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137d3edb48
This is alternative implementation of sg content iterator introduced by commit 83e7d317... from Pierre Ossman in next-20080716. As there's already an sg iterator which iterates over sg entries themselves, name this sg_mapping_iterator. Slightly edited description from the original implementation follows. Iteration over a sg list is not that trivial when you take into account that memory pages might have to be mapped before being used. Unfortunately, that means that some parts of the kernel restrict themselves to directly accesible memory just to not have to deal with the mess. This patch adds a simple iterator system that allows any code to easily traverse an sg list and not have to deal with all the details. The user can decide to consume part of the iteration. Also, iteration can be stopped and resumed later if releasing the kmap between iteration steps is necessary. These features are useful to implement piecemeal sg copying for interrupt drive PIO for example. Signed-off-by: Tejun Heo <tj@kernel.org> Signed-off-by: Pierre Ossman <drzeus@drzeus.cx>
481 lines
12 KiB
C
481 lines
12 KiB
C
/*
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* Copyright (C) 2007 Jens Axboe <jens.axboe@oracle.com>
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*
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* Scatterlist handling helpers.
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*
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* This source code is licensed under the GNU General Public License,
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* Version 2. See the file COPYING for more details.
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*/
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#include <linux/module.h>
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#include <linux/scatterlist.h>
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#include <linux/highmem.h>
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/**
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* sg_next - return the next scatterlist entry in a list
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* @sg: The current sg entry
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*
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* Description:
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* Usually the next entry will be @sg@ + 1, but if this sg element is part
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* of a chained scatterlist, it could jump to the start of a new
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* scatterlist array.
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*
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**/
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struct scatterlist *sg_next(struct scatterlist *sg)
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{
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#ifdef CONFIG_DEBUG_SG
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BUG_ON(sg->sg_magic != SG_MAGIC);
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#endif
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if (sg_is_last(sg))
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return NULL;
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sg++;
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if (unlikely(sg_is_chain(sg)))
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sg = sg_chain_ptr(sg);
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return sg;
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}
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EXPORT_SYMBOL(sg_next);
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/**
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* sg_last - return the last scatterlist entry in a list
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* @sgl: First entry in the scatterlist
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* @nents: Number of entries in the scatterlist
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*
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* Description:
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* Should only be used casually, it (currently) scans the entire list
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* to get the last entry.
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*
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* Note that the @sgl@ pointer passed in need not be the first one,
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* the important bit is that @nents@ denotes the number of entries that
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* exist from @sgl@.
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*
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**/
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struct scatterlist *sg_last(struct scatterlist *sgl, unsigned int nents)
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{
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#ifndef ARCH_HAS_SG_CHAIN
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struct scatterlist *ret = &sgl[nents - 1];
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#else
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struct scatterlist *sg, *ret = NULL;
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unsigned int i;
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for_each_sg(sgl, sg, nents, i)
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ret = sg;
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#endif
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#ifdef CONFIG_DEBUG_SG
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BUG_ON(sgl[0].sg_magic != SG_MAGIC);
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BUG_ON(!sg_is_last(ret));
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#endif
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return ret;
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}
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EXPORT_SYMBOL(sg_last);
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/**
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* sg_init_table - Initialize SG table
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* @sgl: The SG table
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* @nents: Number of entries in table
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*
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* Notes:
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* If this is part of a chained sg table, sg_mark_end() should be
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* used only on the last table part.
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*
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**/
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void sg_init_table(struct scatterlist *sgl, unsigned int nents)
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{
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memset(sgl, 0, sizeof(*sgl) * nents);
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#ifdef CONFIG_DEBUG_SG
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{
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unsigned int i;
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for (i = 0; i < nents; i++)
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sgl[i].sg_magic = SG_MAGIC;
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}
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#endif
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sg_mark_end(&sgl[nents - 1]);
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}
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EXPORT_SYMBOL(sg_init_table);
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/**
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* sg_init_one - Initialize a single entry sg list
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* @sg: SG entry
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* @buf: Virtual address for IO
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* @buflen: IO length
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*
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**/
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void sg_init_one(struct scatterlist *sg, const void *buf, unsigned int buflen)
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{
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sg_init_table(sg, 1);
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sg_set_buf(sg, buf, buflen);
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}
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EXPORT_SYMBOL(sg_init_one);
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/*
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* The default behaviour of sg_alloc_table() is to use these kmalloc/kfree
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* helpers.
