149b1b8d6SLorenzo Stoakes // SPDX-License-Identifier: GPL-2.0-or-later 249b1b8d6SLorenzo Stoakes 349b1b8d6SLorenzo Stoakes /* 449b1b8d6SLorenzo Stoakes * VMA-specific functions. 549b1b8d6SLorenzo Stoakes */ 649b1b8d6SLorenzo Stoakes 749b1b8d6SLorenzo Stoakes #include "vma_internal.h" 849b1b8d6SLorenzo Stoakes #include "vma.h" 949b1b8d6SLorenzo Stoakes 1049b1b8d6SLorenzo Stoakes /* 1149b1b8d6SLorenzo Stoakes * If the vma has a ->close operation then the driver probably needs to release 1249b1b8d6SLorenzo Stoakes * per-vma resources, so we don't attempt to merge those if the caller indicates 1349b1b8d6SLorenzo Stoakes * the current vma may be removed as part of the merge. 1449b1b8d6SLorenzo Stoakes */ 1549b1b8d6SLorenzo Stoakes static inline bool is_mergeable_vma(struct vm_area_struct *vma, 1649b1b8d6SLorenzo Stoakes struct file *file, unsigned long vm_flags, 1749b1b8d6SLorenzo Stoakes struct vm_userfaultfd_ctx vm_userfaultfd_ctx, 1849b1b8d6SLorenzo Stoakes struct anon_vma_name *anon_name, bool may_remove_vma) 1949b1b8d6SLorenzo Stoakes { 2049b1b8d6SLorenzo Stoakes /* 2149b1b8d6SLorenzo Stoakes * VM_SOFTDIRTY should not prevent from VMA merging, if we 2249b1b8d6SLorenzo Stoakes * match the flags but dirty bit -- the caller should mark 2349b1b8d6SLorenzo Stoakes * merged VMA as dirty. If dirty bit won't be excluded from 2449b1b8d6SLorenzo Stoakes * comparison, we increase pressure on the memory system forcing 2549b1b8d6SLorenzo Stoakes * the kernel to generate new VMAs when old one could be 2649b1b8d6SLorenzo Stoakes * extended instead. 2749b1b8d6SLorenzo Stoakes */ 2849b1b8d6SLorenzo Stoakes if ((vma->vm_flags ^ vm_flags) & ~VM_SOFTDIRTY) 2949b1b8d6SLorenzo Stoakes return false; 3049b1b8d6SLorenzo Stoakes if (vma->vm_file != file) 3149b1b8d6SLorenzo Stoakes return false; 3249b1b8d6SLorenzo Stoakes if (may_remove_vma && vma->vm_ops && vma->vm_ops->close) 3349b1b8d6SLorenzo Stoakes return false; 3449b1b8d6SLorenzo Stoakes if (!is_mergeable_vm_userfaultfd_ctx(vma, vm_userfaultfd_ctx)) 3549b1b8d6SLorenzo Stoakes return false; 3649b1b8d6SLorenzo Stoakes if (!anon_vma_name_eq(anon_vma_name(vma), anon_name)) 3749b1b8d6SLorenzo Stoakes return false; 3849b1b8d6SLorenzo Stoakes return true; 3949b1b8d6SLorenzo Stoakes } 4049b1b8d6SLorenzo Stoakes 4149b1b8d6SLorenzo Stoakes static inline bool is_mergeable_anon_vma(struct anon_vma *anon_vma1, 4249b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma2, struct vm_area_struct *vma) 4349b1b8d6SLorenzo Stoakes { 4449b1b8d6SLorenzo Stoakes /* 4549b1b8d6SLorenzo Stoakes * The list_is_singular() test is to avoid merging VMA cloned from 4649b1b8d6SLorenzo Stoakes * parents. This can improve scalability caused by anon_vma lock. 4749b1b8d6SLorenzo Stoakes */ 4849b1b8d6SLorenzo Stoakes if ((!anon_vma1 || !anon_vma2) && (!vma || 4949b1b8d6SLorenzo Stoakes list_is_singular(&vma->anon_vma_chain))) 5049b1b8d6SLorenzo Stoakes return true; 5149b1b8d6SLorenzo Stoakes return anon_vma1 == anon_vma2; 5249b1b8d6SLorenzo Stoakes } 5349b1b8d6SLorenzo Stoakes 5449b1b8d6SLorenzo Stoakes /* 5549b1b8d6SLorenzo Stoakes * init_multi_vma_prep() - Initializer for struct vma_prepare 5649b1b8d6SLorenzo Stoakes * @vp: The vma_prepare struct 5749b1b8d6SLorenzo Stoakes * @vma: The vma that will be altered once locked 5849b1b8d6SLorenzo Stoakes * @next: The next vma if it is to be adjusted 5949b1b8d6SLorenzo Stoakes * @remove: The first vma to be removed 6049b1b8d6SLorenzo Stoakes * @remove2: The second vma to be removed 6149b1b8d6SLorenzo Stoakes */ 6249b1b8d6SLorenzo Stoakes static void init_multi_vma_prep(struct vma_prepare *vp, 6349b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, 6449b1b8d6SLorenzo Stoakes struct vm_area_struct *next, 6549b1b8d6SLorenzo Stoakes struct vm_area_struct *remove, 6649b1b8d6SLorenzo Stoakes struct vm_area_struct *remove2) 6749b1b8d6SLorenzo Stoakes { 6849b1b8d6SLorenzo Stoakes memset(vp, 0, sizeof(struct vma_prepare)); 6949b1b8d6SLorenzo Stoakes vp->vma = vma; 7049b1b8d6SLorenzo Stoakes vp->anon_vma = vma->anon_vma; 7149b1b8d6SLorenzo Stoakes vp->remove = remove; 7249b1b8d6SLorenzo Stoakes vp->remove2 = remove2; 7349b1b8d6SLorenzo Stoakes vp->adj_next = next; 7449b1b8d6SLorenzo Stoakes if (!vp->anon_vma && next) 7549b1b8d6SLorenzo Stoakes vp->anon_vma = next->anon_vma; 7649b1b8d6SLorenzo Stoakes 7749b1b8d6SLorenzo Stoakes vp->file = vma->vm_file; 7849b1b8d6SLorenzo Stoakes if (vp->file) 7949b1b8d6SLorenzo Stoakes vp->mapping = vma->vm_file->f_mapping; 8049b1b8d6SLorenzo Stoakes 8149b1b8d6SLorenzo Stoakes } 8249b1b8d6SLorenzo Stoakes 8349b1b8d6SLorenzo Stoakes /* 8449b1b8d6SLorenzo Stoakes * Return true if we can merge this (vm_flags,anon_vma,file,vm_pgoff) 8549b1b8d6SLorenzo Stoakes * in front of (at a lower virtual address and file offset than) the vma. 8649b1b8d6SLorenzo Stoakes * 8749b1b8d6SLorenzo Stoakes * We cannot merge two vmas if they have differently assigned (non-NULL) 8849b1b8d6SLorenzo Stoakes * anon_vmas, nor if same anon_vma is assigned but offsets incompatible. 8949b1b8d6SLorenzo Stoakes * 9049b1b8d6SLorenzo Stoakes * We don't check here for the merged mmap wrapping around the end of pagecache 9149b1b8d6SLorenzo Stoakes * indices (16TB on ia32) because do_mmap() does not permit mmap's which 9249b1b8d6SLorenzo Stoakes * wrap, nor mmaps which cover the final page at index -1UL. 9349b1b8d6SLorenzo Stoakes * 9449b1b8d6SLorenzo Stoakes * We assume the vma may be removed as part of the merge. 9549b1b8d6SLorenzo Stoakes */ 9649b1b8d6SLorenzo Stoakes bool 9749b1b8d6SLorenzo Stoakes can_vma_merge_before(struct vm_area_struct *vma, unsigned long vm_flags, 9849b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma, struct file *file, 9949b1b8d6SLorenzo Stoakes pgoff_t vm_pgoff, struct vm_userfaultfd_ctx vm_userfaultfd_ctx, 10049b1b8d6SLorenzo Stoakes struct anon_vma_name *anon_name) 10149b1b8d6SLorenzo Stoakes { 10249b1b8d6SLorenzo Stoakes if (is_mergeable_vma(vma, file, vm_flags, vm_userfaultfd_ctx, anon_name, true) && 10349b1b8d6SLorenzo Stoakes is_mergeable_anon_vma(anon_vma, vma->anon_vma, vma)) { 10449b1b8d6SLorenzo Stoakes if (vma->vm_pgoff == vm_pgoff) 10549b1b8d6SLorenzo Stoakes return true; 10649b1b8d6SLorenzo Stoakes } 10749b1b8d6SLorenzo Stoakes return false; 10849b1b8d6SLorenzo Stoakes } 10949b1b8d6SLorenzo Stoakes 11049b1b8d6SLorenzo Stoakes /* 11149b1b8d6SLorenzo Stoakes * Return true if we can merge this (vm_flags,anon_vma,file,vm_pgoff) 11249b1b8d6SLorenzo Stoakes * beyond (at a higher virtual address and file offset than) the vma. 11349b1b8d6SLorenzo Stoakes * 11449b1b8d6SLorenzo Stoakes * We cannot merge two vmas if they have differently assigned (non-NULL) 11549b1b8d6SLorenzo Stoakes * anon_vmas, nor if same anon_vma is assigned but offsets incompatible. 11649b1b8d6SLorenzo Stoakes * 11749b1b8d6SLorenzo Stoakes * We assume that vma is not removed as part of the merge. 11849b1b8d6SLorenzo Stoakes */ 11949b1b8d6SLorenzo Stoakes bool 12049b1b8d6SLorenzo Stoakes can_vma_merge_after(struct vm_area_struct *vma, unsigned long vm_flags, 12149b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma, struct file *file, 12249b1b8d6SLorenzo Stoakes pgoff_t vm_pgoff, struct vm_userfaultfd_ctx vm_userfaultfd_ctx, 12349b1b8d6SLorenzo Stoakes struct anon_vma_name *anon_name) 12449b1b8d6SLorenzo Stoakes { 12549b1b8d6SLorenzo Stoakes if (is_mergeable_vma(vma, file, vm_flags, vm_userfaultfd_ctx, anon_name, false) && 12649b1b8d6SLorenzo Stoakes is_mergeable_anon_vma(anon_vma, vma->anon_vma, vma)) { 12749b1b8d6SLorenzo Stoakes pgoff_t vm_pglen; 12849b1b8d6SLorenzo Stoakes 12949b1b8d6SLorenzo Stoakes vm_pglen = vma_pages(vma); 13049b1b8d6SLorenzo Stoakes if (vma->vm_pgoff + vm_pglen == vm_pgoff) 13149b1b8d6SLorenzo Stoakes return true; 13249b1b8d6SLorenzo Stoakes } 13349b1b8d6SLorenzo Stoakes return false; 13449b1b8d6SLorenzo Stoakes } 13549b1b8d6SLorenzo Stoakes 13649b1b8d6SLorenzo Stoakes /* 13749b1b8d6SLorenzo Stoakes * Close a vm structure and free it. 13849b1b8d6SLorenzo Stoakes */ 13949b1b8d6SLorenzo Stoakes void remove_vma(struct vm_area_struct *vma, bool unreachable) 14049b1b8d6SLorenzo Stoakes { 14149b1b8d6SLorenzo Stoakes might_sleep(); 14249b1b8d6SLorenzo Stoakes if (vma->vm_ops && vma->vm_ops->close) 14349b1b8d6SLorenzo Stoakes vma->vm_ops->close(vma); 14449b1b8d6SLorenzo Stoakes if (vma->vm_file) 14549b1b8d6SLorenzo Stoakes fput(vma->vm_file); 14649b1b8d6SLorenzo Stoakes mpol_put(vma_policy(vma)); 14749b1b8d6SLorenzo Stoakes if (unreachable) 14849b1b8d6SLorenzo Stoakes __vm_area_free(vma); 14949b1b8d6SLorenzo Stoakes else 15049b1b8d6SLorenzo Stoakes vm_area_free(vma); 15149b1b8d6SLorenzo Stoakes } 15249b1b8d6SLorenzo Stoakes 15349b1b8d6SLorenzo Stoakes /* 15449b1b8d6SLorenzo Stoakes * Get rid of page table information in the indicated region. 15549b1b8d6SLorenzo Stoakes * 15649b1b8d6SLorenzo Stoakes * Called with the mm semaphore held. 15749b1b8d6SLorenzo Stoakes */ 15849b1b8d6SLorenzo Stoakes void unmap_region(struct mm_struct *mm, struct ma_state *mas, 15949b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, struct vm_area_struct *prev, 16049b1b8d6SLorenzo Stoakes struct vm_area_struct *next, unsigned long start, 16149b1b8d6SLorenzo Stoakes unsigned long end, unsigned long tree_end, bool mm_wr_locked) 16249b1b8d6SLorenzo Stoakes { 16349b1b8d6SLorenzo Stoakes struct mmu_gather tlb; 16449b1b8d6SLorenzo Stoakes unsigned long mt_start = mas->index; 16549b1b8d6SLorenzo Stoakes 16649b1b8d6SLorenzo Stoakes lru_add_drain(); 16749b1b8d6SLorenzo Stoakes tlb_gather_mmu(&tlb, mm); 16849b1b8d6SLorenzo Stoakes update_hiwater_rss(mm); 16949b1b8d6SLorenzo Stoakes unmap_vmas(&tlb, mas, vma, start, end, tree_end, mm_wr_locked); 17049b1b8d6SLorenzo Stoakes mas_set(mas, mt_start); 17149b1b8d6SLorenzo Stoakes free_pgtables(&tlb, mas, vma, prev ? prev->vm_end : FIRST_USER_ADDRESS, 17249b1b8d6SLorenzo Stoakes next ? next->vm_start : USER_PGTABLES_CEILING, 17349b1b8d6SLorenzo Stoakes mm_wr_locked); 17449b1b8d6SLorenzo Stoakes tlb_finish_mmu(&tlb); 17549b1b8d6SLorenzo Stoakes } 17649b1b8d6SLorenzo Stoakes 17749b1b8d6SLorenzo Stoakes /* 17849b1b8d6SLorenzo Stoakes * __split_vma() bypasses sysctl_max_map_count checking. We use this where it 17949b1b8d6SLorenzo Stoakes * has already been checked or doesn't make sense to fail. 18049b1b8d6SLorenzo Stoakes * VMA Iterator will point to the end VMA. 18149b1b8d6SLorenzo Stoakes */ 18249b1b8d6SLorenzo Stoakes static int __split_vma(struct vma_iterator *vmi, struct vm_area_struct *vma, 18349b1b8d6SLorenzo Stoakes unsigned long addr, int new_below) 18449b1b8d6SLorenzo Stoakes { 18549b1b8d6SLorenzo Stoakes struct vma_prepare vp; 18649b1b8d6SLorenzo Stoakes struct vm_area_struct *new; 18749b1b8d6SLorenzo Stoakes int err; 18849b1b8d6SLorenzo Stoakes 18949b1b8d6SLorenzo Stoakes WARN_ON(vma->vm_start >= addr); 19049b1b8d6SLorenzo Stoakes WARN_ON(vma->vm_end <= addr); 19149b1b8d6SLorenzo Stoakes 19249b1b8d6SLorenzo Stoakes if (vma->vm_ops && vma->vm_ops->may_split) { 19349b1b8d6SLorenzo Stoakes err = vma->vm_ops->may_split(vma, addr); 19449b1b8d6SLorenzo Stoakes if (err) 19549b1b8d6SLorenzo Stoakes return err; 19649b1b8d6SLorenzo Stoakes } 19749b1b8d6SLorenzo Stoakes 19849b1b8d6SLorenzo Stoakes new = vm_area_dup(vma); 19949b1b8d6SLorenzo Stoakes if (!new) 20049b1b8d6SLorenzo Stoakes return -ENOMEM; 20149b1b8d6SLorenzo Stoakes 20249b1b8d6SLorenzo Stoakes if (new_below) { 20349b1b8d6SLorenzo Stoakes new->vm_end = addr; 20449b1b8d6SLorenzo Stoakes } else { 20549b1b8d6SLorenzo Stoakes new->vm_start = addr; 20649b1b8d6SLorenzo Stoakes new->vm_pgoff += ((addr - vma->vm_start) >> PAGE_SHIFT); 20749b1b8d6SLorenzo Stoakes } 20849b1b8d6SLorenzo Stoakes 20949b1b8d6SLorenzo Stoakes err = -ENOMEM; 21049b1b8d6SLorenzo Stoakes vma_iter_config(vmi, new->vm_start, new->vm_end); 21149b1b8d6SLorenzo Stoakes if (vma_iter_prealloc(vmi, new)) 21249b1b8d6SLorenzo Stoakes goto out_free_vma; 21349b1b8d6SLorenzo Stoakes 21449b1b8d6SLorenzo Stoakes err = vma_dup_policy(vma, new); 21549b1b8d6SLorenzo Stoakes if (err) 21649b1b8d6SLorenzo Stoakes goto out_free_vmi; 21749b1b8d6SLorenzo Stoakes 21849b1b8d6SLorenzo Stoakes err = anon_vma_clone(new, vma); 21949b1b8d6SLorenzo Stoakes if (err) 22049b1b8d6SLorenzo