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jd4 is a judging daemon for programming contests like OI and ACM. It is called jd4 because we had jd, jd2, jd3 before. Unlike previous versions that use Windows sandboxing techniques, jd4 uses newer sandboxing facilities that appear in Linux 5.19+. jd4 also multiplexes most I/O on an event loop so that only two extra threads are used during a judge - one for input, and one for output, thus allowing blocking custom judge implementations.
Prerequisites:
- Linux 5.19+
- Docker
Put config.yaml in the configuration directory, usually in
$HOME/.config/jd4. Examples can be found under the examples directory.
Create a directory for caching problem data, such as $HOME/.cache/jd4.
Use the following command to pull and run jd4:
docker run --privileged \
-v ~/.config/jd4/config.yaml:/root/.config/jd4/config.yaml \
-v ~/.cache/jd4:/root/.cache/jd4 \
vijos/jd4
Prerequisites:
- Linux 5.19+
- Python 3.8+
Use the following command to install Python requirements:
pip3 install -r requirements.txt
The python libraries require kernel headers and libffi-dev.
Put config.yaml and langs.yaml in the configuration directory, usually
in $HOME/.config/jd4. config.yaml includes the server address, user and
password and langs.yaml includes the compiler options. Examples can be found
under the examples directory.
We recommend to use the following commands to initialize the config:
mkdir -p ~/.config/jd4 cp examples/config.yaml ~/.config/jd4/ ln -sr examples/langs.yaml ~/.config/jd4/
Build the cython extensions inplace:
python3 setup.py build_ext --inplace
Use the following command to run the daemon:
python3 -m jd4.daemon
Note that this requires a sudo to create cgroups on first execution.
Use the following command to create and enter the sandbox:
$ python3 -m jd4.sandbox [D 170312 15:15:38 selector_events:53] Using selector: EpollSelector [I 170312 15:15:38 sandbox:153] sandbox_dir: /tmp/jd4.sandbox.k6ig1fv8 bunny-4.3$ ls bin etc in lib lib64 out proc usr bunny-4.3$
The in and out directory are bound to the corresponding directory
in sandbox_dir, where in is read-only and out has write permission.
We unshare everything (namely mount, uts, ipc, user, pid and net), and then
create a root filesystem using tmpfs and bind mount, finally pivot_root
into it. We also use cgroup to limit the time, memory and number of processes
of user execution.
We noticed that sandbox creation took around 100ms, therefore becomes the bottleneck while judging small programs. With sandbox pooling, we see 300-400 executions per second on our development machine.
The comparator needs to process the user output by characters (in other word bytes). This kind of operation is very slow in Python. We see a 50x+ throughput increment by using Cython (like 3MB/s to 200MB/s).
Copyright (c) 2024 Vijos Dev Team. All rights reserved.
This program is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details.
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