/* * AppleOnboardAudio.h * AppleOnboardAudio * * Created by cerveau on Mon Jun 04 2001. * Copyright (c) 2001 Apple Computer Inc. All rights reserved. * */ #include #include #include #include #include "AppleOnboardAudio.h" OSDefineMetaClassAndAbstractStructors(AppleOnboardAudio, IOAudioDevice) #define super IOAudioDevice #pragma mark +UNIX LIKE FUNCTIONS bool AppleOnboardAudio::init(OSDictionary *properties) { OSDictionary *AOAprop; DEBUG_IOLOG("+ AppleOnboardAudio::init\n"); if (!super::init(properties)) return false; outMute =0; playthruToggle =0; outVolLeft =0; outVolRight =0; inGainLeft =0; inGainRight =0; inputSelector = 0; //globals for the driver gIsMute = false; gIsPlayThroughActive = false; gVolLeft =0; gVolRight =0; gGainLeft = 0; gGainRight = 0; gIsModemSoundActive = false; gHasModemSound = false; gLastInputSourceBeforeModem =0; gExpertMode = false; //when off we are in a OS 9 like config. On we //Port Handler like info AudioDetects = 0; AudioOutputs = 0; AudioInputs = 0; AudioSoftDSPFeatures = 0; driverDMAEngine = 0; currentDevices = 0xFFFF; theAudioPowerObject = 0; theAudioDeviceTreeParser = 0; //Future for creation if ( AOAprop = OSDynamicCast(OSDictionary, properties->getObject("AOAAttributes"))) { gHasModemSound = (kOSBooleanTrue == OSDynamicCast(OSBoolean, AOAprop->getObject("analogModem"))); } CLOG("- AppleOnboardAudio::init\n"); return true; } void AppleOnboardAudio::free() { DEBUG_IOLOG("+ AppleOnboardAudio::free\n"); if(driverDMAEngine) driverDMAEngine->release(); CLEAN_RELEASE(outMute); CLEAN_RELEASE(playthruToggle); CLEAN_RELEASE(outVolLeft); CLEAN_RELEASE(outVolRight); CLEAN_RELEASE(inGainLeft); CLEAN_RELEASE(inGainRight); CLEAN_RELEASE(inputSelector); CLEAN_RELEASE(theAudioPowerObject); CLEAN_RELEASE(AudioDetects); CLEAN_RELEASE(AudioOutputs); CLEAN_RELEASE(AudioInputs); CLEAN_RELEASE(theAudioDeviceTreeParser); publishResource ("setModemSound", NULL); super::free(); DEBUG_IOLOG("- AppleOnboardAudio::free, (void)\n"); } IOService* AppleOnboardAudio::probe(IOService* provider, SInt32* score) { DEBUG_IOLOG("+ AppleOnboardAudio::probe\n"); super::probe(provider, score); DEBUG_IOLOG("- AppleOnboardAudio::probe\n"); return (0); } OSArray *AppleOnboardAudio::getDetectArray(){ return(AudioDetects); } bool AppleOnboardAudio::getMuteState(){ return(gIsMute); } void AppleOnboardAudio::setMuteState(bool newMuteState){ outMute->setValue(newMuteState); } #pragma mark +PORT HANDLER FUNCTIONS IOReturn AppleOnboardAudio::configureAudioOutputs(IOService *provider) { IOReturn result = kIOReturnSuccess; AudioHardwareOutput *theOutput; UInt16 idx; DEBUG_IOLOG("+ AppleOnboardAudio::configureAudioOutputs\n"); if(!theAudioDeviceTreeParser) goto BAIL; AudioOutputs = theAudioDeviceTreeParser->createOutputsArray(); if(!AudioOutputs) goto BAIL; for(idx = 0; idx < AudioOutputs->getCount(); idx++) { theOutput = OSDynamicCast(AudioHardwareOutput, AudioOutputs->getObject(idx)); if( theOutput) theOutput->attachAudioPluginRef((AppleOnboardAudio *) this); } EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::configureAudioOutputs, %d\n", (result == kIOReturnSuccess)); return(result); BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::configureAudioDetects(IOService *provider) { IOReturn result = kIOReturnSuccess; DEBUG_IOLOG("+ AppleOnboardAudio::configureAudioDetects\n"); if(!theAudioDeviceTreeParser) goto BAIL; AudioDetects = theAudioDeviceTreeParser->createDetectsArray(); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::configureAudioDetects, %d \n", (result == kIOReturnSuccess)); return(result); BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::configureAudioInputs(IOService *provider) { IOReturn result = kIOReturnSuccess; UInt16 idx; AudioHardwareInput *theInput; AudioHardwareMux *theMux; DEBUG_IOLOG("+ AppleOnboardAudio::configureAudioDetects\n"); FailIf (NULL == theAudioDeviceTreeParser, BAIL); AudioInputs = theAudioDeviceTreeParser->createInputsArrayWithMuxes(); FailIf (NULL == AudioInputs, BAIL); for(idx = 0; idx < AudioInputs->getCount(); idx++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(idx)); if (NULL != theInput) { theInput->attachAudioPluginRef((AppleOnboardAudio *) this); } else { theMux = OSDynamicCast(AudioHardwareMux, AudioInputs->getObject(idx)); if (NULL != theMux) { theMux->attachAudioPluginRef((AppleOnboardAudio *) this); } else { DEBUG_IOLOG ("!!!It's not an input and it's not a mux!!!