61da836257
Updated copyright to 2022 and update base code version. Signed-off-by: Paul M Stillwell Jr <paul.m.stillwell.jr@intel.com> Signed-off-by: Qi Zhang <qi.z.zhang@intel.com> Acked-by: Qiming Yang <qiming.yang@intel.com>
501 lines
14 KiB
C
501 lines
14 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2001-2022 Intel Corporation
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*/
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#ifndef _ICE_BITOPS_H_
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#define _ICE_BITOPS_H_
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#include "ice_defs.h"
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#include "ice_osdep.h"
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/* Define the size of the bitmap chunk */
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typedef u32 ice_bitmap_t;
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/* Number of bits per bitmap chunk */
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#define BITS_PER_CHUNK (BITS_PER_BYTE * sizeof(ice_bitmap_t))
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/* Determine which chunk a bit belongs in */
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#define BIT_CHUNK(nr) ((nr) / BITS_PER_CHUNK)
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/* How many chunks are required to store this many bits */
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#define BITS_TO_CHUNKS(sz) (((sz) + BITS_PER_CHUNK - 1) / BITS_PER_CHUNK)
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/* Which bit inside a chunk this bit corresponds to */
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#define BIT_IN_CHUNK(nr) ((nr) % BITS_PER_CHUNK)
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/* How many bits are valid in the last chunk, assumes nr > 0 */
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#define LAST_CHUNK_BITS(nr) ((((nr) - 1) % BITS_PER_CHUNK) + 1)
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/* Generate a bitmask of valid bits in the last chunk, assumes nr > 0 */
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#define LAST_CHUNK_MASK(nr) (((ice_bitmap_t)~0) >> \
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(BITS_PER_CHUNK - LAST_CHUNK_BITS(nr)))
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#define ice_declare_bitmap(A, sz) \
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ice_bitmap_t A[BITS_TO_CHUNKS(sz)]
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static inline bool ice_is_bit_set_internal(u16 nr, const ice_bitmap_t *bitmap)
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{
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return !!(*bitmap & BIT(nr));
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}
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/*
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* If atomic version of the bitops are required, each specific OS
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* implementation will need to implement OS/platform specific atomic
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* version of the functions below:
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*
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* ice_clear_bit_internal
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* ice_set_bit_internal
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* ice_test_and_clear_bit_internal
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* ice_test_and_set_bit_internal
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*
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* and define macro ICE_ATOMIC_BITOPS to overwrite the default non-atomic
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* implementation.
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*/
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static inline void ice_clear_bit_internal(u16 nr, ice_bitmap_t *bitmap)
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{
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*bitmap &= ~BIT(nr);
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}
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static inline void ice_set_bit_internal(u16 nr, ice_bitmap_t *bitmap)
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{
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*bitmap |= BIT(nr);
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}
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static inline bool ice_test_and_clear_bit_internal(u16 nr,
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ice_bitmap_t *bitmap)
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{
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if (ice_is_bit_set_internal(nr, bitmap)) {
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ice_clear_bit_internal(nr, bitmap);
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return true;
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}
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return false;
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}
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static inline bool ice_test_and_set_bit_internal(u16 nr, ice_bitmap_t *bitmap)
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{
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if (ice_is_bit_set_internal(nr, bitmap))
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return true;
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ice_set_bit_internal(nr, bitmap);
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return false;
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}
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/**
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* ice_is_bit_set - Check state of a bit in a bitmap
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* @bitmap: the bitmap to check
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* @nr: the bit to check
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*
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* Returns true if bit nr of bitmap is set. False otherwise. Assumes that nr
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* is less than the size of the bitmap.
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*/
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static inline bool ice_is_bit_set(const ice_bitmap_t *bitmap, u16 nr)
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{
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return ice_is_bit_set_internal(BIT_IN_CHUNK(nr),
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&bitmap[BIT_CHUNK(nr)]);
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}
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/**
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* ice_clear_bit - Clear a bit in a bitmap
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* @bitmap: the bitmap to change
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* @nr: the bit to change
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*
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* Clears the bit nr in bitmap. Assumes that nr is less than the size of the
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* bitmap.
