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Wikipedia

X.Org Server

April 15, 2024

Not to be confused with X.Org Foundation.

X.Org Server is the free and open-source implementation of the X Window System (X11) display server stewarded by the X.Org Foundation.

Developer(s)X.Org Foundation
Initial release6 April 2004; 20 years ago (2004-04-06)[1]
Stable release
21.1.13[2]  / 12 April 2024
Repository
  • gitlab.freedesktop.org/xorg/xserver.git
Written inC
Operating systemCross-platform
Size3.7 MiB[3]
Available inEnglish
TypeDisplay server
LicenseMIT License
Websitex.org

Implementations of the client-side X Window System protocol exist in the form of X11 libraries, which serve as helpful APIs for communicating with the X server.[4] Two such major X libraries exist for X11. The first of these libraries was Xlib, the original C language X11 API,[5] but another C language X library, XCB, was created later in 2001.[6] Other smaller X libraries exist, both as interfaces for Xlib and XCB in other languages, and as smaller standalone X libraries.[citation needed]

The services with which the X.Org Foundation supports X Server include the packaging of the releases; certification (for a fee); evaluation of improvements to the code; developing the web site, and handling the distribution of monetary donations.[citation needed] The releases are coded, documented, and packaged by global developers.[clarification needed]

Software architecture edit

 
xdpyinfo, a command to show X.Org Server information

The X.Org Server implements the server side of the X Window System core protocol version 11 (X11) and extensions to it, e.g. RandR.[7]

Version 1.16.0 integrates support for systemd-based launching and management which improved boot performance and reliability.[8]

Device Independent X (DIX) edit

The Device Independent X (DIX) is the part of the X.Org Server that interacts with clients and implements software rendering. The main loop and the event delivery are part of the DIX.[9]

An X server has a tremendous amount of functionality that must be implemented to support the X core protocol. This includes code tables, glyph rasterization and caching, XLFDs, and the core rendering API which draws graphics primitives.

Device Dependent X (DDX) edit

The Device Dependent X (DDX) is the part of the x-server that interacts with the hardware. In the X.Org Server source code, each directory under "hw" corresponds to one DDX. Hardware comprises graphics cards as well as mouse and keyboards. Each driver is hardware specific and implemented as a separate loadable module.

2D graphics driver edit

For historical reasons the X.Org Server still contains graphics device drivers supporting some form of 2D rendering acceleration. In the past, mode-setting was done by an X-server graphics device driver specific to some video controller hardware (e.g., a GPU). To this mode-setting functionality, additional support for 2D acceleration was added when such became available with various GPUs. The mode-setting functionality was moved into the DRM and is being exposed through a DRM mode-setting interface, the new approach being called "kernel mode-setting" (KMS). But the 2D rendering acceleration remained.

In Debian the 2D graphics drivers for the X.Org Server are packaged individually and called xserver-xorg-video-*.[10] After installation the 2D graphics driver-file is found under /usr/lib/xorg/modules/drivers/. The package xserver-xorg-video-nouveau installs nouveau_drv.so with a size of 215 KiB, the proprietary Nvidia GeForce driver installs an 8 MiB-sized file called nvidia_drv.so and Radeon Software installs fglrx_drv.so with a size of about 25MiB.

The available free and open-source graphics device drivers are being developed inside of the Mesa 3D-project. While these can be recompiled as required, the development of the proprietary DDX 2D graphics drivers is greatly eased when the X.Org Server keeps a stable API/ABI across multiple of its versions.

With version 1.17 a generic method for mode-setting was mainlined. The xf86-video-modesetting package, the Debian-package being called xserver-xorg-video-modesetting, was retired, and the generic modesetting DDX it contained was moved into the server package to become the KMS-enabled default DDX, supporting the vast majority of AMD, Intel and NVidia GPUs.

On April 7, 2016 AMD employee Michel Dänzer released xf86-video-ati version 7.7.0[11] and xf86-video-amdgpu version 1.1.0,[12] the latter including support for their Polaris microarchitecture.

Acceleration architectures edit

There are (at least) XAA (XFree86 Acceleration Architecture),[13] EXA, UXA and SNA.

 
XAA is an API between the Device-Independent-X (DIX) and the Device-Dependent-X (DDX), a 2D graphics driver, here e.g. with the Linux kernel.

In the X Window System, XFree86 Acceleration Architecture (XAA) is a driver architecture to make a video card's 2D hardware acceleration available to the X server.[14][15] It was written by Harm Hanemaayer in 1996 and first released in XFree86 version 3.3. It was completely rewritten for XFree86 4.0.[16] It was removed again from X.Org Server 1.13.

Most drivers implement acceleration using the XAA module. XAA is on by default, though acceleration of individual functions can be switched off as needed in the server configuration file (XF86Config or xorg.conf).

The driver for the ARK chipset was the original development platform for XAA.

In X.Org Server release 6.9/7.0, EXA was released as a replacement for XAA, as XAA supplies almost no speed advantage for current video cards. EXA is regarded as an intermediate step to converting the entire X server to using OpenGL.

Glamor edit

Glamor is a generic, hardware independent, 2D acceleration driver for the X server that translates the X render primitives into OpenGL operations, taking advantage of any existing 3D OpenGL drivers.[17] In this way, it is functionally similar to Quartz Extreme and QuartzGL (2D performance acceleration) for Apple Quartz Compositor.

