perf_event.h 29.6 KB
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/*
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 * Performance events:
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 *
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 *    Copyright (C) 2008-2009, Thomas Gleixner <tglx@linutronix.de>
 *    Copyright (C) 2008-2009, Red Hat, Inc., Ingo Molnar
 *    Copyright (C) 2008-2009, Red Hat, Inc., Peter Zijlstra
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 *
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 * Data type definitions, declarations, prototypes.
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 *
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 *    Started by: Thomas Gleixner and Ingo Molnar
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 *
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 * For licencing details see kernel-base/COPYING
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 */
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#ifndef _LINUX_PERF_EVENT_H
#define _LINUX_PERF_EVENT_H
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#include <linux/types.h>
#include <linux/ioctl.h>
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#include <asm/byteorder.h>
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/*
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 * User-space ABI bits:
 */

/*
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 * attr.type
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 */
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enum perf_type_id {
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	PERF_TYPE_HARDWARE			= 0,
	PERF_TYPE_SOFTWARE			= 1,
	PERF_TYPE_TRACEPOINT			= 2,
	PERF_TYPE_HW_CACHE			= 3,
	PERF_TYPE_RAW				= 4,
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	PERF_TYPE_BREAKPOINT			= 5,
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	PERF_TYPE_MAX,				/* non-ABI */
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};
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/*
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 * Generalized performance event event_id types, used by the
 * attr.event_id parameter of the sys_perf_event_open()
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 * syscall:
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 */
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enum perf_hw_id {
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	/*
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	 * Common hardware events, generalized by the kernel:
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	 */
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	PERF_COUNT_HW_CPU_CYCLES		= 0,
	PERF_COUNT_HW_INSTRUCTIONS		= 1,
	PERF_COUNT_HW_CACHE_REFERENCES		= 2,
	PERF_COUNT_HW_CACHE_MISSES		= 3,
	PERF_COUNT_HW_BRANCH_INSTRUCTIONS	= 4,
	PERF_COUNT_HW_BRANCH_MISSES		= 5,
	PERF_COUNT_HW_BUS_CYCLES		= 6,

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	PERF_COUNT_HW_MAX,			/* non-ABI */
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};
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/*
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 * Generalized hardware cache events:
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 *
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 *       { L1-D, L1-I, LLC, ITLB, DTLB, BPU } x
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 *       { read, write, prefetch } x
 *       { accesses, misses }
 */
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enum perf_hw_cache_id {
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	PERF_COUNT_HW_CACHE_L1D			= 0,
	PERF_COUNT_HW_CACHE_L1I			= 1,
	PERF_COUNT_HW_CACHE_LL			= 2,
	PERF_COUNT_HW_CACHE_DTLB		= 3,
	PERF_COUNT_HW_CACHE_ITLB		= 4,
	PERF_COUNT_HW_CACHE_BPU			= 5,

	PERF_COUNT_HW_CACHE_MAX,		/* non-ABI */
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};

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enum perf_hw_cache_op_id {
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	PERF_COUNT_HW_CACHE_OP_READ		= 0,
	PERF_COUNT_HW_CACHE_OP_WRITE		= 1,
	PERF_COUNT_HW_CACHE_OP_PREFETCH		= 2,
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	PERF_COUNT_HW_CACHE_OP_MAX,		/* non-ABI */
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};

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enum perf_hw_cache_op_result_id {
	PERF_COUNT_HW_CACHE_RESULT_ACCESS	= 0,
	PERF_COUNT_HW_CACHE_RESULT_MISS		= 1,
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	PERF_COUNT_HW_CACHE_RESULT_MAX,		/* non-ABI */
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};

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/*
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 * Special "software" events provided by the kernel, even if the hardware
 * does not support performance events. These events measure various
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 * physical and sw events of the kernel (and allow the profiling of them as
 * well):
 */
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enum perf_sw_ids {
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	PERF_COUNT_SW_CPU_CLOCK			= 0,
	PERF_COUNT_SW_TASK_CLOCK		= 1,
	PERF_COUNT_SW_PAGE_FAULTS		= 2,
	PERF_COUNT_SW_CONTEXT_SWITCHES		= 3,
	PERF_COUNT_SW_CPU_MIGRATIONS		= 4,
	PERF_COUNT_SW_PAGE_FAULTS_MIN		= 5,
	PERF_COUNT_SW_PAGE_FAULTS_MAJ		= 6,
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	PERF_COUNT_SW_ALIGNMENT_FAULTS		= 7,
	PERF_COUNT_SW_EMULATION_FAULTS		= 8,
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	PERF_COUNT_SW_MAX,			/* non-ABI */
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};

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/*
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 * Bits that can be set in attr.sample_type to request information
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 * in the overflow packets.
 */
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enum perf_event_sample_format {
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	PERF_SAMPLE_IP				= 1U << 0,
	PERF_SAMPLE_TID				= 1U << 1,
	PERF_SAMPLE_TIME			= 1U << 2,
	PERF_SAMPLE_ADDR			= 1U << 3,
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	PERF_SAMPLE_READ			= 1U << 4,
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	PERF_SAMPLE_CALLCHAIN			= 1U << 5,
	PERF_SAMPLE_ID				= 1U << 6,
	PERF_SAMPLE_CPU				= 1U << 7,
	PERF_SAMPLE_PERIOD			= 1U << 8,
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	PERF_SAMPLE_STREAM_ID			= 1U << 9,
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	PERF_SAMPLE_RAW				= 1U << 10,
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	PERF_SAMPLE_MAX = 1U << 11,		/* non-ABI */
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};

