---
author: Sanchayan Maity
title: Automate debugging using GDB scripting
tags: linux, gdb, gdb scripting, gstreamer
---

Recently I was working on a GStreamer
[plugin](https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs/-/merge_requests/572)
in Rust. The plugin basically rounds the corners of an incoming video,
something akin to the `border-radius` property in CSS. Below is how it looks
like when running on a video.

![](/images/roundedcorners.jpg)

The GStreamer pipeline for the same.

```bash
gst-launch-1.0 filesrc location=~/Downloads/bunny.mp4 ! decodebin ! videoconvert ! video/x-raw,format=I420 ! roundedcorners border-radius-px=100 ! video/x-raw,format=A420 ! videoconvert ! gtksink
```

This was my first time working on a video plugin in GStreamer. Had a lot to
learn on how to use the `BaseTransform` class from GStreamer, among other
things. Without getting into the GStreamer specific details here, I basically
ran into a problem for which I needed to do some debugging for figuring out
what was going on in the internals of GStreamer.

Now, while I never had problems using GDB from the command line, but, the way I
was using it earlier was just not good enough. I would start the pipeline, then
attach gdb to a running process, place breakpoints by manually typing out the
whole thing and then start. For one off debugging sessions, where may be you
just want to quickly inspect the backtrace from a crash or may be look into a
deadlock condition where your code hanged, this could be fine. However, when
you have to repeat this multiple times, do a source code change, compile and
then check again, it becomes frustrating.

## GDB Dashboard

Looking for a better way, I first stumbled on
[gdb-dashboard](https://github.com/cyrus-and/gdb-dashboard). 
This is quite useful since it can give the needed information without having to
type anything. Using gdb
[hooks](https://git.sr.ht/~sanchayanmaity/dotfiles/tree/master/item/gdb/.gdbinit.d/hooks),
the dashboard can be triggered when appropriate. See the rest of my
[gdb configuration](https://git.sr.ht/~sanchayanmaity/dotfiles/tree/master/item/gdb/.gdbinit.d)
to get an idea. I use this in scenarios like where code is stuck due to a
deadlock, I need to look at the backtrace of a crash or any such one off simple
investigation.

## Construct breakpoint command in neovim & copy to clipboard

The next small improvement I did was more specific to my use of neovim. Am
generally navigating source code using neovim, which would be opened in one
kitty tab and gdb would be running in terminal in next tab or a split. Wanted
to be able to quickly place a breakpoint without having to type anything out on
the gdb prompt. Wrote a small piece of vimscript code which generates the gdb
command, I would have to type on the gdb prompt to enable a breakpoint,
considering the current line and file on which my cursor is at in the source
when opened in neovim.

```vimscript
function! CopyBpLocToClipboard() abort
  let linenumber = line(".")
  let filepath = expand("%")
  let breakpoint = "break " . filepath . ":" . linenumber
  silent execute "!wl-copy " . breakpoint
endfunction

nnoremap <silent> <Leader>yb :<C-U>call CopyBpLocToClipboard()<CR> 
```

So I can hit the key binding above and a command like below will be copied to
the clipboard which I can paste on gdb prompt.

```bash
break subprojects/gst-plugins-base/gst-libs/gst/video/video-frame.c:104
```

Nifty!!!

## GDB scripting

Now imagine a scenario where may be one wants to look at multiple places in the
source code and when the program is running, inspect certain variables or just
print out a back trace each time a specific code point is reached.

The dumb way to do this and the way which I was also doing it earlier, was to
load the executable in gdb or attach to a running process, place a break point,
run, inspect the local variables or print stack trace, place the next break
point and repeat this whole process. Just time consuming and a waste of time.

GDB can completely automate the above process. Let's see how.

Below is the `.gdbinit` file I came up with for my problem. This is what is
called a command file by gdb.

```bash
set confirm off
set breakpoint pending on
set logging on
set logging overwrite on
set print pretty on
set pagination off
break subprojects/gst-plugins-base/gst-libs/gst/video/video-frame.c:104 if meta->n_planes == 4
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:228
break subprojects/gstreamer/gst/gstbuffer.c:1410
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:231
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:237
break subprojects/gst-plugins-base/gst-libs/gst/video/video-frame.c:136

commands 1
    print i
    print *frame
    enable 2
    enable 3
    enable 4
    enable 5
    enable 6
    continue
end
commands 2
    print offset
    continue
end
commands 3
    print offset
    print size
    continue
end
commands 4
    print *(GstBufferImpl *)buffer
    print idx
    print length 
    print skip
    continue
end
commands 5
    disable 2
    disable 3
    disable 4
    print *(GstBufferImpl *)buffer
    print info->data
    print skip
    print *data
    continue
end
commands 6
    print *frame
    quit
end

disable 2
disable 3
disable 4
disable 5
disable 6
run
```

