com/esphome/esphome.git",
CONF_REF: f"pull/{m.group(4)}/head",
}
else:
conf = {
CONF_TYPE: TYPE_GIT,
CONF_URL: f"https://github.com/{m.group(1)}/{m.group(2)}.git",
}
if m.group(3):
conf[CONF_REF] = m.group(3)
return SOURCE_SCHEMA(conf)
SOURCE_SCHEMA = cv.Any(
validate_source_shorthand,
cv.typed_schema(
{
TYPE_GIT: cv.Schema(GIT_SCHEMA),
TYPE_LOCAL: cv.Schema(LOCAL_SCHEMA),
}
),
)
CONFIG_SCHEMA = cv.ensure_list( CONFIG_SCHEMA = cv.ensure_list(
{ {
cv.Required(CONF_SOURCE): SOURCE_SCHEMA, cv.Required(CONF_SOURCE): cv.SOURCE_SCHEMA,
cv.Optional(CONF_REFRESH, default="1d"): cv.All(cv.string, cv.source_refresh), cv.Optional(CONF_REFRESH, default="1d"): cv.All(cv.string, cv.source_refresh),
cv.Optional(CONF_COMPONENTS, default="all"): cv.Any( cv.Optional(CONF_COMPONENTS, default="all"): cv.Any(
"all", cv.ensure_list(cv.string) "all", cv.ensure_list(cv.string)

View File

@ -41,9 +41,9 @@ DeviceInformationTrigger = ezo_ns.class_(
LedTrigger = ezo_ns.class_("LedTrigger", automation.Trigger.template(cg.bool_)) LedTrigger = ezo_ns.class_("LedTrigger", automation.Trigger.template(cg.bool_))
CONFIG_SCHEMA = ( CONFIG_SCHEMA = (
sensor.SENSOR_SCHEMA.extend( sensor.sensor_schema(EZOSensor)
.extend(
{ {
cv.GenerateID(): cv.declare_id(EZOSensor),
cv.Optional(CONF_ON_CUSTOM): automation.validate_automation( cv.Optional(CONF_ON_CUSTOM): automation.validate_automation(
{ {
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(CustomTrigger), cv.GenerateID(CONF_TRIGGER_ID): cv.declare_id(CustomTrigger),

View File

@ -13,15 +13,12 @@ FactoryResetButton = factory_reset_ns.class_(
"FactoryResetButton", button.Button, cg.Component "FactoryResetButton", button.Button, cg.Component
) )
CONFIG_SCHEMA = ( CONFIG_SCHEMA = button.button_schema(
button.button_schema( FactoryResetButton,
device_class=DEVICE_CLASS_RESTART, device_class=DEVICE_CLASS_RESTART,
entity_category=ENTITY_CATEGORY_CONFIG, entity_category=ENTITY_CATEGORY_CONFIG,
icon=ICON_RESTART_ALERT, icon=ICON_RESTART_ALERT,
) ).extend(cv.COMPONENT_SCHEMA)
.extend({cv.GenerateID(): cv.declare_id(FactoryResetButton)})
.extend(cv.COMPONENT_SCHEMA)
)
async def to_code(config): async def to_code(config):

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@ -0,0 +1,107 @@
#include "fs3000.h"
#include "esphome/core/log.h"
namespace esphome {
namespace fs3000 {
static const char *const TAG = "fs3000";
void FS3000Component::setup() {
ESP_LOGCONFIG(TAG, "Setting up FS3000...");
if (model_ == FIVE) {
// datasheet gives 9 points to interpolate from for the 1005 model
static const uint16_t RAW_DATA_POINTS_1005[9] = {409, 915, 1522, 2066, 2523, 2908, 3256, 3572, 3686};
static const float MPS_DATA_POINTS_1005[9] = {0.0, 1.07, 2.01, 3.0, 3.97, 4.96, 5.98, 6.99, 7.23};
std::copy(RAW_DATA_POINTS_1005, RAW_DATA_POINTS_1005 + 9, this->raw_data_points_);
std::copy(MPS_DATA_POINTS_1005, MPS_DATA_POINTS_1005 + 9, this->mps_data_points_);
} else if (model_ == FIFTEEN) {
// datasheet gives 13 points to extrapolate from for the 1015 model
static const uint16_t RAW_DATA_POINTS_1015[13] = {409, 1203, 1597, 1908, 2187, 2400, 2629,
2801, 3006, 3178, 3309, 3563, 3686};
static const float MPS_DATA_POINTS_1015[13] = {0.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0, 11.0, 13.0, 15.0};
std::copy(RAW_DATA_POINTS_1015, RAW_DATA_POINTS_1015 + 13, this->raw_data_points_);
std::copy(MPS_DATA_POINTS_1015, MPS_DATA_POINTS_1015 + 13, this->mps_data_points_);
}
}
void FS3000Component::update() {
// 5 bytes of data read from fs3000 sensor
// byte 1 - checksum
// byte 2 - (lower 4 bits) high byte of sensor reading
// byte 3 - (8 bits) low byte of sensor reading
// byte 4 - generic checksum data
// byte 5 - generic checksum data
uint8_t data[5];
if (!this->read_bytes_raw(data, 5)) {
this->status_set_warning();
ESP_LOGW(TAG, "Error reading data from FS3000");
this->publish_state(NAN);
return;
}
// checksum passes if the modulo 256 sum of the five bytes is 0
uint8_t checksum = 0;
for (uint8_t i : data) {
checksum += i;
}
if (checksum != 0) {
this->status_set_warning();
ESP_LOGW(TAG, "Checksum failure when reading from FS3000");
return;
}
// raw value information is 12 bits
uint16_t raw_value = (data[1] << 8) | data[2];
ESP_LOGV(TAG, "Got raw reading=%i", raw_value);
// convert and publish the raw value into m/s using the table of data points in the datasheet
this->publish_state(fit_raw_(raw_value));
this->status_clear_warning();
}
void FS3000Component::dump_config() {
ESP_LOGCONFIG(TAG, "FS3000:");
LOG_I2C_DEVICE(this);
LOG_UPDATE_INTERVAL(this);
LOG_SENSOR(" ", "Air Velocity", this);
}
float FS3000Component::fit_raw_(uint16_t raw_value) {
// converts a raw value read from the FS3000 into a speed in m/s based on the
// reference data points given in the datasheet
// fits raw reading using a linear interpolation between each data point
uint8_t end = 8; // assume model 1005, which has 9 data points
if (this->model_ == FIFTEEN)
end = 12; // model 1015 has 13 data points
if (raw_value <= this->raw_data_points_[0]) { // less than smallest data point returns first data point
return this->mps_data_points_[0];
} else if (raw_value >= this->raw_data_points_[end]) { // greater than largest data point returns max speed
return this->mps_data_points_[end];
} else {
uint8_t i = 0;
// determine between which data points does the reading fall, i-1 and i
while (raw_value > this->raw_data_points_[i]) {
++i;
}
// calculate the slope of the secant line between the two data points that surrounds the reading
float slope = (this->mps_data_points_[i] - this->mps_data_points_[i - 1]) /
(this->raw_data_points_[i] - this->raw_data_points_[i - 1]);
// return the interpolated value for the reading
return (float(raw_value - this->raw_data_points_[i - 1])) * slope + this->mps_data_points_[i - 1];
}
}
} // namespace fs3000
} // namespace esphome

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@ -0,0 +1,35 @@
#pragma once
#include "esphome/core/component.h"
#include "esphome/components/sensor/sensor.h"
#include "esphome/components/i2c/i2c.h"
namespace esphome {
namespace fs3000 {
// FS3000 has two models, 1005 and 1015
// 1005 has a max speed detection of 7.23 m/s
// 1015 has a max speed detection of 15 m/s
enum FS3000Model { FIVE, FIFTEEN };
class FS3000Component : public PollingComponent, public i2c::I2CDevice, public sensor::Sensor {
public:
void setup() override;
void update() override;
void dump_config() override;
float get_setup_priority() const override { return setup_priority::DATA; }
void set_model(FS3000Model model) { this->model_ = model; }
protected:
FS3000Model model_{};
uint16_t raw_data_points_[13];
float mps_data_points_[13];
float fit_raw_(uint16_t raw_value);
};
} // namespace fs3000
} // namespace esphome

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@ -0,0 +1,50 @@
# initially based off of TMP117 component
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import i2c, sensor
from esphome.const import (
CONF_MODEL,
DEVICE_CLASS_WIND_SPEED,
STATE_CLASS_MEASUREMENT,
)
DEPENDENCIES = ["i2c"]
CODEOWNERS = ["@kahrendt"]
fs3000_ns = cg.esphome_ns.namespace("fs3000")
FS3000Model = fs3000_ns.enum("MODEL")
FS3000_MODEL_OPTIONS = {
"1005": FS3000Model.FIVE,
"1015": FS3000Model.FIFTEEN,
}
FS3000Component = fs3000_ns.class_(
"FS3000Component", cg.PollingComponent, i2c.I2CDevice, sensor.Sensor
)
CONFIG_SCHEMA = (
sensor.sensor_schema(
FS3000Component,
unit_of_measurement="m/s",
accuracy_decimals=2,
device_class=DEVICE_CLASS_WIND_SPEED,
state_class=STATE_CLASS_MEASUREMENT,
)
.extend(
{
cv.Required(CONF_MODEL): cv.enum(FS3000_MODEL_OPTIONS, lower=True),
}
)
.extend(cv.polling_component_schema("60s"))
.extend(i2c.i2c_device_schema(0x28))
)
async def to_code(config):
var = await sensor.new_sensor(config)
await cg.register_component(var, config)
await i2c.register_i2c_device(var, config)
cg.add(var.set_model(config[CONF_MODEL]))

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@ -0,0 +1 @@
CODEOWNERS = ["@Yarikx"]

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@ -0,0 +1,43 @@
from esphome.components import climate
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import uart
from esphome.components.climate import ClimateSwingMode
from esphome.const import CONF_ID, CONF_SUPPORTED_SWING_MODES
DEPENDENCIES = ["uart"]
haier_ns = cg.esphome_ns.namespace("haier")
HaierClimate = haier_ns.class_(
"HaierClimate", climate.Climate, cg.PollingComponent, uart.UARTDevice
)
ALLOWED_CLIMATE_SWING_MODES = {
"BOTH": ClimateSwingMode.CLIMATE_SWING_BOTH,
"VERTICAL": ClimateSwingMode.CLIMATE_SWING_VERTICAL,
"HORIZONTAL": ClimateSwingMode.CLIMATE_SWING_HORIZONTAL,
}
validate_swing_modes = cv.enum(ALLOWED_CLIMATE_SWING_MODES, upper=True)
CONFIG_SCHEMA = cv.All(
climate.CLIMATE_SCHEMA.extend(
{
cv.GenerateID(): cv.declare_id(HaierClimate),
cv.Optional(CONF_SUPPORTED_SWING_MODES): cv.ensure_list(
validate_swing_modes
),
}
)
.extend(cv.polling_component_schema("5s"))
.extend(uart.UART_DEVICE_SCHEMA),
)
async def to_code(config):
var = cg.new_Pvariable(config[CONF_ID])
await cg.register_component(var, config)
await climate.register_climate(var, config)
await uart.register_uart_device(var, config)
if CONF_SUPPORTED_SWING_MODES in config:
cg.add(var.set_supported_swing_modes(config[CONF_SUPPORTED_SWING_MODES]))

