There appears to be support for fine-grained capabilities in Linux kernel, which allows granting privileges to a process to do things like, for example, opening raw sockets or raising thread priority without granting the process root privileges.

However what I'd like to know if there is a way to grant per-user capabilities. That is, allow non-root and non-suid processes to acquire those capabilities.

  • 3
    How is this closed? Modern stackoverflow in a nutshell
    – TZubiri
    Jul 24, 2020 at 0:00
  • I can't answer because it's closed, but the solution (with Linux 4.3+) is Ambient capabilies -- they exactly grant inherited per-user capabilities. Feb 7, 2021 at 21:20

4 Answers 4


It can sort of be done with libcap - it provides a PAM module pam_cap.so. However it's not quite that simple :)

Each process has three capability sets:

  • Effective (the caps that this process actually has)
  • Permitted (the caps that this process can possibly have - a superset of Effective)
  • Inheritable (the caps that this process can pass to a child process)

Each file has the same capability sets. When a new binary is exec()'d, the capabilities of the process change according to the following rules, where:

  • pI/pP are the process's initial Inheritable/Permitted capabilities
  • pI'/pP'/pE' are the process's new Inheritable/Permitted/Effective capabilities
  • fI/fP/fE are the file's Inheritable/Permitted/Effective capabilities
  • & represents intersection
  • | represents union

    pI' = pI
    pP' = fP | (pI & fI)
    pE' = fE & pP'

(simplified from http://www.friedhoff.org/posixfilecaps.html)

In most scenarios, pE' is the only result we care about. Programs that are linked against libcap can call setcap() to change their Effective caps (as long as the caps they try to request are in the Permitted set), but the vast majority of programs don't explicitly touch their caps so we have to arrange for the cap to be effective post-exec().

Having a concrete example will help understanding here... I got fed up with having to 'su' to run openvpn, so I wanted to grant myself the CAP_NET_ADMIN capability to allow the setting of routes and such.

Looking at the last rule (pE' = fE & pP') it's clear that to have CAP_NET_ADMIN in the process's Effective set, CAP_NET_ADMIN must be in the file's Effective set. So, the capabilities system doesn't allow us to simply say "grant CAP_NET_ADMIN to user sqweek" - the program's capabilities are always important.

Being in the file's Effective set isn't enough though, the cap also needs to be in the process's new Permitted set. Lets look at that rule: pP' = fP | (pI & fI). So there's two ways we can get the cap in pP', either we add CAP_NET_ADMIN to the file's Permitted set, or we add it to the file's Inheritable set and make sure it is in the process's Inheritable set.

If we add it to the file's Permitted set, then the process's initial capabilities become irrelevant - openvpn will get CAP_NET_ADMIN every time it runs, regardless of who runs it. This is similar to setuid, but provides a more fine-grained approach. Still, it is not a per-user granularity, so lets look at the other option.

Note the first rule, pI' = pI. The process's Inheritable capabilities are unaffected by exec(). What this means is, all we need is a single libcap aware program to set CAP_NET_ADMIN as an Inheritable cap, and every process spawned from there will also have CAP_NET_ADMIN Inheritable. This is the role the pam module plays - it modifies the Inheritable set during login, which is then inherited for all of that user's processes.

To summarise:

  1. Install libcap
  2. Configure the pam_cap module (add the line cap_net_admin sqweek to /etc/security/capability.conf. If the file did not previously exist, add another line none * for a sensible default.
  3. Enable the PAM module during login (add auth required pam_cap.so to /etc/pam.d/login). Make sure to test your login in a separate terminal BEFORE logging out when making PAM changes so you don't lock yourself out!
  4. Add CAP_NET_ADMIN to the Effective and Inheritable sets for openvpn (setcap cap_net_admin+ie /usr/sbin/openvpn)
  5. openvpn calls ip to change the routing table and such, so that needs the same treatment (setcap cap_net_admin+ie /sbin/ip)

Note that /etc/pam.d/login only governs local logins - you might want to give eg. /etc/pam.d/sshd similar treatment. Also, any capabilities you add via setcap will be blown away when your package manager installs a new version of the target binary so you'll have to re-add them.

  • Still, it's not much use to us, so lets look at the other option. Why is that not much use? In a multi-user system I could see the limitation, that it grants the capability to all users, so if you want to do it on a per-user basis it's not of much use. But most Linux machines today are de facto single user machines, so I don't see the problem. (Well, there might be some service running as different user.)
    – Uwe Geuder
    Jan 11, 2016 at 11:26
  • 1
    I'm not really sure what to say, as you've answered your own question. The OP was asking how to set capabilities per user, and adding caps to the file's permitted set controls them on a per binary basis (which, to be clear, is still useful functionality). I agree it's a moot point on many systems, but even so explaining how to set capabilities for a specific binary is not answering the question being asked.
    – sqweek
    Jan 12, 2016 at 15:46
  • You are of course correct. I had already forgotten the original question when studying your answer. I have clarified the reasoning now, let's see whether my edit gets approved.
    – Uwe Geuder
    Jan 13, 2016 at 7:16
  • Looks like they were. Btw I have to retract my statement "I agree it's a moot point on many systems", I must have been feeling very agreeable yesterday :P. Even on a single user system different accounts have applications. For example while I'm the only user of my laptop, I run my web browser under a separate user account so that a vulnerability in the browser cannot, by itself, expose my personal data. Obviously I don't want to let this account modify my network routes :P
    – sqweek
    Jan 14, 2016 at 8:00
  • 1
    @John libcap provides an interface to fiddle with linux capabilities. Presumably you could achieve the same outcome with direct syscalls, but the utilities mentioned in the answer (setcap, pam_cap.so) all depend on libcap (on my system they're even distributed in the same package).
    – sqweek
    Dec 13, 2016 at 5:03

Yes, you can use setcap to specify a capability set for an executable, which can grant specific capabilities when that executable is run.

From the capabilities(7) man page:

File Capabilities Since kernel 2.6.24, the kernel supports associating capability sets with an executable file using setcap(8). The file capability sets are stored in an extended attribute (see setxattr(2)) named security.capability. Writing to this extended attribute requires the CAP_SETFCAP capability. The file capability sets, in conjunction with the capability sets of the thread, determine the capabilities of a thread after an execve(2).

The way to grant capabilities per-user (or even per-group) would be with a PAM module. sqweek's answer shows how to do this using pam_cap.

  • 15
    Yes, I know you can set capabilities per executable. My question, however, is if you can set the capabilities per-user, that is, all executables run under the user are granted certain capabilities.
    – Alex B
    Dec 26, 2009 at 1:13

I've not confirmed, but I think that this aspect of SELinux may be your answer:


  • +1 for SELinux. It solves this problem nicely.
    – mrduclaw
    Dec 24, 2009 at 5:00
  • Thanks, I will consider it, however changing over to SELinux may be quite burdensome for existing infrastructure.
    – Alex B
    Dec 26, 2009 at 1:15

Have a look at CapOver - it should do what you want.

Note: I haven't used this as it's not (yet?) been ported to the 2.6.30ish kernel API.

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