The command I was using to debug my GStreamer plugin in this pipeline with gdb.

```bash
gdb --nx -x .gdbinit --args env RUST_BACKTRACE=1 GST_DEBUG=3,basetransform:6 GST_PLUGIN_PATH=$GST_PLUGIN_PATH:~/GitSources/gst-plugins-rs/target/debug gst-launch-1.0 filesrc location=~/Downloads/bunny.mp4 ! decodebin ! videoconvert ! video/x-raw,format=I420 ! roundedcorners border-radius-px=100 ! video/x-raw,format=A420 ! videoconvert ! gtksink
```

In the command above, the `-x` parameter tells gdb to use the command file. The
`--nx` flag tells gdb to not read any any `.gdbinit` files in any directory, as
I did not want to use `gdb-dashboard` for this. `--args` is how I tell gdb what
to run, which is my GStreamer pipeline. You can see `gdb --help` for details on
the flags.

Now, let's understand what the command file does. The ones below are just some
settings we want gdb to use. Note that we have turned on logging and pretty
printing.

```bash
set confirm off
set breakpoint pending on
set logging on
set logging overwrite on
set print pretty on
set pagination off
```

Next we specify the breakpoints. We have six breakpoints. These are the
locations which were of interest to me.

```bash
break subprojects/gst-plugins-base/gst-libs/gst/video/video-frame.c:104 if meta->n_planes == 4
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:228
break subprojects/gstreamer/gst/gstbuffer.c:1410
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:231
break subprojects/gst-plugins-base/gst-libs/gst/video/gstvideometa.c:237
break subprojects/gst-plugins-base/gst-libs/gst/video/video-frame.c:136
```

Breakpoints can be enabled conditionally. The `if meta->n_planes == 4` implies
to consider this breakpoint only when we get a video frame with 4 planes.

We can now tell gdb what should it do when each of the breakpoint above is hit.

```bash
commands 1
    print i
    print *frame
    enable 2
    enable 3
    enable 4
    enable 5
    enable 6
    continue
end
```

`commands 1` implies these are the commands for gdb to execute when breakpoint
1 is hit. When breakpoint 1 is hit, it will print the value of `i` and `frame`.
The other breakpoints get enabled only after the first one is hit. This is
because at the end of command file, we have

```bash
disable 2
disable 3
disable 4
disable 5
disable 6
```

which tells gdb to start with these breakpoints disabled. They will get enabled
only when we hit breakpoint 1. The `continue` just tells gdb to continue, as we
do not want to stop on hitting a breakpoint and only want to inspect in the end
using gdb log.

Similarly we have for other breakpoints.

The `run` at the end tells gdb to start running immediately. In normal usage
one would have to explicitly type `run` on the gdb prompt to make gdb start
debugging.

Now, since we turned on logging after running the below on the terminal

```bash
gdb --nx -x .gdbinit --args env RUST_BACKTRACE=1 GST_DEBUG=3,basetransform:6 GST_PLUGIN_PATH=$GST_PLUGIN_PATH:~/GitSources/gst-plugins-rs/target/debug gst-launch-1.0 filesrc location=~/Downloads/bunny.mp4 ! decodebin ! videoconvert ! video/x-raw,format=I420 ! roundedcorners border-radius-px=100 ! video/x-raw,format=A420 ! videoconvert ! gtksink
```

gdb will run the pipeline, considering the command file it was passed and log
whatever it was asked to log when each breakpoint is encountered. And now since
we had turned on logging and pretty printing, gdb will nicely log everything in
default `gdb.txt` file. You can see the exact log text file
[here](https://gitlab.freedesktop.org/gstreamer/gst-plugins-rs/-/merge_requests/572#note_1107146),
where I have attached the `gdbinit` and the other two log files.

Now, one can comfortably look at this log and see what is going on. Once the
command file is written, the whole debugging process is completely automated.
Run, sit back and then look at the logs.

Using gdb is now a breeze and hassle free experience. Being able to automate
and log the debugging process like this, also means you could share your
command file and someone else can replicate this. Wish I would have learned
this sooner.