[PATCH v3 2/2] Adding trace documentation

Vidushi Vashishth reachvidu at gmail.com
Wed Jun 13 01:26:57 UTC 2018


I was using Sublime text. It appeared okay on the editor. I have changed my
editor and sent another patch.

Thanks.

On Tue, Jun 12, 2018 at 9:46 PM, Gedare Bloom <gedare at rtems.org> wrote:

> On Tue, Jun 12, 2018 at 11:15 AM, Vidushi Vashishth <reachvidu at gmail.com>
> wrote:
> >
> > Adjusted line length to 79-80
> > ---
> >  user/index.rst                 |   2 +
> >  user/tracing/captureengine.rst | 188 ++++++++++++++++++++++++++
> >  user/tracing/examples.rst      |  12 ++
> >  user/tracing/index.rst         |  33 +++++
> >  user/tracing/introduction.rst  | 184 ++++++++++++++++++++++++++
> >  user/tracing/tracelinker.rst   | 294 ++++++++++++++++++++++++++++++
> +++++++++++
> >  user/tracing/usecases.rst      | 129 ++++++++++++++++++
> >  7 files changed, 842 insertions(+)
> >  create mode 100644 user/tracing/captureengine.rst
> >  create mode 100644 user/tracing/examples.rst
> >  create mode 100644 user/tracing/index.rst
> >  create mode 100644 user/tracing/introduction.rst
> >  create mode 100644 user/tracing/tracelinker.rst
> >  create mode 100644 user/tracing/usecases.rst
> >
> > diff --git a/user/index.rst b/user/index.rst
> > index 8cbcd1b..a764fe8 100644
> > --- a/user/index.rst
> > +++ b/user/index.rst
> > @@ -52,6 +52,8 @@ to the Community Project hosted at
> http://www.rtems.org/.
> >
> >         tools/index
> >
> > +        tracing/index
> > +
> >         support/index
> >
> >         glossary/index
> > diff --git a/user/tracing/captureengine.rst
> b/user/tracing/captureengine.rst
> > new file mode 100644
> > index 0000000..b80d7d0
> > --- /dev/null
> > +++ b/user/tracing/captureengine.rst
> > @@ -0,0 +1,188 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _capturengine:
> > +
> > +Capture Engine
> > +**************
> > +
> > +Capture Engine is a trace tool built inside the RTEMS operating system.
> Capture
> > +Engine
>
> It is not right to just blanket wrap to 80 characters. This one word
> on a line by itself is no good. Many text editors can make the
> wrapping work in a nice way, but I don't know what editor you use. For
> example, I use vim, and text formatting can be done by highlighting
> text in Visual mode and using 'gq' command to reformat.
>
> > +is designed to cause the lowest load on the system when operating.
> Hence it
> > +does not
> > +effect RTEMS when operating or when disabled. It binds to RTEMS at
> runtime and
> > +does not
> > +require RTEMS or your application to be rebuilt in order to use it.
> > +
> > +The Capture Engine's sample testcase for the `sparc/erc32` is available
> in the
> > +"$HOME/development/rtems/kernel/erc32/sparc-rtems5/c/
> erc32/testsuites/samples"
> > +directory,
> > +provided you followed the installation directions of the quickstart
> section. In
> > +order to
> > +access the capture testcase perform the following set of operations.
> > +
> > +.. code-block:: shell
> > +
> > +  $ cd
> > +  $HOME/development/rtems/kernel/erc32/sparc-rtems5/c/
> erc32/testsuites/samples
> > +  $ ../samples
> > +  $ sparc-rtems5-run ./capture.exe
> > +
> > +
> > +  *** BEGIN OF TEST CAPTURE ENGINE ***
> > +  *** TEST VERSION: 5.0.0.de9b7d712bf5da6593386fd4fbca0d5f8b8431d8
> > +  *** TEST STATE: USER_INPUT
> > +  *** TEST BUILD: RTEMS_NETWORKING RTEMS_POSIX_API
> > +  *** TEST TOOLS: 7.3.0 20180125 (RTEMS 5, RSB
> > +  a3a6c34c150a357e57769a26a460c475e188438f, Newlib 3.0.0)
> > +  Press any key to start capture engine (20s remaining)
> > +  Press any key to start capture engine (19s remaining)
> > +  Press any key to start capture engine (18s remaining)
> > +
> > +  Monitor ready, press enter to login.
> > +
> > +  1-rtems $
> > +
> > +Capture Engine comes with a set of commands to perform various actions.
> > +
> > +Capture Engine Commands
> > +-----------------------
> > +
> > +1) ``copen <buffer-size>``: Used to initialize the Capture Engine with
> the
> > +   trace buffer size in bytes. By default the Capture Engine is not
> initialized
> > +   and not running.
> > +
> > +2) ``cwceil <priority-value>``: Capture Engine filter used to put an
> upper
> > +   limit on the event priority to be captured.
