mirror of
https://github.com/AsahiLinux/u-boot
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d53b2cfe08
Guide shows incorrect usage of proftool, which is confusing. If proftool is used w/o '-o' argument it complains like following $ ./sandbox/tools/proftool -m sandbox/System.map -t trace dump-ftrace > trace.dat Must provide trace data, System.map file and output file Usage: proftool [-cmtv] <cmd> <profdata> s/>/-o/ fixes it and proftool outputs decoded data to trace.dat Signed-off-by: Pavel Skripkin <paskripkin@gmail.com> Reviewed-by: Simon Glass <sjg@chromium.org>
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ReStructuredText
503 lines
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ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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.. Copyright (c) 2013 The Chromium OS Authors.
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Tracing in U-Boot
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=================
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U-Boot supports a simple tracing feature which allows a record of execution
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to be collected and sent to a host machine for analysis. At present the
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main use for this is to profile boot time.
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Overview
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--------
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The trace feature uses GCC's instrument-functions feature to trace all
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function entry/exit points. These are then recorded in a memory buffer.
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The memory buffer can be saved to the host over a network link using
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tftpput or by writing to an attached storage device such as MMC.
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On the host, the file is first converted with a tool called 'proftool',
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which extracts useful information from it. The resulting trace output
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resembles that emitted by Linux's ftrace feature, so can be visually
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displayed by kernelshark (see kernelshark_) and used with
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'trace-cmd report' (see trace_cmd_).
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It is also possible to produce a flame graph for use with flamegraph.pl
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(see flamegraph_pl_).
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Quick-start using Sandbox
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-------------------------
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Sandbox is a build of U-Boot that can run under Linux so it is a convenient
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way of trying out tracing before you use it on your actual board. To do
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this, follow these steps:
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Add the following to `config/sandbox_defconfig`:
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.. code-block:: c
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CONFIG_TRACE=y
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Build sandbox U-Boot with tracing enabled:
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.. code-block:: console
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$ make FTRACE=1 O=sandbox sandbox_config
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$ make FTRACE=1 O=sandbox
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Run sandbox, wait for a bit of trace information to appear, and then capture
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a trace:
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.. code-block:: console
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$ ./sandbox/u-boot
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U-Boot 2013.04-rc2-00100-ga72fcef (Apr 17 2013 - 19:25:24)
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DRAM: 128 MiB
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trace: enabled
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Using default environment
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In: serial
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Out: serial
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Err: serial
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=>trace stats
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671,406 function sites
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69,712 function calls
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0 untracked function calls
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73,373 traced function calls
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16 maximum observed call depth
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15 call depth limit
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66,491 calls not traced due to depth
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=>trace stats
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671,406 function sites
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1,279,450 function calls
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0 untracked function calls
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950,490 traced function calls (333217 dropped due to overflow)
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16 maximum observed call depth
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15 call depth limit
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1,275,767 calls not traced due to depth
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=>trace calls 1000000 e00000
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Call list dumped to 00000000, size 0xae0a40
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=>print
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baudrate=115200
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profbase=0
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profoffset=ae0a40
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profsize=e00000
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stderr=serial
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stdin=serial
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stdout=serial
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Environment size: 117/8188 bytes
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=>host save hostfs - 1000000 trace ${profoffset}
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11405888 bytes written in 10 ms (1.1 GiB/s)
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=>reset
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Then run proftool to convert the trace information to ftrace format
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.. code-block:: console
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$ ./sandbox/tools/proftool -m sandbox/System.map -t trace dump-ftrace -o trace.dat
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Finally run kernelshark to display it (note it only works with `.dat` files!):
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.. code-block:: console
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$ kernelshark trace.dat
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Using this tool you can view the trace records and see the timestamp for each
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function.
