Base typedefs

Data Structures
union	zb_addr_u_t
union	zb_addr_u
	Union to address either long or short address. More...

Macros
#define	ZB_STDC_90
#define	ZB_32BIT_WORD
#define	ZB_XDATA
#define	ZB_CODE
#define	ZB_IAR_CODE
#define	ZB_REGISTER   register
#define	ZB_VOID_ARGLIST   void
#define	ZB_CONST   const
#define	ZB_INLINE
#define	ZB_BITFIELD_CAST(x)   (x)
#define	ZB_CPP_STR2(x)   #x
#define	ZB_CPP_STR(x)   ZB_CPP_STR2(x)
#define	ZB_FALSE   0U
#define	ZB_TRUE   1U
#define	ZB_FALSE_U   ZB_FALSE
#define	ZB_TRUE_U   ZB_TRUE
#define	ZB_B2U(b)   (((b) != ZB_FALSE) ? (1U) : (0U))
#define	ZB_U2B(u)   (((u) != 0U) ? (ZB_TRUE) : (ZB_FALSE))
#define	ZB_INT8_MIN   (-127 - 1)
#define	ZB_INT8_MAX   127
#define	ZB_UINT8_MIN   0U
#define	ZB_UINT8_MAX   255U
#define	ZB_INT16_MIN   (-32767 - 1)
#define	ZB_INT16_MAX   32767
#define	ZB_UINT16_MIN   0U
#define	ZB_UINT16_MAX   65535U
#define	ZB_INT32_MIN   (-2147483647L - 1)
#define	ZB_INT32_MAX   2147483647L
#define	ZB_UINT32_MIN   0UL
#define	ZB_UINT32_MAX   4294967295UL
#define	ZB_UINT_MIN   0UL
#define	ZB_SHORT_MIN   ZB_INT32_MIN
#define	ZB_SHORT_MAX   ZB_INT32_MAX
#define	ZB_USHORT_MAX   ZB_UINT32_MAX
#define	ZB_INT_MIN   ZB_INT32_MIN
#define	ZB_INT_MAX   ZB_INT32_MAX
#define	ZB_UINT_MAX   ZB_UINT32_MAX
#define	ZB_INT_MASK   0x7fffffffU
#define	ZB_PACKED_STRUCT
#define	ZB_PACKED_PRE
#define	ZB_WEAK_PRE
#define	ZB_WEAK
#define	ZB_ALIGNED_PRE
#define	ZB_DEPRECATED
#define	ZB_NORETURN
#define	ZB_IS_64BIT_ADDR_UNKNOWN(addr)   (ZB_MEMCMP((addr), (void const*)g_unknown_ieee_addr, 8) == 0)
#define	ZB_64BIT_ADDR_UNKNOWN(addr)   ZB_MEMSET((addr), -1, 8)
#define	ZB_EXTPANID_IS_ZERO   ZB_IS_64BIT_ADDR_ZERO
#define	ZB_EXTPANID_ZERO   ZB_64BIT_ADDR_ZERO
#define	ZB_EXTPANID_COPY   ZB_64BIT_ADDR_COPY
#define	ZB_EXTPANID_CMP   ZB_64BIT_ADDR_CMP
#define	ZB_IEEE_ADDR_IS_ZERO   ZB_IS_64BIT_ADDR_ZERO
#define	ZB_IEEE_ADDR_IS_UNKNOWN   ZB_IS_64BIT_ADDR_UNKNOWN
#define	ZB_IEEE_ADDR_ZERO   ZB_64BIT_ADDR_ZERO
#define	ZB_IEEE_ADDR_UNKNOWN   ZB_64BIT_ADDR_UNKNOWN
#define	ZB_IEEE_ADDR_COPY   ZB_64BIT_ADDR_COPY
#define	ZB_IEEE_ADDR_CMP   ZB_64BIT_ADDR_CMP
#define	ZB_CCM_KEY_IS_ZERO(k)   (ZB_IS_64BIT_ADDR_ZERO((zb_uint8_t*)(k)) && ZB_IS_64BIT_ADDR_ZERO(((zb_uint8_t*)(k)) + 8U))
#define	ZB_IEEE_ADDR_IS_VALID(addr)   !(ZB_IEEE_ADDR_IS_ZERO(addr)||ZB_IEEE_ADDR_IS_UNKNOWN(addr))
#define	ZB_ADDR_CMP(addr_mode, addr1, addr2)
#define	ZB_ADDR_U_CAST(addr)   ((const zb_addr_u *)(const void *)(&(addr)))
#define	ZB_INT8_C(c)   c
#define	ZB_UINT8_C(c)   c ## U
#define	ZB_INT16_C(c)   c
#define	ZB_UINT16_C(c)   c ## U
