On 2022/4/29 16:02, Leizhen (ThunderTown) wrote: > > > On 2022/4/29 11:24, Baoquan He wrote: >> On 04/28/22 at 05:33pm, Leizhen (ThunderTown) wrote: >>> >>> >>> On 2022/4/28 11:52, Baoquan He wrote: >>>> On 04/28/22 at 11:40am, Baoquan He wrote: >>>>> Hi Catalin, Zhen Lei, >>>>> >>>>> On 04/27/22 at 05:04pm, Catalin Marinas wrote: >>>>>> On Wed, Apr 27, 2022 at 09:49:20PM +0800, Leizhen (ThunderTown) wrote: >>>>>>> On 2022/4/27 20:32, Catalin Marinas wrote: >>>>>>>> I think one could always pass a default command line like: >>>>>>>> >>>>>>>> crashkernel=1G,high crashkernel=128M,low >>>>>>>> >>>>>>>> without much knowledge of the SoC memory layout. >>>>>>> >>>>>>> Yes, that's what the end result is. The user specify crashkernel=128M,low >>>>>>> and the implementation ensure the 128M low memory is allocated from DMA zone. >>>>>>> We use arm64_dma_phys_limit as the upper limit for crash low memory. >>>>>>> >>>>>>> +#define CRASH_ADDR_LOW_MAX arm64_dma_phys_limit >>>>>>> + unsigned long long crash_max = CRASH_ADDR_LOW_MAX; >>>>>>> + crash_base = memblock_phys_alloc_range(crash_size, CRASH_ALIGN, >>>>>>> crash_base, crash_max); >>>>>>> >>>>>>>> Another option is to only introduce crashkernel=Y,low and, when that is >>>>>>>> passed, crashkernel=Y can go above arm64_dma_phys_limit. We won't need a >>>>>>>> 'high' option at all: >>>>>>>> >>>>>>>> crashkernel=1G - all within ZONE_DMA >>>>>>>> crashkernel=1G crashkernel=128M,low - 128M in ZONE_DMA >>>>>>>> 1G above ZONE_DMA >>>>>>>> >>>>>>>> If ZONE_DMA is not present or it extends to the whole RAM, we can ignore >>>>>>>> the 'low' option. >>>>>>> >>>>>>> I think although the code is hard to make generic, the interface is better to >>>>>>> be relatively uniform. A user might have to maintain both x86 and arm64, and >>>>>>> so on. It's not a good thing that the difference is too big. >>>>>> >>>>>> There will be some difference as the 4G limit doesn't always hold for >>>>>> arm64 (though it's true in most cases). Anyway, we can probably simplify >>>>>> things a bit while following the documented behaviour: >>>>>> >>>>>> crashkernel=Y - current behaviour within ZONE_DMA >>>>>> crashkernel=Y,high - allocate from above ZONE_DMA >>>>>> crashkernel=Y,low - allocate within ZONE_DMA >>>>>> >>>>>> There is no fallback from crashkernel=Y. >>>>>> >>>>>> The question is whether we still want a default low allocation if >>>>>> crashkernel=Y,low is missing but 'high' is present. If we add this, I >>>>>> think we'd be consistent with kernel-parameters.txt for the 'low' >>>>>> description. A default 'low' is probably not that bad but I'm tempted to >>>>>> always mandate both 'high' and 'low'. >>>>> >>>>> Sorry to interrupt. Seems the ,high ,low and fallback are main concerns >>>>> about this version. And I have the same concerns about them which comes >>>>> from below points: >>>>> 1) we may need to take best effort to keep ,high, ,low behaviour >>>>> consistent on all ARCHes. Otherwise user/admin may be confused when they >>>>> deploy/configure kdump on different machines of different ARCHes in the >>>>> same LAB. I think we should try to avoid the confusion. >>> >>> Yes, but for someone who is configuring crashkernel= for the first time, he >>> needs to read doc to understand how to configure it. The doc can show the >>> recommended default value of 'low' size. >>> >>> After commit 94fb93341822 ("x86/crash: Allocate enough low memory when crashkernel=high"), >>> the default 'low' size doesn't make much sense anymore. The default size of swiotlb_size() >>> is 64M, far less than 256M. And if user specify "swiotlb=", he can also adjust