_ _ _____ ___ __ ___ __ _ ___| |__ (_)_ __ __ _ / _ \ \/ / '_ ` _ \ / _` |/ __| '_ \| | '_ \ / _` | | __/> <| | | | | | (_| | (__| | | | | | | | (_| | \___/_/\_\_| |_| |_|\__,_|\___|_| |_|_|_| |_|\__,_| ### DISCLAIMER ----- ACHTUNG! WARNING! DANGER! ---- This code is hackish and not "production quality. It represents a potential approach to a specific problem (privilege separation for system configuration). It has not been extensively reviewed or tested and does not represent a known best practice. ### What is this? exmachina is a small system configuration system which runs as separate but coupled client/server UNIX processes for the purpose of privilege separation: the "server" process runs with root privileges and a python program using the "client" library runs as any unprivileged user. The commands and parameters that the client can send to the server are limited, though in this particular case can of course be used to deny service (reboot or shutdown the machine) or probably escalate privileges one way or another (install arbitrary packages, reconfigure networks, enable callback scripts, edit system configuration files). The intended use case is writing a user-friendly web control panel for a Debian server or router: the web designer creating the user interface should not be overly concerned with writing secure code, and the web application itself (possibly including lots of third party framework code, javascript libraries, etc) should not run with strong system permissions, but core components of the system (such as hostname, wireless access point configuration, network settings, package installation, locale, timezone, etc) need to be modified. ### Alternatives The most simple alternative to exmachina that has been recommended to me is to create simple setuid/setgid programs or scripts to execute privileged system changes, and to only allow execute permissions to those programs for the user/group of the less-trusted user interface program. This seems to be the current best practice. For the more complicated case of generalized system configuration, the setuid/setgid program becomes complicated, or you need to write and install many of them, but this is no worse that the situation with exmachina. Another approach is the Assuan protocol used by GPG, which has been generalized as libassuan: "Assuan permits the servers, which do the actual work, e.g. encryption and decryption of data using a secret key, to be developed independently of the user interfaces, e.g. mail clients and other encryption front ends." http://www.gnupg.org/related_software/libassuan/index.en.html ### Status Basic server and client functionality implemented. Crude, and far more simple than it may appear or the length of code would imply. This was code was written in a weekend "sprint" for the FreedomBox project and their Plinth web user interface in 2012. I may or may not maintain this code. I have hesitation even publishing it because i'm almost certain there are implementation bugs and that the entire concept is problematic. Features: * shared secret key process/privilege separation * call augeas API: match, set, setm, get, save, move, insert, remove * call init.d service scripts: status, start, stop, restart ### Dependencies (server) * augeas configuration editing library * python-augeas wrapper for augeas * bjsonrpc python library On debian (wheezy) try: $ sudo apt-get install augeas-tools python-bjsonrpc python-augeas ### Dependencies (client) * bjsonrpc On debian (wheezy) try: $ sudo apt-get install bjsonrpc ### License exmachina.py is GPLv3 or later