On 05-Nov 11:34, Alexei Starovoitov wrote: > On Tue, Nov 05, 2019 at 07:01:41PM +0100, Mickaël Salaün wrote: > > > > On 05/11/2019 18:18, Alexei Starovoitov wrote: > > > On Mon, Nov 04, 2019 at 06:21:43PM +0100, Mickaël Salaün wrote: > > >> Add a first Landlock hook that can be used to enforce a security policy > > >> or to audit some process activities. For a sandboxing use-case, it is > > >> needed to inform the kernel if a task can legitimately debug another. > > >> ptrace(2) can also be used by an attacker to impersonate another task > > >> and remain undetected while performing malicious activities. > > >> > > >> Using ptrace(2) and related features on a target process can lead to a > > >> privilege escalation. A sandboxed task must then be able to tell the > > >> kernel if another task is more privileged, via ptrace_may_access(). > > >> > > >> Signed-off-by: Mickaël Salaün <mic@xxxxxxxxxxx> > > > ... > > >> +static int check_ptrace(struct landlock_domain *domain, > > >> + struct task_struct *tracer, struct task_struct *tracee) > > >> +{ > > >> + struct landlock_hook_ctx_ptrace ctx_ptrace = { > > >> + .prog_ctx = { > > >> + .tracer = (uintptr_t)tracer, > > >> + .tracee = (uintptr_t)tracee, > > >> + }, > > >> + }; > > > > > > So you're passing two kernel pointers obfuscated as u64 into bpf program > > > yet claiming that the end goal is to make landlock unprivileged?! > > > The most basic security hole in the tool that is aiming to provide security. > > > > How could you used these pointers without dedicated BPF helpers? This > > context items are typed as PTR_TO_TASK and can't be used without a > > dedicated helper able to deal with ARG_PTR_TO_TASK. Moreover, pointer > > arithmetic is explicitly forbidden (and I added tests for that). Did I > > miss something? > > It's a pointer leak. > > > > > > > > > I think the only way bpf-based LSM can land is both landlock and KRSI > > > developers work together on a design that solves all use cases. > > > > As I said in a previous cover letter [1], that would be great. I think > > that the current Landlock bases (almost everything from this series > > except the seccomp interface) should meet both needs, but I would like > > to have the point of view of the KRSI developers. > > > > [1] https://lore.kernel.org/lkml/20191029171505.6650-1-mic@xxxxxxxxxxx/ > > > > > BPF is capable > > > to be a superset of all existing LSMs whereas landlock and KRSI propsals today > > > are custom solutions to specific security concerns. BPF subsystem was extended > > > with custom things in the past. In networking we have lwt, skb, tc, xdp, sk > > > program types with a lot of overlapping functionality. We couldn't figure out > > > how to generalize them into single 'networking' program. Now we can and we > > > should. Accepting two partially overlapping bpf-based LSMs would be repeating > > > the same mistake again. > > > > I'll let the LSM maintainers comment on whether BPF could be a superset > > of all LSM, but given the complexity of an access-control system, I have > > some doubts though. Anyway, we need to start somewhere and then iterate. > > This patch series is a first step. > > I would like KRSI folks to speak up. So far I don't see any sharing happening > between landlock and KRSI. You're claiming this set is a first step. They're > claiming the same about their patches. I'd like to set a patchset that was > jointly developed. We are willing to collaborate with the Landlock developers and come up with a common approach that would work for Landlock and KRSI. I want to mention that this collaboration and the current Landlock approach of using an eBPF based LSM for unprivileged sandboxing only makes sense if unprivileged usage of eBPF is going to be ever allowed. Purely from a technical standpoint, both the current designs for Landlock and KRSI target separate use cases and it would not be possible to build "one on top of the other". We've tried to identify the lowest denominator ("eBPF+LSM") requirements for both Landlock (unprivileged sandboxing / Discretionary Access Control) and KRSI (flexibility and unification of privileged MAC and Audit) and prototyped an implementation based on the newly added / upcoming features in BPF. We've been successfully able to prototype the use cases for KRSI (privileged MAC and Audit) using this "eBPF+LSM" and shared our approach at the Linux Security Summit [1]: * Use the new in-kernel BTF (CO-RE eBPF programs) [2] and the ability of the BPF verifier to use the BTF information for access validation to provide a more generic way to attach to the various LSM hooks. This potentially saves a lot of redundant work: - Creation of new program types. - Multiple types of contexts (or a single context with Unions). - Changes to the verifier and creation of new BPF argument types (eg. PTR_TO_TASK) * These new BPF features also alleviate the original concerns that we raised when initially proposing KRSI and designing for precise BPF helpers. We have some patches coming up which incorporate these new changes and will be sharing something on the mailing list after some cleanup. We can use the common "eBPF+LSM" for both privileged MAC and Audit and unprivileged sandboxing i.e. Discretionary Access Control. Here's what it could look like: * Common infrastructure allows attachment to all hooks which works well for privileged MAC and Audit. This could be extended to provide another attachment type for unprivileged DAC, which can restrict the hooks that can be attached to, and also the information that is exposed to the eBPF programs which is something that Landlock could build. * This attachment could use the proposed landlock domains and attach to the task_struct providing the discretionary access control semantics. [1] https://static.sched.com/hosted_files/lsseu2019/a2/Kernel%20Runtime%20Security%20Instrumentation.pdf [2] http://vger.kernel.org/bpfconf2019_talks/bpf-core.pdf - KP Singh >