plumbing for multiple vvt (#2488)

* plumb multiple vvt * fix test * s * fix barra while we're at it Co-authored-by: Matthew Kennedy <makenne@microsoft.com>
2021-03-25 04:39:23 -07:00 · 2021-03-25 04:39:23 -07:00 · 1c473934b9
parent ce033e04bb
commit 1c473934b9
10 changed files with 37 additions and 24 deletions
--- a/firmware/console/status_loop.cpp
+++ b/firmware/console/status_loop.cpp
@ -595,7 +595,7 @@ void updateTunerStudioState(TunerStudioOutputChannels *tsOutputChannels DECLARE_

 #if EFI_SHAFT_POSITION_INPUT
 	// 248
-	tsOutputChannels->vvtPosition = engine->triggerCentral.getVVTPosition();
+	tsOutputChannels->vvtPosition = engine->triggerCentral.getVVTPosition(0, 0);
 #endif

 	// 252
--- a/firmware/controllers/actuators/vvt.cpp
+++ b/firmware/controllers/actuators/vvt.cpp
@ -27,9 +27,14 @@ static fsio8_Map3D_u8t vvtTable2("vvt#2");

 static Logging *logger;

-void VvtController::init(int index, const ValueProvider3D* targetMap) {
+void VvtController::init(int index, int bankIndex, int camIndex, const ValueProvider3D* targetMap) {
 	this->index = index;
-	m_pid.initPidClass(&CONFIG(auxPid[index]));
+	m_bank = bankIndex;
+	m_cam = camIndex;
+
+	// Use the same settings for the Nth cam in every bank (ie, all exhaust cams use the same PID)
+	m_pid.initPidClass(&CONFIG(auxPid[camIndex]));
+
 	m_targetMap = targetMap;
 }

@ -47,7 +52,7 @@ void VvtController::PeriodicTask() {
 }

 expected<angle_t> VvtController::observePlant() const {
-	return engine->triggerCentral.getVVTPosition();
+	return engine->triggerCentral.getVVTPosition(m_bank, m_cam);
 }

 expected<angle_t> VvtController::getSetpoint() const {
@ -138,10 +143,10 @@ void initAuxPid(Logging *sharedLogger) {
 	for (int i = 0;i < CAM_INPUTS_COUNT;i++) {
 		INJECT_ENGINE_REFERENCE(&instances[i]);

-		// TODO: this is wrong for cams 3/4
-		int indexInBank = i % CAMS_PER_BANK;
-		auto targetMap = indexInBank == 0 ? &vvtTable1 : &vvtTable2;
-		instances[i].init(i, targetMap);
+		int camIndex = i % CAMS_PER_BANK;
+		int bankIndex = i / CAMS_PER_BANK;
+		auto targetMap = camIndex == 0 ? &vvtTable1 : &vvtTable2;
+		instances[i].init(i, bankIndex, camIndex, targetMap);
 	}

 	startVvtControlPins();
--- a/firmware/controllers/actuators/vvt.h
+++ b/firmware/controllers/actuators/vvt.h
@ -24,7 +24,7 @@ class VvtController : public PeriodicTimerController, public ClosedLoopControlle
 public:
 	DECLARE_ENGINE_PTR;

-	void init(int index, const ValueProvider3D* targetMap);
+	void init(int index, int bankIndex, int camIndex, const ValueProvider3D* targetMap);

 	// PeriodicTimerController implementation
 	int getPeriodMs() override;
@ -43,6 +43,12 @@ private:
 	const ValueProvider3D* m_targetMap = nullptr;
 	int index = 0;

+	// Bank index, 0 or 1
+	uint8_t m_bank = 0;
+
+	// Cam index, 0 = intake, 1 = exhaust
+	uint8_t m_cam = 0;
+
 public:
 	// todo: encapsulate or inject these
 	SimplePwm m_pwm;
--- a/firmware/controllers/can/can_verbose.cpp
+++ b/firmware/controllers/can/can_verbose.cpp
@ -120,7 +120,7 @@ struct Sensors2 {
 static void populateFrame(Sensors2& msg) {
    msg.afr = Sensor::get(SensorType::Lambda1).value_or(0) * 14.7f;
    msg.oilPressure = Sensor::get(SensorType::OilPressure).value_or(-1);
-    msg.vvtPos = engine->triggerCentral.getVVTPosition();
+    msg.vvtPos = engine->triggerCentral.getVVTPosition(0, 0);
    msg.vbatt = Sensor::get(SensorType::BatteryVoltage).value_or(0);
 }

--- a/firmware/controllers/core/fsio_impl.cpp
+++ b/firmware/controllers/core/fsio_impl.cpp
@ -138,8 +138,9 @@ FsioResult getEngineValue(le_action_e action DECLARE_ENGINE_PARAMETER_SUFFIX) {
 		return Sensor::get(SensorType::Map).value_or(0);
 #if EFI_SHAFT_POSITION_INPUT
 	case LE_METHOD_INTAKE_VVT:
+		return engine->triggerCentral.getVVTPosition(0, 0);
 	case LE_METHOD_EXHAUST_VVT:
-		return engine->triggerCentral.getVVTPosition();
+		return engine->triggerCentral.getVVTPosition(0, 1);
 #endif
 	case LE_METHOD_TIME_SINCE_TRIGGER_EVENT:
 		return engine->triggerCentral.getTimeSinceTriggerEvent(getTimeNowNt());
--- a/firmware/controllers/trigger/trigger_central.cpp
+++ b/firmware/controllers/trigger/trigger_central.cpp
@ -79,8 +79,8 @@ EXTERN_ENGINE;

 static Logging *logger;

