ksm.c 45.0 KB
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/*
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 * Memory merging support.
 *
 * This code enables dynamic sharing of identical pages found in different
 * memory areas, even if they are not shared by fork()
 *
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 * Copyright (C) 2008-2009 Red Hat, Inc.
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 * Authors:
 *	Izik Eidus
 *	Andrea Arcangeli
 *	Chris Wright
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 *	Hugh Dickins
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 *
 * This work is licensed under the terms of the GNU GPL, version 2.
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 */

#include <linux/errno.h>
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#include <linux/mm.h>
#include <linux/fs.h>
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#include <linux/mman.h>
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#include <linux/sched.h>
#include <linux/rwsem.h>
#include <linux/pagemap.h>
#include <linux/rmap.h>
#include <linux/spinlock.h>
#include <linux/jhash.h>
#include <linux/delay.h>
#include <linux/kthread.h>
#include <linux/wait.h>
#include <linux/slab.h>
#include <linux/rbtree.h>
#include <linux/mmu_notifier.h>
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#include <linux/ksm.h>

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#include <asm/tlbflush.h>

/*
 * A few notes about the KSM scanning process,
 * to make it easier to understand the data structures below:
 *
 * In order to reduce excessive scanning, KSM sorts the memory pages by their
 * contents into a data structure that holds pointers to the pages' locations.
 *
 * Since the contents of the pages may change at any moment, KSM cannot just
 * insert the pages into a normal sorted tree and expect it to find anything.
 * Therefore KSM uses two data structures - the stable and the unstable tree.
 *
 * The stable tree holds pointers to all the merged pages (ksm pages), sorted
 * by their contents.  Because each such page is write-protected, searching on
 * this tree is fully assured to be working (except when pages are unmapped),
 * and therefore this tree is called the stable tree.
 *
 * In addition to the stable tree, KSM uses a second data structure called the
 * unstable tree: this tree holds pointers to pages which have been found to
 * be "unchanged for a period of time".  The unstable tree sorts these pages
 * by their contents, but since they are not write-protected, KSM cannot rely
 * upon the unstable tree to work correctly - the unstable tree is liable to
 * be corrupted as its contents are modified, and so it is called unstable.
 *
 * KSM solves this problem by several techniques:
 *
 * 1) The unstable tree is flushed every time KSM completes scanning all
 *    memory areas, and then the tree is rebuilt again from the beginning.
 * 2) KSM will only insert into the unstable tree, pages whose hash value
 *    has not changed since the previous scan of all memory areas.
 * 3) The unstable tree is a RedBlack Tree - so its balancing is based on the
 *    colors of the nodes and not on their contents, assuring that even when
 *    the tree gets "corrupted" it won't get out of balance, so scanning time
 *    remains the same (also, searching and inserting nodes in an rbtree uses
 *    the same algorithm, so we have no overhead when we flush and rebuild).
 * 4) KSM never flushes the stable tree, which means that even if it were to
 *    take 10 attempts to find a page in the unstable tree, once it is found,
 *    it is secured in the stable tree.  (When we scan a new page, we first
 *    compare it against the stable tree, and then against the unstable tree.)
 */

/**
 * struct mm_slot - ksm information per mm that is being scanned
 * @link: link to the mm_slots hash list
 * @mm_list: link into the mm_slots list, rooted in ksm_mm_head
 * @rmap_list: head for this mm_slot's list of rmap_items
 * @mm: the mm that this information is valid for
 */
struct mm_slot {
	struct hlist_node link;
	struct list_head mm_list;
	struct list_head rmap_list;
	struct mm_struct *mm;
};

/**
 * struct ksm_scan - cursor for scanning
 * @mm_slot: the current mm_slot we are scanning
 * @address: the next address inside that to be scanned
 * @rmap_item: the current rmap that we are scanning inside the rmap_list
 * @seqnr: count of completed full scans (needed when removing unstable node)
 *
 * There is only the one ksm_scan instance of this cursor structure.
 */
struct ksm_scan {
	struct mm_slot *mm_slot;
	unsigned long address;
	struct rmap_item *rmap_item;
	unsigned long seqnr;
};

/**
 * struct rmap_item - reverse mapping item for virtual addresses
 * @link: link into mm_slot's rmap_list (rmap_list is per mm)
 * @mm: the memory structure this rmap_item is pointing into
 * @address: the virtual address this rmap_item tracks (+ flags in low bits)
 * @oldchecksum: previous checksum of the page at that virtual address
 * @node: rb_node of this rmap_item in either unstable or stable tree
 * @next: next rmap_item hanging off the same node of the stable tree
 * @prev: previous rmap_item hanging off the same node of the stable tree
 */
struct rmap_item {
	struct list_head link;
	struct mm_struct *mm;
	unsigned long address;		/* + low bits used for flags below */
	union {
		unsigned int oldchecksum;		/* when unstable */
		struct rmap_item *next;			/* when stable */
	};
	union {
		struct rb_node node;			/* when tree node */
		struct rmap_item *prev;			/* in stable list */
	};
};

#define SEQNR_MASK	0x0ff	/* low bits of unstable tree seqnr */
#define NODE_FLAG	0x100	/* is a node of unstable or stable tree */
#define STABLE_FLAG	0x200	/* is a node or list item of stable tree */

/* The stable and unstable tree heads */
static struct rb_root root_stable_tree = RB_ROOT;
static struct rb_root root_unstable_tree = RB_ROOT;

#define MM_SLOTS_HASH_HEADS 1024
static struct hlist_head *mm_slots_hash;

static struct mm_slot ksm_mm_head = {
	.mm_list = LIST_HEAD_INIT(ksm_mm_head.mm_list),
};
static struct ksm_scan ksm_scan = {
	.mm_slot = &ksm_mm_head,
};

static struct kmem_cache *rmap_item_cache;
static struct kmem_cache *mm_slot_cache;

/* The number of nodes in the stable tree */
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static unsigned long ksm_pages_shared;
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/* The number of page slots additionally sharing those nodes */
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static unsigned long ksm_pages_sharing;
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/* The number of nodes in the unstable tree */
static unsigned long ksm_pages_unshared;

/* The number of rmap_items in use: to calculate pages_volatile */
static unsigned long ksm_rmap_items;

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/* Limit on the number of unswappable pages used */
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static unsigned long ksm_max_kernel_pages = 2000;
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/* Number of pages ksmd should scan in one batch */
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static unsigned int ksm_thread_pages_to_scan = 200;
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/* Milliseconds ksmd should sleep between batches */
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static unsigned int ksm_thread_sleep_millisecs = 20;
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#define KSM_RUN_STOP	0
#define KSM_RUN_MERGE	1
#define KSM_RUN_UNMERGE	2
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static unsigned int ksm_run = KSM_RUN_MERGE;
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static DECLARE_WAIT_QUEUE_HEAD(ksm_thread_wait);
static DEFINE_MUTEX(ksm_thread_mutex);
static DEFINE_SPINLOCK(ksm_mmlist_lock);

