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The new facility adds a bunch of wrappers that abstract how an IOVA range is represented in a bitmap that is granulated by a given page_size. So it translates all the lifting of dealing with user pointers into its corresponding kernel addresses backing said user memory into doing finally the (non-atomic) bitmap ops to change various bits. The formula for the bitmap is: data[(iova / page_size) / 64] & (1ULL << (iova % 64)) Where 64 is the number of bits in a unsigned long (depending on arch) It introduces an IOVA iterator that uses a windowing scheme to minimize the pinning overhead, as opposed to pinning it on demand 4K at a time. Assuming a 4K kernel page and 4K requested page size, we can use a single kernel page to hold 512 page pointers, mapping 2M of bitmap, representing 64G of IOVA space. An example usage of these helpers for a given @base_iova, @page_size, @length and __user @data: bitmap = iova_bitmap_alloc(base_iova, page_size, length, data); if (IS_ERR(bitmap)) return -ENOMEM; ret = iova_bitmap_for_each(bitmap, arg, dirty_reporter_fn); iova_bitmap_free(bitmap); Each iteration of the @dirty_reporter_fn is called with a unique @iova and @length argument, indicating the current range available through the iova_bitmap. The @dirty_reporter_fn uses iova_bitmap_set() to mark dirty areas (@iova_length) within that provided range, as following: iova_bitmap_set(bitmap, iova, iova_length); The facility is intended to be used for user bitmaps representing dirtied IOVAs by IOMMU (via IOMMUFD) and PCI Devices (via vfio-pci). Signed-off-by: Joao Martins <joao.m.martins@oracle.com> Signed-off-by: Yishai Hadas <yishaih@nvidia.com> Link: https://lore.kernel.org/r/20220908183448.195262-5-yishaih@nvidia.com Signed-off-by: Alex Williamson <alex.williamson@redhat.com>
423 lines
12 KiB
C
423 lines
12 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (c) 2022, Oracle and/or its affiliates.
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* Copyright (c) 2022, NVIDIA CORPORATION & AFFILIATES. All rights reserved
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*/
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#include <linux/iova_bitmap.h>
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#include <linux/mm.h>
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#include <linux/highmem.h>
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#define BITS_PER_PAGE (PAGE_SIZE * BITS_PER_BYTE)
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/*
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* struct iova_bitmap_map - A bitmap representing an IOVA range
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*
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* Main data structure for tracking mapped user pages of bitmap data.
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*
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* For example, for something recording dirty IOVAs, it will be provided a
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* struct iova_bitmap structure, as a general structure for iterating the
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* total IOVA range. The struct iova_bitmap_map, though, represents the
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* subset of said IOVA space that is pinned by its parent structure (struct
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* iova_bitmap).
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*
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* The user does not need to exact location of the bits in the bitmap.
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* From user perspective the only API available is iova_bitmap_set() which
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* records the IOVA *range* in the bitmap by setting the corresponding
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* bits.
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*
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* The bitmap is an array of u64 whereas each bit represents an IOVA of
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* range of (1 << pgshift). Thus formula for the bitmap data to be set is:
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*
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* data[(iova / page_size) / 64] & (1ULL << (iova % 64))
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*/
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struct iova_bitmap_map {
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/* base IOVA representing bit 0 of the first page */
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unsigned long iova;
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/* page size order that each bit granules to */
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unsigned long pgshift;
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/* page offset of the first user page pinned */
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unsigned long pgoff;
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/* number of pages pinned */
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unsigned long npages;
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/* pinned pages representing the bitmap data */
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struct page **pages;
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};
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/*
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* struct iova_bitmap - The IOVA bitmap object
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*
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* Main data structure for iterating over the bitmap data.
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*
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* Abstracts the pinning work and iterates in IOVA ranges.
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* It uses a windowing scheme and pins the bitmap in relatively
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* big ranges e.g.
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*
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* The bitmap object uses one base page to store all the pinned pages
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* pointers related to the bitmap. For sizeof(struct page*) == 8 it stores
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* 512 struct page pointers which, if the base page size is 4K, it means
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* 2M of bitmap data is pinned at a time. If the iova_bitmap page size is
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* also 4K then the range window to iterate is 64G.