The ultimate goal of GLAMOR is to obsolete and replace all the DDX 2D graphics device drivers and acceleration architectures, thereby avoiding the need to write X 2D specific drivers for every supported graphic chipset.[18][19][20] Glamor requires a 3D driver with support for shaders.[21]

Glamor performance tuning was accepted for Google Summer of Code 2014.[22] Glamor supports Xephyr and DRI3,[23] and can boost some operations by 700–800%.[24] Since its mainlining into version 1.16 of the X.Org Server, development on Glamor was continued and patches for the 1.17 release were published.[25]

Virtualization edit

There is a distinct and special DDX for instances of the X.Org Server which run on a guest system inside of a virtualized environment: xf86-video-qxl, a driver for the "QXL video device". SPICE makes use of this driver though it works without it as well.

In the Debian repositories it is called xserver-xorg-video-qxl, cf. https://packages.debian.org/buster/xserver-xorg-video-qxl

Input stack edit

Under Debian, drivers related to input are found under /usr/lib/xorg/modules/input/. Such drivers are named e.g. evdev_drv.so, mouse_drv.so, synaptics_drv.so or wacom_drv.so.

With version 1.16, the X.Org Server obtained support for the libinput library in form of a wrapper called xf86-input-libinput.[26] At the XDC 2015 in Toronto, libratbag was introduced as a generic library to support configurable mice.[27][28] xserver-xorg-input-joystick is the input module for the X.Org server to handle classic joysticks and gamepads, which is not meant for playing games under X, but to control the cursor with a joystick or gamepad.[29][30]

Other DDX components edit

XWayland
XWayland is a series of patches over the X.Org server codebase that implement an X server running upon the Wayland protocol. The patches are developed and maintained by the Wayland developers for compatibility with X11 applications during the transition to Wayland,[31] and were mainlined in version 1.16 of the X.Org Server in 2014.[8] When a user runs an X application from within Weston, it calls upon XWayland to service the request.[32]
XQuartz
XQuartz is a series of patches from Apple Inc. to integrate support for the X11 protocol into their Quartz Compositor, in a similar way to how XWayland integrates X11 into Wayland compositors.
Xspice
Xspice is a device driver for the X.Org Server. It supports the QXL framebuffer device and includes a wrapper script[33] which makes it possible to launch an X.Org Server whose display is exported via the SPICE protocol. This enables use of SPICE in a remote desktop environment, without requiring KVM virtualization.
Xephyr
Xephyr is an X-on-X implementation. Since version 1.16.0, Xephyr serves as the primary development environment for the new 2D acceleration subsystem (Glamor), permitting rapid development and testing on a single machine.[8]
RandR
RandR (resize and rotate) is a communications protocol written as an extension to the X11[34] protocol. XRandR provides the ability to resize, rotate and reflect the root window of a screen. RandR is responsible for setting the screen refresh rate.[35] It allows for the control of multiple monitors.[36]

IPC edit

The X.Org Server, and any x-client, each run as distinct processes. On Unix/Linux, a process knows nothing about any other processes. For it to communicate with another process, it is completely and utterly reliant on the kernel to moderate the communication via available inter-process communication (IPC) mechanisms. Unix domain sockets are used to communicate with processes running on the same machine. Special socket function calls are part of the System Call Interface. Although Internet domain sockets can be used locally, Unix domain sockets are more efficient, since they do not have the protocol overhead (checksums, byte orders, etc.).

X.Org Server does not use D-Bus.

Sockets are the most common interprocess communication (IPC) method between the processes of the X server and its various X clients. It provides the Application Programming Interface (API) for communication in the TCP/IP domain and also locally only in the UNIX domain. There are several other APIs described in the X Transport Interface, for instance TLI (Transport Layer Interface). Other options for IPC between for the X client-server, require X Window system extensions, for instance the MIT Shared Memory Extension (MIT-SHM).

Multiseat configuration edit

Multi-seat refers to an assembly of a single computer with multiple "seats", allowing multiple users to sit down at the computer, log in, and use the computer at the same time independently. The computer has multiple keyboards, mice, and monitors attached to it, each "seat" having one keyboard, one mouse and one monitor assigned to it. A "seat" consists of all hardware devices assigned to a specific workplace. It consists of at least one graphics device (graphics card or just an output and the attached monitor) and a keyboard and a mouse. It can also include video cameras, sound cards and more.

Due to limitation of the VT system in the Linux kernel and of the X core protocol (in particular, how X defines the relation between the root window and an output of the graphics card), multi-seat does not work out-of-the-box for the usual Linux distribution but necessitates a special configuration.

There are these methods to configure a multi-seat assembly:

  • multiple Xephyr servers over a host xorg-server
  • multiple instances of an xorg-server
    • one graphics card per seat
    • a single graphics card for all seats

The utilized command-line options of the xorg-server are:

  • -isolateDevice bus-id Restrict device resets (output) to the device at bus-id. The bus-id string has the form bustype:bus:device:function (e.g., 'PCI:1:0:0'). At present, only isolation of PCI devices is supported; i.e., this option is ignored if bustype is anything other than 'PCI'.
  • vtXX the default for e.g. Debian 9 Stretch is 7, i.e. by pressing Ctrl+Alt+F7 the user can switch to the VT running the xorg-server.

Only the user on the first monitor has the use of vt consoles and can use Ctrl+Alt+Fx to select them. The other users have a GDM login screen and can use xorg-server normally, but have no vt's.

Even though a single user can utilize multiple monitors connected to the different ports of a single graphics card (cf. RandR), the method which is based on multiple instances of the xorg-server seems to require multiple PCI graphics cards.

It is possible to configure multi-seat employing only one graphics card, but due to limitations of the X protocol this necessitates the usage of X Display Manager Control Protocol XDMCP.[37]

There is also Xdmx (Distributed Multihead X).

