/** * @file test_trigger_decoder.cpp * * @date Dec 24, 2013 * @author Andrey Belomutskiy, (c) 2012-2018 */ #include "global.h" #include "engine_test_helper.h" #include "trigger_decoder.h" #include "engine_math.h" #include "allsensors.h" #include "ford_aspire.h" #include "dodge_neon.h" #include "ford_1995_inline_6.h" #include "mazda_323.h" #include "rpm_calculator.h" #include "event_queue.h" #include "algo.h" #include "trigger_mazda.h" #include "trigger_chrysler.h" #include "tps.h" #include "trigger_central.h" #include "main_trigger_callback.h" #include "engine.h" #include "advance_map.h" #include "speed_density.h" #include "fuel_math.h" #include "spark_logic.h" #include "trigger_universal.h" extern float testMafValue; extern WarningCodeState unitTestWarningCodeState; extern bool printTriggerDebug; extern float actualSynchGap; extern "C" { void sendOutConfirmation(char *value, int i); } void sendOutConfirmation(char *value, int i) { // test implementation } static int getTriggerZeroEventIndex(engine_type_e engineType) { WITH_ENGINE_TEST_HELPER(engineType); initDataStructures(PASS_ENGINE_PARAMETER_SIGNATURE); TriggerShape * shape = ð.engine.triggerCentral.triggerShape; return findTriggerZeroEventIndex(ð.engine.triggerCentral.triggerState, shape, &engineConfiguration->trigger PASS_ENGINE_PARAMETER_SUFFIX); } static void testDodgeNeonDecoder(void) { printf("*************************************************** testDodgeNeonDecoder95\r\n"); initTriggerDecoder(); ASSERT_EQ( 8, getTriggerZeroEventIndex(DODGE_NEON_1995)) << "DODGE_NEON_1995: trigger zero index"; WITH_ENGINE_TEST_HELPER(DODGE_NEON_1995); TriggerShape * shape = ð.engine.triggerCentral.triggerShape; ASSERT_EQ(8, shape->getTriggerShapeSynchPointIndex()); TriggerState state; ASSERT_FALSE(state.shaft_is_synchronized) << "1 shaft_is_synchronized"; // int r = 0; // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 60); // ASSERT_FALSE(state.shaft_is_synchronized) << "2 shaft_is_synchronized"; // still no synchronization // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 210); // ASSERT_FALSE(state.shaft_is_synchronized) << "3 shaft_is_synchronized"; // still no synchronization // // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 420); // ASSERT_FALSE(state.shaft_is_synchronized) << "4 shaft_is_synchronized"; // still no synchronization // // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 630); // ASSERT_FALSE(state.shaft_is_synchronized); // still no synchronization // // printf("2nd camshaft revolution\r\n"); // r = 720; // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 60); // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 210); // ASSERT_TRUE(state.shaft_is_synchronized); // ASSERT_EQ(0, state.current_index); // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 420); // ASSERT_EQ(1, state.current_index); // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 630); // ASSERT_EQ(2, state.current_index); // // printf("3rd camshaft revolution\r\n"); // r = 2 * 720; // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 60); // ASSERT_EQ( 3, state.current_index) << "current index"; // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 210); // ASSERT_TRUE(state.shaft_is_synchronized); // ASSERT_EQ( 0, state.current_index) << "current index"; // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_RISING, r + 420); // processTriggerEvent(&state, shape, &ec->triggerConfig, SHAFT_PRIMARY_FALLING, r + 630); } static void assertTriggerPosition(event_trigger_position_s *position, int eventIndex, float angleOffset) { assertEqualsM("eventIndex", eventIndex, position->eventIndex); assertEqualsM("angleOffset", angleOffset, position->angleOffset); } TEST(misc, testSomethingWeird) { printf("*************************************************** testSomethingWeird\r\n"); WITH_ENGINE_TEST_HELPER(FORD_INLINE_6_1995); TriggerState state_; TriggerState *sta = &state_; ASSERT_FALSE(sta->shaft_is_synchronized) << "shaft_is_synchronized"; int r = 10; sta->decodeTriggerEvent(SHAFT_PRIMARY_FALLING, r PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_FALSE(sta->shaft_is_synchronized) << "shaft_is_synchronized"; // still no synchronization sta->decodeTriggerEvent(SHAFT_PRIMARY_RISING, ++r PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_TRUE(sta->shaft_is_synchronized); // first signal rise synchronize ASSERT_EQ(0, sta->getCurrentIndex()); sta->decodeTriggerEvent(SHAFT_PRIMARY_FALLING, r++ PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_EQ(1, sta->getCurrentIndex()); for (int i = 2; i < 10;) { sta->decodeTriggerEvent(SHAFT_PRIMARY_RISING, r++ PASS_ENGINE_PARAMETER_SUFFIX); assertEqualsM("even", i++, sta->getCurrentIndex()); sta->decodeTriggerEvent(SHAFT_PRIMARY_FALLING, r++ PASS_ENGINE_PARAMETER_SUFFIX); assertEqualsM("odd", i++, sta->getCurrentIndex()); } sta->decodeTriggerEvent(SHAFT_PRIMARY_RISING, r++ PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_EQ(10, sta->getCurrentIndex()); sta->decodeTriggerEvent(SHAFT_PRIMARY_FALLING, r++ PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_EQ(11, sta->getCurrentIndex()); sta->decodeTriggerEvent(SHAFT_PRIMARY_RISING, r++ PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_EQ(0, sta->getCurrentIndex()); // new revolution } TEST(misc, test1995FordInline6TriggerDecoder) { printf("*************************************************** test1995FordInline6TriggerDecoder\r\n"); ASSERT_EQ( 0, getTriggerZeroEventIndex(FORD_INLINE_6_1995)) << "triggerIndex "; WITH_ENGINE_TEST_HELPER(FORD_INLINE_6_1995); TriggerShape * shape = &engine->triggerCentral.triggerShape; ASSERT_EQ( 0, shape->getTriggerShapeSynchPointIndex()) << "triggerShapeSynchPointIndex"; event_trigger_position_s position; ASSERT_EQ( 0, engineConfiguration->globalTriggerAngleOffset) << "globalTriggerAngleOffset"; TRIGGER_SHAPE(findTriggerPosition(&position, 