If you are using TCP:
You are right, there is no way to "know" how much data you will be receiving. This gives you a few options:
1) Before transmitting the image data, first send the number of bytes to be expected. So your first 4 bytes might be the 4-byte integer "4096". Then your client can read the first 4 bytes, "know" that it is expecting 4096 bytes, and then
malloc(4096) so it can expect the rest. Then, your server can send() 4096 bytes worth of image data.
When you do this, be aware that you might have to recv() multiple times - for one reason or another, you might not have received all 4096 bytes. So you will need to check the return value of recv() to make sure you have gotten everything.
2) If you are just sending one file, you could just have your receiver read it. And it can keep recv()ing from the socket until the server closes the connection. This is a bit harder - you will have to keep track of how much you have received, and then if your buffer is full, you will have to reallocate it. I don't recommend this method, but it would technically accomplish the task.
If you are using UDP:
This means that you don't have reliable transfer. So packets might be dropped. They might also arrive out of order. So if you are going to use UDP, you must fragment your data into little segments. Both the sender and receiver must have agreement on how large a segment is (100 bytes? 1000 bytes?)
Not only that, but you must also transmit a sequence number with each packet - that is, label each packet #1, #2, etc. Because your client must be able to tell: if any packets are missing (you receive packets 1, 2 and 4 - and are thus missing #3) and to make sure they are in order (you receive 3, 2, then 1 - but when you save them to the file, you must make sure the packets are saved in the correct order, 1, 2, then 3).
So for your assignment, well, it will depend on what protocol you have to/are allowed to use.