NVLIST_ADD_BOOLEAN(9F) Kernel Functions for Drivers NVLIST_ADD_BOOLEAN(9F)
NAME
nvlist_add_boolean, nvlist_add_boolean_value, nvlist_add_byte,
nvlist_add_int8, nvlist_add_uint8, nvlist_add_int16,
nvlist_add_uint16, nvlist_add_int32, nvlist_add_uint32,
nvlist_add_int64, nvlist_add_uint64, nvlist_add_string,
nvlist_add_nvlist, nvlist_add_nvpair, nvlist_add_boolean_array,
nvlist_add_int8_array, nvlist_add_uint8_array,
nvlist_add_nvlist_array, nvlist_add_byte_array,
nvlist_add_int16_array, nvlist_add_uint16_array,
nvlist_add_int32_array, nvlist_add_uint32_array,
nvlist_add_int64_array, nvlist_add_uint64_array,
nvlist_add_string_array, nvlist_t - value pair functions
SYNOPSIS
#include <sys/nvpair.h>
int nvlist_add_boolean(
nvlist_t *nvl,
const char *name);
int nvlist_add_boolean_value(
nvlist_t *nvl,
const char *name,
boolean_t val);
int nvlist_add_byte(
nvlist_t *nvl,
const char *name,
uchar_t val);
int nvlist_add_int8(
nvlist_t *nvl,
const char *name,
int8_t val);
int nvlist_add_uint8(
nvlist_t *nvl,
const char *name,
uint8_t val);
int nvlist_add_int16(
nvlist_t *nvl,
const char *name,
int16_t val);
int nvlist_add_uint16(
nvlist_t *nvl,
const char *name,
uint16_t val);
int nvlist_add_int32(
nvlist_t *nvl,
const char *name,
int32_t val);
int nvlist_add_uint32(
nvlist_t *nvl,
const char *name,
uint32_t val);
int nvlist_add_int64(
nvlist_t *nvl,
const char *name,
int64_t val);
int nvlist_add_uint64(
nvlist_t *nvl,
const char *name,
uint64_t val);
int nvlist_add_string(
nvlist_t *nvl,
const char *name,
char *val);
int nvlist_add_nvlist(
nvlist_t *nvl,
const char *name,
nvlist_t *val);
int nvlist_add_nvpair(
nvlist_t *nvl,
nvpair_t *nvp);
int nvlist_add_boolean_array(
nvlist_t *nvl,
const char *name,
boolean_t *val,
uint_t nelem);
int nvlist_add_byte_array(
nvlist_t *nvl,
const char *name,
uchar_t *val,
uint_t nelem);
int nvlist_add_int8_array(
nvlist_t *nvl,
const char *name,
int8_t *val,
uint_t nelem);
int nvlist_add_uint8_array(
nvlist_t *nvl,
const char *name,
uint8_t *val uint_t nelem);
int nvlist_add_int16_array(
nvlist_t *nvl,
const char *name,
int16_t *val,
uint_t nelem);
int nvlist_add_uint16_array(
nvlist_t *nvl,
const char *name,
uint16_t *val,
uint_t nelem);
int nvlist_add_int32_array(
nvlist_t *nvl,
const char *name,
int32_t *val,
uint_t nelem);
int nvlist_add_uint32_array(
nvlist_t *nvl,
const char *name,
uint32_t *val,
uint_t nelem);
int nvlist_add_int64_array(
nvlist_t *nvl,
const char *name,
int64_t *val,
uint_t nelem);
int nvlist_add_uint64_array(
nvlist_t *nvl,
const char *name,
uint64_t *val,
uint_t nelem);
int nvlist_add_string_array(
nvlist_t *nvl,
const char *name,
const *char *val,
uint_t nelem);
int nvlist_add_nvlist_array(
nvlist_t *nvl,
const char *name,
nvlist_t **val,
uint_t nelem);
INTERFACE LEVEL
illumos DDI specific (illumos DDI)
PARAMETERS
nvl The
nvlist_t to be processed.
nvp The
nvpair_t (name-value pair) to be processed.
name Name of the name-value pair (
nvpair).
nelem Number of elements in value (that is, array size).
val Value or starting address of the array value.
DESCRIPTION
These functions add a new name-value pair to an
nvlist_t. The memory
allocation policy follows that specified in
nvlist_alloc(),
nvlist_unpack(), or
nvlist_dup(). See
nvlist_alloc(9F). The
uniqueness of
nvpair name and data types follows the
nvflag argument
specified in
nvlist_alloc().
If
NV_UNIQUE_NAME was specified for
nvflag, existing
nvpairs with
matching names are removed before the new
nvpair is added.
If
NV_UNIQUE_NAME_TYPE was specified for
nvflag, existing
nvpairs
with matching names and data types are removed before the new
nvpair is added.
If neither was specified for
nvflag, the new
nvpair is
unconditionally added at the end of the list. The library preserves
the order of the name-value pairs across packing, unpacking, and
duplication.
Multiple threads can simultaneously read the same nvlist_t, but only
one thread may actively change a given nvlist_t at a time. The caller
is responsible for the synchronization.
The
nvlist_add_boolean() function is deprecated and the
nvlist_add_boolean_value() function is used instead.
RETURN VALUES
0 success
EINVAL invalid argument
ENOMEM insufficient memory
CONTEXT
These functions can be called from interrupt context only if (1) the
default allocator is used and the
KM_NOSLEEP flag is set, or (2) the
specified allocator did not sleep for free memory (for example, if it
uses a pre-allocated buffer for memory allocations).
See
nvlist_alloc(9F) for a description of pluggable allocators and
KM_NOSLEEP. These functions can be called from user or kernel context
in all cases.
January 16, 2006 NVLIST_ADD_BOOLEAN(9F)
