X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/89b3af67bb32e691275bf6fa803d1834b2284115..0a7de7458d150b5d4dffc935ba399be265ef0a1a:/iokit/Kernel/IOInterruptController.cpp diff --git a/iokit/Kernel/IOInterruptController.cpp b/iokit/Kernel/IOInterruptController.cpp index f65dbe3b6..f84357e38 100644 --- a/iokit/Kernel/IOInterruptController.cpp +++ b/iokit/Kernel/IOInterruptController.cpp @@ -1,8 +1,9 @@ /* - * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved. + * Copyright (c) 2007-2012 Apple Inc. All rights reserved. + * Copyright (c) 1998-2006 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ - * + * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in @@ -11,10 +12,10 @@ * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. - * + * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. - * + * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, @@ -22,27 +23,18 @@ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. - * - * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ - */ -/* - * Copyright (c) 1999 Apple Computer, Inc. All rights reserved. - * - * DRI: Josh de Cesare * + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ - -#if __ppc__ -#include -#endif - #include #include #include #include #include #include +#include +#include /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ @@ -60,345 +52,429 @@ OSMetaClassDefineReservedUnused(IOInterruptController, 5); /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -IOReturn IOInterruptController::registerInterrupt(IOService *nub, int source, - void *target, - IOInterruptHandler handler, - void *refCon) +IOReturn +IOInterruptController::registerInterrupt(IOService *nub, int source, + void *target, + IOInterruptHandler handler, + void *refCon) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - long wasDisabledSoft; - IOReturn error; - OSData *vectorData; - IOService *originalNub; - int originalSource; - IOOptionBits options; - bool canBeShared, shouldBeShared, wasAlreadyRegisterd; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - // Get the lock for this vector. - IOTakeLock(vector->interruptLock); - - // Check if the interrupt source can/should be shared. - canBeShared = vectorCanBeShared(vectorNumber, vector); - IODTGetInterruptOptions(nub, source, &options); - shouldBeShared = canBeShared && (options & kIODTInterruptShared); - wasAlreadyRegisterd = vector->interruptRegistered; - - // If the vector is registered and can not be shared return error. - if (wasAlreadyRegisterd && !canBeShared) { - IOUnlock(vector->interruptLock); - return kIOReturnNoResources; - } - - // If this vector is already in use, and can be shared (implied), - // or it is not registered and should be shared, - // register as a shared interrupt. - if (wasAlreadyRegisterd || shouldBeShared) { - // If this vector is not already shared, break it out. - if (vector->sharedController == 0) { - // Make the IOShareInterruptController instance - vector->sharedController = new IOSharedInterruptController; - if (vector->sharedController == 0) { - IOUnlock(vector->interruptLock); - return kIOReturnNoMemory; - } - - if (wasAlreadyRegisterd) { - // Save the nub and source for the original consumer. - originalNub = vector->nub; - originalSource = vector->source; - - // Physically disable the interrupt, but mark it as being enabled in the hardware. - // The interruptDisabledSoft now indicates the driver's request for enablement. - disableVectorHard(vectorNumber, vector); - vector->interruptDisabledHard = 0; - } - - // Initialize the new shared interrupt controller. - error = vector->sharedController->initInterruptController(this, vectorData); - // If the IOSharedInterruptController could not be initalized, - // if needed, put the original consumer's interrupt back to normal and - // get rid of whats left of the shared controller. - if (error != kIOReturnSuccess) { - if (wasAlreadyRegisterd) enableInterrupt(originalNub, originalSource); - vector->sharedController->release(); - vector->sharedController = 0; - IOUnlock(vector->interruptLock); - return error; - } - - // If there was an original consumer try to register it on the shared controller. - if (wasAlreadyRegisterd) { - error = vector->sharedController->registerInterrupt(originalNub, - originalSource, - vector->target, - vector->handler, - vector->refCon); - // If the original consumer could not be moved to the shared controller, - // put the original consumor's interrupt back to normal and - // get rid of whats left of the shared controller. - if (error != kIOReturnSuccess) { - // Save the driver's interrupt enablement