[PATCH RFC 2/2] docs: media: Debugging guide for the media subsystem

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Create a guides section for all documentation material, that isn't
strictly related to a specific piece of code.

Provide a guide for developers on how to debug code with a focus on the
media subsystem. This document aims to provide a rough overview over the
possibilities and a rational to help choosing the right tool for the
given circumstances.

Signed-off-by: Sebastian Fricke <sebastian.fricke@xxxxxxxxxxxxx>
---
 Documentation/media/guides/debugging_issues.rst | 477 ++++++++++++++++++++++++
 Documentation/media/guides/index.rst            |  11 +
 Documentation/media/index.rst                   |   1 +
 3 files changed, 489 insertions(+)

diff --git a/Documentation/media/guides/debugging_issues.rst b/Documentation/media/guides/debugging_issues.rst
new file mode 100644
index 000000000000..8fee749e7e6a
--- /dev/null
+++ b/Documentation/media/guides/debugging_issues.rst
@@ -0,0 +1,477 @@
+.. SPDX-License-Identifier: GPL-2.0
+.. include:: <isonum.txt>
+
+===================================================
+Debugging and tracing in the media subsystem
+===================================================
+
+This document serves as a starting point and lookup for debugging device
+drivers in the media subsystem.
+
+.. contents::
+    :depth: 3
+
+General debugging advice
+========================
+
+Depending on the issue, a different set of tools is available to track down the
+problem or even to realize whether there is one in the first place.
+
+As a first step you have to figure out what kind of issue you want to debug.
+Depending on the answer, your methodology and choice of tools may vary.
+Some typical issues are listed below. The list is not exhaustive.
+
+What is the issue?
+------------------
+1. Driver doesn't behave as expected
+
+   TBD
+
+2. Running out of memory
+
+  In this case you should use `Linux CLI tools <linux-tools_>`_ first to verify
+  whether the issue stems from the Kernel or from userspace.
+
+  TBD
+
+3. Kernel panic
+
+  The kernel provides a number of `tools <kernel_panic_analysis_tools_>`_ to
+  analyse a Kernel panic, use these first, once you have identified where the
+  error occurs you can further analyse the issue by adding `debug logs <Printk
+  & friends_>`_ to the codebase.
+
+4. Device doesn't probe
+
+   TBD
+
+5. Driver too slow
+
+  You should start with a `performance analysis <performance>`__, to pin down the problem area.
+
+Is timing a factor?
+-------------------
+
+It is important to understand if the problem you want to debug manifests itself
+consistently (i.e. given a set of inputs you always get the same, incorrect
+output), or inconsistently. If it manifests itself inconsistently, some timing
+factor might be at play. If inserting delays into the code does change the
+behavior, then quite likely timing is a factor.
+
+   In this case using a simple `printk`_ won't work, a similar alternative is
+   too use `trace_printk`_, which logs the debug messages to the trace file
+   instead of the kernel log.
+
+Do I have root access to the system?
+------------------------------------
+
+Are you easily able to replace the module in question or to install a new kernel?
+
+TBD
+
+.. _live_debug:
+
+Do I need to debug on a live system?
+------------------------------------
+
+When the kernel is compiled with `Ftrace`_, this tool might be a good start, as you can trace specific functions to dial down to the sequence of actions that causes the misbehavior.
+
+TBD
+
+Is the outcome flaky?
+---------------------
+
+We will call the outcome "flaky" if multiple iterations of the same routine with the same parameters result in different outcomes.
+
+TBD
+
+Available tools
+===============
+
+Printk & friends
+----------------
+
+These are derivatives of printf() with varying destination and support for being dynamically turned on or off, or lack thereof.
+
+.. _printk:
+
+**Simple printk**
+~~~~~~~~~~~~~~~~~
+
+The classic, this can be used to great effect for quick and dirty development
+of new modules or to extract arbitrary necessary data for troubleshooting.
