1044 lines
39 KiB
ReStructuredText
1044 lines
39 KiB
ReStructuredText
=============
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Event Tracing
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=============
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:Author: Theodore Ts'o
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:Updated: Li Zefan and Tom Zanussi
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1. Introduction
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===============
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Tracepoints (see Documentation/trace/tracepoints.rst) can be used
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without creating custom kernel modules to register probe functions
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using the event tracing infrastructure.
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Not all tracepoints can be traced using the event tracing system;
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the kernel developer must provide code snippets which define how the
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tracing information is saved into the tracing buffer, and how the
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tracing information should be printed.
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2. Using Event Tracing
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======================
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2.1 Via the 'set_event' interface
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---------------------------------
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The events which are available for tracing can be found in the file
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/sys/kernel/debug/tracing/available_events.
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To enable a particular event, such as 'sched_wakeup', simply echo it
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to /sys/kernel/debug/tracing/set_event. For example::
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# echo sched_wakeup >> /sys/kernel/debug/tracing/set_event
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.. Note:: '>>' is necessary, otherwise it will firstly disable all the events.
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To disable an event, echo the event name to the set_event file prefixed
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with an exclamation point::
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# echo '!sched_wakeup' >> /sys/kernel/debug/tracing/set_event
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To disable all events, echo an empty line to the set_event file::
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# echo > /sys/kernel/debug/tracing/set_event
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To enable all events, echo ``*:*`` or ``*:`` to the set_event file::
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# echo *:* > /sys/kernel/debug/tracing/set_event
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The events are organized into subsystems, such as ext4, irq, sched,
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etc., and a full event name looks like this: <subsystem>:<event>. The
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subsystem name is optional, but it is displayed in the available_events
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file. All of the events in a subsystem can be specified via the syntax
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``<subsystem>:*``; for example, to enable all irq events, you can use the
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command::
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# echo 'irq:*' > /sys/kernel/debug/tracing/set_event
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2.2 Via the 'enable' toggle
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---------------------------
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The events available are also listed in /sys/kernel/debug/tracing/events/ hierarchy
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of directories.
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To enable event 'sched_wakeup'::
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# echo 1 > /sys/kernel/debug/tracing/events/sched/sched_wakeup/enable
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To disable it::
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# echo 0 > /sys/kernel/debug/tracing/events/sched/sched_wakeup/enable
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To enable all events in sched subsystem::
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# echo 1 > /sys/kernel/debug/tracing/events/sched/enable
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To enable all events::
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# echo 1 > /sys/kernel/debug/tracing/events/enable
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When reading one of these enable files, there are four results:
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- 0 - all events this file affects are disabled
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- 1 - all events this file affects are enabled
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- X - there is a mixture of events enabled and disabled
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- ? - this file does not affect any event
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2.3 Boot option
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---------------
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In order to facilitate early boot debugging, use boot option::
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trace_event=[event-list]
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event-list is a comma separated list of events. See section 2.1 for event
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format.
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3. Defining an event-enabled tracepoint
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=======================================
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See The example provided in samples/trace_events
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4. Event formats
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================
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Each trace event has a 'format' file associated with it that contains
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a description of each field in a logged event. This information can
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be used to parse the binary trace stream, and is also the place to
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find the field names that can be used in event filters (see section 5).
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It also displays the format string that will be used to print the
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event in text mode, along with the event name and ID used for
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profiling.
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Every event has a set of ``common`` fields associated with it; these are
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the fields prefixed with ``common_``. The other fields vary between
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events and correspond to the fields defined in the TRACE_EVENT
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definition for that event.
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Each field in the format has the form::
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field:field-type field-name; offset:N; size:N;
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where offset is the offset of the field in the trace record and size
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is the size of the data item, in bytes.
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For example, here's the information displayed for the 'sched_wakeup'
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event::
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# cat /sys/kernel/debug/tracing/events/sched/sched_wakeup/format
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name: sched_wakeup
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ID: 60
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format:
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field:unsigned short common_type; offset:0; size:2;
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field:unsigned char common_flags; offset:2; size:1;
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field:unsigned char common_preempt_count; offset:3; size:1;
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field:int common_pid; offset:4; size:4;
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field:int common_tgid; offset:8; size:4;
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field:char comm[TASK_COMM_LEN]; offset:12; size:16;
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field:pid_t pid; offset:28; size:4;
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field:int prio; offset:32; size:4;
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field:int success; offset:36; size:4;
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field:int cpu; offset:40; size:4;
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print fmt: "task %s:%d [%d] success=%d [%03d]", REC->comm, REC->pid,
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REC->prio, REC->success, REC->cpu
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This event contains 10 fields, the first 5 common and the remaining 5
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event-specific. All the fields for this event are numeric, except for
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'comm' which is a string, a distinction important for event filtering.
