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8 Commits
release-0.
...
v0.1
| Author | SHA1 | Date | |
|---|---|---|---|
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a06f58f42b | ||
| 349868a148 | |||
| 102918fdc3 | |||
| 03fcb344bb | |||
| 0917abba31 | |||
| 4ed116b1a9 | |||
| 63b0c31908 | |||
| 5e6e0c9a0e |
@@ -180,7 +180,7 @@ static bool relay_chn_is_gpio_valid(gpio_num_t gpio)
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static esp_err_t relay_chn_create_event_loop()
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{
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esp_event_loop_args_t loop_args = {
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.queue_size = 10,
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.queue_size = RELAY_CHN_COUNT * 8,
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.task_name = "relay_chn_event_loop",
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.task_priority = ESP_TASKD_EVENT_PRIO - 1,
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.task_stack_size = 2048,
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@@ -212,8 +212,9 @@ esp_err_t relay_chn_create(const gpio_num_t* gpio_map, uint8_t gpio_count)
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esp_err_t ret;
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for (int i = 0; i < RELAY_CHN_COUNT; i++) {
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gpio_num_t forward_pin = gpio_map[i];
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gpio_num_t reverse_pin = gpio_map[i+1];
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int gpio_index = i << 1; // gpio_index = i * 2
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gpio_num_t forward_pin = gpio_map[gpio_index];
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gpio_num_t reverse_pin = gpio_map[gpio_index + 1];
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// Check if the GPIOs are valid
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if (!relay_chn_is_gpio_valid(forward_pin)) {
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ESP_LOGE(TAG, "Invalid GPIO pin number: %d", forward_pin);
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@@ -243,7 +244,7 @@ esp_err_t relay_chn_create(const gpio_num_t* gpio_map, uint8_t gpio_count)
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relay_chn->output.forward_pin = forward_pin;
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relay_chn->output.reverse_pin = reverse_pin;
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relay_chn->output.direction = RELAY_CHN_DIRECTION_DEFAULT;
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relay_chn->state = RELAY_CHN_STATE_STOPPED;
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relay_chn->state = RELAY_CHN_STATE_FREE;
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relay_chn->pending_cmd = RELAY_CHN_CMD_NONE;
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relay_chn->run_info.last_run_cmd = RELAY_CHN_CMD_NONE;
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ret |= relay_chn_init_timer(relay_chn);// Create direction change inertia timer
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@@ -345,7 +346,7 @@ void relay_chn_unregister_listener(relay_chn_state_listener_t listener)
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*/
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static bool relay_chn_is_channel_id_valid(uint8_t chn_id)
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{
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bool valid = (chn_id >= 0 && chn_id < RELAY_CHN_COUNT) || chn_id == RELAY_CHN_ID_ALL;
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bool valid = (chn_id < RELAY_CHN_COUNT) || chn_id == RELAY_CHN_ID_ALL;
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if (!valid) {
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ESP_LOGE(TAG, "Invalid channel ID: %d", chn_id);
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}
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@@ -365,19 +366,20 @@ static void relay_chn_dispatch_cmd(relay_chn_t *relay_chn, relay_chn_cmd_t cmd)
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sizeof(relay_chn->id), portMAX_DELAY);
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}
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static esp_err_t relay_chn_invalidate_inertia_timer(relay_chn_t *relay_chn)
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{
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if (esp_timer_is_active(relay_chn->inertia_timer)) {
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return esp_timer_stop(relay_chn->inertia_timer);
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}
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return ESP_OK;
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}
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static esp_err_t relay_chn_start_inertia_timer(relay_chn_t *relay_chn, uint32_t time_ms)
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static esp_err_t relay_chn_start_esp_timer_once(esp_timer_handle_t esp_timer, uint32_t time_ms)
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{
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// Invalidate the channel's timer if it is active
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relay_chn_invalidate_inertia_timer(relay_chn);
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return esp_timer_start_once(relay_chn->inertia_timer, time_ms * 1000);
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esp_err_t ret = esp_timer_start_once(esp_timer, time_ms * 1000);
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if (ret == ESP_ERR_INVALID_STATE) {
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// This timer is already running, stop the timer first
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ret = esp_timer_stop(esp_timer);
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if (ret != ESP_OK && ret != ESP_ERR_INVALID_STATE) {
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return ret;
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}
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ret = esp_timer_start_once(esp_timer, time_ms * 1000);
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}
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return ESP_OK;
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}
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static void relay_chn_update_state(relay_chn_t *relay_chn, relay_chn_state_t new_state)
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@@ -445,7 +447,13 @@ static void relay_chn_issue_cmd(relay_chn_t* relay_chn, relay_chn_cmd_t cmd)
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case RELAY_CHN_STATE_STOPPED:
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if (relay_chn->run_info.last_run_cmd == cmd || relay_chn->run_info.last_run_cmd == RELAY_CHN_CMD_NONE) {