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*/
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static struct scatterlist *sg_kmalloc(unsigned int nents, gfp_t gfp_mask)
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{
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if (nents == SG_MAX_SINGLE_ALLOC)
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return (struct scatterlist *) __get_free_page(gfp_mask);
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else
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return kmalloc(nents * sizeof(struct scatterlist), gfp_mask);
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}
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static void sg_kfree(struct scatterlist *sg, unsigned int nents)
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{
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if (nents == SG_MAX_SINGLE_ALLOC)
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free_page((unsigned long) sg);
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else
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kfree(sg);
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}
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/**
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* __sg_free_table - Free a previously mapped sg table
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* @table: The sg table header to use
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* @max_ents: The maximum number of entries per single scatterlist
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* @free_fn: Free function
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*
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* Description:
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* Free an sg table previously allocated and setup with
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* __sg_alloc_table(). The @max_ents value must be identical to
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* that previously used with __sg_alloc_table().
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*
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**/
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void __sg_free_table(struct sg_table *table, unsigned int max_ents,
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sg_free_fn *free_fn)
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{
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struct scatterlist *sgl, *next;
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if (unlikely(!table->sgl))
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return;
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sgl = table->sgl;
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while (table->orig_nents) {
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unsigned int alloc_size = table->orig_nents;
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unsigned int sg_size;
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/*
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* If we have more than max_ents segments left,
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* then assign 'next' to the sg table after the current one.
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* sg_size is then one less than alloc size, since the last
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* element is the chain pointer.
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*/
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if (alloc_size > max_ents) {
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next = sg_chain_ptr(&sgl[max_ents - 1]);
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alloc_size = max_ents;
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sg_size = alloc_size - 1;
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} else {
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sg_size = alloc_size;
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next = NULL;
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}
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table->orig_nents -= sg_size;
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free_fn(sgl, alloc_size);
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sgl = next;
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}
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table->sgl = NULL;
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}
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EXPORT_SYMBOL(__sg_free_table);
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/**
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* sg_free_table - Free a previously allocated sg table
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* @table: The mapped sg table header
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*
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**/
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void sg_free_table(struct sg_table *table)
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{
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__sg_free_table(table, SG_MAX_SINGLE_ALLOC, sg_kfree);
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}
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EXPORT_SYMBOL(sg_free_table);
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/**
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* __sg_alloc_table - Allocate and initialize an sg table with given allocator
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* @table: The sg table header to use
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* @nents: Number of entries in sg list
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* @max_ents: The maximum number of entries the allocator returns per call
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* @gfp_mask: GFP allocation mask
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* @alloc_fn: Allocator to use
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*
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* Description:
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* This function returns a @table @nents long. The allocator is
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* defined to return scatterlist chunks of maximum size @max_ents.
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* Thus if @nents is bigger than @max_ents, the scatterlists will be
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* chained in units of @max_ents.
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*
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* Notes:
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* If this function returns non-0 (eg failure), the caller must call
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* __sg_free_table() to cleanup any leftover allocations.
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*
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**/
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int __sg_alloc_table(struct sg_table *table, unsigned int nents,
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unsigned int max_ents, gfp_t gfp_mask,
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sg_alloc_fn *alloc_fn)
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{
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struct scatterlist *sg, *prv;
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unsigned int left;
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#ifndef ARCH_HAS_SG_CHAIN
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BUG_ON(nents > max_ents);
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#endif
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memset(table, 0, sizeof(*table));
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left = nents;
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prv = NULL;
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do {
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unsigned int sg_size, alloc_size = left;
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if (alloc_size > max_ents) {
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alloc_size = max_ents;
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sg_size = alloc_size - 1;
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} else
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sg_size = alloc_size;
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left -= sg_size;
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sg = alloc_fn(alloc_size, gfp_mask);
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if (unlikely(!sg))
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return -ENOMEM;
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sg_init_table(sg, alloc_size);
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table->nents = table->orig_nents += sg_size;
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/*
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* If this is the first mapping, assign the sg table header.
