/* -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- */ /* * Copyright (c) 2001-2004 International Computer Science Institute * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software") * to deal in the Software without restriction, subject to the conditions * listed in the XORP LICENSE file. These conditions include: you must * preserve this copyright notice, and you cannot mention the copyright * holders in advertising related to the Software without their permission. * The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This * notice is a summary of the XORP LICENSE file; the license in that file is * legally binding. */ /* * $XORP: xorp/mrt/netstream_access.h,v 1.3 2004/06/10 22:41:29 hodson Exp $ */ #ifndef __MRT_NETSTREAM_ACCESS_H__ #define __MRT_NETSTREAM_ACCESS_H__ /* * A set of macros to get/put data from/to a stream when the fields * are not 32-bit boundary aligned. Also useful to automatically * check the boundary of the input/output buffer while accessing it. */ /* * Idea taken from Eddy Rusty (eddy@isi.edu). */ #include <sys/types.h> #if !defined(BYTE_ORDER) #if defined(__BYTE_ORDER) #define BYTE_ORDER __BYTE_ORDER #define LITTLE_ENDIAN __LITTLE_ENDIAN #define BIG_ENDIAN __BIG_ENDIAN #else #error "BYTE_ORDER not defined! Define it to either LITTLE_ENDIAN (e.g. i386, vax) or BIG_ENDIAN (e.g. 68000, ibm, net) based on your architecture!" #endif #endif /* * Constants definitions */ /* * Structures, typedefs and macros */ /* * XXX: the data in the stream is ALWAYS in "network order". * * The current stream pointer is (uint8_t *)(cp) * * XXX: the macros below assume that the code has the following * labels that can be used to jump and process the particular error: * 'rcvlen_error' 'buflen_error' * * PUT_NET_32 puts "network ordered" 32-bit data to the datastream. * PUT_HOST_32 puts "host ordered" 32-bit data to the datastream. * GET_NET_32 gets 32-bit data and keeps it in "network order" in the memory. * GET_HOST_32 gets 32-bit data, but in the memory it is in "host order". * The same applies for the 16-bit {PUT,GET}_{NET,HOST}_16 * GET_OCTET and PUT_OCTET get and put a single octet from/to the datastream. * GET_SKIP(octets,...) skips the next 'octets' from the datastream. * PUT_SKIP(octets,...) leaves the next 'octets' untouched in the datastream. * GET_DATA(to, cp, rcvlen, datalen) copies 'datalen' octets from 'cp' to 'to'. * PUT_DATA(from, cp, buflen, datalen) copies 'datalen' octets from 'from' * to 'cp'. */ #define GET_DATA(to, cp, rcvlen, datalen) \ do { \ if ((size_t)(rcvlen) < (size_t)(datalen)) \ goto rcvlen_error; \ memcpy((to), (cp), (datalen)); \ (rcvlen) -= (datalen); \ (cp) += (datalen); \ } while (0) #define PUT_DATA(from, cp, buflen, datalen) \ do { \ if ((size_t)(buflen) < (size_t)(datalen)) \ goto buflen_error; \ memcpy((cp), (from), (datalen)); \ (buflen) -= (datalen); \ (cp) += (datalen); \ } while (0) #define GET_SKIP(octets, cp, rcvlen) \ do { \ if ((size_t)(rcvlen) < (size_t)(octets)) \ goto rcvlen_error; \ (rcvlen) -= (octets); \ (cp) += (octets); \ } while (0) #define PUT_SKIP(octets, cp, buflen) \ do { \ if ((size_t)(buflen) < (size_t)(octets)) \ goto buflen_error; \ (buflen) -= (octets); \ (cp) += (octets); \ } while (0) #define GET_OCTET(val, cp, rcvlen) \ do { \ if ((size_t)(rcvlen) < (size_t)1) \ goto rcvlen_error; \ (rcvlen)--; \ ((val) = *(cp)++); \ } while (0) #define PUT_OCTET(val, cp, buflen) \ do { \ if ((size_t)(buflen) < (size_t)1) \ goto buflen_error; \ (buflen)--; \ (*(cp)++ = (uint8_t)(val)); \ } while (0) #define GET_HOST_16(val, cp, rcvlen) \ do { \ register uint16_t v_; \ \ if ((size_t)(rcvlen) < (size_t)2) \ goto rcvlen_error; \ (rcvlen) -= 2; \ v_ = (*(cp)++) << 8; \ v_ |= *(cp)++; \ (val) = v_; \ } while (0) #define PUT_HOST_16(val, cp, buflen) \ do { \ register uint16_t v_; \ \ if ((size_t)(buflen) < (size_t)2) \ goto buflen_error; \ (buflen) -= 2; \ v_ = (uint16_t)(val); \ *(cp)++ = (uint8_t)(v_ >> 8); \ *(cp)++ = (uint8_t)v_; \ } while (0) #if defined(BYTE_ORDER) && (BYTE_ORDER == LITTLE_ENDIAN) #define GET_NET_16(val, cp, rcvlen) \ do { \ register uint16_t v_; \ \ if ((size_t)(rcvlen) < (size_t)2) \ goto rcvlen_error; \ (rcvlen) -= 2; \ v_ = *(cp)++; \ v_ |= (*(cp)++) << 8; \ (val) = v_; \ } while (0) #define PUT_NET_16(val, cp, buflen) \ do { \ register uint16_t v_; \ \ if ((size_t)(buflen) < (size_t)2) \ goto buflen_error; \ (buflen) -= 2; \ v_ = (uint16_t)(val); \ *(cp)++ = (uint8_t)v_; \ *(cp)++ = (uint8_t)(v_ >> 8); \ } while (0) #endif /* LITTLE_ENDIAN {GET,PUT}_NET_16 */ #if defined(BYTE_ORDER) && (BYTE_ORDER == BIG_ENDIAN) #define GET_NET_16(val, cp, rcvlen) GET_HOST_16(val, cp, rcvlen) #define PUT_NET_16(val, cp, buflen) PUT_HOST_16(val, cp, buflen) #endif /* BIG_ENDIAN {GET,PUT}_NET_16 */ #define GET_HOST_32(val, cp, rcvlen) \ do { \ register uint32_t v_; \ \ if ((size_t)(rcvlen) < (size_t)4) \ goto rcvlen_error; \ (rcvlen) -= 4; \ v_ = (*(cp)++) << 24; \ v_ |= (*(cp)++) << 16; \ v_ |= (*(cp)++) << 8; \ v_ |= *(cp)++; \ (val) = v_; \ } while (0) #define PUT_HOST_32(val, cp, buflen) \ do { \ register uint32_t v_; \ \ if ((size_t)(buflen) < (size_t)4) \ goto buflen_error; \ (buflen) -= 4; \ v_ = (uint32_t)(val); \ *(cp)++ = (uint8_t)(v_ >> 24); \ *(cp)++ = (uint8_t)(v_ >> 16); \ *(cp)++ = (uint8_t)(v_ >> 8); \ *(cp)++ = (uint8_t)v_; \ } while (0) #if defined(BYTE_ORDER) && (BYTE_ORDER == LITTLE_ENDIAN) #define GET_NET_32(val, cp, rcvlen) \ do { \ register uint32_t v_; \ \ if ((size_t)(rcvlen) < (size_t)4) \ goto rcvlen_error; \ (rcvlen) -= 4; \ v_ = *(cp)++; \ v_ |= (*(cp)++) << 8; \ v_ |= (*(cp)++) << 16; \ v_ |= (*(cp)++) << 24; \ (val) = v_; \ } while (0) #define PUT_NET_32(val, cp, buflen) \ do { \ register uint32_t v_; \ \ if ((size_t)(buflen) < (size_t)4) \ goto buflen_error; \ (buflen) -= 4; \ v_ = (uint32_t)(val); \ *(cp)++ = (uint8_t)v_; \ *(cp)++ = (uint8_t)(v_ >> 8); \ *(cp)++ = (uint8_t)(v_ >> 16); \ *(cp)++ = (uint8_t)(v_ >> 24); \ } while (0) #endif /* LITTLE_ENDIAN {GET,PUT}_HOST_32 */ #if defined(BYTE_ORDER) && (BYTE_ORDER == BIG_ENDIAN) #define GET_NET_32(val, cp, rcvlen) GET_HOST_32(val, cp, rcvlen) #define PUT_NET_32(val, cp, buflen) PUT_HOST_32(val, cp, buflen) #endif /* BIG_ENDIAN {GET,PUT}_HOST_32 */ /* * Global variables */ /* * Global functions prototypes */ __BEGIN_DECLS __END_DECLS #endif /* __MRT_NETSTREAM_ACCESS_H__ */