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5. Event filtering
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==================
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Trace events can be filtered in the kernel by associating boolean
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'filter expressions' with them. As soon as an event is logged into
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the trace buffer, its fields are checked against the filter expression
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associated with that event type. An event with field values that
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'match' the filter will appear in the trace output, and an event whose
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values don't match will be discarded. An event with no filter
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associated with it matches everything, and is the default when no
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filter has been set for an event.
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5.1 Expression syntax
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---------------------
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A filter expression consists of one or more 'predicates' that can be
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combined using the logical operators '&&' and '||'. A predicate is
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simply a clause that compares the value of a field contained within a
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logged event with a constant value and returns either 0 or 1 depending
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on whether the field value matched (1) or didn't match (0)::
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field-name relational-operator value
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Parentheses can be used to provide arbitrary logical groupings and
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double-quotes can be used to prevent the shell from interpreting
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operators as shell metacharacters.
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The field-names available for use in filters can be found in the
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'format' files for trace events (see section 4).
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The relational-operators depend on the type of the field being tested:
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The operators available for numeric fields are:
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==, !=, <, <=, >, >=, &
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And for string fields they are:
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==, !=, ~
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The glob (~) accepts a wild card character (\*,?) and character classes
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([). For example::
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prev_comm ~ "*sh"
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prev_comm ~ "sh*"
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prev_comm ~ "*sh*"
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prev_comm ~ "ba*sh"
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5.2 Setting filters
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-------------------
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A filter for an individual event is set by writing a filter expression
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to the 'filter' file for the given event.
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For example::
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# cd /sys/kernel/debug/tracing/events/sched/sched_wakeup
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# echo "common_preempt_count > 4" > filter
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A slightly more involved example::
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# cd /sys/kernel/debug/tracing/events/signal/signal_generate
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# echo "((sig >= 10 && sig < 15) || sig == 17) && comm != bash" > filter
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If there is an error in the expression, you'll get an 'Invalid
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argument' error when setting it, and the erroneous string along with
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an error message can be seen by looking at the filter e.g.::
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# cd /sys/kernel/debug/tracing/events/signal/signal_generate
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# echo "((sig >= 10 && sig < 15) || dsig == 17) && comm != bash" > filter
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-bash: echo: write error: Invalid argument
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# cat filter
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((sig >= 10 && sig < 15) || dsig == 17) && comm != bash
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^
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parse_error: Field not found
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Currently the caret ('^') for an error always appears at the beginning of
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the filter string; the error message should still be useful though
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even without more accurate position info.
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5.3 Clearing filters
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--------------------
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To clear the filter for an event, write a '0' to the event's filter
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file.
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To clear the filters for all events in a subsystem, write a '0' to the
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subsystem's filter file.
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5.3 Subsystem filters
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---------------------
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For convenience, filters for every event in a subsystem can be set or
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cleared as a group by writing a filter expression into the filter file
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at the root of the subsystem. Note however, that if a filter for any
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event within the subsystem lacks a field specified in the subsystem
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filter, or if the filter can't be applied for any other reason, the
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filter for that event will retain its previous setting. This can
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result in an unintended mixture of filters which could lead to
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confusing (to the user who might think different filters are in
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effect) trace output. Only filters that reference just the common
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fields can be guaranteed to propagate successfully to all events.
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Here are a few subsystem filter examples that also illustrate the
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above points:
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Clear the filters on all events in the sched subsystem::
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# cd /sys/kernel/debug/tracing/events/sched
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# echo 0 > filter
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# cat sched_switch/filter
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none
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# cat sched_wakeup/filter
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none
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Set a filter using only common fields for all events in the sched
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subsystem (all events end up with the same filter)::
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# cd /sys/kernel/debug/tracing/events/sched
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# echo common_pid == 0 > filter
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# cat sched_switch/filter
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common_pid == 0
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# cat sched_wakeup/filter
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common_pid == 0
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Attempt to set a filter using a non-common field for all events in the
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sched subsystem (all events but those that have a prev_pid field retain
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their old filters)::
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# cd /sys/kernel/debug/tracing/events/sched
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# echo prev_pid == 0 > filter
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# cat sched_switch/filter
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prev_pid == 0
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# cat sched_wakeup/filter
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common_pid == 0
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5.4 PID filtering
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-----------------
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The set_event_pid file in the same directory as the top events directory
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exists, will filter all events from tracing any task that does not have the
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PID listed in the set_event_pid file.
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::
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# cd /sys/kernel/debug/tracing
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# echo $$ > set_event_pid
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# echo 1 > events/enable
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Will only trace events for the current task.
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To add more PIDs without losing the PIDs already included, use '>>'.
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::
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# echo 123 244 1 >> set_event_pid
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6. Event triggers
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=================
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Trace events can be made to conditionally invoke trigger 'commands'
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which can take various forms and are described in detail below;
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examples would be enabling or disabling other trace events or invoking
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a stack trace whenever the trace event is hit. Whenever a trace event
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with attached triggers is invoked, the set of trigger commands
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associated with that event is invoked. Any given trigger can
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additionally have an event filter of the same form as described in
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section 5 (Event filtering) associated with it - the command will only
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be invoked if the event being invoked passes the associated filter.