Adoption edit

Unix and Linux
The X.Org Server runs on many free-software Unix-like operating systems, including being adopted for use by most Linux distributions and BSD variants. It is also the X server for the Solaris operating system. X.Org is also available in the repositories of Minix 3.
Windows
Cygwin/X, Cygwin's implementation of the X server for Microsoft Windows, uses the X.Org Server, as do VcXsrv[38] (Visual C++ X-server[39]) and Xming. SSH clients such as PuTTY allow launching of X applications through X11 forwarding on the condition that it is enabled on both the server and client.
OS X / macOS
OS X versions prior to Mac OS X Leopard (10.5) shipped with an XFree86-based server, but 10.5's X server adopted the X.Org codebase.[40] Starting with OS X Mountain Lion, (10.8) X11 is not bundled in OS X; instead, it has to be installed from, for example, the open source XQuartz project.[41] As of version 2.7.4, X11.app/XQuartz does not expose support for high-resolution Retina displays to X11 apps, which run in pixel-doubled mode on high-resolution displays.
OpenVMS
Current versions of the DECwindows X11 server for OpenVMS are based on X.org Server.[42]

History edit

Main article: Release history of the X Window System
 
A display server, such as X.Org Server, implements the windowing system and serves its clients.

The modern X.Org Foundation came into being in 2004 when the body that oversaw X standards and published the official reference implementation joined forces with former XFree86 developers.[43] X11R6.7.0, the first version of the X.Org Server, was forked from XFree86 4.4 RC2.[1] The immediate reason for the fork was a disagreement with the new license for the final release version of XFree86 4.4, but several disagreements among the contributors surfaced prior to the split. Many of the previous XFree86 developers have joined the X.Org Server project.

In 2005, a great effort was put in the modularization of the X.Org server source code,[44] resulting in a dual release by the end of the year. The X11R7.0.0 release added a new modular build system based on the GNU Autotools, while X11R6.9.0 kept the old imake build system, both releases sharing the same codebase. Since then the X11R6.9 branch is maintained frozen and all the ongoing development is done to the modular branch. The new build system also brought the use of dlloader standard dynamic linker to load plugins and drivers, deprecating the old own method. As a consequence of the modularization, the X11 binaries were moving out of their own /usr/X11R6 subdirectory tree and into the global /usr tree on many Unix systems.

In June 2006, another effort was done to move the X.Org server source codebase from CVS to git.[45] Both efforts had the long-term goal of bringing new developers to the project. In the words of Alan Coopersmith:[46]

Some of our efforts here have been technological - one of the driving efforts of the conversions from Imake to automake and from CVS to git was to make use of tools developers would already be familiar and productive with from other projects. The Modularization project, which broke up X.Org from one giant tree into over 200 small ones, had the goal of making it possible to fix a bug in a single library or driver without having to download and build many megabytes of software & fonts that were not being changed.

In the 7.1 release, the KDrive framework (a small implementation of X written by Keith Packard, which was not based on XFree86 that X.Org developers used as a testing ground for new ideas, such as EXA) was integrated into the main codebase of X.Org server.

In 2008, the new DRI2, based on the kernel mode-setting (KMS) driver, replaced DRI. This change also set a major milestone in the X.Org server architecture, as the drivers were moved out from the server and user space (UMS) to the kernel space.

In 2013, the initial versions of DRI3 and Present extensions were written and coded by Keith Packard to provide a faster and tearing-free 2D rendering. By the end of the year the implementation of GLX was rewritten by Adam Jackson at Red Hat.[47]

Releases edit

See also: X Window System § Release history, and XFree86 § Release history
Version Date X11 Release Main features
Old version, no longer maintained: 1.0 21 December 2005[48] X11R7.0 (1.0.1) Initial modularized X server, EXA architecture
Old version, no longer maintained: 1.1 22 May 2006[49] X11R7.1 (1.1.0) KDrive integration, AIGLX support[50]
Old version, no longer maintained: 1.2 22 January 2007[51] X11R7.2 (1.2.0) Autoconfiguration, enhanced support for GL-based compositing managers[52]
Old version, no longer maintained: 1.3 19 April 2007[53] RandR 1.2[54]
Old version, no longer maintained: 1.4 6 September 2007[55] X11R7.3 (1.4.0) Input hotplugging support[55][56]
Old version, no longer maintained: 1.5 3 September 2008[57] X11R7.4 (1.5.1) MPX[58]
Old version, no longer maintained: 1.6 25 February 2009[59] RandR 1.3, DRI2, XInput 1.5[60]
Old version, no longer maintained: 1.7 1 October 2009[61] X11R7.5 (1.7.1) XInput 2.0, multi-pointer X[62][63]
Old version, no longer maintained: 1.8 2 April 2010[64] xorg.conf.d, udev input handling[65]
Old version, no longer maintained: 1.9 20 August 2010[66] X11R7.6 (1.9.3)
Old version, no longer maintained: 1.10 25 February 2011[67] X Synchronization Fences[68]
Old version, no longer maintained: 1.11 26 August 2011[69]
Old version, no longer maintained: 1.12 4 March 2012[70] X11R7.7 (1.12.2) XInput 2.2 (including multi-touch support)[71]
Old version, no longer maintained: 1.13 5 September 2012[72] New DDX driver API, DRI2 offload, RandR 1.4, OpenGL 3.x+ contexts, removing XAA[73]
Old version, no longer maintained: 1.14 5 March 2013[74] XInput 2.3[75]
Old version, no longer maintained: 1.15 27 December 2013[76] DRI3 and Present extensions[77][78]
Old version, no longer maintained: 1.16 17 July 2014[79] XWayland DDX, GLAMOR acceleration, non-PCI devices support, systemd-logind support (rootless X),[79][80] obtained support for the libinput library in form of a wrapper called xf86-input-libinput[81][82]
Old version, no longer maintained: 1.17 4 February 2015[83] Integration of the former xf86-video-modesetting generic DRM/KMS driver,[84][85] added support for DRI2 with GLAMOR
Old version, no longer maintained: 1.18 9 November 2015[86] RandR 1.5
Old version, no longer maintained: 1.19 15 November 2016[87] Threaded Input, PRIME synchronization, XWayland pointer confinement and warping, Windows DRI extension support[88]
Old version, no longer maintained: 1.20 10 May 2018[89] Meson build system improvements, GLXVND allows for distinct OpenGL drivers for different X screens, RandR leasing improves Steam VR support
Current stable version: 21.1 27 October 2021[90] Meson build system now on par with Autotools, Variable refresh rate support, touchpad gestures via XInput 2.4
Legend:
Old version
Older version, still maintained
Latest version
Latest preview version
Future release