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@ -0,0 +1,302 @@
#include <cmath>
#include "haier.h"
#include "esphome/core/macros.h"
namespace esphome {
namespace haier {
static const char *const TAG = "haier";
static const uint8_t TEMPERATURE = 13;
static const uint8_t HUMIDITY = 15;
static const uint8_t MODE = 23;
static const uint8_t FAN_SPEED = 25;
static const uint8_t SWING = 27;
static const uint8_t POWER = 29;
static const uint8_t POWER_MASK = 1;
static const uint8_t SET_TEMPERATURE = 35;
static const uint8_t DECIMAL_MASK = (1 << 5);
static const uint8_t CRC = 36;
static const uint8_t COMFORT_PRESET_MASK = (1 << 3);
static const uint8_t MIN_VALID_TEMPERATURE = 16;
static const uint8_t MAX_VALID_TEMPERATURE = 50;
static const float TEMPERATURE_STEP = 0.5f;
static const uint8_t POLL_REQ[13] = {255, 255, 10, 0, 0, 0, 0, 0, 1, 1, 77, 1, 90};
static const uint8_t OFF_REQ[13] = {255, 255, 10, 0, 0, 0, 0, 0, 1, 1, 77, 3, 92};
void HaierClimate::dump_config() {
ESP_LOGCONFIG(TAG, "Haier:");
ESP_LOGCONFIG(TAG, " Update interval: %u", this->get_update_interval());
this->dump_traits_(TAG);
this->check_uart_settings(9600);
}
void HaierClimate::loop() {
if (this->available() >= sizeof(this->data_)) {
this->read_array(this->data_, sizeof(this->data_));
if (this->data_[0] != 255 || this->data_[1] != 255)
return;
read_state_(this->data_, sizeof(this->data_));
}
}
void HaierClimate::update() {
this->write_array(POLL_REQ, sizeof(POLL_REQ));
dump_message_("Poll sent", POLL_REQ, sizeof(POLL_REQ));
}
climate::ClimateTraits HaierClimate::traits() {
auto traits = climate::ClimateTraits();
traits.set_visual_min_temperature(MIN_VALID_TEMPERATURE);
traits.set_visual_max_temperature(MAX_VALID_TEMPERATURE);
traits.set_visual_temperature_step(TEMPERATURE_STEP);
traits.set_supported_modes({climate::CLIMATE_MODE_OFF, climate::CLIMATE_MODE_HEAT_COOL, climate::CLIMATE_MODE_COOL,
climate::CLIMATE_MODE_HEAT, climate::CLIMATE_MODE_FAN_ONLY, climate::CLIMATE_MODE_DRY});
traits.set_supported_fan_modes({
climate::CLIMATE_FAN_AUTO,
climate::CLIMATE_FAN_LOW,
climate::CLIMATE_FAN_MEDIUM,
climate::CLIMATE_FAN_HIGH,
});
traits.set_supported_swing_modes(this->supported_swing_modes_);
traits.set_supports_current_temperature(true);
traits.set_supports_two_point_target_temperature(false);
traits.add_supported_preset(climate::CLIMATE_PRESET_NONE);
traits.add_supported_preset(climate::CLIMATE_PRESET_COMFORT);
return traits;
}
void HaierClimate::read_state_(const uint8_t *data, uint8_t size) {
dump_message_("Received state", data, size);
uint8_t check = data[CRC];
uint8_t crc = get_checksum_(data, size);
if (check != crc) {
ESP_LOGW(TAG, "Invalid checksum");
return;
}
this->current_temperature = data[TEMPERATURE];
this->target_temperature = data[SET_TEMPERATURE] + MIN_VALID_TEMPERATURE;
if (data[POWER] & DECIMAL_MASK) {
this->target_temperature += 0.5f;
}
switch (data[MODE]) {
case MODE_SMART:
this->mode = climate::CLIMATE_MODE_HEAT_COOL;
break;
case MODE_COOL:
this->mode = climate::CLIMATE_MODE_COOL;
break;
case MODE_HEAT:
this->mode = climate::CLIMATE_MODE_HEAT;
break;
case MODE_ONLY_FAN:
this->mode = climate::CLIMATE_MODE_FAN_ONLY;
break;
case MODE_DRY:
this->mode = climate::CLIMATE_MODE_DRY;
break;
default: // other modes are unsupported
this->mode = climate::CLIMATE_MODE_HEAT_COOL;
}
switch (data[FAN_SPEED]) {
case FAN_AUTO:
this->fan_mode = climate::CLIMATE_FAN_AUTO;
break;
case FAN_MIN:
this->fan_mode = climate::CLIMATE_FAN_LOW;
break;
case FAN_MIDDLE:
this->fan_mode = climate::CLIMATE_FAN_MEDIUM;
break;
case FAN_MAX:
this->fan_mode = climate::CLIMATE_FAN_HIGH;
break;
}
switch (data[SWING]) {
case SWING_OFF:
this->swing_mode = climate::CLIMATE_SWING_OFF;
break;
case SWING_VERTICAL:
this->swing_mode = climate::CLIMATE_SWING_VERTICAL;
break;
case SWING_HORIZONTAL:
this->swing_mode = climate::CLIMATE_SWING_HORIZONTAL;
break;
case SWING_BOTH:
this->swing_mode = climate::CLIMATE_SWING_BOTH;
break;
}
if (data[POWER] & COMFORT_PRESET_MASK) {
this->preset = climate::CLIMATE_PRESET_COMFORT;
} else {
this->preset = climate::CLIMATE_PRESET_NONE;
}
if ((data[POWER] & POWER_MASK) == 0) {
this->mode = climate::CLIMATE_MODE_OFF;
}
this->publish_state();
}
void HaierClimate::control(const climate::ClimateCall &call) {
if (call.get_mode().has_value()) {
switch (call.get_mode().value()) {
case climate::CLIMATE_MODE_OFF:
send_data_(OFF_REQ, sizeof(OFF_REQ));
break;
case climate::CLIMATE_MODE_HEAT_COOL:
case climate::CLIMATE_MODE_AUTO:
data_[POWER] |= POWER_MASK;
data_[MODE] = MODE_SMART;
break;
case climate::CLIMATE_MODE_HEAT:
data_[POWER] |= POWER_MASK;
data_[MODE] = MODE_HEAT;
break;
case climate::CLIMATE_MODE_COOL:
data_[POWER] |= POWER_MASK;
data_[MODE] = MODE_COOL;
break;
case climate::CLIMATE_MODE_FAN_ONLY:
data_[POWER] |= POWER_MASK;
data_[MODE] = MODE_ONLY_FAN;
break;
case climate::CLIMATE_MODE_DRY:
data_[POWER] |= POWER_MASK;
data_[MODE] = MODE_DRY;
break;
}
}
if (call.get_preset().has_value()) {
if (call.get_preset().value() == climate::CLIMATE_PRESET_COMFORT) {
data_[POWER] |= COMFORT_PRESET_MASK;
} else {
data_[POWER] &= ~COMFORT_PRESET_MASK;
}
}
if (call.get_target_temperature().has_value()) {
float target = call.get_target_temperature().value() - MIN_VALID_TEMPERATURE;
data_[SET_TEMPERATURE] = (uint8_t) target;
if ((int) target == std::lroundf(target)) {
data_[POWER] &= ~DECIMAL_MASK;
} else {
data_[POWER] |= DECIMAL_MASK;
}
}
if (call.get_fan_mode().has_value()) {
switch (call.get_fan_mode().value()) {
case climate::CLIMATE_FAN_AUTO:
data_[FAN_SPEED] = FAN_AUTO;
break;
case climate::CLIMATE_FAN_LOW:
data_[FAN_SPEED] = FAN_MIN;
break;
case climate::CLIMATE_FAN_MEDIUM:
data_[FAN_SPEED] = FAN_MIDDLE;
break;
case climate::CLIMATE_FAN_HIGH:
data_[FAN_SPEED] = FAN_MAX;
break;
default: // other modes are unsupported
break;
}
}
if (call.get_swing_mode().has_value()) {
switch (call.get_swing_mode().value()) {
case climate::CLIMATE_SWING_OFF:
data_[SWING] = SWING_OFF;
break;
case climate::CLIMATE_SWING_VERTICAL:
data_[SWING] = SWING_VERTICAL;
break;
case climate::CLIMATE_SWING_HORIZONTAL:
data_[SWING] = SWING_HORIZONTAL;
break;
case climate::CLIMATE_SWING_BOTH:
data_[SWING] = SWING_BOTH;
break;
}
}
// Parts of the message that must have specific values for "send" command.
// The meaning of those values is unknown at the moment.
data_[9] = 1;
data_[10] = 77;
data_[11] = 95;
data_[17] = 0;
// Compute checksum
uint8_t crc = get_checksum_(data_, sizeof(data_));
data_[CRC] = crc;
send_data_(data_, sizeof(data_));
}
void HaierClimate::send_data_(const uint8_t *message, uint8_t size) {
this->write_array(message, size);
dump_message_("Sent message", message, size);
}
void HaierClimate::dump_message_(const char *title, const uint8_t *message, uint8_t size) {
ESP_LOGV(TAG, "%s:", title);
for (int i = 0; i < size; i++) {
ESP_LOGV(TAG, " byte %02d - %d", i, message[i]);
}
}
uint8_t HaierClimate::get_checksum_(const uint8_t *message, size_t size) {
uint8_t position = size - 1;
uint8_t crc = 0;
for (int i = 2; i < position; i++)
crc += message[i];
return crc;
}
} // namespace haier
} // namespace esphome

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@ -0,0 +1,37 @@
#pragma once
#include "esphome/core/component.h"
#include "esphome/components/climate/climate.h"
#include "esphome/components/uart/uart.h"
namespace esphome {
namespace haier {
enum Mode : uint8_t { MODE_SMART = 0, MODE_COOL = 1, MODE_HEAT = 2, MODE_ONLY_FAN = 3, MODE_DRY = 4 };
enum FanSpeed : uint8_t { FAN_MAX = 0, FAN_MIDDLE = 1, FAN_MIN = 2, FAN_AUTO = 3 };
enum SwingMode : uint8_t { SWING_OFF = 0, SWING_VERTICAL = 1, SWING_HORIZONTAL = 2, SWING_BOTH = 3 };
class HaierClimate : public climate::Climate, public uart::UARTDevice, public PollingComponent {
public:
void loop() override;
void update() override;
void dump_config() override;
void control(const climate::ClimateCall &call) override;
void set_supported_swing_modes(const std::set<climate::ClimateSwingMode> &modes) {
this->supported_swing_modes_ = modes;
}
protected:
climate::ClimateTraits traits() override;
void read_state_(const uint8_t *data, uint8_t size);
void send_data_(const uint8_t *message, uint8_t size);
void dump_message_(const char *title, const uint8_t *message, uint8_t size);
uint8_t get_checksum_(const uint8_t *message, size_t size);
private:
uint8_t data_[37];
std::set<climate::ClimateSwingMode> supported_swing_modes_{};
};
} // namespace haier
} // namespace esphome

View File

@ -52,7 +52,6 @@ CONFIG_SCHEMA = (
async def to_code(config): async def to_code(config):
var = cg.new_Pvariable(config[CONF_ID]) var = cg.new_Pvariable(config[CONF_ID])
await cg.register_component(var, config) await cg.register_component(var, config)
await spi.register_spi_device(var, config) await spi.register_spi_device(var, config)