#define	ZB_INT32_C(c)   c ## L
#define	ZB_UINT32_C(c)   c ## UL
#define	ZB_OFFSETOF(t, f)   ((zb_size_t)(&((t *)NULL)->f))
#define	ZB_OFFSETOF_VAR(s, f)   (zb_size_t)(((zb_int8_t *)(&(s)->f)) - ((zb_int8_t *)(s)))
#define	ZB_SIZEOF_FIELD(type, field)   (sizeof(((type*)0)->field))
#define	ZB_ARRAY_SIZE(arr)   (sizeof((arr))/sizeof((arr)[0]))
#define	ZB_SIGNED_SHIFT(v, s)   ((zb_int_t)(v) >> (s))
#define	ZB_ASSERT_IF_NOT_ALIGNED(data_type, length)   ZB_ASSERT_COMPILE_DECL(((sizeof(data_type) % (length)) == 0U))
#define	ZB_ASSERT_IF_NOT_ALIGNED_TO_4(data_type)   ZB_ASSERT_IF_NOT_ALIGNED(data_type,4U)
#define	ZB_ASSERT_VALUE_ALIGNED(const_expr, length)   ZB_ASSERT_COMPILE_DECL((((const_expr) % (length)) == 0U))
#define	ZB_ASSERT_VALUE_ALIGNED_TO_4(const_expr)   ZB_ASSERT_VALUE_ALIGNED(const_expr, 4U)
#define	ZB_GET_LOW_BYTE(val)   (zb_uint8_t)((val) & 0xFFU)
#define	ZB_GET_HI_BYTE(val)   (zb_uint8_t)(((val) >> 8U) & 0xFFU)
#define	ZB_SET_LOW_BYTE(res, val)   (res) = ((((zb_uint16_t)(res)) & 0xFF00U) | (((zb_uint16_t)(val)) & 0xFFU))
#define	ZB_SET_HI_BYTE(res, val)   (res) = (((((zb_uint16_t)(val)) << 8U) & 0xFF00U) | (((zb_uint16_t)(res)) & 0xFFU))
#define	ZB_PKT_16B_ZERO_BYTE   0U
#define	ZB_PKT_16B_FIRST_BYTE   1U
#define	ZB_ASSIGN_UINT16(ptr, vp)   *((zb_uint16_t*)(ptr)) = *(zb_uint16_t*)(vp)
#define	ZB_ASSIGN_INT16(ptr, vp)   *((zb_int16_t*)(ptr)) = *(zb_int16_t*)(vp)
#define	ZB_COPY_UINT24(ptr, vp)   *((zb_uint24_t*)(ptr)) = *(zb_uint24_t*)(vp)
#define	ZB_COPY_INT24(ptr, vp)   *((zb_int24_t*)(ptr)) = *(zb_int24_t*)(vp)
#define	ZB_ASSIGN_UINT32(ptr, vp)   *((zb_uint32_t*)(ptr)) = *(zb_uint32_t*)(vp)
#define	ZB_ASSIGN_INT32(ptr, vp)   *((zb_int32_t*)(ptr)) = *(zb_int32_t*)(vp)
#define	ZB_REVERSE16(ptr, val)
#define	ZB_REVERSE64(ptr, val)
#define	ZB_ARRAY_IDX_BY_ELEM(ar, el)   ((el) - (ar))
#define	ZB_ARRAY_IDX_BY_STRUCT_ELEM(ar, el, el_size)   ( ((zb_size_t)(el) - (zb_size_t)(ar)) / (el_size) )
#define	MIN_SIGNED_24BIT_VAL   (-8388607LL) /* (0xFF800001LL) */
#define	MAX_SIGNED_24BIT_VAL   (0x7FFFFF)
#define	MAX_UNSIGNED_24BIT_VAL   (0xFFFFFFU)
#define	MIN_SIGNED_48BIT_VAL   (-140737488355327LL) /* (0xFFFF800000000001LL) */
#define	MAX_SIGNED_48BIT_VAL   (0x7FFFFFFFFFFF)
#define	MAX_UNSIGNED_48BIT_VAL   (0xFFFFFFFFFFFFU)
#define	ZB_S64_FROM_S48(x)   ((x & 0xFFFFFFFFFFFF) | ((x & 0x800000000000) ? 0xFFFF000000000000 : 0x0))
#define	ZB_S64_TO_S48(x)   ((zb_int64_t)(x & 0xFFFFFFFFFFFF))
#define	ZB_S32_FROM_S24(x)   ((x & 0xFFFFFF) | ((x & 0x800000) ? 0xFF000000 : 0x0))
#define	ZB_S32_TO_S24(x)   ((zb_int32_t)(x & 0xFFFFFF))

