If you don't know the size a-priori, then you have no choice but to create it dynamically using malloc (or whatever equivalent mechanism in your language of choice.)
size_t buffer_size = ...; /* read from a DEFINE or from a config file */
char * buffer = malloc( sizeof( char ) * (buffer_size + 1) );
Creating a buffer of size
m, but only receiving an input string of size
n < m is not a waste of memory, but an engineering compromise.
If you create your buffer with a size close to the intended input, you risk having to refill the buffer many, many times for those cases where
m >> n. Typically, iterations over the buffer are tied up with I/O operations, so now you might be saving some bytes (which is really nothing in today's hardware) at the expense of potentially increasing the problems in some other end. Specially for client-server apps. If we were talking about resource-constrained embedded systems, that'd be another thing.
You should be worrying about getting your algorithms right and solid. Then you worry, if you can, about shaving off a few bytes here and there.
For me, I'd rather create a buffer that is 2 to 10 times greater than the average input (not the smallest input as in your case, but the average), assuming my input tends to have a slow standard deviation in size. Otherwise, I'd go 20 times the size or more (specially if memory is cheap and doing this minimizes hitting the disk or the NIC card.)
At the most basic setup, one typically gets the size of the buffer as a configuration item read off a file (or passed as an argument), and defaulting to a
default compile time value if none is provided. Then you can adjust the size of your buffers according to the observed input sizes.
More elaborate algorithms (say TCP) adjust the size of their buffers at run-time to better accommodate input whose size might/will change over time.