> > +
> > +
> > +3) ``cwfloor <priority-value>``: Capture Engine filter used to put a
> lower
> > +   limit on the event priority to be captured.
> > +
> > +
> > +4) ``cwglob <on/off>``: Enable or disable the global watch.
> > +
> > +
> > +5) ``cenable``: Enables the Capture Engine. Capture Engine is by default
> > +   disabled after being opened.
> > +
> > +
> > +6) ``cdisable``: Disables the Capture Engine.
> > +
> > +
> > +7) ``ctlist``: Lists the watch and trigger configurations.
> > +
> > +
> > +8) ``ctrace``: Dumps the recorded traces. By default this command
> displays 24
> > +   trace records. Repeated use of this command will display all the
> recorded
> > +   traces.
> > +
> > +9) ``cwadd <task-name>``: Add watch on a particular task.
> > +
> > +
> > +10) ``cwtctl <task-name> <on/off>``: Enable or disable watch on a
> particular
> > +    task.
> > +
> > +
> > +11) ``ctset``: Used to set a trigger. The general form of the command
> is:
> > +
> > +``ctset [-?] type [to name/id] [from] [from name/id]``
> > +
> > +'type' in the above command refers to the type of trigger needed. The
> types of
> > +triggers that currently exist
> > +are:
> > +
> > +- switch  : a context switch from one task to another task
> > +- create  : the executing task creates a task
> > +- start   : the executing task starts a task
> > +- restart : the executing task restarts a task
> > +- delete  : the executing task deletes a task
> > +- begin   : a task is beginning
> > +- exitted : a task is exitting
> > +
> > +Example
> > +-------
> > +
> > +The following is a sample run of the capture testsuite. The test1
> command on
> > +the Capture Engine Command Line Interface (CLI) makes the 'RMON' task
> invoke
> > +a call to the 'capture_test_1()' command. This function (in the
> > +'test1.c' source code) creates and starts three tasks : 'CT1a', 'CT1b'
> and
> > +'CT1c'. These tasks are passed the object id of a semaphore as a task
> argument.
> > +This run through traces the context switches between these tasks.
> > +``cwceil`` and ``cwfloor`` are set to a narrow range of task priorities
> to
> > +avoid creating noise from a large number of context switches between
> tasks we
> > +are not interested in.
> > +
> > +.. code:: shell
> > +
> > +  *** BEGIN OF TEST CAPTURE ENGINE ***
> > +  *** TEST VERSION: 5.0.0.de9b7d712bf5da6593386fd4fbca0d5f8b8431d8
> > +  *** TEST STATE: USER_INPUT
> > +  *** TEST BUILD: RTEMS_NETWORKING RTEMS_POSIX_API
> > +  *** TEST TOOLS: 7.3.0 20180125 (RTEMS 5, RSB
> > +  a3a6c34c150a357e57769a26a460c475e188438f, Newlib 3.0.0)
> > +  Press any key to start capture engine (20s remaining)
> > +  Press any key to start capture engine (19s remaining)
> > +  Press any key to start capture engine (18s remaining)
> > +  Press any key to start capture engine (17s remaining)
> > +
> > +  Monitor ready, press enter to login.
> > +
> > +  1-rtems $ copen 50000
> > +  capture engine opened.
> > +  1-rtems $ cwceil 100
> > +  watch ceiling is 100.
> > +  1-rtems $ cwfloor 102
> > +  watch floor is 102.
> > +  1-rtems $ cwglob on
> > +  global watch enabled.
> > +  1-rtems $ ctset RMON
> > +  trigger set.
> > +  1-rtems $ cenable
> > +  capture engine enabled.
> > +  1-rtems $ test1
> > +  1-rtems $ cdisable
> > +  capture engine disabled.