Typedefs
typedef zb_uint32_t	zb_lbitfield_t
typedef long long	zb_int64_t
typedef unsigned long long	zb_uint64_t
typedef zb_ushort_t	zb_uindex_t
typedef zb_uint8_t	zb_64bit_data_t[8]
typedef union zb_addr_u_t	zb_addr_u
typedef zb_int32_t	zb_ret_t
	Return type for ZB functions returning execution status. More...

Enumerations
enum	zb_param_e { ZB_UNUSED_PARAM = 0 }
	General purpose parameter type.

Variables
ZB_CONST zb_64bit_addr_t	g_zero_addr
ZB_CONST zb_64bit_addr_t	g_unknown_ieee_addr

Endian change API.
Macros to change words endian and access words at potentially non-aligned pointers. Zigbee uses little endian, see ZB spec, subclause 1.2.1.3.
void	zb_htole16 (zb_uint8_t ZB_XDATA *ptr, zb_uint8_t ZB_XDATA *val)
void	zb_htole32 (zb_uint8_t ZB_XDATA *ptr, zb_uint8_t ZB_XDATA *val)
void *	zb_put_next_htole16 (zb_uint8_t *dst, zb_uint16_t val)
void *	zb_put_next_htole32 (zb_uint8_t *dst, zb_uint32_t val1)
void	zb_get_next_letoh16 (zb_uint16_t *dst, const zb_uint8_t **src)
void *	zb_put_next_2_htole16 (zb_uint8_t *dst, zb_uint16_t val1, zb_uint16_t val2)
void *	zb_put_next_2_htole32 (zb_uint8_t *dst, zb_uint32_t val1, zb_uint32_t val2)
void *	zb_put_next_ieee (zb_uint8_t *dst, zb_ieee_addr_t src)
#define	ZB_8BIT_SIZE   1U
#define	ZB_16BIT_SIZE   2U
#define	ZB_24BIT_SIZE   3U
#define	ZB_32BIT_SIZE   4U
#define	ZB_48BIT_SIZE   6U
#define	ZB_64BIT_SIZE   8U
#define	ZB_HTOLE16(ptr, val)   zb_htole16((zb_uint8_t*)(ptr), (zb_uint8_t*)(val))
#define	ZB_HTOLE16_ONPLACE(val)
#define	ZB_HTOLE32_ONPLACE(val)   { zb_uint32_t _v = (val); ZB_HTOLE32(&(val), &_v); }
#define	ZB_HTOLE32(ptr, val)   zb_htole32((zb_uint8_t*)(ptr), (zb_uint8_t*)(val))
#define	ZB_HTOBE32(ptr, val)   ZB_MEMCPY(ptr, val, 4U)
#define	ZB_HTOBE16(ptr, val)   (*(zb_uint16_t *)(ptr)) = *((zb_uint16_t *)(val))
#define	ZB_HTOBE16_VAL(ptr, val)   ((zb_uint16_t *)(ptr))[0] = (val)
#define	ZB_HTOLE64(ptr, val)   zb_memcpy8(ptr, val)
#define	ZB_HTOLE32_VAL(ptr, val)
#define	ZB_HTOLE16_VAL(ptr, val)
#define	ZB_PUT_NEXT_HTOLE16(ptr, val)
#define	ZB_PUT_NEXT_HTOLE32(ptr, val)   (ptr) = zb_put_next_htole32((ptr), (val))
#define	ZB_LETOH64(dst, src)   zb_memcpy8((zb_uint8_t*)dst, (zb_uint8_t*)src)
#define	ZB_PUT_NEXT_IEEE(dst, src)   (dst) = zb_put_next_ieee((dst), (src));
#define	ZB_LETOH16   ZB_HTOLE16
#define	ZB_LETOH24   ZB_HTOLE24
#define	ZB_LETOH48   ZB_HTOLE48
#define	ZB_LETOH32   ZB_HTOLE32
#define	ZB_BETOH16   ZB_HTOBE16
#define	ZB_BETOH32   ZB_HTOBE32
#define	ZB_LETOH16_ONPLACE   ZB_HTOLE16_ONPLACE
#define	ZB_LETOH32_ONPLACE   ZB_HTOLE32_ONPLACE