#define KSM_KMEM_CACHE(__struct, __flags) kmem_cache_create("ksm_"#__struct,\
		sizeof(struct __struct), __alignof__(struct __struct),\
		(__flags), NULL)

static int __init ksm_slab_init(void)
{
	rmap_item_cache = KSM_KMEM_CACHE(rmap_item, 0);
	if (!rmap_item_cache)
		goto out;

	mm_slot_cache = KSM_KMEM_CACHE(mm_slot, 0);
	if (!mm_slot_cache)
		goto out_free;

	return 0;

out_free:
	kmem_cache_destroy(rmap_item_cache);
out:
	return -ENOMEM;
}

static void __init ksm_slab_free(void)
{
	kmem_cache_destroy(mm_slot_cache);
	kmem_cache_destroy(rmap_item_cache);
	mm_slot_cache = NULL;
}

static inline struct rmap_item *alloc_rmap_item(void)
{
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	struct rmap_item *rmap_item;

	rmap_item = kmem_cache_zalloc(rmap_item_cache, GFP_KERNEL);
	if (rmap_item)
		ksm_rmap_items++;
	return rmap_item;
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}

static inline void free_rmap_item(struct rmap_item *rmap_item)
{
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	ksm_rmap_items--;
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	rmap_item->mm = NULL;	/* debug safety */
	kmem_cache_free(rmap_item_cache, rmap_item);
}

static inline struct mm_slot *alloc_mm_slot(void)
{
	if (!mm_slot_cache)	/* initialization failed */
		return NULL;
	return kmem_cache_zalloc(mm_slot_cache, GFP_KERNEL);
}

static inline void free_mm_slot(struct mm_slot *mm_slot)
{
	kmem_cache_free(mm_slot_cache, mm_slot);
}

static int __init mm_slots_hash_init(void)
{
	mm_slots_hash = kzalloc(MM_SLOTS_HASH_HEADS * sizeof(struct hlist_head),
				GFP_KERNEL);
	if (!mm_slots_hash)
		return -ENOMEM;
	return 0;
}

static void __init mm_slots_hash_free(void)
{
	kfree(mm_slots_hash);
}

static struct mm_slot *get_mm_slot(struct mm_struct *mm)
{
	struct mm_slot *mm_slot;
	struct hlist_head *bucket;
	struct hlist_node *node;

	bucket = &mm_slots_hash[((unsigned long)mm / sizeof(struct mm_struct))
				% MM_SLOTS_HASH_HEADS];
	hlist_for_each_entry(mm_slot, node, bucket, link) {
		if (mm == mm_slot->mm)
			return mm_slot;
	}
	return NULL;
}

static void insert_to_mm_slots_hash(struct mm_struct *mm,
				    struct mm_slot *mm_slot)
{
	struct hlist_head *bucket;

	bucket = &mm_slots_hash[((unsigned long)mm / sizeof(struct mm_struct))
				% MM_SLOTS_HASH_HEADS];
	mm_slot->mm = mm;
	INIT_LIST_HEAD(&mm_slot->rmap_list);
	hlist_add_head(&mm_slot->link, bucket);
}

static inline int in_stable_tree(struct rmap_item *rmap_item)
{
	return rmap_item->address & STABLE_FLAG;
}

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/*
 * ksmd, and unmerge_and_remove_all_rmap_items(), must not touch an mm's
 * page tables after it has passed through ksm_exit() - which, if necessary,
 * takes mmap_sem briefly to serialize against them.  ksm_exit() does not set
 * a special flag: they can just back out as soon as mm_users goes to zero.
 * ksm_test_exit() is used throughout to make this test for exit: in some
 * places for correctness, in some places just to avoid unnecessary work.
 */
static inline bool ksm_test_exit(struct mm_struct *mm)
{
	return atomic_read(&mm->mm_users) == 0;
}

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/*
 * We use break_ksm to break COW on a ksm page: it's a stripped down
 *
 *	if (get_user_pages(current, mm, addr, 1, 1, 1, &page, NULL) == 1)
 *		put_page(page);
 *
 * but taking great care only to touch a ksm page, in a VM_MERGEABLE vma,
 * in case the application has unmapped and remapped mm,addr meanwhile.
 * Could a ksm page appear anywhere else?  Actually yes, in a VM_PFNMAP
 * mmap of /dev/mem or /dev/kmem, where we would not want to touch it.
 */
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static int break_ksm(struct vm_area_struct *vma, unsigned long addr)
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{
	struct page *page;
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	int ret = 0;
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	do {
		cond_resched();
		page = follow_page(vma, addr, FOLL_GET);
		if (!page)
			break;
		if (PageKsm(page))
			ret = handle_mm_fault(vma->vm_mm, vma, addr,
							FAULT_FLAG_WRITE);
		else
			ret = VM_FAULT_WRITE;
		put_page(page);
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	} while (!(ret & (VM_FAULT_WRITE | VM_FAULT_SIGBUS | VM_FAULT_OOM)));
	/*
	 * We must loop because handle_mm_fault() may back out if there's
	 * any difficulty e.g. if pte accessed bit gets updated concurrently.
	 *
	 * VM_FAULT_WRITE is what we have been hoping for: it indicates that
	 * COW has been broken, even if the vma does not permit VM_WRITE;
	 * but note that a concurrent fault might break PageKsm for us.
	 *
	 * VM_FAULT_SIGBUS could occur if we race with truncation of the
	 * backing file, which also invalidates anonymous pages: that's
	 * okay, that truncation will have unmapped the PageKsm for us.
	 *
	 * VM_FAULT_OOM: at the time of writing (late July 2009), setting
	 * aside mem_cgroup limits, VM_FAULT_OOM would only be set if the
	 * current task has TIF_MEMDIE set, and will be OOM killed on return
	 * to user; and ksmd, having no mm, would never be chosen for that.
	 *
	 * But if the mm is in a limited mem_cgroup, then the fault may fail
	 * with VM_FAULT_OOM even if the current task is not TIF_MEMDIE; and
	 * even ksmd can fail in this way - though it's usually breaking ksm
	 * just to undo a merge it made a moment before, so unlikely to oom.
	 *
	 * That's a pity: we might therefore have more kernel pages allocated
	 * than we're counting as nodes in the stable tree; but ksm_do_scan
	 * will retry to break_cow on each pass, so should recover the page
	 * in due course.  The important thing is to not let VM_MERGEABLE
	 * be cleared while any such pages might remain in the area.
	 */
	return (ret & VM_FAULT_OOM) ? -ENOMEM : 0;
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}

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static void break_cow(struct mm_struct *mm, unsigned long addr)
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{
	struct vm_area_struct *vma;

