#include "current_based_cover.h" #include "esphome/core/hal.h" #include "esphome/core/log.h" #include namespace esphome { namespace current_based { static const char *const TAG = "current_based.cover"; using namespace esphome::cover; CoverTraits CurrentBasedCover::get_traits() { auto traits = CoverTraits(); traits.set_supports_position(true); traits.set_is_assumed_state(false); return traits; } void CurrentBasedCover::control(const CoverCall &call) { if (call.get_stop()) { this->direction_idle_(); } if (call.get_position().has_value()) { auto pos = *call.get_position(); if (pos == this->position) { // already at target } else { auto op = pos < this->position ? COVER_OPERATION_CLOSING : COVER_OPERATION_OPENING; this->target_position_ = pos; this->start_direction_(op); } } } void CurrentBasedCover::setup() { auto restore = this->restore_state_(); if (restore.has_value()) { restore->apply(this); } else { this->position = 0.5f; } } void CurrentBasedCover::loop() { if (this->current_operation == COVER_OPERATION_IDLE) return; const uint32_t now = millis(); if (this->current_operation == COVER_OPERATION_OPENING) { if (this->malfunction_detection_ && this->is_closing_()) { // Malfunction this->direction_idle_(); this->malfunction_trigger_->trigger(); ESP_LOGI(TAG, "'%s' - Malfunction detected during opening. Current flow detected in close circuit", this->name_.c_str()); } else if (this->is_opening_blocked_()) { // Blocked ESP_LOGD(TAG, "'%s' - Obstacle detected during opening.", this->name_.c_str()); this->direction_idle_(); if (this->obstacle_rollback_ != 0) { this->set_timeout("rollback", 300, [this]() { ESP_LOGD(TAG, "'%s' - Rollback.", this->name_.c_str()); this->target_position_ = clamp(this->position - this->obstacle_rollback_, 0.0F, 1.0F); this->start_direction_(COVER_OPERATION_CLOSING); }); } } else if (this->is_initial_delay_finished_() && !this->is_opening_()) { // End reached auto dur = (now - this->start_dir_time_) / 1e3f; ESP_LOGD(TAG, "'%s' - Open position reached. Took %.1fs.", this->name_.c_str(), dur); this->direction_idle_(COVER_OPEN); } } else if (this->current_operation == COVER_OPERATION_CLOSING) { if (this->malfunction_detection_ && this->is_opening_()) { // Malfunction this->direction_idle_(); this->malfunction_trigger_->trigger(); ESP_LOGI(TAG, "'%s' - Malfunction detected during closing. Current flow detected in open circuit", this->name_.c_str()); } else if (this->is_closing_blocked_()) { // Blocked ESP_LOGD(TAG, "'%s' - Obstacle detected during closing.", this->name_.c_str()); this->direction_idle_(); if (this->obstacle_rollback_ != 0) { this->set_timeout("rollback", 300, [this]() { ESP_LOGD(TAG, "'%s' - Rollback.", this->name_.c_str()); this->target_position_ = clamp(this->position + this->obstacle_rollback_, 0.0F, 1.0F); this->start_direction_(COVER_OPERATION_OPENING); }); } } else if (this->is_initial_delay_finished_() && !this->is_closing_()) { // End reached auto dur = (now - this->start_dir_time_) / 1e3f; ESP_LOGD(TAG, "'%s' - Close position reached. Took %.1fs.", this->name_.c_str(), dur); this->direction_idle_(COVER_CLOSED); } } else if (now - this->start_dir_time_ > this->max_duration_) { ESP_LOGD(TAG, "'%s' - Max duration reached. Stopping cover.", this->name_.c_str()); this->direction_idle_(); } // Recompute position every loop cycle this->recompute_position_(); if (this->current_operation != COVER_OPERATION_IDLE && this->is_at_target_()) { this->direction_idle_(); } // Send current position every second if (this->current_operation != COVER_OPERATION_IDLE && now - this->last_publish_time_ > 1000) { this->publish_state(false); this->last_publish_time_ = now; } } void CurrentBasedCover::direction_idle_(float new_position) { this->start_direction_(COVER_OPERATION_IDLE); if (new_position != FLT_MAX) { this->position = new_position; } this->publish_state(); } void CurrentBasedCover::dump_config() { LOG_COVER("", "Endstop Cover", this); LOG_SENSOR(" ", "Open Sensor", this->open_sensor_); ESP_LOGCONFIG(TAG, " Open