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*/
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static inline void ice_clear_bit(u16 nr, ice_bitmap_t *bitmap)
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{
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ice_clear_bit_internal(BIT_IN_CHUNK(nr), &bitmap[BIT_CHUNK(nr)]);
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}
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/**
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* ice_set_bit - Set a bit in a bitmap
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* @bitmap: the bitmap to change
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* @nr: the bit to change
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*
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* Sets the bit nr in bitmap. Assumes that nr is less than the size of the
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* bitmap.
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*/
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static inline void ice_set_bit(u16 nr, ice_bitmap_t *bitmap)
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{
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ice_set_bit_internal(BIT_IN_CHUNK(nr), &bitmap[BIT_CHUNK(nr)]);
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}
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/**
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* ice_test_and_clear_bit - Atomically clear a bit and return the old bit value
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* @nr: the bit to change
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* @bitmap: the bitmap to change
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*
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* Check and clear the bit nr in bitmap. Assumes that nr is less than the size
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* of the bitmap.
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*/
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static inline bool
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ice_test_and_clear_bit(u16 nr, ice_bitmap_t *bitmap)
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{
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return ice_test_and_clear_bit_internal(BIT_IN_CHUNK(nr),
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&bitmap[BIT_CHUNK(nr)]);
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}
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/**
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* ice_test_and_set_bit - Atomically set a bit and return the old bit value
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* @nr: the bit to change
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* @bitmap: the bitmap to change
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*
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* Check and set the bit nr in bitmap. Assumes that nr is less than the size of
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* the bitmap.
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*/
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static inline bool
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ice_test_and_set_bit(u16 nr, ice_bitmap_t *bitmap)
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{
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return ice_test_and_set_bit_internal(BIT_IN_CHUNK(nr),
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&bitmap[BIT_CHUNK(nr)]);
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}
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/* ice_zero_bitmap - set bits of bitmap to zero.
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* @bmp: bitmap to set zeros
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* @size: Size of the bitmaps in bits
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*
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* Set all of the bits in a bitmap to zero. Note that this function assumes it
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* operates on an ice_bitmap_t which was declared using ice_declare_bitmap. It
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* will zero every bit in the last chunk, even if those bits are beyond the
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* size.
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*/
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static inline void ice_zero_bitmap(ice_bitmap_t *bmp, u16 size)
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{
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ice_memset(bmp, 0, BITS_TO_CHUNKS(size) * sizeof(ice_bitmap_t),
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ICE_NONDMA_MEM);
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}
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/**
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* ice_and_bitmap - bitwise AND 2 bitmaps and store result in dst bitmap
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* @dst: Destination bitmap that receive the result of the operation
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* @bmp1: The first bitmap to intersect
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* @bmp2: The second bitmap to intersect wit the first
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* @size: Size of the bitmaps in bits
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*
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* This function performs a bitwise AND on two "source" bitmaps of the same size
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* and stores the result to "dst" bitmap. The "dst" bitmap must be of the same
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* size as the "source" bitmaps to avoid buffer overflows. This function returns
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* a non-zero value if at least one bit location from both "source" bitmaps is
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* non-zero.
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*/
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static inline int
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ice_and_bitmap(ice_bitmap_t *dst, const ice_bitmap_t *bmp1,
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const ice_bitmap_t *bmp2, u16 size)
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{
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ice_bitmap_t res = 0, mask;
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u16 i;
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/* Handle all but the last chunk */
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for (i = 0; i < BITS_TO_CHUNKS(size) - 1; i++) {
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dst[i] = bmp1[i] & bmp2[i];
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res |= dst[i];
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}
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/* We want to take care not to modify any bits outside of the bitmap
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* size, even in the destination bitmap. Thus, we won't directly
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* assign the last bitmap, but instead use a bitmask to ensure we only
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* modify bits which are within the size, and leave any bits above the
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* size value alone.