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@ -1,153 +1,5 @@
import esphome.codegen as cg
import esphome.config_validation as cv import esphome.config_validation as cv
from esphome import core, pins
from esphome.components import display, spi CONFIG_SCHEMA = cv.invalid(
from esphome.const import ( "The ili9341 platform component has been renamed to ili9xxx."
CONF_COLOR_PALETTE,
CONF_DC_PIN,
CONF_ID,
CONF_LAMBDA,
CONF_MODEL,
CONF_PAGES,
CONF_RAW_DATA_ID,
CONF_RESET_PIN,
) )
from esphome.core import CORE, HexInt
DEPENDENCIES = ["spi"]
CONF_COLOR_PALETTE_IMAGES = "color_palette_images"
CONF_LED_PIN = "led_pin"
ili9341_ns = cg.esphome_ns.namespace("ili9341")
ili9341 = ili9341_ns.class_(
"ILI9341Display", cg.PollingComponent, spi.SPIDevice, display.DisplayBuffer
)
ILI9341M5Stack = ili9341_ns.class_("ILI9341M5Stack", ili9341)
ILI9341TFT24 = ili9341_ns.class_("ILI9341TFT24", ili9341)
ILI9341TFT24R = ili9341_ns.class_("ILI9341TFT24R", ili9341)
ILI9341Model = ili9341_ns.enum("ILI9341Model")
ILI9341ColorMode = ili9341_ns.enum("ILI9341ColorMode")
MODELS = {
"M5STACK": ILI9341Model.M5STACK,
"TFT_2.4": ILI9341Model.TFT_24,
"TFT_2.4R": ILI9341Model.TFT_24R,
}
ILI9341_MODEL = cv.enum(MODELS, upper=True, space="_")
COLOR_PALETTE = cv.one_of("NONE", "GRAYSCALE", "IMAGE_ADAPTIVE")
def _validate(config):
if config.get(CONF_COLOR_PALETTE) == "IMAGE_ADAPTIVE" and not config.get(
CONF_COLOR_PALETTE_IMAGES
):
raise cv.Invalid(
"Color palette in IMAGE_ADAPTIVE mode requires at least one 'color_palette_images' entry to generate palette"
)
if (
config.get(CONF_COLOR_PALETTE_IMAGES)
and config.get(CONF_COLOR_PALETTE) != "IMAGE_ADAPTIVE"
):
raise cv.Invalid(
"Providing color palette images requires palette mode to be 'IMAGE_ADAPTIVE'"
)
return config
CONFIG_SCHEMA = cv.All(
display.FULL_DISPLAY_SCHEMA.extend(
{
cv.GenerateID(): cv.declare_id(ili9341),
cv.Required(CONF_MODEL): ILI9341_MODEL,
cv.Required(CONF_DC_PIN): pins.gpio_output_pin_schema,
cv.Optional(CONF_RESET_PIN): pins.gpio_output_pin_schema,
cv.Optional(CONF_LED_PIN): pins.gpio_output_pin_schema,
cv.Optional(CONF_COLOR_PALETTE, default="NONE"): COLOR_PALETTE,
cv.Optional(CONF_COLOR_PALETTE_IMAGES, default=[]): cv.ensure_list(
cv.file_
),
cv.GenerateID(CONF_RAW_DATA_ID): cv.declare_id(cg.uint8),
}
)
.extend(cv.polling_component_schema("1s"))
.extend(spi.spi_device_schema(False)),
cv.has_at_most_one_key(CONF_PAGES, CONF_LAMBDA),
_validate,
)
async def to_code(config):
if config[CONF_MODEL] == "M5STACK":
lcd_type = ILI9341M5Stack
if config[CONF_MODEL] == "TFT_2.4":
lcd_type = ILI9341TFT24
if config[CONF_MODEL] == "TFT_2.4R":
lcd_type = ILI9341TFT24R
rhs = lcd_type.new()
var = cg.Pvariable(config[CONF_ID], rhs)
await cg.register_component(var, config)
await display.register_display(var, config)
await spi.register_spi_device(var, config)
cg.add(var.set_model(config[CONF_MODEL]))
dc = await cg.gpio_pin_expression(config[CONF_DC_PIN])
cg.add(var.set_dc_pin(dc))
if CONF_LAMBDA in config:
lambda_ = await cg.process_lambda(
config[CONF_LAMBDA], [(display.DisplayBufferRef, "it")], return_type=cg.void
)
cg.add(var.set_writer(lambda_))
if CONF_RESET_PIN in config:
reset = await cg.gpio_pin_expression(config[CONF_RESET_PIN])
cg.add(var.set_reset_pin(reset))
if CONF_LED_PIN in config:
led_pin = await cg.gpio_pin_expression(config[CONF_LED_PIN])
cg.add(var.set_led_pin(led_pin))
rhs = None
if config[CONF_COLOR_PALETTE] == "GRAYSCALE":
cg.add(var.set_buffer_color_mode(ILI9341ColorMode.BITS_8_INDEXED))
rhs = []
for x in range(256):
rhs.extend([HexInt(x), HexInt(x), HexInt(x)])
elif config[CONF_COLOR_PALETTE] == "IMAGE_ADAPTIVE":
cg.add(var.set_buffer_color_mode(ILI9341ColorMode.BITS_8_INDEXED))
from PIL import Image
def load_image(filename):
path = CORE.relative_config_path(filename)
try:
return Image.open(path)
except Exception as e:
raise core.EsphomeError(f"Could not load image file {path}: {e}")
# make a wide horizontal combined image.
images = [load_image(x) for x in config[CONF_COLOR_PALETTE_IMAGES]]
total_width = sum(i.width for i in images)
max_height = max(i.height for i in images)
ref_image = Image.new("RGB", (total_width, max_height))
x = 0
for i in images:
ref_image.paste(i, (x, 0))
x = x + i.width
# reduce the colors on combined image to 256.
converted = ref_image.convert("P", palette=Image.ADAPTIVE, colors=256)
# if you want to verify how the images look use
# ref_image.save("ref_in.png")
# converted.save("ref_out.png")
palette = converted.getpalette()
assert len(palette) == 256 * 3
rhs = palette
else:
cg.add(var.set_buffer_color_mode(ILI9341ColorMode.BITS_8))
if rhs is not None:
prog_arr = cg.progmem_array(config[CONF_RAW_DATA_ID], rhs)
cg.add(var.set_palette(prog_arr))

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@ -1,83 +0,0 @@
#pragma once
namespace esphome {
namespace ili9341 {
// Color definitions
// clang-format off
static const uint8_t MADCTL_MY = 0x80; ///< Bit 7 Bottom to top
static const uint8_t MADCTL_MX = 0x40; ///< Bit 6 Right to left
static const uint8_t MADCTL_MV = 0x20; ///< Bit 5 Reverse Mode
static const uint8_t MADCTL_ML = 0x10; ///< Bit 4 LCD refresh Bottom to top
static const uint8_t MADCTL_RGB = 0x00; ///< Bit 3 Red-Green-Blue pixel order
static const uint8_t MADCTL_BGR = 0x08; ///< Bit 3 Blue-Green-Red pixel order
static const uint8_t MADCTL_MH = 0x04; ///< Bit 2 LCD refresh right to left
// clang-format on
static const uint16_t ILI9341_TFTWIDTH = 320; ///< ILI9341 max TFT width
static const uint16_t ILI9341_TFTHEIGHT = 240; ///< ILI9341 max TFT height
// All ILI9341 specific commands some are used by init()
static const uint8_t ILI9341_NOP = 0x00;
static const uint8_t ILI9341_SWRESET = 0x01;
static const uint8_t ILI9341_RDDID = 0x04;
static const uint8_t ILI9341_RDDST = 0x09;
static const uint8_t ILI9341_SLPIN = 0x10;
static const uint8_t ILI9341_SLPOUT = 0x11;
static const uint8_t ILI9341_PTLON = 0x12;
static const uint8_t ILI9341_NORON = 0x13;
static const uint8_t ILI9341_RDMODE = 0x0A;
static const uint8_t ILI9341_RDMADCTL = 0x0B;
static const uint8_t ILI9341_RDPIXFMT = 0x0C;
static const uint8_t ILI9341_RDIMGFMT = 0x0A;
static const uint8_t ILI9341_RDSELFDIAG = 0x0F;
static const uint8_t ILI9341_INVOFF = 0x20;
static const uint8_t ILI9341_INVON = 0x21;
static const uint8_t ILI9341_GAMMASET = 0x26;
static const uint8_t ILI9341_DISPOFF = 0x28;
static const uint8_t ILI9341_DISPON = 0x29;
static const uint8_t ILI9341_CASET = 0x2A;
static const uint8_t ILI9341_PASET = 0x2B;
static const uint8_t ILI9341_RAMWR = 0x2C;
static const uint8_t ILI9341_RAMRD = 0x2E;
static const uint8_t ILI9341_PTLAR = 0x30;
static const uint8_t ILI9341_VSCRDEF = 0x33;
static const uint8_t ILI9341_MADCTL = 0x36;
static const uint8_t ILI9341_VSCRSADD = 0x37;
static const uint8_t ILI9341_PIXFMT = 0x3A;
static const uint8_t ILI9341_WRDISBV = 0x51;
static const uint8_t ILI9341_RDDISBV = 0x52;
static const uint8_t ILI9341_WRCTRLD = 0x53;
static const uint8_t ILI9341_FRMCTR1 = 0xB1;
static const uint8_t ILI9341_FRMCTR2 = 0xB2;
static const uint8_t ILI9341_FRMCTR3 = 0xB3;
static const uint8_t ILI9341_INVCTR = 0xB4;
static const uint8_t ILI9341_DFUNCTR = 0xB6;
static const uint8_t ILI9341_PWCTR1 = 0xC0;
static const uint8_t ILI9341_PWCTR2 = 0xC1;
static const uint8_t ILI9341_PWCTR3 = 0xC2;
static const uint8_t ILI9341_PWCTR4 = 0xC3;
static const uint8_t ILI9341_PWCTR5 = 0xC4;
static const uint8_t ILI9341_VMCTR1 = 0xC5;
static const uint8_t ILI9341_VMCTR2 = 0xC7;
static const uint8_t ILI9341_RDID4 = 0xD3;
static const uint8_t ILI9341_RDINDEX = 0xD9;
static const uint8_t ILI9341_RDID1 = 0xDA;
static const uint8_t ILI9341_RDID2 = 0xDB;
static const uint8_t ILI9341_RDID3 = 0xDC;
static const uint8_t ILI9341_RDIDX = 0xDD; // TBC
static const uint8_t ILI9341_GMCTRP1 = 0xE0;
static const uint8_t ILI9341_GMCTRN1 = 0xE1;
} // namespace ili9341
} // namespace esphome