Stoakes goto out_free_mpol; 22149b1b8d6SLorenzo Stoakes 22249b1b8d6SLorenzo Stoakes if (new->vm_file) 22349b1b8d6SLorenzo Stoakes get_file(new->vm_file); 22449b1b8d6SLorenzo Stoakes 22549b1b8d6SLorenzo Stoakes if (new->vm_ops && new->vm_ops->open) 22649b1b8d6SLorenzo Stoakes new->vm_ops->open(new); 22749b1b8d6SLorenzo Stoakes 22849b1b8d6SLorenzo Stoakes vma_start_write(vma); 22949b1b8d6SLorenzo Stoakes vma_start_write(new); 23049b1b8d6SLorenzo Stoakes 23149b1b8d6SLorenzo Stoakes init_vma_prep(&vp, vma); 23249b1b8d6SLorenzo Stoakes vp.insert = new; 23349b1b8d6SLorenzo Stoakes vma_prepare(&vp); 23449b1b8d6SLorenzo Stoakes vma_adjust_trans_huge(vma, vma->vm_start, addr, 0); 23549b1b8d6SLorenzo Stoakes 23649b1b8d6SLorenzo Stoakes if (new_below) { 23749b1b8d6SLorenzo Stoakes vma->vm_start = addr; 23849b1b8d6SLorenzo Stoakes vma->vm_pgoff += (addr - new->vm_start) >> PAGE_SHIFT; 23949b1b8d6SLorenzo Stoakes } else { 24049b1b8d6SLorenzo Stoakes vma->vm_end = addr; 24149b1b8d6SLorenzo Stoakes } 24249b1b8d6SLorenzo Stoakes 24349b1b8d6SLorenzo Stoakes /* vma_complete stores the new vma */ 24449b1b8d6SLorenzo Stoakes vma_complete(&vp, vmi, vma->vm_mm); 24549b1b8d6SLorenzo Stoakes 24649b1b8d6SLorenzo Stoakes /* Success. */ 24749b1b8d6SLorenzo Stoakes if (new_below) 24849b1b8d6SLorenzo Stoakes vma_next(vmi); 24949b1b8d6SLorenzo Stoakes return 0; 25049b1b8d6SLorenzo Stoakes 25149b1b8d6SLorenzo Stoakes out_free_mpol: 25249b1b8d6SLorenzo Stoakes mpol_put(vma_policy(new)); 25349b1b8d6SLorenzo Stoakes out_free_vmi: 25449b1b8d6SLorenzo Stoakes vma_iter_free(vmi); 25549b1b8d6SLorenzo Stoakes out_free_vma: 25649b1b8d6SLorenzo Stoakes vm_area_free(new); 25749b1b8d6SLorenzo Stoakes return err; 25849b1b8d6SLorenzo Stoakes } 25949b1b8d6SLorenzo Stoakes 26049b1b8d6SLorenzo Stoakes /* 26149b1b8d6SLorenzo Stoakes * Split a vma into two pieces at address 'addr', a new vma is allocated 26249b1b8d6SLorenzo Stoakes * either for the first part or the tail. 26349b1b8d6SLorenzo Stoakes */ 26449b1b8d6SLorenzo Stoakes static int split_vma(struct vma_iterator *vmi, struct vm_area_struct *vma, 26549b1b8d6SLorenzo Stoakes unsigned long addr, int new_below) 26649b1b8d6SLorenzo Stoakes { 26749b1b8d6SLorenzo Stoakes if (vma->vm_mm->map_count >= sysctl_max_map_count) 26849b1b8d6SLorenzo Stoakes return -ENOMEM; 26949b1b8d6SLorenzo Stoakes 27049b1b8d6SLorenzo Stoakes return __split_vma(vmi, vma, addr, new_below); 27149b1b8d6SLorenzo Stoakes } 27249b1b8d6SLorenzo Stoakes 27349b1b8d6SLorenzo Stoakes /* 27449b1b8d6SLorenzo Stoakes * Ok - we have the memory areas we should free on a maple tree so release them, 27549b1b8d6SLorenzo Stoakes * and do the vma updates. 27649b1b8d6SLorenzo Stoakes * 27749b1b8d6SLorenzo Stoakes * Called with the mm semaphore held. 27849b1b8d6SLorenzo Stoakes */ 27949b1b8d6SLorenzo Stoakes static inline void remove_mt(struct mm_struct *mm, struct ma_state *mas) 28049b1b8d6SLorenzo Stoakes { 28149b1b8d6SLorenzo Stoakes unsigned long nr_accounted = 0; 28249b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 28349b1b8d6SLorenzo Stoakes 28449b1b8d6SLorenzo Stoakes /* Update high watermark before we lower total_vm */ 28549b1b8d6SLorenzo Stoakes update_hiwater_vm(mm); 28649b1b8d6SLorenzo Stoakes mas_for_each(mas, vma, ULONG_MAX) { 28749b1b8d6SLorenzo Stoakes long nrpages = vma_pages(vma); 28849b1b8d6SLorenzo Stoakes 28949b1b8d6SLorenzo Stoakes if (vma->vm_flags & VM_ACCOUNT) 29049b1b8d6SLorenzo Stoakes nr_accounted += nrpages; 29149b1b8d6SLorenzo Stoakes vm_stat_account(mm, vma->vm_flags, -nrpages); 29249b1b8d6SLorenzo Stoakes remove_vma(vma, false); 29349b1b8d6SLorenzo Stoakes } 29449b1b8d6SLorenzo Stoakes vm_unacct_memory(nr_accounted); 29549b1b8d6SLorenzo Stoakes } 29649b1b8d6SLorenzo Stoakes 29749b1b8d6SLorenzo Stoakes /* 29849b1b8d6SLorenzo Stoakes * init_vma_prep() - Initializer wrapper for vma_prepare struct 29949b1b8d6SLorenzo Stoakes * @vp: The vma_prepare struct 30049b1b8d6SLorenzo Stoakes * @vma: The vma that will be altered once locked 30149b1b8d6SLorenzo Stoakes */ 30249b1b8d6SLorenzo Stoakes void init_vma_prep(struct vma_prepare *vp, 30349b1b8d6SLorenzo Stoakes struct vm_area_struct *vma) 30449b1b8d6SLorenzo Stoakes { 30549b1b8d6SLorenzo Stoakes init_multi_vma_prep(vp, vma, NULL, NULL, NULL); 30649b1b8d6SLorenzo Stoakes } 30749b1b8d6SLorenzo Stoakes 30849b1b8d6SLorenzo Stoakes /* 30949b1b8d6SLorenzo Stoakes * Requires inode->i_mapping->i_mmap_rwsem 31049b1b8d6SLorenzo Stoakes */ 31149b1b8d6SLorenzo Stoakes static void __remove_shared_vm_struct(struct vm_area_struct *vma, 31249b1b8d6SLorenzo Stoakes struct address_space *mapping) 31349b1b8d6SLorenzo Stoakes { 31449b1b8d6SLorenzo Stoakes if (vma_is_shared_maywrite(vma)) 31549b1b8d6SLorenzo Stoakes mapping_unmap_writable(mapping); 31649b1b8d6SLorenzo Stoakes 31749b1b8d6SLorenzo Stoakes flush_dcache_mmap_lock(mapping); 31849b1b8d6SLorenzo Stoakes vma_interval_tree_remove(vma, &mapping->i_mmap); 31949b1b8d6SLorenzo Stoakes flush_dcache_mmap_unlock(mapping); 32049b1b8d6SLorenzo Stoakes } 32149b1b8d6SLorenzo Stoakes 32249b1b8d6SLorenzo Stoakes /* 32349b1b8d6SLorenzo Stoakes * vma has some anon_vma assigned, and is already inserted on that 32449b1b8d6SLorenzo Stoakes * anon_vma's interval trees. 32549b1b8d6SLorenzo Stoakes * 32649b1b8d6SLorenzo Stoakes * Before updating the vma's vm_start / vm_end / vm_pgoff fields, the 32749b1b8d6SLorenzo Stoakes * vma must be removed from the anon_vma's interval trees using 32849b1b8d6SLorenzo Stoakes * anon_vma_interval_tree_pre_update_vma(). 32949b1b8d6SLorenzo Stoakes * 33049b1b8d6SLorenzo Stoakes * After the update, the vma will be reinserted using 33149b1b8d6SLorenzo Stoakes * anon_vma_interval_tree_post_update_vma(). 33249b1b8d6SLorenzo Stoakes * 33349b1b8d6SLorenzo Stoakes * The entire update must be protected by exclusive mmap_lock and by 33449b1b8d6SLorenzo Stoakes * the root anon_vma's mutex. 33549b1b8d6SLorenzo Stoakes */ 33649b1b8d6SLorenzo Stoakes void 33749b1b8d6SLorenzo Stoakes anon_vma_interval_tree_pre_update_vma(struct vm_area_struct *vma) 33849b1b8d6SLorenzo Stoakes { 33949b1b8d6SLorenzo Stoakes struct anon_vma_chain *avc; 34049b1b8d6SLorenzo Stoakes 34149b1b8d6SLorenzo Stoakes list_for_each_entry(avc, &vma->anon_vma_chain, same_vma) 34249b1b8d6SLorenzo Stoakes anon_vma_interval_tree_remove(avc, &avc->anon_vma->rb_root); 34349b1b8d6SLorenzo Stoakes } 34449b1b8d6SLorenzo Stoakes 34549b1b8d6SLorenzo Stoakes void 34649b1b8d6SLorenzo Stoakes anon_vma_interval_tree_post_update_vma(struct vm_area_struct *vma) 34749b1b8d6SLorenzo Stoakes { 34849b1b8d6SLorenzo Stoakes struct anon_vma_chain *avc; 34949b1b8d6SLorenzo Stoakes 35049b1b8d6SLorenzo Stoakes list_for_each_entry(avc, &vma->anon_vma_chain, same_vma) 35149b1b8d6SLorenzo Stoakes anon_vma_interval_tree_insert(avc, &avc->anon_vma->rb_root); 35249b1b8d6SLorenzo Stoakes } 35349b1b8d6SLorenzo Stoakes 35449b1b8d6SLorenzo Stoakes static void __vma_link_file(struct vm_area_struct *vma, 35549b1b8d6SLorenzo Stoakes struct address_space *mapping) 35649b1b8d6SLorenzo Stoakes { 35749b1b8d6SLorenzo Stoakes if (vma_is_shared_maywrite(vma)) 35849b1b8d6SLorenzo Stoakes mapping_allow_writable(mapping); 35949b1b8d6SLorenzo Stoakes 36049b1b8d6SLorenzo Stoakes flush_dcache_mmap_lock(mapping); 36149b1b8d6SLorenzo Stoakes vma_interval_tree_insert(vma, &mapping->i_mmap); 36249b1b8d6SLorenzo Stoakes flush_dcache_mmap_unlock(mapping); 36349b1b8d6SLorenzo Stoakes } 36449b1b8d6SLorenzo Stoakes 36549b1b8d6SLorenzo Stoakes /* 36649b1b8d6SLorenzo Stoakes * vma_prepare() - Helper function for handling locking VMAs prior to altering 36749b1b8d6SLorenzo Stoakes * @vp: The initialized vma_prepare struct 36849b1b8d6SLorenzo Stoakes */ 36949b1b8d6SLorenzo Stoakes void vma_prepare(struct vma_prepare *vp) 37049b1b8d6SLorenzo Stoakes { 37149b1b8d6SLorenzo Stoakes if (vp->file) { 37249b1b8d6SLorenzo Stoakes uprobe_munmap(vp->vma, vp->vma->vm_start, vp->vma->vm_end); 37349b1b8d6SLorenzo Stoakes 37449b1b8d6SLorenzo Stoakes if (vp->adj_next) 37549b1b8d6SLorenzo Stoakes uprobe_munmap(vp->adj_next, vp->adj_next->vm_start, 37649b1b8d6SLorenzo Stoakes vp->adj_next->vm_end); 37749b1b8d6SLorenzo Stoakes 37849b1b8d6SLorenzo Stoakes i_mmap_lock_write(vp->mapping); 37949b1b8d6SLorenzo Stoakes if (vp->insert && vp->insert->vm_file) { 38049b1b8d6SLorenzo Stoakes /* 38149b1b8d6SLorenzo Stoakes * Put into interval tree now, so instantiated pages 38249b1b8d6SLorenzo Stoakes * are visible to arm/parisc __flush_dcache_page 38349b1b8d6SLorenzo Stoakes * throughout; but we cannot insert into address 38449b1b8d6SLorenzo Stoakes * space until vma start or end is updated. 38549b1b8d6SLorenzo Stoakes */ 38649b1b8d6SLorenzo Stoakes __vma_link_file(vp->insert, 38749b1b8d6SLorenzo Stoakes vp->insert->vm_file->f_mapping); 38849b1b8d6SLorenzo Stoakes } 38949b1b8d6SLorenzo Stoakes } 39049b1b8d6SLorenzo Stoakes 39149b1b8d6SLorenzo Stoakes if (vp->anon_vma) { 39249b1b8d6SLorenzo Stoakes anon_vma_lock_write(vp->anon_vma); 39349b1b8d6SLorenzo Stoakes anon_vma_interval_tree_pre_update_vma(vp->vma); 39449b1b8d6SLorenzo Stoakes if (vp->adj_next) 39549b1b8d6SLorenzo Stoakes anon_vma_interval_tree_pre_update_vma(vp->adj_next); 39649b1b8d6SLorenzo Stoakes } 39749b1b8d6SLorenzo Stoakes 39849b1b8d6SLorenzo Stoakes if (vp->file) { 39949b1b8d6SLorenzo Stoakes flush_dcache_mmap_lock(vp->mapping); 40049b1b8d6SLorenzo Stoakes vma_interval_tree_remove(vp->vma, &vp->mapping->i_mmap); 40149b1b8d6SLorenzo Stoakes if (vp->adj_next) 40249b1b8d6SLorenzo Stoakes vma_interval_tree_remove(vp->adj_next, 40349b1b8d6SLorenzo Stoakes &vp->mapping->i_mmap); 40449b1b8d6SLorenzo Stoakes } 40549b1b8d6SLorenzo Stoakes 40649b1b8d6SLorenzo Stoakes } 40749b1b8d6SLorenzo Stoakes 40849b1b8d6SLorenzo Stoakes /* 40949b1b8d6SLorenzo Stoakes * dup_anon_vma() - Helper function to duplicate anon_vma 41049b1b8d6SLorenzo Stoakes * @dst: The destination VMA 41149b1b8d6SLorenzo Stoakes * @src: The source VMA 41249b1b8d6SLorenzo Stoakes * @dup: Pointer to the destination VMA when successful. 41349b1b8d6SLorenzo Stoakes * 41449b1b8d6SLorenzo Stoakes * Returns: 0 on success. 41549b1b8d6SLorenzo Stoakes */ 41649b1b8d6SLorenzo Stoakes static int dup_anon_vma(struct vm_area_struct *dst, 41749b1b8d6SLorenzo Stoakes struct vm_area_struct *src, struct vm_area_struct **dup) 41849b1b8d6SLorenzo Stoakes { 41949b1b8d6SLorenzo Stoakes /* 42049b1b8d6SLorenzo Stoakes * Easily overlooked: when mprotect shifts the boundary, make sure the 42149b1b8d6SLorenzo Stoakes * expanding vma has anon_vma set if the shrinking vma had, to cover any 42249b1b8d6SLorenzo Stoakes * anon pages imported. 