#include "mpr121.h" #include #include "esphome/core/hal.h" #include "esphome/core/log.h" namespace esphome { namespace mpr121 { static const char *const TAG = "mpr121"; void MPR121Component::setup() { ESP_LOGCONFIG(TAG, "Running setup"); // soft reset device this->write_byte(MPR121_SOFTRESET, 0x63); delay(100); // NOLINT if (!this->write_byte(MPR121_ECR, 0x0)) { this->error_code_ = COMMUNICATION_FAILED; this->mark_failed(); return; } // set touch sensitivity for all 12 channels for (auto *channel : this->channels_) { channel->setup(); } this->write_byte(MPR121_MHDR, 0x01); this->write_byte(MPR121_NHDR, 0x01); this->write_byte(MPR121_NCLR, 0x0E); this->write_byte(MPR121_FDLR, 0x00); this->write_byte(MPR121_MHDF, 0x01); this->write_byte(MPR121_NHDF, 0x05); this->write_byte(MPR121_NCLF, 0x01); this->write_byte(MPR121_FDLF, 0x00); this->write_byte(MPR121_NHDT, 0x00); this->write_byte(MPR121_NCLT, 0x00); this->write_byte(MPR121_FDLT, 0x00); this->write_byte(MPR121_DEBOUNCE, 0); // default, 16uA charge current this->write_byte(MPR121_CONFIG1, 0x10); // 0.5uS encoding, 1ms period this->write_byte(MPR121_CONFIG2, 0x20); // Write the Electrode Configuration Register // * Highest 2 bits is "Calibration Lock", which we set to a value corresponding to 5 bits. // * The 2 bits below is "Proximity Enable" and are left at 0. // * The 4 least significant bits control how many electrodes are enabled. Electrodes are enabled // as a range, starting at 0 up to the highest channel index used. this->write_byte(MPR121_ECR, 0x80 | (this->max_touch_channel_ + 1)); this->flush_gpio_(); } void MPR121Component::set_touch_debounce(uint8_t debounce) { uint8_t mask = debounce << 4; this->debounce_ &= 0x0f; this->debounce_ |= mask; } void MPR121Component::set_release_debounce(uint8_t debounce) { uint8_t mask = debounce & 0x0f; this->debounce_ &= 0xf0; this->debounce_ |= mask; }; void MPR121Component::dump_config() { ESP_LOGCONFIG(TAG, "MPR121:"); LOG_I2C_DEVICE(this); switch (this->error_code_) { case COMMUNICATION_FAILED: ESP_LOGE(TAG, ESP_LOG_MSG_COMM_FAIL); break; case WRONG_CHIP_STATE: ESP_LOGE(TAG, "MPR121 has wrong default value for CONFIG2?"); break; case NONE: default: break; } } void MPR121Component::loop() { uint16_t val = 0; this->read_byte_16(MPR121_TOUCHSTATUS_L, &val); // Flip order uint8_t lsb = val >> 8; uint8_t msb = val; val = (uint16_t(msb) << 8) | lsb; for (auto *channel : this->channels_) channel->process(val); this->read_byte(MPR121_GPIODATA, &this->gpio_input_); } bool MPR121Component::digital_read(uint8_t ionum) { return (this->gpio_input_ & (1 << ionum)) != 0; } void MPR121Component::digital_write(uint8_t ionum, bool value) { if (value) { this->gpio_output_ |= (1 << ionum); } else { this->gpio_output_ &= ~(1 << ionum); } this->flush_gpio_(); } void MPR121Component::pin_mode(uint8_t ionum, gpio::Flags flags) { this->gpio_enable_ |= (1 << ionum); if (flags & gpio::FLAG_INPUT) { this->gpio_direction_ &= ~(1 << ionum); } else if (flags & gpio::FLAG_OUTPUT) { this->gpio_direction_ |= 1 << ionum; } this->flush_gpio_(); } bool MPR121Component::flush_gpio_() { if (this->is_failed()) { return false; } // TODO: The CTL registers can configure internal pullup/pulldown resistors. this->write_byte(MPR121_GPIOCTL0, 0x00); this->write_byte(MPR121_GPIOCTL1, 0x00); this->write_byte(MPR121_GPIOEN, this->gpio_enable_); this->write_byte(MPR121_GPIODIR, this->gpio_direction_); if (!this->write_byte(MPR121_GPIODATA, this->gpio_output_)) { this->status_set_warning(); return false; } this->status_clear_warning(); return true; } void MPR121GPIOPin::setup() { this->pin_mode(this->flags_); } void MPR121GPIOPin::pin_mode(gpio::Flags flags) { assert(this->pin_ >= 4); this->parent_->pin_mode(this->pin_ - 4, flags); } bool MPR121GPIOPin::digital_read() { assert(this->pin_ >= 4); return this->parent_->digital_read(this->pin_ - 4) != this->inverted_; } void MPR121GPIOPin::digital_write(bool value) { assert(this->pin_ >= 4); this->parent_->digital_write(this->pin_ - 4, value != this->inverted_); } std::string MPR121GPIOPin::dump_summary() const { char buffer[32]; snprintf(buffer, sizeof(buffer), "ELE%u on MPR121", this->pin_); return buffer; } } // namespace mpr121 } // namespace esphome