#ifndef PORTABLE_C__ #define PORTABLE_C__ /* Definition of minimum-width integer types * * u8 -> unsigned integer type, at least 8 bits, equivalent to unsigned char * u16 -> unsigned integer type, at least 16 bits * u32 -> unsigned integer type, at least 32 bits * * s8, s16, s32 -> signed counterparts of u8, u16, u32 * * Always use macro's T8(), T16() or T32() to obtain exact-width results, * i.e., to specify the size of the result of each expression. */ typedef uint8_t u8; typedef uint16_t u16; typedef uint32_t u32; typedef uint64_t u64; #define ONE8 0xffU #define ONE16 0xffffU #define ONE32 0xffffffffUL #define LL(v) (v##ULL) #define ONE64 LL(0xffffffffffffffff) #define T8(x) ((x) & ONE8) #define T16(x) ((x) & ONE16) #define T32(x) ((x) & ONE32) #define T64(x) ((x) & ONE64) #define ROTR64(v, n) (((v) >> (n)) | T64((v) << (64 - (n)))) /* * Note: the test is used to detect native 64-bit architectures; * if the unsigned long is strictly greater than 32-bit, it is * assumed to be at least 64-bit. This will not work correctly * on (old) 36-bit architectures (PDP-11 for instance). * * On non-64-bit architectures, "long long" is used. */ /* * U8TO32_BIG(c) returns the 32-bit value stored in big-endian convention * in the unsigned char array pointed to by c. */ #define U8TO32_BIG(c) (((u32)T8(*(c)) << 24) | ((u32)T8(*((c) + 1)) << 16) | ((u32)T8(*((c) + 2)) << 8) | ((u32)T8(*((c) + 3)))) /* * U8TO32_LITTLE(c) returns the 32-bit value stored in little-endian convention * in the unsigned char array pointed to by c. */ #define U8TO32_LITTLE(c) (((u32)T8(*(c))) | ((u32)T8(*((c) + 1)) << 8) | (u32)T8(*((c) + 2)) << 16) | ((u32)T8(*((c) + 3)) << 24)) /* * U8TO32_BIG(c, v) stores the 32-bit-value v in big-endian convention * into the unsigned char array pointed to by c. */ #define U32TO8_BIG(c, v) do { u32 x = (v); u8 *d = (c); d[0] = T8(x >> 24); d[1] = T8(x >> 16); d[2] = T8(x >> 8); d[3] = T8(x); } while (0) /* * U8TO32_LITTLE(c, v) stores the 32-bit-value v in little-endian convention * into the unsigned char array pointed to by c. */ #define U32TO8_LITTLE(c, v) do { u32 x = (v); u8 *d = (c); d[0] = T8(x); d[1] = T8(x >> 8); d[2] = T8(x >> 16); d[3] = T8(x >> 24); } while (0) /* * ROTL32(v, n) returns the value of the 32-bit unsigned value v after * a rotation of n bits to the left. It might be replaced by the appropriate * architecture-specific macro. * * It evaluates v and n twice. * * The compiler might emit a warning if n is the constant 0. The result * is undefined if n is greater than 31. */ #define ROTL32(v, n) (T32((v) << (n)) | ((v) >> (32 - (n)))) /* * Whirlpool-specific definitions. */ #define WHIRLPOOL_DIGEST_BYTES 64 #define WHIRLPOOL_DIGEST_BITS (8*WHIRLPOOL_DIGEST_BYTES) /* 512 */ #define WHIRLPOOL_WBLOCK_BYTES 64 #define WHIRLPOOL_WBLOCK_BITS (8*WHIRLPOOL_WBLOCK_BYTES) /* 512 */ #define WHIRLPOOL_LENGTH_BYTES 32 #define WHIRLPOOL_LENGTH_BITS (8*WHIRLPOOL_LENGTH_BYTES) /* 256 */ typedef struct whirlpool_context_t { u8 bitLength[WHIRLPOOL_LENGTH_BYTES]; /* global number of hashed bits (256-bit counter) */ u8 buffer[WHIRLPOOL_WBLOCK_BYTES]; /* buffer of data to hash */ int bufferBits; /* current number of bits on the buffer */ int bufferPos; /* current (possibly incomplete) byte slot on the buffer */ u64 hash[WHIRLPOOL_DIGEST_BYTES/8]; /* the hashing state */ } whirlpool_context_t; #ifndef __BEGIN_DECLS # if defined(__cplusplus) # define __BEGIN_DECLS extern "C" { # define __END_DECLS } # else # define __BEGIN_DECLS # define __END_DECLS # endif #endif __BEGIN_DECLS void whirlpool_init(whirlpool_context_t *); void whirlpool_update(whirlpool_context_t *, const unsigned char *, unsigned int); void whirlpool_finalize(char *, whirlpool_context_t *); char *whirlpool_end(whirlpool_context_t *, char *); char *whirlpool_file(char *, char *); __END_DECLS #endif /* PORTABLE_C__ */