42349b1b8d6SLorenzo Stoakes */ 42449b1b8d6SLorenzo Stoakes if (src->anon_vma && !dst->anon_vma) { 42549b1b8d6SLorenzo Stoakes int ret; 42649b1b8d6SLorenzo Stoakes 42749b1b8d6SLorenzo Stoakes vma_assert_write_locked(dst); 42849b1b8d6SLorenzo Stoakes dst->anon_vma = src->anon_vma; 42949b1b8d6SLorenzo Stoakes ret = anon_vma_clone(dst, src); 43049b1b8d6SLorenzo Stoakes if (ret) 43149b1b8d6SLorenzo Stoakes return ret; 43249b1b8d6SLorenzo Stoakes 43349b1b8d6SLorenzo Stoakes *dup = dst; 43449b1b8d6SLorenzo Stoakes } 43549b1b8d6SLorenzo Stoakes 43649b1b8d6SLorenzo Stoakes return 0; 43749b1b8d6SLorenzo Stoakes } 43849b1b8d6SLorenzo Stoakes 43949b1b8d6SLorenzo Stoakes #ifdef CONFIG_DEBUG_VM_MAPLE_TREE 44049b1b8d6SLorenzo Stoakes void validate_mm(struct mm_struct *mm) 44149b1b8d6SLorenzo Stoakes { 44249b1b8d6SLorenzo Stoakes int bug = 0; 44349b1b8d6SLorenzo Stoakes int i = 0; 44449b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 44549b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, 0); 44649b1b8d6SLorenzo Stoakes 44749b1b8d6SLorenzo Stoakes mt_validate(&mm->mm_mt); 44849b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 44949b1b8d6SLorenzo Stoakes #ifdef CONFIG_DEBUG_VM_RB 45049b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma = vma->anon_vma; 45149b1b8d6SLorenzo Stoakes struct anon_vma_chain *avc; 45249b1b8d6SLorenzo Stoakes #endif 45349b1b8d6SLorenzo Stoakes unsigned long vmi_start, vmi_end; 45449b1b8d6SLorenzo Stoakes bool warn = 0; 45549b1b8d6SLorenzo Stoakes 45649b1b8d6SLorenzo Stoakes vmi_start = vma_iter_addr(&vmi); 45749b1b8d6SLorenzo Stoakes vmi_end = vma_iter_end(&vmi); 45849b1b8d6SLorenzo Stoakes if (VM_WARN_ON_ONCE_MM(vma->vm_end != vmi_end, mm)) 45949b1b8d6SLorenzo Stoakes warn = 1; 46049b1b8d6SLorenzo Stoakes 46149b1b8d6SLorenzo Stoakes if (VM_WARN_ON_ONCE_MM(vma->vm_start != vmi_start, mm)) 46249b1b8d6SLorenzo Stoakes warn = 1; 46349b1b8d6SLorenzo Stoakes 46449b1b8d6SLorenzo Stoakes if (warn) { 46549b1b8d6SLorenzo Stoakes pr_emerg("issue in %s\n", current->comm); 46649b1b8d6SLorenzo Stoakes dump_stack(); 46749b1b8d6SLorenzo Stoakes dump_vma(vma); 46849b1b8d6SLorenzo Stoakes pr_emerg("tree range: %px start %lx end %lx\n", vma, 46949b1b8d6SLorenzo Stoakes vmi_start, vmi_end - 1); 47049b1b8d6SLorenzo Stoakes vma_iter_dump_tree(&vmi); 47149b1b8d6SLorenzo Stoakes } 47249b1b8d6SLorenzo Stoakes 47349b1b8d6SLorenzo Stoakes #ifdef CONFIG_DEBUG_VM_RB 47449b1b8d6SLorenzo Stoakes if (anon_vma) { 47549b1b8d6SLorenzo Stoakes anon_vma_lock_read(anon_vma); 47649b1b8d6SLorenzo Stoakes list_for_each_entry(avc, &vma->anon_vma_chain, same_vma) 47749b1b8d6SLorenzo Stoakes anon_vma_interval_tree_verify(avc); 47849b1b8d6SLorenzo Stoakes anon_vma_unlock_read(anon_vma); 47949b1b8d6SLorenzo Stoakes } 48049b1b8d6SLorenzo Stoakes #endif 48149b1b8d6SLorenzo Stoakes i++; 48249b1b8d6SLorenzo Stoakes } 48349b1b8d6SLorenzo Stoakes if (i != mm->map_count) { 48449b1b8d6SLorenzo Stoakes pr_emerg("map_count %d vma iterator %d\n", mm->map_count, i); 48549b1b8d6SLorenzo Stoakes bug = 1; 48649b1b8d6SLorenzo Stoakes } 48749b1b8d6SLorenzo Stoakes VM_BUG_ON_MM(bug, mm); 48849b1b8d6SLorenzo Stoakes } 48949b1b8d6SLorenzo Stoakes #endif /* CONFIG_DEBUG_VM_MAPLE_TREE */ 49049b1b8d6SLorenzo Stoakes 49149b1b8d6SLorenzo Stoakes /* 49249b1b8d6SLorenzo Stoakes * vma_expand - Expand an existing VMA 49349b1b8d6SLorenzo Stoakes * 49449b1b8d6SLorenzo Stoakes * @vmi: The vma iterator 49549b1b8d6SLorenzo Stoakes * @vma: The vma to expand 49649b1b8d6SLorenzo Stoakes * @start: The start of the vma 49749b1b8d6SLorenzo Stoakes * @end: The exclusive end of the vma 49849b1b8d6SLorenzo Stoakes * @pgoff: The page offset of vma 49949b1b8d6SLorenzo Stoakes * @next: The current of next vma. 50049b1b8d6SLorenzo Stoakes * 50149b1b8d6SLorenzo Stoakes * Expand @vma to @start and @end. Can expand off the start and end. Will 50249b1b8d6SLorenzo Stoakes * expand over @next if it's different from @vma and @end == @next->vm_end. 50349b1b8d6SLorenzo Stoakes * Checking if the @vma can expand and merge with @next needs to be handled by 50449b1b8d6SLorenzo Stoakes * the caller. 50549b1b8d6SLorenzo Stoakes * 50649b1b8d6SLorenzo Stoakes * Returns: 0 on success 50749b1b8d6SLorenzo Stoakes */ 50849b1b8d6SLorenzo Stoakes int vma_expand(struct vma_iterator *vmi, struct vm_area_struct *vma, 50949b1b8d6SLorenzo Stoakes unsigned long start, unsigned long end, pgoff_t pgoff, 51049b1b8d6SLorenzo Stoakes struct vm_area_struct *next) 51149b1b8d6SLorenzo Stoakes { 51249b1b8d6SLorenzo Stoakes struct vm_area_struct *anon_dup = NULL; 51349b1b8d6SLorenzo Stoakes bool remove_next = false; 51449b1b8d6SLorenzo Stoakes struct vma_prepare vp; 51549b1b8d6SLorenzo Stoakes 51649b1b8d6SLorenzo Stoakes vma_start_write(vma); 51749b1b8d6SLorenzo Stoakes if (next && (vma != next) && (end == next->vm_end)) { 51849b1b8d6SLorenzo Stoakes int ret; 51949b1b8d6SLorenzo Stoakes 52049b1b8d6SLorenzo Stoakes remove_next = true; 52149b1b8d6SLorenzo Stoakes vma_start_write(next); 52249b1b8d6SLorenzo Stoakes ret = dup_anon_vma(vma, next, &anon_dup); 52349b1b8d6SLorenzo Stoakes if (ret) 52449b1b8d6SLorenzo Stoakes return ret; 52549b1b8d6SLorenzo Stoakes } 52649b1b8d6SLorenzo Stoakes 52749b1b8d6SLorenzo Stoakes init_multi_vma_prep(&vp, vma, NULL, remove_next ? next : NULL, NULL); 52849b1b8d6SLorenzo Stoakes /* Not merging but overwriting any part of next is not handled. */ 52949b1b8d6SLorenzo Stoakes VM_WARN_ON(next && !vp.remove && 53049b1b8d6SLorenzo Stoakes next != vma && end > next->vm_start); 53149b1b8d6SLorenzo Stoakes /* Only handles expanding */ 53249b1b8d6SLorenzo Stoakes VM_WARN_ON(vma->vm_start < start || vma->vm_end > end); 53349b1b8d6SLorenzo Stoakes 53449b1b8d6SLorenzo Stoakes /* Note: vma iterator must be pointing to 'start' */ 53549b1b8d6SLorenzo Stoakes vma_iter_config(vmi, start, end); 53649b1b8d6SLorenzo Stoakes if (vma_iter_prealloc(vmi, vma)) 53749b1b8d6SLorenzo Stoakes goto nomem; 53849b1b8d6SLorenzo Stoakes 53949b1b8d6SLorenzo Stoakes vma_prepare(&vp); 54049b1b8d6SLorenzo Stoakes vma_adjust_trans_huge(vma, start, end, 0); 54149b1b8d6SLorenzo Stoakes vma_set_range(vma, start, end, pgoff); 54249b1b8d6SLorenzo Stoakes vma_iter_store(vmi, vma); 54349b1b8d6SLorenzo Stoakes 54449b1b8d6SLorenzo Stoakes vma_complete(&vp, vmi, vma->vm_mm); 54549b1b8d6SLorenzo Stoakes return 0; 54649b1b8d6SLorenzo Stoakes 54749b1b8d6SLorenzo Stoakes nomem: 54849b1b8d6SLorenzo Stoakes if (anon_dup) 54949b1b8d6SLorenzo Stoakes unlink_anon_vmas(anon_dup); 55049b1b8d6SLorenzo Stoakes return -ENOMEM; 55149b1b8d6SLorenzo Stoakes } 55249b1b8d6SLorenzo Stoakes 55349b1b8d6SLorenzo Stoakes /* 55449b1b8d6SLorenzo Stoakes * vma_shrink() - Reduce an existing VMAs memory area 55549b1b8d6SLorenzo Stoakes * @vmi: The vma iterator 55649b1b8d6SLorenzo Stoakes * @vma: The VMA to modify 55749b1b8d6SLorenzo Stoakes * @start: The new start 55849b1b8d6SLorenzo Stoakes * @end: The new end 55949b1b8d6SLorenzo Stoakes * 56049b1b8d6SLorenzo Stoakes * Returns: 0 on success, -ENOMEM otherwise 56149b1b8d6SLorenzo Stoakes */ 56249b1b8d6SLorenzo Stoakes int vma_shrink(struct vma_iterator *vmi, struct vm_area_struct *vma, 56349b1b8d6SLorenzo Stoakes unsigned long start, unsigned long end, pgoff_t pgoff) 56449b1b8d6SLorenzo Stoakes { 56549b1b8d6SLorenzo Stoakes struct vma_prepare vp; 56649b1b8d6SLorenzo Stoakes 56749b1b8d6SLorenzo Stoakes WARN_ON((vma->vm_start != start) && (vma->vm_end != end)); 56849b1b8d6SLorenzo Stoakes 56949b1b8d6SLorenzo Stoakes if (vma->vm_start < start) 57049b1b8d6SLorenzo Stoakes vma_iter_config(vmi, vma->vm_start, start); 57149b1b8d6SLorenzo Stoakes else 57249b1b8d6SLorenzo Stoakes vma_iter_config(vmi, end, vma->vm_end); 57349b1b8d6SLorenzo Stoakes 57449b1b8d6SLorenzo Stoakes if (vma_iter_prealloc(vmi, NULL)) 57549b1b8d6SLorenzo Stoakes return -ENOMEM; 57649b1b8d6SLorenzo Stoakes 57749b1b8d6SLorenzo Stoakes vma_start_write(vma); 57849b1b8d6SLorenzo Stoakes 57949b1b8d6SLorenzo Stoakes init_vma_prep(&vp, vma); 58049b1b8d6SLorenzo Stoakes vma_prepare(&vp); 58149b1b8d6SLorenzo Stoakes vma_adjust_trans_huge(vma, start, end, 0); 58249b1b8d6SLorenzo Stoakes 58349b1b8d6SLorenzo Stoakes vma_iter_clear(vmi); 58449b1b8d6SLorenzo Stoakes vma_set_range(vma, start, end, pgoff); 58549b1b8d6SLorenzo Stoakes vma_complete(&vp, vmi, vma->vm_mm); 58649b1b8d6SLorenzo Stoakes return 0; 58749b1b8d6SLorenzo Stoakes } 58849b1b8d6SLorenzo Stoakes 58949b1b8d6SLorenzo Stoakes /* 59049b1b8d6SLorenzo Stoakes * vma_complete- Helper function for handling the unlocking after altering VMAs, 59149b1b8d6SLorenzo Stoakes * or for inserting a VMA. 59249b1b8d6SLorenzo Stoakes * 59349b1b8d6SLorenzo Stoakes * @vp: The vma_prepare struct 59449b1b8d6SLorenzo Stoakes * @vmi: The vma iterator 59549b1b8d6SLorenzo Stoakes * @mm: The mm_struct 59649b1b8d6SLorenzo Stoakes */ 59749b1b8d6SLorenzo Stoakes void vma_complete(struct vma_prepare *vp, 59849b1b8d6SLorenzo Stoakes struct vma_iterator *vmi, struct mm_struct *mm) 59949b1b8d6SLorenzo Stoakes { 60049b1b8d6SLorenzo Stoakes if (vp->file) { 60149b1b8d6SLorenzo Stoakes if (vp->adj_next) 60249b1b8d6SLorenzo Stoakes vma_interval_tree_insert(vp->adj_next, 60349b1b8d6SLorenzo Stoakes &vp->mapping->i_mmap); 60449b1b8d6SLorenzo Stoakes vma_interval_tree_insert(vp->vma, &vp->mapping->i_mmap); 60549b1b8d6SLorenzo Stoakes flush_dcache_mmap_unlock(vp->mapping); 60649b1b8d6SLorenzo Stoakes } 60749b1b8d6SLorenzo Stoakes 60849b1b8d6SLorenzo Stoakes if (vp->remove && vp->file) { 60949b1b8d6SLorenzo Stoakes __remove_shared_vm_struct(vp->remove, vp->mapping); 61049b1b8d6SLorenzo Stoakes if (vp->remove2) 61149b1b8d6SLorenzo Stoakes __remove_shared_vm_struct(vp->remove2, vp->mapping); 61249b1b8d6SLorenzo Stoakes } else if (vp->insert) { 61349b1b8d6SLorenzo Stoakes /* 61449b1b8d6SLorenzo Stoakes * split_vma has split insert from vma, and needs 61549b1b8d6SLorenzo Stoakes * us to insert it before dropping the locks 61649b1b8d6SLorenzo Stoakes * (it may either follow vma or precede it). 61749b1b8d6SLorenzo Stoakes */ 61849b1b8d6SLorenzo Stoakes vma_iter_store(vmi, vp->insert); 61949b1b8d6SLorenzo Stoakes mm->map_count++; 62049b1b8d6SLorenzo Stoakes } 62149b1b8d6SLorenzo Stoakes 62249b1b8d6SLorenzo Stoakes if (vp->anon_vma) { 62349b1b8d6SLorenzo Stoakes anon_vma_interval_tree_post_update_vma(vp->vma); 62449b1b8d6SLorenzo Stoakes if (vp->adj_next) 62549b1b8d6SLorenzo Stoakes anon_vma_interval_tree_post_update_vma(vp->adj_next); 62649b1b8d6SLorenzo Stoakes anon_vma_unlock_write(vp->anon_vma); 62749b1b8d6SLorenzo Stoakes } 62849b1b8d6SLorenzo Stoakes 62949b1b8d6SLorenzo Stoakes if (vp->file) { 63049b1b8d6SLorenzo Stoakes i_mmap_unlock_write(vp->mapping); 63149b1b8d6SLorenzo Stoakes uprobe_mmap(vp->vma); 63249b1b8d6SLorenzo Stoakes 63349b1b8d6SLorenzo Stoakes if (vp->adj_next) 63449b1b8d6SLorenzo Stoakes uprobe_mmap(vp->adj_next); 63549b1b8d6SLorenzo Stoakes } 63649b1b8d6SLorenzo Stoakes 63749b1b8d6SLorenzo Stoakes if (vp->remove) { 63849b1b8d6SLorenzo Stoakes again: 63949b1b8d6SLorenzo Stoakes vma_mark_detached(vp->remove, true); 64049b1b8d6SLorenzo Stoakes if (vp->file) { 64149b1b8d6SLorenzo Stoakes uprobe_munmap(vp->remove, vp->remove->vm_start, 64249b1b8d6SLorenzo Stoakes vp->remove->vm_end); 64349b1b8d6SLorenzo Stoakes fput(vp->file); 64449b1b8d6SLorenzo Stoakes } 64549b1b8d6SLorenzo Stoakes if (vp->remove->anon_vma) 64649b1b8d6SLorenzo Stoakes anon_vma_merge(vp->vma, vp->remove); 64749b1b8d6SLorenzo Stoakes mm->map_count--; 64849b1b8d6SLorenzo Stoakes mpol_put(vma_policy(vp->remove)); 64949b1b8d6SLorenzo Stoakes if (!vp->remove2) 65049b1b8d6SLorenzo Stoakes WARN_ON_ONCE(vp->vma->vm_end < vp->remove->vm_end); 65149b1b8d6SLorenzo Stoakes vm_area_free(vp->remove); 65249b1b8d6SLorenzo Stoakes 65349b1b8d6SLorenzo Stoakes /* 65449b1b8d6SLorenzo Stoakes * In mprotect's case 6 (see comments on vma_merge), 65549b1b8d6SLorenzo Stoakes * we are removing both mid and next vmas 65649b1b8d6SLorenzo Stoakes */ 65749b1b8d6SLorenzo Stoakes if (vp->remove2) { 65849b1b8d6SLorenzo Stoakes vp->remove = vp->remove2; 65949b1b8d6SLorenzo Stoakes vp->remove2 = NULL; 66049b1b8d6SLorenzo Stoakes goto again; 66149b1b8d6SLorenzo Stoakes } 66249b1b8d6SLorenzo Stoakes } 66349b1b8d6SLorenzo Stoakes if (vp->insert && vp->file) 66449b1b8d6SLorenzo Stoakes uprobe_mmap(vp->insert); 66549b1b8d6SLorenzo Stoakes validate_mm(mm); 66649b1b8d6SLorenzo Stoakes } 66749b1b8d6SLorenzo Stoakes 66849b1b8d6SLorenzo Stoakes /* 66949b1b8d6SLorenzo Stoakes * do_vmi_align_munmap() - munmap the aligned region from @start to @end. 67049b1b8d6SLorenzo Stoakes * @vmi: The vma iterator 67149b1b8d6SLorenzo Stoakes * @vma: The starting vm_area_struct 67249b1b8d6SLorenzo Stoakes * @mm: The mm_struct 67349b1b8d6SLorenzo Stoakes * @start: The aligned start address to munmap. 67449b1b8d6SLorenzo Stoakes * @end: The aligned end address to munmap. 67549b1b8d6SLorenzo Stoakes * @uf: The userfaultfd list_head 67649b1b8d6SLorenzo Stoakes * @unlock: Set to true to drop the mmap_lock. unlocking only happens on 67749b1b8d6SLorenzo Stoakes * success. 67849b1b8d6SLorenzo Stoakes * 67949b1b8d6SLorenzo Stoakes * Return: 0 on success and drops the lock if so directed, error and leaves the 68049b1b8d6SLorenzo Stoakes * lock held otherwise. 68149b1b8d6SLorenzo Stoakes */ 68249b1b8d6SLorenzo Stoakes int 68349b1b8d6SLorenzo Stoakes do_vmi_align_munmap(struct vma_iterator *vmi, struct vm_area_struct *vma, 68449b1b8d6SLorenzo Stoakes struct mm_struct *mm, unsigned long start, 68549b1b8d6SLorenzo Stoakes unsigned long end, struct list_head *uf, bool unlock) 68649b1b8d6SLorenzo Stoakes { 68749b1b8d6SLorenzo Stoakes struct vm_area_struct *prev, *next = NULL; 68849b1b8d6SLorenzo Stoakes struct maple_tree mt_detach; 68949b1b8d6SLorenzo Stoakes int count = 0; 69049b1b8d6SLorenzo Stoakes int error = -ENOMEM; 69149b1b8d6SLorenzo Stoakes unsigned long locked_vm = 0; 69249b1b8d6SLorenzo Stoakes MA_STATE(mas_detach, &mt_detach, 0, 0); 69349b1b8d6SLorenzo Stoakes mt_init_flags(&mt_detach, vmi->mas.tree->ma_flags & MT_FLAGS_LOCK_MASK); 69449b1b8d6SLorenzo Stoakes mt_on_stack(mt_detach); 69549b1b8d6SLorenzo Stoakes 69649b1b8d6SLorenzo Stoakes /* 69749b1b8d6SLorenzo Stoakes * If we need to split any vma, do it now to save pain later. 