Re: [PATCH 1/2] docs: Add guides section for debugging

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Hey Jonathan,

On 07.11.2024 13:35, Jonathan Corbet wrote:
Sebastian Fricke <sebastian.fricke@xxxxxxxxxxxxx> writes:

This idea was formed after noticing that new developers experience
certain difficulty to navigate within the multitude of different
debugging options in the Kernel and while there often is good
documentation for the tools, the developer has to know first that they
exist and where to find them.
Add a general debugging section to the Kernel documentation, as an
easily locatable entry point to other documentation and as a general
guideline for the topic.

Signed-off-by: Sebastian Fricke <sebastian.fricke@xxxxxxxxxxxxx>
---
 Documentation/index.rst                            |   2 +
 .../driver_development_debugging_guide.rst         | 206 +++++++++++++++
 Documentation/process/debugging/general_advice.rst |  48 ++++
 Documentation/process/debugging/index.rst          |  21 ++
 .../debugging/userspace_debugging_guide.rst        | 278 +++++++++++++++++++++
 5 files changed, 555 insertions(+)

diff --git a/Documentation/index.rst b/Documentation/index.rst
index 36e61783437c..be19f0a79a6a 100644
--- a/Documentation/index.rst
+++ b/Documentation/index.rst
@@ -57,6 +57,7 @@ Various other manuals with useful information for all kernel developers.
    dev-tools/testing-overview
    kernel-hacking/index
    trace/index
+   process/debugging/index
    fault-injection/index

Please, let's not add this to the top-level page.  I've been through a
multi-year struggle trying to trim that page down to the point where it
is possible to actually find something of interest there.  Everybody
wants their stuff up front, but please link this from the process guide
instead.

Hmmm ... we are talking about a page for newbies here, when it is under
process the person will have to figure out first that one has to click
on All development-process docs and then find that document under the
abundance of others. Could we atleast generate a top level page called
Beginner intro or something similar, where you are guided through the
documentation tree from the perspective of a beginner?


    livepatch/index
    rust/index
@@ -76,6 +77,7 @@ developers seeking information on the kernel's user-space APIs.
    The kernel build system <kbuild/index>
    admin-guide/reporting-issues.rst
    User-space tools <tools/index>
+   process/debugging/userspace_debugging_guide.rst
    userspace-api/index

...and linking it twice from that page is even worse...

Ack.


 See also: the `Linux man pages <https://www.kernel.org/doc/man-pages/>`_,
diff --git a/Documentation/process/debugging/driver_development_debugging_guide.rst b/Documentation/process/debugging/driver_development_debugging_guide.rst
new file mode 100644
index 000000000000..f3d9c2c192c4
--- /dev/null
+++ b/Documentation/process/debugging/driver_development_debugging_guide.rst
@@ -0,0 +1,206 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+========================================
+Debugging advice for driver development
+========================================
+
+This document serves as a general starting point and lookup for debugging device
+drivers.
+While this guide focuses on debugging that requires re-compiling the
+module/kernel, the :doc:`userspace debugging guide
+</process/debugging/userspace_debugging_guide>` will guide
+you through tools like dynamic debug, ftrace and other tools useful for
+debugging issues and behavior.
+For general debugging advice, see the :doc:`general advice document
+</process/debugging/general_advice>`.
+
+.. contents::
+    :depth: 3

Not sure this is necessary for these short files, but whatever

+The following sections show you the available tools.
+
+Printk & friends
+----------------

When referencing the function, say printk() - that's the convention we
use.

Ah even in the title? Can do. (Even though it makes the titles look less
uniform..)


+
+These are derivatives of printf() with varying destinations and support for
+being dynamically turned on or off, or lack thereof.
+
+Simple printk

... so meaning here as well I guess.

+~~~~~~~~~~~~~
+
+The classic, 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:
+  :doc:`/core-api/printk-formats`), 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
+- Can cause delays in the execution of the code (which can cause issues to be
+  not reproducible)
+
+For the full documentation see :doc:`/core-api/printk-basics`
+
+Trace_printk
+~~~~~~~~~~~~
+
+Prerequisite: `CONFIG_DYNAMIC_FTRACE` & `#include <linux/ftrace.h>`
+
+It is a tiny bit less comfortable to use than printk(), because you will have
+to read the messages from the trace file (See: :ref:`read_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().
+
+For the full Documentation see trace_printk()
+
+dev_dbg
+~~~~~~~
+
+Print statement, which can be targeted by :ref:`process/debugging/userspace_debugging_guide:dynamic debug`

It would still be nice to stick to the line-length limit wherever
possible.  Here it is possible.

