hugetlbpage.c 21.9 KB
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/*
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 * PPC Huge TLB Page Support for Kernel.
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 *
 * Copyright (C) 2003 David Gibson, IBM Corporation.
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 * Copyright (C) 2011 Becky Bruce, Freescale Semiconductor
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 *
 * Based on the IA-32 version:
 * Copyright (C) 2002, Rohit Seth <rohit.seth@intel.com>
 */

#include <linux/mm.h>
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#include <linux/io.h>
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#include <linux/slab.h>
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#include <linux/hugetlb.h>
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#include <linux/export.h>
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#include <linux/of_fdt.h>
#include <linux/memblock.h>
#include <linux/bootmem.h>
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#include <linux/moduleparam.h>
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#include <asm/pgtable.h>
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#include <asm/pgalloc.h>
#include <asm/tlb.h>
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#include <asm/setup.h>
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#define PAGE_SHIFT_64K	16
#define PAGE_SHIFT_16M	24
#define PAGE_SHIFT_16G	34
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unsigned int HPAGE_SHIFT;
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/*
 * Tracks gpages after the device tree is scanned and before the
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 * huge_boot_pages list is ready.  On non-Freescale implementations, this is
 * just used to track 16G pages and so is a single array.  FSL-based
 * implementations may have more than one gpage size, so we need multiple
 * arrays
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 */
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#ifdef CONFIG_PPC_FSL_BOOK3E
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#define MAX_NUMBER_GPAGES	128
struct psize_gpages {
	u64 gpage_list[MAX_NUMBER_GPAGES];
	unsigned int nr_gpages;
};
static struct psize_gpages gpage_freearray[MMU_PAGE_COUNT];
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#else
#define MAX_NUMBER_GPAGES	1024
static u64 gpage_freearray[MAX_NUMBER_GPAGES];
static unsigned nr_gpages;
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#endif
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static inline int shift_to_mmu_psize(unsigned int shift)
{
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	int psize;

	for (psize = 0; psize < MMU_PAGE_COUNT; ++psize)
		if (mmu_psize_defs[psize].shift == shift)
			return psize;
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	return -1;
}

static inline unsigned int mmu_psize_to_shift(unsigned int mmu_psize)
{
	if (mmu_psize_defs[mmu_psize].shift)
		return mmu_psize_defs[mmu_psize].shift;
	BUG();
}

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#define hugepd_none(hpd)	((hpd).pd == 0)

pte_t *find_linux_pte_or_hugepte(pgd_t *pgdir, unsigned long ea, unsigned *shift)
{
	pgd_t *pg;
	pud_t *pu;
	pmd_t *pm;
	hugepd_t *hpdp = NULL;
	unsigned pdshift = PGDIR_SHIFT;

	if (shift)
		*shift = 0;

	pg = pgdir + pgd_index(ea);
	if (is_hugepd(pg)) {
		hpdp = (hugepd_t *)pg;
	} else if (!pgd_none(*pg)) {
		pdshift = PUD_SHIFT;
		pu = pud_offset(pg, ea);
		if (is_hugepd(pu))
			hpdp = (hugepd_t *)pu;
		else if (!pud_none(*pu)) {
			pdshift = PMD_SHIFT;
			pm = pmd_offset(pu, ea);
			if (is_hugepd(pm))
				hpdp = (hugepd_t *)pm;
			else if (!pmd_none(*pm)) {
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				return pte_offset_kernel(pm, ea);
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			}
		}
	}

	if (!hpdp)
		return NULL;

	if (shift)
		*shift = hugepd_shift(*hpdp);
	return hugepte_offset(hpdp, ea, pdshift);
}
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EXPORT_SYMBOL_GPL(find_linux_pte_or_hugepte);
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pte_t *huge_pte_offset(struct mm_struct *mm, unsigned long addr)
{
	return find_linux_pte_or_hugepte(mm->pgd, addr, NULL);
}

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static int __hugepte_alloc(struct mm_struct *mm, hugepd_t *hpdp,
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			   unsigned long address, unsigned pdshift, unsigned pshift)
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{
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	struct kmem_cache *cachep;
	pte_t *new;

