On Tue, Aug 08, 2023 at 09:25:11PM +0100, Mark Brown wrote: > On Tue, Aug 08, 2023 at 02:38:58PM +0100, Will Deacon wrote: > > > But seriously, I think the question is more about what this brings us > > *on top of* SCS, since for the forseeable future folks that care about > > this stuff (like Android) will be using SCS. GCS on its own doesn't make > > sense to me, given the recompilation effort to remove SCS and the lack > > of hardware, so then you have to look at what it brings in addition to > > GCS and balance that against the performance cost. > > > Given that, is anybody planning to ship a distribution with this enabled? > > I'm not sure that your assumption that the only people would would > consider deploying this are those who have deployed SCS is a valid one, > SCS users are definitely part of the mix but GCS is expected to be much > more broadly applicable. As you say SCS is very invasive, requires a > rebuild of everything with different code generated and as Szabolcs > outlined has ABI challenges for general distros. Any code built (or > JITed) with anything other than clang is going to require some explicit > support to do SCS (eg, the kernel's SCS support does nothing for > assembly code) and there's a bunch of runtime support. It's very much a > specialist feature, mainly practical in well controlled somewhat > vertical systems - I've not seen any suggestion that general purpose > distros are considering using it. I've also seen no suggestion that general purpose distros are considering GCS -- that's what I'm asking about here, and also saying that we shouldn't rush in an ABI without confidence that it actually works beyond unit tests (although it's great that you wrote selftests!). > In contrast in the case of GCS one of the nice features is that for most > code it's very much non-invasive, much less so than things like PAC/BTI > and SCS, which means that the audience is much wider than it is for SCS > - it's a *much* easier sell for general purpose distros to enable GCS > than to enable SCS. This sounds compelling, but has anybody tried running significant parts of a distribution (e.g. running Debian source package tests, booting Android, using a browser, running QEMU) with GCS enabled? I can well imagine non-trivial applications violating both assumptions of the architecture and the ABI. > For the majority of programs all the support that is needed is in the > kernel and libgcc/libc, there's no impact on the code generation. There > are no extra instructions in the normal flow which will impact systems > without the feature, and there are no extra registers in use, so even if > the binaries are run on a system without GCS or for some reason someone > decides that it's best to turn the feature off on a system that is capable > of using it the fact that it's just using the existing bl/ret pairs means > that there is minimal overhead. This all means that it's much more > practical to deploy in general purpose distros. On the other hand when > active it affects all code, this improves coverage but the improved > coverage can be a worry. > > I can see that systems that have gone through all the effort of enabling > SCS might not rush to implement GCS, though there should be no harm in > having the two features running side by side beyond the doubled memory > requirements so you can at least have a transition plan (GCS does have > some allowances which enable hardware to mitigate some of the memory > bandwidth requirements at least). You do still get the benefit of the > additional hardware protections GCS offers, and the coverage of all > branch and ret instructions will be of interest both for security and > for unwinders. It's definitely offers less of an incremental > improvement on top of SCS than it is without SCS though. > > GCS and SCS are comparable features in terms of the protection they aim > to add but their system integration impacts are different. Again, this sounds plausible but I don't see any data to back it up so I don't really have a feeling as to how true it is. > > If not, why are we bothering? If so, how much of that distribution has > > been brought up and how does the "dynamic linker or other startup code" > > decide what to do? > > There is active interest in the x86 shadow stack support from distros, > GCS is a lot earlier on in the process but isn't fundamentally different > so it is expected that this will translate. There is also a chicken and > egg thing where upstream support gates a lot of people's interest, what > people will consider carrying out of tree is different to what they'll > enable. I'm not saying we should wait until distros are committed, but Arm should be able to do that work on a fork, exactly like we did for the arm64 bringup. We have the fastmodel, so running interesting stuff with GCS enabled should be dead easy, no? > Architecture specific feedback on the implementation can also be fed back > into the still ongoing review of the ABI that is being established for > x86, there will doubtless be pushback about variations between > architectures from userspace people. > > The userspace decision about enablement will primarily be driven by an > ELF marking which the dynamic linker looks at to determine if the > binaries it is loading can support GCS, a later dlopen() can either > refuse to load an additional library if the process currently has GCS > enabled, ignore the issue and hope things work out (there's a good > chance they will but obviously that's not safe) or (more complicatedly) > go round all the threads and disable GCS before proceeding. The main > reason any sort of rebuild is required for most code is to add the ELF > marking, there will be a compiler option to select it. Static binaries > should know if everything linked into them is GCS compatible and enable > GCS if appropriate in their startup code. > > The majority of the full distro work at this point is on the x86 side > given the hardware availability, we are looking at that within Arm of > course. I'm not aware of any huge blockers we have encountered thus > far. Ok, so it sounds like you've started something then? How far have you got? > It is fair to say that there's less active interest on the arm64 side > since as you say the feature is quite a way off making it's way into > hardware, though there are also long lead times on getting the full > software stack to end users and kernel support becomes a blocker for > the userspace stack. > > > > After the mess we had with BTI and mprotect(), I'm hesitant to merge > > features like this without knowing that the ABI can stand real code. > > The equivalent x86 feature is in current hardware[1], there has been > some distro work (I believe one of the issues x86 has had is coping with > a distro which shipped an early out of tree ABI, that experience has > informed the current ABI which as the cover letter says we are following > closely). AIUI the biggest blocker on userspace work for x86 right now > is landing the kernel side of things so that everyone else has a stable > ABI to work from and don't need to carry out of tree patches, I've heard > frustration expressed at the deployment being held up. IIRC Fedora were > on the leading edge in terms of active interest, they tend to be given > that they're one of the most quickly iterating distros. > > This definitely does rely fairly heavily on the x86 experience for > confidence in the ABI, and to be honest one of the big unknowns at this > point is if you or Catalin will have opinions on how things are being > done. While we'd be daft not to look at what the x86 folks are doing, I don't think we should rely solely on them to inform the design for arm64 when it should be relatively straightforward to prototype the distro work on the model. There's also no rush to land the kernel changes given that GCS hardware doesn't exist. Will