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/*
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 * The format of the data returned by read() on a perf event fd,
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 * as specified by attr.read_format:
 *
 * struct read_format {
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 *	{ u64		value;
 *	  { u64		time_enabled; } && PERF_FORMAT_ENABLED
 *	  { u64		time_running; } && PERF_FORMAT_RUNNING
 *	  { u64		id;           } && PERF_FORMAT_ID
 *	} && !PERF_FORMAT_GROUP
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 *
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 *	{ u64		nr;
 *	  { u64		time_enabled; } && PERF_FORMAT_ENABLED
 *	  { u64		time_running; } && PERF_FORMAT_RUNNING
 *	  { u64		value;
 *	    { u64	id;           } && PERF_FORMAT_ID
 *	  }		cntr[nr];
 *	} && PERF_FORMAT_GROUP
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 * };
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 */
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enum perf_event_read_format {
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	PERF_FORMAT_TOTAL_TIME_ENABLED		= 1U << 0,
	PERF_FORMAT_TOTAL_TIME_RUNNING		= 1U << 1,
	PERF_FORMAT_ID				= 1U << 2,
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	PERF_FORMAT_GROUP			= 1U << 3,
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	PERF_FORMAT_MAX = 1U << 4,		/* non-ABI */
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};

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#define PERF_ATTR_SIZE_VER0	64	/* sizeof first published struct */

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/*
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 * Hardware event_id to monitor via a performance monitoring event:
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 */
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struct perf_event_attr {
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	/*
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	 * Major type: hardware/software/tracepoint/etc.
	 */
	__u32			type;
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	/*
	 * Size of the attr structure, for fwd/bwd compat.
	 */
	__u32			size;
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	/*
	 * Type specific configuration information.
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	 */
	__u64			config;
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	union {
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		__u64		sample_period;
		__u64		sample_freq;
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	};

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	__u64			sample_type;
	__u64			read_format;
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	__u64			disabled       :  1, /* off by default        */
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				inherit	       :  1, /* children inherit it   */
				pinned	       :  1, /* must always be on PMU */
				exclusive      :  1, /* only group on PMU     */
				exclude_user   :  1, /* don't count user      */
				exclude_kernel :  1, /* ditto kernel          */
				exclude_hv     :  1, /* ditto hypervisor      */
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				exclude_idle   :  1, /* don't count when idle */
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				mmap           :  1, /* include mmap data     */
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				comm	       :  1, /* include comm data     */
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				freq           :  1, /* use freq, not period  */
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				inherit_stat   :  1, /* per task counts       */
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				enable_on_exec :  1, /* next exec enables     */
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				task           :  1, /* trace fork/exit       */
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				watermark      :  1, /* wakeup_watermark      */
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				/*
				 * precise_ip:
				 *
				 *  0 - SAMPLE_IP can have arbitrary skid
				 *  1 - SAMPLE_IP must have constant skid
				 *  2 - SAMPLE_IP requested to have 0 skid
				 *  3 - SAMPLE_IP must have 0 skid
				 *
				 *  See also PERF_RECORD_MISC_EXACT_IP
				 */
				precise_ip     :  2, /* skid constraint       */
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				mmap_data      :  1, /* non-exec mmap data    */
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				__reserved_1   : 46;
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	union {
		__u32		wakeup_events;	  /* wakeup every n events */
		__u32		wakeup_watermark; /* bytes before wakeup   */
	};
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	__u32			bp_type;
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	__u64			bp_addr;
	__u64			bp_len;
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};

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/*
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 * Ioctls that can be done on a perf event fd:
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 */
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#define PERF_EVENT_IOC_ENABLE		_IO ('$', 0)
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#define PERF_EVENT_IOC_DISABLE		_IO ('$', 1)
#define PERF_EVENT_IOC_REFRESH		_IO ('$', 2)
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#define PERF_EVENT_IOC_RESET		_IO ('$', 3)
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#define PERF_EVENT_IOC_PERIOD		_IOW('$', 4, __u64)
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#define PERF_EVENT_IOC_SET_OUTPUT	_IO ('$', 5)
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#define PERF_EVENT_IOC_SET_FILTER	_IOW('$', 6, char *)
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enum perf_event_ioc_flags {
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	PERF_IOC_FLAG_GROUP		= 1U << 0,
};
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/*
 * Structure of the page that can be mapped via mmap
 */
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struct perf_event_mmap_page {
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	__u32	version;		/* version number of this structure */
	__u32	compat_version;		/* lowest version this is compat with */
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	/*
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	 * Bits needed to read the hw events in user-space.
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	 *
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	 *   u32 seq;
	 *   s64 count;
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	 *
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	 *   do {
	 *     seq = pc->lock;
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	 *
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	 *     barrier()
	 *     if (pc->index) {
	 *       count = pmc_read(pc->index - 1);
	 *       count += pc->offset;
	 *     } else
	 *       goto regular_read;
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	 *
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	 *     barrier();
	 *   } while (pc->lock != seq);
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	 *
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	 * NOTE: for obvious reason this only works on self-monitoring
	 *       processes.
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	 */
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	__u32	lock;			/* seqlock for synchronization */
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	__u32	index;			/* hardware event identifier */
	__s64	offset;			/* add to hardware event value */
	__u64	time_enabled;		/* time event active */
	__u64	time_running;		/* time event on cpu */
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		/*
		 * Hole for extension of the self monitor capabilities
		 */