0, engineConfiguration->globalTriggerAngleOffset)); assertTriggerPosition(&position, 0, 0); TRIGGER_SHAPE(findTriggerPosition(&position, 200, engineConfiguration->globalTriggerAngleOffset)); assertTriggerPosition(&position, 3, 20); TRIGGER_SHAPE(findTriggerPosition(&position, 360, engineConfiguration->globalTriggerAngleOffset)); assertTriggerPosition(&position, 6, 0); eth.applyTriggerShape(); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.fireTriggerEvents(48); eth.assertRpm(2000, "rpm"); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.fireTriggerEvents(48); IgnitionEventList *ecl = &engine->ignitionEvents; ASSERT_EQ( 1, ecl->isReady) << "ford inline ignition events size"; ASSERT_EQ( 0, ecl->elements[0].dwellPosition.eventIndex) << "event index"; ASSERT_NEAR(7.8621, ecl->elements[0].dwellPosition.angleOffset, EPS4D) << "angle offset#1"; ASSERT_EQ( 10, ecl->elements[5].dwellPosition.eventIndex) << "event index"; ASSERT_NEAR(7.8621, ecl->elements[5].dwellPosition.angleOffset, EPS4D) << "angle offset#2"; ASSERT_FLOAT_EQ(0.5, getSparkDwell(2000 PASS_ENGINE_PARAMETER_SUFFIX)) << "running dwell"; } TEST(misc, testFordAspire) { printf("*************************************************** testFordAspire\r\n"); ASSERT_EQ( 4, getTriggerZeroEventIndex(FORD_ASPIRE_1996)) << "getTriggerZeroEventIndex"; WITH_ENGINE_TEST_HELPER(FORD_ASPIRE_1996); ASSERT_EQ( 4, TRIGGER_SHAPE(getTriggerShapeSynchPointIndex())) << "getTriggerShapeSynchPointIndex"; ASSERT_EQ(800, config->fuelRpmBins[0]); ASSERT_EQ(7000, config->fuelRpmBins[15]); engineConfiguration->crankingChargeAngle = 65; engineConfiguration->crankingTimingAngle = 31; engineConfiguration->useConstantDwellDuringCranking = false; engine->rpmCalculator.setRpmValue(200 PASS_ENGINE_PARAMETER_SUFFIX); assertEqualsM("cranking dwell", 54.166670, getSparkDwell(200 PASS_ENGINE_PARAMETER_SUFFIX)); engine->rpmCalculator.setRpmValue(2000 PASS_ENGINE_PARAMETER_SUFFIX); ASSERT_EQ( 4, getSparkDwell(2000 PASS_ENGINE_PARAMETER_SUFFIX)) << "running dwell"; engine->rpmCalculator.setRpmValue(6000 PASS_ENGINE_PARAMETER_SUFFIX); assertEqualsM("higher rpm dwell", 3.25, getSparkDwell(6000 PASS_ENGINE_PARAMETER_SUFFIX)); } static void testTriggerDecoder2(const char *msg, engine_type_e type, int synchPointIndex, float channel1duty, float channel2duty) { printf("====================================================================================== testTriggerDecoder2 msg=%s\r\n", msg); WITH_ENGINE_TEST_HELPER(type); TriggerShape *t = &ENGINE(triggerCentral.triggerShape); ASSERT_FALSE(t->shapeDefinitionError) << "isError"; assertEqualsM("synchPointIndex", synchPointIndex, t->getTriggerShapeSynchPointIndex()); ASSERT_NEAR(channel1duty, t->expectedDutyCycle[0], 0.0001) << msg << " channel1duty"; ASSERT_NEAR(channel2duty, t->expectedDutyCycle[1], 0.0001) << msg << " channel2duty"; } static void testTriggerDecoder3(const char *msg, engine_type_e type, int synchPointIndex, float channel1duty, float channel2duty, float expectedGap) { printTriggerDebug = true; testTriggerDecoder2(msg, type, synchPointIndex, channel1duty, channel2duty); assertEqualsM2("actual gap ratio", expectedGap, actualSynchGap, 0.001); printTriggerDebug = false; } TEST(misc, testStartupFuelPumping) { printf("*************************************************** testStartupFuelPumping\r\n"); WITH_ENGINE_TEST_HELPER(FORD_INLINE_6_1995); StartupFuelPumping sf; engine->rpmCalculator.mockRpm = 0; engineConfiguration->tpsMin = 0; engineConfiguration->tpsMax = 10; setMockTpsAdc(6 PASS_ENGINE_PARAMETER_SUFFIX); sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, sf.pumpsCounter) << "pc#1"; setMockTpsAdc(3 PASS_ENGINE_PARAMETER_SUFFIX); sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, sf.pumpsCounter) << "pumpsCounter#2"; sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, sf.pumpsCounter) << "pc#3"; engine->rpmCalculator.mockRpm = 10; sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 0, sf.pumpsCounter) << "pc#4"; setMockTpsAdc(7 PASS_ENGINE_PARAMETER_SUFFIX); engine->rpmCalculator.mockRpm = 0; sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, sf.pumpsCounter) << "pc#5"; setMockTpsAdc(3 PASS_ENGINE_PARAMETER_SUFFIX); sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, sf.pumpsCounter) << "pc#6"; setMockTpsAdc(7 PASS_ENGINE_PARAMETER_SUFFIX); sf.update(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 2, sf.pumpsCounter) << "pc#7"; } static void assertREquals(void *expected, void *actual) { ASSERT_EQ((float)(uint64_t)expected, (float)(uint64_t)actual); } static void assertREqualsM(const char *msg, void *expected, void *actual) { assertEqualsM(msg, (float)(uint64_t)expected, (float)(uint64_t)actual); } extern bool_t debugSignalExecutor; extern EnginePins enginePins; TEST(misc, testRpmCalculator) { printf("*************************************************** testRpmCalculator\r\n"); WITH_ENGINE_TEST_HELPER(FORD_INLINE_6_1995); IgnitionEventList *ilist = &engine->ignitionEvents; ASSERT_EQ( 0, ilist->isReady) << "size #1"; ASSERT_EQ( 720, engine->engineCycle) << "engineCycle"; efiAssertVoid(CUSTOM_ERR_6670, engineConfiguration!