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*
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* For example iterating on a total IOVA range of 4G..128G, it will walk
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* through this set of ranges:
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*
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* 4G - 68G-1 (64G)
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* 68G - 128G-1 (64G)
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*
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* An example of the APIs on how to use/iterate over the IOVA bitmap:
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*
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* bitmap = iova_bitmap_alloc(iova, length, page_size, data);
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* if (IS_ERR(bitmap))
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* return PTR_ERR(bitmap);
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*
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* ret = iova_bitmap_for_each(bitmap, arg, dirty_reporter_fn);
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*
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* iova_bitmap_free(bitmap);
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*
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* Each iteration of the @dirty_reporter_fn is called with a unique @iova
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* and @length argument, indicating the current range available through the
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* iova_bitmap. The @dirty_reporter_fn uses iova_bitmap_set() to mark dirty
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* areas (@iova_length) within that provided range, as following:
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*
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* iova_bitmap_set(bitmap, iova, iova_length);
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*
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* The internals of the object uses an index @mapped_base_index that indexes
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* which u64 word of the bitmap is mapped, up to @mapped_total_index.
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* Those keep being incremented until @mapped_total_index is reached while
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* mapping up to PAGE_SIZE / sizeof(struct page*) maximum of pages.
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*
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* The IOVA bitmap is usually located on what tracks DMA mapped ranges or
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* some form of IOVA range tracking that co-relates to the user passed
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* bitmap.
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*/
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struct iova_bitmap {
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/* IOVA range representing the currently mapped bitmap data */
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struct iova_bitmap_map mapped;
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/* userspace address of the bitmap */
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u64 __user *bitmap;
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/* u64 index that @mapped points to */
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unsigned long mapped_base_index;
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/* how many u64 can we walk in total */
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unsigned long mapped_total_index;
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/* base IOVA of the whole bitmap */
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unsigned long iova;
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/* length of the IOVA range for the whole bitmap */
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size_t length;
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};
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/*
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* Converts a relative IOVA to a bitmap index.
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* This function provides the index into the u64 array (bitmap::bitmap)
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* for a given IOVA offset.
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* Relative IOVA means relative to the bitmap::mapped base IOVA
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* (stored in mapped::iova). All computations in this file are done using
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* relative IOVAs and thus avoid an extra subtraction against mapped::iova.
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* The user API iova_bitmap_set() always uses a regular absolute IOVAs.
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*/
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static unsigned long iova_bitmap_offset_to_index(struct iova_bitmap *bitmap,
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unsigned long iova)
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{
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unsigned long pgsize = 1 << bitmap->mapped.pgshift;
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return iova / (BITS_PER_TYPE(*bitmap->bitmap) * pgsize);
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}
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/*
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* Converts a bitmap index to a *relative* IOVA.
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*/
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static unsigned long iova_bitmap_index_to_offset(struct iova_bitmap *bitmap,
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unsigned long index)
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{
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unsigned long pgshift = bitmap->mapped.pgshift;
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return (index * BITS_PER_TYPE(*bitmap->bitmap)) << pgshift;
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}
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/*
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* Returns the base IOVA of the mapped range.
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*/
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static unsigned long iova_bitmap_mapped_iova(struct iova_bitmap *bitmap)
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{
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unsigned long skip = bitmap->mapped_base_index;
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return bitmap->iova + iova_bitmap_index_to_offset(bitmap, skip);
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}
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/*
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* Pins the bitmap user pages for the current range window.
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* This is internal to IOVA bitmap and called when advancing the
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* index (@mapped_base_index) or allocating the bitmap.
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*/
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static int iova_bitmap_get(struct iova_bitmap *bitmap)
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{
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struct iova_bitmap_map *mapped = &bitmap->mapped;
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unsigned long npages;
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u64 __user *addr;
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long ret;
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/*
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* @mapped_base_index is the index of the currently mapped u64 words
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* that we have access. Anything before @mapped_base_index is not
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* mapped. The range @mapped_base_index .. @mapped_total_index-1 is
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* mapped but capped at a maximum number of pages.
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*/
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npages = DIV_ROUND_UP((bitmap->mapped_total_index -
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bitmap->mapped_base_index) *
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sizeof(*bitmap->bitmap), PAGE_SIZE);
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/*
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* We always cap at max number of 'struct page' a base page can fit.