See also edit

References edit

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  89. ^ Jackson, Adam (10 May 2018). "[ANNOUNCE] xorg-server 1.20". xorg-announce (Mailing list).
  90. ^ Kanapickas, Povilas (27 October 2021). "[ANNOUNCE] xorg-server 21.1.0". xorg-announce (Mailing list).

External links edit

 
Wikimedia Commons has media related to X.Org Server.
  • Official website
  • [1] - A fully updated X server for Windows

April 15, 2024
server, confused, with, foundation, this, article, multiple, issues, please, help, improve, discuss, these, issues, talk, page, learn, when, remove, these, template, messages, this, article, needs, additional, citations, verification, please, help, improve, th. Not to be confused with X Org Foundation This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources X Org Server news newspapers books scholar JSTOR July 2017 Learn how and when to remove this template message This article relies excessively on references to primary sources Please improve this article by adding secondary or tertiary sources Find sources X Org Server news newspapers books scholar JSTOR July 2017 Learn how and when to remove this template message Learn how and when to remove this template message X Org Server is the free and open source implementation of the X Window System X11 display server stewarded by the X Org Foundation Developer s X Org FoundationInitial release6 April 2004 20 years ago 2004 04 06 1 Stable release21 1 13 2 12 April 2024Repositorygitlab wbr freedesktop wbr org wbr xorg wbr xserver wbr gitWritten inCOperating systemCross platformSize3 7 MiB 3 Available inEnglishTypeDisplay serverLicenseMIT LicenseWebsitex wbr orgImplementations of the client side X Window System protocol exist in the form of X11 libraries which serve as helpful APIs for communicating with the X server 4 Two such major X libraries exist for X11 The first of these libraries was Xlib the original C language X11 API 5 but another C language X library XCB was created later in 2001 6 Other smaller X libraries exist both as interfaces for Xlib and XCB in other languages and as smaller standalone X libraries citation needed The services with which the X Org Foundation supports X Server include the packaging of the releases certification for a fee evaluation of improvements to the code developing the web site and handling the distribution of monetary donations citation needed The releases are coded documented and packaged by global developers clarification needed Contents 1 Software architecture 1 1 Device Independent X DIX 1 2 Device Dependent X DDX 1 2 1 2D graphics driver 1 2 1 1 Acceleration architectures 1 2 1 2 Glamor 1 2 1 3 Virtualization 1 2 2 Input stack 1 2 3 Other DDX components 1 3 IPC 1 4 Multiseat configuration 2 Adoption 3 History 3 1 Releases 4 See also 5 References 6 External linksSoftware architecture edit nbsp xdpyinfo a command to show X Org Server informationThe X Org Server implements the server side of the X Window System core protocol version 11 X11 and extensions to it e g RandR 7 Version 1 16 0 integrates support for systemd based launching and management which improved boot performance and reliability 8 Device Independent X DIX edit The Device Independent X DIX is the part of the X Org Server that interacts with clients and implements software rendering The main loop and the event delivery are part of the DIX 9 An X server has a tremendous amount of functionality that must be implemented to support the X core protocol This includes code tables glyph rasterization and caching XLFDs and the core rendering API which draws graphics primitives Device Dependent X DDX edit The Device Dependent X DDX is the part of the x server that interacts with the hardware In the X Org Server source code each directory under hw corresponds to one DDX Hardware comprises graphics cards as well as mouse and keyboards Each driver is hardware specific and implemented as a separate loadable module 2D graphics driver edit For historical reasons the X Org Server still contains graphics device drivers supporting some form of 2D rendering acceleration In the past mode setting was done by an X server graphics device driver specific to some video controller hardware e g a GPU To this mode setting functionality additional support for 2D acceleration was added when such became available with various GPUs The mode setting functionality was moved into the DRM and is being exposed through a DRM mode setting interface the new approach being called kernel mode setting KMS But the 2D rendering acceleration remained In Debian the 2D graphics drivers for the X Org Server are packaged individually and called xserver xorg video 10 After installation the 2D graphics driver file is found under usr lib xorg modules drivers The package xserver xorg video nouveau installs nouveau drv so with a size of 215 KiB the proprietary Nvidia GeForce driver installs an 8 MiB sized file called nvidia drv so and Radeon Software installs fglrx drv so with a size of about 25MiB The available free and open source graphics device drivers are being developed inside of the Mesa 3D project While these can be recompiled as required the development of the proprietary DDX 2D graphics drivers is greatly eased when the X Org Server keeps a stable API ABI across multiple of its versions With version 1 17 a generic method for mode setting was mainlined The xf86 video modesetting package the Debian package being called xserver xorg video modesetting was retired and the generic modesetting DDX it contained was moved into the server package to become the KMS enabled default DDX supporting the vast majority of