Add missing test cases

Some missing test cases for the public API have been added.

Closes #1090

test_apps/main/test_relay_chn_core_multi.c

@@ -450,4 +450,33 @@ TEST_CASE("Test run limit persistence across stop/start", "[relay_chn][run_limit
         TEST_ASSERT_EQUAL(TEST_RUN_LIMIT_SEC, relay_chn_get_run_limit(i));
     }
 }
-#endif // CONFIG_RELAY_CHN_ENABLE_RUN_LIMIT == 1
+
+TEST_CASE("Run limit functions handle invalid channel ID", "[relay_chn][run_limit]")
+{
+    const uint8_t invalid_ch = CONFIG_RELAY_CHN_COUNT + 5;
+    const uint16_t original_limit = relay_chn_get_run_limit(0);
+
+    // get_run_limit with invalid ID should return 0
+    TEST_ASSERT_EQUAL(0, relay_chn_get_run_limit(invalid_ch));
+
+    // set_run_limit with invalid ID should not crash or affect other channels
+    relay_chn_set_run_limit(invalid_ch, 999);
+    TEST_ASSERT_EQUAL(original_limit, relay_chn_get_run_limit(0));
+}
+#endif // CONFIG_RELAY_CHN_ENABLE_RUN_LIMIT
+
+TEST_CASE("relay_chn_destroy allows clean-up and re-creation", "[relay_chn][core]")
+{
+    relay_chn_run_forward_all();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    for (uint8_t i = 0; i < CONFIG_RELAY_CHN_COUNT; i++) {
+        TEST_ASSERT_EQUAL(RELAY_CHN_STATE_FORWARD, relay_chn_get_state(i));
+    }
+
+    relay_chn_destroy();
+    TEST_ESP_OK(relay_chn_create(gpio_map, gpio_count));
+
+    for (uint8_t i = 0; i < CONFIG_RELAY_CHN_COUNT; i++) {
+        TEST_ASSERT_EQUAL(RELAY_CHN_STATE_IDLE, relay_chn_get_state(i));
+    }
+}

test_apps/main/test_relay_chn_core_single.c

@@ -256,3 +256,59 @@ TEST_CASE("Test run limit persistence across stop/start", "[relay_chn][run_limit
     TEST_ASSERT_EQUAL(TEST_RUN_LIMIT_SEC, relay_chn_get_run_limit());
 }
 #endif // CONFIG_RELAY_CHN_ENABLE_RUN_LIMIT == 1
+
+TEST_CASE("relay_chn_get_state_str returns correct strings", "[relay_chn][core]")
+{
+    // This test is a bit contrived as it's hard to force every state
+    // without complex sequences. We will test the most common ones.
+    TEST_ASSERT_EQUAL_STRING("IDLE", relay_chn_get_state_str());
+
+    relay_chn_run_forward();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL_STRING("FORWARD", relay_chn_get_state_str());
+
+    relay_chn_run_reverse();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL_STRING("REVERSE_PENDING", relay_chn_get_state_str());
+    vTaskDelay(pdMS_TO_TICKS(CONFIG_RELAY_CHN_OPPOSITE_INERTIA_MS));
+    TEST_ASSERT_EQUAL_STRING("REVERSE", relay_chn_get_state_str());
+
+    relay_chn_stop();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL_STRING("STOPPED", relay_chn_get_state_str());
+}
+
+TEST_CASE("Stop command interrupts pending commands", "[relay_chn][core][inertia]")
+{
+    // 1. Start running forward
+    relay_chn_run_forward();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_FORWARD, relay_chn_get_state());
+
+    // 2. Issue a reverse command, which will make the state REVERSE_PENDING
+    relay_chn_run_reverse();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_REVERSE_PENDING, relay_chn_get_state());
+
+    // 3. Before the inertia timer fires, issue a stop command
+    relay_chn_stop();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_STOPPED, relay_chn_get_state());
+
+    // 4. Wait for more than the inertia period
+    vTaskDelay(pdMS_TO_TICKS(CONFIG_RELAY_CHN_OPPOSITE_INERTIA_MS + TEST_DELAY_MARGIN_MS));
+    // The channel should transition to IDLE, not REVERSE, because stop cancelled the pending command.
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_IDLE, relay_chn_get_state());
+}
+
+TEST_CASE("relay_chn_destroy allows clean-up and re-creation", "[relay_chn][core]")
+{
+    relay_chn_run_forward();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_FORWARD, relay_chn_get_state());
+
+    relay_chn_destroy();
+    TEST_ESP_OK(relay_chn_create(gpio_map, gpio_count));
+
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_IDLE, relay_chn_get_state());
+}