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* This is, for example, on x86 means 2M of bitmap data max.
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*/
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npages = min(npages, PAGE_SIZE / sizeof(struct page *));
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/*
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* Bitmap address to be pinned is calculated via pointer arithmetic
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* with bitmap u64 word index.
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*/
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addr = bitmap->bitmap + bitmap->mapped_base_index;
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ret = pin_user_pages_fast((unsigned long)addr, npages,
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FOLL_WRITE, mapped->pages);
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if (ret <= 0)
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return -EFAULT;
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mapped->npages = (unsigned long)ret;
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/* Base IOVA where @pages point to i.e. bit 0 of the first page */
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mapped->iova = iova_bitmap_mapped_iova(bitmap);
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/*
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* offset of the page where pinned pages bit 0 is located.
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* This handles the case where the bitmap is not PAGE_SIZE
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* aligned.
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*/
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mapped->pgoff = offset_in_page(addr);
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return 0;
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}
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/*
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* Unpins the bitmap user pages and clears @npages
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* (un)pinning is abstracted from API user and it's done when advancing
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* the index or freeing the bitmap.
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*/
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static void iova_bitmap_put(struct iova_bitmap *bitmap)
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{
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struct iova_bitmap_map *mapped = &bitmap->mapped;
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if (mapped->npages) {
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unpin_user_pages(mapped->pages, mapped->npages);
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mapped->npages = 0;
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}
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}
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/**
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* iova_bitmap_alloc() - Allocates an IOVA bitmap object
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* @iova: Start address of the IOVA range
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* @length: Length of the IOVA range
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* @page_size: Page size of the IOVA bitmap. It defines what each bit
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* granularity represents
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* @data: Userspace address of the bitmap
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*
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* Allocates an IOVA object and initializes all its fields including the
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* first user pages of @data.
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*
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* Return: A pointer to a newly allocated struct iova_bitmap
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* or ERR_PTR() on error.
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*/
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struct iova_bitmap *iova_bitmap_alloc(unsigned long iova, size_t length,
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unsigned long page_size, u64 __user *data)
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{
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struct iova_bitmap_map *mapped;
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struct iova_bitmap *bitmap;
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int rc;
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bitmap = kzalloc(sizeof(*bitmap), GFP_KERNEL);
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if (!bitmap)
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return ERR_PTR(-ENOMEM);
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mapped = &bitmap->mapped;
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mapped->pgshift = __ffs(page_size);
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bitmap->bitmap = data;
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bitmap->mapped_total_index =
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iova_bitmap_offset_to_index(bitmap, length - 1) + 1;
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bitmap->iova = iova;
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bitmap->length = length;
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mapped->iova = iova;
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mapped->pages = (struct page **)__get_free_page(GFP_KERNEL);
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if (!mapped->pages) {
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rc = -ENOMEM;
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goto err;
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}
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rc = iova_bitmap_get(bitmap);
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if (rc)
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goto err;
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return bitmap;
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err:
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iova_bitmap_free(bitmap);
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return ERR_PTR(rc);
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}
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/**
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* iova_bitmap_free() - Frees an IOVA bitmap object
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* @bitmap: IOVA bitmap to free
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*
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* It unpins and releases pages array memory and clears any leftover
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* state.
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*/
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void iova_bitmap_free(struct iova_bitmap *bitmap)
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{
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struct iova_bitmap_map *mapped = &bitmap->mapped;
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iova_bitmap_put(bitmap);
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if (mapped->pages) {
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free_page((unsigned long)mapped->pages);
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mapped->pages = NULL;
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}
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kfree(bitmap);
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}
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/*
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* Returns the remaining bitmap indexes from mapped_total_index to process for
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* the currently pinned bitmap pages.
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*/
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static unsigned long iova_bitmap_mapped_remaining(struct iova_bitmap *bitmap)
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{
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unsigned long remaining;
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remaining = bitmap->mapped_total_index - bitmap->mapped_base_index;
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remaining = min_t(unsigned long, remaining,
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(bitmap->mapped.npages << PAGE_SHIFT) / sizeof(*bitmap->bitmap));
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return remaining;
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}
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/*
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* Returns the length of the mapped IOVA range.
