Merge remote-tracking branch 'upstream/dev' into dev

This commit is contained in:
Daniël Koek 2024-03-24 16:25:42 +00:00
commit 756515c15b
375 changed files with 10772 additions and 110 deletions

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@ -18,6 +18,7 @@ esphome/components/ac_dimmer/* @glmnet
esphome/components/adc/* @esphome/core esphome/components/adc/* @esphome/core
esphome/components/adc128s102/* @DeerMaximum esphome/components/adc128s102/* @DeerMaximum
esphome/components/addressable_light/* @justfalter esphome/components/addressable_light/* @justfalter
esphome/components/ade7880/* @kpfleming
esphome/components/ade7953/* @angelnu esphome/components/ade7953/* @angelnu
esphome/components/ade7953_i2c/* @angelnu esphome/components/ade7953_i2c/* @angelnu
esphome/components/ade7953_spi/* @angelnu esphome/components/ade7953_spi/* @angelnu
@ -155,6 +156,7 @@ esphome/components/iaqcore/* @yozik04
esphome/components/ili9xxx/* @clydebarrow @nielsnl68 esphome/components/ili9xxx/* @clydebarrow @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/ina226/* @Sergio303 @latonita
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
@ -199,6 +201,7 @@ esphome/components/mcp9808/* @k7hpn
esphome/components/md5/* @esphome/core esphome/components/md5/* @esphome/core
esphome/components/mdns/* @esphome/core esphome/components/mdns/* @esphome/core
esphome/components/media_player/* @jesserockz esphome/components/media_player/* @jesserockz
esphome/components/micro_wake_word/* @jesserockz @kahrendt
esphome/components/micronova/* @jorre05 esphome/components/micronova/* @jorre05
esphome/components/microphone/* @jesserockz esphome/components/microphone/* @jesserockz
esphome/components/mics_4514/* @jesserockz esphome/components/mics_4514/* @jesserockz

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@ -35,7 +35,7 @@ RUN \
iputils-ping=3:20221126-1 \ iputils-ping=3:20221126-1 \
git=1:2.39.2-1.1 \ git=1:2.39.2-1.1 \
curl=7.88.1-10+deb12u5 \ curl=7.88.1-10+deb12u5 \
openssh-client=1:9.2p1-2+deb12u1 \ openssh-client=1:9.2p1-2+deb12u2 \
python3-cffi=1.15.1-5 \ python3-cffi=1.15.1-5 \
libcairo2=1.16.0-7 \ libcairo2=1.16.0-7 \
libmagic1=1:5.44-3 \ libmagic1=1:5.44-3 \

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

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@ -0,0 +1,302 @@
// This component was developed using knowledge gathered by a number
// of people who reverse-engineered the Shelly 3EM:
//
// @AndreKR on GitHub
// Axel (@Axel830 on GitHub)
// Marko (@goodkiller on GitHub)
// Michaël Piron (@michaelpiron on GitHub)
// Theo Arends (@arendst on GitHub)
#include "ade7880.h"
#include "ade7880_registers.h"
#include "esphome/core/log.h"
namespace esphome {
namespace ade7880 {
static const char *const TAG = "ade7880";
void IRAM_ATTR ADE7880Store::gpio_intr(ADE7880Store *arg) { arg->reset_done = true; }
void ADE7880::setup() {
if (this->irq0_pin_ != nullptr) {
this->irq0_pin_->setup();
}
this->irq1_pin_->setup();
if (this->reset_pin_ != nullptr) {
this->reset_pin_->setup();
}
this->store_.irq1_pin = this->irq1_pin_->to_isr();
this->irq1_pin_->attach_interrupt(ADE7880Store::gpio_intr, &this->store_, gpio::INTERRUPT_FALLING_EDGE);
// if IRQ1 is already asserted, the cause must be determined
if (this->irq1_pin_->digital_read() == 0) {
ESP_LOGD(TAG, "IRQ1 found asserted during setup()");
auto status1 = read_u32_register16_(STATUS1);
if ((status1 & ~STATUS1_RSTDONE) != 0) {
// not safe to proceed, must initiate reset
ESP_LOGD(TAG, "IRQ1 asserted for !RSTDONE, resetting device");
this->reset_device_();
return;
}
if ((status1 & STATUS1_RSTDONE) == STATUS1_RSTDONE) {
// safe to proceed, device has just completed reset cycle
ESP_LOGD(TAG, "Acknowledging RSTDONE");
this->write_u32_register16_(STATUS0, 0xFFFF);
this->write_u32_register16_(STATUS1, 0xFFFF);
this->init_device_();
return;
}
}
this->reset_device_();
}
void ADE7880::loop() {
// check for completion of a reset cycle
if (!this->store_.reset_done) {
return;
}
ESP_LOGD(TAG, "Acknowledging RSTDONE");
this->write_u32_register16_(STATUS0, 0xFFFF);
this->write_u32_register16_(STATUS1, 0xFFFF);
this->init_device_();
this->store_.reset_done = false;
this->store_.reset_pending = false;
}
template<typename F>
void ADE7880::update_sensor_from_s24zp_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f) {
if (sensor == nullptr) {
return;
}
float val = this->read_s24zp_register16_(a_register);
sensor->publish_state(f(val));
}
template<typename F>
void ADE7880::update_sensor_from_s16_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f) {
if (sensor == nullptr) {
return;
}
float val = this->read_s16_register16_(a_register);
sensor->publish_state(f(val));
}
template<typename F>
void ADE7880::update_sensor_from_s32_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f) {
if (sensor == nullptr) {
return;
}
float val = this->read_s32_register16_(a_register);
sensor->publish_state(f(val));
}
void ADE7880::update() {
if (this->store_.reset_pending) {
return;
}
auto start = millis();
if (this->channel_n_ != nullptr) {
auto *chan = this->channel_n_;
this->update_sensor_from_s24zp_register16_(chan->current, NIRMS, [](float val) { return val / 100000.0f; });
}
if (this->channel_a_ != nullptr) {
auto *chan = this->channel_a_;
this->update_sensor_from_s24zp_register16_(chan->current, AIRMS, [](float val) { return val / 100000.0f; });
this->update_sensor_from_s24zp_register16_(chan->voltage, BVRMS, [](float val) { return val / 10000.0f; });
this->update_sensor_from_s24zp_register16_(chan->active_power, AWATT, [](float val) { return val / 100.0f; });
this->update_sensor_from_s24zp_register16_(chan->apparent_power, AVA, [](float val) { return val / 100.0f; });
this->update_sensor_from_s16_register16_(chan->power_factor, APF,
[](float val) { return std::abs(val / -327.68f); });
this->update_sensor_from_s32_register16_(chan->forward_active_energy, AFWATTHR, [&chan](float val) {
return chan->forward_active_energy_total += val / 14400.0f;
});
this->update_sensor_from_s32_register16_(chan->reverse_active_energy, AFWATTHR, [&chan](float val) {
return chan->reverse_active_energy_total += val / 14400.0f;
});
}
if (this->channel_b_ != nullptr) {
auto *chan = this->channel_b_;
this->update_sensor_from_s24zp_register16_(chan->current, BIRMS, [](float val) { return val / 100000.0f; });
this->update_sensor_from_s24zp_register16_(chan->voltage, BVRMS, [](float val) { return val / 10000.0f; });
this->update_sensor_from_s24zp_register16_(chan->active_power, BWATT, [](float val) { return val / 100.0f; });
this->update_sensor_from_s24zp_register16_(chan->apparent_power, BVA, [](float val) { return val / 100.0f; });
this->update_sensor_from_s16_register16_(chan->power_factor, BPF,
[](float val) { return std::abs(val / -327.68f); });
this->update_sensor_from_s32_register16_(chan->forward_active_energy, BFWATTHR, [&chan](float val) {
return chan->forward_active_energy_total += val / 14400.0f;
});
this->update_sensor_from_s32_register16_(chan->reverse_active_energy, BFWATTHR, [&chan](float val) {
return chan->reverse_active_energy_total += val / 14400.0f;
});
}
if (this->channel_c_ != nullptr) {
auto *chan = this->channel_c_;
this->update_sensor_from_s24zp_register16_(chan->current, CIRMS, [](float val) { return val / 100000.0f; });
this->update_sensor_from_s24zp_register16_(chan->voltage, CVRMS, [](float val) { return val / 10000.0f; });
this->update_sensor_from_s24zp_register16_(chan->active_power, CWATT, [](float val) { return val / 100.0f; });
this->update_sensor_from_s24zp_register16_(chan->apparent_power, CVA, [](float val) { return val / 100.0f; });
this->update_sensor_from_s16_register16_(chan->power_factor, CPF,
[](float val) { return std::abs(val / -327.68f); });
this->update_sensor_from_s32_register16_(chan->forward_active_energy, CFWATTHR, [&chan](float val) {
return chan->forward_active_energy_total += val / 14400.0f;
});
this->update_sensor_from_s32_register16_(chan->reverse_active_energy, CFWATTHR, [&chan](float val) {
return chan->reverse_active_energy_total += val / 14400.0f;
});
}
ESP_LOGD(TAG, "update took %u ms", millis() - start);
}
void ADE7880::dump_config() {
ESP_LOGCONFIG(TAG, "ADE7880:");
LOG_PIN(" IRQ0 Pin: ", this->irq0_pin_);
LOG_PIN(" IRQ1 Pin: ", this->irq1_pin_);
LOG_PIN(" RESET Pin: ", this->reset_pin_);
ESP_LOGCONFIG(TAG, " Frequency: %.0f Hz", this->frequency_);
if (this->channel_a_ != nullptr) {
ESP_LOGCONFIG(TAG, " Phase A:");
LOG_SENSOR(" ", "Current", this->channel_a_->current);
LOG_SENSOR(" ", "Voltage", this->channel_a_->voltage);
LOG_SENSOR(" ", "Active Power", this->channel_a_->active_power);
LOG_SENSOR(" ", "Apparent Power", this->channel_a_->apparent_power);
LOG_SENSOR(" ", "Power Factor", this->channel_a_->power_factor);
LOG_SENSOR(" ", "Forward Active Energy", this->channel_a_->forward_active_energy);
LOG_SENSOR(" ", "Reverse Active Energy", this->channel_a_->reverse_active_energy);
ESP_LOGCONFIG(TAG, " Calibration:");
ESP_LOGCONFIG(TAG, " Current: %u", this->channel_a_->current_gain_calibration);
ESP_LOGCONFIG(TAG, " Voltage: %d", this->channel_a_->voltage_gain_calibration);
ESP_LOGCONFIG(TAG, " Power: %d", this->channel_a_->power_gain_calibration);
ESP_LOGCONFIG(TAG, " Phase Angle: %u", this->channel_a_->phase_angle_calibration);
}
if (this->channel_b_ != nullptr) {
ESP_LOGCONFIG(TAG, " Phase B:");
LOG_SENSOR(" ", "Current", this->channel_b_->current);
LOG_SENSOR(" ", "Voltage", this->channel_b_->voltage);
LOG_SENSOR(" ", "Active Power", this->channel_b_->active_power);
LOG_SENSOR(" ", "Apparent Power", this->channel_b_->apparent_power);
LOG_SENSOR(" ", "Power Factor", this->channel_b_->power_factor);
LOG_SENSOR(" ", "Forward Active Energy", this->channel_b_->forward_active_energy);
LOG_SENSOR(" ", "Reverse Active Energy", this->channel_b_->reverse_active_energy);
ESP_LOGCONFIG(TAG, " Calibration:");
ESP_LOGCONFIG(TAG, " Current: %u", this->channel_b_->current_gain_calibration);
ESP_LOGCONFIG(TAG, " Voltage: %d", this->channel_b_->voltage_gain_calibration);
ESP_LOGCONFIG(TAG, " Power: %d", this->channel_b_->power_gain_calibration);
ESP_LOGCONFIG(TAG, " Phase Angle: %u", this->channel_b_->phase_angle_calibration);
}
if (this->channel_c_ != nullptr) {
ESP_LOGCONFIG(TAG, " Phase C:");
LOG_SENSOR(" ", "Current", this->channel_c_->current);
LOG_SENSOR(" ", "Voltage", this->channel_c_->voltage);
LOG_SENSOR(" ", "Active Power", this->channel_c_->active_power);
LOG_SENSOR(" ", "Apparent Power", this->channel_c_->apparent_power);
LOG_SENSOR(" ", "Power Factor", this->channel_c_->power_factor);
LOG_SENSOR(" ", "Forward Active Energy", this->channel_c_->forward_active_energy);
LOG_SENSOR(" ", "Reverse Active Energy", this->channel_c_->reverse_active_energy);
ESP_LOGCONFIG(TAG, " Calibration:");
ESP_LOGCONFIG(TAG, " Current: %u", this->channel_c_->current_gain_calibration);
ESP_LOGCONFIG(TAG, " Voltage: %d", this->channel_c_->voltage_gain_calibration);
ESP_LOGCONFIG(TAG, " Power: %d", this->channel_c_->power_gain_calibration);
ESP_LOGCONFIG(TAG, " Phase Angle: %u", this->channel_c_->phase_angle_calibration);
}
if (this->channel_n_ != nullptr) {
ESP_LOGCONFIG(TAG, " Neutral:");
LOG_SENSOR(" ", "Current", this->channel_n_->current);
ESP_LOGCONFIG(TAG, " Calibration:");
ESP_LOGCONFIG(TAG, " Current: %u", this->channel_n_->current_gain_calibration);
}
LOG_I2C_DEVICE(this);
LOG_UPDATE_INTERVAL(this);
}
void ADE7880::calibrate_s10zp_reading_(uint16_t a_register, int16_t calibration) {
if (calibration == 0) {
return;
}
this->write_s10zp_register16_(a_register, calibration);
}
void ADE7880::calibrate_s24zpse_reading_(uint16_t a_register, int32_t calibration) {
if (calibration == 0) {
return;
}
this->write_s24zpse_register16_(a_register, calibration);
}
void ADE7880::init_device_() {
this->write_u8_register16_(CONFIG2, CONFIG2_I2C_LOCK);
this->write_u16_register16_(GAIN, 0);
if (this->frequency_ > 55) {
this->write_u16_register16_(COMPMODE, COMPMODE_DEFAULT | COMPMODE_SELFREQ);
}
if (this->channel_n_ != nullptr) {
this->calibrate_s24zpse_reading_(NIGAIN, this->channel_n_->current_gain_calibration);
}
if (this->channel_a_ != nullptr) {
this->calibrate_s24zpse_reading_(AIGAIN, this->channel_a_->current_gain_calibration);
this->calibrate_s24zpse_reading_(AVGAIN, this->channel_a_->voltage_gain_calibration);
this->calibrate_s24zpse_reading_(APGAIN, this->channel_a_->power_gain_calibration);
this->calibrate_s10zp_reading_(APHCAL, this->channel_a_->phase_angle_calibration);
}
if (this->channel_b_ != nullptr) {
this->calibrate_s24zpse_reading_(BIGAIN, this->channel_b_->current_gain_calibration);
this->calibrate_s24zpse_reading_(BVGAIN, this->channel_b_->voltage_gain_calibration);
this->calibrate_s24zpse_reading_(BPGAIN, this->channel_b_->power_gain_calibration);
this->calibrate_s10zp_reading_(BPHCAL, this->channel_b_->phase_angle_calibration);
}
if (this->channel_c_ != nullptr) {
this->calibrate_s24zpse_reading_(CIGAIN, this->channel_c_->current_gain_calibration);
this->calibrate_s24zpse_reading_(CVGAIN, this->channel_c_->voltage_gain_calibration);
this->calibrate_s24zpse_reading_(CPGAIN, this->channel_c_->power_gain_calibration);
this->calibrate_s10zp_reading_(CPHCAL, this->channel_c_->phase_angle_calibration);
}
// write three default values to data memory RAM to flush the I2C write queue
this->write_s32_register16_(VLEVEL, 0);
this->write_s32_register16_(VLEVEL, 0);
this->write_s32_register16_(VLEVEL, 0);
this->write_u8_register16_(DSPWP_SEL, DSPWP_SEL_SET);
this->write_u8_register16_(DSPWP_SET, DSPWP_SET_RO);
this->write_u16_register16_(RUN, RUN_ENABLE);
}
void ADE7880::reset_device_() {
if (this->reset_pin_ != nullptr) {
ESP_LOGD(TAG, "Reset device using RESET pin");
this->reset_pin_->digital_write(false);
delay(1);
this->reset_pin_->digital_write(true);
} else {
ESP_LOGD(TAG, "Reset device using SWRST command");
this->write_u16_register16_(CONFIG, CONFIG_SWRST);
}
this->store_.reset_pending = true;
}
} // namespace ade7880
} // namespace esphome

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@ -0,0 +1,131 @@
#pragma once
// This component was developed using knowledge gathered by a number
// of people who reverse-engineered the Shelly 3EM:
//
// @AndreKR on GitHub
// Axel (@Axel830 on GitHub)
// Marko (@goodkiller on GitHub)
// Michaël Piron (@michaelpiron on GitHub)
// Theo Arends (@arendst on GitHub)
#include "esphome/core/component.h"
#include "esphome/core/hal.h"
#include "esphome/components/i2c/i2c.h"
#include "esphome/components/sensor/sensor.h"
#include "ade7880_registers.h"
namespace esphome {
namespace ade7880 {
struct NeutralChannel {
void set_current(sensor::Sensor *sens) { this->current = sens; }
void set_current_gain_calibration(int32_t val) { this->current_gain_calibration = val; }
sensor::Sensor *current{nullptr};
int32_t current_gain_calibration{0};
};
struct PowerChannel {
void set_current(sensor::Sensor *sens) { this->current = sens; }
void set_voltage(sensor::Sensor *sens) { this->voltage = sens; }
void set_active_power(sensor::Sensor *sens) { this->active_power = sens; }
void set_apparent_power(sensor::Sensor *sens) { this->apparent_power = sens; }
void set_power_factor(sensor::Sensor *sens) { this->power_factor = sens; }
void set_forward_active_energy(sensor::Sensor *sens) { this->forward_active_energy = sens; }
void set_reverse_active_energy(sensor::Sensor *sens) { this->reverse_active_energy = sens; }
void set_current_gain_calibration(int32_t val) { this->current_gain_calibration = val; }
void set_voltage_gain_calibration(int32_t val) { this->voltage_gain_calibration = val; }
void set_power_gain_calibration(int32_t val) { this->power_gain_calibration = val; }
void set_phase_angle_calibration(int32_t val) { this->phase_angle_calibration = val; }
sensor::Sensor *current{nullptr};
sensor::Sensor *voltage{nullptr};
sensor::Sensor *active_power{nullptr};
sensor::Sensor *apparent_power{nullptr};
sensor::Sensor *power_factor{nullptr};
sensor::Sensor *forward_active_energy{nullptr};
sensor::Sensor *reverse_active_energy{nullptr};
int32_t current_gain_calibration{0};
int32_t voltage_gain_calibration{0};
int32_t power_gain_calibration{0};
uint16_t phase_angle_calibration{0};
float forward_active_energy_total{0};
float reverse_active_energy_total{0};
};
// Store data in a class that doesn't use multiple-inheritance (no vtables in flash!)
struct ADE7880Store {
volatile bool reset_done{false};
bool reset_pending{false};
ISRInternalGPIOPin irq1_pin;
static void gpio_intr(ADE7880Store *arg);
};
class ADE7880 : public i2c::I2CDevice, public PollingComponent {
public:
void set_irq0_pin(InternalGPIOPin *pin) { this->irq0_pin_ = pin; }
void set_irq1_pin(InternalGPIOPin *pin) { this->irq1_pin_ = pin; }
void set_reset_pin(InternalGPIOPin *pin) { this->reset_pin_ = pin; }
void set_frequency(float frequency) { this->frequency_ = frequency; }
void set_channel_n(NeutralChannel *channel) { this->channel_n_ = channel; }
void set_channel_a(PowerChannel *channel) { this->channel_a_ = channel; }
void set_channel_b(PowerChannel *channel) { this->channel_b_ = channel; }
void set_channel_c(PowerChannel *channel) { this->channel_c_ = channel; }
void setup() override;
void loop() override;
void update() override;
void dump_config() override;
float get_setup_priority() const override { return setup_priority::DATA; }
protected:
ADE7880Store store_{};
InternalGPIOPin *irq0_pin_{nullptr};
InternalGPIOPin *irq1_pin_{nullptr};
InternalGPIOPin *reset_pin_{nullptr};
float frequency_;
NeutralChannel *channel_n_{nullptr};
PowerChannel *channel_a_{nullptr};
PowerChannel *channel_b_{nullptr};
PowerChannel *channel_c_{nullptr};
void calibrate_s10zp_reading_(uint16_t a_register, int16_t calibration);
void calibrate_s24zpse_reading_(uint16_t a_register, int32_t calibration);
void init_device_();
// each of these functions allow the caller to pass in a lambda (or any other callable)
// which modifies the value read from the register before it is passed to the sensor
// the callable will be passed a 'float' value and is expected to return a 'float'
template<typename F> void update_sensor_from_s24zp_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f);
template<typename F> void update_sensor_from_s16_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f);
template<typename F> void update_sensor_from_s32_register16_(sensor::Sensor *sensor, uint16_t a_register, F &&f);
void reset_device_();
uint8_t read_u8_register16_(uint16_t a_register);
int16_t read_s16_register16_(uint16_t a_register);
uint16_t read_u16_register16_(uint16_t a_register);
int32_t read_s24zp_register16_(uint16_t a_register);
int32_t read_s32_register16_(uint16_t a_register);
uint32_t read_u32_register16_(uint16_t a_register);
void write_u8_register16_(uint16_t a_register, uint8_t value);
void write_s10zp_register16_(uint16_t a_register, int16_t value);
void write_u16_register16_(uint16_t a_register, uint16_t value);
void write_s24zpse_register16_(uint16_t a_register, int32_t value);
void write_s32_register16_(uint16_t a_register, int32_t value);
void write_u32_register16_(uint16_t a_register, uint32_t value);
};
} // namespace ade7880
} // namespace esphome