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If no filter is associated with the trigger, it always passes.
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Triggers are added to and removed from a particular event by writing
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trigger expressions to the 'trigger' file for the given event.
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A given event can have any number of triggers associated with it,
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subject to any restrictions that individual commands may have in that
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regard.
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Event triggers are implemented on top of "soft" mode, which means that
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whenever a trace event has one or more triggers associated with it,
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the event is activated even if it isn't actually enabled, but is
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disabled in a "soft" mode. That is, the tracepoint will be called,
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but just will not be traced, unless of course it's actually enabled.
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This scheme allows triggers to be invoked even for events that aren't
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enabled, and also allows the current event filter implementation to be
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used for conditionally invoking triggers.
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The syntax for event triggers is roughly based on the syntax for
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set_ftrace_filter 'ftrace filter commands' (see the 'Filter commands'
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section of Documentation/trace/ftrace.rst), but there are major
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differences and the implementation isn't currently tied to it in any
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way, so beware about making generalizations between the two.
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.. Note::
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Writing into trace_marker (See Documentation/trace/ftrace.rst)
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can also enable triggers that are written into
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/sys/kernel/tracing/events/ftrace/print/trigger
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6.1 Expression syntax
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---------------------
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Triggers are added by echoing the command to the 'trigger' file::
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# echo 'command[:count] [if filter]' > trigger
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Triggers are removed by echoing the same command but starting with '!'
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to the 'trigger' file::
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# echo '!command[:count] [if filter]' > trigger
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The [if filter] part isn't used in matching commands when removing, so
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leaving that off in a '!' command will accomplish the same thing as
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having it in.
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The filter syntax is the same as that described in the 'Event
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filtering' section above.
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For ease of use, writing to the trigger file using '>' currently just
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adds or removes a single trigger and there's no explicit '>>' support
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('>' actually behaves like '>>') or truncation support to remove all
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triggers (you have to use '!' for each one added.)
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6.2 Supported trigger commands
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------------------------------
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The following commands are supported:
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- enable_event/disable_event
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These commands can enable or disable another trace event whenever
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the triggering event is hit. When these commands are registered,
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the other trace event is activated, but disabled in a "soft" mode.
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That is, the tracepoint will be called, but just will not be traced.
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The event tracepoint stays in this mode as long as there's a trigger
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in effect that can trigger it.
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For example, the following trigger causes kmalloc events to be
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traced when a read system call is entered, and the :1 at the end
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specifies that this enablement happens only once::
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# echo 'enable_event:kmem:kmalloc:1' > \
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/sys/kernel/debug/tracing/events/syscalls/sys_enter_read/trigger
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The following trigger causes kmalloc events to stop being traced
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when a read system call exits. This disablement happens on every
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read system call exit::
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# echo 'disable_event:kmem:kmalloc' > \
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/sys/kernel/debug/tracing/events/syscalls/sys_exit_read/trigger
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The format is::
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enable_event:<system>:<event>[:count]
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disable_event:<system>:<event>[:count]
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To remove the above commands::
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# echo '!enable_event:kmem:kmalloc:1' > \
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/sys/kernel/debug/tracing/events/syscalls/sys_enter_read/trigger
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# echo '!disable_event:kmem:kmalloc' > \
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/sys/kernel/debug/tracing/events/syscalls/sys_exit_read/trigger
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Note that there can be any number of enable/disable_event triggers
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per triggering event, but there can only be one trigger per
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triggered event. e.g. sys_enter_read can have triggers enabling both
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kmem:kmalloc and sched:sched_switch, but can't have two kmem:kmalloc
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versions such as kmem:kmalloc and kmem:kmalloc:1 or 'kmem:kmalloc if
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bytes_req == 256' and 'kmem:kmalloc if bytes_alloc == 256' (they
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could be combined into a single filter on kmem:kmalloc though).
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- stacktrace
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This command dumps a stacktrace in the trace buffer whenever the
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triggering event occurs.
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For example, the following trigger dumps a stacktrace every time the
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kmalloc tracepoint is hit::
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# echo 'stacktrace' > \
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/sys/kernel/debug/tracing/events/kmem/kmalloc/trigger
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The following trigger dumps a stacktrace the first 5 times a kmalloc
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request happens with a size >= 64K::
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# echo 'stacktrace:5 if bytes_req >= 65536' > \
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/sys/kernel/debug/tracing/events/kmem/kmalloc/trigger
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The format is::
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stacktrace[:count]
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To remove the above commands::
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# echo '!stacktrace' > \
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/sys/kernel/debug/tracing/events/kmem/kmalloc/trigger
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# echo '!stacktrace:5 if bytes_req >= 65536' > \
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/sys/kernel/debug/tracing/events/kmem/kmalloc/trigger
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The latter can also be removed more simply by the following (without
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the filter)::
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# echo '!stacktrace:5' > \
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/sys/kernel/debug/tracing/events/kmem/kmalloc/trigger
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Note that there can be only one stacktrace trigger per triggering
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event.
