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Impact: documentation fix This updates the perfcounter documentation to reflect recent changes. Signed-off-by: Paul Mackerras <paulus@samba.org>
283 lines
11 KiB
Text
283 lines
11 KiB
Text
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Performance Counters for Linux
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------------------------------
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Performance counters are special hardware registers available on most modern
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CPUs. These registers count the number of certain types of hw events: such
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as instructions executed, cachemisses suffered, or branches mis-predicted -
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without slowing down the kernel or applications. These registers can also
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trigger interrupts when a threshold number of events have passed - and can
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thus be used to profile the code that runs on that CPU.
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The Linux Performance Counter subsystem provides an abstraction of these
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hardware capabilities. It provides per task and per CPU counters, counter
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groups, and it provides event capabilities on top of those. It
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provides "virtual" 64-bit counters, regardless of the width of the
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underlying hardware counters.
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Performance counters are accessed via special file descriptors.
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There's one file descriptor per virtual counter used.
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The special file descriptor is opened via the perf_counter_open()
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system call:
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int sys_perf_counter_open(struct perf_counter_hw_event *hw_event_uptr,
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pid_t pid, int cpu, int group_fd,
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unsigned long flags);
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The syscall returns the new fd. The fd can be used via the normal
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VFS system calls: read() can be used to read the counter, fcntl()
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can be used to set the blocking mode, etc.
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Multiple counters can be kept open at a time, and the counters
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can be poll()ed.
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When creating a new counter fd, 'perf_counter_hw_event' is:
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/*
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* Event to monitor via a performance monitoring counter:
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*/
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struct perf_counter_hw_event {
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__u64 event_config;
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__u64 irq_period;
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__u64 record_type;
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__u64 read_format;
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__u64 disabled : 1, /* off by default */
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nmi : 1, /* NMI sampling */
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inherit : 1, /* children inherit it */
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pinned : 1, /* must always be on PMU */
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exclusive : 1, /* only group on PMU */
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exclude_user : 1, /* don't count user */
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exclude_kernel : 1, /* ditto kernel */
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exclude_hv : 1, /* ditto hypervisor */
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exclude_idle : 1, /* don't count when idle */
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__reserved_1 : 55;
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__u32 extra_config_len;
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__u32 __reserved_4;
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__u64 __reserved_2;
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__u64 __reserved_3;
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};
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The 'event_config' field specifies what the counter should count. It
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is divided into 3 bit-fields:
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raw_type: 1 bit (most significant bit) 0x8000_0000_0000_0000
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type: 7 bits (next most significant) 0x7f00_0000_0000_0000
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event_id: 56 bits (least significant) 0x00ff_0000_0000_0000
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If 'raw_type' is 1, then the counter will count a hardware event
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specified by the remaining 63 bits of event_config. The encoding is
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machine-specific.
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If 'raw_type' is 0, then the 'type' field says what kind of counter
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this is, with the following encoding:
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enum perf_event_types {
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PERF_TYPE_HARDWARE = 0,
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PERF_TYPE_SOFTWARE = 1,
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PERF_TYPE_TRACEPOINT = 2,
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};
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A counter of PERF_TYPE_HARDWARE will count the hardware event
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specified by 'event_id':
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/*
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* Generalized performance counter event types, used by the hw_event.event_id
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* parameter of the sys_perf_counter_open() syscall:
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*/
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enum hw_event_ids {
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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_CPU_CYCLES = 0,
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PERF_COUNT_INSTRUCTIONS = 1,
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PERF_COUNT_CACHE_REFERENCES = 2,
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PERF_COUNT_CACHE_MISSES = 3,
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PERF_COUNT_BRANCH_INSTRUCTIONS = 4,
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PERF_COUNT_BRANCH_MISSES = 5,
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PERF_COUNT_BUS_CYCLES = 6,
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};
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These are standardized types of events that work relatively uniformly
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on all CPUs that implement Performance Counters support under Linux,
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although there may be variations (e.g., different CPUs might count
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cache references and misses at different levels of the cache hierarchy).
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If a CPU is not able to count the selected event, then the system call
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will return -EINVAL.
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More hw_event_types are supported as well, but they are CPU-specific
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and accessed as raw events. For example, to count "External bus
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cycles while bus lock signal asserted" events on Intel Core CPUs, pass
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in a 0x4064 event_id value and set hw_event.raw_type to 1.
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A counter of type PERF_TYPE_SOFTWARE will count one of the available
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software events, selected by 'event_id':
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/*
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* Special "software" counters provided by the kernel, even if the hardware
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* does not support performance counters. These counters measure various
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* physical and sw events of the kernel (and allow the profiling of them as
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* well):
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*/
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enum sw_event_ids {
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PERF_COUNT_CPU_CLOCK = 0,
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PERF_COUNT_TASK_CLOCK = 1,
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PERF_COUNT_PAGE_FAULTS = 2,
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PERF_COUNT_CONTEXT_SWITCHES = 3,
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PERF_COUNT_CPU_MIGRATIONS = 4,
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PERF_COUNT_PAGE_FAULTS_MIN = 5,
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PERF_COUNT_PAGE_FAULTS_MAJ = 6,
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};
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Counters come in two flavours: counting counters and sampling
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counters. A "counting" counter is one that is used for counting the
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number of events that occur, and is characterised by having
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irq_period = 0 and record_type = PERF_RECORD_SIMPLE. A read() on a
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counting counter simply returns the current value of the counter as
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an 8-byte number.