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	__u64	__reserved[123];	/* align to 1k */
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	/*
	 * Control data for the mmap() data buffer.
	 *
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	 * User-space reading the @data_head value should issue an rmb(), on
	 * SMP capable platforms, after reading this value -- see
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	 * perf_event_wakeup().
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	 *
	 * When the mapping is PROT_WRITE the @data_tail value should be
	 * written by userspace to reflect the last read data. In this case
	 * the kernel will not over-write unread data.
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	 */
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	__u64   data_head;		/* head in the data section */
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	__u64	data_tail;		/* user-space written tail */
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};

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#define PERF_RECORD_MISC_CPUMODE_MASK		(7 << 0)
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#define PERF_RECORD_MISC_CPUMODE_UNKNOWN	(0 << 0)
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#define PERF_RECORD_MISC_KERNEL			(1 << 0)
#define PERF_RECORD_MISC_USER			(2 << 0)
#define PERF_RECORD_MISC_HYPERVISOR		(3 << 0)
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#define PERF_RECORD_MISC_GUEST_KERNEL		(4 << 0)
#define PERF_RECORD_MISC_GUEST_USER		(5 << 0)
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/*
 * Indicates that the content of PERF_SAMPLE_IP points to
 * the actual instruction that triggered the event. See also
 * perf_event_attr::precise_ip.
 */
#define PERF_RECORD_MISC_EXACT_IP		(1 << 14)
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/*
 * Reserve the last bit to indicate some extended misc field
 */
#define PERF_RECORD_MISC_EXT_RESERVED		(1 << 15)

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struct perf_event_header {
	__u32	type;
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	__u16	misc;
	__u16	size;
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};

enum perf_event_type {
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	/*
	 * The MMAP events record the PROT_EXEC mappings so that we can
	 * correlate userspace IPs to code. They have the following structure:
	 *
	 * struct {
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	 *	struct perf_event_header	header;
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	 *
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	 *	u32				pid, tid;
	 *	u64				addr;
	 *	u64				len;
	 *	u64				pgoff;
	 *	char				filename[];
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	 * };
	 */
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	PERF_RECORD_MMAP			= 1,
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	/*
	 * struct {
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	 *	struct perf_event_header	header;
	 *	u64				id;
	 *	u64				lost;
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	 * };
	 */
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	PERF_RECORD_LOST			= 2,
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	/*
	 * struct {
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	 *	struct perf_event_header	header;
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	 *
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	 *	u32				pid, tid;
	 *	char				comm[];
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	 * };
	 */
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	PERF_RECORD_COMM			= 3,
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	/*
	 * struct {
	 *	struct perf_event_header	header;
	 *	u32				pid, ppid;
	 *	u32				tid, ptid;
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	 *	u64				time;
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	 * };
	 */
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	PERF_RECORD_EXIT			= 4,
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	/*
	 * struct {
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	 *	struct perf_event_header	header;
	 *	u64				time;
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	 *	u64				id;
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	 *	u64				stream_id;
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	 * };
	 */
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	PERF_RECORD_THROTTLE			= 5,
	PERF_RECORD_UNTHROTTLE			= 6,
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	/*
	 * struct {
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	 *	struct perf_event_header	header;
	 *	u32				pid, ppid;
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	 *	u32				tid, ptid;
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	 *	u64				time;
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	 * };
	 */
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	PERF_RECORD_FORK			= 7,
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	/*
	 * struct {
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	 *	struct perf_event_header	header;
	 *	u32				pid, tid;
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	 *
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	 *	struct read_format		values;
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	 * };
	 */
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	PERF_RECORD_READ			= 8,
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	/*
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	 * struct {
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	 *	struct perf_event_header	header;
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	 *
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	 *	{ u64			ip;	  } && PERF_SAMPLE_IP
	 *	{ u32			pid, tid; } && PERF_SAMPLE_TID
	 *	{ u64			time;     } && PERF_SAMPLE_TIME
	 *	{ u64			addr;     } && PERF_SAMPLE_ADDR
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	 *	{ u64			id;	  } && PERF_SAMPLE_ID
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	 *	{ u64			stream_id;} && PERF_SAMPLE_STREAM_ID
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	 *	{ u32			cpu, res; } && PERF_SAMPLE_CPU
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	 *	{ u64			period;   } && PERF_SAMPLE_PERIOD
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	 *
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	 *	{ struct read_format	values;	  } && PERF_SAMPLE_READ
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	 *
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	 *	{ u64			nr,
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	 *	  u64			ips[nr];  } && PERF_SAMPLE_CALLCHAIN
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	 *
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	 *	#
	 *	# The RAW record below is opaque data wrt the ABI
	 *	#
	 *	# That is, the ABI doesn't make any promises wrt to
	 *	# the stability of its content, it may vary depending
	 *	# on event, hardware, kernel version and phase of
	 *	# the moon.
	 *	#
	 *	# In other words, PERF_SAMPLE_RAW contents are not an ABI.
	 *	#
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	 *
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	 *	{ u32			size;
	 *	  char                  data[size];}&& PERF_SAMPLE_RAW
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	 * };
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	 */
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	PERF_RECORD_SAMPLE			= 9,
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	PERF_RECORD_MAX,			/* non-ABI */
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};