+
+Prerequisite: `CONFIG_PRINTK` (usually enabled by default)
+
+**Pros**:
+
+- No need to learn anything, simple to use
+- Easy to modify exactly to your needs (formatting of the data (See: `format specifiers <../../core-api/printk-formats.html#printk-specifiers>`__), visibility in the log)
+- Can cause delays in the execution of the code (beneficial to confirm whether timing is a factor)
+
+**Cons**:
+
+- Requires rebuilding the kernel/module, (See: `live_debug`_)
+- Can cause delays in the execution of the code
+
+`Full documentation <../../core-api/printk-basics.rst>`__
+
+.. _trace_printk:
+
+**Trace_printk**
+~~~~~~~~~~~~~~~~
+
+Prerequisite: `CONFIG_DYNAMIC_FTRACE` & `#include <linux/ftrace.h>`
+
+A tiny bit less comfortable to use than `printk`_, because you will have to
+read the messages from the trace file (See: `Reading the ftrace log`_ instead
+of from the kernel log, but very useful when printk adds unwanted delays into
+the code execution, causing issues to be flaky or hidden.)
+
+If the processing of this still causes timing issues then you can try `trace_puts()`.
+
+`Full Documentation <../../driver-api/basics.html#c.trace_printk>`__
+
+**dev_dbg / v4l2_dbg**
+~~~~~~~~~~~~~~~~~~~~~~
+
+- Difference between both?
+
+  - v4l2_dbg utilizes v4l2_printk under the hood, which further uses printk directly, thus it cannot be targeted by dynamic debug
+  - dev_dbg can be targeted by dynamic debug
+  - v4l2_dbg has a more specific prefix format for the media subsystem, while dev_dbg only highlights the driver name and the location of the log
+
+**The dev_debug module parameter**
+
+Every video device provides a `dev_debug` parameter, which allows to get further insights into the IOCTLs in the background.
+
+`Full documentation <../../driver-api/media/v4l2-dev.html#video-device-debugging>`__
+
+**When is it appropriate to leave a debug print in the code?**
+
+Permanent debug statements have to be useful for a developer to troubleshoot
+why the driver misbehaves. Judging that is a bit more of an art than a
+science, but some guidelines are in the `Coding style guide
+<../../process/coding-style.html#printing-kernel-messages>`__)
+
+**Custom printk**
+~~~~~~~~~~~~~~~~~
+Example:
+::
+
+  #define core_dbg(fmt, arg...) do { \
+	  if (core_debug) \
+		  printk(KERN_DEBUG pr_fmt("core: " fmt), ## arg); \
+	  } while (0)
+
+**When should you do this?**
+
+It is better to just use a `pr_debug()`, which can later be turned on/off with
+dynamic debug. Additionally, a lot of drivers activate these prints via a
+variable like `core_debug` set by a module parameter. However, Module
+parameters `are not recommended anymore
+<https://lkml.org/lkml/2024/3/27/163>`_.
+
+Dynamic debug
+-------------
+
+Mechanism to filter what ends up in the kernel log by dis-/en-abling log
+messages.
+
+Prerequisite: `CONFIG_DYNAMIC_DEBUG`
+
+.. _valid_dyndbg_prints:
+
+Dynamic debug is only able to target:
+
+- `pr_debug()`
+- `dev_dbg()`
+- `print_hex_dump_debug()`
+- `print_hex_dump_bytes()`
+
+Therefore the usability of this tool is quite limited in the media subsystem,
+because, as of now, there is no uniform rule for adding debug prints to the codebase,
+resulting in a variety of ways these prints are implemented.
+
+Also, note that most debug statements are implemented as a variation of
+`dprintk`, which have to be activated via a parameter in respective module,
+dynamic debug is unable to do that step for you.
