init

From Wikipedia, the free encyclopedia
Jump to navigation Jump to search
Version 7 Unix: /etc listing, showing init and rc
Version 7 Unix: contents of an /etc/rc Bourne shell script

In Unix-based computer operating systems, init (short for initialization) is the first process started during booting of the operating system. Init is a daemon process that continues running until the system is shut down. It is the direct or indirect ancestor of all other processes and automatically adopts all orphaned processes. Init is started by the kernel during the booting process; a kernel panic will occur if the kernel is unable to start it, or it should die for any reason. Init is typically assigned process identifier 1.

In Unix systems such as System III and System V, the design of init has diverged from the functionality provided by the init in Research Unix and its BSD derivatives. Up until the early 2010s,[1][failed verification] most Linux distributions employed a traditional init that was somewhat compatible with System V, while some distributions such as Slackware use BSD-style startup scripts, and others still such as Gentoo have their own customized versions.

Since then, several additional init implementations have been created, attempting to address design limitations in the traditional versions. These include launchd, the Service Management Facility, systemd, Runit and OpenRC.

Research Unix-style/BSD-style

[edit]

Research Unix init runs the initialization shell script located at /etc/rc,[2] then launches getty on terminals under the control of /etc/ttys.[3] There are no runlevels; the /etc/rc file determines what programs are run by init. The advantage of this system is that it is simple and easy to edit manually. However, new software added to the system may require changes to existing files that risk producing an unbootable system.

BSD init was, prior to 4.3BSD, the same as Research UNIX's init;[4][5] in 4.3BSD, it added support for running a windowing system such as X on graphical terminals under the control of /etc/ttys.[6][7] To remove the requirement to edit /etc/rc, BSD variants have long supported a site-specific /etc/rc.local file that is run in a sub-shell near the end of the boot sequence.

A fully modular system was introduced with NetBSD 1.5 and ported to FreeBSD 5.0 and successors. This system executes scripts in the /etc/rc.d directory. Unlike System V's script ordering, which is derived from the filename of each script, this system uses explicit dependency tags placed within each script.[8] The order in which scripts are executed is determined by the rcorder utility based on the requirements stated in these tags.

SysV-style

[edit]
sysv-rc-conf, a TUI utility that selects which SysV-style init scripts will be run in each runlevel

When compared to its predecessors, AT&T's UNIX System III introduced a new style of system startup configuration,[9] which survived (with modifications) into UNIX System V and is therefore called the "SysV-style init".

At any moment, a running System V is in one of the predetermined number of states, called runlevels. At least one runlevel is the normal operating state of the system; typically, other runlevels represent single-user mode (used for repairing a faulty system), system shutdown, and various other states. Switching from one runlevel to another causes a per-runlevel set of scripts to be run, which typically mount filesystems, start or stop daemons, start or stop the X Window System, shutdown the machine, etc.

Runlevels

[edit]

The runlevels in System V describe certain states of a machine, characterized by the processes and daemons running in each of them. In general, there are seven runlevels, out of which three runlevels are considered "standard", as they are essential to the operation of a system:

  1. Turn off
  2. Single-user mode (also known as S or s)
  3. Reboot

Aside from these standard ones, Unix and Unix-like systems treat runlevels somewhat differently. The common denominator, the /etc/inittab file, defines what each configured runlevel does in a given system.

Default runlevels

[edit]
Operating system Default runlevel
AIX 2
antiX 5
Gentoo Linux 3[10]
HP-UX 3 (console/server/multiuser) or 4 (graphical)
Linux From Scratch 3
Slackware Linux 3
Solaris / illumos 3[11]
UNIX System V Releases 3.x, 4.x 2
UnixWare 7.x 3

On Linux distributions defaulting to runlevel 5 in the table on the right, runlevel 5 invokes a multiuser graphical environment running the X Window System, usually with a display manager like GDM or KDM. However, the Solaris and illumos operating systems typically reserve runlevel 5 to shut down and automatically power off the machine.

On most systems, all users can check the current runlevel with either the runlevel or who -r command.[12] The root user typically changes the current runlevel by running the telinit or init commands. The /etc/inittab file sets the default runlevel with the :initdefault: entry.

On Unix systems, changing the runlevel is achieved by starting only the missing services (as each level defines only those that are started / stopped).[citation needed] For example, changing a system from runlevel 3 to 4 might only start the local X server. Going back to runlevel 3, it would be stopped again.

Other implementations

[edit]

Traditionally, one of the major drawbacks of init is that it starts tasks serially, waiting for each to finish loading before moving on to the next. When startup processes end up Input/output (I/O) blocked, this can result in long delays during boot. Speeding up I/O, e.g. by using SSDs, may shorten the delays but it does not address the root cause.

