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  • Language
    C
  • License
    MIT License
  • Created over 1 year ago
  • Updated 7 months ago

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Repository Details

Linux containers from scratch in C.

barco

barco is a project I worked on to learn more about Linux containers and the Linux kernel, based on other guides on the internet. Linux containers are made up by a set of Linux kernel features:

  • namespaces: are used to group kernel objects into different sets that can be accessed by specific process trees. There are different types of namespaces, for example,the PID namespace is used to isolate the process tree, while the network namespace is used to isolate the network stack.
  • seccomp: is used to limit the system calls that a process can make (handled via syscalls)
  • capabilities: are used to set limits on what uid 0 (root) can do (handled via syscalls)
  • cgroups: are used to limit the resources (e.g. memory, disk I/O, CPU-tme) that a process can use (handled via cgroupfs)

Usage

barco can be used to run bin/sh . from the / directory as root (-u 0) with the following command (optional -v for verbose output):

$ sudo ./bin/barco -u 0 -m / -c /bin/sh -a . [-v]

22:08:41 INFO  ./src/barco.c:96: initializing socket pair...
22:08:41 INFO  ./src/barco.c:103: setting socket flags...
22:08:41 INFO  ./src/barco.c:112: initializing container stack...
22:08:41 INFO  ./src/barco.c:120: initializing container...
22:08:41 INFO  ./src/barco.c:131: initializing cgroups...
22:08:41 INFO  ./src/cgroups.c:73: setting memory.max to 1G...
22:08:41 INFO  ./src/cgroups.c:73: setting cpu.weight to 256...
22:08:41 INFO  ./src/cgroups.c:73: setting pids.max to 64...
22:08:41 INFO  ./src/cgroups.c:73: setting cgroup.procs to 1458...
22:08:41 INFO  ./src/barco.c:139: configuring user namespace...
22:08:41 INFO  ./src/barco.c:147: waiting for container to exit...
22:08:41 INFO  ./src/container.c:43: ### BARCONTAINER STARTING - type 'exit' to quit ###

# ls
bin         home                lib32       media       root        sys         vmlinuz
boot        initrd.img          lib64       mnt         run         tmp         vmlinuz.old
dev         initrd.img.old      libx32      opt         sbin        usr
etc         lib                 lost+found  proc        srv         var
# echo "i am a container"
i am a container
# exit

22:08:55 INFO  ./src/barco.c:153: freeing resources...
22:08:55 INFO  ./src/barco.c:168: so long and thanks for all the fish

Setup

barco requires a number of tools and libraries to be installed to build the project and for development.

# Install all required tooling and dependencies
$ sudo apt install -y make
$ make setup

Dependencies

barco depends on the following "non-standard" libraries:

  • libseccomp: used to set up seccomp filters
  • libcap: used to set container capabilities
  • libcuni1: used for testing with CUnit
  • argtable: used to parse command line arguments
  • rxi/log.c: used for logging

barco uses a number of LLVM-18-based tools for development, linting, formatting, debugging and Valgrind to check for memory leaks.

Build

The included Makefile provides a few targets to build barco. The variable debug=1 can be set to run any of the targets in "debug" mode, which builds the project with debug symbols and without optimizations (especially useful for the debugger and valgrind).

# Build barco (executable is in bin/)
# The default target also runs, "make lint" and "make format" to lint and format the code
$ make


# Build barco with debug flags
$ make debug=1

Development

barco is developed using Visual Studio Code and GitHub Codespaces. The repository contains all the necessary configuration files to use these tools effectively. barco relies on low-level Linux features, so it must be run on a Linux system. GitHub Codespaces acts weird at times when tweaking low-level container settings: I found getutm.app to work well with Debian on my Mac when in doubt.

The included Makefile provides a few targets useful for development:

# Run tests
$ make test

# Run linter
$ make lint

# Run formatter
$ make format

# Run valgrind
$ make check

# Clean the build
$ make clean

Furthermore, the project includes a Visual Studio Code configuration in .vscode/ that can be used to run the built-in debugger (at this moment it is "disabled" since barco should be run as root and CodeLLDB does not have that option).

Structure

The project is structured as follows:

β”œβ”€β”€ .devcontainer       configuration for GitHub Codespaces
β”œβ”€β”€ .github             configuration GitHub Actions and other GitHub features
β”œβ”€β”€ .vscode             configuration for Visual Studio Code
β”œβ”€β”€ bin                 the executable (created by make)
β”œβ”€β”€ build               intermediate build files e.g. *.o (created by make)
β”œβ”€β”€ docs                documentation
β”œβ”€β”€ include             header files
β”œβ”€β”€ lib                 third-party libraries
β”œβ”€β”€ scripts             scripts for setup and other tasks
β”œβ”€β”€ src                 C source files
β”‚   β”œβ”€β”€ barco.c         (main) Entry point for the CLI
β”‚   └── *.c
β”œβ”€β”€ tests               contains tests
β”œβ”€β”€ .clang-format       configuration for the formatter
β”œβ”€β”€ .clang-tidy         configuration for the linter
β”œβ”€β”€ .gitignore
β”œβ”€β”€ LICENSE
β”œβ”€β”€ Makefile
└── README.md

Testing and documentation

At the moment, the project does not contain any automated tests or tools to document the code. In the future, suitable tools for automated testing and documentation might be added.

Limitations

  1. barco has been tested on Debian 12, running the Linux kernel at version 6.1.0, with user namespaces and cgroupsv2 enabled.

  2. barco does not handle network namespaces, so the container cannot access the network. Networking can roughly be setup as follows:

    • create a new network namespace
    • create a virtual ethernet pair
    • move one end of the pair to the new network namespace
    • assign an IP address to the interface in the new network namespace
    • setup routing and NAT

    In C this is usually done via the rtnetlink interface. Furthermore, network usage can be limited with the net_prio cgroup controller.

Improvements

  • Investigate further, document and refactor: user and mount and cgroup namespaces, syscalls and capabilities
  • The functions in cgroups.c, mount.c, sec.c, user.c are specific to barco and should be made more generic
  • CMake and Conan are industry standards, so they should be used eventually instead of Make and the current build system. Unfortunately, CMake and Conan also add a lot of complexity which is not needed at this time.

Credits

Some of the resources that have been used to develop barco are:

FAQ

  • Why C? I haven't written much C since college and nostalgia got me.
  • What does "barco" mean? It's Venetian (my native language) for "hay barrack".
  • Nice logo, did you design it yourself? Kind of, I asked Midjourney to come up with some designs.