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#ifdef CONFIG_PPC_FSL_BOOK3E
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	int i;
	int num_hugepd = 1 << (pshift - pdshift);
	cachep = hugepte_cache;
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#else
	cachep = PGT_CACHE(pdshift - pshift);
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#endif

	new = kmem_cache_zalloc(cachep, GFP_KERNEL|__GFP_REPEAT);
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	BUG_ON(pshift > HUGEPD_SHIFT_MASK);
	BUG_ON((unsigned long)new & HUGEPD_SHIFT_MASK);

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	if (! new)
		return -ENOMEM;

	spin_lock(&mm->page_table_lock);
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#ifdef CONFIG_PPC_FSL_BOOK3E
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	/*
	 * We have multiple higher-level entries that point to the same
	 * actual pte location.  Fill in each as we go and backtrack on error.
	 * We need all of these so the DTLB pgtable walk code can find the
	 * right higher-level entry without knowing if it's a hugepage or not.
	 */
	for (i = 0; i < num_hugepd; i++, hpdp++) {
		if (unlikely(!hugepd_none(*hpdp)))
			break;
		else
			hpdp->pd = ((unsigned long)new & ~PD_HUGE) | pshift;
	}
	/* If we bailed from the for loop early, an error occurred, clean up */
	if (i < num_hugepd) {
		for (i = i - 1 ; i >= 0; i--, hpdp--)
			hpdp->pd = 0;
		kmem_cache_free(cachep, new);
	}
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#else
	if (!hugepd_none(*hpdp))
		kmem_cache_free(cachep, new);
	else
		hpdp->pd = ((unsigned long)new & ~PD_HUGE) | pshift;
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#endif
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	spin_unlock(&mm->page_table_lock);
	return 0;
}

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/*
 * These macros define how to determine which level of the page table holds
 * the hpdp.
 */
#ifdef CONFIG_PPC_FSL_BOOK3E
#define HUGEPD_PGD_SHIFT PGDIR_SHIFT
#define HUGEPD_PUD_SHIFT PUD_SHIFT
#else
#define HUGEPD_PGD_SHIFT PUD_SHIFT
#define HUGEPD_PUD_SHIFT PMD_SHIFT
#endif

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pte_t *huge_pte_alloc(struct mm_struct *mm, unsigned long addr, unsigned long sz)
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{
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	pgd_t *pg;
	pud_t *pu;
	pmd_t *pm;
	hugepd_t *hpdp = NULL;
	unsigned pshift = __ffs(sz);
	unsigned pdshift = PGDIR_SHIFT;

	addr &= ~(sz-1);

	pg = pgd_offset(mm, addr);
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	if (pshift >= HUGEPD_PGD_SHIFT) {
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		hpdp = (hugepd_t *)pg;
	} else {
		pdshift = PUD_SHIFT;
		pu = pud_alloc(mm, pg, addr);
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		if (pshift >= HUGEPD_PUD_SHIFT) {
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			hpdp = (hugepd_t *)pu;
		} else {
			pdshift = PMD_SHIFT;
			pm = pmd_alloc(mm, pu, addr);
			hpdp = (hugepd_t *)pm;
		}
	}

	if (!hpdp)
		return NULL;

	BUG_ON(!hugepd_none(*hpdp) && !hugepd_ok(*hpdp));

	if (hugepd_none(*hpdp) && __hugepte_alloc(mm, hpdp, addr, pdshift, pshift))
		return NULL;

	return hugepte_offset(hpdp, addr, pdshift);
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}

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#ifdef CONFIG_PPC_FSL_BOOK3E
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/* Build list of addresses of gigantic pages.  This function is used in early
 * boot before the buddy or bootmem allocator is setup.
 */
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void add_gpage(u64 addr, u64 page_size, unsigned long number_of_pages)
{
	unsigned int idx = shift_to_mmu_psize(__ffs(page_size));
	int i;

	if (addr == 0)
		return;

	gpage_freearray[idx].nr_gpages = number_of_pages;

	for (i = 0; i < number_of_pages; i++) {
		gpage_freearray[idx].gpage_list[i] = addr;
		addr += page_size;
	}
}

/*
 * Moves the gigantic page addresses from the temporary list to the
 * huge_boot_pages list.
 */
int alloc_bootmem_huge_page(struct hstate *hstate)
{
	struct huge_bootmem_page *m;
	int idx = shift_to_mmu_psize(hstate->order + PAGE_SHIFT);
	int nr_gpages = gpage_freearray[idx].nr_gpages;

	if (nr_gpages == 0)
		return 0;

