Date: 23 Dec 2004 14:57:01 -0000
From: flashsky fangxing <flashsky@xfocus.org.>
To: bugtraq@securityfocus.com
Subject: Linux 2.6 Kernel Capability LSM Module Local Privilege Elevation
Venustech AD-Lab
www.venustech.com.cn
[Security Advisory]
Advisory: [AD_LAB-04003]Linux 2.6.* Kernel Capability LSM Module Local Privilege Elevation
Authors: liangbin@venustech.com.cn
Release: 09/12/04
Class: Design Error
Remote: No, local
Vulnerable: Linux kernel 2.6.*
Linux kernel 2.5.72-lsm1
Unvulnerable: Linux kernel 2.4
Vendor: http://www.kernel.org/
I.INFO:
------
When POSIX Capability LSM module isn't compiled into kernel, after inserting
Capability module into kernel, all existed normal users processes will have
total Capability privileges of superuser (root).
POSIX.1e Capability is a very important component of Linux kernel. In
original Linux Kernel, system security relies on it and DAC mainly. In new
kernel version, Linux Security Modules (LSM) framework is introduced to
provide a lightweight, general-purpose framework for access control. Some
Linux security projects are ported to LSM and accepted by kernel source,
such as POSIX.1e Capability and SE-Linux. Users can compile Capability as a
Linux Loadable Kernel Module, and insert it into kernel at any time he wants
to. Under this situation, after inserting Capability module, due to error
creds of existing processes, normal user processes will possess total privileges of
root and can perform any operations (like a root process).
II.DESCRIPTION:
--------------
When the privileged operations are controlled by Capability LSM module, it
mediates privileged operations base on the creds of processes. The creds
consists of three fields of task_struct, namely, cap_permitted,
cap_inheritable and cap_effective. Before user processes carry out privileged
operations (such as sethostname, override DAC, raw IO etc.), system will check
cap_effective field.
(in cap_capable hooks funcation of security/commoncap.c (2.6.*) or security/capability.c (2.5.72-lsm1)):
if (cap_raised (tsk->cap_effective, cap)))
return 0;
else
return -EPERM;
In general, only root processes can possess Capability privileges.
When Capability don't run in kernel and no other LSM security modules are
loaded, kernel uses default security function ops (security/dummy.c) to
mediate privilege operation. The check logic of dummy ops is very simple: if
a process wants to perform a privileged operation, the euid property of it
must be zero (root), or fsuid property must be zero when this privileged
operation involved with file system. However, dummy ops do nothing about
creds of processes, the creds of any process is a clone of its parent
process. As results, the creds of all process, even normal user process, are
as same as that of Init process. Init process is a privileged process, it is
assigned total Capability privileges in the creds of it when system
initiate.
Unfortunately, after Capability LSM module is loaded, it don't recomputed
the creds of processes those are existing before inserting Capability module!
Before inserting, only root processes can perform privileged operations
controlled by dummy ops based *uids correctly. After inserting, the control
of privileged operations is switch from dummy ops to Capability module based
on creds. As a result, all existing processes have privileges as same as
init, even they are normal user processes. A normal user (maybe a malicious
user) can perform any operations through these processes!
IV.AN EXAMPLE:
-------------
Before loading Capability module, run a vim editor as a normal user. In vim,
enter command ":r /etc/shadow" vim response "can't open file
/etc/shadow" the request to access a root file is denied.
Don't end vim, switch to another console and login as root, insert
Capability module into kernel.
#modprobe capability
After inserting, back to vim and try to open file /etc/shadow again, you
will find you can read, edit and save(w!) this file as a normal user! The
reason for this wrong access control is error creds of vim so as to it has
Capability privilege CAP_DAC_OVERRIDE and CAP_DAC_READ_SEARCH.
Let's view the creds with a shell command.