+
+Here is one example, that enables all available `pr_debug()`'s within the file:
+::
+
+  $ alias ddcmd='echo $* > /proc/dynamic_debug/control'
+  $ ddcmd '-p; file v4l2-h264.c +p'
+  $ grep =p /proc/dynamic_debug/control
+   drivers/media/v4l2-core/v4l2-h264.c:372 [v4l2_h264]print_ref_list_b =p "ref_pic_list_b%u (cur_poc %u%c) %s"
+   drivers/media/v4l2-core/v4l2-h264.c:333 [v4l2_h264]print_ref_list_p =p "ref_pic_list_p (cur_poc %u%c) %s\n"
+
+**When should you use this over** `Ftrace`_ **?**
+
+- When the code contains one of the :ref:`valid print statements <valid_dyndbg_prints_>`_ or when you have added multiple pr_debug() statements during development
+- When timing is not an issue, meaning if multiple `pr_debug()` statements in the code won't cause delays
+- When you care more about receiving specific log messages than tracing the pattern of how a function is called
+
+`Full documentation <../../admin-guide/dynamic-debug-howto.rst>`__
+
+Ftrace
+------
+
+Prerequisite: `CONFIG_DYNAMIC_FTRACE`
+
+Trace whenever the `rkvdec_try_ctrl` function is called
+::
+
+  $ cd /sys/kernel/tracing
+  $ echo function > /sys/kernel/tracing/current_tracer
+  $ echo rkvdec_try_ctrl > set_ftrace_filter
+  $ echo 1 > tracing_on
+  $ cat trace
+   h264parse0:sink-6359    [001] ...1. 172714.547523: rkvdec_try_ctrl <-try_or_set_cluster
+   h264parse0:sink-6359    [005] ...1. 172714.567386: rkvdec_try_ctrl <-try_or_set_cluster
+
+Find out from where the calls originate
+::
+
+  $ echo 1 > options/func_stack_trace
+   h264parse0:sink-6715    [002] ..... 172837.967762: rkvdec_try_ctrl <-try_or_set_cluster
+   h264parse0:sink-6715    [002] ..... 172837.967773: <stack trace>
+   => rkvdec_try_ctrl
+   => try_or_set_cluster
+   => try_set_ext_ctrls_common
+   => try_set_ext_ctrls
+   => v4l2_s_ext_ctrls
+   => v4l_s_ext_ctrls
+   ...
+   h264parse0:sink-6715    [004] ..... 172837.985747: rkvdec_try_ctrl <-try_or_set_cluster
+   h264parse0:sink-6715    [004] ..... 172837.985750: <stack trace>
+   => rkvdec_try_ctrl
+   => try_or_set_cluster
+   => v4l2_ctrl_request_setup
+   => rkvdec_run_preamble
+   => rkvdec_h264_run
+   => rkvdec_device_run
+   ...
+
+Trace the children of a function call and show the return values (requires config `FUNCTION_GRAPH_RETVAL`)
+::
+
+  echo function_graph > current_tracer
+  echo rkvdec_h264_run > set_graph_function
+  echo 4 > max_graph_depth
+  echo do_interrupt_handler mutex_* > set_graph_notrace
+  echo 1 > options/funcgraph-retval
+   ...
+   4)               |  rkvdec_h264_run [rockchip_vdec]() {
+   4)               |    v4l2_ctrl_find [videodev]() {
+   ...
+   4)               |    rkvdec_run_preamble [rockchip_vdec]() {
+   4)   4.666 us    |      v4l2_m2m_next_buf [v4l2_mem2mem](); /* = 0xffff000005782000 */
+   ...
+   4)               |      v4l2_ctrl_request_setup [videodev]() {
+   4)   4.667 us    |        media_request_object_find [mc](); /* = 0xffff000005e3aa98 */
+   4)   1.750 us    |        find_ref [videodev](); /* = 0xffff00000833b2a0 */
+   ...
+   4)   1.750 us    |      v4l2_m2m_buf_copy_metadata [v4l2_mem2mem](); /* = 0x0 */
+   4) ! 114.333 us  |    } /* rkvdec_run_preamble [rockchip_vdec] = 0x0 */
+   4)   2.334 us    |    v4l2_h264_init_reflist_builder [v4l2_h264](); /* = 0x3e */
+   ...
+   4)               |    v4l2_h264_build_b_ref_lists [v4l2_h264]() {
+   ...
+   4)               |    rkvdec_run_postamble [rockchip_vdec]() {
+   ...
+   4) ! 444.208 us  |  } /* rkvdec_h264_run [rockchip_vdec] = 0x0 */
+
+**Reading the ftrace log**
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The `trace` file can be read just like any other file (`cat`, `tail`, `head`,
+`vim`, etc.), the size of the file is limited by the `buffer_size_kb` (``echo
+1000 > buffer_size_kb``). The `trace_pipe` will behave similar to the `trace`
+file, but whenever you read from the file the content is consumed.
+
+**Kernelshark**
+~~~~~~~~~~~~~~~
+
+`Kernelshark documentation <https://kernelshark.org/Documentation.html>`_
+
+`Full documentation <../../trace/ftrace.rst>`__
+
+DebugFS
+-------
+
+Prerequisite: `CONFIG_DEBUG_FS` & `#include <linux/debugfs.h>`
+
+DebugFS differs from the other approaches of debugging, as it doesn't write messages to the kernel log nor add traces to the code. Instead it allows the developer to handle a set of files.