=NULL, "null config in engine"); engineConfiguration->trigger.customTotalToothCount = 8; engineConfiguration->globalFuelCorrection = 3; eth.applyTriggerShape(); setFlatInjectorLag(0 PASS_CONFIG_PARAMETER_SUFFIX); engine->updateSlowSensors(PASS_ENGINE_PARAMETER_SIGNATURE); engine->sensors.clt = 70; // 'testCltValue' does not give us exact number so we have to hack here. todo: migrate test engine->sensors.iat = 30; // 'testIatValue' does not give us exact number so we have to hack here. todo: migrate test ASSERT_EQ(0, GET_RPM()); // triggerIndexByAngle update is now fixed! prepareOutputSignals() wasn't reliably called ASSERT_EQ(5, TRIGGER_SHAPE(triggerIndexByAngle[240])); ASSERT_EQ(5, TRIGGER_SHAPE(triggerIndexByAngle[241])); eth.fireTriggerEvents(/* count */ 48); ASSERT_EQ( 1500, GET_RPM()) << "RPM"; ASSERT_EQ( 15, engine->triggerCentral.triggerState.getCurrentIndex()) << "index #1"; eth.clearQueue(); debugSignalExecutor = true; ASSERT_EQ(engine->triggerCentral.triggerState.shaft_is_synchronized, 1); eth.moveTimeForwardMs(5 /*ms*/); int start = eth.getTimeNowUs(); ASSERT_EQ( 485000, start) << "start value"; eth.engine.periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); assertEqualsM("fuel #1", 4.5450, engine->injectionDuration); InjectionEvent *ie0 = &engine->injectionEvents.elements[0]; assertEqualsM("injection angle", 31.365, ie0->injectionStart.angleOffset); eth.firePrimaryTriggerRise(); ASSERT_EQ(1500, eth.engine.rpmCalculator.rpmValue); assertEqualsM("dwell", 4.5, engine->engineState.dwellAngle); assertEqualsM("fuel #2", 4.5450, engine->injectionDuration); assertEqualsM("one degree", 111.1111, engine->rpmCalculator.oneDegreeUs); ASSERT_EQ( 1, ilist->isReady) << "size #2"; ASSERT_EQ( 0, ilist->elements[0].dwellPosition.eventAngle) << "dwell angle"; assertEqualsM("dwell offset", 8.5, ilist->elements[0].dwellPosition.angleOffset); ASSERT_EQ( 0, eth.engine.triggerCentral.triggerState.getCurrentIndex()) << "index #2"; ASSERT_EQ( 2, engine->executor.size()) << "queue size/2"; { scheduling_s *ev0 = engine->executor.getForUnitTest(0); assertREqualsM("Call@0", (void*)ev0->callback, (void*)turnSparkPinHigh); assertEqualsM("ev 0", start + 944, ev0->momentX); assertEqualsLM("coil 0", (long)&enginePins.coils[0], (long)((IgnitionEvent*)ev0->param)->outputs[0]); scheduling_s *ev1 = engine->executor.getForUnitTest(1); assertREqualsM("Call@1", (void*)ev1->callback, (void*)fireSparkAndPrepareNextSchedule); assertEqualsM("ev 1", start + 1444, ev1->momentX); assertEqualsLM("coil 1", (long)&enginePins.coils[0], (long)((IgnitionEvent*)ev1->param)->outputs[0]); } engine->executor.clear(); eth.fireFall(5); eth.fireRise(5); eth.fireFall(5); ASSERT_EQ( 3, eth.engine.triggerCentral.triggerState.getCurrentIndex()) << "index #3"; ASSERT_EQ( 4, engine->executor.size()) << "queue size 3"; assertEqualsM("ev 3", start + 13333 - 1515, engine->executor.getForUnitTest(0)->momentX); assertEqualsM2("ev 5", start + 14277, engine->executor.getForUnitTest(1)->momentX, 2); assertEqualsM("3/3", start + 14777, engine->executor.getForUnitTest(2)->momentX); engine->executor.clear(); ASSERT_EQ(5, TRIGGER_SHAPE(triggerIndexByAngle[240])); ASSERT_EQ(5, TRIGGER_SHAPE(triggerIndexByAngle[241])); eth.fireFall(5); ASSERT_EQ( 0, engine->executor.size()) << "queue size 4.1"; eth.fireRise(5); ASSERT_EQ( 4, engine->executor.size()) << "queue size 4.2"; eth.fireRise(5); ASSERT_EQ( 4, engine->executor.size()) << "queue size 4.3"; assertEqualsM("dwell", 4.5, eth.engine.engineState.dwellAngle); assertEqualsM("fuel #3", 4.5450, eth.engine.injectionDuration); ASSERT_EQ(1500, eth.engine.rpmCalculator.rpmValue); eth.assertInjectorUpEvent("ev 0/2", 0, -4849, 2); ASSERT_EQ( 6, eth.engine.triggerCentral.triggerState.getCurrentIndex()) << "index #4"; ASSERT_EQ( 4, engine->executor.size()) << "queue size 4"; engine->executor.clear(); eth.fireFall(5); ASSERT_EQ( 2, engine->executor.size()) << "queue size 5"; // todo: assert queue elements engine->executor.clear(); eth.fireRise(5); ASSERT_EQ( 2, engine->executor.size()) << "queue size 6"; assertEqualsM("6/0", start + 40944, engine->executor.getForUnitTest(0)->momentX); assertEqualsM("6/1", start + 41444, engine->executor.getForUnitTest(1)->momentX); engine->executor.clear(); eth.fireFall(5); ASSERT_EQ( 0, engine->executor.size()) << "queue size 7"; engine->executor.clear(); eth.fireRise(5 /*ms*/); ASSERT_EQ( 4, engine->executor.size()) << "queue size 8"; // todo: assert queue elements completely assertEqualsM("8/0", start + 53333 - 1515, engine->executor.getForUnitTest(0)->momentX); assertEqualsM2("8/1", start + 54277, engine->executor.getForUnitTest(1)->momentX, 0); assertEqualsM2("8/2", start + 54777, engine->executor.getForUnitTest(2)->momentX, 0); engine->executor.clear(); eth.fireFall(5); ASSERT_EQ( 0, engine->executor.size()) << "queue size 9"; engine->executor.clear(); eth.fireRise(5); ASSERT_EQ( 0, engine->executor.size()) << "queue size 10"; engine->executor.clear(); } TEST(misc, testTriggerDecoder) { printf("====================================================================================== testTriggerDecoder\r\n"); persistent_config_s c; Engine e(&c); TriggerShape * s = &e.triggerCentral.triggerShape; persistent_config_s *config = &c; Engine *engine = &e; engine_configuration_s *engineConfiguration = &c.engineConfiguration; board_configuration_s *boardConfiguration = &c.engineConfiguration.bc; initializeSkippedToothTriggerShapeExt(s, 2, 0, FOUR_STROKE_CAM_SENSOR); assertEqualsM("shape size", s->getSize(), 4); ASSERT_EQ(s->wave.switchTimes[0], 0.25); ASSERT_EQ(s->wave.switchTimes[1], 0.5); ASSERT_EQ(s->wave.switchTimes[2], 0.75); ASSERT_EQ(s->wave.switchTimes[3], 1); printf("====================================================================================== testTriggerDecoder part 2\r\n"); testDodgeNeonDecoder(); testTriggerDecoder2("Dodge Neon 1995", DODGE_NEON_1995, 8, 0.4931, 0.2070); testTriggerDecoder2("ford aspire", FORD_ASPIRE_1996, 4, 0.0000, 0.5); testTriggerDecoder2("dodge ram", DODGE_RAM, 16, 0.5000, 0.06); //testTriggerDecoder2("bmw", BMW_E34, 0, 0.9750, 0.5167); testTriggerDecoder2("bmw", BMW_E34, 0, 0.4667, 0.0); testTriggerDecoder2("Miata NB", MAZDA_MIATA_NB1, 12, 0.0833, 0.0444); testTriggerDecoder2("Miata 2003", MAZDA_MIATA_2003, 3, 0.0444, 0.0); printf("====================================================================================== testTriggerDecoder part 3\r\n"); testTriggerDecoder2("Civic 4/0 both", TEST_CIVIC_4_0_BOTH, 0, 0.5000, 0.0); testTriggerDecoder2("Civic 4/0 rise", TEST_CIVIC_4_0_RISE, 0, 0.5000, 0.0); testTriggerDecoder2("test 2/1 both", TEST_ISSUE_366_BOTH, 0, 0.2500, 0.0); testTriggerDecoder2("test 