Removed white spaces
---
 user/index.rst                 |   2 +
 user/tracing/captureengine.rst | 169 ++++++++++++++
 user/tracing/examples.rst      | 183 +++++++++++++++
 user/tracing/index.rst         |  29 +++
 user/tracing/introduction.rst  | 104 +++++++++
 user/tracing/tracelinker.rst   | 498 +++++++++++++++++++++++++++++++++++++++++
 6 files changed, 985 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

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..f2389af
--- /dev/null
+++ b/user/tracing/captureengine.rst
@@ -0,0 +1,169 @@
+.. comment SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. comment: Copyright (c) 2016 Chris Johns <chr...@rtems.org>
+.. comment: All rights reserved.
+
+.. _capturengine:
+
+Capture Engine
+**************
+
+Capture Engine is a trace tool built inside the RTEMS operating system. Capture
+Engine 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
+build directory created when building RTEMS in the path
+file: `sparc-rtems5/c/erc32/testsuites/samples` directory.
+In order to access the capture testcase perform the following set of
+operations inside the RTEMS build directory.
+
+.. code-block:: shell
+
+  $ cd /sparc-rtems5/c/erc32/testsuites/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..899a8d3
--- /dev/null
+++ b/user/tracing/examples.rst
@@ -0,0 +1,183 @@
+.. comment SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. comment: Copyright (c) 2016 Chris Johns <chr...@rtems.org>
+.. comment: All rights reserved.
+
+.. _examples:
+
+Tracing Examples
+****************
+
+The following example executes RTEMS trace using trace buffering for the
+`fileio` sample testcase.
+
+Prerequisites
+-------------
+
+1. Setup RTEMS for the `sparc/erc32` architecture-bsp pair to run the
+   following example.
+2. Download the fileio `configuration file <https://devel.rtems.org/attachment
+   /wiki/Developer/Tracing/Trace_Buffering/fileio-trace.ini>`_ and store it on
+   the top of the installed BSP's directory.
+3. Change the value of the keys: `rtems-path` and `prefix` according to your
+   rtems installation. The `rtems-path` is the path to the bsp installation
+   and `prefix` is the path to the tools used to build rtems. Also set the
+   value of the `rtems-bsp` key to `sparc/erc32`.
+
+Demonstration
+-------------
+
+Inside the RTEMS build directory (the directory where the fileio configuration
+has been stored) run the following commands to generate traces:
+
+BSP is configured with the following command -
+
+.. code:: shell
+
+  ../rtems/configure --target=sparc-rtems5 --prefix=/development/rtems/5 \
+  --enable-networking --enable-tests --enable-rtemsbsp=erc32 --enable-cxx
+
+The next two commands are used to link the fileio executable.The `-B` option
+signifies the use of the complete path to the required directory or file. Write
+the full path instead of the path file: `sparc-rtems5/erc32/lib/` in the
+following commands according to your installation. Also confirm the path of the
+fileio’s executable and object files in the last line of the command according
+to your installation.
+
+.. code:: shell
+
+  sparc-rtems5-gcc -Bsparc-rtems5/erc32/lib/ \
+  -specs bsp_specs -qrtems -mcpu=cypress -O2 -g -ffunction-sections \
+  -fdata-sections -Wall -Wmissing-prototypes -Wimplicit-function-declaration \
+  -Wstrict-prototypes -Wnested-externs -Wl,--gc-sections -mcpu=cypress \
+  -o sparc-rtems5/c/erc32/testsuites/samples/fileio.exe sparc-rtems5/c/erc32/\
+  testsuites/samples/fileio/fileio-init.o
+
+This is the trace linker command to generate and compile the wrapper c file for
+the application. The link command follows the escape sequence "--". "-C" option
+denotes the name of the user configuration file and "-W" specifies the name of
+the wrapper c file.
+
+.. code:: shell
+
+  rtems-tld -C fileio-trace.ini -W fileio-wrapper -- -Bsparc-rtems5/erc32/lib/ 
\
+  -specs bsp_specs -qrtems -mcpu=cypress -O2 -g -ffunction-sections \
+  -fdata-sections -Wall -Wmissing-prototypes -Wimplicit-function-declaration \
+  -Wstrict-prototypes -Wnested-externs -Wl,--gc-sections -mcpu=cypress \
+  -o sparc-rtems5/c/erc32/testsuites/samples/fileio.exe sparc-rtems5/c/erc32/\
+  testsuites/samples/fileio/fileio-init.o
+
+The following command is used to run the application. Hit enter key quickly and
+type "s" and "root" and "pwd" to run the rtems shell. Use the `rtrace status`,
+`rtrace trace` and `rtrace save` commands to know the status of the tracing,
+display the contents of the trace buffer and save the buffer to disk in the 
form
+of binary files.
