uint8_t i,c0=0,c1=0; /* carry */
ibit ^= ((r[159/8])>>(159%8))&1; /* ibit is now the same as feedback_bit */
if(cbit){
uint8_t i,c0=0,c1=0; /* carry */
ibit ^= ((r[159/8])>>(159%8))&1; /* ibit is now the same as feedback_bit */
if(cbit){
-void clock_kg(uint8_t* r, uint8_t* s, uint8_t mixing, uint8_t input){
+void clock_kg(uint8_t *r, uint8_t *s, uint8_t mixing, uint8_t input){
uint8_t rb, sb;
rb = ((s[ 54/8])>>(( 54%8))) ^ ((r[106/8])>>(((106%8))));
sb = ((s[106/8])>>((106%8))) ^ ((r[ 53/8])>>((( 53%8))));
uint8_t rb, sb;
rb = ((s[ 54/8])>>(( 54%8))) ^ ((r[106/8])>>(((106%8))));
sb = ((s[106/8])>>((106%8))) ^ ((r[ 53/8])>>((( 53%8))));
-void mickey128_init(void* key, uint16_t keysize_b,
- void* iv, uint16_t ivsize_b,
- mickey128_ctx_t* ctx){
+void mickey128_init(void *key, uint16_t keysize_b,
+ void *iv, uint16_t ivsize_b,
+ mickey128_ctx_t *ctx){
uint8_t ret;
ret = 1&(*(ctx->r) ^ *(ctx->s));
clock_kg(ctx->r, ctx->s, 0, 0);
return ret;
}
uint8_t ret;
ret = 1&(*(ctx->r) ^ *(ctx->s));
clock_kg(ctx->r, ctx->s, 0, 0);
return ret;
}