#ifdef CONFIG_HIGHMEM
	/*
	 * If gpages can be in highmem we can't use the trick of storing the
	 * data structure in the page; allocate space for this
	 */
	m = alloc_bootmem(sizeof(struct huge_bootmem_page));
	m->phys = gpage_freearray[idx].gpage_list[--nr_gpages];
#else
	m = phys_to_virt(gpage_freearray[idx].gpage_list[--nr_gpages]);
#endif

	list_add(&m->list, &huge_boot_pages);
	gpage_freearray[idx].nr_gpages = nr_gpages;
	gpage_freearray[idx].gpage_list[nr_gpages] = 0;
	m->hstate = hstate;

	return 1;
}
/*
 * Scan the command line hugepagesz= options for gigantic pages; store those in
 * a list that we use to allocate the memory once all options are parsed.
 */

unsigned long gpage_npages[MMU_PAGE_COUNT];

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static int __init do_gpage_early_setup(char *param, char *val,
				       const char *unused)
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{
	static phys_addr_t size;
	unsigned long npages;

	/*
	 * The hugepagesz and hugepages cmdline options are interleaved.  We
	 * use the size variable to keep track of whether or not this was done
	 * properly and skip over instances where it is incorrect.  Other
	 * command-line parsing code will issue warnings, so we don't need to.
	 *
	 */
	if ((strcmp(param, "default_hugepagesz") == 0) ||
	    (strcmp(param, "hugepagesz") == 0)) {
		size = memparse(val, NULL);
	} else if (strcmp(param, "hugepages") == 0) {
		if (size != 0) {
			if (sscanf(val, "%lu", &npages) <= 0)
				npages = 0;
			gpage_npages[shift_to_mmu_psize(__ffs(size))] = npages;
			size = 0;
		}
	}
	return 0;
}


/*
 * This function allocates physical space for pages that are larger than the
 * buddy allocator can handle.  We want to allocate these in highmem because
 * the amount of lowmem is limited.  This means that this function MUST be
 * called before lowmem_end_addr is set up in MMU_init() in order for the lmb
 * allocate to grab highmem.
 */
void __init reserve_hugetlb_gpages(void)
{
	static __initdata char cmdline[COMMAND_LINE_SIZE];
	phys_addr_t size, base;
	int i;

	strlcpy(cmdline, boot_command_line, COMMAND_LINE_SIZE);
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	parse_args("hugetlb gpages", cmdline, NULL, 0, 0, 0,
			&do_gpage_early_setup);
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	/*
	 * Walk gpage list in reverse, allocating larger page sizes first.
	 * Skip over unsupported sizes, or sizes that have 0 gpages allocated.
	 * When we reach the point in the list where pages are no longer
	 * considered gpages, we're done.
	 */
	for (i = MMU_PAGE_COUNT-1; i >= 0; i--) {
		if (mmu_psize_defs[i].shift == 0 || gpage_npages[i] == 0)
			continue;
		else if (mmu_psize_to_shift(i) < (MAX_ORDER + PAGE_SHIFT))
			break;

		size = (phys_addr_t)(1ULL << mmu_psize_to_shift(i));
		base = memblock_alloc_base(size * gpage_npages[i], size,
					   MEMBLOCK_ALLOC_ANYWHERE);
		add_gpage(base, size, gpage_npages[i]);
	}
}

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#else /* !PPC_FSL_BOOK3E */
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/* Build list of addresses of gigantic pages.  This function is used in early
 * boot before the buddy or bootmem allocator is setup.
 */
void add_gpage(u64 addr, u64 page_size, unsigned long number_of_pages)
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{
	if (!addr)
		return;
	while (number_of_pages > 0) {
		gpage_freearray[nr_gpages] = addr;
		nr_gpages++;
		number_of_pages--;
		addr += page_size;
	}
}

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/* Moves the gigantic page addresses from the temporary list to the
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 * huge_boot_pages list.
 */
int alloc_bootmem_huge_page(struct hstate *hstate)
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{
	struct huge_bootmem_page *m;
	if (nr_gpages == 0)
		return 0;
	m = phys_to_virt(gpage_freearray[--nr_gpages]);
	gpage_freearray[nr_gpages] = 0;
	list_add(&m->list, &huge_boot_pages);
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	m->hstate = hstate;
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	return 1;
}
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#endif
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int huge_pmd_unshare(struct mm_struct *mm, unsigned long *addr, pte_t *ptep)
{
	return 0;
}