Base types.
typedef char	zb_char_t
	Project-local char type.
typedef unsigned char	zb_uchar_t
	Project-local unsigned char type.
typedef unsigned char	zb_uint8_t
	Project-local 1-byte unsigned int type.
typedef signed char	zb_int8_t
	Project-local 1-byte signed int type.
typedef unsigned short	zb_uint16_t
	Project-local 2-byte unsigned int type.
typedef signed short	zb_int16_t
	Project-local 2-byte signed int type.
typedef unsigned int	zb_uint32_t
	Project-local 4-byte unsigned int type.
typedef signed int	zb_int32_t
	Project-local 4-byte signed int type.
typedef zb_uint32_t	zb_bitfield_t
	Type to be used for unsigned bit fields inside structure.
typedef zb_int32_t	zb_sbitfield_t
	Type to be used for signed bit fields inside structure.
typedef zb_uint32_t	zb_size_t
	Project-local size_t type.
typedef int	zb_short_t
	Short int (can fit into single CPU register).
typedef unsigned int	zb_ushort_t
	Short unsigned int (can fit into single CPU register).
typedef int	zb_int_t
	Int (at least 2 bytes).
typedef unsigned int	zb_uint_t
	Unsigned int (at least 2 bytes).
typedef zb_int_t	zb_long_t
	Long int (at least 4 bytes).
typedef zb_uint_t	zb_ulong_t
	Unsigned long int (at least 4 bytes).
typedef zb_uint8_t	zb_bool_t
	General purpose boolean type. For C90, 'zb_bool_t' is an alias of 'zb_uint8_t'. For C99, the availability of the 'stdbool.h' standard header is expected and 'zb_bool_t' is an alias of 'bool'. ZB_FALSE and ZB_TRUE are defined as macros for both standards. More...
typedef zb_bitfield_t	zb_bitbool_t
	Type to be used for boolean bit fields inside structure.
typedef float	zb_single_t
	Project-local single precision float type.

Address types and API.
typedef zb_uint8_t	zb_64bit_addr_t[8]
	8-bytes address (xpanid or long device address) base type.
typedef zb_64bit_addr_t	zb_ieee_addr_t
	Long (64-bit) device address.
typedef zb_64bit_addr_t	zb_ext_pan_id_t
	Long (64-bit) extended Pan ID.
#define	ZB_IS_64BIT_ADDR_ZERO(addr)   (ZB_MEMCMP((addr), (void const*)g_zero_addr, 8) == 0)
	Checks that long address is a zero one. More...
#define	ZB_64BIT_ADDR_ZERO(addr)   ZB_MEMSET((addr), 0, 8)
	Clears long address. More...
#define	ZB_64BIT_ADDR_COPY(dst, src)   ZB_MEMCPY(dst, src, sizeof(zb_64bit_addr_t))
	Copy long address. More...
#define	ZB_64BIT_ADDR_CMP(one, two)   (ZB_MEMCMP((one), (two), 8) == 0)
	Check two long addresses are equal. More...

Detailed Description

Macro Definition Documentation

ZB_64BIT_ADDR_CMP

#define ZB_64BIT_ADDR_CMP	(		one,
			two
	)		(ZB_MEMCMP((one), (two), 8) == 0)

Check two long addresses are equal.

Parameters

one	address to compare.
two	address to compare to.

Returns

ZB_TRUE if addresses are equal, ZB_FALSE otherwise.

ZB_64BIT_ADDR_COPY

#define ZB_64BIT_ADDR_COPY	(		dst,
			src
	)		ZB_MEMCPY(dst, src, sizeof(zb_64bit_addr_t))

Copy long address.

Parameters

dst	where to copy the address.
src	address to copy.

ZB_64BIT_ADDR_ZERO

#define ZB_64BIT_ADDR_ZERO

(

addr

)

ZB_MEMSET((addr), 0, 8)

Clears long address.

Parameters

addr	address to clear.

ZB_ADDR_CMP

#define ZB_ADDR_CMP	(		addr_mode,
			addr1,
			addr2
	)

Value:

  ((addr_mode == ZB_ADDR_16BIT_DEV_OR_BROADCAST) ?                      \
   (addr1.addr_short == addr2.addr_short) : ZB_64BIT_ADDR_CMP(addr1.addr_long, addr2.addr_long))

ZB_CPP_STR

#define ZB_CPP_STR

(

x

)

ZB_CPP_STR2(x)

Create a string at compile time, like 0 - "0"

ZB_FALSE

#define ZB_FALSE   0U

False value literal.

