return ok;
}
+int
+ao_hello_packet(void)
+{
+ uint8_t message[5] = "hello";
+ uint8_t encode[ENCODE_LEN(sizeof(message))];
+ int encode_len;
+ uint8_t transmit[EXPAND_LEN(sizeof(message))];
+ uint8_t decode[DECODE_LEN(sizeof(message))];
+ int transmit_len;
+ int decode_ok;
+
+ printf("Hello packet test:\n");
+ ao_fec_dump_bytes(message, sizeof(message), "Message");
+ encode_len = ao_fec_encode(message, sizeof(message), encode);
+ ao_fec_dump_bytes(encode, encode_len, "Encode");
+ transmit_len = ao_expand(encode, encode_len, transmit);
+ ao_fec_dump_bytes(transmit, transmit_len, "Transmit");
+ decode_ok = ao_fec_decode(transmit, transmit_len, decode, sizeof(message) + 2, NULL);
+ ao_fec_dump_bytes(decode, sizeof(message) + 2, "Receive");
+ printf("Hello result: %s\n", decode_ok ? "success" : "fail");
+ return decode_ok;
+}
+
#define EXPECT_DECODE_FAIL 0
-#define EXPECT_CRC_MISMATCH 6386
+#define EXPECT_CRC_MISMATCH 6304
#define EXPECT_DATA_MISMATCH 0
#define NOISE_AMOUNT 0x50
if (!ao_real_packet())
errors++;
+ if (!ao_hello_packet())
+ errors++;
+
srandom(0);
for (trial = 0; trial < 100000; trial++) {