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@ -1,308 +0,0 @@
#include "ili9341_display.h"
#include "esphome/core/log.h"
#include "esphome/core/application.h"
#include "esphome/core/helpers.h"
#include "esphome/core/hal.h"
namespace esphome {
namespace ili9341 {
static const char *const TAG = "ili9341";
void ILI9341Display::setup_pins_() {
this->dc_pin_->setup(); // OUTPUT
this->dc_pin_->digital_write(false);
if (this->reset_pin_ != nullptr) {
this->reset_pin_->setup(); // OUTPUT
this->reset_pin_->digital_write(true);
}
if (this->led_pin_ != nullptr) {
this->led_pin_->setup();
this->led_pin_->digital_write(true);
}
this->spi_setup();
this->reset_();
}
void ILI9341Display::dump_config() {
LOG_DISPLAY("", "ili9341", this);
LOG_PIN(" Reset Pin: ", this->reset_pin_);
LOG_PIN(" DC Pin: ", this->dc_pin_);
LOG_PIN(" Busy Pin: ", this->busy_pin_);
LOG_UPDATE_INTERVAL(this);
}
float ILI9341Display::get_setup_priority() const { return setup_priority::HARDWARE; }
void ILI9341Display::command(uint8_t value) {
this->start_command_();
this->write_byte(value);
this->end_command_();
}
void ILI9341Display::reset_() {
if (this->reset_pin_ != nullptr) {
this->reset_pin_->digital_write(false);
delay(10);
this->reset_pin_->digital_write(true);
delay(10);
}
}
void ILI9341Display::data(uint8_t value) {
this->start_data_();
this->write_byte(value);
this->end_data_();
}
void ILI9341Display::send_command(uint8_t command_byte, const uint8_t *data_bytes, uint8_t num_data_bytes) {
this->command(command_byte); // Send the command byte
this->start_data_();
this->write_array(data_bytes, num_data_bytes);
this->end_data_();
}
uint8_t ILI9341Display::read_command(uint8_t command_byte, uint8_t index) {
uint8_t data = 0x10 + index;
this->send_command(0xD9, &data, 1); // Set Index Register
uint8_t result;
this->start_command_();
this->write_byte(command_byte);
this->start_data_();
do {
result = this->read_byte();
} while (index--);
this->end_data_();
return result;
}
void ILI9341Display::update() {
this->do_update_();
this->display_();
}
void ILI9341Display::display_() {
// we will only update the changed window to the display
uint16_t w = this->x_high_ - this->x_low_ + 1;
uint16_t h = this->y_high_ - this->y_low_ + 1;
uint32_t start_pos = ((this->y_low_ * this->width_) + x_low_);
// check if something was displayed
if ((this->x_high_ < this->x_low_) || (this->y_high_ < this->y_low_)) {
return;
}
set_addr_window_(this->x_low_, this->y_low_, w, h);
ESP_LOGVV("ILI9341", "Start ILI9341Display::display_(xl:%d, xh:%d, yl:%d, yh:%d, w:%d, h:%d, start_pos:%d)",
this->x_low_, this->x_high_, this->y_low_, this->y_high_, w, h, start_pos);
this->start_data_();
for (uint16_t row = 0; row < h; row++) {
uint32_t pos = start_pos + (row * width_);
uint32_t rem = w;
while (rem > 0) {
uint32_t sz = buffer_to_transfer_(pos, rem);
this->write_array(transfer_buffer_, 2 * sz);
pos += sz;
rem -= sz;
App.feed_wdt();
}
App.feed_wdt();
}
this->end_data_();
// invalidate watermarks
this->x_low_ = this->width_;
this->y_low_ = this->height_;
this->x_high_ = 0;
this->y_high_ = 0;
}
void ILI9341Display::fill(Color color) {
uint8_t color332 = 0;
if (this->buffer_color_mode_ == BITS_8) {
color332 = display::ColorUtil::color_to_332(color);
} else { // if (this->buffer_color_mode_ == BITS_8_INDEXED)
color332 = display::ColorUtil::color_to_index8_palette888(color, this->palette_);
}
memset(this->buffer_, color332, this->get_buffer_length_());
this->x_low_ = 0;
this->y_low_ = 0;
this->x_high_ = this->get_width_internal() - 1;
this->y_high_ = this->get_height_internal() - 1;
}
void ILI9341Display::fill_internal_(uint8_t color) {
memset(transfer_buffer_, color, sizeof(transfer_buffer_));
uint32_t rem = (this->get_buffer_length_() * 2);
this->set_addr_window_(0, 0, this->get_width_internal(), this->get_height_internal());
this->start_data_();
while (rem > 0) {
size_t sz = rem <= sizeof(transfer_buffer_) ? rem : sizeof(transfer_buffer_);
this->write_array(transfer_buffer_, sz);
rem -= sz;
}
this->end_data_();
memset(buffer_, color, this->get_buffer_length_());
}
void ILI9341Display::rotate_my_(uint8_t m) {
uint8_t rotation = m & 3; // can't be higher than 3
switch (rotation) {
case 0:
m = (MADCTL_MX | MADCTL_BGR);
// _width = ILI9341_TFTWIDTH;
// _height = ILI9341_TFTHEIGHT;
break;
case 1:
m = (MADCTL_MV | MADCTL_BGR);
// _width = ILI9341_TFTHEIGHT;
// _height = ILI9341_TFTWIDTH;
break;
case 2:
m = (MADCTL_MY | MADCTL_BGR);
// _width = ILI9341_TFTWIDTH;
// _height = ILI9341_TFTHEIGHT;
break;
case 3:
m = (MADCTL_MX | MADCTL_MY | MADCTL_MV | MADCTL_BGR);
// _width = ILI9341_TFTHEIGHT;
// _height = ILI9341_TFTWIDTH;
break;
}
this->command(ILI9341_MADCTL);
this->data(m);
}
void HOT ILI9341Display::draw_absolute_pixel_internal(int x, int y, Color color) {
if (x >= this->get_width_internal() || x < 0 || y >= this->get_height_internal() || y < 0)
return;
uint32_t pos = (y * width_) + x;
uint8_t new_color;
if (this->buffer_color_mode_ == BITS_8) {
new_color = display::ColorUtil::color_to_332(color, display::ColorOrder::COLOR_ORDER_RGB);
} else { // if (this->buffer_color_mode_ == BITS_8_INDEXED) {
new_color = display::ColorUtil::color_to_index8_palette888(color, this->palette_);
}
if (buffer_[pos] != new_color) {
buffer_[pos] = new_color;
// low and high watermark may speed up drawing from buffer
this->x_low_ = (x < this->x_low_) ? x : this->x_low_;
this->y_low_ = (y < this->y_low_) ? y : this->y_low_;
this->x_high_ = (x > this->x_high_) ? x : this->x_high_;
this->y_high_ = (y > this->y_high_) ? y : this->y_high_;
}
}
// should return the total size: return this->get_width_internal() * this->get_height_internal() * 2 // 16bit color
// values per bit is huge
uint32_t ILI9341Display::get_buffer_length_() { return this->get_width_internal() * this->get_height_internal(); }
void ILI9341Display::start_command_() {
this->dc_pin_->digital_write(false);
this->enable();
}
void ILI9341Display::end_command_() { this->disable(); }
void ILI9341Display::start_data_() {
this->dc_pin_->digital_write(true);
this->enable();
}
void ILI9341Display::end_data_() { this->disable(); }
void ILI9341Display::init_lcd_(const uint8_t *init_cmd) {
uint8_t cmd, x, num_args;
const uint8_t *addr = init_cmd;
while ((cmd = progmem_read_byte(addr++)) > 0) {
x = progmem_read_byte(addr++);
num_args = x & 0x7F;
send_command(cmd, addr, num_args);
addr += num_args;
if (x & 0x80)
delay(150); // NOLINT
}
}
void ILI9341Display::set_addr_window_(uint16_t x1, uint16_t y1, uint16_t w, uint16_t h) {
uint16_t x2 = (x1 + w - 1), y2 = (y1 + h - 1);
this->command(ILI9341_CASET); // Column address set
this->start_data_();
this->write_byte(x1 >> 8);
this->write_byte(x1);
this->write_byte(x2 >> 8);
this->write_byte(x2);
this->end_data_();
this->command(ILI9341_PASET); // Row address set
this->start_data_();
this->write_byte(y1 >> 8);
this->write_byte(y1);
this->write_byte(y2 >> 8);
this->write_byte(y2);
this->end_data_();
this->command(ILI9341_RAMWR); // Write to RAM
}
void ILI9341Display::invert_display_(bool invert) { this->command(invert ? ILI9341_INVON : ILI9341_INVOFF); }
int ILI9341Display::get_width_internal() { return this->width_; }
int ILI9341Display::get_height_internal() { return this->height_; }
uint32_t ILI9341Display::buffer_to_transfer_(uint32_t pos, uint32_t sz) {
uint8_t *src = buffer_ + pos;
uint8_t *dst = transfer_buffer_;
if (sz > sizeof(transfer_buffer_) / 2) {
sz = sizeof(transfer_buffer_) / 2;
}
for (uint32_t i = 0; i < sz; ++i) {
uint16_t color;
if (this->buffer_color_mode_ == BITS_8) {
color = display::ColorUtil::color_to_565(display::ColorUtil::rgb332_to_color(*src++));
} else { // if (this->buffer_color_mode == BITS_8_INDEXED) {
Color col = display::ColorUtil::index8_to_color_palette888(*src++, this->palette_);
color = display::ColorUtil::color_to_565(col);
}
*dst++ = (uint8_t)(color >> 8);
*dst++ = (uint8_t) color;
}
return sz;
}
// M5Stack display
void ILI9341M5Stack::initialize() {
this->init_lcd_(INITCMD_M5STACK);
this->width_ = 320;
this->height_ = 240;
this->invert_display_(true);
}
// 24_TFT display
void ILI9341TFT24::initialize() {
this->init_lcd_(INITCMD_TFT);
this->width_ = 240;
this->height_ = 320;
}
// 24_TFT rotated display
void ILI9341TFT24R::initialize() {
this->init_lcd_(INITCMD_TFT);
this->width_ = 320;
this->height_ = 240;
}
} // namespace ili9341
} // namespace esphome

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@ -1,70 +0,0 @@
#pragma once
#include "esphome/core/helpers.h"
namespace esphome {
namespace ili9341 {
// clang-format off
static const uint8_t PROGMEM INITCMD_M5STACK[] = {
0xEF, 3, 0x03, 0x80, 0x02,
0xCF, 3, 0x00, 0xC1, 0x30,
0xED, 4, 0x64, 0x03, 0x12, 0x81,
0xE8, 3, 0x85, 0x00, 0x78,
0xCB, 5, 0x39, 0x2C, 0x00, 0x34, 0x02,
0xF7, 1, 0x20,
0xEA, 2, 0x00, 0x00,
ILI9341_PWCTR1 , 1, 0x23, // Power control VRH[5:0]
ILI9341_PWCTR2 , 1, 0x10, // Power control SAP[2:0];BT[3:0]
ILI9341_VMCTR1 , 2, 0x3e, 0x28, // VCM control
ILI9341_VMCTR2 , 1, 0x86, // VCM control2
ILI9341_MADCTL , 1, MADCTL_BGR, // Memory Access Control
ILI9341_VSCRSADD, 1, 0x00, // Vertical scroll zero
ILI9341_PIXFMT , 1, 0x55,
ILI9341_FRMCTR1 , 2, 0x00, 0x13,
ILI9341_DFUNCTR , 3, 0x08, 0x82, 0x27, // Display Function Control
0xF2, 1, 0x00, // 3Gamma Function Disable
ILI9341_GAMMASET , 1, 0x01, // Gamma curve selected
ILI9341_GMCTRP1 , 15, 0x0F, 0x31, 0x2B, 0x0C, 0x0E, 0x08, // Set Gamma
0x4E, 0xF1, 0x37, 0x07, 0x10, 0x03,
0x0E, 0x09, 0x00,
ILI9341_GMCTRN1 , 15, 0x00, 0x0E, 0x14, 0x03, 0x11, 0x07, // Set Gamma
0x31, 0xC1, 0x48, 0x08, 0x0F, 0x0C,
0x31, 0x36, 0x0F,
ILI9341_SLPOUT , 0x80, // Exit Sleep
ILI9341_DISPON , 0x80, // Display on
0x00 // End of list
};
static const uint8_t PROGMEM INITCMD_TFT[] = {
0xEF, 3, 0x03, 0x80, 0x02,
0xCF, 3, 0x00, 0xC1, 0x30,
0xED, 4, 0x64, 0x03, 0x12, 0x81,
0xE8, 3, 0x85, 0x00, 0x78,
0xCB, 5, 0x39, 0x2C, 0x00, 0x34, 0x02,
0xF7, 1, 0x20,
0xEA, 2, 0x00, 0x00,
ILI9341_PWCTR1 , 1, 0x23, // Power control VRH[5:0]
ILI9341_PWCTR2 , 1, 0x10, // Power control SAP[2:0];BT[3:0]
ILI9341_VMCTR1 , 2, 0x3e, 0x28, // VCM control
ILI9341_VMCTR2 , 1, 0x86, // VCM control2
ILI9341_MADCTL , 1, 0x48, // Memory Access Control
ILI9341_VSCRSADD, 1, 0x00, // Vertical scroll zero
ILI9341_PIXFMT , 1, 0x55,
ILI9341_FRMCTR1 , 2, 0x00, 0x18,
ILI9341_DFUNCTR , 3, 0x08, 0x82, 0x27, // Display Function Control
0xF2, 1, 0x00, // 3Gamma Function Disable
ILI9341_GAMMASET , 1, 0x01, // Gamma curve selected
ILI9341_GMCTRP1 , 15, 0x0F, 0x31, 0x2B, 0x0C, 0x0E, 0x08, // Set Gamma
0x4E, 0xF1, 0x37, 0x07, 0x10, 0x03,
0x0E, 0x09, 0x00,
ILI9341_GMCTRN1 , 15, 0x00, 0x0E, 0x14, 0x03, 0x11, 0x07, // Set Gamma
0x31, 0xC1, 0x48, 0x08, 0x0F, 0x0C,
0x31, 0x36, 0x0F,
ILI9341_SLPOUT , 0x80, // Exit Sleep
ILI9341_DISPON , 0x80, // Display on
0x00 // End of list
};
// clang-format on
} // namespace ili9341
} // namespace esphome

