If you want a statically sized circular buffer then your could declare the size in the header file. Using a #define for the buffer size will make the code more readable and maintainable, as you'll reference the size elsewhere in your code.
If you want the circular buffer to be growable then define the size in your C file. You'll then have to take care of tracking the size and destroying the memory that you will have to allocate dynamically.
In your example, I think you need to allocate more room for your quote structs...
cbuf *buffer = (cbuf *)calloc(1,sizeof(cbuf) + NUM_QUOTES*sizeof(struct quote));
The reason for this is that in your struct def...
... quoteBuffer doesn't add size to the struct. quoteBuffer will point to one byte past the end of the struct, hence the need to allocate memory for the struct + memory for the array.
EDIT: Daniel Fischer's comment (thanks Daniel) - quoteBuffer may, in some cases, add size to the struct if it introduces padding. The reason is that the compiler will probably strive to get the most optimal alignment for quoteBuffer. For example, ints normally aligned of 4-byte boundaries. E.g. a struct like:
is probably changed by compiler to
char pad; // compiler adds padding behind the scenes
int b; // align b on a 4-byte boundary
This probs doesn't apply in your case as your struct leaves quoteBuffer on a 4 byte boundary.
The reason that the compiler does this is two fold.
1. On some architectures (not so common nowadays I think?), unaligned accesses aren't supported.
2. Aligned accesses are more efficient, even if architecture allows non-aligned accesses as it is one memory read as opposed to two memory reads plus a manipulation.