Testing a Golem image
Introduction
In this tutorial, we're going to explore ya-runtime-dbg
, a tool built specifically for debugging user-built images.
This tutorial assumes that you're already familiar with Docker and the basics of building a Golem application.
Installation
ya-runtime-dbg
is currently available for Linux only.
You can download the latest .deb
package from the project's releases page and install it using dpkg
:
sudo dpkg -i path/to/.../ya-runtime-dbg_v0.2.3_amd64.deb
If you don't want to (or cannot) use a .deb
package you can also download a pre-built binary (.tar.gz
file in the most recent GitHub release).
ya-runtime-dbg
requires one of the available Golem runtimes to be available on your system.
A set of default runtimes can be installed by the yagna
provider installer:
curl -sSf https://join.golem.network/as-provider | bash -
After using the installer, your runtime binaries should be present under ~/.local/lib/yagna/plugins
(again, we're assuming Linux as it's the only supported platform for ya-runtime-dbg
for now).
Alternatively, you can download a runtime package manually from its releases page (e.g. VM runtime).
Later on we're going to see how to specify the runtime to be used by the debugger.
Running the debugger
This section assumes you already have a .gvmi
file ready on your machine. If you don't, then follow the Creating a custom image tutorial or Converting an image from Docker to Golem example.
Let's now see how we can use ya-runtime-dbg
together with our image. We can learn about the program's required arguments by calling ya-runtime-dbg --help
:
USAGE:
ya-runtime-dbg [FLAGS] [OPTIONS] --runtime <runtime> --task-package <task-package> --workdir <workdir> [varargs]...
The program has three mandatory arguments:
--runtime
path to the Golem runtime we want to use,--task-package
path to the package (i.e..gvmi
image) we'd like to debug,--workdir
path to the directory that will store directories mounted as volumes inside the image.
Please note: the program does not support relative paths (i.e. paths relative to your shell's present directory).
Let's now run the debugger supplying it with appropriate parameters:
ya-runtime-dbg \
--runtime ~/.local/lib/yagna/plugins/ya-runtime-vm/ya-runtime-vm \
--task-package ~/.../docker-runtime-dbg-example-latest-be31909af5.gvmi \
--workdir /tmp/workdir
The command is split into multiple lines using \
so that it's easier to read. Some remarks related to the above call:
- The path in
--task-package
needs to be changed so that it points to where you built your.gvmi
file. /tmp/workdir
is an example path, it may not exist on your system. You can create it by callingmkdir /tmp/workdir
or using some other location.
Running the command should produce output similar to this:
[INFO] Deploying
{"valid":{"Ok":""},"vols":[{"name":"vol-20c86845-e4ef-46a2-9137-d777c66703df","path":"/golem/input"},{"name":"vol-f61c0ce8-dc63-41ca-9f1d-54e020a1ac6b","path":"/golem/output"}],"startMode":"blocking"}
[INFO] Starting
[INFO] Entering prompt, press C-d to exit
Followed by a prompt character (▶
). This indicates the debugger is now ready to be used!
Using the debugger
With the debugger running, we now have full access to our virtual machine!
The debugger provides us with an interactive shell which, by default, uses bash
(indicated by the name next to the prompt character). This means we can use regular command line tools, for example:
bash ▶ pwd
/golem/work
Calling pwd
(present working directory) returns /golem/work
, matching the path we specified in WORKDIR
in our original Dockerfile
.
This interactive prompt gives us full access to the virtual machine. For example, we could run the program or script that is normally executed by a provider.
Now, let's see how we can interact with the mounted volumes. First off, let's take a closer look at the startup output from the debugger (specifically, the vols
field from the second line):
[
{
"name": "vol-32e25157-5865-4fd2-9d35-909cd9893682",
"path": "/golem/input"
},
{
"name": "vol-1e319bdb-8d07-4d7b-b480-c076ee779f5d",
"path": "/golem/output"
}
]
This tells us about the directory mapping between our host machine and the virtual machine. The host directories are created under the path we specified as --workdir
when starting the debugger (in our case it's /tmp/workdir
).
Let's say we'd like to provide some data to the VM. We can do so by creating a file in the host directory that's mapped to /golem/input
inside the VM. Looking at the mapping definition above, this directory is going to be /tmp/workdir/vol-32e25157-5865-4fd2-9d35-909cd9893682
:
echo "stuff" > /tmp/workdir/vol-32e25157-5865-4fd2-9d35-909cd9893682/data.txt
With the debugger still running, let's now verify that this file is accessible inside our VM. Using the debugger prompt, let's issue the below command:
bash ▶ cat /golem/input/data.txt
stuff
Success! Our input data is there and can be read by the VM.
ya-runtime-dbg
is going to create new directories for volumes in each run.
Once you're done debugging or want to restart the VM, press Ctrl+D
while in the debugger prompt.
Having issues? Make sure to take a look at our: VM runtime FAQ.
Summary
ya-runtime-dbg
provides us with the exact same environment a provider would use to execute our image. This allows for more accurate testing compared to running the original Docker image manually.
Here are some other advantages of using this debugger while developing a Golem application:
- shorter iteration times while working on the payload for the provider,
- isolated testing: no need to run the entire application,
- fully controlled, local environment with access to mounted volumes,
- full shell access to the virtual machine.
Was this helpful?