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import esphome.codegen as cg
import esphome.config_validation as cv
from esphome import core, pins
from esphome.components import display, spi
from esphome.core import CORE, HexInt
from esphome.const import (
CONF_COLOR_PALETTE,
CONF_DC_PIN,
CONF_ID,
CONF_LAMBDA,
CONF_MODEL,
CONF_RAW_DATA_ID,
CONF_PAGES,
CONF_RESET_PIN,
CONF_DIMENSIONS,
)
DEPENDENCIES = ["spi"]
def AUTO_LOAD():
if CORE.is_esp32:
return ["psram"]
return []
CODEOWNERS = ["@nielsnl68"]
ili9XXX_ns = cg.esphome_ns.namespace("ili9xxx")
ili9XXXSPI = ili9XXX_ns.class_(
"ILI9XXXDisplay", cg.PollingComponent, spi.SPIDevice, display.DisplayBuffer
)
ILI9XXXColorMode = ili9XXX_ns.enum("ILI9XXXColorMode")
MODELS = {
"M5STACK": ili9XXX_ns.class_("ILI9XXXM5Stack", ili9XXXSPI),
"M5CORE": ili9XXX_ns.class_("ILI9XXXM5CORE", ili9XXXSPI),
"TFT_2.4": ili9XXX_ns.class_("ILI9XXXILI9341", ili9XXXSPI),
"TFT_2.4R": ili9XXX_ns.class_("ILI9XXXILI9342", ili9XXXSPI),
"ILI9341": ili9XXX_ns.class_("ILI9XXXILI9341", ili9XXXSPI),
"ILI9342": ili9XXX_ns.class_("ILI9XXXILI9342", ili9XXXSPI),
"ILI9481": ili9XXX_ns.class_("ILI9XXXILI9481", ili9XXXSPI),
"ILI9486": ili9XXX_ns.class_("ILI9XXXILI9486", ili9XXXSPI),
"ILI9488": ili9XXX_ns.class_("ILI9XXXILI9488", ili9XXXSPI),
"ST7796": ili9XXX_ns.class_("ILI9XXXST7796", ili9XXXSPI),
}
COLOR_PALETTE = cv.one_of("NONE", "GRAYSCALE", "IMAGE_ADAPTIVE")
CONF_LED_PIN = "led_pin"
CONF_COLOR_PALETTE_IMAGES = "color_palette_images"
def _validate(config):
if config.get(CONF_COLOR_PALETTE) == "IMAGE_ADAPTIVE" and not config.get(
CONF_COLOR_PALETTE_IMAGES
):
raise cv.Invalid(
"Color palette in IMAGE_ADAPTIVE mode requires at least one 'color_palette_images' entry to generate palette"
)
if (
config.get(CONF_COLOR_PALETTE_IMAGES)
and config.get(CONF_COLOR_PALETTE) != "IMAGE_ADAPTIVE"
):
raise cv.Invalid(
"Providing color palette images requires palette mode to be 'IMAGE_ADAPTIVE'"
)
if CORE.is_esp8266 and config.get(CONF_MODEL) not in [
"M5STACK",
"TFT_2.4",
"TFT_2.4R",
"ILI9341",
"ILI9342",
]:
raise cv.Invalid(
"Provided model can't run on ESP8266. Use an ESP32 with PSRAM onboard"
)
return config
CONFIG_SCHEMA = cv.All(
display.FULL_DISPLAY_SCHEMA.extend(
{
cv.GenerateID(): cv.declare_id(ili9XXXSPI),
cv.Required(CONF_MODEL): cv.enum(MODELS, upper=True, space="_"),
cv.Optional(CONF_DIMENSIONS): cv.dimensions,
cv.Required(CONF_DC_PIN): pins.gpio_output_pin_schema,
cv.Optional(CONF_RESET_PIN): pins.gpio_output_pin_schema,
cv.Optional(CONF_LED_PIN): cv.invalid(
"This property is removed. To use the backlight use proper light component."
),
cv.Optional(CONF_COLOR_PALETTE, default="NONE"): COLOR_PALETTE,
cv.GenerateID(CONF_RAW_DATA_ID): cv.declare_id(cg.uint8),
cv.Optional(CONF_COLOR_PALETTE_IMAGES, default=[]): cv.ensure_list(
cv.file_
),
}
)
.extend(cv.polling_component_schema("1s"))
.extend(spi.spi_device_schema(False)),
cv.has_at_most_one_key(CONF_PAGES, CONF_LAMBDA),
_validate,
)
async def to_code(config):
rhs = MODELS[config[CONF_MODEL]].new()
var = cg.Pvariable(config[CONF_ID], rhs)
await cg.register_component(var, config)
await display.register_display(var, config)
await spi.register_spi_device(var, config)
dc = await cg.gpio_pin_expression(config[CONF_DC_PIN])
cg.add(var.set_dc_pin(dc))
if CONF_LAMBDA in config:
lambda_ = await cg.process_lambda(
config[CONF_LAMBDA], [(display.DisplayBufferRef, "it")], return_type=cg.void
)
cg.add(var.set_writer(lambda_))
if CONF_RESET_PIN in config:
reset = await cg.gpio_pin_expression(config[CONF_RESET_PIN])
cg.add(var.set_reset_pin(reset))
if CONF_DIMENSIONS in config:
cg.add(
var.set_dimentions(config[CONF_DIMENSIONS][0], config[CONF_DIMENSIONS][1])
)
rhs = None
if config[CONF_COLOR_PALETTE] == "GRAYSCALE":
cg.add(var.set_buffer_color_mode(ILI9XXXColorMode.BITS_8_INDEXED))
rhs = []
for x in range(256):
rhs.extend([HexInt(x), HexInt(x), HexInt(x)])
prog_arr = cg.progmem_array(config[CONF_RAW_DATA_ID], rhs)
cg.add(var.set_palette(prog_arr))
elif config[CONF_COLOR_PALETTE] == "IMAGE_ADAPTIVE":
cg.add(var.set_buffer_color_mode(ILI9XXXColorMode.BITS_8_INDEXED))
from PIL import Image
def load_image(filename):
path = CORE.relative_config_path(filename)
try:
return Image.open(path)
except Exception as e:
raise core.EsphomeError(f"Could not load image file {path}: {e}")
# make a wide horizontal combined image.
images = [load_image(x) for x in config[CONF_COLOR_PALETTE_IMAGES]]
total_width = sum(i.width for i in images)
max_height = max(i.height for i in images)
ref_image = Image.new("RGB", (total_width, max_height))
x = 0
for i in images:
ref_image.paste(i, (x, 0))
x = x + i.width
# reduce the colors on combined image to 256.
converted = ref_image.convert("P", palette=Image.ADAPTIVE, colors=256)
# if you want to verify how the images look use
# ref_image.save("ref_in.png")
# converted.save("ref_out.png")
palette = converted.getpalette()
assert len(palette) == 256 * 3
rhs = palette
else:
cg.add(var.set_buffer_color_mode(ILI9XXXColorMode.BITS_16))
if rhs is not None:
prog_arr = cg.progmem_array(config[CONF_RAW_DATA_ID], rhs)
cg.add(var.set_palette(prog_arr))

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#pragma once
namespace esphome {
namespace ili9xxx {
// Color definitions
// clang-format off
static const uint8_t MADCTL_MY = 0x80; ///< Bit 7 Bottom to top
static const uint8_t MADCTL_MX = 0x40; ///< Bit 6 Right to left
static const uint8_t MADCTL_MV = 0x20; ///< Bit 5 Reverse Mode
static const uint8_t MADCTL_ML = 0x10; ///< Bit 4 LCD refresh Bottom to top
static const uint8_t MADCTL_RGB = 0x00; ///< Bit 3 Red-Green-Blue pixel order
static const uint8_t MADCTL_BGR = 0x08; ///< Bit 3 Blue-Green-Red pixel order
static const uint8_t MADCTL_MH = 0x04; ///< Bit 2 LCD refresh right to left
// clang-format on
// All ILI9XXX specific commands some are used by init()
static const uint8_t ILI9XXX_NOP = 0x00;
static const uint8_t ILI9XXX_SWRESET = 0x01;
static const uint8_t ILI9XXX_RDDID = 0x04;
static const uint8_t ILI9XXX_RDDST = 0x09;
static const uint8_t ILI9XXX_SLPIN = 0x10;
static const uint8_t ILI9XXX_SLPOUT = 0x11;
static const uint8_t ILI9XXX_PTLON = 0x12;
static const uint8_t ILI9XXX_NORON = 0x13;
static const uint8_t ILI9XXX_RDMODE = 0x0A;
static const uint8_t ILI9XXX_RDMADCTL = 0x0B;
static const uint8_t ILI9XXX_RDPIXFMT = 0x0C;
static const uint8_t ILI9XXX_RDIMGFMT = 0x0D;
static const uint8_t ILI9XXX_RDSELFDIAG = 0x0F;
static const uint8_t ILI9XXX_INVOFF = 0x20;
static const uint8_t ILI9XXX_INVON = 0x21;
static const uint8_t ILI9XXX_GAMMASET = 0x26;
static const uint8_t ILI9XXX_DISPOFF = 0x28;
static const uint8_t ILI9XXX_DISPON = 0x29;
static const uint8_t ILI9XXX_CASET = 0x2A;
static const uint8_t ILI9XXX_PASET = 0x2B;
static const uint8_t ILI9XXX_RAMWR = 0x2C;
static const uint8_t ILI9XXX_RAMRD = 0x2E;
static const uint8_t ILI9XXX_PTLAR = 0x30;
static const uint8_t ILI9XXX_VSCRDEF = 0x33;
static const uint8_t ILI9XXX_MADCTL = 0x36;
static const uint8_t ILI9XXX_VSCRSADD = 0x37;
static const uint8_t ILI9XXX_IDMOFF = 0x38;
static const uint8_t ILI9XXX_IDMON = 0x39;
static const uint8_t ILI9XXX_PIXFMT = 0x3A;
static const uint8_t ILI9XXX_COLMOD = 0x3A;
static const uint8_t ILI9XXX_GETSCANLINE = 0x45;
static const uint8_t ILI9XXX_WRDISBV = 0x51;
static const uint8_t ILI9XXX_RDDISBV = 0x52;
static const uint8_t ILI9XXX_WRCTRLD = 0x53;
static const uint8_t ILI9XXX_IFMODE = 0xB0;
static const uint8_t ILI9XXX_FRMCTR1 = 0xB1;
static const uint8_t ILI9XXX_FRMCTR2 = 0xB2;
static const uint8_t ILI9XXX_FRMCTR3 = 0xB3;
static const uint8_t ILI9XXX_INVCTR = 0xB4;
static const uint8_t ILI9XXX_DFUNCTR = 0xB6;
static const uint8_t ILI9XXX_ETMOD = 0xB7;
static const uint8_t ILI9XXX_PWCTR1 = 0xC0;
static const uint8_t ILI9XXX_PWCTR2 = 0xC1;
static const uint8_t ILI9XXX_PWCTR3 = 0xC2;
static const uint8_t ILI9XXX_PWCTR4 = 0xC3;
static const uint8_t ILI9XXX_PWCTR5 = 0xC4;
static const uint8_t ILI9XXX_VMCTR1 = 0xC5;
static const uint8_t ILI9XXX_IFCTR = 0xC6;
static const uint8_t ILI9XXX_VMCTR2 = 0xC7;
static const uint8_t ILI9XXX_GMCTR = 0xC8;
static const uint8_t ILI9XXX_SETEXTC = 0xC8;
static const uint8_t ILI9XXX_PWSET = 0xD0;
static const uint8_t ILI9XXX_VMCTR = 0xD1;
static const uint8_t ILI9XXX_PWSETN = 0xD2;
static const uint8_t ILI9XXX_RDID4 = 0xD3;
static const uint8_t ILI9XXX_RDINDEX = 0xD9;
static const uint8_t ILI9XXX_RDID1 = 0xDA;
static const uint8_t ILI9XXX_RDID2 = 0xDB;
static const uint8_t ILI9XXX_RDID3 = 0xDC;
static const uint8_t ILI9XXX_RDIDX = 0xDD; // TBC
static const uint8_t ILI9XXX_GMCTRP1 = 0xE0;
static const uint8_t ILI9XXX_GMCTRN1 = 0xE1;
static const uint8_t ILI9XXX_CSCON = 0xF0;
static const uint8_t ILI9XXX_ADJCTL3 = 0xF7;
} // namespace ili9xxx
} // namespace esphome

