On 7/9/19 1:51 PM, Casey Schaufler wrote:
On 7/9/2019 10:13 AM, Stephen Smalley wrote:
> On 7/3/19 5:25 PM, Casey Schaufler wrote:
>> Create a new entry "display" in /proc/.../attr for controlling
>> which LSM security information is displayed for a process.
>> The name of an active LSM that supplies hooks for human readable
>> data may be written to "display" to set the value. The name of
>> the LSM currently in use can be read from "display".
>> At this point there can only be one LSM capable of display
>> active. A helper function lsm_task_display() to get the display
>> slot for a task_struct.
>
> As I explained previously, this is a security hole waiting to happen. It still
permits a process to affect the output of audit, alter the result of reading or writing
/proc/self/attr nodes even by setuid/setgid/file-caps/context-changing programs, alter the
contexts generated in netlink messages delivered to other processes (I think?), and
possibly other effects beyond affecting the process' own view of things.
I would very much like some feedback regarding which of the
possible formats for putting multiple subject contexts in
audit records would be preferred:
lsm=selinux,subj=xyzzy_t lsm=smack,subj=Xyzzy
lsm=selinux,smack subj=xyzzy_t,Xyzzy
subj="selinux='xyzzy_t',smack='Xyzzy'"
(cc'd linux-audit mailing list)
Or something else. Free bikeshedding!
I don't see how you have a problem with netlink. My look
at what's in the kernel didn't expose anything, but I am
willing to be educated.
I haven't traced through it in detail, but it wasn't clear to me that
the security_secid_to_secctx() call always occurs in the context of the
receiving process (and hence use its display value). If not, then the
display of the sender can affect what is reported to the receiver;
hence, there is a forgery concern similar to the binder issue. It would
be cleaner if we didn't alter the default behavior of
security_secid_to_secctx() and security_secctx_to_secid() and instead
introduced new hooks for any case where we truly want the display to
take effect.
>
> Before:
> $ id
> uid=1002(sds2) gid=1002(sds2) groups=1002(sds2)
context=staff_u:staff_r:staff_t:s0-s0:c0.c1023
> $ su
> Password:
> su: Authentication failure
>
> syscall audit record:
> type=SYSCALL msg=audit(07/09/2019 11:52:49.784:365) : arch=x86_64 syscall=openat
> success=no exit=EACCES(Permission denied) a0=0xffffff9c a1=0x560897e58e00 a2=O_
> WRONLY a3=0x0 items=1 ppid=3258 pid=3781 auid=sds2 uid=sds2 gid=sds2 euid=root s
> uid=root fsuid=root egid=sds2 sgid=sds2 fsgid=sds2 tty=pts2 ses=6 comm=su
exe=/usr/bin/su subj=staff_u:staff_r:staff_t:s0-s0:c0.c1023 key=(null)
>
> After:
> $ id
> uid=1002(sds2) gid=1002(sds2) groups=1002(sds2)
context=staff_u:staff_r:staff_t:s0-s0:c0.c1023
> $ echo apparmor > /proc/self/attr/display
> $ su
> Password:
> su: Authentication failure
>
> audit record:
> type=SYSCALL msg=audit(07/09/2019 12:05:32.402:406) : arch=x86_64 syscall=openat
success=no exit=EACCES(Permission denied) a0=0xffffff9c a1=0x556b41e1ae00 a2=O_WRONLY
a3=0x0 items=1 ppid=3258 pid=9426 auid=sds2 uid=sds2 gid=sds2 euid=root suid=root
fsuid=root egid=sds2 sgid=sds2 fsgid=sds2 tty=pts2 ses=6 comm=su exe=/usr/bin/su
subj==unconfined key=(null)
>
> NB The subj= field of the SYSCALL audit record is longer accurate and is potentially
under the control of a process that would not be authorized to set its subject label to
that value by SELinux.
It's still accurate, it's just not complete. It's a matter
of how best to complete it.