+With these files you can either store values of variables or make register/memory dumps or you can make these files writable and modify values/settings in the driver.
+Possible use-cases among others:
+
+- Store register values
+- Keep track of variables
+- Store errors
+- Store settings
+- Toggle a setting like debug on/off
+- Error injection
+
+This is especially useful, when the size of a data dump would be hard to digest as
+part of the general kernel log (for example when dumping raw bitstream data) or
+when you are not interested in all the values all the time, but with the
+possibility to inspect them.
+
+The general idea is:
+
+- Create a directory during probe (`struct dentry *parent = debugfs_create_dir("my_driver", NULL);`)
+- Create a file (`debugfs_create_u32("my_value", 444, parent, &my_variable);`)
+
+  - In this example the file is found in `/sys/kernel/debug/my_driver/my_value` (with read permissions for user/group/all)
+  - any update of `my_variable` will update the value in the file
+
+- Clean up the folder when removing the device (`debugfs_remove_recursive(parent);`)
+
+`Full documentation <../../filesystems/debugfs.rst>`__
+
+Perf & alternatives
+-------------------
+
+The tools mentioned above provide ways to inspect kernel code, results, variable values, etc.
+Sometimes you have to find out first where to look and for those cases a box of performance tracking tools can help you to frame the issue.
+
+.. _performance:
+
+**Why should you do a performance analysis?**
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+A performance analysis is a good first step when among other reasons:
+
+- you cannot define the issue
+- you do not know where it occurs
+- the running system should not be interrupted or it is a remote system, where you cannot install a new module/kernel
+
+.. _linux-tools:
+
+**How to do a simple analysis with linux tools?**
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+For the start of a performance analysis, you can start with the usual tools like:
+
+- `top` / `htop` / `atop` (*get an overview of the system load, see spikes on specific processes*)
+- `mpstat -P ALL` (*look at the load distribution among CPUs*)
+- `iostat -x` (*observe input and output devices utilization and performance*)
+- `vmstat` (*overview of memory usage on the system*)
+- `pidstat` (*similar to* `vmstat` *but per process, to dial it down to the target*)
+- `strace -tp $PID` (*once you know the process, you can figure out how it communicates with the Kernel*)
+
+These should help to figure out restrict the areas to look at sufficiently.
+
+**Diving deeper with perf**
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+The **perf** tool provides a series of metrics and events to further dial down on issues.
+
+Prerequisite: TBD
+
+Gather statistics data for a decoding job: (This example is on a RK3399 SoC with the rkvdec codec driver using the `fluster test suite <https://github.com/fluendo/fluster>`__)
+::
+
+  perf stat -d python3 fluster.py run -d GStreamer-H.264-V4L2SL-Gst1.0 -ts JVT-AVC_V1 -tv AUD_MW_E -j1
+  ...
+  Performance counter stats for 'python3 fluster.py run -d GStreamer-H.264-V4L2SL-Gst1.0 -ts JVT-AVC_V1 -tv AUD_MW_E -j1 -v':
+
+           7794.23 msec task-clock:u                     #    0.697 CPUs utilized
+                 0      context-switches:u               #    0.000 /sec
+                 0      cpu-migrations:u                 #    0.000 /sec
+             11901      page-faults:u                    #    1.527 K/sec
+         882671556      cycles:u                         #    0.113 GHz                         (95.79%)
+         711708695      instructions:u                   #    0.81  insn per cycle              (95.79%)
+          10581935      branches:u                       #    1.358 M/sec                       (15.13%)
+           6871144      branch-misses:u                  #   64.93% of all branches             (95.79%)
+         281716547      L1-dcache-loads:u                #   36.144 M/sec                       (95.79%)
+           9019581      L1-dcache-load-misses:u          #    3.20% of all L1-dcache accesses   (95.79%)
+   <not supported>      LLC-loads:u
+   <not supported>      LLC-load-misses:u
+
+      11.180830431 seconds time elapsed
+
+       1.502318000 seconds user
+       6.377221000 seconds sys
+
+The availability of events and metrics depends on the system you are running.
+
+`Full documentation <https://perf.wiki.kernel.org/index.php/Main_Page>`__
+
+**Perfetto**
+~~~~~~~~~~~~
+
+TBD
+
+.. _error_checking:
+
+KASAN, UBSAN, lockdep and other error checkers
+----------------------------------------------
+
+TBD
+
+.. _kernel_panic_analysis_tools:
+
+Kernel panic analysis tools
+---------------------------
+
+  To analyse the crash dump please use `Kdump` & `Kexec`.