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#ifdef CONFIG_PPC_FSL_BOOK3E
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#define HUGEPD_FREELIST_SIZE \
	((PAGE_SIZE - sizeof(struct hugepd_freelist)) / sizeof(pte_t))

struct hugepd_freelist {
	struct rcu_head	rcu;
	unsigned int index;
	void *ptes[0];
};

static DEFINE_PER_CPU(struct hugepd_freelist *, hugepd_freelist_cur);

static void hugepd_free_rcu_callback(struct rcu_head *head)
{
	struct hugepd_freelist *batch =
		container_of(head, struct hugepd_freelist, rcu);
	unsigned int i;

	for (i = 0; i < batch->index; i++)
		kmem_cache_free(hugepte_cache, batch->ptes[i]);

	free_page((unsigned long)batch);
}

static void hugepd_free(struct mmu_gather *tlb, void *hugepte)
{
	struct hugepd_freelist **batchp;

	batchp = &__get_cpu_var(hugepd_freelist_cur);

	if (atomic_read(&tlb->mm->mm_users) < 2 ||
	    cpumask_equal(mm_cpumask(tlb->mm),
			  cpumask_of(smp_processor_id()))) {
		kmem_cache_free(hugepte_cache, hugepte);
		return;
	}

	if (*batchp == NULL) {
		*batchp = (struct hugepd_freelist *)__get_free_page(GFP_ATOMIC);
		(*batchp)->index = 0;
	}

	(*batchp)->ptes[(*batchp)->index++] = hugepte;
	if ((*batchp)->index == HUGEPD_FREELIST_SIZE) {
		call_rcu_sched(&(*batchp)->rcu, hugepd_free_rcu_callback);
		*batchp = NULL;
	}
}
#endif

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static void free_hugepd_range(struct mmu_gather *tlb, hugepd_t *hpdp, int pdshift,
			      unsigned long start, unsigned long end,
			      unsigned long floor, unsigned long ceiling)
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{
	pte_t *hugepte = hugepd_page(*hpdp);
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	int i;

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	unsigned long pdmask = ~((1UL << pdshift) - 1);
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	unsigned int num_hugepd = 1;

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#ifdef CONFIG_PPC_FSL_BOOK3E
	/* Note: On fsl the hpdp may be the first of several */
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	num_hugepd = (1 << (hugepd_shift(*hpdp) - pdshift));
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#else
	unsigned int shift = hugepd_shift(*hpdp);
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#endif
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	start &= pdmask;
	if (start < floor)
		return;
	if (ceiling) {
		ceiling &= pdmask;
		if (! ceiling)
			return;
	}
	if (end - 1 > ceiling - 1)
		return;
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	for (i = 0; i < num_hugepd; i++, hpdp++)
		hpdp->pd = 0;

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	tlb->need_flush = 1;
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#ifdef CONFIG_PPC_FSL_BOOK3E
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	hugepd_free(tlb, hugepte);
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#else
	pgtable_free_tlb(tlb, hugepte, pdshift - shift);
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#endif
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}

static void hugetlb_free_pmd_range(struct mmu_gather *tlb, pud_t *pud,
				   unsigned long addr, unsigned long end,
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				   unsigned long floor, unsigned long ceiling)
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{
	pmd_t *pmd;
	unsigned long next;
	unsigned long start;

	start = addr;
	do {
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		pmd = pmd_offset(pud, addr);
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		next = pmd_addr_end(addr, end);
		if (pmd_none(*pmd))
			continue;
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#ifdef CONFIG_PPC_FSL_BOOK3E
		/*
		 * Increment next by the size of the huge mapping since
		 * there may be more than one entry at this level for a
		 * single hugepage, but all of them point to
		 * the same kmem cache that holds the hugepte.
		 */
		next = addr + (1 << hugepd_shift(*(hugepd_t *)pmd));
#endif
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		free_hugepd_range(tlb, (hugepd_t *)pmd, PMD_SHIFT,
				  addr, next, floor, ceiling);
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	} while (addr = next, addr != end);
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	start &= PUD_MASK;
	if (start < floor)
		return;
	if (ceiling) {
		ceiling &= PUD_MASK;
		if (!ceiling)
			return;
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	}
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	if (end - 1 > ceiling - 1)
		return;
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	pmd = pmd_offset(pud, start);
	pud_clear(pud);
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	pmd_free_tlb(tlb, pmd, start);
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}

