MIT-SHM(The MIT Shared Memory Extension)

How the shared memory extension works

Jonathan Corbet

   National Center for Atmospheric Research
   Atmospheric Technology Division
   <corbet@ncar.ucar.edu>

Edited by

Keith Packard

   MIT X Consortium

   X Version 11, Release 7.7

   Version 1.0

   Copyright  1991 X Consortium

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   X Window System is a trademark of The OpenGroup.

   This document briefly describes how to use the MIT-SHM shared
   memory extension. I have tried to make it accurate, but it
   would not surprise me if some errors remained. If you find
   anything wrong, do let me know and I will incorporate the
   corrections. Meanwhile, please take this document "as is" (eman
   improvement over what was there before, but certainly not the
   definitive word.)
     __________________________________________________________

   Table of Contents

   1. REQUIREMENTS
   2. WHAT IS PROVIDED
   3. HOW TO USE THE SHARED MEMORY EXTENSION
   4. USE OF SHARED MEMORY XIMAGES
   5. USE OF SHARED MEMORY PIXMAPS

Chapter 1. REQUIREMENTS

   The shared memory extension is provided only by some X servers.
   To find out if your server supports the extension, use
   xdpyinfo(1). In particular, to be able to use this extension,
   your system must provide the SYSV shared memory primitives.
   There is not an mmap-based version of this extension. To use
   shared memory on Sun systems, you must have built your kernel
   with SYSV shared memory enabled -- which is not the default
   configuration. Additionally, the shared memeory maximum size
   will need to be increased on both Sun and Digital systems; the
   defaults are far too small for any useful work.

Chapter 2. WHAT IS PROVIDED

   The basic capability provided is that of shared memory XImages.
   This is essentially a version of the ximage interface where the
   actual image data is stored in a shared memory segment, and
   thus need not be moved through the Xlib interprocess
   communication channel. For large images, use of this facility
   can result in some real performance increases.

   Additionally, some implementations provided shared memory
   pixmaps. These are 2 dimensional arrays of pixels in a format
   specified by the X server, where the image data is stored in
   the shared memory segment. Through use of shared memory
   pixmaps, it is possible to change the contents of these pixmaps
   without using any Xlib routines at all. Shared memory pixmaps
   can only be supported when the X server can use regular virtual
   memory for pixmap data; if the pixmaps are stored in some magic
   graphics hardware, your application will not be able to share
   them with the server. Xdpyinfo(1) doesn't print this particular
   nugget of information.

Chapter 3. HOW TO USE THE SHARED MEMORY EXTENSION

   Code which uses the shared memory extension must include a
   number of header files:
#include <X11/Xlib.h>          /* of course */
#include <sys/ipc.h>
#include <sys/shm.h>
#include <X11/extensions/XShm.h>

   Of course, if the system you are building on does not support
   shared memory, the file XShm.h may not be present. You may want
   to make liberal use of #ifdefs.

   Any code which uses the shared memory extension should first
   check to see that the server provides the extension. You could
   always be running over the net, or in some other environment
   where the extension will not work. To perform this check, call
   either

   Status fsfuncXShmQueryExtension(Display *display);

   or

   Status fsfuncXShmQueryVersion(Display *display, int *major, int
   *minor, Bool *pixmaps);

   Where "display" is, of course, the display on which you are
   running. If the shared memory extension may be used, the return
   value from either function will be True; otherwise your program
   should operate using conventional Xlib calls. When the
   extension is available, \fCXShmQueryVersion\fP also returns
   "major" and "minor" which are the version numbers of the
   extension implementation, and "pixmaps" which is True iff
   shared memory pixmaps are supported.

Chapter 4. USE OF SHARED MEMORY XIMAGES

   The basic sequence of operations for shared memory XImages is
   as follows:
    1. Create the shared memory XImage structure
    2. Create a shared memory segment to store the image data
    3. Inform the server about the shared memory segment
    4. Use the shared memory XImage, much like a normal one.

   To create a shared memory XImage, use:

   XImage fsfunc*XShmCreateImage(Display *display, Visual *visual,
   unsigned int depth, int format, char *data, XShmSegmentInfo
   *shminfo, unsigned int width, unsigned int height);

   Most of the arguments are the same as for XCreateImage; I will
   not go through them here. Note, however, that there are no
   "offset", "bitmap_pad", or "bytes_per_line" arguments. These
   quantities will be defined by the server itself, and your code
   needs to abide by them. Unless you have already allocated the
   shared memory segment (see below), you should pass in NULL for
   the "data" pointer.

   There is one additional argument: "shminfo", which is a pointer
   to a structure of type XShmSegmentInfo. You must allocate one
   of these structures such that it will have a lifetime at least
   as long as that of the shared memory XImage. There is no need
   to initialize this structure before the call to
   XShmCreateImage.

   The return value, if all goes well, will be an XImage
   structure, which you can use for the subsequent steps.