> > +  1-rtems $ ctrace
> > +  0 0:18:17.462314124           0a010003 CT1a 102 102 102   4096
> TASK_RECORD
> > +  0 0:18:17.462398963         0 0a010003 CT1a 102 102
>  CREATED
> > +  0 0:18:17.462647987    249024 0a010003 CT1a 102 102
>  STARTED
> > +  0 0:18:17.462904334    256347 0a010003 CT1a 102 102
>  SWITCHED_IN
> > +  0 0:18:17.463069129    164795 0a010003 CT1a 102 102             BEGIN
> > +  0 0:18:17.463335853    266724 0a010003 CT1a 102 102
>  SWITCHED_OUT
> > +  0 0:18:18.461348547           0a010004 CT1b 101 101 101   4096
> TASK_RECORD
> > +  0 0:18:18.461433997 998098144 0a010004 CT1b 101 101
>  CREATED
> > +  0 0:18:18.461683631    249634 0a010004 CT1b 101 101
>  STARTED
> > +  0 0:18:18.461934485    250854 0a010004 CT1b 101 101
>  SWITCHED_IN
> > +  0 0:18:18.462099891    165406 0a010004 CT1b 101 101             BEGIN
> > +  0 0:18:19.460935339 998835448 0a010004 CT1b 101 101
>  SWITCHED_OUT
> > +  0 0:18:19.461431555           0a010005 CT1c 100 100 100   4096
> TASK_RECORD
> > +  0 0:18:19.461516394    581055 0a010005 CT1c 100 100
>  CREATED
> > +  0 0:18:19.461765418    249024 0a010005 CT1c 100 100
>  STARTED
> > +  0 0:18:19.462019324    253906 0a010005 CT1c 100 100
>  SWITCHED_IN
> > +  0 0:18:19.462184119    164795 0a010005 CT1c 100 100             BEGIN
> > +  0 0:18:19.462475257    291138 0a010005 CT1c 100 100
>  SWITCHED_OUT
> > +  0 0:18:19.462551551     76294 0a010004 CT1b 101 101
>  SWITCHED_IN
> > +  0 0:18:19.960935645 498384094 0a010004 CT1b 101 101
>  SWITCHED_OUT
> > +  0 0:18:19.961012549     76904 0a010003 CT1a 102 100
>  SWITCHED_IN
> > +  0 0:18:19.961341528    328979 0a010003 CT1a 102 102
>  SWITCHED_OUT
> > +  1-rtems $ ctrace
> > +  0 0:18:19.961418433         0 0a010005 CT1c 100 100
>  SWITCHED_IN
> > +  0 0:18:19.961672339    253906 0a010005 CT1c 100 100
>  SWITCHED_OUT
> > +  0 0:18:19.961749854     77515 0a010004 CT1b 101 101
>  SWITCHED_IN
> > +  0 0:18:20.460967077 499217223 0a010004 CT1b 101 101
>  SWITCHED_OUT
> > +  0 0:18:20.461219763    252686 0a010005 CT1c 100 100
>  SWITCHED_IN
> > +  0 0:18:20.461424231    204468 0a010005 CT1c 100 100
>  TERMINATED
> > +  0 0:18:20.461747107    322876 0a010005 CT1c 100 100
>  SWITCHED_OUT
> > +  0 0:18:20.461824011     76904 0a010004 CT1b 101 101
>  SWITCHED_IN
> > +  0 0:18:20.462015052    191041 0a010004 CT1b 101 101
>  TERMINATED
> > +  0 0:18:20.462336707    321655 0a010004 CT1b 101 101
>  SWITCHED_OUT
> > +  0 0:18:20.462414222     77515 0a010003 CT1a 102 102
>  SWITCHED_IN
> > +  0 0:18:20.462608924    194702 0a010003 CT1a 102 102
>  TERMINATED
> > +  0 0:18:20.462933021    324097 0a010003 CT1a 102 102
>  SWITCHED_OUT
> > +  1-rtems $ ctrace
> > +  1-rtems $
> > +
> > +
> > diff --git a/user/tracing/examples.rst b/user/tracing/examples.rst
> > new file mode 100644
> > index 0000000..f51613e
> > --- /dev/null
> > +++ b/user/tracing/examples.rst
> > @@ -0,0 +1,12 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _examples:
> > +
> > +Tracing Examples
> > +****************
> > +
> > +[TBD]
> > +
> > diff --git a/user/tracing/index.rst b/user/tracing/index.rst
> > new file mode 100644
> > index 0000000..a879207
> > --- /dev/null
> > +++ b/user/tracing/index.rst
> > @@ -0,0 +1,33 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _tracing-framework:
> > +
> > +RTEMS Tracing Framework
> > +***********************
> > +.. index:: Tracing Framework
> > +
> > +RTEMS Tracing Framework is an on-target software based system which
> helps track
> > +the ongoings inside applications, 3rd party packages, and the kernel in
> real
> > +time.
> > +
> > +Software based tracing is a complex process which requires components
> on both
> > +the
> > +target and the host to work together. However its portability across all
> > +architectures
> > +and board support packages makes it a useful asset. A key requirement
> in RTEMS
> > +trace process
> > +is to take existing code in compiled format (ELF) and instrument it in
> order to
> > +log various events
> > +and records in real time. However instrumenting of the code for tracing
> should
> > +happen without rebuilding
> > +the code from the source and without annotating the source with trace
> code.
> > +
> > +.. toctree::
> > +
> > +   introduction
> > +   usecases
> > +   examples
> > +
> > diff --git a/user/tracing/introduction.rst b/user/tracing/introduction.
> rst
> > new file mode 100644
> > index 0000000..b4925b2
> > --- /dev/null
> > +++ b/user/tracing/introduction.rst
> > @@ -0,0 +1,184 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _introduction:
> > +
> > +Introduction to Tracing
> > +***********************
> > +
> > +Tracing is an important function which has several applications
> including
> > +identification of complex threading, detection of deadlocks, tracing
> > +functions along with their argument values, and return values through
> > +progression of several function calls and audit the performance of an
> > +application according to required specifications.