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.. image:: pics/kernelshark.png
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:width: 800
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:alt: Kernelshark showing function-trace records
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To see the records on the console, use trace-cmd:
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.. code-block:: console
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$ trace-cmd report trace.dat | less
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cpus=1
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u-boot-1 [000] 3.116364: function: initf_malloc
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u-boot-1 [000] 3.116375: function: initf_malloc
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u-boot-1 [000] 3.116386: function: initf_bootstage
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u-boot-1 [000] 3.116396: function: bootstage_init
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u-boot-1 [000] 3.116408: function: malloc
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u-boot-1 [000] 3.116418: function: malloc_simple
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u-boot-1 [000] 3.116429: function: alloc_simple
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u-boot-1 [000] 3.116441: function: alloc_simple
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u-boot-1 [000] 3.116449: function: malloc_simple
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u-boot-1 [000] 3.116457: function: malloc
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Note that `pytimechart` is obsolete so cannot be used anymore.
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There is a -f option available to select a function graph:
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.. code-block:: console
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$ ./sandbox/tools/proftool -m sandbox/System.map -t trace -f funcgraph dump-ftrace >trace.dat
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Again, you can use kernelshark or trace-cmd to look at the output. In this case
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you will see the time taken by each function shown against its exit record.
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.. image:: pics/kernelshark_fg.png
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:width: 800
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:alt: Kernelshark showing function-graph records
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.. code-block:: console
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$ trace-cmd report trace.dat | less
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cpus=1
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u-boot-1 [000] 3.116364: funcgraph_entry: 0.011 us | initf_malloc();
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u-boot-1 [000] 3.116386: funcgraph_entry: | initf_bootstage() {
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u-boot-1 [000] 3.116396: funcgraph_entry: | bootstage_init() {
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u-boot-1 [000] 3.116408: funcgraph_entry: | malloc() {
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u-boot-1 [000] 3.116418: funcgraph_entry: | malloc_simple() {
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u-boot-1 [000] 3.116429: funcgraph_entry: 0.012 us | alloc_simple();
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u-boot-1 [000] 3.116449: funcgraph_exit: 0.031 us | }
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u-boot-1 [000] 3.116457: funcgraph_exit: 0.049 us | }
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u-boot-1 [000] 3.116466: funcgraph_entry: 0.063 us | memset();
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u-boot-1 [000] 3.116539: funcgraph_exit: 0.143 us | }
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Flame graph
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-----------
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Some simple flame graph options are available as well, using the dump-flamegraph
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command:
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.. code-block:: console
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$ ./sandbox/tools/proftool -m sandbox/System.map -t trace dump-flamegraph >trace.fg
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$ flamegraph.pl trace.fg >trace.svg
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You can load the .svg file into a viewer. If you use Chrome (and some other
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programs) you can click around and zoom in and out.
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.. image:: pics/flamegraph.png
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:width: 800
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:alt: Chrome showing the flamegraph.pl output
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.. image:: pics/flamegraph_zoom.png
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:width: 800
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:alt: Chrome showing zooming into the flamegraph.pl output
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A timing variant is also available, which gives an idea of how much time is
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spend in each call stack:
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.. code-block:: console
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$ ./sandbox/tools/proftool -m sandbox/System.map -t trace dump-flamegraph -f timing >trace.fg
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$ flamegraph.pl trace.fg >trace.svg
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Note that trace collection does slow down execution so the timings will be
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inflated. They should be used to guide optimisation. For accurate boot timings,
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use bootstage.
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.. image:: pics/flamegraph_timing.png
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:width: 800
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:alt: Chrome showing flamegraph.pl output with timing
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CONFIG Options
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--------------
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CONFIG_TRACE
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Enables the trace feature in U-Boot.
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CONFIG_CMD_TRACE
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Enables the trace command.
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CONFIG_TRACE_BUFFER_SIZE
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Size of trace buffer to allocate for U-Boot. This buffer is
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used after relocation, as a place to put function tracing
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information. The address of the buffer is determined by
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the relocation code.
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CONFIG_TRACE_EARLY
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Define this to start tracing early, before relocation.
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CONFIG_TRACE_EARLY_SIZE
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Size of 'early' trace buffer. Before U-Boot has relocated
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it doesn't have a proper trace buffer. On many boards
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you can define an area of memory to use for the trace
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buffer until the 'real' trace buffer is available after
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relocation. The contents of this buffer are then copied to
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the real buffer.