test_apps/main/test_relay_chn_tilt_single.c

@@ -30,7 +30,7 @@ void prepare_channel_for_tilt(int initial_cmd) {
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_IDLE, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from running forward to tilt forward
+// Test transition from running forward to tilt forward
 // Scenario: RELAY_CHN_STATE_FORWARD -> (relay_chn_tilt_forward) -> RELAY_CHN_STATE_STOPPED -> (inertia) -> RELAY_CHN_STATE_TILT_FORWARD
 TEST_CASE("Run Forward to Tilt Forward transition with inertia", "[relay_chn][tilt][inertia]")
 {
@@ -53,7 +53,7 @@ TEST_CASE("Run Forward to Tilt Forward transition with inertia", "[relay_chn][ti
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_FORWARD, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from running reverse to tilt reverse
+// Test transition from running reverse to tilt reverse
 // Scenario: RELAY_CHN_STATE_REVERSE -> (relay_chn_tilt_reverse) -> RELAY_CHN_STATE_STOPPED -> (inertia) -> RELAY_CHN_STATE_TILT_REVERSE
 TEST_CASE("Run Reverse to Tilt Reverse transition with inertia", "[relay_chn][tilt][inertia]")
 {
@@ -74,7 +74,7 @@ TEST_CASE("Run Reverse to Tilt Reverse transition with inertia", "[relay_chn][ti
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_REVERSE, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from FREE state to tilt forward (now with preparation)
+// Test transition from FREE state to tilt forward (now with preparation)
 // Scenario: RELAY_CHN_STATE_IDLE -> (prepare) -> RELAY_CHN_STATE_IDLE -> (relay_chn_tilt_forward) -> RELAY_CHN_STATE_STOPPED -> (inertia) -> RELAY_CHN_STATE_TILT_FORWARD
 TEST_CASE("FREE to Tilt Forward transition with inertia (prepared)", "[relay_chn][tilt][inertia]")
 {
@@ -89,7 +89,7 @@ TEST_CASE("FREE to Tilt Forward transition with inertia (prepared)", "[relay_chn
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_FORWARD, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from FREE state to tilt reverse (now with preparation)
+// Test transition from FREE state to tilt reverse (now with preparation)
 // Scenario: RELAY_CHN_STATE_IDLE -> (prepare) -> RELAY_CHN_STATE_IDLE -> (relay_chn_tilt_reverse) -> RELAY_CHN_STATE_STOPPED -> (inertia) -> RELAY_CHN_STATE_TILT_REVERSE
 TEST_CASE("FREE to Tilt Reverse transition with inertia (prepared)", "[relay_chn][tilt][inertia]")
 {
@@ -103,7 +103,7 @@ TEST_CASE("FREE to Tilt Reverse transition with inertia (prepared)", "[relay_chn
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_REVERSE, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from tilt forward to run forward (inertia expected for run)
+// Test transition from tilt forward to run forward (inertia expected for run)
 // Scenario: RELAY_CHN_STATE_TILT_FORWARD -> (relay_chn_run_forward) -> RELAY_CHN_STATE_FORWARD
 TEST_CASE("Tilt Forward to Run Forward transition with inertia", "[relay_chn][tilt][inertia]")
 {
@@ -121,7 +121,7 @@ TEST_CASE("Tilt Forward to Run Forward transition with inertia", "[relay_chn][ti
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_FORWARD, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from tilt reverse to run reverse (no inertia expected for run)
+// Test transition from tilt reverse to run reverse (no inertia expected for run)
 // Scenario: RELAY_CHN_STATE_TILT_REVERSE -> (relay_chn_run_reverse) -> RELAY_CHN_STATE_REVERSE
 TEST_CASE("Tilt Reverse to Run Reverse transition with inertia", "[relay_chn][tilt][inertia]")
 {
@@ -138,7 +138,7 @@ TEST_CASE("Tilt Reverse to Run Reverse transition with inertia", "[relay_chn][ti
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_REVERSE, relay_chn_get_state());
 }
 
