> On Jul 18, 2024, at 8:22 PM, Mickaël Salaün <mic@xxxxxxxxxxx> wrote: > > On Thu, Jul 18, 2024 at 09:02:56AM +0800, Andy Lutomirski wrote: >>>> On Jul 17, 2024, at 6:01 PM, Mickaël Salaün <mic@xxxxxxxxxxx> wrote: >>> >>> On Wed, Jul 17, 2024 at 09:26:22AM +0100, Steve Dower wrote: >>>>> On 17/07/2024 07:33, Jeff Xu wrote: >>>>> Consider those cases: I think: >>>>> a> relying purely on userspace for enforcement does't seem to be >>>>> effective, e.g. it is trivial to call open(), then mmap() it into >>>>> executable memory. >>>> >>>> If there's a way to do this without running executable code that had to pass >>>> a previous execveat() check, then yeah, it's not effective (e.g. a Python >>>> interpreter that *doesn't* enforce execveat() is a trivial way to do it). >>>> >>>> Once arbitrary code is running, all bets are off. So long as all arbitrary >>>> code is being checked itself, it's allowed to do things that would bypass >>>> later checks (and it's up to whoever audited it in the first place to >>>> prevent this by not giving it the special mark that allows it to pass the >>>> check). >>> >>> Exactly. As explained in the patches, one crucial prerequisite is that >>> the executable code is trusted, and the system must provide integrity >>> guarantees. We cannot do anything without that. This patches series is >>> a building block to fix a blind spot on Linux systems to be able to >>> fully control executability. >> >> Circling back to my previous comment (did that ever get noticed?), I > > Yes, I replied to your comments. Did I miss something? I missed that email in the pile, sorry. I’ll reply separately. > >> don’t think this is quite right: >> >> https://lore.kernel.org/all/CALCETrWYu=PYJSgyJ-vaa+3BGAry8Jo8xErZLiGR3U5h6+U0tA@xxxxxxxxxxxxxx/ >> >> On a basic system configuration, a given path either may or may not be >> executed. And maybe that path has some integrity check (dm-verity, >> etc). So the kernel should tell the interpreter/loader whether the >> target may be executed. All fine. >> >> But I think the more complex cases are more interesting, and the >> “execute a program” process IS NOT BINARY. An attempt to execute can >> be rejected outright, or it can be allowed *with a change to creds or >> security context*. It would be entirely reasonable to have a policy >> that allows execution of non-integrity-checked files but in a very >> locked down context only. > > I guess you mean to transition to a sandbox when executing an untrusted > file. This is a good idea. I talked about role transition in the > patch's description: > > With the information that a script interpreter is about to interpret a > script, an LSM security policy can adjust caller's access rights or log > execution request as for native script execution (e.g. role transition). > This is possible thanks to the call to security_bprm_creds_for_exec(). … > This patch series brings the minimal building blocks to have a > consistent execution environment. Role transitions for script execution > are left to LSMs. For instance, we could extend Landlock to > automatically sandbox untrusted scripts. I’m not really convinced. There’s more to building an API that enables LSM hooks than merely sticking the hook somewhere in kernel code. It needs to be a defined API. If you call an operation “check”, then people will expect it to check, not to change the caller’s credentials. And people will mess it up in both directions (e.g. callers will call it and then open try to load some library that they should have loaded first, or callers will call it and forget to close fds first. And there should probably be some interaction with dumpable as well. If I “check” a file for executability, that should not suddenly allow someone to ptrace me? And callers need to know to exit on failure, not carry on. More concretely, a runtime that fully opts in to this may well "check" multiple things. For example, if I do: $ ld.so ~/.local/bin/some_program (i.e. I literally execve ld.so) then ld.so will load several things: ~/.local/bin/some_program libc.so other random DSOs, some of which may well be in my home directory And for all ld.so knows, some_program is actually an interpreter and will "check" something else. And the LSMs have absolutely no clue what's what. So I think for this to work right, the APIs need to be a lot more expressive and explicit: check_library(fd to libc.so); <-- does not transition or otherwise drop privs check_transition_main_program(fd to ~/.local/bin/some_program); <-- may drop privs and if some_program is really an interpreter, then it will do: check_library(fd to some thing imported by the script); check_transition_main_program(fd to the actual script); And maybe that takes a parameter that gets run eval-style: check_unsafe_user_script("actual contents of snippet"); The actual spelling of all this doesn't matter so much. But the user code and the kernel code need to be on the same page as to what the user program is doing and what it's asking the kernel program to do. --Andy