On 19 June 2013 22:43, Mark Seaborn <[email protected]> wrote: > On 19 June 2013 15:20, John McCall <[email protected]> wrote: > >> On Jun 19, 2013, at 3:17 PM, Mark Seaborn <[email protected]> wrote: >> >> On 19 June 2013 13:17, John McCall <[email protected]> wrote: >> >>> On Jun 19, 2013, at 1:05 PM, Mark Seaborn <[email protected]> wrote: >>> >>> On 19 June 2013 13:01, Mark Seaborn <[email protected]> wrote: >>> >>>> Use ARM-style representation for C++ method pointers under PNaCl >>>> >>>> Before this change, Clang uses the x86 representation for C++ method >>>> pointers when generating code for PNaCl. However, the resulting code >>>> will assume that function pointers are 0 mod 2. This assumption is >>>> not safe for PNaCl, where function pointers could have any value >>>> (especially in future sandboxing models). >>>> >>>> So, switch to using the ARM representation for PNaCl code, which makes >>>> no assumptions about the alignment of function pointers. >>>> >>>> See: https://code.google.com/p/nativeclient/issues/detail?id=3450 >>>> >>> >>> Oops, I meant to send this to cfe-commits rather than llvm-commits. >>> >>> >>> I do not think you should just unconditionally opt in to random ARM >>> behavior. In particular, ARM uses 32-bit guard variables because that's >>> the size of a pointer on ARM; PNaCl needs to be able to efficiently >>> support 64-bit platforms as well. >>> >> >> The code does always use 64-bit guard variables on 64-bit systems. It >> does this: >> >> // Guard variables are 64 bits in the generic ABI and size width on >> ARM >> // (i.e. 32-bit on AArch32, 64-bit on AArch64). >> guardTy = (IsARM ? CGF.SizeTy : CGF.Int64Ty); >> >> Having said that, PNaCl is 32-bit-only: PNaCl programs assume a 32-bit >> address space. We don't support 64-bit pointers in PNaCl. In Clang, >> targeting PNaCl is identified by "le32" being in the triple, and I assume >> there's no way to get 64-bit pointers with "le32". :-) >> >> >> Interesting, okay. >> >> I still do not want PNaCl to claim to be ARM. Abstract the code so that >> you can opt into the specific behaviors you want without pretending to >> be ARM. >> > > OK, I have changed the patch to split IsARM into two separate fields. I > called the fields UseARMMethodPtrABI and UseARMGuardVarABI out of a lack of > imagination. > > I've changed the patch to use the non-ARM guard variable ABI for PNaCl. > Having looked at the code more carefully, I see it's inlining a different > guard variable check on ARM, which we don't necessarily want to use for > PNaCl; it's not just a different guard var size. >
I've updated the patch to also add a test for C++ guard variable usage under PNaCl. Is this OK to commit? Cheers, Mark
clang.patch
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