69849b1b8d6SLorenzo Stoakes * 69949b1b8d6SLorenzo Stoakes * Note: mremap's move_vma VM_ACCOUNT handling assumes a partially 70049b1b8d6SLorenzo Stoakes * unmapped vm_area_struct will remain in use: so lower split_vma 70149b1b8d6SLorenzo Stoakes * places tmp vma above, and higher split_vma places tmp vma below. 70249b1b8d6SLorenzo Stoakes */ 70349b1b8d6SLorenzo Stoakes 70449b1b8d6SLorenzo Stoakes /* Does it split the first one? */ 70549b1b8d6SLorenzo Stoakes if (start > vma->vm_start) { 70649b1b8d6SLorenzo Stoakes 70749b1b8d6SLorenzo Stoakes /* 70849b1b8d6SLorenzo Stoakes * Make sure that map_count on return from munmap() will 70949b1b8d6SLorenzo Stoakes * not exceed its limit; but let map_count go just above 71049b1b8d6SLorenzo Stoakes * its limit temporarily, to help free resources as expected. 71149b1b8d6SLorenzo Stoakes */ 71249b1b8d6SLorenzo Stoakes if (end < vma->vm_end && mm->map_count >= sysctl_max_map_count) 71349b1b8d6SLorenzo Stoakes goto map_count_exceeded; 71449b1b8d6SLorenzo Stoakes 715*df2a7df9SPedro Falcato /* Don't bother splitting the VMA if we can't unmap it anyway */ 716*df2a7df9SPedro Falcato if (!can_modify_vma(vma)) { 717*df2a7df9SPedro Falcato error = -EPERM; 718*df2a7df9SPedro Falcato goto start_split_failed; 719*df2a7df9SPedro Falcato } 720*df2a7df9SPedro Falcato 72149b1b8d6SLorenzo Stoakes error = __split_vma(vmi, vma, start, 1); 72249b1b8d6SLorenzo Stoakes if (error) 72349b1b8d6SLorenzo Stoakes goto start_split_failed; 72449b1b8d6SLorenzo Stoakes } 72549b1b8d6SLorenzo Stoakes 72649b1b8d6SLorenzo Stoakes /* 72749b1b8d6SLorenzo Stoakes * Detach a range of VMAs from the mm. Using next as a temp variable as 72849b1b8d6SLorenzo Stoakes * it is always overwritten. 72949b1b8d6SLorenzo Stoakes */ 73049b1b8d6SLorenzo Stoakes next = vma; 73149b1b8d6SLorenzo Stoakes do { 732*df2a7df9SPedro Falcato if (!can_modify_vma(next)) { 733*df2a7df9SPedro Falcato error = -EPERM; 734*df2a7df9SPedro Falcato goto modify_vma_failed; 735*df2a7df9SPedro Falcato } 736*df2a7df9SPedro Falcato 73749b1b8d6SLorenzo Stoakes /* Does it split the end? */ 73849b1b8d6SLorenzo Stoakes if (next->vm_end > end) { 73949b1b8d6SLorenzo Stoakes error = __split_vma(vmi, next, end, 0); 74049b1b8d6SLorenzo Stoakes if (error) 74149b1b8d6SLorenzo Stoakes goto end_split_failed; 74249b1b8d6SLorenzo Stoakes } 74349b1b8d6SLorenzo Stoakes vma_start_write(next); 74449b1b8d6SLorenzo Stoakes mas_set(&mas_detach, count); 74549b1b8d6SLorenzo Stoakes error = mas_store_gfp(&mas_detach, next, GFP_KERNEL); 74649b1b8d6SLorenzo Stoakes if (error) 74749b1b8d6SLorenzo Stoakes goto munmap_gather_failed; 74849b1b8d6SLorenzo Stoakes vma_mark_detached(next, true); 74949b1b8d6SLorenzo Stoakes if (next->vm_flags & VM_LOCKED) 75049b1b8d6SLorenzo Stoakes locked_vm += vma_pages(next); 75149b1b8d6SLorenzo Stoakes 75249b1b8d6SLorenzo Stoakes count++; 75349b1b8d6SLorenzo Stoakes if (unlikely(uf)) { 75449b1b8d6SLorenzo Stoakes /* 75549b1b8d6SLorenzo Stoakes * If userfaultfd_unmap_prep returns an error the vmas 75649b1b8d6SLorenzo Stoakes * will remain split, but userland will get a 75749b1b8d6SLorenzo Stoakes * highly unexpected error anyway. This is no 75849b1b8d6SLorenzo Stoakes * different than the case where the first of the two 75949b1b8d6SLorenzo Stoakes * __split_vma fails, but we don't undo the first 76049b1b8d6SLorenzo Stoakes * split, despite we could. This is unlikely enough 76149b1b8d6SLorenzo Stoakes * failure that it's not worth optimizing it for. 76249b1b8d6SLorenzo Stoakes */ 76349b1b8d6SLorenzo Stoakes error = userfaultfd_unmap_prep(next, start, end, uf); 76449b1b8d6SLorenzo Stoakes 76549b1b8d6SLorenzo Stoakes if (error) 76649b1b8d6SLorenzo Stoakes goto userfaultfd_error; 76749b1b8d6SLorenzo Stoakes } 76849b1b8d6SLorenzo Stoakes #ifdef CONFIG_DEBUG_VM_MAPLE_TREE 76949b1b8d6SLorenzo Stoakes BUG_ON(next->vm_start < start); 77049b1b8d6SLorenzo Stoakes BUG_ON(next->vm_start > end); 77149b1b8d6SLorenzo Stoakes #endif 77249b1b8d6SLorenzo Stoakes } for_each_vma_range(*vmi, next, end); 77349b1b8d6SLorenzo Stoakes 77449b1b8d6SLorenzo Stoakes #if defined(CONFIG_DEBUG_VM_MAPLE_TREE) 77549b1b8d6SLorenzo Stoakes /* Make sure no VMAs are about to be lost. */ 77649b1b8d6SLorenzo Stoakes { 77749b1b8d6SLorenzo Stoakes MA_STATE(test, &mt_detach, 0, 0); 77849b1b8d6SLorenzo Stoakes struct vm_area_struct *vma_mas, *vma_test; 77949b1b8d6SLorenzo Stoakes int test_count = 0; 78049b1b8d6SLorenzo Stoakes 78149b1b8d6SLorenzo Stoakes vma_iter_set(vmi, start); 78249b1b8d6SLorenzo Stoakes rcu_read_lock(); 78349b1b8d6SLorenzo Stoakes vma_test = mas_find(&test, count - 1); 78449b1b8d6SLorenzo Stoakes for_each_vma_range(*vmi, vma_mas, end) { 78549b1b8d6SLorenzo Stoakes BUG_ON(vma_mas != vma_test); 78649b1b8d6SLorenzo Stoakes test_count++; 78749b1b8d6SLorenzo Stoakes vma_test = mas_next(&test, count - 1); 78849b1b8d6SLorenzo Stoakes } 78949b1b8d6SLorenzo Stoakes rcu_read_unlock(); 79049b1b8d6SLorenzo Stoakes BUG_ON(count != test_count); 79149b1b8d6SLorenzo Stoakes } 79249b1b8d6SLorenzo Stoakes #endif 79349b1b8d6SLorenzo Stoakes 79449b1b8d6SLorenzo Stoakes while (vma_iter_addr(vmi) > start) 79549b1b8d6SLorenzo Stoakes vma_iter_prev_range(vmi); 79649b1b8d6SLorenzo Stoakes 79749b1b8d6SLorenzo Stoakes error = vma_iter_clear_gfp(vmi, start, end, GFP_KERNEL); 79849b1b8d6SLorenzo Stoakes if (error) 79949b1b8d6SLorenzo Stoakes goto clear_tree_failed; 80049b1b8d6SLorenzo Stoakes 80149b1b8d6SLorenzo Stoakes /* Point of no return */ 80249b1b8d6SLorenzo Stoakes mm->locked_vm -= locked_vm; 80349b1b8d6SLorenzo Stoakes mm->map_count -= count; 80449b1b8d6SLorenzo Stoakes if (unlock) 80549b1b8d6SLorenzo Stoakes mmap_write_downgrade(mm); 80649b1b8d6SLorenzo Stoakes 80749b1b8d6SLorenzo Stoakes prev = vma_iter_prev_range(vmi); 80849b1b8d6SLorenzo Stoakes next = vma_next(vmi); 80949b1b8d6SLorenzo Stoakes if (next) 81049b1b8d6SLorenzo Stoakes vma_iter_prev_range(vmi); 81149b1b8d6SLorenzo Stoakes 81249b1b8d6SLorenzo Stoakes /* 81349b1b8d6SLorenzo Stoakes * We can free page tables without write-locking mmap_lock because VMAs 81449b1b8d6SLorenzo Stoakes * were isolated before we downgraded mmap_lock. 81549b1b8d6SLorenzo Stoakes */ 81649b1b8d6SLorenzo Stoakes mas_set(&mas_detach, 1); 81749b1b8d6SLorenzo Stoakes unmap_region(mm, &mas_detach, vma, prev, next, start, end, count, 81849b1b8d6SLorenzo Stoakes !unlock); 81949b1b8d6SLorenzo Stoakes /* Statistics and freeing VMAs */ 82049b1b8d6SLorenzo Stoakes mas_set(&mas_detach, 0); 82149b1b8d6SLorenzo Stoakes remove_mt(mm, &mas_detach); 82249b1b8d6SLorenzo Stoakes validate_mm(mm); 82349b1b8d6SLorenzo Stoakes if (unlock) 82449b1b8d6SLorenzo Stoakes mmap_read_unlock(mm); 82549b1b8d6SLorenzo Stoakes 82649b1b8d6SLorenzo Stoakes __mt_destroy(&mt_detach); 82749b1b8d6SLorenzo Stoakes return 0; 82849b1b8d6SLorenzo Stoakes 829*df2a7df9SPedro Falcato modify_vma_failed: 83049b1b8d6SLorenzo Stoakes clear_tree_failed: 83149b1b8d6SLorenzo Stoakes userfaultfd_error: 83249b1b8d6SLorenzo Stoakes munmap_gather_failed: 83349b1b8d6SLorenzo Stoakes end_split_failed: 83449b1b8d6SLorenzo Stoakes mas_set(&mas_detach, 0); 83549b1b8d6SLorenzo Stoakes mas_for_each(&mas_detach, next, end) 83649b1b8d6SLorenzo Stoakes vma_mark_detached(next, false); 83749b1b8d6SLorenzo Stoakes 83849b1b8d6SLorenzo Stoakes __mt_destroy(&mt_detach); 83949b1b8d6SLorenzo Stoakes start_split_failed: 84049b1b8d6SLorenzo Stoakes map_count_exceeded: 84149b1b8d6SLorenzo Stoakes validate_mm(mm); 84249b1b8d6SLorenzo Stoakes return error; 84349b1b8d6SLorenzo Stoakes } 84449b1b8d6SLorenzo Stoakes 84549b1b8d6SLorenzo Stoakes /* 84649b1b8d6SLorenzo Stoakes * do_vmi_munmap() - munmap a given range. 84749b1b8d6SLorenzo Stoakes * @vmi: The vma iterator 84849b1b8d6SLorenzo Stoakes * @mm: The mm_struct 84949b1b8d6SLorenzo Stoakes * @start: The start address to munmap 85049b1b8d6SLorenzo Stoakes * @len: The length of the range to munmap 85149b1b8d6SLorenzo Stoakes * @uf: The userfaultfd list_head 85249b1b8d6SLorenzo Stoakes * @unlock: set to true if the user wants to drop the mmap_lock on success 85349b1b8d6SLorenzo Stoakes * 85449b1b8d6SLorenzo Stoakes * This function takes a @mas that is either pointing to the previous VMA or set 85549b1b8d6SLorenzo Stoakes * to MA_START and sets it up to remove the mapping(s). The @len will be 85640b88644SMichael Ellerman * aligned. 85749b1b8d6SLorenzo Stoakes * 85849b1b8d6SLorenzo Stoakes * Return: 0 on success and drops the lock if so directed, error and leaves the 85949b1b8d6SLorenzo Stoakes * lock held otherwise. 86049b1b8d6SLorenzo Stoakes */ 86149b1b8d6SLorenzo Stoakes int do_vmi_munmap(struct vma_iterator *vmi, struct mm_struct *mm, 86249b1b8d6SLorenzo Stoakes unsigned long start, size_t len, struct list_head *uf, 86349b1b8d6SLorenzo Stoakes bool unlock) 86449b1b8d6SLorenzo Stoakes { 86549b1b8d6SLorenzo Stoakes unsigned long end; 86649b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 86749b1b8d6SLorenzo Stoakes 86849b1b8d6SLorenzo Stoakes if ((offset_in_page(start)) || start > TASK_SIZE || len > TASK_SIZE-start) 86949b1b8d6SLorenzo Stoakes return -EINVAL; 87049b1b8d6SLorenzo Stoakes 87149b1b8d6SLorenzo Stoakes end = start + PAGE_ALIGN(len); 87249b1b8d6SLorenzo Stoakes if (end == start) 87349b1b8d6SLorenzo Stoakes return -EINVAL; 87449b1b8d6SLorenzo Stoakes 87549b1b8d6SLorenzo Stoakes /* Find the first overlapping VMA */ 87649b1b8d6SLorenzo Stoakes vma = vma_find(vmi, end); 87749b1b8d6SLorenzo Stoakes if (!vma) { 87849b1b8d6SLorenzo Stoakes if (unlock) 87949b1b8d6SLorenzo Stoakes mmap_write_unlock(mm); 88049b1b8d6SLorenzo Stoakes return 0; 88149b1b8d6SLorenzo Stoakes } 88249b1b8d6SLorenzo Stoakes 88349b1b8d6SLorenzo Stoakes return do_vmi_align_munmap(vmi, vma, mm, start, end, uf, unlock); 88449b1b8d6SLorenzo Stoakes } 88549b1b8d6SLorenzo Stoakes 88649b1b8d6SLorenzo Stoakes /* 88749b1b8d6SLorenzo Stoakes * Given a mapping request (addr,end,vm_flags,file,pgoff,anon_name), 88849b1b8d6SLorenzo Stoakes * figure out whether that can be merged with its predecessor or its 88949b1b8d6SLorenzo Stoakes * successor. Or both (it neatly fills a hole). 89049b1b8d6SLorenzo Stoakes * 89149b1b8d6SLorenzo Stoakes * In most cases - when called for mmap, brk or mremap - [addr,end) is 89249b1b8d6SLorenzo Stoakes * certain not to be mapped by the time vma_merge is called; but when 89349b1b8d6SLorenzo Stoakes * called for mprotect, it is certain to be already mapped (either at 89449b1b8d6SLorenzo Stoakes * an offset within prev, or at the start of next), and the flags of 89549b1b8d6SLorenzo Stoakes * this area are about to be changed to vm_flags - and the no-change 89649b1b8d6SLorenzo Stoakes * case has already been eliminated. 