*nix
General
See also #Commands, Storage/Files, Distros, [[Debugging], #Tmux, GUI, etc.
Mainly Linux.
- https://en.wikipedia.org/wiki/Multics - Multiplexed Information and Computing Service, is an influential early time-sharing operating system, based around the concept of a single-level memory. Virtually all modern operating systems were heavily influenced by Multics, often through Unix, which had been created by the people who had worked on Multics—either directly (Linux, macOS) or indirectly (Microsoft Windows NT).
- List of UNIX alternatives with desirable capabilities - "People often ask if there's examples of OS's better than UNIX. This comes up when critics like me bash its design choices or especially if someone posts UNIX Hater's Handbook. Here's a few, esp from past, that give you an idea that did things differently in a way worth copying in UNIX or another OS project."[1]
- Charlie Stross: Over-Extended Metaphor for the day [2]
Community
See also Chat#IRC - Freenode
- nixers - forum
Troubleshooting
- Arch wiki: General troubleshooting
- LinuxCommand.org - Now what? You have Linux installed and running. The GUI is working fine, but you are getting tired of changing your desktop themes. You keep seeing this "terminal" thing.
man pages
- https://en.wikipedia.org/wiki/Man_page - short for manual page) is a form of software documentation usually found on a Unix or Unix-like operating system. Topics covered include computer programs (including library and system calls), formal standards and conventions, and even abstract concepts. A user may invoke a man page by issuing the man command. By default, man typically uses a terminal pager program such as more or less to display its output.
man man # rtfm.
- Linux man pages online - links from this page display HTML renderings of the man pages from the Linux man-pages project as well as a curated collection of pages from various other free software projects. List of all man pages: by section, alphabetically, by project, by Individual sections (page names only)
- Linux man-pages project - documents the Linux kernel and C library interfaces that are employed by user-space programs. With respect to the C library, the primary focus is the GNU C library (glibc), although, where known, documentation of variations on other C libraries available for Linux is also included. The project provides manual pages in the following sections:
- User commands; man-pages includes a very few Section 1 pages that document programs supplied by the GNU C library.
- System calls documents the system calls provided by the Linux kernel.
- Library functions documents the functions provided by the standard C library.
- Devices documents details of various devices, most of which reside in /dev.
- Files describes various file formats, and includes proc(5), which documents the /proc file system.
- Overviews, conventions, and miscellaneous.
- Superuser and system administration commands; man-pages includes a very few Section 8 pages that document programs supplied by the GNU C library.
man --html="google-chrome-stable file%c//%s" --html cd # load the manual into chrome browser
- man whoami | man2html # a Perl program that reads formatted nroff text from standard input (stdin) and writes a HTML document to standard output (stdout). A CGI program is provided to allow hypertext navigation of a system's manpages via a web browser.
- https://github.com/gapan/gtkman - a simple GTK+2 manual page viewer, written in Python. Manual pages are viewed by specifying their name and optionally the section they are in, just as with the original man command. The manual pages are displayed in simple text form using the default system monospace font.
whatis ls # list the various manual pages for the ls command
apropos [string] # search the whatis database for strings
apropos ls lists all manual pages that contain ls in their title.
- bro pages are a highly readable supplement to man pages with concise, common-case examples for Unix commands
- http://manpages.bsd.lv - creating man pages
- mandoc - a suite of tools compiling mdoc, the roff macro language of choice for BSD manual pages, and man, the predominant historical language for UNIX manuals. It is small, ISO C, ISC-licensed, and quite fast. The main component of the toolset is the mandoc utility program, based on the libmandoc validating compiler, to format output for UTF-8 and ASCII UNIX terminals, HTML 5, PostScript, and PDF. mandoc has predominantly been developed on OpenBSD and is both an OpenBSD and a BSD.lv project. We strive to support all interested free operating systems, in particular FreeBSD, NetBSD, DragonFly, illumos, Minix 3, and both GNU- and musl-based Linux distributions, as well as all systems running the pkgsrc portable package build system. To support mandoc development, consider donating to the OpenBSD foundation.
- Creating a man page from markdown with pandoc - How to create a man page from a README.md file
UNIX
- https://en.wikipedia.org/wiki/Unix - a family of multitasking, multiuser computer operating systems that derive from the original AT&T Unix, development starting in the 1970s at the Bell Labs research center by Ken Thompson, Dennis Ritchie, and others.
Initially intended for use inside the Bell System, AT&T licensed Unix to outside parties in the late 1970s, leading to a variety of both academic and commercial Unix variants from vendors like the University of California, Berkeley (BSD), Microsoft (Xenix), IBM (AIX), and Sun Microsystems (Solaris). In the early 1990s, AT&T sold its rights in Unix to Novell, which then sold its Unix business to the Santa Cruz Operation (SCO) in 1995.[4] The UNIX trademark passed to The Open Group, a neutral industry consortium, which allows the use of the mark for certified operating systems that comply with the Single UNIX Specification (SUS). As of 2014, the Unix version with the largest installed base is Apple's macOS.
Unix systems are characterized by a modular design that is sometimes called the "Unix philosophy". This concept entails that the operating system provides a set of simple tools that each perform a limited, well-defined function, with a unified filesystem as the main means of communication, and a shell scripting and command language to combine the tools to perform complex workflows. Unix distinguishes itself from its predecessors as the first portable operating system: almost the entire operating system is written in the C programming language, thus allowing Unix to reach numerous platforms.
- https://en.wikipedia.org/wiki/*nix - or Unix-like operating system is one that behaves in a manner similar to a Unix system, while not necessarily conforming to or being certified to any version of the Single UNIX Specification. A Unix-like application is one that behaves like the corresponding Unix command or shell. There is no standard for defining the term, and some difference of opinion is possible as to the degree to which a given operating system or application is "Unix-like".
Guides
- The Art of Unix Programming - Eric Steven Raymond
- The Art of Unix Programming - reformatted [5]
History
See also Distros#BSD
- The Creation of the UNIX* Operating System - saved from (now missing on) bell-labs.com
- The Art of Unix Programming by Eric S. Raymond
- The Unix Koans of Master Foo
- The Elements Of Style: UNIX As Literature
- The Cognitive Style of Unix
Research UNIX
- https://en.wikipedia.org/wiki/Research_Unix - a term used to refer to versions of the Unix operating system for DEC PDP-7, PDP-11, VAX and Interdata 7/32 and 8/32 computers, developed in the Bell Labs Computing Science Research Center (frequently referred to as Department 1127).
The term Research Unix first appeared in the Bell System Technical Journal (Vol. 57, No. 6, Pt. 2 Jul/Aug 1978) to distinguish it from other versions internal to Bell Labs (such as PWB/UNIX and MERT) whose code-base had diverged from the primary CSRC version. However, that term was little-used until Version 8 Unix, but has been retroactively applied to earlier versions as well. Prior to V8, the operating system was most commonly called simply UNIX (in caps) or the UNIX Time-Sharing System.
AT&T licensed Version 5 to educational institutions, and Version 6 also to commercial sites. Schools paid $200 and others $20,000, discouraging most commercial use, but Version 6 was the most widely used version into the 1980s. Research Unix versions are often referred to by the edition of the manual that describes them, because early versions and the last few were never officially released outside of Bell Labs, and grew organically. So, the first Research Unix would be the First Edition, and the last the Tenth Edition. Another common way of referring to them is Version x (or Vx) Unix, where x is the manual edition. All modern editions of Unix—excepting Unix-like implementations such as Coherent, Minix, and Linux—derive from the 7th Edition.
Starting with the 8th Edition, versions of Research Unix had a close relationship to BSD. This began by using 4.1cBSD as the basis for the 8th Edition. In a Usenet post from 2000, Dennis Ritchie described these later versions of Research Unix as being closer to BSD than they were to UNIX System V, which also included some BSD code.
- https://en.wikipedia.org/wiki/Multi-Environment_Real-Time - was a hybrid time-sharing/real-time operating system developed in the 1970s at Bell Labs for use in embedded minicomputers (in particular PDP-11s). It was later renamed UNIX Real-Time (UNIX-RT). A version called Duplex Multi Environment Real Time (DMERT) was the operating system for the AT&T 3B20D telephone switching minicomputer, designed for high availability; DMERT was later renamed Unix RTR (Real-Time Reliable).
- The UNIX Time-Sharing System - Draft, D. M. Ritchie, 1971 [12]
- The UNIX Time-Sharing System - Dennis M. Ritchie and Ken Thompson, 1974 [13]
- https://en.wikipedia.org/wiki/Version_6_Unix - also called Version 6 Unix or just V6, was the first version of the Unix operating system to see wide release outside Bell Labs. It was released in May 1975 and, like its direct predecessor, targeted the DEC PDP-11 family of minicomputers. It was superseded by Version 7 Unix in 1978/1979, although V6 systems remained in regular operation until at least 1985.
- https://en.wikipedia.org/wiki/xv6 - xv6 is a modern reimplementation of Sixth Edition Unix in ANSI C for multiprocessor x86 systems. It is used for pedagogical purposes in MIT's Operating Systems Engineering (6.828) course.
- https://en.wikipedia.org/wiki/PWB/UNIX - an early, now discontinued, version of the Unix operating system created in the Bell Labs Computer Science Research Group of AT&T. Its stated goal was to provide a time-sharing working environment for large groups of programmers, writing software for larger batch processing computers. Two major releases of Programmer's Workbench were produced. PWB/UNIX 1.0, released July 1, 1977 was based on Version 6 Unix; PWB 2.0 was based on Version 7 Unix. The operating system was advertised by Bell System Software as late as 1981 and edition 1.0 was still on an AT&T price list for educational institutions in 1984. Most of PWB/UNIX was later incorporated in the commercial UNIX System III and UNIX System V releases.
- https://en.wikipedia.org/wiki/Version_7_Unix - an important early release of the Unix operating system. V7, released in 1979, was the last Bell Laboratories release to see widespread distribution before the commercialization of Unix by AT&T Corporation in the early 1980s. V7 was originally developed for Digital Equipment Corporation's PDP-11 minicomputers and was later ported to other platforms.
- V7/x86 - x86 port of UNIX V7
- The Evolution of the Unix Time-sharing System - D. M. Ritchie and K. Thompson, 1979
- https://en.wikipedia.org/wiki/UNIX/32V - an early version of the Unix operating system from Bell Laboratories, released in June 1979. 32V was a direct port of the Seventh Edition Unix to the DEC VAX architecture.
- https://en.wikipedia.org/wiki/Ancient_UNIX - a term coined by Santa Cruz Operation,[citation needed] to describe early releases of the Unix code base released prior to Unix System III, particularly the Research Unix releases prior to and including Version 7 (the base for UNIX/32V as well as later developments of AT&T Unix).
System III / V
- https://en.wikipedia.org/wiki/UNIX_System_III - discontinued version of the Unix operating system released by AT&T's Unix Support Group (USG).
AT&T announced System III in late 1981, and it was first released outside of Bell Labs in 1982. UNIX System III was a mix of various AT&T Unixes: PWB/UNIX 2.0, CB UNIX 3.0, UNIX/TS 3.0.1 and UNIX/32V. System III supported the DEC PDP-11 and VAX computers.
The system was apparently called System III because it was considered the outside release of UNIX/TS 3.0.1 and CB UNIX 3 which were internally supported Bell Labs Unices; its manual refers to it as UNIX Release 3.0 and there were no Unix versions called System I or System II. There was no official release of UNIX/TS 4.0 (which would have been System IV) either, so System III was succeeded by System V, based on UNIX/TS 5.0.
- https://en.wikipedia.org/wiki/UNIX_System_V - pronounced: "System Five", is one of the first commercial versions of the Unix operating system. It was originally developed by AT&T and first released in 1983. Four major versions of System V were released, numbered 1, 2, 3, and 4. System V Release 4, or SVR4, was commercially the most successful version, being the result of an effort, marketed as "Unix System Unification", which solicited the collaboration of the major Unix vendors. It was the source of several common commercial Unix features. System V is sometimes abbreviated to SysV.
- YouTube: AT&T Archives: The UNIX Operating System - 1982
- YouTube: The UNIX System: Making Computers Easier to Use - 1982
BSD
- https://en.wikipedia.org/wiki/Berkeley_Software_Distribution - a Unix operating system derivative developed and distributed by the Computer Systems Research Group (CSRG) of the University of California, Berkeley, from 1977 to 1995. Today the term "BSD" is often used non-specifically to refer to any of the BSD descendants which together form a branch of the family of Unix-like operating systems. Operating systems derived from the original BSD code remain actively developed and widely used.
In the 1980s, BSD was widely adopted by vendors of workstation-class systems in the form of proprietary Unix variants such as DEC ULTRIX and Sun Microsystems SunOS. Although these proprietary BSD derivatives were largely superseded by the UNIX System V Release 4 and OSF/1 systems in the 1990s (both of which incorporated BSD code and are the basis of other modern Unix systems), later BSD releases provided a basis for several open source development projects that are ongoing, e.g., FreeBSD, OpenBSD, NetBSD, Darwin, and TrueOS. These, in turn, have been incorporated in whole or in part in modern proprietary operating systems, e.g., the TCP/IP networking code in Windows NT 3.1 and most of the foundation of Apple's macOS and iOS.
- new UNIX implementation - Richard Stallman, 1983 [14]
to sort
- The UNIX-HATERS Handbook - 1994
- http://en.wikipedia.org/wiki/The_Unix-Haters_Handbook
- The Unix Hater’s Handbook, Reconsidered - Eric S. Raymond, 2008
- Unix at 25 - 1994
- Liberal license for ancient UNIX sources - 2002
- The Restoration of Early UNIX Artifacts - 2009
- HN: Rob Pike: "Current Unix tools are weakened by the built-in concept of a line"
- YouTube: Bloat: How and Why UNIX Grew Up (and Out) - Rusty Russell,Matt Evans - 2012
- http://crash.com/fun/texts/vaxen-dont.html [15]
- https://github.com/dspinellis/unix-history-repo [16]
- The truth about C and Unix history [17]
- http://web.archive.org/web/20080103071208/http://www.dcs.qmul.ac.uk/~george/history/
- unix-jun72 - Restoration of 1st Edition UNIX kernel sources from pdf document.
- http://minnie.tuhs.org/pipermail/tuhs/2017-March/009354.html [TUHS] Alcatel-Lucent releases source for 8th, 9th and 10th editions of Unix [19]
- [20] - v8, v9, v10
- Ulix - Literate Unix, is a Unix-like operating system that was developed at University of Erlangen-Nuremberg. We used Donald E. Knuth's concept of Literate Programming for the implementation and documentation. The intention was to create a fully working system which can be used in operating system courses to show students how OS concepts (such as paging and scheduling) can be implemented. Literate programs are very accessible because they can be read like a book; the order of presentation is not enforced by program logic or compiler restrictions, but instead is guided by the implementer's creative process. Ulix was written in C and Assembler for the Intel x86 architecture; for literate programming we used Norman Ramsey's noweb tool.
POSIX / SUS
- POSIX, an acronym for "Portable Operating System Interface", is a family of standards specified by the IEEE for maintaining compatibility between operating systems. POSIX defines the application programming interface (API), along with command line shells and utility interfaces, for software compatibility with variants of Unix and other operating systems.
- UniForum - In 1981, the Unix platform was just emerging and there were no centralized resources in place to support this growth environment. UniForum was founded by a group of engineers and entrepreneurs who sought to provide a forum for individuals and companies interested in Unix and open systems. UniForum was born in 1980 as /usr/group, with the distinct mission to make Unix a standardized operating system that industry would adopt and use, within an open competitive framework. Later, /usr/group evolved into UniForum as a reflection of what we had become: a thriving community of open systems professionals. In March 1997, UniForum merged its operations and staff with The Open Group.
- http://en.wikipedia.org/wiki/Single_UNIX_Specification - the collective name of a family of standards for computer operating systems, compliance with which is required to qualify for to use the "UNIX" trademark. The core specifications of the SUS are developed and maintained by the Austin Group, which is a joint working group of IEEE, ISO JTC 1 SC22 and The Open Group.
- UNIX® Standards - The Open Group
- IEEE SA - POSIX
- https://en.wikipedia.org/wiki/Austin_Group - or the Austin Common Standards Revision Group is a joint technical working group formed to develop and maintain a common revision of POSIX.1 and parts of the Single UNIX Specification.
- POSIX.1-2008 (IEEE Std 1003.1™-2008 / The Open Group Technical Standard Base Specifications, Issue 7). The 2013 edition incorporates Technical Corrigendum 1 addressing problems discovered since the approval of the 2008 edition.
POSIX.1-2008 defines a standard operating system interface and environment, including a command interpreter (or “shell”), and common utility programs to support applications portability at the source code level. POSIX.1-2008 is intended to be used by both application developers and system implementors and comprises four major components (each in an associated volume):
- General terms, concepts, and interfaces common to all volumes of this standard, including utility conventions and C-language header definitions, are included in the Base Definitions volume.
- Definitions for system service functions and subroutines, language-specific system services for the C programming language, function issues, including portability, error handling, and error recovery, are included in the System Interfaces volume.
- Definitions for a standard source code-level interface to command interpretation services (a “shell”) and common utility programs for application programs are included in the Shell and Utilities volume.
- Extended rationale that did not fit well into the rest of the document structure, which contains historical information concerning the contents of POSIX.1-2008 and why features were included or discarded by the standard developers, is included in the Rationale (Informative) volume.
The following areas are outside the scope of POSIX.1-2008:
- Graphics interfaces
- Database management system interfaces
- Record I/O considerations
- Object or binary code portability
- System configuration and resource availability
- Open POSIX Test Suite - a test suite for POSIX 2001 APIs, not tied to specific implementations. It provides conformance, functional, and stress testing. Initial focus is on Threads, Clocks & Timers, Signals, Message Queues, and Semaphores.
MINIX
- https://en.wikipedia.org/wiki/MINIX - a POSIX-compliant (since version 2.0), Unix-like computer operating system based on a microkernel architecture. MINIX was first released in 1987, with its complete source code made available to universities for study in courses and research. It has been free and open-source software since it was re-licensed under the BSD license in April 2000.[
Linux
- Linux/README - These are the release notes for Linux version 4. Read them carefully, as they tell you what this is all about, explain how to install the kernel, and what to do if something goes wrong.
Linux is a clone of the operating system Unix, written from scratch by Linus Torvalds with assistance from a loosely-knit team of hackers across the Net. It aims towards POSIX and Single UNIX Specification compliance. It has all the features you would expect in a modern fully-fledged Unix, including true multitasking, virtual memory, shared libraries, demand loading, shared copy-on-write executables, proper memory management, and multistack networking including IPv4 and IPv6. It is distributed under the GNU General Public License - see the accompanying COPYING file for more details.
- http://www.linuxfoundation.org/ - very enterprise focused..
- I introduced my 5-year-old and 2-year-old to startx and xmonad. They’re DELIGHTED! - June 20th, 2012
News
- LWN.net - a reader-supported news site dedicated to producing the best coverage from within the Linux and free software development communities.
Guides
- Read Just Enough Linux - aims at getting you comfortable with some of the commands used in Linux and to hopefully help you 'get' Linux.
- The Linux Command Line - A Book By William E. Shotts, Jr.
- CliRef.md - linux guide
- eLinux wiki - to preserve and present information about the development and use of Linux in embedded systems as well as open source projects and tools for general embedded development
History
Kernel
- The Linux Kernel Archives - Linux Kernel Organization is a California Public Benefit Corporation established in 2002 to distribute the Linux kernel and other Open Source software to the public without charge. The Linux Kernel Organization is managed by The Linux Foundation, which provides full technical, financial and staffing support for running and maintaining the kernel.org infrastructure.
- IBM: Anatomy of the Linux kernel - History and architectural decomposition
- The Linux kernel - Andries Brouwer
- linux-insides - A series of posts about the linux kernel and its insides.
- Gittup - This is an entire(-ish) linux distribution in git. Everything is built with tup. That's why it's called gittup. You get the whole development history (where applicable) as part of the standard distribution.
- The Cathedral and the Bazaar - Eric S. Raymond anatomizes a successful open-source project, fetchmail, that was run as a deliberate test of the surprising theories about software engineering suggested by the history of Linux. I discuss these theories in terms of two fundamentally different development styles, the ``cathedral model of most of the commercial world versus the ``bazaar model of the Linux world. I show that these models derive from opposing assumptions about the nature of the software-debugging task. I then make a sustained argument from the Linux experience for the proposition that ``Given enough eyeballs, all bugs are shallow, suggest productive analogies with other self-correcting systems of selfish agents, and conclude with some exploration of the implications of this insight for the future of software. [31]
- https://en.wikipedia.org/wiki/System.map - a symbol table used by the kernel. A symbol table is a look-up between symbol names and their addresses in memory. A symbol name may be the name of a variable or the name of a function. The System.map is required when the address of a symbol name, or the symbol name of an address, is needed. It is especially useful for debugging kernel panics and kernel oopses. The kernel does the address-to-name translation itself when CONFIG_KALLSYMS is enabled so that tools like ksymoops are not required.
Building
- YouTube: Tutorial: Building the Simplest Possible Linux System - Rob Landley, se-instruments.com
- https://en.wikipedia.org/wiki/menuconfig - one of five similar tools that can configure Linux source, a necessary early step needed to compile the source code. make menuconfig, with a menu-driven user interface, allows the user to choose the features of Linux (and other options) that will be compiled. It is normally invoked using the command make menuconfig, menuconfig is a target in Linux Makefile. See also config, nconfig, gconfig, xconfig.
- https://wiki.archlinux.org/index.php/Modprobed-db - keeps a running list of ALL modules ever probed on a system and allow for easy recall. This is very useful for users wishing to build a minimal kernel via a make localmodconfig which simply takes every module currently probed and switches everything BUT them off in the .config for a kernel resulting in smaller kernel packages and reduced compilation times.
- Linux Kernel Seeds - pre-made kernel seeds to help you get your Linux system up and running.
- https://github.com/distcc/distcc - a program to distribute builds of C, C++, Objective C or Objective C++ code across several machines on a network to speed up building. It should always generate the same results as a local build, is simple to install and use, and is usually much faster than a local compile. Further, one can use it together with native Arch build tools such as makepkg.