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enum perf_callchain_context {
	PERF_CONTEXT_HV			= (__u64)-32,
	PERF_CONTEXT_KERNEL		= (__u64)-128,
	PERF_CONTEXT_USER		= (__u64)-512,
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	PERF_CONTEXT_GUEST		= (__u64)-2048,
	PERF_CONTEXT_GUEST_KERNEL	= (__u64)-2176,
	PERF_CONTEXT_GUEST_USER		= (__u64)-2560,

	PERF_CONTEXT_MAX		= (__u64)-4095,
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};

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#define PERF_FLAG_FD_NO_GROUP	(1U << 0)
#define PERF_FLAG_FD_OUTPUT	(1U << 1)

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#ifdef __KERNEL__
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/*
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 * Kernel-internal data types and definitions:
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 */

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#ifdef CONFIG_PERF_EVENTS
# include <asm/perf_event.h>
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# include <asm/local64.h>
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#endif

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struct perf_guest_info_callbacks {
	int (*is_in_guest) (void);
	int (*is_user_mode) (void);
	unsigned long (*get_guest_ip) (void);
};

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#ifdef CONFIG_HAVE_HW_BREAKPOINT
#include <asm/hw_breakpoint.h>
#endif

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#include <linux/list.h>
#include <linux/mutex.h>
#include <linux/rculist.h>
#include <linux/rcupdate.h>
#include <linux/spinlock.h>
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#include <linux/hrtimer.h>
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#include <linux/fs.h>
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#include <linux/pid_namespace.h>
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#include <linux/workqueue.h>
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#include <linux/ftrace.h>
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#include <linux/cpu.h>
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#include <linux/irq_work.h>
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#include <linux/jump_label_ref.h>
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#include <asm/atomic.h>
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#include <asm/local.h>
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#define PERF_MAX_STACK_DEPTH		255

struct perf_callchain_entry {
	__u64				nr;
	__u64				ip[PERF_MAX_STACK_DEPTH];
};

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struct perf_raw_record {
	u32				size;
	void				*data;
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};

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struct perf_branch_entry {
	__u64				from;
	__u64				to;
	__u64				flags;
};

struct perf_branch_stack {
	__u64				nr;
	struct perf_branch_entry	entries[0];
};

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struct task_struct;

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/**
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 * struct hw_perf_event - performance event hardware details:
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 */
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struct hw_perf_event {
#ifdef CONFIG_PERF_EVENTS
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	union {
		struct { /* hardware */
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			u64		config;
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			u64		last_tag;
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			unsigned long	config_base;
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			unsigned long	event_base;
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			int		idx;
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			int		last_cpu;
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		};
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		struct { /* software */
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			struct hrtimer	hrtimer;
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		};
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#ifdef CONFIG_HAVE_HW_BREAKPOINT
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		struct { /* breakpoint */
			struct arch_hw_breakpoint	info;
			struct list_head		bp_list;
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			/*
			 * Crufty hack to avoid the chicken and egg
			 * problem hw_breakpoint has with context
			 * creation and event initalization.
			 */
			struct task_struct		*bp_target;
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		};
547
#endif
548
	};
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	int				state;
550
	local64_t			prev_count;
551
	u64				sample_period;
552
	u64				last_period;
553
	local64_t			period_left;
554
	u64				interrupts;
555

556 557
	u64				freq_time_stamp;
	u64				freq_count_stamp;
558
#endif
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};

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/*
 * hw_perf_event::state flags
 */
#define PERF_HES_STOPPED	0x01 /* the counter is stopped */
#define PERF_HES_UPTODATE	0x02 /* event->count up-to-date */
#define PERF_HES_ARCH		0x04

568
struct perf_event;
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570 571 572 573
/*
 * Common implementation detail of pmu::{start,commit,cancel}_txn
 */
#define PERF_EVENT_TXN 0x1
574

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575
/**
576
 * struct pmu - generic performance monitoring unit
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 */
578
struct pmu {
579 580
	struct list_head		entry;

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	int * __percpu			pmu_disable_count;
	struct perf_cpu_context * __percpu pmu_cpu_context;
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583
	int				task_ctx_nr;
584 585

	/*
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	 * Fully disable/enable this PMU, can be used to protect from the PMI
	 * as well as for lazy/batch writing of the MSRs.
588
	 */
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	void (*pmu_enable)		(struct pmu *pmu); /* optional */
	void (*pmu_disable)		(struct pmu *pmu); /* optional */
591

592
	/*
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593
	 * Try and initialize the event for this PMU.
594
	 * Should return -ENOENT when the @event doesn't match this PMU.
595
	 */
596 597
	int (*event_init)		(struct perf_event *event);

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#define PERF_EF_START	0x01		/* start the counter when adding    */
#define PERF_EF_RELOAD	0x02		/* reload the counter when starting */
#define PERF_EF_UPDATE	0x04		/* update the counter when stopping */