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A "sampling" counter is one that is set up to generate an interrupt
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every N events, where N is given by 'irq_period'. A sampling counter
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has irq_period > 0 and record_type != PERF_RECORD_SIMPLE. The
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record_type controls what data is recorded on each interrupt, and the
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available values are currently:
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/*
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* IRQ-notification data record type:
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*/
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enum perf_counter_record_type {
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PERF_RECORD_SIMPLE = 0,
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PERF_RECORD_IRQ = 1,
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PERF_RECORD_GROUP = 2,
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};
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A record_type value of PERF_RECORD_IRQ will record the instruction
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pointer (IP) at which the interrupt occurred. A record_type value of
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PERF_RECORD_GROUP will record the event_config and counter value of
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all of the other counters in the group, and should only be used on a
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group leader (see below). Currently these two values are mutually
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exclusive, but record_type will become a bit-mask in future and
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support other values.
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A sampling counter has an event queue, into which an event is placed
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on each interrupt. A read() on a sampling counter will read the next
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event from the event queue. If the queue is empty, the read() will
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either block or return an EAGAIN error, depending on whether the fd
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has been set to non-blocking mode or not.
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The 'disabled' bit specifies whether the counter starts out disabled
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or enabled. If it is initially disabled, it can be enabled by ioctl
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or prctl (see below).
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The 'nmi' bit specifies, for hardware events, whether the counter
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should be set up to request non-maskable interrupts (NMIs) or normal
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interrupts. This bit is ignored if the user doesn't have
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CAP_SYS_ADMIN privilege (i.e. is not root) or if the CPU doesn't
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generate NMIs from hardware counters.
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The 'inherit' bit, if set, specifies that this counter should count
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events on descendant tasks as well as the task specified. This only
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applies to new descendents, not to any existing descendents at the
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time the counter is created (nor to any new descendents of existing
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descendents).
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The 'pinned' bit, if set, specifies that the counter should always be
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on the CPU if at all possible. It only applies to hardware counters
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and only to group leaders. If a pinned counter cannot be put onto the
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CPU (e.g. because there are not enough hardware counters or because of
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a conflict with some other event), then the counter goes into an
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'error' state, where reads return end-of-file (i.e. read() returns 0)
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until the counter is subsequently enabled or disabled.
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The 'exclusive' bit, if set, specifies that when this counter's group
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is on the CPU, it should be the only group using the CPU's counters.
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In future, this will allow sophisticated monitoring programs to supply
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extra configuration information via 'extra_config_len' to exploit
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advanced features of the CPU's Performance Monitor Unit (PMU) that are
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not otherwise accessible and that might disrupt other hardware
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counters.
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The 'exclude_user', 'exclude_kernel' and 'exclude_hv' bits provide a
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way to request that counting of events be restricted to times when the
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CPU is in user, kernel and/or hypervisor mode.
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The 'pid' parameter to the perf_counter_open() system call allows the
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counter to be specific to a task:
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pid == 0: if the pid parameter is zero, the counter is attached to the
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current task.
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pid > 0: the counter is attached to a specific task (if the current task
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has sufficient privilege to do so)
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pid < 0: all tasks are counted (per cpu counters)
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The 'cpu' parameter allows a counter to be made specific to a CPU:
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cpu >= 0: the counter is restricted to a specific CPU
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cpu == -1: the counter counts on all CPUs
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(Note: the combination of 'pid == -1' and 'cpu == -1' is not valid.)
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A 'pid > 0' and 'cpu == -1' counter is a per task counter that counts
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events of that task and 'follows' that task to whatever CPU the task
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gets schedule to. Per task counters can be created by any user, for
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their own tasks.
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A 'pid == -1' and 'cpu == x' counter is a per CPU counter that counts
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all events on CPU-x. Per CPU counters need CAP_SYS_ADMIN privilege.
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The 'flags' parameter is currently unused and must be zero.
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The 'group_fd' parameter allows counter "groups" to be set up. A
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counter group has one counter which is the group "leader". The leader
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is created first, with group_fd = -1 in the perf_counter_open call
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that creates it. The rest of the group members are created
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subsequently, with group_fd giving the fd of the group leader.
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(A single counter on its own is created with group_fd = -1 and is
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considered to be a group with only 1 member.)
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A counter group is scheduled onto the CPU as a unit, that is, it will
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only be put onto the CPU if all of the counters in the group can be
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put onto the CPU. This means that the values of the member counters
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can be meaningfully compared, added, divided (to get ratios), etc.,
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with each other, since they have counted events for the same set of
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executed instructions.
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Counters can be enabled and disabled in two ways: via ioctl and via
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prctl. When a counter is disabled, it doesn't count or generate
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events but does continue to exist and maintain its count value.
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An individual counter or counter group can be enabled with
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ioctl(fd, PERF_COUNTER_IOC_ENABLE);
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or disabled with
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ioctl(fd, PERF_COUNTER_IOC_DISABLE);
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Enabling or disabling the leader of a group enables or disables the
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whole group; that is, while the group leader is disabled, none of the
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counters in the group will count. Enabling or disabling a member of a
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group other than the leader only affects that counter - disabling an
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non-leader stops that counter from counting but doesn't affect any
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other counter.
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A process can enable or disable all the counter groups that are
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attached to it, using prctl:
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prctl(PR_TASK_PERF_COUNTERS_ENABLE);
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prctl(PR_TASK_PERF_COUNTERS_DISABLE);
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This applies to all counters on the current process, whether created
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by this process or by another, and doesn't affect any counters that
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this process has created on other processes. It only enables or
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disables the group leaders, not any other members in the groups.
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