Modules
- https://en.wikipedia.org/wiki/Loadable_kernel_module - or LKM, an object file that contains code to extend the running kernel, or so-called base kernel, of an operating system. LKMs are typically used to add support for new hardware (as device drivers) and/or filesystems, or for adding system calls. When the functionality provided by a LKM is no longer required, it can be unloaded in order to free memory and other resources.
- Kernel modules are pieces of code that can be loaded and unloaded into the kernel upon demand. They extend the functionality of the kernel without the need to reboot the system.
- https://en.wikipedia.org/wiki/lsmod - a command on Linux systems which prints the contents of the /proc/modules file. It shows which loadable kernel modules are currently loaded.
- modprobe is a Linux program originally written by Rusty Russell and used to add a loadable kernel module (LKM) to the Linux kernel or to remove an LKM from the kernel. It is commonly used indirectly: udev relies upon modprobe to load drivers for automatically detected hardware.
- http://linux.die.net/man/8/insmod - trivial program to insert a module into the kernel: if the filename is a hyphen, the module is taken from standard input. Most users will want to use modprobe(8) instead, which is more clever.
- http://linux.die.net/man/8/rmmod - a trivial program to remove a module from the kernel. Most users will want to use modprobe(8) with the -r option instead.
- http://linux.die.net/man/8/modinfo - program to show information about a Linux Kernel module
- depmod - handle dependency descriptions for loadable kernel modules
- Dynamic Kernel Module Support (DKMS) is a framework used to generate Linux kernel modules whose sources do not generally reside in the Linux kernel source tree. DKMS enables kernel device drivers to be automatically rebuilt when a new kernel is installed. An essential feature of DKMS is that it automatically recompiles all DKMS modules if a new kernel version is installed. This allows drivers and devices outside of the mainline kernel to continue working after a Linux kernel upgrade. Another benefit of DKMS is that it allows the installation of a new driver on an existing system, running an arbitrary kernel version, without any need for manual compilation or precompiled packages provided by the vendor.
- Granary - a framework for creating flexible and efficient tools that analyse or debug arbitrary, binary Linux kernel modules. Granary uses dynamic binary translation (DBT) to dynamically rewrite and comprehensively instrument kernel modules. Granary makes it easy to create flexible tools by supporting context-aware runtime code specialisation, and by integrating high-level static analysis information with low-level instruction manipulation. Module analysis tools built on Granary are efficient because of Granary’s adoption of a relaxed transparency model, and because of Granary’s ability to instrument module code without imposing overhead on non-module kernel code.
- https://wiki.archlinux.org/index.php/modprobed-db - keeps a running list of ALL modules ever probed on a system and allow for easy recall. This is very useful for users wishing to build a minimal kernel via a make localmodconfig which simply takes every module currently probed and switches everything BUT them off in the .config for a kernel resulting in smaller kernel packages and reduced compilation times.
Drivers
- http://www.linux-drivers.org/ Linux Hardware Compatibility Lists & Linux Drivers
- LKDDb is an attempt to build a comprensive database of hardware and protocols know by Linux kernels. The driver database includes numeric identifiers of hardware, the kernel configuration menu needed to build the driver and the driver filename. The database is build automagically from kernel sources, so it is very easy to have always the database updated.
Firmware for PCs falls into four categories:
- Updates to the CPU to work around errata, usually referred to as microcode.
- Firmware for video controllers. On x86 machines this seems to only apply to ATI devices : Radeons require firmware to be able to use KMS (kernel modesetting - the preferred option) as well as for Xorg. For earlier radeon chips (before the R600), the firmware is still in the kernel.
- Firmware updates for wired network ports. Mostly they work even without the updates, but one must assume that they will work better with the updated firmware.
- Firmware for other devices, such as wifi. These devices are not required for the PC to boot, but need the firmware before these devices can be used.
- http://en.wikipedia.org/wiki/Dmesg - display message or driver message, a command on most Linux and Unix-based operating systems that prints the message buffer of the kernel.
Parameters
There are three ways to pass options to the kernel and thus control its behaviour:
- When building the kernel.
- When starting the kernel (usually, when invoked from a boot loader).
- At runtime (through the files in /proc and /sys). See sysctl for details.
- bootparam - introduction to boot time parameters of the Linux kernel
- https://en.wikipedia.org/wiki/Sysctl - an interface for examining and dynamically changing parameters in Unix-like operating systems. The BSD implementation of sysctl uses system calls or system call wrappers, while the Linux implementation primarily uses files contained in a virtual file system.
- Linux Journal: The sysctl Interface
- Deprecation of /etc/sysctl.conf From version 207 on, systemd will not apply the settings from /etc/sysctl.conf anymore: it will only apply those from /etc/sysctl.d/*. Since the settings of our /etc/sysctl.conf shipped by procps-ng have become kernel defaults anyway, we have decided to deprecate this file.
cat /proc/sys/net/ipv4/ip_forward
Messages
Kernel patchsets
linux-zen
- https://liquorix.net/ - version of zen with configs
linux-rt
linux-ck
linux-pf
Nvidia 340 drivers not available.
linux-xanmod
- XanMod Kernel - a general-purpose Linux kernel distribution with custom settings and new features.Built to provide a more rock-solid, responsive and smooth desktop experience.Supports all recent 64-bit versions of Debian and Ubuntu-based systems.
Standards
Linux Standard Base
- Linux Standard Base (LSB) is a joint project by several Linux distributions under the organizational structure of the Linux Foundation to standardize the software system structure, including the filesystem hierarchy, used with Linux operating system. The LSB is based on the POSIX specification, the Single UNIX Specification, and several other open standards, but extends them in certain areas.
freedesktop.org
- freedesktop.org is open source / open discussion software projects working on interoperability and shared technology for X Window System desktops. The most famous X desktops are GNOME and KDE, but developers working on any Linux/UNIX GUI technology are welcome to participate. freedesktop.org is building a base platform for desktop software on Linux and UNIX. The elements of this platform have become the backend for higher-level application-visible APIs such as Qt, GTK+, XUL, VCL, WINE, GNOME, and KDE. The base platform is both software and specifications.
$XDG_DATA_HOME defines the base directory relative to which user specific data files should be stored. If $XDG_DATA_HOME is either not set or empty, a default equal to $HOME/.local/share should be used. $XDG_CONFIG_HOME defines the base directory relative to which user specific configuration files should be stored. If $XDG_CONFIG_HOME is either not set or empty, a default equal to $HOME/.config should be used. $XDG_DATA_DIRS defines the preference-ordered set of base directories to search for data files in addition to the $XDG_DATA_HOME base directory. The directories in $XDG_DATA_DIRS should be seperated with a colon ':'. If $XDG_DATA_DIRS is either not set or empty, a value equal to /usr/local/share/:/usr/share/ should be used. $XDG_CONFIG_DIRS defines the preference-ordered set of base directories to search for configuration files in addition to the $XDG_CONFIG_HOME base directory. The directories in $XDG_CONFIG_DIRS should be seperated with a colon ':'. If $XDG_CONFIG_DIRS is either not set or empty, a value equal to /etc/xdg should be used.
The order of base directories denotes their importance; the first directory listed is the most important. When the same information is defined in multiple places the information defined relative to the more important base directory takes precedent. The base directory defined by $XDG_DATA_HOME is considered more important than any of the base directories defined by $XDG_DATA_DIRS. The base directory defined by $XDG_CONFIG_HOME is considered more important than any of the base directories defined by $XDG_CONFIG_DIRS.
- xdg-user-dirs is a tool to help manage "well known" user directories like the desktop folder and the music folder. It also handles localization (i.e. translation) of the filenames.
- /etc/machine-id - contains the unique machine ID of the local system that is set during installation or boot. The machine ID is a single newline-terminated, hexadecimal, 32-character, lowercase ID. When decoded from hexadecimal, this corresponds to a 16-byte/128-bit value. This ID may not be all zeros.The machine ID is usually generated from a random source during system installation or first boot and stays constant for all subsequent boots. Optionally, for stateless systems, it is generated during runtime during early boot if necessary.The machine ID may be set, for example when network booting, with the systemd.machine_id= kernel command line parameter or by passing the option --machine-id= to systemd. An ID is specified in this manner has higher priority and will be used instead of the ID stored in /etc/machine-id.
Execution
Processes
- https://en.wikipedia.org/wiki/Process_(computing) - an instance of a computer program that is being executed. It contains the program code and its current activity. Depending on the operating system (OS), a process may be made up of multiple threads of execution that execute instructions concurrently.
- https://en.wikipedia.org/wiki/Process_management_(computing) - an integral part of any modern-day operating system (OS). The OS must allocate resources to processes, enable processes to share and exchange information, protect the resources of each process from other processes and enable synchronisation among processes. To meet these requirements, the OS must maintain a data structure for each process, which describes the state and resource ownership of that process, and which enables the OS to exert control over each process.
- MaiZure's Projects: Evolution of the x86 context switch in Linux [35]
- UPX: the Ultimate Packer for eXecutables - Homepage - a free, portable, extendable, high-performance executable packer for several executable formats.
- https://en.wikipedia.org/wiki/UPX - UPX uses a data compression algorithm called UCL, which is an open source implementation of portions of the proprietary NRV (Not Really Vanished) algorithm. UCL has been designed to be simple enough that a decompressor can be implemented in just a few hundred bytes of code. UCL requires no additional memory to be allocated for decompression, a considerable advantage that means that a UPX packed executable usually requires no additional memory. UPX (since 2.90 beta) can use LZMA on most platforms; however, this is disabled by default for 16-bit due to slow decompression speed on older computers (use --lzma to force it on). Starting with version 3.91, UPX also supports 64-Bit (x64) executable files on the Windows platform.[7] This feature is currently declared as experimental.
- https://en.wikipedia.org/wiki/Process_control_block - also called Task Controlling Block, process table, Task Struct, or Switchframe, is a data structure in the operating system kernel containing the information needed to manage a particular process. The PCB is "the manifestation of a process in an operating system".
- https://en.wikipedia.org/wiki/Process_identifier - (normally referred to as the process ID or just PID) is a number used by most operating system kernels — such as that of UNIX, Mac OS X or Microsoft Windows — to uniquely identify an active process. This number may be used as a parameter in various function calls, allowing processes to be manipulated, such as adjusting the process's priority or killing it altogether.
- https://en.wikipedia.org/wiki/Process_group - In POSIX-conformant operating systems, a process group denotes a collection of one or more processes. Process groups are used to control the distribution of signals. A signal directed to a process group is delivered individually to all of the processes that are members of the group.
Process groups are themselves grouped into sessions. Process groups are not permitted to migrate from one session to another, and a process may only create new process groups belonging to the same session as it itself belongs to. Processes are not permitted to join process groups that are not in the same session as they themselves are.
New process images created by a call to a function of the exec family inherit the process group membership and the session membership of the old process image.
- https://en.wikipedia.org/wiki/Orphan_process - a computer process whose parent process has finished or terminated, though it remains running itself.
Memory
System calls
See also Debugging#Tracing
- https://en.wikipedia.org/wiki/System_call - how a program requests a service from an operating system's kernel. This may include hardware-related services (for example, accessing a hard disk drive), creation and execution of new processes, and communication with integral kernel services such as process scheduling. System calls provide an essential interface between a process and the operating system.
- YouTube: Unix system calls (1/2) - Brian Will
/usr/include/sys/syscall.h /usr/include/bits/syscall.h
- http://linux.die.net/man/2/intro - introduction to system calls
- http://linux.die.net/man/2/syscalls - Linux system calls
System calls are generally not invoked directly, but rather via wrapper functions in glibc (or perhaps some other library). For details of direct invocation of a system call, see intro(2). Often, but not always, the name of the wrapper function is the same as the name of the system call that it invokes.
- https://en.wikipedia.org/wiki/fork_(system_call) - an operation whereby a process creates a copy of itself. Fork is the primary (and historically, only) method of process creation on Unix-like operating systems.
- https://en.wikipedia.org/wiki/exec_(system_call) - a functionality of an operating system that runs an executable file in the context of an already existing process, replacing the previous executable. This act is also referred to as an overlay. It is especially important in Unix-like systems, although exists elsewhere. As a new process is not created, the process identifier (PID) does not change, but the machine code, data, heap, and stack of the process are replaced by those of the new program. The exec is available for many programming languages including compilable languages and some scripting languages. In OS command interpreters, the exec built-in command replaces the shell process with the specified program.
- https://en.wikipedia.org/wiki/wait_(system_call) - suspends the execution of the parent process while the child executes. When the child process terminates, it returns an exit status to the operating system, which is then returned to the waiting parent process. The parent process then resumes execution.
- https://en.wikipedia.org/wiki/epoll - a Linux kernel system call, a scalable I/O event notification mechanism, first introduced in Linux kernel 2.5.44. It is meant to replace the older POSIX select(2) and poll(2) system calls, to achieve better performance in more demanding applications, where the number of watched file descriptors is large (unlike the older system calls, which operate in O(n) time, epoll operates in O(1) time). epoll is similar to FreeBSD's kqueue, in that it operates on a configurable kernel object, exposed to user space as a file descriptor of its own.
- https://en.wikipedia.org/wiki/sync_(Unix) - commits to disk all data in the kernel filesystem buffers, i.e., data which has been scheduled for writing via low-level I/O system calls. Note that higher-level I/O layers such as stdio may maintain separate buffers of their own.
- https://github.com/stewartsmith/libeatmydata - An LD_PRELOAD library that disables all forms of writing data safely to disk. fsync() becomes a NO-OP, O_SYNC is removed etc. The idea is to use in testing to get faster test runs where real durability is not required. DO NOT use libeatmydata on software where you care about what it stores. It's called lib***EAT-MY-DATA*** for a reason.
- https://en.wikipedia.org/wiki/select_(Unix) - for examining the status of file descriptors of open input/output channels. The select system call is similar to the poll facility introduced in UNIX System V and later operating systems.
- https://en.wikipedia.org/wiki/splice_(system_call) - a Linux-specific system call that moves data between a file descriptor and a pipe without a round trip to user space. The related system call vmsplice() moves or copies data between a pipe and user space. Ideally, splice and vmsplice work by remapping pages and do not actually copy any data, which may improve I/O performance. As linear addresses do not necessarily correspond to contiguous physical addresses, this may not be possible in all cases and on all hardware combinations.
- https://github.com/majek/fluxcapacitor - a tool for making your program run without blocking on timeouts, on functions like poll and select, by spoofing POSIX time functions. It is somewhat similar to:FreezeGun for PythonTimeCop or DeLorean for Ruby. While these tools patch time libraries in Ruby and Python, fluxcapacitor works on a lower layer by "patching" low-level syscalls. That way, it can lie about time to any program in any programming language, as long as it runs on Linux.
Kernel interfaces
- https://en.wikipedia.org/wiki/Application_binary_interface - the interface between two program modules, one of which is often a library or operating system, at the level of machine code. An ABI determines such details as how functions are called and in which binary format information should be passed from one program component to the next, or to the operating system in the case of a system call.
Adhering to ABIs (which may or may not be officially standardized) is usually the job of the compiler, OS or library writer, but application programmers may have to deal with ABIs directly when writing programs in a mix of programming languages, using foreign function call interfaces between them. ABIs differ from application programming interfaces (APIs), which similarly define interfaces between program components, but at the source code level.
- http://linux-abi.sourceforge.net/ - The Linux abi is a patch to the linux kernel that allows a linux system to run foreign binaries. This was developed and written by Christoph Hellwig and Joerg Ahrens as a follow on to the iBCS/iBCS2 project written for the older 2.2.x kernel by Mike Jagdis.
Loader
- https://en.wikipedia.org/wiki/Loader_(computing) - the part of an operating system that is responsible for loading programs and libraries. It is one of the essential stages in the process of starting a program, as it places programs into memory and prepares them for execution. Loading a program involves reading the contents of the executable file containing the program instructions into memory, and then carrying out other required preparatory tasks to prepare the executable for running. Once loading is complete, the operating system starts the program by passing control to the loaded program code.
- https://en.wikipedia.org/wiki/Binfmt_misc - a capability of the Linux kernel which allows arbitrary executable file formats to be recognized and passed to certain user space applications, such as emulators and virtual machines. It is one of a number of binary format handlers in the kernel that are involved in preparing a user-space program to run.The executable formats are registered through the special purpose file system binfmt_misc file-system interface (usually mounted under part of /proc). This is either done directly by sending special sequences to the register procfs file or using a wrapper like Debian-based distributions binfmt-support package or systemd's systemd-binfmt.service
Formats
ELF
- https://en.wikipedia.org/wiki/Executable_and_Linkable_Format - ELF, formerly called Extensible Linking Format, is a common standard file format for executables, object code, shared libraries, and core dumps. First published in the System V Release 4 (SVR4) Application Binary Interface (ABI) specification, and later in the Tool Interface Standard, it was quickly accepted among different vendors of Unix systems. In 1999 it was chosen as the standard binary file format for Unix and Unix-like systems on x86 by the 86open project. ELF is flexible and extensible by design, and it is not bound to any particular processor or architecture. This has allowed it to be adopted by many different operating systems on many different platforms.
- https://github.com/vodik/pkgelf - A small tool for ELF-based packages to introspect dynamic linking.
bFLT
- Binary Flat Format - uClinux uses a Binary Flat format commonly known as BFLT. It is a relatively simple and lightweight executable format based on the original a.out format. It has seen two major revisions, version 2 and more recently version 4. Version 2 is used by the m68k-coff compilers and is still in use with the ARM elf2flt converter while version 4 is used with the m68k elf2flt converter. Like many open source projects worked on by many individuals, little features have creped into versions without the revision field changing. As a consequence what we detail in each version may not strictly be the case in all circumstances. Both the 2.0.x and 2.4.x kernels’ bFLT loaders in the CVS support both formats. Earlier kernels may need to have binfmt_flat.c and flat.c patched to support version 4, should version 4 binaries report the following message when loading
FatELF
- FatELF - a file format that embeds multiple ELF binaries for different architectures into one file. This is the Linux equivalent of what Mac OS X calls "Universal Binaries."The format is very simple: it adds some accounting info at the start of the file, and then appends all the ELF binaries after it, adding padding for alignment. The end of the file isn't touched, so you can still do things like self-extracting .zip files for multiple architectures with FatELF.FatELF lets you pack binaries into one file, seperated by OS ABI, OS ABI version, byte order and word size, and most importantly, CPU architecture.Work is focused on GNU/Linux, but this could be applied to most modern Unix systems: the BSDs, Solaris, etc.
Libraries
- Program Library HOWTO - David A. Wheeler - This HOWTO for programmers discusses how to create and use program libraries on Linux. This includes static libraries, shared libraries, and dynamically loaded libraries.
- Linux Journal: Linkers and Loaders
/lib # main library directory
/usr/lib # /lib can be a symlink to /usr/lib
Static
- https://en.wikipedia.org/wiki/Static_library - or statically-linked library is a set of routines, external functions and variables which are resolved in a caller at compile-time and copied into a target application by a compiler, linker, or binder, producing an object file and a stand-alone executable. This executable and the process of compiling it are both known as a static build of the program. Historically, libraries could only be static. Static libraries are either merged with other static libraries and object files during building/linking to form a single executable, or they may be loaded at run-time into the address space of the loaded executable at a static memory offset determined at compile-time/link-time.
Dynamic
- https://en.wikipedia.org/wiki/Dynamic_linker - the part of an operating system that loads and links the shared libraries needed by an executable when it is executed (at "run time"), by copying the content of libraries from persistent storage to RAM, and filling jump tables and relocating pointers. The specific operating system and executable format determine how the dynamic linker functions and how it is implemented.
Linking is often referred to as a process that is performed when the executable is compiled, while a dynamic linker is a special part of an operating system that loads external shared libraries into a running process and then binds those shared libraries dynamically to the running process. This approach is also called dynamic linking or late linking.
- dlfcn.h - dynamic linking
- https://en.wikipedia.org/wiki/Dynamic_loading - a mechanism by which a computer program can, at run time, load a library (or other binary) into memory, retrieve the addresses of functions and variables contained in the library, execute those functions or access those variables, and unload the library from memory. Unlike static linking and dynamic linking, dynamic loading allows a computer program to start up in the absence of these libraries, to discover available libraries, and to potentially gain additional functionality.
- http://cateee.net/lkddb/web-lkddb/USELIB.html - This option enables the uselib syscall, a system call used in the dynamic linker from libc5 and earlier. glibc does not use this system call. If you intend to run programs built on libc5 or earlier, you may need to enable this syscall. Current systems running glibc can safely disable this.
- http://linux.die.net/man/2/uselib - system call uselib() serves to load a shared library to be used by the calling process. It is given a pathname. The address where to load is found in the library itself. The library can have any recognized binary format.
- http://linux.die.net/man/8/ld.so - ld.so, ld-linux.so* - dynamic linker/loader
The programs ld.so and ld-linux.so* find and load the shared libraries needed by a program, prepare the program to run, and then run it.
Linux binaries require dynamic linking (linking at run time) unless the -static option was given to ld(1) during compilation.
The program ld.so handles a.out binaries, a format used long ago; ld-linux.so* handles ELF (/lib/ld-linux.so.1 for libc5, /lib/ld-linux.so.2 for glibc2), which everybody has been using for years now. Otherwise both have the same behavior, and use the same support files and programs ldd(1), ldconfig(8) and /etc/ld.so.conf.