state. - wasDisabledSoft = vector->interruptDisabledSoft; - - // Make the interrupt really hard disabled. - vector->interruptDisabledSoft = 1; - vector->interruptDisabledHard = 1; - - // Enable the original consumer's interrupt if needed. - if (!wasDisabledSoft) originalNub->enableInterrupt(originalSource); - enableInterrupt(originalNub, originalSource); - - vector->sharedController->release(); - vector->sharedController = 0; - IOUnlock(vector->interruptLock); - return error; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + int wasDisabledSoft; + IOReturn error; + OSData *vectorData; + IOOptionBits options; + bool canBeShared, shouldBeShared, wasAlreadyRegisterd; + + IOService *originalNub = NULL;// Protected by wasAlreadyRegisterd + int originalSource = 0;// Protected by wasAlreadyRegisterd + + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + // Get the lock for this vector. + IOLockLock(vector->interruptLock); + + // Check if the interrupt source can/should be shared. + canBeShared = vectorCanBeShared(vectorNumber, vector); + IODTGetInterruptOptions(nub, source, &options); +#if defined(__i386__) || defined(__x86_64__) + int interruptType; + if (OSDynamicCast(IOPlatformDevice, getProvider()) && + (getInterruptType(nub, source, &interruptType) == kIOReturnSuccess) && + (kIOInterruptTypeLevel & interruptType)) { + options |= kIODTInterruptShared; + } +#endif + shouldBeShared = canBeShared && (options & kIODTInterruptShared); + wasAlreadyRegisterd = vector->interruptRegistered; + + // If the vector is registered and can not be shared return error. + if (wasAlreadyRegisterd && !canBeShared) { + IOLockUnlock(vector->interruptLock); + return kIOReturnNoResources; + } + + // If this vector is already in use, and can be shared (implied), + // or it is not registered and should be shared, + // register as a shared interrupt. + if (wasAlreadyRegisterd || shouldBeShared) { + // If this vector is not already shared, break it out. + if (vector->sharedController == 0) { + // Make the IOShareInterruptController instance + vector->sharedController = new IOSharedInterruptController; + if (vector->sharedController == 0) { + IOLockUnlock(vector->interruptLock); + return kIOReturnNoMemory; + } + + if (wasAlreadyRegisterd) { + // Save the nub and source for the original consumer. + originalNub = vector->nub; + originalSource = vector->source; + + // Physically disable the interrupt, but mark it as being enabled in the hardware. + // The interruptDisabledSoft now indicates the driver's request for enablement. + disableVectorHard(vectorNumber, vector); + vector->interruptDisabledHard = 0; + } + + // Initialize the new shared interrupt controller. + error = vector->sharedController->initInterruptController(this, vectorData); + // If the IOSharedInterruptController could not be initalized, + // if needed, put the original consumer's interrupt back to normal and + // get rid of whats left of the shared controller. + if (error != kIOReturnSuccess) { + if (wasAlreadyRegisterd) { + enableInterrupt(originalNub, originalSource); + } + vector->sharedController->release(); + vector->sharedController = 0; + IOLockUnlock(vector->interruptLock); + return error; + } + + // If there was an original consumer try to register it on the shared controller. + if (wasAlreadyRegisterd) { + error = vector->sharedController->registerInterrupt(originalNub, + originalSource, + vector->target, + vector->handler, + vector->refCon); + // If the original consumer could not be moved to the shared controller, + // put the original consumor's interrupt back to normal and + // get rid of whats left of the shared controller. + if (error != kIOReturnSuccess) { + // Save the driver's interrupt enablement state. + wasDisabledSoft = vector->interruptDisabledSoft; + + // Make the interrupt really hard disabled. + vector->interruptDisabledSoft = 1; + vector->interruptDisabledHard = 1; + + // Enable the original consumer's interrupt if needed. + if (!wasDisabledSoft) { + originalNub->enableInterrupt(originalSource); + } + enableInterrupt(originalNub, originalSource); + + vector->sharedController->release(); + vector->sharedController = 0; + IOLockUnlock(vector->interruptLock); + return error; + } + } + + // Fill in vector with the shared controller's info. + vector->handler = (IOInterruptHandler)vector->sharedController->getInterruptHandlerAddress(); + vector->nub = vector->sharedController; + vector->source = 0; + vector->target = vector->sharedController; + vector->refCon = 0; + + // If the interrupt was already registered, + // save the driver's interrupt