c6cb04a463
existing examples to not pass an mbuf as a probe argument. There's no obvious reason to have it there, and it doesn't really jibe with the example added in this revision. MFC after: 1 week
310 lines
10 KiB
Groff
310 lines
10 KiB
Groff
.\" Copyright (c) 2013 Mark Johnston <markj@freebsd.org>
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.\" All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" $FreeBSD$
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.\"
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.Dd August 17, 2013
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.Dt SDT 9
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.Os
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.Sh NAME
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.Nm SDT
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.Nd a DTrace framework for adding statically-defined tracing probes
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.Sh SYNOPSIS
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.In sys/sdt.h
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.Fn SDT_PROVIDER_DECLARE prov
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.Fn SDT_PROVIDER_DEFINE prov
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.Fn SDT_PROBE_DECLARE prov mod func name
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.Fn SDT_PROBE_DEFINE prov mod func name sname
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.Fn SDT_PROBE_DEFINE0 prov mod func name sname
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.Fn SDT_PROBE_DEFINE1 prov mod func name sname arg0
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.Fn SDT_PROBE_DEFINE2 prov mod func name sname arg0 arg1
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.Fn SDT_PROBE_DEFINE3 prov mod func name sname arg0 arg1 arg2
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.Fn SDT_PROBE_DEFINE4 prov mod func name sname arg0 arg1 arg2 arg3
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.Fn SDT_PROBE_DEFINE5 prov mod func name sname arg0 arg1 arg2 arg3 arg4
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.Fn SDT_PROBE_DEFINE6 prov mod func name sname arg0 arg1 arg2 arg3 arg4 arg5
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.Fn SDT_PROBE_DEFINE7 prov mod func name sname arg0 arg1 arg2 arg3 arg4 arg5 \
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arg6
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.Fn SDT_PROBE_DEFINE0_XLATE prov mod func name sname
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.Fn SDT_PROBE_DEFINE1_XLATE prov mod func name sname arg0 xarg0
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.Fn SDT_PROBE_DEFINE2_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1
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.Fn SDT_PROBE_DEFINE3_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1 \
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arg2 xarg2
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.Fn SDT_PROBE_DEFINE4_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1 \
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arg2 xarg2 arg3 xarg3
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.Fn SDT_PROBE_DEFINE5_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1 \
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arg2 xarg2 arg3 xarg3 arg4 xarg4
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.Fn SDT_PROBE_DEFINE6_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1 \
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arg2 xarg2 arg3 xarg3 arg4 xarg4 arg5 xarg5
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.Fn SDT_PROBE_DEFINE7_XLATE prov mod func name sname arg0 xarg0 arg1 xarg1 \
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arg2 xarg2 arg3 xarg3 arg4 xarg4 arg5 xarg5 arg6 xarg6
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.Fn SDT_PROBE0 prov mod func name
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.Fn SDT_PROBE1 prov mod func name arg0
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.Fn SDT_PROBE2 prov mod func name arg0 arg1
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.Fn SDT_PROBE3 prov mod func name arg0 arg1 arg2
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.Fn SDT_PROBE4 prov mod func name arg0 arg1 arg2 arg3
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.Fn SDT_PROBE5 prov mod func name arg0 arg1 arg2 arg3 arg4
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.Fn SDT_PROBE6 prov mod func name arg0 arg1 arg2 arg3 arg4 arg5
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.Fn SDT_PROBE7 prov mod func name arg0 arg1 arg2 arg3 arg4 arg5 arg6
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.Sh DESCRIPTION
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The
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.Nm
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macros allow programmers to define static trace points in kernel code.
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These trace points are used by the
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.Nm
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framework to create DTrace probes, allowing the code to be instrumented
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using
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.Xr dtrace 1 .
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By default,
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.Nm
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trace points are disabled and have no effect on the surrounding code.
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When a DTrace probe corresponding to a given trace point is enabled, threads
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that execute the trace point will call a handler and cause the probe to fire.
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Moreover, trace points can take arguments, making it possible to pass data
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to the DTrace framework when an enabled probe fires.
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.Pp
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Multiple trace points may correspond to a single DTrace probe, allowing
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programmers to create DTrace probes that correspond to logical system events
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rather than tying probes to specific code execution paths.
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For instance, a DTrace probe corresponding to the arrival of an IP packet into
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the network stack may be defined using two
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.Nm
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trace points: one for IPv4 packets and one for IPv6 packets.
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.Pp
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In addition to defining DTrace probes, the
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.Nm
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macros allow programmers to define new DTrace providers, making it possible to
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namespace logically-related probes.
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An example is FreeBSD's sctp provider, which contains
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.Nm
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probes for FreeBSD's
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.Xr sctp 4
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implementation.
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.Pp
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The
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.Fn SDT_PROVIDER_DECLARE
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and
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.Fn SDT_PROVIDER_DEFINE
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macros are used respectively to declare and define a DTrace provider named
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.Ar prov
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with the
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.Nm
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framework.
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A provider need only be defined once; however, the provider must be declared
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before defining any
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.Nm
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probes belonging to that provider.
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.Pp
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Similarly, the
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.Fn SDT_PROBE_DECLARE
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and
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.Fn SDT_PROBE_DEFINE*
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macros are used to declare and define DTrace probes using the
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.Nm
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framework.
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Once a probe has been defined, trace points for that probe may be added to
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kernel code.
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DTrace probe identifiers consist of a provider, module, function and name, all
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of which may be specified in the
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.Nm
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probe definition.
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Note that probes should not specify a module name: the module name of a probe is
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used to determine whether or not it should be destroyed when a kernel module is
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unloaded.
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See the
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.Sx BUGS
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section.
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Note in particular that probes must not be defined across multiple kernel
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modules.