- https://grahamwideman.wordpress.com/2009/02/09/the-linux-loader-and-how-it-finds-libraries/
- http://www.cs.virginia.edu/~dww4s/articles/ld_linux.html
- ldconfig - configure dynamic linker run-time bindings
- http://linux.die.net/man/1/ldd - prints the shared libraries required by each program or shared library specified on the command line.
ldd /usr/bin/ls
linux-vdso.so.1 (0x00007ffd9afde000) libcap.so.2 => /usr/lib/libcap.so.2 (0x00007f35e72f9000) libc.so.6 => /usr/lib/libc.so.6 (0x00007f35e6f58000) /lib64/ld-linux-x86-64.so.2 (0x00007f35e74fd000)
"Linux puts you in full control. This is not always seen from everyone’s perspective, but a power user loves to be in control. ... what happens when we set up the environmental variable LD_PRELOAD? This variable forces some libraries to be loaded for a program. In our case, it loads unrandom.so for random_num, even though the program itself does not ask for it. The following command may be interesting:"
$ LD_PRELOAD=$PWD/unrandom.so ldd random_nums linux-vdso.so.1 => (0x00007fff369dc000) /some/path/to/unrandom.so (0x00007f262b439000) libc.so.6 => /lib/x86_64-linux-gnu/libc.so.6 (0x00007f262b044000) /lib64/ld-linux-x86-64.so.2 (0x00007f262b63d000)
- https://www.flamingspork.com/projects/libeatmydata - An LD_PRELOAD library that disables all forms of writing data safely to disk. fsync() becomes a NO-OP, O_SYNC is removed etc. The idea is to use in testing to get faster test runs where real durability is not required. DO NOT use libeatmydata on software where you care about what it stores. It's called lib***EAT-MY-DATA*** for a reason
- https://github.com/wolfcw/libfaketime - libfaketime intercepts various system calls that programs use to retrieve the current date and time. It then reports modified (faked) dates and times (as specified by you, the user) to these programs. This means you can modify the system time a program sees without having to change the time system-wide.
- https://github.com/DavidBuchanan314/TARDIS - Trace And Rewrite Delays In Syscalls: Hooking time-related Linux syscalls to warp a process's perspective of time, using ptrace.
- https://github.com/riboseinc/retrace - a versatile security vulnerability / bug discovery tool through monitoring and modifying the behavior of compiled binaries on Linux, OpenBSD/FreeBSD/NetBSD (shared object) and macOS (dynamic library).
- https://github.com/SimonKagstrom/kcov - a Linux/OSX code coverage tester for compiled languages, Python and Bash. Kcov was originally a fork of Bcov, but has since evolved to support a large feature set in addition to that of Bcov. Kcov, like Bcov, uses DWARF debugging information for compiled programs to make it possible to collect coverage information without special compiler switches.
- https://github.com/sickill/stderred - stderr in red. stderred hooks on write() and a family of stream functions (fwrite, fprintf, error...) from libc in order to colorize all stderr output that goes to terminal thus making it distinguishable from stdout. Basically it wraps text that goes to file with descriptor "2" with proper ANSI escape codes making text red.
- https://github.com/zardus/preeny - helps you pwn noobs by making it easier to interact with services locally. It disables fork(), rand(), and alarm() and, if you want, can convert a server application to a console one using clever/hackish tricks, and can even patch binaries!
- https://elinux.org/Electric_Fence - Electric Fence helps you detect two common programming bugs: software that overruns the boundaries of a malloc()memory allocation, software that touches a memory allocation that has been released by free(). Unlike other malloc() debuggers, Electric Fence will detect read accesses as well as writes, and it will pinpoint the exact instruction that causes an error. Electric Fence uses the virtual memory hardware of your computer to place an inaccessible memory page immediately after (or before, at the user's option) each memory allocation.
- https://github.com/dex4er/fakechroot - fakechroot runs a command in an environment were is additional possibility to use chroot(8) command without root privileges. This is useful for allowing users to create own chrooted environment with possibility to install another packages without need for root privileges. fakechroot replaces some libc library functions (chroot(2), open(2), etc.) by ones that simulate the effect of being called with root privileges. These wrapper functions are in a shared library libfakechroot.so which is loaded through the LD_PRELOAD mechanism of the dynamic loader. (See ld.so(8))
- https://blitiri.com.ar/p/libfiu - libfiu is a C library for fault injection. It aims to simplify automated testing of software behaviour at failure scenarios, for software which is supposed to be fault-resistant or at least gracefully cope with failures. It provides functions to mark "points of failure" inside your code (the core API), and functions to enable/disable the failure of those points (the control API).
- https://github.com/paultag/tmperamental - a library that intercepts filesystem writes, and causes loud failures when writes are attempted on /tmp/*. The idea here is by setting TMPDIR and friends, you are able to use libtmperamental to catch programs in the act of not respecting such env-vars.
- https://github.com/mirrorer/afl/tree/master/libdislocator - a companion library that can be used as a drop-in replacement for the libc allocator in the fuzzed binaries. It improves the odds of bumping into heap-related security bugs in several ways.
vDSO
- https://en.wikipedia.org/wiki/vDSO - virtual dynamically linked shared object) is a Linux kernel mechanism for exporting a carefully selected set of kernel space routines to user space applications so that applications can call these kernel space routines in-process, without incurring the performance penalty of a context switch that is inherent when calling these same kernel space routines by means of the system call interface. vDSO has been developed to offer the vsyscall features and to overcome its limitations: small amount of allocated memory allowing only 4 system calls and same addresses ABI in each process compromising security. This security issue has been by emulating a virtual system call introducing a penalty latency.
a.out
- https://en.wikipedia.org/wiki/a.out - a file format used in older versions of Unix-like computer operating systems for executables, object code, and, in later systems, shared libraries. The name stands for "assembler output", and was coined by Ken Thompson as the fixed name for output of his PDP-7 assembler in 1968. The term was subsequently applied to the format of the resulting file, to contrast with other formats for object code.
"a.out" remains the default output file name for executables created by certain compilers and linkers when no output name is specified, even though the created files actually are not in the a.out format.
https://blackfin.uclinux.org/doku.php?id=toolchain:executable_file_formats
Memory
See also Computing#Memory
- ps_mem - A utility to accurately report the core memory usage for a program
Paging
- LWN.net: Huge pages part 1 (Introduction)
- numa(7) - Linux manual page - overview of Non-Uniform Memory Architecture
- https://en.wikipedia.org/wiki/Non-uniform_memory_access - a computer memory design used in multiprocessing, where the memory access time depends on the memory location relative to the processor. Under NUMA, a processor can access its own local memory faster than non-local memory (memory local to another processor or memory shared between processors). The benefits of NUMA are limited to particular workloads, notably on servers where the data is often associated strongly with certain tasks or users.
Co-ordination
- https://en.wikipedia.org/wiki/Synchronization_(computer_science) - refers to one of two distinct but related concepts: synchronization of processes, and synchronization of data. Process synchronization refers to the idea that multiple processes are to join up or handshake at a certain point, in order to reach an agreement or commit to a certain sequence of action. Data synchronization refers to the idea of keeping multiple copies of a dataset in coherence with one another, or to maintain data integrity. Process synchronization primitives are commonly used to implement data synchronization.
RCU
- LWN.net: What is RCU, Fundamentally? - Read-copy update (RCU) is a synchronization mechanism that was added to the Linux kernel in October of 2002. RCU achieves scalability improvements by allowing reads to occur concurrently with updates. In contrast with conventional locking primitives that ensure mutual exclusion among concurrent threads regardless of whether they be readers or updaters, or with reader-writer locks that allow concurrent reads but not in the presence of updates, RCU supports concurrency between a single updater and multiple readers. RCU ensures that reads are coherent by maintaining multiple versions of objects and ensuring that they are not freed up until all pre-existing read-side critical sections complete. RCU defines and uses efficient and scalable mechanisms for publishing and reading new versions of an object, and also for deferring the collection of old versions. These mechanisms distribute the work among read and update paths in such a way as to make read paths extremely fast. In some cases (non-preemptable kernels), RCU's read-side primitives have zero overhead.
- https://en.wikipedia.org/wiki/Read-copy-update - a synchronization mechanism based on mutual exclusion.[note 1] It is used when performance of reads is crucial and is an example of space–time tradeoff, enabling fast operations at the cost of more space.Read-copy-update allows multiple threads to efficiently read from shared memory by deferring updates after pre-existing reads to a later time while simultaneously marking the data, ensuring new readers will read the updated data. This makes all readers proceed as if there were no synchronization involved, hence they will be fast, but also making updates more difficult.
Inter-process communication
- https://en.wikipedia.org/wiki/Inter-process_communication - the activity of sharing data across multiple and commonly specialized processes using communication protocols. Typically, applications using IPC are categorized as clients and servers, where the client requests data and the server responds to client requests. Many applications are both clients and servers, as commonly seen in distributed computing. Methods for achieving IPC are divided into categories which vary based on software requirements, such as performance and modularity requirements, and system circumstances, such as network bandwidth and latency.
Interrupts
The Linux kernel provides the following IPC mechanisms: Signals, Anonymous Pipes, Named Pipes or FIFOs, SysV Message Queues, POSIX Message Queues, SysV Shared memory, POSIX Shared memory, SysV semaphores, POSIX semaphores, FUTEX locks, File-backed and anonymous shared memory using mmap, UNIX Domain Sockets, Netlink Sockets, Network Sockets, Inotify mechanisms, FUSE subsystem, D-Bus subsystem.
Interrupts can be viewed as a mean of communication between the CPU and the OS kernel. Signals can be viewed as a mean of communication between the OS kernel and OS processes.
Interrupts may be initiated by the CPU (exceptions - e.g.: divide by zero, page fault), devices (hardware interrupts - e.g: input available), or by a CPU instruction (traps - e.g: syscalls, breakpoints). They are eventually managed by the CPU, which "interrupts" the current task, and invokes an OS-kernel provided ISR/interrupt handler.
Signals may be initiated by the OS kernel (e.g: SIGFPE, SIGSEGV, SIGIO), or by a process(kill()). They are eventually managed by the OS kernel, which delivers them to the target thread/process, invoking either a generic action (ignore, terminate, terminate and dump core) or a process-provided signal handler. [44]
- http://www.ibm.com/developerworks/aix/library/au-spunix_sharedmemory/
- http://stackoverflow.com/questions/4582968/system-v-ipc-vs-posix-ipc
- http://stackoverflow.com/questions/368322/differences-between-system-v-and-posix-semaphores
- http://rubenlaguna.com/wp/2015/02/22/posix-slash-system-v-shared-memory-vs-threads-shared-memory/
SysV
POSIX
- http://linux.die.net/man/7/shm_overview - overview of POSIX shared memory API allows processes to communicate information by sharing a region of memory.
Unix signals
- https://en.wikipedia.org/wiki/Unix_signal - a limited form of inter-process communication used in Unix, Unix-like, and other POSIX-compliant operating systems. A signal is an asynchronous notification sent to a process or to a specific thread within the same process in order to notify it of an event that occurred. Signals originated in 1970s Bell Labs Unix and have been more recently specified in the POSIX standard.
When a signal is sent, the operating system interrupts the target process' normal flow of execution to deliver the signal. Execution can be interrupted during any non-atomic instruction. If the process has previously registered a signal handler, that routine is executed. Otherwise, the default signal handler is executed.
A signal is a software interrupt delivered to a process. The operating system uses signals to report exceptional situations to an executing program. Some signals report errors such as references to invalid memory addresses; others report asynchronous events, such as disconnection of a phone line.
- https://en.wikipedia.org/wiki/Sigaction - a function API defined by POSIX to give the programmer access to what should be a program's behavior when receiving specific OS signals.
- https://www.gnu.org/software/libc/manual/html_node/Signal-Handling.html
- https://www.gnu.org/software/libc/manual/html_node/Generating-Signals.html
- Crossed Signals, A 15 Year Old Bug in a Feature You’ve Never Heard Of - Most operating systems have implemented realtime signals incorrectly[45]
- Linux process states - ptrace tutorial part #1 [46]
Unix domain sockets
Pipes
If |& is used, the standard error of command is connected to command2's standard input through the pipe; it is shorthand for 2>&1 |.
- Socketpipe - directly connects the input/output of a remote process with local programs over a TCP/IP socket. Although the initial communication setup is performed through client-server intermediaries such as SSH or RSH, the communication channel that socketpipe establishes is a direct socket connection between the local and the remote processes, similar to a local pipe. The use of socketpipe removes the inefficiency of multiple data copies and context switches through RSH/SSH, and can in many cases offer dramatic throughput improvements.
- Spiped - pronounced "ess-pipe-dee", is a utility for creating symmetrically encrypted and authenticated pipes between socket addresses, so that one may connect to one address (e.g., a UNIX socket on localhost) and transparently have a connection established to another address (e.g., a UNIX socket on a different system). This is similar to 'ssh -L' functionality, but does not use SSH and requires a pre-shared symmetric key.
- pv - Pipe Viewer, a terminal-based tool for monitoring the progress of data through a pipeline. It can be inserted into any normal pipeline between two processes to give a visual indication of how quickly data is passing through, how long it has taken, how near to completion it is, and an estimate of how long it will be until completion.
pv source > target # cp with progress bar tar czf images.tar.gz image1 image2 image3 | pv > target # tar pv source | gzip > target.gz # or gzip < source | pv > target.gz # gzip -L 25k # rate limit -d PID[:FD], --watchfd PID[:FD] # watch existing process
- https://github.com/Xfennec/progress - Linux tool to show progress for cp, mv, dd, ... (formerly known as cv)
- Pipeglade - Graphical User Interfaces, The UNIX Way, a helper program that displays graphical user interfaces for other programs. It renders the GUI definition found in a GtkBuilder file (created using the Glade Interface Designer), and communicates with the main program solely via pipes or fifos. [52]
Named pipes
D-Bus
- D-Bus - a message bus system, a simple way for applications to talk to one another. In addition to interprocess communication, D-Bus helps coordinate process lifecycle; it makes it simple and reliable to code a "single instance" application or daemon, and to launch applications and daemons on demand when their services are needed.
D-Bus supplies both a system daemon (for events such as "new hardware device added" or "printer queue changed") and a per-user-login-session daemon (for general IPC needs among user applications). Also, the message bus is built on top of a general one-to-one message passing framework, which can be used by any two apps to communicate directly (without going through the message bus daemon). Currently the communicating applications are on one computer, or through unencrypted TCP/IP suitable for use behind a firewall with shared NFS home directories. (Help wanted with better remote transports - the transport mechanism is well-abstracted and extensible.)
- https://wiki.archlinux.org/index.php/D-Bus - D-Bus is enabled automatically when using systemd because dbus is a dependency of systemd.
- Linux Journal: Get on the D-BUS
kdbus
- https://github.com/gregkh/kdbus - not in kernel, give it a few years
- http://lwn.net/Articles/580194/ - "kdbus, an in-kernel implementation of D-Bus. This implementation is able to carry large amounts of data; it can be reasonably used for gigabyte-sized message streams. It can perform zero-copy message passing, but even in the worst case, a message and its response are passed with no more than two copy operations, two validations, and two context switches. Full credential information (user ID, process ID, SELinux label, control group information, capabilities, and much more) is passed with each message, and all messages carry timestamps. Kdbus is always available to the system (no need to wait for the D-Bus daemon to be started), Linux security modules can hook into it directly, various race conditions have been fixed, and the API has simplified."
Utils
at bg chroot fg time
- https://gist.github.com/anonymous/7529780 - script to show swapped processes
kill
In Unix and Unix-like operating systems, kill is a command used to send a signal to a process. By default, the message sent is the termination signal, which requests that the process exit. But kill is something of a misnomer; the signal sent may have nothing to do with process killing. The kill command is a wrapper around the kill() system call, which sends signals to processes or process groups on the system, referenced by their numeric process IDs (PIDs) or process group IDs (PGIDs). kill is always provided as a standalone utility as defined by the POSIX standard. However, most shells have built-in kill commands that may slightly differ from it.
A process can be sent a SIGTERM signal in four ways (the process ID is '1234' in this case):
kill 1234 kill -s TERM 1234 kill -TERM 1234 kill -15 1234
The process can be sent a SIGKILL signal in three ways:
kill -s KILL 1234 kill -KILL 1234 kill -9 1234
killall -u username terminate all username's applications to log them out
- http://psdoom.sourceforge.net/ - kill processes in doom
nohup
- nohup - Run a command immune to hangups, runs the given command with hangup signals ignored, so that the command can continue running in the background after you log out.
reptyr
- https://github.com/nelhage/reptyr - a utility for taking an existing running program and attaching it to a new terminal. Started a long-running process over ssh, but have to leave and don't want to interrupt it? Just start a screen, use reptyr to grab it, and then kill the ssh session and head on home.
Debugging
See also Development#Debugging
Scheduling
- https://en.wikipedia.org/wiki/O(1)_scheduler - a kernel scheduling design that can schedule processes within a constant amount of time, regardless of how many processes are running on the operating system. One of the major goals of operating system designers is to minimize overhead and jitter of OS services, so that application programmers who use them endure less of a performance impact. O(1) scheduler providing "constant time" scheduling services has helped in this regard.
- PDF: The Linux Scheduler: A Decade of Wasted Cores [59]
- The Linux Scheduler: a Decade of Wasted Cores [60]
nice
- nice - run a program with modified scheduling priority
nice -n 19 [command] run a command at lowest priority
nice -n -20 [command] run a command at highest priority
VeryNice
ionice
- https://linux.die.net/man/1/ionice - sets or gets the io scheduling class and priority for a program. If no arguments or just -p is given, ionice will query the current io scheduling class and priority for that process.
Ananicy
- https://github.com/Nefelim4ag/Ananicy - Another auto nice daemon, with community rules support (Use pull request please)
Threads
- https://en.wikipedia.org/wiki/Thread_(computer_science) - a thread of execution is the smallest sequence of programmed instructions that can be managed independently by a scheduler, which is typically a part of the operating system. The implementation of threads and processes differs between operating systems, but in most cases a thread is a component of a process. Multiple threads can exist within one process, executing concurrently (one starting before others finish) and share resources such as memory, while different processes do not share these resources. In particular, the threads of a process share its instructions (executable code) and its context (the values of its variables at any given time).
- https://en.wikipedia.org/wiki/Green_threads - threads that are scheduled by a runtime library or virtual machine (VM) instead of natively by the underlying operating system. Green threads emulate multithreaded environments without relying on any native OS capabilities, and they are managed in user space instead of kernel space, enabling them to work in environments that do not have native thread support.
- https://en.wikipedia.org/wiki/POSIX_Threads - pthreads
"If you want to run code on many platforms, go for Posix Threads. They are available almost everywhere and are quite mature. OTOH if you only use Linux/gcc std::thread is perfectly fine - it has a higher abstraction level, a really good interface and plays nicely with other C++11 classes.
"The C++11 std::thread class unfortunately doesn't work reliably (yet) on every platform, even if C++11 seems available. For instance in native Android std::thread or Win64 it just does not work or has severe performance bottlenecks (as of 2012).
"A good replacement is boost::thread - it is very similar to std::thread (actually it is from the same author) and works reliably, but, of course, it introduces another dependency from a third party library."
"The std::thread library is implemented on top of pthreads in an environment supporting pthreads (for example: libstdc++).
"I think the big difference between the two is abstraction. std::thread is a C++ class library. The std::thread library includes many abstract features, for example: scoped locks, recursive mutexes, future/promise design pattern implementations, and more."
Watchdog
Security
cgroups
- Control Groups - provide a mechanism for aggregating/partitioning sets of tasks, and all their future children, into hierarchical groups with specialized behaviour.
Capabilities
- https://en.wikipedia.org/wiki/Capability-based_security - a concept in the design of secure computing systems, one of the existing security models. A capability (known in some systems as a key) is a communicable, unforgeable token of authority. It refers to a value that references an object along with an associated set of access rights. A user program on a capability-based operating system must use a capability to access an object. Capability-based security refers to the principle of designing user programs such that they directly share capabilities with each other according to the principle of least privilege, and to the operating system infrastructure necessary to make such transactions efficient and secure. Capability-based security is to be contrasted with an approach that uses hierarchical protection domains.
- Linux manual page: capabilities(7) - For the purpose of performing permission checks, traditional UNIX implementations distinguish two categories of processes: privileged processes (whose effective user ID is 0, referred to as superuser or root), and unprivileged processes (whose effective UID is nonzero). Privileged processes bypass all kernel permission checks, while unprivileged processes are subject to full permission checking based on the process's credentials (usually: effective UID, effective GID, and supplementary group list). Starting with kernel 2.2, Linux divides the privileges traditionally associated with superuser into distinct units, known as capabilities, which can be independently enabled and disabled. Capabilities are a per-thread attribute.
Process Accounting
- Process Accounting - a security method in which an administrator may keep track of system resources used and their allocation among users, provide for system monitoring, and minimally track a user's commands.Process accounting has both positive and negative points. One of the positives is that an intrusion may be narrowed down to the point of entry. A negative is the amount of logs generated by process accounting, and the disk space they may require. This section walks an administrator through the basics of process accounting.
Boot
- http://en.wikipedia.org/wiki/Linux_startup_process - the multi-stage initialization process performed during booting a Linux installation. It is in many ways similar to the BSD and other Unix-style boot processes, from which it derives.
Booting a Linux installation involves multiple stages and software components, including firmware initialization, execution of a boot loader, loading and startup of a Linux kernel image, and execution of various startup scripts and daemons. For each of these stages and components there are different variations and approaches; for example, GRUB, LILO, SYSLINUX or Loadlin can be used as boot loaders, while the startup scripts can be either traditional init-style, or the system configuration can be performed through more modern alternatives such as systemd or Upstart.
- IBM: Inside the Linux boot process - Take a guided tour from the Master Boot Record to the first user-space application
- e4rat - reduce boot time (into X) by some 50% for ext4
BIOS / UEFI
- https://en.wikipedia.org/wiki/BIOS - an acronym for Basic Input/Output System and also known as the System BIOS, ROM BIOS or PC BIOS) is a type of firmware used to perform hardware initialization during the booting process (power-on startup) on IBM PC compatible computers, and to provide runtime services for operating systems and programs. The BIOS firmware is built into personal computers (PCs), and it is the first software they run when powered on. The name itself originates from the Basic Input/Output System used in the CP/M operating system in 1975. Originally proprietary to the IBM PC, the BIOS has been reverse engineered by companies looking to create compatible systems and the interface of that original system serves as a de facto standard.
