auto-sync

firmware/console/status_loop.cpp

@@ -386,7 +386,8 @@ static void showFuelInfo2(float rpm, float engineLoad, Engine *engine) {
 	scheduleMsg(&logger2, "algo=%s/pump=%s", getEngine_load_mode_e(engineConfiguration->algorithm),
 			boolToString(enginePins.fuelPumpRelay.getLogicValue()));
 
-	scheduleMsg(&logger2, "phase=%f", getInjectionAngle(rpm));
+	scheduleMsg(&logger2, "phase=%f correction=%f", getInjectionAngle(rpm),
+			engineConfiguration->globalFuelCorrection);
 
 #if EFI_ENGINE_CONTROL
 	scheduleMsg(&logger2, "cranking fuel: %f", getCrankingFuel(engine));

firmware/controllers/engine_controller.cpp

@@ -47,6 +47,10 @@
 #include "engine.h"
 #include "algo.h"
 
+#if HAL_USE_ADC || defined(__DOXYGEN__)
+#include "AdcConfiguration.h"
+#endif
+
 #if EFI_PROD_CODE
 #include "pwm_generator.h"
 #include "adc_inputs.h"
@@ -244,8 +248,16 @@ char * getPinNameByAdcChannel(adc_channel_e hwChannel, char *buffer) {
 
 static char pinNameBuffer[16];
 
+#if HAL_USE_ADC || defined(__DOXYGEN__)
+extern AdcDevice fastAdc;
+#endif
+
 static void printAnalogChannelInfoExt(const char *name, adc_channel_e hwChannel, float adcVoltage) {
 #if HAL_USE_ADC || defined(__DOXYGEN__)
+	if(fastAdc.isHwUsed(hwChannel)) {
+		scheduleMsg(&logger, "fast enabled=%s", boolToString(boardConfiguration->isFastAdcEnabled));
+	}
+
 	float voltage = adcVoltage * engineConfiguration->analogInputDividerCoefficient;
 	scheduleMsg(&logger, "%s ADC%d %s %s rawValue=%f/divided=%fv", name, hwChannel, getAdcMode(hwChannel),
 			getPinNameByAdcChannel(hwChannel, pinNameBuffer), adcVoltage, voltage);
@@ -267,9 +279,13 @@ static void printAnalogInfo(void) {
 	if (engineConfiguration->hasIatSensor) {
 		printAnalogChannelInfo("IAT", engineConfiguration->iatAdcChannel);
 	}
-	printAnalogChannelInfo("MAF", engineConfiguration->mafAdcChannel);
+	if (engineConfiguration->hasMafSensor) {
+		printAnalogChannelInfo("MAF", engineConfiguration->mafAdcChannel);
+	}
 	printAnalogChannelInfo("AFR", engineConfiguration->afr.hwChannel);
-	printAnalogChannelInfo("MAP", engineConfiguration->map.sensor.hwChannel);
+	if (engineConfiguration->hasMapSensor) {
+		printAnalogChannelInfo("MAP", engineConfiguration->map.sensor.hwChannel);
+	}
 	if (engineConfiguration->hasBaroSensor) {
 		printAnalogChannelInfo("BARO", engineConfiguration->baroSensor.hwChannel);
 	}
@@ -286,8 +302,8 @@ static void setShort(const int offset, const int value) {
 	if (isOutOfBounds(offset))
 		return;
 	uint16_t *ptr = (uint16_t *) (&((char *) engine->engineConfiguration)[offset]);
-	*ptr = (uint16_t)value;
-	scheduleMsg(&logger, "setting short @%d to %d", offset, (uint16_t)value);
+	*ptr = (uint16_t) value;
+	scheduleMsg(&logger, "setting short @%d to %d", offset, (uint16_t) value);
 }
 
 static void getShort(int offset) {

firmware/controllers/sensors/maf.cpp

@@ -41,6 +41,9 @@ static int addMafPoint(engine_configuration_s *e, int i, float kgHrValue, float
 	return i + 1;
 }
 
+/**
+ * Hot-film air-mass meter, Type HFM 5
+ */
 void setBosch0280218037(engine_configuration_s *e) {
 	int i = 0;
 	i = addMafPoint(e, i, -34.5, 0);
@@ -70,12 +73,16 @@ void setBosch0280218004(engine_configuration_s *e) {
 void setDensoTODO(engine_configuration_s *e) {
 	int i = 0;
 
-	i = addMafPoint(e, i, 0, 3);
-	i = addMafPoint(e, i, 23.8, 1.83);
-	i = addMafPoint(e, i, 32.5, 1.60);
-	i = addMafPoint(e, i, 40.5, 1.4);
-	i = addMafPoint(e, i, 76.3, 1.04);
 	i = addMafPoint(e, i, 116.3, 0.8);
+	i = addMafPoint(e, i, 76.3, 1.04);
+	i = addMafPoint(e, i, 40.5, 1.4);
+	i = addMafPoint(e, i, 32.5, 1.60);
+	i = addMafPoint(e, i, 23.8, 1.83);
+	i = addMafPoint(e, i, 0, 3);
 
