DEBUG(0,("confounder before crypt:\n"));
dump_data(0, confounder, 8);
+ DEBUG(0,("initial seq num:\n"));
dump_data(0, seq_num_initial.data, 8);
+ DEBUG(0,("io data before crypt:\n"));
dump_data(0, io.data, io.length);
for (i = 0; i < key.size; i++) {
io.length);
assert_int_equal(rc, 0);
- dump_data(0, io.data, io.length);
DEBUG(0,("confounder after crypt:\n"));
dump_data(0, confounder, 8);
+ DEBUG(0,("initial seq num:\n"));
dump_data(0, seq_num_initial.data, 8);
+ DEBUG(0,("io data after crypt:\n"));
+ dump_data(0, io.data, io.length);
assert_memory_equal(io.data, crypt_expected.data, crypt_expected.length);
assert_memory_equal(confounder, confounder_expected.data, confounder_expected.length);
assert_int_equal(rc, 0);
gnutls_cipher_deinit(cipher_hnd);
- dump_data(0, io.data, io.length);
DEBUG(0,("confounder after decrypt:\n"));
dump_data(0, confounder, 8);
+ DEBUG(0,("initial seq num:\n"));
dump_data(0, seq_num_initial.data, 8);
+ DEBUG(0,("io data after decrypt:\n"));
+ dump_data(0, io.data, io.length);
assert_memory_equal(io.data, clear_initial.data, clear_initial.length);
assert_memory_equal(confounder, confounder_initial.data, confounder_initial.length);
}