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	down_read(&mm->mmap_sem);
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	if (ksm_test_exit(mm))
		goto out;
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	vma = find_vma(mm, addr);
	if (!vma || vma->vm_start > addr)
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		goto out;
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	if (!(vma->vm_flags & VM_MERGEABLE) || !vma->anon_vma)
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		goto out;
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	break_ksm(vma, addr);
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out:
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	up_read(&mm->mmap_sem);
}

static struct page *get_mergeable_page(struct rmap_item *rmap_item)
{
	struct mm_struct *mm = rmap_item->mm;
	unsigned long addr = rmap_item->address;
	struct vm_area_struct *vma;
	struct page *page;

	down_read(&mm->mmap_sem);
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	if (ksm_test_exit(mm))
		goto out;
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	vma = find_vma(mm, addr);
	if (!vma || vma->vm_start > addr)
		goto out;
	if (!(vma->vm_flags & VM_MERGEABLE) || !vma->anon_vma)
		goto out;

	page = follow_page(vma, addr, FOLL_GET);
	if (!page)
		goto out;
	if (PageAnon(page)) {
		flush_anon_page(vma, page, addr);
		flush_dcache_page(page);
	} else {
		put_page(page);
out:		page = NULL;
	}
	up_read(&mm->mmap_sem);
	return page;
}

/*
 * get_ksm_page: checks if the page at the virtual address in rmap_item
 * is still PageKsm, in which case we can trust the content of the page,
 * and it returns the gotten page; but NULL if the page has been zapped.
 */
static struct page *get_ksm_page(struct rmap_item *rmap_item)
{
	struct page *page;

	page = get_mergeable_page(rmap_item);
	if (page && !PageKsm(page)) {
		put_page(page);
		page = NULL;
	}
	return page;
}

/*
 * Removing rmap_item from stable or unstable tree.
 * This function will clean the information from the stable/unstable tree.
 */
static void remove_rmap_item_from_tree(struct rmap_item *rmap_item)
{
	if (in_stable_tree(rmap_item)) {
		struct rmap_item *next_item = rmap_item->next;

		if (rmap_item->address & NODE_FLAG) {
			if (next_item) {
				rb_replace_node(&rmap_item->node,
						&next_item->node,
						&root_stable_tree);
				next_item->address |= NODE_FLAG;
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				ksm_pages_sharing--;
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			} else {
				rb_erase(&rmap_item->node, &root_stable_tree);
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				ksm_pages_shared--;
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			}
		} else {
			struct rmap_item *prev_item = rmap_item->prev;

			BUG_ON(prev_item->next != rmap_item);
			prev_item->next = next_item;
			if (next_item) {
				BUG_ON(next_item->prev != rmap_item);
				next_item->prev = rmap_item->prev;
			}
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			ksm_pages_sharing--;
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		}

		rmap_item->next = NULL;

	} else if (rmap_item->address & NODE_FLAG) {
		unsigned char age;
		/*
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		 * Usually ksmd can and must skip the rb_erase, because
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		 * root_unstable_tree was already reset to RB_ROOT.
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		 * But be careful when an mm is exiting: do the rb_erase
		 * if this rmap_item was inserted by this scan, rather
		 * than left over from before.
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		 */
		age = (unsigned char)(ksm_scan.seqnr - rmap_item->address);
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		BUG_ON(age > 1);
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		if (!age)
			rb_erase(&rmap_item->node, &root_unstable_tree);
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		ksm_pages_unshared--;
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	}

	rmap_item->address &= PAGE_MASK;

	cond_resched();		/* we're called from many long loops */
}

static void remove_trailing_rmap_items(struct mm_slot *mm_slot,
				       struct list_head *cur)
{
	struct rmap_item *rmap_item;

	while (cur != &mm_slot->rmap_list) {
		rmap_item = list_entry(cur, struct rmap_item, link);
		cur = cur->next;
		remove_rmap_item_from_tree(rmap_item);
		list_del(&rmap_item->link);
		free_rmap_item(rmap_item);
	}
}

/*
 * Though it's very tempting to unmerge in_stable_tree(rmap_item)s rather
 * than check every pte of a given vma, the locking doesn't quite work for
 * that - an rmap_item is assigned to the stable tree after inserting ksm
 * page and upping mmap_sem.  Nor does it fit with the way we skip dup'ing
 * rmap_items from parent to child at fork time (so as not to waste time
 * if exit comes before the next scan reaches it).
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 *
 * Similarly, although we'd like to remove rmap_items (so updating counts
 * and freeing memory) when unmerging an area, it's easier to leave that
 * to the next pass of ksmd - consider, for example, how ksmd might be
 * in cmp_and_merge_page on one of the rmap_items we would be removing.
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 */
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static int unmerge_ksm_pages(struct vm_area_struct *vma,
			     unsigned long start, unsigned long end)
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{
	unsigned long addr;
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	int err = 0;
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	for (addr = start; addr < end && !err; addr += PAGE_SIZE) {
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		if (ksm_test_exit(vma->vm_mm))
			break;
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		if (signal_pending(current))
			err = -ERESTARTSYS;
		else
			err = break_ksm(vma, addr);
	}
	return err;
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}

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#ifdef CONFIG_SYSFS
/*
 * Only called through the sysfs control interface:
 */
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static int unmerge_and_remove_all_rmap_items(void)
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{
	struct mm_slot *mm_slot;
	struct mm_struct *mm;
	struct vm_area_struct *vma;
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	int err = 0;

	spin_lock(&ksm_mmlist_lock);
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	ksm_scan.mm_slot = list_entry(ksm_mm_head.mm_list.next,
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						struct mm_slot, mm_list);
	spin_unlock(&ksm_mmlist_lock);
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	for (mm_slot = ksm_scan.mm_slot;
			mm_slot != &ksm_mm_head; mm_slot = ksm_scan.mm_slot) {
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		mm = mm_slot->mm;
		down_read(&mm->mmap_sem);
		for (vma = mm->mmap; vma; vma = vma->vm_next) {
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			if (ksm_test_exit(mm))
				break;
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			if (!(vma->vm_flags & VM_MERGEABLE) || !vma->anon_vma)
				continue;
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			err = unmerge_ksm_pages(vma,
						vma->vm_start, vma->vm_end);
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			if (err)
				goto error;
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		}
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		remove_trailing_rmap_items(mm_slot, mm_slot->rmap_list.next);
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		spin_lock(&ksm_mmlist_lock);
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		ksm_scan.mm_slot = list_entry(mm_slot->mm_list.next,
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						struct mm_slot, mm_list);
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		if (ksm_test_exit(mm)) {
			hlist_del(&mm_slot->link);
			list_del(&mm_slot->mm_list);
			spin_unlock(&ksm_mmlist_lock);

			free_mm_slot(mm_slot);
			clear_bit(MMF_VM_MERGEABLE, &mm->flags);
			up_read(&mm->mmap_sem);
			mmdrop(mm);
		} else {
			spin_unlock(&ksm_mmlist_lock);
			up_read(&mm->mmap_sem);
		}
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	}