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*/
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static unsigned long iova_bitmap_mapped_length(struct iova_bitmap *bitmap)
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{
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unsigned long max_iova = bitmap->iova + bitmap->length - 1;
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unsigned long iova = iova_bitmap_mapped_iova(bitmap);
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unsigned long remaining;
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/*
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* iova_bitmap_mapped_remaining() returns a number of indexes which
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* when converted to IOVA gives us a max length that the bitmap
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* pinned data can cover. Afterwards, that is capped to
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* only cover the IOVA range in @bitmap::iova .. @bitmap::length.
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*/
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remaining = iova_bitmap_index_to_offset(bitmap,
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iova_bitmap_mapped_remaining(bitmap));
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if (iova + remaining - 1 > max_iova)
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remaining -= ((iova + remaining - 1) - max_iova);
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return remaining;
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}
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/*
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* Returns true if there's not more data to iterate.
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*/
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static bool iova_bitmap_done(struct iova_bitmap *bitmap)
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{
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return bitmap->mapped_base_index >= bitmap->mapped_total_index;
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}
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/*
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* Advances to the next range, releases the current pinned
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* pages and pins the next set of bitmap pages.
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* Returns 0 on success or otherwise errno.
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*/
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static int iova_bitmap_advance(struct iova_bitmap *bitmap)
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{
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unsigned long iova = iova_bitmap_mapped_length(bitmap) - 1;
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unsigned long count = iova_bitmap_offset_to_index(bitmap, iova) + 1;
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bitmap->mapped_base_index += count;
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iova_bitmap_put(bitmap);
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if (iova_bitmap_done(bitmap))
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return 0;
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/* When advancing the index we pin the next set of bitmap pages */
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return iova_bitmap_get(bitmap);
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}
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/**
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* iova_bitmap_for_each() - Iterates over the bitmap
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* @bitmap: IOVA bitmap to iterate
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* @opaque: Additional argument to pass to the callback
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* @fn: Function that gets called for each IOVA range
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*
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* Helper function to iterate over bitmap data representing a portion of IOVA
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* space. It hides the complexity of iterating bitmaps and translating the
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* mapped bitmap user pages into IOVA ranges to process.
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*
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* Return: 0 on success, and an error on failure either upon
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* iteration or when the callback returns an error.
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*/
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int iova_bitmap_for_each(struct iova_bitmap *bitmap, void *opaque,
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iova_bitmap_fn_t fn)
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{
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int ret = 0;
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for (; !iova_bitmap_done(bitmap) && !ret;
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ret = iova_bitmap_advance(bitmap)) {
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ret = fn(bitmap, iova_bitmap_mapped_iova(bitmap),
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iova_bitmap_mapped_length(bitmap), opaque);
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if (ret)
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break;
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}
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return ret;
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}
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/**
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* iova_bitmap_set() - Records an IOVA range in bitmap
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* @bitmap: IOVA bitmap
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* @iova: IOVA to start
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* @length: IOVA range length
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*
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* Set the bits corresponding to the range [iova .. iova+length-1] in
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* the user bitmap.
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*
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* Return: The number of bits set.
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*/
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void iova_bitmap_set(struct iova_bitmap *bitmap,
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unsigned long iova, size_t length)
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{
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struct iova_bitmap_map *mapped = &bitmap->mapped;
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unsigned long offset = (iova - mapped->iova) >> mapped->pgshift;
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unsigned long nbits = max_t(unsigned long, 1, length >> mapped->pgshift);
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unsigned long page_idx = offset / BITS_PER_PAGE;
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unsigned long page_offset = mapped->pgoff;
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void *kaddr;
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offset = offset % BITS_PER_PAGE;
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do {
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unsigned long size = min(BITS_PER_PAGE - offset, nbits);
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kaddr = kmap_local_page(mapped->pages[page_idx]);
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bitmap_set(kaddr + page_offset, offset, size);
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kunmap_local(kaddr);
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page_offset = offset = 0;
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nbits -= size;
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page_idx++;
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} while (nbits > 0);
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}
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EXPORT_SYMBOL_GPL(iova_bitmap_set);
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