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*/
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mask = LAST_CHUNK_MASK(size);
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dst[i] = (dst[i] & ~mask) | ((bmp1[i] & bmp2[i]) & mask);
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res |= dst[i] & mask;
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return res != 0;
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}
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/**
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* ice_or_bitmap - bitwise OR 2 bitmaps and store result in dst bitmap
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* @dst: Destination bitmap that receive the result of the operation
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* @bmp1: The first bitmap to intersect
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* @bmp2: The second bitmap to intersect wit the first
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* @size: Size of the bitmaps in bits
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*
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* This function performs a bitwise OR on two "source" bitmaps of the same size
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* and stores the result to "dst" bitmap. The "dst" bitmap must be of the same
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* size as the "source" bitmaps to avoid buffer overflows.
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*/
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static inline void
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ice_or_bitmap(ice_bitmap_t *dst, const ice_bitmap_t *bmp1,
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const ice_bitmap_t *bmp2, u16 size)
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{
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ice_bitmap_t mask;
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u16 i;
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/* Handle all but last chunk */
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for (i = 0; i < BITS_TO_CHUNKS(size) - 1; i++)
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dst[i] = bmp1[i] | bmp2[i];
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/* We want to only OR bits within the size. Furthermore, we also do
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* not want to modify destination bits which are beyond the specified
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* size. Use a bitmask to ensure that we only modify the bits that are
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* within the specified size.
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*/
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mask = LAST_CHUNK_MASK(size);
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dst[i] = (dst[i] & ~mask) | ((bmp1[i] | bmp2[i]) & mask);
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}
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/**
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* ice_xor_bitmap - bitwise XOR 2 bitmaps and store result in dst bitmap
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* @dst: Destination bitmap that receive the result of the operation
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* @bmp1: The first bitmap of XOR operation
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* @bmp2: The second bitmap to XOR with the first
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* @size: Size of the bitmaps in bits
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*
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* This function performs a bitwise XOR on two "source" bitmaps of the same size
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* and stores the result to "dst" bitmap. The "dst" bitmap must be of the same
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* size as the "source" bitmaps to avoid buffer overflows.
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*/
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static inline void
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ice_xor_bitmap(ice_bitmap_t *dst, const ice_bitmap_t *bmp1,
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const ice_bitmap_t *bmp2, u16 size)
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{
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ice_bitmap_t mask;
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u16 i;
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/* Handle all but last chunk */
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for (i = 0; i < BITS_TO_CHUNKS(size) - 1; i++)
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dst[i] = bmp1[i] ^ bmp2[i];
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/* We want to only XOR bits within the size. Furthermore, we also do
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* not want to modify destination bits which are beyond the specified
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* size. Use a bitmask to ensure that we only modify the bits that are
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* within the specified size.
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*/
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mask = LAST_CHUNK_MASK(size);
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dst[i] = (dst[i] & ~mask) | ((bmp1[i] ^ bmp2[i]) & mask);
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}
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/**
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* ice_andnot_bitmap - bitwise ANDNOT 2 bitmaps and result in dst bitmap
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* @dst: Destination bitmap that receive the result of the operation
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* @bmp1: The first bitmap of ANDNOT operation
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* @bmp2: The second bitmap to ANDNOT operation
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* @size: Size of the bitmaps in bits
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*
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* This function performs a bitwise ANDNOT on two "source" bitmaps of the same
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* size, and stores the result to "dst" bitmap. The "dst" bitmap must be of the
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* same size as the "source" bitmaps to avoid buffer overflows.