+
+.. code:: shell
+
+  sparc-rtems5-run sparc-rtems5/c/erc32/testsuites/samples/fileio.exe
+
+The output from the above commands will be as follows:
+
+.. code:: shell
+
+  *** BEGIN OF TEST FILE I/O ***
+  *** 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 file I/O sample (20s remaining)
+  Press any key to start file I/O sample (19s remaining)
+  Press any key to start file I/O sample (18s remaining)
+  Press any key to start file I/O sample (17s remaining)
+  Press any key to start file I/O sample (16s remaining)
+  Press any key to start file I/O sample (15s remaining)
+  Press any key to start file I/O sample (14s remaining)
+   =========================
+   RTEMS FILE I/O Test Menu
+   =========================
+     p -> part_table_initialize
+     f -> mount all disks in fs_table
+     l -> list  file
+     r -> read  file
+     w -> write file
+     s -> start shell
+     Enter your selection ==>s
+  Creating /etc/passwd and group with four useable accounts:
+    root/pwd
+    test/pwd
+    rtems/NO PASSWORD
+    chroot/NO PASSWORD
+  Only the root user has access to all available commands.
+   =========================
+     starting shell
+   =========================
+
+  Welcome to rtems-5.0.0 (SPARC/w/FPU/erc32)
+  COPYRIGHT (c) 1989-2008.
+  On-Line Applications Research Corporation (OAR).
+
+  Login into RTEMS
+  /dev/foobar login: root
+  Password:
+
+  RTEMS Shell on /dev/foobar. Use 'help' to list commands.
+  SHLL [/] # rtrace status
+  RTEMS Trace Bufferring: status
+     Running:  yes
+   Triggered:  yes
+       Level:   0%
+      Traces:   25
+  SHLL [/] # rtrace stop
+  RTEMS Trace Bufferring: stop
+  SHLL [/] # rtrace trace
+  RTEMS Trace Bufferring: trace
+   Trace buffer: 0x20921d8
+   Words traced: 1487
+         Traces: 25
+    0:00:40.983197010  2081910  0a010002 [  2/  2] > malloc((size_t) 00000130)
+    0:00:40.983333119   136109  0a010002 [  2/  2] < malloc => (void*) 
0x219bb88
+    0:00:40.983471669   138550  0a010002 [  2/  2] > malloc((size_t) 00000006)
+    0:00:40.983606557   134888  0a010002 [  2/  2] < malloc => (void*) 
0x219bcc0
+    0:00:40.983684682    78125  0a010002 [  2/  2] > malloc((size_t) 00000007)
+    0:00:40.983819569   134887  0a010002 [  2/  2] < malloc => (void*) 
0x219bcd0
+    0:00:40.983909901    90332  0a010002 [  2/  2] > malloc((size_t) 000003fc)
+    0:00:40.984046620   136719  0a010002 [  2/  2] < malloc => (void*) 
0x219bce0
+    0:00:40.986624137  2577517  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.986767569   143432  0a010003 [200/200] < malloc => (void*) 
0x219bce0
+    0:00:40.987531119   763550  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 0000005d)
+    0:00:40.987603751    72632  0a010003 [200/200] > malloc((size_t) 0000005d)
+    0:00:40.987744743   140992  0a010003 [200/200] < malloc => (void*) 
0x219bce0
+    0:00:40.987824699    79956  0a010003 [200/200] < calloc => (void*) 
0x219bce0
+    0:00:40.988302604   477905  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.988446647   144043  0a010003 [200/200] < malloc => (void*) 
0x219bd48
+    0:00:40.988667595   220948  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 00000080)
+    0:00:40.988740837    73242  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.988884880   144043  0a010003 [200/200] < malloc => (void*) 
0x219bdd0
+    0:00:40.988964836    79956  0a010003 [200/200] < calloc => (void*) 
0x219bdd0
+    0:00:40.989042961    78125  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 00000080)
+    0:00:40.989110100    67139  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.989254143   144043  0a010003 [200/200] < malloc => (void*) 
0x219be58
+    0:00:40.989334099    79956  0a010003 [200/200] < calloc => (void*) 
0x219be58
+    0:00:40.990118401   784302  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 00000061)
+    0:00:40.990176995    58594  0a010003 [200/200] > malloc((size_t) 00000061)
+    0:00:40.990309441   132446  0a010003 [200/200] < malloc => (void*) 
0x219bd48
+    0:00:40.990384515    75074  0a010003 [200/200] < calloc => (void*) 
0x219bd48
