I'm trying to implement a pipe using shared memory and semaphores (it may be that I need signals also, to complete my implementation)
I encountered the algorithmic problem of how to set the semaphores right.
Lets say I already allocated a piece of shared memory for the pipe buffer, and a piece of shared memory for the pipe's info (such as how much bytes there are in the pipe, etc...)
- I want to create mutual exclusion (only one reader/writer using the pipe at once)
- If reader wants to read from an empty pipe, I should block him, till a writer writes something
- Same thing like '2', but writer who writes to a full pipe
I tried to search for an answer but I didn't find any even though it seems like a common exercise...
I'm aware of a solution called "Bounded buffer problem" or "consumer producer problem" which is implemented like this:
There are 3 semaphores: mutex - initialized to 1 full - initialized to 0 empty - initialized to n (whilst n is the number of, lets say "bytes" I have in the pipe)
wait(full) wait(mutex) remove a byte from the pipe signal(mutex) signal(empty)
wait(empty) wait(mutex) add a byte to the pipe signal(mutex) signal(full)
The problem in this solution (to use as a solution to my problem) is that in a given time, only one byte is read from the pipe, or write into it.
In my problem - Implementing a pipe, I don't know for sure how much bytes a writer will write. If he wants to write 'n' bytes, then he will write it only if there is a place in the pipe, and if not, he will write less then 'n' bytes...
That means that a writer must check how much free space there is in the pipe, before writing into it. This is a problem - because the writer will touch a critical section (the pipe's information) without mutual exclusion..
So I thought about putting this part inside the critical section, but then - if a writer wants to write and the pipe is full - how can I let only one reader inside, and then letting the writer to write more?
I've got confused...
Any help will be appreciated, Thanks!