The fundamental purposes of the BIOS in modern PCs are to initialize and test the system hardware components, and to load a boot loader or an operating system from a mass memory device. The BIOS additionally provides an abstraction layer for the hardware, i.e., a consistent way for application programs and operating systems to interact with the keyboard, display, and other input/output (I/O) devices. Variations in the system hardware are hidden by the BIOS from programs that use BIOS services instead of directly accessing the hardware. MS-DOS (PC DOS), which was the dominant PC operating system from the early 1980s until the mid-1990s, relied on BIOS services for disk, keyboard, and text display functions. MS Windows NT, Linux, and other protected mode operating systems in general ignore the abstraction layer provided by the BIOS and do not use it after loading, instead accessing the hardware components directly.
Most BIOS implementations are specifically designed to work with a particular computer or motherboard model, by interfacing with various devices that make up the complementary system chipset. Originally, BIOS firmware was stored in a ROM chip on the PC motherboard; in modern computer systems, the BIOS contents are stored on flash memory so it can be rewritten without removing the chip from the motherboard. This allows easy updates to the BIOS firmware so new features can be added or bugs can be fixed, but it also creates a possibility for the computer to become infected with BIOS rootkits.
- https://en.wikipedia.org/wiki/Power-on_self-test - POST routines are part of a device's pre-boot sequence and only once they complete successfully is the bootstrap loader code invoked to load an operating system
- https://en.wikipedia.org/wiki/Unified_Extensible_Firmware_Interface - Unified Extensible Firmware Interface (UEFI) was designed as a successor to BIOS, aiming to address its technical shortcomings. As of 2014, new PC hardware predominantly ships with UEFI firmware.
- https://en.wikipedia.org/wiki/Unified_EFI_Forum or UEFI Forum is an alliance between several leading technology companies to modernize the booting process. The board of directors includes representatives from eleven "Promoter" companies: AMD, American Megatrends, Apple, Dell, HP, IBM, Insyde Software, Intel, Lenovo, Microsoft, and Phoenix Technologies.
ACPI
- https://en.wikipedia.org/wiki/Advanced_Configuration_and_Power_Interface - ACPI - specification provides an open standard that the operating systems can use for computer hardware discovery, configuration, power management, and monitoring. Internally, ACPI exports the available functionalities by providing certain instruction lists as part of the system firmware, which the operating system kernel interprets and executes to perform desired operations, using a form of embedded virtual machine.
"Overall design decision was not without criticism. In November 2003, Linus Torvalds—author of the Linux kernel—described ACPI as "a complete design disaster in every way". In 2001, other senior Linux software developers like Alan Cox expressed concerns about the requirements that bytecode from an external source must be run by the kernel with full privileges, as well as the overall complexity of the ACPI specification. In 2014, Mark Shuttleworth, founder of the Ubuntu Linux distribution, compared ACPI with Trojan horses."
- iasl - ACPI Source Language compiler/decompiler
Coreboot
- https://en.wikipedia.org/wiki/Coreboot - formerly known as LinuxBIOS, is a free software project aimed at replacing proprietary firmware (BIOS or UEFI) found in most computers with a lightweight firmware designed to perform only the minimum number of tasks necessary to load and run a modern 32-bit or 64-bit operating system.
Since coreboot initializes the bare hardware, it must be ported to every chipset and motherboard that it supports. As a result, coreboot is available only for a limited number of hardware platforms and motherboard models.
Network boot
- https://en.wikipedia.org/wiki/Preboot_Execution_Environment - PXE, sometimes pronounced as pixie, a specification that describes a standardized client-server environment that boots a software assembly, retrieved from a network, on PXE-enabled clients. On the client side it requires only a PXE-capable network interface controller (NIC), and uses a small set of industry-standard network protocols such as DHCP and TFTP.
The concept behind the PXE originated in the early days of protocols like BOOTP/DHCP/TFTP, and as of 2015 it forms part of the Unified Extensible Firmware Interface (UEFI) standard. Given fast and reliable local area networks (LANs), PXE is the most frequent choice for operating system booting, installation and deployment.
- netboot.xyz - a way to select various operating system installers or utilities from one place within the BIOS without the need of having to go retrieve the media to run the tool. iPXE is used to provide a user friendly menu from within the BIOS that lets you easily choose the operating system you want along with any specific types of versions or bootable flags. You can remote attach the ISO to servers, set it up as a rescue option in Grub, or even set up your home network to boot to it by default so that it's always available. [65]
- PXELINUX - a Syslinux derivative, for booting from a network server using a network ROM conforming to the Intel PXE (Pre-Execution Environment) specification. PXELINUX is not a program intended to be flashed or burned into a PROM on the network card. For such possibility, check out iPXE (http://ipxe.org/). If you want to create PXE-compliant boot PROM for your network card (to use with PXELINUX, for example), check out NetBoot (http://netboot.sourceforge.net/).
- Netboot - tools for network boot, allows to remote boot a computer over an IP network without access to a hard disk or a diskette. It is therefore ideally suited for diskless or thin clients using an x86 processor. Netboot is open source software licensed by the GNU GPL, and contains all necessary tools including a PXE compliant bootrom. Operating systems supported on the diskless client are Linux, FreeBSD and many DOS variants.
- iPXE - the leading open source network boot firmware. It provides a full PXE implementation enhanced with additional features such as: boot from a web server via HTTP, boot from an iSCSI SAN, boot from a Fibre Channel SAN via FCoE, boot from an AoE SAN, boot from a wireless network, boot from a wide-area network, boot from an Infiniband network, control the boot process with a script, You can use iPXE to replace the existing PXE ROM on your network card, or you can chainload into iPXE to obtain the features of iPXE without the hassle of reflashing. iPXE is free, open-source software licensed under the GNU GPL (with some portions under GPL-compatible licences), and is included in products from several network card manufacturers and OEMs.
- https://en.wikipedia.org/wiki/iPXE - an open-source implementation of the Preboot eXecution Environment (PXE) client firmware and bootloader, created in 2010 as a fork of gPXE. It can be used to enable computers without built-in PXE support to boot from the network, or to extend an existing PXE client implementation so it supports additional protocols. While standardized PXE clients use TFTP to transfer data, non-standardized iPXE client firmware adds the ability to retrieve data through other protocols, including HTTP, iSCSI, ATA over Ethernet (AoE), and Fibre Channel over Ethernet (FCoE). Also, on supported hardware iPXE firmware can use a Wi-Fi link rather than requiring a wired connection. iPXE firmware cannot be considered as a "drop-in" replacement for PXE firmware.
- Etherboot/gPXE - an open source (GPL) network bootloader. It provides a direct replacement for proprietary PXE ROMs, with many extra features such as DNS, HTTP, iSCSI, etc.
- ERPXE - a complete PXE solution featuring a broad range of recovery tools and various OS installations in one box.
ERPXE is a free and open source project, which uses the GNU General Public License version 3.
- https://en.wikipedia.org/wiki/Remote_Initial_Program_Load - a protocol for starting a computer and loading its operating system from server via a network. Such a server runs a network operating system such as LAN Manager, LAN Server, Windows NT Server, Novell NetWare, Solaris or Linux. RIPL is similar to Preboot Execution Environment (PXE), but it uses the Novell NetWare based boot method. It was originally developed by IBM.
- https://en.wikipedia.org/wiki/Wake-on-LAN - an Ethernet or Token ring computer networking standard that allows a computer to be turned on or awakened by a network message.
Boot sector
Boot loader
"In order to boot Arch Linux, a Linux-capable boot loader such as GRUB(2), Syslinux, LILO or GRUB Legacy must be installed to the Master Boot Record or the GUID Partition Table. The boot loader is responsible for loading the kernel and initial ramdisk before initiating the boot process."
loadlin
- https://en.wikipedia.org/wiki/loadlin - a Linux boot loader that runs under DOS or Microsoft Windows (95, 98 or Me only). It allows the Linux system to load and replace the running DOS/Windows without altering existing DOS/Windows system files. Due to its structure, loadlin only works on DOS-based operating systems, and will not work on NT-based versions of Windows.
LILO
- https://en.wikipedia.org/wiki/LILO_(boot_loader) - a boot loader for Linux and was the default boot loader for most Linux distributions in the years after the popularity of loadlin. Today, most distributions use GRUB as the default boot loader. LILO has been discontinued in December 2015, with a request for potential developers.
GRUB
grub-mkconfig -o /boot/grub/grub.cfg # regenerate config after changing kernels installed
- https://gna.org/projects/grub4dos/ - for multibooting via a FAT filesystem
Syslinux
rEFInd
- rEFInd - fork of the rEFIt boot manager for computers based on the Extensible Firmware Interface (EFI) and Unified EFI (UEFI)
Plop Boot Manager(s)
Smart BootManager
SeaBIOS
- SeaBIOS - an open source implementation of a 16bit X86 BIOS. SeaBIOS can run in an emulator or it can run natively on X86 hardware with the use of coreboot.
U-Boot
- https://github.com/hardkernel/u-boot - a boot loader forEmbedded boards based on PowerPC, ARM, MIPS and several otherprocessors, which can be installed in a boot ROM and used toinitialize and test the hardware or to download and run applicationcode. The development of U-Boot is closely related to Linux: some parts ofthe source code originate in the Linux source tree, we have someheader files in common, and special provision has been made tosupport booting of Linux images.
Petitboot
- Petitboot - a platform independent bootloader based on the Linux kexec warm reboot mechanism. Petitboot supports loading kernel, initrd and device tree files from any Linux mountable filesystem, plus can load files from the network using the FTP, SFTP, TFTP, NFS, HTTP and HTTPS protocols. Petitboot can boot any operating system that includes kexec boot support.Petitboot includes an ncurses based user interface program. This user interface program can be used to boot the system remotely via telnet or ssh sessions. Multiple user interface programs can run simultaneously.Petitboot is licensed under the GPLv2.
Petitboot has a client-server design. The petitboot server, pb-discover, uses several event mechanisms to dynamically update its knowledge of available boot configurations as they become available or unavailable at run time. The petitboot client programs implement the petitboot user interfaces and display the curent boot configurations known by pb-discover.
pb-discover exposes a generic event mechanism that allows utility programs to provide boot configuration information. Petitboot includes utility programs to process boot configuration info from DHCP servers, and if configured to do so, will manage any boot configuration info received.
- petitboot - original homepage
- YouTube: Petitboot: Linux in the Bootloader
- YouTube: Booting faster
Initial ramdisk
initrd
- initrd (initial ramdisk) is a scheme for loading a temporary root file system into memory in the boot process of the Linux kernel. initrd and initramfs refer to two different methods of achieving this. Both are commonly used to make preparations before the real root file system can be mounted.
initramfs
- https://en.wikipedia.org/wiki/initramfs - abbreviated from "initial RAM file system", is the successor of initrd ("initial ramdisk"). It is a cpio ("copy in and out") archive of the initial file system that gets loaded into memory during the Linux startup process. The Linux kernel copies the contents of the archive into the built-in rootfs file-system-like infrastructure (which is either based on ramfs, or the more regulated tmpfs), and then attempts to run the resulting /init program, before falling back on older methods of initialization; the init program is meant to complete certain tasks before the "real" or final root file system is mounted over rootfs. Thus, initramfs needs to contain all of the device drivers and tools needed to mount the final root file system.
Mkinitcpio
- https://wiki.archlinux.org/index.php/Mkinitcpio - next generation of initramfs creation.
ps -p 1 -o comm=
Dracut
Kernal loading
- https://en.wikipedia.org/wiki/Multiboot_Specification - an open standard describing how a boot loader can load an x86 operating system kernel.[1][2] The specification allows any compliant boot loader implementation to boot any compliant operating system kernel.
- https://en.wikipedia.org/wiki/vmlinux - a statically linked executable file that contains the Linux kernel in one of the object file formats supported by Linux, which includes ELF, COFF and a.out. The vmlinux file might be required for kernel debugging, symbol table generation or other operations, but must be made bootable before being used as an operating system kernel by adding a multiboot header, bootsector and setup routines.
- https://en.wikipedia.org/wiki/Mode_setting - a software operation that activates a display mode (screen resolution, color depth, and refresh rate) for a computer's display controller.
- https://wiki.archlinux.org/index.php/kernel_mode_setting - a method for setting display resolution and depth in the kernel space rather than user space. The Linux kernel's implementation of KMS enables native resolution in the framebuffer and allows for instant console (tty) switching. KMS also enables newer technologies (such as DRI2) which will help reduce artifacts and increase 3D performance, even kernel space power-saving.
- https://wiki.recompile.se/wiki/Mandos - a system for allowing servers with encrypted root file systems to reboot unattended and/or remotely.
init
- init (short for initialization) is a daemon process that is the direct or indirect ancestor of all other processes. It automatically adopts all orphaned processes. Init is the first process started during booting, and is typically assigned PID number 1. It is started by the kernel using a hard-coded filename, and if the kernel is unable to start it, a kernel panic will result. Init continues running until the system is shut down. The design of init has diverged in Unix systems such as System III and System V, from the functionality provided by the init in Research Unix and its BSD derivatives. The usage on most Linux distributions is compatible with System V, but some distributions, such as Slackware, use a BSD-style and others, such as Gentoo, have their own customized version. Several replacement init implementations have been written which attempt to address design limitations in the standard versions. These include systemd and Upstart, the latter being used by Ubuntu and some other Linux distributions.
- https://wiki.archlinux.org/index.php/Init_and_inittab
- https://wiki.archlinux.org/index.php/Initscripts - old
- http://en.wikipedia.org/wiki/Operating_system_service_management
- http://en.wikipedia.org/wiki/Process_supervision
- https://wiki.archlinux.org/index.php/Category:Daemons_and_system_services
- http://www.linux.com/news/enterprise/systems-management/8116-an-introduction-to-services-runlevels-and-rcd-scripts
- http://blog.crocodoc.com/post/48703468992/process-managers-the-good-the-bad-and-the-ugly
Research UNIX / BSD
- https://bbs.archlinux.org/viewtopic.php?id=47087 - (arch uses sytemd now)
- https://bbs.archlinux.org/viewtopic.php?pid=654652
SysVinit
- http://linux.die.net/man/8/chkconfig - provides a simple command-line tool for maintaining the /etc/rc[0-6].d directory hierarchy by relieving system administrators of the task of directly manipulating the numerous symbolic links in those directories.
runlevels
daemontools
runit
- runit is a cross-platform Unix init scheme with service supervision, a replacement for sysvinit, and other init schemes. It runs on GNU/Linux, *BSD, MacOSX, Solaris, and can easily be adapted to other Unix operating systems. 2004.
- runsv - starts and monitors a service and optionally an appendant log service
- runsvdir - starts and monitors a collection of runsv(8) processes
- chpst - runs a program with a changed process state
- svlogd - runit’s service logging daemon
Supervisor
- Supervisor is a client/server system that allows its users to monitor and control a number of processes on UNIX-like operating systems. It shares some of the same goals of programs like launchd, daemontools, and runit. Unlike some of these programs, it is not meant to be run as a substitute for init as “process id 1”. Instead it is meant to be used to control processes related to a project or a customer, and is meant to start like any other program at boot time. 2004.
Upstart
- http://upstart.ubuntu.com/ - 2006
- http://en.wikipedia.org/wiki/Upstart - an event-based replacement for the traditional init daemon – the method by which several Unix-like computer operating systems perform tasks when the computer is started. It was written by Scott James Remnant, a former employee of Canonical Ltd. Upstart operates asynchronously; it handles starting of the tasks and services during boot and stopping them during shutdown, and also supervises the tasks and services while the system is running. Easy transition and perfect backwards compatibility with sysvinit were the explicit design goals. Upstart allows for extensions to its event model through the use of initctl to input custom, single events, or event bridges to integrate many or more-complicated events. By default, Upstart includes bridges for socket, dbus, udev, file, and dconf events; additionally, more bridges (for example, a Mach ports bridge, or a devd (found on FreeBSD systems) bridge) are possible.
OpenRC
- OpenRC is a dependency based init system that works with the system provided init program, normally /sbin/init. It is not a replacement for /sbin/init. OpenRC is 100% compatible with Gentoo init scripts, which means you can probably find one for the daemons you want to start in the Gentoo Portage Tree. OpenRC, however, is not exclusively used by Gentoo Linux, so our goal is to be platform-agnostic. 2007.
systemd
- systemd is a system and service manager for Linux, compatible with SysV and LSB init scripts. systemd provides aggressive parallelization capabilities, uses socket and D-Bus activation for starting services, offers on-demand starting of daemons, keeps track of processes using Linux control groups, supports snapshotting and restoring of the system state, maintains mount and automount points and implements an elaborate transactional dependency-based service control logic. It can work as a drop-in replacement for sysvinit. 2010.
- systemd is a system and service manager for Linux operating systems. When run as first process on boot (as PID 1), it acts as init system that brings up and maintains userspace services.
- systemd.index — List all manpages from the systemd project
- systemctl - used to introspect and control the state of the "systemd" system and service manager. Please refer to systemd(1) for an introduction into the basic concepts and functionality this tool manages.
systemctl [OPTIONS...] COMMAND [NAME...]
alias sy=systemctl
- https://github.com/linuxenko/chkservice - chkservice is a tool for managing systemd units in terminal.
Unit files
- https://www.freedesktop.org/software/systemd/man/systemd.target.html - A unit configuration file whose name ends in ".target" encodes information about a target unit of systemd, which is used for grouping units and as well-known synchronization points during start-up. Target units do not offer any additional functionality on top of the generic functionality provided by units. They exist merely to group units via dependencies (useful as boot targets), and to establish standardized names for synchronization points used in dependencies between units. Among other things, target units are a more flexible replacement for SysV runlevels in the classic SysV init system. (And for compatibility reasons special target units such as runlevel3.target exist which are used by the SysV runlevel compatibility code in systemd. See systemd.special(7) for details).
- https://www.freedesktop.org/software/systemd/man/systemd.special.html - basic.target, bluetooth.target, ctrl-alt-del.target, cryptsetup.target, cryptsetup-pre.target, dbus.service, dbus.socket, default.target, display-manager.service, emergency.target, exit.target, final.target, getty.target, graphical.target, halt.target, hibernate.target, hybrid-sleep.target, initrd-fs.target, kbrequest.target, kexec.target, local-fs.target, local-fs-pre.target, multi-user.target, network.target, network-online.target, network-pre.target, nss-lookup.target, nss-user-lookup.target, paths.target, poweroff.target, printer.target, reboot.target, remote-fs.target, remote-fs-pre.target, rescue.target, initrd-root-fs.target, rpcbind.target, runlevel2.target, runlevel3.target, runlevel4.target, runlevel5.target, shutdown.target, sigpwr.target, sleep.target, slices.target, smartcard.target, sockets.target, sound.target, suspend.target, swap.target, sysinit.target, syslog.socket, system-update.target, time-sync.target, timers.target, umount.target, -.slice, system.slice, user.slice, machine.slice
Boot
- https://www.freedesktop.org/software/systemd/man/bootup.html
- https://www.freedesktop.org/software/systemd/man/bootctl.html
- https://www.freedesktop.org/software/systemd/man/init.html
- https://www.freedesktop.org/software/systemd/man/daemon.html
systemd-journald
systemd-journald is a system service that collects and stores logging data. It creates and maintains structured, indexed journals based on logging information that is received from a variety of sources:
- Kernel log messages, via kmsg
- Simple system log messages, via the libc syslog(3) call
- Structured system log messages via the native Journal API, see sd_journal_print(4)
- Standard output and standard error of system services
- Audit records, via the audit subsystem
- YouTube: The systemd Journal - OpenTechSummit 2016 - Lennart Poettering (Red Hat)
journalctl # see all syslog messages journalctl -b # show syslog messages since last boot journalctl -b -1 # show syslog msgs for previous boot
journalctl -e # jump to end of the last 1000 messages journalctl -f # follow on new messages
journalctl -r # reverse messages, recent at top
journalctl -p err # error messages journalctl -k # kernel messages journalctl -u sshd # show messages related to ssh daemon
journalctl --since today journalctl --since 2014-01-23 # filter by time
journalctl _PID=1 # messages for PID 1 (systemd) journalctl _COMM=cron # messages for cron
journalctl -o verbose - # output verbose journal record meta information
output formats;
cat json json-sse short-full short-monotonic short-unix export json-pretty short short-iso short-precise verbose
systemd-networkd
systemd-analyze
systemd-analyze # list basic boot time systemd-analyze blame # list specific boot timings systemd-analyze critical-chain # list blocking boot timings systemd-analyze dot --to-pattern='*.target' --from-pattern='*.target' | dot -Tpng > targets.png # generate DAG image of service targets
Other
Articles
- http://www.linux.com/learn/tutorials/527639-managing-services-on-linux-with-system
- http://0pointer.de/blog/projects/the-new-configuration-files
- http://linux.slashdot.org/story/11/11/23/1733236/secure-syslog-replacement-proposed
- https://mailman.archlinux.org/pipermail/arch-dev-public/2012-July/023283.html, somewhat controversial
- [phoronix]: Arch Linux Is Switching To Systemd
- http://linuxforums.org.uk/index.php?topic=10399.0
- Archlinux is moving to systemd
- http://linux.slashdot.org/story/12/11/16/2052203/gentoo-developers-fork-udev
- http://0pointer.de/blog/projects/the-biggest-myths
- http://lists.freedesktop.org/archives/systemd-devel/2013-March/010062.html - lol
- http://people.debian.org/~stapelberg/2013/05/27/systemd-survey-results.html
- http://people.debian.org/~stapelberg/2013/06/09/systemd-bloat.html
- http://people.debian.org/~stapelberg/2013/07/01/systemd-transition.html
- http://people.debian.org/~stapelberg//2013/07/13/systemd-not-portable.html
- http://thread.gmane.org/gmane.linux.redhat.fedora.devel.announce/1117/
- http://www.phoronix.com/scan.php?page=news_item&px=MTQ5NzQ
- https://news.ycombinator.com/item?id=7210064
- https://news.ycombinator.com/item?id=7639170
- http://www.reddit.com/r/linux/comments/2dvmdn/what_do_you_as_a_user_love_about_systemd/
- http://blog.jorgenschaefer.de/2014/07/why-systemd.html [69]
- http://blog.lusis.org/blog/2014/09/23/end-of-linux/ [70]
- https://news.ycombinator.com/item?id=7203364
- http://linux.slashdot.org/story/14/10/17/1424246/debian-talks-about-systemd-once-again
- https://news.ycombinator.com/item?id=8477659
launchd
- https://en.wikipedia.org/wiki/Launchd - apple, apache
sinit
Other
Reboot and shutdown
- https://github.com/brummer10/nosuspend - A little command-line tool to avoid computer suspend as long a app is running
Real-Time
- The Linux Foundation: Intro to Real-Time Linux for Embedded Developers
- Xenomai - brings POSIX and traditional RTOS APIs for porting time-critical applications to Linux-based platforms. When the native Linux kernel cannot meet the response time requirements of the application, Xenomai supplements it with Cobalt, a small real-time infrastructure which schedules time-critical activities independently from the main kernel logic.