\n"); } } } EXIT: DEBUG2_IOLOG("- %d = AppleOnboardAudio::configureAudioDetects\n", result); return (result); BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::parseAndActivateInit(IOService *provider){ IOReturn result = kIOReturnSuccess; SInt16 initType = 0; DEBUG_IOLOG("+ AppleOnboardAudio::parseAndActivateInit\n"); if(!theAudioDeviceTreeParser) goto BAIL; initType = theAudioDeviceTreeParser->getInitOperationType(); if(2 == initType) sndHWSetProgOutput(kSndHWProgOutput0); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::parseAndActivateInit, %d\n", (result == kIOReturnSuccess)); return(result); BAIL: result = kIOReturnError; goto EXIT; } UInt32 AppleOnboardAudio::getCurrentDevices(){ return(currentDevices); } void AppleOnboardAudio::setCurrentDevices(UInt32 devices){ UInt32 odevice; if(devices != currentDevices) { odevice = currentDevices; currentDevices = devices; changedDeviceHandler(odevice); } debug2IOLog ("currentDevices = %ld\n", currentDevices); debug2IOLog ("fCPUNeedsPhaseInversion = %d\n", fCPUNeedsPhaseInversion); // if this CPU has a phase inversion feature see if we need to enable phase inversion if (fCPUNeedsPhaseInversion) { bool state; if (currentDevices == 0 || currentDevices & kSndHWInternalSpeaker) // may only need the kSndHWInternalSpeaker check state = true; else state = false; driverDMAEngine->setPhaseInversion(state); } } void AppleOnboardAudio::changedDeviceHandler(UInt32 olddevices){ UInt16 i; AudioHardwareOutput *theOutput; // AudioHardwareInput *theInput; if(AudioOutputs) { for(i = 0; i< AudioOutputs->getCount(); i++) { theOutput = OSDynamicCast(AudioHardwareOutput, AudioOutputs->getObject(i)); if( theOutput) theOutput->deviceIntService(currentDevices); } } //Now that we have an input selector, it works through it /*if(AudioInputs) { for(i = 0; i< AudioInputs->getCount(); i++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(i)); if( theInput) theInput->deviceSetActive(currentDevices); } }*/ } #pragma mark +IOAUDIO INIT bool AppleOnboardAudio::initHardware (IOService *provider){ IOWorkLoop *workLoop; bool result; DEBUG_IOLOG("+ AppleOnboardAudio::initHardware\n"); result = FALSE; if (!super::initHardware (provider)) { goto EXIT; } ourPowerState = kIOAudioDeviceActive; ScheduleIdle (); sndHWInitialize (provider); theAudioDeviceTreeParser = AudioDeviceTreeParser::createWithEntryProvider (provider); setManufacturerName ("Apple"); setDeviceName ("Built-in audio controller"); parseAndActivateInit (provider); configureAudioDetects (provider); configureAudioOutputs (provider); configureAudioInputs (provider); configurePowerObject (provider); configureDMAEngines (provider); // Have to create the audio controls before calling activateAudioEngine createDefaultsPorts (); if (kIOReturnSuccess != activateAudioEngine (driverDMAEngine)){ driverDMAEngine->release (); goto EXIT; } workLoop = getWorkLoop (); FailIf (NULL == workLoop, EXIT); // Create a timer event source for idle power requests idleTimer = IOTimerEventSource::timerEventSource (this, IdleSleepHandlerTimer); FailIf (NULL == idleTimer, EXIT); workLoop->addEventSource (idleTimer); // Give drivers a chance to do something after the DMA engine and IOAudioFamily have been created/started sndHWPostDMAEngineInit (provider); // Set the default volume to that stored in the PRAM in case we don't get a setValue call from the Sound prefs before being activated. if (NULL != outVolLeft && NULL != outVolRight) { outVolLeft->setValue (PRAMToVolumeValue ()); outVolRight->setValue (PRAMToVolumeValue ()); } flushAudioControls (); publishResource ("setModemSound", this); // Install power change handler so we get notified about shutdown registerPrioritySleepWakeInterest (&sysPowerDownHandler, this, 0); // Tell the world about us so the User Client can find us. registerService (); result = TRUE; EXIT: DEBUG_IOLOG ("- AppleOnboardAudio::initHardware\n"); return (result); } IOReturn AppleOnboardAudio::configureDMAEngines(IOService *provider){ IOReturn result; bool hasInput; result = kIOReturnError; // All this config should go in a single method if(!theAudioDeviceTreeParser) goto