• Linux内存管理 (7)VMA操作【转】


    转自:https://www.cnblogs.com/arnoldlu/p/8329279.html

    专题:Linux内存管理专题

    关键词:VMA、vm_area_struct、查找/插入/合并VMA、红黑树。

    用户进程可以拥有3GB大小的空间,远大于物理内存,那么这些用户进程的虚拟地址空间是如何管理的呢?

    malloc()或mmap()操作都会要求在虚拟地址空间中分配内存块,但这些内存在物理上往往都是离散的。

    这些进程地址空间在内核中使用struct vm_area_struct数据结构来描述,简称VMA,也被称为进程地址空间或进程线性区。

    1. 数据结构

    struct vm_area_struct可以说是VMA的描述符,在创建之后会插入到mm->mm_rb红黑树和mm->mmap链表中。

    复制代码
    /*
     * This struct defines a memory VMM memory area. There is one of these
     * per VM-area/task.  A VM area is any part of the process virtual memory
     * space that has a special rule for the page-fault handlers (ie a shared
     * library, the executable area etc).
     */
    struct vm_area_struct {
        /* The first cache line has the info for VMA tree walking. */
    
        unsigned long vm_start;        /* Our start address within vm_mm. */--------VMA在进程地址空间的起始结束地址
        unsigned long vm_end;        /* The first byte after our end address
                           within vm_mm. */
    
        /* linked list of VM areas per task, sorted by address */
        struct vm_area_struct *vm_next, *vm_prev;----------------------------------VMA链表的前后成员
    
        struct rb_node vm_rb;------------------------------------------------------VMA作为一个节点加入到红黑树中,每个进程的mm_struct中都有一个红黑树mm->mm_rb。
    
        /*
         * Largest free memory gap in bytes to the left of this VMA.
         * Either between this VMA and vma->vm_prev, or between one of the
         * VMAs below us in the VMA rbtree and its ->vm_prev. This helps
         * get_unmapped_area find a free area of the right size.
         */
        unsigned long rb_subtree_gap;
    
        /* Second cache line starts here. */
    
        struct mm_struct *vm_mm;    /* The address space we belong to. */--------指向VMA所属进程的struct mm_struct结构。
        pgprot_t vm_page_prot;        /* Access permissions of this VMA. */------VMA访问权限
        unsigned long vm_flags;        /* Flags, see mm.h. */--------------------VMA标志位
    
        /*
         * For areas with an address space and backing store,
         * linkage into the address_space->i_mmap interval tree.
         */
        struct {
            struct rb_node rb;
            unsigned long rb_subtree_last;
        } shared;
    
        /*
         * A file's MAP_PRIVATE vma can be in both i_mmap tree and anon_vma
         * list, after a COW of one of the file pages.    A MAP_SHARED vma
         * can only be in the i_mmap tree.  An anonymous MAP_PRIVATE, stack
         * or brk vma (with NULL file) can only be in an anon_vma list.
         */
        struct list_head anon_vma_chain; /* Serialized by mmap_sem &-----------用于管理RMAP反向映射。
                          * page_table_lock */
        struct anon_vma *anon_vma;    /* Serialized by page_table_lock */------用于管理RMAP反向映射。
    
        /* Function pointers to deal with this struct. */
        const struct vm_operations_struct *vm_ops;-----------------------------VMA操作函数合集,常用于文件映射。
    
        /* Information about our backing store: */
        unsigned long vm_pgoff;        /* Offset (within vm_file) in PAGE_SIZE-指定文件映射的偏移量,单位是页面。
                           units, *not* PAGE_CACHE_SIZE */
        struct file * vm_file;        /* File we map to (can be NULL). */------描述一个被映射的文件。
        void * vm_private_data;        /* was vm_pte (shared mem) */
    
    #ifndef CONFIG_MMU
        struct vm_region *vm_region;    /* NOMMU mapping region */
    #endif
    #ifdef CONFIG_NUMA
        struct mempolicy *vm_policy;    /* NUMA policy for the VMA */
    #endif
    }
    复制代码

    struct  mm_struct是描述进程内存管理的核心数据结构,VMA属于进程内存区域。在mm_struct中通过mmap链表和mm_rb对vm_area_struct进行管理。

    struct mm_struct {
        struct vm_area_struct *mmap;        /* list of VMAs */-----单链表,按起始地址递增的方式插入,所有的VMA都连接到此链表中。链表头是mm_struct->mmap。
        struct rb_root mm_rb;--------------------------------------所有的VMA按照地址插入mm_struct->mm_rb红黑树中,mm_struct->mm_rb是根节点,每个进程都有一个红黑树。
    ...
    }

    2. 查找VMA

    复制代码
    /* Look up the first VMA which satisfies  addr < vm_end,  NULL if none. */
    struct vm_area_struct *find_vma(struct mm_struct *mm, unsigned long addr)
    {
        struct rb_node *rb_node;
        struct vm_area_struct *vma;
    