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// This component was developed using knowledge gathered by a number
// of people who reverse-engineered the Shelly 3EM:
//
// @AndreKR on GitHub
// Axel (@Axel830 on GitHub)
// Marko (@goodkiller on GitHub)
// Michaël Piron (@michaelpiron on GitHub)
// Theo Arends (@arendst on GitHub)
#include "ade7880.h"
namespace esphome {
namespace ade7880 {
// adapted from https://stackoverflow.com/a/55912127/1886371
template<size_t Bits, typename T> inline T sign_extend(const T &v) noexcept {
using S = struct { signed Val : Bits; };
return reinterpret_cast<const S *>(&v)->Val;
}
// Register types
// unsigned 8-bit (uint8_t)
// signed 10-bit - 16-bit ZP on wire (int16_t, needs sign extension)
// unsigned 16-bit (uint16_t)
// unsigned 20-bit - 32-bit ZP on wire (uint32_t)
// signed 24-bit - 32-bit ZPSE on wire (int32_t, needs sign extension)
// signed 24-bit - 32-bit ZP on wire (int32_t, needs sign extension)
// signed 24-bit - 32-bit SE on wire (int32_t)
// signed 28-bit - 32-bit ZP on wire (int32_t, needs sign extension)
// unsigned 32-bit (uint32_t)
// signed 32-bit (int32_t)
uint8_t ADE7880::read_u8_register16_(uint16_t a_register) {
uint8_t in;
this->read_register16(a_register, &in, sizeof(in));
return in;
}
int16_t ADE7880::read_s16_register16_(uint16_t a_register) {
int16_t in;
this->read_register16(a_register, reinterpret_cast<uint8_t *>(&in), sizeof(in));
return convert_big_endian(in);
}
uint16_t ADE7880::read_u16_register16_(uint16_t a_register) {
uint16_t in;
this->read_register16(a_register, reinterpret_cast<uint8_t *>(&in), sizeof(in));
return convert_big_endian(in);
}
int32_t ADE7880::read_s24zp_register16_(uint16_t a_register) {
// s24zp means 24 bit signed value in the lower 24 bits of a 32-bit register
int32_t in;
this->read_register16(a_register, reinterpret_cast<uint8_t *>(&in), sizeof(in));
return sign_extend<24>(convert_big_endian(in));
}
int32_t ADE7880::read_s32_register16_(uint16_t a_register) {
int32_t in;
this->read_register16(a_register, reinterpret_cast<uint8_t *>(&in), sizeof(in));
return convert_big_endian(in);
}
uint32_t ADE7880::read_u32_register16_(uint16_t a_register) {
uint32_t in;
this->read_register16(a_register, reinterpret_cast<uint8_t *>(&in), sizeof(in));
return convert_big_endian(in);
}
void ADE7880::write_u8_register16_(uint16_t a_register, uint8_t value) {
this->write_register16(a_register, &value, sizeof(value));
}
void ADE7880::write_s10zp_register16_(uint16_t a_register, int16_t value) {
int16_t out = convert_big_endian(value & 0x03FF);
this->write_register16(a_register, reinterpret_cast<uint8_t *>(&out), sizeof(out));
}
void ADE7880::write_u16_register16_(uint16_t a_register, uint16_t value) {
uint16_t out = convert_big_endian(value);
this->write_register16(a_register, reinterpret_cast<uint8_t *>(&out), sizeof(out));
}
void ADE7880::write_s24zpse_register16_(uint16_t a_register, int32_t value) {
// s24zpse means a 24-bit signed value, sign-extended to 28 bits, in the lower 28 bits of a 32-bit register
int32_t out = convert_big_endian(value & 0x0FFFFFFF);
this->write_register16(a_register, reinterpret_cast<uint8_t *>(&out), sizeof(out));
}
void ADE7880::write_s32_register16_(uint16_t a_register, int32_t value) {
int32_t out = convert_big_endian(value);
this->write_register16(a_register, reinterpret_cast<uint8_t *>(&out), sizeof(out));
}
void ADE7880::write_u32_register16_(uint16_t a_register, uint32_t value) {
uint32_t out = convert_big_endian(value);
this->write_register16(a_register, reinterpret_cast<uint8_t *>(&out), sizeof(out));
}
} // namespace ade7880
} // namespace esphome

View file

@ -0,0 +1,243 @@
#pragma once
// This file is a modified version of the one created by Michaël Piron (@michaelpiron on GitHub)
// Source: https://www.analog.com/media/en/technical-documentation/application-notes/AN-1127.pdf
namespace esphome {
namespace ade7880 {
// DSP Data Memory RAM registers
constexpr uint16_t AIGAIN = 0x4380;
constexpr uint16_t AVGAIN = 0x4381;
constexpr uint16_t BIGAIN = 0x4382;
constexpr uint16_t BVGAIN = 0x4383;
constexpr uint16_t CIGAIN = 0x4384;
constexpr uint16_t CVGAIN = 0x4385;
constexpr uint16_t NIGAIN = 0x4386;
constexpr uint16_t DICOEFF = 0x4388;
constexpr uint16_t APGAIN = 0x4389;
constexpr uint16_t AWATTOS = 0x438A;
constexpr uint16_t BPGAIN = 0x438B;
constexpr uint16_t BWATTOS = 0x438C;
constexpr uint16_t CPGAIN = 0x438D;
constexpr uint16_t CWATTOS = 0x438E;
constexpr uint16_t AIRMSOS = 0x438F;
constexpr uint16_t AVRMSOS = 0x4390;
constexpr uint16_t BIRMSOS = 0x4391;
constexpr uint16_t BVRMSOS = 0x4392;
constexpr uint16_t CIRMSOS = 0x4393;
constexpr uint16_t CVRMSOS = 0x4394;
constexpr uint16_t NIRMSOS = 0x4395;
constexpr uint16_t HPGAIN = 0x4398;
constexpr uint16_t ISUMLVL = 0x4399;
constexpr uint16_t VLEVEL = 0x439F;
constexpr uint16_t AFWATTOS = 0x43A2;
constexpr uint16_t BFWATTOS = 0x43A3;
constexpr uint16_t CFWATTOS = 0x43A4;
constexpr uint16_t AFVAROS = 0x43A5;
constexpr uint16_t BFVAROS = 0x43A6;
constexpr uint16_t CFVAROS = 0x43A7;
constexpr uint16_t AFIRMSOS = 0x43A8;
constexpr uint16_t BFIRMSOS = 0x43A9;
constexpr uint16_t CFIRMSOS = 0x43AA;
constexpr uint16_t AFVRMSOS = 0x43AB;
constexpr uint16_t BFVRMSOS = 0x43AC;
constexpr uint16_t CFVRMSOS = 0x43AD;
constexpr uint16_t HXWATTOS = 0x43AE;
constexpr uint16_t HYWATTOS = 0x43AF;
constexpr uint16_t HZWATTOS = 0x43B0;
constexpr uint16_t HXVAROS = 0x43B1;
constexpr uint16_t HYVAROS = 0x43B2;
constexpr uint16_t HZVAROS = 0x43B3;
constexpr uint16_t HXIRMSOS = 0x43B4;
constexpr uint16_t HYIRMSOS = 0x43B5;
constexpr uint16_t HZIRMSOS = 0x43B6;
constexpr uint16_t HXVRMSOS = 0x43B7;
constexpr uint16_t HYVRMSOS = 0x43B8;
constexpr uint16_t HZVRMSOS = 0x43B9;
constexpr uint16_t AIRMS = 0x43C0;
constexpr uint16_t AVRMS = 0x43C1;
constexpr uint16_t BIRMS = 0x43C2;
constexpr uint16_t BVRMS = 0x43C3;
constexpr uint16_t CIRMS = 0x43C4;
constexpr uint16_t CVRMS = 0x43C5;
constexpr uint16_t NIRMS = 0x43C6;
constexpr uint16_t ISUM = 0x43C7;
// Internal DSP Memory RAM registers
constexpr uint16_t RUN = 0xE228;
constexpr uint16_t AWATTHR = 0xE400;
constexpr uint16_t BWATTHR = 0xE401;
constexpr uint16_t CWATTHR = 0xE402;
constexpr uint16_t AFWATTHR = 0xE403;
constexpr uint16_t BFWATTHR = 0xE404;
constexpr uint16_t CFWATTHR = 0xE405;
constexpr uint16_t AFVARHR = 0xE409;
constexpr uint16_t BFVARHR = 0xE40A;
constexpr uint16_t CFVARHR = 0xE40B;
constexpr uint16_t AVAHR = 0xE40C;
constexpr uint16_t BVAHR = 0xE40D;
constexpr uint16_t CVAHR = 0xE40E;
constexpr uint16_t IPEAK = 0xE500;
constexpr uint16_t VPEAK = 0xE501;
constexpr uint16_t STATUS0 = 0xE502;
constexpr uint16_t STATUS1 = 0xE503;
constexpr uint16_t AIMAV = 0xE504;
constexpr uint16_t BIMAV = 0xE505;
constexpr uint16_t CIMAV = 0xE506;
constexpr uint16_t OILVL = 0xE507;
constexpr uint16_t OVLVL = 0xE508;
constexpr uint16_t SAGLVL = 0xE509;
constexpr uint16_t MASK0 = 0xE50A;
constexpr uint16_t MASK1 = 0xE50B;
constexpr uint16_t IAWV = 0xE50C;
constexpr uint16_t IBWV = 0xE50D;
constexpr uint16_t ICWV = 0xE50E;
constexpr uint16_t INWV = 0xE50F;
constexpr uint16_t VAWV = 0xE510;
constexpr uint16_t VBWV = 0xE511;
constexpr uint16_t VCWV = 0xE512;
constexpr uint16_t AWATT = 0xE513;
constexpr uint16_t BWATT = 0xE514;
constexpr uint16_t CWATT = 0xE515;
constexpr uint16_t AFVAR = 0xE516;
constexpr uint16_t BFVAR = 0xE517;
constexpr uint16_t CFVAR = 0xE518;
constexpr uint16_t AVA = 0xE519;
constexpr uint16_t BVA = 0xE51A;
constexpr uint16_t CVA = 0xE51B;
constexpr uint16_t CHECKSUM = 0xE51F;
constexpr uint16_t VNOM = 0xE520;
constexpr uint16_t LAST_RWDATA_24BIT = 0xE5FF;
constexpr uint16_t PHSTATUS = 0xE600;
constexpr uint16_t ANGLE0 = 0xE601;
constexpr uint16_t ANGLE1 = 0xE602;
constexpr uint16_t ANGLE2 = 0xE603;
constexpr uint16_t PHNOLOAD = 0xE608;
constexpr uint16_t LINECYC = 0xE60C;
constexpr uint16_t ZXTOUT = 0xE60D;
constexpr uint16_t COMPMODE = 0xE60E;
constexpr uint16_t GAIN = 0xE60F;
constexpr uint16_t CFMODE = 0xE610;
constexpr uint16_t CF1DEN = 0xE611;
constexpr uint16_t CF2DEN = 0xE612;
constexpr uint16_t CF3DEN = 0xE613;
constexpr uint16_t APHCAL = 0xE614;
constexpr uint16_t BPHCAL = 0xE615;
constexpr uint16_t CPHCAL = 0xE616;
constexpr uint16_t PHSIGN = 0xE617;
constexpr uint16_t CONFIG = 0xE618;
constexpr uint16_t MMODE = 0xE700;
constexpr uint16_t ACCMODE = 0xE701;
constexpr uint16_t LCYCMODE = 0xE702;
constexpr uint16_t PEAKCYC = 0xE703;
constexpr uint16_t SAGCYC = 0xE704;
constexpr uint16_t CFCYC = 0xE705;
constexpr uint16_t HSDC_CFG = 0xE706;
constexpr uint16_t VERSION = 0xE707;
constexpr uint16_t DSPWP_SET = 0xE7E3;
constexpr uint16_t LAST_RWDATA_8BIT = 0xE7FD;
constexpr uint16_t DSPWP_SEL = 0xE7FE;
constexpr uint16_t FVRMS = 0xE880;
constexpr uint16_t FIRMS = 0xE881;
constexpr uint16_t FWATT = 0xE882;
constexpr uint16_t FVAR = 0xE883;
constexpr uint16_t FVA = 0xE884;
constexpr uint16_t FPF = 0xE885;
constexpr uint16_t VTHDN = 0xE886;
constexpr uint16_t ITHDN = 0xE887;
constexpr uint16_t HXVRMS = 0xE888;
constexpr uint16_t HXIRMS = 0xE889;
constexpr uint16_t HXWATT = 0xE88A;
constexpr uint16_t HXVAR = 0xE88B;
constexpr uint16_t HXVA = 0xE88C;
constexpr uint16_t HXPF = 0xE88D;
constexpr uint16_t HXVHD = 0xE88E;
constexpr uint16_t HXIHD = 0xE88F;
constexpr uint16_t HYVRMS = 0xE890;
constexpr uint16_t HYIRMS = 0xE891;
constexpr uint16_t HYWATT = 0xE892;
constexpr uint16_t HYVAR = 0xE893;
constexpr uint16_t HYVA = 0xE894;
constexpr uint16_t HYPF = 0xE895;
constexpr uint16_t HYVHD = 0xE896;
constexpr uint16_t HYIHD = 0xE897;
constexpr uint16_t HZVRMS = 0xE898;
constexpr uint16_t HZIRMS = 0xE899;
constexpr uint16_t HZWATT = 0xE89A;
constexpr uint16_t HZVAR = 0xE89B;
constexpr uint16_t HZVA = 0xE89C;
constexpr uint16_t HZPF = 0xE89D;
constexpr uint16_t HZVHD = 0xE89E;
constexpr uint16_t HZIHD = 0xE89F;
constexpr uint16_t HCONFIG = 0xE900;
constexpr uint16_t APF = 0xE902;
constexpr uint16_t BPF = 0xE903;
constexpr uint16_t CPF = 0xE904;
constexpr uint16_t APERIOD = 0xE905;
constexpr uint16_t BPERIOD = 0xE906;
constexpr uint16_t CPERIOD = 0xE907;
constexpr uint16_t APNOLOAD = 0xE908;
constexpr uint16_t VARNOLOAD = 0xE909;
constexpr uint16_t VANOLOAD = 0xE90A;
constexpr uint16_t LAST_ADD = 0xE9FE;
constexpr uint16_t LAST_RWDATA_16BIT = 0xE9FF;
constexpr uint16_t CONFIG3 = 0xEA00;
constexpr uint16_t LAST_OP = 0xEA01;
constexpr uint16_t WTHR = 0xEA02;
constexpr uint16_t VARTHR = 0xEA03;
constexpr uint16_t VATHR = 0xEA04;
constexpr uint16_t HX_REG = 0xEA08;
constexpr uint16_t HY_REG = 0xEA09;
constexpr uint16_t HZ_REG = 0xEA0A;
constexpr uint16_t LPOILVL = 0xEC00;
constexpr uint16_t CONFIG2 = 0xEC01;
// STATUS1 Register Bits
constexpr uint32_t STATUS1_RSTDONE = (1 << 15);
// CONFIG Register Bits
constexpr uint16_t CONFIG_SWRST = (1 << 7);
// CONFIG2 Register Bits
constexpr uint8_t CONFIG2_I2C_LOCK = (1 << 1);
// COMPMODE Register Bits
constexpr uint16_t COMPMODE_DEFAULT = 0x01FF;
constexpr uint16_t COMPMODE_SELFREQ = (1 << 14);
// RUN Register Bits
constexpr uint16_t RUN_ENABLE = (1 << 0);
// DSPWP_SET Register Bits
constexpr uint8_t DSPWP_SET_RO = (1 << 7);
// DSPWP_SEL Register Bits
constexpr uint8_t DSPWP_SEL_SET = 0xAD;
} // namespace ade7880
} // namespace esphome

