xserver/glx/glxcmds.c

/*
** License Applicability. Except to the extent portions of this file are
** made subject to an alternative license as permitted in the SGI Free
** Software License B, Version 1.1 (the "License"), the contents of this
** file are subject only to the provisions of the License. You may not use
** this file except in compliance with the License. You may obtain a copy
** of the License at Silicon Graphics, Inc., attn: Legal Services, 1600
** Amphitheatre Parkway, Mountain View, CA 94043-1351, or at:
** 
** http://oss.sgi.com/projects/FreeB
** 
** Note that, as provided in the License, the Software is distributed on an
** "AS IS" basis, with ALL EXPRESS AND IMPLIED WARRANTIES AND CONDITIONS
** DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED WARRANTIES AND
** CONDITIONS OF MERCHANTABILITY, SATISFACTORY QUALITY, FITNESS FOR A
** PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
** 
** Original Code. The Original Code is: OpenGL Sample Implementation,
** Version 1.2.1, released January 26, 2000, developed by Silicon Graphics,
** Inc. The Original Code is Copyright (c) 1991-2000 Silicon Graphics, Inc.
** Copyright in any portions created by third parties is as indicated
** elsewhere herein. All Rights Reserved.
** 
** Additional Notice Provisions: The application programming interfaces
** established by SGI in conjunction with the Original Code are The
** OpenGL(R) Graphics System: A Specification (Version 1.2.1), released
** April 1, 1999; The OpenGL(R) Graphics System Utility Library (Version
** 1.3), released November 4, 1998; and OpenGL(R) Graphics with the X
** Window System(R) (Version 1.3), released October 19, 1998. This software
** was created using the OpenGL(R) version 1.2.1 Sample Implementation
** published by SGI, but has not been independently verified as being
** compliant with the OpenGL(R) version 1.2.1 Specification.
**
*/

#define NEED_REPLIES
#define FONT_PCF
#ifdef HAVE_DIX_CONFIG_H
#include <dix-config.h>
#endif

#include <string.h>
#include <assert.h>

#include "glxserver.h"
#include <GL/glxtokens.h>
#include <unpack.h>
#include "g_disptab.h"
#include <pixmapstr.h>
#include <windowstr.h>
#include "glxutil.h"
#include "glxext.h"
#include "glapitable.h"
#include "glapi.h"
#include "glthread.h"
#include "dispatch.h"
#include "indirect_dispatch.h"
#include "indirect_table.h"
#include "indirect_util.h"

void
GlxSetRenderTables (struct _glapi_table *table)
{
    _glapi_set_dispatch (table);
}

static int
validGlxScreen(ClientPtr client, int screen, __GLXscreen **pGlxScreen, int *err)
{
    /*
    ** Check if screen exists.
    */
    if (screen >= screenInfo.numScreens) {
	client->errorValue = screen;
	*err = BadValue;
	return FALSE;
    }
    *pGlxScreen = glxGetScreen(screenInfo.screens[screen]);

    return TRUE;
}

static int
validGlxFBConfig(ClientPtr client, __GLXscreen *pGlxScreen, XID id,
		 __GLXconfig **config, int *err)
{
    __GLXconfig *m;

    for (m = pGlxScreen->fbconfigs; m != NULL; m = m->next)
	if (m->fbconfigID == id) {
	    *config = m;
	    return TRUE;
	}

    client->errorValue = id;
    *err = __glXError(GLXBadFBConfig);

    return FALSE;
}

static int
validGlxVisual(ClientPtr client, __GLXscreen *pGlxScreen, XID id,
	       __GLXconfig **config, int *err)
{
    int i;

    for (i = 0; i < pGlxScreen->numVisuals; i++)
 	if (pGlxScreen->visuals[i]->visualID == id) {
	    *config = pGlxScreen->visuals[i];
	    return TRUE;
	}

    client->errorValue = id;
    *err = BadValue;

    return FALSE;
}

static int
validGlxFBConfigForWindow(ClientPtr client, __GLXconfig *config,
			  DrawablePtr pDraw, int *err)
{
    ScreenPtr pScreen = pDraw->pScreen;
    VisualPtr pVisual = NULL;
    XID vid;
    int i;

    vid = wVisual((WindowPtr)pDraw);
    for (i = 0; i < pScreen->numVisuals; i++) {
	if (pScreen->visuals[i].vid == vid) {
	    pVisual = &pScreen->visuals[i];
	    break;
	}
    }