        /* Check the cache first. */
        vma = vmacache_find(mm, addr);
        if (likely(vma))
            return vma;
    
        rb_node = mm->mm_rb.rb_node;
        vma = NULL;
    
        while (rb_node) {
            struct vm_area_struct *tmp;
    
            tmp = rb_entry(rb_node, struct vm_area_struct, vm_rb);
    
            if (tmp->vm_end > addr) {
                vma = tmp;
                if (tmp->vm_start <= addr)
                    break;
                rb_node = rb_node->rb_left;
            } else
                rb_node = rb_node->rb_right;
        }
    
        if (vma)
            vmacache_update(addr, vma);
        return vma;
    }
    
    struct vm_area_struct *vmacache_find(struct mm_struct *mm, unsigned long addr)
    {
        int i;
    
        if (!vmacache_valid(mm))
            return NULL;
    
        count_vm_vmacache_event(VMACACHE_FIND_CALLS);
    
        for (i = 0; i < VMACACHE_SIZE; i++) {
            struct vm_area_struct *vma = current->vmacache[i];
    
            if (!vma)
                continue;
            if (WARN_ON_ONCE(vma->vm_mm != mm))
                break;
            if (vma->vm_start <= addr && vma->vm_end > addr) {
                count_vm_vmacache_event(VMACACHE_FIND_HITS);
                return vma;
            }
        }
    
        return NULL;
    }
    
    void vmacache_update(unsigned long addr, struct vm_area_struct *newvma)
    {
        if (vmacache_valid_mm(newvma->vm_mm))
            current->vmacache[VMACACHE_HASH(addr)] = newvma;
    }
    复制代码

    3. 插入VMA

    复制代码
    int insert_vm_struct(struct mm_struct *mm, struct vm_area_struct *vma)
    {
        struct vm_area_struct *prev;
        struct rb_node **rb_link, *rb_parent;
    
        /*
         * The vm_pgoff of a purely anonymous vma should be irrelevant
         * until its first write fault, when page's anon_vma and index
         * are set.  But now set the vm_pgoff it will almost certainly
         * end up with (unless mremap moves it elsewhere before that
         * first wfault), so /proc/pid/maps tells a consistent story.
         *
         * By setting it to reflect the virtual start address of the
         * vma, merges and splits can happen in a seamless way, just
         * using the existing file pgoff checks and manipulations.
         * Similarly in do_mmap_pgoff and in do_brk.
         */
        if (!vma->vm_file) {
            BUG_ON(vma->anon_vma);
            vma->vm_pgoff = vma->vm_start >> PAGE_SHIFT;
        }
        if (find_vma_links(mm, vma->vm_start, vma->vm_end,
                   &prev, &rb_link, &rb_parent))
            return -ENOMEM;
        if ((vma->vm_flags & VM_ACCOUNT) &&
             security_vm_enough_memory_mm(mm, vma_pages(vma)))
            return -ENOMEM;
    
        vma_link(mm, vma, prev, rb_link, rb_parent);
        return 0;
    }
    复制代码
    复制代码
    static int find_vma_links(struct mm_struct *mm, unsigned long addr,
            unsigned long end, struct vm_area_struct **pprev,
            struct rb_node ***rb_link, struct rb_node **rb_parent)
    {
        struct rb_node **__rb_link, *__rb_parent, *rb_prev;
    
        __rb_link = &mm->mm_rb.rb_node;
        rb_prev = __rb_parent = NULL;
    
        while (*__rb_link) {
            struct vm_area_struct *vma_tmp;
    
            __rb_parent = *__rb_link;
            vma_tmp = rb_entry(__rb_parent, struct vm_area_struct, vm_rb);
    
            if (vma_tmp->vm_end > addr) {
                /* Fail if an existing vma overlaps the area */
                if (vma_tmp->vm_start < end)
                    return -ENOMEM;
                __rb_link = &__rb_parent->rb_left;
            } else {
                rb_prev = __rb_parent;
                __rb_link = &__rb_parent->rb_right;
            }
        }
    
        *pprev = NULL;
        if (rb_prev)
            *pprev = rb_entry(rb_prev, struct vm_area_struct, vm_rb);
        *rb_link = __rb_link;
        *rb_parent = __rb_parent;
        return 0;
    }
    复制代码
    复制代码
    static void vma_link(struct mm_struct *mm, struct vm_area_struct *vma,
                struct vm_area_struct *prev, struct rb_node **rb_link,
                struct rb_node *rb_parent)
    {
        struct address_space *mapping = NULL;
    
        if (vma->vm_file) {
            mapping = vma->vm_file->f_mapping;
            i_mmap_lock_write(mapping);
        }
    