View file

@ -0,0 +1,290 @@
import esphome.codegen as cg
import esphome.config_validation as cv
from esphome.components import sensor, i2c
from esphome import pins
from esphome.const import (
CONF_ACTIVE_POWER,
CONF_APPARENT_POWER,
CONF_CALIBRATION,
CONF_CURRENT,
CONF_FORWARD_ACTIVE_ENERGY,
CONF_FREQUENCY,
CONF_ID,
CONF_NAME,
CONF_PHASE_A,
CONF_PHASE_ANGLE,
CONF_PHASE_B,
CONF_PHASE_C,
CONF_POWER_FACTOR,
CONF_RESET_PIN,
CONF_REVERSE_ACTIVE_ENERGY,
CONF_VOLTAGE,
DEVICE_CLASS_APPARENT_POWER,
DEVICE_CLASS_CURRENT,
DEVICE_CLASS_ENERGY,
DEVICE_CLASS_POWER,
DEVICE_CLASS_POWER_FACTOR,
DEVICE_CLASS_VOLTAGE,
STATE_CLASS_MEASUREMENT,
STATE_CLASS_TOTAL_INCREASING,
UNIT_AMPERE,
UNIT_PERCENT,
UNIT_VOLT,
UNIT_VOLT_AMPS,
UNIT_VOLT_AMPS_REACTIVE_HOURS,
UNIT_WATT,
UNIT_WATT_HOURS,
)
DEPENDENCIES = ["i2c"]
ade7880_ns = cg.esphome_ns.namespace("ade7880")
ADE7880 = ade7880_ns.class_("ADE7880", cg.PollingComponent, i2c.I2CDevice)
NeutralChannel = ade7880_ns.struct("NeutralChannel")
PowerChannel = ade7880_ns.struct("PowerChannel")
CONF_CURRENT_GAIN = "current_gain"
CONF_IRQ0_PIN = "irq0_pin"
CONF_IRQ1_PIN = "irq1_pin"
CONF_POWER_GAIN = "power_gain"
CONF_VOLTAGE_GAIN = "voltage_gain"
CONF_NEUTRAL = "neutral"
NEUTRAL_CHANNEL_SCHEMA = cv.Schema(
{
cv.GenerateID(): cv.declare_id(NeutralChannel),
cv.Optional(CONF_NAME): cv.string_strict,
cv.Required(CONF_CURRENT): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_AMPERE,
accuracy_decimals=2,
device_class=DEVICE_CLASS_CURRENT,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Required(CONF_CALIBRATION): cv.Schema(
{
cv.Required(CONF_CURRENT_GAIN): cv.int_,
},
),
}
)
POWER_CHANNEL_SCHEMA = cv.Schema(
{
cv.GenerateID(): cv.declare_id(PowerChannel),
cv.Optional(CONF_NAME): cv.string_strict,
cv.Optional(CONF_VOLTAGE): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_VOLT,
accuracy_decimals=1,
device_class=DEVICE_CLASS_VOLTAGE,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Optional(CONF_CURRENT): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_AMPERE,
accuracy_decimals=2,
device_class=DEVICE_CLASS_CURRENT,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Optional(CONF_ACTIVE_POWER): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_WATT,
accuracy_decimals=1,
device_class=DEVICE_CLASS_POWER,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Optional(CONF_APPARENT_POWER): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_VOLT_AMPS,
accuracy_decimals=1,
device_class=DEVICE_CLASS_APPARENT_POWER,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Optional(CONF_POWER_FACTOR): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_PERCENT,
accuracy_decimals=0,
device_class=DEVICE_CLASS_POWER_FACTOR,
state_class=STATE_CLASS_MEASUREMENT,
),
key=CONF_NAME,
),
cv.Optional(CONF_FORWARD_ACTIVE_ENERGY): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_WATT_HOURS,
accuracy_decimals=2,
device_class=DEVICE_CLASS_ENERGY,
state_class=STATE_CLASS_TOTAL_INCREASING,
),
key=CONF_NAME,
),
cv.Optional(CONF_REVERSE_ACTIVE_ENERGY): cv.maybe_simple_value(
sensor.sensor_schema(
unit_of_measurement=UNIT_VOLT_AMPS_REACTIVE_HOURS,
accuracy_decimals=2,
device_class=DEVICE_CLASS_ENERGY,
state_class=STATE_CLASS_TOTAL_INCREASING,
),
key=CONF_NAME,
),
cv.Required(CONF_CALIBRATION): cv.Schema(
{
cv.Required(CONF_CURRENT_GAIN): cv.int_,
cv.Required(CONF_VOLTAGE_GAIN): cv.int_,
cv.Required(CONF_POWER_GAIN): cv.int_,
cv.Required(CONF_PHASE_ANGLE): cv.int_,
},
),
}
)
CONFIG_SCHEMA = (
cv.Schema(
{
cv.GenerateID(): cv.declare_id(ADE7880),
cv.Optional(CONF_FREQUENCY, default="50Hz"): cv.All(
cv.frequency, cv.Range(min=45.0, max=66.0)
),
cv.Optional(CONF_IRQ0_PIN): pins.internal_gpio_input_pin_schema,
cv.Required(CONF_IRQ1_PIN): pins.internal_gpio_input_pin_schema,
cv.Optional(CONF_RESET_PIN): pins.internal_gpio_output_pin_schema,
cv.Optional(CONF_PHASE_A): POWER_CHANNEL_SCHEMA,
cv.Optional(CONF_PHASE_B): POWER_CHANNEL_SCHEMA,
cv.Optional(CONF_PHASE_C): POWER_CHANNEL_SCHEMA,
cv.Optional(CONF_NEUTRAL): NEUTRAL_CHANNEL_SCHEMA,
}
)
.extend(cv.polling_component_schema("60s"))
.extend(i2c.i2c_device_schema(0x38))
)
async def neutral_channel(config):
var = cg.new_Pvariable(config[CONF_ID])
current = config[CONF_CURRENT]
sens = await sensor.new_sensor(current)
cg.add(var.set_current(sens))
cg.add(
var.set_current_gain_calibration(config[CONF_CALIBRATION][CONF_CURRENT_GAIN])
)
return var
async def power_channel(config):
var = cg.new_Pvariable(config[CONF_ID])
for sensor_type in [
CONF_CURRENT,
CONF_VOLTAGE,
CONF_ACTIVE_POWER,
CONF_APPARENT_POWER,
CONF_POWER_FACTOR,
CONF_FORWARD_ACTIVE_ENERGY,
CONF_REVERSE_ACTIVE_ENERGY,
]:
if conf := config.get(sensor_type):
sens = await sensor.new_sensor(conf)
cg.add(getattr(var, f"set_{sensor_type}")(sens))
for calib_type in [
CONF_CURRENT_GAIN,
CONF_VOLTAGE_GAIN,
CONF_POWER_GAIN,
CONF_PHASE_ANGLE,
]:
cg.add(
getattr(var, f"set_{calib_type}_calibration")(
config[CONF_CALIBRATION][calib_type]
)
)
return var
def final_validate(config):
for channel in [CONF_PHASE_A, CONF_PHASE_B, CONF_PHASE_C]:
if channel := config.get(channel):
channel_name = channel.get(CONF_NAME)
for sensor_type in [
CONF_CURRENT,
CONF_VOLTAGE,
CONF_ACTIVE_POWER,
CONF_APPARENT_POWER,
CONF_POWER_FACTOR,
CONF_FORWARD_ACTIVE_ENERGY,
CONF_REVERSE_ACTIVE_ENERGY,
]:
if conf := channel.get(sensor_type):
sensor_name = conf.get(CONF_NAME)
if (
sensor_name
and channel_name
and not sensor_name.startswith(channel_name)
):
conf[CONF_NAME] = f"{channel_name} {sensor_name}"
if channel := config.get(CONF_NEUTRAL):
channel_name = channel.get(CONF_NAME)
if conf := channel.get(CONF_CURRENT):
sensor_name = conf.get(CONF_NAME)
if (
sensor_name
and channel_name
and not sensor_name.startswith(channel_name)
):
conf[CONF_NAME] = f"{channel_name} {sensor_name}"
FINAL_VALIDATE_SCHEMA = final_validate
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)
if irq0_pin := config.get(CONF_IRQ0_PIN):
pin = await cg.gpio_pin_expression(irq0_pin)
cg.add(var.set_irq0_pin(pin))
pin = await cg.gpio_pin_expression(config[CONF_IRQ1_PIN])
cg.add(var.set_irq1_pin(pin))
if reset_pin := config.get(CONF_RESET_PIN):
pin = await cg.gpio_pin_expression(reset_pin)
cg.add(var.set_reset_pin(pin))
if frequency := config.get(CONF_FREQUENCY):
cg.add(var.set_frequency(frequency))
if channel := config.get(CONF_PHASE_A):
chan = await power_channel(channel)
cg.add(var.set_channel_a(chan))
if channel := config.get(CONF_PHASE_B):
chan = await power_channel(channel)
cg.add(var.set_channel_b(chan))
if channel := config.get(CONF_PHASE_C):
chan = await power_channel(channel)
cg.add(var.set_channel_c(chan))
if channel := config.get(CONF_NEUTRAL):
chan = await neutral_channel(channel)
cg.add(var.set_channel_n(chan))

View file

@ -11,6 +11,7 @@ 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"
CONF_IAQ_MODE = "iaq_mode" CONF_IAQ_MODE = "iaq_mode"
CONF_SUPPLY_VOLTAGE = "supply_voltage"
CONF_SAMPLE_RATE = "sample_rate" CONF_SAMPLE_RATE = "sample_rate"
CONF_STATE_SAVE_INTERVAL = "state_save_interval" CONF_STATE_SAVE_INTERVAL = "state_save_interval"
@ -22,6 +23,12 @@ IAQ_MODE_OPTIONS = {
"MOBILE": IAQMode.IAQ_MODE_MOBILE, "MOBILE": IAQMode.IAQ_MODE_MOBILE,
} }
SupplyVoltage = bme680_bsec_ns.enum("SupplyVoltage")
SUPPLY_VOLTAGE_OPTIONS = {
"1.8V": SupplyVoltage.SUPPLY_VOLTAGE_1V8,
"3.3V": SupplyVoltage.SUPPLY_VOLTAGE_3V3,
}
SampleRate = bme680_bsec_ns.enum("SampleRate") SampleRate = bme680_bsec_ns.enum("SampleRate")
SAMPLE_RATE_OPTIONS = { SAMPLE_RATE_OPTIONS = {
"LP": SampleRate.SAMPLE_RATE_LP, "LP": SampleRate.SAMPLE_RATE_LP,
@ -40,6 +47,9 @@ CONFIG_SCHEMA = cv.All(
cv.Optional(CONF_IAQ_MODE, default="STATIC"): cv.enum( cv.Optional(CONF_IAQ_MODE, default="STATIC"): cv.enum(
IAQ_MODE_OPTIONS, upper=True IAQ_MODE_OPTIONS, upper=True
), ),
cv.Optional(CONF_SUPPLY_VOLTAGE, default="3.3V"): cv.enum(
SUPPLY_VOLTAGE_OPTIONS, upper=True
),
cv.Optional(CONF_SAMPLE_RATE, default="LP"): cv.enum( cv.Optional(CONF_SAMPLE_RATE, default="LP"): cv.enum(
SAMPLE_RATE_OPTIONS, upper=True SAMPLE_RATE_OPTIONS, upper=True
), ),
@ -67,6 +77,7 @@ async def to_code(config):
cg.add(var.set_device_id(str(config[CONF_ID]))) 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_supply_voltage(config[CONF_SUPPLY_VOLTAGE]))
cg.add(var.set_sample_rate(config[CONF_SAMPLE_RATE])) cg.add(var.set_sample_rate(config[CONF_SAMPLE_RATE]))
cg.add( cg.add(
var.set_state_save_interval(config[CONF_STATE_SAVE_INTERVAL].total_milliseconds) var.set_state_save_interval(config[CONF_STATE_SAVE_INTERVAL].total_milliseconds)

View file

@ -52,17 +52,33 @@ void BME680BSECComponent::setup() {
void BME680BSECComponent::set_config_() { void BME680BSECComponent::set_config_() {
if (this->sample_rate_ == SAMPLE_RATE_ULP) { if (this->sample_rate_ == SAMPLE_RATE_ULP) {
const uint8_t config[] = { if (this->supply_voltage_ == SUPPLY_VOLTAGE_3V3) {
const uint8_t config[] = {
#include "config/generic_33v_300s_28d/bsec_iaq.txt" #include "config/generic_33v_300s_28d/bsec_iaq.txt"
}; };
this->bsec_status_ = this->bsec_status_ =
bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_)); bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
} else { } else { // SUPPLY_VOLTAGE_1V8
const uint8_t config[] = { const uint8_t config[] = {
#include "config/generic_18v_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 { // SAMPLE_RATE_LP
if (this->supply_voltage_ == SUPPLY_VOLTAGE_3V3) {
const uint8_t config[] = {
#include "config/generic_33v_3s_28d/bsec_iaq.txt" #include "config/generic_33v_3s_28d/bsec_iaq.txt"
}; };
this->bsec_status_ = this->bsec_status_ =
bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_)); bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
} else { // SUPPLY_VOLTAGE_1V8
const uint8_t config[] = {
#include "config/generic_18v_3s_28d/bsec_iaq.txt"
};
this->bsec_status_ =
bsec_set_configuration(config, BSEC_MAX_PROPERTY_BLOB_SIZE, this->work_buffer_, sizeof(this->work_buffer_));
}
} }
} }
@ -145,6 +161,7 @@ void BME680BSECComponent::dump_config() {
ESP_LOGCONFIG(TAG, " Temperature Offset: %.2f", this->temperature_offset_); ESP_LOGCONFIG(TAG, " Temperature Offset: %.2f", this->temperature_offset_);
ESP_LOGCONFIG(TAG, " IAQ Mode: %s", this->iaq_mode_ == IAQ_MODE_STATIC ? "Static" : "Mobile"); ESP_LOGCONFIG(TAG, " IAQ Mode: %s", this->iaq_mode_ == IAQ_MODE_STATIC ? "Static" : "Mobile");
ESP_LOGCONFIG(TAG, " Supply Voltage: %sV", this->supply_voltage_ == SUPPLY_VOLTAGE_3V3 ? "3.3" : "1.8");
ESP_LOGCONFIG(TAG, " Sample Rate: %s", BME680_BSEC_SAMPLE_RATE_LOG(this->sample_rate_)); ESP_LOGCONFIG(TAG, " Sample Rate: %s", BME680_BSEC_SAMPLE_RATE_LOG(this->sample_rate_));
ESP_LOGCONFIG(TAG, " State Save Interval: %ims", this->state_save_interval_ms_); ESP_LOGCONFIG(TAG, " State Save Interval: %ims", this->state_save_interval_ms_);

View file

@ -21,6 +21,11 @@ enum IAQMode {
IAQ_MODE_MOBILE = 1, IAQ_MODE_MOBILE = 1,
}; };
enum SupplyVoltage {
SUPPLY_VOLTAGE_3V3 = 0,
SUPPLY_VOLTAGE_1V8 = 1,
};
enum SampleRate { enum SampleRate {
SAMPLE_RATE_LP = 0, SAMPLE_RATE_LP = 0,
SAMPLE_RATE_ULP = 1, SAMPLE_RATE_ULP = 1,
@ -35,6 +40,7 @@ class BME680BSECComponent : public Component, public i2c::I2CDevice {
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; }
void set_supply_voltage(SupplyVoltage supply_voltage) { this->supply_voltage_ = supply_voltage; }
void set_sample_rate(SampleRate sample_rate) { this->sample_rate_ = sample_rate; } void set_sample_rate(SampleRate sample_rate) { this->sample_rate_ = sample_rate; }
void set_temperature_sample_rate(SampleRate sample_rate) { this->temperature_sample_rate_ = sample_rate; } void set_temperature_sample_rate(SampleRate sample_rate) { this->temperature_sample_rate_ = sample_rate; }
@ -109,6 +115,7 @@ class BME680BSECComponent : public Component, public i2c::I2CDevice {
std::string device_id_; std::string device_id_;
float temperature_offset_{0}; float temperature_offset_{0};
IAQMode iaq_mode_{IAQ_MODE_STATIC}; IAQMode iaq_mode_{IAQ_MODE_STATIC};
SupplyVoltage supply_voltage_;
SampleRate sample_rate_{SAMPLE_RATE_LP}; // Core/gas sample rate SampleRate sample_rate_{SAMPLE_RATE_LP}; // Core/gas sample rate
SampleRate temperature_sample_rate_{SAMPLE_RATE_DEFAULT}; SampleRate temperature_sample_rate_{SAMPLE_RATE_DEFAULT};

View file

@ -1,6 +1,8 @@
#include "cse7766.h" #include "cse7766.h"
#include "esphome/core/log.h" #include "esphome/core/log.h"
#include <cinttypes> #include <cinttypes>
#include <iomanip>
#include <sstream>
namespace esphome { namespace esphome {
namespace cse7766 { namespace cse7766 {
@ -68,20 +70,26 @@ bool CSE7766Component::check_byte_() {
return true; return true;
} }
void CSE7766Component::parse_data_() { void CSE7766Component::parse_data_() {
ESP_LOGVV(TAG, "CSE7766 Data: "); #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERY_VERBOSE
for (uint8_t i = 0; i < 23; i++) { {
ESP_LOGVV(TAG, " %u: 0b" BYTE_TO_BINARY_PATTERN " (0x%02X)", i + 1, BYTE_TO_BINARY(this->raw_data_[i]), std::stringstream ss;
this->raw_data_[i]); ss << "Raw data:" << std::hex << std::uppercase << std::setfill('0');
for (uint8_t i = 0; i < 23; i++) {
ss << ' ' << std::setw(2) << static_cast<unsigned>(this->raw_data_[i]);
}
ESP_LOGVV(TAG, "%s", ss.str().c_str());
} }
#endif
// Parse header
uint8_t header1 = this->raw_data_[0]; uint8_t header1 = this->raw_data_[0];
if (header1 == 0xAA) { if (header1 == 0xAA) {
ESP_LOGE(TAG, "CSE7766 not calibrated!"); ESP_LOGE(TAG, "CSE7766 not calibrated!");
return; return;
} }
bool power_cycle_exceeds_range = false; bool power_cycle_exceeds_range = false;
if ((header1 & 0xF0) == 0xF0) { if ((header1 & 0xF0) == 0xF0) {
if (header1 & 0xD) { if (header1 & 0xD) {
ESP_LOGE(TAG, "CSE7766 reports abnormal external circuit or chip damage: (0x%02X)", header1); ESP_LOGE(TAG, "CSE7766 reports abnormal external circuit or chip damage: (0x%02X)", header1);
@ -94,74 +102,106 @@ void CSE7766Component::parse_data_() {
if (header1 & (1 << 0)) { if (header1 & (1 << 0)) {
ESP_LOGE(TAG, " Coefficient storage area is abnormal."); ESP_LOGE(TAG, " Coefficient storage area is abnormal.");
} }
// Datasheet: voltage or current cycle exceeding range means invalid values
return; return;
} }
power_cycle_exceeds_range = header1 & (1 << 1); power_cycle_exceeds_range = header1 & (1 << 1);
} }
uint32_t voltage_calib = this->get_24_bit_uint_(2); // Parse data frame
uint32_t voltage_coeff = this->get_24_bit_uint_(2);
uint32_t voltage_cycle = this->get_24_bit_uint_(5); uint32_t voltage_cycle = this->get_24_bit_uint_(5);
uint32_t current_calib = this->get_24_bit_uint_(8); uint32_t current_coeff = this->get_24_bit_uint_(8);
uint32_t current_cycle = this->get_24_bit_uint_(11); uint32_t current_cycle = this->get_24_bit_uint_(11);
uint32_t power_calib = this->get_24_bit_uint_(14); uint32_t power_coeff = this->get_24_bit_uint_(14);
uint32_t power_cycle = this->get_24_bit_uint_(17); uint32_t power_cycle = this->get_24_bit_uint_(17);
uint8_t adj = this->raw_data_[20]; uint8_t adj = this->raw_data_[20];
uint32_t cf_pulses = (this->raw_data_[21] << 8) + this->raw_data_[22]; uint32_t cf_pulses = (this->raw_data_[21] << 8) + this->raw_data_[22];
bool have_power = adj & 0x10;
bool have_current = adj & 0x20;
bool have_voltage = adj & 0x40; bool have_voltage = adj & 0x40;
float voltage = 0.0f;
if (have_voltage) { if (have_voltage) {
// voltage cycle of serial port outputted is a complete cycle; voltage = voltage_coeff / float(voltage_cycle);
float voltage = voltage_calib / float(voltage_cycle); if (this->voltage_sensor_ != nullptr) {
if (this->voltage_sensor_ != nullptr)
this->voltage_sensor_->publish_state(voltage); this->voltage_sensor_->publish_state(voltage);
}
} }
bool have_power = adj & 0x10;
float power = 0.0f; float power = 0.0f;
float energy = 0.0f;
if (have_power) { if (power_cycle_exceeds_range) {
// power cycle of serial port outputted is a complete cycle; // Datasheet: power cycle exceeding range means active power is 0
// According to the user manual, power cycle exceeding range means the measured power is 0 if (this->power_sensor_ != nullptr) {
if (!power_cycle_exceeds_range) { this->power_sensor_->publish_state(0.0f);
power = power_calib / float(power_cycle);
} }
if (this->power_sensor_ != nullptr) } else if (have_power) {
power = power_coeff / float(power_cycle);
if (this->power_sensor_ != nullptr) {
this->power_sensor_->publish_state(power); this->power_sensor_->publish_state(power);
}
// Add CF pulses to the total energy only if we have Power coefficient to multiply by
uint32_t difference;
if (this->cf_pulses_last_ == 0) { if (this->cf_pulses_last_ == 0) {
this->cf_pulses_last_ = cf_pulses; this->cf_pulses_last_ = cf_pulses;
} }
uint32_t cf_diff;
if (cf_pulses < this->cf_pulses_last_) { if (cf_pulses < this->cf_pulses_last_) {
difference = cf_pulses + (0x10000 - this->cf_pulses_last_); cf_diff = cf_pulses + (0x10000 - this->cf_pulses_last_);
} else { } else {
difference = cf_pulses - this->cf_pulses_last_; cf_diff = cf_pulses - this->cf_pulses_last_;
} }
this->cf_pulses_last_ = cf_pulses; this->cf_pulses_last_ = cf_pulses;
this->energy_total_ += difference * float(power_calib) / 1000000.0f / 3600.0f;
energy = cf_diff * float(power_coeff) / 1000000.0f / 3600.0f;
this->energy_total_ += energy;
if (this->energy_sensor_ != nullptr) if (this->energy_sensor_ != nullptr)
this->energy_sensor_->publish_state(this->energy_total_); this->energy_sensor_->publish_state(this->energy_total_);
} else if ((this->energy_sensor_ != nullptr) && !this->energy_sensor_->has_state()) { } else if ((this->energy_sensor_ != nullptr) && !this->energy_sensor_->has_state()) {
this->energy_sensor_->publish_state(0); this->energy_sensor_->publish_state(0);
} }
if (adj & 0x20) { float current = 0.0f;
// indicates current cycle of serial port outputted is a complete cycle; float calculated_current = 0.0f;
float current = 0.0f; if (have_current) {
if (have_voltage && !have_power) { // Assumption: if we don't have power measurement, then current is likely below 50mA
// Testing has shown that when we have voltage and current but not power, that means the power is 0. if (have_power && voltage > 1.0f) {
// We report a power of 0, which in turn means we should report a current of 0. calculated_current = power / voltage;
if (this->power_sensor_ != nullptr)
this->power_sensor_->publish_state(0);
} else if (power != 0.0f) {
current = current_calib / float(current_cycle);
} }
if (this->current_sensor_ != nullptr) // Datasheet: minimum measured current is 50mA
if (calculated_current > 0.05f) {
current = current_coeff / float(current_cycle);
}
if (this->current_sensor_ != nullptr) {
this->current_sensor_->publish_state(current); this->current_sensor_->publish_state(current);
}
} }
#if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERY_VERBOSE
{
std::stringstream ss;
ss << "Parsed:";
if (have_voltage) {
ss << " V=" << voltage << "V";
}
if (have_current) {
ss << " I=" << current * 1000.0f << "mA (~" << calculated_current * 1000.0f << "mA)";
}
if (have_power) {
ss << " P=" << power << "W";
}
if (energy != 0.0f) {
ss << " E=" << energy << "kWh (" << cf_pulses << ")";
}
ESP_LOGVV(TAG, "%s", ss.str().c_str());
}
#endif
} }
uint32_t CSE7766Component::get_24_bit_uint_(uint8_t start_index) { uint32_t CSE7766Component::get_24_bit_uint_(uint8_t start_index) {