static void hugetlb_free_pud_range(struct mmu_gather *tlb, pgd_t *pgd,
				   unsigned long addr, unsigned long end,
				   unsigned long floor, unsigned long ceiling)
{
	pud_t *pud;
	unsigned long next;
	unsigned long start;

	start = addr;
	do {
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		pud = pud_offset(pgd, addr);
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		next = pud_addr_end(addr, end);
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		if (!is_hugepd(pud)) {
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			if (pud_none_or_clear_bad(pud))
				continue;
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			hugetlb_free_pmd_range(tlb, pud, addr, next, floor,
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					       ceiling);
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		} else {
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#ifdef CONFIG_PPC_FSL_BOOK3E
			/*
			 * Increment next by the size of the huge mapping since
			 * there may be more than one entry at this level for a
			 * single hugepage, but all of them point to
			 * the same kmem cache that holds the hugepte.
			 */
			next = addr + (1 << hugepd_shift(*(hugepd_t *)pud));
#endif
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			free_hugepd_range(tlb, (hugepd_t *)pud, PUD_SHIFT,
					  addr, next, floor, ceiling);
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		}
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	} while (addr = next, addr != end);
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	start &= PGDIR_MASK;
	if (start < floor)
		return;
	if (ceiling) {
		ceiling &= PGDIR_MASK;
		if (!ceiling)
			return;
	}
	if (end - 1 > ceiling - 1)
		return;

	pud = pud_offset(pgd, start);
	pgd_clear(pgd);
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	pud_free_tlb(tlb, pud, start);
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}

/*
 * This function frees user-level page tables of a process.
 *
 * Must be called with pagetable lock held.
 */
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void hugetlb_free_pgd_range(struct mmu_gather *tlb,
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			    unsigned long addr, unsigned long end,
			    unsigned long floor, unsigned long ceiling)
{
	pgd_t *pgd;
	unsigned long next;

	/*
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	 * Because there are a number of different possible pagetable
	 * layouts for hugepage ranges, we limit knowledge of how
	 * things should be laid out to the allocation path
	 * (huge_pte_alloc(), above).  Everything else works out the
	 * structure as it goes from information in the hugepd
	 * pointers.  That means that we can't here use the
	 * optimization used in the normal page free_pgd_range(), of
	 * checking whether we're actually covering a large enough
	 * range to have to do anything at the top level of the walk
	 * instead of at the bottom.
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	 *
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	 * To make sense of this, you should probably go read the big
	 * block comment at the top of the normal free_pgd_range(),
	 * too.
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	 */

	do {
		next = pgd_addr_end(addr, end);
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		pgd = pgd_offset(tlb->mm, addr);
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		if (!is_hugepd(pgd)) {
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			if (pgd_none_or_clear_bad(pgd))
				continue;
			hugetlb_free_pud_range(tlb, pgd, addr, next, floor, ceiling);
		} else {
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#ifdef CONFIG_PPC_FSL_BOOK3E
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			/*
			 * Increment next by the size of the huge mapping since
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			 * there may be more than one entry at the pgd level
			 * for a single hugepage, but all of them point to the
			 * same kmem cache that holds the hugepte.
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			 */
			next = addr + (1 << hugepd_shift(*(hugepd_t *)pgd));
#endif
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			free_hugepd_range(tlb, (hugepd_t *)pgd, PGDIR_SHIFT,
					  addr, next, floor, ceiling);
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		}
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	} while (addr = next, addr != end);
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}

struct page *
follow_huge_addr(struct mm_struct *mm, unsigned long address, int write)
{
	pte_t *ptep;
	struct page *page;
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	unsigned shift;
	unsigned long mask;

	ptep = find_linux_pte_or_hugepte(mm->pgd, address, &shift);
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	/* Verify it is a huge page else bail. */
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	if (!ptep || !shift)
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		return ERR_PTR(-EINVAL);

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	mask = (1UL << shift) - 1;
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	page = pte_page(*ptep);
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	if (page)
		page += (address & mask) / PAGE_SIZE;
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	return page;
}

int pmd_huge(pmd_t pmd)
{
	return 0;
}

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int pud_huge(pud_t pud)
{
	return 0;
}

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struct page *
follow_huge_pmd(struct mm_struct *mm, unsigned long address,
		pmd_t *pmd, int write)
{
	BUG();
	return NULL;
}

