I want to learn and fill gaps in my knowledge with the help of this question
So, a user is running a thread (kernel-level) and it now calls yield (a system call I presume) The scheduler must now save the context of the current thread in the TCB (which is stored in the kernel somewhere) and choose another thread to run and loads its context and jump to its CS:EIP. To narrow things down I am working on Linux running on top of x86 architecture. Now, I want to get into the details:
So, first we have a system call:
1) The wrapper function for yield will push the system call arguments onto the stack. Push the return address and raise an interrupt with the system call number pushed onto some register (say EAX).
2) The interrupt changes the CPU mode from user to kernel and jumps to the interrupt vector table and from there to the actual system call in the kernel.
3) I guess the scheduler gets called now and now it must save the current state in the TCB. Here is my dilemma. Since, the scheduler will use the kernel stack and not the user stack for performing its operation (which means the SS and SP have to be changed) how does it store the state of the user without modifying any register in the process. I have read on forums that there are special hardware instructions for saving state but then how does the scheduler get access to them and who runs these instructions and when?
4) The scheduler now stores the state into the TCB and loads another TCB
5) When the scheduler runs the original thread, the control gets back to the wrapper function which clears the stack and the thread resumes
Side questions: Does the scheduler run as a kernel-only thread (i.e. a thread which can run only kernel code)? Is there a separate kernel stack for each kernel-thread or each process?