View file

@ -168,10 +168,6 @@ bool IRAM_ATTR DallasTemperatureSensor::read_scratch_pad() {
if (!wire->reset()) { if (!wire->reset()) {
return false; return false;
} }
}
{
InterruptLock lock;
wire->select(this->address_); wire->select(this->address_);
wire->write8(DALLAS_COMMAND_READ_SCRATCH_PAD); wire->write8(DALLAS_COMMAND_READ_SCRATCH_PAD);

View file

@ -160,11 +160,13 @@ light::ESPColorView ESP32RMTLEDStripLightOutput::get_view_internal(int32_t index
b = 0; b = 0;
break; break;
} }
uint8_t multiplier = this->is_rgbw_ ? 4 : 3; uint8_t multiplier = this->is_rgbw_ || this->is_wrgb_ ? 4 : 3;
return {this->buf_ + (index * multiplier) + r, uint8_t white = this->is_wrgb_ ? 0 : 3;
this->buf_ + (index * multiplier) + g,
this->buf_ + (index * multiplier) + b, return {this->buf_ + (index * multiplier) + r + this->is_wrgb_,
this->is_rgbw_ ? this->buf_ + (index * multiplier) + 3 : nullptr, this->buf_ + (index * multiplier) + g + this->is_wrgb_,
this->buf_ + (index * multiplier) + b + this->is_wrgb_,
this->is_rgbw_ || this->is_wrgb_ ? this->buf_ + (index * multiplier) + white : nullptr,
&this->effect_data_[index], &this->effect_data_[index],
&this->correction_}; &this->correction_};
} }

View file

@ -33,7 +33,7 @@ class ESP32RMTLEDStripLightOutput : public light::AddressableLight {
int32_t size() const override { return this->num_leds_; } int32_t size() const override { return this->num_leds_; }
light::LightTraits get_traits() override { light::LightTraits get_traits() override {
auto traits = light::LightTraits(); auto traits = light::LightTraits();
if (this->is_rgbw_) { if (this->is_rgbw_ || this->is_wrgb_) {
traits.set_supported_color_modes({light::ColorMode::RGB_WHITE, light::ColorMode::WHITE}); traits.set_supported_color_modes({light::ColorMode::RGB_WHITE, light::ColorMode::WHITE});
} else { } else {
traits.set_supported_color_modes({light::ColorMode::RGB}); traits.set_supported_color_modes({light::ColorMode::RGB});
@ -44,6 +44,7 @@ class ESP32RMTLEDStripLightOutput : public light::AddressableLight {
void set_pin(uint8_t pin) { this->pin_ = pin; } void set_pin(uint8_t pin) { this->pin_ = pin; }
void set_num_leds(uint16_t num_leds) { this->num_leds_ = num_leds; } void set_num_leds(uint16_t num_leds) { this->num_leds_ = num_leds; }
void set_is_rgbw(bool is_rgbw) { this->is_rgbw_ = is_rgbw; } void set_is_rgbw(bool is_rgbw) { this->is_rgbw_ = is_rgbw; }
void set_is_wrgb(bool is_wrgb) { this->is_wrgb_ = is_wrgb; }
/// Set a maximum refresh rate in µs as some lights do not like being updated too often. /// Set a maximum refresh rate in µs as some lights do not like being updated too often.
void set_max_refresh_rate(uint32_t interval_us) { this->max_refresh_rate_ = interval_us; } void set_max_refresh_rate(uint32_t interval_us) { this->max_refresh_rate_ = interval_us; }
@ -72,6 +73,7 @@ class ESP32RMTLEDStripLightOutput : public light::AddressableLight {
uint8_t pin_; uint8_t pin_;
uint16_t num_leds_; uint16_t num_leds_;
bool is_rgbw_; bool is_rgbw_;
bool is_wrgb_;
rmt_item32_t bit0_, bit1_; rmt_item32_t bit0_, bit1_;
RGBOrder rgb_order_; RGBOrder rgb_order_;

View file

@ -52,6 +52,7 @@ CHIPSETS = {
CONF_IS_RGBW = "is_rgbw" CONF_IS_RGBW = "is_rgbw"
CONF_IS_WRGB = "is_wrgb"
CONF_BIT0_HIGH = "bit0_high" CONF_BIT0_HIGH = "bit0_high"
CONF_BIT0_LOW = "bit0_low" CONF_BIT0_LOW = "bit0_low"
CONF_BIT1_HIGH = "bit1_high" CONF_BIT1_HIGH = "bit1_high"
@ -90,6 +91,7 @@ CONFIG_SCHEMA = cv.All(
cv.Optional(CONF_MAX_REFRESH_RATE): cv.positive_time_period_microseconds, cv.Optional(CONF_MAX_REFRESH_RATE): cv.positive_time_period_microseconds,
cv.Optional(CONF_CHIPSET): cv.one_of(*CHIPSETS, upper=True), cv.Optional(CONF_CHIPSET): cv.one_of(*CHIPSETS, upper=True),
cv.Optional(CONF_IS_RGBW, default=False): cv.boolean, cv.Optional(CONF_IS_RGBW, default=False): cv.boolean,
cv.Optional(CONF_IS_WRGB, default=False): cv.boolean,
cv.Inclusive( cv.Inclusive(
CONF_BIT0_HIGH, CONF_BIT0_HIGH,
"custom", "custom",
@ -145,6 +147,7 @@ async def to_code(config):
cg.add(var.set_rgb_order(config[CONF_RGB_ORDER])) cg.add(var.set_rgb_order(config[CONF_RGB_ORDER]))
cg.add(var.set_is_rgbw(config[CONF_IS_RGBW])) cg.add(var.set_is_rgbw(config[CONF_IS_RGBW]))
cg.add(var.set_is_wrgb(config[CONF_IS_WRGB]))
cg.add( cg.add(
var.set_rmt_channel( var.set_rmt_channel(

View file

@ -119,4 +119,4 @@ def to_code(config):
cg.add_library("tonia/HeatpumpIR", "1.0.23") cg.add_library("tonia/HeatpumpIR", "1.0.23")
if CORE.is_esp8266 or CORE.is_esp32: if CORE.is_esp8266 or CORE.is_esp32:
cg.add_library("crankyoldgit/IRremoteESP8266", "2.7.12") cg.add_library("crankyoldgit/IRremoteESP8266", "2.8.4")

View file

@ -4,6 +4,7 @@ from esphome.const import (
KEY_TARGET_FRAMEWORK, KEY_TARGET_FRAMEWORK,
KEY_TARGET_PLATFORM, KEY_TARGET_PLATFORM,
PLATFORM_HOST, PLATFORM_HOST,
CONF_MAC_ADDRESS,
) )
from esphome.core import CORE from esphome.core import CORE
from esphome.helpers import IS_MACOS from esphome.helpers import IS_MACOS
@ -28,13 +29,18 @@ def set_core_data(config):
CONFIG_SCHEMA = cv.All( CONFIG_SCHEMA = cv.All(
cv.Schema({}), cv.Schema(
{
cv.Optional(CONF_MAC_ADDRESS, default="98:35:69:ab:f6:79"): cv.mac_address,
}
),
set_core_data, set_core_data,
) )
async def to_code(config): async def to_code(config):
cg.add_build_flag("-DUSE_HOST") cg.add_build_flag("-DUSE_HOST")
cg.add_define("USE_ESPHOME_HOST_MAC_ADDRESS", config[CONF_MAC_ADDRESS].parts)
cg.add_build_flag("-std=c++17") cg.add_build_flag("-std=c++17")
cg.add_build_flag("-lsodium") cg.add_build_flag("-lsodium")
if IS_MACOS: if IS_MACOS:

View file

@ -0,0 +1 @@
CODEOWNERS = ["@Sergio303", "@latonita"]

View file

@ -33,31 +33,37 @@ static const uint8_t INA226_REGISTER_POWER = 0x03;
static const uint8_t INA226_REGISTER_CURRENT = 0x04; static const uint8_t INA226_REGISTER_CURRENT = 0x04;
static const uint8_t INA226_REGISTER_CALIBRATION = 0x05; static const uint8_t INA226_REGISTER_CALIBRATION = 0x05;
static const uint16_t INA226_ADC_TIMES[] = {140, 204, 332, 588, 1100, 2116, 4156, 8244};
static const uint16_t INA226_ADC_AVG_SAMPLES[] = {1, 4, 16, 64, 128, 256, 512, 1024};
void INA226Component::setup() { void INA226Component::setup() {
ESP_LOGCONFIG(TAG, "Setting up INA226..."); ESP_LOGCONFIG(TAG, "Setting up INA226...");
// Config Register
// 0bx000000000000000 << 15 RESET Bit (1 -> trigger reset) ConfigurationRegister config;
if (!this->write_byte_16(INA226_REGISTER_CONFIG, 0x8000)) {
config.reset = 1;
if (!this->write_byte_16(INA226_REGISTER_CONFIG, config.raw)) {
this->mark_failed(); this->mark_failed();
return; return;
} }
delay(1); delay(1);
uint16_t config = 0x0000; config.raw = 0;
config.reserved = 0b100; // as per datasheet
// Averaging Mode AVG Bit Settings[11:9] (000 -> 1 sample, 001 -> 4 sample, 111 -> 1024 samples) // Averaging Mode AVG Bit Settings[11:9] (000 -> 1 sample, 001 -> 4 sample, 111 -> 1024 samples)
config |= 0b0000001000000000; config.avg_samples = this->adc_avg_samples_;
// Bus Voltage Conversion Time VBUSCT Bit Settings [8:6] (100 -> 1.1ms, 111 -> 8.244 ms) // Bus Voltage Conversion Time VBUSCT Bit Settings [8:6] (100 -> 1.1ms, 111 -> 8.244 ms)
config |= 0b0000000100000000; config.bus_voltage_conversion_time = this->adc_time_;
// Shunt Voltage Conversion Time VSHCT Bit Settings [5:3] (100 -> 1.1ms, 111 -> 8.244 ms) // Shunt Voltage Conversion Time VSHCT Bit Settings [5:3] (100 -> 1.1ms, 111 -> 8.244 ms)
config |= 0b0000000000100000; config.shunt_voltage_conversion_time = this->adc_time_;
// Mode Settings [2:0] Combinations (111 -> Shunt and Bus, Continuous) // Mode Settings [2:0] Combinations (111 -> Shunt and Bus, Continuous)
config |= 0b0000000000000111; config.mode = 0b111;
if (!this->write_byte_16(INA226_REGISTER_CONFIG, config)) { if (!this->write_byte_16(INA226_REGISTER_CONFIG, config.raw)) {
this->mark_failed(); this->mark_failed();
return; return;
} }
@ -87,6 +93,9 @@ void INA226Component::dump_config() {
} }
LOG_UPDATE_INTERVAL(this); LOG_UPDATE_INTERVAL(this);
ESP_LOGCONFIG(TAG, " ADC Conversion Time: %d", INA226_ADC_TIMES[this->adc_time_ & 0b111]);
ESP_LOGCONFIG(TAG, " ADC Averaging Samples: %d", INA226_ADC_AVG_SAMPLES[this->adc_avg_samples_ & 0b111]);
LOG_SENSOR(" ", "Bus Voltage", this->bus_voltage_sensor_); LOG_SENSOR(" ", "Bus Voltage", this->bus_voltage_sensor_);
LOG_SENSOR(" ", "Shunt Voltage", this->shunt_voltage_sensor_); LOG_SENSOR(" ", "Shunt Voltage", this->shunt_voltage_sensor_);
LOG_SENSOR(" ", "Current", this->current_sensor_); LOG_SENSOR(" ", "Current", this->current_sensor_);
@ -102,7 +111,9 @@ void INA226Component::update() {
this->status_set_warning(); this->status_set_warning();
return; return;
} }
float bus_voltage_v = int16_t(raw_bus_voltage) * 0.00125f; // Convert for 2's compliment and signed value (though always positive)
float bus_voltage_v = this->twos_complement_(raw_bus_voltage, 16);
bus_voltage_v *= 0.00125f;
this->bus_voltage_sensor_->publish_state(bus_voltage_v); this->bus_voltage_sensor_->publish_state(bus_voltage_v);
} }
@ -112,7 +123,9 @@ void INA226Component::update() {
this->status_set_warning(); this->status_set_warning();
return; return;
} }
float shunt_voltage_v = int16_t(raw_shunt_voltage) * 0.0000025f; // Convert for 2's compliment and signed value
float shunt_voltage_v = this->twos_complement_(raw_shunt_voltage, 16);
shunt_voltage_v *= 0.0000025f;
this->shunt_voltage_sensor_->publish_state(shunt_voltage_v); this->shunt_voltage_sensor_->publish_state(shunt_voltage_v);
} }
@ -122,7 +135,9 @@ void INA226Component::update() {
this->status_set_warning(); this->status_set_warning();
return; return;
} }
float current_ma = int16_t(raw_current) * (this->calibration_lsb_ / 1000.0f); // Convert for 2's compliment and signed value
float current_ma = this->twos_complement_(raw_current, 16);
current_ma *= (this->calibration_lsb_ / 1000.0f);
this->current_sensor_->publish_state(current_ma / 1000.0f); this->current_sensor_->publish_state(current_ma / 1000.0f);
} }
@ -139,5 +154,12 @@ void INA226Component::update() {
this->status_clear_warning(); this->status_clear_warning();
} }
int32_t INA226Component::twos_complement_(int32_t val, uint8_t bits) {
if (val & ((uint32_t) 1 << (bits - 1))) {
val -= (uint32_t) 1 << bits;
}
return val;
}
} // namespace ina226 } // namespace ina226
} // namespace esphome } // namespace esphome

View file

@ -7,6 +7,40 @@
namespace esphome { namespace esphome {
namespace ina226 { namespace ina226 {
enum AdcTime : uint16_t {
ADC_TIME_140US = 0,
ADC_TIME_204US = 1,
ADC_TIME_332US = 2,
ADC_TIME_588US = 3,
ADC_TIME_1100US = 4,
ADC_TIME_2116US = 5,
ADC_TIME_4156US = 6,
ADC_TIME_8244US = 7
};
enum AdcAvgSamples : uint16_t {
ADC_AVG_SAMPLES_1 = 0,
ADC_AVG_SAMPLES_4 = 1,
ADC_AVG_SAMPLES_16 = 2,
ADC_AVG_SAMPLES_64 = 3,
ADC_AVG_SAMPLES_128 = 4,
ADC_AVG_SAMPLES_256 = 5,
ADC_AVG_SAMPLES_512 = 6,
ADC_AVG_SAMPLES_1024 = 7
};
union ConfigurationRegister {
uint16_t raw;
struct {
uint16_t mode : 3;
AdcTime shunt_voltage_conversion_time : 3;
AdcTime bus_voltage_conversion_time : 3;
AdcAvgSamples avg_samples : 3;
uint16_t reserved : 3;
uint16_t reset : 1;
} __attribute__((packed));
};
class INA226Component : public PollingComponent, public i2c::I2CDevice { class INA226Component : public PollingComponent, public i2c::I2CDevice {
public: public:
void setup() override; void setup() override;
@ -16,6 +50,9 @@ class INA226Component : public PollingComponent, public i2c::I2CDevice {
void set_shunt_resistance_ohm(float shunt_resistance_ohm) { shunt_resistance_ohm_ = shunt_resistance_ohm; } void set_shunt_resistance_ohm(float shunt_resistance_ohm) { shunt_resistance_ohm_ = shunt_resistance_ohm; }
void set_max_current_a(float max_current_a) { max_current_a_ = max_current_a; } void set_max_current_a(float max_current_a) { max_current_a_ = max_current_a; }
void set_adc_time(AdcTime time) { adc_time_ = time; }
void set_adc_avg_samples(AdcAvgSamples samples) { adc_avg_samples_ = samples; }
void set_bus_voltage_sensor(sensor::Sensor *bus_voltage_sensor) { bus_voltage_sensor_ = bus_voltage_sensor; } void set_bus_voltage_sensor(sensor::Sensor *bus_voltage_sensor) { bus_voltage_sensor_ = bus_voltage_sensor; }
void set_shunt_voltage_sensor(sensor::Sensor *shunt_voltage_sensor) { shunt_voltage_sensor_ = shunt_voltage_sensor; } void set_shunt_voltage_sensor(sensor::Sensor *shunt_voltage_sensor) { shunt_voltage_sensor_ = shunt_voltage_sensor; }
void set_current_sensor(sensor::Sensor *current_sensor) { current_sensor_ = current_sensor; } void set_current_sensor(sensor::Sensor *current_sensor) { current_sensor_ = current_sensor; }
@ -24,11 +61,15 @@ class INA226Component : public PollingComponent, public i2c::I2CDevice {
protected: protected:
float shunt_resistance_ohm_; float shunt_resistance_ohm_;
float max_current_a_; float max_current_a_;
AdcTime adc_time_{AdcTime::ADC_TIME_1100US};
AdcAvgSamples adc_avg_samples_{AdcAvgSamples::ADC_AVG_SAMPLES_4};
uint32_t calibration_lsb_; uint32_t calibration_lsb_;
sensor::Sensor *bus_voltage_sensor_{nullptr}; sensor::Sensor *bus_voltage_sensor_{nullptr};
sensor::Sensor *shunt_voltage_sensor_{nullptr}; sensor::Sensor *shunt_voltage_sensor_{nullptr};
sensor::Sensor *current_sensor_{nullptr}; sensor::Sensor *current_sensor_{nullptr};
sensor::Sensor *power_sensor_{nullptr}; sensor::Sensor *power_sensor_{nullptr};
int32_t twos_complement_(int32_t val, uint8_t bits);
}; };
} // namespace ina226 } // namespace ina226