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- snapshot
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This command causes a snapshot to be triggered whenever the
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triggering event occurs.
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The following command creates a snapshot every time a block request
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queue is unplugged with a depth > 1. If you were tracing a set of
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events or functions at the time, the snapshot trace buffer would
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capture those events when the trigger event occurred::
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# echo 'snapshot if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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To only snapshot once::
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# echo 'snapshot:1 if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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To remove the above commands::
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# echo '!snapshot if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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# echo '!snapshot:1 if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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Note that there can be only one snapshot trigger per triggering
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event.
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- traceon/traceoff
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These commands turn tracing on and off when the specified events are
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hit. The parameter determines how many times the tracing system is
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turned on and off. If unspecified, there is no limit.
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The following command turns tracing off the first time a block
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request queue is unplugged with a depth > 1. If you were tracing a
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set of events or functions at the time, you could then examine the
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trace buffer to see the sequence of events that led up to the
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trigger event::
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# echo 'traceoff:1 if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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To always disable tracing when nr_rq > 1::
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# echo 'traceoff if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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To remove the above commands::
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# echo '!traceoff:1 if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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# echo '!traceoff if nr_rq > 1' > \
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/sys/kernel/debug/tracing/events/block/block_unplug/trigger
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Note that there can be only one traceon or traceoff trigger per
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triggering event.
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- hist
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This command aggregates event hits into a hash table keyed on one or
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more trace event format fields (or stacktrace) and a set of running
|
|
totals derived from one or more trace event format fields and/or
|
|
event counts (hitcount).
|
|
|
|
See Documentation/trace/histogram.rst for details and examples.
|
|
|
|
6.3 In-kernel trace event API
|
|
-----------------------------
|
|
|
|
In most cases, the command-line interface to trace events is more than
|
|
sufficient. Sometimes, however, applications might find the need for
|
|
more complex relationships than can be expressed through a simple
|
|
series of linked command-line expressions, or putting together sets of
|
|
commands may be simply too cumbersome. An example might be an
|
|
application that needs to 'listen' to the trace stream in order to
|
|
maintain an in-kernel state machine detecting, for instance, when an
|
|
illegal kernel state occurs in the scheduler.
|
|
|
|
The trace event subsystem provides an in-kernel API allowing modules
|
|
or other kernel code to generate user-defined 'synthetic' events at
|
|
will, which can be used to either augment the existing trace stream
|
|
and/or signal that a particular important state has occurred.
|
|
|
|
A similar in-kernel API is also available for creating kprobe and
|
|
kretprobe events.
|
|
|
|
Both the synthetic event and k/ret/probe event APIs are built on top
|
|
of a lower-level "dynevent_cmd" event command API, which is also
|
|
available for more specialized applications, or as the basis of other
|
|
higher-level trace event APIs.
|
|
|
|
The API provided for these purposes is describe below and allows the
|
|
following:
|
|
|
|
- dynamically creating synthetic event definitions
|
|
- dynamically creating kprobe and kretprobe event definitions
|
|
- tracing synthetic events from in-kernel code
|
|
- the low-level "dynevent_cmd" API
|
|
|
|
6.3.1 Dyamically creating synthetic event definitions
|
|
-----------------------------------------------------
|
|
|
|
There are a couple ways to create a new synthetic event from a kernel
|
|
module or other kernel code.
|
|
|
|
The first creates the event in one step, using synth_event_create().
|
|
In this method, the name of the event to create and an array defining
|
|
the fields is supplied to synth_event_create(). If successful, a
|
|
synthetic event with that name and fields will exist following that
|
|
call. For example, to create a new "schedtest" synthetic event::
|
|
|
|
ret = synth_event_create("schedtest", sched_fields,
|
|
ARRAY_SIZE(sched_fields), THIS_MODULE);
|
|
|
|
The sched_fields param in this example points to an array of struct
|
|
synth_field_desc, each of which describes an event field by type and
|
|
name::
|
|
|
|
static struct synth_field_desc sched_fields[] = {
|
|
{ .type = "pid_t", .name = "next_pid_field" },
|
|
{ .type = "char[16]", .name = "next_comm_field" },
|
|
{ .type = "u64", .name = "ts_ns" },
|
|
{ .type = "u64", .name = "ts_ms" },
|
|
{ .type = "unsigned int", .name = "cpu" },
|
|
{ .type = "char[64]", .name = "my_string_field" },
|
|
{ .type = "int", .name = "my_int_field" },
|
|
};
|
|
|
|
See synth_field_size() for available types. If field_name contains [n]
|
|
the field is considered to be an array.
|
|
|
|
If the event is created from within a module, a pointer to the module
|
|
must be passed to synth_event_create(). This will ensure that the
|
|
trace buffer won't contain unreadable events when the module is
|
|
removed.
|
|
|
|
At this point, the event object is ready to be used for generating new
|
|
events.
