Merge branch 'tracing-fixes-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/linux-2.6-tip
* 'tracing-fixes-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/linux-2.6-tip: kernel/profile.c: Switch /proc/irq/prof_cpu_mask to seq_file tracing: Export trace_profile_buf symbols tracing/events: use list_for_entry_continue tracing: remove max_tracer_type_len function-graph: use ftrace_graph_funcs directly tracing: Remove markers tracing: Allocate the ftrace event profile buffer dynamically tracing: Factorize the events profile accounting
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Linus Torvalds
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Using the Linux Kernel Markers
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Mathieu Desnoyers
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This document introduces Linux Kernel Markers and their use. It provides
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examples of how to insert markers in the kernel and connect probe functions to
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them and provides some examples of probe functions.
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* Purpose of markers
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A marker placed in code provides a hook to call a function (probe) that you can
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provide at runtime. A marker can be "on" (a probe is connected to it) or "off"
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(no probe is attached). When a marker is "off" it has no effect, except for
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adding a tiny time penalty (checking a condition for a branch) and space
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penalty (adding a few bytes for the function call at the end of the
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instrumented function and adds a data structure in a separate section). When a
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marker is "on", the function you provide is called each time the marker is
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executed, in the execution context of the caller. When the function provided
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ends its execution, it returns to the caller (continuing from the marker site).
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You can put markers at important locations in the code. Markers are
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lightweight hooks that can pass an arbitrary number of parameters,
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described in a printk-like format string, to the attached probe function.
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They can be used for tracing and performance accounting.
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* Usage
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In order to use the macro trace_mark, you should include linux/marker.h.
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#include <linux/marker.h>
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And,
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trace_mark(subsystem_event, "myint %d mystring %s", someint, somestring);
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Where :
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- subsystem_event is an identifier unique to your event
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- subsystem is the name of your subsystem.
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- event is the name of the event to mark.
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- "myint %d mystring %s" is the formatted string for the serializer. "myint" and
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"mystring" are repectively the field names associated with the first and
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second parameter.
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- someint is an integer.
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- somestring is a char pointer.
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Connecting a function (probe) to a marker is done by providing a probe (function
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to call) for the specific marker through marker_probe_register() and can be
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activated by calling marker_arm(). Marker deactivation can be done by calling
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marker_disarm() as many times as marker_arm() has been called. Removing a probe
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is done through marker_probe_unregister(); it will disarm the probe.
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marker_synchronize_unregister() must be called between probe unregistration and
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the first occurrence of
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- the end of module exit function,
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to make sure there is no caller left using the probe;
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- the free of any resource used by the probes,
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to make sure the probes wont be accessing invalid data.
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This, and the fact that preemption is disabled around the probe call, make sure
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that probe removal and module unload are safe. See the "Probe example" section
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below for a sample probe module.
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The marker mechanism supports inserting multiple instances of the same marker.
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Markers can be put in inline functions, inlined static functions, and
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unrolled loops as well as regular functions.
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The naming scheme "subsystem_event" is suggested here as a convention intended
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to limit collisions. Marker names are global to the kernel: they are considered
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as being the same whether they are in the core kernel image or in modules.
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Conflicting format strings for markers with the same name will cause the markers
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to be detected to have a different format string not to be armed and will output
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a printk warning which identifies the inconsistency:
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"Format mismatch for probe probe_name (format), marker (format)"
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Another way to use markers is to simply define the marker without generating any
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function call to actually call into the marker. This is useful in combination
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with tracepoint probes in a scheme like this :
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void probe_tracepoint_name(unsigned int arg1, struct task_struct *tsk);
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DEFINE_MARKER_TP(marker_eventname, tracepoint_name, probe_tracepoint_name,
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"arg1 %u pid %d");
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notrace void probe_tracepoint_name(unsigned int arg1, struct task_struct *tsk)
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{
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struct marker *marker = &GET_MARKER(kernel_irq_entry);
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/* write data to trace buffers ... */
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}
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* Probe / marker example
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See the example provided in samples/markers/src
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Compile them with your kernel.
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Run, as root :
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modprobe marker-example (insmod order is not important)
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modprobe probe-example
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cat /proc/marker-example (returns an expected error)
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rmmod marker-example probe-example
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dmesg
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