+    0:00:40.990870355   485840  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.991011346   140991  0a010003 [200/200] < malloc => (void*) 
0x219bee0
+    0:00:40.991227411   216065  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 00000080)
+    0:00:40.991296380    68969  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.991438593   142213  0a010003 [200/200] < malloc => (void*) 
0x219bf68
+    0:00:40.991514276    75683  0a010003 [200/200] < calloc => (void*) 
0x219bf68
+    0:00:40.991589349    75073  0a010003 [200/200] > calloc((size_t) 00000001, 
(size_t) 00000080)
+    0:00:40.991653437    64088  0a010003 [200/200] > malloc((size_t) 00000080)
+    0:00:40.991794428   140991  0a010003 [200/200] < malloc => (void*) 
0x219bff0
+    0:00:40.991871332    76904  0a010003 [200/200] < calloc => (void*) 
0x219bff0
+    0:00:40.992283320   411988  0a010003 [200/200] > malloc((size_t) 00000008)
+  SHLL [/] # rtrace save fileio-trace.bin
+  RTEMS Trace Bufferring: trace
+     Trace File: fileio-trace.bin
+   Trace buffer: 0x20921d8
+   Words traced: 1487
+         Traces: 25
+  SHLL [/] #
diff --git a/user/tracing/index.rst b/user/tracing/index.rst
new file mode 100644
index 0000000..0d714bc
--- /dev/null
+++ b/user/tracing/index.rst
@@ -0,0 +1,29 @@
+.. comment SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. comment: Copyright (c) 2016 Chris Johns <chr...@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 the operation of 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
+   examples
+   captureengine
+   tracelinker
diff --git a/user/tracing/introduction.rst b/user/tracing/introduction.rst
new file mode 100644
index 0000000..08f02c6
--- /dev/null
+++ b/user/tracing/introduction.rst
@@ -0,0 +1,104 @@
+.. comment SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. comment: Copyright (c) 2016 Chris Johns <chr...@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 their 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.
diff --git a/user/tracing/tracelinker.rst b/user/tracing/tracelinker.rst
new file mode 100644
index 0000000..9e07113
--- /dev/null
+++ b/user/tracing/tracelinker.rst
@@ -0,0 +1,498 @@
+.. comment SPDX-License-Identifier: CC-BY-SA-4.0
+
+.. comment: Copyright (c) 2016 Chris Johns <chr...@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 further references a section called `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 file:
+`test-trace.ini` have been used for explicit understanding. This file can
+be found in the rtems-tools directory of the rtems installation.
+
+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.
+
+The tracer section of the file:`test-trace.ini` is shown below with explanatory
+comments.
+
+.. code-block:: shell
+
+  ;
+  ; RTEMS Trace Linker Test Configuration.
+  ;
+  ; We must provide a top level trace section.
+  ;
+  [tracer]
+  ;
+  ; Name of the trace.
+  ;
+  name = RTEMS Trace Linker Test
+  ;
+  ; The BSP.
+  ;
+  bsp = sparc/sis
+  ;
+  ; Functions to trace.
+  ;
+  traces = test-trace, test-trace-funcs, rtems-api-task
+  ;
+  ; Specify the options.
+  ;
+  options = test-options
+  ;
+  ; Define the function sets. These are the function's that can be
+  ; added to the trace lists.
+  ;
+  functions = test-trace-funcs, rtems-api
+  ;
+  ; Include RTEMS Trace support.
+  ;
+  include = rtems.ini, rtld-base.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 specified. 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 referenced by functions being traced.
+
+- ``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.
+
+The options section of the file: `test-trace.ini` uses two of the 
aforementioned
+keys as shown below:
+
+.. code-block:: shell
+
+  ;
+  ; Options can be defined here or on the command line.
+  ;
+  [test-options]
+  prefix = /development/rtems/5
+  verbose = true
+
+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 signature has specific types and 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. A trace section can contain the following keys:
+
+- ``generator``: The generator defines the type of tracing being used.
+
+- ``headers``: List of sections that contain header file's 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.
