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Date: Tue, 14 Apr 2015 11:40:32 +0200 From: Arnd Bergmann <arnd@...db.de> To: linux-arm-kernel@...ts.infradead.org Cc: "Dr. Philipp Tomsich" <philipp.tomsich@...obroma-systems.com>, Andreas Kraschitzer <andreas.kraschitzer@...obroma-systems.com>, Catalin Marinas <catalin.marinas@....com>, linux-kernel@...r.kernel.org, Andrew Pinski <apinski@...ium.com>, Kumar Sankaran <ksankaran@....com>, Benedikt Huber <benedikt.huber@...obroma-systems.com>, Christoph Muellner <christoph.muellner@...obroma-systems.com> Subject: Re: [PATCH v4 00/24] ILP32 for ARM64 On Tuesday 14 April 2015 00:58:59 Dr. Philipp Tomsich wrote: > Arnd, > > > 1. Adding a whole new ABI to the kernel is adding a long-term maintenance > > burden, and we don't want to do that just because someone thinks it's a cute > > hack or because it might add a few percent in performance of some low-level > > benchmark. Please describe in the cover-letter for the patch series > > specifically what applications you have in mind that would be using this, and > > what the expected timeframe is before users could move to 64-bit user space. > > There’s a couple of drivers behind getting ILP32 merged on ARM64: > (a) There’s plenty of applications (i.e. having a large code-base, but not requiring > a 64bit address space) that can’t readily be migrated to LP64 (typically networking > or data-storage applications) because they were written assuming an ILP32 data > model. Many of these applications will never become suitable for a LP64 data > model and will remain locked into ILP32 operating environments. > (b) A number of SPEC2006 components (i.e. not low-level benchmarks, but test > cases that have been derived from large application use cases) benefit from > having a denser data-representation—this includes the mcf, xalancbmk, astar > and ometpp. This not an observation specific to ARM64 and can be observed > on other architectures as well (e.g. [1] contains data for POWER from 2010). > (c) Using AArch32 (assuming that any given ARMv8 processor supports it), > is not a real alternative, as 64bit arithmetic is not supported on AArch32 and the > AArch32 register set is significantly smaller. Our experience shows that the > benefit of having 64bit registers, of a larger register file and of using 64bit > arithmetic makes ILP32 a worthwhile improvement over AArch32. > > In summary, we believe that the need for ILP32 will never disappear on ARM64. > In fact, I rather expect the AArch32 compatibility to eventually disapper from > further processor designs… which will turn ILP32 into the only option for > legacy software. Ok, this is the kind of text that I was looking for to put in the cover letter, and eventually into the git changelog when the branch gets merged. Regarding a), listing specific applications would be helpful. I keep having trouble coming up with examples that fit in all these categories: - can be easily ported to a brand new CPU architecture - is complex enough to to not be portable to 64-bit - is performance sensitive enough to not work with full emulation - fits within the memory constraints of a 32-bit task a few years from now. - must run on CPUs that are explicitly designed to not support 32-bit (aarch32) tasks. I have seen a lot of legacy code, but most of it fails at one of the above. There is also a lot of legacy code (from MS Windows) that already supports LLP64 but not LP64. > > The most important aspect here I think is time_t, and while it means starting > > out with a system call ABI that is not ready for y2038, at the same time the > > purpose of ILP32 support is to support legacy source code that is not 64-bit > > safe now, and using 32-bit time_t will make that easier in a lot of ways. > > Note that I am also leading the effort to make 32-bit Linux ready for using > > 64-bit time_t on all architectures, so ARM64 ILP32 will be fixed as well, it > > just won't be any better or worse than the others. > > The decision to use the 64bit time_t actually came out of Andrew’s earliest > patch-set from late 2013… we based the kernel-side of ILP32 on that one, while > we focussed on getting all the other components into a working shape. > > Breaking the C specification (by redefining time_t) always remained a > controversial issue on our end, as we knew that the day of switching back > to a 32-bit time_t would eventually have to come. Well, the reason that x32 uses a 64-bit time_t is because Linus Torvalds intervened and asked for it to be done that way. I just think that today we have a better plan for dealing with the issue on the whole. I'd definitely want to get input from other parties on this. I know that Rich Felker was particularly against the x32 definition of timespec, and it using 32-bit time_t would let us avoid the controversy for the moment, but of course we get to the same point later when we have to fix for all architectures anyway. Arnd -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@...r.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
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