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The
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.Fn SDT_PROBE_DEFINE*
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macros also take an extra
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.Ar sname
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parameter.
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This is used to allow the creation of probes with names containing the
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.Ql -
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character.
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Specifically, the
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.Ar name
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argument should contain the probe name with all dashes converted to underscores,
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and the
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.Ar sname
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argument should be the probe name as it will be referenced by D scripts.
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.Pp
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The
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.Fn SDT_PROBE_DEFINE*
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macros also allow programmers to declare the types of the arguments that are
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passed to probes.
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This is optional; if the argument types are omitted (through use of the
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.Fn SDT_PROBE_DEFINE
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macro), users wishing to make use of the arguments will have to manually cast
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them to the correct types in their D scripts.
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It is strongly recommended that probe definitions include a declaration of their
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argument types.
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.Pp
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The
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.Fn SDT_PROBE_DEFINE*_XLATE
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macros are used for probes whose argument types are to be dynamically translated
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to the types specified by the corresponding
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.Ar xarg
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arguments.
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This is mainly useful when porting probe definitions from other operating
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systems.
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As seen by
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.Xr dtrace 1 ,
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the arguments of a probe defined using these macros will have types which match
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the
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.Ar xarg
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types in the probe definition.
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However, the arguments passed in at the trace point will have types matching the
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native argument types in the probe definition, and thus the native type is
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dynamically translated to the translated type.
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So long as an appropriate translator is defined in
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.Pa /usr/lib/dtrace ,
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scripts making use of the probe need not concern themselves with the underlying
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type of a given
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.Nm
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probe argument.
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.Pp
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The
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.Fn SDT_PROBE*
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macros are used to create
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.Nm
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trace points.
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They are meant to be added to executable code and can be used to instrument the
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code in which they are called.
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.Sh EXAMPLES
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The following probe definition will create a DTrace probe called
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.Ql icmp::unreach:pkt-receive ,
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which would hypothetically be triggered when the kernel receives an ICMP packet
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of type Destination Unreachable:
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.Bd -literal -offset indent
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SDT_PROVIDER_DECLARE(icmp);
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SDT_PROBE_DEFINE1(icmp, , unreach, pkt_receive, pkt-receive,
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"struct icmp *");
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.Ed
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This particular probe would take a single argument: a pointer to the struct
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containing the ICMP header for the packet.
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Note that the module name of this probe is not specified.
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.Pp
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Consider a DTrace probe which fires when the network stack receives an IP
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packet.
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Such a probe would be defined by multiple tracepoints:
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.Bd -literal -offset indent
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SDT_PROBE_DEFINE3(ip, , , receive, receive, "struct ifnet *",
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"struct ip *", "struct ip6_hdr *");
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int
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ip_input(struct mbuf *m)
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{
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struct ip *ip;
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...
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ip = mtod(m, struct ip *);
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SDT_PROBE3(ip, , , receive, m->m_pkthdr.rcvif, ip, NULL);
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...
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}
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int
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ip6_input(struct mbuf *m)
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{
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struct ip6_hdr *ip6;
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...
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ip6 = mtod(m, struct ip6_hdr *);
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SDT_PROBE3(ip, , , receive, m->m_pkthdr.rcvif, NULL, ip6);
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...
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}
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.Ed
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In particular, the probe should fire when the kernel receives either an IPv4
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packet or an IPv6 packet.
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.Pp
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Consider the ICMP probe discussed above.
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We note that its second argument is of type
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.Ar struct icmp ,
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which is a type defined in the FreeBSD kernel to represent the ICMP header of
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an ICMP packet, defined in RFC 792.
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Linux has a corresponding type,
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.Ar struct icmphdr ,
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for the same purpose, but its field names differ from FreeBSD's
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.Ar struct icmp .
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Similarly, illumos defines the
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.Ar icmph_t
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type, again with different field names.
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Even with the
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.Ql icmp:::pkt-receive
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probes defined in all three operating systems,
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one would still have to write OS-specific scripts to extract a given field out
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of the ICMP header argument.
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Dynamically-translated types solve this problem: one can define an
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OS-independent
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.Xr c 7
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struct to represent an ICMP header, say
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.Ar struct icmp_hdr_dt ,
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and define translators from each of the three OS-specific types to
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.Ar struct icmp_hdr_dt ,
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all in the
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.Xr dtrace 1
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library path.
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Then the FreeBSD probe above can be defined with:
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.Bd -literal -offset indent
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SDT_PROBE_DEFINE1_XLATE(ip, , , receive, receive, "struct icmp *",
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"struct icmp_hdr_dt *");
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.Ed
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.Sh SEE ALSO
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.Xr dtrace 1
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.Sh AUTHORS
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.An -nosplit
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DTrace and the
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.Nm
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framework were originally ported to FreeBSD from Solaris by
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.An John Birrell Aq jb@FreeBSD.org .
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This manual page was written by
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.An Mark Johnston Aq markj@FreeBSD.org .
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.Sh BUGS
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The
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.Nm
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macros allow the module name of a probe to be specified as part of a probe
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definition.
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However, the DTrace framework uses the module name of probes to determine
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which probes should be destroyed when a kernel module is unloaded, so the module
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name of a probe should match the name of the module in which its defined.
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.Nm
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will set the module name properly if it is left unspecified in the probe
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definition; see the
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.Sx EXAMPLES
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section.
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.Pp
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One of the goals of the original
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.Nm
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implementation (and by extension, of FreeBSD's port) is that inactive
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.Nm
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probes should have no performance impact.
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This is unfortunately not the case;
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.Nm
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trace points will add a small but non-zero amount of latency to the code
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in which they are defined.
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A more sophisticated implementation of the probes will help alleviate this
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problem.
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