89749b1b8d6SLorenzo Stoakes * 89849b1b8d6SLorenzo Stoakes * The following mprotect cases have to be considered, where **** is 89949b1b8d6SLorenzo Stoakes * the area passed down from mprotect_fixup, never extending beyond one 90049b1b8d6SLorenzo Stoakes * vma, PPPP is the previous vma, CCCC is a concurrent vma that starts 90149b1b8d6SLorenzo Stoakes * at the same address as **** and is of the same or larger span, and 90249b1b8d6SLorenzo Stoakes * NNNN the next vma after ****: 90349b1b8d6SLorenzo Stoakes * 90449b1b8d6SLorenzo Stoakes * **** **** **** 90549b1b8d6SLorenzo Stoakes * PPPPPPNNNNNN PPPPPPNNNNNN PPPPPPCCCCCC 90649b1b8d6SLorenzo Stoakes * cannot merge might become might become 90749b1b8d6SLorenzo Stoakes * PPNNNNNNNNNN PPPPPPPPPPCC 90849b1b8d6SLorenzo Stoakes * mmap, brk or case 4 below case 5 below 90949b1b8d6SLorenzo Stoakes * mremap move: 91049b1b8d6SLorenzo Stoakes * **** **** 91149b1b8d6SLorenzo Stoakes * PPPP NNNN PPPPCCCCNNNN 91249b1b8d6SLorenzo Stoakes * might become might become 91349b1b8d6SLorenzo Stoakes * PPPPPPPPPPPP 1 or PPPPPPPPPPPP 6 or 91449b1b8d6SLorenzo Stoakes * PPPPPPPPNNNN 2 or PPPPPPPPNNNN 7 or 91549b1b8d6SLorenzo Stoakes * PPPPNNNNNNNN 3 PPPPNNNNNNNN 8 91649b1b8d6SLorenzo Stoakes * 91749b1b8d6SLorenzo Stoakes * It is important for case 8 that the vma CCCC overlapping the 91849b1b8d6SLorenzo Stoakes * region **** is never going to extended over NNNN. Instead NNNN must 91949b1b8d6SLorenzo Stoakes * be extended in region **** and CCCC must be removed. This way in 92049b1b8d6SLorenzo Stoakes * all cases where vma_merge succeeds, the moment vma_merge drops the 92149b1b8d6SLorenzo Stoakes * rmap_locks, the properties of the merged vma will be already 92249b1b8d6SLorenzo Stoakes * correct for the whole merged range. Some of those properties like 92349b1b8d6SLorenzo Stoakes * vm_page_prot/vm_flags may be accessed by rmap_walks and they must 92449b1b8d6SLorenzo Stoakes * be correct for the whole merged range immediately after the 92549b1b8d6SLorenzo Stoakes * rmap_locks are released. Otherwise if NNNN would be removed and 92649b1b8d6SLorenzo Stoakes * CCCC would be extended over the NNNN range, remove_migration_ptes 92749b1b8d6SLorenzo Stoakes * or other rmap walkers (if working on addresses beyond the "end" 92849b1b8d6SLorenzo Stoakes * parameter) may establish ptes with the wrong permissions of CCCC 92949b1b8d6SLorenzo Stoakes * instead of the right permissions of NNNN. 93049b1b8d6SLorenzo Stoakes * 93149b1b8d6SLorenzo Stoakes * In the code below: 93249b1b8d6SLorenzo Stoakes * PPPP is represented by *prev 93349b1b8d6SLorenzo Stoakes * CCCC is represented by *curr or not represented at all (NULL) 93449b1b8d6SLorenzo Stoakes * NNNN is represented by *next or not represented at all (NULL) 93549b1b8d6SLorenzo Stoakes * **** is not represented - it will be merged and the vma containing the 93649b1b8d6SLorenzo Stoakes * area is returned, or the function will return NULL 93749b1b8d6SLorenzo Stoakes */ 93849b1b8d6SLorenzo Stoakes static struct vm_area_struct 93949b1b8d6SLorenzo Stoakes *vma_merge(struct vma_iterator *vmi, struct vm_area_struct *prev, 94049b1b8d6SLorenzo Stoakes struct vm_area_struct *src, unsigned long addr, unsigned long end, 94149b1b8d6SLorenzo Stoakes unsigned long vm_flags, pgoff_t pgoff, struct mempolicy *policy, 94249b1b8d6SLorenzo Stoakes struct vm_userfaultfd_ctx vm_userfaultfd_ctx, 94349b1b8d6SLorenzo Stoakes struct anon_vma_name *anon_name) 94449b1b8d6SLorenzo Stoakes { 94549b1b8d6SLorenzo Stoakes struct mm_struct *mm = src->vm_mm; 94649b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma = src->anon_vma; 94749b1b8d6SLorenzo Stoakes struct file *file = src->vm_file; 94849b1b8d6SLorenzo Stoakes struct vm_area_struct *curr, *next, *res; 94949b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, *adjust, *remove, *remove2; 95049b1b8d6SLorenzo Stoakes struct vm_area_struct *anon_dup = NULL; 95149b1b8d6SLorenzo Stoakes struct vma_prepare vp; 95249b1b8d6SLorenzo Stoakes pgoff_t vma_pgoff; 95349b1b8d6SLorenzo Stoakes int err = 0; 95449b1b8d6SLorenzo Stoakes bool merge_prev = false; 95549b1b8d6SLorenzo Stoakes bool merge_next = false; 95649b1b8d6SLorenzo Stoakes bool vma_expanded = false; 95749b1b8d6SLorenzo Stoakes unsigned long vma_start = addr; 95849b1b8d6SLorenzo Stoakes unsigned long vma_end = end; 95949b1b8d6SLorenzo Stoakes pgoff_t pglen = (end - addr) >> PAGE_SHIFT; 96049b1b8d6SLorenzo Stoakes long adj_start = 0; 96149b1b8d6SLorenzo Stoakes 96249b1b8d6SLorenzo Stoakes /* 96349b1b8d6SLorenzo Stoakes * We later require that vma->vm_flags == vm_flags, 96449b1b8d6SLorenzo Stoakes * so this tests vma->vm_flags & VM_SPECIAL, too. 96549b1b8d6SLorenzo Stoakes */ 96649b1b8d6SLorenzo Stoakes if (vm_flags & VM_SPECIAL) 96749b1b8d6SLorenzo Stoakes return NULL; 96849b1b8d6SLorenzo Stoakes 96949b1b8d6SLorenzo Stoakes /* Does the input range span an existing VMA? (cases 5 - 8) */ 97049b1b8d6SLorenzo Stoakes curr = find_vma_intersection(mm, prev ? prev->vm_end : 0, end); 97149b1b8d6SLorenzo Stoakes 97249b1b8d6SLorenzo Stoakes if (!curr || /* cases 1 - 4 */ 97349b1b8d6SLorenzo Stoakes end == curr->vm_end) /* cases 6 - 8, adjacent VMA */ 97449b1b8d6SLorenzo Stoakes next = vma_lookup(mm, end); 97549b1b8d6SLorenzo Stoakes else 97649b1b8d6SLorenzo Stoakes next = NULL; /* case 5 */ 97749b1b8d6SLorenzo Stoakes 97849b1b8d6SLorenzo Stoakes if (prev) { 97949b1b8d6SLorenzo Stoakes vma_start = prev->vm_start; 98049b1b8d6SLorenzo Stoakes vma_pgoff = prev->vm_pgoff; 98149b1b8d6SLorenzo Stoakes 98249b1b8d6SLorenzo Stoakes /* Can we merge the predecessor? */ 98349b1b8d6SLorenzo Stoakes if (addr == prev->vm_end && mpol_equal(vma_policy(prev), policy) 98449b1b8d6SLorenzo Stoakes && can_vma_merge_after(prev, vm_flags, anon_vma, file, 98549b1b8d6SLorenzo Stoakes pgoff, vm_userfaultfd_ctx, anon_name)) { 98649b1b8d6SLorenzo Stoakes merge_prev = true; 98749b1b8d6SLorenzo Stoakes vma_prev(vmi); 98849b1b8d6SLorenzo Stoakes } 98949b1b8d6SLorenzo Stoakes } 99049b1b8d6SLorenzo Stoakes 99149b1b8d6SLorenzo Stoakes /* Can we merge the successor? */ 99249b1b8d6SLorenzo Stoakes if (next && mpol_equal(policy, vma_policy(next)) && 99349b1b8d6SLorenzo Stoakes can_vma_merge_before(next, vm_flags, anon_vma, file, pgoff+pglen, 99449b1b8d6SLorenzo Stoakes vm_userfaultfd_ctx, anon_name)) { 99549b1b8d6SLorenzo Stoakes merge_next = true; 99649b1b8d6SLorenzo Stoakes } 99749b1b8d6SLorenzo Stoakes 99849b1b8d6SLorenzo Stoakes /* Verify some invariant that must be enforced by the caller. */ 99949b1b8d6SLorenzo Stoakes VM_WARN_ON(prev && addr <= prev->vm_start); 100049b1b8d6SLorenzo Stoakes VM_WARN_ON(curr && (addr != curr->vm_start || end > curr->vm_end)); 100149b1b8d6SLorenzo Stoakes VM_WARN_ON(addr >= end); 100249b1b8d6SLorenzo Stoakes 100349b1b8d6SLorenzo Stoakes if (!merge_prev && !merge_next) 100449b1b8d6SLorenzo Stoakes return NULL; /* Not mergeable. */ 100549b1b8d6SLorenzo Stoakes 100649b1b8d6SLorenzo Stoakes if (merge_prev) 100749b1b8d6SLorenzo Stoakes vma_start_write(prev); 100849b1b8d6SLorenzo Stoakes 100949b1b8d6SLorenzo Stoakes res = vma = prev; 101049b1b8d6SLorenzo Stoakes remove = remove2 = adjust = NULL; 101149b1b8d6SLorenzo Stoakes 101249b1b8d6SLorenzo Stoakes /* Can we merge both the predecessor and the successor? */ 101349b1b8d6SLorenzo Stoakes if (merge_prev && merge_next && 101449b1b8d6SLorenzo Stoakes is_mergeable_anon_vma(prev->anon_vma, next->anon_vma, NULL)) { 101549b1b8d6SLorenzo Stoakes vma_start_write(next); 101649b1b8d6SLorenzo Stoakes remove = next; /* case 1 */ 101749b1b8d6SLorenzo Stoakes vma_end = next->vm_end; 101849b1b8d6SLorenzo Stoakes err = dup_anon_vma(prev, next, &anon_dup); 101949b1b8d6SLorenzo Stoakes if (curr) { /* case 6 */ 102049b1b8d6SLorenzo Stoakes vma_start_write(curr); 102149b1b8d6SLorenzo Stoakes remove = curr; 102249b1b8d6SLorenzo Stoakes remove2 = next; 102349b1b8d6SLorenzo Stoakes /* 102449b1b8d6SLorenzo Stoakes * Note that the dup_anon_vma below cannot overwrite err 102549b1b8d6SLorenzo Stoakes * since the first caller would do nothing unless next 102649b1b8d6SLorenzo Stoakes * has an anon_vma. 102749b1b8d6SLorenzo Stoakes */ 102849b1b8d6SLorenzo Stoakes if (!next->anon_vma) 102949b1b8d6SLorenzo Stoakes err = dup_anon_vma(prev, curr, &anon_dup); 103049b1b8d6SLorenzo Stoakes } 103149b1b8d6SLorenzo Stoakes } else if (merge_prev) { /* case 2 */ 103249b1b8d6SLorenzo Stoakes if (curr) { 103349b1b8d6SLorenzo Stoakes vma_start_write(curr); 103449b1b8d6SLorenzo Stoakes if (end == curr->vm_end) { /* case 7 */ 103549b1b8d6SLorenzo Stoakes /* 103649b1b8d6SLorenzo Stoakes * can_vma_merge_after() assumed we would not be 103749b1b8d6SLorenzo Stoakes * removing prev vma, so it skipped the check 103849b1b8d6SLorenzo Stoakes * for vm_ops->close, but we are removing curr 103949b1b8d6SLorenzo Stoakes */ 104049b1b8d6SLorenzo Stoakes if (curr->vm_ops && curr->vm_ops->close) 104149b1b8d6SLorenzo Stoakes err = -EINVAL; 104249b1b8d6SLorenzo Stoakes remove = curr; 104349b1b8d6SLorenzo Stoakes } else { /* case 5 */ 104449b1b8d6SLorenzo Stoakes adjust = curr; 104549b1b8d6SLorenzo Stoakes adj_start = (end - curr->vm_start); 104649b1b8d6SLorenzo Stoakes } 104749b1b8d6SLorenzo Stoakes if (!err) 104849b1b8d6SLorenzo Stoakes err = dup_anon_vma(prev, curr, &anon_dup); 104949b1b8d6SLorenzo Stoakes } 105049b1b8d6SLorenzo Stoakes } else { /* merge_next */ 105149b1b8d6SLorenzo Stoakes vma_start_write(next); 105249b1b8d6SLorenzo Stoakes res = next; 105349b1b8d6SLorenzo Stoakes if (prev && addr < prev->vm_end) { /* case 4 */ 105449b1b8d6SLorenzo Stoakes vma_start_write(prev); 105549b1b8d6SLorenzo Stoakes vma_end = addr; 105649b1b8d6SLorenzo Stoakes adjust = next; 105749b1b8d6SLorenzo Stoakes adj_start = -(prev->vm_end - addr); 105849b1b8d6SLorenzo Stoakes err = dup_anon_vma(next, prev, &anon_dup); 105949b1b8d6SLorenzo Stoakes } else { 106049b1b8d6SLorenzo Stoakes /* 106149b1b8d6SLorenzo Stoakes * Note that cases 3 and 8 are the ONLY ones where prev 106249b1b8d6SLorenzo Stoakes * is permitted to be (but is not necessarily) NULL. 106349b1b8d6SLorenzo Stoakes */ 106449b1b8d6SLorenzo Stoakes vma = next; /* case 3 */ 106549b1b8d6SLorenzo Stoakes vma_start = addr; 106649b1b8d6SLorenzo Stoakes vma_end = next->vm_end; 106749b1b8d6SLorenzo Stoakes vma_pgoff = next->vm_pgoff - pglen; 106849b1b8d6SLorenzo Stoakes if (curr) { /* case 8 */ 106949b1b8d6SLorenzo Stoakes vma_pgoff = curr->vm_pgoff; 107049b1b8d6SLorenzo Stoakes vma_start_write(curr); 107149b1b8d6SLorenzo Stoakes remove = curr; 107249b1b8d6SLorenzo Stoakes err = dup_anon_vma(next, curr, &anon_dup); 107349b1b8d6SLorenzo Stoakes } 107449b1b8d6SLorenzo Stoakes } 107549b1b8d6SLorenzo Stoakes } 107649b1b8d6SLorenzo Stoakes 107749b1b8d6SLorenzo Stoakes /* Error in anon_vma clone. */ 107849b1b8d6SLorenzo Stoakes if (err) 107949b1b8d6SLorenzo Stoakes goto anon_vma_fail; 108049b1b8d6SLorenzo Stoakes 108149b1b8d6SLorenzo Stoakes if (vma_start < vma->vm_start || vma_end > vma->vm_end) 108249b1b8d6SLorenzo Stoakes vma_expanded = true; 108349b1b8d6SLorenzo Stoakes 108449b1b8d6SLorenzo Stoakes if (vma_expanded) { 108549b1b8d6SLorenzo Stoakes vma_iter_config(vmi, vma_start, vma_end); 108649b1b8d6SLorenzo Stoakes } else { 108749b1b8d6SLorenzo Stoakes vma_iter_config(vmi, adjust->vm_start + adj_start, 108849b1b8d6SLorenzo Stoakes adjust->vm_end); 108949b1b8d6SLorenzo Stoakes } 109049b1b8d6SLorenzo Stoakes 109149b1b8d6SLorenzo Stoakes if (vma_iter_prealloc(vmi, vma)) 109249b1b8d6SLorenzo Stoakes goto prealloc_fail; 109349b1b8d6SLorenzo Stoakes 109449b1b8d6SLorenzo Stoakes init_multi_vma_prep(&vp, vma, adjust, remove, remove2); 109549b1b8d6SLorenzo Stoakes VM_WARN_ON(vp.anon_vma && adjust && adjust->anon_vma && 109649b1b8d6SLorenzo Stoakes vp.anon_vma != adjust->anon_vma); 109749b1b8d6SLorenzo Stoakes 109849b1b8d6SLorenzo Stoakes vma_prepare(&vp); 109949b1b8d6SLorenzo Stoakes vma_adjust_trans_huge(vma, vma_start, vma_end, adj_start); 110049b1b8d6SLorenzo Stoakes vma_set_range(vma, vma_start, vma_end, vma_pgoff); 110149b1b8d6SLorenzo Stoakes 110249b1b8d6SLorenzo Stoakes if (vma_expanded) 110349b1b8d6SLorenzo Stoakes vma_iter_store(vmi, vma); 110449b1b8d6SLorenzo Stoakes 110549b1b8d6SLorenzo Stoakes if (adj_start) { 110649b1b8d6SLorenzo Stoakes adjust->vm_start += adj_start; 110749b1b8d6SLorenzo Stoakes adjust->vm_pgoff += adj_start >> PAGE_SHIFT; 110849b1b8d6SLorenzo Stoakes if (adj_start < 0) { 110949b1b8d6SLorenzo Stoakes WARN_ON(vma_expanded); 111049b1b8d6SLorenzo Stoakes vma_iter_store(vmi, next); 111149b1b8d6SLorenzo Stoakes } 111249b1b8d6SLorenzo Stoakes } 111349b1b8d6SLorenzo Stoakes 111449b1b8d6SLorenzo Stoakes vma_complete(&vp, vmi, mm); 111549b1b8d6SLorenzo Stoakes khugepaged_enter_vma(res, vm_flags); 111649b1b8d6SLorenzo Stoakes return res; 111749b1b8d6SLorenzo Stoakes 111849b1b8d6SLorenzo Stoakes prealloc_fail: 111949b1b8d6SLorenzo Stoakes if (anon_dup) 112049b1b8d6SLorenzo Stoakes unlink_anon_vmas(anon_dup); 112149b1b8d6SLorenzo Stoakes 112249b1b8d6SLorenzo Stoakes anon_vma_fail: 112349b1b8d6SLorenzo Stoakes vma_iter_set(vmi, addr); 112449b1b8d6SLorenzo Stoakes vma_iter_load(vmi); 112549b1b8d6SLorenzo Stoakes return NULL; 112649b1b8d6SLorenzo Stoakes } 112749b1b8d6SLorenzo Stoakes 112849b1b8d6SLorenzo Stoakes /* 112949b1b8d6SLorenzo Stoakes * We are about to modify one or multiple of a VMA's flags, policy, userfaultfd 113049b1b8d6SLorenzo Stoakes * context and anonymous VMA name within the range [start, end). 