-// TEST_CASE: Test transition from tilt forward to run reverse (without inertia)
+// Test transition from tilt forward to run reverse (without inertia)
 // Scenario: RELAY_CHN_STATE_TILT_FORWARD -> (relay_chn_run_reverse) -> RELAY_CHN_STATE_REVERSE
 TEST_CASE("Tilt Forward to Run Reverse transition without inertia", "[relay_chn][tilt][inertia]")
 {
@@ -154,7 +154,7 @@ TEST_CASE("Tilt Forward to Run Reverse transition without inertia", "[relay_chn]
     TEST_ASSERT_EQUAL(RELAY_CHN_STATE_REVERSE, relay_chn_get_state());
 }
 
-// TEST_CASE: Test stopping from a tilt state (no inertia for stop command itself)
+// Test stopping from a tilt state (no inertia for stop command itself)
 // Scenario: RELAY_CHN_STATE_TILT_FORWARD -> (relay_chn_stop) -> RELAY_CHN_STATE_STOPPED -> (inertia) -> RELAY_CHN_STATE_IDLE
 TEST_CASE("Tilt to Stop transition without immediate inertia for stop", "[relay_chn][tilt][inertia]")
 {
@@ -265,3 +265,35 @@ TEST_CASE("run command during TILT state transitions correctly", "[relay_chn][ti
     relay_chn_state_t state = relay_chn_get_state();
     TEST_ASSERT(state == RELAY_CHN_STATE_REVERSE || state == RELAY_CHN_STATE_REVERSE_PENDING);
 }
+
+// Test run command during active tilt cycle (move/pause)
+TEST_CASE("run command during active tilt cycle stops tilt", "[relay_chn][tilt][interrupt]")
+{
+    // Set a known sensitivity for predictable timing.
+    // For sensitivity=50, move_time=30ms, pause_time=270ms.
+    relay_chn_tilt_set_sensitivity(50);
+    const uint32_t move_time_ms = 30;
+
+    // --- Test interrupting during MOVE step ---
+    prepare_channel_for_tilt(RELAY_CHN_CMD_FORWARD);
+    relay_chn_tilt_forward();
+    vTaskDelay(pdMS_TO_TICKS(move_time_ms / 2)); // Wait for half of the move time
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_FORWARD, relay_chn_get_state());
+
+    // Interrupt with run_reverse while in the MOVE part of the cycle
+    relay_chn_run_reverse();
+    vTaskDelay(pdMS_TO_TICKS(TEST_DELAY_MARGIN_MS));
+    // Should stop tilting and go to REVERSE immediately (no inertia from TILT_FORWARD)
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_REVERSE, relay_chn_get_state());
+
+    // --- Test interrupting during PAUSE step ---
+    prepare_channel_for_tilt(RELAY_CHN_CMD_FORWARD);
+    relay_chn_tilt_forward();
+    vTaskDelay(pdMS_TO_TICKS(move_time_ms + TEST_DELAY_MARGIN_MS)); // Wait past MOVE, into PAUSE
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_TILT_FORWARD, relay_chn_get_state());
+
+    // Interrupt with run_forward while in the PAUSE part of the cycle
+    relay_chn_run_forward();
+    // Should stop tilting and go to FORWARD_PENDING (inertia from TILT_FORWARD)
+    TEST_ASSERT_EQUAL(RELAY_CHN_STATE_FORWARD_PENDING, relay_chn_get_state());
+}