Various efforts have been made to replace the traditional init daemons to address this and other design problems, including:

  • BootScripts in GoboLinux
  • busybox-init, suited to embedded operating systems, used by Alpine Linux, SliTaz 5(Rolling), Tiny Core Linux, and VMware ESXi, and used by OpenWrt before it was replaced with procd
  • Dinit, a service manager and init system.[13]
  • Epoch, a single-threaded Linux init system focused on simplicity and service management[14]
  • Initng, a full replacement of init designed to start processes asynchronously
  • launchd, a replacement for init in Darwin/macOS/iOS/tvOS starting with Mac OS X v10.4 (it launches SystemStarter to run old-style 'rc.local' and SystemStarter processes)
  • OpenRC, a process spawner that utilizes system-provided init, while providing process isolation, parallelized startup, and service dependency; used by Alpine Linux, Gentoo and its derivatives, and available as an option in Devuan and Artix Linux
  • runit, a cross-platform full replacement for init with parallel starting of services, used by default in Void Linux[15]
  • Sun Service Management Facility (SMF), a complete replacement/redesign of init from the ground up in illumos/Solaris starting with Solaris 10, but launched as the only service by the original System V-style init
  • Shepherd, the GNU service and daemon manager which provides asynchronous, dependency-based initialisation; written in Guile Scheme and meant to be interactively hackable during normal system operation[16]
  • s6, a software suite that includes an init system. [17][18]
  • systemd, a software suite, full replacement for init in Linux that includes an init daemon, with concurrent starting of services, service manager, and other features.
  • SystemStarter, a process spawner started by the BSD-style init in Mac OS X prior to Mac OS X v10.4
  • Upstart, a full replacement of init designed to start processes asynchronously. Initiated by Ubuntu and used by them until 2014. It was also used in Fedora 9,[19][20] Red Hat Enterprise Linux 6[21] and Google's ChromeOS.[22]

As of February 2019, systemd has been adopted by most major Linux distributions.[23]

See also

[edit]

References

[edit]
  1. ^ "Lennart Poettering on systemd's Tumultuous Ascendancy". The New Stack. 2018-11-08. Archived from the original on 2018-11-08. Retrieved 2024-01-30.
  2. ^ init(8) – Version 7 Unix Programmer's Manual
  3. ^ ttys(5) – Version 7 Unix Programmer's Manual
  4. ^ init(8) – 4.2BSD System Manager's Manual
  5. ^ ttys(5) – 4.2BSD File Formats Manual
  6. ^ init(8) – 4.3BSD System Manager's Manual
  7. ^ ttys(5) – 4.3BSD File Formats Manual
  8. ^ Andrew Smallshaw (7 December 2009). "Unix and Linux startup scripts, Part 2". Archived from the original on 18 December 2009. Retrieved 6 June 2011.
  9. ^ "init(8)". minnie.tuhs.org. Archived from the original on 2021-07-27. Retrieved 2015-09-12.
  10. ^ "Initscripts". Gentoo Linux Documentation. Gentoo.org. 2014-12-13. Archived from the original on 2020-12-03. Retrieved 2020-12-08.
  11. ^ "Run Levels". Oracle Solaris Administration: Common Tasks. Oracle. Archived from the original on 2016-04-10. Retrieved 2017-11-14.
  12. ^ "UNIX man pages : runlevel (8)". Unixhelp.ed.ac.uk. 1997-05-27. Archived from the original on 2014-07-14. Retrieved 2014-07-12.
  13. ^ "GitHub - davmac314/dinit: Service monitoring / "init" system". GitHub. Archived from the original on 2021-12-12. Retrieved 2021-12-12.
  14. ^ "Epoch Init System Homepage". Archived from the original on 2014-08-02. Retrieved 2014-07-31.
  15. ^ "Void Linux main page". Archived from the original on 2020-08-29. Retrieved 2020-08-31.
  16. ^ "The Shepherd - GNU Project". Free Software Foundation, Inc. Archived from the original on 2016-02-12. Retrieved 2016-01-16.
  17. ^ "s6: why another supervision suite". Archived from the original on 2021-09-13. Retrieved 2021-09-13.
  18. ^ "s6 init system". Archived from the original on 2021-09-13.
  19. ^ Fedora 14 Accepted Features, 2010-07-13, archived from the original on 2022-03-27, retrieved 2010-07-13
  20. ^ "Fedora defers systemd to F15". Linux Weekly News. 2010-09-14. Archived from the original on 2010-09-19. Retrieved 2010-09-17.
  21. ^ "Deployment". Red Hat Enterprise Linux 6: Technical Notes. Red Hat. Archived from the original on 2018-08-29. Retrieved 2013-12-31.
  22. ^ Software Architecture: Chromium OS design documents, archived from the original on 9 April 2022, retrieved 25 January 2014
  23. ^ See Systemd#Adoption
[edit]