ref: f11139d4c918802a87730bc14d094670ee4ce572
dir: /libsec/aes_xts.c/
#include "os.h" #include <libsec.h> /* little-endian data order */ #define GET4(p) ((p)[0]|((p)[1]<<8)|((p)[2]<<16)|((p)[3]<<24)) #define PUT4(p,v) (p)[0]=(v);(p)[1]=(v)>>8;(p)[2]=(v)>>16;(p)[3]=(v)>>24 static void gf_mulx(uchar *x) { ulong t0, t1, t2, t3, t4; t0 = GET4(x); t1 = GET4(x+4); t2 = GET4(x+8); t3 = GET4(x+12); t4 = (t3 >> 31); t3 = (t3 << 1) | (t2 >> 31); t2 = (t2 << 1) | (t1 >> 31); t1 = (t1 << 1) | (t0 >> 31); t0 = (t0 << 1) ^ (t4*135); PUT4(x, t0); PUT4(x+4, t1); PUT4(x+8, t2); PUT4(x+12, t3); } static void xor128(uchar *o, uchar *i1, uchar *i2) { int i; for(i=0; i<16; i++) o[i] = i1[i] ^ i2[i]; } static void setupT(AESstate *tweak, uvlong sectorNumber, uchar T[AESbsize]) { PUT4(T+0, (ulong)sectorNumber), sectorNumber >>= 32; PUT4(T+4, (ulong)sectorNumber); PUT4(T+8, 0); PUT4(T+12, 0); aes_encrypt(tweak->ekey, tweak->rounds, T, T); } void aes_xts_encrypt(AESstate *tweak, AESstate *ecb, uvlong sectorNumber, uchar *input, uchar *output, ulong len) { uchar T[AESbsize], x[AESbsize]; if(len % AESbsize) abort(); setupT(tweak, sectorNumber, T); for (; len > 0; len -= AESbsize, input += AESbsize, output += AESbsize) { xor128(x, input, T); aes_encrypt(ecb->ekey, ecb->rounds, x, x); xor128(output, x, T); gf_mulx(T); } } void aes_xts_decrypt(AESstate *tweak, AESstate *ecb, uvlong sectorNumber, uchar *input, uchar *output, ulong len) { uchar T[AESbsize], x[AESbsize]; if(len % AESbsize) abort(); setupT(tweak, sectorNumber, T); for (; len > 0; len -= AESbsize, input += AESbsize, output += AESbsize) { xor128(x, input, T); aes_decrypt(ecb->dkey, ecb->rounds, x, x); xor128(output, x, T); gf_mulx(T); } }