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Fix three miscalculations in amount of boot pages:
o Most of startup zones have struct uma_slab embedded into the slab, so provide macro UMA_SLAB_SPACE and use it instead of UMA_SLAB_SIZE, when calculating how many pages would certain kind of allocations require. Some zones are offpage, so we might have a positive inaccuracy. o The keg for the zone of zones is allocated "dynamically", so we need +1 when calculating amount of pages for kegs. [1] o The zones of zones and zones of kegs have arbitrary alignment of 32, and this also needs to be accounted for. [2] While here, spread more comments and improve diagnostic messages. Reported by: pho [1], jtl [2]
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Notes:
svn2git
2020-12-20 02:59:44 +00:00
svn path=/head/; revision=328982
@ -667,7 +667,8 @@ int
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vmem_startup_count(void)
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{
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return (howmany(BT_MAXALLOC, UMA_SLAB_SIZE / sizeof(struct vmem_btag)));
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return (howmany(BT_MAXALLOC,
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UMA_SLAB_SPACE / sizeof(struct vmem_btag)));
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}
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#endif
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@ -1102,7 +1102,7 @@ startup_alloc(uma_zone_t zone, vm_size_t bytes, int domain, uint8_t *pflag,
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}
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mtx_unlock(&uma_boot_pages_mtx);
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if (booted < BOOT_PAGEALLOC)
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panic("UMA: Increase vm.boot_pages");
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panic("UMA zone \"%s\": Increase vm.boot_pages", zone->uz_name);
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/*
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* Now that we've booted reset these users to their real allocator.
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*/
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@ -1785,6 +1785,8 @@ zone_foreach(void (*zfunc)(uma_zone_t))
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* zone of zones and zone of kegs are accounted separately.
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*/
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#define UMA_BOOT_ZONES 11
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/* Zone of zones and zone of kegs have arbitrary alignment. */
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#define UMA_BOOT_ALIGN 32
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static int zsize, ksize;
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int
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uma_startup_count(int zones)
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@ -1797,26 +1799,36 @@ uma_startup_count(int zones)
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(sizeof(struct uma_cache) * (mp_maxid + 1)) +
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(sizeof(struct uma_zone_domain) * vm_ndomains);
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/* Memory for the zone of zones and zone of kegs. */
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/*
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* Memory for the zone of kegs and its keg,
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* and for zone of zones.
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*/
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pages = howmany(roundup(zsize, CACHE_LINE_SIZE) * 2 +
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roundup(ksize, CACHE_LINE_SIZE), PAGE_SIZE);
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zones += UMA_BOOT_ZONES;
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/* Memory for startup zones, UMA and VM, ... */
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/* Memory for the rest of startup zones, UMA and VM, ... */
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if (zsize > UMA_SLAB_SIZE)
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pages += zones * howmany(zsize, UMA_SLAB_SIZE);
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pages += zones * howmany(roundup2(zsize, UMA_BOOT_ALIGN),
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UMA_SLAB_SIZE);
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else
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pages += howmany(zones, UMA_SLAB_SIZE / zsize);
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pages += howmany(zones,
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UMA_SLAB_SPACE / roundup2(zsize, UMA_BOOT_ALIGN));
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/* ... and their kegs. */
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pages += howmany(zones, UMA_SLAB_SIZE / ksize);
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/* ... and their kegs. Note that zone of zones allocates a keg! */
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pages += howmany(zones + 1,
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UMA_SLAB_SPACE / roundup2(ksize, UMA_BOOT_ALIGN));
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/*
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* Take conservative approach that every zone
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* is going to allocate hash.
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* Most of startup zones are not going to be offpages, that's
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* why we use UMA_SLAB_SPACE instead of UMA_SLAB_SIZE in all
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* calculations. Some large bucket zones will be offpage, and
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* thus will allocate hashes. We take conservative approach
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* and assume that all zones may allocate hash. This may give
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* us some positive inaccuracy, usually an extra single page.
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*/
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pages += howmany(zones, UMA_SLAB_SIZE /
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pages += howmany(zones, UMA_SLAB_SPACE /
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(sizeof(struct slabhead *) * UMA_HASH_SIZE_INIT));
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return (pages);
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@ -1856,7 +1868,7 @@ uma_startup(void *mem, int npages)
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args.uminit = zero_init;
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args.fini = NULL;
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args.keg = masterkeg;
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args.align = 32 - 1;
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args.align = UMA_BOOT_ALIGN - 1;
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args.flags = UMA_ZFLAG_INTERNAL;
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zone_ctor(kegs, zsize, &args, M_WAITOK);
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@ -1871,7 +1883,7 @@ uma_startup(void *mem, int npages)
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args.uminit = zero_init;
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args.fini = NULL;
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args.keg = NULL;
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args.align = 32 - 1;
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args.align = UMA_BOOT_ALIGN - 1;
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args.flags = UMA_ZFLAG_INTERNAL;
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zone_ctor(zones, zsize, &args, M_WAITOK);
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@ -137,6 +137,11 @@
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/* Max waste percentage before going to off page slab management */
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#define UMA_MAX_WASTE 10
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/*
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* Size of memory in a not offpage slab available for actual items.
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*/
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#define UMA_SLAB_SPACE (UMA_SLAB_SIZE - sizeof(struct uma_slab))
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/*
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* I doubt there will be many cases where this is exceeded. This is the initial
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* size of the hash table for uma_slabs that are managed off page. This hash
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@ -519,7 +519,8 @@ vm_page_startup(vm_offset_t vaddr)
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/* vmem_startup() calls uma_prealloc(). */
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boot_pages += vmem_startup_count();
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/* vm_map_startup() calls uma_prealloc(). */
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boot_pages += howmany(MAX_KMAP, UMA_SLAB_SIZE / sizeof(struct vm_map));
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boot_pages += howmany(MAX_KMAP,
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UMA_SLAB_SPACE / sizeof(struct vm_map));
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/*
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* Before going fully functional kmem_init() does allocation
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