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I want to make system usable without setuid, file "+p" capabilities, and in general without things which are disabled when I set PR_SET_NO_NEW_PRIVS.

With this approach (init sets PR_SET_NO_NEW_PRIVS and filesystem-based capability elevation no longer possible) you cannot "refill" your capabilities and only need to be careful not to "splatter" them.

How to execve some other process without "splattering" any granted capabilities (such as if the new program's file is setcap =ei)? Just "I trust this new process as I trust myself". For example, a capability is given to a user (and the user wants to exercise it in any program he starts)...

Can I make the entire filesystem permanently =ei? I want to keep the filesystem just not interfering with the scheme, not capable of granting or revoking capabilities; controlling everything through parent->child things.

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Can you please clarify a point, in your title you wrote "in spite of missing file capabilities", in your question you say you want to use this feature and set the whole file's capabilities bits to ei. Is the feature present or not in your system? –  Étienne May 8 '13 at 18:07
    
Means filesystem capabilities does not allow +i for, for example, files user have just compiled, but we still want that user to be able to use this capability. Getting capabilities using +i works only as intersection between process (user's) +i and filesystem's +i. Without contest of the filesystem (no +p and no +i), I can't run other executable preserving effective capability I already have. This created discrepancy (i.e. can load a dynamic library that will use my capability, but this library can't spawn processes without losing caps). –  Vi. May 8 '13 at 20:50

1 Answer 1

There is currently no simple way to do that, if you refer to the capabilities' man page:

During an execve(2), the kernel calculates the new capabilities of the process
using the following algorithm:

P'(permitted) = (P(inheritable) & F(inheritable)) | (F(permitted) & cap_bset)

P'(effective) = F(effective) ? P'(permitted) : 0 

P'(inheritable) = P(inheritable)    [i.e., unchanged]

where:

P        denotes the value of a thread capability set before the execve(2)
P'       denotes the value of a capability set after the execve(2)
F        denotes a file capability set
cap_bset is the value of the capability bounding set 

If the file you want to execute doesn't have its fE bit set, or its fI bits aren't set, your process will have no permitted and therefore no effective capabilities.

Setting the whole file system effective bit and inheritance bits would be technically possible but that would not make much sense since it would strongly reduce the security on the system, (edit: and as you mentioned that won't work for new executables).

You can indeed give some capabilities to a user with pam_cap, but you can't let them execute any file they just compiled using that. Capabilities are by design made to give power to programs and not to users, you can read in Hallyn's paper:

A key insight is the observation that programs, not people, exercise privilege. That is, everything done in a computer is via agents—programs—and only if these programs know what to do with privilege can they be trusted to wield it.

See also the POSIX draft 1003.1e, which defines POSIX capabilities, page 310:

It is also not appropriate to establish for a process chain (a sequence of programs within a single process) a set of capabilities that remains fixed and active throughout the life of that chain. [...] This is an application of the principle of least privilege, and it applies equally to users and to processes.

Someone asked to introduce what you want to do as a feature in this Linux kernel mailing list recently (dec. 2012), and there are some very interesting answers given. Some people argue that dropping file capabilities in inheritance rules across exec would introduce some security problems and that capabilities are not designed for such a feature, even though no explanation is given wrt which security issue it would introduce:/

The only way to do that currently is to modify the way capabilities are inherited in the Linux kernel (2 files to modify, I tested it successfully on a 3.7 kernel), but it's not clear whether that is secured or not as mentioned above.

On old kernels (before 2.6.33) there was an option to compile without file's capabilities (CONFIG_SECURITY_FILE_CAPABILITIES), but I doubt working with such an old kernel is an option for you.

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Imagine I somehow running a program (shell) which have a effective permission. I can make it dynamically load libraries and execute any code. But it whould be convenient to also enable to load things apart from dynamic libraries (just usual programs). With PR_SET_NO_NEW_PRIVS you can't gain new privs. But I want a tool to prevent "losing" already existing privs. –  Vi. May 7 '13 at 23:06
    
Setting the whole file system effective bit -> Or setting it for /lib/ld-linux*. strongly reduce the security on the system -> Should not, if you supervise processes getting +i. It shifts "granting privileges to programs" to "granting privileges to users" (i.e. user can compile and start any program exercizing this privilege). –  Vi. May 7 '13 at 23:10
    
You can not give capabilities to a user directly, can you describe more in detail what you are trying to achieve? Why don't you want to set file capabilities from your shell, and then allow only users you trust to run this shell? Are you trying to write a program? To hack the kernel? –  Étienne May 8 '13 at 18:08
    
"set file capabilities from your shell" -> Needs CAP_SETFCAP. –  Vi. May 8 '13 at 20:51
    
Example: allow user only CAP_NET_BIND_SERVICE for any programs (including ones he have just compiled). CAP_NET_BIND_SERVICE+i for this user can be set using PAM. The hacky workaround involves setting +i for /lib/ld-linux.so.2. –  Vi. May 8 '13 at 20:54

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