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*/
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static inline void
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ice_andnot_bitmap(ice_bitmap_t *dst, const ice_bitmap_t *bmp1,
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const ice_bitmap_t *bmp2, u16 size)
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{
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ice_bitmap_t mask;
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u16 i;
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/* Handle all but last chunk */
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for (i = 0; i < BITS_TO_CHUNKS(size) - 1; i++)
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dst[i] = bmp1[i] & ~bmp2[i];
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/* We want to only clear bits within the size. Furthermore, we also do
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* not want to modify destination bits which are beyond the specified
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* size. Use a bitmask to ensure that we only modify the bits that are
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* within the specified size.
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*/
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mask = LAST_CHUNK_MASK(size);
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dst[i] = (dst[i] & ~mask) | ((bmp1[i] & ~bmp2[i]) & mask);
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}
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/**
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* ice_find_next_bit - Find the index of the next set bit of a bitmap
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* @bitmap: the bitmap to scan
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* @size: the size in bits of the bitmap
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* @offset: the offset to start at
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*
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* Scans the bitmap and returns the index of the first set bit which is equal
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* to or after the specified offset. Will return size if no bits are set.
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*/
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static inline u16
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ice_find_next_bit(const ice_bitmap_t *bitmap, u16 size, u16 offset)
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{
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u16 i, j;
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if (offset >= size)
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return size;
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/* Since the starting position may not be directly on a chunk
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* boundary, we need to be careful to handle the first chunk specially
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*/
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i = BIT_CHUNK(offset);
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if (bitmap[i] != 0) {
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u16 off = i * BITS_PER_CHUNK;
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for (j = offset % BITS_PER_CHUNK; j < BITS_PER_CHUNK; j++) {
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if (ice_is_bit_set(bitmap, off + j))
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return min(size, (u16)(off + j));
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}
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}
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/* Now we handle the remaining chunks, if any */
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for (i++; i < BITS_TO_CHUNKS(size); i++) {
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if (bitmap[i] != 0) {
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u16 off = i * BITS_PER_CHUNK;
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for (j = 0; j < BITS_PER_CHUNK; j++) {
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if (ice_is_bit_set(bitmap, off + j))
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return min(size, (u16)(off + j));
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}
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}
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}
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return size;
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}
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/**
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* ice_find_first_bit - Find the index of the first set bit of a bitmap
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* @bitmap: the bitmap to scan
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* @size: the size in bits of the bitmap
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*
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* Scans the bitmap and returns the index of the first set bit. Will return
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* size if no bits are set.
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*/
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static inline u16 ice_find_first_bit(const ice_bitmap_t *bitmap, u16 size)
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{
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return ice_find_next_bit(bitmap, size, 0);
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}
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#define ice_for_each_set_bit(_bitpos, _addr, _maxlen) \
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for ((_bitpos) = ice_find_first_bit((_addr), (_maxlen)); \
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(_bitpos) < (_maxlen); \
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(_bitpos) = ice_find_next_bit((_addr), (_maxlen), (_bitpos) + 1))
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/**
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* ice_is_any_bit_set - Return true of any bit in the bitmap is set
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* @bitmap: the bitmap to check
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* @size: the size of the bitmap
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*
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* Equivalent to checking if ice_find_first_bit returns a value less than the
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* bitmap size.
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*/
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static inline bool ice_is_any_bit_set(ice_bitmap_t *bitmap, u16 size)
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{
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return ice_find_first_bit(bitmap, size) < size;
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}
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/**
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* ice_cp_bitmap - copy bitmaps.
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* @dst: bitmap destination
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* @src: bitmap to copy from
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* @size: Size of the bitmaps in bits
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*
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* This function copy bitmap from src to dst. Note that this function assumes
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* it is operating on a bitmap declared using ice_declare_bitmap. It will copy
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* the entire last chunk even if this contains bits beyond the size.
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*/
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static inline void ice_cp_bitmap(ice_bitmap_t *dst, ice_bitmap_t *src, u16 size)
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{
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ice_memcpy(dst, src, BITS_TO_CHUNKS(size) * sizeof(ice_bitmap_t),
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ICE_NONDMA_TO_NONDMA);
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}
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/**
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* ice_bitmap_set - set a number of bits in bitmap from a starting position
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* @dst: bitmap destination
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* @pos: first bit position to set
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* @num_bits: number of bits to set
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*
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* This function sets bits in a bitmap from pos to (pos + num_bits) - 1.