+that contains additional information about the device used within the context.
+
+**When is it appropriate to leave a debug print in the code?**
+
+Permanent debug statements have to be useful for a developer to troubleshoot
+driver misbehavior. Judging that is a bit more of an art than a science, but
+some guidelines are in the :ref:`Coding style guidelines <process/coding-style:13) printing kernel messages>`

Here too.

Sorry missed these two.


Working drivers are supposed to be quiet, though, so I think the real
answer to this question is "almost never".

Yes I can highlight that the answer should be No in almost all cases.


+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

If you really want to mark up that name, it should probably be ``literal``

Ack.


+parameters `are not recommended anymore
+<https://lore.kernel.org/all/2024032757-surcharge-grime-d3dd@gregkh>`_.
+
+Ftrace
+------
+
+Creating a custom Ftrace tracepoint
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

This seems ... minimal.  It would be good to have, if nothing else, a
paragraph explaining what a tracepoint is and how it might be useful.

Ack.


+Here is a basic description of :ref:`how to implement new tracepoints
+<trace/tracepoints:usage>`.
+
+For the full event tracing documentation see :doc:`/trace/events`
+
+For the full Ftrace documentation see :doc:`/trace/ftrace`
+
+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);`)

Again, I think this wants to be literal, not italic?

Ack.


+- 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

That's a bit of a strange way to put it.  I would say that any read of
the file will return the current contents of the variable.

Ack.


+- Clean up the folder when removing the device
+  (`debugfs_remove_recursive(parent);`)
+
+For the full documentation see :doc:`/filesystems/debugfs`.
+
+KASAN, UBSAN, lockdep and other error checkers
+----------------------------------------------
+
+KASAN (Kernel Address Sanitizer)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Prerequisite: `CONFIG_KASAN`
+
+KASAN is a dynamic memory error detector that helps to find use-after-free and
+out-of-bounds bugs. It uses compile-time instrumentation to check every memory
+access.
+
+For the full documentation see :doc:`/dev-tools/kasan`.
+
+UBSAN (Undefined Behavior Sanitizer)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Prerequisite: `CONFIG_UBSAN`
+
+UBSAN relies on compiler instrumentation and runtime checks to detect undefined
+behavior. It is designed to find a variety of issues, including signed integer
+overflow, array index out of bounds, and more.
+
+For the full documentation see :doc:`/dev-tools/ubsan`
+
+lockdep (Lock Dependency Validator)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Prerequisite: `CONFIG_DEBUG_LOCKDEP`
+
+lockdep is a runtime lock dependency validator that detects potential deadlocks
+and other locking-related issues in the kernel.
+It tracks lock acquisitions and releases, building a dependency graph that is
+analyzed for potential deadlocks.
+lockdep is especially useful for validating the correctness of lock ordering in
+the kernel.
+
+For the full documentation see :doc:`/RCU/lockdep`

That is anything but full documentation of lockdep; it's really only
about RCU.  I wish (hint :) that we had proper documentation for lockdep
that we could link here.  For the purposes of a reader who needs this
level of guide, though, linking deep into RCU is not likely to be
helpful.

Yep I struggled finiding something useful for this topic in the docs.
I'd say I skip adding a link for now and we can create another MR later
to add a proper documentation + link in the documentation.


+device coredump
+---------------
+
+Prerequisite: `#include <linux/devcoredump.h>`
+
+Provides the infrastructure for a driver to provide arbitrary data to userland.
+It is most often used in conjunction with udev or similar userland application
+to listen for kernel uevents, which indicate that the dump is ready. Udev has
+rules to copy that file somewhere for long-term storage and analysis, as by
+default, the data for the dump is automatically cleaned up after 5 minutes.
+That data is analyzed with driver-specific tools or GDB.
+
+You can find an example implementation at:
+`drivers/media/platform/qcom/venus/core.c
+<https://elixir.bootlin.com/linux/v6.11.6/source/drivers/media/platform/qcom/venus/core.c#L30>`__
+
+**Copyright** ©2024 : Collabora
diff --git a/Documentation/process/debugging/general_advice.rst b/Documentation/process/debugging/general_advice.rst
new file mode 100644
index 000000000000..631430656d53
--- /dev/null
+++ b/Documentation/process/debugging/general_advice.rst
@@ -0,0 +1,48 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+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.
+
+Do I need to debug with limited access?
+---------------------------------------
+
+Do you have limited access to the machine or are you unable to stop the running
+execution?
+
+In this case your debugging capability depends on built-in debugging support of
+provided distro kernel.
+The :doc:`/process/debugging/userspace_debugging_guide` provides a brief
+overview over range of possible debugging tools in that situation. You can
+check the capability of your kernel, in most cases, by looking into config file
+within the /boot folder.
+
+Do I have root access to the system?
+------------------------------------
+
+Are you easily able to replace the module in question or to install a new
+kernel?
+
+In that case your range of available tools is a lot bigger, you can find the
+tools in the :doc:`/process/debugging/driver_development_debugging_guide`.
+
+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.
+
+When timing does alter the outcome of the code execution using a simple
+printk() for debugging purposes won't work, a similar alternative is to use