602
	/*
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	 * Adds/Removes a counter to/from the PMU, can be done inside
	 * a transaction, see the ->*_txn() methods.
	 */
	int  (*add)			(struct perf_event *event, int flags);
	void (*del)			(struct perf_event *event, int flags);

	/*
	 * Starts/Stops a counter present on the PMU. The PMI handler
	 * should stop the counter when perf_event_overflow() returns
	 * !0. ->start() will be used to continue.
	 */
	void (*start)			(struct perf_event *event, int flags);
	void (*stop)			(struct perf_event *event, int flags);

	/*
	 * Updates the counter value of the event.
	 */
620
	void (*read)			(struct perf_event *event);
621 622

	/*
623 624 625
	 * Group events scheduling is treated as a transaction, add
	 * group events as a whole and perform one schedulability test.
	 * If the test fails, roll back the whole group
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	 *
	 * Start the transaction, after this ->add() doesn't need to
628
	 * do schedulability tests.
629
	 */
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630
	void (*start_txn)	(struct pmu *pmu); /* optional */
631
	/*
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	 * If ->start_txn() disabled the ->add() schedulability test
633 634 635 636
	 * then ->commit_txn() is required to perform one. On success
	 * the transaction is closed. On error the transaction is kept
	 * open until ->cancel_txn() is called.
	 */
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	int  (*commit_txn)	(struct pmu *pmu); /* optional */
638
	/*
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	 * Will cancel the transaction, assumes ->del() is called
	 * for each successfull ->add() during the transaction.
641
	 */
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	void (*cancel_txn)	(struct pmu *pmu); /* optional */
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};

645
/**
646
 * enum perf_event_active_state - the states of a event
647
 */
648
enum perf_event_active_state {
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	PERF_EVENT_STATE_ERROR		= -2,
650 651
	PERF_EVENT_STATE_OFF		= -1,
	PERF_EVENT_STATE_INACTIVE	=  0,
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	PERF_EVENT_STATE_ACTIVE		=  1,
653 654
};

655 656
struct file;

657 658
#define PERF_BUFFER_WRITABLE		0x01

659
struct perf_buffer {
660
	atomic_t			refcount;
661
	struct rcu_head			rcu_head;
662 663
#ifdef CONFIG_PERF_USE_VMALLOC
	struct work_struct		work;
664
	int				page_order;	/* allocation order  */
665
#endif
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	int				nr_pages;	/* nr of data pages  */
667
	int				writable;	/* are we writable   */
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669
	atomic_t			poll;		/* POLL_ for wakeups */
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671 672 673
	local_t				head;		/* write position    */
	local_t				nest;		/* nested writers    */
	local_t				events;		/* event limit       */
674
	local_t				wakeup;		/* wakeup stamp      */
675
	local_t				lost;		/* nr records lost   */
676

677 678
	long				watermark;	/* wakeup watermark  */

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	struct perf_event_mmap_page	*user_page;
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680
	void				*data_pages[0];
681 682
};

683 684
struct perf_sample_data;

685 686 687 688
typedef void (*perf_overflow_handler_t)(struct perf_event *, int,
					struct perf_sample_data *,
					struct pt_regs *regs);

689 690 691 692
enum perf_group_flag {
	PERF_GROUP_SOFTWARE = 0x1,
};

693 694 695 696 697 698 699 700
#define SWEVENT_HLIST_BITS	8
#define SWEVENT_HLIST_SIZE	(1 << SWEVENT_HLIST_BITS)

struct swevent_hlist {
	struct hlist_head	heads[SWEVENT_HLIST_SIZE];
	struct rcu_head		rcu_head;
};

701 702
#define PERF_ATTACH_CONTEXT	0x01
#define PERF_ATTACH_GROUP	0x02
703
#define PERF_ATTACH_TASK	0x04
704

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/**
706
 * struct perf_event - performance event kernel representation:
T
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707
 */
708 709
struct perf_event {
#ifdef CONFIG_PERF_EVENTS
710
	struct list_head		group_entry;
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711
	struct list_head		event_entry;
712
	struct list_head		sibling_list;
713
	struct hlist_node		hlist_entry;
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714
	int				nr_siblings;
715
	int				group_flags;
716
	struct perf_event		*group_leader;
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717
	struct pmu			*pmu;
718

719
	enum perf_event_active_state	state;
720
	unsigned int			attach_state;
721
	local64_t			count;
722
	atomic64_t			child_count;
723

724
	/*
725
	 * These are the total time in nanoseconds that the event
726
	 * has been enabled (i.e. eligible to run, and the task has
727
	 * been scheduled in, if this is a per-task event)
728 729 730
	 * and running (scheduled onto the CPU), respectively.
	 *
	 * They are computed from tstamp_enabled, tstamp_running and
731
	 * tstamp_stopped when the event is in INACTIVE or ACTIVE state.
732 733 734 735 736 737
	 */
	u64				total_time_enabled;
	u64				total_time_running;

	/*
	 * These are timestamps used for computing total_time_enabled
738
	 * and total_time_running when the event is in INACTIVE or
739 740
	 * ACTIVE state, measured in nanoseconds from an arbitrary point
	 * in time.
741 742
	 * tstamp_enabled: the notional time when the event was enabled
	 * tstamp_running: the notional time when the event was scheduled on
743
	 * tstamp_stopped: in INACTIVE state, the notional time when the
744
	 *	event was scheduled off.
745 746 747 748 749
	 */
	u64				tstamp_enabled;
	u64				tstamp_running;
	u64				tstamp_stopped;