2/1 rise", TEST_ISSUE_366_RISE, 0, 0.0000, 0.0); testTriggerDecoder2("test engine", TEST_ENGINE, 0, 0.7500, 0.2500); testTriggerDecoder2("testGY6_139QMB", GY6_139QMB, 0, 0.4375, 0.0); testTriggerDecoder2("testSubary", SUBARU_2003_WRX, 0, 0.4000, 0.0); testTriggerDecoder2("testFordEscortGt", FORD_ESCORT_GT, 0, 0.8096, 0.3844); testTriggerDecoder2("testRoverV8", ROVER_V8, 0, 0.4861, 0); testTriggerDecoder2("NISSAN_PRIMERA", NISSAN_PRIMERA, 2, 0.9611, 0.0); testTriggerDecoder2("test1+1", DEFAULT_FRANKENSO, 0, 0.7500, 0.2500); testTriggerDecoder2("testCitroen", CITROEN_TU3JP, 0, 0.4833, 0); testTriggerDecoder2("testAccordCd 3w", HONDA_ACCORD_CD, 12, 0.8146, 0.5000); testTriggerDecoder2("testAccordCd 2w", HONDA_ACCORD_CD_TWO_WIRES, 2, 0.9167, 0.5); testTriggerDecoder2("testAccordCdDip", HONDA_ACCORD_CD_DIP, 27, 0.5000, 0.5000); testTriggerDecoder2("testMitsu", MITSU_4G93, 0, 0.3553, 0.3752); { WITH_ENGINE_TEST_HELPER(MITSU_4G93); // TriggerShape *t = ð.engine.triggerShape; // ASSERT_EQ(1, t->eventAngles[1]); // ASSERT_EQ( 0, t->triggerIndexByAngle[56]) << "index at 0"; // ASSERT_EQ( 1, t->triggerIndexByAngle[57]) << "index at 1"; // // ASSERT_EQ(270, t->eventAngles[5]); // ASSERT_EQ( 4, t->triggerIndexByAngle[269]) << "index at 269"; // ASSERT_EQ( 5, t->triggerIndexByAngle[270]) << "index at 270"; // ASSERT_EQ( 5, t->triggerIndexByAngle[271]) << "index at 271"; // // ASSERT_EQ(306, t->eventAngles[6]); // ASSERT_EQ(5, t->triggerIndexByAngle[305]); // ASSERT_EQ(6, t->triggerIndexByAngle[306]); // ASSERT_EQ(6, t->triggerIndexByAngle[307]); // // ASSERT_EQ(666, t->eventAngles[11]); // ASSERT_EQ( 10, t->triggerIndexByAngle[665]) << "index for 665"; // ASSERT_EQ( 11, t->triggerIndexByAngle[668]) << "index for 668"; eth.persistentConfig.engineConfiguration.useOnlyRisingEdgeForTrigger = false; eth.persistentConfig.engineConfiguration.bc.sensorChartMode = SC_DETAILED_RPM; applyNonPersistentConfiguration(NULL PASS_ENGINE_PARAMETER_SUFFIX); // assertEqualsM2("rpm#1", 16666.9746, eth.engine.triggerCentral.triggerState.instantRpmValue[0], 0.5); // assertEqualsM2("rpm#2", 16666.3750, eth.engine.triggerCentral.triggerState.instantRpmValue[1], 0.5); } testTriggerDecoder2("miata 1990", MIATA_1990, 11, 0.2985, 0.3890); testTriggerDecoder3("miata 1994", MIATA_1994_DEVIATOR, 11, 0.2985, 0.3890, MIATA_NA_GAP); testTriggerDecoder3("citroen", CITROEN_TU3JP, 0, 0.4833, 0.0, 2.9994); testTriggerDecoder2("MAZDA_323", MAZDA_323, 0, 0.4833, 0); testTriggerDecoder2("CAMARO_4", CAMARO_4, 34, 0.5, 0); testTriggerDecoder3("neon NGC4", DODGE_NEON_2003_CAM, 6, 0.5000, 0.0, CHRYSLER_NGC4_GAP); { printTriggerDebug = true; WITH_ENGINE_TEST_HELPER(DODGE_NEON_2003_CAM); printf("!!!!!!!!!!!!!!!!!! Now trying with only rising edges !!!!!!!!!!!!!!!!!\r\n"); engineConfiguration->useOnlyRisingEdgeForTrigger = true; applyNonPersistentConfiguration(NULL PASS_ENGINE_PARAMETER_SUFFIX); prepareShapes(PASS_ENGINE_PARAMETER_SIGNATURE); printTriggerDebug = false; } testTriggerDecoder2("sachs", SACHS, 0, 0.4800, 0.000); printTriggerDebug = true; testTriggerDecoder3("36+2+2+2", DAIHATSU, 28, 0.5000, 0.0, 0.5); testTriggerDecoder3("stratus NGC6", DODGE_STRATUS, 0, 0.8833, 0.0, CHRYSLER_NGC6_GAP); testTriggerDecoder2("vw ABA", VW_ABA, 114, 0.5000, 0.0); } extern fuel_Map3D_t fuelMap; static void assertInjectionEvent(const char *msg, InjectionEvent *ev, int injectorIndex, int eventIndex, angle_t angleOffset, bool isOverlapping) { assertEqualsM4(msg, "inj index", injectorIndex, ev->outputs[0]->injectorIndex); assertEqualsM4(msg, " event index", eventIndex, ev->injectionStart.eventIndex); assertEqualsM4(msg, " event offset", angleOffset, ev->injectionStart.angleOffset); } static void setTestBug299(EngineTestHelper *eth) { setupSimpleTestEngineWithMafAndTT_ONE_trigger(eth); Engine *engine = ð->engine; EXPAND_Engine eth->assertRpm(0, "RPM=0"); ASSERT_EQ( 0, getEngineLoadT(PASS_ENGINE_PARAMETER_SIGNATURE)) << "setTestBug299 EL"; ASSERT_NEAR( 30, engine->sensors.iat, EPS4D) << "setTestBug299 IAT"; eth->fireTriggerEventsWithDuration(20); // still no RPM since need to cycles measure cycle duration eth->assertRpm(0, "setTestBug299: RPM#1"); eth->fireTriggerEventsWithDuration(20); eth->assertRpm(3000, "setTestBug299: RPM#2"); eth->clearQueue(); /** * Trigger up - scheduling fuel for full engine cycle */ eth->fireRise(20); // fuel schedule - short pulses. // time...|0.......|10......|20......|30......|40 // inj #0 |.......#|........|.......#|........| // inj #1 |........|.......#|........|.......#| ASSERT_EQ( 4, engine->executor.size()) << "qs#00"; ASSERT_EQ( 3, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#3"; eth->assertInjectorUpEvent("setTestBug299: 1@0", 0, MS2US(8.5), 0); eth->assertInjectorDownEvent("@1", 1, MS2US(10), 0); eth->assertInjectorUpEvent("1@2", 2, MS2US(18.5), 1); eth->assertInjectorDownEvent("1@3", 3, MS2US(20), 1); ASSERT_EQ( 0, eth->executeActions()) << "exec#0"; FuelSchedule * t = &ENGINE(injectionEvents); assertInjectionEvent("#0", &t->elements[0], 0, 1, 153, false); assertInjectionEvent("#1_i_@", &t->elements[1], 1, 1, 333, false); assertInjectionEvent("#2@", &t->elements[2], 0, 0, 153, false); assertInjectionEvent("inj#3@", &t->elements[3], 1, 0, 153 + 180, false); /** * Trigger down - no new events, executing some */ eth->fireFall(20); // same exact picture // time...|-20.....|-10.....|0.......|10......|20 // inj #0 |.......#|........|.......#|........| // inj #1 |........|.......#|........|.......