The struct contains two pointers, for
message. They have values such as 0x1000 and 0x1040. Your first process maps shared memory, say at address 0x7000. It copies the struct into shared memory. The second process maps the same shared memory, say at address 0x9000. It reads the struct. Then it uses the pointers, which causes it to look for
message at addresses 0x1000 and 0x1040. But they are not at those addresses in the memory of the second process. So the second process fails.
To fix this, you must arrange for
message to be in shared memory, and you must either arrange for them to be at the same address in both processes (by telling
mmap exactly where you want to map memory, not letting the system pick the address) or you must include information in the shared memory about how to locate
message. This is often done by using offsets instead of pointers. That is, instead of having pointers to
char in the struct, have offsets (possibly with type
ptrdiff_t) that give the number of bytes from a base location to the key and the message. The beginning of the shared memory segment is a typical base to use.
If you have only one key and one message to shared, then a common way this is done is simply to use a single data structure for the shared memory, as you showed with your second definition of
shared_data: The key and the message are part of the struct, so their offsets are known, simply as offsets from the beginning of the struct. If you are sharing more complicated data, such as trees or linked lists, then you may need to use explicit offsets.