hwaddr.len is an unsigned char which has range 0 to 255. So an attacker could send you a packet which declares length 255. Since
hwaddr.addr is declared as a 128-byte buffer, the attacker can then deliver a payload of 127 bytes. Is that enough?
The usual x86 calling convention is to push the return address, push arguments, and then jump, at which point the callee will allocate each variable in the order declared. So, counting from the start of
hwaddr.len will be 128 bytes above the stack pointer,
packet will be 129 bytes above, and the return address will be
129 + sizeof(char *), which is at most 137 bytes even on a 64-bit system. So, yes, the attacker can overwrite your return address and deliver 118 bytes of shell code in addition.
Edit I just figured out the OP's confusion. When you encode the length as an
unsigned char, this does not mean you use ASCII to represent the length. That is, you do not read this byte, call
atoi() on it, and get a single-digit number ranging from 0 to 9. You just use the eight bits like a really narrow
int type, where each bit represents a binary digit.