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static noinline int gup_hugepte(pte_t *ptep, unsigned long sz, unsigned long addr,
		       unsigned long end, int write, struct page **pages, int *nr)
{
	unsigned long mask;
	unsigned long pte_end;
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	struct page *head, *page, *tail;
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	pte_t pte;
	int refs;

	pte_end = (addr + sz) & ~(sz-1);
	if (pte_end < end)
		end = pte_end;

	pte = *ptep;
	mask = _PAGE_PRESENT | _PAGE_USER;
	if (write)
		mask |= _PAGE_RW;

	if ((pte_val(pte) & mask) != mask)
		return 0;

	/* hugepages are never "special" */
	VM_BUG_ON(!pfn_valid(pte_pfn(pte)));

	refs = 0;
	head = pte_page(pte);

	page = head + ((addr & (sz-1)) >> PAGE_SHIFT);
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	tail = page;
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	do {
		VM_BUG_ON(compound_head(page) != head);
		pages[*nr] = page;
		(*nr)++;
		page++;
		refs++;
	} while (addr += PAGE_SIZE, addr != end);

	if (!page_cache_add_speculative(head, refs)) {
		*nr -= refs;
		return 0;
	}

	if (unlikely(pte_val(pte) != pte_val(*ptep))) {
		/* Could be optimized better */
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		*nr -= refs;
		while (refs--)
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			put_page(head);
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		return 0;
	}

	/*
	 * Any tail page need their mapcount reference taken before we
	 * return.
	 */
	while (refs--) {
		if (PageTail(tail))
			get_huge_page_tail(tail);
		tail++;
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	}

	return 1;
}

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static unsigned long hugepte_addr_end(unsigned long addr, unsigned long end,
				      unsigned long sz)
{
	unsigned long __boundary = (addr + sz) & ~(sz-1);
	return (__boundary - 1 < end - 1) ? __boundary : end;
}

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int gup_hugepd(hugepd_t *hugepd, unsigned pdshift,
	       unsigned long addr, unsigned long end,
	       int write, struct page **pages, int *nr)
{
	pte_t *ptep;
	unsigned long sz = 1UL << hugepd_shift(*hugepd);
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	unsigned long next;
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	ptep = hugepte_offset(hugepd, addr, pdshift);
	do {
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		next = hugepte_addr_end(addr, end, sz);
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		if (!gup_hugepte(ptep, sz, addr, end, write, pages, nr))
			return 0;
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	} while (ptep++, addr = next, addr != end);
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	return 1;
}
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#ifdef CONFIG_PPC_MM_SLICES
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unsigned long hugetlb_get_unmapped_area(struct file *file, unsigned long addr,
					unsigned long len, unsigned long pgoff,
					unsigned long flags)
{
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	struct hstate *hstate = hstate_file(file);
	int mmu_psize = shift_to_mmu_psize(huge_page_shift(hstate));
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745
	return slice_get_unmapped_area(addr, len, flags, mmu_psize, 1);
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}
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#endif
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unsigned long vma_mmu_pagesize(struct vm_area_struct *vma)
{
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#ifdef CONFIG_PPC_MM_SLICES
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	unsigned int psize = get_slice_psize(vma->vm_mm, vma->vm_start);

	return 1UL << mmu_psize_to_shift(psize);
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#else
	if (!is_vm_hugetlb_page(vma))
		return PAGE_SIZE;

	return huge_page_size(hstate_vma(vma));
#endif
}

static inline bool is_power_of_4(unsigned long x)
{
	if (is_power_of_2(x))
		return (__ilog2(x) % 2) ? false : true;
	return false;
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}

770
static int __init add_huge_page_size(unsigned long long size)
771
{
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	int shift = __ffs(size);
	int mmu_psize;
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775
	/* Check that it is a page size supported by the hardware and
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	 * that it fits within pagetable and slice limits. */
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#ifdef CONFIG_PPC_FSL_BOOK3E
	if ((size < PAGE_SIZE) || !is_power_of_4(size))
		return -EINVAL;
#else
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	if (!is_power_of_2(size)
	    || (shift > SLICE_HIGH_SHIFT) || (shift <= PAGE_SHIFT))
		return -EINVAL;
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#endif
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	if ((mmu_psize = shift_to_mmu_psize(shift)) < 0)
		return -EINVAL;

