I had a question regarding the deep working of Linux.
Lets say a multi-threaded process is being executed in the CPU. We will have a thread which is being executed on the CPU in such a case. At a more broader picture we will have the corresponding page belonging to the Process being loaded in the RAM for execution.
Lets say the thread makes a system call. I am a bit unclear on the workings after this. The Interrupt will generate a call. One of my questions is who will answer this call?
Lets say that the system has m:n user level thread to kernel level thread mapping, I am assuming that the corresponding Kernel Level Thread will answer this call.
So the Kernel will lookup the Interrupt Vector Table and get the routine which needs to be executed. My next question is which stack will be used in the execution of the Interrupt? Will it be the Kernel Thread's Stack or the User level Thread's Stack? (I am assuming that it will be the Kernel Thread's Stack.)
Coming back to the flow of the program lets say the operation is opening a file using
fopen. The subsequent question I have is how will the jump from the ISR to System Call take place? Or is our ISR mapped to a System Call?
Also at a more broader picture when the Kernel Thread is being executed I am assuming that the "OS region" on the RAM will be used to house the pages which are executing the System Call.
Again looking at it from a different angle (Hope your still with me) finally I am assuming that the corresponding Kernel Thread is being handled by the CPU Scheduler where in a context switch would have happened from the User Level Thread to the corresponding Kernel Level Thread when the
fopen System Call was being answered.
I have made a lot of assumptions and it would be absolutely fantastic if anyone could clear the doubts or at least guide me in the right direction.