moving current threshold: %.11fA", this->open_moving_current_threshold_); if (this->open_obstacle_current_threshold_ != FLT_MAX) { ESP_LOGCONFIG(TAG, " Open obstacle current threshold: %.11fA", this->open_obstacle_current_threshold_); } ESP_LOGCONFIG(TAG, " Open Duration: %.1fs", this->open_duration_ / 1e3f); LOG_SENSOR(" ", "Close Sensor", this->close_sensor_); ESP_LOGCONFIG(TAG, " Close moving current threshold: %.11fA", this->close_moving_current_threshold_); if (this->close_obstacle_current_threshold_ != FLT_MAX) { ESP_LOGCONFIG(TAG, " Close obstacle current threshold: %.11fA", this->close_obstacle_current_threshold_); } ESP_LOGCONFIG(TAG, " Close Duration: %.1fs", this->close_duration_ / 1e3f); ESP_LOGCONFIG(TAG, "Obstacle Rollback: %.1f%%", this->obstacle_rollback_ * 100); if (this->max_duration_ != UINT32_MAX) { ESP_LOGCONFIG(TAG, "Maximum duration: %.1fs", this->max_duration_ / 1e3f); } ESP_LOGCONFIG(TAG, "Start sensing delay: %.1fs", this->start_sensing_delay_ / 1e3f); ESP_LOGCONFIG(TAG, "Malfunction detection: %s", YESNO(this->malfunction_detection_)); } float CurrentBasedCover::get_setup_priority() const { return setup_priority::DATA; } void CurrentBasedCover::stop_prev_trigger_() { if (this->prev_command_trigger_ != nullptr) { this->prev_command_trigger_->stop_action(); this->prev_command_trigger_ = nullptr; } } bool CurrentBasedCover::is_opening_() const { return this->open_sensor_->get_state() > this->open_moving_current_threshold_; } bool CurrentBasedCover::is_opening_blocked_() const { if (this->open_obstacle_current_threshold_ == FLT_MAX) { return false; } return this->open_sensor_->get_state() > this->open_obstacle_current_threshold_; } bool CurrentBasedCover::is_closing_() const { return this->close_sensor_->get_state() > this->close_moving_current_threshold_; } bool CurrentBasedCover::is_closing_blocked_() const { if (this->close_obstacle_current_threshold_ == FLT_MAX) { return false; } return this->open_sensor_->get_state() > this->open_obstacle_current_threshold_; } bool CurrentBasedCover::is_initial_delay_finished_() const { return millis() - this->start_dir_time_ > this->start_sensing_delay_; } bool CurrentBasedCover::is_at_target_() const { switch (this->current_operation) { case COVER_OPERATION_OPENING: if (this->target_position_ == COVER_OPEN) { if (!this->is_initial_delay_finished_()) // During initial delay, state is assumed return false; return !this->is_opening_(); } return this->position >= this->target_position_; case COVER_OPERATION_CLOSING: if (this->target_position_ == COVER_CLOSED) { if (!this->is_initial_delay_finished_()) // During initial delay, state is assumed return false; return !this->is_closing_(); } return this->position <= this->target_position_; case COVER_OPERATION_IDLE: default: return true; } } void CurrentBasedCover::start_direction_(CoverOperation dir) { if (dir == this->current_operation) return; this->recompute_position_(); Trigger<> *trig; switch (dir) { case COVER_OPERATION_IDLE: trig = this->stop_trigger_; break; case COVER_OPERATION_OPENING: trig = this->open_trigger_; break; case COVER_OPERATION_CLOSING: trig = this->close_trigger_; break; default: return; } this->current_operation = dir; this->stop_prev_trigger_(); trig->trigger(); this->prev_command_trigger_ = trig; const auto now = millis(); this->start_dir_time_ = now; this->last_recompute_time_ = now; } void CurrentBasedCover::recompute_position_() { if (this->current_operation == COVER_OPERATION_IDLE) return; float dir; float action_dur; switch (this->current_operation) { case COVER_OPERATION_OPENING: dir = 1.0F; action_dur = this->open_duration_; break; case COVER_OPERATION_CLOSING: dir = -1.0F; action_dur = this->close_duration_; break; default: return; } const auto now = millis(); this->position += dir * (now - this->last_recompute_time_) / action_dur; this->position = clamp(this->position, 0.0F, 1.0F); this->last_recompute_time_ = now; } } // namespace current_based } // namespace esphome