> > +
> > +RTEMS tracing framework is under development and welcomes contribution
> by users.
> > +
> > +RTEMS has the following trace components:
> > +
> > +- RTEMS :ref:`tracelinker`
> > +- RTEMS :ref:`capturengine`
> > +- Common Trace Format Integration
> > +
> > +
> > +RTEMS trace framework can currently function using the following
> methods. Both
> > +of the methods make use
> > +of the :ref:`tracelinker` :
> > +
> > +.. _tracebuffering:
> > +
> > +RTEMS Trace Using Trace Buffering
> > +=================================
> > +
> > +This scheme of tracing goes through the flow of events described in a
> > +subsequent flowchart:
> > +
> > +Step 1: The user creates an application and user configuration file. The
> > +configuration file specifies the use of the trace buffer generator and
> other
> > +standard initializations. The user then configures her BSP and invokes
> the
> > +trace linker using a command to link the application executable. The
> trace
> > +linker uses the application files in compiled format (ELF) and the
> libraries
> > +used to build the application for performing this link.
> > +
> > +Step 2: The RTEMS Trace Linker reads the user’s configuration file and
> that
> > +results in it reading the standard Trace Buffering Configuration files
> > +installed with the RTEMS Trace Linker. The trace linker uses the target
> > +compiler and linker to create the trace enabled application executable.
> It
> > +wraps the functions defined in the user’s configuration with code that
> captures
> > +trace records into the statically allocated buffer. The trace wrapper
> code is
> > +compiled with the target compiler and the resulting ELF object file is
> added
> > +to the standard link command line used to link the application and the
> > +application is re-linked using the wrapping option of the GNU linker.
> > +
> > +Step 3: The trace linker creates an executable which is capable of
> running on
> > +the target hardware or simulator.
> > +
> > +Step 4: RTEMS shell provides the “rtrace” command to display and save
> trace
> > +buffers.
> > +
> > +.. comment: taken from https://devel.rtems.org/wiki/Developer/Tracing
> > +.. figure:: ../../images/user/rtems-trace-buffering.png
> > +  :align: center
> > +  :width: 75%
> > +
> > +
> > +.. _printk:
> > +
> > +RTEMS Trace Using Printk
> > +========================
> > +
> > +This scheme of tracing goes through the flow of events described in a
> > +subsequent flowchart:
> > +
> > +Step 1: The user creates an RTEMS application in the normal manner as
> well as
> > +a Trace Linker configuration file. The configuration file specifies
> using the
> > +Printk trace mode and the functions to trace. The user invokes the
> Trace Linker
> > +with the configuration and the normal link command line used to the
> link the
> > +application executable. The application ELF object files and libraries,
> > +including the RTEMS libraries are standard and do not need to be built
> specially.
> > +
> > +Step 2: The RTEMS Trace Linker reads the user's configuration file and
> that
> > +results in it reading the standard Printk Trace Configuration files
> installed
> > +with the RTEMS Trace Linker. The trace linker uses the target compiler
> > +and linker to create the trace enabled application executable. It wraps
> the
> > +functions defined in the user's configuration with code that prints the
> entry
> > +with arguments and exit and return value if any. The trace wrapper code
> is
> > +compiled with the target compiler and the resulting ELF object file is
> added
> > +to the standard link command line used to link the application and the
> > +application is relinked using the wrapping option of the GNU linker.
> > +
> > +Step 3: The trace linker creates and RTEMS ELF executable that can be
> run on
> > +the target hardware or simulator.
> > +
> > +Step 4: The application is run in the hardware directly or using a
> debugger.
> > +The printk() output appears on the target console and the user can save
> that
> > +to a file.
> > +
> > +.. comment: taken from https://devel.rtems.org/wiki/Developer/Tracing
> > +.. figure:: ../../images/user/rtems-trace-printk.png
> > +  :align: center
> > +  :width: 75%
> > +
> > +The :ref:`examples` section describes generation of traces using both
> of the
> > +aforementioned techniques using the `fileio` testsuite available with
> RTEMS
> > +installation.
> > +
> > +RTEMS Trace Using CTF
> > +=====================
> > +
> > +`Common Trace Format <http://diamon.org/ctf/>`_ (CTF) is a binary
> trace format
> > +which is fast to write and has great flexibility. It allows traces to be
> > +developed by bare-metal applications or by any other C/C++ system. RTEMS
> > +tracing framework can benefit from these features of CTF.
> > +
> > +A typical CTF *trace* consists of multiple *streams* of binary
> *events*. The
> > +*metadata* stream is a mandatory stream which describes the layout of
> all the
> > +other streams in a trace. This metadata stream is written using *Trace
> Stream
> > +Description Language* (TSDL).