        __vma_link(mm, vma, prev, rb_link, rb_parent);
        __vma_link_file(vma);
    
        if (mapping)
            i_mmap_unlock_write(mapping);
    
        mm->map_count++;
        validate_mm(mm);
    }
    复制代码

    4. 合并VMA

    复制代码
    /*
     * Given a mapping request (addr,end,vm_flags,file,pgoff), figure out
     * whether that can be merged with its predecessor or its successor.
     * Or both (it neatly fills a hole).
     *
     * In most cases - when called for mmap, brk or mremap - [addr,end) is
     * certain not to be mapped by the time vma_merge is called; but when
     * called for mprotect, it is certain to be already mapped (either at
     * an offset within prev, or at the start of next), and the flags of
     * this area are about to be changed to vm_flags - and the no-change
     * case has already been eliminated.
     *
     * The following mprotect cases have to be considered, where AAAA is
     * the area passed down from mprotect_fixup, never extending beyond one
     * vma, PPPPPP is the prev vma specified, and NNNNNN the next vma after:
     *
     *     AAAA             AAAA                AAAA          AAAA
     *    PPPPPPNNNNNN    PPPPPPNNNNNN    PPPPPPNNNNNN    PPPPNNNNXXXX
     *    cannot merge    might become    might become    might become
     *                    PPNNNNNNNNNN    PPPPPPPPPPNN    PPPPPPPPPPPP 6 or
     *    mmap, brk or    case 4 below    case 5 below    PPPPPPPPXXXX 7 or
     *    mremap move:                                    PPPPNNNNNNNN 8
     *        AAAA
     *    PPPP    NNNN    PPPPPPPPPPPP    PPPPPPPPNNNN    PPPPNNNNNNNN
     *    might become    case 1 below    case 2 below    case 3 below
     *
     * Odd one out? Case 8, because it extends NNNN but needs flags of XXXX:
     * mprotect_fixup updates vm_flags & vm_page_prot on successful return.
     */
    struct vm_area_struct *vma_merge(struct mm_struct *mm,
                struct vm_area_struct *prev, unsigned long addr,
                unsigned long end, unsigned long vm_flags,
                struct anon_vma *anon_vma, struct file *file,
                pgoff_t pgoff, struct mempolicy *policy)
    {
        pgoff_t pglen = (end - addr) >> PAGE_SHIFT;
        struct vm_area_struct *area, *next;
        int err;
    
        /*
         * We later require that vma->vm_flags == vm_flags,
         * so this tests vma->vm_flags & VM_SPECIAL, too.
         */
        if (vm_flags & VM_SPECIAL)
            return NULL;
    
        if (prev)
            next = prev->vm_next;
        else
            next = mm->mmap;
        area = next;
        if (next && next->vm_end == end)        /* cases 6, 7, 8 */
            next = next->vm_next;
    
        /*
         * Can it merge with the predecessor?
         */
        if (prev && prev->vm_end == addr &&
                mpol_equal(vma_policy(prev), policy) &&
                can_vma_merge_after(prev, vm_flags,
                            anon_vma, file, pgoff)) {
            /*
             * OK, it can.  Can we now merge in the successor as well?
             */
            if (next && end == next->vm_start &&
                    mpol_equal(policy, vma_policy(next)) &&
                    can_vma_merge_before(next, vm_flags,
                        anon_vma, file, pgoff+pglen) &&
                    is_mergeable_anon_vma(prev->anon_vma,
                                  next->anon_vma, NULL)) {
                                /* cases 1, 6 */
                err = vma_adjust(prev, prev->vm_start,
                    next->vm_end, prev->vm_pgoff, NULL);
            } else                    /* cases 2, 5, 7 */
                err = vma_adjust(prev, prev->vm_start,
                    end, prev->vm_pgoff, NULL);
            if (err)
                return NULL;
            khugepaged_enter_vma_merge(prev, vm_flags);
            return prev;
        }
    
        /*
         * Can this new request be merged in front of next?
         */
        if (next && end == next->vm_start &&
                mpol_equal(policy, vma_policy(next)) &&
                can_vma_merge_before(next, vm_flags,
                        anon_vma, file, pgoff+pglen)) {
            if (prev && addr < prev->vm_end)    /* case 4 */
                err = vma_adjust(prev, prev->vm_start,
                    addr, prev->vm_pgoff, NULL);
            else                    /* cases 3, 8 */
                err = vma_adjust(area, addr, next->vm_end,
                    next->vm_pgoff - pglen, NULL);
            if (err)
                return NULL;
            khugepaged_enter_vma_merge(area, vm_flags);
            return area;
        }
    
        return NULL;
    }
    复制代码

    5. 红黑树例子

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    【大饼教你学系列】https://edu.csdn.net/course/detail/10393
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  • 原文地址:https://www.cnblogs.com/sky-heaven/p/13691673.html
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