/* * Copyright (c) 1998-2014 Apple 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 * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * 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, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * 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@ */ #define IOKIT_ENABLE_SHARED_PTR #include #include #include #include #include #include #include #include #include #include #if IOKITSTATS #define IOStatisticsInitializeCounter() \ do { \ IOStatistics::setCounterType(IOEventSource::reserved->counter, kIOStatisticsInterruptEventSourceCounter); \ } while (0) #define IOStatisticsCheckForWork() \ do { \ IOStatistics::countInterruptCheckForWork(IOEventSource::reserved->counter); \ } while (0) #define IOStatisticsInterrupt() \ do { \ IOStatistics::countInterrupt(IOEventSource::reserved->counter); \ } while (0) #else #define IOStatisticsInitializeCounter() #define IOStatisticsCheckForWork() #define IOStatisticsInterrupt() #endif // IOKITSTATS #define super IOEventSource OSDefineMetaClassAndStructors(IOInterruptEventSource, IOEventSource) OSMetaClassDefineReservedUnused(IOInterruptEventSource, 0); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 1); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 2); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 3); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 4); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 5); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 6); OSMetaClassDefineReservedUnused(IOInterruptEventSource, 7); bool IOInterruptEventSource::init(OSObject *inOwner, Action inAction, IOService *inProvider, int inIntIndex) { bool res = true; if (inIntIndex < 0) { return false; } if (!super::init(inOwner, (IOEventSourceAction) inAction)) { return false; } reserved = IOMallocType(ExpansionData); provider = inProvider; producerCount = consumerCount = 0; autoDisable = explicitDisable = false; intIndex = ~inIntIndex; // Assumes inOwner holds a reference(retain) on the provider if (inProvider) { if (IA_ANY_STATISTICS_ENABLED) { /* * We only treat this as an "interrupt" if it has a provider; if it does, * set up the objects necessary to track interrupt statistics. Interrupt * event sources without providers are most likely being used as simple * event source in order to poke at workloops and kick off work. * * We also avoid try to avoid interrupt accounting overhead if none of * the statistics are enabled. */ reserved->statistics = IOMallocType(IOInterruptAccountingData); reserved->statistics->owner = this; } res = (kIOReturnSuccess == registerInterruptHandler(inProvider, inIntIndex)); if (res) { intIndex = inIntIndex; } } IOStatisticsInitializeCounter(); return res; } IOReturn IOInterruptEventSource::registerInterruptHandler(IOService *inProvider, int inIntIndex) { IOReturn ret; int intType; IOInterruptAction intHandler; ret = inProvider->getInterruptType(inIntIndex, &intType); if (kIOReturnSuccess != ret) { return ret; } autoDisable = (intType == kIOInterruptTypeLevel); if (autoDisable) { intHandler = OSMemberFunctionCast(IOInterruptAction, this, &IOInterruptEventSource::disableInterruptOccurred); } else { intHandler = OSMemberFunctionCast(IOInterruptAction, this, &IOInterruptEventSource::normalInterruptOccurred); } ret = provider->registerInterrupt(inIntIndex, this, intHandler); /* * Add statistics to the provider. The setWorkLoop convention should ensure * that we always go down the unregister path before we register (outside of * init()), so we don't have to worry that we will invoke addInterruptStatistics * erroneously. */ if ((ret == kIOReturnSuccess) && (reserved->statistics)) { /* * Stash the normal index value, for the sake of debugging. */ reserved->statistics->interruptIndex = inIntIndex; /* * We need to hook the interrupt information up to the provider so that it * can find the statistics for this interrupt when desired. The provider is * responsible for maintaining the reporter for a particular interrupt, and * needs a handle on the statistics so that it can request that the reporter * be updated as needed. Errors are considered "soft" for the moment (it * will either panic, or fail in a way such that we can still service the * interrupt). */ provider->addInterruptStatistics(reserved->statistics, inIntIndex); /* * Add the