+
+The trace section of the file: `test-trace.ini` is shown below. A trace section
+can reference other trace sections of a specific type. This allows a trace
+sections to build on other trace sections.
+
+.. code:: shell
+
+  ; User application trace example.
+  ;
+  [test-trace]
+  generator = printf-generator
+  ; Just here for testing.
+  trace = test_trace_3
+
+  [test-trace-funcs]
+  ; Parsed via the 'function-set', not parse as a 'trace'.
+  headers = test-headers
+  header = '#include "test-trace-2.h"'
+  defines = test-defines
+  define = "#define TEST_TRACE_2 2"
+  signatures = test-signatures
+  ; Parsed via the 'trace', not parsed as a function-set
+  trace = test_trace_1, test_trace_2
+
+  [test-headers]
+  header = '#include "test-trace-1.h"'
+
+  [test-defines]
+  define = "#define TEST_TRACE_1 1"
+
+  [test-signatures]
+  test_trace_1 = void, int
+  test_trace_2 = test_type_2, test_type_1
+  test_trace_3 = float, float*
+
+Function Section
+----------------
+
+Function sections define functions that can be traced. They provide any 
required
+defines, header files, and the function signatures. Defining a function so it
+can be traced does not mean it is traced. The function must be added to a trace
+list to be traced. A function section can consist of the following keys:
+
+- ``headers``: A list of sections containing headers or header records.
+- ``header``: A list of include string that are single or double quoted.
+- ``defines``: A list of sections containing defines or define record.
+- ``defines``: A list of define string that are single or double quoted.
+- ``signatures``: A list of section names of function signatures.
+- ``includes``: A list of files to include.
+
+Function signatures are specified with the function name being the key's name
+and the key's value being the return value and a list of function arguments. 
You
+need to provide void if the function uses void. Variable argument list are
+currently not supported. There is no way to determine statically a variable
+argument list. The function section in the file: `test-trace.ini` has been
+labeled as `test-trace-funcs`. This can be seen in the file snippet of the
+previous section.
+
+Generators
+----------
+
+Generator section specify how to generate trace wrapping code. The trace
+linker and generator section must match to work. The trace linker expects a 
some
+things to be present when wrapping functions. The section's name specifies the
+generator and can be listed in a generator key in a tracer or trace section. If
+the generator is not interested in a specific phase it does not need to define
+it. Nothing will be generated in regard to this phase. For example code to
+profile specific functions may only provide the entry-trace and exit-trace code
+where a nano-second time stamp is taken.
+
+The generate code will create an entry and exit call and the generator code
+block can be used to allocate buffer space for each with the lock held. The
+entry call and argument copy is performed with the lock released. The buffer
+space having been allocated will cause the trace events to be in order. The 
same
+goes for the exit call. Space is allocated in separate buffer allocate calls so
+the blocking calls will have the exit event appear in the correct location in
+the buffer.
+
+The following keys can be a part of the generator configuration:
+
+- ``headers``: A list of sections containing headers or header records.
+- ``header``: A list of include string that are single or double quoted.
+- ``defines``: A list of sections containing defines or define record.
+- ``define``: A list of define string that are single or double quoted.
+- ``entry-trace``: The wrapper call made on a function's entry. Returns bool
+  where true is the function is being traced. This call is made without the 
lock
+  being held if a lock is defined.
+- ``arg-trace``: The wrapper call made for each argument to the trace function
+  if the function is being traced. This call is made without the lock being 
held
+  if a lock is defined.
+- ``exit-trace``: The wrapper call made after a function's exit. Returns bool
+  where true is the function is being traced. This call is made without the 
lock
+  being held if a lock is defined.
+- ``ret-trace``: The wrapper call made to log the return value if the function
+  is being traced. This call is made without the lock being held if a lock is
+  defined.
+- ``lock-local``: The wrapper code to declare a local lock variable.
+- ``lock-acquire``: The wrapper code to acquire the lock.
+- ``lock-release``: The wrapper code to release the lock.
+- ``buffer-local``: The wrapper code to declare a buffer index local variable.
+- ``buffer-alloc``: The wrapper call made with a lock held if defined to
+  allocate buffer space to hold the trace data. A suitable 32bit buffer index 
is
+  returned. If there is no space an invalid index is returned. The generator
+  must handle any overhead space needed. The generator needs to make sure the
+  space is available before making the alloc all.
+- ``code-blocks``: A list of code block section names.
+- ``code``: A code block in <<CODE --- CODE (without the single quote).