750 751 752 753 754 755 756 757 758 759
	/*
	 * timestamp shadows the actual context timing but it can
	 * be safely used in NMI interrupt context. It reflects the
	 * context time as it was when the event was last scheduled in.
	 *
	 * ctx_time already accounts for ctx->timestamp. Therefore to
	 * compute ctx_time for a sample, simply add perf_clock().
	 */
	u64				shadow_ctx_time;

760
	struct perf_event_attr		attr;
761
	struct hw_perf_event		hw;
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762

763
	struct perf_event_context	*ctx;
764
	struct file			*filp;
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765

766 767
	/*
	 * These accumulate total time (in nanoseconds) that children
768
	 * events have been enabled and running, respectively.
769 770 771 772
	 */
	atomic64_t			child_total_time_enabled;
	atomic64_t			child_total_time_running;

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773
	/*
774
	 * Protect attach/detach and child_list:
T
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775
	 */
776 777
	struct mutex			child_mutex;
	struct list_head		child_list;
778
	struct perf_event		*parent;
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779 780 781 782

	int				oncpu;
	int				cpu;

783 784 785
	struct list_head		owner_entry;
	struct task_struct		*owner;

786 787 788
	/* mmap bits */
	struct mutex			mmap_mutex;
	atomic_t			mmap_count;
789 790
	int				mmap_locked;
	struct user_struct		*mmap_user;
791
	struct perf_buffer		*buffer;
792

793
	/* poll related */
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794
	wait_queue_head_t		waitq;
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795
	struct fasync_struct		*fasync;
796 797 798

	/* delayed work for NMIs and such */
	int				pending_wakeup;
799
	int				pending_kill;
800
	int				pending_disable;
801
	struct irq_work			pending;
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802

803 804
	atomic_t			event_limit;

805
	void (*destroy)(struct perf_event *);
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806
	struct rcu_head			rcu_head;
807 808

	struct pid_namespace		*ns;
809
	u64				id;
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810

811
	perf_overflow_handler_t		overflow_handler;
812

813
#ifdef CONFIG_EVENT_TRACING
814
	struct ftrace_event_call	*tp_event;
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815
	struct event_filter		*filter;
816
#endif
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817 818

#endif /* CONFIG_PERF_EVENTS */
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819 820
};

821 822 823 824 825
enum perf_event_context_type {
	task_context,
	cpu_context,
};

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826
/**
827
 * struct perf_event_context - event context structure
T
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828
 *
829
 * Used as a container for task events and CPU events as well:
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830
 */
831
struct perf_event_context {
832
	enum perf_event_context_type	type;
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833
	struct pmu			*pmu;
T
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834
	/*
835
	 * Protect the states of the events in the list,
836
	 * nr_active, and the list:
T
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837
	 */
838
	raw_spinlock_t			lock;
839
	/*
840
	 * Protect the list of events.  Locking either mutex or lock
841 842 843
	 * is sufficient to ensure the list doesn't change; to change
	 * the list you need to lock both the mutex and the spinlock.
	 */
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844
	struct mutex			mutex;
845

846 847
	struct list_head		pinned_groups;
	struct list_head		flexible_groups;
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848
	struct list_head		event_list;
849
	int				nr_events;
I
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850 851
	int				nr_active;
	int				is_active;
852
	int				nr_stat;
853
	int				rotate_disable;
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854 855
	atomic_t			refcount;
	struct task_struct		*task;
856 857

	/*
858
	 * Context clock, runs when context enabled.
859
	 */
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860 861
	u64				time;
	u64				timestamp;
862 863 864 865 866

	/*
	 * These fields let us detect when two contexts have both
	 * been cloned (inherited) from a common ancestor.
	 */
867
	struct perf_event_context	*parent_ctx;
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868 869 870 871
	u64				parent_gen;
	u64				generation;
	int				pin_count;
	struct rcu_head			rcu_head;
T
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872 873
};

874 875 876 877 878 879
/*
 * Number of contexts where an event can trigger:
 * 	task, softirq, hardirq, nmi.
 */
#define PERF_NR_CONTEXTS	4

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880
/**
881
 * struct perf_event_cpu_context - per cpu event context structure
T
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882 883
 */
struct perf_cpu_context {
884 885
	struct perf_event_context	ctx;
	struct perf_event_context	*task_ctx;
T
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886
	int				active_oncpu;
887
	int				exclusive;
888 889
	struct list_head		rotation_list;
	int				jiffies_interval;
T
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890 891
};

892
struct perf_output_handle {
I
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893
	struct perf_event		*event;
894
	struct perf_buffer		*buffer;
895
	unsigned long			wakeup;
896 897 898
	unsigned long			size;
	void				*addr;
	int				page;
I
Ingo Molnar 已提交
899 900
	int				nmi;
	int				sample;
901 902
};

903
#ifdef CONFIG_PERF_EVENTS
904

905 906
extern int perf_pmu_register(struct pmu *pmu);
extern void perf_pmu_unregister(struct pmu *pmu);
I
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907