> > +
> > +.. comment: image taken from view-source:http://diamon.org/
> ctf/img/ctf-trace.png
> > +.. comment: Not generating a copyright in the high chance we decide to
> not keep
> > +.. comment: a descriptive section on CTF
> > +
> > +.. figure:: ../../images/user/ctf-trace.png
> > +  :align: center
> > +  :width: 75%
> > +
> > +A binary *stream* is further a concatenation of several packets each
> containing
> > +the following:
> > +
> > +- A packet header
> > +- An optional packet context
> > +- A set of concatenated events each containing:
> > + - An event header
> > + - A stream-specific context
> > + - An event-specific context
> > + - A payload
> > +
> > +.. comment: taken from http://diamon.org/ctf/img/ctf-stream-packet.png
> > +.. comment: Not generating a copyright in the high chance we decide to
> not keep
> > +.. comment: a descriptive section on CTF
> > +
> > +.. figure:: ../../images/user/ctf-stream-packet.png
> > +  :align: center
> > +  :width: 75%
> > +
> > +All the headers, contexts and payloads are written in TSDL using CTF
> data
> > +types. CTF supports a rich set of configurable datatypes which makes it
> > +possible to describe a larger variety of binary structure. Moreover
> types
> > +in CTF are organized as type classes where type specifications can be
> inherited
> > +to allow deriving types. These factors make CTF flexible. CTF enables
> fast
> > +writing of binary data as it usually involves appending memory contents,
> > +as it is to a binary CTF stream. CTF streams are capable of being sent
> or
> > +received over the network without any data being written to disk and
> hence
> > +can be useful in transporting traces from the target to the host
> machine for
> > +analysis.
> > +
> > +Due to these advantages tracing using CTF will prove to be beneficial
> for the
> > +users. This method of tracing is currently under development. Currently
> the
> > +RTEMS tracing framework is able to output trace data in the form of
> trace buffers,
> > +console output and csv files. A conversion tool which transforms these
> trace
> > +output formats to CTF will be viable approach to generating CTF traces.
> In this
> > +regard we utilize babeltrace, which is described in the following
> section.
> > +
> > +Babeltrace
> > +----------
> > +
> > +Babeltrace is an open source trace format converter which can be used to
> > +convert RTEMS traces into CTF. It is also a reference parser
> implementation
> > +of CTF. Babeltrace currently supports the following output formats for
> traces:
> > +
> > +- Text
> > +- CTF
> > +- CTF-metadata
> > +- Dummy
> > +- lttng-live
> > +
> > +Babeltrace comes in the form of a library, python bindings (python3) and
> > +command line tool called ``babeltrace``. To install babeltrace on your
> host
> > +you can install a distribution package or build from source using
> tarballs or
> > +git repositories of babeltrace. Refer to http://diamon.org/babeltrace/
> for
> > +further details.
> > +
> > diff --git a/user/tracing/tracelinker.rst b/user/tracing/tracelinker.rst
> > new file mode 100644
> > index 0000000..4bef4e5
> > --- /dev/null
> > +++ b/user/tracing/tracelinker.rst
> > @@ -0,0 +1,294 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _tracelinker:
> > +
> > +Trace Linker
> > +************
> > +
> > +RTEMS trace linker is a post link tool central to the RTEMS trace
> framework. It
> > +is installed as a part of the RTEMS Tool Project.The RTEMS Trace Linker
> is a
> > +post link tool that performs a re-link of your application to produce a
> trace
> > +executable. A trace executable has been instrumented by the RTEMS Trace
> Linker
> > +with additional code that implements software tracing. A key
> requirement of the
> > +trace process in RTEMS is to take existing code in a compiled format
> (ELF) and
> > +instrument it without rebuilding that code from source and without
> annotating
> > +that source with trace code.
> > +
> > +
> > +Command Line
> > +============
> > +
> > +A typical command to invoke the trace linker consists of two parts
> separated by
> > +``--``.  The first part controls the trace linker and provides the
> various
> > +options it needs and the second part is a standard linker command line
> you would
> > +use to link an RTEMS application. The current command line for trace
> linker
> > +consists of:
> > +
> > +.. code-block:: shell
> > +
> > +  $ rtems-tld -h
> > +  rtems-trace-ld [options] objects
> > +  Options and arguments:
> > +   -h          : help (also --help)
> > +   -V          : print linker version number and exit (also --version)
> > +   -v          : verbose (trace import parts), can supply multiple times
> > +                 to increase verbosity (also --verbose)
> > +   -w          : generate warnings (also --warn)
> > +   -k          : keep temporary files (also --keep)
> > +   -c compiler : target compiler is not standard (also --compiler)
> > +   -l linker   : target linker is not standard (also --linker)
> > +   -E prefix   : the RTEMS tool prefix (also --exec-prefix)
> > +   -f cflags   : C compiler flags (also --cflags)
> > +   -r path     : RTEMS path (also --rtems)
> > +   -B bsp      : RTEMS arch/bsp (also --rtems-bsp)
> > +   -W wrapper  : wrapper file name without ext (also --wrapper)
> > +   -C ini      : user configuration INI file (also --config)
> > +   -P path     : user configuration INI file search path (also --path)
> > +
> > +The trace linker generates code that needs to be compiled and linked to
> the
> > +application executable so it needs to know the target compiler and
> `CFLAGS`.