AMD Intel and NVidia GPUs On April 7 2016 AMD employee Michel Danzer released xf86 video ati version 7 7 0 11 and xf86 video amdgpu version 1 1 0 12 the latter including support for their Polaris microarchitecture Acceleration architectures edit There are at least XAA XFree86 Acceleration Architecture 13 EXA UXA and SNA nbsp XAA is an API between the Device Independent X DIX and the Device Dependent X DDX a 2D graphics driver here e g with the Linux kernel In the X Window System XFree86 Acceleration Architecture XAA is a driver architecture to make a video card s 2D hardware acceleration available to the X server 14 15 It was written by Harm Hanemaayer in 1996 and first released in XFree86 version 3 3 It was completely rewritten for XFree86 4 0 16 It was removed again from X Org Server 1 13 Most drivers implement acceleration using the XAA module XAA is on by default though acceleration of individual functions can be switched off as needed in the server configuration file XF86Config or xorg conf The driver for the ARK chipset was the original development platform for XAA In X Org Server release 6 9 7 0 EXA was released as a replacement for XAA as XAA supplies almost no speed advantage for current video cards EXA is regarded as an intermediate step to converting the entire X server to using OpenGL Glamor edit Glamor is a generic hardware independent 2D acceleration driver for the X server that translates the X render primitives into OpenGL operations taking advantage of any existing 3D OpenGL drivers 17 In this way it is functionally similar to Quartz Extreme and QuartzGL 2D performance acceleration for Apple Quartz Compositor The ultimate goal of GLAMOR is to obsolete and replace all the DDX 2D graphics device drivers and acceleration architectures thereby avoiding the need to write X 2D specific drivers for every supported graphic chipset 18 19 20 Glamor requires a 3D driver with support for shaders 21 Glamor performance tuning was accepted for Google Summer of Code 2014 22 Glamor supports Xephyr and DRI3 23 and can boost some operations by 700 800 24 Since its mainlining into version 1 16 of the X Org Server development on Glamor was continued and patches for the 1 17 release were published 25 Virtualization edit There is a distinct and special DDX for instances of the X Org Server which run on a guest system inside of a virtualized environment xf86 video qxl a driver for the QXL video device SPICE makes use of this driver though it works without it as well In the Debian repositories it is called xserver xorg video qxl cf https packages debian org buster xserver xorg video qxl Input stack edit Under Debian drivers related to input are found under usr lib xorg modules input Such drivers are named e g evdev drv so mouse drv so synaptics drv so or wacom drv so With version 1 16 the X Org Server obtained support for the libinput library in form of a wrapper called xf86 input libinput 26 At the XDC 2015 in Toronto libratbag was introduced as a generic library to support configurable mice 27 28 xserver xorg input joystick is the input module for the X Org server to handle classic joysticks and gamepads which is not meant for playing games under X but to control the cursor with a joystick or gamepad 29 30 Other DDX components edit XWayland XWayland is a series of patches over the X Org server codebase that implement an X server running upon the Wayland protocol The patches are developed and maintained by the Wayland developers for compatibility with X11 applications during the transition to Wayland 31 and were mainlined in version 1 16 of the X Org Server in 2014 8 When a user runs an X application from within Weston it calls upon XWayland to service the request 32 XQuartz XQuartz is a series of patches from Apple Inc to integrate support for the X11 protocol into their Quartz Compositor in a similar way to how XWayland integrates X11 into Wayland compositors Xspice Xspice is a device driver for the X Org Server It supports the QXL framebuffer device and includes a wrapper script 33 which makes it possible to launch an X Org Server whose display is exported via the SPICE protocol This enables use of SPICE in a remote desktop environment without requiring KVM virtualization Xephyr Xephyr is an X on X implementation Since version 1 16 0 Xephyr serves as the primary development environment for the new 2D acceleration subsystem Glamor permitting rapid development and testing on a single machine 8 RandR RandR resize and rotate is a communications protocol written as an extension to the X11 34 protocol XRandR provides the ability to resize rotate and reflect the root window of a screen RandR is responsible for setting the screen refresh rate 35 It allows for the control of multiple monitors 36 IPC edit The X Org Server and any x client each run as distinct processes On Unix Linux a process knows nothing about any other processes For it to communicate with another process it is completely and utterly reliant on the kernel to moderate the communication via available inter process communication IPC mechanisms Unix domain sockets are used to communicate with processes running on the same machine Special socket function calls are part of the System Call Interface Although Internet domain sockets can be used locally Unix domain sockets are more efficient since they do not have the protocol overhead checksums byte orders etc X Org Server does not use D Bus Sockets are the most common interprocess communication IPC method between the processes of the X server and its various X clients It provides the Application Programming Interface API for communication in the TCP IP domain