908
extern int perf_num_counters(void);
909
extern const char *perf_pmu_name(void);
910 911 912 913 914 915 916
extern void __perf_event_task_sched_in(struct task_struct *task);
extern void __perf_event_task_sched_out(struct task_struct *task, struct task_struct *next);

extern atomic_t perf_task_events;

static inline void perf_event_task_sched_in(struct task_struct *task)
{
917
	COND_STMT(&perf_task_events, __perf_event_task_sched_in(task));
918 919 920 921 922
}

static inline
void perf_event_task_sched_out(struct task_struct *task, struct task_struct *next)
{
923
	COND_STMT(&perf_task_events, __perf_event_task_sched_out(task, next));
924 925
}

926 927 928
extern int perf_event_init_task(struct task_struct *child);
extern void perf_event_exit_task(struct task_struct *child);
extern void perf_event_free_task(struct task_struct *task);
929
extern void perf_event_delayed_put(struct task_struct *task);
930
extern void perf_event_print_debug(void);
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931 932
extern void perf_pmu_disable(struct pmu *pmu);
extern void perf_pmu_enable(struct pmu *pmu);
933 934 935
extern int perf_event_task_disable(void);
extern int perf_event_task_enable(void);
extern void perf_event_update_userpage(struct perf_event *event);
936 937 938 939
extern int perf_event_release_kernel(struct perf_event *event);
extern struct perf_event *
perf_event_create_kernel_counter(struct perf_event_attr *attr,
				int cpu,
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940
				struct task_struct *task,
941
				perf_overflow_handler_t callback);
942 943
extern u64 perf_event_read_value(struct perf_event *event,
				 u64 *enabled, u64 *running);
944

945
struct perf_sample_data {
946 947 948 949 950 951 952 953
	u64				type;

	u64				ip;
	struct {
		u32	pid;
		u32	tid;
	}				tid_entry;
	u64				time;
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954
	u64				addr;
955 956 957 958 959 960
	u64				id;
	u64				stream_id;
	struct {
		u32	cpu;
		u32	reserved;
	}				cpu_entry;
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961
	u64				period;
962
	struct perf_callchain_entry	*callchain;
963
	struct perf_raw_record		*raw;
964 965
};

966 967 968 969 970 971 972
static inline
void perf_sample_data_init(struct perf_sample_data *data, u64 addr)
{
	data->addr = addr;
	data->raw  = NULL;
}

973 974 975
extern void perf_output_sample(struct perf_output_handle *handle,
			       struct perf_event_header *header,
			       struct perf_sample_data *data,
976
			       struct perf_event *event);
977 978
extern void perf_prepare_sample(struct perf_event_header *header,
				struct perf_sample_data *data,
979
				struct perf_event *event,
980 981
				struct pt_regs *regs);

982
extern int perf_event_overflow(struct perf_event *event, int nmi,
983 984
				 struct perf_sample_data *data,
				 struct pt_regs *regs);
985

986
/*
987
 * Return 1 for a software event, 0 for a hardware event
988
 */
989
static inline int is_software_event(struct perf_event *event)
990
{
991
	return event->pmu->task_ctx_nr == perf_sw_context;
992 993
}

994
extern atomic_t perf_swevent_enabled[PERF_COUNT_SW_MAX];
995

996
extern void __perf_sw_event(u32, u64, int, struct pt_regs *, u64);
997

998 999
#ifndef perf_arch_fetch_caller_regs
static inline void
1000
perf_arch_fetch_caller_regs(struct pt_regs *regs, unsigned long ip) { }
1001
#endif
1002 1003 1004 1005 1006 1007 1008 1009 1010

/*
 * Take a snapshot of the regs. Skip ip and frame pointer to
 * the nth caller. We only need a few of the regs:
 * - ip for PERF_SAMPLE_IP
 * - cs for user_mode() tests
 * - bp for callchains
 * - eflags, for future purposes, just in case
 */
1011
static inline void perf_fetch_caller_regs(struct pt_regs *regs)
1012 1013 1014
{
	memset(regs, 0, sizeof(*regs));

1015
	perf_arch_fetch_caller_regs(regs, CALLER_ADDR0);
1016 1017
}

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1018
static __always_inline void
1019 1020
perf_sw_event(u32 event_id, u64 nr, int nmi, struct pt_regs *regs, u64 addr)
{
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1021 1022 1023 1024 1025 1026 1027 1028 1029
	struct pt_regs hot_regs;

	JUMP_LABEL(&perf_swevent_enabled[event_id], have_event);
	return;

have_event:
	if (!regs) {
		perf_fetch_caller_regs(&hot_regs);
		regs = &hot_regs;
1030
	}
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1031
	__perf_sw_event(event_id, nr, nmi, regs, addr);
1032 1033
}

1034
extern void perf_event_mmap(struct vm_area_struct *vma);
1035
extern struct perf_guest_info_callbacks *perf_guest_cbs;
1036 1037
extern int perf_register_guest_info_callbacks(struct perf_guest_info_callbacks *callbacks);
extern int perf_unregister_guest_info_callbacks(struct perf_guest_info_callbacks *callbacks);
1038

1039 1040
extern void perf_event_comm(struct task_struct *tsk);
extern void perf_event_fork(struct task_struct *tsk);
1041