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* Note that this function assumes it is operating on a bitmap declared using
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* ice_declare_bitmap.
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*/
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static inline void
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ice_bitmap_set(ice_bitmap_t *dst, u16 pos, u16 num_bits)
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{
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u16 i;
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for (i = pos; i < pos + num_bits; i++)
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ice_set_bit(i, dst);
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}
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/**
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* ice_bitmap_hweight - hamming weight of bitmap
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* @bm: bitmap pointer
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* @size: size of bitmap (in bits)
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*
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* This function determines the number of set bits in a bitmap.
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* Note that this function assumes it is operating on a bitmap declared using
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* ice_declare_bitmap.
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*/
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static inline int
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ice_bitmap_hweight(ice_bitmap_t *bm, u16 size)
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{
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int count = 0;
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u16 bit = 0;
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while (size > (bit = ice_find_next_bit(bm, size, bit))) {
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count++;
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bit++;
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}
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return count;
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}
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/**
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* ice_cmp_bitmaps - compares two bitmaps.
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* @bmp1: the bitmap to compare
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* @bmp2: the bitmap to compare with bmp1
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* @size: Size of the bitmaps in bits
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*
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* This function compares two bitmaps, and returns result as true or false.
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*/
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static inline bool
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ice_cmp_bitmap(ice_bitmap_t *bmp1, ice_bitmap_t *bmp2, u16 size)
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{
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ice_bitmap_t mask;
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u16 i;
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/* Handle all but last chunk */
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for (i = 0; i < BITS_TO_CHUNKS(size) - 1; i++)
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if (bmp1[i] != bmp2[i])
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return false;
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/* We want to only compare bits within the size */
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mask = LAST_CHUNK_MASK(size);
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if ((bmp1[i] & mask) != (bmp2[i] & mask))
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return false;
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return true;
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}
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/**
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* ice_bitmap_from_array32 - copies u32 array source into bitmap destination
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* @dst: the destination bitmap
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* @src: the source u32 array
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* @size: size of the bitmap (in bits)
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*
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* This function copies the src bitmap stored in an u32 array into the dst
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* bitmap stored as an ice_bitmap_t.
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*/
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static inline void
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ice_bitmap_from_array32(ice_bitmap_t *dst, u32 *src, u16 size)
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{
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u32 remaining_bits, i;
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#define BITS_PER_U32 (sizeof(u32) * BITS_PER_BYTE)
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/* clear bitmap so we only have to set when iterating */
|
|
ice_zero_bitmap(dst, size);
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|
|
|
for (i = 0; i < (u32)(size / BITS_PER_U32); i++) {
|
|
u32 bit_offset = i * BITS_PER_U32;
|
|
u32 entry = src[i];
|
|
u32 j;
|
|
|
|
for (j = 0; j < BITS_PER_U32; j++) {
|
|
if (entry & BIT(j))
|
|
ice_set_bit((u16)(j + bit_offset), dst);
|
|
}
|
|
}
|
|
|
|
/* still need to check the leftover bits (i.e. if size isn't evenly
|
|
* divisible by BITS_PER_U32
|
|
**/
|
|
remaining_bits = size % BITS_PER_U32;
|
|
if (remaining_bits) {
|
|
u32 bit_offset = i * BITS_PER_U32;
|
|
u32 entry = src[i];
|
|
u32 j;
|
|
|
|
for (j = 0; j < remaining_bits; j++) {
|
|
if (entry & BIT(j))
|
|
ice_set_bit((u16)(j + bit_offset), dst);
|
|
}
|
|
}
|
|
}
|
|
|
|
#endif /* _ICE_BITOPS_H_ */
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