and also locally only in the UNIX domain There are several other APIs described in the X Transport Interface for instance TLI Transport Layer Interface Other options for IPC between for the X client server require X Window system extensions for instance the MIT Shared Memory Extension MIT SHM Multiseat configuration edit Multi seat refers to an assembly of a single computer with multiple seats allowing multiple users to sit down at the computer log in and use the computer at the same time independently The computer has multiple keyboards mice and monitors attached to it each seat having one keyboard one mouse and one monitor assigned to it A seat consists of all hardware devices assigned to a specific workplace It consists of at least one graphics device graphics card or just an output and the attached monitor and a keyboard and a mouse It can also include video cameras sound cards and more Due to limitation of the VT system in the Linux kernel and of the X core protocol in particular how X defines the relation between the root window and an output of the graphics card multi seat does not work out of the box for the usual Linux distribution but necessitates a special configuration There are these methods to configure a multi seat assembly multiple Xephyr servers over a host xorg server multiple instances of an xorg server one graphics card per seat a single graphics card for all seatsThe utilized command line options of the xorg server are isolateDevice bus id Restrict device resets output to the device at bus id The bus id string has the form bustype bus device function e g PCI 1 0 0 At present only isolation of PCI devices is supported i e this option is ignored if bustype is anything other than PCI vtXX the default for e g Debian 9 Stretch is 7 i e by pressing Ctrl Alt F7 the user can switch to the VT running the xorg server Only the user on the first monitor has the use of vt consoles and can use Ctrl Alt Fx to select them The other users have a GDM login screen and can use xorg server normally but have no vt s Even though a single user can utilize multiple monitors connected to the different ports of a single graphics card cf RandR the method which is based on multiple instances of the xorg server seems to require multiple PCI graphics cards It is possible to configure multi seat employing only one graphics card but due to limitations of the X protocol this necessitates the usage of X Display Manager Control Protocol XDMCP 37 There is also Xdmx Distributed Multihead X Adoption editUnix and Linux The X Org Server runs on many free software Unix like operating systems including being adopted for use by most Linux distributions and BSD variants It is also the X server for the Solaris operating system X Org is also available in the repositories of Minix 3 Windows Cygwin X Cygwin s implementation of the X server for Microsoft Windows uses the X Org Server as do VcXsrv 38 Visual C X server 39 and Xming SSH clients such as PuTTY allow launching of X applications through X11 forwarding on the condition that it is enabled on both the server and client OS X macOS OS X versions prior to Mac OS X Leopard 10 5 shipped with an XFree86 based server but 10 5 s X server adopted the X Org codebase 40 Starting with OS X Mountain Lion 10 8 X11 is not bundled in OS X instead it has to be installed from for example the open source XQuartz project 41 As of version 2 7 4 X11 app XQuartz does not expose support for high resolution Retina displays to X11 apps which run in pixel doubled mode on high resolution displays OpenVMS Current versions of the DECwindows X11 server for OpenVMS are based on X org Server 42 History editMain article Release history of the X Window System nbsp A display server such as X Org Server implements the windowing system and serves its clients The modern X Org Foundation came into being in 2004 when the body that oversaw X standards and published the official reference implementation joined forces with former XFree86 developers 43 X11R6 7 0 the first version of the X Org Server was forked from XFree86 4 4 RC2 1 The immediate reason for the fork was a disagreement with the new license for the final release version of XFree86 4 4 but several disagreements among the contributors surfaced prior to the split Many of the previous XFree86 developers have joined the X Org Server project In 2005 a great effort was put in the modularization of the X Org server source code 44 resulting in a dual release by the end of the year The X11R7 0 0 release added a new modular build system based on the GNU Autotools while X11R6 9 0 kept the old imake build system both releases sharing the same codebase Since then the X11R6 9 branch is maintained frozen and all the ongoing development is done to the modular branch The new build system also brought the use of dlloader standard dynamic linker to load plugins and drivers deprecating the old own method As a consequence of the modularization the X11 binaries were moving out of their own usr X11R6 subdirectory tree and into the global usr tree on many Unix systems In June 2006 another effort was done to move the X Org server source codebase from CVS to git 45 Both efforts had the long term goal of bringing new developers to the project In the words of Alan Coopersmith 46 Some of our efforts here have been technological one of the driving efforts of the conversions from Imake to automake and from CVS to git was to make use of tools developers would already be familiar and productive with from other projects The Modularization project which broke up X Org from one giant tree into over 200 small ones had the goal of making it possible