$cat /proc/2454/status (2454 is the pid of vim)
Name: vim
State: S (sleeping)
SleepAVG: 91%
Tgid: 2454
Pid: 2454
PPid: 1552
TracerPid: 0
Uid: 500 500 500 500
Gid: 500 500 500 500
FDSize: 256
Groups: 500
VmSize: 9356 kB
VmLck: 0 kB
VmRSS: 2728 kB
VmData: 856 kB
VmStk: 16 kB
VmExe: 1676 kB
VmLib: 3256 kB
Threads: 1
SigPnd: 0000000000000000
ShdPnd: 0000000000000000
SigBlk: 0000000000000000
SigIgn: 8000000000003000
SigCgt: 00000000ef824eff
CapInh: 0000000000000000
CapPrm: 00000000ffffffff
CapEff: 00000000fffffeff
The last three lines are the creds of vim, it has all Capability privileges
besides CAP_SETPCAP.
Above test is perform in 2.6.* and 2.5.72-lsm1.
V.WORKAROUND:
------------
In order to fix this bug, we may have two methods. One is moving the
computation of creds from Capability module to kernel. The other is adding
some code in Capability module to re-compute creds of existed process. I
choose the second method, add following code in security/capability.c:
static void recompute_capability_creds(struct task_struct *task)
{
if(task->pid <= 1)
return;
task_lock(task);
task->keep_capabilities = 0;
if ((task->uid && task->euid && task->suid) && !task->keep_capabilities)
cap_clear (task->cap_permitted);
else
task->cap_permitted = CAP_INIT_EFF_SET;
if (task->euid != 0){
cap_clear (task->cap_effective);
}
else{
task->cap_effective = CAP_INIT_EFF_SET;
}
if(task->fsuid)
task->cap_effective &= ~CAP_FS_MASK;
else
task->cap_effective |= CAP_FS_MASK;
task_unlock(task);
return;
}
and add following code in Capability init function capability_init before it
return:
struct task_struct *task;
read_lock(&tasklist_lock);
for_each_process(task){
recompute_capability_creds(task);
}
read_unlock(&tasklist_lock);
return 0;
After modifing capability.c, we need "make" and "make modules_install"
again. Unload Capability module (rmmod capability; rmmod commoncap) and
retry the above example, all the accesses to a root file by normal user
existed process are always denied before and after inserting Capability
module.
Test and view the creds again.
$cat /proc/(pid of vim)/status
Name: vim
State: S (sleeping)
SleepAVG: 91%
Tgid: 2864
Pid: 2864
PPid: 1552
TracerPid: 0
Uid: 500 500 500 500
Gid: 500 500 500 500
FDSize: 256
Groups: 500
VmSize: 9360 kB
VmLck: 0 kB
VmRSS: 2816 kB
VmData: 860 kB
VmStk: 16 kB
VmExe: 1676 kB
VmLib: 3256 kB
Threads: 1
SigPnd: 0000000000000000
ShdPnd: 0000000000000000
SigBlk: 0000000000000000
SigIgn: 8000000000003000
SigCgt: 00000000ef824eff
CapInh: 0000000000000000
CapPrm: 0000000000000000
CapEff: 0000000000000000
VI.CREDIT:
---------
LiangBin(liangbin@venustech.com.cn) discovery this vuln:)
Vulnerability analysis and advisory by LiangBin and icbm.
Special thanks to "Fengshou" project members and all Venustech AD-Lab guys:P
VII.DISCLAIMS:
-------------
The information in this bulletin is provided "AS IS" without warranty of any
kind. In no event shall we be liable for any damages whatsoever including direct,
indirect, incidental, consequential, loss of business profits or special damages.
Copyright 1996-2004 VENUSTECH. All Rights Reserved. Terms of use.
VENUSTECH AD-Lab
VENUSTECH INFORMATION TECHNOLOGY CO.,LTD(http://www.venustech.com.cn)
Service
Product
Trusted Security {Solution} Provider
Service
