#ifndef MD5_H #define MD5_H /* The following tests optimise behaviour on little-endian machines, where there is no need to reverse the byte order of 32 bit words in the MD5 computation. By default, HIGHFIRST is defined, which indicates we're running on a big-endian (most significant byte first) machine, on which the byteReverse function in md5.c must be invoked. However, byteReverse is coded in such a way that it is an identity function when run on a little-endian machine, so calling it on such a platform causes no harm apart from wasting time. If the platform is known to be little-endian, we speed things up by undefining HIGHFIRST, which defines byteReverse as a null macro. Doing things in this manner insures we work on new platforms regardless of their byte order. */ #define HIGHFIRST #ifdef __i386__ #undef HIGHFIRST #endif /* On machines where "long" is 64 bits, we need to declare uint32 as something guaranteed to be 32 bits. */ #ifdef __alpha typedef unsigned int uint32; #else typedef unsigned long uint32; #endif struct MD5Context { uint32 buf[4]; uint32 bits[2]; unsigned char in[64]; }; extern void MD5Init(); extern void MD5Update(); extern void MD5Final(); extern void MD5Transform(); /* * This is needed to make RSAREF happy on some MS-DOS compilers. */ typedef struct MD5Context MD5_CTX; /* Define CHECK_HARDWARE_PROPERTIES to have main,c verify byte order and uint32 settings. */ #define CHECK_HARDWARE_PROPERTIES #endif /* !MD5_H */