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	ksm_scan.seqnr = 0;
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	return 0;

error:
	up_read(&mm->mmap_sem);
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	spin_lock(&ksm_mmlist_lock);
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	ksm_scan.mm_slot = &ksm_mm_head;
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	spin_unlock(&ksm_mmlist_lock);
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	return err;
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}
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#endif /* CONFIG_SYSFS */
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static u32 calc_checksum(struct page *page)
{
	u32 checksum;
	void *addr = kmap_atomic(page, KM_USER0);
	checksum = jhash2(addr, PAGE_SIZE / 4, 17);
	kunmap_atomic(addr, KM_USER0);
	return checksum;
}

static int memcmp_pages(struct page *page1, struct page *page2)
{
	char *addr1, *addr2;
	int ret;

	addr1 = kmap_atomic(page1, KM_USER0);
	addr2 = kmap_atomic(page2, KM_USER1);
	ret = memcmp(addr1, addr2, PAGE_SIZE);
	kunmap_atomic(addr2, KM_USER1);
	kunmap_atomic(addr1, KM_USER0);
	return ret;
}

static inline int pages_identical(struct page *page1, struct page *page2)
{
	return !memcmp_pages(page1, page2);
}

static int write_protect_page(struct vm_area_struct *vma, struct page *page,
			      pte_t *orig_pte)
{
	struct mm_struct *mm = vma->vm_mm;
	unsigned long addr;
	pte_t *ptep;
	spinlock_t *ptl;
	int swapped;
	int err = -EFAULT;

	addr = page_address_in_vma(page, vma);
	if (addr == -EFAULT)
		goto out;

	ptep = page_check_address(page, mm, addr, &ptl, 0);
	if (!ptep)
		goto out;

	if (pte_write(*ptep)) {
		pte_t entry;

		swapped = PageSwapCache(page);
		flush_cache_page(vma, addr, page_to_pfn(page));
		/*
		 * Ok this is tricky, when get_user_pages_fast() run it doesnt
		 * take any lock, therefore the check that we are going to make
		 * with the pagecount against the mapcount is racey and
		 * O_DIRECT can happen right after the check.
		 * So we clear the pte and flush the tlb before the check
		 * this assure us that no O_DIRECT can happen after the check
		 * or in the middle of the check.
		 */
		entry = ptep_clear_flush(vma, addr, ptep);
		/*
		 * Check that no O_DIRECT or similar I/O is in progress on the
		 * page
		 */
		if ((page_mapcount(page) + 2 + swapped) != page_count(page)) {
			set_pte_at_notify(mm, addr, ptep, entry);
			goto out_unlock;
		}
		entry = pte_wrprotect(entry);
		set_pte_at_notify(mm, addr, ptep, entry);
	}
	*orig_pte = *ptep;
	err = 0;

out_unlock:
	pte_unmap_unlock(ptep, ptl);
out:
	return err;
}

/**
 * replace_page - replace page in vma by new ksm page
 * @vma:      vma that holds the pte pointing to oldpage
 * @oldpage:  the page we are replacing by newpage
 * @newpage:  the ksm page we replace oldpage by
 * @orig_pte: the original value of the pte
 *
 * Returns 0 on success, -EFAULT on failure.
 */
static int replace_page(struct vm_area_struct *vma, struct page *oldpage,
			struct page *newpage, pte_t orig_pte)
{
	struct mm_struct *mm = vma->vm_mm;
	pgd_t *pgd;
	pud_t *pud;
	pmd_t *pmd;
	pte_t *ptep;
	spinlock_t *ptl;
	unsigned long addr;
	pgprot_t prot;
	int err = -EFAULT;

	prot = vm_get_page_prot(vma->vm_flags & ~VM_WRITE);

	addr = page_address_in_vma(oldpage, vma);
	if (addr == -EFAULT)
		goto out;

	pgd = pgd_offset(mm, addr);
	if (!pgd_present(*pgd))
		goto out;

	pud = pud_offset(pgd, addr);
	if (!pud_present(*pud))
		goto out;

	pmd = pmd_offset(pud, addr);
	if (!pmd_present(*pmd))
		goto out;

	ptep = pte_offset_map_lock(mm, pmd, addr, &ptl);
	if (!pte_same(*ptep, orig_pte)) {
		pte_unmap_unlock(ptep, ptl);
		goto out;
	}

	get_page(newpage);
	page_add_ksm_rmap(newpage);

	flush_cache_page(vma, addr, pte_pfn(*ptep));
	ptep_clear_flush(vma, addr, ptep);
	set_pte_at_notify(mm, addr, ptep, mk_pte(newpage, prot));

	page_remove_rmap(oldpage);
	put_page(oldpage);

	pte_unmap_unlock(ptep, ptl);
	err = 0;
out:
	return err;
}

/*
 * try_to_merge_one_page - take two pages and merge them into one
 * @vma: the vma that hold the pte pointing into oldpage
 * @oldpage: the page that we want to replace with newpage
 * @newpage: the page that we want to map instead of oldpage
 *
 * Note:
 * oldpage should be a PageAnon page, while newpage should be a PageKsm page,
 * or a newly allocated kernel page which page_add_ksm_rmap will make PageKsm.
 *
 * This function returns 0 if the pages were merged, -EFAULT otherwise.
 */
static int try_to_merge_one_page(struct vm_area_struct *vma,
				 struct page *oldpage,
				 struct page *newpage)
{
	pte_t orig_pte = __pte(0);
	int err = -EFAULT;

	if (!(vma->vm_flags & VM_MERGEABLE))
		goto out;

	if (!PageAnon(oldpage))
		goto out;

	get_page(newpage);
	get_page(oldpage);

	/*
	 * We need the page lock to read a stable PageSwapCache in
	 * write_protect_page().  We use trylock_page() instead of
	 * lock_page() because we don't want to wait here - we
	 * prefer to continue scanning and merging different pages,
	 * then come back to this page when it is unlocked.
	 */
	if (!trylock_page(oldpage))
		goto out_putpage;
	/*
	 * If this anonymous page is mapped only here, its pte may need
	 * to be write-protected.  If it's mapped elsewhere, all of its
	 * ptes are necessarily already write-protected.  But in either
	 * case, we need to lock and check page_count is not raised.
	 */
	if (write_protect_page(vma, oldpage, &orig_pte)) {
		unlock_page(oldpage);
		goto out_putpage;
	}
	unlock_page(oldpage);

	if (pages_identical(oldpage, newpage))
		err = replace_page(vma, oldpage, newpage, orig_pte);

out_putpage:
	put_page(oldpage);
	put_page(newpage);
out:
	return err;
}

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/*
 * try_to_merge_with_ksm_page - like try_to_merge_two_pages,
 * but no new kernel page is allocated: kpage must already be a ksm page.
 */
static int try_to_merge_with_ksm_page(struct mm_struct *mm1,
				      unsigned long addr1,
				      struct page *page1,
				      struct page *kpage)
{
	struct vm_area_struct *vma;
	int err = -EFAULT;

	down_read(&mm1->mmap_sem);
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	if (ksm_test_exit(mm1))
		goto out;

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	vma = find_vma(mm1, addr1);
	if (!vma || vma->vm_start > addr1)
		goto out;

	err = try_to_merge_one_page(vma, page1, kpage);
out:
	up_read(&mm1->mmap_sem);
	return err;
}