> > +There are a couple of ways to do this. The simplest is to provide the
> path to
> > +RTEMS using the `-r` option and the architecture and BSP name in the
> standard
> > +RTEMS format of arch/bsp. The trace linker will extract the compiler
> and flags
> > +used to build RTEMS and will use them. If you require specific options
> you can
> > +use the `-f`, `-c`, `-l` and `-E` options to provide them. If the
> functions
> > +you are tracing use types from your code then add the include path to
> the
> > +`CFLAGS`.
> > +
> > +The trace linker requires you to provide a user configuration file
> using the
> > +`-C` or ``--config`` option. This is an INI format file detailed in the
> > +Configuration section. You can also provide an INI file search path
> using the
> > +`-P` option.
> > +
> > +If you are working with new configuration files and you want to view
> the files
> > +the trace linker generates add the `-k` option to keep the temporary
> files, and
> > +`-W` to specify an explicit wrapper C file name. If you set the
> ``dump-on-error``
> > +option in the configuration options section you will get a dump of the
> > +configuration on an error.
> > +
> > +
> > +Configuration (INI) files
> > +=========================
> > +
> > +The Trace Linker is controlled using configuration files. Configuration
> files
> > +are categorized into 3 types:
> > +
> > +- User Configuration: These are specific to the user application to be
> traced.
> > +  This file initializes the values of the trace generator, triggers,
> enables and
> > +  traces.
> > +
> > +- Tracer Configuration: These are like a library of common or base trace
> > +  functions that can be referenced by an application. These files tend
> to hold
> > +  the details needed to wrap a specific set of functions. Examples
> provided with
> > +  the RTEMS Linker are the RTEMS API and Libc.
> > +
> > +- Generator Configuration: This is used to encapsulate a specific
> method of
> > +  tracing. Rtems currently provides generators for trace buffering,
> printk and
> > +  printf.
> > +
> > +The configuration files are in the *INI file format* which is composed
> of
> > +`sections`. Each section has a section name and set of *keys* which
> consist
> > +of *names* and *values*. A typical key is of the form ``name=value``.
> Keys
> > +can be used to include other INI files using the include key name. This
> is
> > +shown in the following example where the values indicate rtems and
> rtld-base
> > +configuration files:
> > +
> > +.. code-block::shell
> > +  include = rtems.ini, rtld-base.ini
> > +
> > +The trace linker also uses values in keys to specify other sections. In
> this
> > +example the functions name
> > +lists test-trace-funcs and that section contains a headers key that
> references
> > +a further section test-headers:
> > +
> > +.. code-block::shell
> > +  functions = test-trace-funcs, rtems-api
> > +
> > +  [test-trace-funcs]
> > +  ; Parsed via the 'function-set', not parse as a 'trace'.
> > +  headers = test-headers
> > +
> > +  [test-headers]
> > +  header = '#include "test-trace-1.h"'
> > +
> > +The format of a configuration file is explained next. Snippets of the
> > +fileio-trace.ini file have been used for explicit understanding. This
> file can
> > +be downloaded from `here
> > +<https://devel.rtems.org/attachment/wiki/Developer/
> Tracing/Trace_Buffering/filei
> > +o-trace.ini>`_.
> > +
> > +Tracer Section
> > +--------------
> > +
> > +The topmost level section is the ``tracer`` section. It can contains the
> > +following keys:
> > +
> > +- name: The name of trace being linked.
> > +
> > +- options: A list of option sections.
> > +
> > +- defines: A list of sections containing defines or define record.
> > +
> > +- define: A list of define string that are single or double quoted.
> > +
> > +- enables: The list of sections containing enabled functions to trace.
> > +
> > +- triggers: The list of sections containing enabled functions to
> trigger trace
> > +  on.
> > +
> > +- traces: The list of sections containing function lists to trace.
> > +
> > +- functions: The list of sections containing function details.