statistics object to the global list of statistics objects; this * is an aid to debugging (we can trivially find statistics for all eligible * interrupts, and dump them; potentially helpful if the system is wedged * due to interrupt activity). */ interruptAccountingDataAddToList(reserved->statistics); } return ret; } void IOInterruptEventSource::unregisterInterruptHandler(IOService *inProvider, int inIntIndex) { if (reserved->statistics) { interruptAccountingDataRemoveFromList(reserved->statistics); provider->removeInterruptStatistics(reserved->statistics->interruptIndex); } provider->unregisterInterrupt(inIntIndex); } OSSharedPtr IOInterruptEventSource::interruptEventSource(OSObject *inOwner, Action inAction, IOService *inProvider, int inIntIndex) { OSSharedPtr me = OSMakeShared(); if (me && !me->init(inOwner, inAction, inProvider, inIntIndex)) { return nullptr; } return me; } OSSharedPtr IOInterruptEventSource::interruptEventSource(OSObject *inOwner, IOService *inProvider, int inIntIndex, ActionBlock inAction) { OSSharedPtr ies; ies = IOInterruptEventSource::interruptEventSource(inOwner, (Action) NULL, inProvider, inIntIndex); if (ies) { ies->setActionBlock((IOEventSource::ActionBlock) inAction); } return ies; } void IOInterruptEventSource::free() { if (provider && intIndex >= 0) { unregisterInterruptHandler(provider, intIndex); } if (reserved) { if (reserved->statistics) { IOFreeType(reserved->statistics, IOInterruptAccountingData); } IOFreeType(reserved, ExpansionData); } super::free(); } void IOInterruptEventSource::enable() { if (provider && intIndex >= 0) { provider->enableInterrupt(intIndex); explicitDisable = false; enabled = true; } } void IOInterruptEventSource::disable() { if (provider && intIndex >= 0) { provider->disableInterrupt(intIndex); explicitDisable = true; enabled = false; } } void IOInterruptEventSource::setWorkLoop(IOWorkLoop *inWorkLoop) { if (inWorkLoop) { super::setWorkLoop(inWorkLoop); } if (provider) { if (!inWorkLoop) { if (intIndex >= 0) { /* * It isn't necessarily safe to wait until free() to unregister the interrupt; * our provider may disappear. */ unregisterInterruptHandler(provider, intIndex); intIndex = ~intIndex; } } else if ((intIndex < 0) && (kIOReturnSuccess == registerInterruptHandler(provider, ~intIndex))) { intIndex = ~intIndex; } } if (!inWorkLoop) { super::setWorkLoop(inWorkLoop); } } const IOService * IOInterruptEventSource::getProvider() const { return provider; } int IOInterruptEventSource::getIntIndex() const { return intIndex; } bool IOInterruptEventSource::getAutoDisable() const { return autoDisable; } bool IOInterruptEventSource::checkForWork() { uint64_t startSystemTime = 0; uint64_t endSystemTime = 0; uint64_t startCPUTime = 0; uint64_t endCPUTime = 0; unsigned int cacheProdCount = producerCount; int numInts = cacheProdCount - consumerCount; IOEventSource::Action intAction = action; ActionBlock intActionBlock = (ActionBlock) actionBlock; void *address; bool trace = (gIOKitTrace & kIOTraceIntEventSource) ? true : false; if (kActionBlock & flags) { address = ptrauth_nop_cast(void *, _Block_get_invoke_fn((struct Block_layout *)intActionBlock)); } else { address = ptrauth_nop_cast(void *, intAction); } IOStatisticsCheckForWork(); if (numInts > 0) { if (trace) { IOTimeStampStartConstant(IODBG_INTES(IOINTES_ACTION), VM_KERNEL_ADDRHIDE(address), VM_KERNEL_ADDRHIDE(owner), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(workLoop)); } if (reserved->statistics) { if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelSystemTimeIndex)) { startSystemTime = mach_absolute_time(); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCPUTimeIndex)) { startCPUTime = thread_get_runtime_self(); } } // Call the handler if (kActionBlock & flags) { (intActionBlock)(this, numInts); } else { ((IOInterruptEventAction)intAction)(owner, this, numInts); } if (reserved->statistics) { if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCountIndex)) { IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelCountIndex], 1); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCPUTimeIndex)) { endCPUTime = thread_get_runtime_self(); IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelCPUTimeIndex], endCPUTime - startCPUTime); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelSystemTimeIndex)) { endSystemTime = mach_absolute_time(); IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelSystemTimeIndex], endSystemTime - startSystemTime); } } if (trace) { IOTimeStampEndConstant(IODBG_INTES(IOINTES_ACTION), VM_KERNEL_ADDRHIDE(address), VM_KERNEL_ADDRHIDE(owner), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(workLoop)); } consumerCount = cacheProdCount; if (autoDisable && !explicitDisable) { enable(); } } else if (numInts < 0) { if (trace) { IOTimeStampStartConstant(IODBG_INTES(IOINTES_ACTION), VM_KERNEL_ADDRHIDE(address), VM_KERNEL_ADDRHIDE(owner), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(workLoop)); } if (reserved->statistics) { if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelSystemTimeIndex)) { startSystemTime = mach_absolute_time(); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCPUTimeIndex)) { startCPUTime = thread_get_runtime_self(); } } // Call the handler if (kActionBlock & flags) { (intActionBlock)(this, numInts); } else { ((IOInterruptEventAction)intAction)(owner, this, numInts); } if (reserved->statistics) { if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelSystemTimeIndex)) { endSystemTime = mach_absolute_time(); IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelSystemTimeIndex], endSystemTime - startSystemTime); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCPUTimeIndex)) { endCPUTime = thread_get_runtime_self(); IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelCPUTimeIndex], endCPUTime - startCPUTime); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingSecondLevelCountIndex)) { IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingSecondLevelCountIndex], 1); } } if (trace) { IOTimeStampEndConstant(IODBG_INTES(IOINTES_ACTION), VM_KERNEL_ADDRHIDE(address), VM_KERNEL_ADDRHIDE(owner), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(workLoop)); } consumerCount = cacheProdCount; if (autoDisable && !explicitDisable) { enable(); } } return false; } void IOInterruptEventSource::normalInterruptOccurred (void */*refcon*/, IOService */*prov*/, int /*source*/) { bool trace = (gIOKitTrace & kIOTraceIntEventSource) ? true : false; IOStatisticsInterrupt(); producerCount++; if (trace) { IOTimeStampStartConstant(IODBG_INTES(IOINTES_SEMA), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(owner)); } if (reserved->statistics) { if (reserved->statistics->enablePrimaryTimestamp) { reserved->statistics->primaryTimestamp = mach_absolute_time(); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingFirstLevelCountIndex)) { IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingFirstLevelCountIndex], 1); } } signalWorkAvailable(); if (trace) { IOTimeStampEndConstant(IODBG_INTES(IOINTES_SEMA), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(owner)); } } void IOInterruptEventSource::disableInterruptOccurred (void */*refcon*/, IOService *prov, int source) { bool trace = (gIOKitTrace & kIOTraceIntEventSource) ? true : false; prov->disableInterrupt(source); /* disable the interrupt */ IOStatisticsInterrupt(); producerCount++; if (trace) { IOTimeStampStartConstant(IODBG_INTES(IOINTES_SEMA), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(owner)); } if (reserved->statistics) { if (reserved->statistics->enablePrimaryTimestamp) { reserved->statistics->primaryTimestamp = mach_absolute_time(); } if (IA_GET_STATISTIC_ENABLED(kInterruptAccountingFirstLevelCountIndex)) { IA_ADD_VALUE(&reserved->statistics->interruptStatistics[kInterruptAccountingFirstLevelCountIndex], 1); } } signalWorkAvailable(); if (trace) { IOTimeStampEndConstant(IODBG_INTES(IOINTES_SEMA), VM_KERNEL_ADDRHIDE(this), VM_KERNEL_ADDRHIDE(owner)); } } void IOInterruptEventSource::interruptOccurred (void *_refcon, IOService *prov, int source) { if (autoDisable && prov) { disableInterruptOccurred(_refcon, prov, source); } else { normalInterruptOccurred(_refcon, prov, source); } } IOReturn IOInterruptEventSource::warmCPU (uint64_t abstime) { return ml_interrupt_prewarm(abstime); } void IOInterruptEventSource::enablePrimaryInterruptTimestamp(bool enable) { if (reserved->statistics) { reserved->statistics->enablePrimaryTimestamp = enable; } } uint64_t IOInterruptEventSource::getPrimaryInterruptTimestamp() { if (reserved->statistics && reserved->statistics->enablePrimaryTimestamp) { return reserved->statistics->primaryTimestamp; } return -1ULL; }