EXIT; if (theAudioDeviceTreeParser->getNumberOfInputs() > 0) hasInput = true; else hasInput = false; driverDMAEngine = new AppleDBDMAAudioDMAEngine; // make sure we get an engine FailIf (NULL == driverDMAEngine, EXIT); //tell the uber class if it has to worry about reversing the phase of a channel fCPUNeedsPhaseInversion = theAudioDeviceTreeParser->getPhaseInversion(); // it will be set when the device polling starts driverDMAEngine->setPhaseInversion(false); if (!driverDMAEngine->init(0, provider, hasInput)) { driverDMAEngine->release(); goto EXIT; } result = kIOReturnSuccess; EXIT: return result; } IOReturn AppleOnboardAudio::createDefaultsPorts() { IOAudioPort *outputPort = 0; IOAudioPort *inputPort = 0; IOReturn result; OSDictionary *AOAprop = 0, *theRange = 0; OSNumber *theNumber; OSData *theData; SInt32 OutminLin, OutmaxLin, InminLin, InmaxLin; IOFixed OutminDB, OutmaxDB, InminDB, InmaxDB; UInt32 idx; DEBUG_IOLOG("+ AppleOnboardAudio::createDefaultsPorts\n"); result = kIOReturnSuccess; FailIf (NULL == driverDMAEngine, BAIL); FailIf (NULL == (AOAprop = OSDynamicCast(OSDictionary, this->getProperty("AOAAttributes"))), BAIL); /* * Create out part port : 2 level (one for each side and one mute) */ if (NULL != (theRange= OSDynamicCast(OSDictionary, AOAprop->getObject("RangeOut")))) { outputPort = IOAudioPort::withAttributes(kIOAudioPortTypeOutput, "Main Output port"); if (NULL != outputPort) { theNumber = OSDynamicCast(OSNumber, theRange->getObject("minLin")); OutminLin = (SInt32) theNumber->unsigned32BitValue(); theNumber = OSDynamicCast(OSNumber, theRange->getObject("maxLin")); OutmaxLin = (SInt32) theNumber->unsigned32BitValue(); theData = OSDynamicCast(OSData, theRange->getObject("minLog")); OutminDB = *((IOFixed*) theData->getBytesNoCopy()); theData = OSDynamicCast(OSData, theRange->getObject("maxLog")); OutmaxDB = *((IOFixed*) theData->getBytesNoCopy()); fMaxVolume = OutmaxLin; fMinVolume = OutminLin; outVolLeft = IOAudioLevelControl::createVolumeControl(OutmaxLin, OutminLin, OutmaxLin, OutminDB, OutmaxDB, kIOAudioControlChannelIDDefaultLeft, kIOAudioControlChannelNameLeft, kOutVolLeft, kIOAudioControlUsageOutput); if (NULL != outVolLeft) { driverDMAEngine->addDefaultAudioControl(outVolLeft); outVolLeft->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)volumeLeftChangeHandler, this); } outVolRight = IOAudioLevelControl::createVolumeControl(OutmaxLin, OutminLin, OutmaxLin, OutminDB, OutmaxDB, kIOAudioControlChannelIDDefaultRight, kIOAudioControlChannelNameRight, kOutVolRight, kIOAudioControlUsageOutput); if (NULL != outVolRight) { driverDMAEngine->addDefaultAudioControl(outVolRight); outVolRight->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)volumeRightChangeHandler, this); } outMute = IOAudioToggleControl::createMuteControl(false, kIOAudioControlChannelIDAll, kIOAudioControlChannelNameAll, kOutMute, kIOAudioControlUsageOutput); if (NULL != outMute) { driverDMAEngine->addDefaultAudioControl(outMute); outMute->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)outputMuteChangeHandler, this); } attachAudioPort(outputPort, driverDMAEngine, 0); outputPort->release(); } } /* * Create input port and level controls (if any) associated to it */ if ((theAudioDeviceTreeParser->getNumberOfInputs() > 0)) { if (NULL != (theRange= OSDynamicCast(OSDictionary, AOAprop->getObject("RangeIn")))) { inputPort = IOAudioPort::withAttributes(kIOAudioPortTypeInput, "Main Input Port"); if (NULL != inputPort) { theNumber = OSDynamicCast(OSNumber, theRange->getObject("minLin")); InminLin = (SInt32) theNumber->unsigned32BitValue(); theNumber = OSDynamicCast(OSNumber, theRange->getObject("maxLin")); InmaxLin = (SInt32) theNumber->unsigned32BitValue(); theData = OSDynamicCast(OSData, theRange->getObject("minLog")); InminDB = *((IOFixed*) theData->getBytesNoCopy()); theData = OSDynamicCast(OSData, theRange->getObject("maxLog")); InmaxDB = *((IOFixed*) theData->getBytesNoCopy()); inGainLeft = IOAudioLevelControl::createVolumeControl((InmaxLin-InminLin)/2, InminLin, InmaxLin, InminDB, InmaxDB, kIOAudioControlChannelIDDefaultLeft, kIOAudioControlChannelNameLeft, kInGainLeft, kIOAudioControlUsageInput); if (NULL != inGainLeft) { driverDMAEngine->addDefaultAudioControl(inGainLeft); inGainLeft->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)gainLeftChangeHandler, this); } inGainRight = IOAudioLevelControl::createVolumeControl((InmaxLin-InminLin)/2, InminLin, InmaxLin, InminDB, InmaxDB, kIOAudioControlChannelIDDefaultRight, kIOAudioControlChannelNameRight, kInGainRight, kIOAudioControlUsageInput); if (NULL != inGainRight) { driverDMAEngine->addDefaultAudioControl(inGainRight); inGainRight->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)gainRightChangeHandler, this); } attachAudioPort(inputPort, 0, driverDMAEngine); inputPort->release(); } } // create the input selectors if(AudioInputs) { AudioHardwareInput *theInput; UInt32 inputType; inputSelector = NULL; for(idx = 0; idx < AudioInputs->getCount(); idx++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(idx)); if(theInput) { inputType = theInput->getInputPortType(); DEBUG2_IOLOG ("Creating input selector of type %4s\n", (char*)&inputType); if (NULL == inputSelector && 'none' != inputType) { inputSelector = IOAudioSelectorControl::createInputSelector(inputType, kIOAudioControlChannelIDAll, kIOAudioControlChannelNameAll, kInputSelector); if (NULL != inputSelector) { driverDMAEngine->addDefaultAudioControl(inputSelector); inputSelector->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)inputSelectorChangeHandler, this); } } if (NULL != inputSelector) { DEBUG2_IOLOG ("Calling addAvailableSelection with type %4s\n", (char*)&inputType); switch(inputType) { case 'imic' : inputSelector->addAvailableSelection('imic', "Internal microphone"); break; case 'emic' : inputSelector->addAvailableSelection('emic', "External microphone/Line In"); break; case 'sinj' : inputSelector->addAvailableSelection('sinj', "Sound Input"); break; case 'line' : inputSelector->addAvailableSelection('line', "Line In"); break; case 'zvpc' : inputSelector->addAvailableSelection('zvpc', "Zoomed Video"); break; default: break; } } } } } if (NULL != outputPort) { playthruToggle = IOAudioToggleControl::createMuteControl(true, kIOAudioControlChannelIDAll, kIOAudioControlChannelNameAll, kPassThruToggle, kIOAudioControlUsagePassThru); if (NULL != playthruToggle) { driverDMAEngine->addDefaultAudioControl(playthruToggle); playthruToggle->setValueChangeHandler((IOAudioControl::IntValueChangeHandler)passThruChangeHandler, this); } } } EXIT: DEBUG2_IOLOG("- %d = AppleOnboardAudio::createDefaultsPorts\n", result); return result; BAIL: result = kIOReturnError; goto EXIT; } #pragma mark +IOAUDIO CONTROL HANDLERS IORegistryEntry * AppleOnboardAudio::FindEntryByNameAndProperty (const IORegistryEntry * start, const char * name, const char * key, UInt32 value) { OSIterator *iterator; IORegistryEntry *theEntry; IORegistryEntry *tmpReg; OSNumber *tmpNumber; theEntry = NULL; iterator = NULL; FAIL_IF (NULL == start, Exit); iterator = start->getChildIterator (gIOServicePlane); FAIL_IF (NULL == iterator, Exit); while (NULL == theEntry && (tmpReg = OSDynamicCast (IORegistryEntry, iterator->getNextObject ())) != NULL) { if (strcmp (tmpReg->getName (), name) == 0) { tmpNumber = OSDynamicCast (OSNumber, tmpReg->getProperty (key)); if (NULL != tmpNumber && tmpNumber->unsigned32BitValue () == value) { theEntry = tmpReg; theEntry->retain(); } } } Exit: if (NULL != iterator) { iterator->release (); } return theEntry; } IOReturn AppleOnboardAudio::volumeLeftChangeHandler(IOService *target, IOAudioControl *volumeControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::volumeLeftChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->volumeLeftChanged(volumeControl, oldValue, newValue); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::volumeLeftChangeHandler, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::volumeLeftChanged(IOAudioControl *volumeControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AudioHardwareOutput *theOutput; UInt16 idx; SInt32 newiSubVolume; IOAudioLevelControl * iSubLeftVolume; IORegistryEntry * start; DEBUG_IOLOG("+ AppleOnboardAudio::volumeLeftChanged\n"); if(!AudioOutputs) goto BAIL; gVolLeft = newValue; for(idx = 0; idx< AudioOutputs->getCount(); idx++) { theOutput = OSDynamicCast(AudioHardwareOutput, AudioOutputs->getObject(idx)); if( theOutput) theOutput->setVolume(newValue, gVolRight); } start = childFromPath ("AppleDBDMAAudioDMAEngine", gIOServicePlane); FAIL_IF (NULL == start, Exit); iSubLeftVolume = (IOAudioLevelControl *)FindEntryByNameAndProperty (start, "AppleUSBAudioLevelControl", kIOAudioControlSubTypeKey, 'subL'); start->release (); FAIL_IF (NULL == iSubLeftVolume, Exit); newiSubVolume = (newValue * 60) / ((IOAudioLevelControl *)volumeControl)->getMaxValue (); iSubLeftVolume->setValue (newiSubVolume); iSubLeftVolume->release(); Exit: if(!gExpertMode) //We do that only if we are on a OS 9 like UI guideline WritePRAMVol(gVolLeft,gVolRight); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::volumeLeftChanged, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::volumeRightChangeHandler(IOService *target, IOAudioControl *volumeControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::volumeRightChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->volumeRightChanged(volumeControl, oldValue, newValue); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::volumeRightChangeHandler, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::volumeRightChanged(IOAudioControl *volumeControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AudioHardwareOutput *theOutput; UInt16 idx; SInt32 newiSubVolume; IOAudioLevelControl * iSubRightVolume; IORegistryEntry * start; DEBUG_IOLOG("+ AppleOnboardAudio::volumeRightChanged\n"); if(!AudioOutputs) goto BAIL; gVolRight = newValue; for(idx = 0; idx< AudioOutputs->getCount(); idx++) { theOutput = OSDynamicCast(AudioHardwareOutput, AudioOutputs->getObject(idx)); if( theOutput) theOutput->setVolume(gVolLeft, newValue); } start = childFromPath ("AppleDBDMAAudioDMAEngine", gIOServicePlane); FAIL_IF (NULL == start, Exit); iSubRightVolume = (IOAudioLevelControl *)FindEntryByNameAndProperty (start, "AppleUSBAudioLevelControl", kIOAudioControlSubTypeKey, 'subR'); start->release (); FAIL_IF (NULL == iSubRightVolume, Exit); newiSubVolume = (newValue * 60) / ((IOAudioLevelControl *)volumeControl)->getMaxValue (); iSubRightVolume->setValue (newiSubVolume); iSubRightVolume->release(); Exit: if(!gExpertMode) //We do that only if we are on a OS 9 like UI guideline WritePRAMVol(gVolLeft,gVolRight); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::volumeRightChanged, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::outputMuteChangeHandler(IOService *target, IOAudioControl *muteControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::outputMuteChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->outputMuteChanged(muteControl, oldValue, newValue); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::outputMuteChangeHandler, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::outputMuteChanged(IOAudioControl *muteControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; UInt32 idx; AudioHardwareOutput * theOutput; IOAudioToggleControl * iSubMute; IORegistryEntry * start; DEBUG_IOLOG("+ AppleOnboardAudio::outputMuteChanged\n"); //pass it to the AudioHardwareOutputObjects if(!AudioOutputs) goto BAIL; gIsMute = newValue; for(idx = 0; idx< AudioOutputs->getCount(); idx++) { theOutput = OSDynamicCast(AudioHardwareOutput, AudioOutputs->getObject(idx)); if( theOutput) theOutput->setMute(newValue); } if(!gExpertMode) { if (newValue) WritePRAMVol(0,0); else WritePRAMVol(gVolLeft,gVolRight); } start = childFromPath ("AppleDBDMAAudioDMAEngine", gIOServicePlane); FAIL_IF (NULL == start, EXIT); iSubMute = (IOAudioToggleControl *)FindEntryByNameAndProperty (start, "AppleUSBAudioMuteControl", kIOAudioControlSubTypeKey, 'subM'); start->release (); FAIL_IF (NULL == iSubMute, EXIT); iSubMute->setValue (newValue); iSubMute->release(); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::outputMuteChanged, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::gainLeftChangeHandler(IOService *target, IOAudioControl *gainControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("_ AppleOnboardAudio::gainLeftChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->gainLeftChanged(gainControl, oldValue, newValue); EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::gainLeftChangeHandler, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::gainLeftChanged(IOAudioControl *gainControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; UInt32 idx; AudioHardwareInput *theInput; DEBUG_IOLOG("+ AppleOnboardAudio::gainLeftChanged\n"); if(!AudioInputs) goto BAIL; gGainLeft = newValue; for(idx = 0; idx< AudioInputs->getCount(); idx++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(idx)); if( theInput) theInput->setInputGain(newValue, gGainRight); } EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::gainLeftChanged, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::gainRightChangeHandler(IOService *target, IOAudioControl *gainControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::gainRightChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->gainRightChanged(gainControl, oldValue, newValue); EXIT: DEBUG_IOLOG("- AppleOnboardAudio::gainRightChangeHandler\n"); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::gainRightChanged(IOAudioControl *gainControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; UInt32 idx; AudioHardwareInput *theInput; DEBUG_IOLOG("+ AppleOnboardAudio::gainRightChanged\n"); if(!AudioInputs) goto BAIL; gGainRight = newValue; for(idx = 0; idx< AudioInputs->getCount(); idx++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(idx)); if( theInput) theInput->setInputGain(gGainLeft, newValue); } EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::gainRightChanged, %d\n", (result == kIOReturnSuccess)); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::passThruChangeHandler(IOService *target, IOAudioControl *passThruControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::passThruChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->passThruChanged(passThruControl, oldValue, newValue); EXIT: DEBUG_IOLOG("- AppleOnboardAudio::passThruChangeHandler\n"); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::passThruChanged(IOAudioControl *passThruControl, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; DEBUG_IOLOG("+ AppleOnboardAudio::passThruChanged\n"); gIsPlayThroughActive = newValue; sndHWSetPlayThrough(!newValue); DEBUG_IOLOG("- AppleOnboardAudio::passThruChanged\n"); return result; } IOReturn AppleOnboardAudio::inputSelectorChangeHandler(IOService *target, IOAudioControl *inputSelector, SInt32 oldValue, SInt32 newValue){ IOReturn result = kIOReturnSuccess; AppleOnboardAudio *audioDevice; DEBUG_IOLOG("+ AppleOnboardAudio::inputSelectorChangeHandler\n"); audioDevice = (AppleOnboardAudio *)target; if(!audioDevice) goto BAIL; result = audioDevice->inputSelectorChanged(inputSelector, oldValue, newValue); EXIT: DEBUG_IOLOG("- AppleOnboardAudio::inputSelectorChangeHandler\n"); return result; BAIL: result = kIOReturnError; goto EXIT; } IOReturn AppleOnboardAudio::inputSelectorChanged(IOAudioControl *inputSelector, SInt32 oldValue, SInt32 newValue){ AudioHardwareInput *theInput; UInt32 idx; IOReturn result = kIOReturnSuccess; DEBUG_IOLOG("+ AppleOnboardAudio::inputSelectorChanged\n"); if(AudioInputs) { for(idx = 0; idx< AudioInputs->getCount(); idx++) { theInput = OSDynamicCast(AudioHardwareInput, AudioInputs->getObject(idx)); if( theInput) theInput->forceActivation(newValue); } } DEBUG_IOLOG("- AppleOnboardAudio::inputSelectorChanged\n"); return result; } #pragma mark +POWER MANAGEMENT IOReturn AppleOnboardAudio::configurePowerObject(IOService *provider){ IOReturn result = kIOReturnSuccess; DEBUG_IOLOG("+ AppleOnboardAudio::configurePowerObject\n"); switch (theAudioDeviceTreeParser->getPowerObjectType()) { case kProj6PowerObject: theAudioPowerObject = AudioProj6PowerObject::createAudioProj6PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kProj7PowerObject: theAudioPowerObject = AudioProj7PowerObject::createAudioProj7PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kProj8PowerObject: theAudioPowerObject = AudioProj8PowerObject::createAudioProj8PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kProj10PowerObject: theAudioPowerObject = AudioProj10PowerObject::createAudioProj10PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kProj14PowerObject: theAudioPowerObject = AudioProj14PowerObject::createAudioProj14PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kProj16PowerObject: theAudioPowerObject = AudioProj16PowerObject::createAudioProj16PowerObject(this); if(!theAudioPowerObject) goto BAIL; break; case kBasePowerObject: default: //basic mute theAudioPowerObject = AudioPowerObject::createAudioPowerObject(this); if(!theAudioPowerObject) goto BAIL; break; } EXIT: DEBUG2_IOLOG("- AppleOnboardAudio::configurePowerObject result = %d\n", (result == kIOReturnSuccess)); return(result); BAIL: result = kIOReturnError; goto EXIT; } void AppleOnboardAudio::IdleSleepHandlerTimer (OSObject *owner, IOTimerEventSource *sender) { AppleOnboardAudio * appleOnboardAudio; appleOnboardAudio = OSDynamicCast (AppleOnboardAudio, owner); FailIf (NULL == appleOnboardAudio, Exit); if (kIOAudioDeviceIdle == appleOnboardAudio->fNewPowerState) { if (NULL != appleOnboardAudio->theAudioPowerObject) { appleOnboardAudio->theAudioPowerObject->setIdlePowerState (); appleOnboardAudio->ourPowerState = kIOAudioDeviceIdle; } } Exit: return; } // Set up a timer to power down the hardware if we haven't used it in a while. void AppleOnboardAudio::ScheduleIdle (void) { AbsoluteTime fireTime; UInt64 nanos; if (NULL != idleTimer) { clock_get_uptime (&fireTime); absolutetime_to_nanoseconds (fireTime, &nanos); nanos += kPowerDownDelayTime; nanoseconds_to_absolutetime (nanos, &fireTime); idleTimer->wakeAtTime (fireTime); // will call IdleSleepHandlerTimer } return; } IOReturn AppleOnboardAudio::performPowerStateChange(IOAudioDevicePowerState oldPowerState, IOAudioDevicePowerState newPowerState, UInt32 *microsecondsUntilComplete) { IOReturn result; debug3IOLog ("+ AppleOnboardAudio::performPowerStateChange (%d, %d)\n", oldPowerState, newPowerState); result = kIOReturnSuccess; if (NULL != theAudioPowerObject) { if (kIOAudioDeviceSleep == oldPowerState) { // If waking from sleep, we want to go to active mode first, then go into whatever mode is being requested *microsecondsUntilComplete = theAudioPowerObject->GetTimeToChangePowerState (ourPowerState, kIOAudioDeviceActive); } *microsecondsUntilComplete += theAudioPowerObject->GetTimeToChangePowerState (ourPowerState, newPowerState); } result = super::performPowerStateChange (oldPowerState, newPowerState, microsecondsUntilComplete); if (NULL != theAudioPowerObject) { if (kIOAudioDeviceSleep == oldPowerState) { // We are waking up, so put the hardware into run mode first, then whatever mode we're being asked to go into ourPowerState = kIOAudioDeviceActive; theAudioPowerObject->setHardwarePowerOn (); } fNewPowerState = newPowerState; if (newPowerState != ourPowerState) { if (kIOAudioDeviceIdle == newPowerState) { // We won't go idle now, we'll go idle in 30 seconds if we don't get told to go active before then. if (TRUE == theAudioPowerObject->wantsIdleCalls ()) { ScheduleIdle (); } } else { ourPowerState = newPowerState; switch (ourPowerState) { case kIOAudioDeviceSleep: theAudioPowerObject->setHardwarePowerOff (); break; case kIOAudioDeviceActive: theAudioPowerObject->setHardwarePowerOn (); break; default: ; } } } } debugIOLog ("- AppleOnboardAudio::performPowerStateChange\n"); return result; } //******************************************************************************** // // Receives a notification when the RootDomain changes state. // // Allows us to take action on system sleep, power down, and restart after // applications have received their power change notifications and replied, // but before drivers have powered down. We tell the device to go to sleep for a // silent shutdown on P80 and DACA. //********************************************************************************* IOReturn AppleOnboardAudio::sysPowerDownHandler (void * target, void * refCon, UInt32 messageType, IOService * provider, void * messageArgument, vm_size_t argSize) { AppleOnboardAudio * appleOnboardAudio; IOReturn result; // char message[100]; result = kIOReturnUnsupported; appleOnboardAudio = OSDynamicCast (AppleOnboardAudio, (OSObject *)target); FailIf (NULL == appleOnboardAudio, Exit); switch (messageType) { case kIOMessageSystemWillPowerOff: case kIOMessageSystemWillRestart: // Interested applications have been notified of an impending power // change and have acked (when applicable). // This is our chance to save whatever state we can before powering // down. // Debugger ("about to shut down the hardware"); if (NULL != appleOnboardAudio->theAudioPowerObject) { appleOnboardAudio->theAudioPowerObject->setIdlePowerState (); } result = kIOReturnSuccess; break; default: // sprintf (message, "unknown selector %lx", messageType); // Debugger (message); break; } Exit: return result; } #pragma mark +MODEM SOUND IOReturn AppleOnboardAudio::setModemSound (bool state){ AudioHardwareInput * theInput; UInt32 idx; debugIOLog ("+ AppleOnboardAudio::setModemSound\n"); theInput = NULL; if (gIsModemSoundActive == state) goto EXIT; if (FALSE != state) { // do the compare this way since they may pass anything non-0 to mean TRUE, but 0 is always FALSE // we turn the modem on: find the active source, switch to modem, and turn playthrough on if (NULL != AudioInputs) { for (idx = 0; idx < AudioInputs->getCount (); idx++) { theInput = OSDynamicCast (AudioHardwareInput, AudioInputs->getObject (idx)); if (NULL != theInput) { theInput->forceActivation ('modm'); theInput->setInputGain (0,0); } } } sndHWSetPlayThrough (true); } else { // we turn the modem off: turn playthrough off, switch to saved source; sndHWSetPlayThrough (!gIsPlayThroughActive); if (NULL != AudioInputs) { for (idx = 0; idx < AudioInputs->getCount (); idx++) { theInput = OSDynamicCast (AudioHardwareInput, AudioInputs->getObject (idx)); if (NULL != theInput){ theInput->forceActivation (inputSelector->getIntValue ()); theInput->setInputGain (gGainLeft, gGainRight); } } } } gIsModemSoundActive = state; EXIT: debugIOLog ("- AppleOnboardAudio::setModemSound\n"); return kIOReturnSuccess; } IOReturn AppleOnboardAudio::callPlatformFunction( const OSSymbol * functionName, bool waitForFunction,void *param1, void *param2, void *param3, void *param4 ) { debugIOLog ("+ AppleOnboardAudio::callPlatformFunction\n"); if (functionName->isEqualTo ("setModemSound")) { return (setModemSound ((bool)param1)); } debugIOLog ("- AppleOnboardAudio::callPlatformFunction\n"); return (super::callPlatformFunction (functionName, waitForFunction,param1, param2, param3, param4)); } #pragma mark +PRAM VOLUME //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ // Calculates the PRAM volume value for stereo volume. UInt8 AppleOnboardAudio::VolumeToPRAMValue (UInt32 leftVol, UInt32 rightVol) { UInt32 pramVolume; // Volume level to store in PRAM UInt32 averageVolume; // summed volume const UInt32 volumeRange = (fMaxVolume - fMinVolume+1); UInt32 volumeSteps; averageVolume = (leftVol + rightVol) >> 1; // sum the channel volumes and get an average volumeSteps = volumeRange / kMaximumPRAMVolume; // divide the range by the range of the pramVolume pramVolume = averageVolume / volumeSteps; // Since the volume level in PRAM is only worth three bits, // we round small values up to 1. This avoids SysBeep from // flashing the menu bar when it thinks sound is off and // should really just be very quiet. if ((pramVolume == 0) && (leftVol != 0 || rightVol !=0 )) pramVolume = 1; return (pramVolume & 0x07); } UInt32 AppleOnboardAudio::PRAMToVolumeValue (void) { const UInt32 volumeRange = (fMaxVolume - fMinVolume + 1); UInt32 volumeSteps; volumeSteps = volumeRange / kMaximumPRAMVolume; // divide the range by the range of the pramVolume return (volumeSteps * ReadPRAMVol ()); } void AppleOnboardAudio::WritePRAMVol (UInt32 leftVol, UInt32 rightVol) { UInt8 pramVolume; UInt8 curPRAMVol; IODTPlatformExpert * platform; platform = OSDynamicCast(IODTPlatformExpert,getPlatform()); debug3IOLog("AppleOnboardAudio::WritePRAMVol leftVol=%lu, rightVol=%lu\n",leftVol, rightVol); if (platform) { pramVolume = VolumeToPRAMValue(leftVol,rightVol); // get the old value to compare it with platform->readXPRAM((IOByteCount)kPRamVolumeAddr, &curPRAMVol, (IOByteCount)1); // Update only if there is a change if (pramVolume != (curPRAMVol & 0x07)) { // clear bottom 3 bits of volume control byte from PRAM low memory image curPRAMVol = (curPRAMVol & 0xF8) | pramVolume; debug2IOLog("AppleOnboardAudio::WritePRAMVol curPRAMVol=0x%x\n",curPRAMVol); // write out the volume control byte to PRAM platform->writeXPRAM((IOByteCount)kPRamVolumeAddr, &curPRAMVol,(IOByteCount) 1); } } } UInt8 AppleOnboardAudio::ReadPRAMVol (void) { UInt8 curPRAMVol; IODTPlatformExpert * platform; curPRAMVol = 0; platform = OSDynamicCast(IODTPlatformExpert,getPlatform()); if (platform) { platform->readXPRAM((IOByteCount)kPRamVolumeAddr, &curPRAMVol, (IOByteCount)1); curPRAMVol &= 0x07; } return curPRAMVol; }