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* If this is not the first mapping, chain previous part.
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*/
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if (prv)
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sg_chain(prv, max_ents, sg);
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else
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table->sgl = sg;
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/*
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* If no more entries after this one, mark the end
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*/
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if (!left)
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sg_mark_end(&sg[sg_size - 1]);
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/*
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* only really needed for mempool backed sg allocations (like
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* SCSI), a possible improvement here would be to pass the
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* table pointer into the allocator and let that clear these
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* flags
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*/
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gfp_mask &= ~__GFP_WAIT;
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gfp_mask |= __GFP_HIGH;
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prv = sg;
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} while (left);
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return 0;
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}
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EXPORT_SYMBOL(__sg_alloc_table);
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/**
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* sg_alloc_table - Allocate and initialize an sg table
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* @table: The sg table header to use
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* @nents: Number of entries in sg list
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* @gfp_mask: GFP allocation mask
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*
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* Description:
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* Allocate and initialize an sg table. If @nents@ is larger than
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* SG_MAX_SINGLE_ALLOC a chained sg table will be setup.
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*
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**/
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int sg_alloc_table(struct sg_table *table, unsigned int nents, gfp_t gfp_mask)
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{
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int ret;
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ret = __sg_alloc_table(table, nents, SG_MAX_SINGLE_ALLOC,
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gfp_mask, sg_kmalloc);
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if (unlikely(ret))
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__sg_free_table(table, SG_MAX_SINGLE_ALLOC, sg_kfree);
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return ret;
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}
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EXPORT_SYMBOL(sg_alloc_table);
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/**
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* sg_miter_start - start mapping iteration over a sg list
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* @miter: sg mapping iter to be started
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* @sgl: sg list to iterate over
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* @nents: number of sg entries
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*
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* Description:
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* Starts mapping iterator @miter.
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*
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* Context:
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* Don't care.
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*/
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void sg_miter_start(struct sg_mapping_iter *miter, struct scatterlist *sgl,
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unsigned int nents, unsigned int flags)
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{
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memset(miter, 0, sizeof(struct sg_mapping_iter));
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miter->__sg = sgl;
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miter->__nents = nents;
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miter->__offset = 0;
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miter->__flags = flags;
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}
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EXPORT_SYMBOL(sg_miter_start);
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/**
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* sg_miter_next - proceed mapping iterator to the next mapping
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* @miter: sg mapping iter to proceed
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*
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* Description:
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* Proceeds @miter@ to the next mapping. @miter@ should have been
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* started using sg_miter_start(). On successful return,
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* @miter@->page, @miter@->addr and @miter@->length point to the
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* current mapping.
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*
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* Context:
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* IRQ disabled if SG_MITER_ATOMIC. IRQ must stay disabled till
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* @miter@ is stopped. May sleep if !SG_MITER_ATOMIC.
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*
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* Returns:
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* true if @miter contains the next mapping. false if end of sg
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* list is reached.