|
|
|
|
In the second method, the event is created in several steps. This
|
|
allows events to be created dynamically and without the need to create
|
|
and populate an array of fields beforehand.
|
|
|
|
To use this method, an empty or partially empty synthetic event should
|
|
first be created using synth_event_gen_cmd_start() or
|
|
synth_event_gen_cmd_array_start(). For synth_event_gen_cmd_start(),
|
|
the name of the event along with one or more pairs of args each pair
|
|
representing a 'type field_name;' field specification should be
|
|
supplied. For synth_event_gen_cmd_array_start(), the name of the
|
|
event along with an array of struct synth_field_desc should be
|
|
supplied. Before calling synth_event_gen_cmd_start() or
|
|
synth_event_gen_cmd_array_start(), the user should create and
|
|
initialize a dynevent_cmd object using synth_event_cmd_init().
|
|
|
|
For example, to create a new "schedtest" synthetic event with two
|
|
fields::
|
|
|
|
struct dynevent_cmd cmd;
|
|
char *buf;
|
|
|
|
/* Create a buffer to hold the generated command */
|
|
buf = kzalloc(MAX_DYNEVENT_CMD_LEN, GFP_KERNEL);
|
|
|
|
/* Before generating the command, initialize the cmd object */
|
|
synth_event_cmd_init(&cmd, buf, MAX_DYNEVENT_CMD_LEN);
|
|
|
|
ret = synth_event_gen_cmd_start(&cmd, "schedtest", THIS_MODULE,
|
|
"pid_t", "next_pid_field",
|
|
"u64", "ts_ns");
|
|
|
|
Alternatively, using an array of struct synth_field_desc fields
|
|
containing the same information::
|
|
|
|
ret = synth_event_gen_cmd_array_start(&cmd, "schedtest", THIS_MODULE,
|
|
fields, n_fields);
|
|
|
|
Once the synthetic event object has been created, it can then be
|
|
populated with more fields. Fields are added one by one using
|
|
synth_event_add_field(), supplying the dynevent_cmd object, a field
|
|
type, and a field name. For example, to add a new int field named
|
|
"intfield", the following call should be made::
|
|
|
|
ret = synth_event_add_field(&cmd, "int", "intfield");
|
|
|
|
See synth_field_size() for available types. If field_name contains [n]
|
|
the field is considered to be an array.
|
|
|
|
A group of fields can also be added all at once using an array of
|
|
synth_field_desc with add_synth_fields(). For example, this would add
|
|
just the first four sched_fields::
|
|
|
|
ret = synth_event_add_fields(&cmd, sched_fields, 4);
|
|
|
|
If you already have a string of the form 'type field_name',
|
|
synth_event_add_field_str() can be used to add it as-is; it will
|
|
also automatically append a ';' to the string.
|
|
|
|
Once all the fields have been added, the event should be finalized and
|
|
registered by calling the synth_event_gen_cmd_end() function::
|
|
|
|
ret = synth_event_gen_cmd_end(&cmd);
|
|
|
|
At this point, the event object is ready to be used for tracing new
|
|
events.
|
|
|
|
6.3.3 Tracing synthetic events from in-kernel code
|
|
--------------------------------------------------
|
|
|
|
To trace a synthetic event, there are several options. The first
|
|
option is to trace the event in one call, using synth_event_trace()
|
|
with a variable number of values, or synth_event_trace_array() with an
|
|
array of values to be set. A second option can be used to avoid the
|
|
need for a pre-formed array of values or list of arguments, via
|
|
synth_event_trace_start() and synth_event_trace_end() along with
|
|
synth_event_add_next_val() or synth_event_add_val() to add the values
|
|
piecewise.
|
|
|
|
6.3.3.1 Tracing a synthetic event all at once
|
|
---------------------------------------------
|
|
|
|
To trace a synthetic event all at once, the synth_event_trace() or
|
|
synth_event_trace_array() functions can be used.
|
|
|
|
The synth_event_trace() function is passed the trace_event_file
|
|
representing the synthetic event (which can be retrieved using
|
|
trace_get_event_file() using the synthetic event name, "synthetic" as
|
|
the system name, and the trace instance name (NULL if using the global
|
|
trace array)), along with an variable number of u64 args, one for each
|
|
synthetic event field, and the number of values being passed.
|
|
|
|
So, to trace an event corresponding to the synthetic event definition
|
|
above, code like the following could be used::
|
|
|
|
ret = synth_event_trace(create_synth_test, 7, /* number of values */
|
|
444, /* next_pid_field */
|
|
(u64)"clackers", /* next_comm_field */
|
|
1000000, /* ts_ns */
|
|
1000, /* ts_ms */
|
|
smp_processor_id(),/* cpu */
|
|
(u64)"Thneed", /* my_string_field */
|
|
999); /* my_int_field */
|
|
|
|
All vals should be cast to u64, and string vals are just pointers to
|
|
strings, cast to u64. Strings will be copied into space reserved in
|
|
the event for the string, using these pointers.