View file

@ -20,11 +20,44 @@ from esphome.const import (
DEPENDENCIES = ["i2c"] DEPENDENCIES = ["i2c"]
CONF_ADC_AVERAGING = "adc_averaging"
CONF_ADC_TIME = "adc_time"
ina226_ns = cg.esphome_ns.namespace("ina226") ina226_ns = cg.esphome_ns.namespace("ina226")
INA226Component = ina226_ns.class_( INA226Component = ina226_ns.class_(
"INA226Component", cg.PollingComponent, i2c.I2CDevice "INA226Component", cg.PollingComponent, i2c.I2CDevice
) )
AdcTime = ina226_ns.enum("AdcTime")
ADC_TIMES = {
140: AdcTime.ADC_TIME_140US,
204: AdcTime.ADC_TIME_204US,
332: AdcTime.ADC_TIME_332US,
588: AdcTime.ADC_TIME_588US,
1100: AdcTime.ADC_TIME_1100US,
2116: AdcTime.ADC_TIME_2116US,
4156: AdcTime.ADC_TIME_4156US,
8244: AdcTime.ADC_TIME_8244US,
}
AdcAvgSamples = ina226_ns.enum("AdcAvgSamples")
ADC_AVG_SAMPLES = {
1: AdcAvgSamples.ADC_AVG_SAMPLES_1,
4: AdcAvgSamples.ADC_AVG_SAMPLES_4,
16: AdcAvgSamples.ADC_AVG_SAMPLES_16,
64: AdcAvgSamples.ADC_AVG_SAMPLES_64,
128: AdcAvgSamples.ADC_AVG_SAMPLES_128,
256: AdcAvgSamples.ADC_AVG_SAMPLES_256,
512: AdcAvgSamples.ADC_AVG_SAMPLES_512,
1024: AdcAvgSamples.ADC_AVG_SAMPLES_1024,
}
def validate_adc_time(value):
value = cv.positive_time_period_microseconds(value).total_microseconds
return cv.enum(ADC_TIMES, int=True)(value)
CONFIG_SCHEMA = ( CONFIG_SCHEMA = (
cv.Schema( cv.Schema(
{ {
@ -59,6 +92,10 @@ CONFIG_SCHEMA = (
cv.Optional(CONF_MAX_CURRENT, default=3.2): cv.All( cv.Optional(CONF_MAX_CURRENT, default=3.2): cv.All(
cv.current, cv.Range(min=0.0) cv.current, cv.Range(min=0.0)
), ),
cv.Optional(CONF_ADC_TIME, default="1100 us"): validate_adc_time,
cv.Optional(CONF_ADC_AVERAGING, default=4): cv.enum(
ADC_AVG_SAMPLES, int=True
),
} }
) )
.extend(cv.polling_component_schema("60s")) .extend(cv.polling_component_schema("60s"))
@ -72,8 +109,9 @@ async def to_code(config):
await i2c.register_i2c_device(var, config) await i2c.register_i2c_device(var, config)
cg.add(var.set_shunt_resistance_ohm(config[CONF_SHUNT_RESISTANCE])) cg.add(var.set_shunt_resistance_ohm(config[CONF_SHUNT_RESISTANCE]))
cg.add(var.set_max_current_a(config[CONF_MAX_CURRENT])) cg.add(var.set_max_current_a(config[CONF_MAX_CURRENT]))
cg.add(var.set_adc_time(config[CONF_ADC_TIME]))
cg.add(var.set_adc_avg_samples(config[CONF_ADC_AVERAGING]))
if CONF_BUS_VOLTAGE in config: if CONF_BUS_VOLTAGE in config:
sens = await sensor.new_sensor(config[CONF_BUS_VOLTAGE]) sens = await sensor.new_sensor(config[CONF_BUS_VOLTAGE])

View file

@ -120,6 +120,7 @@ void LightState::loop() {
// Apply transformer (if any) // Apply transformer (if any)
if (this->transformer_ != nullptr) { if (this->transformer_ != nullptr) {
auto values = this->transformer_->apply(); auto values = this->transformer_->apply();
this->is_transformer_active_ = true;
if (values.has_value()) { if (values.has_value()) {
this->current_values = *values; this->current_values = *values;
this->output_->update_state(this); this->output_->update_state(this);
@ -131,6 +132,7 @@ void LightState::loop() {
this->current_values = this->transformer_->get_target_values(); this->current_values = this->transformer_->get_target_values();
this->transformer_->stop(); this->transformer_->stop();
this->is_transformer_active_ = false;
this->transformer_ = nullptr; this->transformer_ = nullptr;
this->target_state_reached_callback_.call(); this->target_state_reached_callback_.call();
} }
@ -214,6 +216,8 @@ void LightState::current_values_as_ct(float *color_temperature, float *white_bri
this->gamma_correct_); this->gamma_correct_);
} }
bool LightState::is_transformer_active() { return this->is_transformer_active_; }
void LightState::start_effect_(uint32_t effect_index) { void LightState::start_effect_(uint32_t effect_index) {
this->stop_effect_(); this->stop_effect_();
if (effect_index == 0) if (effect_index == 0)
@ -263,6 +267,7 @@ void LightState::start_flash_(const LightColorValues &target, uint32_t length, b
} }
void LightState::set_immediately_(const LightColorValues &target, bool set_remote_values) { void LightState::set_immediately_(const LightColorValues &target, bool set_remote_values) {
this->is_transformer_active_ = false;
this->transformer_ = nullptr; this->transformer_ = nullptr;
this->current_values = target; this->current_values = target;
if (set_remote_values) { if (set_remote_values) {

View file

@ -144,6 +144,17 @@ class LightState : public EntityBase, public Component {
void current_values_as_ct(float *color_temperature, float *white_brightness); void current_values_as_ct(float *color_temperature, float *white_brightness);
/**
* Indicator if a transformer (e.g. transition) is active. This is useful
* for effects e.g. at the start of the apply() method, add a check like:
*
* if (this->state_->is_transformer_active()) {
* // Something is already running.
* return;
* }
*/
bool is_transformer_active();
protected: protected:
friend LightOutput; friend LightOutput;
friend LightCall; friend LightCall;
@ -203,6 +214,9 @@ class LightState : public EntityBase, public Component {
LightRestoreMode restore_mode_; LightRestoreMode restore_mode_;
/// List of effects for this light. /// List of effects for this light.
std::vector<LightEffect *> effects_; std::vector<LightEffect *> effects_;
// for effects, true if a transformer (transition) is active.
bool is_transformer_active_ = false;
}; };
} // namespace light } // namespace light

View file

@ -3,6 +3,8 @@
#include "esphome/core/component.h" #include "esphome/core/component.h"
#include "esphome/core/hal.h" #include "esphome/core/hal.h"
#include <vector>
namespace esphome { namespace esphome {
namespace lightwaverf { namespace lightwaverf {

View file

@ -212,6 +212,14 @@ void HOT Logger::log_message_(int level, const char *tag, int offset) {
return; return;
#endif #endif
#ifdef USE_HOST #ifdef USE_HOST
time_t rawtime;
struct tm *timeinfo;
char buffer[80];
time(&rawtime);
timeinfo = localtime(&rawtime);
strftime(buffer, sizeof buffer, "[%H:%M:%S]", timeinfo);
fputs(buffer, stdout);
puts(msg); puts(msg);
#endif #endif

View file

@ -0,0 +1,367 @@
import logging
import json
import hashlib
from urllib.parse import urljoin
from pathlib import Path
import requests
import esphome.config_validation as cv
import esphome.codegen as cg
from esphome.core import CORE, HexInt, EsphomeError
from esphome.components import esp32, microphone
from esphome import automation, git, external_files
from esphome.automation import register_action, register_condition
from esphome.const import (
__version__,
CONF_ID,
CONF_MICROPHONE,
CONF_MODEL,
CONF_URL,
CONF_FILE,
CONF_PATH,
CONF_REF,
CONF_REFRESH,
CONF_TYPE,
CONF_USERNAME,
CONF_PASSWORD,
CONF_RAW_DATA_ID,
TYPE_GIT,
TYPE_LOCAL,
)
_LOGGER = logging.getLogger(__name__)
CODEOWNERS = ["@kahrendt", "@jesserockz"]
DEPENDENCIES = ["microphone"]
DOMAIN = "micro_wake_word"
CONF_PROBABILITY_CUTOFF = "probability_cutoff"
CONF_SLIDING_WINDOW_AVERAGE_SIZE = "sliding_window_average_size"
CONF_ON_WAKE_WORD_DETECTED = "on_wake_word_detected"
TYPE_HTTP = "http"
micro_wake_word_ns = cg.esphome_ns.namespace("micro_wake_word")
MicroWakeWord = micro_wake_word_ns.class_("MicroWakeWord", cg.Component)
StartAction = micro_wake_word_ns.class_("StartAction", automation.Action)
StopAction = micro_wake_word_ns.class_("StopAction", automation.Action)
IsRunningCondition = micro_wake_word_ns.class_(
"IsRunningCondition", automation.Condition
)
def _validate_json_filename(value):
value = cv.string(value)
if not value.endswith(".json"):
raise cv.Invalid("Manifest filename must end with .json")
return value
def _process_git_source(config):
repo_dir, _ = git.clone_or_update(
url=config[CONF_URL],
ref=config.get(CONF_REF),
refresh=config[CONF_REFRESH],
domain=DOMAIN,
username=config.get(CONF_USERNAME),
password=config.get(CONF_PASSWORD),
)
if not (repo_dir / config[CONF_FILE]).exists():
raise cv.Invalid("File does not exist in repository")
return config
CV_GIT_SCHEMA = cv.GIT_SCHEMA
if isinstance(CV_GIT_SCHEMA, dict):
CV_GIT_SCHEMA = cv.Schema(CV_GIT_SCHEMA)
GIT_SCHEMA = cv.All(
CV_GIT_SCHEMA.extend(
{
cv.Required(CONF_FILE): _validate_json_filename,
cv.Optional(CONF_REFRESH, default="1d"): cv.All(
cv.string, cv.source_refresh
),
}
),
_process_git_source,
)
KEY_WAKE_WORD = "wake_word"
KEY_AUTHOR = "author"
KEY_WEBSITE = "website"
KEY_VERSION = "version"
KEY_MICRO = "micro"
KEY_MINIMUM_ESPHOME_VERSION = "minimum_esphome_version"
MANIFEST_SCHEMA_V1 = cv.Schema(
{
cv.Required(CONF_TYPE): "micro",
cv.Required(KEY_WAKE_WORD): cv.string,
cv.Required(KEY_AUTHOR): cv.string,
cv.Required(KEY_WEBSITE): cv.url,
cv.Required(KEY_VERSION): cv.All(cv.int_, 1),
cv.Required(CONF_MODEL): cv.string,
cv.Required(KEY_MICRO): cv.Schema(
{
cv.Required(CONF_PROBABILITY_CUTOFF): cv.float_,
cv.Required(CONF_SLIDING_WINDOW_AVERAGE_SIZE): cv.positive_int,
cv.Optional(KEY_MINIMUM_ESPHOME_VERSION): cv.All(
cv.version_number, cv.validate_esphome_version
),
}
),
}
)
def _compute_local_file_path(config: dict) -> Path:
url = config[CONF_URL]
h = hashlib.new("sha256")
h.update(url.encode())
key = h.hexdigest()[:8]
base_dir = external_files.compute_local_file_dir(DOMAIN)
return base_dir / key
def _download_file(url: str, path: Path) -> bytes:
if not external_files.has_remote_file_changed(url, path):
_LOGGER.debug("Remote file has not changed, skipping download")
return path.read_bytes()
try:
req = requests.get(
url,
timeout=external_files.NETWORK_TIMEOUT,
headers={"User-agent": f"ESPHome/{__version__} (https://esphome.io)"},
)
req.raise_for_status()
except requests.exceptions.RequestException as e:
raise cv.Invalid(f"Could not download file from {url}: {e}") from e
path.parent.mkdir(parents=True, exist_ok=True)
path.write_bytes(req.content)
return req.content
def _process_http_source(config):
url = config[CONF_URL]
path = _compute_local_file_path(config)
json_path = path / "manifest.json"
json_contents = _download_file(url, json_path)
manifest_data = json.loads(json_contents)
if not isinstance(manifest_data, dict):
raise cv.Invalid("Manifest file must contain a JSON object")
try:
MANIFEST_SCHEMA_V1(manifest_data)
except cv.Invalid as e:
raise cv.Invalid(f"Invalid manifest file: {e}") from e
model = manifest_data[CONF_MODEL]
model_url = urljoin(url, model)
model_path = path / model
_download_file(str(model_url), model_path)
return config
HTTP_SCHEMA = cv.All(
{
cv.Required(CONF_URL): cv.url,
},
_process_http_source,
)
LOCAL_SCHEMA = cv.Schema(
{
cv.Required(CONF_PATH): cv.All(_validate_json_filename, cv.file_),
}
)
def _validate_source_model_name(value):
if not isinstance(value, str):
raise cv.Invalid("Model name must be a string")
if value.endswith(".json"):
raise cv.Invalid("Model name must not end with .json")
return MODEL_SOURCE_SCHEMA(
{
CONF_TYPE: TYPE_HTTP,
CONF_URL: f"https://github.com/esphome/micro-wake-word-models/raw/main/models/{value}.json",
}
)
def _validate_source_shorthand(value):
if not isinstance(value, str):
raise cv.Invalid("Shorthand only for strings")
try: # Test for model name
return _validate_source_model_name(value)
except cv.Invalid:
pass
try: # Test for local path
return MODEL_SOURCE_SCHEMA({CONF_TYPE: TYPE_LOCAL, CONF_PATH: value})
except cv.Invalid:
pass
try: # Test for http url
return MODEL_SOURCE_SCHEMA({CONF_TYPE: TYPE_HTTP, CONF_URL: value})
except cv.Invalid:
pass
git_file = git.GitFile.from_shorthand(value)
conf = {
CONF_TYPE: TYPE_GIT,
CONF_URL: git_file.git_url,
CONF_FILE: git_file.filename,
}
if git_file.ref:
conf[CONF_REF] = git_file.ref
try:
return MODEL_SOURCE_SCHEMA(conf)
except cv.Invalid as e:
raise cv.Invalid(
f"Could not find file '{git_file.filename}' in the repository. Please make sure it exists."
) from e
MODEL_SOURCE_SCHEMA = cv.Any(
_validate_source_shorthand,
cv.typed_schema(
{
TYPE_GIT: GIT_SCHEMA,
TYPE_LOCAL: LOCAL_SCHEMA,
TYPE_HTTP: HTTP_SCHEMA,
}
),
msg="Not a valid model name, local path, http(s) url, or github shorthand",
)
CONFIG_SCHEMA = cv.All(
cv.Schema(
{
cv.GenerateID(): cv.declare_id(MicroWakeWord),
cv.GenerateID(CONF_MICROPHONE): cv.use_id(microphone.Microphone),
cv.Optional(CONF_PROBABILITY_CUTOFF): cv.percentage,
cv.Optional(CONF_SLIDING_WINDOW_AVERAGE_SIZE): cv.positive_int,
cv.Optional(CONF_ON_WAKE_WORD_DETECTED): automation.validate_automation(
single=True
),
cv.Required(CONF_MODEL): MODEL_SOURCE_SCHEMA,
cv.GenerateID(CONF_RAW_DATA_ID): cv.declare_id(cg.uint8),
}
).extend(cv.COMPONENT_SCHEMA),
cv.only_with_esp_idf,
)
def _load_model_data(manifest_path: Path):
with open(manifest_path, encoding="utf-8") as f:
manifest = json.load(f)
try:
MANIFEST_SCHEMA_V1(manifest)
except cv.Invalid as e:
raise EsphomeError(f"Invalid manifest file: {e}") from e
model_path = urljoin(str(manifest_path), manifest[CONF_MODEL])
with open(model_path, "rb") as f:
model = f.read()
return manifest, model
async def to_code(config):
var = cg.new_Pvariable(config[CONF_ID])
await cg.register_component(var, config)
mic = await cg.get_variable(config[CONF_MICROPHONE])
cg.add(var.set_microphone(mic))
if on_wake_word_detection_config := config.get(CONF_ON_WAKE_WORD_DETECTED):
await automation.build_automation(
var.get_wake_word_detected_trigger(),
[(cg.std_string, "wake_word")],
on_wake_word_detection_config,
)
esp32.add_idf_component(
name="esp-tflite-micro",
repo="https://github.com/espressif/esp-tflite-micro",
)
cg.add_build_flag("-DTF_LITE_STATIC_MEMORY")
cg.add_build_flag("-DTF_LITE_DISABLE_X86_NEON")
cg.add_build_flag("-DESP_NN")
model_config = config.get(CONF_MODEL)
data = []
if model_config[CONF_TYPE] == TYPE_GIT:
# compute path to model file
key = f"{model_config[CONF_URL]}@{model_config.get(CONF_REF)}"
base_dir = Path(CORE.data_dir) / DOMAIN
h = hashlib.new("sha256")
h.update(key.encode())
file: Path = base_dir / h.hexdigest()[:8] / model_config[CONF_FILE]
elif model_config[CONF_TYPE] == TYPE_LOCAL:
file = model_config[CONF_PATH]
elif model_config[CONF_TYPE] == TYPE_HTTP:
file = _compute_local_file_path(model_config) / "manifest.json"
manifest, data = _load_model_data(file)
rhs = [HexInt(x) for x in data]
prog_arr = cg.progmem_array(config[CONF_RAW_DATA_ID], rhs)
cg.add(var.set_model_start(prog_arr))
probability_cutoff = config.get(
CONF_PROBABILITY_CUTOFF, manifest[KEY_MICRO][CONF_PROBABILITY_CUTOFF]
)
cg.add(var.set_probability_cutoff(probability_cutoff))
sliding_window_average_size = config.get(
CONF_SLIDING_WINDOW_AVERAGE_SIZE,
manifest[KEY_MICRO][CONF_SLIDING_WINDOW_AVERAGE_SIZE],
)
cg.add(var.set_sliding_window_average_size(sliding_window_average_size))
cg.add(var.set_wake_word(manifest[KEY_WAKE_WORD]))
MICRO_WAKE_WORD_ACTION_SCHEMA = cv.Schema({cv.GenerateID(): cv.use_id(MicroWakeWord)})
@register_action("micro_wake_word.start", StartAction, MICRO_WAKE_WORD_ACTION_SCHEMA)
@register_action("micro_wake_word.stop", StopAction, MICRO_WAKE_WORD_ACTION_SCHEMA)
@register_condition(
"micro_wake_word.is_running", IsRunningCondition, MICRO_WAKE_WORD_ACTION_SCHEMA
)
async def micro_wake_word_action_to_code(config, action_id, template_arg, args):
var = cg.new_Pvariable(action_id, template_arg)
await cg.register_parented(var, config[CONF_ID])
return var

View file

@ -0,0 +1,493 @@
#pragma once
#ifdef USE_ESP_IDF
// Converted audio_preprocessor_int8.tflite
// From https://github.com/tensorflow/tflite-micro/tree/main/tensorflow/lite/micro/examples/micro_speech/models accessed
// January 2024
//
// Copyright 2023 The TensorFlow Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
namespace esphome {
namespace micro_wake_word {
const unsigned char G_AUDIO_PREPROCESSOR_INT8_TFLITE[] = {
0x1c, 0x00, 0x00, 0x00, 0x54, 0x46, 0x4c, 0x33, 0x14, 0x00, 0x20, 0x00, 0x1c, 0x00, 0x18, 0x00, 0x14, 0x00, 0x10,
0x00, 0x0c, 0x00, 0x00, 0x00, 0x08, 0x00, 0x04, 0x00, 0x14, 0x00, 0x00, 0x00, 0x1c, 0x00, 0x00, 0x00, 0x88, 0x00,
0x00, 0x00, 0xe0, 0x00, 0x00, 0x00, 0x80, 0x0e, 0x00, 0x00, 0x90, 0x0e, 0x00, 0x00, 0xcc, 0x1f, 0x00, 0x00, 0x03,
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} // namespace micro_wake_word
} // namespace esphome
#endif // USE_ESP_IDF