+
+  TBD
+
+  `Full documentation <../../admin-guide/kdump/kdump.rst>`__
+
+  In order to find the corresponding line in the code you can use `faddr2line
+  <https://elixir.bootlin.com/linux/latest/source/scripts/faddr2line>`__, note
+  that you need to enable `CONFIG_DEBUG_INFO` for that to work.
+
+  An alternative to using `faddr2line` is the use of `objdump` (and it's
+  derivatives for the different platforms like `aarch64-linux-gnu-objdump`),
+  take this line as an example:
+
+  `[  +0.000240]  rkvdec_device_run+0x50/0x138 [rockchip_vdec]`.
+
+  We can find the corresponding line of code by executing:
+  ::
+
+    aarch64-linux-gnu-objdump -dS drivers/staging/media/rkvdec/rockchip-vdec.ko | grep rkvdec_device_run\>: -A 40
+    0000000000000ac8 <rkvdec_device_run>:
+     ac8:	d503201f 	nop
+     acc:	d503201f 	nop
+    {
+     ad0:	d503233f 	paciasp
+     ad4:	a9bd7bfd 	stp	x29, x30, [sp, #-48]!
+     ad8:	910003fd 	mov	x29, sp
+     adc:	a90153f3 	stp	x19, x20, [sp, #16]
+     ae0:	a9025bf5 	stp	x21, x22, [sp, #32]
+        const struct rkvdec_coded_fmt_desc *desc = ctx->coded_fmt_desc;
+     ae4:	f9411814 	ldr	x20, [x0, #560]
+        struct rkvdec_dev *rkvdec = ctx->dev;
+     ae8:	f9418015 	ldr	x21, [x0, #768]
+        if (WARN_ON(!desc))
+     aec:	b4000654 	cbz	x20, bb4 <rkvdec_device_run+0xec>
+        ret = pm_runtime_resume_and_get(rkvdec->dev);
+     af0:	f943d2b6 	ldr	x22, [x21, #1952]
+        ret = __pm_runtime_resume(dev, RPM_GET_PUT);
+     af4:	aa0003f3 	mov	x19, x0
+     af8:	52800081 	mov	w1, #0x4                   	// #4
+     afc:	aa1603e0 	mov	x0, x22
+     b00:	94000000 	bl	0 <__pm_runtime_resume>
+        if (ret < 0) {
+     b04:	37f80340 	tbnz	w0, #31, b6c <rkvdec_device_run+0xa4>
+        dev_warn(rkvdec->dev, "Not good\n");
+     b08:	f943d2a0 	ldr	x0, [x21, #1952]
+     b0c:	90000001 	adrp	x1, 0 <rkvdec_try_ctrl-0x8>
+     b10:	91000021 	add	x1, x1, #0x0
+     b14:	94000000 	bl	0 <_dev_warn>
+        *bad = 1;
+     b18:	d2800001 	mov	x1, #0x0                   	// #0
+     ...
+
+
+  To find the matching line we just have to add `0x50` (from
+  `rkvdec_device_run+0x50`) to `0xac8` (from `0000000000000ac8
+  <rkvdec_device_run>:`), which yields `0xb18` corresponding with `*bad = 1`.
+
+**Copyright** |copy| 2024 : Collabora
diff --git a/Documentation/media/guides/index.rst b/Documentation/media/guides/index.rst
new file mode 100644
index 000000000000..0008966c0862
--- /dev/null
+++ b/Documentation/media/guides/index.rst
@@ -0,0 +1,11 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+============
+Media Guides
+============
+
+.. toctree::
+    :caption: Table of Contents
+    :maxdepth: 1
+
+    debugging_issues
diff --git a/Documentation/media/index.rst b/Documentation/media/index.rst
index d056a9e99dca..5461876fc401 100644
--- a/Documentation/media/index.rst
+++ b/Documentation/media/index.rst
@@ -7,6 +7,7 @@ Media Subsystem Documentation
 .. toctree::
    :maxdepth: 2
 
+   guides/index
    ../userspace-api/media/index
    ../driver-api/media/index.rst
    ../admin-guide/media/index

-- 
2.25.1




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