> > +
> > +- include: The list of files to include
> > +
> > +
> > +.. code-block:: shell
> > +  [tracer]
> > +  name = File IO tracer
> > +  ;
> > +  ; The configuration
> > +  ;
> > +  options = fileio-options
> > +  traces = fileio
> > +  defines = fileio
> > +  enables = fileio
> > +  triggers = fileio
> > +  functions = fileio-funcs, rtems-api, rtems-posix, libc-heap
> > +  include = rtems.ini, rtld-base.ini, rtld-trace-buffer.ini,
> libc-heap.ini
> > +
> > +
> > +Options section
> > +---------------
> > +
> > +The options section in the fileio-trace.ini is called the
> `fileio-options`. A
> > +general options section can contain following sets of keys:
> > +
> > +- dump-on-error: Dump the parsed configuration data on error. The value
> can be
> > +  true or false.
> > +
> > +- verbose: Set the verbose level. The value can be true or a number
> value.
> > +
> > +- prefix: The prefix for the tools and an install RTEMS if rtems-path
> is not
> > +  set.
> > +
> > +- cc: The compiler used to compile the generated wrapper code.
> Overrides the
> > +  BSP configuration value if a BSP
> > +  is specified.
> > +
> > +- ld: The linker used to link the application. The default is the cc
> value as
> > +  read from the BSP configuration
> > +  if specificed. If your application contains C++ code use this setting
> to the
> > +  change the linker to g++.
> > +
> > +- cflags: Set the CFLAGS used to compiler the wrapper. These flags are
> > +  pre-pended to the BSP read flags if a BSP
> > +  is specified. This option is used to provide extra include paths to
> header
> > +  files in your application that contain
> > +  types any functions being traced reference.
> > +
> > +- rtems-path: The path to an install RTEMS if not installed under the
> prefix.
> > +
> > +- rtems-bsp: The BSP we are building the trace executable for. The is
> an arch
> > +  and bsp pair. For example sparc/erc32.
> > +
> > +.. code-block:: shell
> > +
> > +  [fileio-options]
> > +  dump-on-error = true
> > +  ;
> > +  ; Tools
> > +  ;
> > +  prefix = /development/rtems/5
> > +  rtems-path = /development/rtems/kernel/5
> > +  rtems-bsp = sparc/erc32
> > +  ;
> > +  ; Generator options.
> > +  ;
> > +  gen-enables = enable
> > +  gen-triggers = enable
> > +
> > +
> > +Trace Section
> > +--------------
> > +
> > +A trace section defines how trace wrapper functions are built. To build
> a trace
> > +function that wraps an existing function in an ELF object file or
> library archive
> > +we need to have the function's signature. A signature is the function's
> declaration
> > +with any types used. The the signature has specific types we need
> access to those
> > +types which means the wrapper code needs to include header files that
> define those
> > +types. There may also be specific defines needed to access those types.
> > +
> > +- generator: The generator defines the type of tracing being used.
> > +
> > +- headers: List of sections that contain header files keys.
> > +
> > +- header: A header key. Typically the include code.
> > +
> > +- defines: List of sections that contain defines.
> > +
> > +- define: A define key. Typically the define code.
> > +
> > +- signatures: List of function signature sections.
> > +
> > +- trace: Functions that are instrumented with trace code.
> > +
> > +
> > +[TBD]
> > +
> > +
> > +Function Wrapping
> > +=================
> > +
> > +The trace linker's major role is to wrap functions in the existing
> executable
> > +with trace code. The directions on how to wrap application functions is
> > +provided by the generator configuration. The wrapping function uses a
> > +GNU linker option called --wrap=symbol. The GNU Ld manual states:
> > +
> > +"Use a wrapper function for symbol. Any undefined reference to symbol
> will be
> > +resolved to __wrap_symbol. Any undefined reference to __real_symbol
> will be
> > +resolved to symbol."
> > +
> > +The trace linker generates C code with a wrapper for each function to be
> > +instrumented. The trace code generated is driven by the configuration
> INI
> > +files.
> > +
> > +
> > +Function Signatures
> > +===================
> > +
> > +A function signature is the function's declaration. It is the name of
> the
> > +function, the return value and the arguments. Tracing using function
> > +wrappers requires that we have accurate function signatures and ideally
> > +we would like to determine the function signature from the data held in
> > +ELF files. ELF files can contain DWARF data, the ELF debugging data
> format.
> > +In time the trace project would like to support libdwarf so the DWARF
> data
> > +can be accessed and use to determine a function's signature. This work
> is
> > +planned but not scheduled to be done and so in the meantime we
> explicitly
> > +define the function signatures in the configuration files.
> > +
> > +
> > +Development
> > +===========
> > +
> > +The Trace Linker is part of the RTEMS tools git repository available at
> :
> > +https://git.rtems.org/rtems-tools
> > +The RTEMS tools project utilizes the waf build system. Use the following
> > +commands in the topmost build directory to build the tools project:
> > +
> > +First we configure using:
> > +
> > +.. code-block:: shell
> > +
> > +  $./waf configure --prefix=$HOME/development/rtems/5
> > +
> > +Then we build and install using:
> > +
> > +.. code-block:: shell
> > +
> > +  $./waf build install
> > +
> > +
> > diff --git a/user/tracing/usecases.rst b/user/tracing/usecases.rst
> > new file mode 100644
> > index 0000000..20ce43d
> > --- /dev/null
> > +++ b/user/tracing/usecases.rst
> > @@ -0,0 +1,129 @@
> > +.. comment SPDX-License-Identifier: CC-BY-SA-4.0
> > +
> > +.. comment: Copyright (c) 2016 Chris Johns <chrisj at rtems.org>
> > +.. comment: All rights reserved.