View file

@ -0,0 +1,521 @@
#include "micro_wake_word.h"
/**
* This is a workaround until we can figure out a way to get
* the tflite-micro idf component code available in CI
*
* */
//
#ifndef CLANG_TIDY
#ifdef USE_ESP_IDF
#include "esphome/core/hal.h"
#include "esphome/core/helpers.h"
#include "esphome/core/log.h"
#include "audio_preprocessor_int8_model_data.h"
#include <tensorflow/lite/core/c/common.h>
#include <tensorflow/lite/micro/micro_interpreter.h>
#include <tensorflow/lite/micro/micro_mutable_op_resolver.h>
#include <cmath>
namespace esphome {
namespace micro_wake_word {
static const char *const TAG = "micro_wake_word";
static const size_t SAMPLE_RATE_HZ = 16000; // 16 kHz
static const size_t BUFFER_LENGTH = 500; // 0.5 seconds
static const size_t BUFFER_SIZE = SAMPLE_RATE_HZ / 1000 * BUFFER_LENGTH;
static const size_t INPUT_BUFFER_SIZE = 32 * SAMPLE_RATE_HZ / 1000; // 32ms * 16kHz / 1000ms
float MicroWakeWord::get_setup_priority() const { return setup_priority::AFTER_CONNECTION; }
static const LogString *micro_wake_word_state_to_string(State state) {
switch (state) {
case State::IDLE:
return LOG_STR("IDLE");
case State::START_MICROPHONE:
return LOG_STR("START_MICROPHONE");
case State::STARTING_MICROPHONE:
return LOG_STR("STARTING_MICROPHONE");
case State::DETECTING_WAKE_WORD:
return LOG_STR("DETECTING_WAKE_WORD");
case State::STOP_MICROPHONE:
return LOG_STR("STOP_MICROPHONE");
case State::STOPPING_MICROPHONE:
return LOG_STR("STOPPING_MICROPHONE");
default:
return LOG_STR("UNKNOWN");
}
}
void MicroWakeWord::dump_config() {
ESP_LOGCONFIG(TAG, "microWakeWord:");
ESP_LOGCONFIG(TAG, " Wake Word: %s", this->get_wake_word().c_str());
ESP_LOGCONFIG(TAG, " Probability cutoff: %.3f", this->probability_cutoff_);
ESP_LOGCONFIG(TAG, " Sliding window size: %d", this->sliding_window_average_size_);
}
void MicroWakeWord::setup() {
ESP_LOGCONFIG(TAG, "Setting up microWakeWord...");
if (!this->initialize_models()) {
ESP_LOGE(TAG, "Failed to initialize models");
this->mark_failed();
return;
}
ExternalRAMAllocator<int16_t> allocator(ExternalRAMAllocator<int16_t>::ALLOW_FAILURE);
this->input_buffer_ = allocator.allocate(INPUT_BUFFER_SIZE * sizeof(int16_t));
if (this->input_buffer_ == nullptr) {
ESP_LOGW(TAG, "Could not allocate input buffer");
this->mark_failed();
return;
}
this->ring_buffer_ = RingBuffer::create(BUFFER_SIZE * sizeof(int16_t));
if (this->ring_buffer_ == nullptr) {
ESP_LOGW(TAG, "Could not allocate ring buffer");
this->mark_failed();
return;
}
ESP_LOGCONFIG(TAG, "Micro Wake Word initialized");
}
int MicroWakeWord::read_microphone_() {
size_t bytes_read = this->microphone_->read(this->input_buffer_, INPUT_BUFFER_SIZE * sizeof(int16_t));
if (bytes_read == 0) {
return 0;
}
size_t bytes_written = this->ring_buffer_->write((void *) this->input_buffer_, bytes_read);
if (bytes_written != bytes_read) {
ESP_LOGW(TAG, "Failed to write some data to ring buffer (written=%d, expected=%d)", bytes_written, bytes_read);
}
return bytes_written;
}
void MicroWakeWord::loop() {
switch (this->state_) {
case State::IDLE:
break;
case State::START_MICROPHONE:
ESP_LOGD(TAG, "Starting Microphone");
this->microphone_->start();
this->set_state_(State::STARTING_MICROPHONE);
this->high_freq_.start();
break;
case State::STARTING_MICROPHONE:
if (this->microphone_->is_running()) {
this->set_state_(State::DETECTING_WAKE_WORD);
}
break;
case State::DETECTING_WAKE_WORD:
this->read_microphone_();
if (this->detect_wake_word_()) {
ESP_LOGD(TAG, "Wake Word Detected");
this->detected_ = true;
this->set_state_(State::STOP_MICROPHONE);
}
break;
case State::STOP_MICROPHONE:
ESP_LOGD(TAG, "Stopping Microphone");
this->microphone_->stop();
this->set_state_(State::STOPPING_MICROPHONE);
this->high_freq_.stop();
break;
case State::STOPPING_MICROPHONE:
if (this->microphone_->is_stopped()) {
this->set_state_(State::IDLE);
if (this->detected_) {
this->detected_ = false;
this->wake_word_detected_trigger_->trigger("");
}
}
break;
}
}
void MicroWakeWord::start() {
if (this->is_failed()) {
ESP_LOGW(TAG, "Wake word component is marked as failed. Please check setup logs");
return;
}
if (this->state_ != State::IDLE) {
ESP_LOGW(TAG, "Wake word is already running");
return;
}
this->set_state_(State::START_MICROPHONE);
}
void MicroWakeWord::stop() {
if (this->state_ == State::IDLE) {
ESP_LOGW(TAG, "Wake word is already stopped");
return;
}
if (this->state_ == State::STOPPING_MICROPHONE) {
ESP_LOGW(TAG, "Wake word is already stopping");
return;
}
this->set_state_(State::STOP_MICROPHONE);
}
void MicroWakeWord::set_state_(State state) {
ESP_LOGD(TAG, "State changed from %s to %s", LOG_STR_ARG(micro_wake_word_state_to_string(this->state_)),
LOG_STR_ARG(micro_wake_word_state_to_string(state)));
this->state_ = state;
}
bool MicroWakeWord::initialize_models() {
ExternalRAMAllocator<uint8_t> arena_allocator(ExternalRAMAllocator<uint8_t>::ALLOW_FAILURE);
ExternalRAMAllocator<int8_t> features_allocator(ExternalRAMAllocator<int8_t>::ALLOW_FAILURE);
ExternalRAMAllocator<int16_t> audio_samples_allocator(ExternalRAMAllocator<int16_t>::ALLOW_FAILURE);
this->streaming_tensor_arena_ = arena_allocator.allocate(STREAMING_MODEL_ARENA_SIZE);
if (this->streaming_tensor_arena_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the streaming model's tensor arena.");
return false;
}
this->streaming_var_arena_ = arena_allocator.allocate(STREAMING_MODEL_VARIABLE_ARENA_SIZE);
if (this->streaming_var_arena_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the streaming model variable's tensor arena.");
return false;
}
this->preprocessor_tensor_arena_ = arena_allocator.allocate(PREPROCESSOR_ARENA_SIZE);
if (this->preprocessor_tensor_arena_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the audio preprocessor model's tensor arena.");
return false;
}
this->new_features_data_ = features_allocator.allocate(PREPROCESSOR_FEATURE_SIZE);
if (this->new_features_data_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the audio features buffer.");
return false;
}
this->preprocessor_audio_buffer_ = audio_samples_allocator.allocate(SAMPLE_DURATION_COUNT);
if (this->preprocessor_audio_buffer_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the audio preprocessor's buffer.");
return false;
}
this->preprocessor_stride_buffer_ = audio_samples_allocator.allocate(HISTORY_SAMPLES_TO_KEEP);
if (this->preprocessor_stride_buffer_ == nullptr) {
ESP_LOGE(TAG, "Could not allocate the audio preprocessor's stride buffer.");
return false;
}
this->preprocessor_model_ = tflite::GetModel(G_AUDIO_PREPROCESSOR_INT8_TFLITE);
if (this->preprocessor_model_->version() != TFLITE_SCHEMA_VERSION) {
ESP_LOGE(TAG, "Wake word's audio preprocessor model's schema is not supported");
return false;
}
this->streaming_model_ = tflite::GetModel(this->model_start_);
if (this->streaming_model_->version() != TFLITE_SCHEMA_VERSION) {
ESP_LOGE(TAG, "Wake word's streaming model's schema is not supported");
return false;
}
static tflite::MicroMutableOpResolver<18> preprocessor_op_resolver;
static tflite::MicroMutableOpResolver<14> streaming_op_resolver;
if (!this->register_preprocessor_ops_(preprocessor_op_resolver))
return false;
if (!this->register_streaming_ops_(streaming_op_resolver))
return false;
tflite::MicroAllocator *ma =
tflite::MicroAllocator::Create(this->streaming_var_arena_, STREAMING_MODEL_VARIABLE_ARENA_SIZE);
this->mrv_ = tflite::MicroResourceVariables::Create(ma, 15);
static tflite::MicroInterpreter static_preprocessor_interpreter(
this->preprocessor_model_, preprocessor_op_resolver, this->preprocessor_tensor_arena_, PREPROCESSOR_ARENA_SIZE);
static tflite::MicroInterpreter static_streaming_interpreter(this->streaming_model_, streaming_op_resolver,
this->streaming_tensor_arena_,
STREAMING_MODEL_ARENA_SIZE, this->mrv_);
this->preprocessor_interperter_ = &static_preprocessor_interpreter;
this->streaming_interpreter_ = &static_streaming_interpreter;
// Allocate tensors for each models.
if (this->preprocessor_interperter_->AllocateTensors() != kTfLiteOk) {
ESP_LOGE(TAG, "Failed to allocate tensors for the audio preprocessor");
return false;
}
if (this->streaming_interpreter_->AllocateTensors() != kTfLiteOk) {
ESP_LOGE(TAG, "Failed to allocate tensors for the streaming model");
return false;
}
// Verify input tensor matches expected values
TfLiteTensor *input = this->streaming_interpreter_->input(0);
if ((input->dims->size != 3) || (input->dims->data[0] != 1) || (input->dims->data[0] != 1) ||
(input->dims->data[1] != 1) || (input->dims->data[2] != PREPROCESSOR_FEATURE_SIZE)) {
ESP_LOGE(TAG, "Wake word detection model tensor input dimensions is not 1x1x%u", input->dims->data[2]);
return false;
}
if (input->type != kTfLiteInt8) {
ESP_LOGE(TAG, "Wake word detection model tensor input is not int8.");
return false;
}
// Verify output tensor matches expected values
TfLiteTensor *output = this->streaming_interpreter_->output(0);
if ((output->dims->size != 2) || (output->dims->data[0] != 1) || (output->dims->data[1] != 1)) {
ESP_LOGE(TAG, "Wake word detection model tensor output dimensions is not 1x1.");
}
if (output->type != kTfLiteUInt8) {
ESP_LOGE(TAG, "Wake word detection model tensor input is not uint8.");
return false;
}
this->recent_streaming_probabilities_.resize(this->sliding_window_average_size_, 0.0);
return true;
}
bool MicroWakeWord::update_features_() {
// Retrieve strided audio samples
int16_t *audio_samples = nullptr;
if (!this->stride_audio_samples_(&audio_samples)) {
return false;
}
// Compute the features for the newest audio samples
if (!this->generate_single_feature_(audio_samples, SAMPLE_DURATION_COUNT, this->new_features_data_)) {
return false;
}
return true;
}
float MicroWakeWord::perform_streaming_inference_() {
TfLiteTensor *input = this->streaming_interpreter_->input(0);
size_t bytes_to_copy = input->bytes;
memcpy((void *) (tflite::GetTensorData<int8_t>(input)), (const void *) (this->new_features_data_), bytes_to_copy);
uint32_t prior_invoke = millis();
TfLiteStatus invoke_status = this->streaming_interpreter_->Invoke();
if (invoke_status != kTfLiteOk) {
ESP_LOGW(TAG, "Streaming Interpreter Invoke failed");
return false;
}
ESP_LOGV(TAG, "Streaming Inference Latency=%u ms", (millis() - prior_invoke));
TfLiteTensor *output = this->streaming_interpreter_->output(0);
return static_cast<float>(output->data.uint8[0]) / 255.0;
}
bool MicroWakeWord::detect_wake_word_() {
// Preprocess the newest audio samples into features
if (!this->update_features_()) {
return false;
}
// Perform inference
uint32_t streaming_size = micros();
float streaming_prob = this->perform_streaming_inference_();
// Add the most recent probability to the sliding window
this->recent_streaming_probabilities_[this->last_n_index_] = streaming_prob;
++this->last_n_index_;
if (this->last_n_index_ == this->sliding_window_average_size_)
this->last_n_index_ = 0;
float sum = 0.0;
for (auto &prob : this->recent_streaming_probabilities_) {
sum += prob;
}
float sliding_window_average = sum / static_cast<float>(this->sliding_window_average_size_);
// Ensure we have enough samples since the last positive detection
this->ignore_windows_ = std::min(this->ignore_windows_ + 1, 0);
if (this->ignore_windows_ < 0) {
return false;
}
// Detect the wake word if the sliding window average is above the cutoff
if (sliding_window_average > this->probability_cutoff_) {
this->ignore_windows_ = -MIN_SLICES_BEFORE_DETECTION;
for (auto &prob : this->recent_streaming_probabilities_) {
prob = 0;
}
return true;
}
return false;
}
void MicroWakeWord::set_sliding_window_average_size(size_t size) {
this->sliding_window_average_size_ = size;
this->recent_streaming_probabilities_.resize(this->sliding_window_average_size_, 0.0);
}
bool MicroWakeWord::slice_available_() {
size_t available = this->ring_buffer_->available();
size_t free = this->ring_buffer_->free();
if (free < NEW_SAMPLES_TO_GET * sizeof(int16_t)) {
// If the ring buffer is within one audio slice of being full, then wake word detection will have issues.
// If this is constantly occuring, then some possibilities why are
// 1) there are too many other slow components configured
// 2) the ESP32 isn't fast enough; e.g., an ESP32 is much slower than an ESP32-S3 at inferences.
// 3) the model is too large
// 4) the model uses operations that are not optimized
ESP_LOGW(TAG,
"Audio buffer is nearly full. Wake word detection may be less accurate and have slower reponse times. "
#if !defined(USE_ESP32_VARIANT_ESP32S3)
"microWakeWord is designed for the ESP32-S3. The current platform is too slow for this model."
#endif
);
}
return available > (NEW_SAMPLES_TO_GET * sizeof(int16_t));
}
bool MicroWakeWord::stride_audio_samples_(int16_t **audio_samples) {
if (!this->slice_available_()) {
return false;
}
// Copy 320 bytes (160 samples over 10 ms) into preprocessor_audio_buffer_ from history in
// preprocessor_stride_buffer_
memcpy((void *) (this->preprocessor_audio_buffer_), (void *) (this->preprocessor_stride_buffer_),
HISTORY_SAMPLES_TO_KEEP * sizeof(int16_t));
// Copy 640 bytes (320 samples over 20 ms) from the ring buffer
// The first 320 bytes (160 samples over 10 ms) will be from history
size_t bytes_read = this->ring_buffer_->read((void *) (this->preprocessor_audio_buffer_ + HISTORY_SAMPLES_TO_KEEP),
NEW_SAMPLES_TO_GET * sizeof(int16_t), pdMS_TO_TICKS(200));
if (bytes_read == 0) {
ESP_LOGE(TAG, "Could not read data from Ring Buffer");
} else if (bytes_read < NEW_SAMPLES_TO_GET * sizeof(int16_t)) {
ESP_LOGD(TAG, "Partial Read of Data by Model");
ESP_LOGD(TAG, "Could only read %d bytes when required %d bytes ", bytes_read,
(int) (NEW_SAMPLES_TO_GET * sizeof(int16_t)));
return false;
}
// Copy the last 320 bytes (160 samples over 10 ms) from the audio buffer into history stride buffer for the next
// iteration
memcpy((void *) (this->preprocessor_stride_buffer_), (void *) (this->preprocessor_audio_buffer_ + NEW_SAMPLES_TO_GET),
HISTORY_SAMPLES_TO_KEEP * sizeof(int16_t));
*audio_samples = this->preprocessor_audio_buffer_;
return true;
}
bool MicroWakeWord::generate_single_feature_(const int16_t *audio_data, const int audio_data_size,
int8_t feature_output[PREPROCESSOR_FEATURE_SIZE]) {
TfLiteTensor *input = this->preprocessor_interperter_->input(0);
TfLiteTensor *output = this->preprocessor_interperter_->output(0);
std::copy_n(audio_data, audio_data_size, tflite::GetTensorData<int16_t>(input));
if (this->preprocessor_interperter_->Invoke() != kTfLiteOk) {
ESP_LOGE(TAG, "Failed to preprocess audio for local wake word.");
return false;
}
std::memcpy(feature_output, tflite::GetTensorData<int8_t>(output), PREPROCESSOR_FEATURE_SIZE * sizeof(int8_t));
return true;
}
bool MicroWakeWord::register_preprocessor_ops_(tflite::MicroMutableOpResolver<18> &op_resolver) {
if (op_resolver.AddReshape() != kTfLiteOk)
return false;
if (op_resolver.AddCast() != kTfLiteOk)
return false;
if (op_resolver.AddStridedSlice() != kTfLiteOk)
return false;
if (op_resolver.AddConcatenation() != kTfLiteOk)
return false;
if (op_resolver.AddMul() != kTfLiteOk)
return false;
if (op_resolver.AddAdd() != kTfLiteOk)
return false;
if (op_resolver.AddDiv() != kTfLiteOk)
return false;
if (op_resolver.AddMinimum() != kTfLiteOk)
return false;
if (op_resolver.AddMaximum() != kTfLiteOk)
return false;
if (op_resolver.AddWindow() != kTfLiteOk)
return false;
if (op_resolver.AddFftAutoScale() != kTfLiteOk)
return false;
if (op_resolver.AddRfft() != kTfLiteOk)
return false;
if (op_resolver.AddEnergy() != kTfLiteOk)
return false;
if (op_resolver.AddFilterBank() != kTfLiteOk)
return false;
if (op_resolver.AddFilterBankSquareRoot() != kTfLiteOk)
return false;
if (op_resolver.AddFilterBankSpectralSubtraction() != kTfLiteOk)
return false;
if (op_resolver.AddPCAN() != kTfLiteOk)
return false;
if (op_resolver.AddFilterBankLog() != kTfLiteOk)
return false;
return true;
}
bool MicroWakeWord::register_streaming_ops_(tflite::MicroMutableOpResolver<14> &op_resolver) {
if (op_resolver.AddCallOnce() != kTfLiteOk)
return false;
if (op_resolver.AddVarHandle() != kTfLiteOk)
return false;
if (op_resolver.AddReshape() != kTfLiteOk)
return false;
if (op_resolver.AddReadVariable() != kTfLiteOk)
return false;
if (op_resolver.AddStridedSlice() != kTfLiteOk)
return false;
if (op_resolver.AddConcatenation() != kTfLiteOk)
return false;
if (op_resolver.AddAssignVariable() != kTfLiteOk)
return false;
if (op_resolver.AddConv2D() != kTfLiteOk)
return false;
if (op_resolver.AddMul() != kTfLiteOk)
return false;
if (op_resolver.AddAdd() != kTfLiteOk)
return false;
if (op_resolver.AddMean() != kTfLiteOk)
return false;
if (op_resolver.AddFullyConnected() != kTfLiteOk)
return false;
if (op_resolver.AddLogistic() != kTfLiteOk)
return false;
if (op_resolver.AddQuantize() != kTfLiteOk)
return false;
return true;
}
} // namespace micro_wake_word
} // namespace esphome
#endif // USE_ESP_IDF
#endif // CLANG_TIDY