113149b1b8d6SLorenzo Stoakes * 113249b1b8d6SLorenzo Stoakes * As a result, we might be able to merge the newly modified VMA range with an 113349b1b8d6SLorenzo Stoakes * adjacent VMA with identical properties. 113449b1b8d6SLorenzo Stoakes * 113549b1b8d6SLorenzo Stoakes * If no merge is possible and the range does not span the entirety of the VMA, 113649b1b8d6SLorenzo Stoakes * we then need to split the VMA to accommodate the change. 113749b1b8d6SLorenzo Stoakes * 113849b1b8d6SLorenzo Stoakes * The function returns either the merged VMA, the original VMA if a split was 113949b1b8d6SLorenzo Stoakes * required instead, or an error if the split failed. 114049b1b8d6SLorenzo Stoakes */ 114149b1b8d6SLorenzo Stoakes struct vm_area_struct *vma_modify(struct vma_iterator *vmi, 114249b1b8d6SLorenzo Stoakes struct vm_area_struct *prev, 114349b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, 114449b1b8d6SLorenzo Stoakes unsigned long start, unsigned long end, 114549b1b8d6SLorenzo Stoakes unsigned long vm_flags, 114649b1b8d6SLorenzo Stoakes struct mempolicy *policy, 114749b1b8d6SLorenzo Stoakes struct vm_userfaultfd_ctx uffd_ctx, 114849b1b8d6SLorenzo Stoakes struct anon_vma_name *anon_name) 114949b1b8d6SLorenzo Stoakes { 115049b1b8d6SLorenzo Stoakes pgoff_t pgoff = vma->vm_pgoff + ((start - vma->vm_start) >> PAGE_SHIFT); 115149b1b8d6SLorenzo Stoakes struct vm_area_struct *merged; 115249b1b8d6SLorenzo Stoakes 115349b1b8d6SLorenzo Stoakes merged = vma_merge(vmi, prev, vma, start, end, vm_flags, 115449b1b8d6SLorenzo Stoakes pgoff, policy, uffd_ctx, anon_name); 115549b1b8d6SLorenzo Stoakes if (merged) 115649b1b8d6SLorenzo Stoakes return merged; 115749b1b8d6SLorenzo Stoakes 115849b1b8d6SLorenzo Stoakes if (vma->vm_start < start) { 115949b1b8d6SLorenzo Stoakes int err = split_vma(vmi, vma, start, 1); 116049b1b8d6SLorenzo Stoakes 116149b1b8d6SLorenzo Stoakes if (err) 116249b1b8d6SLorenzo Stoakes return ERR_PTR(err); 116349b1b8d6SLorenzo Stoakes } 116449b1b8d6SLorenzo Stoakes 116549b1b8d6SLorenzo Stoakes if (vma->vm_end > end) { 116649b1b8d6SLorenzo Stoakes int err = split_vma(vmi, vma, end, 0); 116749b1b8d6SLorenzo Stoakes 116849b1b8d6SLorenzo Stoakes if (err) 116949b1b8d6SLorenzo Stoakes return ERR_PTR(err); 117049b1b8d6SLorenzo Stoakes } 117149b1b8d6SLorenzo Stoakes 117249b1b8d6SLorenzo Stoakes return vma; 117349b1b8d6SLorenzo Stoakes } 117449b1b8d6SLorenzo Stoakes 117549b1b8d6SLorenzo Stoakes /* 117649b1b8d6SLorenzo Stoakes * Attempt to merge a newly mapped VMA with those adjacent to it. The caller 117749b1b8d6SLorenzo Stoakes * must ensure that [start, end) does not overlap any existing VMA. 117849b1b8d6SLorenzo Stoakes */ 117949b1b8d6SLorenzo Stoakes struct vm_area_struct 118049b1b8d6SLorenzo Stoakes *vma_merge_new_vma(struct vma_iterator *vmi, struct vm_area_struct *prev, 118149b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, unsigned long start, 118249b1b8d6SLorenzo Stoakes unsigned long end, pgoff_t pgoff) 118349b1b8d6SLorenzo Stoakes { 118449b1b8d6SLorenzo Stoakes return vma_merge(vmi, prev, vma, start, end, vma->vm_flags, pgoff, 118549b1b8d6SLorenzo Stoakes vma_policy(vma), vma->vm_userfaultfd_ctx, anon_vma_name(vma)); 118649b1b8d6SLorenzo Stoakes } 118749b1b8d6SLorenzo Stoakes 118849b1b8d6SLorenzo Stoakes /* 118949b1b8d6SLorenzo Stoakes * Expand vma by delta bytes, potentially merging with an immediately adjacent 119049b1b8d6SLorenzo Stoakes * VMA with identical properties. 119149b1b8d6SLorenzo Stoakes */ 119249b1b8d6SLorenzo Stoakes struct vm_area_struct *vma_merge_extend(struct vma_iterator *vmi, 119349b1b8d6SLorenzo Stoakes struct vm_area_struct *vma, 119449b1b8d6SLorenzo Stoakes unsigned long delta) 119549b1b8d6SLorenzo Stoakes { 119649b1b8d6SLorenzo Stoakes pgoff_t pgoff = vma->vm_pgoff + vma_pages(vma); 119749b1b8d6SLorenzo Stoakes 119849b1b8d6SLorenzo Stoakes /* vma is specified as prev, so case 1 or 2 will apply. */ 119949b1b8d6SLorenzo Stoakes return vma_merge(vmi, vma, vma, vma->vm_end, vma->vm_end + delta, 120049b1b8d6SLorenzo Stoakes vma->vm_flags, pgoff, vma_policy(vma), 120149b1b8d6SLorenzo Stoakes vma->vm_userfaultfd_ctx, anon_vma_name(vma)); 120249b1b8d6SLorenzo Stoakes } 120349b1b8d6SLorenzo Stoakes 120449b1b8d6SLorenzo Stoakes void unlink_file_vma_batch_init(struct unlink_vma_file_batch *vb) 120549b1b8d6SLorenzo Stoakes { 120649b1b8d6SLorenzo Stoakes vb->count = 0; 120749b1b8d6SLorenzo Stoakes } 120849b1b8d6SLorenzo Stoakes 120949b1b8d6SLorenzo Stoakes static void unlink_file_vma_batch_process(struct unlink_vma_file_batch *vb) 121049b1b8d6SLorenzo Stoakes { 121149b1b8d6SLorenzo Stoakes struct address_space *mapping; 121249b1b8d6SLorenzo Stoakes int i; 121349b1b8d6SLorenzo Stoakes 121449b1b8d6SLorenzo Stoakes mapping = vb->vmas[0]->vm_file->f_mapping; 121549b1b8d6SLorenzo Stoakes i_mmap_lock_write(mapping); 121649b1b8d6SLorenzo Stoakes for (i = 0; i < vb->count; i++) { 121749b1b8d6SLorenzo Stoakes VM_WARN_ON_ONCE(vb->vmas[i]->vm_file->f_mapping != mapping); 121849b1b8d6SLorenzo Stoakes __remove_shared_vm_struct(vb->vmas[i], mapping); 121949b1b8d6SLorenzo Stoakes } 122049b1b8d6SLorenzo Stoakes i_mmap_unlock_write(mapping); 122149b1b8d6SLorenzo Stoakes 122249b1b8d6SLorenzo Stoakes unlink_file_vma_batch_init(vb); 122349b1b8d6SLorenzo Stoakes } 122449b1b8d6SLorenzo Stoakes 122549b1b8d6SLorenzo Stoakes void unlink_file_vma_batch_add(struct unlink_vma_file_batch *vb, 122649b1b8d6SLorenzo Stoakes struct vm_area_struct *vma) 122749b1b8d6SLorenzo Stoakes { 122849b1b8d6SLorenzo Stoakes if (vma->vm_file == NULL) 122949b1b8d6SLorenzo Stoakes return; 123049b1b8d6SLorenzo Stoakes 123149b1b8d6SLorenzo Stoakes if ((vb->count > 0 && vb->vmas[0]->vm_file != vma->vm_file) || 123249b1b8d6SLorenzo Stoakes vb->count == ARRAY_SIZE(vb->vmas)) 123349b1b8d6SLorenzo Stoakes unlink_file_vma_batch_process(vb); 123449b1b8d6SLorenzo Stoakes 123549b1b8d6SLorenzo Stoakes vb->vmas[vb->count] = vma; 123649b1b8d6SLorenzo Stoakes vb->count++; 123749b1b8d6SLorenzo Stoakes } 123849b1b8d6SLorenzo Stoakes 123949b1b8d6SLorenzo Stoakes void unlink_file_vma_batch_final(struct unlink_vma_file_batch *vb) 124049b1b8d6SLorenzo Stoakes { 124149b1b8d6SLorenzo Stoakes if (vb->count > 0) 124249b1b8d6SLorenzo Stoakes unlink_file_vma_batch_process(vb); 124349b1b8d6SLorenzo Stoakes } 124449b1b8d6SLorenzo Stoakes 124549b1b8d6SLorenzo Stoakes /* 124649b1b8d6SLorenzo Stoakes * Unlink a file-based vm structure from its interval tree, to hide 124749b1b8d6SLorenzo Stoakes * vma from rmap and vmtruncate before freeing its page tables. 124849b1b8d6SLorenzo Stoakes */ 124949b1b8d6SLorenzo Stoakes void unlink_file_vma(struct vm_area_struct *vma) 125049b1b8d6SLorenzo Stoakes { 125149b1b8d6SLorenzo Stoakes struct file *file = vma->vm_file; 125249b1b8d6SLorenzo Stoakes 125349b1b8d6SLorenzo Stoakes if (file) { 125449b1b8d6SLorenzo Stoakes struct address_space *mapping = file->f_mapping; 125549b1b8d6SLorenzo Stoakes 125649b1b8d6SLorenzo Stoakes i_mmap_lock_write(mapping); 125749b1b8d6SLorenzo Stoakes __remove_shared_vm_struct(vma, mapping); 125849b1b8d6SLorenzo Stoakes i_mmap_unlock_write(mapping); 125949b1b8d6SLorenzo Stoakes } 126049b1b8d6SLorenzo Stoakes } 126149b1b8d6SLorenzo Stoakes 126249b1b8d6SLorenzo Stoakes void vma_link_file(struct vm_area_struct *vma) 126349b1b8d6SLorenzo Stoakes { 126449b1b8d6SLorenzo Stoakes struct file *file = vma->vm_file; 126549b1b8d6SLorenzo Stoakes struct address_space *mapping; 126649b1b8d6SLorenzo Stoakes 126749b1b8d6SLorenzo Stoakes if (file) { 126849b1b8d6SLorenzo Stoakes mapping = file->f_mapping; 126949b1b8d6SLorenzo Stoakes i_mmap_lock_write(mapping); 127049b1b8d6SLorenzo Stoakes __vma_link_file(vma, mapping); 127149b1b8d6SLorenzo Stoakes i_mmap_unlock_write(mapping); 127249b1b8d6SLorenzo Stoakes } 127349b1b8d6SLorenzo Stoakes } 127449b1b8d6SLorenzo Stoakes 127549b1b8d6SLorenzo Stoakes int vma_link(struct mm_struct *mm, struct vm_area_struct *vma) 127649b1b8d6SLorenzo Stoakes { 127749b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, 0); 127849b1b8d6SLorenzo Stoakes 127949b1b8d6SLorenzo Stoakes vma_iter_config(&vmi, vma->vm_start, vma->vm_end); 128049b1b8d6SLorenzo Stoakes if (vma_iter_prealloc(&vmi, vma)) 128149b1b8d6SLorenzo Stoakes return -ENOMEM; 128249b1b8d6SLorenzo Stoakes 128349b1b8d6SLorenzo Stoakes vma_start_write(vma); 128449b1b8d6SLorenzo Stoakes vma_iter_store(&vmi, vma); 128549b1b8d6SLorenzo Stoakes vma_link_file(vma); 128649b1b8d6SLorenzo Stoakes mm->map_count++; 128749b1b8d6SLorenzo Stoakes validate_mm(mm); 128849b1b8d6SLorenzo Stoakes return 0; 128949b1b8d6SLorenzo Stoakes } 129049b1b8d6SLorenzo Stoakes 129149b1b8d6SLorenzo Stoakes /* 129249b1b8d6SLorenzo Stoakes * Copy the vma structure to a new location in the same mm, 129349b1b8d6SLorenzo Stoakes * prior to moving page table entries, to effect an mremap move. 129449b1b8d6SLorenzo Stoakes */ 129549b1b8d6SLorenzo Stoakes struct vm_area_struct *copy_vma(struct vm_area_struct **vmap, 129649b1b8d6SLorenzo Stoakes unsigned long addr, unsigned long len, pgoff_t pgoff, 129749b1b8d6SLorenzo Stoakes bool *need_rmap_locks) 129849b1b8d6SLorenzo Stoakes { 129949b1b8d6SLorenzo Stoakes struct vm_area_struct *vma = *vmap; 130049b1b8d6SLorenzo Stoakes unsigned long vma_start = vma->vm_start; 130149b1b8d6SLorenzo Stoakes struct mm_struct *mm = vma->vm_mm; 130249b1b8d6SLorenzo Stoakes struct vm_area_struct *new_vma, *prev; 130349b1b8d6SLorenzo Stoakes bool faulted_in_anon_vma = true; 130449b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, addr); 130549b1b8d6SLorenzo Stoakes 130649b1b8d6SLorenzo Stoakes /* 130749b1b8d6SLorenzo Stoakes * If anonymous vma has not yet been faulted, update new pgoff 130849b1b8d6SLorenzo Stoakes * to match new location, to increase its chance of merging. 130949b1b8d6SLorenzo Stoakes */ 131049b1b8d6SLorenzo Stoakes if (unlikely(vma_is_anonymous(vma) && !vma->anon_vma)) { 131149b1b8d6SLorenzo Stoakes pgoff = addr >> PAGE_SHIFT; 131249b1b8d6SLorenzo Stoakes faulted_in_anon_vma = false; 131349b1b8d6SLorenzo Stoakes } 131449b1b8d6SLorenzo Stoakes 131549b1b8d6SLorenzo Stoakes new_vma = find_vma_prev(mm, addr, &prev); 131649b1b8d6SLorenzo Stoakes if (new_vma && new_vma->vm_start < addr + len) 131749b1b8d6SLorenzo Stoakes return NULL; /* should never get here */ 131849b1b8d6SLorenzo Stoakes 131949b1b8d6SLorenzo Stoakes new_vma = vma_merge_new_vma(&vmi, prev, vma, addr, addr + len, pgoff); 132049b1b8d6SLorenzo Stoakes if (new_vma) { 132149b1b8d6SLorenzo Stoakes /* 132249b1b8d6SLorenzo Stoakes * Source vma may have been merged into new_vma 132349b1b8d6SLorenzo Stoakes */ 132449b1b8d6SLorenzo Stoakes if (unlikely(vma_start >= new_vma->vm_start && 132549b1b8d6SLorenzo Stoakes vma_start < new_vma->vm_end)) { 132649b1b8d6SLorenzo Stoakes /* 132749b1b8d6SLorenzo Stoakes * The only way we can get a vma_merge with 132849b1b8d6SLorenzo Stoakes * self during an mremap is if the vma hasn't 132949b1b8d6SLorenzo Stoakes * been faulted in yet and we were allowed to 133049b1b8d6SLorenzo Stoakes * reset the dst vma->vm_pgoff to the 133149b1b8d6SLorenzo Stoakes * destination address of the mremap to allow 133249b1b8d6SLorenzo Stoakes * the merge to happen. mremap must change the 133349b1b8d6SLorenzo Stoakes * vm_pgoff linearity between src and dst vmas 133449b1b8d6SLorenzo Stoakes * (in turn preventing a vma_merge) to be 133549b1b8d6SLorenzo Stoakes * safe. It is only safe to keep the vm_pgoff 133649b1b8d6SLorenzo Stoakes * linear if there are no pages mapped yet. 133749b1b8d6SLorenzo Stoakes */ 133849b1b8d6SLorenzo Stoakes VM_BUG_ON_VMA(faulted_in_anon_vma, new_vma); 133949b1b8d6SLorenzo Stoakes *vmap = vma = new_vma; 134049b1b8d6SLorenzo Stoakes } 134149b1b8d6SLorenzo Stoakes *need_rmap_locks = (new_vma->vm_pgoff <= vma->vm_pgoff); 134249b1b8d6SLorenzo Stoakes } else { 134349b1b8d6SLorenzo Stoakes new_vma = vm_area_dup(vma); 134449b1b8d6SLorenzo Stoakes if (!new_vma) 134549b1b8d6SLorenzo Stoakes goto out; 134649b1b8d6SLorenzo Stoakes vma_set_range(new_vma, addr, addr + len, pgoff); 134749b1b8d6SLorenzo Stoakes if (vma_dup_policy(vma, new_vma)) 134849b1b8d6SLorenzo Stoakes goto out_free_vma; 134949b1b8d6SLorenzo Stoakes if (anon_vma_clone(new_vma, vma)) 135049b1b8d6SLorenzo Stoakes goto out_free_mempol; 135149b1b8d6SLorenzo Stoakes if (new_vma->vm_file) 135249b1b8d6SLorenzo Stoakes get_file(new_vma->vm_file); 135349b1b8d6SLorenzo Stoakes if (new_vma->vm_ops && new_vma->vm_ops->open) 135449b1b8d6SLorenzo Stoakes new_vma->vm_ops->open(new_vma); 135549b1b8d6SLorenzo Stoakes if (vma_link(mm, new_vma)) 135649b1b8d6SLorenzo Stoakes goto out_vma_link; 135749b1b8d6SLorenzo Stoakes *need_rmap_locks = false; 135849b1b8d6SLorenzo Stoakes } 135949b1b8d6SLorenzo Stoakes return new_vma; 136049b1b8d6SLorenzo Stoakes 136149b1b8d6SLorenzo Stoakes out_vma_link: 136249b1b8d6SLorenzo Stoakes if (new_vma->vm_ops && new_vma->vm_ops->close) 136349b1b8d6SLorenzo Stoakes new_vma->vm_ops->close(new_vma); 136449b1b8d6SLorenzo Stoakes 136549b1b8d6SLorenzo Stoakes if (new_vma->vm_file) 136649b1b8d6SLorenzo Stoakes fput(new_vma->vm_file); 136749b1b8d6SLorenzo Stoakes 136849b1b8d6SLorenzo Stoakes unlink_anon_vmas(new_vma); 136949b1b8d6SLorenzo Stoakes out_free_mempol: 137049b1b8d6SLorenzo Stoakes mpol_put(vma_policy(new_vma)); 137149b1b8d6SLorenzo Stoakes out_free_vma: 137249b1b8d6SLorenzo Stoakes vm_area_free(new_vma); 137349b1b8d6SLorenzo Stoakes out: 137449b1b8d6SLorenzo Stoakes return NULL; 137549b1b8d6SLorenzo Stoakes } 137649b1b8d6SLorenzo Stoakes 137749b1b8d6SLorenzo Stoakes /* 137849b1b8d6SLorenzo Stoakes * Rough compatibility check to quickly see if it's even worth looking 137949b1b8d6SLorenzo Stoakes * at sharing an anon_vma. 138049b1b8d6SLorenzo Stoakes * 138149b1b8d6SLorenzo Stoakes * They need to have the same vm_file, and the flags can only differ 138249b1b8d6SLorenzo Stoakes * in things that mprotect may change. 