enablement state. + if (wasAlreadyRegisterd) { + wasDisabledSoft = vector->interruptDisabledSoft; + } else { + wasDisabledSoft = true; + } + + // Do any specific initalization for this vector if it has not yet been used. + if (!wasAlreadyRegisterd) { + initVector(vectorNumber, vector); + } + + // Make the interrupt really hard disabled. + vector->interruptDisabledSoft = 1; + vector->interruptDisabledHard = 1; + vector->interruptRegistered = 1; + + // Enable the original consumer's interrupt if needed. + // originalNub is protected by wasAlreadyRegisterd here (see line 184). + if (!wasDisabledSoft) { + originalNub->enableInterrupt(originalSource); + } + } + + error = vector->sharedController->registerInterrupt(nub, source, target, + handler, refCon); + IOLockUnlock(vector->interruptLock); + return error; } - } - - // Fill in vector with the shared controller's info. - vector->handler = (IOInterruptHandler)vector->sharedController->getInterruptHandlerAddress(); - vector->nub = vector->sharedController; - vector->source = 0; - vector->target = vector->sharedController; - vector->refCon = 0; - - // If the interrupt was already registered, - // save the driver's interrupt enablement state. - if (wasAlreadyRegisterd) wasDisabledSoft = vector->interruptDisabledSoft; - else wasDisabledSoft = true; - - // Do any specific initalization for this vector if it has not yet been used. - if (!wasAlreadyRegisterd) initVector(vectorNumber, vector); - - // Make the interrupt really hard disabled. - vector->interruptDisabledSoft = 1; - vector->interruptDisabledHard = 1; - vector->interruptRegistered = 1; - - // Enable the original consumer's interrupt if needed. - if (!wasDisabledSoft) originalNub->enableInterrupt(originalSource); - } - - error = vector->sharedController->registerInterrupt(nub, source, target, - handler, refCon); - IOUnlock(vector->interruptLock); - return error; - } - - // Fill in vector with the client's info. - vector->handler = handler; - vector->nub = nub; - vector->source = source; - vector->target = target; - vector->refCon = refCon; - - // Do any specific initalization for this vector. - initVector(vectorNumber, vector); - - // Get the vector ready. It starts hard disabled. - vector->interruptDisabledHard = 1; - vector->interruptDisabledSoft = 1; - vector->interruptRegistered = 1; - - IOUnlock(vector->interruptLock); - return kIOReturnSuccess; + + // Fill in vector with the client's info. + vector->handler = handler; + vector->nub = nub; + vector->source = source; + vector->target = target; + vector->refCon = refCon; + + // Do any specific initalization for this vector. + initVector(vectorNumber, vector); + + // Get the vector ready. It starts hard disabled. + vector->interruptDisabledHard = 1; + vector->interruptDisabledSoft = 1; + vector->interruptRegistered = 1; + + IOLockUnlock(vector->interruptLock); + return kIOReturnSuccess; } -IOReturn IOInterruptController::unregisterInterrupt(IOService *nub, int source) +IOReturn +IOInterruptController::unregisterInterrupt(IOService *nub, int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - // Get the lock for this vector. - IOTakeLock(vector->interruptLock); - - // Return success if it is not already registered - if (!vector->interruptRegistered) { - IOUnlock(vector->interruptLock); - return kIOReturnSuccess; - } - - // Soft disable the source. - disableInterrupt(nub, source); - - // Turn the source off at hardware. - disableVectorHard(vectorNumber, vector); - - // Clear all the storage for the vector except for interruptLock. - vector->interruptActive = 0; - vector->interruptDisabledSoft = 0; - vector->interruptDisabledHard = 0; - vector->interruptRegistered = 0; - vector->nub = 0; - vector->source = 0; - vector->handler = 0; - vector->target = 0; - vector->refCon = 0; - - IOUnlock(vector->interruptLock); - return kIOReturnSuccess; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + // Get the lock for this vector. + IOLockLock(vector->interruptLock); + + // Return success if it is not already registered + if (!vector->interruptRegistered) { + IOLockUnlock(vector->interruptLock); + return kIOReturnSuccess; + } + + // Soft disable the source. + disableInterrupt(nub, source); + + // Turn the source off at hardware. + disableVectorHard(vectorNumber, vector); + + // Clear all the storage for the vector except for interruptLock. + vector->interruptActive = 0; + vector->interruptDisabledSoft = 0; + vector->interruptDisabledHard = 0; + vector->interruptRegistered = 0; + vector->nub = 0; + vector->source = 0; + vector->handler = 0; + vector->target = 0; + vector->refCon = 0; + + IOLockUnlock(vector->interruptLock); + return kIOReturnSuccess; } -IOReturn IOInterruptController::getInterruptType(IOService *nub, int source, - int *interruptType) +IOReturn +IOInterruptController::getInterruptType(IOService *nub, int source, + int *interruptType) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - - if (interruptType == 0) return kIOReturnBadArgument; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - *interruptType = getVectorType(vectorNumber, vector); - - return kIOReturnSuccess; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + + if (interruptType == 0) { + return kIOReturnBadArgument; + } + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + *interruptType = getVectorType(vectorNumber, vector); + + return kIOReturnSuccess; } -IOReturn IOInterruptController::enableInterrupt(IOService *nub, int source) +IOReturn +IOInterruptController::enableInterrupt(IOService *nub, int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - if (vector->interruptDisabledSoft) { - vector->interruptDisabledSoft = 0; -#if __ppc__ - sync(); - isync(); -#endif - - if (!getPlatform()->atInterruptLevel()) { - while (vector->interruptActive); -#if __ppc__ - isync(); + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + if (vector->interruptDisabledSoft) { + vector->interruptDisabledSoft = 0; +#if !defined(__i386__) && !defined(__x86_64__) + OSMemoryBarrier(); #endif - } - if (vector->interruptDisabledHard) { - vector->interruptDisabledHard = 0; - - enableVector(vectorNumber, vector); - } - } - - return kIOReturnSuccess; + + if (!getPlatform()->atInterruptLevel()) { + while (vector->interruptActive) { + } + } + if (vector->interruptDisabledHard) { + vector->interruptDisabledHard = 0; + + enableVector(vectorNumber, vector); + } + } + + return kIOReturnSuccess; } -IOReturn IOInterruptController::disableInterrupt(IOService *nub, int source) +IOReturn +IOInterruptController::disableInterrupt(IOService *nub, int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - vector->interruptDisabledSoft = 1; -#if __ppc__ - sync(); - isync(); + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + vector->interruptDisabledSoft = 1; +#if !defined(__i386__) && !defined(__x86_64__) + OSMemoryBarrier(); #endif - - if (!getPlatform()->atInterruptLevel()) { - while (vector->interruptActive); -#if __ppc__ - isync(); -#endif - } - - return kIOReturnSuccess; + + if (!getPlatform()->atInterruptLevel()) { + while (vector->interruptActive) { + } + } + + return kIOReturnSuccess; } -IOReturn IOInterruptController::causeInterrupt(IOService *nub, int source) +IOReturn +IOInterruptController::causeInterrupt(IOService *nub, int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - causeVector(vectorNumber, vector); - - return kIOReturnSuccess; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + causeVector(vectorNumber, vector); + + return kIOReturnSuccess; } -IOInterruptAction IOInterruptController::getInterruptHandlerAddress(void) +IOInterruptAction +IOInterruptController::getInterruptHandlerAddress(void) { - return 0; + return 0; } -IOReturn IOInterruptController::handleInterrupt(void *refCon, IOService *nub, - int source) +IOReturn +IOInterruptController::handleInterrupt(void *refCon, IOService *nub, + int source) { - return kIOReturnInvalid; + return kIOReturnInvalid; } // Methods to be overridden for simplifed interrupt controller subclasses. -bool IOInterruptController::vectorCanBeShared(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +bool +IOInterruptController::vectorCanBeShared(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { - return false; + return false; } -void IOInterruptController::initVector(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +void +IOInterruptController::initVector(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { } -int IOInterruptController::getVectorType(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +int +IOInterruptController::getVectorType(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { - return kIOInterruptTypeEdge; + return kIOInterruptTypeEdge; } -void IOInterruptController::disableVectorHard(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +void +IOInterruptController::disableVectorHard(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { } -void IOInterruptController::enableVector(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +void +IOInterruptController::enableVector(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { } -void IOInterruptController::causeVector(long /*vectorNumber*/, - IOInterruptVector */*vector*/) +void +IOInterruptController::causeVector(IOInterruptVectorNumber /*vectorNumber*/, + IOInterruptVector */*vector*/) { } +void +IOInterruptController::timeStampSpuriousInterrupt(void) +{ + uint64_t providerID = 0; + IOService * provider = getProvider(); + + if (provider) { + providerID = provider->getRegistryEntryID(); + } + + IOTimeStampConstant(IODBG_INTC(IOINTC_SPURIOUS), providerID); +} + +void +IOInterruptController::timeStampInterruptHandlerInternal(bool isStart, IOInterruptVectorNumber vectorNumber, IOInterruptVector *vector) +{ + uint64_t providerID = 0; + vm_offset_t unslidHandler = 0; + vm_offset_t unslidTarget = 0; + + IOService * provider = getProvider(); + + if (provider) { + providerID = provider->getRegistryEntryID(); + } + + if (vector) { + unslidHandler = VM_KERNEL_UNSLIDE((vm_offset_t)vector->handler); + unslidTarget = VM_KERNEL_UNSLIDE_OR_PERM((vm_offset_t)vector->target); + } + + + if (isStart) { + IOTimeStampStartConstant(IODBG_INTC(IOINTC_HANDLER), (uintptr_t)vectorNumber, (uintptr_t)unslidHandler, + (uintptr_t)unslidTarget, (uintptr_t)providerID); + } else { + IOTimeStampEndConstant(IODBG_INTC(IOINTC_HANDLER), (uintptr_t)vectorNumber, (uintptr_t)unslidHandler, + (uintptr_t)unslidTarget, (uintptr_t)providerID); + } +} + +void +IOInterruptController::timeStampInterruptHandlerStart(IOInterruptVectorNumber vectorNumber, IOInterruptVector *vector) +{ + timeStampInterruptHandlerInternal(true, vectorNumber, vector); +} + +void +IOInterruptController::timeStampInterruptHandlerEnd(IOInterruptVectorNumber vectorNumber, IOInterruptVector *vector) +{ + timeStampInterruptHandlerInternal(false, vectorNumber, vector); +} /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ @@ -416,306 +492,330 @@ OSMetaClassDefineReservedUnused(IOSharedInterruptController, 3); #define kIOSharedInterruptControllerDefaultVectors (128) -IOReturn IOSharedInterruptController::initInterruptController(IOInterruptController *parentController, OSData *parentSource) +IOReturn +IOSharedInterruptController::initInterruptController(IOInterruptController *parentController, OSData *parentSource) { - int cnt, interruptType; - IOReturn error; - - if (!super::init()) - return kIOReturnNoResources; - - // Set provider to this so enable/disable nub stuff works. - provider = this; - - // Allocate the IOInterruptSource so this can act like a nub. - _interruptSources = (IOInterruptSource *)IOMalloc(sizeof(IOInterruptSource)); - if (_interruptSources == 0) return kIOReturnNoMemory; - _numInterruptSources = 1; - - // Set up the IOInterruptSource to point at this. - parentController->retain(); - parentSource->retain(); - _interruptSources[0].interruptController = parentController; - _interruptSources[0].vectorData = parentSource; - - sourceIsLevel = false; - error = provider->getInterruptType(0, &interruptType); - if (error == kIOReturnSuccess) { - if (interruptType & kIOInterruptTypeLevel) - sourceIsLevel = true; - } - - // Allocate the memory for the vectors - numVectors = kIOSharedInterruptControllerDefaultVectors; // For now a constant number. - vectors = (IOInterruptVector *)IOMalloc(numVectors * sizeof(IOInterruptVector)); - if (vectors == NULL) { - IOFree(_interruptSources, sizeof(IOInterruptSource)); - return kIOReturnNoMemory; - } - bzero(vectors, numVectors * sizeof(IOInterruptVector)); - - // Allocate the lock for the controller. - controllerLock = IOSimpleLockAlloc(); - if (controllerLock == 0) return kIOReturnNoResources; - - // Allocate locks for the vectors. - for (cnt = 0; cnt < numVectors; cnt++) { - vectors[cnt].interruptLock = IOLockAlloc(); - if (vectors[cnt].interruptLock == NULL) { - for (cnt = 0; cnt < numVectors; cnt++) { - if (vectors[cnt].interruptLock != NULL) - IOLockFree(vectors[cnt].interruptLock); - } - return kIOReturnNoResources; - } - } - - numVectors = 0; // reset the high water mark for used vectors - vectorsRegistered = 0; - vectorsEnabled = 0; - controllerDisabled = 1; - - return kIOReturnSuccess; + int cnt, interruptType; + IOReturn error; + + if (!super::init()) { + return kIOReturnNoResources; + } + + // Set provider to this so enable/disable nub stuff works. + provider = this; + + // Allocate the IOInterruptSource so this can act like a nub. + _interruptSources = (IOInterruptSource *)IOMalloc(sizeof(IOInterruptSource)); + if (_interruptSources == 0) { + return kIOReturnNoMemory; + } + _numInterruptSources = 1; + + // Set up the IOInterruptSource to point at this. + parentController->retain(); + parentSource->retain(); + _interruptSources[0].interruptController = parentController; + _interruptSources[0].vectorData = parentSource; + + sourceIsLevel = false; + error = provider->getInterruptType(0, &interruptType); + if (error == kIOReturnSuccess) { + if (interruptType & kIOInterruptTypeLevel) { + sourceIsLevel = true; + } + } + + // Allocate the memory for the vectors + numVectors = kIOSharedInterruptControllerDefaultVectors; // For now a constant number. + vectors = (IOInterruptVector *)IOMalloc(numVectors * sizeof(IOInterruptVector)); + if (vectors == NULL) { + IOFree(_interruptSources, sizeof(IOInterruptSource)); + return kIOReturnNoMemory; + } + bzero(vectors, numVectors * sizeof(IOInterruptVector)); + + // Allocate the lock for the controller. + controllerLock = IOSimpleLockAlloc(); + if (controllerLock == 0) { + return kIOReturnNoResources; + } + + // Allocate locks for the vectors. + for (cnt = 0; cnt < numVectors; cnt++) { + vectors[cnt].interruptLock = IOLockAlloc(); + if (vectors[cnt].interruptLock == NULL) { + for (cnt = 0; cnt < numVectors; cnt++) { + if (vectors[cnt].interruptLock != NULL) { + IOLockFree(vectors[cnt].interruptLock); + } + } + return kIOReturnNoResources; + } + } + + numVectors = 0; // reset the high water mark for used vectors + vectorsRegistered = 0; + vectorsEnabled = 0; + controllerDisabled = 1; + + return kIOReturnSuccess; } -IOReturn IOSharedInterruptController::registerInterrupt(IOService *nub, - int source, - void *target, - IOInterruptHandler handler, - void *refCon) +IOReturn +IOSharedInterruptController::registerInterrupt(IOService *nub, + int source, + void *target, + IOInterruptHandler handler, + void *refCon) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector = 0; - OSData *vectorData; - IOInterruptState interruptState; - - interruptSources = nub->_interruptSources; - - // Find a free vector. - vectorNumber = kIOSharedInterruptControllerDefaultVectors; - while (vectorsRegistered != kIOSharedInterruptControllerDefaultVectors) { - for (vectorNumber = 0; vectorNumber < kIOSharedInterruptControllerDefaultVectors; vectorNumber++) { - vector = &vectors[vectorNumber]; - - // Get the lock for this vector. - IOTakeLock(vector->interruptLock); - - // Is it unregistered? - if (!vector->interruptRegistered) break; - - // Move along to the next one. - IOUnlock(vector->interruptLock); - } - - if (vectorNumber != kIOSharedInterruptControllerDefaultVectors) break; - } - - // Could not find a free one, so give up. - if (vectorNumber == kIOSharedInterruptControllerDefaultVectors) { - return kIOReturnNoResources; - } - - // Create the vectorData for the IOInterruptSource. - vectorData = OSData::withBytes(&vectorNumber, sizeof(vectorNumber)); - if (vectorData == 0) { - return kIOReturnNoMemory; - } - - // Fill in the IOInterruptSource with the controller's info. - interruptSources[source].interruptController = this; - interruptSources[source].vectorData = vectorData; - - // Fill in vector with the client's info. - vector->handler = handler; - vector->nub = nub; - vector->source = source; - vector->target = target; - vector->refCon = refCon; - - // Get the vector ready. It starts off soft disabled. - vector->interruptDisabledSoft = 1; - vector->interruptRegistered = 1; - - interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); - // Move the high water mark if needed - if (++vectorsRegistered > numVectors) numVectors = vectorsRegistered; - IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); - - IOUnlock(vector->interruptLock); - return kIOReturnSuccess; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector = 0; + OSData *vectorData; + IOInterruptState interruptState; + + interruptSources = nub->_interruptSources; + + // Find a free vector. + vectorNumber = kIOSharedInterruptControllerDefaultVectors; + while (vectorsRegistered != kIOSharedInterruptControllerDefaultVectors) { + for (vectorNumber = 0; vectorNumber < kIOSharedInterruptControllerDefaultVectors; vectorNumber++) { + vector = &vectors[vectorNumber]; + + // Get the lock for this vector. + IOLockLock(vector->interruptLock); + + // Is it unregistered? + if (!vector->interruptRegistered) { + break; + } + + // Move along to the next one. + IOLockUnlock(vector->interruptLock); + } + + if (vectorNumber != kIOSharedInterruptControllerDefaultVectors) { + break; + } + } + + // Could not find a free one, so give up. + if (vectorNumber == kIOSharedInterruptControllerDefaultVectors) { + return kIOReturnNoResources; + } + + // Create the vectorData for the IOInterruptSource. + vectorData = OSData::withBytes(&vectorNumber, sizeof(vectorNumber)); + if (vectorData == 0) { + IOLockUnlock(vector->interruptLock); + return kIOReturnNoMemory; + } + + // Fill