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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [RFC v2] xSplice design
. snip .. > >> * You may need support for adapting or augmenting exception tables if > >> patching such code is desired (it probably is). Hotpatches may need > >> to bring their own small exception tables (similar to how Linux > >> modules support this). If you don't plan on supporting hotpatches > >> that introduce additional exception-locations, one could also change > >> the exception table in-place and reorder it afterwards. > > > > Each patch carries 'section' structures which define what kind > > of massaging needs to be done. As in each of these 'section' structues > > says: > > - At the original address X there was an excetion table > > - (or) At the origian address Y there was an alt assembler > > > > And we would: > > - During 'check' state, confirm that indeed X is in the exception table > > (or Y in the alt assembler) > > > > - During the apply state, fix the exception table X offset to point to > > the new virtual address. > > > > Or perhaps I am over-simplying it? My recollection of the exception > > table code is that it would be mostly dealing with the table and > > changing the virtual address, but I hadn't dug it in details. > > A simple approach would indeed be to patch the table in-place with the > new addresses for the replacement functions and fix-up sections. But, > you would also have to reorder the table to keep the binary search working. > > And of course this approach would not support adding additional entries > to the table as it is allocated at compile / link time. So you cannot > support a hotpatch that would introduce an additional entry. > > Linux modules, in contrast can bring their own exception tables and > those are walked by the handler whenever the main table does not contain > an entry. I have not implemented that aspect yet, but would consider > this to be the most desirable design upon first look. It is in some way an implementation part. I will include it in the doc as there are many parts here and having them all nicely outlined makes my head spin less. .. snip.. > >>> > >>> We must also have a mechanism to: provide an copy of the old code - so > >>> that > >>> the hypervisor can verify it against the code in memory; the new code; > >> > >> As Xen has no stable in-hypervisor API / ABI, you need to make sure > >> that a generated module matches a target hypervisor. In our design, > >> we use build IDs for that (ld --build-id). We embed build IDs at Xen > >> compile time and can query a running hypervisor for its ID and only > >> load matching patches. > >> > >> This seems to be an alternative to your proposal to include old code > >> into hotpatch modules. > > > > That is much simpler. > > Just to clarify, are you agreeing that the build ID approach is much > simpler? Yes. > > > There is a nice part of the old code check - you > > can check (and deal with) patching an already patched code. > > As in, if the payload was configured to be applied on top of an already > > patched function it would patch nicely. But if the payload is against > > the virgin code - and the hypervisor is running an older patch, we would > > bail out. > > You can do that too with the build IDs if there is some mechanism that > loads hotpatches in the same order as they were built in (if they > overlap). The simplest approach that comes to mind is a hotpatch stack, > instead of independent patches. True. Murphy law though says somebody will do this in reverse order :-) And that is my worry - some system admin will reverse the order, or pick an patch out of order, and we end up patching .. and things eventually break and blow up. _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx http://lists.xen.org/xen-devel
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