packing.c
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// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
/* Copyright (c) 2016-2018, NXP Semiconductors
* Copyright (c) 2018-2019, Vladimir Oltean <olteanv@gmail.com>
*/
#include <linux/packing.h>
#include <linux/module.h>
#include <linux/bitops.h>
#include <linux/errno.h>
#include <linux/types.h>
static int get_le_offset(int offset)
{
int closest_multiple_of_4;
closest_multiple_of_4 = (offset / 4) * 4;
offset -= closest_multiple_of_4;
return closest_multiple_of_4 + (3 - offset);
}
static int get_reverse_lsw32_offset(int offset, size_t len)
{
int closest_multiple_of_4;
int word_index;
word_index = offset / 4;
closest_multiple_of_4 = word_index * 4;
offset -= closest_multiple_of_4;
word_index = (len / 4) - word_index - 1;
return word_index * 4 + offset;
}
static u64 bit_reverse(u64 val, unsigned int width)
{
u64 new_val = 0;
unsigned int bit;
unsigned int i;
for (i = 0; i < width; i++) {
bit = (val & (1 << i)) != 0;
new_val |= (bit << (width - i - 1));
}
return new_val;
}
static void adjust_for_msb_right_quirk(u64 *to_write, int *box_start_bit,
int *box_end_bit, u8 *box_mask)
{
int box_bit_width = *box_start_bit - *box_end_bit + 1;
int new_box_start_bit, new_box_end_bit;
*to_write >>= *box_end_bit;
*to_write = bit_reverse(*to_write, box_bit_width);
*to_write <<= *box_end_bit;
new_box_end_bit = box_bit_width - *box_start_bit - 1;
new_box_start_bit = box_bit_width - *box_end_bit - 1;
*box_mask = GENMASK_ULL(new_box_start_bit, new_box_end_bit);
*box_start_bit = new_box_start_bit;
*box_end_bit = new_box_end_bit;
}
/**
* packing - Convert numbers (currently u64) between a packed and an unpacked
* format. Unpacked means laid out in memory in the CPU's native
* understanding of integers, while packed means anything else that
* requires translation.
*
* @pbuf: Pointer to a buffer holding the packed value.
* @uval: Pointer to an u64 holding the unpacked value.
* @startbit: The index (in logical notation, compensated for quirks) where
* the packed value starts within pbuf. Must be larger than, or
* equal to, endbit.
* @endbit: The index (in logical notation, compensated for quirks) where
* the packed value ends within pbuf. Must be smaller than, or equal
* to, startbit.
* @op: If PACK, then uval will be treated as const pointer and copied (packed)
* into pbuf, between startbit and endbit.
* If UNPACK, then pbuf will be treated as const pointer and the logical
* value between startbit and endbit will be copied (unpacked) to uval.
* @quirks: A bit mask of QUIRK_LITTLE_ENDIAN, QUIRK_LSW32_IS_FIRST and
* QUIRK_MSB_ON_THE_RIGHT.
*
* Return: 0 on success, EINVAL or ERANGE if called incorrectly. Assuming
* correct usage, return code may be discarded.
* If op is PACK, pbuf is modified.
* If op is UNPACK, uval is modified.
*/
int packing(void *pbuf, u64 *uval, int startbit, int endbit, size_t pbuflen,
enum packing_op op, u8 quirks)
{
/* Number of bits for storing "uval"
* also width of the field to access in the pbuf
*/
u64 value_width;
/* Logical byte indices corresponding to the
* start and end of the field.
*/
int plogical_first_u8, plogical_last_u8, box;
/* startbit is expected to be larger than endbit */
if (startbit < endbit)
/* Invalid function call */
return -EINVAL;
value_width = startbit - endbit + 1;
if (value_width > 64)
return -ERANGE;
/* Check if "uval" fits in "value_width" bits.
* If value_width is 64, the check will fail, but any
* 64-bit uval will surely fit.
*/
if (op == PACK && value_width < 64 && (*uval >= (1ull << value_width)))
/* Cannot store "uval" inside "value_width" bits.
* Truncating "uval" is most certainly not desirable,
* so simply erroring out is appropriate.
*/
return -ERANGE;
/* Initialize parameter */
if (op == UNPACK)
*uval = 0;
/* Iterate through an idealistic view of the pbuf as an u64 with
* no quirks, u8 by u8 (aligned at u8 boundaries), from high to low
* logical bit significance. "box" denotes the current logical u8.
*/
plogical_first_u8 = startbit / 8;
plogical_last_u8 = endbit / 8;
for (box = plogical_first_u8; box >= plogical_last_u8; box--) {
/* Bit indices into the currently accessed 8-bit box */
int box_start_bit, box_end_bit, box_addr;
u8 box_mask;
/* Corresponding bits from the unpacked u64 parameter */
int proj_start_bit, proj_end_bit;
u64 proj_mask;
/* This u8 may need to be accessed in its entirety
* (from bit 7 to bit 0), or not, depending on the
* input arguments startbit and endbit.
*/
if (box == plogical_first_u8)
box_start_bit = startbit % 8;
else
box_start_bit = 7;
if (box == plogical_last_u8)
box_end_bit = endbit % 8;
else
box_end_bit = 0;
/* We have determined the box bit start and end.
* Now we calculate where this (masked) u8 box would fit
* in the unpacked (CPU-readable) u64 - the u8 box's
* projection onto the unpacked u64. Though the
* box is u8, the projection is u64 because it may fall
* anywhere within the unpacked u64.
*/
proj_start_bit = ((box * 8) + box_start_bit) - endbit;
proj_end_bit = ((box * 8) + box_end_bit) - endbit;
proj_mask = GENMASK_ULL(proj_start_bit, proj_end_bit);
box_mask = GENMASK_ULL(box_start_bit, box_end_bit);
/* Determine the offset of the u8 box inside the pbuf,
* adjusted for quirks. The adjusted box_addr will be used for
* effective addressing inside the pbuf (so it's not
* logical any longer).
*/
box_addr = pbuflen - box - 1;
if (quirks & QUIRK_LITTLE_ENDIAN)
box_addr = get_le_offset(box_addr);
if (quirks & QUIRK_LSW32_IS_FIRST)
box_addr = get_reverse_lsw32_offset(box_addr,
pbuflen);
if (op == UNPACK) {
u64 pval;
/* Read from pbuf, write to uval */
pval = ((u8 *)pbuf)[box_addr] & box_mask;
if (quirks & QUIRK_MSB_ON_THE_RIGHT)
adjust_for_msb_right_quirk(&pval,
&box_start_bit,
&box_end_bit,
&box_mask);
pval >>= box_end_bit;
pval <<= proj_end_bit;
*uval &= ~proj_mask;
*uval |= pval;
} else {
u64 pval;
/* Write to pbuf, read from uval */
pval = (*uval) & proj_mask;
pval >>= proj_end_bit;
if (quirks & QUIRK_MSB_ON_THE_RIGHT)
adjust_for_msb_right_quirk(&pval,
&box_start_bit,
&box_end_bit,
&box_mask);
pval <<= box_end_bit;
((u8 *)pbuf)[box_addr] &= ~box_mask;
((u8 *)pbuf)[box_addr] |= pval;
}
}
return 0;
}
EXPORT_SYMBOL(packing);
MODULE_LICENSE("GPL v2");
MODULE_DESCRIPTION("Generic bitfield packing and unpacking");