|
|
|
|
Alternatively, the synth_event_trace_array() function can be used to
|
|
accomplish the same thing. It is passed the trace_event_file
|
|
representing the synthetic event (which can be retrieved using
|
|
trace_get_event_file() using the synthetic event name, "synthetic" as
|
|
the system name, and the trace instance name (NULL if using the global
|
|
trace array)), along with an array of u64, one for each synthetic
|
|
event field.
|
|
|
|
To trace an event corresponding to the synthetic event definition
|
|
above, code like the following could be used::
|
|
|
|
u64 vals[7];
|
|
|
|
vals[0] = 777; /* next_pid_field */
|
|
vals[1] = (u64)"tiddlywinks"; /* next_comm_field */
|
|
vals[2] = 1000000; /* ts_ns */
|
|
vals[3] = 1000; /* ts_ms */
|
|
vals[4] = smp_processor_id(); /* cpu */
|
|
vals[5] = (u64)"thneed"; /* my_string_field */
|
|
vals[6] = 398; /* my_int_field */
|
|
|
|
The 'vals' array is just an array of u64, the number of which must
|
|
match the number of field in the synthetic event, and which must be in
|
|
the same order as the synthetic event fields.
|
|
|
|
All vals should be cast to u64, and string vals are just pointers to
|
|
strings, cast to u64. Strings will be copied into space reserved in
|
|
the event for the string, using these pointers.
|
|
|
|
In order to trace a synthetic event, a pointer to the trace event file
|
|
is needed. The trace_get_event_file() function can be used to get
|
|
it - it will find the file in the given trace instance (in this case
|
|
NULL since the top trace array is being used) while at the same time
|
|
preventing the instance containing it from going away::
|
|
|
|
schedtest_event_file = trace_get_event_file(NULL, "synthetic",
|
|
"schedtest");
|
|
|
|
Before tracing the event, it should be enabled in some way, otherwise
|
|
the synthetic event won't actually show up in the trace buffer.
|
|
|
|
To enable a synthetic event from the kernel, trace_array_set_clr_event()
|
|
can be used (which is not specific to synthetic events, so does need
|
|
the "synthetic" system name to be specified explicitly).
|
|
|
|
To enable the event, pass 'true' to it::
|
|
|
|
trace_array_set_clr_event(schedtest_event_file->tr,
|
|
"synthetic", "schedtest", true);
|
|
|
|
To disable it pass false::
|
|
|
|
trace_array_set_clr_event(schedtest_event_file->tr,
|
|
"synthetic", "schedtest", false);
|
|
|
|
Finally, synth_event_trace_array() can be used to actually trace the
|
|
event, which should be visible in the trace buffer afterwards::
|
|
|
|
ret = synth_event_trace_array(schedtest_event_file, vals,
|
|
ARRAY_SIZE(vals));
|
|
|
|
To remove the synthetic event, the event should be disabled, and the
|
|
trace instance should be 'put' back using trace_put_event_file()::
|
|
|
|
trace_array_set_clr_event(schedtest_event_file->tr,
|
|
"synthetic", "schedtest", false);
|
|
trace_put_event_file(schedtest_event_file);
|
|
|
|
If those have been successful, synth_event_delete() can be called to
|
|
remove the event::
|
|
|
|
ret = synth_event_delete("schedtest");
|
|
|
|
6.3.3.1 Tracing a synthetic event piecewise
|
|
-------------------------------------------
|
|
|
|
To trace a synthetic using the piecewise method described above, the
|
|
synth_event_trace_start() function is used to 'open' the synthetic
|
|
event trace::
|
|
|
|
struct synth_trace_state trace_state;
|
|
|
|
ret = synth_event_trace_start(schedtest_event_file, &trace_state);
|
|
|
|
It's passed the trace_event_file representing the synthetic event
|
|
using the same methods as described above, along with a pointer to a
|
|
struct synth_trace_state object, which will be zeroed before use and
|
|
used to maintain state between this and following calls.
|
|
|
|
Once the event has been opened, which means space for it has been
|
|
reserved in the trace buffer, the individual fields can be set. There
|
|
are two ways to do that, either one after another for each field in
|
|
the event, which requires no lookups, or by name, which does. The
|
|
tradeoff is flexibility in doing the assignments vs the cost of a
|
|
lookup per field.
