/* * tidef.h * * Copyright(c) 1998 - 2009 Texas Instruments. All rights reserved. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name Texas Instruments nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef TIDEF_H #define TIDEF_H #include "osTIType.h" /** \file tidef.h * \brief TI User Definitions APIs * \n\n * Note: TI_ prefix implies TI wrapping of primitives which is used for partability. * E.g. using these interfaces enables porting between different OS under these * interfaces without user notice. * \n\n */ /********************** * Definitions **********************/ /** * \def TI_FALSE * \brief False value */ #define TI_FALSE 0 /** * \def TI_TRUE * \brief True value */ #define TI_TRUE 1 /** * \def TI_OK * \brief OK return value */ #define TI_OK 0 /** * \def TI_NOK * \brief NOT OK return value */ #define TI_NOK 1 /** * \def TI_PENDING * \brief Pending return value */ #define TI_PENDING 2 /** * \def MAC_ADDR_LEN * \brief Length of Standart MAC address */ #define MAC_ADDR_LEN 6 /** * \def IP_V4_ADDR_LEN * \brief Length of Standart IP V4 address */ #define REGISTER_SIZE 4 #define IP_V4_ADDR_LEN 4 /** * \def IP_V4_ADDR_LEN * \brief Length of Standart IP V6 address */ #define IP_V6_ADDR_LEN 6 /********************** * Macros **********************/ #ifndef TI_MAX /** * \def TI_MAX * \brief Macro which returns the maximum of two values */ #define TI_MAX(a,b) (((a) > (b)) ? (a) : (b)) #endif #ifndef TI_MIN /** * \def TI_MAX * \brief Macro which returns the minimum of two values */ #define TI_MIN(a,b) (((a) < (b)) ? (a) : (b)) #endif #ifndef NULL /** * \def NULL * \brief Macro which returns NULL */ #define NULL ((void *)0) #endif /** * \def TI_VOIDCAST * \brief Macro which Casts to void */ #ifndef TI_VOIDCAST #define TI_VOIDCAST(p) ((void)p) #endif #ifndef SIZE_ARR /** * \def SIZE_ARR * \brief Macro which returns number of elements in array a */ #define SIZE_ARR(a) (sizeof(a)/sizeof(a[0])) #endif #ifndef TI_FIELD_OFFSET /** * \def TI_FIELD_OFFSET * \brief Macro which returns a field offset from structure begine */ #define TI_FIELD_OFFSET(type,field) ((TI_UINT32)(&(((type*)0)->field))) #endif #ifndef TI_BIT #define TI_BIT(x) (1 << (x)) #endif #ifndef IS_MASK_ON /** * \def IS_MASK_ON * \brief Macro which returns True if bitmask in field is on (==1) \n * Otherwise returns False */ #define IS_MASK_ON( field, bitmask ) ( (bitmask) == ( (field) & (bitmask) ) ) #endif #ifndef IS_MASK_OFF /** * \def IS_MASK_OFF * \brief Macro which returns True if bitmask in field is off (==0) \n * Otherwise returns False */ #define IS_MASK_OFF( field, bitmask ) ( ~(bitmask) == ( (field) | ~(bitmask) ) ) #endif #ifndef INRANGE /** * \def INRANGE * \brief Macro which returns True if value (x) in range (law <= x <= high) \n * Otherwise returns False */ #define INRANGE(x,low,high) (((x) >= (low)) && ((x) <= (high))) #endif #ifndef OUTRANGE /** * \def OUTRANGE * \brief Macro which returns True if value (x) out of range (x < law | x > high) \n * Otherwise returns False */ #define OUTRANGE(x,low,high) (((x) < (low)) || ((x) > (high))) #endif /* Due to alignment exceptions MAC_COPY and MAC_EQUAL are done byte by byte */ /** * \def MAC_COPY * \brief Macro which copies 6 bytes source to 6 bytes destination \n * Due to alignment exceptions MAC_COPY is done byte by byte */ #define MAC_COPY(dst,src) *((TI_UINT8*)&((dst)[0])) = *((TI_UINT8*)&((src)[0])); \ *((TI_UINT8*)&((dst)[1])) = *((TI_UINT8*)&((src)[1])); \ *((TI_UINT8*)&((dst)[2])) = *((TI_UINT8*)&((src)[2])); \ *((TI_UINT8*)&((dst)[3])) = *((TI_UINT8*)&((src)[3])); \ *((TI_UINT8*)&((dst)[4])) = *((TI_UINT8*)&((src)[4])); \ *((TI_UINT8*)&((dst)[5])) = *((TI_UINT8*)&((src)[5])) /** * \def MAC_EQUAL * \brief Macro which compares 6 bytes ofmac1 to 6 bytes of mac2 and returns True if all are equall \n * Otherwise returns False \n * Due to alignment exceptions MAC_EQUAL is done byte by byte */ #define MAC_EQUAL(mac1,mac2) (*((TI_UINT8*)&((mac1)[0])) == *((TI_UINT8*)&((mac2)[0])) && \ *((TI_UINT8*)&((mac1)[1])) == *((TI_UINT8*)&((mac2)[1])) && \ *((TI_UINT8*)&((mac1)[2])) == *((TI_UINT8*)&((mac2)[2])) && \ *((TI_UINT8*)&((mac1)[3])) == *((TI_UINT8*)&((mac2)[3])) && \ *((TI_UINT8*)&((mac1)[4])) == *((TI_UINT8*)&((mac2)[4])) && \ *((TI_UINT8*)&((mac1)[5])) == *((TI_UINT8*)&((mac2)[5]))) /** * \def MAC_BROADCAST * \brief Macro which returns True if MAC address is broadcast (equals "\xff\xff\xff\xff\xff\xff") \n * Otherwise returns False */ #define MAC_BROADCAST(mac) MAC_EQUAL (mac, "\xff\xff\xff\xff\xff\xff") /** * \def MAC_NULL * \brief Macro which returns True if MAC address is Null (equals "\x0\x0\x0\x0\x0\x0") \n * Otherwise returns False */ #define MAC_NULL(mac) MAC_EQUAL (mac, "\x0\x0\x0\x0\x0\x0") /** * \def MAC_MULTICAST * \brief Macro which returns True if MAC address is Multicast\n * Otherwise returns False */ #define MAC_MULTICAST(mac) ((mac)[0] & 0x01) /** * \def IP_COPY * \brief Macro which copies IP V4 source to IP V4 destination */ #define IP_COPY(dst,src) *((TI_UINT32*)(dst)) = *((TI_UINT32*)(src)) /** * \def BYTE_SWAP_WORD * \brief Macro which swaps Word's bytes. Used for Endian handling */ #define BYTE_SWAP_WORD(x) ((((x) >> 8) & 0xff) | (((x) & 0xff) << 8)) /** * \def BYTE_SWAP_LONG * \brief Macro which swaps Long's bytes. Used for Endian handling */ #define BYTE_SWAP_LONG(x) ((((x) & 0xff000000) >> 24) | (((x) & 0x00ff0000) >> 8) | \ (((x) & 0x0000ff00) << 8) | (((x) & 0x000000ff) << 24)) /* TI always supports Little Endian */ #if defined (__BYTE_ORDER_BIG_ENDIAN) #define WLANTOHL(x) (x) #define WLANTOHS(x) (x) #define HTOWLANL(x) (x) #define HTOWLANS(x) (x) #define ENDIAN_HANDLE_WORD(x) BYTE_SWAP_WORD (x) #define ENDIAN_HANDLE_LONG(x) BYTE_SWAP_LONG (x) #define INT64_LOWER(x) *(((TI_UINT32*)&(x))+1) #define INT64_HIGHER(x) *((TI_UINT32*)&(x)) #define COPY_WLAN_WORD(dst,src) ((TI_UINT8 *)(dst))[0] = ((TI_UINT8 *)(src))[1]; \ ((TI_UINT8 *)(dst))[1] = ((TI_UINT8 *)(src))[0] #define COPY_WLAN_LONG(dst,src) ((TI_UINT8 *)(dst))[0] = ((TI_UINT8 *)(src))[3]; \ ((TI_UINT8 *)(dst))[1] = ((TI_UINT8 *)(src))[2]; \ ((TI_UINT8 *)(dst))[2] = ((TI_UINT8 *)(src))[1]; \ ((TI_UINT8 *)(dst))[3] = ((TI_UINT8 *)(src))[0] #define SET_WLAN_WORD(dst,val) ((TI_UINT8 *)(dst))[1] = (val) & 0xff; \ ((TI_UINT8 *)(dst))[0] = ((val) >> 8) & 0xff #define SET_WLAN_LONG(dst,val) ((TI_UINT8 *)(dst))[3] = (val) & 0xff; \ ((TI_UINT8 *)(dst))[2] = ((val) >> 8) & 0xff; \ ((TI_UINT8 *)(dst))[1] = ((val) >> 16) & 0xff; \ ((TI_UINT8 *)(dst))[0] = ((val) >> 24) & 0xff #define WLAN_WORD(src) (((TI_UINT8 *)(src))[1]) | (((TI_UINT8 *)(src))[0] << 8) #define WLAN_LONG(src) (((TI_UINT8 *)(src))[3]) | (((TI_UINT8 *)(src))[2] << 8) | (((TI_UINT8 *)(src))[1] << 16) | (((TI_UINT8 *)(src))[0] << 24) #elif defined (__BYTE_ORDER_LITTLE_ENDIAN) /** * \def WLANTOHL * \brief Macro which performs bytes swap of Long in Little Endian */ #define WLANTOHL(x) BYTE_SWAP_LONG (x) /** * \def WLANTOHS * \brief Macro which performs bytes swap of Word in Little Endian */ #define WLANTOHS(x) BYTE_SWAP_WORD (x) /** * \def HTOWLANL * \brief Macro which performs bytes swap of Long in Little Endian */ #define HTOWLANL(x) BYTE_SWAP_LONG (x) /** * \def HTOWLANL * \brief Macro which performs bytes swap of Word in Little Endian */ #define HTOWLANS(x) BYTE_SWAP_WORD (x) /** * \def ENDIAN_HANDLE_WORD * \brief Macro which handles Word in Little Endian */ #define ENDIAN_HANDLE_WORD(x) (x) /** * \def ENDIAN_HANDLE_WORD * \brief Macro which handles Long in Little Endian */ #define ENDIAN_HANDLE_LONG(x) (x) /** * \def INT64_HIGHER * \brief Macro which returns the content of higher address of INT64 variable in Little Endian */ #define INT64_HIGHER(x) *(((TI_UINT32*)&(x))+1) /** * \def INT64_LOWER * \brief Macro which returns the content of lower address of INT64 variable in Little Endian */ #define INT64_LOWER(x) *((TI_UINT32*)&(x)) /** * \def COPY_WLAN_WORD * \brief Macro which copies word source to word destination byte by byte in Little Endian */ #define COPY_WLAN_WORD(dst,src) ((TI_UINT8 *)(dst))[0] = ((TI_UINT8 *)(src))[0]; \ ((TI_UINT8 *)(dst))[1] = ((TI_UINT8 *)(src))[1] /** * \def COPY_WLAN_LONG * \brief Macro which copies long source to long destination byte by byte in Little Endian */ #define COPY_WLAN_LONG(dst,src) ((TI_UINT8 *)(dst))[0] = ((TI_UINT8 *)(src))[0]; \ ((TI_UINT8 *)(dst))[1] = ((TI_UINT8 *)(src))[1]; \ ((TI_UINT8 *)(dst))[2] = ((TI_UINT8 *)(src))[2]; \ ((TI_UINT8 *)(dst))[3] = ((TI_UINT8 *)(src))[3] /** * \def SET_WLAN_WORD * \brief Macro which copies Word from val source to desrination in Little Endian */ #define SET_WLAN_WORD(dst,val) ((TI_UINT8 *)(dst))[0] = (val) & 0xff; \ ((TI_UINT8 *)(dst))[1] = ((val) >> 8) & 0xff /** * \def SET_WLAN_LONG * \brief Macro which copies Long from val source to desrination in Little Endian */ #define SET_WLAN_LONG(dst,val) ((TI_UINT8 *)(dst))[0] = (val) & 0xff; \ ((TI_UINT8 *)(dst))[1] = ((val) >> 8) & 0xff; \ ((TI_UINT8 *)(dst))[2] = ((val) >> 16) & 0xff; \ ((TI_UINT8 *)(dst))[3] = ((val) >> 24) & 0xff /** * \def WLAN_WORD * \brief Macro which returns Word value from source address in Little Endian */ #define WLAN_WORD(src) (((TI_UINT8 *)(src))[0]) | (((TI_UINT8 *)(src))[1] << 8) /** * \def WLAN_LONG * \brief Macro which returns Long value from source address in Little Endian */ #define WLAN_LONG(src) (((TI_UINT8 *)(src))[0]) | (((TI_UINT8 *)(src))[1] << 8) | (((TI_UINT8 *)(src))[2] << 16) | (((TI_UINT8 *)(src))[3] << 24) #else #error "Must define byte order (BIG/LITTLE ENDIAN)" #endif /********************** * types **********************/ /** * \typedef TI_HANDLE * \brief Handle type - Pointer to void */ typedef void* TI_HANDLE; /** * \typedef TI_BOOL * \brief Boolean type * \n * Used for indicating True or False ( TI_TRUE | TI_FALSE ) */ typedef TI_UINT32 TI_BOOL; /** * \typedef TI_STATUS * \brief Return Status type * \n * Used as return status ( TI_OK | TI_NOK | TI_PENDING ) */ typedef TI_UINT32 TI_STATUS; /** * \typedef TMacAddr * \brief MAC Address Type * \n * A buffer (size of Standart MAC Address Length in bytes) which holds a MAC address */ typedef TI_UINT8 TMacAddr [MAC_ADDR_LEN]; /** * \typedef TIpAddr * \brief IP V4 Address Type * \n * A buffer (size of Standart IP V4 Address Length in bytes) which holds IP V4 address */ typedef TI_UINT8 TIpAddr [IP_V4_ADDR_LEN]; #endif /* TIDEF_H */