   The next step is to create the shared memory segment. This is
   best done after the creation of the XImage, since you need to
   make use of the information in that XImage to know how much
   memory to allocate. To create the segment, you need a call
   like:
shminfo.shmid = shmget (IPC_PRIVATE,
          image->bytes_per_line * image->height, IPC_CREAT|0777);

   (assuming that you have called your shared memory XImage
   "image"). You should, of course, follow the Rules and do error
   checking on all of these system calls. Also, be sure to use the
   bytes_per_line field, not the width you used to create the
   XImage as they may well be different.

   Note that the shared memory ID returned by the system is stored
   in the shminfo structure. The server will need that ID to
   attach itself to the segment.

   Also note that, on many systems for security reasons, the X
   server will only accept to attach to the shared memory segment
   if it's readable and writeable by "other". On systems where the
   X server is able to determine the uid of the X client over a
   local transport, the shared memory segment can be readable and
   writeable only by the uid of the client.

   Next, attach this shared memory segment to your process:

   shminfo.shmaddr = image->data = shmat (shminfo.shmid, 0, 0);

   The address returned by shmat should be stored in *both* the
   XImage structure and the shminfo structure.

   To finish filling in the shminfo structure, you need to decide
   how you want the server to attach to the shared memory segment,
   and set the "readOnly" field as follows. Normally, you would
   code:

   shminfo.readOnly = False;

   If you set it to True, the server will not be able to write to
   this segment, and thus XShmGetImage calls will fail.

   Finally, tell the server to attach to your shared memory
   segment with:
Status XShmAttach (display, shminfo);

   If all goes well, you will get a non-zero status back, and your
   XImage is ready for use.

   To write a shared memory XImage into an X drawable, use
   XShmPutImage:

   Status fsfuncXShmPutImage (Display *display, Drawable d, GC gc,
   XImage *image, int src_x, int src_y, int dest_x, int dest_y,
   unsigned int width, unsigned int height, bool send_event);

   The interface is identical to that of XPutImage, so I will
   spare my fingers and not repeat that documentation here. There
   is one additional parameter, however, called "send_event". If
   this parameter is passed as True, the server will generate a
   "completion" event when the image write is complete; thus your
   program can know when it is safe to begin manipulating the
   shared memory segment again.

   The completion event has type XShmCompletionEvent, which is
   defined as the following:
typedef struct {
    int type;              /* of event */
    unsigned long serial;  /* # of last request processed */
    Bool send_event;       /* true if came from a SendEvent request */
    Display *display;      /* Display the event was read from */
    Drawable drawable;     /* drawable of request */
    int major_code;        /* ShmReqCode */
    int minor_code;        /* X_ShmPutImage */
    ShmSeg shmseg;         /* the ShmSeg used in the request */
    unsigned long offset;  /* the offset into ShmSeg used */
} XShmCompletionEvent;

   The event type value that will be used can be determined at run
   time with a line of the form:

   int CompletionType = XShmGetEventBase (display) +
   ShmCompletion;

   If you modify the shared memory segment before the arrival of
   the completion event, the results you see on the screen may be
   inconsistent.

   To read image data into a shared memory XImage, use the
   following:

   Status fsfuncXShmGetImage (Display *display, Drawable d, XImage
   *image, int x, int y, unsigned long plane_mask);

   Where "display" is the display of interest, "d" is the source
   drawable, "image" is the destination XImage, "x" and "y" are
   the offsets within "d", and "plane_mask" defines which planes
   are to be read.

   To destroy a shared memory XImage, you should first instruct
   the server to detach from it, then destroy the segment itself,
   as follows:
XShmDetach (display, shminfo);
XDestroyImage (image);
shmdt (shminfo.shmaddr);
shmctl (shminfo.shmid, IPC_RMID, 0);

Chapter 5. USE OF SHARED MEMORY PIXMAPS

   Unlike X images, for which any image format is usable, the
   shared memory extension supports only a single format (i.e.
   XYPixmap or ZPixmap) for the data stored in a shared memory
   pixmap. This format is independent of the depth of the image
   (for 1-bit pixmaps it doesn't really matter what this format
   is) and independent of the screen. Use XShmPixmapFormat to get
   the format for the server:

   int fsfuncXShmPixmapFormat(Display *display);

   If your application can deal with the server pixmap data format
   (including bits-per-pixel et al.), create a shared memory
   segment and "shminfo" structure in exactly the same way as is
   listed above for shared memory XImages. While it is, not
   strictly necessary to create an XImage first, doing so incurs
   little overhead and will give you an appropriate bytes_per_line
   value to use.

   Once you have your shminfo structure filled in, simply call:

   Pixmap fsfuncXShmCreatePixmap(Display *display, Drawable d,
   char *data, XShmSegmentInfo *shminfo, unsigned int width,
   unsigned int height, unsigned int depth);

   The arguments are all the same as for XCreatePixmap, with two
   additions: "data" and "shminfo". The second of the two is the
   same old shminfo structure that has been used before. The first
   is the pointer to the shared memory segment, and should be the
   same as the shminfo.shmaddr field. I am not sure why this is a
   separate parameter.

   If everything works, you will get back a pixmap, which you can
   manipulate in all of the usual ways, with the added bonus of
   being able to tweak its contents directly through the shared
   memory segment. Shared memory pixmaps are destroyed in the
   usual manner with XFreePixmap, though you should detach and
   destroy the shared memory segment itself as shown above.