    /* FIXME: What exactly should we check here... */
    if (pVisual->class != glxConvertToXVisualType(config->visualType) ||
	!(config->drawableType & GLX_WINDOW_BIT)) {
	client->errorValue = pDraw->id;
	*err = BadMatch;
	return FALSE;
    }

    return TRUE;
}

void
__glXContextDestroy(__GLXcontext *context)
{
    if (!context->isDirect)
	__glXDeassociateContext(context);
    __glXFlushContextCache();
}


static void __glXdirectContextDestroy(__GLXcontext *context)
{
    __glXContextDestroy(context);
    xfree(context);
}

static __GLXcontext *__glXdirectContextCreate(__GLXscreen *screen,
					      __GLXconfig *modes,
					      __GLXcontext *shareContext)
{
    __GLXcontext *context;

    context = xalloc (sizeof (__GLXcontext));
    if (context == NULL)
	return NULL;

    memset(context, 0, sizeof *context);
    context->destroy = __glXdirectContextDestroy;

    return context;
}

/**
 * Create a GL context with the given properties.  This routine is used
 * to implement \c glXCreateContext, \c glXCreateNewContext, and
 * \c glXCreateContextWithConfigSGIX.  This works becuase of the hack way
 * that GLXFBConfigs are implemented.  Basically, the FBConfigID is the
 * same as the VisualID.
 */

static int
DoCreateContext(__GLXclientState *cl, GLXContextID gcId,
		GLXContextID shareList, __GLXconfig *config,
		__GLXscreen *pGlxScreen, GLboolean isDirect)
{
    ClientPtr client = cl->client;
    __GLXcontext *glxc, *shareglxc;

    LEGAL_NEW_RESOURCE(gcId, client);

    /*
    ** Find the display list space that we want to share.  
    **
    ** NOTE: In a multithreaded X server, we would need to keep a reference
    ** count for each display list so that if one client detroyed a list that 
    ** another client was using, the list would not really be freed until it 
    ** was no longer in use.  Since this sample implementation has no support 
    ** for multithreaded servers, we don't do this.  
    */
    if (shareList == None) {
	shareglxc = 0;
    } else {
	shareglxc = (__GLXcontext *) LookupIDByType(shareList, __glXContextRes);
	if (!shareglxc) {
	    client->errorValue = shareList;
	    return __glXError(GLXBadContext);
	}
	if (shareglxc->isDirect) {
	    /*
	    ** NOTE: no support for sharing display lists between direct
	    ** contexts, even if they are in the same address space.
	    */
#if 0
            /* Disabling this code seems to allow shared display lists
             * and texture objects to work.  We'll leave it disabled for now.
             */
	    client->errorValue = shareList;
	    return BadMatch;
#endif
	} else {
	    /*
	    ** Create an indirect context regardless of what the client asked
	    ** for; this way we can share display list space with shareList.
	    */
	    isDirect = GL_FALSE;
	}
    }

    /*
    ** Allocate memory for the new context
    */
    if (!isDirect)
	glxc = pGlxScreen->createContext(pGlxScreen, config, shareglxc);
    else
	glxc = __glXdirectContextCreate(pGlxScreen, config, shareglxc);
    if (!glxc) {
	return BadAlloc;
    }

    /*
    ** Initially, setup the part of the context that could be used by
    ** a GL core that needs windowing information (e.g., Mesa).
    */
    glxc->pGlxScreen = pGlxScreen;
    glxc->config = config;

    /*
    ** Register this context as a resource.
    */
    if (!AddResource(gcId, __glXContextRes, (pointer)glxc)) {
	(*glxc->destroy)(glxc);
	client->errorValue = gcId;
	return BadAlloc;
    }
    