crashkernel=Y,low. >>> >>> >>> + * -swiotlb size: user-specified with swiotlb= or default. >>> - low_size = swiotlb_size_or_default() + (8UL<<20); >>> + low_size = max(swiotlb_size_or_default() + (8UL<<20), 256UL<<20); >>> >>> That means all ARCHs can explicit configure crashkernel=256M,low, instead of >>> omitting it. This may be another way to avoid confusion. It's not hard for >>> programmer-turned-user/admin. However, this requires us to forgo backward >>> compatibility with the default size of 'low'. >> >> We can make ,high and ,low simpler at first as they are alternative. If >> possible, we can also simplify the ,high ,low implementation on x86_64 >> if it truly brings better archievement on arm64. > > OK, I plan to remove optimization, fallback and default low size, to follow the > suggestion of Catalin first. But there's one minor point of contention. > > 1) Both "crashkernel=X,high" and "crashkernel=X,low" must be present. > 2) Both "crashkernel=X,high" and "crashkernel=X,low" are present. > or > Allow "crashkernel=X,high" to be present alone. Unlike x86, the default low size is zero. > > I prefer 2), how about you? > >> >>> >>> >>>>> 2) Fallback behaviour is important to our distros. The reason is we will >>>>> provide default value with crashkernel=xxxM along kernel of distros. In >>>>> this case, we hope the reservation will succeed by all means. The ,high >>>>> and ,low is an option if customer likes to take with expertise. >>> >>> OK, I got it. >>> >>>>> >>>>> After going through arm64 memory init code, I got below summary about >>>>> arm64_dma_phys_limit which is the first zone's upper limit. I think we >>>>> can make use of it to facilitate to simplify code. >>>>> ================================================================================ >>>>> DMA DMA32 NORMAL >>>>> 1)Raspberry Pi4 0~1G 3G~4G (above 4G) >>>>> 2)Normal machine 0~4G 0 (above 4G) >>>>> 3)Special machine (above 4G)~MAX >>>>> 4)No DMA|DMA32 (above 4G)~MAX >>> >>> arm64_memblock_init() >>> reserve_crashkernel() --------------- 0a30c53573b0 ("arm64: mm: Move reserve_crashkernel() into mem_init()") >> We don't need different code for this place of reservation as you are >> doing in this patchset, since arm64_dma_phys_limit is initialized as >> below. In fact, in arm64_memblock_init(), we have made memblock ready, >> we can initialize arm64_dma_phys_limit as memblock_end_of_DRAM(). And if >> memblock_start_of_DRAM() is bigger than 4G, we possibly can call >> reserve_crashkernel() here too. > > Yes. Maybe all the devices in this environment are 64-bit. One way I know of allowing > 32-bit devices to access high memory without SMMU is: Set a fixed value for the upper > 32 bits. In this case, the DMA zone should be [phys_start, phys_start + 4G). I just read the message of commit 791ab8b2e3 ("arm64: Ignore any DMA offsets in the max_zone_phys() calculation") Currently, the kernel assumes that if RAM starts above 32-bit (or zone_bits), there is still a ZONE_DMA/DMA32 at the bottom of the RAM and such constrained devices have a hardwired DMA offset. In practice, we haven't noticed any such hardware so let's assume that we can expand ZONE_DMA32 to the available memory if no RAM below 4GB. Similarly, ZONE_DMA is expanded to the 4GB limit if no RAM addressable by zone_bits. So your suggestion is feasible. > >> >> phys_addr_t __ro_after_init arm64_dma_phys_limit = PHYS_MASK + 1; >> >>> paging_init() | >>> map_mem() | >>> unflatten_device_tree or ACPI | ---- //Raspberry Pi4 get dma zone base on dtb or ACPI >>> bootmem_init(); | | >>> zone_sizes_init() | | >>> of_dma_get_max_cpu_address | ----| >>> //Update arm64_dma_phys_limit | ----| >>> reserve_crashkernel() <-------------- //Because we need arm64_dma_phys_limit to be updated above >>> request_standard_resources() >> >> Yeah, because arm64_dma_phys_limit is decided late in the 1) and 2) case >> as I summarized, we need defer reserve_crashkernel() to bootmem_init(). But >> arm64_dma_phys_limit could be 1G or 4G, that's why your optimization >> about BLOCKING may not be right since you assume the 4G boundary, while >> forgetting Raspberry Pi4 on which 1G is the boundary of low memory and > > No, no, my optimization for Raspberry Pi4 is fine. I do page mapping for memory > under 4G and block mapping for memory above 4G. But still try to reserve crash > low memory from DMA zone. So when 1G is the boundary, it's just not fully optimized, > the memory 1-4G are mapped as page. > >> high memory. So separating out BLOCKING optimization can let us focus on >> the crashkernel,high support. >> >>> >>>>> >>>>> ------------------------------------------- >>>>> arm64_dma_phys_limit >>>>> 1)Raspberry Pi4 1G >>>>> 2)Normal machine 4G >>>>> 3)Special machine MAX >>>>> 4)No DMA|DMA32 MAX >>>>> >>>>> Note: 3)Special machine means the machine's starting physical address is above 4G. >>>>> WHile 4)No DMA|DMA32 means kernel w/o CONFIG_ZONE_DMA|DMA32, and has >>>>> IOMMU hardware supporting. >>>>> =================================================================================== >>>>> >>>>> I made a draft patch based on this patchset, please feel free to check and >>>>> see if it's OK, or anything missing or wrongly understood. I removed >>>>> reserve_crashkernel_high() and only keep reserve_crashkernel() and >>>>> reserve_crashkernel_low() as the v21 did. >>>> >>>> Sorry, forgot attaching the draft patch. >>>> >>>> By the way, we can also have a simple version with basic ,high, ,low >>>> support, no fallback. We can add fallback and other optimization later. >>>> This can be plan B. >>> >>> Yes, That's what Catalin suggested also. >>> >>> Hi, Baoquan He: >>> Without optimization, the whole Patch 3-4 and 6-7 can be dropped. >>> >>> Process after abstraction: >>> if (!IS_ENABLED(CONFIG_ZONE_DMA) && !IS_ENABLED(CONFIG_ZONE_DMA32)) { >>> reserve_crashkernel() >>> //block mapping >>> } else { >>> //page mapping >>> reserve_crashkernel() >>> } >>> >>> ------------ Simplified real-world process --------- >> Yeah, this looks clearer. I would like to see a version with them. >> >>> arm64_memblock_init() >> Before reserve_crashkernel(), we can update arm64_dma_phys_limit >> as memblock_end_of_DRAM() if CONFIG_ZONE_DMA|DMA32 is not enabled or >> memblock_start_of_DRAM() is bigger than 4G. >> Then we go with: >> if (!arm64_dma_phys_limit) >> reserve_crashkernel(); >> >> Just personal opinion, please check if it's appropriate to handle case >> 3) which has physical starting memory above 4G here. > > OK, I'll write it down and consider it in the future optimization. > >> >>> if (!IS_ENABLED(CONFIG_ZONE_DMA) && !IS_ENABLED(CONFIG_ZONE_DMA32)) >>> reserve_crashkernel() >> >>> paging_init() >>> map_mem() >>> if (!IS_ENABLED(CONFIG_ZONE_DMA) && !IS_ENABLED(CONFIG_ZONE_DMA32)) >>> //block mapping >>> else >>> //page mapping >>> unflatten_device_tree or ACPI >>> bootmem_init(); >>> zone_sizes_init() >>> of_dma_get_max_cpu_address >>> //Update arm64_dma_phys_limit >>> if (IS_ENABLED(CONFIG_ZONE_DMA) || IS_ENABLED(CONFIG_ZONE_DMA32)) >>> reserve_crashkernel() >> >> The rest sounds good with optimization code split out. >> >> . >> > -- Regards, Zhen Lei _______________________________________________ kexec mailing list kexec@xxxxxxxxxxxxxxxxxxx http://lists.infradead.org/mailman/listinfo/kexec