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#include "ili9xxx_display.h"
#include "esphome/core/log.h"
#include "esphome/core/application.h"
#include "esphome/core/helpers.h"
#include "esphome/core/hal.h"
namespace esphome {
namespace ili9xxx {
static const char *const TAG = "ili9xxx";
void ILI9XXXDisplay::setup() {
this->setup_pins_();
this->initialize();
this->x_low_ = this->width_;
this->y_low_ = this->height_;
this->x_high_ = 0;
this->y_high_ = 0;
if (this->buffer_color_mode_ == BITS_16) {
this->init_internal_(this->get_buffer_length_() * 2);
if (this->buffer_ != nullptr) {
return;
}
this->buffer_color_mode_ = BITS_8;
}
this->init_internal_(this->get_buffer_length_());
if (this->buffer_ == nullptr) {
this->mark_failed();
}
}
void ILI9XXXDisplay::setup_pins_() {
this->dc_pin_->setup(); // OUTPUT
this->dc_pin_->digital_write(false);
if (this->reset_pin_ != nullptr) {
this->reset_pin_->setup(); // OUTPUT
this->reset_pin_->digital_write(true);
}
this->spi_setup();
this->reset_();
}
void ILI9XXXDisplay::dump_config() {
LOG_DISPLAY("", "ili9xxx", this);
switch (this->buffer_color_mode_) {
case BITS_8_INDEXED:
ESP_LOGCONFIG(TAG, " Color mode: 8bit Indexed");
break;
case BITS_16:
ESP_LOGCONFIG(TAG, " Color mode: 16bit");
break;
default:
ESP_LOGCONFIG(TAG, " Color mode: 8bit 332 mode");
break;
}
if (this->is_18bitdisplay_) {
ESP_LOGCONFIG(TAG, " 18-Bit Mode: YES");
}
LOG_PIN(" Reset Pin: ", this->reset_pin_);
LOG_PIN(" DC Pin: ", this->dc_pin_);
LOG_PIN(" Busy Pin: ", this->busy_pin_);
if (this->is_failed()) {
ESP_LOGCONFIG(TAG, " => Failed to init Memory: YES!");
}
LOG_UPDATE_INTERVAL(this);
}
float ILI9XXXDisplay::get_setup_priority() const { return setup_priority::HARDWARE; }
void ILI9XXXDisplay::fill(Color color) {
uint16_t new_color = 0;
this->x_low_ = 0;
this->y_low_ = 0;
this->x_high_ = this->get_width_internal() - 1;
this->y_high_ = this->get_height_internal() - 1;
switch (this->buffer_color_mode_) {
case BITS_8_INDEXED:
new_color = display::ColorUtil::color_to_index8_palette888(color, this->palette_);
break;
case BITS_16:
new_color = display::ColorUtil::color_to_565(color);
for (uint32_t i = 0; i < this->get_buffer_length_() * 2; i = i + 2) {
this->buffer_[i] = (uint8_t)(new_color >> 8);
this->buffer_[i + 1] = (uint8_t) new_color;
}
return;
break;
default:
new_color = display::ColorUtil::color_to_332(color, display::ColorOrder::COLOR_ORDER_RGB);
break;
}
memset(this->buffer_, (uint8_t) new_color, this->get_buffer_length_());
}
void HOT ILI9XXXDisplay::draw_absolute_pixel_internal(int x, int y, Color color) {
if (x >= this->get_width_internal() || x < 0 || y >= this->get_height_internal() || y < 0) {
return;
}
uint32_t pos = (y * width_) + x;
uint16_t new_color;
bool updated = false;
switch (this->buffer_color_mode_) {
case BITS_8_INDEXED:
new_color = display::ColorUtil::color_to_index8_palette888(color, this->palette_);
break;
case BITS_16:
pos = pos * 2;
new_color = display::ColorUtil::color_to_565(color, display::ColorOrder::COLOR_ORDER_RGB);
if (this->buffer_[pos] != (uint8_t)(new_color >> 8)) {
this->buffer_[pos] = (uint8_t)(new_color >> 8);
updated = true;
}
pos = pos + 1;
new_color = new_color & 0xFF;
break;
default:
new_color = display::ColorUtil::color_to_332(color, display::ColorOrder::COLOR_ORDER_RGB);
break;
}
if (this->buffer_[pos] != new_color) {
this->buffer_[pos] = new_color;
updated = true;
}
if (updated) {
// low and high watermark may speed up drawing from buffer
this->x_low_ = (x < this->x_low_) ? x : this->x_low_;
this->y_low_ = (y < this->y_low_) ? y : this->y_low_;
this->x_high_ = (x > this->x_high_) ? x : this->x_high_;
this->y_high_ = (y > this->y_high_) ? y : this->y_high_;
// ESP_LOGVV(TAG, "=>>> pixel (x:%d, y:%d) (xl:%d, xh:%d, yl:%d, yh:%d", x, y, this->x_low_, this->x_high_,
// this->y_low_, this->y_high_);
}
}
void ILI9XXXDisplay::update() {
if (this->prossing_update_) {
this->need_update_ = true;
return;
}
do {
this->prossing_update_ = true;
this->need_update_ = false;
if (!this->need_update_) {
this->do_update_();
}
} while (this->need_update_);
this->prossing_update_ = false;
this->display_();
}
void ILI9XXXDisplay::display_() {
// we will only update the changed window to the display
uint16_t w = this->x_high_ - this->x_low_ + 1; // NOLINT
uint16_t h = this->y_high_ - this->y_low_ + 1; // NOLINT
uint32_t start_pos = ((this->y_low_ * this->width_) + x_low_);
// check if something was displayed
if ((this->x_high_ < this->x_low_) || (this->y_high_ < this->y_low_)) {
ESP_LOGV(TAG, "Nothing to display");
return;
}
set_addr_window_(this->x_low_, this->y_low_, w, h);
ESP_LOGV(TAG,
"Start display(xlow:%d, ylow:%d, xhigh:%d, yhigh:%d, width:%d, "
"heigth:%d, start_pos:%d)",
this->x_low_, this->y_low_, this->x_high_, this->y_high_, w, h, start_pos);
this->start_data_();
for (uint16_t row = 0; row < h; row++) {
uint32_t pos = start_pos + (row * width_);
uint32_t rem = w;
while (rem > 0) {
uint32_t sz = std::min(rem, ILI9XXX_TRANSFER_BUFFER_SIZE);
// ESP_LOGVV(TAG, "Send to display(pos:%d, rem:%d, zs:%d)", pos, rem, sz);
buffer_to_transfer_(pos, sz);
if (this->is_18bitdisplay_) {
for (uint32_t i = 0; i < sz; ++i) {
uint16_t color_val = transfer_buffer_[i];
uint8_t red = color_val & 0x1F;
uint8_t green = (color_val & 0x7E0) >> 5;
uint8_t blue = (color_val & 0xF800) >> 11;
uint8_t pass_buff[3];
pass_buff[2] = (uint8_t)((red / 32.0) * 64) << 2;
pass_buff[1] = (uint8_t) green << 2;
pass_buff[0] = (uint8_t)((blue / 32.0) * 64) << 2;
this->write_array(pass_buff, sizeof(pass_buff));
}
} else {
this->write_array16(transfer_buffer_, sz);
}
pos += sz;
rem -= sz;
}
App.feed_wdt();
}
this->end_data_();
// invalidate watermarks
this->x_low_ = this->width_;
this->y_low_ = this->height_;
this->x_high_ = 0;
this->y_high_ = 0;
}
uint32_t ILI9XXXDisplay::buffer_to_transfer_(uint32_t pos, uint32_t sz) {
for (uint32_t i = 0; i < sz; ++i) {
switch (this->buffer_color_mode_) {
case BITS_8_INDEXED:
transfer_buffer_[i] = display::ColorUtil::color_to_565(
display::ColorUtil::index8_to_color_palette888(this->buffer_[pos + i], this->palette_));
break;
case BITS_16:
transfer_buffer_[i] = ((uint16_t) this->buffer_[(pos + i) * 2] << 8) | this->buffer_[((pos + i) * 2) + 1];
continue;
break;
default:
transfer_buffer_[i] =
display::ColorUtil::color_to_565(display::ColorUtil::rgb332_to_color(this->buffer_[pos + i]));
break;
}
}
return sz;
}
// should return the total size: return this->get_width_internal() * this->get_height_internal() * 2 // 16bit color
// values per bit is huge
uint32_t ILI9XXXDisplay::get_buffer_length_() { return this->get_width_internal() * this->get_height_internal(); }
void ILI9XXXDisplay::command(uint8_t value) {
this->start_command_();
this->write_byte(value);
this->end_command_();
}
void ILI9XXXDisplay::data(uint8_t value) {
this->start_data_();
this->write_byte(value);
this->end_data_();
}
void ILI9XXXDisplay::send_command(uint8_t command_byte, const uint8_t *data_bytes, uint8_t num_data_bytes) {
this->command(command_byte); // Send the command byte
this->start_data_();
this->write_array(data_bytes, num_data_bytes);
this->end_data_();
}
uint8_t ILI9XXXDisplay::read_command(uint8_t command_byte, uint8_t index) {
uint8_t data = 0x10 + index;
this->send_command(0xD9, &data, 1); // Set Index Register
uint8_t result;
this->start_command_();
this->write_byte(command_byte);
this->start_data_();
do {
result = this->read_byte();
} while (index--);
this->end_data_();
return result;
}
void ILI9XXXDisplay::start_command_() {
this->dc_pin_->digital_write(false);
this->enable();
}
void ILI9XXXDisplay::start_data_() {
this->dc_pin_->digital_write(true);
this->enable();
}
void ILI9XXXDisplay::end_command_() { this->disable(); }
void ILI9XXXDisplay::end_data_() { this->disable(); }
void ILI9XXXDisplay::reset_() {
if (this->reset_pin_ != nullptr) {
this->reset_pin_->digital_write(false);
delay(10);
this->reset_pin_->digital_write(true);
delay(10);
}
}
void ILI9XXXDisplay::init_lcd_(const uint8_t *init_cmd) {
uint8_t cmd, x, num_args;
const uint8_t *addr = init_cmd;
while ((cmd = progmem_read_byte(addr++)) > 0) {
x = progmem_read_byte(addr++);
num_args = x & 0x7F;
send_command(cmd, addr, num_args);
addr += num_args;
if (x & 0x80)
delay(150); // NOLINT
}
}
void ILI9XXXDisplay::set_addr_window_(uint16_t x1, uint16_t y1, uint16_t w, uint16_t h) {
uint16_t x2 = (x1 + w - 1), y2 = (y1 + h - 1);
this->command(ILI9XXX_CASET); // Column address set
this->start_data_();
this->write_byte(x1 >> 8);
this->write_byte(x1);
this->write_byte(x2 >> 8);
this->write_byte(x2);
this->end_data_();
this->command(ILI9XXX_PASET); // Row address set
this->start_data_();
this->write_byte(y1 >> 8);
this->write_byte(y1);
this->write_byte(y2 >> 8);
this->write_byte(y2);
this->end_data_();
this->command(ILI9XXX_RAMWR); // Write to RAM
}
void ILI9XXXDisplay::invert_display_(bool invert) { this->command(invert ? ILI9XXX_INVON : ILI9XXX_INVOFF); }
int ILI9XXXDisplay::get_width_internal() { return this->width_; }
int ILI9XXXDisplay::get_height_internal() { return this->height_; }
// M5Stack display
void ILI9XXXM5Stack::initialize() {
this->init_lcd_(INITCMD_M5STACK);
if (this->width_ == 0)
this->width_ = 320;
if (this->height_ == 0)
this->height_ = 240;
this->invert_display_(true);
}
// M5CORE display // Based on the configuration settings of M5stact's M5GFX code.
void ILI9XXXM5CORE::initialize() {
this->init_lcd_(INITCMD_M5CORE);
if (this->width_ == 0)
this->width_ = 320;
if (this->height_ == 0)
this->height_ = 240;
this->invert_display_(true);
}
// 24_TFT display
void ILI9XXXILI9341::initialize() {
this->init_lcd_(INITCMD_ILI9341);
if (this->width_ == 0)
this->width_ = 240;
if (this->height_ == 0)
this->height_ = 320;
}
// 24_TFT rotated display
void ILI9XXXILI9342::initialize() {
this->init_lcd_(INITCMD_ILI9341);
if (this->width_ == 0) {
this->width_ = 320;
}
if (this->height_ == 0) {
this->height_ = 240;
}
}
// 35_TFT display
void ILI9XXXILI9481::initialize() {
this->init_lcd_(INITCMD_ILI9481);
if (this->width_ == 0) {
this->width_ = 480;
}
if (this->height_ == 0) {
this->height_ = 320;
}
}
// 35_TFT display
void ILI9XXXILI9486::initialize() {
this->init_lcd_(INITCMD_ILI9486);
if (this->width_ == 0) {
this->width_ = 480;
}
if (this->height_ == 0) {
this->height_ = 320;
}
}
// 40_TFT display
void ILI9XXXILI9488::initialize() {
this->init_lcd_(INITCMD_ILI9488);
if (this->width_ == 0) {
this->width_ = 480;
}
if (this->height_ == 0) {
this->height_ = 320;
}
this->is_18bitdisplay_ = true;
}
// 40_TFT display
void ILI9XXXST7796::initialize() {
this->init_lcd_(INITCMD_ST7796);
if (this->width_ == 0) {
this->width_ = 320;
}
if (this->height_ == 0) {
this->height_ = 480;
}
}
} // namespace ili9xxx
} // namespace esphome

