On 4/5/2022 8:29 AM, Roberto Sassu wrote:
From: Casey Schaufler [mailto:casey@xxxxxxxxxxxxxxxx]
Sent: Tuesday, April 5, 2022 4:50 PM
On 4/4/2022 10:20 AM, Roberto Sassu wrote:
From: Djalal Harouni [mailto:tixxdz@xxxxxxxxx]
Sent: Monday, April 4, 2022 9:45 AM
On Sun, Apr 3, 2022 at 5:42 PM KP Singh <kpsingh@xxxxxxxxxx> wrote:
On Sat, Apr 2, 2022 at 1:55 AM Alexei Starovoitov
<alexei.starovoitov@xxxxxxxxx> wrote:
...
Pinning
them to unreachable inodes intuitively looked the
way to go for achieving the stated goal.
We can consider inodes in bpffs that are not unlinkable by root
in the future, but certainly not for this use case.
Can this not be already done by adding a BPF_LSM program to the
inode_unlink LSM hook?
Also, beside of the inode_unlink... and out of curiosity: making
sysfs/bpffs/
readonly after pinning, then using bpf LSM hooks
sb_mount|remount|unmount...
family combining bpf() LSM hook... isn't this enough to:
1. Restrict who can pin to bpffs without using a full MAC
2. Restrict who can delete or unmount bpf filesystem
?
I'm thinking to implement something like this.
First, I add a new program flag called
BPF_F_STOP_ONCONFIRM, which causes the ref count
of the link to increase twice at creation time. In this way,
user space cannot make the link disappear, unless a
confirmation is explicitly sent via the bpf() system call.
Another advantage is that other LSMs can decide
whether or not they allow a program with this flag
(in the bpf security hook).
This would work regardless of the method used to
load the eBPF program (user space or kernel space).
Second, I extend the bpf() system call with a new
subcommand, BPF_LINK_CONFIRM_STOP, which
decreasres the ref count for the link of the programs
with the BPF_F_STOP_ONCONFIRM flag. I will also
introduce a new security hook (something like
security_link_confirm_stop), so that an LSM has the
opportunity to deny the stop (the bpf security hook
would not be sufficient to determine exactly for
which link the confirmation is given, an LSM should
be able to deny the stop for its own programs).
Would you please stop referring to a set of eBPF programs
loaded into the BPF LSM as an LSM? Call it a BPF security
module (BSM) if you must use an abbreviation. An LSM is a
provider of security_ hooks. In your case that is BPF. When
you call the set of eBPF programs an LSM it is like calling
an SELinux policy an LSM.
An eBPF program could be a provider of security_ hooks
too.
No, it can't. If I look in /sys/kernel/security/lsm what
you see is "bpf". The LSM is BPF. What BPF does in its
hooks is up to it and its responsibility.
The bpf LSM is an aggregator, similarly to your
infrastructure to manage built-in LSMs. Maybe, calling
it second-level LSM or secondary LSM would better
represent this new class.
It isn't an LSM, and adding a qualifier doesn't make it
one and only adds to the confusion.
The only differences are the registration method, (SEC
directive instead of DEFINE_LSM), and what the hook
implementation can access.
Those two things pretty well define what an LSM is.
The implementation of a security_ hook via eBPF can
follow the same structure of built-in LSMs, i.e. it can be
uniquely responsible for enforcing and be policy-agnostic,
and can retrieve the decisions based on a policy from a
component implemented somewhere else.
The BPF LSM provides mechanism. The eBPF programs provide policy.
Hopefully, I understood the basic principles correctly.
I let the eBPF maintainers comment on this.
Thanks
Roberto
HUAWEI TECHNOLOGIES Duesseldorf GmbH, HRB 56063
Managing Director: Li Peng, Zhong Ronghua
What do you think?
Thanks
Roberto
HUAWEI TECHNOLOGIES Duesseldorf GmbH, HRB 56063
Managing Director: Li Peng, Zhong Ronghua