Merge remote-tracking branch 'origin/master' into master

2020-10-05 11:19:57 -04:00 · 2020-10-05 11:19:57 -04:00 · bfeeef72a8
parent 6522c72714 60329b55a5
commit bfeeef72a8
8 changed files with 55 additions and 70 deletions
--- a/firmware/controllers/core/fsio_impl.cpp
+++ b/firmware/controllers/core/fsio_impl.cpp
@ -54,6 +54,7 @@ static LENameOrdinalPair leMap(LE_METHOD_MAP, "map");
 static LENameOrdinalPair leVBatt(LE_METHOD_VBATT, "vbatt");
 static LENameOrdinalPair leFan(LE_METHOD_FAN, "fan");
 static LENameOrdinalPair leCoolant(LE_METHOD_COOLANT, "coolant");
+static LENameOrdinalPair leIntakeTemp(LE_METHOD_INTAKE_AIR, "iat");
 static LENameOrdinalPair leIsCoolantBroken(LE_METHOD_IS_COOLANT_BROKEN, "is_clt_broken");
 // @returns boolean state of A/C toggle switch
 static LENameOrdinalPair leAcToggle(LE_METHOD_AC_TOGGLE, "ac_on_switch");
--- a/firmware/controllers/date_stamp.h
+++ b/firmware/controllers/date_stamp.h
@ -1,2 +1,2 @@
 #pragma once
-#define VCS_DATE 20201004
+#define VCS_DATE 20201005
--- a/firmware/controllers/system/timer/event_queue.cpp
+++ b/firmware/controllers/system/timer/event_queue.cpp
@ -120,14 +120,23 @@ int EventQueue::executeAll(efitime_t now) {
 	assertListIsSorted();
 #endif

-	while (true) {
+	bool didExecute;
+	do {
+		didExecute = executeOne(now);
+		executionCounter += didExecute ? 1 : 0;
+	} while (didExecute);
+
+	return executionCounter;
+}
+
+bool EventQueue::executeOne(efitime_t now) {
 	// Read the head every time - a previously executed event could
 	// have inserted something new at the head
 	scheduling_s* current = head;

 	// Queue is empty - bail
 	if (!current) {
-			break;
+		return false;
 	}

 	// If the next event is far in the future, we'll reschedule
@ -137,7 +146,7 @@ int EventQueue::executeAll(efitime_t now) {
 	// waiting for the time to arrive.  On current CPUs, this is reasonable to set
 	// around 10 microseconds.
 	if (current->momentX > now + lateDelay) {
-			break;
+		return false;
 	}

 	// near future - spin wait for the event to happen and avoid the
@ -147,8 +156,6 @@ int EventQueue::executeAll(efitime_t now) {
 		UNIT_TEST_BUSY_WAIT_CALLBACK();
 	}

-		executionCounter++;
-
 	// step the head forward, unlink this element, clear scheduled flag
 	head = current->nextScheduling_s;
 	current->nextScheduling_s = nullptr;
@ -168,9 +175,8 @@ int EventQueue::executeAll(efitime_t now) {
 	// (tests only) Ensure we didn't break anything
 	assertListIsSorted();
 #endif
-	}

-	return executionCounter;
+	return true;
 }

 int EventQueue::size(void) const {
--- a/firmware/controllers/system/timer/event_queue.h
+++ b/firmware/controllers/system/timer/event_queue.h
@ -56,6 +56,7 @@ public:
 	bool insertTask(scheduling_s *scheduling, efitime_t timeX, action_s action);

 	int executeAll(efitime_t now);
+	bool executeOne(efitime_t now);

 	efitime_t getNextEventTime(efitime_t nowUs) const;
 	void clear(void);
--- a/firmware/controllers/system/timer/pwm_generator_logic.cpp
+++ b/firmware/controllers/system/timer/pwm_generator_logic.cpp
@ -21,7 +21,7 @@
 * We need to limit the number of iterations in order to avoid precision loss while calculating
 * next toggle time
 */
-#define ITERATION_LIMIT 1000
+#define ITERATION_LIMIT 100

 // 1% duty cycle
 #define ZERO_PWM_THRESHOLD 0.01
@ -123,7 +123,7 @@ static efitick_t getNextSwitchTimeNt(PwmConfig *state) {
 	 * Once 'iteration' gets relatively high, we might lose calculation precision here.
 	 * This is addressed by ITERATION_LIMIT
 	 */
-	efitick_t timeToSwitchNt = (efitick_t) ((iteration + switchTime) * periodNt);
+	uint32_t timeToSwitchNt = (uint32_t)((iteration + switchTime) * periodNt);