- rts - a collection of systemd services and scripts that allow to set pre-defined real-time related scheduling settings, using tuna.
Devices
BIO
Driver
In Linux environments, programmers can build device drivers as parts of the kernel, separately as loadable modules, or as user-mode drivers (for certain types of devices where kernel interfaces exist, such as for USB devices). Makedev includes a list of the devices in Linux: ttyS (terminal), lp (parallel port), hd (disk), loop, sound (these include mixer, sequencer, dsp, and audio)...
The Microsoft Windows .sys files and Linux .ko modules contain loadable device drivers. The advantage of loadable device drivers is that they can be loaded only when necessary and then unloaded, thus saving kernel memory.
Because of the diversity of modern hardware and operating systems, drivers operate in many different environments. Drivers may interface with:
- Printers
- Video adapters
- Network cards
- Sound cards
- Local buses of various sorts—in particular, for bus mastering on modern systems
- Low-bandwidth I/O buses of various sorts (for pointing devices such as mice, keyboards, USB, etc.)
- Computer storage devices such as hard disk, CD-ROM, and floppy disk buses (ATA, SATA, SCSI)
- Implementing support for different file systems
- Image scanners
- Digital cameras
Common levels of abstraction for device drivers include:
For hardware:
- Interfacing directly
- Writing to or reading from a device control register
- Using some higher-level interface (e.g. Video BIOS)
- Using another lower-level device driver (e.g. file system drivers using disk drivers)
- Simulating work with hardware, while doing something entirely different[citation needed]
For software:
- Allowing the operating system direct access to hardware resources
- Implementing only primitives
- Implementing an interface for non-driver software (e.g., TWAIN)
- Implementing a language, sometimes quite high-level (e.g., PostScript)
So choosing and installing the correct device drivers for given hardware is often a key component of computer system configuration.
Virtual device drivers
Virtual device drivers represent a particular variant of device drivers. They are used to emulate a hardware device, particularly in virtualization environments, for example when a DOS program is run on a Microsoft Windows computer or when a guest operating system is run on, for example, a Xen host. Instead of enabling the guest operating system to dialog with hardware, virtual device drivers take the opposite role and emulate a piece of hardware, so that the guest operating system and its drivers running inside a virtual machine can have the illusion of accessing real hardware. Attempts by the guest operating system to access the hardware are routed to the virtual device driver in the host operating system as e.g., function calls. The virtual device driver can also send simulated processor-level events like interrupts into the virtual machine. Virtual devices may also operate in a non-virtualized environment. For example, a virtual network adapter is used with a virtual private network, while a virtual disk device is used with iSCSI. A good example for virtual device drivers can be Daemon Tools.
There are several variants of virtual device drivers, such as VxDs, VLMs, VDDs.
- https://en.wikipedia.org/wiki/Raw_device - a special kind of logical device associated with a character device file that allows a storage device such as a hard disk drive to be accessed directly, bypassing the operating system's caches and buffers (although the hardware caches might still be used). Applications like a database management system can use raw devices directly, enabling them to manage how data is cached, rather than deferring this task to the operating system.
- http://linux.die.net/man/8/raw - used to bind a Linux raw character device to a block device. Any block device may be used: at the time of binding, the device driver does not even have to be accessible (it may be loaded on demand as a kernel module later).
CUSE enables character devices to be implemented from userland much like FUSE allows filesystems. On initialization /dev/cuse is created. By opening the file and replying to the CUSE_INIT request userland CUSE server can create a character device. After that the operation is very similar to FUSE.
Device file
- https://en.wikipedia.org/wiki/Device_file - an interface for a device driver that appears in a file system as if it were an ordinary file.
Device nodes correspond to resources that an operating system's kernel has already allocated. Unix identifies those resources by a major number and a minor number, both stored as part of the structure of a node. The assignment of these numbers occurs uniquely in different operating systems and on different computer platforms. Generally, the major number identifies the device driver and the minor number identifies a particular device (possibly out of many) that the driver controls: in this case, the system may pass the minor number to a driver. However, in the presence of dynamic number allocation, this may not be the case (e.g. on FreeBSD 5 and up).
As with other special file types, the computer system accesses device nodes using standard system calls and treats them like regular computer files. Two standard types of device files exist; unfortunately their names are, for historical reasons, rather counter-intuitive, and explanations of the difference between the two are often incorrect as a result.
Nodes are created by the mknod system call. The command-line program for creating nodes is also called mknod. Nodes can be moved or deleted by the usual filesystem system calls (rename, unlink) and commands (mv, rm). When passed the option -R or -a while copying a device node, the cp -l command creates a new device node with the same attributes of the original.
- http://linux.die.net/man/1/mknod - make block or character special files, system call
- https://www.freebsd.org/doc/en_US.ISO8859-1/books/arch-handbook/driverbasics-char.html
- https://www.freebsd.org/doc/en_US.ISO8859-1/books/arch-handbook/driverbasics-block.html - are gone in BSD
- http://linux.die.net/man/8/blockdev - call block device ioctls from the command line
- https://en.wikipedia.org/wiki/Ioctl - an abbreviation of input/output control, is a system call for device-specific input/output operations and other operations which cannot be expressed by regular system calls. It takes a parameter specifying a request code; the effect of a call depends completely on the request code. Request codes are often device-specific. For instance, a CD-ROM device driver which can instruct a physical device to eject a disc would provide an ioctl request code to do that. Device-independent request codes are sometimes used to give userspace access to kernel functions which are only used by core system software or still under development.
The ioctl system call first appeared in Version 7 of Unix under that name. It is supported by most Unix and Unix-like systems, including Linux and Mac OS X, though the available request codes differ from system to system. Microsoft Windows provides a similar function, named "DeviceIoControl", in its Win32 AP
- https://en.wikipedia.org/wiki/Netlink - Netlink is designed and used for transferring miscellaneous networking information between the kernel space and userspace processes. Networking utilities, such as the iproute2 family and the utilities used for configuring mac80211-based wireless drivers, use Netlink to communicate with the Linux kernel from userspace. Netlink provides a standard socket-based interface for userspace processes, and a kernel-side API for internal use by kernel modules. Originally, Netlink used the AF_NETLINK socket family. Netlink is designed to be a more flexible successor to ioctl; RFC 3549 describes the protocol in detail.
/dev/null
- https://en.wikipedia.org/wiki/Null_device - a device file that discards all data written to it but reports that the write operation succeeded.
/dev/zero
/dev/full
- https://en.wikipedia.org/wiki//dev/full - a special file that always returns the error code ENOSPC (meaning "No space left on device") on writing, and provides an infinite number of null characters to any process that reads from it (similar to /dev/zero). This device is usually used when testing the behaviour of a program when it encounters a "disk full" error.
Device manager
makedev
- http://linux.die.net/man/8/makedev - a program that will create the devices in /dev used to interface with drivers in the kernel.
devfsd
- https://en.wikipedia.org/wiki/devfsd - a device manager for the Linux kernel. Primarily, it creates device nodes in the /dev directory when kernel drivers make the underlying hardware accessible. The nodes exist in a virtual device file system named devfs. In systems that support many different types of hardware, each of which has its own device nodes, this is more convenient than creating all possible device nodes beforehand and in a real filesystem.
While devfs was a step forward, it had several disadvantages of its own. Since version 2.5 of the Linux kernel, devfs has been succeeded by udev and devtmpfs.
udev
- udev is a generic kernel device manager that subsumes the use of hotplug and hwdetect. It runs as a daemon on a Linux system and listens (via netlink socket) to uevents the kernel sends out if a new device is initialized or a device is removed from the system. Loads kernel modules by utilizing coding parallelism to provide a potential performance advantage versus loading these modules serially. The modules are therefore loaded asynchronously.
Manages /dev. Rules in /etc/udev/rules.d/ and /usr/lib/udev/rules.d/
- udevadm - expects a command and command specific options. It controls the runtime behavior of systemd-udevd, requests kernel events, manages the event queue, and provides simple debugging mechanisms.
udevadm info -a -n [device path]
udisksd (udisks2) and udisks-daemon (udisks) are started on-demand by D-Bus, and should not be enabled explicitly (see man udisksd and man udisks-daemon). They can be controlled through the command-line with udisksctl and udisks, respectively. See man udisksctl and man udisks for more information.
- https://github.com/coldfix/udiskie - udisks2 wrapper
- https://github.com/vranki/perse - Permission Settings manager GUI for Linux UDev.
storaged
- storaged - next evolution step of udisks2. storaged started as a "complementary daemon" for udisks2 providing API for LVM (at that time heavily required by the Cockpit web management project ASAP). Later the LVM API part was converted into a udisks2 module and an ability to load modules was added to udisks2, but with no luck merging the changes to the upstream udisks2 codebase. The only way forward was to fork udisks2 and continue with the development in the forked project - named storaged. You can read more details about this in an explanatory email from Tomas Smetana 1.
Since then storaged has been getting a lot of attention and contributions including extra features like support for bcache, Btrfs and iSCSI (the client side) as well as new tests and memory and performance analysis. We believe storaged will become the storage configuration and management userspace API similarly to how NetworkManager became an API for networking. Not only for personal/desktop use cases, but also for enterprise solutions.
However, we realize that there's an existing API, the udisks2 API, covering a great portion of the existing features and thus after a short period of providing a new incompatible API storaged was changed to provide an extended version of the udisks2 API. So it can be used as a drop-in replacement of udisks2 with no changes required in the existing tools/libraries/daemons/... using the udisks2 API. New features have been being added to the original API in a backwards-compatible way. In fact, starting with Fedora 25 storaged is being used/installed in place of udisks2
Other
Console
/dev/vcs0 a character device with major number 7 and minor number 0, usually of mode 0644 and owner root.tty. It refers to the memory of the currently displayed virtual console terminal. /dev/vcs[1-63] character devices for virtual console terminals, they have major number 7 and minor number 1 to 63, usually mode 0644 and owner root.tty.
/dev/vcsa[0-63]
the same, but using unsigned shorts (in host byte order) that include attributes, and prefixed with four bytes giving the screen dimensions and cursor position: lines, columns, x, y. (x = y = 0 at the top left corner of the screen.)
- http://linux.die.net/man/4/ptmx - pts - pseudoterminal master and slave
/dev/ptmx
Storage
See Storage
Graphics
See also Computer#Video card, Graphics, GUI
- https://en.wikipedia.org/wiki/Video_BIOS - the BIOS of a graphics card in a (usually IBM PC-derived) computer. Much the way the system BIOS provides a set of functions that are used by software programs to access the system hardware, the video BIOS provides a set of video-related functions that are used by programs to access the video hardware. The video BIOS interfaces software to the video chipset in the same way that the system BIOS does for the system chipset. The ROM also contained a basic font set to upload to the video adapter font RAM, if the video card did not contain a font ROM with this font set instead.
- https://en.wikipedia.org/wiki/VESA_BIOS_Extensions - a VESA standard, currently at version 3, that defines the interface that can be used by software to access compliant video boards at high resolutions and bit depths. This is opposed to the "traditional" int 10h BIOS calls, which are limited to resolutions of 640×480 pixels with 16 color (4-bit) depth or less. VBE is made available through the video card's BIOS, which installs during boot up some interrupt vectors that point to itself.
Most newer cards implement the more capable VBE 3.0 standard. Older versions of VBE provide only a real mode interface, which cannot be used without a significant performance penalty from within protected mode operating systems. Consequently, the VBE standard has almost never been used for writing a video card's drivers; each vendor has thus had to invent a proprietary protocol for communicating with its own video card. Despite this, it is common that a driver thunk out to the real mode interrupt in order to initialize screen modes and gain direct access to a card's linear frame buffer, because these tasks would otherwise require handling many hundreds of proprietary variations that exist from card to card.
- https://en.wikipedia.org/wiki/Framebuffer - frame buffer, or sometimes framestore) is a portion of RAM[1] containing a bitmap that is driven to a video display from a memory buffer containing a complete frame of data. The information in the memory buffer typically consists of color values for every pixel (point that can be displayed) on the screen. Color values are commonly stored in 1-bit binary (monochrome), 4-bit palettized, 8-bit palettized, 16-bit high color and 24-bit true color formats. An additional alpha channel is sometimes used to retain information about pixel transparency. The total amount of the memory required to drive the framebuffer depends on the resolution of the output signal, and on the color depth and palette size.
- https://github.com/emoon/minifb - a small cross platform library that makes it easy to render (32-bit) pixels in a window.
- https://en.wikipedia.org/wiki/Direct_Rendering_Manager - a subsystem of the Linux kernel responsible for interfacing with GPUs of modern video cards. DRM exposes an API that user space programs can use to send commands and data to the GPU, and perform operations such as configuring the mode setting of the display. DRM was first developed as the kernel space component of the X Server's Direct Rendering Infrastructure, but since then it has been used by other graphic stack alternatives such as Wayland. User space programs can use the DRM API to command the GPU to do hardware accelerated 3D rendering, video decoding as well as GPGPU computing.
- https://github.com/ascent12/drm_doc - an ongoing series of articles describing how to use the Linux DRM API.
echo 0xff | sudo tee /sys/module/drm/parameters/debug # and echo 0x00 | sudo tee /sys/module/drm/parameters/debug
- https://en.wikipedia.org/wiki/Direct_Rendering_Infrastructure - a framework for allowing direct access to graphics hardware under the X Window System in a safe, efficient way. The main use of DRI is to provide hardware acceleration for the Mesa implementation of OpenGL. DRI has also been adapted to provide OpenGL acceleration on a framebuffer console without a display server running. DRI implementation is scattered through the X Server and its associated client libraries, Mesa 3D and the Direct Rendering Manager kernel subsystem.
- https://wiki.archlinux.org/index.php/AMD_Catalyst - AMD's Linux driver package catalyst was previously named fglrx (FireGL and Radeon X). Only the package name has changed, while the kernel module retains its original fglrx.ko filename. Therefore, any mention of fglrx below is specifically in reference to the kernel module, not the package.
- https://github.com/notro/fbtft - Linux Framebuffer drivers for small TFT LCD display modules
- https://github.com/numbqq/glmark2-es2-fbdev - glmark2-es2 for ARM Mali GPU fbdev mode
Clock
/dev/rtc*
- http://linux.die.net/man/4/rtc - the interface to drivers for real-time clocks (RTCs).
Most computers have one or more hardware clocks which record the current "wall clock" time. These are called "Real Time Clocks" (RTCs). One of these usually has battery backup power so that it tracks the time even while the computer is turned off. RTCs often provide alarms and other interrupts.
- https://github.com/xanmanning/alarm-fake-hwclock - Fake HWClock script for RPi Arch Linux Arm (replicates Raspbian's fake-hwclock)
Input
/dev/uinput
- https://en.wikipedia.org/wiki/evdev - short for 'event device', is a generic input event interface in the Linux kernel. It generalizes raw input events from device drivers and makes them available through character devices in the /dev/input/ directory. The user-space library for the Linux kernel component evdev is called libevdev. Libevdev abstracts the evdev ioctls through type-safe interfaces and provides functions to change the appearance of the device. Libevdev shares similarities with the read system call. It sits below the process that handles input events, in between the kernel and that process. Linux kernel → libevdev → xf86-input-evdev → X server → X client
- http://hetgrotebos.org/wiki/uinput-mapper - a program that can clone and remap (in clones) input devices to other (newly created) input devices (locally or over the network). It also offers a nice API to both the /dev/input/* and /dev/uinput devices in Python.
- http://tjjr.fi/sw/python-uinput - Python interface to Linux uinput kernel module which allows attaching userspace device drivers into kernel. In practice, Python-uinput makes it dead simple to create virtual joysticks, keyboards and mice for generating arbitrary input events programmatically.
- https://github.com/gvalkov/python-evdev
- http://python-evdev.readthedocs.io/en/latest - provides bindings to the generic input event interface in Linux. The evdev interface serves the purpose of passing events generated in the kernel directly to userspace through character devices that are typically located in /dev/input/. This package also comes with bindings to uinput, the userspace input subsystem. Uinput allows userspace programs to create and handle input devices that can inject events directly into the input subsystem. In other words, python-evdev allows you to read and write input events on Linux. An event can be a key or button press, a mouse movement or a tap on a touchscreen.
- https://github.com/Blub/netevent - a tool which can be used to share linux event devices with other machines (either via /dev/uinput or by implementing a client for the same protocol with other means).
File systems
See Storage
Files and directories
See Storage
Command-line
See also Typography#Terminal, Terminals
- http://unix.stackexchange.com/questions/4126/what-is-the-exact-difference-between-a-terminal-a-shell-a-tty-and-a-con/4132#4132
- http://askubuntu.com/questions/14284/why-is-a-virtual-terminal-virtual-and-what-why-where-is-the-real-terminal
Console
- https://en.wikipedia.org/wiki/System_console - or computer console, root console, operator's console, or simply console is the text entry and display device for system administration messages, particularly those from the BIOS or boot loader, the kernel, from the init system and from the system logger. It is a physical device consisting of a keyboard and a screen, and traditionally is a text terminal, but may also be a graphical terminal. System consoles are generalized to computer terminals, which are abstracted respectively by virtual consoles and terminal emulators. Today communication with system consoles is generally done abstractly, via the standard streams (stdin, stdout, and stderr), but there may be system-specific interfaces, for example those used by the system kernel.
User space
- User space - Wikipedia - A modern computer operating system usually segregates virtual memory into kernel space and user space. Primarily, this separation serves to provide memory protection and hardware protection from malicious or errant software behaviour. Kernel space is strictly reserved for running a privileged operating system kernel, kernel extensions, and most device drivers. In contrast, user space is the memory area where application software and some drivers execute.
Busybox
- Busybox - combines tiny versions of many common UNIX utilities into a single small executable. It provides replacements for most of the utilities you usually find in GNU fileutils, shellutils, etc. The utilities in BusyBox generally have fewer options than their full-featured GNU cousins; however, the options that are included provide the expected functionality and behave very much like their GNU counterparts. BusyBox provides a fairly complete environment for any small or embedded system.
toybox
- toybox - combines common Linux command line utilities together into a single BSD-licensed executable that's simple, small, fast, reasonably standards-compliant, and powerful enough to turn Android into a development environment. See the links on the left for details.
gokrazy
- gokrazy - a pure-Go userland for your Raspberry Pi 3 appliances. For a long time, we were unhappy with having to care about security issues and Linux distribution maintenance on our various Raspberry Pis. Then, we had a crazy idea: what if we got rid of memory-unsafe languages and all software we don’t strictly need? Turns out this is feasible. gokrazy is the result. [79] [80]
login
systemd-logind
- systemd-logind.service - a system service that manages user logins. It is responsible for: Keeping track of users and sessions, their processes and their idle state. This is implemented by allocating a systemd slice unit for each user below user.slice, and a scope unit below it for each concurrent session of a user. Also, a per-user service manager is started as system service instance of user@.service for each logged in user; Generating and managing session IDs. If auditing is available and an audit session ID is already set for a session, then this ID is reused as the session ID. Otherwise, an independent session counter is used; Providing PolicyKit-based access for users for operations such as system shutdown or sleep; Implementing a shutdown/sleep inhibition logic for applications; Handling of power/sleep hardware keys; Multi-seat management; Session switch management; Device access management for users; Automatic spawning of text logins (gettys) on virtual console activation and user runtime directory management
Terminal
- https://en.wikipedia.org/wiki/Computer_terminal - an electronic or electromechanical hardware device that is used for entering data into, and displaying data from, a computer or a computing system. Early terminals were inexpensive devices but very slow compared to punched cards or paper tape for input, but as the technology improved and video displays were introduced, terminals pushed these older forms of interaction from the industry. A related development was timesharing systems, which evolved in parallel and made up for any inefficiencies of the user's typing ability with the ability to support multiple users on the same machine, each at their own terminal.
The function of a terminal is confined to display and input of data; a device with significant local programmable data processing capability may be called a "smart terminal" or fat client. A terminal that depends on the host computer for its processing power is called a "dumb terminal" or thin client. A personal computer can run terminal emulator software that replicates the function of a terminal, sometimes allowing concurrent use of local programs and access to a distant terminal host system.
- Text-Terminal-HOWTO - This document was originally written for real text terminals which were like monitors (with keyboards), but could only display text with a command line interface (no pictures). They were widely used to access mainframe computers in the late 1970's and 1980's but use of them declined in the 1990's and they are seldom used anymore. However much of this howto also applies to command-line interfaces on Linux PC's which are in wide use today. It's not about the user programs one might run on the command line, but about setting up, managing, and understanding the interface itself Such as using a monitor as a virtual (text-only) console, using a text-window in a GUI such as xterm, connecting to a remote computer over a network via ssh, telnet, etc., or even using software on another PC to turn it into a serial-port text-terminal. All these 4 methods are known as "text-terminal emulation". But unfortunately, the main emphasis in this howto is real text terminals and the coverage of emulation is inadequate for the first 3 methods of emulation mentioned above. The Keyboard-and-Console-HOWTO filled much this gap but it was written for Linux 2.0 and now needs rewriting (or merging into this Text-Terminal howto). A new author is needed that has time to do all this. For the seldom used real text-terminals, it explains how they work, explains how to install and configure them, and provides some info on how to repair them. This HOWTO also provides a brief overview of modern GUI terminals.