#| ASSERT_EQ( 8, engine->executor.size()) << "qs#0"; ASSERT_EQ( 3, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#3"; eth->assertInjectorUpEvent("02@0", 0, MS2US(-11.5), 0); eth->assertInjectorDownEvent("@1", 1, MS2US(-10), 0); eth->assertInjectorUpEvent("@2", 2, MS2US(-1.5), 1); eth->assertInjectorDownEvent("02@3", 3, MS2US(0), 1); eth->assertInjectorUpEvent("02@4", 4, MS2US(8.5), 0); eth->assertInjectorDownEvent("@5", 5, MS2US(10), 0); eth->assertInjectorUpEvent("02@6", 6, MS2US(18.5), 1); eth->assertInjectorDownEvent("@7", 7, MS2US(20), 1); ASSERT_EQ( 4, eth->executeActions()) << "exec#1"; /** * Trigger up again */ eth->moveTimeForwardMs(20 /*ms*/); eth->assertInjectorUpEvent("22@0", 0, MS2US(-11.5), 0); eth->assertInjectorDownEvent("22@1", 1, MS2US(-10), 0); eth->assertInjectorUpEvent("22@2", 2, MS2US(-1.5), 1); eth->assertInjectorDownEvent("22@3", 3, MS2US(0), 1); ASSERT_EQ( 4, eth->executeActions()) << "exec#20"; eth->firePrimaryTriggerRise(); ASSERT_EQ( 4, engine->executor.size()) << "qs#0-2"; // fuel schedule - short pulses. and more realistic schedule this time // time...|-20.....|-10.....|0.......|10......|20 // inj #0 |.......#|........|.......#|........| // inj #1 |........|.......#|........|.......#| eth->assertInjectorUpEvent("2@0", 0, MS2US(8.5), 0); eth->assertInjectorDownEvent("@1", 1, MS2US(10), 0); eth->assertInjectorUpEvent("@2", 2, MS2US(18.5), 1); eth->assertInjectorDownEvent("2@3", 3, MS2US(20), 1); ASSERT_EQ( 0, eth->executeActions()) << "exec#2"; eth->moveTimeForwardUs(MS2US(20)); eth->executeActions(); eth->firePrimaryTriggerFall(); // fuel schedule - short pulses. and more realistic schedule this time // time...|-20.....|-10.....|0.......|10......|20 // inj #0 |.......#|........|........|........| // inj #1 |........|.......#|........|........| ASSERT_EQ( 4, engine->executor.size()) << "qs#0-2"; ASSERT_EQ( 4, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#4"; eth->assertInjectorUpEvent("0@0", 0, MS2US(8.5), 0); eth->assertInjectorDownEvent("0@1", 1, MS2US(10), 0); eth->assertInjectorUpEvent("0@2", 2, MS2US(18.5), 1); eth->assertInjectorDownEvent("0@3", 3, MS2US(20), 1); ASSERT_EQ( 0, eth->executeActions()) << "exec#3"; ASSERT_EQ( 1, engine->engineState.iatFuelCorrection) << "iatC"; ASSERT_EQ( 1, engine->engineState.cltFuelCorrection) << "cltC"; ASSERT_EQ( 0, engine->engineState.injectorLag) << "lag"; testMafValue = 0; ASSERT_EQ( 0, getMafVoltage(PASS_ENGINE_PARAMETER_SIGNATURE)) << "maf"; ASSERT_EQ( 3000, GET_RPM()) << "setTestBug299: RPM"; assertEqualsM("fuel#1", 1.5, engine->injectionDuration); assertEqualsM("duty for maf=0", 7.5, getInjectorDutyCycle(GET_RPM() PASS_ENGINE_PARAMETER_SUFFIX)); testMafValue = 3; ASSERT_EQ( 3, getMafVoltage(PASS_ENGINE_PARAMETER_SIGNATURE)) << "maf"; } static void assertInjectors(const char *msg, int value0, int value1) { assertEqualsM4(msg, "inj#0", value0, enginePins.injectors[0].currentLogicValue); assertEqualsM4(msg, "inj#1", value1, enginePins.injectors[1].currentLogicValue); } void doTestFuelSchedulerBug299smallAndMedium(int startUpDelayMs) { printf("*************************************************** testFuelSchedulerBug299 small to medium\r\n"); WITH_ENGINE_TEST_HELPER(TEST_ENGINE); eth.moveTimeForwardMs(startUpDelayMs); // nice to know that same test works the same with different anount of idle time on start setTestBug299(ð); FuelSchedule * t; assertInjectors("#0_inj", 0, 0); int engineLoadIndex = findIndex(config->fuelLoadBins, FUEL_LOAD_COUNT, testMafValue); ASSERT_EQ(8, engineLoadIndex); setArrayValues(fuelMap.pointers[engineLoadIndex], FUEL_RPM_COUNT, 25); setArrayValues(fuelMap.pointers[engineLoadIndex + 1], FUEL_RPM_COUNT, 25); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_FLOAT_EQ(12.5, engine->injectionDuration) << "fuel#2_0"; assertEqualsM("duty for maf=3", 62.5, getInjectorDutyCycle(GET_RPM() PASS_ENGINE_PARAMETER_SUFFIX)); ASSERT_EQ( 4, engine->executor.size()) << "qs#1"; eth.moveTimeForwardUs(MS2US(20)); ASSERT_EQ( 4, eth.executeActions()) << "exec#2#0"; ASSERT_EQ( 0, engine->executor.size()) << "qs#1#2"; ASSERT_EQ( 4, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#4#0"; eth.firePrimaryTriggerRise(); ASSERT_EQ( 5, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#4#1"; // time...|0.......|10......|20......|30......|40......|50......|60......| // inj #0 |########|##...###|########|.....###|########|........|........| // inj #1 |.....###|########|....####|########|........|........|........| ASSERT_EQ( 6, engine->executor.size()) << "qs#4"; //todo assertInjectorUpEvent("04@0", 0, MS2US(0), 0); // assertInjectorUpEvent("04@1", 1, MS2US(7.5), 1); // assertInjectorDownEvent("04@2", 2, MS2US(12.5), 0); // assertInjectorUpEvent("04@3", 3, MS2US(17.5), 0); // assertInjectorDownEvent("04@4", 4, MS2US(20), 1); // assertInjectorDownEvent("04@5", 5, MS2US(30), 0); // assertInjectorDownEvent("04@6", 6, MS2US(30), 0); // assertInjectorUpEvent("04@7", 7, MS2US(37.5), 0); // assertInjectorDownEvent("04@8", 8, MS2US(40.0), 1); // assertInjectorDownEvent("04@9", 9, MS2US(50.0), 0); // { // scheduling_s *ev = engine->executor.getForUnitTest(9); // ASSERT_EQ( 5, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#4#2"; // ASSERT_TRUE(ev == &engineConfiguration->fuelActuators[2].signalPair[1].signalTimerDown) << "down 50"; // } ASSERT_EQ( 0, eth.executeActions()) << "exec#4"; eth.fireFall(20); ASSERT_EQ( 8, engine->executor.size()) << "qs#2#1"; ASSERT_EQ( 5, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt#5"; // using old fuel schedule - but already wider pulses // time...|-20.....|-10.....|0.......|10......|20......|30......|40......| // inj #0 |........|.....###|########|.....###|########|........|........| // inj #1 |.....###|########|.....###|########|........|........|........