> > +
> > +.. _usecases:
> > +
> > +Tracing Use Cases
> > +*****************
> > +
> > +Following are the use cases of the tracing framework that are currently
> under
> > +development:
> > +
> > +Function Tracing
> > +================
> > +
> > +Tracing the entry and exit of a function as well as the values of the
> arguments
> > +and
> > +return values can prove to be an important application for the tracing
> > +framework.
> > +
> > +Objective
> > +---------
> > +
> > +This use case can prove to be helpful in debugging of applications for
> the
> > +users. It can also
> > +be used to understand the working of existing application code bases.
> Capturing
> > +of argument and
> > +return values maybe useful in tracking unexpected output results from
> the
> > +applications.
> > +
> > +Requirements
> > +------------
> > +
> > +The current tracing framework provides this functionality with
> > +:ref:`tracebuffering`. The output is
> > +provided in the form of printing on console or saving the buffer in the
> form of
> > +a bin file. In order to
> > +develop this use case using CTF we need to be able to convert this
> RTEMS trace
> > +output into CTF. This could
> > +be done using babeltrace. The converted CTF traces would then be sent
> over to
> > +the host using a transport
> > +mechanism.
> > +
> > +Example
> > +-------
> > +
> > +As a start to the development of function tracing using CTF we can work
> on the
> > +fileio
> > +sample testsuite and trace all the calls to malloc, calloc, free and
> realloc
> > +functions.
> > +Along with the calls made to these functions the trace must also
> capture the
> > +values of
> > +their arguments at entry and the return values at function exit. As an
> example
> > +of an application
> > +having the following progression of function calls:
> > +
> > +.. code-block:: c
> > +
> > +  #include <stdlib.h>
> > +  int main(int argc, char** argv)
> > +  {
> > +    int* a = malloc(sizeof(int));
> > +    free(a);
> > +    a = calloc(1, sizeof(int));
> > +    return 0;
> > +  }
> > +
> > +
> > +The trace of such an application must be output of the following kind:
> > +
> > +.. code-block:: shell
> > +
> > +  Timestamp1    entry of malloc > argument value
> > +  Timestamp2    exit of malloc < return value
> > +  Timestamp3    entry of free > argument value
> > +  Timestamp4    exit of free < return value (null)
> > +  Timestamp5    entry of calloc > argument1 value, argument2 value
> > +  Timestamp6    exit of calloc < return value1
> > +
> > +There could be additional columns of details including current
> priority, task
> > +state etc.
> > +
> > +
> > +Tracing Thread Operations
> > +=========================
> > +
> > +Tracing thread creation, switching and termination operation in a
> thread's
> > +lifetime within an application.
> > +
> > +Objective
> > +---------
> > +
> > +Real time applications inherently utilize parallel programming which
> entails
> > +several
> > +tasks executing simultaneously and competing for common resources. On
> single
> > +processor systems
> > +the CPU performs context switching between each of these tasks rapidly.
> By
> > +tracing the creation and
> > +termination of tasks as well as the context switches between them one
> can
> > +possibly identify probable race
> > +conditions or complex threading operations.
> > +
> > +Requirements
> > +------------
> > +
> > +[TBD]
> > +
> > +Example
> > +-------
> > +
> > +A sample trace tracking two tasks Ta and Tb could have an output of the
> > +following kind:
> > +
> > +.. code-block:: shell
> > +
> > +  Timestamp1 taskid Ta CREATED
> > +  Timestamp1 taskid Ta SWITCHED-IN
> > +  Timestamp1 taskid Ta BEGIN
> > +  Timestamp1 taskid Tb CREATED
> > +  Timestamp1 taskid Ta SWITCHED-OUT
> > +  Timestamp1 taskid Tb SWITCHED-IN
> > +  Timestamp1 taskid Tb BEGIN
> > +  Timestamp1 taskid Tb SWITCHED-OUT
> > +  Timestamp1 taskid Tb TERMINATED
> > +  Timestamp1 taskid Ta SWITCHED-IN
> > +  Timestamp1 taskid Ta SWITCHED-OUT
> > +  Timestamp1 taskid Ta TERMINATED
> > +
> > --
> > 2.7.4
> >
> > _______________________________________________
> > devel mailing list
> > devel at rtems.org
> > http://lists.rtems.org/mailman/listinfo/devel
>
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