- https://en.wikipedia.org/wiki/Terminal_capabilities - various terminal features, above and beyond what is available from a pure teletypewriter, that host systems (and the programs that run on them) can make use of. They are (mainly) of control codes and escape codes that can be sent to or received from the terminal. The escape codes sent to the terminal perform various functions that a CRT terminal (and software terminal emulators) is capable of, but that a teletypewriter is not; such as moving the terminal's cursor to positions on the screen, clearing and scrolling all or parts of the screen, turning on and off attached printer devices, programming programmable function keys, changing display colours and attributes (such as reverse video), and setting display title strings. The escape codes received from the terminal signify things such as function key, arrow key, and other special key (home key, end key, help key, PgUp key, PgDn key, insert key, delete key, and so forth) keystrokes.
- https://en.wikipedia.org/wiki/POSIX_terminal_interface - the generalized abstraction, comprising both an Application Programming Interface for programs, and a set of behavioural expectations for users of a terminal, as defined by the POSIX standard and the Single Unix Specification. It is a historical development from the terminal interfaces of BSD version 4 and Seventh Edition Unix.
- http://linux.die.net/man/1/stty - change and print terminal line settings
- https://en.wikipedia.org/wiki/C0_and_C1_control_codes - or control character sets define control codes for use in text by computer systems that use the ISO/IEC 2022 system of specifying control and graphic characters. Most character encodings, in addition to representing printable characters, also have characters such as these that represent additional information about the text, such as the position of a cursor, an instruction to start a new line, or a message that the text has been received.
- ASCII Characters for MPE Users (control char info)
- https://en.wikipedia.org/wiki/Escape_character - a character which invokes an alternative interpretation on subsequent characters in a character sequence. An escape character is a particular case of metacharacters. Generally, the judgement of whether something is an escape character or not depends on context.
- https://en.wikipedia.org/wiki/Escape_sequence - a series of characters used to change the state of computers and their attached peripheral devices. These are also known as control sequences, reflecting their use in device control. Some control sequences are special characters that always have the same meaning. Escape sequences use an escape character to change the meaning of the characters which follow it, meaning that the characters can be interpreted as a command to be executed rather than as data.
- https://en.wikipedia.org/wiki/Terminfo - a library and database that enables programs to use display terminals in a device-independent manner. Mark Horton implemented the first terminfo library in 1981-1982 as an improvement over termcap.[1] The improvements include faster access to stored terminal descriptions, longer, more understandable names for terminal capabilities and general expression evaluation for strings sent to the terminal.
- http://linux.die.net/man/1/toe - table of (terminfo) entries - With no options, toe lists all available terminal types by primary name with descriptions. File arguments specify the directories to be scanned; if no such arguments are given, your default terminfo directory is scanned. If you also specify the -h option, a directory header will be issued as each directory is entered.
/usr/share/terminfo/?/*
# Compiled terminal description database.
- http://linux.die.net/man/1/tic - the terminfo entry-description compiler. The command tic translates a terminfo file from source format into compiled format. The compiled format is necessary for use with the library routines in ncurses.
- infocmp - compare or print out terminfo descriptions
- http://linux.die.net/man/1/captoinfo - convert a termcap description into a terminfo description. captoinfo looks in a file for termcap descriptions. For each one found, an equivalent terminfo description is written to standard output. Termcap tc capabilities are translated directly to terminfo use capabilities.
- http://linux.die.net/man/1/infotocap - convert a terminfo description into a termcap description. infotocap looks in file for terminfo descriptions. For each one found, an equivalent termcap description is written to standard output. Terminfo use capabilities are translated directly to termcap tc capabilities.
- tset / reset - terminal [re]initialization
Hardware
- The Blit: A Multiplexed Graphics Terminal
- https://en.wikipedia.org/wiki/Blit_(computer_terminal) - was a programmable bitmap graphics terminal designed by Rob Pike and Bart Locanthi Jr. of Bell Labs in 1982.
- TermDriver - listens on a serial line and emulates a terminal on a standard VGA connector. It gives embedded microcontrollers a real console.
Virtual terminal
- https://en.wikipedia.org/wiki/Virtual_console (VC) – also known as a virtual terminal (VT) – is a conceptual combination of the keyboard and display for a computer user interface. It is a feature of some operating systems such as BSD, Linux, and UnixWare in which the system console of the computer can be used to switch between multiple virtual consoles to access unrelated user interfaces. Virtual consoles date back at least to Xenix in the 1980s.
Usually in Linux (see Linux console), the first six virtual consoles provide a text terminal with a login prompt to a Unix shell. The graphical X Window System starts in the seventh virtual console. In Linux, the user switches between them with the key combination Alt plus a function key – for example Alt+F1 to access the virtual console number 1. Alt+Left arrow changes to the previous virtual console and Alt+Right arrow to the next virtual console. To switch from the X Window System, Ctrl+Alt+function key works. (Note that users can redefine these default key combinations.)
The need for virtual consoles has lessened now that most applications work in the graphical framework of the X Window System, where each program has a window and the text mode programs can be run in terminal-emulator windows. If several sessions of the X Window System are required to run in parallel, such as in the case of fast user switching or when debugging X programs on a separate X server, each X session usually runs in a separate virtual console.
$XDG_VTNR # returns vty number
BRLTTY
- BRLTTY - a background process (daemon) which provides access to the Linux/Unix console (when in text mode) for a blind person using a refreshable braille display. It drives the braille display, and provides complete screen review functionality. Some speech capability has also been incorporated.
Other
Getty
- http://en.wikipedia.org/wiki/Getty_(Unix) - short for "get teletype", is a Unix program running on a host computer that manages physical or virtual terminals (TTYs). When it detects a connection, it prompts for a username and runs the 'login' program to authenticate the user.
- https://wiki.archlinux.org/index.php/Getty - getty is the generic name for a program which manages a terminal line and its connected terminal. Its purpose is to protect the system from unauthorized access. Generally, each getty process is started by init and manages a single terminal line. Within the context of a typical Arch Linux installation, the terminals managed by the getty processes are implemented as virtual consoles.
agetty
mgetty
fgetty
Qingu
PYT / terminal emulator
- https://en.wikipedia.org/wiki/Pseudoterminal - or pseudotty, or PTY is a pair of pseudo-devices, one of which, the slave, emulates a real text terminal device, the other of which, the master, provides the means by which a terminal emulator process controls the slave.
If it's not a hardware terminal (teleprinter/tty), it's a pseudoterminal, although tty is also used to mean pty.
Terminal emulators
See also GUI#Framebuffer, GUI#X terminals
- https://en.wikipedia.org/wiki/Terminal_emulator - or terminal application, term, or tty for short, is a program that emulates a video terminal within some other display architecture. Though typically synonymous with a shell or text terminal, the term terminal covers all remote terminals, including graphical interfaces. A terminal emulator inside a graphical user interface is often called a terminal window.
Linux console
- https://en.wikipedia.org/wiki/Linux_console - a system console internal to the Linux kernel (a system console is the device which receives all kernel messages and warnings and which allows logins in single user mode).
The Linux kernel supports virtual consoles - consoles that are logically separate, but which access the same physical keyboard and display.[2] The Linux console (and Linux virtual consoles) are implemented by the VT subsystem of the Linux kernel, and do not rely on any user space software.[3] This is in contrast to a terminal emulator, which is a user space process that emulates a terminal, and is typically used in a graphical display environment.
Kmscon
- https://en.wikipedia.org/wiki/Kmscon - a virtual console which runs in userspace and intends to replace the Linux console, a terminal built into the Linux kernel. Kmscon uses the KMS driver for its output, it is multi-seat capable, supports internationalized keyboard input and UTF-8 terminal output. The input support is implemented using X keyboard extension (XKB). Development of Kmscon stopped in March 2015. There is a new project called systemd-consoled.
systemd-consoled
fbcon
- framebuffer console (fbcon), as its name implies, is a text console running on top of the framebuffer device. It has the functionality of any standard text console driver, such as the VGA console, with the added features that can be attributed to the graphical nature of the framebuffer.
In the x86 architecture, the framebuffer console is optional, and some even treat it as a toy. For other architectures, it is the only available display device, text or graphical.
What are the features of fbcon? The framebuffer console supports high resolutions, varying font types, display rotation, primitive multihead, etc. Theoretically, multi-colored fonts, blending, aliasing, and any feature made available by the underlying graphics card are also possible.
fbterm
- http://code.google.com/p/fbterm/ - Linux framebuffer terminal (without using X)
- https://wiki.archlinux.org/index.php/Fbterm
X terminal(s)
See also GUI#X terminals
Terminal multiplexing
- https://en.wikipedia.org/wiki/Terminal_multiplexer - a software application that can be used to multiplex several separate pseudoterminal-based login sessions inside a single terminal display, terminal emulator window, PC/workstation system console, or remote login session, or to detach and reattach sessions from a terminal. It is useful for dealing with multiple programs from a command line interface, and for separating programs from the session of the Unix shell that started the program, particularly so a remote process continues running even when the user is disconnected.
- https://en.wikipedia.org/wiki/DESQview - was a text mode multitasking operating environment developed by Quarterdeck Office Systems which enjoyed modest popularity in the late 1980s and early 1990s. Running on top of DOS, it allowed users to run multiple programs concurrently in multiple windows.
GNU Screen
- Screen - GNU Project - Free Software Foundation - a full-screen window manager that multiplexes a physical terminal between several processes, typically interactive shells. Each virtual terminal provides the functions of the DEC VT100 terminal and, in addition, several control functions from the ANSI X3.64 (ISO 6429) and ISO 2022 standards (e.g., insert/delete line and support for multiple character sets). There is a scrollback history buffer for each virtual terminal and a copy-and-paste mechanism that allows the user to move text regions between windows. When screen is called, it creates a single window with a shell in it (or the specified command) and then gets out of your way so that you can use the program as you normally would. Then, at any time, you can create new (full-screen) windows with other programs in them (including more shells), kill the current window, view a list of the active windows, turn output logging on and off, copy text between windows, view the scrollback history, switch between windows, etc. All windows run their programs completely independent of each other. Programs continue to run when their window is currently not visible and even when the whole screen session is detached from the users terminal.
config goes in ~/.screenrc
escape ^Ww change escape key to w
Tmux
Config goes in ~/.tmux.conf.
Better than screen.
Articles
- TMUX – The Terminal Multiplexer (Part 1) - June 28, 2010
- TMUX – The Terminal Multiplexer (Part 2) - July 2, 2010
- switching from gnu screen to tmux (updated) - May 5, 2010
Commands
tmux lsc list clients tmux detach-client -t /dev/pts/26 remove other clients from session (if screensize is fucked)
split-window
bind-key -n C-S-Left swap-window -t -1 bind-key -n C-S-Right swap-window -t +1
open new window in current pwd;
bind <key of your choice> default-path $(pwd) \; split-window\; set default-path ~/
tmux_pwd () { [ -z "${TMUX}" ] && return tmux set default-path $(pwd) > /dev/null && tmux new-window (( sleep 300; tmux set default-path ~/ > /dev/null; ) & ) > /dev/null 2>&1 } alias tpwd="tmux_pwd"
Additions
- libtmux — libtmux dev documentation - the tool behind tmuxp, a tmux workspace manager in python.it builds upon tmux’s target and formats to create an object mapping to traverse, inspect and interact with live tmux sessions.
- https://github.com/jimeh/tmuxifier - Create, edit, manage and load complex Tmux session, window and pane configurations with ease. In short, Tmuxifier allows you to easily create, edit, and load "layout" files, which are simple shell scripts where you use the tmux command and helper commands provided by tmuxifier to manage Tmux sessions and windows
- https://github.com/aziz/tmuxinator - Create and manage tmux sessions easily.
- https://github.com/remiprev/teamocil - a simple tool used to automatically create
windows and panes in tmux with YAML files.
- https://github.com/oxidane/tmuxomatic - A completely different kind of tmux session manager. Other tmux session managers require pages of documentation for basic use, and define windows using a complicated nesting of pane splits. At the heart of tmuxomatic is the windowgram, a better way of arranging tmux windows. The windowgram is a rectangle comprised of alphanumeric characters (0-9, a-z, A-Z). Each character grouping identifies the name, position, size, and shape of a pane. It should take only one example to demonstrate the power and flexibility of the windowgram. At the heart of tmuxomatic is the windowgram, a better way of arranging tmux windows. The windowgram is a rectangle comprised of alphanumeric characters (0-9, a-z, A-Z). Each character grouping identifies the name, position, size, and shape of a pane. It should take only one example to demonstrate the power and flexibility of the windowgram. [87]
- https://github.com/tmux-plugins/tmux-continuum - Features: continuous saving of tmux environment, automatic tmux start when computer/server is turned on, automatic restore when tmux is started
- https://github.com/tmux-plugins/tmux-resurrect - saves all the little details from your tmux environment so it can be completely restored after a system restart (or when you feel like it). No configuration is required. You should feel like you never quit tmux. [89] [90]
- https://github.com/Morantron/tmux-fingers - copy pasting with vimium/vimperator like hints.
- https://github.com/lmartinking/tmux-applets - A selection of tmux "applets", such as for cpu frequency, memory usage and pinging
- https://github.com/bsandrow/tmux.sh - By default, if two tmux clients connect to the same session it acts like a mirror (since 'current window' is an attribute of the session rather than of the client). This is a simple script meant to allow behaviour more similar to GNU screen.
- wemux - makes multi-user terminal multiplexing both easier and more powerful. It allows users to host a wemux server and have clients join in either:
- https://github.com/tweekmonster/tmux2html - captures full tmux windows or individual panes then parses their contents into HTML in living color. The output can either be still snapshots, or animated sequences. With a web server that uses gzip compression, the size over the network is negligible for reasonably sized windows or panes. [91]
dvtm
- dvtm - brings the concept of tiling window management, popularized by X11-window managers like dwm to the console. As a console window manager it tries to make it easy to work with multiple console based programs.
Twin
- https://github.com/cosmos72/twin - a windowing environment with mouse support, window manager, terminal emulator and networked clients, all inside a text display. It supports a variety of displays: plain text terminals (any termcap/ncurses compatible terminal, Linux console, twin's own terminal emulator); X11, where it can be used as a multi-window xterm; itself (you can display a twin on another twin); twdisplay, a general network-transparent display client, used to attach/detach more displays on-the-fly. Currently, twin is tested on Linux (i386, x86_64, ARM, ARM64, PowerPC, Alpha, Sparc), on Mac OS X (x86_64) and on FreeBSD (i386, x86_64). I had yet no chance to seriously test it on other systems.
termwm
- https://gitlab.com/jD91mZM2/termwm - A floating WM of terminals inside your terminal
Pymux
Tmate
- tmate - a fork of tmux. It provides an instant pairing solution.
neercs
- neercs - a work-in-progress libcaca project.Like GNU screen, it allows you to detach a session from a terminal, but provides unique features: Grabbing a process that you forgot to start inside neercs, Great screensaver, 3D rotating cube to switch between full screen terms, Real time thumbnails of your shells, Special effects when closing a window, Various window layouts...
Teleconsole
- Teleconsole - Command line tool to share your UNIX terminal and forward local TCP ports to people you trust.
Logging / recording
- Snoopy Logger - designed to aid a sysadmin by providing a log of commands executed. Snoopy is completely transparent to the user and applications. It is linked into programs to provide a wrapper around calls to execve(). Logging is done via syslog.
- sniffy - allows to trace/log the data of any pseudo terminal in the system. Due to the way the terminal works, such a terminal trace provides complete information of what happened on the terminal screen and sniffy is able to display/replay this information.
- ttysnoop - allows you to snoop on login tty's through another tty-device or pseudo-tty. The snoop-tty becomes a 'clone' of the original tty, redirecting both input and output from/to it.
- Rootsh is a wrapper for shells which logs all echoed keystrokes and terminal output to a file and/or to syslog. It's main purpose is the auditing of users who need a shell with root privileges. They start rootsh through the sudo mechanism.
- shwatchr is a small Perl script that audits logins to shell accounts on Linux/*NIX machines that originate from arbitrary hosts on the Internet.
- ttyrec - a tty recorder. Recorded data can be played back with the included ttyplay command. ttyrec is just a derivative of script command for recording timing information with microsecond accuracy as well. It can record emacs -nw, vi, lynx, or any programs running on tty.
- termtosvg - a Unix terminal recorder written in Python that renders your command line sessions as standalone SVG animations. [97] [98]
Misc
- abduco - provides session management i.e. it allows programs to be run independently from their controlling terminal. That is programs can be detached - run in the background - and then later reattached. Together with dvtm it provides a simpler and cleaner alternative to tmux or screen.
- Mosh (mobile shell) - Remote terminal application that allows roaming, supports intermittent connectivity, and provides intelligent local echo and line editing of user keystrokes. Mosh is a replacement for SSH. It's more robust and responsive, especially over Wi-Fi, cellular, and long-distance links.
- Huffshell is a gem which will looks at your history and generate a command tree based on what you type. It will also make basic suggestions for improvements.
- retty is a tiny tool that lets you attach processes running on other terminals. So you were running that mutt outside of screen at your home machine and now wanna check your mail? Attach it with retty, do whatever you want, detach it again and everything is as it was before. You don't have to run them all in screen just in case.
Locale
- https://en.wikipedia.org/wiki/Locale_(computer_software) - a set of parameters that defines the user's language, region and any special variant preferences that the user wants to see in their user interface. Usually a locale identifier consists of at least a language code and a country/region code.On POSIX platforms such as Unix, Linux and others, locale identifiers are defined by ISO/IEC 15897, which is similar to the BCP 47 definition of language tags, but the locale variant modifier is defined differently, and the character set is included as a part of the identifier. It is defined in this format:
[language[_territory][.codeset][@modifier]]
. (For example, Australian English using the UTF-8 encoding is en_AU.UTF-8.)
Colour
Traditionally, terminals could display 2 colours. Then some could display 16 (ANSI) colours (or 8 or 88 colours) for foreground and background. Most modern terminals now support 256 colours, if not 24-bit colour.
tput colors # query the terminfo db for number of colours supported
ANSI colours
! Black + DarkGrey *color0: #000000 *color8: #555753 ! DarkRed + Red *color1: #ff6565 *color9: #ff8d8d ! DarkGreen + Green *color2: #93d44f *color10: #c8e7a8 ! DarkYellow + Yellow *color3: #eab93d *color11: #ffc123 ! DarkBlue + Blue *color4: #204a87 *color12: #3465a4 ! DarkMagenta + Magenta *color5: #ce5c00 *color13: #f57900 !DarkCyan + Cyan (both not tango) *color6: #89b6e2 *color14: #46a4ff ! LightGrey + White *color7: #cccccc *color15: #ffffff
#!/usr/bin/bash # # This file echoes a bunch of color codes to the # terminal to demonstrate what's available. Each # line is the color code of one foreground color, # out of 17 (default + 16 escapes), followed by a # test use of that color on all nine background # colors (default + 8 escapes). # T='gYw' # The test text echo -e "\n 40m 41m 42m 43m\ 44m 45m 46m 47m"; for FGs in ' m' ' 1m' ' 30m' '1;30m' ' 31m' '1;31m' ' 32m' \ '1;32m' ' 33m' '1;33m' ' 34m' '1;34m' ' 35m' '1;35m' \ ' 36m' '1;36m' ' 37m' '1;37m'; do FG=${FGs// /} echo -en " $FGs \033[$FG $T " for BG in 40m 41m 42m 43m 44m 45m 46m 47m; do echo -en "$EINS \033[$FG\033[$BG $T \033[0m"; done echo; done echo
256 colours
"Setting $TERM in the shell profile is generally a bad idea, since you may wish to use different terminals. It is preferable to add it to .Xdefaults (or similar file read by X applications):"
XTerm*termName: xterm-256color
"xterm has a 256 color mode extension, FbTerm also add it in this version. But xterm's 256 color escape sequences conflict with the linux sequences implemented by FbTerm, so private escape sequences were introduced to support this feature and a new terminfo database entry named "fbterm" was added to use these private sequences, all program based on terminfo should work with it. By default, FbTerm sets environment variable "TERM" to value "linux", you need run "TERM=fbterm /path/to/program" to enable 256 color mode."
(x=`tput op` y=`printf %76s`;for i in {0..256};do o=00$i;echo -e ${o:${#o}-3:3} `tput setaf $i;tput setab $i`${y// /=}$x;done) # list all colours
Articles
- http://vim.wikia.com/wiki/256_colors_in_vim
- https://fedoraproject.org/wiki/Features/256_Color_Terminals
- http://www.robmeerman.co.uk/unix/256colours
- That 256 Color Thing, P.C. Shyamshankar - zsh spectrum
- So You Like Color--The Mysterious ^[[ Characters
- StackExchange: Colorizing your terminal and shell environment?
- Super User: TTY with 256 colors?
- How do I output coloured text to a Linux terminal?
24-bit true colour
- Gist: TrueColour.md: True Color (16 million colors) support in various terminal applications and terminals [100] [101]
dircolors
ls takes its color settings from the environment variable LS_COLORS. dircolors is merely a convenient way to generate this environment variable. To have this environment variable take effect system-wide, put it in your shell's startup file.
- dircolors - color setup for ls. Output commands to set the LS_COLORS environment variable.
- dir_colors - configuration file for dircolors - /etc/DIR_COLORS, ~/.dir_colors, etc.
dircolors -p > ~/.dircolors # creates the dircolors confuglration file (a basic script that sets and exports LS_COLORS variable)
For Bash in ~/.bashrc and Zsh in ~/.zshrc, add:
eval $(dircolors ~/.dircolors)
- dircolors: Color setup for ls - coreutils man
echo $LS_COLORS | tr : '\n' | sed 's/\(.*\)=\(.*\)/\x1b[\2m\1\t\2\x1b[0m/' # print dircolor config with colours
Tools
- https://github.com/lanej/dotfiles/blob/master/util/256colors2.pl - grid, no number
- https://github.com/jakobwesthoff/256colors - grid w/ number
- http://charlesleifer.com/blog/using-python-to-generate-awesome-linux-desktop-themes/
- https://github.com/everett1992/wp [103]
- http://bashish.sourceforge.net/ Bashish] - a theme enviroment for text terminals. It can change colors, font, transparency and background image on a per-application basis. Additionally Bashish supports prompt changing on common shells such as bash, zsh and tcsh.
