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RAM OS Shunt

The purpose of this script is to make your OS roughly 100x faster at the expense of making it mostly read-only and consuming massive chunks of RAM.

It is specifically designed for situations where an entire OS is installed on a slow flash disk, but you have a lot of RAM. This script will offer little-to-no advantages for the average computer set up in a standard way.

Summary

This script copies most of the OS into RAM (by creating a ramdisk), and then forces the system to now recognise the newly created ramdisk as the "real" disk. In my own experience, my applications would go from freezing minutes at a time to never freezing at all.

Your home dir will be the only directory still pointing to the real disk. This can be changed such that specific parts of your home dir reside in RAM for situations where some applications do heavy disk I/O from within your home.

Prerequisites

If you're unsure why you'd need this, or if you're fairly new to Linux, please don't use this system. It's powerful and somewhat stable, but nonetheless dangerous. Users who don't fully understand the processes involved are likely to lose files or suffer OS corruption.

This system was made specifically for Linux, and tested almost exclusively on Ubuntu and Mint.

Safety notes

  • Do not install any new software or make any system changes while this system is active; reboot your machine first. There's no clean way to undo what this script does, except for a reboot. Disable all auto-updaters before running this system.
  • There's a good chance this system won't work out of the box. You need to modify vars.include to set everything up as needed.
  • All new application and system logs generated while this system is active will be lost. Log files already open will continue to receive updates until log rotation, service restart, or file invalidation, but won't be visible until reboot.
  • I have used this method for nearly 10 years at the time of writing, and have never experienced system instability while doing this. Having said that, please back up your data before running this, and, importantly, understand that you will lose files if you save them in the wrong place. This turns most of your OS into a ramdisk. This means that you run the risk of accidentally saving files to RAM, which is cleared on reboot.

My Wi-Fi / USB device / whatever isn't working

When you run this script, some parts of your OS effectively become read-only, including the parts responsible for accepting new software and hardware connections.

Please connect all your Wi-Fi and USB devices before running this script, and everything should work fine.

Instructions

Dependencies: awk, bash 4 or higher, cat, du, echo, GNU grep, mount, readlink, rmdir, rsync, tail, test

Pre-setup:

  • Do not clone this repo to a directory you want sent to RAM; safe default locations to store this repo are /ram_os, /root/ram_os, and /mnt/ram_os. Do not store it in /home if changing to a custom OS_ROOT.
  • Configure vars.include before starting. It needs to know things like your display manager name, and will stop your display manager before starting the sending to RAM process. If you don't yet have a vars.include file, copy vars.include.example template.
  • If your /tmp dir is already RAM-mounted, ensure you remove that from vars.include -> OS_DIRS.
  • /opt is not included by default. Add that to vars.include -> OS_DIRS if you want it sent to RAM.

Running the script:

  • Reboot your machine before running this script; it assumes you have not logged into any X sessions since boot (it's fine to reach the GUI login screen, but don't log in there).
  • Switch to a TTY.
  • Run send_os_to_ram.sh as root. This sends the OS to RAM.
  • If the script completes successfully, you'll get a message saying so. There's small chance the script can die silently for uncaught errors, though all previously-known occurrences of these have been fixed.

All operations take just over 5 minutes to complete on my system.

Additional info:

The scripts within the utils directory are internal scripts used by send_os_to_ram.sh and are not intended for regular users. Avoid running them manually unless you are an advanced user who has examined their source code and understands their purpose. These scripts assume they are being executed from their containing directory.

How it works

  • Stops the display manager
  • Creates a ramdisk at /mnt/ram_os_1166877
  • Mount binds your home to /mnt/physical_home_1166877
  • Copies your OS dirs (excluding home) into /mnt/ram_os_1166877
  • Performs a mount bind operation, redirecting all system directories to the RAM disk (e.g., /bin now silently points to /mnt/ram_os_1166877/bin)
  • After that, it's done. It will not restart the display manager; it expects you to do that manually in case you want to double-check things first.

Home dir overrides

By adding paths to HOME_DIR_OVERRIDES in vars.include, you can send specific directories in your home directory to RAM. By default, nothing in your home is sent to RAM, only the OS itself.

You can sync RAM changes in home override dirs back to the physical disk, though this requires additional setup. If you're interested in doing so, have a look at the following variables in vars.include:

  • HOME_MOUNT_COMMAND
  • HOME_SYNC_LOCATION

After that, you can run runtime_utils/sync_ram_to_physical.sh to sync home overrides back to the physical disk.

Note that the additional setup is not needed if you don't want to sync home override dirs back to the physical disk.

Live OS substitution

You can use this system to load an entirely different OS (and even a chroot setup), which will replace the host OS until reboot. See OS_ROOT in vars.include for documentation.

Note that live OS substitution has only been tested with very similar operating systems (for example, Mint 19.2 -> Mint 19.2, Ubuntu 18.04 -> Ubuntu 18.04, an so forth). This script is expected to work with any OS that has the same base dirs, but note that, if loading a very different OS, you may need to terminate additional services (such a those stationed in /run) to prevent already-running essential services from referencing now non-existent installed files.

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