| // assertInjectorUpEvent("5@0", 0, MS2US(-12.5), 1); // assertInjectorDownEvent("5@1", 1, MS2US(-7.5), 0); // assertInjectorUpEvent("5@2", 2, MS2US(-2.5), 0); // assertInjectorDownEvent("5@3", 3, MS2US(0), 1); // assertInjectorUpEvent("5@4", 4, MS2US(7.5), 1); // // assertInjectorDownEvent("5@4", 5, MS2US(10), 0); // assertInjectorUpEvent("5@6", 6, MS2US(17.5), 0); // assertInjectorDownEvent("5@7", 7, MS2US(20.0), 1); // assertInjectorDownEvent("5@8", 8, MS2US(30.0), 0); ASSERT_EQ( 3, eth.executeActions()) << "exec#5"; /** * one more revolution */ engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); t = &ENGINE(injectionEvents); assertInjectionEvent("#0", &t->elements[0], 0, 0, 315, false); assertInjectionEvent("#1__", &t->elements[1], 1, 1, 135, false); assertInjectionEvent("inj#2", &t->elements[2], 0, 0, 153, false); assertInjectionEvent("inj#3", &t->elements[3], 1, 0, 333, false); eth.moveTimeForwardUs(MS2US(20)); ASSERT_EQ( 5, engine->executor.size()) << "qs#02"; // assertInjectorUpEvent("6@0", 0, MS2US(-12.5), 1); // assertInjectorDownEvent("6@1", 1, MS2US(-10.0), 0); // assertInjectorUpEvent("6@2", 2, MS2US(-2.5), 0); // assertInjectorDownEvent("6@3", 3, MS2US(0), 1); // assertInjectorDownEvent("6@4", 4, MS2US(10.0), 0); // so placing this 'executeAll' changes much? ASSERT_EQ( 5, eth.executeActions()) << "exec#07"; ASSERT_EQ( 0, engine->executor.size()) << "qs#07"; // assertInjectorDownEvent("26@0", 0, MS2US(10.0), 0); eth.firePrimaryTriggerRise(); ASSERT_EQ( 4, engine->executor.size()) << "qs#2#2"; ASSERT_EQ( 6, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt6"; // time...|-20.....|-10.....|0.......|10......|20......|30......|40......| // inj #0 |########|.....###|########|....####|........|........|........| // inj #1 |.....###|########|.....###|########|........|........|........| // assertInjectorDownEvent("06@5", 5, MS2US(30.0), 0); // assertInjectorUpEvent("06@6", 6, MS2US(37.5), 0); // assertInjectorDownEvent("06@7", 7, MS2US(40.0), 1); ASSERT_EQ( 0, eth.executeActions()) << "exec#7"; assertInjectors("#1_ij_", 0, 0); eth.moveTimeForwardUs(MS2US(20)); // time...|-20.....|-10.....|0.......|10......|20......|30......|40......| // inj #0 |########|.......#|........|........|........|........|........| // inj #1 |....####|########|........|........|........|........|........| ASSERT_EQ( 4, engine->executor.size()) << "qs#022"; // assertInjectorUpEvent("7@0", 0, MS2US(-12.5), 1); // assertInjectorDownEvent("7@1", 1, MS2US(-10.0), 0); // assertInjectorUpEvent("7@2", 2, MS2US(-2.5), 0); // assertInjectorDownEvent("7@3", 3, MS2US(0), 1); // assertInjectorDownEvent("7@4", 4, MS2US(10), 0); //// assertInjectorDownEvent("i7@5", 5, MS2US(20.0), 0); //// assertInjectorUpEvent("7@6", 6, MS2US(17.5), 0); //// assertInjectorDownEvent("7@7", 7, MS2US(20), 1); // // todo index 8 ASSERT_EQ( 3, eth.executeActions()) << "executed #06"; assertInjectors("#4", 1, 0); ASSERT_EQ( 1, engine->executor.size()) << "qs#06"; eth.assertInjectorDownEvent("17@0", 0, MS2US(10), 0); // assertInjectorDownEvent("17@1", 1, MS2US(10.0), 0); // assertInjectorUpEvent("17@2", 2, MS2US(17.5), 0); // assertInjectorDownEvent("17@3", 3, MS2US(20), 1); // todo index 4 eth.firePrimaryTriggerFall(); ASSERT_EQ( 5, engine->executor.size()) << "qs#3"; ASSERT_EQ( 6, engine->rpmCalculator.getRevolutionCounter()) << "rev cnt6"; ASSERT_EQ( 0, eth.executeActions()) << "executed #6"; eth.moveTimeForwardUs(MS2US(20)); ASSERT_EQ( 4, eth.executeActions()) << "executed #06"; ASSERT_EQ( 1, engine->executor.size()) << "qs#06"; assertInjectors("inj#2", 1, 0); eth.firePrimaryTriggerRise(); ASSERT_EQ( 5, engine->executor.size()) << "Queue.size#03"; engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.assertInjectorUpEvent("07@0", 0, MS2US(7.5), 1); eth.assertInjectorDownEvent("07@1", 1, MS2US(10), 0); eth.assertInjectorUpEvent("07@2", 2, MS2US(17.5), 0); eth.assertInjectorDownEvent("07@3", 3, MS2US(20), 1); eth.assertInjectorDownEvent("07@4", 4, MS2US(30), 0); // assertInjectorDownEvent("07@5", 5, MS2US(30), 0); // assertInjectorUpEvent("07@6", 6, MS2US(37.5), 0); // assertInjectorDownEvent("07@7", 7, MS2US(40), 1); // assertInjectorDownEvent("07@8", 8, MS2US(50), 0); ASSERT_EQ( 0, eth.executeActions()) << "executeAll#3"; eth.moveTimeForwardUs(MS2US(20)); ASSERT_EQ( 4, eth.executeActions()) << "executeAll#4"; t = &ENGINE(injectionEvents); assertInjectionEvent("#0#", &t->elements[0], 0, 0, 315, false); assertInjectionEvent("#1#", &t->elements[1], 1, 1, 135, false); assertInjectionEvent("#2#", &t->elements[2], 0, 1, 315, true); assertInjectionEvent("#3#", &t->elements[3], 1, 0, 45 + 90, false); setArrayValues(fuelMap.pointers[engineLoadIndex], FUEL_RPM_COUNT, 35); setArrayValues(fuelMap.pointers[engineLoadIndex + 1], FUEL_RPM_COUNT, 35); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); assertEqualsM("fuel#3", 17.5, engine->injectionDuration); // duty cycle above 75% is a special use-case because 'special' fuel event overlappes the next normal event in batch mode assertEqualsM("duty for maf=3", 87.5, getInjectorDutyCycle(GET_RPM() PASS_ENGINE_PARAMETER_SUFFIX)); assertInjectionEvent("#03", &t->elements[0], 0, 0, 315, false); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 1, enginePins.injectors[0].currentLogicValue) << "inj#0"; ASSERT_EQ( 1, engine->executor.size()) << "Queue.size#04"; eth.assertInjectorDownEvent("08@0", 0, MS2US(10), 0); // assertInjectorDownEvent("08@1", 1, MS2US(10), 0); // assertInjectorUpEvent("08@2", 2, MS2US(17.5), 0); // assertInjectorDownEvent("08@3", 3, MS2US(20), 1); // assertInjectorDownEvent("08@4", 4, MS2US(30), 0); eth.firePrimaryTriggerFall(); eth.executeActions(); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.fireRise(20); ASSERT_EQ( 7, engine->executor.size()) << "Queue.size#05"; eth.executeActions(); eth.fireFall(20); eth.executeActions(); eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); eth.firePrimaryTriggerRise(); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); t = &ENGINE(injectionEvents); assertInjectionEvent("#00", &t->elements[0], 0, 0, 225, false); // 87.5 duty cycle assertInjectionEvent("#10", &t->elements[1], 1, 1, 45, false); assertInjectionEvent("#20", &t->elements[2], 0, 1, 225, true); assertInjectionEvent("#30", &t->elements[3], 1, 0, 45, false); // todo: what's what? a mix of new something and old