>
> Now, let's play with userspace.
>
> Before:
> # id
> uid=0(root) gid=0(root) groups=0(root)
context=staff_u:staff_r:staff_t:s0-s0:c0.c1023
> # passwd root
> passwd: SELinux deny access due to security policy.
>
> audit record:
> type=USER_AVC msg=audit(07/09/2019 12:24:35.135:812) : pid=12693 uid=root auid=sds2
ses=7 subj=staff_u:staff_r:passwd_t:s0-s0:c0.c1023 msg='avc: denied { passwd } for
scontext=staff_u:staff_r:staff_t:s0-s0:c0.c1023
tcontext=staff_u:staff_r:staff_t:s0-s0:c0.c1023 tclass=passwd permissive=0
exe=/usr/bin/passwd sauid=root hostname=? addr=? terminal=pts/2'
> type=USER_CHAUTHTOK msg=audit(07/09/2019 12:24:35.135:813) : pid=12693 uid=root
auid=sds2 ses=7 subj=staff_u:staff_r:passwd_t:s0-s0:c0.c1023
msg='op=attempted-to-change-password id=root exe=/usr/bin/passwd
hostname=moss-pluto.infosec.tycho.ncsc.mil addr=? terminal=pts/2 res=failed'
>
> After:
> # id
> uid=0(root) gid=0(root) groups=0(root)
context=staff_u:staff_r:staff_t:s0-s0:c0.c1023
> # echo apparmor > /proc/self/attr/display
> # passwd root
> passwd: SELinux deny access due to security policy.
>
> audit record:
> type=USER_CHAUTHTOK msg=audit(07/09/2019 12:28:41.349:832) : pid=13083 uid=root
auid=sds2 ses=7 subj==unconfined msg='op=attempted-to-change-password id=root
exe=/usr/bin/passwd
hostname=moss-pluto.infosec.tycho.ncsc.mil addr=? terminal=pts/2
res=failed'
>
> Here we again get the wrong value for subj= in the USER_CHAUTHTOK audit record, and
we further lose the USER_AVC record entirely because it didn't even reach the point of
the permission check due to not being able to get the caller context.
>
> The situation gets worse if the caller can set things up such that it can set an
attribute value for one security module that is valid and privileged with respect to
another security module. This isn't a far-fetched scenario; AppArmor will default to
running everything unconfined, so as soon as you enable it, any root process can
potentially load a policy that defines contexts that look exactly like SELinux contexts.
Smack is even simpler; you can set any arbitrary string you want as long as you are root
(by default); no policy required. So a root process that is confined by SELinux (or by
AppAmor) can suddenly forge arbitrary contexts in audit records or reads of
/proc/self/attr nodes or netlink messages or ..., just by virtue of applying these patches
and enabling another security module like Smack. Or consider if ptags were ever made real
and merged - by design, that's all about setting arbitrary tags from userspace. Then
there is the separate issue of switching
> display to prevent attempts by a more privileged program to set one of its attributes
from taking effect. Where have we seen that before - sendmail capabilities bug anyone?
And it is actually worse than that bug, because with the assistance of a friendly security
module, the write may actually succeed; it just won't alter the SELinux context of the
program or anything it creates!
>
> This gets a NAK from me so long as it has these issues and setting the display
remains outside the control of any security module.
The issues you've raised around audit are meritorious.
Any suggestions regarding how to address them would be
quite welcome.
As far as the general objection to the display mechanism,
I am eager to understand what you might propose as an
alternative. We can't dismiss backward compatibility for
any of the modules. We can't preclude any module combination.
We can require user space changes for configurations that
were impossible before, just as the addition of SELinux to
a system required user space changes. Update libselinux
to check the display before using the attr interfaces and
you've addressed most of the issues.
Either we ensure that setting of the display can only affect processes
in the same security equivalence class (same credentials) or the
security modules need to be able to control who can set the display. Or
both.