(This is only a partial answer.)
This sounds similar to the way C's standard character input is done.
fgetc() function returns an
int result, which is either the value
-1), if there was an error or there's no more data to read, or the value of the character that was successfully read, treated as an
unsigned char and converted to
If you store the value returned by
fgetc() in a signed
char object (note that plain
char may be either signed or unsigned), a value of
-1 could indicate either that
EOF, or that it successfully read a byte with the value
0xFF. That's the problem with this kind of in-band signalling; it can be difficult to distinguish between an error indication and valid data that happens to look like an error indication.
fgetc(), there are two ways to resolve this. You can store the result in an
int, which means you'll get distinct values for
EOF (-1) and for
0xFF (255). Or you can call the
ferror() functions after calling
fgetc(); if either returns a true value, you know that the
EOF indicated an actual error or end-of-file condition.
You haven't told us enough about the interface between your microcontroller and Matlab to know how you can make this distinction. If there's some other function you can call, something similar to
ferror(), you could call it when you get a -1 or 255 result to determine what that result means. Or, if possible, you might consider modifying the interface you're using so it returns a result bigger than one byte, so that the error indication
-1 is distinct from all possible valid data values.