BITSET64(9F) Kernel Functions for Drivers BITSET64(9F)
NAME
bitset8,
bitset16,
bitset32,
bitset64 - set bitfield values in an
integer
SYNOPSIS
#include <sys/bitext.h> uint8_t bitset8(
uint8_t base,
uint_t high,
uint_t low,
uint8_t value);
uint16_t bitset16(
uint16_t base,
uint_t high,
uint_t low,
uint16_t value);
uint32_t bitset32(
uint32_t base,
uint_t high,
uint_t low,
uint32_t value);
uint64_t bitset64(
uint64_t base,
uint_t high,
uint_t low,
uint64_t value);
INTERFACE LEVEL
Volatile - This interface is still evolving in illumos. API and ABI
stability is not guaranteed.
PARAMETERS
base The starting integer that will have a value ORed into it.
high The high end, inclusive, of the bit range to insert
value into
base.
low The low end, inclusive, of the bit range to extract from
value.
value A value to insert into
base.
DESCRIPTION
The
bitset8(),
bitset16(),
bitset32(), and
bitset64() functions are
used to logically bitwise-OR in the integer
value into a specified bit
position in
base. Effectively, the function zeros out the bit range in
base, described by
high and
low and then performs a bitwise-OR of
base which has been adjusted to start at
low.
The
high and
low arguments describe an inclusive bit range ([
low,
high]) which describes where
value should be inserted. It is illegal
for
low to be greater than
high, for
low or
high to exceed the
integer's bit range (e.g. neither can be greater than 7 for
bitset8()),
and
value must not exceed the described bit range. That is, if
high was 2 and
low was 1,
value could not be larger than a 2-bit value.
Note, these functions do not modify either
base or
value.
RETURN VALUES
Upon successful completion, the
bitset8(),
bitset16(),
bitset32(), and
bitset64() functions all return a new value that has first cleared the
specified bit range from
base and then replaced it with
value.
EXAMPLES
Example 1 - Using the
bitset32() function to build up a register value.
A common use case for these functions is to help deal with registers
that are defined as a series of bit values. The following example
shows a register's bit definitions and then how they are used to
construct a value to write.
/*
* This represents a token register definition. It is normally a
* uint32_t.
*/
#define DF_IO_BASE_V2_SET_BASE(r, v) bitx32(r, 24, 12, v)
#define DF_IO_BASE_V2_SET_IE(r, v) bitset32(r, 5, 5, v)
#define DF_IO_BASE_V2_SET_WE(r, v) bitset32(r, 1, 1, v)
#define DF_IO_BASE_V2_SET_RE(r, v) bitset32(r, 0, 0, v)
void
setup_register(uint32_t base)
{
uint32_t reg = 0;
/*
* Set read enable, write enable, and the base. Then write the
* hardware register.
*/
reg = DF_IO_BASE_V2_SET_RE(reg, 1);
reg = DF_IO_BASE_V2_SET_WE(reg, 1);
reg = DF_IO_BASE_V2_SET_BASE(reg, base);
write_register(XXX, reg);
}
SEE ALSO
bitdel64(9F),
bitx64(9F)illumos April 12, 2022 illumos