- https://github.com/dylanaraps/pywal - Generate and change colorschemes on the fly. A 'wal' rewrite in Python 3.
- colout is a simple command to add colors to a text stream in your terminal.
Themes
For ZSH, Vim, Tmux, etc.
- http://ethanschoonover.com/solarized
- https://github.com/chriskempson/tomorrow-theme
- http://color.smyck.org/
- http://coolors.co
- http://paletton.com
- http://www.xcolors.net
- http://www.colourlovers.com
- http://www.materialpalette.com
- http://www.transparenttextures.com
- http://daylerees.github.io
- http://www.imagecolorpicker.com
- http://pltts.me
- http://dotshare.it/category/terms/colors
Keyboard
- xcape allows you to use a modifier key as another key when pressed and released on its own. Note that it is slightly slower than pressing the original key, because the pressed event does not occur until the key is released. The default behaviour is to generate the Escape key when Left Control is pressed and released on its own. (If you don't understand why anybody would want this, I'm guessing that Vim is not your favourite text editor ;)
Mouse
- gpm is the mouse support for Linux on the console
Other
- https://github.com/asciimoo/drawille/ - Pixel graphics in terminal with unicode braille characters
Shell
/etc/shells # list of shells installed on system
General
to find;
- way of making previous command screen output be pushed to a buffer that can be flipped through/forked?
- paste pwd to readline/zle
- make alt-delete not break things
Alt-left/right move forwards/back one word
- chsh - change your login shell
- https://en.wikipedia.org/wiki/Chsh - is a command on Unix-like operating systems that is used to change a login shell. Users can either supply the pathname of the shell that they wish to change to on the command line, or supply no arguments, in which case chsh allows the user to change the shell interactively. chsh is a setuid program that modifies the /etc/passwd file, and only allows ordinary users to modify their own login shells. The superuser can modify the shells of other users, by supplying the name of the user whose shell is to be modified as a command-line argument.
Standard streams
- https://en.wikipedia.org/wiki/Standard_streams - preconnected input and output communication channels[1] between a computer program and its environment when it begins execution. The three I/O connections are called standard input (stdin), standard output (stdout) and standard error (stderr). Originally I/O happened via a physically connected system console (input via keyboard, output via monitor), but standard streams abstract this. When a command is executed via an interactive shell, the streams are typically connected to the text terminal on which the shell is running, but can be changed with redirection, e.g. via a pipeline. More generally, a child process will inherit the standard streams of its parent process.
n the C programming language, the standard input, output, and error streams are attached to the existing Unix file descriptors 0, 1 and 2 respectively. In a POSIX environment the <unistd.h> definitions STDIN_FILENO, STDOUT_FILENO or STDERR_FILENO should be used instead rather than magic numbers. File pointers stdin, stdout, and stderr are also provided.
- stdin - 0
- stdout - 1
- stderr - 2
Echo
- https://github.com/Unlimiter/put - A modern and more featured "echo".
Here document
tr a-z A-Z << END_TEXT one two three four five six END_TEXT
This yields the output:
ONE TWO THREE FOUR FIVE SIX
Redirection
The > and >> are redirection operators for FD's (File Descriptors)
In bash you have tree standard FD's that are the standard input (strin), the standard output (strout) and the standard error (strerr). These can also be called by FD 0, FD 1 and FD 2 respectively.
Normally you would have you would have all FD's pointing to the terminal, but this can be changed by using redirection.
For example, if you call:
command > log.txt
You will redirect the output to the file log.txt This is similar as calling:
command 1> log.txt
As this only redirects strout you will still be able to see the error in the terminal. In order to redirect strerr to you log.txt file you will have to run:
command 2> log.txt
Again, this only redirects strerr. If you wish to redirect both stdout and stderr you need to duplicate your stderr output to stdout by using the >& command.
command 1> log.txt 2>&1
To understand this command you need to read it form right to left, first a copy of stderr is made to stdout, then strout is redirected to the log.txt file.
When you use redirection in this way, bash will not look if the file exists or not and simply create one regardless if that implies erasing the existing one. If you want to avoid loosing what has already been written in your log file you can then use the >> command in the same ways explained above, but in this case all the outputs will be appended to existing files.
Readline
Used by bash and other programs.
bind -p # list bindings readline is capable of
IFS
- http://mywiki.wooledge.org/IFS
- http://unix.stackexchange.com/questions/26784/understanding-ifs
- http://stackoverflow.com/questions/4385772/bash-read-line-by-line-from-file-with-ifs
- http://wiki.bash-hackers.org/commands/builtin/read?s[]=ifs
Wildcards
- tuxfiles.org: wildcards
Patterns
- http://mywiki.wooledge.org/BashGuide/Patterns - BASH offers three different kinds of pattern matching. Pattern matching serves two roles in the shell: selecting filenames within a directory, or determining whether a string conforms to a desired format. On the command line you will mostly use globs. These are a fairly straight-forward form of patterns that can easily be used to match a range of files, or to check variables against simple rules. The second type of pattern matching involves extended globs, which allow more complicated expressions than regular globs. Since version 3.0, Bash also supports regular expression patterns. These will be useful mainly in scripts to test user input or parse data. (You can't use a regular expression to select filenames; only globs and extended globs can do that.)
Substitution
print \T\h\i\s\ \i\s\ \*\p\o\i\n\t\l\e\s\s\*\ \ \-\ \b\u\t\ \v\a\l\i\d\!
% read string This is a *string* with various `special' characters % print -r -- ${(q)string} This\ is\ a\ \*string\*\ with\ various\ \`special\'\ characters
sh
The Bourne shell, sh, was written by Stephen Bourne at AT&T as the original Unix command line interpreter; it introduced the basic features common to all the Unix shells, including piping, here documents, command substitution, variables, control structures for condition-testing and looping and filename wildcarding. The language, including the use of a reversed keyword to mark the end of a block, was influenced by ALGOL 68.
- http://pubs.opengroup.org/onlinepubs/009695399/utilities/sh.html
- http://www.etalabs.net/sh_tricks.html
bash
- .bashrc, etc
- Getting Started with BASH
- http://www.aboutlinux.info/2005/10/10-seconds-guide-to-bash-shell.html
- The Command Line Crash Course (for cli newbs)
- Writing Robust Bash Shell Scripts
- http://blog.commandlinekungfu.com/p/index-of-tips-and-tricks.html Unix Command-Line Kung Fu] Tip index
- http://robertmuth.blogspot.co.uk/2012/08/better-bash-scripting-in-15-minutes.html [116]
- YouTube: BASH Workflow Series
man: echo
Scripting
#!/bin/bash set -euo pipefail IFS=$'\n\t'
set -e # exit if any command finishes with non 0 exit code set -u # exit if undefined variable is used set -x # causes bash to print each command before executing it set -o pipefail # prevents errors in a pipeline from being masked IFS=$'\n\t' # word splitting will happen only on newlines and tab characters
Maths
a=$(( 5 + 3 )) (( a = 23 )) (( ++a )) (( a++ ))
Options
- http://rsalveti.wordpress.com/2007/04/03/bash-parsing-arguments-with-getopts/
- http://wiki.bash-hackers.org/howto/getopts_tutorial
- shFlags - getop wrapper for long flags with fallback for non gnu-getopt
Completion
- http://www.cyberciti.biz/open-source/command-line-hacks/compgen-linux-command/
- https://sixohthree.com/867/bash-completion
Prompt
- http://xta.github.io/HalloweenBash/ - generator
Aliases
\curl # bypass any "curl" alias [120]
Variables
- declare or typeset - builtins, which are exact synonyms, permit modifying the properties of variables. This is a very weak form of the typing available in certain programming languages. The declare command is specific to version 2 or later of Bash. The typeset command also works in ksh scripts.
VARIABLE=test VARIABLE="test one two three" export VARIABLE="make global to current shell env" TZ=:/etc/localtime # read in from file
Etc.
Trap
Other
- https://github.com/niieani/bash-oo-framework - a standard library and a boilerplate framework for writing tools using bash. It's modular and lightweight, while managing to implement some concepts from C#, Java or JavaScript into bash. The Infinity Framework is also plug & play: include it at the beginning of your existing script to import any of the individual features such as error handling, and start using other features gradually. The aim of Bash Infinity is to maximize readability of bash scripts, minimize the amount of code repeat and create a central repository for well-written, and a well-tested standard library for bash. [124]
- https://github.com/dylanaraps/bush - an experiment to see how many standard tools and functions we can re-implement in pure bash. No external processes are used, only shell builtins. Bush is not meant to be used for anything serious and there's probably edge cases and bugs throughout.
- https://github.com/dylanaraps/pure-bash-bible - goal of this book is to document known and unknown methods of doing various tasks using only built-in bash features. Using the snippets from this bible can help remove unneeded dependencies from scripts and in most cases make them faster.
Testing
- ShellCheck -shell script analysis tool, finds bugs in your shell scripts. You can cabal, apt, dnf or brew install it locally right now.
- https://github.com/coryb/osht - Bash Testing with TAP/Junit output
zsh
- http://quasimal.com/posts/2012-05-21-funsh.html - functional programming in zsh
- No, Really. Use Zsh. [125]
- http://www.slideshare.net/jaguardesignstudio/why-zsh-is-cooler-than-your-shell-16194692
Configuration
- zbkrc README file - This file describes startup files for Z-shell (zsh), bash and ksh
Commands are then read from $ZDOTDIR/.zshenv. If the shell is a login shell, commands are read from /etc/zprofile and then $ZDOTDIR/.zprofile. Then, if the shell is interactive, commands are read from /etc/zshrc and then $ZDOTDIR/.zshrc. Finally, if the shell is a login shell, /etc/zlogin and $ZDOTDIR/.zlogin are read.
Variables
ZLE
The ZSH equivalent of readline for bash.
- ZSH Guide: Chapter 4: The Z-Shell Line Editor
- ZSH Docs: Zsh Line Editor
- http://bolyai.cs.elte.hu/zsh-manual/zsh_14.html - movement widget list
bindkey "\e[A" history-beginning-search-backward bindkey "\e[B" history-beginning-search-forward
Expansion
$_ last entered word
$? returned exit code of last exec
Prompt
reset-prompt-and-accept-line() { zle reset-prompt zle accept-line } zle -N reset-prompt-and-accept-line bindkey '^m' reset-prompt-and-accept-line
Completion
setopt menu_complete # auto select first completion option
compdef g=git # basic alias completion [126] compdef _files my-local-python-script # simple _files completion [127] compdef '_files -g "*.(eps|ps|pdf)"' okular # restrict to some file extensions compdef -e 'words[1]=(git pull origin); service=git; (( CURRENT+=2 )); _git' ggl # make alias use existing completion [128]
- http://zsh.sourceforge.net/Doc/Release/Completion-Widgets.html
- http://zsh.sourceforge.net/Doc/Release/Completion-System.html
- http://zsh.sourceforge.net/Doc/Release/Completion-Using-compctl.html
From http://news.ycombinator.com/item?id=4867369 :
Tab completion and aliases need not be mutually exclusive. For instance, in zsh you can use:
alias gs='git status' compdef _git gs=git-status
FYI: I also mapped g without parameters to `git status -sb` but g with parameters will simply execute everything as normal
g () { if [ $# -eq 0 ] then git status -sb else git $* fi } compdef g=git
Regex
autoload -U regexp-replace regexp-replace VARNAME REGEXP REPLACE
PATH="$PATH:/foo/bar" echo $PATH regexp-replace PATH ':/foo/bar'
Plugins
- Antigen - A plugin manager for zsh, inspired by oh-my-zsh and vundle. Antigen is a small set of functions that help you easily manage your shell (zsh) plugins, called bundles. The concept is pretty much the same as bundles in a typical vim+pathogen setup. Antigen is to zsh, what Vundle is to vim.
- https://github.com/tarjoilija/zgen - A lightweight plugin manager for Zsh inspired by Antigen. Keep your .zshrc clean and simple.
- https://github.com/getantibody/antibody - The fastest shell plugin manager.
- https://github.com/jedahan/zr - zsh plugin manager written in rust
- https://github.com/zplug/zplug - A next-generation plugin manager for zsh
- https://github.com/zdharma/zplugin - Uber-flexible Zsh plugin manager with clean fpath, reports, completion management, multiple sites support http://zdharma.org
- https://github.com/micrenda/zsh-nohup - Nohup plugin for ZSH shell
- https://github.com/psprint/zsh-navigation-tools - Curses-based tools for ZSH
- https://github.com/Tarrasch/zsh-bd - quicker than cd ../../etc.
- https://github.com/oknowton/zsh-dwim - attempts to predict what you will want to do next. It provides a key binding (control-u) that will replace the current (or previous) command line with the command you will want to run next.
- zsh-history-substring-search - This is a clean-room implementation of the Fish shell's history search feature, where you can type in any part of any previously entered command and press the UP and DOWN arrow keys to cycle through the matching commands. You can also use K and J in VI mode or ^P and ^N in EMACS mode for the same.
- https://github.com/zdharma/history-search-multi-word - Multi-word, syntax highlighted history searching for Zsh
- zsh-completions - Additional completion definitions for Zsh. This projects aims at gathering/developing new completion scripts that are not available in Zsh yet. The scripts are meant to be contributed to the Zsh project when stable enough.
- zsh-syntax-highlighting - Fish shell like syntax highlighting for Zsh.
- https://github.com/zdharma/fast-syntax-highlighting - Optimized and extended zsh-syntax-highlighting
- FIZSH is the Friendly Interactive ZSHell. It is a front end to ZSH. It provides the user of ZSH with interactive syntax-highting and Matlab-like history search. It also has a both short and informative prompt.
- https://github.com/rimraf/k - a zsh script / plugin to make directory listings more readable, adding a bit of color and some git status information on files and directories.
Themes
Frameworks
- Prezto is the configuration framework for Zsh; it enriches the command line interface environment with sane defaults, aliases, functions, auto completion, and prompt themes.
Dotfiles
ash / dash
- https://en.wikipedia.org/wiki/Almquist_shell - The Almquist shell (also known as A Shell, ash and sh) is a lightweight Unix shell originally written by Kenneth Almquist in the late 1980s. Initially a clone of the System V.4 variant of the Bourne shell, it replaced the original Bourne shell in the BSD versions of Unix released in the early 1990s. Derivative versions of ash are still installed as the default shell (/bin/sh) on FreeBSD, NetBSD, DragonFly BSD, MINIX, and Android, and in some Linux distributions.
Debian and derived Linux distributions such as Ubuntu ship a version of ash, known as dash (Debian Almquist shell), as the default /bin/sh, although Bash is the default login shell for interactive use. The reason for using dash is faster shell script execution, especially during startup of the operating system, compared to previous versions of Debian and Ubuntu that used Bash for this purpose.
Ash is also fairly popular in embedded Linux systems; its code was incorporated into the BusyBox catch-all executable often employed in this area.
csh / tcsh
Korn
rc
lshell
- lshell is a shell coded in Python, that lets you restrict a user's environment to limited sets of commands, choose to enable/disable any command over SSH (e.g. SCP, SFTP, rsync, etc.), log user's commands, implement timing restriction, and more.
git-shell
- git-shell - Restricted login shell for Git-only SSH access
Inferno
- Inferno is a distributed operating system, originally developed at Bell Labs, but now developed and maintained by Vita Nuova® as Free Software. Applications written in Inferno's concurrent programming language, Limbo, are compiled to its portable virtual machine code (Dis), to run anywhere on a network in the portable environment that Inferno provides. Unusually, that environment looks and acts like a complete operating system.
fish
- https://news.ycombinator.com/item?id=4073162
- https://news.ycombinator.com/item?id=5723235
- https://news.ycombinator.com/item?id=6224524
oil
mrsh
- https://git.sr.ht/~emersion/mrsh - A minimal POSIX shell. POSIX compliant, no less, no more. Simple, readable code without magic. Library to build more elaborate shells
promptless
- https://github.com/dylanaraps/promptless - A super fast and extremely minimal shell prompt. promptless follows the suckless philosophy and is simple by design. The code-base has a focus on elegance and clarity. The prompt is entirely hackable. Unnecessary and unworthy features need to be patched in.
dash
- http://en.wikipedia.org/wiki/Debian_Almquist_shell - dash, POSIX /bin/sh
Xiki
- Xiki: A shell console with GUI features. Xiki does what shell consoles do, but lets you edit everything at any time. It's trivial to make your own commands and menus to access other tools. [130]
Pdsh
- Pdsh is a high-performance, parallel remote shell utility. It uses a sliding window of threads to execute remote commands, conserving socket resources while allowing some connections to timeout if needed. It was originally written as a replacement for IBM's DSH on clusters at LLNL.
shok
- shok is a cross-platform non-POSIX interactive command shell. Similar to bash and cmd.exe, it allows the user to invoke programs and script their execution. shok will provide a secure, platform-agnostic, and user-friendly programming language that is designed to facilitate filesystem interaction and system management. [131]
Es
- Es: A shell with higher-order functions - In es, almost all standard shell constructs (e.g., pipes and redirection) are translated into a uniform representation: function calls. se constructs can be manipulated the same way as all other functions: invoked, replaced, or passed as arguments to other functions. [132]
Scsh
- Scsh is an open-source Unix shell embedded within Scheme, running on all major Unix platforms including AIX, Cygwin, Linux, FreeBSD, GNU Hurd, HP-UX, Irix, Mac OS X, Solaris, and some others. [133]
psh
- Perl Shell (psh) combines aspects of bash and other shells with the power of Perl scripting.
Elvish
Oh
- Oh is a Unix shell. If you've used other Unix shells, oh should feel familiar. At its core, oh is a heavily modified dialect of the Scheme programming language complete with first-class continuations and proper tail recursion. Like early Scheme implementations, oh exposes environments as first-class values. Oh extends environments to allow both public and private members and uses these extended first-class environments as the basis for its prototype-based object system. Written in Go, oh is also a concurrent programming language. It exposes channels, in addition to pipes, as first-class values. As oh uses the same syntax for code and data, channels and pipes can, in many cases, be used interchangeably. This homoiconic nature also allows oh to support fexprs which, in turn, allow oh to be easily extended. In fact, much of oh is written in oh. [135]
xonsh
- xonsh - a Python-ish, BASHwards-looking shell language and command prompt. The language is a superset of Python 3.4+ with additional shell primitives that you are used to from Bash and IPython. It works on all major systems including Linux, Mac OSX, and Windows. Xonsh is meant for the daily use of experts and novices alike. [136]
ngs
- ngs - a Next Generation Shell. It has two main parts: the language and the interactive shell. NGS tries to fill the void between classical shells such as bash and general-purpose programming languages such as Ruby, Python, Perl, Go. The shells are domain-specific languages but the domain has changed so classical shells are not optimal for today's tasks. General-purpose languages on the other hand are not domain-specific so they are not good as shells and too verbose for system tasks scripting, not a good fit. [137]
cicada
viewglob
- http://viewglob.sourceforge.net/ - a filesystem visualization add-on for Bash and Zsh. It tracks the command line and environment of any number of interactive shells (local and remote). A graphical display follows the currently active terminal, listing the contents of directories relevant to its shell and highlighting file selections and potential name completions dynamically.
dgsh
funky
janetsh
- https://github.com/andrewchambers/janetsh - A powerful new system shell that uses the janet programming language for both the implementation and repl. [141]
History
- https://github.com/cantino/mcfly - replaces your default ctrl-r Bash history search with an intelligent search engine that takes into account your working directory and the context of recently executed commands. McFly's suggestions are prioritized in real time with a small neural network. [142]
Commands
compgen -c | sort # list all commands
SSH
See SSH
General
- Black Duck Open Hub (formerly Ohloh.net) is an online community and public directory of free and open source software (FOSS), offering analytics and search services for discovering, evaluating, tracking, and comparing open source code and projects. Open Hub Code Search is free code search engine indexing over 21,000,000,000 lines of open source code from projects on the Black Duck Open Hub.
- fu - commandlinefu.com from the commandline. Nothing has made more sense!
- Awesome but often unknown Linux commands and tools - August 10th, 2011
- LinuxCommand.org is a Linux education and advocacy site devoted to helping users of legacy operating systems migrate into the future.
- WikiBooks: Guide to Unix/Commands
- SHELLdorado - your UNIX shell scripting resource
- shortcutworld.com - keyboard shortcuts wiki
- ShortcutFoo - Learn shortcuts and commands
exec
- exec - shall open, close, and/or copy file descriptors as specified by any redirections as part of the command. If exec is specified without command or arguments, and any file descriptors with numbers greater than 2 are opened with associated redirection statements, it is unspecified whether those file descriptors remain open when the shell invokes another utility. Scripts concerned that child shells could misuse open file descriptors can always close them explicitly, as shown in one of the following examples. If exec is specified with command, it shall replace the shell with command without creating a new process. If arguments are specified, they shall be arguments to command. Redirection affects the current shell execution environment.
exec windowmanager # switch script shell process with windowmanager process
Daemons
A daemon is a program that runs in the background, waiting for events to occur and offering services. A good example is a web server that waits for a request to deliver a page or a ssh server waiting for someone trying to log in. While these are full featured applications, there are daemons whose work is not that visible. Daemons are for tasks like writing messages into a log file (e.g. syslog, metalog) or keeping your system time accurate (e.g. ntpd). For more information see man 7 daemon.
- Daemon turns other process into daemons. There are many tasks that need to be performed to correctly set up a daemon process. This can be tedious. Daemon performs these tasks for other processes.
Programs
See also Regex for sed, awk, etc.
- Vim - Text editor, etc.
- Git - Distributed version control
GNU coreutils
- Coreutils - GNU core utilities - the basic file, shell and text manipulation utilities of the GNU operating system. These are the core utilities which are expected to exist on every operating system.
- https://github.com/uutils/coreutils - rewrite in Rust [146]
cat
Use output as input.
