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I read through this very interesting q/a about how computers reboot, and although I do not know much at all about OS development, I was wondering if you could partially shut down the system, then boot back up from that point on.

For example, on Linux, if I read the output correctly during a shutdown, it goes a bit like this:

  1. Send Terminate / KILL to all processes.
  2. Shutdown services / daemons
  3. Power off.

And the startup sequence goes a bit like:

  1. BIOS, Bootloader
  2. Load kernel and modules
  3. Start services / daemons
  4. Start processes

So could we shutdown until after 2, then start back up from 3 onwards? Essentially I'm thinking this should reset the processes and daemons while keeping the kernel in memory, thus saving up on the kernel loading time on a normal (re)boot.

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2 Answers 2

up vote 3 down vote accepted

Focusing on Linux here:

"Rebooting" userspace (and some hardware parts)

You're missing something from your boot sequence in terms of how those services, daemons and programs are started.

Enter init on Linux. The purpose of /sbin/init, which could be system V init, upstart or systemd, is exactly launching all of these other processes. All of those init utilities have features to manage the services they run beneath them.

Now, a linux system also has the concept of runlevels, namely:

0 = shutdown
1 = single user recovery mode, no networking
2 = ?
3 = multi user networking no X
4 = ?
5 = multi user networking X

The ? ones aren't strictly defined. Anyway, if you su to root and type init 3 right now, assuming you're on Linux, X and every x client will be terminated. Of course, if something is allowed on a given runlevel it won't be killed off, but if you want a certain process rebooting only, then this achieves it quite nicely. The use case for restarting system daemons is in response to an update and most package managers these days will actually do this for you via your initscript tool of choice.

So we can restart our entire GUI, we can restart any daemon. We could kill any other process too. Reloading hardware drivers? I can already do that on the fly via modprobe, so if I fancy an update of my graphics drivers, I can init 3, remove the old ones, insert the new ones and carry on.

Your package manager knows how to restart system daemons and you can always follow its advice to log out and back in; thus Linux is already fairly efficient in terms of avoiding reboots on update.

"Rebooting" the kernel

So basically, I like to think most of Linux can be "rebooted" without actually rebooting. So now What's left?

  1. I can't reload the kernel.
  2. I can't easily unmount the root filesystem. I'm relying on it for that newly loaded userspace. Disclaimer: you could just reload an initramfs during a kernel "reload", so we're depending on 1 here.

Now, the question is how do you reload the kernel? Well the kernel isn't actually any special magic, it's just another computer program copied into memory, so we can just write a program somewhere that writes over our kernel and passes execution to it...

This exists, believe it or not, and is called kexec. I'll leave the wikipedia page to summarise the problems with it:

While feasible, implementing a mechanism such as kexec raises two major challenges:

  1. the new kernel will overwrite the memory of the currently running one, while it is still executing
  2. the new kernel will usually expect all physical devices to be in a well-defined state (as they are after system reboot, when the BIOS (or firmware) resets them to a "sane" state). Bypassing a real reboot may leave devices in an unknown state, and the new kernel will have to recover from that.

kexec does not, unlike a system shutdown, automatically stop filesystems or processes for you; you're responsible for that.

So there you have it. Depending on which part you need to reload, on Linux, most of it is possible.

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Most processor/computer manufacturers have several different power states that a computer can be in. Intel's are probably the most applicable to your question, which sounds like it's about general-purpose computers. Check out this link:

All about System Power States (S0-S5)

To learn more about how power states work for intel, what system context is preserved in each state, etc. In general, the higher the S-state you enter, the less system context is required to be preserved, and therefore the longer the system will take to exit that state and return to S0 (fully operational).

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The SU q/a actually gave me plenty of info about that, so it's ok in that regard. – Félix Saparelli Jun 9 '11 at 1:34

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