I'd s/won't/may not/

+trace_printk() , which logs the debug messages to the trace file instead of the
+kernel log.
+
+**Copyright** ©2024 : Collabora
diff --git a/Documentation/process/debugging/index.rst b/Documentation/process/debugging/index.rst
new file mode 100644
index 000000000000..c200ede7c955
--- /dev/null
+++ b/Documentation/process/debugging/index.rst
@@ -0,0 +1,21 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+============================================
+Debugging advice for Linux Kernel developers
+============================================
+

This file needs an introductory paragraph (at least) saying what it is
about.  A simple directory listing is not hugely useful.

An alternative might be to turn your "general advice" document into the
index.rst file.

Well that is what I had in the previous iteration and Bagas Sanjaya told me:
Please split general debugging advice into its own doc (e.g. at
general-advice.rst). Most other docs have index.rst only for toctree
listing.

So, shall I revert that or should I add a intro sentence to the index
file?

+.. toctree::
+   :maxdepth: 1
+
+   general_advice
+   driver_development_debugging_guide
+   userspace_debugging_guide
+
+.. only::  subproject and html
+
+   Indices
+   =======
+
+   * :ref:`genindex`
+
+**Copyright** ©2024 : Collabora
diff --git a/Documentation/process/debugging/userspace_debugging_guide.rst b/Documentation/process/debugging/userspace_debugging_guide.rst
new file mode 100644
index 000000000000..0afe35c468a9
--- /dev/null
+++ b/Documentation/process/debugging/userspace_debugging_guide.rst
@@ -0,0 +1,278 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+==========================
+Userspace debugging advice
+==========================
+
+A brief overview of common tools to debug the Linux Kernel from userspace.
+For debugging advice aimed at driver developer go :doc:`here
+</process/debugging/driver_development_debugging_guide>`.
+For general debugging advice, see :doc:`general-debugging-guide
+</process/debugging/general_advice>`.
+
+.. contents::
+    :depth: 3
+
+The following sections show you the available tools.
+
+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()

It would, of course, be nice to set up kerneldoc for all of those
functions so that these lines link through to something useful.  The
last one has kerneldoc, it just needs to be pulled in somewhere.

+Therefore the usability of this tool is, as of now, quite limited as 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'

It seems to me that the alias just obfuscates things, why bother?

Well because the Linux Kernel documentation suggests that :P
https://docs.kernel.org/admin-guide/dynamic-debug-howto.html#controlling-dynamic-debug-behaviour

If you don't like that, then I think I should send a MR for that file as
well.


+  $ 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"

What does this output tell the reader?

It tells the reader that these two debug print statements are going to
displayed, while everything else is hidden. I will add a sentence.


+**When should you use this over** `Ftrace`_ **?**

All that markup to link five lines down?

Yes you are right, that is maybe not super useful.


+- When the code contains one of the :ref:`valid print statements
+  <valid_dyndbg_prints>` or when you have added multiple pr_debug()

Do we really need to go through adding the label and markup just to link
a half-screen up the page?

Good point I can just say see above in this case


+  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
+
+For the full documentation see :doc:`/admin-guide/dynamic-debug-howto`
+
+Ftrace
+------
+
+Prerequisite: `CONFIG_DYNAMIC_FTRACE`
+
+You can find the tracing folder in either `/sys/kernel/` or `/sys/debug/kernel/`.

Maybe tell the poor reader what "the tracing folder" is?

Ack.


