/* * Copyright (c) 2014 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 * 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@ */ #ifndef __IOKIT_IOINTERRUPTACCOUNTING_H #define __IOKIT_IOINTERRUPTACCOUNTING_H #include <IOKit/IOReportTypes.h> /* * This header contains definitions that will be needed by userspace clients of the interrupt accounting * mechanisms. */ #define IA_INDEX_MAX (255) #define IA_INDEX_MASK (0xFFULL) #define IA_STATISTIC_INDEX_SHIFT (0ULL) #define IA_INTERRUPT_INDEX_SHIFT (16ULL) /* * For the moment, the indices aren't preprocessor visible, so any changes to this code will need to be * careful to ensure that the defined number of statistics matches (or is greater than) the actual number * of statistics, to avoid channel ID collisions... because that would be bad. */ #define IA_NUM_INTERRUPT_ACCOUNTING_STATISTICS (10) /* * Channel ID related definitions. These serve to denote the namespace of interrupt accounting in the * context of IOReporter-based clients. Interrupt accounting distinguishes between interrupts based on * the nub the interrupt was registered relative to, and the nub relative interrupt index (i.e, the * namespace for interrupt accounting is {nub ID, interrupt index}). IOReporting already knows about * nubs (in the context of IOService), however it has no built in knowledge of interrupt accounting. * As a result of this, it is the responsibility of the IOReporting client to request any desired * statistics on a per-index basis (i.e, if you want to get the first level interrupt count for all * interrupts, you must express an interest in the first level interrupt count statistic for index 0, 1, * 2, and so on, to a reasonable maximum). */ /* * These delimit the channel ID namespace for interrupt accounting. */ #define IA_BASE_CHANNEL_ID IOREPORT_MAKEID('I', 'n', 't', 'r', 0, 0, 0, 0) /* First valid channel ID */ #define IA_MAX_CHANNEL_ID IOREPORT_MAKEID('I', 'n', 't', 'r', 0xFF, 0xFF, 0xFF, 0xFF) /* Last valid channel ID */ /* * Given a nub-relative interrupt index (an index into the interrupt specifiers), and the index of a * interrupt accounting statistic, returns the channel id for that statistic. */ #define IA_GET_CHANNEL_ID(interruptIndex, statisticIndex) \ ((IA_BASE_CHANNEL_ID) + \ ((interruptIndex % IA_INDEX_MASK) << IA_INTERRUPT_INDEX_SHIFT) + \ ((statisticIndex % IA_INDEX_MASK) << IA_STATISTIC_INDEX_SHIFT)) /* * Extracts the interrupt index, given a channel ID. */ #define IA_GET_INTERRUPT_INDEX(channelID) \ (((channelID - IA_BASE_CHANNEL_ID) >> IA_INTERRUPT_INDEX_SHIFT) % IA_INDEX_MASK) /* * Extracts the statistic index, given a channel ID. */ #define IA_GET_STATISTIC_INDEX(channelID) \ (((channelID - IA_BASE_CHANNEL_ID) >> IA_STATISTIC_INDEX_SHIFT) % IA_INDEX_MASK) /* * This enum defines the basic statistics we gather for each interrupt. Currently, the information * we gather falls into roughly three buckets: interrupt related (counts, times), scheduler related * (thread wakeups), and power related (package/cpu state changes). * * First Level Count: This represents the number of times that this interrupt has fired (more * specifically, the number of times we have run the handler we expect to run in interrupt context). * * Second Level Count: This represents the number of times we have run any second level handler for * this interrupt (more specifically, the handler we expect to be run in the regular kernel context). * * First Level Time: This represents the aggregate time spent running the first level handler. For * some interrupts, this value will be 0, as this is not meant to track time spent running generic * IOKit code for the interrupt (i.e, IOInterruptEventSource code), but instead any custom code run * at the interrupt context (i.e, the filter installed for an IOFilterInterruptEventSource). * * Second Level CPU Time: This represents the aggregate time spent actually running the second level * handler on the CPU. As the second level handler may block or be preempted, it is meaningful to * distinguish this from the system time spent handling the interrupt. As was the case for the * first level handler, this does not attempt to track the time spent running generic IOKit code * (i.e, IOInterruptEventSource code or IOWorkLoop code), but instead attempts to track the time * spent running the handler that was installed. * * Second Level System Time: This represents the aggregate time spent in the second level handler; * this will include time where the handler was blocked or had been preempted. This should equate * to the wall time spent handling an interrupt (as long as we don't allow the system to go to * sleep while a second level handler is running). * * No Thread Wakeups: The number of times that the interrupt did not attempt to wake up a thread * (typically the work loop for the interrupt source is woken up). * * Total Thread Wakeups: The aggregate number of threads (non-unique) woken up by the interrupt. * If no threads were actually woken up for an interrupt (i.e, the work loop thread was already * runnable), this value will not change. * * Package Wakeups: The number of times that this interrupt woke up the package (as defined by the * scheduler). * * CPU Wakeups: The number of times that this interrupt woke up a CPU (forcing it to go through the * reset path). * * Idle Exits: The number of times that this interrupt forced a CPU out of the idle loop (the CPU * had to exit an idle state to handle the interrupt, but it did not need to go through the reset * path). */ enum { kInterruptAccountingFirstLevelCountIndex = 0, /* Number of times we invoked the top level handler */ kInterruptAccountingSecondLevelCountIndex, /* Number of times we invoked the workloop action */ kInterruptAccountingFirstLevelTimeIndex, /* Time spent in the top level handler, if one was installed */ kInterruptAccountingSecondLevelCPUTimeIndex, /* CPU time spent in the workloop action */ kInterruptAccountingSecondLevelSystemTimeIndex, /* System time spent in the workloop action */ kInterruptAccountingNoThreadWakeupsIndex, /* Number of first level (filter) invocations that did not wake up a thread */ kInterruptAccountingTotalThreadWakeupsIndex, /* Number of actual thread wakeups caused by this interrupt */ kInterruptAccountingPackageWakeupsIndex, /* Number of times this interrupt woke up the package */ kInterruptAccountingCPUWakeupsIndex, /* Number of times this interrupt woke up a CPU */ kInterruptAccountingIdleExitsIndex, /* Number of times this interrupt forced a CPU out of the idle loop */ kInterruptAccountingInvalidStatisticIndex /* Sentinel value for checking for a nonsensical index */ }; /* * IOReporting group name; exposed publicly for the purpose of getting channels by group * name; other strings (subgroup names, statistic names) are not exposed, as we may want * to change them in the future. */ #define kInterruptAccountingGroupName "Interrupt Statistics (by index)" #endif /* __IOKIT_IOINTERRUPTACCOUNTING_PRIVATE_H */