-	fillTheRest(e, i);
+	while (i < MAF_DECODING_COUNT) {
+		e->mafDecoding[i] = 0;
+		e->mafDecodingBins[i] = 10 + i;
+		i++;
+	}
 }

firmware/controllers/settings.cpp

@@ -209,6 +209,7 @@ void printConfiguration(engine_configuration_s *engineConfiguration) {
 
 	scheduleMsg(&logger, "ignitionMode: %s/enabled=%s", getIgnition_mode_e(engineConfiguration->ignitionMode),
 			boolToString(engineConfiguration->isIgnitionEnabled));
+	scheduleMsg(&logger, "globalTriggerAngleOffset=%f", engineConfiguration->globalTriggerAngleOffset);
 	scheduleMsg(&logger, "timingMode: %d", /*getTiming_mode_etodo*/(engineConfiguration->timingMode));
 	scheduleMsg(&logger, "fixedModeTiming: %d", (int) engineConfiguration->fixedModeTiming);
 	scheduleMsg(&logger, "ignitionOffset=%f", engineConfiguration->ignitionBaseAngle);
@@ -216,6 +217,21 @@ void printConfiguration(engine_configuration_s *engineConfiguration) {
 			(double) engineConfiguration->injectionAngle,
 			boolToString(engineConfiguration->isInjectionEnabled));
 
+	if (engineConfiguration->useConstantDwellDuringCranking) {
+		scheduleMsg(&logger, "ignitionDwellForCrankingMs=%f", engineConfiguration->ignitionDwellForCrankingMs);
+	} else {
+		scheduleMsg(&logger, "cranking charge charge angle=%f fire at %f", engineConfiguration->crankingChargeAngle,
+				engineConfiguration->crankingTimingAngle);
+	}
+
+//	scheduleMsg(&logger, "analogChartMode: %d", engineConfiguration->analogChartMode);
+
+	scheduleMsg(&logger, "crankingRpm: %d", engineConfiguration->cranking.rpm);
+
+	scheduleMsg(&logger, "analogInputDividerCoefficient: %f", engineConfiguration->analogInputDividerCoefficient);
+
+	printOutputs(engineConfiguration);
+
 	scheduleMsg(&logger, "map_avg=%s/mil=%s/fp=%s/ts=%s/wa=%s/it=%s/fastAdc=%s",
 			boolToString(engineConfiguration->isMapAveragingEnabled), boolToString(engineConfiguration->isMilEnabled),
 			boolToString(engineConfiguration->isFuelPumpEnabled),
@@ -227,22 +243,6 @@ void printConfiguration(engine_configuration_s *engineConfiguration) {
 			boolToString(engineConfiguration->isManualSpinningMode),
 			boolToString(engineConfiguration->isCylinderCleanupEnabled));
 
-	if (engineConfiguration->useConstantDwellDuringCranking) {
-		scheduleMsg(&logger, "ignitionDwellForCrankingMs=%f", engineConfiguration->ignitionDwellForCrankingMs);
-	} else {
-		scheduleMsg(&logger, "crankingChargeAngle=%f", engineConfiguration->crankingChargeAngle);
-		scheduleMsg(&logger, "crankingTimingAngle=%f", engineConfiguration->crankingTimingAngle);
-	}
-	scheduleMsg(&logger, "globalTriggerAngleOffset=%f", engineConfiguration->globalTriggerAngleOffset);
-
-//	scheduleMsg(&logger, "analogChartMode: %d", engineConfiguration->analogChartMode);
-
-	scheduleMsg(&logger, "crankingRpm: %d", engineConfiguration->cranking.rpm);
-
-	scheduleMsg(&logger, "analogInputDividerCoefficient: %f", engineConfiguration->analogInputDividerCoefficient);
-
-	printOutputs(engineConfiguration);
-
 	scheduleMsg(&logger, "clutchUp@%s: %s", hwPortname(engineConfiguration->clutchUpPin), boolToString(engine->clutchUpState));
 	scheduleMsg(&logger, "clutchDown@%s: %s", hwPortname(boardConfiguration->clutchDownPin), boolToString(engine->clutchDownState));
 

java_console/models/src/com/irnems/core/Sensor.java

@@ -22,6 +22,7 @@ public enum Sensor {
     IAT("Intake Air", SensorCategory.SENSOR_INPUTS, "temperature, C", -40, 150),
     AFR("A/F ratio", SensorCategory.SENSOR_INPUTS, "", 0, 20),
     MAF("MAF", SensorCategory.SENSOR_INPUTS, "Volts", 4),
+    MAFR("MAFR", SensorCategory.SENSOR_INPUTS, "kg/hr", 4),
     TPS("throttle", SensorCategory.SENSOR_INPUTS, "%", 100),
     VSS("Speed", SensorCategory.SENSOR_INPUTS, "kph", 100),
 

java_console/models/src/com/irnems/core/SensorCentral.java

@@ -116,6 +116,7 @@ public class SensorCentral {
         addDoubleSensor(Sensor.VREF, es);
         addDoubleSensor(Sensor.VBATT, es);
         addDoubleSensor(Sensor.MAF, es);
+        addDoubleSensor(Sensor.MAFR, es);
         addDoubleSensor("period0", Sensor.PERIOD0, es);
         addDoubleSensor("period1", Sensor.PERIOD0, es);
         addDoubleSensor("duty0", Sensor.DUTY0, es);

java_console/ui/src/com/rusefi/Launcher.java

@@ -23,7 +23,7 @@ import static com.rusefi.ui.storage.PersistentConfiguration.getConfig;
  * @see WavePanel
  */
 public class Launcher extends FrameHelper {
-    public static final int CONSOLE_VERSION = 20150212;
+    public static final int CONSOLE_VERSION = 20150214;
     public static final boolean SHOW_STIMULATOR = true;
     public static final String TAB_INDEX = "main_tab";
     private final String port;

win32_functional_tests/simulator/rusEfiFunctionalTest.cpp

@@ -84,7 +84,7 @@ void rusEfiFunctionalTest(void) {
 
 	// todo: reduce code duplication with initEngineContoller
 
-	resetConfigurationExt(NULL, FORD_ASPIRE_1996, engine);
+	resetConfigurationExt(NULL, FORD_ESCORT_GT, engine);
 	prepareShapes(engine);
 
 	initSensors(PASS_ENGINE_PARAMETER_F);