ZB_HTOLE16_ONPLACE

#define ZB_HTOLE16_ONPLACE

(

val

)

Value:

{                       \
  zb_uint8_t *pval = (zb_uint8_t*)(&(val));     \
  zb_uint8_t a = pval[0];           \
  pval[0] = pval[1];                \
  pval[1] = a;                  \
}

ZB_HTOLE16_VAL

#define ZB_HTOLE16_VAL	(		ptr,
			val
	)

Value:

{                                              \
  zb_uint16_t tmp_val = (val);                 \
  ZB_HTOLE16((ptr), &tmp_val);                 \
}

ZB_HTOLE32_VAL

#define ZB_HTOLE32_VAL	(		ptr,
			val
	)

Value:

{                                              \
  zb_uint32_t tmp_val = (val);                 \
  ZB_HTOLE32((ptr), &tmp_val);                 \
}

ZB_IS_64BIT_ADDR_ZERO

#define ZB_IS_64BIT_ADDR_ZERO

(

addr

)

(ZB_MEMCMP((addr), (void const*)g_zero_addr, 8) == 0)

Checks that long address is a zero one.

Parameters

addr	address to check.

Returns

ZB_TRUE if address is zero, ZB_FALSE otherwise.

ZB_LETOH16

#define ZB_LETOH16   ZB_HTOLE16

Convert 16-bits integer from the little endian to the host endian

Parameters

ptr	- destination pointer. It is ok if it not aligned to 2.
val	- source pointer. It is ok if it not aligned to 2.

ZB_PUT_NEXT_HTOLE16

#define ZB_PUT_NEXT_HTOLE16	(		ptr,
			val
	)

Value:

{                                               \
  *((ptr)++) = (zb_uint8_t)(((val) >> 8U) & 0xffU); \
  *((ptr)++) = (zb_uint8_t)((val) & 0xffU);         \
}

ZB_REVERSE16

#define ZB_REVERSE16	(		ptr,
			val
	)

Value:

  (((zb_uint8_t *)(ptr))[0] = ((zb_uint8_t *)(val))[1],     \
   ((zb_uint8_t *)(ptr))[1] = ((zb_uint8_t *)(val))[0])

ZB_REVERSE64

#define ZB_REVERSE64	(		ptr,
			val
	)

Value:

    *((zb_uint8_t*)(ptr)+7) = *((zb_uint8_t*)(val)  ),      \
    *((zb_uint8_t*)(ptr)+6) = *((zb_uint8_t*)(val)+1),      \
    *((zb_uint8_t*)(ptr)+5) = *((zb_uint8_t*)(val)+2),      \
    *((zb_uint8_t*)(ptr)+4) = *((zb_uint8_t*)(val)+3),      \
    *((zb_uint8_t*)(ptr)+3) = *((zb_uint8_t*)(val)+4),      \
    *((zb_uint8_t*)(ptr)+2) = *((zb_uint8_t*)(val)+5),      \
    *((zb_uint8_t*)(ptr)+1) = *((zb_uint8_t*)(val)+6),      \
    *((zb_uint8_t*)(ptr)  ) = *((zb_uint8_t*)(val)+7)

ZB_TRUE

#define ZB_TRUE   1U

True value literal.

Typedef Documentation

zb_bool_t

zb_bool_t

General purpose boolean type. For C90, 'zb_bool_t' is an alias of 'zb_uint8_t'. For C99, the availability of the 'stdbool.h' standard header is expected and 'zb_bool_t' is an alias of 'bool'. ZB_FALSE and ZB_TRUE are defined as macros for both standards.

Boolean type can be ZB_TRUE or ZB_FALSE.

To ensure that zb_bool_t always has the same size of one byte, static compile time assertions were added. See 'zb_common.h'.

zb_ret_t

typedef zb_int32_t zb_ret_t

Return type for ZB functions returning execution status.

See also

RET_OK.

Function Documentation

zb_put_next_htole16()

void* zb_put_next_htole16	(	zb_uint8_t *	dst,
		zb_uint16_t	val
	)

Put next 2-bite value into buffer, move pointer

To be used for headers compose.

Parameters

dst	- (in/out) address of the buffer pointer As a side effect it will be incremented by 2.
val	- value