something? ASSERT_EQ( 4, engine->executor.size()) << "qs#5"; // assertInjectorDownEvent("8@0", 0, MS2US(5.0), 1); // assertInjectorUpEvent("8@1", 1, MS2US(7.5), 1); // assertInjectorDownEvent("8@2", 2, MS2US(15.0), 0); // assertInjectorUpEvent("8@3", 3, MS2US(17.5), 0); // assertInjectorDownEvent("8@4", 4, MS2US(25), 1); // assertInjectorDownEvent("8@5", 5, MS2US(35), 0); //// assertInjectorDownEvent("8@6", 6, MS2US(35), 0); //// assertInjectorUpEvent("8@7", 7, MS2US(37.5), 0); //// assertInjectorDownEvent("8@8", 8, MS2US(45), 1); //// assertInjectorDownEvent("8@9", 9, MS2US(55), 0); eth.executeActions(); engine->mockMapValue = 0; testMafValue = 0; ASSERT_EQ( 1, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#testFuelSchedulerBug299smallAndMedium"; ASSERT_EQ(CUSTOM_OBD_SKIPPED_FUEL, unitTestWarningCodeState.recentWarnings.get(0)); } static void setInjectionMode(int value DECLARE_ENGINE_PARAMETER_SUFFIX) { engineConfiguration->injectionMode = (injection_mode_e) value; incrementGlobalConfigurationVersion(PASS_ENGINE_PARAMETER_SIGNATURE); } TEST(big, testFuelSchedulerBug299smallAndMedium) { doTestFuelSchedulerBug299smallAndMedium(0); doTestFuelSchedulerBug299smallAndMedium(1000); } TEST(big, testDifferentInjectionModes) { printf("*************************************************** testDifferentInjectionModes\r\n"); WITH_ENGINE_TEST_HELPER(TEST_ENGINE); setTestBug299(ð); ASSERT_EQ( 4, engine->executor.size()) << "Lqs#0"; // set fuel map values - extract method? int engineLoadIndex = findIndex(config->fuelLoadBins, FUEL_LOAD_COUNT, testMafValue); ASSERT_EQ(8, engineLoadIndex); setArrayValues(fuelMap.pointers[engineLoadIndex], FUEL_RPM_COUNT, 40); setArrayValues(fuelMap.pointers[engineLoadIndex + 1], FUEL_RPM_COUNT, 40); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); assertEqualsM("injectionMode IM_BATCH", (int)IM_BATCH, (int)engineConfiguration->injectionMode); ASSERT_EQ( 20, engine->injectionDuration) << "injection while batch"; setInjectionMode((int)IM_SIMULTANEOUS PASS_ENGINE_PARAMETER_SUFFIX); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 10, engine->injectionDuration) << "injection while simultaneous"; setInjectionMode((int)IM_SEQUENTIAL PASS_ENGINE_PARAMETER_SUFFIX); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 40, engine->injectionDuration) << "injection while IM_SEQUENTIAL"; setInjectionMode((int)IM_SINGLE_POINT PASS_ENGINE_PARAMETER_SUFFIX); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 40, engine->injectionDuration) << "injection while IM_SINGLE_POINT"; ASSERT_EQ( 0, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#testDifferentInjectionModes"; } TEST(big, testFuelSchedulerBug299smallAndLarge) { printf("*************************************************** testFuelSchedulerBug299 small to large\r\n"); WITH_ENGINE_TEST_HELPER(TEST_ENGINE); setTestBug299(ð); ASSERT_EQ( 4, engine->executor.size()) << "Lqs#0"; // set fuel map values - extract method? int engineLoadIndex = findIndex(config->fuelLoadBins, FUEL_LOAD_COUNT, testMafValue); ASSERT_EQ(8, engineLoadIndex); setArrayValues(fuelMap.pointers[engineLoadIndex], FUEL_RPM_COUNT, 35); setArrayValues(fuelMap.pointers[engineLoadIndex + 1], FUEL_RPM_COUNT, 35); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_FLOAT_EQ(17.5, engine->injectionDuration) << "Lfuel#2_1"; assertEqualsM("Lduty for maf=3", 87.5, getInjectorDutyCycle(GET_RPM() PASS_ENGINE_PARAMETER_SUFFIX)); ASSERT_EQ( 4, engine->executor.size()) << "Lqs#1"; eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); // injector #1 is low before the test ASSERT_FALSE(enginePins.injectors[0].currentLogicValue) << "injector@0"; eth.firePrimaryTriggerRise(); // time...|0.......|10......|20......|30......|40......|50......|60......| // inj #0 |########|########|########|.....###|########|........|........| // inj #1 |..######|########|....####|########|........|........|........| ASSERT_EQ( 6, engine->executor.size()) << "Lqs#4"; eth.assertInjectorUpEvent("L04@0", 0, MS2US(8.5), 0); eth.assertInjectorUpEvent("L04@1", 1, MS2US(12.5), 0); // special overlapping injection is merged with one of the scheduled injections eth.assertInjectorUpEvent("L04@2", 2, MS2US(18.5), 1); eth.assertInjectorDownEvent("L04@3", 3, MS2US(26), 0); eth.assertInjectorDownEvent("L04@4", 4, MS2US(30), 0); // assertInjectorDownEvent("L04@5", 5, MS2US(30), 0); // assertInjectorUpEvent("L04@6", 6, MS2US(32.5), 0); // assertInjectorDownEvent("L04@7", 7, MS2US(40.0), 1); // assertInjectorDownEvent("L04@8", 8, MS2US(50.0), 0); engine->executor.executeAll(eth.getTimeNowUs() + 1); // injector goes high... ASSERT_FALSE(enginePins.injectors[0].currentLogicValue) << "injector@1"; engine->executor.executeAll(eth.getTimeNowUs() + MS2US(17.5) + 1); // injector does not go low too soon, that's a feature :) ASSERT_TRUE(enginePins.injectors[0].currentLogicValue) << "injector@2"; eth.fireFall(20); ASSERT_EQ( 6, engine->executor.size()) << "Lqs#04"; eth.assertInjectorUpEvent("L015@0", 0, MS2US(-1.5), 1); eth.assertInjectorUpEvent("L015@1", 1, MS2US(2.5), 1); eth.assertInjectorDownEvent("L015@2", 2, MS2US(6), 0); eth.assertInjectorDownEvent("L015@3", 3, MS2US(10), 0); eth.assertInjectorDownEvent("L015@4", 4, MS2US(16), 1); //todo assertInjectorDownEvent("L015@5", 5, MS2US(30), 0); engine->executor.executeAll(eth.getTimeNowUs() + MS2US(10) + 1); // end of combined injection ASSERT_FALSE(enginePins.injectors[0].currentLogicValue) << "injector@3"; eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); ASSERT_EQ( 0, engine->executor.size()) << "Lqs#04"; setArrayValues(fuelMap.pointers[engineLoadIndex], FUEL_RPM_COUNT, 4); setArrayValues(fuelMap.pointers[engineLoadIndex + 1], FUEL_RPM_COUNT, 4); engine->periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_EQ( 2, engine->injectionDuration) << "Lfuel#4"; ASSERT_EQ( 10, getInjectorDutyCycle(GET_RPM() PASS_ENGINE_PARAMETER_SUFFIX)) << "Lduty