to fix a bug in a single library or driver without having to download and build many megabytes of software amp fonts that were not being changed In the 7 1 release the KDrive framework a small implementation of X written by Keith Packard which was not based on XFree86 that X Org developers used as a testing ground for new ideas such as EXA was integrated into the main codebase of X Org server In 2008 the new DRI2 based on the kernel mode setting KMS driver replaced DRI This change also set a major milestone in the X Org server architecture as the drivers were moved out from the server and user space UMS to the kernel space In 2013 the initial versions of DRI3 and Present extensions were written and coded by Keith Packard to provide a faster and tearing free 2D rendering By the end of the year the implementation of GLX was rewritten by Adam Jackson at Red Hat 47 Releases edit See also X Window System Release history and XFree86 Release history Version Date X11 Release Main featuresOld version no longer maintained 1 0 21 December 2005 48 X11R7 0 1 0 1 Initial modularized X server EXA architectureOld version no longer maintained 1 1 22 May 2006 49 X11R7 1 1 1 0 KDrive integration AIGLX support 50 Old version no longer maintained 1 2 22 January 2007 51 X11R7 2 1 2 0 Autoconfiguration enhanced support for GL based compositing managers 52 Old version no longer maintained 1 3 19 April 2007 53 RandR 1 2 54 Old version no longer maintained 1 4 6 September 2007 55 X11R7 3 1 4 0 Input hotplugging support 55 56 Old version no longer maintained 1 5 3 September 2008 57 X11R7 4 1 5 1 MPX 58 Old version no longer maintained 1 6 25 February 2009 59 RandR 1 3 DRI2 XInput 1 5 60 Old version no longer maintained 1 7 1 October 2009 61 X11R7 5 1 7 1 XInput 2 0 multi pointer X 62 63 Old version no longer maintained 1 8 2 April 2010 64 xorg conf d udev input handling 65 Old version no longer maintained 1 9 20 August 2010 66 X11R7 6 1 9 3 Old version no longer maintained 1 10 25 February 2011 67 X Synchronization Fences 68 Old version no longer maintained 1 11 26 August 2011 69 Old version no longer maintained 1 12 4 March 2012 70 X11R7 7 1 12 2 XInput 2 2 including multi touch support 71 Old version no longer maintained 1 13 5 September 2012 72 New DDX driver API DRI2 offload RandR 1 4 OpenGL 3 x contexts removing XAA 73 Old version no longer maintained 1 14 5 March 2013 74 XInput 2 3 75 Old version no longer maintained 1 15 27 December 2013 76 DRI3 and Present extensions 77 78 Old version no longer maintained 1 16 17 July 2014 79 XWayland DDX GLAMOR acceleration non PCI devices support systemd logind support rootless X 79 80 obtained support for the libinput library in form of a wrapper called xf86 input libinput 81 82 Old version no longer maintained 1 17 4 February 2015 83 Integration of the former xf86 video modesetting generic DRM KMS driver 84 85 added support for DRI2 with GLAMOROld version no longer maintained 1 18 9 November 2015 86 RandR 1 5Old version no longer maintained 1 19 15 November 2016 87 Threaded Input PRIME synchronization XWayland pointer confinement and warping Windows DRI extension support 88 Old version no longer maintained 1 20 10 May 2018 89 Meson build system improvements GLXVND allows for distinct OpenGL drivers for different X screens RandR leasing improves Steam VR supportCurrent stable version 21 1 27 October 2021 90 Meson build system now on par with Autotools Variable refresh rate support touchpad gestures via XInput 2 4Legend Old versionOlder version still maintainedLatest versionLatest preview versionFuture releaseSee also edit nbsp Free and open source software portalReference implementation part of a standard release package X window manager a package that is deliberately kept separate from the X server package X video extension evdev xorg conf XQuartz An X server for macOS Xming An X server for Windows XenocaraReferences edit a b X Org Foundation releases X Window System X11R6 7 LWN net 7 April 2004 Retrieved 4 April 2012 Matt Turner 12 April 2024 ANNOUNCE xorg server 21 1 13 Retrieved 13 April 2024 Debian X Org Server Package in sid Xlib and XCB Xlib and XCB Xlib and XCB git xorg server RandR a b c ANNOUNCE xorg server 1 16 0 freedesktop org 17 July 2014 Glossary X org Details of package xserver xorg video nouveau in stretch packages debian org ANNOUNCE xf86 video ati 7 7 0 7 April 2016 ANNOUNCE xf86 video amdgpu 1 1 0 7 April 2016 Information for ARK Logic Chipset Users Acceleration XFree86 org Archived from the original on 23 June 2018 Retrieved 22 September 2018 Anholt Eric High Performance X Servers in the Kdrive Architecture www usenix org Retrieved 14 September 2018 Wetzel Robert An acceleration architecture for DOpE PDF wwwos inf tu dresden de Retrieved 14 September 2018 Release Notes for XFree86 4 0 XFree86 Project 7 March 2000 Retrieved 16 September 2018 What is Glamor FreeDesktop org Retrieved 10 February 2014 Anholt Eric Building 2D rendering acceleration with OpenGL linux conf au Archived from the original on 4 March 2016 Retrieved 10 February 2014 Packard Keith Brief Glamor Hacks Retrieved 7 March 2014 Adam Jackson GLX rewrite 24 September 2013 Retrieved 23 March 2014 Radeon Feature Matrix freedesktop org Glamor Performance Tuning GLAMOR Xephyr amp DRI3 Support Called For Pulling Phoronix 5 March 2014 GLAMOR Patch Bomb Can Boost Some Operations By 700 800 Phoronix 13 March 2014 glamor changes for 1 17 17 July 2014 Hutterer Peter 24 September 2014 libinput a common input stack for Wayland compositors and X Org drivers libratbag X org Tools to debug a broken input device X org XDC2012 xorg input joystick PDF pdf Details of package