in the IOInterruptSource with the controller's info. + interruptSources[source].interruptController = this; + interruptSources[source].vectorData = vectorData; + + // Fill in vector with the client's info. + vector->handler = handler; + vector->nub = nub; + vector->source = source; + vector->target = target; + vector->refCon = refCon; + + // Get the vector ready. It starts off soft disabled. + vector->interruptDisabledSoft = 1; + vector->interruptRegistered = 1; + + interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); + // Move the high water mark if needed + if (++vectorsRegistered > numVectors) { + numVectors = vectorsRegistered; + } + IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); + + IOLockUnlock(vector->interruptLock); + return kIOReturnSuccess; } -IOReturn IOSharedInterruptController::unregisterInterrupt(IOService *nub, - int source) +IOReturn +IOSharedInterruptController::unregisterInterrupt(IOService *nub, + int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - IOInterruptState interruptState; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - // Get the lock for this vector. - IOTakeLock(vector->interruptLock); - - // Return success if it is not already registered - if (!vector->interruptRegistered) { - IOUnlock(vector->interruptLock); - return kIOReturnSuccess; - } - - // Soft disable the source and the controller too. - disableInterrupt(nub, source); - - // Clear all the storage for the vector except for interruptLock. - vector->interruptActive = 0; - vector->interruptDisabledSoft = 0; - vector->interruptDisabledHard = 0; - vector->interruptRegistered = 0; - vector->nub = 0; - vector->source = 0; - vector->handler = 0; - vector->target = 0; - vector->refCon = 0; - - interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); - vectorsRegistered--; - IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); - - IOUnlock(vector->interruptLock); - - // Re-enable the controller if all vectors are enabled. - if (vectorsEnabled == vectorsRegistered) { - controllerDisabled = 0; - provider->enableInterrupt(0); - } - - return kIOReturnSuccess; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + IOInterruptState interruptState; + + for (vectorNumber = 0; vectorNumber < kIOSharedInterruptControllerDefaultVectors; vectorNumber++) { + vector = &vectors[vectorNumber]; + + // Get the lock for this vector. + IOLockLock(vector->interruptLock); + + // Return success if it is not already registered + if (!vector->interruptRegistered + || (vector->nub != nub) || (vector->source != source)) { + IOLockUnlock(vector->interruptLock); + continue; + } + + // Soft disable the source and the controller too. + disableInterrupt(nub, source); + + // Clear all the storage for the vector except for interruptLock. + vector->interruptActive = 0; + vector->interruptDisabledSoft = 0; + vector->interruptDisabledHard = 0; + vector->interruptRegistered = 0; + vector->nub = 0; + vector->source = 0; + vector->handler = 0; + vector->target = 0; + vector->refCon = 0; + + interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); + vectorsRegistered--; + IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); + + // Move along to the next one. + IOLockUnlock(vector->interruptLock); + } + + // Re-enable the controller if all vectors are enabled. + if (vectorsEnabled == vectorsRegistered) { + controllerDisabled = 0; + provider->enableInterrupt(0); + } + + return kIOReturnSuccess; } -IOReturn IOSharedInterruptController::getInterruptType(IOService */*nub*/, - int /*source*/, - int *interruptType) +IOReturn +IOSharedInterruptController::getInterruptType(IOService */*nub*/, + int /*source*/, + int *interruptType) { - return provider->getInterruptType(0, interruptType); + return provider->getInterruptType(0, interruptType); } -IOReturn IOSharedInterruptController::enableInterrupt(IOService *nub, - int source) +IOReturn +IOSharedInterruptController::enableInterrupt(IOService *nub, + int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - IOInterruptState interruptState; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); - if (!vector->interruptDisabledSoft) { - IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); - return kIOReturnSuccess; - } - - vector->interruptDisabledSoft = 0; - vectorsEnabled++; - IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); - - if (controllerDisabled && (vectorsEnabled == vectorsRegistered)) { - controllerDisabled = 0; - provider->enableInterrupt(0); - } - - return kIOReturnSuccess; + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + IOInterruptState