linuxns-rel 1.0.5

Linux namespace relationships library

Linux Kernel Namespace Relations

NOTE: Linux Kernel 4.9+ and Python 3.5+ supported only

This Python 3 package allows discovering the following Linux Kernel namespace relationships and properties, without having to delve into ioctl() hell:

• the owning user namespace of another Linux kernel namespace.
• the parent namespace of either a user or a PID namespace.
• type of a Linux kernel namespace: user, PID, network, ...
• owner user ID of a user namespace.

See also ioctl() operations for Linux namespaces for more background information of the namespace operations exposed by this Python library.

Installation

$ pip3 install linuxns-rel

NOTE: the installation automatically detects Debian 9 Stretch and correctly handles installing the PyQt5 package, if it is missing, in at most version 5.10.1 -- as this is the last known working PyQt5 release on Debian 9 Stretch.

API Documentation

Please head over to our linuxns_rel API documentation on GitHub Pages.

CLI Examples

NOTE: Debian 9 Stretch users will lack the ability discover the owner user ID of hierarchical namespaces. The reason is that Debian 9 Stretch ships with outdated Linux kernels that lack the required Kernel functionality. Please enjoy this kind of stability. (Or is this "austerity"?)

List User Namespaces

You can either use a simple lsuserns or sudo lsuserns -- the latter ensures that you'll see all user namespaces instead of only those you have user access to.

$ sudo lsuserns

may yield something like this, a pretty hierarchy of Linux kernel user namespaces:

user:[4026531837] process "init (1)" namespace-owning user "root" (0)
 ├── user:[4026532217] process "sleep (9403)" namespace-owning user "harald" (1000)
 ├── user:[4026532401] process "firefox (1374)" namespace-owning user "harald" (1000)
 ├── user:[4026532582] process namespace-owning user "harald" (1000)
 │   └── user:[4026532583] process namespace-owning user "harald" (1000)
 │       └── user:[4026532584] process namespace-owning user "harald" (1000)
 │           └── user:[4026532585] process "bash (1468)" namespace-owning user "harald" (1000)
 ├── user:[4026532639] process "firefox (2723)" namespace-owning user "harald" (1000)
 ├── user:[4026532696] process "firefox (2768)" namespace-owning user "harald" (1000)
 └── user:[4026532936] process "firefox (17192)" namespace-owning user "harald" (1000)

If you want to additionally see which non-user namespaces are owned by the user namespaces, then add the CLI arg -d (as in "details"):

$ sudo lsuserns -d

In the output, "⟜" denotes a non-user namespace (ipc, mnt, net, ...) which is owned by a particular user namespace.

user:[4026531837] process "init (1)" namespace-owning user "root" (0)
 ├── ⟜ cgroup:[4026531835] process "init (1)"
 ├── ⟜ ipc:[4026531839] process "init (1)"
 ├── ⟜ mnt:[4026531840] process "init (1)"
 ├── ⟜ mnt:[4026531860] process "[kdevtmpfs] (57)"
 ├── ⟜ mnt:[4026532216] process "systemd-udevd (470)"
 ├── ⟜ mnt:[4026532263] process "systemd-resolved (1217)"
 ├── ⟜ mnt:[4026532264] process "systemd-timesyncd (1218)"
 ├── ⟜ mnt:[4026532452] process "haveged (1223)"
 ├── ⟜ mnt:[4026532453] process "ModemManager (1264)"
 ├── ⟜ mnt:[4026532454] process "NetworkManager (1268)"
 ├── ⟜ mnt:[4026532455] process "irqbalance (1312)"
 ├── ⟜ mnt:[4026532456] process "mpd (1402)"
 ├── ⟜ mnt:[4026532524] process "upowerd (1618)"
 ├── ⟜ net:[4026532000] process "init (1)"
 ├── ⟜ net:[4026532266] process "haveged (1223)"
 ├── ⟜ net:[4026532458] process "rtkit-daemon (2148)"
 ├── ⟜ pid:[4026531836] process "init (1)"
 ├── ⟜ uts:[4026531838] process "init (1)"
 ├── user:[4026532217] process "sleep (9403)" namespace-owning user "harald" (1000)
 │   └── ⟜ net:[4026532219] process "sleep (9403)"
 ├── user:[4026532401] process "firefox (1374)" namespace-owning user "harald" (1000)
 │   ├── ⟜ ipc:[4026532512] process "firefox (1374)"
 │   └── ⟜ net:[4026532529] process "firefox (1374)"
 ├── user:[4026532582] process namespace-owning user "harald" (1000)
 │   └── user:[4026532583] process namespace-owning user "harald" (1000)
 │       └── user:[4026532584] process namespace-owning user "harald" (1000)
 │           └── user:[4026532585] process "bash (1468)" namespace-owning user "harald" (1000)
 ├── user:[4026532639] process "firefox (2723)" namespace-owning user "harald" (1000)
 │   ├── ⟜ ipc:[4026532640] process "firefox (2723)"
 │   └── ⟜ net:[4026532642] process "firefox (2723)"
 ├── user:[4026532696] process "firefox (2768)" namespace-owning user "harald" (1000)
 │   ├── ⟜ ipc:[4026532697] process "firefox (2768)"
 │   └── ⟜ net:[4026532699] process "firefox (2768)"
 └── user:[4026532936] process "firefox (17192)" namespace-owning user "harald" (1000)
     ├── ⟜ ipc:[4026532937] process "firefox (17192)"
     └── ⟜ net:[4026532939] process "firefox (17192)"

