Russell King - ARM Linux wrote: > I'll give you another solution to the problem - lobby ARM Ltd to have > this restriction lifted from the architecture specification, which > will probably result in the speculative prefetching also having to be > removed. I don't know if there was lobbying involved, but the way some barriers on x86 turned out to be unnecessary, on both Intel and AMD, after years of specs which abstractly implied they might be necessary.... I guess someone realised the relaxed specs weren't providing a benefit at the hardware level. Perhaps it is possible to draw this to ARM's attention as a rather serious performance-damaging thing, so they might tighten the rules in favour of common sense, at least for the majority of devices? Off the top of my head (and I really don't know much about the internals of an ARM), hardware that avoided speculation where there was no entry already in the TLB for the address... that would be workable, as page/range TLB flushes would be enough to protect pages from access. With regard to specific chips (i.e. current ones, while lobbying to tighten the rules for future ones). Is there a control register on the chips which are known to have this annoying issue, to turn off the problematic cache behaviour (permanently while Linux runs), or some set of memory attributes that produces that effect? (Obviously there is: Turn off all caching, but is there a weaker and equally effective one on current hardware with the problem?) It might be there simply _isn't_ any solution that satisfies the generality of ARM spec, while satisfying the engineering requirements of particular media player chips on which the CMA+DMA may be perfectly safe. That would be unpleasant but hardly the first time some feature was not usable on some chips and essential on some others. Take, for example, those (now old) ARMs that mishandle SWP so it can't be used. We still use SWP in kernels, and indeed userspace, which will break if run on those particular chips, but that's ok - it's an understood limitation. Russell, I think the repeated attempts to propose the same thing, which you keep rejecting (rightly), isn't because they're not listening, but because you haven't got a better solution - other than scrap the hardware :-) Their code might actually be 100% reliable with the chips they use in those products, and it might be the _only_ solution which works on those, thus solving a real problem. What's the right thing to do in that case? Maintain a fork out of tree, or some Kconfig animal that says you can't select this ARM subarch and that memory facility in the same kernel because they are technically incompatible - but at least everyone can see the code, and know which chip families to avoid for certain applications? Here is a hint of an idea for a way forward: - An API that everyone can use (in drivers etc.), that behaves the same for everyone, except that: - On some chips (ARMv7...) some functions requires a large up-front memory reservation at boot time, (but that's ok because you probably have gobs of RAM with it anyway). - On other chips (<= ARMv6?) it is safe to reduce the up-front reservation to less, maybe zero. (Better for smaller memories). - Maybe it even makes sense for drivers using the API to request, at boot time, "_if_ you need early reservation, then _this_ is how much I will need maximum". The values can potentially dynamic anti-fragmantation allocators too. (I've done a bit of research on this - a sort of "semi-reservation" where you don't keep it free up front, but you limit how its used and grouped in a precise way, to make sure other uses are sufficiently reclaimable to satisfy the call when it comes.) - Didn't reserve enough in advance for the architectural constraints - get NULL back. That's what allocators always do. That's what /proc/cmdline's options have a long history helping with - finding the setting which works on your kit. People are already used to a bit of fiddly tuning (and random crashes ;-) with these media application sorts of things. Presumably the problem will ease off with IOMMUs and/or sensible SG (and/or sensible architectural constraints) becoming ubiquitous eventually. -- Jamie -- To unsubscribe, send a message with 'unsubscribe linux-mm' in the body to majordomo@xxxxxxxxxx For more info on Linux MM, see: http://www.linux-mm.org/ . Fight unfair telecom policy in Canada: sign http://dissolvethecrtc.ca/ Don't email: <a href=mailto:"dont@xxxxxxxxx"> email@xxxxxxxxx </a>