|
|
|
|
To assign the values one after the other without lookups,
|
|
synth_event_add_next_val() should be used. Each call is passed the
|
|
same synth_trace_state object used in the synth_event_trace_start(),
|
|
along with the value to set the next field in the event. After each
|
|
field is set, the 'cursor' points to the next field, which will be set
|
|
by the subsequent call, continuing until all the fields have been set
|
|
in order. The same sequence of calls as in the above examples using
|
|
this method would be (without error-handling code)::
|
|
|
|
/* next_pid_field */
|
|
ret = synth_event_add_next_val(777, &trace_state);
|
|
|
|
/* next_comm_field */
|
|
ret = synth_event_add_next_val((u64)"slinky", &trace_state);
|
|
|
|
/* ts_ns */
|
|
ret = synth_event_add_next_val(1000000, &trace_state);
|
|
|
|
/* ts_ms */
|
|
ret = synth_event_add_next_val(1000, &trace_state);
|
|
|
|
/* cpu */
|
|
ret = synth_event_add_next_val(smp_processor_id(), &trace_state);
|
|
|
|
/* my_string_field */
|
|
ret = synth_event_add_next_val((u64)"thneed_2.01", &trace_state);
|
|
|
|
/* my_int_field */
|
|
ret = synth_event_add_next_val(395, &trace_state);
|
|
|
|
To assign the values in any order, synth_event_add_val() should be
|
|
used. Each call is passed the same synth_trace_state object used in
|
|
the synth_event_trace_start(), along with the field name of the field
|
|
to set and the value to set it to. The same sequence of calls as in
|
|
the above examples using this method would be (without error-handling
|
|
code)::
|
|
|
|
ret = synth_event_add_val("next_pid_field", 777, &trace_state);
|
|
ret = synth_event_add_val("next_comm_field", (u64)"silly putty",
|
|
&trace_state);
|
|
ret = synth_event_add_val("ts_ns", 1000000, &trace_state);
|
|
ret = synth_event_add_val("ts_ms", 1000, &trace_state);
|
|
ret = synth_event_add_val("cpu", smp_processor_id(), &trace_state);
|
|
ret = synth_event_add_val("my_string_field", (u64)"thneed_9",
|
|
&trace_state);
|
|
ret = synth_event_add_val("my_int_field", 3999, &trace_state);
|
|
|
|
Note that synth_event_add_next_val() and synth_event_add_val() are
|
|
incompatible if used within the same trace of an event - either one
|
|
can be used but not both at the same time.
|
|
|
|
Finally, the event won't be actually traced until it's 'closed',
|
|
which is done using synth_event_trace_end(), which takes only the
|
|
struct synth_trace_state object used in the previous calls::
|
|
|
|
ret = synth_event_trace_end(&trace_state);
|
|
|
|
Note that synth_event_trace_end() must be called at the end regardless
|
|
of whether any of the add calls failed (say due to a bad field name
|
|
being passed in).
|
|
|
|
6.3.4 Dyamically creating kprobe and kretprobe event definitions
|
|
----------------------------------------------------------------
|
|
|
|
To create a kprobe or kretprobe trace event from kernel code, the
|
|
kprobe_event_gen_cmd_start() or kretprobe_event_gen_cmd_start()
|
|
functions can be used.
|
|
|
|
To create a kprobe event, an empty or partially empty kprobe event
|
|
should first be created using kprobe_event_gen_cmd_start(). The name
|
|
of the event and the probe location should be specfied along with one
|
|
or args each representing a probe field should be supplied to this
|
|
function. Before calling kprobe_event_gen_cmd_start(), the user
|
|
should create and initialize a dynevent_cmd object using
|
|
kprobe_event_cmd_init().
|
|
|
|
For example, to create a new "schedtest" kprobe event with two fields::
|
|
|
|
struct dynevent_cmd cmd;
|
|
char *buf;
|
|
|
|
/* Create a buffer to hold the generated command */
|
|
buf = kzalloc(MAX_DYNEVENT_CMD_LEN, GFP_KERNEL);
|
|
|
|
/* Before generating the command, initialize the cmd object */
|
|
kprobe_event_cmd_init(&cmd, buf, MAX_DYNEVENT_CMD_LEN);
|
|
|
|
/*
|
|
* Define the gen_kprobe_test event with the first 2 kprobe
|
|
* fields.
|
|
*/
|
|
ret = kprobe_event_gen_cmd_start(&cmd, "gen_kprobe_test", "do_sys_open",
|
|
"dfd=%ax", "filename=%dx");
|
|
|
|
Once the kprobe event object has been created, it can then be
|
|
populated with more fields. Fields can be added using
|
|
kprobe_event_add_fields(), supplying the dynevent_cmd object along
|
|
with a variable arg list of probe fields. For example, to add a
|
|
couple additional fields, the following call could be made::
|
|
|
|
ret = kprobe_event_add_fields(&cmd, "flags=%cx", "mode=+4($stack)");
|
|
|
|
Once all the fields have been added, the event should be finalized and
|
|
registered by calling the kprobe_event_gen_cmd_end() or
|
|
kretprobe_event_gen_cmd_end() functions, depending on whether a kprobe
|
|
or kretprobe command was started::
|
|
|
|
ret = kprobe_event_gen_cmd_end(&cmd);
|
|
|
|
or::
|
|
|
|
ret = kretprobe_event_gen_cmd_end(&cmd);
|
|
|
|
At this point, the event object is ready to be used for tracing new
|
|
events.