 #if DEBUG_PWM
 	scheduleMsg(&logger, "start=%d timeToSwitch=%d", state->safe.start, timeToSwitch);
@ -175,8 +175,6 @@ void PwmConfig::handleCycleStart() {
 * @return Next time for signal toggle
 */
 efitick_t PwmConfig::togglePwmState() {
-	ScopePerf perf(PE::PwmConfigTogglePwmState);
-
 	if (isStopRequested) {
 		return 0;
 	}
@ -224,20 +222,6 @@ efitick_t PwmConfig::togglePwmState() {
 #if DEBUG_PWM
 	scheduleMsg(&logger, "%s: nextSwitchTime %d", state->name, nextSwitchTime);
 #endif /* DEBUG_PWM */
-	// signed value is needed here
-//	int64_t timeToSwitch = nextSwitchTimeUs - getTimeNowUs();
-//	if (timeToSwitch < 1) {
-//		/**
-//		 * We are here if we are late for a state transition.
-//		 * At 12000RPM=200Hz with a 60 toothed wheel we need to change state every
-//		 * 1000000 / 200 / 120 = ~41 uS. We are kind of OK.
-//		 *
-//		 * We are also here after a flash write. Flash write freezes the whole chip for a couple of seconds,
-//		 * so PWM generation and trigger simulation generation would have to recover from this time lag.
-//		 */
-//		//todo: introduce error and test this error handling		warning(OBD_PCM_Processor_Fault, "PWM: negative switch time");
-//		timeToSwitch = 10;
-//	}

 	safe.phaseIndex++;
 	if (safe.phaseIndex == phaseCount || mode != PM_NORMAL) {
--- a/firmware/controllers/system/timer/single_timer_executor.cpp
+++ b/firmware/controllers/system/timer/single_timer_executor.cpp
@ -41,7 +41,6 @@ EXTERN_ENGINE;
 static efitime_t nextEventTimeNt = 0;

 uint32_t hwSetTimerDuration;
-uint32_t lastExecutionCount;

 void globalTimerCallback() {
 	efiAssertVoid(CUSTOM_ERR_6624, getCurrentRemainingStack() > EXPECTED_REMAINING_STACK, "lowstck#2y");
@ -131,16 +130,13 @@ void SingleTimerExecutor::executeAllPendingActions() {
 	 * next listeners.
 	 * TODO: add a counter & figure out a limit of iterations?
 	 */
-	int totalExecuted = 0;
-	while (shouldExecute > 0) {
-		/**
-		 * It's worth noting that that the actions might be adding new actions into the queue
-		 */
+
+	bool didExecute;
+	do {
 		efitick_t nowNt = getTimeNowNt();
-		shouldExecute = queue.executeAll(nowNt);
-		totalExecuted += shouldExecute;
-	}
-	lastExecutionCount = totalExecuted;
+		didExecute = queue.executeOne(nowNt);
+	} while (didExecute);
+
 	if (!isLocked()) {
 		firmwareError(CUSTOM_ERR_LOCK_ISSUE, "Someone has stolen my lock");
 		return;
@ -162,10 +158,9 @@ void SingleTimerExecutor::scheduleTimerCallback() {
 	efiAssertVoid(CUSTOM_ERR_6625, nextEventTimeNt > nowNt, "setTimer constraint");
 	if (nextEventTimeNt == EMPTY_QUEUE)
 		return; // no pending events in the queue
+
 	int32_t hwAlarmTime = NT2US((int32_t)nextEventTimeNt - (int32_t)nowNt);
-	uint32_t beforeHwSetTimer = getTimeNowLowerNt();
 	setHardwareUsTimer(hwAlarmTime == 0 ? 1 : hwAlarmTime);
-	hwSetTimerDuration = getTimeNowLowerNt() - beforeHwSetTimer;
 }

 void initSingleTimerExecutorHardware(void) {
--- a/firmware/controllers/trigger/trigger_central.cpp
+++ b/firmware/controllers/trigger/trigger_central.cpp
@ -603,7 +603,6 @@ extern PwmConfig triggerSignal;
 #endif /* #if EFI_PROD_CODE */

 extern uint32_t hipLastExecutionCount;
-extern uint32_t hwSetTimerDuration;

 extern uint32_t maxLockedDuration;
 extern uint32_t maxEventCallbackDuration;
@ -737,7 +736,6 @@ void triggerInfo(void) {
 #if EFI_HIP_9011
 	scheduleMsg(logger, "hipLastExecutionCount=%d", hipLastExecutionCount);
 #endif /* EFI_HIP_9011 */
-	scheduleMsg(logger, "hwSetTimerDuration=%d", hwSetTimerDuration);

 	scheduleMsg(logger, "totalTriggerHandlerMaxTime=%d", triggerMaxDuration);
 	scheduleMsg(logger, "maxPrecisionCallbackDuration=%d", maxPrecisionCallbackDuration);
--- a/firmware/development/perf_trace.h
+++ b/firmware/development/perf_trace.h
@ -51,7 +51,7 @@ enum class PE : uint8_t {
 	EventQueueExecuteCallback,
 	PwmGeneratorCallback,
 	TunerStudioHandleCrcCommand,
-	PwmConfigTogglePwmState,
+	Unused,
 	PwmConfigStateChangeCallback,
 	Temporary1,
 	Temporary2,