#ifdef CONFIG_SPU_FS_64K_LS
	/* Disable support for 64K huge pages when 64K SPU local store
	 * support is enabled as the current implementation conflicts.
	 */
	if (shift == PAGE_SHIFT_64K)
		return -EINVAL;
#endif /* CONFIG_SPU_FS_64K_LS */

	BUG_ON(mmu_psize_defs[mmu_psize].shift != shift);

	/* Return if huge page size has already been setup */
	if (size_to_hstate(size))
		return 0;

	hugetlb_add_hstate(shift - PAGE_SHIFT);

	return 0;
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}

static int __init hugepage_setup_sz(char *str)
{
	unsigned long long size;

	size = memparse(str, &str);

814
	if (add_huge_page_size(size) != 0)
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		printk(KERN_WARNING "Invalid huge page size specified(%llu)\n", size);

	return 1;
}
__setup("hugepagesz=", hugepage_setup_sz);

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#ifdef CONFIG_PPC_FSL_BOOK3E
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struct kmem_cache *hugepte_cache;
static int __init hugetlbpage_init(void)
{
	int psize;

	for (psize = 0; psize < MMU_PAGE_COUNT; ++psize) {
		unsigned shift;

		if (!mmu_psize_defs[psize].shift)
			continue;

		shift = mmu_psize_to_shift(psize);

		/* Don't treat normal page sizes as huge... */
		if (shift != PAGE_SHIFT)
			if (add_huge_page_size(1ULL << shift) < 0)
				continue;
	}

	/*
	 * Create a kmem cache for hugeptes.  The bottom bits in the pte have
	 * size information encoded in them, so align them to allow this
	 */
	hugepte_cache =  kmem_cache_create("hugepte-cache", sizeof(pte_t),
					   HUGEPD_SHIFT_MASK + 1, 0, NULL);
	if (hugepte_cache == NULL)
		panic("%s: Unable to create kmem cache for hugeptes\n",
		      __func__);

	/* Default hpage size = 4M */
	if (mmu_psize_defs[MMU_PAGE_4M].shift)
		HPAGE_SHIFT = mmu_psize_defs[MMU_PAGE_4M].shift;
	else
		panic("%s: Unable to set default huge page size\n", __func__);


	return 0;
}
#else
861 862
static int __init hugetlbpage_init(void)
{
863
	int psize;
864

865
	if (!mmu_has_feature(MMU_FTR_16M_PAGE))
866
		return -ENODEV;
867

868 869 870
	for (psize = 0; psize < MMU_PAGE_COUNT; ++psize) {
		unsigned shift;
		unsigned pdshift;
871

872 873
		if (!mmu_psize_defs[psize].shift)
			continue;
874

875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890
		shift = mmu_psize_to_shift(psize);

		if (add_huge_page_size(1ULL << shift) < 0)
			continue;

		if (shift < PMD_SHIFT)
			pdshift = PMD_SHIFT;
		else if (shift < PUD_SHIFT)
			pdshift = PUD_SHIFT;
		else
			pdshift = PGDIR_SHIFT;

		pgtable_cache_add(pdshift - shift, NULL);
		if (!PGT_CACHE(pdshift - shift))
			panic("hugetlbpage_init(): could not create "
			      "pgtable cache for %d bit pagesize\n", shift);
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	}
892

893 894 895 896 897 898 899 900
	/* Set default large page size. Currently, we pick 16M or 1M
	 * depending on what is available
	 */
	if (mmu_psize_defs[MMU_PAGE_16M].shift)
		HPAGE_SHIFT = mmu_psize_defs[MMU_PAGE_16M].shift;
	else if (mmu_psize_defs[MMU_PAGE_1M].shift)
		HPAGE_SHIFT = mmu_psize_defs[MMU_PAGE_1M].shift;

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	return 0;
}
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#endif
904
module_init(hugetlbpage_init);
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void flush_dcache_icache_hugepage(struct page *page)
{
	int i;
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	void *start;
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	BUG_ON(!PageCompound(page));

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	for (i = 0; i < (1UL << compound_order(page)); i++) {
		if (!PageHighMem(page)) {
			__flush_dcache_icache(page_address(page+i));
		} else {
917
			start = kmap_atomic(page+i);
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			__flush_dcache_icache(start);
919
			kunmap_atomic(start);
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		}
	}
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}