1042 1043 1044 1045 1046 1047 1048 1049
/* Callchains */
DECLARE_PER_CPU(struct perf_callchain_entry, perf_callchain_entry);

extern void perf_callchain_user(struct perf_callchain_entry *entry,
				struct pt_regs *regs);
extern void perf_callchain_kernel(struct perf_callchain_entry *entry,
				  struct pt_regs *regs);

1050

1051 1052 1053 1054 1055 1056
static inline void
perf_callchain_store(struct perf_callchain_entry *entry, u64 ip)
{
	if (entry->nr < PERF_MAX_STACK_DEPTH)
		entry->ip[entry->nr++] = ip;
}
1057

1058 1059 1060
extern int sysctl_perf_event_paranoid;
extern int sysctl_perf_event_mlock;
extern int sysctl_perf_event_sample_rate;
1061

1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076
static inline bool perf_paranoid_tracepoint_raw(void)
{
	return sysctl_perf_event_paranoid > -1;
}

static inline bool perf_paranoid_cpu(void)
{
	return sysctl_perf_event_paranoid > 0;
}

static inline bool perf_paranoid_kernel(void)
{
	return sysctl_perf_event_paranoid > 1;
}

1077
extern void perf_event_init(void);
1078 1079
extern void perf_tp_event(u64 addr, u64 count, void *record,
			  int entry_size, struct pt_regs *regs,
1080
			  struct hlist_head *head, int rctx);
1081
extern void perf_bp_event(struct perf_event *event, void *data);
1082

1083
#ifndef perf_misc_flags
1084 1085
#define perf_misc_flags(regs)	(user_mode(regs) ? PERF_RECORD_MISC_USER : \
				 PERF_RECORD_MISC_KERNEL)
1086 1087 1088
#define perf_instruction_pointer(regs)	instruction_pointer(regs)
#endif

1089
extern int perf_output_begin(struct perf_output_handle *handle,
1090
			     struct perf_event *event, unsigned int size,
1091 1092 1093 1094
			     int nmi, int sample);
extern void perf_output_end(struct perf_output_handle *handle);
extern void perf_output_copy(struct perf_output_handle *handle,
			     const void *buf, unsigned int len);
1095 1096
extern int perf_swevent_get_recursion_context(void);
extern void perf_swevent_put_recursion_context(int rctx);
1097 1098
extern void perf_event_enable(struct perf_event *event);
extern void perf_event_disable(struct perf_event *event);
1099
extern void perf_event_task_tick(void);
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#else
static inline void
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perf_event_task_sched_in(struct task_struct *task)			{ }
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static inline void
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perf_event_task_sched_out(struct task_struct *task,
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			    struct task_struct *next)			{ }
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static inline int perf_event_init_task(struct task_struct *child)	{ return 0; }
static inline void perf_event_exit_task(struct task_struct *child)	{ }
static inline void perf_event_free_task(struct task_struct *task)	{ }
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static inline void perf_event_delayed_put(struct task_struct *task)	{ }
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static inline void perf_event_print_debug(void)				{ }
static inline int perf_event_task_disable(void)				{ return -EINVAL; }
static inline int perf_event_task_enable(void)				{ return -EINVAL; }
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static inline void
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perf_sw_event(u32 event_id, u64 nr, int nmi,
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		     struct pt_regs *regs, u64 addr)			{ }
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static inline void
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perf_bp_event(struct perf_event *event, void *data)			{ }
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static inline int perf_register_guest_info_callbacks
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(struct perf_guest_info_callbacks *callbacks) { return 0; }
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static inline int perf_unregister_guest_info_callbacks
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(struct perf_guest_info_callbacks *callbacks) { return 0; }
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static inline void perf_event_mmap(struct vm_area_struct *vma)		{ }
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static inline void perf_event_comm(struct task_struct *tsk)		{ }
static inline void perf_event_fork(struct task_struct *tsk)		{ }
static inline void perf_event_init(void)				{ }
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static inline int  perf_swevent_get_recursion_context(void)		{ return -1; }
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static inline void perf_swevent_put_recursion_context(int rctx)		{ }
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static inline void perf_event_enable(struct perf_event *event)		{ }
static inline void perf_event_disable(struct perf_event *event)		{ }
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static inline void perf_event_task_tick(void)				{ }
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#endif

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#define perf_output_put(handle, x) \
	perf_output_copy((handle), &(x), sizeof(x))

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/*
 * This has to have a higher priority than migration_notifier in sched.c.
 */
#define perf_cpu_notifier(fn)					\
do {								\
	static struct notifier_block fn##_nb __cpuinitdata =	\
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		{ .notifier_call = fn, .priority = CPU_PRI_PERF }; \
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	fn(&fn##_nb, (unsigned long)CPU_UP_PREPARE,		\
		(void *)(unsigned long)smp_processor_id());	\
	fn(&fn##_nb, (unsigned long)CPU_STARTING,		\
		(void *)(unsigned long)smp_processor_id());	\
	fn(&fn##_nb, (unsigned long)CPU_ONLINE,			\
		(void *)(unsigned long)smp_processor_id());	\
	register_cpu_notifier(&fn##_nb);			\
} while (0)

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#endif /* __KERNEL__ */
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#endif /* _LINUX_PERF_EVENT_H */