+- ``includes``: A list of files to include.
+
+The following macros can be used in wrapper calls:
+
+- ``@FUNC_NAME@``: The trace function name as a quote C string.
+- ``@FUNC_INDEX@``: The trace function index as a held in the sorted list of
+  trace functions by the trace linker. It can be used to index the names,
+  enables, and triggers data.
+- ``@FUNC_LABEL@``: The trace function name as a C label that can be 
referenced.
+  You can take the address of the label.
+- ``@FUNC_DATA_SIZE@``: The size of the data in bytes.
+- ``@FUNC_DATA_ENTRY_SIZE@``: The size of the entry data in bytes.
+- ``@FUNC_DATA_RET_SIZE@``: The size of the return data in bytes.
+- ``@ARG_NUM@``: The argument number to the trace function.
+- ``@ARG_TYPE@``: The type of the argument as a C string.
+- ``@ARG_SIZE@``: The size of the type of the argument in bytes.
+- ``@ARG_LABEL@``: The argument as a C label that can be referenced.
+- ``@RET_TYPE@``: The type of the return value as a C string.
+- ``@RET_SIZE@``: The size of the type of the return value in bytes.
+- ``@RET_LABEL@``: The return value as a C label that can be referenced.
+
+The `buffer-alloc`, `entry-trace`, and `exit-trace` can be transformed using 
the
+following macros:
+
+- ``@FUNC_NAME@``
+- ``@FUNC_INDEX@``
+- ``@FUNC_LABEL@``
+- ``@FUNC_DATA_SZIE@``
+- ``@FUNC_DATA_ENTRY_SZIE@``
+- ``@FUNC_DATA_EXIT_SZIE@``
+
+The `arg-trace` can be transformed using the following macros:
+
+- ``@ARG_NUM@``
+- ``@ARG_TYPE@``
+- ``@ARG_SIZE@``
+- ``@ARG_LABEL@``
+
+The `ret-trace` can be transformed using the following macros:
+
+- ``@RET_TYPE@``
+- ``@RET_SIZE@``
+- ``@RET_LABEL@``
+
+The file: `test-trace.ini` specifies ``printf-generator`` as its generator. 
This
+section can be found in the file: `rtld-print.ini` in the rtems-tools directory
+and is shown below:
+
+.. code:: shell
+
+  ;
+  ; A printf generator prints to stdout the trace functions.
+  ;
+  [printf-generator]
+  headers = printf-generator-headers
+  entry-trace = "rtld_pg_printf_entry(@FUNC_NAME@, (void*) &@FUNC_LABEL@);"
+  arg-trace = "rtld_pg_printf_arg(@ARG_NUM@, @ARG_TYPE@, @ARG_SIZE@, (void*) 
&@ARG_LABEL@);"
+  exit-trace = "rtld_pg_printf_exit(@FUNC_NAME@, (void*) &@FUNC_LABEL@);"
+  ret-trace = "rtld_pg_printf_ret(@RET_TYPE@, @RET_SIZE@, (void*) 
&@RET_LABEL@);"
+  code = <<<CODE
+  static inline void rtld_pg_printf_entry(const char* func_name,
+                                          void*       func_addr)
+  {
+    printf (">>> %s (0x%08x)\n", func_name, func_addr);
+  }
+  static inline void rtld_pg_printf_arg(int         arg_num,
+                                        const char* arg_type,
+                                        int         arg_size,
+                                        void*       arg)
+  {
+    const unsigned char* p = arg;
+    int   i;
+    printf (" %2d] %s(%d) = ", arg_num, arg_type, arg_size);
+    for (i = 0; i < arg_size; ++i, ++p) printf ("%02x", (unsigned int) *p);
+    printf ("\n");
+  }
+  static inline void rtld_pg_printf_exit(const char* func_name,
+                                         void*       func_addr)
+  {
+    printf ("<<< %s (0x%08x)\n", func_name, func_addr);
+  }
+  static inline void rtld_pg_printf_ret(const char* ret_type,
+                                        int         ret_size,
+                                        void*       ret)
+  {
+    const unsigned char* p = ret;
+    int   i;
+    printf (" rt] %s(%d) = ", ret_type, ret_size);
+    for (i = 0; i < ret_size; ++i, ++p) printf ("%02x", (unsigned int) *p);
+    printf ("\n");
+  }
+  CODE
+
+  [printf-generator-headers]
+  header = "#include <stdio.h>"
+
+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 used 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
-- 
2.7.4

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