interruptState; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); + if (!vector->interruptDisabledSoft) { + IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); + return kIOReturnSuccess; + } + + vector->interruptDisabledSoft = 0; + vectorsEnabled++; + IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); + + if (controllerDisabled && (vectorsEnabled == vectorsRegistered)) { + controllerDisabled = 0; + provider->enableInterrupt(0); + } + + return kIOReturnSuccess; } -IOReturn IOSharedInterruptController::disableInterrupt(IOService *nub, - int source) +IOReturn +IOSharedInterruptController::disableInterrupt(IOService *nub, + int source) { - IOInterruptSource *interruptSources; - long vectorNumber; - IOInterruptVector *vector; - OSData *vectorData; - IOInterruptState interruptState; - - interruptSources = nub->_interruptSources; - vectorData = interruptSources[source].vectorData; - vectorNumber = *(long *)vectorData->getBytesNoCopy(); - vector = &vectors[vectorNumber]; - - interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); - if (!vector->interruptDisabledSoft) { - vector->interruptDisabledSoft = 1; -#if __ppc__ - sync(); - isync(); + IOInterruptSource *interruptSources; + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + OSData *vectorData; + IOInterruptState interruptState; + + interruptSources = nub->_interruptSources; + vectorData = interruptSources[source].vectorData; + vectorNumber = *(IOInterruptVectorNumber *)vectorData->getBytesNoCopy(); + vector = &vectors[vectorNumber]; + + interruptState = IOSimpleLockLockDisableInterrupt(controllerLock); + if (!vector->interruptDisabledSoft) { + vector->interruptDisabledSoft = 1; +#if !defined(__i386__) && !defined(__x86_64__) + OSMemoryBarrier(); #endif - vectorsEnabled--; - } - IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); - - if (!getPlatform()->atInterruptLevel()) { - while (vector->interruptActive); -#if __ppc__ - isync(); -#endif - } - - return kIOReturnSuccess; + + vectorsEnabled--; + } + IOSimpleLockUnlockEnableInterrupt(controllerLock, interruptState); + + if (!getPlatform()->atInterruptLevel()) { + while (vector->interruptActive) { + } + } + + return kIOReturnSuccess; } -IOInterruptAction IOSharedInterruptController::getInterruptHandlerAddress(void) +IOInterruptAction +IOSharedInterruptController::getInterruptHandlerAddress(void) { - return OSMemberFunctionCast(IOInterruptAction, - this, &IOSharedInterruptController::handleInterrupt); + return OSMemberFunctionCast(IOInterruptAction, + this, &IOSharedInterruptController::handleInterrupt); } -IOReturn IOSharedInterruptController::handleInterrupt(void * /*refCon*/, - IOService * nub, - int /*source*/) +IOReturn +IOSharedInterruptController::handleInterrupt(void * /*refCon*/, + IOService * nub, + int /*source*/) { - long vectorNumber; - IOInterruptVector *vector; - - for (vectorNumber = 0; vectorNumber < numVectors; vectorNumber++) { - vector = &vectors[vectorNumber]; - - vector->interruptActive = 1; -#if __ppc__ - sync(); - isync(); -#endif - if (!vector->interruptDisabledSoft) { -#if __ppc__ - isync(); + IOInterruptVectorNumber vectorNumber; + IOInterruptVector *vector; + + for (vectorNumber = 0; vectorNumber < numVectors; vectorNumber++) { + vector = &vectors[vectorNumber]; + + vector->interruptActive = 1; +#if !defined(__i386__) && !defined(__x86_64__) + OSMemoryBarrier(); #endif - - // Call the handler if it exists. - if (vector->interruptRegistered) { - vector->handler(vector->target, vector->refCon, - vector->nub, vector->source); - } - } - - vector->interruptActive = 0; - } - - // if any of the vectors are dissabled, then dissable this controller. - IOSimpleLockLock(controllerLock); - if (vectorsEnabled != vectorsRegistered) { - nub->disableInterrupt(0); - controllerDisabled = 1; - } - IOSimpleLockUnlock(controllerLock); - - return kIOReturnSuccess; -} + if (!vector->interruptDisabledSoft) { + // Call the handler if it exists. + if (vector->interruptRegistered) { + bool trace = (gIOKitTrace & kIOTraceInterrupts) ? true : false; + + if (trace) { + timeStampInterruptHandlerStart(vectorNumber, vector); + } + + // Call handler. + vector->handler(vector->target, vector->refCon, vector->nub, vector->source); + + if (trace) { + timeStampInterruptHandlerEnd(vectorNumber, vector); + } + } + } + + vector->interruptActive = 0; + } + + // if any of the vectors are dissabled, then dissable this controller. + IOSimpleLockLock(controllerLock); + if (vectorsEnabled != vectorsRegistered) { + nub->disableInterrupt(0); + controllerDisabled = 1; + } + IOSimpleLockUnlock(controllerLock); + + return kIOReturnSuccess; +}