module blowfish pub fn expand_key(key []byte, mut bf Blowfish) { mut j := 0 for i := 0; i < 18; i++ { mut d := u32(0) for k := 0; k < 4; k++ { d = d << 8 | u32(key[j]) j++ if j >= key.len { j = 0 } } bf.p[i] ^= d } mut l := u32(0) mut r := u32(0) for i := 0; i < 18; i += 2 { arr := encrypt_block(l, r, mut bf) bf.p[i], bf.p[i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { arr := encrypt_block(l, r, mut bf) bf.s[0][i], bf.s[0][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { arr := encrypt_block(l, r, mut bf) bf.s[1][i], bf.s[1][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { arr := encrypt_block(l, r, mut bf) bf.s[2][i], bf.s[2][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { arr := encrypt_block(l, r, mut bf) bf.s[3][i], bf.s[3][i + 1] = arr[0], arr[1] } } pub fn expand_key_with_salt(key []byte, salt []byte, mut bf Blowfish) { mut j := 0 for i := 0; i < 18; i++ { bf.p[i] ^= get_next_word(key, &j) } j = 0 mut l := u32(0) mut r := u32(0) for i := 0; i < 18; i += 2 { l ^= get_next_word(key, &j) r ^= get_next_word(key, &j) arr := encrypt_block(l, r, mut bf) bf.p[i], bf.p[i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { l ^= get_next_word(key, &j) r ^= get_next_word(key, &j) arr := encrypt_block(l, r, mut bf) bf.s[0][i], bf.s[0][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { l ^= get_next_word(key, &j) r ^= get_next_word(key, &j) arr := encrypt_block(l, r, mut bf) bf.s[1][i], bf.s[1][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { l ^= get_next_word(key, &j) r ^= get_next_word(key, &j) arr := encrypt_block(l, r, mut bf) bf.s[2][i], bf.s[2][i + 1] = arr[0], arr[1] } for i := 0; i < 256; i += 2 { l ^= get_next_word(key, &j) r ^= get_next_word(key, &j) arr := encrypt_block(l, r, mut bf) bf.s[3][i], bf.s[3][i + 1] = arr[0], arr[1] } } fn encrypt_block(l u32, r u32, mut bf Blowfish) []u32 { mut xl := l mut xr := r xl ^= bf.p[0] xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[1]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[2]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[3]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[4]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[5]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[6]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[7]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[8]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[9]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[10]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[11]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[12]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[13]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[14]) xr ^= ((bf.s[0][byte(xl >> 24)] + bf.s[1][byte(xl >> 16)]) ^ bf.s[2][byte(xl >> 8)]) + (bf.s[3][byte(xl)] ^ bf.p[15]) xl ^= ((bf.s[0][byte(xr >> 24)] + bf.s[1][byte(xr >> 16)]) ^ bf.s[2][byte(xr >> 8)]) + (bf.s[3][byte(xr)] ^ bf.p[16]) xr ^= bf.p[17] return [xl, xr] } fn get_next_word(b []byte, pos &int) u32 { mut w := u32(0) mut j := 0 unsafe { j = *pos } for i := 0; i < 4; i++ { w = w << 8 | u32(b[j]) j++ if j >= b.len { j = 0 } } unsafe { *pos = j } return w }