#include #include #include "scheduler.h" #define TIMEOUT 1000 #define DURATION 1000 static void emptyCallback(void) { } void test_status_off_to_pending_inj1(void) { initialiseSchedulers(); setFuelSchedule1(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule1.Status); } void test_status_off_to_pending_inj2(void) { initialiseSchedulers(); setFuelSchedule2(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule2.Status); } void test_status_off_to_pending_inj3(void) { initialiseSchedulers(); setFuelSchedule3(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule3.Status); } void test_status_off_to_pending_inj4(void) { initialiseSchedulers(); setFuelSchedule4(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule4.Status); } void test_status_off_to_pending_inj5(void) { #if INJ_CHANNELS >= 5 initialiseSchedulers(); setFuelSchedule5(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule5.Status); #endif } void test_status_off_to_pending_inj6(void) { #if INJ_CHANNELS >= 6 initialiseSchedulers(); setFuelSchedule6(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule6.Status); #endif } void test_status_off_to_pending_inj7(void) { #if INJ_CHANNELS >= 7 initialiseSchedulers(); setFuelSchedule7(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule7.Status); #endif } void test_status_off_to_pending_inj8(void) { #if INJ_CHANNELS >= 8 initialiseSchedulers(); setFuelSchedule8(TIMEOUT, DURATION); TEST_ASSERT_EQUAL(PENDING, fuelSchedule8.Status); #endif } void test_status_off_to_pending_ign1(void) { initialiseSchedulers(); setIgnitionSchedule1(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule1.Status); } void test_status_off_to_pending_ign2(void) { initialiseSchedulers(); setIgnitionSchedule2(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule2.Status); } void test_status_off_to_pending_ign3(void) { initialiseSchedulers(); setIgnitionSchedule3(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule3.Status); } void test_status_off_to_pending_ign4(void) { initialiseSchedulers(); setIgnitionSchedule4(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule4.Status); } void test_status_off_to_pending_ign5(void) { #if IGN_CHANNELS >= 5 initialiseSchedulers(); setIgnitionSchedule5(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule5.Status); #endif } void test_status_off_to_pending_ign6(void) { #if INJ_CHANNELS >= 6 initialiseSchedulers(); setIgnitionSchedule6(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule6.Status); #endif } void test_status_off_to_pending_ign7(void) { #if INJ_CHANNELS >= 7 initialiseSchedulers(); setIgnitionSchedule7(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule7.Status); #endif } void test_status_off_to_pending_ign8(void) { #if INJ_CHANNELS >= 8 initialiseSchedulers(); setIgnitionSchedule8(emptyCallback, TIMEOUT, DURATION, emptyCallback); TEST_ASSERT_EQUAL(PENDING, ignitionSchedule8.Status); #endif } void test_status_off_to_pending(void) { RUN_TEST(test_status_off_to_pending_inj1); RUN_TEST(test_status_off_to_pending_inj2); RUN_TEST(test_status_off_to_pending_inj3); RUN_TEST(test_status_off_to_pending_inj4); RUN_TEST(test_status_off_to_pending_inj5); RUN_TEST(test_status_off_to_pending_inj6); RUN_TEST(test_status_off_to_pending_inj7); RUN_TEST(test_status_off_to_pending_inj8); RUN_TEST(test_status_off_to_pending_ign1); RUN_TEST(test_status_off_to_pending_ign2); RUN_TEST(test_status_off_to_pending_ign3); RUN_TEST(test_status_off_to_pending_ign4); RUN_TEST(test_status_off_to_pending_ign5); RUN_TEST(test_status_off_to_pending_ign6); RUN_TEST(test_status_off_to_pending_ign7); RUN_TEST(test_status_off_to_pending_ign8); }