/* Determine the buffering plan. Our buffer is going to do double- \
* duty here. The end portion is going to contain mask from the \
* encrypted counter which we mix into the plaintext to encrypt it; \
- * the start portion, which originally mask bytes we've already used, \
- * will hold the output ciphertext, which will eventually be \
- * collected into the GHASH state. \
+ * the start portion, which originally contained mask bytes we've \
+ * already used, will hold the output ciphertext, which will \
+ * eventually be collected into the GHASH state. \
*/ \
rsvr_mkplan(&plan, &pre##_gcmpolicy, ctx->off, sz); \
\
/* Determine the buffering plan. Our buffer is going to do double- \
* duty here. The end portion is going to contain mask from the \
* encrypted counter which we mix into the plaintext to encrypt it; \
- * the start portion, which originally mask bytes we've already used, \
- * will hold the input ciphertext, which will eventually be \
- * collected into the GHASH state. \
+ * the start portion, which originally contained mask bytes we've \
+ * already used, will hold the input ciphertext, which will \
+ * eventually be collected into the GHASH state. \
*/ \
rsvr_mkplan(&plan, &pre##_gcmpolicy, ctx->off, sz); \
\
#include <stdio.h>
#include <mLib/dstr.h>
+#include <mLib/macros.h>
#include <mLib/quis.h>
#include <mLib/testrig.h>
d.len = BLEN(&b); \
\
if (d.len != v[4].len || \
- memcmp(d.buf, v[4].buf, v[4].len) != 0 || \
- memcmp(t.buf, v[5].buf, v[5].len) != 0) { \
+ MEMCMP(d.buf, !=, v[4].buf, v[4].len) || \
+ MEMCMP(t.buf, !=, v[5].buf, v[5].len)) { \
fail_enc: \
printf("\nfail encrypt:\n\tstep = %i", *ip); \
fputs("\n\tkey = ", stdout); type_hex.dump(&v[0], stdout); \
d.len = BLEN(&b); \
\
if (d.len != v[3].len || !win || \
- memcmp(d.buf, v[3].buf, v[3].len) != 0) { \
+ MEMCMP(d.buf, !=, v[3].buf, v[3].len)) { \
fail_dec: \
printf("\nfail decrypt:\n\tstep = %i", *ip); \
fputs("\n\tkey = ", stdout); type_hex.dump(&v[0], stdout); \