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CONFIG_TRACE_EARLY_ADDR
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Address of early trace buffer
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CONFIG_TRACE_CALL_DEPTH_LIMIT
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Sets the limit on trace call-depth. For a broad view, 10 is typically
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sufficient. Setting this too large creates enormous traces and distorts
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the overall timing considerable.
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Building U-Boot with Tracing Enabled
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------------------------------------
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Pass 'FTRACE=1' to the U-Boot Makefile to actually instrument the code.
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This is kept as a separate option so that it is easy to enable/disable
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instrumenting from the command line instead of having to change board
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config files.
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Board requirements
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------------------
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Trace data collection relies on a microsecond timer, accessed through
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`timer_get_us()`. So the first thing you should do is make sure that
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this produces sensible results for your board. Suitable sources for
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this timer include high resolution timers, PWMs or profile timers if
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available. Most modern SOCs have a suitable timer for this.
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See `add_ftrace()` for where `timer_get_us()` is called. The `notrace`
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attribute must be used on each function called by `timer_get_us()` since
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recursive calls to `add_ftrace()` will cause a fault::
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trace: recursion detected, disabling
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You cannot use driver model to obtain the microsecond timer, since tracing
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may be enabled before driver model is set up. Instead, provide a low-level
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function which accesses the timer, setting it up if needed.
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Collecting Trace Data
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---------------------
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When you run U-Boot on your board it will collect trace data up to the
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limit of the trace buffer size you have specified. Once that is exhausted
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no more data will be collected.
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Collecting trace data affects execution time and performance. You
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will notice this particularly with trivial functions - the overhead of
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recording their execution may even exceed their normal execution time.
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In practice this doesn't matter much so long as you are aware of the
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effect. Once you have done your optimizations, turn off tracing before
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doing end-to-end timing using bootstage.
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The best time to start tracing is right at the beginning of U-Boot. The
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best time to stop tracing is right at the end. In practice it is hard
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to achieve these ideals.
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This implementation enables tracing early in `board_init_r()`, or
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`board_init_f()` when `TRACE_EARLY` is enabled. This means
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that it captures most of the board init process, missing only the
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early architecture-specific init. However, it also misses the entire
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SPL stage if there is one. At present tracing is not supported in SPL.
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U-Boot typically ends with a 'bootm' command which loads and runs an
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OS. There is useful trace data in the execution of that bootm
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command. Therefore this implementation provides a way to collect trace
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data after bootm has finished processing, but just before it jumps to
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the OS. In practical terms, U-Boot runs the 'fakegocmd' environment
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variable at this point. This variable should have a short script which
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collects the trace data and writes it somewhere.
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Controlling the trace
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---------------------
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U-Boot provides a command-line interface to the trace system for controlling
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tracing and accessing the trace data. See :doc:`../usage/cmd/trace`.
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Environment Variables
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---------------------
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The following are used:
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profbase
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Base address of trace output buffer
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profoffset
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Offset of first unwritten byte in trace output buffer
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profsize
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Size of trace output buffer
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All of these are set by the 'trace calls' command.
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These variables keep track of the amount of data written to the trace
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output buffer by the 'trace' command. The trace commands which write data
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to the output buffer can use these to specify the buffer to write to, and
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update profoffset each time. This allows successive commands to append data
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to the same buffer, for example::
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=> trace funclist 10000 e00000
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=> trace calls
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(the latter command appends more data to the buffer).
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fakegocmd
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Specifies commands to run just before booting the OS. This
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is a useful time to write the trace data to the host for
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processing.
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Writing Out Trace Data
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----------------------
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Once the trace data is in an output buffer in memory there are various ways
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to transmit it to the host. Notably you can use tftput to send the data
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over a network link::
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fakegocmd=trace pause; usb start; set autoload n; bootp;
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trace calls 10000000 1000000;
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tftpput ${profbase} ${profoffset} 192.168.1.4:/tftpboot/calls
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This starts up USB (to talk to an attached USB Ethernet dongle), writes
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a trace log to address 10000000 and sends it to a host machine using
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TFTP. After this, U-Boot will boot the OS normally, albeit a little
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later.
