forked from Minki/linux
0aad818b2d
The sparse code, when asking the architecture to populate the vmemmap, specifies the section range as a starting page and a number of pages. This is an awkward interface, because none of the arch-specific code actually thinks of the range in terms of 'struct page' units and always translates it to bytes first. In addition, later patches mix huge page and regular page backing for the vmemmap. For this, they need to call vmemmap_populate_basepages() on sub-section ranges with PAGE_SIZE and PMD_SIZE in mind. But these are not necessarily multiples of the 'struct page' size and so this unit is too coarse. Just translate the section range into bytes once in the generic sparse code, then pass byte ranges down the stack. Signed-off-by: Johannes Weiner <hannes@cmpxchg.org> Cc: Ben Hutchings <ben@decadent.org.uk> Cc: Bernhard Schmidt <Bernhard.Schmidt@lrz.de> Cc: Johannes Weiner <hannes@cmpxchg.org> Cc: Russell King <rmk@arm.linux.org.uk> Cc: Ingo Molnar <mingo@elte.hu> Cc: Thomas Gleixner <tglx@linutronix.de> Cc: "H. Peter Anvin" <hpa@zytor.com> Cc: Benjamin Herrenschmidt <benh@kernel.crashing.org> Cc: "Luck, Tony" <tony.luck@intel.com> Cc: Heiko Carstens <heiko.carstens@de.ibm.com> Acked-by: David S. Miller <davem@davemloft.net> Tested-by: David S. Miller <davem@davemloft.net> Cc: Wu Fengguang <fengguang.wu@intel.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
234 lines
5.9 KiB
C
234 lines
5.9 KiB
C
/*
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* Virtual Memory Map support
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*
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* (C) 2007 sgi. Christoph Lameter.
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*
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* Virtual memory maps allow VM primitives pfn_to_page, page_to_pfn,
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* virt_to_page, page_address() to be implemented as a base offset
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* calculation without memory access.
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*
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* However, virtual mappings need a page table and TLBs. Many Linux
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* architectures already map their physical space using 1-1 mappings
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* via TLBs. For those arches the virtual memory map is essentially
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* for free if we use the same page size as the 1-1 mappings. In that
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* case the overhead consists of a few additional pages that are
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* allocated to create a view of memory for vmemmap.
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*
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* The architecture is expected to provide a vmemmap_populate() function
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* to instantiate the mapping.
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*/
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#include <linux/mm.h>
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#include <linux/mmzone.h>
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#include <linux/bootmem.h>
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#include <linux/highmem.h>
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#include <linux/slab.h>
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#include <linux/spinlock.h>
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#include <linux/vmalloc.h>
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#include <linux/sched.h>
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#include <asm/dma.h>
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#include <asm/pgalloc.h>
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#include <asm/pgtable.h>
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/*
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* Allocate a block of memory to be used to back the virtual memory map
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* or to back the page tables that are used to create the mapping.
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* Uses the main allocators if they are available, else bootmem.
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*/
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static void * __init_refok __earlyonly_bootmem_alloc(int node,
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unsigned long size,
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unsigned long align,
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unsigned long goal)
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{
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return __alloc_bootmem_node_high(NODE_DATA(node), size, align, goal);
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}
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static void *vmemmap_buf;
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static void *vmemmap_buf_end;
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void * __meminit vmemmap_alloc_block(unsigned long size, int node)
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{
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/* If the main allocator is up use that, fallback to bootmem. */
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if (slab_is_available()) {
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struct page *page;
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if (node_state(node, N_HIGH_MEMORY))
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page = alloc_pages_node(
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node, GFP_KERNEL | __GFP_ZERO | __GFP_REPEAT,
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get_order(size));
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else
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page = alloc_pages(
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GFP_KERNEL | __GFP_ZERO | __GFP_REPEAT,
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get_order(size));
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if (page)
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return page_address(page);
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return NULL;
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} else
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return __earlyonly_bootmem_alloc(node, size, size,
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__pa(MAX_DMA_ADDRESS));
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}
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/* need to make sure size is all the same during early stage */
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void * __meminit vmemmap_alloc_block_buf(unsigned long size, int node)
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{
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void *ptr;
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if (!vmemmap_buf)
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return vmemmap_alloc_block(size, node);
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/* take the from buf */
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ptr = (void *)ALIGN((unsigned long)vmemmap_buf, size);
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if (ptr + size > vmemmap_buf_end)
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return vmemmap_alloc_block(size, node);
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vmemmap_buf = ptr + size;
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return ptr;
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}
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void __meminit vmemmap_verify(pte_t *pte, int node,
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unsigned long start, unsigned long end)
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{
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unsigned long pfn = pte_pfn(*pte);
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int actual_node = early_pfn_to_nid(pfn);
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if (node_distance(actual_node, node) > LOCAL_DISTANCE)
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printk(KERN_WARNING "[%lx-%lx] potential offnode "
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"page_structs\n", start, end - 1);
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}
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pte_t * __meminit vmemmap_pte_populate(pmd_t *pmd, unsigned long addr, int node)
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{
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pte_t *pte = pte_offset_kernel(pmd, addr);