138349b1b8d6SLorenzo Stoakes * 138449b1b8d6SLorenzo Stoakes * NOTE! The fact that we share an anon_vma doesn't _have_ to mean that 138549b1b8d6SLorenzo Stoakes * we can merge the two vma's. For example, we refuse to merge a vma if 138649b1b8d6SLorenzo Stoakes * there is a vm_ops->close() function, because that indicates that the 138749b1b8d6SLorenzo Stoakes * driver is doing some kind of reference counting. But that doesn't 138849b1b8d6SLorenzo Stoakes * really matter for the anon_vma sharing case. 138949b1b8d6SLorenzo Stoakes */ 139049b1b8d6SLorenzo Stoakes static int anon_vma_compatible(struct vm_area_struct *a, struct vm_area_struct *b) 139149b1b8d6SLorenzo Stoakes { 139249b1b8d6SLorenzo Stoakes return a->vm_end == b->vm_start && 139349b1b8d6SLorenzo Stoakes mpol_equal(vma_policy(a), vma_policy(b)) && 139449b1b8d6SLorenzo Stoakes a->vm_file == b->vm_file && 139549b1b8d6SLorenzo Stoakes !((a->vm_flags ^ b->vm_flags) & ~(VM_ACCESS_FLAGS | VM_SOFTDIRTY)) && 139649b1b8d6SLorenzo Stoakes b->vm_pgoff == a->vm_pgoff + ((b->vm_start - a->vm_start) >> PAGE_SHIFT); 139749b1b8d6SLorenzo Stoakes } 139849b1b8d6SLorenzo Stoakes 139949b1b8d6SLorenzo Stoakes /* 140049b1b8d6SLorenzo Stoakes * Do some basic sanity checking to see if we can re-use the anon_vma 140149b1b8d6SLorenzo Stoakes * from 'old'. The 'a'/'b' vma's are in VM order - one of them will be 140249b1b8d6SLorenzo Stoakes * the same as 'old', the other will be the new one that is trying 140349b1b8d6SLorenzo Stoakes * to share the anon_vma. 140449b1b8d6SLorenzo Stoakes * 140549b1b8d6SLorenzo Stoakes * NOTE! This runs with mmap_lock held for reading, so it is possible that 140649b1b8d6SLorenzo Stoakes * the anon_vma of 'old' is concurrently in the process of being set up 140749b1b8d6SLorenzo Stoakes * by another page fault trying to merge _that_. But that's ok: if it 140849b1b8d6SLorenzo Stoakes * is being set up, that automatically means that it will be a singleton 140949b1b8d6SLorenzo Stoakes * acceptable for merging, so we can do all of this optimistically. But 141049b1b8d6SLorenzo Stoakes * we do that READ_ONCE() to make sure that we never re-load the pointer. 141149b1b8d6SLorenzo Stoakes * 141249b1b8d6SLorenzo Stoakes * IOW: that the "list_is_singular()" test on the anon_vma_chain only 141349b1b8d6SLorenzo Stoakes * matters for the 'stable anon_vma' case (ie the thing we want to avoid 141449b1b8d6SLorenzo Stoakes * is to return an anon_vma that is "complex" due to having gone through 141549b1b8d6SLorenzo Stoakes * a fork). 141649b1b8d6SLorenzo Stoakes * 141749b1b8d6SLorenzo Stoakes * We also make sure that the two vma's are compatible (adjacent, 141849b1b8d6SLorenzo Stoakes * and with the same memory policies). That's all stable, even with just 141949b1b8d6SLorenzo Stoakes * a read lock on the mmap_lock. 142049b1b8d6SLorenzo Stoakes */ 142149b1b8d6SLorenzo Stoakes static struct anon_vma *reusable_anon_vma(struct vm_area_struct *old, 142249b1b8d6SLorenzo Stoakes struct vm_area_struct *a, 142349b1b8d6SLorenzo Stoakes struct vm_area_struct *b) 142449b1b8d6SLorenzo Stoakes { 142549b1b8d6SLorenzo Stoakes if (anon_vma_compatible(a, b)) { 142649b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma = READ_ONCE(old->anon_vma); 142749b1b8d6SLorenzo Stoakes 142849b1b8d6SLorenzo Stoakes if (anon_vma && list_is_singular(&old->anon_vma_chain)) 142949b1b8d6SLorenzo Stoakes return anon_vma; 143049b1b8d6SLorenzo Stoakes } 143149b1b8d6SLorenzo Stoakes return NULL; 143249b1b8d6SLorenzo Stoakes } 143349b1b8d6SLorenzo Stoakes 143449b1b8d6SLorenzo Stoakes /* 143549b1b8d6SLorenzo Stoakes * find_mergeable_anon_vma is used by anon_vma_prepare, to check 143649b1b8d6SLorenzo Stoakes * neighbouring vmas for a suitable anon_vma, before it goes off 143749b1b8d6SLorenzo Stoakes * to allocate a new anon_vma. It checks because a repetitive 143849b1b8d6SLorenzo Stoakes * sequence of mprotects and faults may otherwise lead to distinct 143949b1b8d6SLorenzo Stoakes * anon_vmas being allocated, preventing vma merge in subsequent 144049b1b8d6SLorenzo Stoakes * mprotect. 144149b1b8d6SLorenzo Stoakes */ 144249b1b8d6SLorenzo Stoakes struct anon_vma *find_mergeable_anon_vma(struct vm_area_struct *vma) 144349b1b8d6SLorenzo Stoakes { 144449b1b8d6SLorenzo Stoakes struct anon_vma *anon_vma = NULL; 144549b1b8d6SLorenzo Stoakes struct vm_area_struct *prev, *next; 144649b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, vma->vm_mm, vma->vm_end); 144749b1b8d6SLorenzo Stoakes 144849b1b8d6SLorenzo Stoakes /* Try next first. */ 144949b1b8d6SLorenzo Stoakes next = vma_iter_load(&vmi); 145049b1b8d6SLorenzo Stoakes if (next) { 145149b1b8d6SLorenzo Stoakes anon_vma = reusable_anon_vma(next, vma, next); 145249b1b8d6SLorenzo Stoakes if (anon_vma) 145349b1b8d6SLorenzo Stoakes return anon_vma; 145449b1b8d6SLorenzo Stoakes } 145549b1b8d6SLorenzo Stoakes 145649b1b8d6SLorenzo Stoakes prev = vma_prev(&vmi); 145749b1b8d6SLorenzo Stoakes VM_BUG_ON_VMA(prev != vma, vma); 145849b1b8d6SLorenzo Stoakes prev = vma_prev(&vmi); 145949b1b8d6SLorenzo Stoakes /* Try prev next. */ 146049b1b8d6SLorenzo Stoakes if (prev) 146149b1b8d6SLorenzo Stoakes anon_vma = reusable_anon_vma(prev, prev, vma); 146249b1b8d6SLorenzo Stoakes 146349b1b8d6SLorenzo Stoakes /* 146449b1b8d6SLorenzo Stoakes * We might reach here with anon_vma == NULL if we can't find 146549b1b8d6SLorenzo Stoakes * any reusable anon_vma. 146649b1b8d6SLorenzo Stoakes * There's no absolute need to look only at touching neighbours: 146749b1b8d6SLorenzo Stoakes * we could search further afield for "compatible" anon_vmas. 146849b1b8d6SLorenzo Stoakes * But it would probably just be a waste of time searching, 146949b1b8d6SLorenzo Stoakes * or lead to too many vmas hanging off the same anon_vma. 147049b1b8d6SLorenzo Stoakes * We're trying to allow mprotect remerging later on, 147149b1b8d6SLorenzo Stoakes * not trying to minimize memory used for anon_vmas. 147249b1b8d6SLorenzo Stoakes */ 147349b1b8d6SLorenzo Stoakes return anon_vma; 147449b1b8d6SLorenzo Stoakes } 147549b1b8d6SLorenzo Stoakes 147649b1b8d6SLorenzo Stoakes static bool vm_ops_needs_writenotify(const struct vm_operations_struct *vm_ops) 147749b1b8d6SLorenzo Stoakes { 147849b1b8d6SLorenzo Stoakes return vm_ops && (vm_ops->page_mkwrite || vm_ops->pfn_mkwrite); 147949b1b8d6SLorenzo Stoakes } 148049b1b8d6SLorenzo Stoakes 148149b1b8d6SLorenzo Stoakes static bool vma_is_shared_writable(struct vm_area_struct *vma) 148249b1b8d6SLorenzo Stoakes { 148349b1b8d6SLorenzo Stoakes return (vma->vm_flags & (VM_WRITE | VM_SHARED)) == 148449b1b8d6SLorenzo Stoakes (VM_WRITE | VM_SHARED); 148549b1b8d6SLorenzo Stoakes } 148649b1b8d6SLorenzo Stoakes 148749b1b8d6SLorenzo Stoakes static bool vma_fs_can_writeback(struct vm_area_struct *vma) 148849b1b8d6SLorenzo Stoakes { 148949b1b8d6SLorenzo Stoakes /* No managed pages to writeback. */ 149049b1b8d6SLorenzo Stoakes if (vma->vm_flags & VM_PFNMAP) 149149b1b8d6SLorenzo Stoakes return false; 149249b1b8d6SLorenzo Stoakes 149349b1b8d6SLorenzo Stoakes return vma->vm_file && vma->vm_file->f_mapping && 149449b1b8d6SLorenzo Stoakes mapping_can_writeback(vma->vm_file->f_mapping); 149549b1b8d6SLorenzo Stoakes } 149649b1b8d6SLorenzo Stoakes 149749b1b8d6SLorenzo Stoakes /* 149849b1b8d6SLorenzo Stoakes * Does this VMA require the underlying folios to have their dirty state 149949b1b8d6SLorenzo Stoakes * tracked? 150049b1b8d6SLorenzo Stoakes */ 150149b1b8d6SLorenzo Stoakes bool vma_needs_dirty_tracking(struct vm_area_struct *vma) 150249b1b8d6SLorenzo Stoakes { 150349b1b8d6SLorenzo Stoakes /* Only shared, writable VMAs require dirty tracking. */ 150449b1b8d6SLorenzo Stoakes if (!vma_is_shared_writable(vma)) 150549b1b8d6SLorenzo Stoakes return false; 150649b1b8d6SLorenzo Stoakes 150749b1b8d6SLorenzo Stoakes /* Does the filesystem need to be notified? */ 150849b1b8d6SLorenzo Stoakes if (vm_ops_needs_writenotify(vma->vm_ops)) 150949b1b8d6SLorenzo Stoakes return true; 151049b1b8d6SLorenzo Stoakes 151149b1b8d6SLorenzo Stoakes /* 151249b1b8d6SLorenzo Stoakes * Even if the filesystem doesn't indicate a need for writenotify, if it 151349b1b8d6SLorenzo Stoakes * can writeback, dirty tracking is still required. 151449b1b8d6SLorenzo Stoakes */ 151549b1b8d6SLorenzo Stoakes return vma_fs_can_writeback(vma); 151649b1b8d6SLorenzo Stoakes } 151749b1b8d6SLorenzo Stoakes 151849b1b8d6SLorenzo Stoakes /* 151949b1b8d6SLorenzo Stoakes * Some shared mappings will want the pages marked read-only 152049b1b8d6SLorenzo Stoakes * to track write events. If so, we'll downgrade vm_page_prot 152149b1b8d6SLorenzo Stoakes * to the private version (using protection_map[] without the 152249b1b8d6SLorenzo Stoakes * VM_SHARED bit). 152349b1b8d6SLorenzo Stoakes */ 152449b1b8d6SLorenzo Stoakes bool vma_wants_writenotify(struct vm_area_struct *vma, pgprot_t vm_page_prot) 152549b1b8d6SLorenzo Stoakes { 152649b1b8d6SLorenzo Stoakes /* If it was private or non-writable, the write bit is already clear */ 152749b1b8d6SLorenzo Stoakes if (!vma_is_shared_writable(vma)) 152849b1b8d6SLorenzo Stoakes return false; 152949b1b8d6SLorenzo Stoakes 153049b1b8d6SLorenzo Stoakes /* The backer wishes to know when pages are first written to? */ 153149b1b8d6SLorenzo Stoakes if (vm_ops_needs_writenotify(vma->vm_ops)) 153249b1b8d6SLorenzo Stoakes return true; 153349b1b8d6SLorenzo Stoakes 153449b1b8d6SLorenzo Stoakes /* The open routine did something to the protections that pgprot_modify 153549b1b8d6SLorenzo Stoakes * won't preserve? */ 153649b1b8d6SLorenzo Stoakes if (pgprot_val(vm_page_prot) != 153749b1b8d6SLorenzo Stoakes pgprot_val(vm_pgprot_modify(vm_page_prot, vma->vm_flags))) 153849b1b8d6SLorenzo Stoakes return false; 153949b1b8d6SLorenzo Stoakes 154049b1b8d6SLorenzo Stoakes /* 154149b1b8d6SLorenzo Stoakes * Do we need to track softdirty? hugetlb does not support softdirty 154249b1b8d6SLorenzo Stoakes * tracking yet. 154349b1b8d6SLorenzo Stoakes */ 154449b1b8d6SLorenzo Stoakes if (vma_soft_dirty_enabled(vma) && !is_vm_hugetlb_page(vma)) 154549b1b8d6SLorenzo Stoakes return true; 154649b1b8d6SLorenzo Stoakes 154749b1b8d6SLorenzo Stoakes /* Do we need write faults for uffd-wp tracking? */ 154849b1b8d6SLorenzo Stoakes if (userfaultfd_wp(vma)) 154949b1b8d6SLorenzo Stoakes return true; 155049b1b8d6SLorenzo Stoakes 155149b1b8d6SLorenzo Stoakes /* Can the mapping track the dirty pages? */ 155249b1b8d6SLorenzo Stoakes return vma_fs_can_writeback(vma); 155349b1b8d6SLorenzo Stoakes } 155449b1b8d6SLorenzo Stoakes 155549b1b8d6SLorenzo Stoakes unsigned long count_vma_pages_range(struct mm_struct *mm, 155649b1b8d6SLorenzo Stoakes unsigned long addr, unsigned long end) 155749b1b8d6SLorenzo Stoakes { 155849b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, addr); 155949b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 156049b1b8d6SLorenzo Stoakes unsigned long nr_pages = 0; 156149b1b8d6SLorenzo Stoakes 156249b1b8d6SLorenzo Stoakes for_each_vma_range(vmi, vma, end) { 156349b1b8d6SLorenzo Stoakes unsigned long vm_start = max(addr, vma->vm_start); 156449b1b8d6SLorenzo Stoakes unsigned long vm_end = min(end, vma->vm_end); 156549b1b8d6SLorenzo Stoakes 156649b1b8d6SLorenzo Stoakes nr_pages += PHYS_PFN(vm_end - vm_start); 156749b1b8d6SLorenzo Stoakes } 156849b1b8d6SLorenzo Stoakes 156949b1b8d6SLorenzo Stoakes return nr_pages; 157049b1b8d6SLorenzo Stoakes } 157149b1b8d6SLorenzo Stoakes 157249b1b8d6SLorenzo Stoakes static DEFINE_MUTEX(mm_all_locks_mutex); 157349b1b8d6SLorenzo Stoakes 157449b1b8d6SLorenzo Stoakes static void vm_lock_anon_vma(struct mm_struct *mm, struct anon_vma *anon_vma) 157549b1b8d6SLorenzo Stoakes { 157649b1b8d6SLorenzo Stoakes if (!test_bit(0, (unsigned long *) &anon_vma->root->rb_root.rb_root.rb_node)) { 157749b1b8d6SLorenzo Stoakes /* 157849b1b8d6SLorenzo Stoakes * The LSB of head.next can't change from under us 157949b1b8d6SLorenzo Stoakes * because we hold the mm_all_locks_mutex. 