xserver xorg input joystick in buster packages debian org X Clients under Wayland XWayland Wayland Project Retrieved 10 February 2014 Wayland Arch Linux Project Retrieved 9 May 2016 XSpice README Cgit freedesktop org Retrieved 25 October 2013 The X Resize Rotate and Reflect Extension Version 1 3 1 Tyler Chris 2008 X Power Tools O Reilly Media Inc pp 86 87 ISBN 9780596101954 Retrieved 14 September 2018 Gultsch Daniel 2009 Dual Image Linux Magazine Linux Magazine 106 MultiseatOneCard Community Help Wiki help ubuntu com VcXsrv Windows X Server Sourceforge net Retrieved 28 April 2014 VcXsrv Windows X Server SourceForge net Retrieved 23 June 2013 Windows X server based on the xorg git sources like xming or cygwin s xwin but compiled with Visual C 2010 Re Xorg in Leopard Archived 13 February 2012 at the Wayback Machine From Ben Byer Date 29 June 2007 Apple Mailing Lists Slivka Eric 17 February 2012 Apple Removes X11 in OS X Mountain Lion Shifts Support to Open Source XQuartz MacRumors Retrieved 23 February 2012 Software Product Description and QuickSpecs VSI OpenVMS Version 8 4 2L1 for Integrity servers PDF VMS Software Inc July 2019 Retrieved 2 January 2021 Coopersmith Alan 28 May 2004 The difference between Xorg and XFree86 Retrieved 17 September 2018 X Org Foundation Modularization Working Group X Org Foundation Retrieved 6 February 2014 Hogsberg Kristian July 2006 Doing git migration now Retrieved 6 February 2014 Coopersmith Alan Some times it s a book sprint other times it s a marathon Retrieved 12 January 2019 The X Org Server s GLX Is Being Rewritten 26 October 2013 X11R6 9 and X11R7 0 Officially Released X org Retrieved 7 February 2015 Jackson Adam 22 May 2006 ANNOUNCE xorg server 1 1 0 X org Retrieved 7 February 2015 Summary of new features in X11R7 1 X org Retrieved 7 February 2015 Jackson Adam 23 January 2007 ANNOUNCE xserver 1 2 0 X org Retrieved 7 February 2015 X11R7 2 Release X org Retrieved 7 February 2015 Packard Keith 20 April 2007 ANNOUNCE xorg server 1 3 0 0 again X org Retrieved 7 February 2015 Packard Keith 5 March 2007 ANNOUNCE xorg server 1 2 99 901 X server 1 3 RC1 X org Retrieved 7 February 2015 a b Anholt Eric 6 September 2007 ANNOUNCE xorg server 1 4 X org Retrieved 7 February 2015 X server version 1 4 release plans X org Retrieved 7 February 2015 Jackson Adam 3 September 2008 ANNOUNCE xserver 1 5 0 X org Retrieved 7 February 2015 MPX has been merged 26 May 2008 Packard Keith 25 February 2009 ANNOUNCE xorg server 1 6 0 X org Retrieved 7 February 2015 Server 1 6 branch X org Retrieved 7 February 2015 Hutterer Peter 2 October 2009 ANNOUNCE xorg server 1 7 0 X org Retrieved 7 February 2015 Server 1 7 branch X org Retrieved 7 February 2015 Larabel Michael X Server 1 7 Released With XI2 MPX Glory Phoronix Retrieved 7 February 2015 Packard Keith 2 April 2010 ANNOUNCE xorg server 1 8 0 X org Retrieved 7 February 2015 Larabel Michael X Org Server 1 8 0 Is Here Phoronix Retrieved 7 February 2015 Packard Keith 21 August 2010 ANNOUNCE xorg server 1 9 0 X org Retrieved 7 February 2015 Packard Keith 26 February 2011 ANNOUNCE xorg server 1 10 0 X org Retrieved 7 February 2015 Larabel Michael That Was Quick X Server 1 10 Officially Released Phoronix Retrieved 8 February 2015 Packard Keith 27 August 2011 ANNOUNCE xorg server 1 11 0 X org Retrieved 7 February 2015 Packard Keith 5 March 2012 ANNOUNCE xorg server 1 12 0 X org Retrieved 7 February 2015 Larabel Michael X Org Server 1 12 Released With Multi Touch Phoronix Retrieved 8 February 2015 Packard Keith 5 September 2012 ANNOUNCE xorg server 1 13 0 X org Retrieved 7 February 2015 Larabel Michael X Org Server 1 13 Released With Massive Changes Phoronix Retrieved 8 February 2015 Packard Keith 6 March 2013 ANNOUNCE xorg server 1 14 0 X org Retrieved 7 February 2015 Packard Keith 19 December 2012 ANNOUNCE xorg server 1 13 99 901 1 14 RC1 X org Retrieved 9 February 2015 Packard Keith 27 December 2013 ANNOUNCE xorg server 1 15 0 X org Retrieved 7 February 2015 Packard Keith November 2013 ANNOUNCE xorg server 1 14 99 901 X org Retrieved 9 February 2015 Larabel Michael X Org Server 1 15 Release Has Several New Features Phoronix Retrieved 9 February 2015 a b Packard Keith 17 July 2014 ANNOUNCE xorg server 1 16 0 X org Retrieved 7 February 2015 Larabel Michael X Org Server 1 16 Officially Released With Terrific Features Phoronix Retrieved 9 February 2015 Hutterer Peter 24 September 2014 libinput a common input stack for Wayland compositors and X Org drivers Retrieved 17 April 2016 de Goede Hans 1 February 2015 Replacing xorg input Drivers with libinput PDF Retrieved 18 April 2016 Packard Keith 4 February 2015 ANNOUNCE xorg server 1 17 0 X org Retrieved 7 February 2015 Packard Keith 29 October 2014 ANNOUNCE xorg server 1 16 99 901 X org Retrieved 9 February 2015 Larabel Michael X Org Server 1 17 Officially Released Phoronix Retrieved 9 February 2015 Jackson Adam 9 November 2015 ANNOUNCE xorg server 1 18 0 xorg announce Mailing list Packard Keith 15 November 2016 ANNOUNCE xorg server 1 19 0 xorg announce Mailing list Larabel Michael X Org Server 1 19 Officially Released With A Year s Worth Of Improvements Phoronix Retrieved 15 November 2016 Jackson Adam 10 May 2018 ANNOUNCE xorg server 1 20 xorg announce Mailing list Kanapickas Povilas 27 October 2021 ANNOUNCE xorg server 21 1 0 xorg announce Mailing list External links edit nbsp Wikimedia Commons has media related to X Org Server Official website 1 A fully updated X server for Windows Retrieved from https en wikipedia org w index php title X Org Server amp oldid 1204630656, wikipedia, wiki, book, books, library,

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