for maf=3"; eth.firePrimaryTriggerRise(); //todoASSERT_EQ( 5, engine->executor.size()) << "Lqs#05"; //todo assertInjectorUpEvent("L016@0", 0, MS2US(8), 0); //todo assertInjectorDownEvent("L016@1", 1, MS2US(10), 0); //todo assertInjectorDownEvent("L016@2", 2, MS2US(10), 0); eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); // issue here eth.firePrimaryTriggerFall(); eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); eth.firePrimaryTriggerRise(); ASSERT_EQ( 4, engine->executor.size()) << "Lqs#5"; eth.assertInjectorUpEvent("L05@0", 0, MS2US(8), 0); eth.assertInjectorDownEvent("L05@1", 1, MS2US(10), 0); eth.assertInjectorUpEvent("L05@2", 2, MS2US(18), 1); eth.assertInjectorDownEvent("L05@3", 3, MS2US(20), 1); eth.moveTimeForwardUs(MS2US(20)); eth.executeActions(); ASSERT_EQ( 1, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#testFuelSchedulerBug299smallAndLarge"; ASSERT_EQ(CUSTOM_OBD_SKIPPED_FUEL, unitTestWarningCodeState.recentWarnings.get(0)); } TEST(big, testSparkReverseOrderBug319) { printf("*************************************************** testSparkReverseOrderBug319 small to medium\r\n"); WITH_ENGINE_TEST_HELPER(TEST_ENGINE); engineConfiguration->useOnlyRisingEdgeForTrigger = false; engineConfiguration->isInjectionEnabled = false; engineConfiguration->specs.cylindersCount = 4; engineConfiguration->ignitionMode = IM_INDIVIDUAL_COILS; setConstantDwell(45 PASS_CONFIG_PARAMETER_SUFFIX); // this is needed to update injectorLag engine->updateSlowSensors(PASS_ENGINE_PARAMETER_SIGNATURE); ASSERT_NEAR( 70, engine->sensors.clt, EPS4D) << "CLT"; eth.setTriggerType(TT_ONE PASS_ENGINE_PARAMETER_SUFFIX); eth.engine.periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); setWholeTimingTable(0); eth.fireRise(20); eth.fireFall(20); eth.executeActions(); eth.fireRise(20); eth.fireFall(20); ASSERT_EQ( 3000, GET_RPM()) << "testSparkReverseOrderBug319: RPM"; ASSERT_EQ( 7, engine->executor.size()) << "testSparkReverseOrderBug319: queue size"; eth.executeActions(); printf("***************************************************\r\n"); eth.fireRise(20); eth.executeActions(); /** * here we throw scheduling logic off */ eth.fireFall(0.1); // executing new signal too early eth.executeActions(); ASSERT_EQ( 1, enginePins.coils[3].outOfOrder) << "out-of-order #1"; eth.moveTimeForwardUs(MS2US(200)); // moving time forward to execute all pending actions eth.executeActions(); ASSERT_EQ( 0, enginePins.coils[3].outOfOrder) << "out-of-order #2"; printf("*************************************************** now let's have a good engine cycle and confirm things work\r\n"); eth.fireRise(20); eth.executeActions(); ASSERT_EQ( 545, GET_RPM()) << "RPM#2"; ASSERT_EQ( 0, enginePins.coils[3].outOfOrder) << "out-of-order #3"; eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 1, enginePins.coils[3].outOfOrder) << "out-of-order #4"; printf("*************************************************** (rpm is back) now let's have a good engine cycle and confirm things work\r\n"); eth.fireRise(20); eth.executeActions(); ASSERT_EQ( 3000, GET_RPM()) << "RPM#3"; ASSERT_EQ( 1, enginePins.coils[3].outOfOrder) << "out-of-order #5 on c4"; eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 1, enginePins.coils[3].outOfOrder) << "out-of-order #6 on c4"; printf("*************************************************** (rpm is back 2) now let's have a good engine cycle and confirm things work\r\n"); eth.fireRise(20); eth.executeActions(); ASSERT_EQ( 3000, GET_RPM()) << "RPM#4"; ASSERT_EQ( 1, enginePins.coils[3].outOfOrder) << "out-of-order #7"; eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 0, enginePins.coils[3].outOfOrder) << "out-of-order #8"; ASSERT_EQ( 2, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#SparkReverseOrderBug319"; ASSERT_EQ(CUSTOM_DWELL_TOO_LONG, unitTestWarningCodeState.recentWarnings.get(0)) << "warning @0"; ASSERT_EQ(CUSTOM_OUT_OF_ORDER_COIL, unitTestWarningCodeState.recentWarnings.get(1)); } TEST(big, testMissedSpark299) { printf("*************************************************** testMissedSpark299\r\n"); WITH_ENGINE_TEST_HELPER(TEST_ENGINE); engineConfiguration->ignitionMode = IM_WASTED_SPARK; engineConfiguration->useOnlyRisingEdgeForTrigger = false; setupSimpleTestEngineWithMafAndTT_ONE_trigger(ð); engineConfiguration->isIgnitionEnabled = true; engineConfiguration->isInjectionEnabled = false; ASSERT_EQ( 0, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#0"; eth.fireRise(20); eth.executeActions(); ASSERT_EQ( 0, eth.engine.triggerCentral.triggerState.currentCycle.current_index) << "ci#0"; eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 1, eth.engine.triggerCentral.triggerState.currentCycle.current_index) << "ci#1"; eth.fireRise(20); eth.executeActions(); ASSERT_EQ( 0, eth.engine.triggerCentral.triggerState.currentCycle.current_index) << "ci#2"; eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 1, eth.engine.triggerCentral.triggerState.currentCycle.current_index) << "ci#3"; eth.fireRise(20); eth.executeActions(); eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 1, eth.engine.triggerCentral.triggerState.currentCycle.current_index) << "ci#5"; printf("*************************************************** testMissedSpark299 start\r\n"); ASSERT_EQ(3000, eth.engine.rpmCalculator.rpmValue); setWholeTimingTable(3); eth.engine.periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.fireRise(20); eth.executeActions(); eth.fireFall(20); eth.executeActions(); eth.fireRise(20); eth.executeActions(); eth.fireFall(20); eth.executeActions(); setWholeTimingTable(-5); eth.engine.periodicFastCallback(PASS_ENGINE_PARAMETER_SIGNATURE); eth.fireRise(20); eth.executeActions(); eth.fireFall(20); eth.executeActions(); eth.fireRise(20); eth.executeActions(); eth.fireFall(20); eth.executeActions(); ASSERT_EQ( 0, unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#1"; }