158049b1b8d6SLorenzo Stoakes */ 158149b1b8d6SLorenzo Stoakes down_write_nest_lock(&anon_vma->root->rwsem, &mm->mmap_lock); 158249b1b8d6SLorenzo Stoakes /* 158349b1b8d6SLorenzo Stoakes * We can safely modify head.next after taking the 158449b1b8d6SLorenzo Stoakes * anon_vma->root->rwsem. If some other vma in this mm shares 158549b1b8d6SLorenzo Stoakes * the same anon_vma we won't take it again. 158649b1b8d6SLorenzo Stoakes * 158749b1b8d6SLorenzo Stoakes * No need of atomic instructions here, head.next 158849b1b8d6SLorenzo Stoakes * can't change from under us thanks to the 158949b1b8d6SLorenzo Stoakes * anon_vma->root->rwsem. 159049b1b8d6SLorenzo Stoakes */ 159149b1b8d6SLorenzo Stoakes if (__test_and_set_bit(0, (unsigned long *) 159249b1b8d6SLorenzo Stoakes &anon_vma->root->rb_root.rb_root.rb_node)) 159349b1b8d6SLorenzo Stoakes BUG(); 159449b1b8d6SLorenzo Stoakes } 159549b1b8d6SLorenzo Stoakes } 159649b1b8d6SLorenzo Stoakes 159749b1b8d6SLorenzo Stoakes static void vm_lock_mapping(struct mm_struct *mm, struct address_space *mapping) 159849b1b8d6SLorenzo Stoakes { 159949b1b8d6SLorenzo Stoakes if (!test_bit(AS_MM_ALL_LOCKS, &mapping->flags)) { 160049b1b8d6SLorenzo Stoakes /* 160149b1b8d6SLorenzo Stoakes * AS_MM_ALL_LOCKS can't change from under us because 160249b1b8d6SLorenzo Stoakes * we hold the mm_all_locks_mutex. 160349b1b8d6SLorenzo Stoakes * 160449b1b8d6SLorenzo Stoakes * Operations on ->flags have to be atomic because 160549b1b8d6SLorenzo Stoakes * even if AS_MM_ALL_LOCKS is stable thanks to the 160649b1b8d6SLorenzo Stoakes * mm_all_locks_mutex, there may be other cpus 160749b1b8d6SLorenzo Stoakes * changing other bitflags in parallel to us. 160849b1b8d6SLorenzo Stoakes */ 160949b1b8d6SLorenzo Stoakes if (test_and_set_bit(AS_MM_ALL_LOCKS, &mapping->flags)) 161049b1b8d6SLorenzo Stoakes BUG(); 161149b1b8d6SLorenzo Stoakes down_write_nest_lock(&mapping->i_mmap_rwsem, &mm->mmap_lock); 161249b1b8d6SLorenzo Stoakes } 161349b1b8d6SLorenzo Stoakes } 161449b1b8d6SLorenzo Stoakes 161549b1b8d6SLorenzo Stoakes /* 161649b1b8d6SLorenzo Stoakes * This operation locks against the VM for all pte/vma/mm related 161749b1b8d6SLorenzo Stoakes * operations that could ever happen on a certain mm. This includes 161849b1b8d6SLorenzo Stoakes * vmtruncate, try_to_unmap, and all page faults. 161949b1b8d6SLorenzo Stoakes * 162049b1b8d6SLorenzo Stoakes * The caller must take the mmap_lock in write mode before calling 162149b1b8d6SLorenzo Stoakes * mm_take_all_locks(). The caller isn't allowed to release the 162249b1b8d6SLorenzo Stoakes * mmap_lock until mm_drop_all_locks() returns. 162349b1b8d6SLorenzo Stoakes * 162449b1b8d6SLorenzo Stoakes * mmap_lock in write mode is required in order to block all operations 162549b1b8d6SLorenzo Stoakes * that could modify pagetables and free pages without need of 162649b1b8d6SLorenzo Stoakes * altering the vma layout. It's also needed in write mode to avoid new 162749b1b8d6SLorenzo Stoakes * anon_vmas to be associated with existing vmas. 162849b1b8d6SLorenzo Stoakes * 162949b1b8d6SLorenzo Stoakes * A single task can't take more than one mm_take_all_locks() in a row 163049b1b8d6SLorenzo Stoakes * or it would deadlock. 163149b1b8d6SLorenzo Stoakes * 163249b1b8d6SLorenzo Stoakes * The LSB in anon_vma->rb_root.rb_node and the AS_MM_ALL_LOCKS bitflag in 163349b1b8d6SLorenzo Stoakes * mapping->flags avoid to take the same lock twice, if more than one 163449b1b8d6SLorenzo Stoakes * vma in this mm is backed by the same anon_vma or address_space. 163549b1b8d6SLorenzo Stoakes * 163649b1b8d6SLorenzo Stoakes * We take locks in following order, accordingly to comment at beginning 163749b1b8d6SLorenzo Stoakes * of mm/rmap.c: 163849b1b8d6SLorenzo Stoakes * - all hugetlbfs_i_mmap_rwsem_key locks (aka mapping->i_mmap_rwsem for 163949b1b8d6SLorenzo Stoakes * hugetlb mapping); 164049b1b8d6SLorenzo Stoakes * - all vmas marked locked 164149b1b8d6SLorenzo Stoakes * - all i_mmap_rwsem locks; 164249b1b8d6SLorenzo Stoakes * - all anon_vma->rwseml 164349b1b8d6SLorenzo Stoakes * 164449b1b8d6SLorenzo Stoakes * We can take all locks within these types randomly because the VM code 164549b1b8d6SLorenzo Stoakes * doesn't nest them and we protected from parallel mm_take_all_locks() by 164649b1b8d6SLorenzo Stoakes * mm_all_locks_mutex. 164749b1b8d6SLorenzo Stoakes * 164849b1b8d6SLorenzo Stoakes * mm_take_all_locks() and mm_drop_all_locks are expensive operations 164949b1b8d6SLorenzo Stoakes * that may have to take thousand of locks. 165049b1b8d6SLorenzo Stoakes * 165149b1b8d6SLorenzo Stoakes * mm_take_all_locks() can fail if it's interrupted by signals. 165249b1b8d6SLorenzo Stoakes */ 165349b1b8d6SLorenzo Stoakes int mm_take_all_locks(struct mm_struct *mm) 165449b1b8d6SLorenzo Stoakes { 165549b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 165649b1b8d6SLorenzo Stoakes struct anon_vma_chain *avc; 165749b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, 0); 165849b1b8d6SLorenzo Stoakes 165949b1b8d6SLorenzo Stoakes mmap_assert_write_locked(mm); 166049b1b8d6SLorenzo Stoakes 166149b1b8d6SLorenzo Stoakes mutex_lock(&mm_all_locks_mutex); 166249b1b8d6SLorenzo Stoakes 166349b1b8d6SLorenzo Stoakes /* 166449b1b8d6SLorenzo Stoakes * vma_start_write() does not have a complement in mm_drop_all_locks() 166549b1b8d6SLorenzo Stoakes * because vma_start_write() is always asymmetrical; it marks a VMA as 166649b1b8d6SLorenzo Stoakes * being written to until mmap_write_unlock() or mmap_write_downgrade() 166749b1b8d6SLorenzo Stoakes * is reached. 166849b1b8d6SLorenzo Stoakes */ 166949b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 167049b1b8d6SLorenzo Stoakes if (signal_pending(current)) 167149b1b8d6SLorenzo Stoakes goto out_unlock; 167249b1b8d6SLorenzo Stoakes vma_start_write(vma); 167349b1b8d6SLorenzo Stoakes } 167449b1b8d6SLorenzo Stoakes 167549b1b8d6SLorenzo Stoakes vma_iter_init(&vmi, mm, 0); 167649b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 167749b1b8d6SLorenzo Stoakes if (signal_pending(current)) 167849b1b8d6SLorenzo Stoakes goto out_unlock; 167949b1b8d6SLorenzo Stoakes if (vma->vm_file && vma->vm_file->f_mapping && 168049b1b8d6SLorenzo Stoakes is_vm_hugetlb_page(vma)) 168149b1b8d6SLorenzo Stoakes vm_lock_mapping(mm, vma->vm_file->f_mapping); 168249b1b8d6SLorenzo Stoakes } 168349b1b8d6SLorenzo Stoakes 168449b1b8d6SLorenzo Stoakes vma_iter_init(&vmi, mm, 0); 168549b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 168649b1b8d6SLorenzo Stoakes if (signal_pending(current)) 168749b1b8d6SLorenzo Stoakes goto out_unlock; 168849b1b8d6SLorenzo Stoakes if (vma->vm_file && vma->vm_file->f_mapping && 168949b1b8d6SLorenzo Stoakes !is_vm_hugetlb_page(vma)) 169049b1b8d6SLorenzo Stoakes vm_lock_mapping(mm, vma->vm_file->f_mapping); 169149b1b8d6SLorenzo Stoakes } 169249b1b8d6SLorenzo Stoakes 169349b1b8d6SLorenzo Stoakes vma_iter_init(&vmi, mm, 0); 169449b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 169549b1b8d6SLorenzo Stoakes if (signal_pending(current)) 169649b1b8d6SLorenzo Stoakes goto out_unlock; 169749b1b8d6SLorenzo Stoakes if (vma->anon_vma) 169849b1b8d6SLorenzo Stoakes list_for_each_entry(avc, &vma->anon_vma_chain, same_vma) 169949b1b8d6SLorenzo Stoakes vm_lock_anon_vma(mm, avc->anon_vma); 170049b1b8d6SLorenzo Stoakes } 170149b1b8d6SLorenzo Stoakes 170249b1b8d6SLorenzo Stoakes return 0; 170349b1b8d6SLorenzo Stoakes 170449b1b8d6SLorenzo Stoakes out_unlock: 170549b1b8d6SLorenzo Stoakes mm_drop_all_locks(mm); 170649b1b8d6SLorenzo Stoakes return -EINTR; 170749b1b8d6SLorenzo Stoakes } 170849b1b8d6SLorenzo Stoakes 170949b1b8d6SLorenzo Stoakes static void vm_unlock_anon_vma(struct anon_vma *anon_vma) 171049b1b8d6SLorenzo Stoakes { 171149b1b8d6SLorenzo Stoakes if (test_bit(0, (unsigned long *) &anon_vma->root->rb_root.rb_root.rb_node)) { 171249b1b8d6SLorenzo Stoakes /* 171349b1b8d6SLorenzo Stoakes * The LSB of head.next can't change to 0 from under 171449b1b8d6SLorenzo Stoakes * us because we hold the mm_all_locks_mutex. 171549b1b8d6SLorenzo Stoakes * 171649b1b8d6SLorenzo Stoakes * We must however clear the bitflag before unlocking 171749b1b8d6SLorenzo Stoakes * the vma so the users using the anon_vma->rb_root will 171849b1b8d6SLorenzo Stoakes * never see our bitflag. 171949b1b8d6SLorenzo Stoakes * 172049b1b8d6SLorenzo Stoakes * No need of atomic instructions here, head.next 172149b1b8d6SLorenzo Stoakes * can't change from under us until we release the 172249b1b8d6SLorenzo Stoakes * anon_vma->root->rwsem. 172349b1b8d6SLorenzo Stoakes */ 172449b1b8d6SLorenzo Stoakes if (!__test_and_clear_bit(0, (unsigned long *) 172549b1b8d6SLorenzo Stoakes &anon_vma->root->rb_root.rb_root.rb_node)) 172649b1b8d6SLorenzo Stoakes BUG(); 172749b1b8d6SLorenzo Stoakes anon_vma_unlock_write(anon_vma); 172849b1b8d6SLorenzo Stoakes } 172949b1b8d6SLorenzo Stoakes } 173049b1b8d6SLorenzo Stoakes 173149b1b8d6SLorenzo Stoakes static void vm_unlock_mapping(struct address_space *mapping) 173249b1b8d6SLorenzo Stoakes { 173349b1b8d6SLorenzo Stoakes if (test_bit(AS_MM_ALL_LOCKS, &mapping->flags)) { 173449b1b8d6SLorenzo Stoakes /* 173549b1b8d6SLorenzo Stoakes * AS_MM_ALL_LOCKS can't change to 0 from under us 173649b1b8d6SLorenzo Stoakes * because we hold the mm_all_locks_mutex. 173749b1b8d6SLorenzo Stoakes */ 173849b1b8d6SLorenzo Stoakes i_mmap_unlock_write(mapping); 173949b1b8d6SLorenzo Stoakes if (!test_and_clear_bit(AS_MM_ALL_LOCKS, 174049b1b8d6SLorenzo Stoakes &mapping->flags)) 174149b1b8d6SLorenzo Stoakes BUG(); 174249b1b8d6SLorenzo Stoakes } 174349b1b8d6SLorenzo Stoakes } 174449b1b8d6SLorenzo Stoakes 174549b1b8d6SLorenzo Stoakes /* 174649b1b8d6SLorenzo Stoakes * The mmap_lock cannot be released by the caller until 174749b1b8d6SLorenzo Stoakes * mm_drop_all_locks() returns. 174849b1b8d6SLorenzo Stoakes */ 174949b1b8d6SLorenzo Stoakes void mm_drop_all_locks(struct mm_struct *mm) 175049b1b8d6SLorenzo Stoakes { 175149b1b8d6SLorenzo Stoakes struct vm_area_struct *vma; 175249b1b8d6SLorenzo Stoakes struct anon_vma_chain *avc; 175349b1b8d6SLorenzo Stoakes VMA_ITERATOR(vmi, mm, 0); 175449b1b8d6SLorenzo Stoakes 175549b1b8d6SLorenzo Stoakes mmap_assert_write_locked(mm); 175649b1b8d6SLorenzo Stoakes BUG_ON(!mutex_is_locked(&mm_all_locks_mutex)); 175749b1b8d6SLorenzo Stoakes 175849b1b8d6SLorenzo Stoakes for_each_vma(vmi, vma) { 175949b1b8d6SLorenzo Stoakes if (vma->anon_vma) 176049b1b8d6SLorenzo Stoakes list_for_each_entry(avc, &vma->anon_vma_chain, same_vma) 176149b1b8d6SLorenzo Stoakes vm_unlock_anon_vma(avc->anon_vma); 176249b1b8d6SLorenzo Stoakes if (vma->vm_file && vma->vm_file->f_mapping) 176349b1b8d6SLorenzo Stoakes vm_unlock_mapping(vma->vm_file->f_mapping); 176449b1b8d6SLorenzo Stoakes } 176549b1b8d6SLorenzo Stoakes 176649b1b8d6SLorenzo Stoakes mutex_unlock(&mm_all_locks_mutex); 176749b1b8d6SLorenzo Stoakes } 1768