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*/
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bool sg_miter_next(struct sg_mapping_iter *miter)
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{
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unsigned int off, len;
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/* check for end and drop resources from the last iteration */
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if (!miter->__nents)
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return false;
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sg_miter_stop(miter);
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/* get to the next sg if necessary. __offset is adjusted by stop */
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if (miter->__offset == miter->__sg->length && --miter->__nents) {
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miter->__sg = sg_next(miter->__sg);
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miter->__offset = 0;
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}
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/* map the next page */
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off = miter->__sg->offset + miter->__offset;
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len = miter->__sg->length - miter->__offset;
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miter->page = nth_page(sg_page(miter->__sg), off >> PAGE_SHIFT);
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off &= ~PAGE_MASK;
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miter->length = min_t(unsigned int, len, PAGE_SIZE - off);
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miter->consumed = miter->length;
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if (miter->__flags & SG_MITER_ATOMIC)
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miter->addr = kmap_atomic(miter->page, KM_BIO_SRC_IRQ) + off;
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else
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miter->addr = kmap(miter->page) + off;
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return true;
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}
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EXPORT_SYMBOL(sg_miter_next);
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/**
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* sg_miter_stop - stop mapping iteration
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* @miter: sg mapping iter to be stopped
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*
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* Description:
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* Stops mapping iterator @miter. @miter should have been started
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* started using sg_miter_start(). A stopped iteration can be
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* resumed by calling sg_miter_next() on it. This is useful when
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* resources (kmap) need to be released during iteration.
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*
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* Context:
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* IRQ disabled if the SG_MITER_ATOMIC is set. Don't care otherwise.
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*/
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void sg_miter_stop(struct sg_mapping_iter *miter)
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{
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WARN_ON(miter->consumed > miter->length);
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/* drop resources from the last iteration */
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if (miter->addr) {
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miter->__offset += miter->consumed;
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if (miter->__flags & SG_MITER_ATOMIC) {
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WARN_ON(!irqs_disabled());
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kunmap_atomic(miter->addr, KM_BIO_SRC_IRQ);
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} else
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kunmap(miter->addr);
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miter->page = NULL;
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miter->addr = NULL;
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miter->length = 0;
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miter->consumed = 0;
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}
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}
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EXPORT_SYMBOL(sg_miter_stop);
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/**
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* sg_copy_buffer - Copy data between a linear buffer and an SG list
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* @sgl: The SG list
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* @nents: Number of SG entries
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* @buf: Where to copy from
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* @buflen: The number of bytes to copy
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* @to_buffer: transfer direction (non zero == from an sg list to a
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* buffer, 0 == from a buffer to an sg list
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*
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* Returns the number of copied bytes.
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*
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**/
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static size_t sg_copy_buffer(struct scatterlist *sgl, unsigned int nents,
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void *buf, size_t buflen, int to_buffer)
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{
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unsigned int offset = 0;
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struct sg_mapping_iter miter;
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sg_miter_start(&miter, sgl, nents, SG_MITER_ATOMIC);
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while (sg_miter_next(&miter) && offset < buflen) {
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unsigned int len;
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len = min(miter.length, buflen - offset);
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if (to_buffer)
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memcpy(buf + offset, miter.addr, len);
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else {
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memcpy(miter.addr, buf + offset, len);
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flush_kernel_dcache_page(miter.page);
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}
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offset += len;
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}
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sg_miter_stop(&miter);
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return offset;
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}
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/**
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* sg_copy_from_buffer - Copy from a linear buffer to an SG list
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* @sgl: The SG list
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* @nents: Number of SG entries
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* @buf: Where to copy from
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* @buflen: The number of bytes to copy
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*
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* Returns the number of copied bytes.
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*
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**/
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size_t sg_copy_from_buffer(struct scatterlist *sgl, unsigned int nents,
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void *buf, size_t buflen)
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{
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return sg_copy_buffer(sgl, nents, buf, buflen, 0);
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}
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EXPORT_SYMBOL(sg_copy_from_buffer);
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/**
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* sg_copy_to_buffer - Copy from an SG list to a linear buffer
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* @sgl: The SG list
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* @nents: Number of SG entries
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* @buf: Where to copy to
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* @buflen: The number of bytes to copy
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*
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* Returns the number of copied bytes.
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*
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**/
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size_t sg_copy_to_buffer(struct scatterlist *sgl, unsigned int nents,
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void *buf, size_t buflen)
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{
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return sg_copy_buffer(sgl, nents, buf, buflen, 1);
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}
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EXPORT_SYMBOL(sg_copy_to_buffer);
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