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/*
 * try_to_merge_two_pages - take two identical pages and prepare them
 * to be merged into one page.
 *
 * This function returns 0 if we successfully mapped two identical pages
 * into one page, -EFAULT otherwise.
 *
 * Note that this function allocates a new kernel page: if one of the pages
 * is already a ksm page, try_to_merge_with_ksm_page should be used.
 */
static int try_to_merge_two_pages(struct mm_struct *mm1, unsigned long addr1,
				  struct page *page1, struct mm_struct *mm2,
				  unsigned long addr2, struct page *page2)
{
	struct vm_area_struct *vma;
	struct page *kpage;
	int err = -EFAULT;

	/*
	 * The number of nodes in the stable tree
	 * is the number of kernel pages that we hold.
	 */
	if (ksm_max_kernel_pages &&
834
	    ksm_max_kernel_pages <= ksm_pages_shared)
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		return err;

	kpage = alloc_page(GFP_HIGHUSER);
	if (!kpage)
		return err;

	down_read(&mm1->mmap_sem);
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	if (ksm_test_exit(mm1)) {
		up_read(&mm1->mmap_sem);
		goto out;
	}
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	vma = find_vma(mm1, addr1);
	if (!vma || vma->vm_start > addr1) {
		up_read(&mm1->mmap_sem);
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		goto out;
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	}

	copy_user_highpage(kpage, page1, addr1, vma);
	err = try_to_merge_one_page(vma, page1, kpage);
	up_read(&mm1->mmap_sem);

	if (!err) {
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		err = try_to_merge_with_ksm_page(mm2, addr2, page2, kpage);
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		/*
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		 * If that fails, we have a ksm page with only one pte
		 * pointing to it: so break it.
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		 */
		if (err)
			break_cow(mm1, addr1);
	}
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out:
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	put_page(kpage);
	return err;
}

/*
 * stable_tree_search - search page inside the stable tree
 * @page: the page that we are searching identical pages to.
 * @page2: pointer into identical page that we are holding inside the stable
 *	   tree that we have found.
 * @rmap_item: the reverse mapping item
 *
 * This function checks if there is a page inside the stable tree
 * with identical content to the page that we are scanning right now.
 *
 * This function return rmap_item pointer to the identical item if found,
 * NULL otherwise.
 */
static struct rmap_item *stable_tree_search(struct page *page,
					    struct page **page2,
					    struct rmap_item *rmap_item)
{
	struct rb_node *node = root_stable_tree.rb_node;

	while (node) {
		struct rmap_item *tree_rmap_item, *next_rmap_item;
		int ret;

		tree_rmap_item = rb_entry(node, struct rmap_item, node);
		while (tree_rmap_item) {
			BUG_ON(!in_stable_tree(tree_rmap_item));
			cond_resched();
			page2[0] = get_ksm_page(tree_rmap_item);
			if (page2[0])
				break;
			next_rmap_item = tree_rmap_item->next;
			remove_rmap_item_from_tree(tree_rmap_item);
			tree_rmap_item = next_rmap_item;
		}
		if (!tree_rmap_item)
			return NULL;

		ret = memcmp_pages(page, page2[0]);

		if (ret < 0) {
			put_page(page2[0]);
			node = node->rb_left;
		} else if (ret > 0) {
			put_page(page2[0]);
			node = node->rb_right;
		} else {
			return tree_rmap_item;
		}
	}

	return NULL;
}

/*
 * stable_tree_insert - insert rmap_item pointing to new ksm page
 * into the stable tree.
 *
 * @page: the page that we are searching identical page to inside the stable
 *	  tree.
 * @rmap_item: pointer to the reverse mapping item.
 *
 * This function returns rmap_item if success, NULL otherwise.
 */
static struct rmap_item *stable_tree_insert(struct page *page,
					    struct rmap_item *rmap_item)
{
	struct rb_node **new = &root_stable_tree.rb_node;
	struct rb_node *parent = NULL;

	while (*new) {
		struct rmap_item *tree_rmap_item, *next_rmap_item;
		struct page *tree_page;
		int ret;

		tree_rmap_item = rb_entry(*new, struct rmap_item, node);
		while (tree_rmap_item) {
			BUG_ON(!in_stable_tree(tree_rmap_item));
			cond_resched();
			tree_page = get_ksm_page(tree_rmap_item);
			if (tree_page)
				break;
			next_rmap_item = tree_rmap_item->next;
			remove_rmap_item_from_tree(tree_rmap_item);
			tree_rmap_item = next_rmap_item;
		}
		if (!tree_rmap_item)
			return NULL;

		ret = memcmp_pages(page, tree_page);
		put_page(tree_page);

		parent = *new;
		if (ret < 0)
			new = &parent->rb_left;
		else if (ret > 0)
			new = &parent->rb_right;
		else {
			/*
			 * It is not a bug that stable_tree_search() didn't
			 * find this node: because at that time our page was
			 * not yet write-protected, so may have changed since.
			 */
			return NULL;
		}
	}

	rmap_item->address |= NODE_FLAG | STABLE_FLAG;
	rmap_item->next = NULL;
	rb_link_node(&rmap_item->node, parent, new);
	rb_insert_color(&rmap_item->node, &root_stable_tree);

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	ksm_pages_shared++;
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	return rmap_item;
}

/*
 * unstable_tree_search_insert - search and insert items into the unstable tree.
 *
 * @page: the page that we are going to search for identical page or to insert
 *	  into the unstable tree
 * @page2: pointer into identical page that was found inside the unstable tree
 * @rmap_item: the reverse mapping item of page
 *
 * This function searches for a page in the unstable tree identical to the
 * page currently being scanned; and if no identical page is found in the
 * tree, we insert rmap_item as a new object into the unstable tree.
 *
 * This function returns pointer to rmap_item found to be identical
 * to the currently scanned page, NULL otherwise.
 *
 * This function does both searching and inserting, because they share
 * the same walking algorithm in an rbtree.
 */
static struct rmap_item *unstable_tree_search_insert(struct page *page,
						struct page **page2,
						struct rmap_item *rmap_item)
{
	struct rb_node **new = &root_unstable_tree.rb_node;
	struct rb_node *parent = NULL;

	while (*new) {
		struct rmap_item *tree_rmap_item;
		int ret;

		tree_rmap_item = rb_entry(*new, struct rmap_item, node);
		page2[0] = get_mergeable_page(tree_rmap_item);
		if (!page2[0])
			return NULL;

		/*
		 * Don't substitute an unswappable ksm page
		 * just for one good swappable forked page.
		 */
		if (page == page2[0]) {
			put_page(page2[0]);
			return NULL;
		}

		ret = memcmp_pages(page, page2[0]);

		parent = *new;
		if (ret < 0) {
			put_page(page2[0]);
			new = &parent->rb_left;
		} else if (ret > 0) {
			put_page(page2[0]);
			new = &parent->rb_right;
		} else {
			return tree_rmap_item;
		}
	}

	rmap_item->address |= NODE_FLAG;
	rmap_item->address |= (ksm_scan.seqnr & SEQNR_MASK);
	rb_link_node(&rmap_item->node, parent, new);
	rb_insert_color(&rmap_item->node, &root_unstable_tree);