View file

@ -0,0 +1,207 @@
#pragma once
/**
* This is a workaround until we can figure out a way to get
* the tflite-micro idf component code available in CI
*
* */
//
#ifndef CLANG_TIDY
#ifdef USE_ESP_IDF
#include "esphome/core/automation.h"
#include "esphome/core/component.h"
#include "esphome/core/ring_buffer.h"
#include "esphome/components/microphone/microphone.h"
#include <tensorflow/lite/core/c/common.h>
#include <tensorflow/lite/micro/micro_interpreter.h>
#include <tensorflow/lite/micro/micro_mutable_op_resolver.h>
namespace esphome {
namespace micro_wake_word {
// The following are dictated by the preprocessor model
//
// The number of features the audio preprocessor generates per slice
static const uint8_t PREPROCESSOR_FEATURE_SIZE = 40;
// How frequently the preprocessor generates a new set of features
static const uint8_t FEATURE_STRIDE_MS = 20;
// Duration of each slice used as input into the preprocessor
static const uint8_t FEATURE_DURATION_MS = 30;
// Audio sample frequency in hertz
static const uint16_t AUDIO_SAMPLE_FREQUENCY = 16000;
// The number of old audio samples that are saved to be part of the next feature window
static const uint16_t HISTORY_SAMPLES_TO_KEEP =
((FEATURE_DURATION_MS - FEATURE_STRIDE_MS) * (AUDIO_SAMPLE_FREQUENCY / 1000));
// The number of new audio samples to receive to be included with the next feature window
static const uint16_t NEW_SAMPLES_TO_GET = (FEATURE_STRIDE_MS * (AUDIO_SAMPLE_FREQUENCY / 1000));
// The total number of audio samples included in the feature window
static const uint16_t SAMPLE_DURATION_COUNT = FEATURE_DURATION_MS * AUDIO_SAMPLE_FREQUENCY / 1000;
// Number of bytes in memory needed for the preprocessor arena
static const uint32_t PREPROCESSOR_ARENA_SIZE = 9528;
// The following configure the streaming wake word model
//
// The number of audio slices to process before accepting a positive detection
static const uint8_t MIN_SLICES_BEFORE_DETECTION = 74;
// Number of bytes in memory needed for the streaming wake word model
static const uint32_t STREAMING_MODEL_ARENA_SIZE = 64000;
static const uint32_t STREAMING_MODEL_VARIABLE_ARENA_SIZE = 1024;
enum State {
IDLE,
START_MICROPHONE,
STARTING_MICROPHONE,
DETECTING_WAKE_WORD,
STOP_MICROPHONE,
STOPPING_MICROPHONE,
};
class MicroWakeWord : public Component {
public:
void setup() override;
void loop() override;
float get_setup_priority() const override;
void dump_config() override;
void start();
void stop();
bool is_running() const { return this->state_ != State::IDLE; }
bool initialize_models();
std::string get_wake_word() { return this->wake_word_; }
// Increasing either of these will reduce the rate of false acceptances while increasing the false rejection rate
void set_probability_cutoff(float probability_cutoff) { this->probability_cutoff_ = probability_cutoff; }
void set_sliding_window_average_size(size_t size);
void set_microphone(microphone::Microphone *microphone) { this->microphone_ = microphone; }
Trigger<std::string> *get_wake_word_detected_trigger() const { return this->wake_word_detected_trigger_; }
void set_model_start(const uint8_t *model_start) { this->model_start_ = model_start; }
void set_wake_word(const std::string &wake_word) { this->wake_word_ = wake_word; }
protected:
void set_state_(State state);
int read_microphone_();
const uint8_t *model_start_;
std::string wake_word_;
microphone::Microphone *microphone_{nullptr};
Trigger<std::string> *wake_word_detected_trigger_ = new Trigger<std::string>();
State state_{State::IDLE};
HighFrequencyLoopRequester high_freq_;
std::unique_ptr<RingBuffer> ring_buffer_;
int16_t *input_buffer_;
const tflite::Model *preprocessor_model_{nullptr};
const tflite::Model *streaming_model_{nullptr};
tflite::MicroInterpreter *streaming_interpreter_{nullptr};
tflite::MicroInterpreter *preprocessor_interperter_{nullptr};
std::vector<float> recent_streaming_probabilities_;
size_t last_n_index_{0};
float probability_cutoff_{0.5};
size_t sliding_window_average_size_{10};
// When the wake word detection first starts or after the word has been detected once, we ignore this many audio
// feature slices before accepting a positive detection again
int16_t ignore_windows_{-MIN_SLICES_BEFORE_DETECTION};
uint8_t *streaming_var_arena_{nullptr};
uint8_t *streaming_tensor_arena_{nullptr};
uint8_t *preprocessor_tensor_arena_{nullptr};
int8_t *new_features_data_{nullptr};
tflite::MicroResourceVariables *mrv_{nullptr};
// Stores audio fed into feature generator preprocessor
int16_t *preprocessor_audio_buffer_;
int16_t *preprocessor_stride_buffer_;
bool detected_{false};
/** Detects if wake word has been said
*
* If enough audio samples are available, it will generate one slice of new features.
* If the streaming model predicts the wake word, then the nonstreaming model confirms it.
* @param ring_Buffer Ring buffer containing raw audio samples
* @return True if the wake word is detected, false otherwise
*/
bool detect_wake_word_();
/// @brief Returns true if there are enough audio samples in the buffer to generate another slice of features
bool slice_available_();
/** Shifts previous feature slices over by one and generates a new slice of features
*
* @param ring_buffer ring buffer containing raw audio samples
* @return True if a new slice of features was generated, false otherwise
*/
bool update_features_();
/** Generates features from audio samples
*
* Adapted from TFLite micro speech example
* @param audio_data Pointer to array with the audio samples
* @param audio_data_size The number of samples to use as input to the preprocessor model
* @param feature_output Array that will store the features
* @return True if successful, false otherwise.
*/
bool generate_single_feature_(const int16_t *audio_data, int audio_data_size,
int8_t feature_output[PREPROCESSOR_FEATURE_SIZE]);
/** Performs inference over the most recent feature slice with the streaming model
*
* @return Probability of the wake word between 0.0 and 1.0
*/
float perform_streaming_inference_();
/** Strides the audio samples by keeping the last 10 ms of the previous slice
*
* Adapted from the TFLite micro speech example
* @param ring_buffer Ring buffer containing raw audio samples
* @param audio_samples Pointer to an array that will store the strided audio samples
* @return True if successful, false otherwise
*/
bool stride_audio_samples_(int16_t **audio_samples);
/// @brief Returns true if successfully registered the preprocessor's TensorFlow operations
bool register_preprocessor_ops_(tflite::MicroMutableOpResolver<18> &op_resolver);
/// @brief Returns true if successfully registered the streaming model's TensorFlow operations
bool register_streaming_ops_(tflite::MicroMutableOpResolver<14> &op_resolver);
};
template<typename... Ts> class StartAction : public Action<Ts...>, public Parented<MicroWakeWord> {
public:
void play(Ts... x) override { this->parent_->start(); }
};
template<typename... Ts> class StopAction : public Action<Ts...>, public Parented<MicroWakeWord> {
public:
void play(Ts... x) override { this->parent_->stop(); }
};
template<typename... Ts> class IsRunningCondition : public Condition<Ts...>, public Parented<MicroWakeWord> {
public:
bool check(Ts... x) override { return this->parent_->is_running(); }
};
} // namespace micro_wake_word
} // namespace esphome
#endif // USE_ESP_IDF
#endif // CLANG_TIDY

View file

@ -14,7 +14,7 @@ static const uint8_t NBITS_ADDRESS = 16;
static const uint8_t NBITS_CHANNEL = 5; static const uint8_t NBITS_CHANNEL = 5;
static const uint8_t NBITS_COMMAND = 7; static const uint8_t NBITS_COMMAND = 7;
static const uint8_t NDATABITS = NBITS_ADDRESS + NBITS_CHANNEL + NBITS_COMMAND; static const uint8_t NDATABITS = NBITS_ADDRESS + NBITS_CHANNEL + NBITS_COMMAND;
static const uint8_t MIN_RX_SRC = (NDATABITS * 2 + NBITS_SYNC / 2); static const uint8_t MIN_RX_SRC = (NDATABITS + NBITS_SYNC / 2);
static const uint8_t CMD_ON = 0x41; static const uint8_t CMD_ON = 0x41;
static const uint8_t CMD_OFF = 0x02; static const uint8_t CMD_OFF = 0x02;
@ -135,7 +135,7 @@ optional<DraytonData> DraytonProtocol::decode(RemoteReceiveData src) {
.command = 0, .command = 0,
}; };
while (src.size() - src.get_index() > MIN_RX_SRC) { while (src.size() - src.get_index() >= MIN_RX_SRC) {
ESP_LOGVV(TAG, ESP_LOGVV(TAG,
"Decode Drayton: %" PRId32 ", %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 "Decode Drayton: %" PRId32 ", %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
" %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32 " %" PRId32
@ -150,7 +150,7 @@ optional<DraytonData> DraytonProtocol::decode(RemoteReceiveData src) {
} }
// Look for sync pulse, after. If sucessful index points to space of sync symbol // Look for sync pulse, after. If sucessful index points to space of sync symbol
while (src.size() - src.get_index() >= NDATABITS) { while (src.size() - src.get_index() >= MIN_RX_SRC) {
ESP_LOGVV(TAG, "Decode Drayton: sync search %d, %" PRId32 " %" PRId32, src.size() - src.get_index(), src.peek(), ESP_LOGVV(TAG, "Decode Drayton: sync search %d, %" PRId32 " %" PRId32, src.size() - src.get_index(), src.peek(),
src.peek(1)); src.peek(1));
if (src.peek_mark(2 * BIT_TIME_US) && if (src.peek_mark(2 * BIT_TIME_US) &&

View file

@ -29,7 +29,8 @@ from esphome.const import (
from esphome.core import HexInt, CORE from esphome.core import HexInt, CORE
DOMAIN = "shelly_dimmer" DOMAIN = "shelly_dimmer"
DEPENDENCIES = ["sensor", "uart", "esp8266"] AUTO_LOAD = ["sensor"]
DEPENDENCIES = ["uart", "esp8266"]
shelly_dimmer_ns = cg.esphome_ns.namespace("shelly_dimmer") shelly_dimmer_ns = cg.esphome_ns.namespace("shelly_dimmer")
ShellyDimmer = shelly_dimmer_ns.class_( ShellyDimmer = shelly_dimmer_ns.class_(

View file

@ -25,6 +25,7 @@ namespace sntp {
static const char *const TAG = "sntp"; static const char *const TAG = "sntp";
void SNTPComponent::setup() { void SNTPComponent::setup() {
#ifndef USE_HOST
ESP_LOGCONFIG(TAG, "Setting up SNTP..."); ESP_LOGCONFIG(TAG, "Setting up SNTP...");
#if defined(USE_ESP32) || defined(USE_LIBRETINY) #if defined(USE_ESP32) || defined(USE_LIBRETINY)
if (sntp_enabled()) { if (sntp_enabled()) {
@ -48,6 +49,7 @@ void SNTPComponent::setup() {
#endif #endif
sntp_init(); sntp_init();
#endif
} }
void SNTPComponent::dump_config() { void SNTPComponent::dump_config() {
ESP_LOGCONFIG(TAG, "SNTP Time:"); ESP_LOGCONFIG(TAG, "SNTP Time:");
@ -57,7 +59,7 @@ void SNTPComponent::dump_config() {
ESP_LOGCONFIG(TAG, " Timezone: '%s'", this->timezone_.c_str()); ESP_LOGCONFIG(TAG, " Timezone: '%s'", this->timezone_.c_str());
} }
void SNTPComponent::update() { void SNTPComponent::update() {
#ifndef USE_ESP_IDF #if !defined(USE_ESP_IDF) && !defined(USE_HOST)
// force resync // force resync
if (sntp_enabled()) { if (sntp_enabled()) {
sntp_stop(); sntp_stop();

View file

@ -28,7 +28,7 @@ class Filter {
* @param value The new value. * @param value The new value.
* @return An optional string, the new value that should be pushed out. * @return An optional string, the new value that should be pushed out.
*/ */
virtual optional<std::string> new_value(std::string value); virtual optional<std::string> new_value(std::string value) = 0;
/// Initialize this filter, please note this can be called more than once. /// Initialize this filter, please note this can be called more than once.
virtual void initialize(TextSensor *parent, Filter *next); virtual void initialize(TextSensor *parent, Filter *next);

View file

@ -8,6 +8,8 @@ wled_ns = cg.esphome_ns.namespace("wled")
WLEDLightEffect = wled_ns.class_("WLEDLightEffect", AddressableLightEffect) WLEDLightEffect = wled_ns.class_("WLEDLightEffect", AddressableLightEffect)
CONFIG_SCHEMA = cv.All(cv.Schema({}), cv.only_with_arduino) CONFIG_SCHEMA = cv.All(cv.Schema({}), cv.only_with_arduino)
CONF_SYNC_GROUP_MASK = "sync_group_mask"
CONF_BLANK_ON_START = "blank_on_start"
@register_addressable_effect( @register_addressable_effect(
@ -16,10 +18,13 @@ CONFIG_SCHEMA = cv.All(cv.Schema({}), cv.only_with_arduino)
"WLED", "WLED",
{ {
cv.Optional(CONF_PORT, default=21324): cv.port, cv.Optional(CONF_PORT, default=21324): cv.port,
cv.Optional(CONF_SYNC_GROUP_MASK, default=0): cv.int_range(min=0, max=255),
cv.Optional(CONF_BLANK_ON_START, default=True): cv.boolean,
}, },
) )
async def wled_light_effect_to_code(config, effect_id): async def wled_light_effect_to_code(config, effect_id):
effect = cg.new_Pvariable(effect_id, config[CONF_NAME]) effect = cg.new_Pvariable(effect_id, config[CONF_NAME])
cg.add(effect.set_port(config[CONF_PORT])) cg.add(effect.set_port(config[CONF_PORT]))
cg.add(effect.set_sync_group_mask(config[CONF_SYNC_GROUP_MASK]))
cg.add(effect.set_blank_on_start(config[CONF_BLANK_ON_START]))
return effect return effect

View file

@ -13,6 +13,10 @@
#include <WiFiUdp.h> #include <WiFiUdp.h>
#endif #endif
#ifdef USE_BK72XX
#include <WiFiUdp.h>
#endif
namespace esphome { namespace esphome {
namespace wled { namespace wled {
@ -29,7 +33,11 @@ WLEDLightEffect::WLEDLightEffect(const std::string &name) : AddressableLightEffe
void WLEDLightEffect::start() { void WLEDLightEffect::start() {
AddressableLightEffect::start(); AddressableLightEffect::start();
blank_at_ = 0; if (this->blank_on_start_) {
this->blank_at_ = 0;
} else {
this->blank_at_ = UINT32_MAX;
}
} }
void WLEDLightEffect::stop() { void WLEDLightEffect::stop() {
@ -101,8 +109,11 @@ bool WLEDLightEffect::parse_frame_(light::AddressableLight &it, const uint8_t *p
if (!parse_drgb_frame_(it, payload, size)) if (!parse_drgb_frame_(it, payload, size))
return false; return false;
} else { } else {
if (!parse_notifier_frame_(it, payload, size)) if (!parse_notifier_frame_(it, payload, size)) {
return false; return false;
} else {
timeout = UINT8_MAX;
}
} }
break; break;
@ -143,8 +154,32 @@ bool WLEDLightEffect::parse_frame_(light::AddressableLight &it, const uint8_t *p
} }
bool WLEDLightEffect::parse_notifier_frame_(light::AddressableLight &it, const uint8_t *payload, uint16_t size) { bool WLEDLightEffect::parse_notifier_frame_(light::AddressableLight &it, const uint8_t *payload, uint16_t size) {
// Packet needs to be empty // Receive at least RGBW and Brightness for all LEDs from WLED Sync Notification
return size == 0; // https://kno.wled.ge/interfaces/udp-notifier/
// https://github.com/Aircoookie/WLED/blob/main/wled00/udp.cpp
if (size < 34) {
return false;
}
uint8_t payload_sync_group_mask = payload[34];
if (this->sync_group_mask_ && !(payload_sync_group_mask & this->sync_group_mask_)) {
ESP_LOGD(TAG, "sync group mask does not match");
return false;
}
uint8_t bri = payload[0];
uint8_t r = esp_scale8(payload[1], bri);
uint8_t g = esp_scale8(payload[2], bri);
uint8_t b = esp_scale8(payload[3], bri);
uint8_t w = esp_scale8(payload[8], bri);
for (auto &&led : it) {
led.set(Color(r, g, b, w));
}
return true;
} }
bool WLEDLightEffect::parse_warls_frame_(light::AddressableLight &it, const uint8_t *payload, uint16_t size) { bool WLEDLightEffect::parse_warls_frame_(light::AddressableLight &it, const uint8_t *payload, uint16_t size) {

View file

@ -21,6 +21,8 @@ class WLEDLightEffect : public light::AddressableLightEffect {
void stop() override; void stop() override;
void apply(light::AddressableLight &it, const Color &current_color) override; void apply(light::AddressableLight &it, const Color &current_color) override;
void set_port(uint16_t port) { this->port_ = port; } void set_port(uint16_t port) { this->port_ = port; }
void set_sync_group_mask(uint8_t mask) { this->sync_group_mask_ = mask; }
void set_blank_on_start(bool blank) { this->blank_on_start_ = blank; }
protected: protected:
void blank_all_leds_(light::AddressableLight &it); void blank_all_leds_(light::AddressableLight &it);
@ -35,6 +37,8 @@ class WLEDLightEffect : public light::AddressableLightEffect {
std::unique_ptr<UDP> udp_; std::unique_ptr<UDP> udp_;
uint32_t blank_at_{0}; uint32_t blank_at_{0};
uint32_t dropped_{0}; uint32_t dropped_{0};
uint8_t sync_group_mask_{0};
bool blank_on_start_{true};
}; };
} // namespace wled } // namespace wled

View file

@ -36,14 +36,14 @@ bool XL9535Component::digital_read(uint8_t pin) {
return state; return state;
} }
state = (port & (pin - 10)) != 0; state = (port & (1 << (pin - 10))) != 0;
} else { } else {
if (this->read_register(XL9535_INPUT_PORT_0_REGISTER, &port, 1) != i2c::ERROR_OK) { if (this->read_register(XL9535_INPUT_PORT_0_REGISTER, &port, 1) != i2c::ERROR_OK) {
this->status_set_warning(); this->status_set_warning();
return state; return state;
} }
state = (port & pin) != 0; state = (port & (1 << pin)) != 0;
} }
this->status_clear_warning(); this->status_clear_warning();

View file

@ -57,6 +57,7 @@ from esphome.const import (
TYPE_GIT, TYPE_GIT,
TYPE_LOCAL, TYPE_LOCAL,
VALID_SUBSTITUTIONS_CHARACTERS, VALID_SUBSTITUTIONS_CHARACTERS,
__version__ as ESPHOME_VERSION,
) )
from esphome.core import ( from esphome.core import (
CORE, CORE,
@ -1895,6 +1896,16 @@ def version_number(value):
raise Invalid("Not a valid version number") from e raise Invalid("Not a valid version number") from e
def validate_esphome_version(value: str):
min_version = Version.parse(value)
current_version = Version.parse(ESPHOME_VERSION)
if current_version < min_version:
raise Invalid(
f"Your ESPHome version is too old. Please update to at least {min_version}"
)
return value
def platformio_version_constraint(value): def platformio_version_constraint(value):
# for documentation on valid version constraints: # for documentation on valid version constraints:
# https://docs.platformio.org/en/latest/core/userguide/platforms/cmd_install.html#cmd-platform-install # https://docs.platformio.org/en/latest/core/userguide/platforms/cmd_install.html#cmd-platform-install

View file

@ -1,6 +1,6 @@
"""Constants used by esphome.""" """Constants used by esphome."""
__version__ = "2024.1.0-dev" __version__ = "2024.3.0-dev"
ALLOWED_NAME_CHARS = "abcdefghijklmnopqrstuvwxyz0123456789-_" ALLOWED_NAME_CHARS = "abcdefghijklmnopqrstuvwxyz0123456789-_"
VALID_SUBSTITUTIONS_CHARACTERS = ( VALID_SUBSTITUTIONS_CHARACTERS = (

View file

@ -1,8 +1,9 @@
#pragma once #pragma once
#include <string>
#include <functional>
#include <cmath> #include <cmath>
#include <cstdint>
#include <functional>
#include <string>
#include "esphome/core/optional.h" #include "esphome/core/optional.h"

View file

@ -102,16 +102,6 @@ def valid_project_name(value: str):
return value return value
def validate_version(value: str):
min_version = cv.Version.parse(value)
current_version = cv.Version.parse(ESPHOME_VERSION)
if current_version < min_version:
raise cv.Invalid(
f"Your ESPHome version is too old. Please update to at least {min_version}"
)
return value
if "ESPHOME_DEFAULT_COMPILE_PROCESS_LIMIT" in os.environ: if "ESPHOME_DEFAULT_COMPILE_PROCESS_LIMIT" in os.environ:
_compile_process_limit_default = min( _compile_process_limit_default = min(
int(os.environ["ESPHOME_DEFAULT_COMPILE_PROCESS_LIMIT"]), int(os.environ["ESPHOME_DEFAULT_COMPILE_PROCESS_LIMIT"]),
@ -164,7 +154,7 @@ CONFIG_SCHEMA = cv.All(
} }
), ),
cv.Optional(CONF_MIN_VERSION, default=ESPHOME_VERSION): cv.All( cv.Optional(CONF_MIN_VERSION, default=ESPHOME_VERSION): cv.All(
cv.version_number, validate_version cv.version_number, cv.validate_esphome_version
), ),
cv.Optional( cv.Optional(
CONF_COMPILE_PROCESS_LIMIT, default=_compile_process_limit_default CONF_COMPILE_PROCESS_LIMIT, default=_compile_process_limit_default