- http://linux.die.net/man/1/cat - concatenate files and print on the standard output
cat filename.txt cat `locate file.txt` # or cat $(locate file.txt)
- https://github.com/sharkdp/bat - A cat(1) clone with wings.
tee
- http://linux.die.net/man/1/tee - read from standard input and write to standard output and files
sponge
- sponge(1) - soak up standard input and write to a file
basename
- http://linux.die.net/man/1/basename - strip directory and suffix from filenames
uniq
- http://linux.die.net/man/1/uniq - report or omit repeated lines
printf
- https://en.wikipedia.org/wiki/Printf_(Unix) - shell builtin
tr
- http://linux.die.net/man/1/tr - translate or delete characters
echo $PATH | tr \: \\n | sort
to sort
- https://github.com/rupa/z - very handy for navigation
- https://github.com/agkozak/zsh-z - Jump quickly to directories that you have visted "frecently." A native ZSH port of z.sh.
- https://github.com/joelthelion/autojump - very handy for navigation
- cut - remove sections from each line of files
- shelr - console screencasting tool
- http://meldmerge.org/ - wow, nice three pane diff merging gui app
- https://github.com/so-fancy/diff-so-fancy - Good-lookin' diffs. Actually… nah… The best-lookin' diffs.
- https://github.com/colinhowe/monner - Allows you to monitor the CPU, memory and network usage when running a program. Output is tab-separated for easy loading into spreadsheet programs.
If you want to write daemons in languages that can link against C functions (e.g. C, C++), see libslack which contains the core functionality of daemon.
- https://github.com/baskerville/ledcns - change keyboard light state
Expect
- Expect - a tool for automating interactive applications such as telnet, ftp, passwd, fsck, rlogin, tip, etc. Expect really makes this stuff trivial. Expect is also useful for testing these same applications. And by adding Tk, you can also wrap interactive applications in X11 GUIs. Expect can make easy all sorts of tasks that are prohibitively difficult with anything else. You will find that Expect is an absolutely invaluable tool - using it, you will be able to automate tasks that you've never even thought of before - and you'll be able to do this automation quickly and easily.
Calculator
expr 2 \* 2 # returns 4. doesn't do non-integers.
- http://danielcorin.github.io/blog/2013/07/23/qc/ - basic cli python calculator
Terminal extras
- https://github.com/Lokaltog/powerline - Powerline is a statusline plugin for vim, and provides statuslines and prompts for several other applications, including zsh, bash, tmux, IPython, Awesome and Qtile.
Desktop entries
- gendesk - Utility for generating .desktop files and download icons by specifying a minimum of information
- https://github.com/AndyCrowd/list-desktop-files - list available *.desktop files and search in their content
- https://github.com/jceb/dex - a program to generate and execute DesktopEntry files of the Application type.
- https://github.com/jjk-jacky/dapper - Desktop Applications Autostarter
Job schedulers
https://en.wikipedia.org/wiki/Job_scheduler
at
at and batch read commands from standard input or a specified file which are to be executed at a later time.
at 5am Oct 20 # executes commands at "time am/pm" "month" "day" atq # lists the user's pending jobs, unless the user is the superuser; in that case, everybody's jobs are listed. The format of the output lines (one for each job) is: Job number, date, hour, queue, and username. atrm # deletes jobs, identified by their job number. batch # executes commands when system load levels permit; in other words, when the load average drops below 0.8, or the value specified in the invocation of atd.
/var/spool/at/
cron
- SUS: crontab - schedule periodic background work
A cronjob is a task that a Cron system is instructed to run periodically. The crontab file is a configuration file for a user that defines tasks to run under the user’s account. The systab file is a file that specifies cronjobs for the system.
- Arch BBS: cron vs (anacron, cronie, fcron, etc.)
Configuration
/var/spool/cron/ # user crontabs /etc/crontab # system-wide crontab /etc/cron.d/* # or /etc/cron.hourly, /etc/cron.daily, /etc/cron.weekly, /etc/cron.monthly # distro specific extra
crontab -l # view crontabs crontab -e # edit their crontabs crontab -r # remove their crontabs crontab saved_crontab_filename # overwrite their old crontab with saved crontab
- m h dom mon dow user command
There are several special predefined values which can be used to substitute the CRON expression.
Entry Description Equivalent To @yearly (or @annually) Run once a year, midnight, Jan. 1st 0 0 1 1 * @monthly Run once a month, midnight, first of month 0 0 1 * * @weekly Run once a week, midnight on Sunday 0 0 * * 0 @daily Run once a day, midnight 0 0 * * * @hourly Run once an hour, beginning of hour 0 * * * * @reboot Run at startup @reboot
* * * * * command to be executed ┬ ┬ ┬ ┬ ┬ │ │ │ │ │ │ │ │ │ │ │ │ │ │ └───── day of week (0 - 6) (0 is Sunday, or use names) │ │ │ └────────── month (1 - 12) │ │ └─────────────── day of month (1 - 31) │ └──────────────────── hour (0 - 23) └───────────────────────── min (0 - 59)
0 0 * */2 * certbot certonly --webroot -n -w /var/www/example.org/ -d example.org # “At 00:00 in every 2nd month.”
- /etc/cron.allow - If this file exists, then you must be listed therein (your username must be listed) in order to be allowed to use cron jobs.
- /etc/cron.deny - If the cron.allow file does not exist but the /etc/cron.deny file does exist, then you must not be listed in the /etc/cron.deny file in order to use cron jobs.
- http://xyne.archlinux.ca/projects/cronwhip/ - run cron tasks that were missed due to power down. uses crond config unlike anacron.
dcron
Vanilla dcron supports asynchronous job processing. Just put it with @hourly, @daily, @weekly or @monthly with a jobname.
dcron has @daily, @hourly and so on. In fcron, you can use standard crontab entries and add &bootrun to the beginning of the line to repeat "missed" cronjobs.
cronie
Arch default cron as dcron wasn't maintained at the time.
dcron and fcron are not under active development, cronie is. cronie is small - 0.20MB installed. developed by Red Hat - it is not going anywhere and we have a guaranteed upgrade path. As far as I can tell cronie has no deps beyond glibc and pam. cronie has /etc/cron.d support and anacron support via an anacrontab config file. cronie extends the original vixie cron package so the syntax, core feature set, etc are stable. implements advanced security hooks as well and can integrate with SELINUX.
anacron
- anacron is a computer program that performs periodic command scheduling which is traditionally done by cron, but without assuming that the system is running continuously. Thus, it can be used to control the execution of daily, weekly, and monthly jobs (or anything with a period of n days) on systems that don't run 24 hours a day.
/etc/anacrontab # and/or /var/spool/anacron/*
fcron
- fcron is a computer program with a GNU GPL license that performs periodic command scheduling. It has been developed on Linux and should work on POSIX systems. As with Anacron, it does not assume that the system is running continuously, and can run in systems that do not run all the time or regularly. It aims to replace Vixie-cron and Anacron with a single integrated program, providing many features missing from the original Cron daemon.
Fcron’s own crontab system uses the fcrontab file for configuration information. The fcrontab syntax is similar but differs slightly from the classic Vixie/ISC Cron crontab notation. fcron lacks /etc/cron.d/ functionality.
Mcron
- Mcron - a 100% compatible replacement for Vixie cron. It is written in pure Guile, and allows configuration files to be written in scheme (as well as Vixie's original format) for infinite flexibility in specifying when jobs should be run.
Other
systemd/Timers
- systemd.timer - Timer unit configuration
- https://wiki.archlinux.org/index.php/Systemd/Timers - Timers are systemd unit files whose name ends in .timer that control .service files or events. Timers can be used as an alternative to cron (read #As a cron replacement). Timers have built-in support for calendar time events, monotonic time events, and can be run asynchronously.
Batch system
- https://en.wikipedia.org/wiki/Job_scheduler - a computer application for controlling unattended background program execution of jobs. This is commonly called batch scheduling, as execution of non-interactive jobs is often called batch processing, though traditional job and batch are distinguished and contrasted; see that page for details. Other synonyms include batch system, distributed resource management system (DRMS), distributed resource manager (DRM), and, commonly today, workload automation. The data structure of jobs to run is known as the job queue.
batch
Task Spooler
- Task Spooler - a Unix batch system where the tasks spooled run one after the other. The amount of jobs to run at once can be set at any time. Each user in each system has his own job queue. The tasks are run in the correct context (that of enqueue) from any shell/process, and its output/results can be easily watched. It is very useful when you know that your commands depend on a lot of RAM, a lot of disk use, give a lot of output, or for whatever reason it's better not to run them all at the same time, while you want to keep your resources busy for maximum benfit. Its interface allows using it easily in scripts.
nq
- https://github.com/chneukirchen/nq - These small utilities allow creating very lightweight job queue systems which require no setup, maintenance, supervision, or any long-running processes.
Slurm
- Slurm Workload Manager - Documentation
TORQUE
File watchers
inotify
- inotify-tools is a C library and a set of command-line programs for Linux providing a simple interface to inotify.
- inotifywait - wait for changes to files using inotify
- inotifywatch - gather filesystem access statistics using inotify
- inotail is a replacement for the 'tail' program found in the base installation of every Linux/UNIX system. It makes use of the inotify infrastructure in recent versions of the Linux kernel to speed up tailing files in the follow mode (the '-f' option). Standard tail polls the file every second by default while inotail listens to special events sent by the kernel through the inotify API to determine whether a file needs to be reread. Currently inotail is not fully compatible to neither POSIX or GNU tail but might be in the future.
- when-changed - Run a command when a file is changed
- https://gist.github.com/wernight/11401031 - inotifywait helper that executes a command on file change (for Linux, put it in ~/bin/)
- entr - Run arbitrary commands when files change
- - Guard::Shell - automatically runs shell commands when watched files are modified.
- incron - inotify cron system. This program is an "inotify cron" system. It consists of a daemon and a table manipulator. You can use it a similar way as the regular cron. The difference is that the inotify cron handles filesystem events rather than time periods.
- nodemon will watch the files in the directory that nodemon was started, and if they change, it will automatically restart your node application.
- http://jnotify.sourceforge.net/ - File system events library for Java
Other
watch -n 2 ls -la
chroot
- http://linux.die.net/man/1/chroot
- http://en.wikipedia.org/wiki/Chroot
- https://wiki.archlinux.org/index.php/Change_Root
- https://help.ubuntu.com/community/BasicChroot
- http://www.unixwiz.net/techtips/chroot-practices.html
- http://www.bpfh.net/simes/computing/chroot-break.html
Startup
- e4rat ("Ext4 - Reducing Access Times") is a toolset to accelerate the boot process as well as application startups. Through physical file realloction e4rat eliminates both seek times and rotational delays. This leads to a high disk transfer rate. Placing files on disk in a sequentially ordered way allows to efficiently read-ahead files in parallel to the program startup.
ncurses, etc.
See UI#TUI
Web
Configuration management
/etc ~/.config /usr/local/etc/
etc.
See Dotfiles
Media
Misc.
- https://github.com/junegunn/fzf - a general-purpose command-line fuzzy finder.
- https://github.com/changyuheng/fz - fzf completion for z
- https://github.com/p-gen/smenu - Terminal utility that allows you to use words coming from the standard input to create a nice selection window just below the cursor. Once done, your selection will be sent to standard output.
- https://github.com/akavel/up - a tool for writing Linux pipes in a terminal-based UI interactively, with instant live preview of command results. The main goal of the Ultimate Plumber is to help interactively and incrementally explore textual data in Linux, by making it easier to quickly build complex pipelines, thanks to a fast feedback loop. This is achieved by boosting any typical Linux text-processing utils such as grep, sort, cut, paste, awk, wc, perl, etc., etc., by providing a quick, interactive, scrollable preview of their results. [159] [160]
Cute
See also GUI#Utils
- fortune-mod - one of the versions of the UNIX fortune program that displays a random quotation from a database of quotations. It was adapted to run on Linux and other systems and is now maintained here.
strfile -c % myfortunes myfortunes.dat
- https://github.com/7890/shout - print large pixel fonts in terminal
hexdump -C /dev/urandom | pv -q -L 2k | grep "ca fe"
- https://github.com/jifunks/botany - command line virtual plant buddy
- https://github.com/p-e-w/ternimal - Simulate a lifeform in the terminal
- https://github.com/svenstaro/genact - Pretend to be busy or waiting for your computer when you should actually be doing real work! Impress people with your insane multitasking skills. Just open a few instances of genact and watch the show. genact has multiple scenes that pretend to be doing something exciting or useful when in reality nothing is happening at all.
Windows
- Wine - (originally an acronym for "Wine Is Not an Emulator") is a compatibility layer capable of running Windows applications on several POSIX-compliant operating systems, such as Linux, macOS, & BSD. Instead of simulating internal Windows logic like a virtual machine or emulator, Wine translates Windows API calls into POSIX calls on-the-fly, eliminating the performance and memory penalties of other methods and allowing you to cleanly integrate Windows applications into your desktop.
Install a .msi
wine msiexec /i xyz.msi
wineboot --update # speed up wine start time
- https://github.com/doitsujin/dxvk - Vulkan-based D3D11 implementation for Linux / Wine
- ProtonDB - a new tool released by Valve Software that has been integrated with Steam Play to make playing Windows games on Linux as simple as hitting the Play button within Steam. Underneath the hood, Proton comprises other popular tools like Wine and DXVK among others that a gamer would otherwise have to install and maintain themselves. This greatly eases the burden for users to switch to Linux without having to learn the underlying systems or losing access to a large part of their library of games. Proton is still in its infancy so support is inconsistent, but regularly improving. [163]
- https://github.com/ValveSoftware/Proton - Compatibility tool for Steam Play based on Wine and additional components
OS X
Users
- https://en.wikipedia.org/wiki/Name_Service_Switch - a facility in Unix-like operating systems that provides a variety of sources for common configuration databases and name resolution mechanisms. These sources include local operating system files (such as /etc/passwd, /etc/group, and /etc/hosts), the Domain Name System (DNS), the Network Information Service (NIS), and LDAP
Home directory
On Unix-like operating systems (including BSD, GNU/Linux and Mac OS X), tilde often indicates the current user's home directory: for example, if the current user's home directory is /home/bloggsj, then cd, cd ~, cd /home/bloggsj or cd $HOME are equivalent. This practice derives from the Lear-Siegler ADM-3A terminal in common use during the 1970s, which happened to have the tilde symbol and the word "Home" (for moving the cursor to the upper left) on the same key.
Files
- /etc/passwd - local user information
- account:password:UID:GID:GECOS:directory:shell
- http://linux.die.net/man/5/passwd
- http://en.wikipedia.org/wiki/Passwd
- /etc/shadow - restricted access encrypted password file
Commands
useradd username create user with defaults (no password) useradd -D show defaults that will be used useradd -m -g [initial_group] -G [additional_groups] -s [login_shell] [username] -m - add home dir -d - non-default home dir path -c comment -e 2006-06-30 - expires useradd -m -g users -G audio,lp,optical,storage,video,wheel,games,power,scanner -s /bin/bash username
adduser interactive tool
passwd # set password of current account passwd username # set password of username passwd -S username # see password status of username
userdel username # remove user userdel -r username # remove user plus their home folder, mail spool
cat /etc/passwd | cut -d: -f 1,3,6 | grep "[5-9][0-9][0-9]" # List users on a system [164]
groups [username] # show users groups
- https://en.wikipedia.org/wiki/Wall_(Unix) - write all, message all logged in user terminals
Groups
groupadd [group] add group gpasswd -a [user] [group] add user to group gpasswd -d [user] [group] delete user from group
nix doesn't check the users groups, it checks the applications groups, so the shell doesn't automatically have the new group permission attribute. running "sudo login" or "newgrp [groupname]" gives a shell with the new group attribute.
id [username] show user id and their groups ids
last lastb - show listing of last logged in users
Security
See also Security, Storage#Permissions
- https://en.wikipedia.org/wiki/Setuid - setuid and setgid (short for "set user ID upon execution" and "set group ID upon execution", respectively) are Unix access rights flags that allow users to run an executable with the permissions of the executable's owner or group respectively and to change behaviour in directories. They are often used to allow users on a computer system to run programs with temporarily elevated privileges in order to perform a specific task. While the assumed user id or group id privileges provided are not always elevated, at a minimum they are specific. setuid and setgid are needed for tasks that require higher privileges than those which common users have, such as changing their login password. Some of the tasks that require elevated privileges may not immediately be obvious, though — such as the ping command, which must send and listen for control packets on a network interface.
su / sudo
Run things as root or another user. There are a number of methods to do higher privilege things, with differing resultant permissions. To refind good forum threads..
sudo -s open a new shell as root, but with your original user's environment variables sudo -i open a new shell as if root had logged in; root's environment variables, root's .bash_profile, etc. sudo su - same as above
snippet to source...
sudo sh -c "echo 'something' >> /etc/privilegedfile"
- https://help.ubuntu.com/community/RootSudo
- http://unix.stackexchange.com/questions/35338/su-vs-sudo-s-vs-sudo-bash
sudo bash -c 'sleep 4h; command' # run something later sudo bash -c 'sleep 4h; sudo -u dessert whoami; whoami' # run something later as another user
sudoers
visudo command to safely add sudoers rights using nano
user ALL=(ALL) ALL
Other
- https://github.com/tianon/gosu - Simple Go-based setuid+setgid+setgroups+exec
Polkit
For non-root mount permissions, etc, i.e. to make USB drives, etc. accessible too non-root users.
- polkit: polkit Reference Manual - provides an authorization API intended to be used by privileged programs (“MECHANISMS”) offering service to unprivileged programs (“SUBJECTS”) often through some form of inter-process communication mechanism. In this scenario, the mechanism typically treats the subject as untrusted. For every request from a subject, the mechanism needs to determine if the request is authorized or if it should refuse to service the subject. Using the polkit APIs, a mechanism can offload this decision to a trusted party: The polkit authority.
The polkit authority is implemented as an system daemon, polkitd(8), which itself has little privilege as it is running as the polkitd system user. Mechanisms, subjects and authentication agents communicate with the authority using the system message bus. In addition to acting as an authority, polkit allows users to obtain temporary authorization through authenticating either an administrative user or the owner of the session the client belongs to. This is useful for scenarios where a mechanism needs to verify that the operator of the system really is the user or really is an administrative user.
PAM
- https://en.wikipedia.org/wiki/Pluggable_authentication_module - PAM) is a mechanism to integrate multiple low-level authentication schemes into a high-level application programming interface (API). It allows programs that rely on authentication to be written independently of the underlying authentication scheme. PAM was first proposed by Sun Microsystems in an Open Software Foundation Request for Comments (RFC) 86.0 dated October 1995. It was adopted as the authentication framework of the Common Desktop Environment. As a stand-alone open-source infrastructure, PAM first appeared in Red Hat Linux 3.0.4 in August 1996. PAM is currently supported in the AIX operating system, DragonFly BSD,[1] FreeBSD, HP-UX, Linux, Mac OS X, NetBSD and Solaris. Since no central standard of PAM behavior exists, there was a later attempt to standardize PAM as part of the X/Open UNIX standardization process, resulting in the X/Open Single Sign-on (XSSO) standard. This standard was not ratified, but the standard draft has served as a reference point for later PAM implementations (for example, OpenPAM).
Linux PAM
- https://en.wikipedia.org/wiki/Linux_PAM - provide dynamic authentication support for applications and services in a Linux or GNU/kFreeBSD[1] system. Linux PAM is evolved from the Unix Pluggable Authentication Modules architecture.
Linux-PAM separates the tasks of authentication into four independent management groups:
- account modules check that the specified account is a valid authentication target under current conditions. This may include conditions like account expiration, time of day, and that the user has access to the requested service.
- authentication modules verify the user's identity, for example by requesting and checking a password or other secret. They may also pass authentication information on to other systems like a keyring.
- password modules are responsible for updating passwords, and are generally coupled to modules employed in the authentication step. They may also be used to enforce strong passwords.
- session modules define actions that are performed at the beginning and end of sessions. A session starts after the user has successfully authenticated.
Config format:
module_type control_flag module_path arguments
Configuration file(s):
/etc/pam.conf # or /etc/pam.d/*
pam_access.so # restricts hosts pam_console.so # privileges for users logged on via the console pam_listfile.so # checks a file for a users privileges pam_nologin.so # prevents users other than root when /etc/nologin exists pam_securetty.so # restricts tty devices root can use pam_time.so # restrict use availability times
OpenPAM
- https://en.wikipedia.org/wiki/OpenPAM - a BSD-licensed implementation of PAM used by FreeBSD, NetBSD, DragonFly BSD and OS X (starting with Snow Leopard), and offered as an alternative to Linux PAM in certain Linux distributions.
Packages and package management
See Packages
Time
echo "Today's date is `date -I`"
date Local datetime date -d @1337000000 Convert unixtime to datetime date -ud Convert unixtime to UTC datetime
- Linux, Clocks, and Time
- tzconfig / dpkg-reconfigure tzdata
ntpdate pool.ntp.org && hwclock --systohc && hwclock --adjust Synchronize both your system clock and hardware clock and calculate/adjust time drift. Do not run this command if you already have ntpd running! [166]
Suspension, hibernation
- https://wiki.archlinux.org/index.php/Pm-utils - a collection of shell scripts that wrap the kernel mode suspend/resume with the various hacks. These hacks are needed to work around bugs in drivers and subsystems that are not yet aware of suspend. It is easily extensible by putting custom hooks into a directory, which can either be done by the system administrator or those hooks can be part of a package, especially if this package needs special attention during a system suspend or power state transition.
sudo pm-suspend
/etc/sudoers
username ALL = NOPASSWD: /usr/sbin/pm-hibernate username ALL = NOPASSWD: /usr/sbin/pm-suspend
%group ALL = NOPASSWD: /usr/sbin/pm-hibernate %group ALL = NOPASSWD: /usr/sbin/pm-suspend
- https://github.com/brummer10/nosuspend - A little command-line tool to avoid computer suspend as long a app is running
Cleanup
Laptop
See also Computer#Laptop
- https://sourceforge.net/projects/fnfx/ - toshiba acpi
Printing
- http://ubuntuforums.org/showthread.php?t=1602839
- http://raerav.com/howto-get-canon-pixma-mp495-all-in-one-printer-working-with-linux/
CUPS
Printing system.
lp filename lpr filename lpstat -p -d lp -d printer filename lpr -P printer filename
lpoptions -d printer
program | lp program | lp -d printer program | lpr program | lpr -P printer
to sort
to move to Distros?
8-bit