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For a filesystem you may do something like::
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trace calls 10000000 1000000;
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save mmc 1:1 10000000 /trace ${profoffset}
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The trace buffer format is internal to the trace system. It consists of a
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header, a call count for each function site, followed by a list of trace
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records, once for each function call.
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Converting Trace Output Data (proftool)
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---------------------------------------
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The trace output data is kept in a binary format which is not documented
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here. See the `trace.h` header file if you are interested. To convert it into
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something useful, you can use proftool.
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This tool must be given the U-Boot map file and the trace data received
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from running that U-Boot. It produces a binary output file.
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It is also possible to provide a configuration file to indicate which functions
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should be included or dropped during conversion. This file consists of lines
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like::
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include-func <regex>
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exclude-func <regex>
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where <regex> is a regular expression matched against function names. It
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allows some functions to be dropped from the trace when producing ftrace
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records.
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Options:
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-c <config_file>
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Specify the optional configuration file, to control which functions are
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included in the output.
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-f <format>
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Specifies the format to use (see below)
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-m <map_file>
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Specify U-Boot map file (`System.map`)
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-o <output file>
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Specify the output filename
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-t <trace_file>
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Specify trace file, the data saved from U-Boot
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-v <0-4>
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Specify the verbosity, where 0 is the minimum and 4 is for debugging.
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Commands:
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dump-ftrace:
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Write a binary dump of the file in Linux ftrace format. Two options are
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available:
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function
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write function-call records (caller/callee)
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funcgraph
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write function entry/exit records (graph)
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This format can be used with kernelshark_ and trace_cmd_.
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dump-flamegraph
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Write a list of stack records useful for producing a flame graph. Two
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options are available:
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calls
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create a flamegraph of stack frames
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timing
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create a flamegraph of microseconds for each stack frame
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This format can be used with flamegraph_pl_.
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Viewing the Trace Data
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----------------------
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You can use kernelshark_ for a GUI, but note that version 2.0.x was broken. If
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you have that version you could try building it from source.
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The file must have a .dat extension or it is ignored. The program has terse
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user interface but is very convenient for viewing U-Boot profile information.
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Also available is trace_cmd_ which provides a command-line interface.
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Workflow Suggestions
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--------------------
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The following suggestions may be helpful if you are trying to reduce boot
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time:
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1. Enable CONFIG_BOOTSTAGE and CONFIG_BOOTSTAGE_REPORT. This should get
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you are helpful overall snapshot of the boot time.
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2. Build U-Boot with tracing and run it. Note the difference in boot time
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(it is common for tracing to add 10% to the time)
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3. Collect the trace information as described above. Use this to find where
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all the time is being spent.
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4. Take a look at that code and see if you can optimize it. Perhaps it is
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possible to speed up the initialization of a device, or remove an unused
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feature.
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5. Rebuild, run and collect again. Compare your results.
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6. Keep going until you run out of steam, or your boot is fast enough.
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Configuring Trace
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-----------------
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There are a few parameters in the code that you may want to consider.
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There is a function call depth limit (set to 15 by default). When the
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stack depth goes above this then no tracing information is recorded.
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The maximum depth reached is recorded and displayed by the 'trace stats'
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command. While it might be tempting to set the depth limit quite high, this
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can dramatically increase the size of the trace output as well as the execution
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time.
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Future Work
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-----------
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Tracing could be a little tidier in some areas, for example providing
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run-time configuration options for trace.
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Some other features that might be useful:
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- Trace filter to select which functions are recorded
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- Sample-based profiling using a timer interrupt
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- Better control over trace depth
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- Compression of trace information
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.. sectionauthor:: Simon Glass <sjg@chromium.org>
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.. April 2013
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.. Updated January 2023
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.. _kernelshark: https://kernelshark.org/
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.. _trace_cmd: https://www.trace-cmd.org/
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.. _flamegraph_pl: https://github.com/brendangregg/FlameGraph/blob/master/flamegraph.pl
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