View file

@ -11,6 +11,12 @@
#include <cstdio> #include <cstdio>
#include <cstring> #include <cstring>
#ifdef USE_HOST
#include <net/if.h>
#include <netinet/in.h>
#include <sys/ioctl.h>
#include <unistd.h>
#endif
#if defined(USE_ESP8266) #if defined(USE_ESP8266)
#include <osapi.h> #include <osapi.h>
#include <user_interface.h> #include <user_interface.h>
@ -415,7 +421,7 @@ std::string value_accuracy_to_string(float value, int8_t accuracy_decimals) {
int8_t step_to_accuracy_decimals(float step) { int8_t step_to_accuracy_decimals(float step) {
// use printf %g to find number of digits based on temperature step // use printf %g to find number of digits based on temperature step
char buf[32]; char buf[32];
sprintf(buf, "%.5g", step); snprintf(buf, sizeof buf, "%.5g", step);
std::string str{buf}; std::string str{buf};
size_t dot_pos = str.find('.'); size_t dot_pos = str.find('.');
@ -551,7 +557,10 @@ void HighFrequencyLoopRequester::stop() {
bool HighFrequencyLoopRequester::is_high_frequency() { return num_requests > 0; } bool HighFrequencyLoopRequester::is_high_frequency() { return num_requests > 0; }
void get_mac_address_raw(uint8_t *mac) { // NOLINT(readability-non-const-parameter) void get_mac_address_raw(uint8_t *mac) { // NOLINT(readability-non-const-parameter)
#if defined(USE_ESP32) #if defined(USE_HOST)
static const uint8_t esphome_host_mac_address[6] = USE_ESPHOME_HOST_MAC_ADDRESS;
memcpy(mac, esphome_host_mac_address, sizeof(esphome_host_mac_address));
#elif defined(USE_ESP32)
#if defined(CONFIG_SOC_IEEE802154_SUPPORTED) || defined(USE_ESP32_IGNORE_EFUSE_MAC_CRC) #if defined(CONFIG_SOC_IEEE802154_SUPPORTED) || defined(USE_ESP32_IGNORE_EFUSE_MAC_CRC)
// When CONFIG_SOC_IEEE802154_SUPPORTED is defined, esp_efuse_mac_get_default // When CONFIG_SOC_IEEE802154_SUPPORTED is defined, esp_efuse_mac_get_default
// returns the 802.15.4 EUI-64 address. Read directly from eFuse instead. // returns the 802.15.4 EUI-64 address. Read directly from eFuse instead.
@ -569,6 +578,8 @@ void get_mac_address_raw(uint8_t *mac) { // NOLINT(readability-non-const-parame
WiFi.macAddress(mac); WiFi.macAddress(mac);
#elif defined(USE_LIBRETINY) #elif defined(USE_LIBRETINY)
WiFi.macAddress(mac); WiFi.macAddress(mac);
#else
// this should be an error, but that messes with CI checks. #error No mac address method defined
#endif #endif
} }
std::string get_mac_address() { std::string get_mac_address() {

View file

@ -1,5 +1,6 @@
#pragma once #pragma once
#include <cstdint>
#include <cstdlib> #include <cstdlib>
#include <ctime> #include <ctime>
#include <string> #include <string>

View file

@ -478,7 +478,7 @@ def variable(
:param type_: Manually define a type for the variable, only use this when it's not possible :param type_: Manually define a type for the variable, only use this when it's not possible
to do so during config validation phase (for example because of template arguments). to do so during config validation phase (for example because of template arguments).
:returns The new variable as a MockObj. :return: The new variable as a MockObj.
""" """
assert isinstance(id_, ID) assert isinstance(id_, ID)
rhs = safe_exp(rhs) rhs = safe_exp(rhs)
@ -526,7 +526,7 @@ def new_variable(id_: ID, rhs: SafeExpType, type_: "MockObj" = None) -> "MockObj
:param type_: Manually define a type for the variable, only use this when it's not possible :param type_: Manually define a type for the variable, only use this when it's not possible
to do so during config validation phase (for example because of template arguments). to do so during config validation phase (for example because of template arguments).
:returns The new variable as a MockObj. :return: The new variable as a MockObj.
""" """
assert isinstance(id_, ID) assert isinstance(id_, ID)
rhs = safe_exp(rhs) rhs = safe_exp(rhs)
@ -549,7 +549,7 @@ def Pvariable(id_: ID, rhs: SafeExpType, type_: "MockObj" = None) -> "MockObj":
:param type_: Manually define a type for the variable, only use this when it's not possible :param type_: Manually define a type for the variable, only use this when it's not possible
to do so during config validation phase (for example because of template arguments). to do so during config validation phase (for example because of template arguments).
:returns The new variable as a MockObj. :return: The new variable as a MockObj.
""" """
rhs = safe_exp(rhs) rhs = safe_exp(rhs)
obj = MockObj(id_, "->") obj = MockObj(id_, "->")
@ -570,7 +570,7 @@ def new_Pvariable(id_: ID, *args: SafeExpType) -> Pvariable:
:param id_: The ID used to declare the variable (also specifies the type). :param id_: The ID used to declare the variable (also specifies the type).
:param args: The values to pass to the constructor. :param args: The values to pass to the constructor.
:returns The new variable as a MockObj. :return: The new variable as a MockObj.
""" """
if args and isinstance(args[0], TemplateArguments): if args and isinstance(args[0], TemplateArguments):
id_ = id_.copy() id_ = id_.copy()

View file

@ -51,10 +51,12 @@ BASE_CONFIG_FRIENDLY = """esphome:
friendly_name: {friendly_name} friendly_name: {friendly_name}
""" """
LOGGER_API_CONFIG = """ LOGGER_CONFIG = """
# Enable logging # Enable logging
logger: logger:
"""
API_CONFIG = """
# Enable Home Assistant API # Enable Home Assistant API
api: api:
""" """
@ -136,7 +138,12 @@ def wizard_file(**kwargs):
config += HARDWARE_BASE_CONFIGS[kwargs["platform"]].format(**kwargs) config += HARDWARE_BASE_CONFIGS[kwargs["platform"]].format(**kwargs)
config += LOGGER_API_CONFIG config += LOGGER_CONFIG
if kwargs["board"] == "rpipico":
return config
config += API_CONFIG
# Configure API # Configure API
if "password" in kwargs: if "password" in kwargs:

View file

@ -93,7 +93,7 @@ lib_deps =
ESP8266HTTPClient ; http_request (Arduino built-in) ESP8266HTTPClient ; http_request (Arduino built-in)
ESP8266mDNS ; mdns (Arduino built-in) ESP8266mDNS ; mdns (Arduino built-in)
DNSServer ; captive_portal (Arduino built-in) DNSServer ; captive_portal (Arduino built-in)
crankyoldgit/IRremoteESP8266@2.7.12 ; heatpumpir crankyoldgit/IRremoteESP8266@~2.8.4 ; heatpumpir
build_flags = build_flags =
${common:arduino.build_flags} ${common:arduino.build_flags}
-Wno-nonnull-compare -Wno-nonnull-compare
@ -122,7 +122,7 @@ lib_deps =
ESPmDNS ; mdns (Arduino built-in) ESPmDNS ; mdns (Arduino built-in)
DNSServer ; captive_portal (Arduino built-in) DNSServer ; captive_portal (Arduino built-in)
esphome/ESP32-audioI2S@2.0.7 ; i2s_audio esphome/ESP32-audioI2S@2.0.7 ; i2s_audio
crankyoldgit/IRremoteESP8266@2.7.12 ; heatpumpir crankyoldgit/IRremoteESP8266@~2.8.4 ; heatpumpir
droscy/esp_wireguard@0.3.2 ; wireguard droscy/esp_wireguard@0.3.2 ; wireguard
build_flags = build_flags =
${common:arduino.build_flags} ${common:arduino.build_flags}

View file

@ -1,4 +1,5 @@
async_timeout==4.0.3; python_version <= "3.10" async_timeout==4.0.3; python_version <= "3.10"
cryptography==42.0.2
voluptuous==0.14.1 voluptuous==0.14.1
PyYAML==6.0.1 PyYAML==6.0.1
paho-mqtt==1.6.1 paho-mqtt==1.6.1
@ -12,7 +13,7 @@ platformio==6.1.13 # When updating platformio, also update Dockerfile
esptool==4.7.0 esptool==4.7.0
click==8.1.7 click==8.1.7
esphome-dashboard==20231107.0 esphome-dashboard==20231107.0
aioesphomeapi==21.0.1 aioesphomeapi==21.0.2
zeroconf==0.131.0 zeroconf==0.131.0
python-magic==0.4.27 python-magic==0.4.27

View file

@ -1,3 +1,2 @@
pillow==10.2.0 pillow==10.2.0
cairosvg==2.7.1 cairosvg==2.7.1
cryptography==41.0.4

View file

@ -8,6 +8,6 @@ pre-commit
pytest==7.4.4 pytest==7.4.4
pytest-cov==4.1.0 pytest-cov==4.1.0
pytest-mock==3.12.0 pytest-mock==3.12.0
pytest-asyncio==0.23.3 pytest-asyncio==0.23.5
asyncmock==0.4.2 asyncmock==0.4.2
hypothesis==6.92.1 hypothesis==6.92.1

View file

@ -0,0 +1,56 @@
i2c:
- id: i2c_ade7880
scl: ${scl_pin}
sda: ${sda_pin}
sensor:
- platform: ade7880
i2c_id: i2c_ade7880
irq0_pin: ${irq0_pin}
irq1_pin: ${irq1_pin}
reset_pin: ${reset_pin}
frequency: 60Hz
phase_a:
name: Channel A
voltage: Voltage
current: Current
active_power: Active Power
power_factor: Power Factor
forward_active_energy: Forward Active Energy
reverse_active_energy: Reverse Active Energy
calibration:
current_gain: 3116628
voltage_gain: -757178
power_gain: -1344457
phase_angle: 188
phase_b:
name: Channel B
voltage: Voltage
current: Current
active_power: Active Power
power_factor: Power Factor
forward_active_energy: Forward Active Energy
reverse_active_energy: Reverse Active Energy
calibration:
current_gain: 3133655
voltage_gain: -755235
power_gain: -1345638
phase_angle: 188
phase_c:
name: Channel C
voltage: Voltage
current: Current
active_power: Active Power
power_factor: Power Factor
forward_active_energy: Forward Active Energy
reverse_active_energy: Reverse Active Energy
calibration:
current_gain: 3111158
voltage_gain: -743813
power_gain: -1351437
phase_angle: 180
neutral:
name: Neutral
current: Current
calibration:
current_gain: 3189

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO6
irq1_pin: GPIO7
reset_pin: GPIO10
<<: !include common.yaml

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO6
irq1_pin: GPIO7
reset_pin: GPIO10
<<: !include common.yaml

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO13
irq1_pin: GPIO15
reset_pin: GPIO16
<<: !include common.yaml

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO13
irq1_pin: GPIO15
reset_pin: GPIO16
<<: !include common.yaml

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO13
irq1_pin: GPIO15
reset_pin: GPIO16
<<: !include common.yaml

View file

@ -0,0 +1,8 @@
substitutions:
scl_pin: GPIO5
sda_pin: GPIO4
irq0_pin: GPIO13
irq1_pin: GPIO15
reset_pin: GPIO16
<<: !include common.yaml

View file

@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

View file

@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

View file

@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

View file

@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

View file

@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

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@ -0,0 +1,64 @@
binary_sensor:
- platform: gpio
id: bin1
pin: 1
alarm_control_panel:
- platform: template
id: alarmcontrolpanel1
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_state:
then:
- lambda: !lambda |-
ESP_LOGD("TEST", "State change %s", LOG_STR_ARG(alarm_control_panel_state_to_string(id(alarmcontrolpanel1)->get_state())));
- platform: template
id: alarmcontrolpanel2
name: Alarm Panel
codes:
- "1234"
requires_code_to_arm: true
arming_home_time: 1s
arming_night_time: 1s
arming_away_time: 15s
pending_time: 15s
trigger_time: 30s
binary_sensors:
- input: bin1
bypass_armed_home: true
bypass_armed_night: true
on_disarmed:
then:
- logger.log: "### DISARMED ###"
on_pending:
then:
- logger.log: "### PENDING ###"
on_arming:
then:
- logger.log: "### ARMING ###"
on_armed_home:
then:
- logger.log: "### ARMED HOME ###"
on_armed_night:
then:
- logger.log: "### ARMED NIGHT ###"
on_armed_away:
then:
- logger.log: "### ARMED AWAY ###"
on_triggered:
then:
- logger.log: "### TRIGGERED ###"
on_cleared:
then:
- logger.log: "### CLEARED ###"

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@ -0,0 +1,17 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: alpha3_blec
sensor:
- platform: alpha3
ble_client_id: alpha3_blec
flow:
name: "Radiator Pump Flow"
head:
name: "Radiator Pump Head"
power:
name: "Radiator Pump Power"
speed:
name: "Radiator Pump Speed"

View file

@ -0,0 +1,17 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: alpha3_blec
sensor:
- platform: alpha3
ble_client_id: alpha3_blec
flow:
name: "Radiator Pump Flow"
head:
name: "Radiator Pump Head"
power:
name: "Radiator Pump Power"
speed:
name: "Radiator Pump Speed"

View file

@ -0,0 +1,17 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: alpha3_blec
sensor:
- platform: alpha3
ble_client_id: alpha3_blec
flow:
name: "Radiator Pump Flow"
head:
name: "Radiator Pump Head"
power:
name: "Radiator Pump Power"
speed:
name: "Radiator Pump Speed"

View file

@ -0,0 +1,17 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: alpha3_blec
sensor:
- platform: alpha3
ble_client_id: alpha3_blec
flow:
name: "Radiator Pump Flow"
head:
name: "Radiator Pump Head"
power:
name: "Radiator Pump Power"
speed:
name: "Radiator Pump Speed"

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@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

View file

@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

View file

@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 16
sda: 17
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

View file

@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 16
sda: 17
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

View file

@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

View file

@ -0,0 +1,11 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
sensor:
- platform: am2320
temperature:
name: Temperature
humidity:
name: Humidity

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@ -0,0 +1,19 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: am43_blec
cover:
- platform: am43
name: Test AM43 Cover
id: am43_test
ble_client_id: am43_blec
sensor:
- platform: am43
ble_client_id: am43_blec
battery_level:
name: Kitchen blinds battery
illuminance:
name: Kitchen blinds light

View file

@ -0,0 +1,19 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: am43_blec
cover:
- platform: am43
name: Test AM43 Cover
id: am43_test
ble_client_id: am43_blec
sensor:
- platform: am43
ble_client_id: am43_blec
battery_level:
name: Kitchen blinds battery
illuminance:
name: Kitchen blinds light

View file

@ -0,0 +1,19 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: am43_blec
cover:
- platform: am43
name: Test AM43 Cover
id: am43_test
ble_client_id: am43_blec
sensor:
- platform: am43
ble_client_id: am43_blec
battery_level:
name: Kitchen blinds battery
illuminance:
name: Kitchen blinds light

View file

@ -0,0 +1,19 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: am43_blec
cover:
- platform: am43
name: Test AM43 Cover
id: am43_test
ble_client_id: am43_blec
sensor:
- platform: am43
ble_client_id: am43_blec
battery_level:
name: Kitchen blinds battery
illuminance:
name: Kitchen blinds light

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,28 @@
sensor:
- platform: template
id: template_sensor
name: Template Sensor
lambda: |-
if (millis() > 10000) {
return 42.0;
} else {
return 0.0;
}
update_interval: 15s
binary_sensor:
- platform: analog_threshold
name: Analog Threshold 1
sensor_id: template_sensor
threshold:
upper: 110
lower: 90
filters:
- delayed_on: 0s
- delayed_off: 10s
- platform: analog_threshold
name: Analog Threshold 2
sensor_id: template_sensor
threshold: 100
filters:
- invert:

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 6
mosi_pin: 7
miso_pin: 5
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 8
dc_pin: 9
reset_pin: 10
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 6
mosi_pin: 7
miso_pin: 5
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 8
dc_pin: 9
reset_pin: 10
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 16
mosi_pin: 17
miso_pin: 15
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 12
dc_pin: 13
reset_pin: 21
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 16
mosi_pin: 17
miso_pin: 15
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 12
dc_pin: 13
reset_pin: 21
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 14
mosi_pin: 13
miso_pin: 12
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 5
dc_pin: 15
reset_pin: 16
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,23 @@
spi:
- id: spi_main_lcd
clk_pin: 2
mosi_pin: 3
miso_pin: 4
display:
- platform: ili9xxx
id: main_lcd
model: ili9342
cs_pin: 20
dc_pin: 21
reset_pin: 22
# Purposely test that `animation:` does auto-load `image:`
# Keep the `image:` undefined.
# image:
animation:
- id: rgb565_animation
file: ../../pnglogo.png
type: RGB565
use_transparency: no

View file

@ -0,0 +1,11 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: anova_blec
climate:
- platform: anova
name: Anova cooker
ble_client_id: anova_blec
unit_of_measurement: c

View file

@ -0,0 +1,11 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: anova_blec
climate:
- platform: anova
name: Anova cooker
ble_client_id: anova_blec
unit_of_measurement: c

View file

@ -0,0 +1,11 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: anova_blec
climate:
- platform: anova
name: Anova cooker
ble_client_id: anova_blec
unit_of_measurement: c

View file

@ -0,0 +1,11 @@
esp32_ble_tracker:
ble_client:
- mac_address: 01:02:03:04:05:06
id: anova_blec
climate:
- platform: anova
name: Anova cooker
ble_client_id: anova_blec
unit_of_measurement: c

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 16
sda: 17
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 16
sda: 17
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,48 @@
i2c:
- id: i2c_bme280
scl: 5
sda: 4
apds9960:
address: 0x20
update_interval: 60s
binary_sensor:
- platform: apds9960
id: apds9960_binary_sensor
direction: up
name: APDS9960 Up
device_class: motion
filters:
- invert
- delayed_on: 20ms
- delayed_off: 20ms
- lambda: "return false;"
on_state:
- logger.log: New state
- platform: apds9960
direction: down
name: APDS9960 Down
- platform: apds9960
direction: left
name: APDS9960 Left
- platform: apds9960
direction: right
name: APDS9960 Right
sensor:
- platform: apds9960
type: proximity
name: APDS9960 Proximity
- platform: apds9960
type: clear
name: APDS9960 Clear
- platform: apds9960
type: red
name: APDS9960 Red
- platform: apds9960
type: green
name: APDS9960 Green
- platform: apds9960
type: blue
name: APDS9960 Blue

View file

@ -0,0 +1,50 @@
wifi:
ssid: MySSID
password: password1
api:
port: 8000
password: pwd
reboot_timeout: 0min
encryption:
key: bOFFzzvfpg5DB94DuBGLXD/hMnhpDKgP9UQyBulwWVU=
services:
- service: hello_world
variables:
name: string
then:
- logger.log:
format: Hello World %s!
args:
- name.c_str()
- service: empty_service
then:
- logger.log: Service Called
- service: all_types
variables:
bool_: bool
int_: int
float_: float
string_: string
then:
- logger.log: Something happened
- service: array_types
variables:
bool_arr: bool[]
int_arr: int[]
float_arr: float[]
string_arr: string[]
then:
- logger.log:
# yamllint disable rule:line-length
format: "Bool: %s (%u), Int: %d (%u), Float: %f (%u), String: %s (%u)"
# yamllint enable rule:line-length
args:
- YESNO(bool_arr[0])
- bool_arr.size()
- int_arr[0]
- int_arr.size()
- float_arr[0]
- float_arr.size()
- string_arr[0].c_str()
- string_arr.size()

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