+Some of the most important operations for debugging are:
+
+- You can perform a function trace by adding a function name to the
+  `set_ftrace_filter` file (which accepts any function name found within the
+  `available_filter_functions` file) or you can specifically disable certain
+  functions by adding their names to the `set_ftrace_notrace` file (More info
+  at: :ref:`trace/ftrace:dynamic ftrace`).
+- In order to find out where the calls originates from you can activate the
+  `func_stack_trace` option under `options/func_stack_trace`.
+- Tracing the children of a function call and showing the return values is
+  possible by adding the desired function in the `set_graph_function` file
+  (requires config `FUNCTION_GRAPH_RETVAL`) more info at
+  :ref:`trace/ftrace:dynamic ftrace with the function graph tracer`.
+
+For the full Ftrace documentation see :doc:`/trace/ftrace`
+
+Or you could also trace for specific events by :ref:`using event tracing
+<trace/events:2. using event tracing>`, which can be defined as described here:
+:ref:`Creating a custom Ftrace tracepoint
+<process/debugging/driver_development_debugging_guide:ftrace>`.
+
+For the full Ftrace event tracing documentation see :doc:`/trace/events`
+
+.. _read_ftrace_log:
+
+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 :ref:`trace/ftrace:trace_pipe` will behave
+similar to the `trace` file, but whenever you read from the file the content is
+consumed.
+
+Kernelshark
+~~~~~~~~~~~
+
+A GUI interface to visualize the traces as a graph and list view from the
+output of the `trace-cmd
+<https://git.kernel.org/pub/scm/utils/trace-cmd/trace-cmd.git/>`__ application.
+
+For the full documentation see `<https://kernelshark.org/Documentation.html>`__
+
+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.
+
+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
+
+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 narrow down 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: build or install perf on your system
+
+Gather statistics data for finding all files starting with `gcc` in `/usr`::
+
+  # perf stat -d find /usr -name 'gcc*' | wc -l
+
+   Performance counter stats for 'find /usr -name gcc*':
+
+     1277.81 msec    task-clock             #    0.997 CPUs utilized
+     9               context-switches       #    7.043 /sec
+     1               cpu-migrations         #    0.783 /sec
+     704             page-faults            #  550.943 /sec
+     766548897       cycles                 #    0.600 GHz                         (97.15%)
+     798285467       instructions           #    1.04  insn per cycle              (97.15%)
+     57582731        branches               #   45.064 M/sec                       (2.85%)
+     3842573         branch-misses          #    6.67% of all branches             (97.15%)
+     281616097       L1-dcache-loads        #  220.390 M/sec                       (97.15%)
+     4220975         L1-dcache-load-misses  #    1.50% of all L1-dcache accesses   (97.15%)
+     <not supported> LLC-loads
+     <not supported> LLC-load-misses
+
+   1.281746009 seconds time elapsed
+
+   0.508796000 seconds user
+   0.773209000 seconds sys
+
+
+  52
+
+The availability of events and metrics depends on the system you are running.
+
+For the full documentation see
+`<https://perf.wiki.kernel.org/index.php/Main_Page>`__
+
+Perfetto
+~~~~~~~~
+
+A set of tools to measure and analyze how well applications and systems perform.
+You can use it to:
+
+* identify bottlenecks
+* optimize code
+* make software run faster and more efficiently.
+
+**What is the difference between perfetto and perf?**
+
+* perf is tool as part of and specialized for the Linux Kernel and has CLI user
+  interface.
+* perfetto cross-platform performance analysis stack, has extended
+  functionality into userspace and provides a WEB user interface.
+
+For the full documentation see `<https://perfetto.dev/docs/>`__
+
+Kernel panic analysis tools
+---------------------------
+
+  To analyse the crash dump please use `Kdump` & `Kexec`.

Those will not *analyze* a crash dump.

Well yes they will capture the crash dump, which can then be used to
analyse the crash. Maybe a better wording is:

To capture the crash dump please use `Kdump` & `Kexec`. Below you can
find some advice for analysing the data.

better?


+  For the full documentation see the :doc:`/admin-guide/kdump/kdump`
+
+  In order to find the corresponding line in the code you can use `faddr2line
+  <https://elixir.bootlin.com/linux/v6.11.6/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
+     ...
+
+  Meaning, in this line from the crash dump::
+
+    [  +0.000240]  rkvdec_device_run+0x50/0x138 [rockchip_vdec]
+
+  I can take the `0x50` as offset, which I have to add to the base address
+  of the corresponding function, which I find in this line::
+
+    0000000000000ac8 <rkvdec_device_run>:
+
+  The result of `0xac8 + 0x50 = 0xb18`
+  And when I search for that address within the function I get the
+  following line::
+
+    *bad = 1;
+    b18:      d2800001        mov     x1, #0x0
+
+**Copyright** ©2024 : Collabora

Thanks,

jon

Regards,
Sebastian Fricke




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