1047
	ksm_pages_unshared++;
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	return NULL;
}

/*
 * stable_tree_append - add another rmap_item to the linked list of
 * rmap_items hanging off a given node of the stable tree, all sharing
 * the same ksm page.
 */
static void stable_tree_append(struct rmap_item *rmap_item,
			       struct rmap_item *tree_rmap_item)
{
	rmap_item->next = tree_rmap_item->next;
	rmap_item->prev = tree_rmap_item;

	if (tree_rmap_item->next)
		tree_rmap_item->next->prev = rmap_item;

	tree_rmap_item->next = rmap_item;
	rmap_item->address |= STABLE_FLAG;
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	ksm_pages_sharing++;
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}

/*
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 * cmp_and_merge_page - first see if page can be merged into the stable tree;
 * if not, compare checksum to previous and if it's the same, see if page can
 * be inserted into the unstable tree, or merged with a page already there and
 * both transferred to the stable tree.
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 *
 * @page: the page that we are searching identical page to.
 * @rmap_item: the reverse mapping into the virtual address of this page
 */
static void cmp_and_merge_page(struct page *page, struct rmap_item *rmap_item)
{
	struct page *page2[1];
	struct rmap_item *tree_rmap_item;
	unsigned int checksum;
	int err;

	if (in_stable_tree(rmap_item))
		remove_rmap_item_from_tree(rmap_item);

	/* We first start with searching the page inside the stable tree */
	tree_rmap_item = stable_tree_search(page, page2, rmap_item);
	if (tree_rmap_item) {
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		if (page == page2[0])			/* forked */
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			err = 0;
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		else
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			err = try_to_merge_with_ksm_page(rmap_item->mm,
							 rmap_item->address,
							 page, page2[0]);
		put_page(page2[0]);

		if (!err) {
			/*
			 * The page was successfully merged:
			 * add its rmap_item to the stable tree.
			 */
			stable_tree_append(rmap_item, tree_rmap_item);
		}
		return;
	}

	/*
	 * A ksm page might have got here by fork, but its other
	 * references have already been removed from the stable tree.
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	 * Or it might be left over from a break_ksm which failed
	 * when the mem_cgroup had reached its limit: try again now.
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	 */
	if (PageKsm(page))
		break_cow(rmap_item->mm, rmap_item->address);

	/*
	 * In case the hash value of the page was changed from the last time we
	 * have calculated it, this page to be changed frequely, therefore we
	 * don't want to insert it to the unstable tree, and we don't want to
	 * waste our time to search if there is something identical to it there.
	 */
	checksum = calc_checksum(page);
	if (rmap_item->oldchecksum != checksum) {
		rmap_item->oldchecksum = checksum;
		return;
	}

	tree_rmap_item = unstable_tree_search_insert(page, page2, rmap_item);
	if (tree_rmap_item) {
		err = try_to_merge_two_pages(rmap_item->mm,
					     rmap_item->address, page,
					     tree_rmap_item->mm,
					     tree_rmap_item->address, page2[0]);
		/*
		 * As soon as we merge this page, we want to remove the
		 * rmap_item of the page we have merged with from the unstable
		 * tree, and insert it instead as new node in the stable tree.
		 */
		if (!err) {
			rb_erase(&tree_rmap_item->node, &root_unstable_tree);
			tree_rmap_item->address &= ~NODE_FLAG;
1146 1147
			ksm_pages_unshared--;

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			/*
			 * If we fail to insert the page into the stable tree,
			 * we will have 2 virtual addresses that are pointing
			 * to a ksm page left outside the stable tree,
			 * in which case we need to break_cow on both.
			 */
			if (stable_tree_insert(page2[0], tree_rmap_item))
				stable_tree_append(rmap_item, tree_rmap_item);
			else {
				break_cow(tree_rmap_item->mm,
						tree_rmap_item->address);
				break_cow(rmap_item->mm, rmap_item->address);
			}
		}

		put_page(page2[0]);
	}
}

static struct rmap_item *get_next_rmap_item(struct mm_slot *mm_slot,
					    struct list_head *cur,
					    unsigned long addr)
{
	struct rmap_item *rmap_item;

	while (cur != &mm_slot->rmap_list) {
		rmap_item = list_entry(cur, struct rmap_item, link);
		if ((rmap_item->address & PAGE_MASK) == addr) {
			if (!in_stable_tree(rmap_item))
				remove_rmap_item_from_tree(rmap_item);
			return rmap_item;
		}
		if (rmap_item->address > addr)
			break;
		cur = cur->next;
		remove_rmap_item_from_tree(rmap_item);
		list_del(&rmap_item->link);
		free_rmap_item(rmap_item);
	}

	rmap_item = alloc_rmap_item();
	if (rmap_item) {
		/* It has already been zeroed */
		rmap_item->mm = mm_slot->mm;
		rmap_item->address = addr;
		list_add_tail(&rmap_item->link, cur);
	}
	return rmap_item;
}

static struct rmap_item *scan_get_next_rmap_item(struct page **page)
{
	struct mm_struct *mm;
	struct mm_slot *slot;
	struct vm_area_struct *vma;
	struct rmap_item *rmap_item;

	if (list_empty(&ksm_mm_head.mm_list))
		return NULL;

	slot = ksm_scan.mm_slot;
	if (slot == &ksm_mm_head) {
		root_unstable_tree = RB_ROOT;

		spin_lock(&ksm_mmlist_lock);
		slot = list_entry(slot->mm_list.next, struct mm_slot, mm_list);
		ksm_scan.mm_slot = slot;
		spin_unlock(&ksm_mmlist_lock);
next_mm:
		ksm_scan.address = 0;
		ksm_scan.rmap_item = list_entry(&slot->rmap_list,
						struct rmap_item, link);
	}

	mm = slot->mm;
	down_read(&mm->mmap_sem);
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	if (ksm_test_exit(mm))
		vma = NULL;
	else
		vma = find_vma(mm, ksm_scan.address);

	for (; vma; vma = vma->vm_next) {
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		if (!(vma->vm_flags & VM_MERGEABLE))
			continue;
		if (ksm_scan.address < vma->vm_start)
			ksm_scan.address = vma->vm_start;
		if (!vma->anon_vma)
			ksm_scan.address = vma->vm_end;

		while (ksm_scan.address < vma->vm_end) {
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			if (ksm_test_exit(mm))
				break;
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			*page = follow_page(vma, ksm_scan.address, FOLL_GET);
			if (*page && PageAnon(*page)) {
				flush_anon_page(vma, *page, ksm_scan.address);
				flush_dcache_page(*page);
				rmap_item = get_next_rmap_item(slot,
					ksm_scan.rmap_item->link.next,
					ksm_scan.address);
				if (rmap_item) {
					ksm_scan.rmap_item = rmap_item;
					ksm_scan.address += PAGE_SIZE;
				} else
					put_page(*page);
				up_read(&mm->mmap_sem);
				return rmap_item;
			}
			if (*page)
				put_page(*page);
			ksm_scan.address += PAGE_SIZE;
			cond_resched();
		}
	}