|
|
|
|
Similarly, a kretprobe event can be created using
|
|
kretprobe_event_gen_cmd_start() with a probe name and location and
|
|
additional params such as $retval::
|
|
|
|
ret = kretprobe_event_gen_cmd_start(&cmd, "gen_kretprobe_test",
|
|
"do_sys_open", "$retval");
|
|
|
|
Similar to the synthetic event case, code like the following can be
|
|
used to enable the newly created kprobe event::
|
|
|
|
gen_kprobe_test = trace_get_event_file(NULL, "kprobes", "gen_kprobe_test");
|
|
|
|
ret = trace_array_set_clr_event(gen_kprobe_test->tr,
|
|
"kprobes", "gen_kprobe_test", true);
|
|
|
|
Finally, also similar to synthetic events, the following code can be
|
|
used to give the kprobe event file back and delete the event::
|
|
|
|
trace_put_event_file(gen_kprobe_test);
|
|
|
|
ret = kprobe_event_delete("gen_kprobe_test");
|
|
|
|
6.3.4 The "dynevent_cmd" low-level API
|
|
--------------------------------------
|
|
|
|
Both the in-kernel synthetic event and kprobe interfaces are built on
|
|
top of a lower-level "dynevent_cmd" interface. This interface is
|
|
meant to provide the basis for higher-level interfaces such as the
|
|
synthetic and kprobe interfaces, which can be used as examples.
|
|
|
|
The basic idea is simple and amounts to providing a general-purpose
|
|
layer that can be used to generate trace event commands. The
|
|
generated command strings can then be passed to the command-parsing
|
|
and event creation code that already exists in the trace event
|
|
subystem for creating the corresponding trace events.
|
|
|
|
In a nutshell, the way it works is that the higher-level interface
|
|
code creates a struct dynevent_cmd object, then uses a couple
|
|
functions, dynevent_arg_add() and dynevent_arg_pair_add() to build up
|
|
a command string, which finally causes the command to be executed
|
|
using the dynevent_create() function. The details of the interface
|
|
are described below.
|
|
|
|
The first step in building a new command string is to create and
|
|
initialize an instance of a dynevent_cmd. Here, for instance, we
|
|
create a dynevent_cmd on the stack and initialize it::
|
|
|
|
struct dynevent_cmd cmd;
|
|
char *buf;
|
|
int ret;
|
|
|
|
buf = kzalloc(MAX_DYNEVENT_CMD_LEN, GFP_KERNEL);
|
|
|
|
dynevent_cmd_init(cmd, buf, maxlen, DYNEVENT_TYPE_FOO,
|
|
foo_event_run_command);
|
|
|
|
The dynevent_cmd initialization needs to be given a user-specified
|
|
buffer and the length of the buffer (MAX_DYNEVENT_CMD_LEN can be used
|
|
for this purpose - at 2k it's generally too big to be comfortably put
|
|
on the stack, so is dynamically allocated), a dynevent type id, which
|
|
is meant to be used to check that further API calls are for the
|
|
correct command type, and a pointer to an event-specific run_command()
|
|
callback that will be called to actually execute the event-specific
|
|
command function.
|
|
|
|
Once that's done, the command string can by built up by successive
|
|
calls to argument-adding functions.
|
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To add a single argument, define and initialize a struct dynevent_arg
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or struct dynevent_arg_pair object. Here's an example of the simplest
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possible arg addition, which is simply to append the given string as
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a whitespace-separated argument to the command::
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struct dynevent_arg arg;
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dynevent_arg_init(&arg, NULL, 0);
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arg.str = name;
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ret = dynevent_arg_add(cmd, &arg);
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The arg object is first initialized using dynevent_arg_init() and in
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this case the parameters are NULL or 0, which means there's no
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optional sanity-checking function or separator appended to the end of
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the arg.
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Here's another more complicated example using an 'arg pair', which is
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used to create an argument that consists of a couple components added
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together as a unit, for example, a 'type field_name;' arg or a simple
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expression arg e.g. 'flags=%cx'::
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struct dynevent_arg_pair arg_pair;
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dynevent_arg_pair_init(&arg_pair, dynevent_foo_check_arg_fn, 0, ';');
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arg_pair.lhs = type;
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arg_pair.rhs = name;
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ret = dynevent_arg_pair_add(cmd, &arg_pair);
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Again, the arg_pair is first initialized, in this case with a callback
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function used to check the sanity of the args (for example, that
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neither part of the pair is NULL), along with a character to be used
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to add an operator between the pair (here none) and a separator to be
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appended onto the end of the arg pair (here ';').
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There's also a dynevent_str_add() function that can be used to simply
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add a string as-is, with no spaces, delimeters, or arg check.
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Any number of dynevent_*_add() calls can be made to build up the string
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(until its length surpasses cmd->maxlen). When all the arguments have
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been added and the command string is complete, the only thing left to
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do is run the command, which happens by simply calling
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dynevent_create()::
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ret = dynevent_create(&cmd);
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At that point, if the return value is 0, the dynamic event has been
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created and is ready to use.
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See the dynevent_cmd function definitions themselves for the details
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of the API.
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