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@ -1,27 +1,21 @@
#pragma once #pragma once
#include "esphome/core/component.h"
#include "esphome/components/spi/spi.h" #include "esphome/components/spi/spi.h"
#include "esphome/components/display/display_buffer.h" #include "esphome/components/display/display_buffer.h"
#include "ili9341_defines.h" #include "ili9xxx_defines.h"
#include "ili9341_init.h" #include "ili9xxx_init.h"
#include "esphome/core/log.h"
namespace esphome { namespace esphome {
namespace ili9341 { namespace ili9xxx {
enum ILI9341Model { const uint32_t ILI9XXX_TRANSFER_BUFFER_SIZE = 64;
M5STACK = 0,
TFT_24, enum ILI9XXXColorMode {
TFT_24R, BITS_8 = 0x08,
BITS_8_INDEXED = 0x09,
BITS_16 = 0x10,
}; };
enum ILI9341ColorMode { class ILI9XXXDisplay : public PollingComponent,
BITS_8,
BITS_8_INDEXED,
};
class ILI9341Display : public PollingComponent,
public display::DisplayBuffer, public display::DisplayBuffer,
public spi::SPIDevice<spi::BIT_ORDER_MSB_FIRST, spi::CLOCK_POLARITY_LOW, public spi::SPIDevice<spi::BIT_ORDER_MSB_FIRST, spi::CLOCK_POLARITY_LOW,
spi::CLOCK_PHASE_LEADING, spi::DATA_RATE_40MHZ> { spi::CLOCK_PHASE_LEADING, spi::DATA_RATE_40MHZ> {
@ -29,59 +23,46 @@ class ILI9341Display : public PollingComponent,
void set_dc_pin(GPIOPin *dc_pin) { dc_pin_ = dc_pin; } void set_dc_pin(GPIOPin *dc_pin) { dc_pin_ = dc_pin; }
float get_setup_priority() const override; float get_setup_priority() const override;
void set_reset_pin(GPIOPin *reset) { this->reset_pin_ = reset; } void set_reset_pin(GPIOPin *reset) { this->reset_pin_ = reset; }
void set_led_pin(GPIOPin *led) { this->led_pin_ = led; }
void set_model(ILI9341Model model) { this->model_ = model; }
void set_palette(const uint8_t *palette) { this->palette_ = palette; } void set_palette(const uint8_t *palette) { this->palette_ = palette; }
void set_buffer_color_mode(ILI9341ColorMode color_mode) { this->buffer_color_mode_ = color_mode; } void set_buffer_color_mode(ILI9XXXColorMode color_mode) { this->buffer_color_mode_ = color_mode; }
void set_dimentions(int16_t width, int16_t height) {
this->height_ = height;
this->width_ = width;
}
void command(uint8_t value); void command(uint8_t value);
void data(uint8_t value); void data(uint8_t value);
void send_command(uint8_t command_byte, const uint8_t *data_bytes, uint8_t num_data_bytes); void send_command(uint8_t command_byte, const uint8_t *data_bytes, uint8_t num_data_bytes);
uint8_t read_command(uint8_t command_byte, uint8_t index); uint8_t read_command(uint8_t command_byte, uint8_t index);
virtual void initialize() = 0;
void update() override; void update() override;
void fill(Color color) override; void fill(Color color) override;
void dump_config() override; void dump_config() override;
void setup() override { void setup() override;
this->setup_pins_();
this->initialize();
this->x_low_ = this->width_;
this->y_low_ = this->height_;
this->x_high_ = 0;
this->y_high_ = 0;
this->init_internal_(this->get_buffer_length_());
this->fill_internal_(0x00);
}
display::DisplayType get_display_type() override { return display::DisplayType::DISPLAY_TYPE_COLOR; } display::DisplayType get_display_type() override { return display::DisplayType::DISPLAY_TYPE_COLOR; }
protected: protected:
void draw_absolute_pixel_internal(int x, int y, Color color) override; void draw_absolute_pixel_internal(int x, int y, Color color) override;
void setup_pins_(); void setup_pins_();
virtual void initialize() = 0;
void display_();
void init_lcd_(const uint8_t *init_cmd); void init_lcd_(const uint8_t *init_cmd);
void set_addr_window_(uint16_t x, uint16_t y, uint16_t w, uint16_t h); void set_addr_window_(uint16_t x, uint16_t y, uint16_t w, uint16_t h);
void invert_display_(bool invert); void invert_display_(bool invert);
void reset_(); void reset_();
void fill_internal_(uint8_t color);
void display_();
void rotate_my_(uint8_t m);
ILI9341Model model_; int16_t width_{0}; ///< Display width as modified by current rotation
int16_t width_{320}; ///< Display width as modified by current rotation int16_t height_{0}; ///< Display height as modified by current rotation
int16_t height_{240}; ///< Display height as modified by current rotation
uint16_t x_low_{0}; uint16_t x_low_{0};
uint16_t y_low_{0}; uint16_t y_low_{0};
uint16_t x_high_{0}; uint16_t x_high_{0};
uint16_t y_high_{0}; uint16_t y_high_{0};
const uint8_t *palette_; const uint8_t *palette_;
ILI9341ColorMode buffer_color_mode_{BITS_8}; ILI9XXXColorMode buffer_color_mode_{BITS_16};
uint32_t get_buffer_length_(); uint32_t get_buffer_length_();
int get_width_internal() override; int get_width_internal() override;
@ -92,33 +73,66 @@ class ILI9341Display : public PollingComponent,
void start_data_(); void start_data_();
void end_data_(); void end_data_();
uint8_t transfer_buffer_[64]; uint16_t transfer_buffer_[ILI9XXX_TRANSFER_BUFFER_SIZE];
uint32_t buffer_to_transfer_(uint32_t pos, uint32_t sz); uint32_t buffer_to_transfer_(uint32_t pos, uint32_t sz);
GPIOPin *reset_pin_{nullptr}; GPIOPin *reset_pin_{nullptr};
GPIOPin *led_pin_{nullptr}; GPIOPin *dc_pin_{nullptr};
GPIOPin *dc_pin_;
GPIOPin *busy_pin_{nullptr}; GPIOPin *busy_pin_{nullptr};
bool prossing_update_ = false;
bool need_update_ = false;
bool is_18bitdisplay_ = false;
}; };
//----------- M5Stack display -------------- //----------- M5Stack display --------------
class ILI9341M5Stack : public ILI9341Display { class ILI9XXXM5Stack : public ILI9XXXDisplay {
public: protected:
void initialize() override; void initialize() override;
}; };
//----------- ILI9341_24_TFT display -------------- //----------- M5Stack display --------------
class ILI9341TFT24 : public ILI9341Display { class ILI9XXXM5CORE : public ILI9XXXDisplay {
public: protected:
void initialize() override; void initialize() override;
}; };
//----------- ILI9341_24_TFT rotated display -------------- //----------- ILI9XXX_24_TFT display --------------
class ILI9341TFT24R : public ILI9341Display { class ILI9XXXILI9341 : public ILI9XXXDisplay {
public: protected:
void initialize() override; void initialize() override;
}; };
} // namespace ili9341 //----------- ILI9XXX_24_TFT rotated display --------------
class ILI9XXXILI9342 : public ILI9XXXDisplay {
protected:
void initialize() override;
};
//----------- ILI9XXX_??_TFT rotated display --------------
class ILI9XXXILI9481 : public ILI9XXXDisplay {
protected:
void initialize() override;
};
//----------- ILI9XXX_35_TFT rotated display --------------
class ILI9XXXILI9486 : public ILI9XXXDisplay {
protected:
void initialize() override;
};
//----------- ILI9XXX_35_TFT rotated display --------------
class ILI9XXXILI9488 : public ILI9XXXDisplay {
protected:
void initialize() override;
};
//----------- ILI9XXX_35_TFT rotated display --------------
class ILI9XXXST7796 : public ILI9XXXDisplay {
protected:
void initialize() override;
};
} // namespace ili9xxx
} // namespace esphome } // namespace esphome