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	if (ksm_test_exit(mm)) {
		ksm_scan.address = 0;
		ksm_scan.rmap_item = list_entry(&slot->rmap_list,
						struct rmap_item, link);
	}
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	/*
	 * Nuke all the rmap_items that are above this current rmap:
	 * because there were no VM_MERGEABLE vmas with such addresses.
	 */
	remove_trailing_rmap_items(slot, ksm_scan.rmap_item->link.next);

	spin_lock(&ksm_mmlist_lock);
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	ksm_scan.mm_slot = list_entry(slot->mm_list.next,
						struct mm_slot, mm_list);
	if (ksm_scan.address == 0) {
		/*
		 * We've completed a full scan of all vmas, holding mmap_sem
		 * throughout, and found no VM_MERGEABLE: so do the same as
		 * __ksm_exit does to remove this mm from all our lists now.
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		 * This applies either when cleaning up after __ksm_exit
		 * (but beware: we can reach here even before __ksm_exit),
		 * or when all VM_MERGEABLE areas have been unmapped (and
		 * mmap_sem then protects against race with MADV_MERGEABLE).
1285 1286 1287
		 */
		hlist_del(&slot->link);
		list_del(&slot->mm_list);
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		spin_unlock(&ksm_mmlist_lock);

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		free_mm_slot(slot);
		clear_bit(MMF_VM_MERGEABLE, &mm->flags);
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		up_read(&mm->mmap_sem);
		mmdrop(mm);
	} else {
		spin_unlock(&ksm_mmlist_lock);
		up_read(&mm->mmap_sem);
1297
	}
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	/* Repeat until we've completed scanning the whole list */
1300
	slot = ksm_scan.mm_slot;
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	if (slot != &ksm_mm_head)
		goto next_mm;

	ksm_scan.seqnr++;
	return NULL;
}

/**
 * ksm_do_scan  - the ksm scanner main worker function.
 * @scan_npages - number of pages we want to scan before we return.
 */
static void ksm_do_scan(unsigned int scan_npages)
{
	struct rmap_item *rmap_item;
	struct page *page;

	while (scan_npages--) {
		cond_resched();
		rmap_item = scan_get_next_rmap_item(&page);
		if (!rmap_item)
			return;
		if (!PageKsm(page) || !in_stable_tree(rmap_item))
			cmp_and_merge_page(page, rmap_item);
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		else if (page_mapcount(page) == 1) {
			/*
			 * Replace now-unshared ksm page by ordinary page.
			 */
			break_cow(rmap_item->mm, rmap_item->address);
			remove_rmap_item_from_tree(rmap_item);
			rmap_item->oldchecksum = calc_checksum(page);
		}
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		put_page(page);
	}
}

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static int ksmd_should_run(void)
{
	return (ksm_run & KSM_RUN_MERGE) && !list_empty(&ksm_mm_head.mm_list);
}

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static int ksm_scan_thread(void *nothing)
{
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	set_user_nice(current, 5);
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	while (!kthread_should_stop()) {
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		mutex_lock(&ksm_thread_mutex);
		if (ksmd_should_run())
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			ksm_do_scan(ksm_thread_pages_to_scan);
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		mutex_unlock(&ksm_thread_mutex);

		if (ksmd_should_run()) {
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			schedule_timeout_interruptible(
				msecs_to_jiffies(ksm_thread_sleep_millisecs));
		} else {
			wait_event_interruptible(ksm_thread_wait,
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				ksmd_should_run() || kthread_should_stop());
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		}
	}
	return 0;
}

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int ksm_madvise(struct vm_area_struct *vma, unsigned long start,
		unsigned long end, int advice, unsigned long *vm_flags)
{
	struct mm_struct *mm = vma->vm_mm;
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	int err;
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	switch (advice) {
	case MADV_MERGEABLE:
		/*
		 * Be somewhat over-protective for now!
		 */
		if (*vm_flags & (VM_MERGEABLE | VM_SHARED  | VM_MAYSHARE   |
				 VM_PFNMAP    | VM_IO      | VM_DONTEXPAND |
				 VM_RESERVED  | VM_HUGETLB | VM_INSERTPAGE |
				 VM_MIXEDMAP  | VM_SAO))
			return 0;		/* just ignore the advice */

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		if (!test_bit(MMF_VM_MERGEABLE, &mm->flags)) {
			err = __ksm_enter(mm);
			if (err)
				return err;
		}
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		*vm_flags |= VM_MERGEABLE;
		break;

	case MADV_UNMERGEABLE:
		if (!(*vm_flags & VM_MERGEABLE))
			return 0;		/* just ignore the advice */

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		if (vma->anon_vma) {
			err = unmerge_ksm_pages(vma, start, end);
			if (err)
				return err;
		}
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		*vm_flags &= ~VM_MERGEABLE;
		break;
	}

	return 0;
}

int __ksm_enter(struct mm_struct *mm)
{
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	struct mm_slot *mm_slot;
	int needs_wakeup;

	mm_slot = alloc_mm_slot();
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	if (!mm_slot)
		return -ENOMEM;

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	/* Check ksm_run too?  Would need tighter locking */
	needs_wakeup = list_empty(&ksm_mm_head.mm_list);

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	spin_lock(&ksm_mmlist_lock);
	insert_to_mm_slots_hash(mm, mm_slot);
	/*
	 * Insert just behind the scanning cursor, to let the area settle
	 * down a little; when fork is followed by immediate exec, we don't
	 * want ksmd to waste time setting up and tearing down an rmap_list.
	 */
	list_add_tail(&mm_slot->mm_list, &ksm_scan.mm_slot->mm_list);
	spin_unlock(&ksm_mmlist_lock);

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	set_bit(MMF_VM_MERGEABLE, &mm->flags);
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	atomic_inc(&mm->mm_count);
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	if (needs_wakeup)
		wake_up_interruptible(&ksm_thread_wait);

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	return 0;
}

1436
void __ksm_exit(struct mm_struct *mm)
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{
1438
	struct mm_slot *mm_slot;
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	int easy_to_free = 0;
1440

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	/*
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	 * This process is exiting: if it's straightforward (as is the
	 * case when ksmd was never running), free mm_slot immediately.
	 * But if it's at the cursor or has rmap_items linked to it, use
	 * mmap_sem to synchronize with any break_cows before pagetables
	 * are freed, and leave the mm_slot on the list for ksmd to free.
	 * Beware: ksm may already have noticed it exiting and freed the slot.
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	 */
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1450 1451
	spin_lock(&ksm_mmlist_lock);
	mm_slot = get_mm_slot(mm);
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	if (mm_slot && ksm_scan.mm_slot != mm_slot) {
		if (list_empty(&mm_slot->rmap_list)) {
			hlist_del(&mm_slot->link);
			list_del(&mm_slot->mm_list);
			easy_to_free = 1;
		} else {
			list_move(&mm_slot->mm_list,
				  &ksm_scan.mm_slot->mm_list);
		}
1461 1462 1463
	}
	spin_unlock(&ksm_mmlist_lock);

