Courses/Computer Science/CPSC 457.F2013/Lecture Notes/Startup

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System Startup

In this session, we will examine how an operating system actually starts up and transitions from a simple sequential loading program to a concurrent system of processes.

Besides highlighting the relationship between system code and the hardware/architecture, it provides an initial introduction to the topic of concurrency.

Focus Question

How does an OS create the environment and conditions on the hardware necessary to support the concurrent execution of multiple processes?


  • Test 1 Comments.
  • HW2 questions.
  • Boot.
  • OS startup slides
  • OS startup code (see call chain list below)

Notes and References

The call chain involved here is interesting for several reasons:

  • It shows you how deep some kernel call chains are (reflecting the design pattern of doing a little bit of work and deferring the next little bit of work to someone else)
  • It demonstrates how closely the startup code is related to the underlying machine
  • It is an exact reflection of going from sequential assembly code to a concurrent system by "manually" setting up kernel data structures, initializing subsystems, asking the scheduler to start, and creating a new kernel thread (via do_fork()) that eventually calls sys_execve() to load in the "first" user level process: /sbin/init.

Fascinating stuff.

2.6.32 (off the CPSC mirror of LXR) (off the LXR site)

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