-angle_t TriggerCentral::getVVTPosition() {
-	return vvtPosition[0][0];
+angle_t TriggerCentral::getVVTPosition(uint8_t bankIndex, uint8_t camIndex) {
+	return vvtPosition[bankIndex][camIndex];
 }

 #define miataNbIndex (0)
@ -89,7 +89,8 @@ static bool vvtWithRealDecoder(vvt_mode_e vvtMode) {
 	return vvtMode == VVT_MIATA_NB2
 			|| vvtMode == VVT_BOSCH_QUICK_START
 			|| vvtMode == VVT_FORD_ST170
-			|| vvtMode == VVT_4_1;
+			|| vvtMode == VVT_4_1
+			|| vvtMode == VVT_BARRA_3_PLUS_1;
 }

 void hwHandleVvtCamSignal(trigger_value_e front, efitick_t nowNt, int index DECLARE_ENGINE_PARAMETER_SUFFIX) {
--- a/firmware/controllers/trigger/trigger_central.h
+++ b/firmware/controllers/trigger/trigger_central.h
@ -57,7 +57,7 @@ public:
 	TriggerNoiseFilter noiseFilter;

 	trigger_type_e vvtTriggerType[CAMS_PER_BANK];
-	angle_t getVVTPosition();
+	angle_t getVVTPosition(uint8_t bankIndex, uint8_t camIndex);

 #if EFI_UNIT_TEST
 	// latest VVT event position (could be not synchronization event)
--- a/unit_tests/tests/test_vvt.cpp
+++ b/unit_tests/tests/test_vvt.cpp
@ -19,7 +19,7 @@ TEST(Vvt, setpoint) {

 	VvtController dut;
 	INJECT_ENGINE_REFERENCE(&dut);
-	dut.init(0, &targetMap);
+	dut.init(0, 0, 0, &targetMap);

 	// Test dut
 	EXPECT_EQ(20, dut.getSetpoint().value_or(0));
@ -32,7 +32,7 @@ TEST(Vvt, observePlant) {

 	VvtController dut;
 	INJECT_ENGINE_REFERENCE(&dut);
-	dut.init(0, nullptr);
+	dut.init(0, 0, 0, nullptr);

 	EXPECT_EQ(23, dut.observePlant().value_or(0));
 }
--- a/unit_tests/tests/trigger/test_cam_vvt_input.cpp
+++ b/unit_tests/tests/trigger/test_cam_vvt_input.cpp
@ -114,7 +114,7 @@ TEST(trigger, testCamInput) {

 	// asserting that error code has cleared
 	ASSERT_EQ(0,  unitTestWarningCodeState.recentWarnings.getCount()) << "warningCounter#testCamInput #3";
-	ASSERT_NEAR(720 - 181, engine->triggerCentral.getVVTPosition(), EPS3D);
+	ASSERT_NEAR(720 - 181, engine->triggerCentral.getVVTPosition(0, 0), EPS3D);
 }

 TEST(sensors, testNB2CamInput) {
@ -153,14 +153,14 @@ TEST(sensors, testNB2CamInput) {
 	// this second important front would give us first real VVT gap duration
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), 0 PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition());
+	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition(0, 0));
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync, engine->triggerCentral.triggerState.getTotalRevolutionCounter());

 	eth.moveTimeForwardUs(MS2US(130));
 	// this third important front would give us first comparison between two real gaps
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), 0 PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_NEAR(-67.6 - 720 - 720, engine->triggerCentral.getVVTPosition(), EPS3D);
+	ASSERT_NEAR(-67.6 - 720 - 720, engine->triggerCentral.getVVTPosition(0, 0), EPS3D);
 	// actually position based on VVT!
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync + 2, engine->triggerCentral.triggerState.getTotalRevolutionCounter());
 }
--- a/unit_tests/tests/trigger/test_quad_cam.cpp
+++ b/unit_tests/tests/trigger/test_quad_cam.cpp
@ -53,14 +53,14 @@ TEST(trigger, testQuadCam) {
 	// this second important front would give us first real VVT gap duration
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), secondCam PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition());
+	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition(0, 0));
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync, engine->triggerCentral.triggerState.getTotalRevolutionCounter());

 	eth.moveTimeForwardUs(MS2US(130 / d));
 	// this third important front would give us first comparison between two real gaps
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), secondCam PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_NEAR(-67.6 - 720 - 720 + 160.2, engine->triggerCentral.vvtPosition[0][secondCam], EPS3D);
+	ASSERT_NEAR(-67.6 - 720 - 720 + 160.2, engine->triggerCentral.getVVTPosition(0, 1), EPS3D);
 	// actually position based on VVT!
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync, engine->triggerCentral.triggerState.getTotalRevolutionCounter());

@ -78,14 +78,14 @@ TEST(trigger, testQuadCam) {
 	// this second important front would give us first real VVT gap duration
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), secondCamSecondBank PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition());
+	ASSERT_FLOAT_EQ(0, engine->triggerCentral.getVVTPosition(0, 0));
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync, engine->triggerCentral.triggerState.getTotalRevolutionCounter());

 	eth.moveTimeForwardUs(MS2US(130 / d));
 	// this third important front would give us first comparison between two real gaps
 	hwHandleVvtCamSignal(TV_RISE, getTimeNowNt(), secondCamSecondBank PASS_ENGINE_PARAMETER_SUFFIX);

-	ASSERT_NEAR(-2571.4, engine->triggerCentral.vvtPosition[secondBank][secondCam], EPS3D);
+	ASSERT_NEAR(-2571.4, engine->triggerCentral.getVVTPosition(secondBank, secondCam), EPS3D);
 	// actually position based on VVT!
 	ASSERT_EQ(totalRevolutionCountBeforeVvtSync, engine->triggerCentral.triggerState.getTotalRevolutionCounter());