If you have either Chromium or/and Firefox running, then these will add some user namespaces in order to sandbox their inner workings. And to add in some more hierarchical user namespaces, in another terminal session simply issue the following command:

$ unshare -Ur unshare -Ur unshare -Ur unshare -Ur

Debian users may need to sudo because their distro's default configuration prohibits ordinary users to create new user namespaces.

List PID Namespaces

$ sudo lspidns 

shows the PID namespace hierarchy, such as:

pid:[4026531836] process "init" owner user:[4026531837] root (0)
 ├── pid:[4026532532] process "sh" owner user:[4026531837] root (0)
 └── pid:[4026532468] process "chromium-browser --type=zygote" owner user:[4026532467] foobar (1000)
     ├── pid:[4026532464] process "chromium-browser" owner user:[4026532589] foobar (1000)
     ├── pid:[4026532466] process "chromium-browser" owner user:[4026532589] foobar (1000)
     └── pid:[4026532590] process "chromium-browser" owner user:[4026532589] foobar (1000)

Don't worry that the PID namespace hierarchy doesn't match the user namespace hierarchy. That's perfectly fine, depending on which programs run. In our example, we didn't create new PID namespaces when using unshare, so we see only additional PID namespaces created by Chromium (Firefox doesn't create them though).

Namespace Graph

Okay, with the famous graphviz installed (apt-get install graphviz) now simply do:

$ sudo -E graphns

Note: -E ensures that the graph viewer will correctly use the your desktop environment theme.

...and you get something fancy with arrows, et cetera, in a cute (erm, "qute") little viewer window:

The view window supports these actions:

• mouse drag: move the visible area around inside the view window (usefull when either the graph is really large or when zoomed in).
• mouse wheel: zoom in/out.
• +/- keys: zoom in/out.
• 1 key: reset zoom to 1x.
• s key: save image to an SVG file.
• q key: close and exit the viewer.
• h key: show help on mouse and keys.

Potentially FAQs

1. Q: Why do get_userns() and get_parentns() return file objects (TextIO) instead of filesystem paths?

   A: Because that's what the Linux namespace-related ioctl() functions are giving us: open file descriptors referencing namespaces in the special nsfs namespace filesystem. There are no paths associated with them.

2. Q: What argument types do get_nstype(), get_userns(), get_parentns(), and get_owner_uid() expect?

   A: Choose your weapon:

   • a filesystem path (name), such as /proc/self/ns/user,
   • an open file object (TextIO), such as returned by open(),
   • an open file descriptor, such as returned by fileno() methods.

3. Q: Why does get_parentns() throw an PermissionError?

   A: There are multiple causes:

   • you didn't specify a PID or user namespace,
   • the parent namespace either doesn't exist,
   • or the parent namespace is inaccessible to you,
   • oh, you really have no access to the namespace reference.

4. Q: Why does get_userns() throw an PermissionError?

   A: You don't have access to the owning user namespace.