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// If this is the first run or the last run command is the same as the current command, run the command immediately
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// Since the state is STOPPED, the inertia timer should be running and must be invalidated
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// with the pending FREE command
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esp_timer_stop(relay_chn->inertia_timer);
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relay_chn->pending_cmd = RELAY_CHN_CMD_NONE;
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// If this is the first run or the last run command is the same as the current command,
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// run the command immediately
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relay_chn_dispatch_cmd(relay_chn, cmd);
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}
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else {
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@@ -459,7 +467,7 @@ static void relay_chn_issue_cmd(relay_chn_t* relay_chn, relay_chn_cmd_t cmd)
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? RELAY_CHN_STATE_FORWARD_PENDING : RELAY_CHN_STATE_REVERSE_PENDING;
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relay_chn_update_state(relay_chn, new_state);
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// If the time passed is less than the opposite inertia time, wait for the remaining time
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relay_chn_start_inertia_timer(relay_chn, inertia_time_ms);
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relay_chn_start_esp_timer_once(relay_chn->inertia_timer, inertia_time_ms);
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}
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else {
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// If the time passed is more than the opposite inertia time, run the command immediately
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@@ -482,12 +490,15 @@ static void relay_chn_issue_cmd(relay_chn_t* relay_chn, relay_chn_cmd_t cmd)
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return;
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}
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// Stop the channel first before the schedule
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relay_chn_dispatch_cmd(relay_chn, RELAY_CHN_CMD_STOP);
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// If the last run command is different from the current command, wait for the opposite inertia time
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relay_chn->pending_cmd = cmd;
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relay_chn_state_t new_state = cmd == RELAY_CHN_CMD_FORWARD
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? RELAY_CHN_STATE_FORWARD_PENDING : RELAY_CHN_STATE_REVERSE_PENDING;
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relay_chn_update_state(relay_chn, new_state);
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relay_chn_start_inertia_timer(relay_chn, RELAY_CHN_OPPOSITE_INERTIA_MS);
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relay_chn_start_esp_timer_once(relay_chn->inertia_timer, RELAY_CHN_OPPOSITE_INERTIA_MS);
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break;
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default: ESP_LOGD(TAG, "relay_chn_evaluate: Unknown relay channel state!");
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@@ -589,7 +600,7 @@ static void relay_chn_execute_stop(relay_chn_t *relay_chn)
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// If there is any pending command, cancel it since the STOP command is issued right after it
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relay_chn->pending_cmd = RELAY_CHN_CMD_NONE;
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// Invalidate the channel's timer if it is active
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relay_chn_invalidate_inertia_timer(relay_chn);
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esp_timer_stop(relay_chn->inertia_timer);
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// If the channel was running, schedule a free command for the channel
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relay_chn_cmd_t last_run_cmd = relay_chn->run_info.last_run_cmd;
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@@ -598,7 +609,7 @@ static void relay_chn_execute_stop(relay_chn_t *relay_chn)
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relay_chn->run_info.last_run_cmd_time_ms = esp_timer_get_time() / 1000;
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// Schedule a free command for the channel
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relay_chn->pending_cmd = RELAY_CHN_CMD_FREE;
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relay_chn_start_inertia_timer(relay_chn, RELAY_CHN_OPPOSITE_INERTIA_MS);
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relay_chn_start_esp_timer_once(relay_chn->inertia_timer, RELAY_CHN_OPPOSITE_INERTIA_MS);
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} else {
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// If the channel was not running, issue a free command immediately
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relay_chn_dispatch_cmd(relay_chn, RELAY_CHN_CMD_FREE);
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@@ -633,14 +644,14 @@ static void relay_chn_execute_flip(relay_chn_t *relay_chn)
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: RELAY_CHN_DIRECTION_DEFAULT;
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// Set an inertia on the channel to prevent any immediate movement
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relay_chn->pending_cmd = RELAY_CHN_CMD_FREE;
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relay_chn_start_inertia_timer(relay_chn, RELAY_CHN_OPPOSITE_INERTIA_MS);
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relay_chn_start_esp_timer_once(relay_chn->inertia_timer, RELAY_CHN_OPPOSITE_INERTIA_MS);
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}
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void relay_chn_execute_free(relay_chn_t *relay_chn)
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{
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relay_chn->pending_cmd = RELAY_CHN_CMD_NONE;
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// Invalidate the channel's timer if it is active
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relay_chn_invalidate_inertia_timer(relay_chn);
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esp_timer_stop(relay_chn->inertia_timer);
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relay_chn_update_state(relay_chn, RELAY_CHN_STATE_FREE);
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}
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