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@ -0,0 +1,174 @@
#pragma once
#include "esphome/core/helpers.h"
namespace esphome {
namespace ili9xxx {
// clang-format off
static const uint8_t PROGMEM INITCMD_M5STACK[] = {
0xEF, 3, 0x03, 0x80, 0x02,
0xCF, 3, 0x00, 0xC1, 0x30,
0xED, 4, 0x64, 0x03, 0x12, 0x81,
0xE8, 3, 0x85, 0x00, 0x78,
0xCB, 5, 0x39, 0x2C, 0x00, 0x34, 0x02,
0xF7, 1, 0x20,
0xEA, 2, 0x00, 0x00,
ILI9XXX_PWCTR1 , 1, 0x23, // Power control VRH[5:0]
ILI9XXX_PWCTR2 , 1, 0x10, // Power control SAP[2:0];BT[3:0]
ILI9XXX_VMCTR1 , 2, 0x3e, 0x28, // VCM control
ILI9XXX_VMCTR2 , 1, 0x86, // VCM control2
ILI9XXX_MADCTL , 1, MADCTL_BGR, // Memory Access Control
ILI9XXX_VSCRSADD, 1, 0x00, // Vertical scroll zero
ILI9XXX_PIXFMT , 1, 0x55,
ILI9XXX_FRMCTR1 , 2, 0x00, 0x13,
ILI9XXX_DFUNCTR , 3, 0x08, 0x82, 0x27, // Display Function Control
0xF2, 1, 0x00, // 3Gamma Function Disable
ILI9XXX_GAMMASET , 1, 0x01, // Gamma curve selected
ILI9XXX_GMCTRP1 , 15, 0x0F, 0x31, 0x2B, 0x0C, 0x0E, 0x08, // Set Gamma
0x4E, 0xF1, 0x37, 0x07, 0x10, 0x03,
0x0E, 0x09, 0x00,
ILI9XXX_GMCTRN1 , 15, 0x00, 0x0E, 0x14, 0x03, 0x11, 0x07, // Set Gamma
0x31, 0xC1, 0x48, 0x08, 0x0F, 0x0C,
0x31, 0x36, 0x0F,
ILI9XXX_SLPOUT , 0x80, // Exit Sleep
ILI9XXX_DISPON , 0x80, // Display on
0x00 // End of list
};
static const uint8_t PROGMEM INITCMD_M5CORE[] = {
ILI9XXX_SETEXTC, 3, 0xFF,0x93,0x42, // Turn on the external command
ILI9XXX_PWCTR1 , 2, 0x12, 0x12,
ILI9XXX_PWCTR2 , 1, 0x03,
ILI9XXX_VMCTR1 , 1, 0xF2,
ILI9XXX_IFMODE , 1, 0xE0,
0xF6 , 3, 0x01, 0x00, 0x00,
ILI9XXX_GMCTRP1,15, 0x00,0x0C,0x11,0x04,0x11,0x08,0x37,0x89,0x4C,0x06,0x0C,0x0A,0x2E,0x34,0x0F,
ILI9XXX_GMCTRN1,15, 0x00,0x0B,0x11,0x05,0x13,0x09,0x33,0x67,0x48,0x07,0x0E,0x0B,0x2E,0x33,0x0F,
ILI9XXX_DFUNCTR, 4, 0x08,0x82,0x1D,0x04,
ILI9XXX_IDMOFF , 0,
ILI9XXX_DISPON , 0x80, // Display on
ILI9XXX_SLPOUT , 0x80, // Exit Sleep
0x00 // End of list
};
static const uint8_t PROGMEM INITCMD_ILI9341[] = {
0xEF, 3, 0x03, 0x80, 0x02,
0xCF, 3, 0x00, 0xC1, 0x30,
0xED, 4, 0x64, 0x03, 0x12, 0x81,
0xE8, 3, 0x85, 0x00, 0x78,
0xCB, 5, 0x39, 0x2C, 0x00, 0x34, 0x02,
0xF7, 1, 0x20,
0xEA, 2, 0x00, 0x00,
ILI9XXX_PWCTR1 , 1, 0x23, // Power control VRH[5:0]
ILI9XXX_PWCTR2 , 1, 0x10, // Power control SAP[2:0];BT[3:0]
ILI9XXX_VMCTR1 , 2, 0x3e, 0x28, // VCM control
ILI9XXX_VMCTR2 , 1, 0x86, // VCM control2
ILI9XXX_MADCTL , 1, 0x48, // Memory Access Control
ILI9XXX_VSCRSADD, 1, 0x00, // Vertical scroll zero
ILI9XXX_PIXFMT , 1, 0x55,
ILI9XXX_FRMCTR1 , 2, 0x00, 0x18,
ILI9XXX_DFUNCTR , 3, 0x08, 0x82, 0x27, // Display Function Control
0xF2, 1, 0x00, // 3Gamma Function Disable
ILI9XXX_GAMMASET , 1, 0x01, // Gamma curve selected
ILI9XXX_GMCTRP1 , 15, 0x0F, 0x31, 0x2B, 0x0C, 0x0E, 0x08, // Set Gamma
0x4E, 0xF1, 0x37, 0x07, 0x10, 0x03,
0x0E, 0x09, 0x00,
ILI9XXX_GMCTRN1 , 15, 0x00, 0x0E, 0x14, 0x03, 0x11, 0x07, // Set Gamma
0x31, 0xC1, 0x48, 0x08, 0x0F, 0x0C,
0x31, 0x36, 0x0F,
ILI9XXX_SLPOUT , 0x80, // Exit Sleep
ILI9XXX_DISPON , 0x80, // Display on
0x00 // End of list
};
static const uint8_t PROGMEM INITCMD_ILI9481[] = {
ILI9XXX_SLPOUT , 0x80, // Exit sleep mode
ILI9XXX_PWSET , 3, 0x07, 0x41, 0x1D,
ILI9XXX_VMCTR , 3, 0x00, 0x1C, 0x1F,
ILI9XXX_PWSETN , 2, 0x01, 0x11,
ILI9XXX_PWCTR1 , 5, 0x10, 0x3B, 0x00, 0x02, 0x11,
ILI9XXX_VMCTR1 , 1, 0x03,
ILI9XXX_IFCTR , 1, 0x83,
ILI9XXX_GMCTR ,12, 0x00, 0x26, 0x21, 0x00, 0x00, 0x1F, 0x65, 0x23, 0x77, 0x00, 0x0F, 0x00,
ILI9XXX_IFMODE , 1, 0x00, // CommandAccessProtect
0xE4 , 1, 0xA0,
ILI9XXX_CSCON , 1, 0x01,
ILI9XXX_DISPON, 0x80, // Set display on
0x00 // end
};
static const uint8_t PROGMEM INITCMD_ILI9486[] = {
ILI9XXX_SLPOUT, 0x80,
ILI9XXX_PIXFMT, 1, 0x55,
ILI9XXX_PWCTR3, 1, 0x44,
ILI9XXX_VMCTR1, 4, 0x00, 0x00, 0x00, 0x00,
ILI9XXX_GMCTRP1, 15, 0x0f,0x1f,0x1c,0x0c,0x0f,0x08,0x48,0x98,0x37,0x0a,0x13,0x04,0x11,0x0d,0x00,
ILI9XXX_GMCTRN1, 15, 0x0f,0x32,0x2e,0x0b,0x0d,0x05,0x47,0x75,0x37,0x06,0x10,0x03,0x24,0x20,0x00,
ILI9XXX_INVOFF, 0x80,
ILI9XXX_MADCTL, 1, 0x48,
ILI9XXX_DISPON, 0x80,
// ILI9XXX_MADCTL, 1, MADCTL_BGR | MADCTL_MV, //hardware rotation
0x00 // End of list
};
static const uint8_t PROGMEM INITCMD_ILI9488[] = {
ILI9XXX_GMCTRP1,15, 0x00, 0x03, 0x09, 0x08, 0x16, 0x0A, 0x3F, 0x78, 0x4C, 0x09, 0x0A, 0x08, 0x16, 0x1A, 0x0F,
ILI9XXX_GMCTRN1,15, 0x00, 0x16, 0x19, 0x03, 0x0F, 0x05, 0x32, 0x45, 0x46, 0x04, 0x0E, 0x0D, 0x35, 0x37, 0x0F,
ILI9XXX_PWCTR1, 2, 0x17, 0x15, // VRH1 VRH2
ILI9XXX_PWCTR2, 1, 0x41, // VGH, VGL
ILI9XXX_VMCTR1, 3, 0x00, 0x12, 0x80, // nVM VCM_REG VCM_REG_EN
ILI9XXX_IFMODE, 1, 0x00,
ILI9XXX_FRMCTR1, 1, 0xA0, // Frame rate = 60Hz
ILI9XXX_INVCTR, 1, 0x02, // Display Inversion Control = 2dot
ILI9XXX_DFUNCTR, 2, 0x02, 0x02, // Nomal scan
0xE9, 1, 0x00, // Set Image Functio. Disable 24 bit data
ILI9XXX_ADJCTL3, 4, 0xA9, 0x51, 0x2C, 0x82, // Adjust Control 3
ILI9XXX_MADCTL, 1, 0x28,
//ILI9XXX_PIXFMT, 1, 0x55, // Interface Pixel Format = 16bit
ILI9XXX_PIXFMT, 1, 0x66, //ILI9488 only supports 18-bit pixel format in 4/3 wire SPI mode
// 5 frames
//ILI9XXX_ETMOD, 1, 0xC6, //
ILI9XXX_SLPOUT, 0x80, // Exit sleep mode
//ILI9XXX_INVON , 0,
ILI9XXX_DISPON, 0x80, // Set display on
0x00 // end
};
static const uint8_t PROGMEM INITCMD_ST7796[] = {
// This ST7796S initilization routine was copied from https://github.com/prenticedavid/Adafruit_ST7796S_kbv/blob/master/Adafruit_ST7796S_kbv.cpp
ILI9XXX_SWRESET, 0x80, // Soft reset, then delay 150 ms
ILI9XXX_CSCON, 1, 0xC3, // ?? Unlock Manufacturer
ILI9XXX_CSCON, 1, 0x96,
ILI9XXX_VMCTR1, 1, 0x1C, //VCOM Control 1 [1C]
ILI9XXX_MADCTL, 1, 0x48, //Memory Access [00]
ILI9XXX_PIXFMT, 1, 0x55, //565
ILI9XXX_IFMODE, 1, 0x80, //Interface [00]
ILI9XXX_INVCTR, 1, 0x01, //Inversion Control [01]
ILI9XXX_DFUNCTR, 3, 0x80, 0x02, 0x3B, // Display Function Control [80 02 3B] .kbv SS=1, NL=480
ILI9XXX_ETMOD, 1, 0xC6, //Entry Mode [06]
ILI9XXX_CSCON, 1, 0x69, //?? lock manufacturer commands
ILI9XXX_CSCON, 1, 0x3C, //
ILI9XXX_SLPOUT, 0x80, // Exit Sleep, then delay 150 ms
ILI9XXX_DISPON, 0x80, // Main screen turn on, delay 150 ms
0x00 // End of list
};
// clang-format on
} // namespace ili9xxx
} // namespace esphome

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@ -48,9 +48,10 @@ def inherit_accuracy_decimals(decimals, config):
return decimals + 2 return decimals + 2
CONFIG_SCHEMA = sensor.SENSOR_SCHEMA.extend( CONFIG_SCHEMA = (
sensor.sensor_schema(IntegrationSensor)
.extend(
{ {
cv.GenerateID(): cv.declare_id(IntegrationSensor),
cv.Required(CONF_SENSOR): cv.use_id(sensor.Sensor), cv.Required(CONF_SENSOR): cv.use_id(sensor.Sensor),
cv.Required(CONF_TIME_UNIT): cv.enum(INTEGRATION_TIMES, lower=True), cv.Required(CONF_TIME_UNIT): cv.enum(INTEGRATION_TIMES, lower=True),
cv.Optional(CONF_INTEGRATION_METHOD, default="trapezoid"): cv.enum( cv.Optional(CONF_INTEGRATION_METHOD, default="trapezoid"): cv.enum(
@ -61,7 +62,9 @@ CONFIG_SCHEMA = sensor.SENSOR_SCHEMA.extend(
"min_save_interval was removed in 2022.8.0. Please use the `preferences` -> `flash_write_interval` to adjust." "min_save_interval was removed in 2022.8.0. Please use the `preferences` -> `flash_write_interval` to adjust."
), ),
} }
).extend(cv.COMPONENT_SCHEMA) )
.extend(cv.COMPONENT_SCHEMA)
)
FINAL_VALIDATE_SCHEMA = cv.All( FINAL_VALIDATE_SCHEMA = cv.All(

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@ -0,0 +1 @@
CODEOWNERS = ["@Mat931"]

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@ -0,0 +1,58 @@
#include "internal_temperature.h"
#include "esphome/core/log.h"
#ifdef USE_ESP32
#if defined(USE_ESP32_VARIANT_ESP32)
// there is no official API available on the original ESP32
extern "C" {
uint8_t temprature_sens_read();
}
#elif defined(USE_ESP32_VARIANT_ESP32C3) || defined(USE_ESP32_VARIANT_ESP32S2) || defined(USE_ESP32_VARIANT_ESP32S3)
#include "driver/temp_sensor.h"
#endif // USE_ESP32_VARIANT
#endif // USE_ESP32
#ifdef USE_RP2040
#include "Arduino.h"
#endif // USE_RP2040
namespace esphome {
namespace internal_temperature {
static const char *const TAG = "internal_temperature";
void InternalTemperatureSensor::update() {
float temperature = NAN;
bool success = false;
#ifdef USE_ESP32
#if defined(USE_ESP32_VARIANT_ESP32)
uint8_t raw = temprature_sens_read();
ESP_LOGV(TAG, "Raw temperature value: %d", raw);
temperature = (raw - 32) / 1.8f;
success = (raw != 128);
#elif defined(USE_ESP32_VARIANT_ESP32C3) || defined(USE_ESP32_VARIANT_ESP32S2) || defined(USE_ESP32_VARIANT_ESP32S3)
temp_sensor_config_t tsens = TSENS_CONFIG_DEFAULT();
temp_sensor_set_config(tsens);
temp_sensor_start();
esp_err_t result = temp_sensor_read_celsius(&temperature);
temp_sensor_stop();
success = (result == ESP_OK);
#endif // USE_ESP32_VARIANT
#endif // USE_ESP32
#ifdef USE_RP2040
temperature = analogReadTemp();
success = (temperature != 0.0f);
#endif // USE_RP2040
if (success && std::isfinite(temperature)) {
this->publish_state(temperature);
} else {
ESP_LOGD(TAG, "Ignoring invalid temperature (success=%d, value=%.1f)", success, temperature);
if (!this->has_state()) {
this->publish_state(NAN);
}
}
}
void InternalTemperatureSensor::dump_config() { LOG_SENSOR("", "Internal Temperature Sensor", this); }
} // namespace internal_temperature
} // namespace esphome

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@ -0,0 +1,17 @@
#pragma once
#include "esphome/core/component.h"
#include "esphome/components/sensor/sensor.h"
namespace esphome {
namespace internal_temperature {
class InternalTemperatureSensor : public sensor::Sensor, public PollingComponent {
public:
void dump_config() override;
void update() override;
};
} // namespace internal_temperature
} // namespace esphome

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@ -0,0 +1,31 @@
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import sensor
from esphome.const import (
STATE_CLASS_MEASUREMENT,
UNIT_CELSIUS,
DEVICE_CLASS_TEMPERATURE,
ENTITY_CATEGORY_DIAGNOSTIC,
)
internal_temperature_ns = cg.esphome_ns.namespace("internal_temperature")
InternalTemperatureSensor = internal_temperature_ns.class_(
"InternalTemperatureSensor", sensor.Sensor, cg.PollingComponent
)
CONFIG_SCHEMA = cv.All(
sensor.sensor_schema(
InternalTemperatureSensor,
unit_of_measurement=UNIT_CELSIUS,
accuracy_decimals=1,
device_class=DEVICE_CLASS_TEMPERATURE,
state_class=STATE_CLASS_MEASUREMENT,
entity_category=ENTITY_CATEGORY_DIAGNOSTIC,
).extend(cv.polling_component_schema("60s")),
cv.only_on(["esp32", "rp2040"]),
)
async def to_code(config):
var = await sensor.new_sensor(config)
await cg.register_component(var, config)

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@ -23,9 +23,11 @@ CONF_PROCESS_STD_DEV = "process_std_dev"
CONF_STD_DEV = "std_dev" CONF_STD_DEV = "std_dev"
CONFIG_SCHEMA = sensor.SENSOR_SCHEMA.extend(cv.COMPONENT_SCHEMA).extend( CONFIG_SCHEMA = (
sensor.sensor_schema(KalmanCombinatorComponent)
.extend(cv.COMPONENT_SCHEMA)
.extend(
{ {
cv.GenerateID(): cv.declare_id(KalmanCombinatorComponent),
cv.Required(CONF_PROCESS_STD_DEV): cv.positive_float, cv.Required(CONF_PROCESS_STD_DEV): cv.positive_float,
cv.Required(CONF_SOURCES): cv.ensure_list( cv.Required(CONF_SOURCES): cv.ensure_list(
cv.Schema( cv.Schema(
@ -35,9 +37,10 @@ CONFIG_SCHEMA = sensor.SENSOR_SCHEMA.extend(cv.COMPONENT_SCHEMA).extend(
} }
), ),
), ),
cv.Optional(CONF_STD_DEV): sensor.SENSOR_SCHEMA, cv.Optional(CONF_STD_DEV): sensor.sensor_schema(),
} }
) )
)
# Inherit some sensor values from the first source, for both the state and the error value # Inherit some sensor values from the first source, for both the state and the error value
properties_to_inherit = [ properties_to_inherit = [

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