Disclaimer: this is not really a direct answer, but rather a series of questions and suggestions that are too long for a comment.
First Question: Do you have control over both ends of the protocol, e.g. can you choose the checksum algorithm by means of either yourself or a coworker controlling the code on the other end?
If YES to question #1:
You need to evaluate why you need the checksum, what checksum is appropriate, and the consequences of receiving a corrupt message with a valid checksum (which factors into both the what & why).
What is your transmission medium, protocol, bitrate, etc? Are you expecting/observing bit errors? So for example, with SPI or I2C from one chip to another on the same board, if you have bit errors, it's probably the HW engineers fault or you need to slow the clock rate, or both. A checksum can't hurt, but shouldn't really be necessary. On the other hand, with an infrared signal in a noisy environment, and you'll have a much higher probability of error.
Consequences of a bad message is always the most important question here. So if you're writing the controller for digital room thermometer and sending a message to update the display 10x a second, one bad value ever 1000 messages has very little if any real harm. No checksum or a weak checksum should be fine.
If these 6 bytes fire a missile, set the position of a robotic scalpel, or cause the transfer of money, you better be damn sure you have the right checksum, and may even want to look into a cryptographic hash (which may require more RAM than you have).
For in-between stuff, with noticeable detriment to performance/satisfaction with the product, but no real harm, its your call. For example, a TV that occasionally changes the volume instead of the channel could annoy the hell out of customers--more so than simply dropping the command if a good CRC detects an error, but if you're in the business of making cheap/knock-off TVs that might be OK if it gets product to market faster.
So what checksum do you need?
If either or both ends have HW support for a checksum built into the peripheral (fairly common in SPI for example), that might be a wise choice. Then it becomes more or less free to calculate.
An LRC, as suggested by vulkanino's answer, is the simplest algorithm.
Wikipedia has some decent info on how/why to choose a polynomial if you really need a CRC:
If NO to question #1:
What CRC algorithm/polynomial does the other end require? That's what you're stuck with, but telling us might get you a better/more complete answer.
Thoughts on implementation:
Most of the algorithms are pretty light-weight in terms of RAM/registers, requiring only a couple extra bytes. In general, a function will result in better, cleaner, more readable, debugger-friendly code.
You should think of the macro solution as an optimization trick, and like all optimization tricks, jumping to them to early can be a waste of development time and a cause of more problems than it's worth.
Using a macro also has some strange implications you may not have considered yet:
You are aware that the preprocessor can only do the calculation if all the bytes in a message are fixed at compile time, right? If you have a variable in there, the compiler has to generate code. Without a function, that code will be inlined every time it's used (yes, that could mean lots of ROM usage). If all the bytes are variable, that code might be worse than just writing the function in C. Or with a good compiler, it might be better. Tough to say for certain. On the other hand, if a different number of bytes are variable depending on the message being sent, you might end up with several versions of the code, each optimized for that particular usage.