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if (pte_none(*pte)) {
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pte_t entry;
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void *p = vmemmap_alloc_block_buf(PAGE_SIZE, node);
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if (!p)
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return NULL;
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entry = pfn_pte(__pa(p) >> PAGE_SHIFT, PAGE_KERNEL);
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set_pte_at(&init_mm, addr, pte, entry);
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}
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return pte;
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}
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pmd_t * __meminit vmemmap_pmd_populate(pud_t *pud, unsigned long addr, int node)
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{
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pmd_t *pmd = pmd_offset(pud, addr);
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if (pmd_none(*pmd)) {
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void *p = vmemmap_alloc_block(PAGE_SIZE, node);
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if (!p)
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return NULL;
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pmd_populate_kernel(&init_mm, pmd, p);
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}
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return pmd;
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}
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pud_t * __meminit vmemmap_pud_populate(pgd_t *pgd, unsigned long addr, int node)
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{
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pud_t *pud = pud_offset(pgd, addr);
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if (pud_none(*pud)) {
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void *p = vmemmap_alloc_block(PAGE_SIZE, node);
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if (!p)
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return NULL;
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pud_populate(&init_mm, pud, p);
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}
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return pud;
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}
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pgd_t * __meminit vmemmap_pgd_populate(unsigned long addr, int node)
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{
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pgd_t *pgd = pgd_offset_k(addr);
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if (pgd_none(*pgd)) {
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void *p = vmemmap_alloc_block(PAGE_SIZE, node);
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if (!p)
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return NULL;
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pgd_populate(&init_mm, pgd, p);
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}
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return pgd;
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}
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int __meminit vmemmap_populate_basepages(unsigned long start,
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unsigned long end, int node)
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{
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unsigned long addr = start;
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pgd_t *pgd;
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pud_t *pud;
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pmd_t *pmd;
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pte_t *pte;
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for (; addr < end; addr += PAGE_SIZE) {
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pgd = vmemmap_pgd_populate(addr, node);
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if (!pgd)
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return -ENOMEM;
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pud = vmemmap_pud_populate(pgd, addr, node);
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if (!pud)
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return -ENOMEM;
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pmd = vmemmap_pmd_populate(pud, addr, node);
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if (!pmd)
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return -ENOMEM;
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pte = vmemmap_pte_populate(pmd, addr, node);
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if (!pte)
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return -ENOMEM;
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vmemmap_verify(pte, node, addr, addr + PAGE_SIZE);
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}
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return 0;
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}
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struct page * __meminit sparse_mem_map_populate(unsigned long pnum, int nid)
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{
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unsigned long start;
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unsigned long end;
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struct page *map;
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map = pfn_to_page(pnum * PAGES_PER_SECTION);
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start = (unsigned long)map;
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end = (unsigned long)(map + PAGES_PER_SECTION);
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if (vmemmap_populate(start, end, nid))
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return NULL;
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return map;
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}
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void __init sparse_mem_maps_populate_node(struct page **map_map,
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unsigned long pnum_begin,
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unsigned long pnum_end,
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unsigned long map_count, int nodeid)
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{
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unsigned long pnum;
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unsigned long size = sizeof(struct page) * PAGES_PER_SECTION;
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void *vmemmap_buf_start;
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size = ALIGN(size, PMD_SIZE);
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vmemmap_buf_start = __earlyonly_bootmem_alloc(nodeid, size * map_count,
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PMD_SIZE, __pa(MAX_DMA_ADDRESS));
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if (vmemmap_buf_start) {
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vmemmap_buf = vmemmap_buf_start;
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vmemmap_buf_end = vmemmap_buf_start + size * map_count;
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}
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for (pnum = pnum_begin; pnum < pnum_end; pnum++) {
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struct mem_section *ms;
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if (!present_section_nr(pnum))
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continue;
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map_map[pnum] = sparse_mem_map_populate(pnum, nodeid);
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if (map_map[pnum])
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continue;
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ms = __nr_to_section(pnum);
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printk(KERN_ERR "%s: sparsemem memory map backing failed "
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"some memory will not be available.\n", __func__);
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ms->section_mem_map = 0;
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}
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if (vmemmap_buf_start) {
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/* need to free left buf */
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free_bootmem(__pa(vmemmap_buf), vmemmap_buf_end - vmemmap_buf);
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vmemmap_buf = NULL;
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vmemmap_buf_end = NULL;
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}
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}
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