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	if (easy_to_free) {
		free_mm_slot(mm_slot);
		clear_bit(MMF_VM_MERGEABLE, &mm->flags);
		mmdrop(mm);
	} else if (mm_slot) {
		down_write(&mm->mmap_sem);
		up_write(&mm->mmap_sem);
	}
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}

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#ifdef CONFIG_SYSFS
/*
 * This all compiles without CONFIG_SYSFS, but is a waste of space.
 */

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#define KSM_ATTR_RO(_name) \
	static struct kobj_attribute _name##_attr = __ATTR_RO(_name)
#define KSM_ATTR(_name) \
	static struct kobj_attribute _name##_attr = \
		__ATTR(_name, 0644, _name##_show, _name##_store)

static ssize_t sleep_millisecs_show(struct kobject *kobj,
				    struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%u\n", ksm_thread_sleep_millisecs);
}

static ssize_t sleep_millisecs_store(struct kobject *kobj,
				     struct kobj_attribute *attr,
				     const char *buf, size_t count)
{
	unsigned long msecs;
	int err;

	err = strict_strtoul(buf, 10, &msecs);
	if (err || msecs > UINT_MAX)
		return -EINVAL;

	ksm_thread_sleep_millisecs = msecs;

	return count;
}
KSM_ATTR(sleep_millisecs);

static ssize_t pages_to_scan_show(struct kobject *kobj,
				  struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%u\n", ksm_thread_pages_to_scan);
}

static ssize_t pages_to_scan_store(struct kobject *kobj,
				   struct kobj_attribute *attr,
				   const char *buf, size_t count)
{
	int err;
	unsigned long nr_pages;

	err = strict_strtoul(buf, 10, &nr_pages);
	if (err || nr_pages > UINT_MAX)
		return -EINVAL;

	ksm_thread_pages_to_scan = nr_pages;

	return count;
}
KSM_ATTR(pages_to_scan);

static ssize_t run_show(struct kobject *kobj, struct kobj_attribute *attr,
			char *buf)
{
	return sprintf(buf, "%u\n", ksm_run);
}

static ssize_t run_store(struct kobject *kobj, struct kobj_attribute *attr,
			 const char *buf, size_t count)
{
	int err;
	unsigned long flags;

	err = strict_strtoul(buf, 10, &flags);
	if (err || flags > UINT_MAX)
		return -EINVAL;
	if (flags > KSM_RUN_UNMERGE)
		return -EINVAL;

	/*
	 * KSM_RUN_MERGE sets ksmd running, and 0 stops it running.
	 * KSM_RUN_UNMERGE stops it running and unmerges all rmap_items,
1552
	 * breaking COW to free the unswappable pages_shared (but leaves
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	 * mm_slots on the list for when ksmd may be set running again).
	 */

	mutex_lock(&ksm_thread_mutex);
	if (ksm_run != flags) {
		ksm_run = flags;
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		if (flags & KSM_RUN_UNMERGE) {
			err = unmerge_and_remove_all_rmap_items();
			if (err) {
				ksm_run = KSM_RUN_STOP;
				count = err;
			}
		}
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	}
	mutex_unlock(&ksm_thread_mutex);

	if (flags & KSM_RUN_MERGE)
		wake_up_interruptible(&ksm_thread_wait);

	return count;
}
KSM_ATTR(run);

static ssize_t max_kernel_pages_store(struct kobject *kobj,
				      struct kobj_attribute *attr,
				      const char *buf, size_t count)
{
	int err;
	unsigned long nr_pages;

	err = strict_strtoul(buf, 10, &nr_pages);
	if (err)
		return -EINVAL;

	ksm_max_kernel_pages = nr_pages;

	return count;
}

static ssize_t max_kernel_pages_show(struct kobject *kobj,
				     struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%lu\n", ksm_max_kernel_pages);
}
KSM_ATTR(max_kernel_pages);

1599 1600 1601 1602 1603 1604 1605 1606 1607 1608
static ssize_t pages_shared_show(struct kobject *kobj,
				 struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%lu\n", ksm_pages_shared);
}
KSM_ATTR_RO(pages_shared);

static ssize_t pages_sharing_show(struct kobject *kobj,
				  struct kobj_attribute *attr, char *buf)
{
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	return sprintf(buf, "%lu\n", ksm_pages_sharing);
1610 1611 1612
}
KSM_ATTR_RO(pages_sharing);

1613 1614 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643
static ssize_t pages_unshared_show(struct kobject *kobj,
				   struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%lu\n", ksm_pages_unshared);
}
KSM_ATTR_RO(pages_unshared);

static ssize_t pages_volatile_show(struct kobject *kobj,
				   struct kobj_attribute *attr, char *buf)
{
	long ksm_pages_volatile;

	ksm_pages_volatile = ksm_rmap_items - ksm_pages_shared
				- ksm_pages_sharing - ksm_pages_unshared;
	/*
	 * It was not worth any locking to calculate that statistic,
	 * but it might therefore sometimes be negative: conceal that.
	 */
	if (ksm_pages_volatile < 0)
		ksm_pages_volatile = 0;
	return sprintf(buf, "%ld\n", ksm_pages_volatile);
}
KSM_ATTR_RO(pages_volatile);

static ssize_t full_scans_show(struct kobject *kobj,
			       struct kobj_attribute *attr, char *buf)
{
	return sprintf(buf, "%lu\n", ksm_scan.seqnr);
}
KSM_ATTR_RO(full_scans);

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static struct attribute *ksm_attrs[] = {
	&sleep_millisecs_attr.attr,
	&pages_to_scan_attr.attr,
	&run_attr.attr,
	&max_kernel_pages_attr.attr,
1649 1650
	&pages_shared_attr.attr,
	&pages_sharing_attr.attr,
1651 1652 1653
	&pages_unshared_attr.attr,
	&pages_volatile_attr.attr,
	&full_scans_attr.attr,
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	NULL,
};

static struct attribute_group ksm_attr_group = {
	.attrs = ksm_attrs,
	.name = "ksm",
};
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#endif /* CONFIG_SYSFS */
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static int __init ksm_init(void)
{
	struct task_struct *ksm_thread;
	int err;

	err = ksm_slab_init();
	if (err)
		goto out;

	err = mm_slots_hash_init();
	if (err)
		goto out_free1;

	ksm_thread = kthread_run(ksm_scan_thread, NULL, "ksmd");
	if (IS_ERR(ksm_thread)) {
		printk(KERN_ERR "ksm: creating kthread failed\n");
		err = PTR_ERR(ksm_thread);
		goto out_free2;
	}

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#ifdef CONFIG_SYSFS
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	err = sysfs_create_group(mm_kobj, &ksm_attr_group);
	if (err) {
		printk(KERN_ERR "ksm: register sysfs failed\n");
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		kthread_stop(ksm_thread);
		goto out_free2;
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	}
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#endif /* CONFIG_SYSFS */
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	return 0;

out_free2:
	mm_slots_hash_free();
out_free1:
	ksm_slab_free();
out:
	return err;
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}
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module_init(ksm_init)