Factor out the kmem contig page alloc and reclamation code.
kmem_alloc_attr_domain() and kmem_alloc_contig_domain() duplicated each other's page allocation and reclamation logic. Place it in a single function to make it easier to add additional consumers. No functional change intended. Reviewed by: jeff, kib MFC after: 1 week Sponsored by: The FreeBSD Foundation Differential Revision: https://reviews.freebsd.org/D24475
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markj
parent
3cc5d844d4
commit
fc30a4ce8c
@ -169,6 +169,35 @@ kva_free(vm_offset_t addr, vm_size_t size)
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vmem_free(kernel_arena, addr, size);
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}
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static vm_page_t
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kmem_alloc_contig_pages(vm_object_t object, vm_pindex_t pindex, int domain,
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int pflags, u_long npages, vm_paddr_t low, vm_paddr_t high,
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u_long alignment, vm_paddr_t boundary, vm_memattr_t memattr)
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{
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vm_page_t m;
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int tries;
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bool wait;
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VM_OBJECT_ASSERT_WLOCKED(object);
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wait = (pflags & VM_ALLOC_WAITOK) != 0;
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pflags &= ~(VM_ALLOC_NOWAIT | VM_ALLOC_WAITOK | VM_ALLOC_WAITFAIL);
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pflags |= VM_ALLOC_NOWAIT;
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for (tries = wait ? 3 : 1;; tries--) {
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m = vm_page_alloc_contig_domain(object, pindex, domain, pflags,
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npages, low, high, alignment, boundary, memattr);
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if (m != NULL || tries == 0)
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break;
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VM_OBJECT_WUNLOCK(object);
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if (!vm_page_reclaim_contig_domain(domain, pflags, npages,
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low, high, alignment, boundary) && wait)
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vm_wait_domain(domain);
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VM_OBJECT_WLOCK(object);
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}
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return (m);
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}
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/*
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* Allocates a region from the kernel address map and physical pages
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* within the specified address range to the kernel object. Creates a
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@ -182,38 +211,26 @@ kmem_alloc_attr_domain(int domain, vm_size_t size, int flags, vm_paddr_t low,
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vm_paddr_t high, vm_memattr_t memattr)
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{
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vmem_t *vmem;
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vm_object_t object = kernel_object;
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vm_object_t object;
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vm_offset_t addr, i, offset;
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vm_page_t m;
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int pflags, tries;
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int pflags;
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vm_prot_t prot;
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object = kernel_object;
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size = round_page(size);
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vmem = vm_dom[domain].vmd_kernel_arena;
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if (vmem_alloc(vmem, size, M_BESTFIT | flags, &addr))
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return (0);
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offset = addr - VM_MIN_KERNEL_ADDRESS;
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pflags = malloc2vm_flags(flags) | VM_ALLOC_WIRED;
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pflags &= ~(VM_ALLOC_NOWAIT | VM_ALLOC_WAITOK | VM_ALLOC_WAITFAIL);
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pflags |= VM_ALLOC_NOWAIT;
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prot = (flags & M_EXEC) != 0 ? VM_PROT_ALL : VM_PROT_RW;
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VM_OBJECT_WLOCK(object);
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for (i = 0; i < size; i += PAGE_SIZE) {
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tries = 0;
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retry:
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m = vm_page_alloc_contig_domain(object, atop(offset + i),
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m = kmem_alloc_contig_pages(object, atop(offset + i),
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domain, pflags, 1, low, high, PAGE_SIZE, 0, memattr);
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if (m == NULL) {
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VM_OBJECT_WUNLOCK(object);
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if (tries < ((flags & M_NOWAIT) != 0 ? 1 : 3)) {
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if (!vm_page_reclaim_contig_domain(domain,
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pflags, 1, low, high, PAGE_SIZE, 0) &&
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(flags & M_WAITOK) != 0)
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vm_wait_domain(domain);
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VM_OBJECT_WLOCK(object);
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tries++;
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goto retry;
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}
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kmem_unback(object, addr, i);
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vmem_free(vmem, addr, size);
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return (0);
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@ -273,37 +290,25 @@ kmem_alloc_contig_domain(int domain, vm_size_t size, int flags, vm_paddr_t low,
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vm_memattr_t memattr)
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{
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vmem_t *vmem;
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vm_object_t object = kernel_object;
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vm_object_t object;
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vm_offset_t addr, offset, tmp;
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vm_page_t end_m, m;
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u_long npages;
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int pflags, tries;
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int pflags;
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object = kernel_object;
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size = round_page(size);
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vmem = vm_dom[domain].vmd_kernel_arena;
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if (vmem_alloc(vmem, size, flags | M_BESTFIT, &addr))
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return (0);
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offset = addr - VM_MIN_KERNEL_ADDRESS;
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pflags = malloc2vm_flags(flags) | VM_ALLOC_WIRED;
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pflags &= ~(VM_ALLOC_NOWAIT | VM_ALLOC_WAITOK | VM_ALLOC_WAITFAIL);
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pflags |= VM_ALLOC_NOWAIT;
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npages = atop(size);
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VM_OBJECT_WLOCK(object);
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tries = 0;
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retry:
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m = vm_page_alloc_contig_domain(object, atop(offset), domain, pflags,
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npages, low, high, alignment, boundary, memattr);
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m = kmem_alloc_contig_pages(object, atop(offset), domain,
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pflags, npages, low, high, alignment, boundary, memattr);
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if (m == NULL) {
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VM_OBJECT_WUNLOCK(object);
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if (tries < ((flags & M_NOWAIT) != 0 ? 1 : 3)) {
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if (!vm_page_reclaim_contig_domain(domain, pflags,
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npages, low, high, alignment, boundary) &&
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(flags & M_WAITOK) != 0)
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vm_wait_domain(domain);
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VM_OBJECT_WLOCK(object);
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tries++;
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goto retry;
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}
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vmem_free(vmem, addr, size);
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return (0);
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}
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