    /*
    ** Finally, now that everything is working, setup the rest of the
    ** context.
    */
    glxc->id = gcId;
    glxc->share_id = shareList;
    glxc->idExists = GL_TRUE;
    glxc->isCurrent = GL_FALSE;
    glxc->isDirect = isDirect;
    glxc->renderMode = GL_RENDER;

    return Success;
}

int __glXDisp_CreateContext(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateContextReq *req = (xGLXCreateContextReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxVisual(cl->client, pGlxScreen, req->visual, &config, &err))
	return err;

    return DoCreateContext(cl, req->context, req->shareList,
			   config, pGlxScreen, req->isDirect);
}

int __glXDisp_CreateNewContext(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateNewContextReq *req = (xGLXCreateNewContextReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(cl->client, pGlxScreen, req->fbconfig, &config, &err))
	return err;

    return DoCreateContext(cl, req->context, req->shareList,
			   config, pGlxScreen, req->isDirect);
}

int __glXDisp_CreateContextWithConfigSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateContextWithConfigSGIXReq *req = 
	(xGLXCreateContextWithConfigSGIXReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(cl->client, pGlxScreen, req->fbconfig, &config, &err))
	return err;

    return DoCreateContext(cl, req->context, req->shareList,
			   config, pGlxScreen, req->isDirect);
}
int __glXDisp_DestroyContext(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXDestroyContextReq *req = (xGLXDestroyContextReq *) pc;
    GLXContextID gcId = req->context;
    __GLXcontext *glxc;
    
    glxc = (__GLXcontext *) LookupIDByType(gcId, __glXContextRes);
    if (glxc) {
	/*
	** Just free the resource; don't actually destroy the context,
	** because it might be in use.  The
	** destroy method will be called by the resource destruction routine
	** if necessary.
	*/
	FreeResourceByType(gcId, __glXContextRes, FALSE);
	return Success;
    } else {
	client->errorValue = gcId;
	return __glXError(GLXBadContext);
    }
}

/*****************************************************************************/

/*
** For each client, the server keeps a table of all the contexts that are
** current for that client (each thread of a client may have its own current
** context).  These routines add, change, and lookup contexts in the table.
*/

/*
** Add a current context, and return the tag that will be used to refer to it.
*/
static int AddCurrentContext(__GLXclientState *cl, __GLXcontext *glxc)
{
    int i;
    int num = cl->numCurrentContexts;
    __GLXcontext **table = cl->currentContexts;

    if (!glxc) return -1;
    
    /*
    ** Try to find an empty slot and use it.
    */
    for (i=0; i < num; i++) {
	if (!table[i]) {
	    table[i] = glxc;
	    return i+1;
	}
    }
    /*
    ** Didn't find a free slot, so we'll have to grow the table.
    */
    if (!num) {
	table = (__GLXcontext **) xalloc(sizeof(__GLXcontext *));
    } else {
	table = (__GLXcontext **) xrealloc(table,
					   (num+1)*sizeof(__GLXcontext *));
    }
    table[num] = glxc;
    cl->currentContexts = table;
    cl->numCurrentContexts++;
    return num+1;
}

/*
** Given a tag, change the current context for the corresponding entry.
*/
static void ChangeCurrentContext(__GLXclientState *cl, __GLXcontext *glxc,
				GLXContextTag tag)
{
    __GLXcontext **table = cl->currentContexts;
    table[tag-1] = glxc;
}

/*
** For this implementation we have chosen to simply use the index of the
** context's entry in the table as the context tag.  A tag must be greater
** than 0.
*/
__GLXcontext *__glXLookupContextByTag(__GLXclientState *cl, GLXContextTag tag)
{
    int num = cl->numCurrentContexts;

    if (tag < 1 || tag > num) {
	return 0;
    } else {
	return cl->currentContexts[tag-1];
    }
}

/*****************************************************************************/

static void StopUsingContext(__GLXcontext *glxc)
{
    if (glxc) {
	if (glxc == __glXLastContext) {
	    /* Tell server GL library */
	    __glXLastContext = 0;
	}
	glxc->isCurrent = GL_FALSE;
	if (!glxc->idExists) {
	    __glXFreeContext(glxc);
	}
    }
}

static void StartUsingContext(__GLXclientState *cl, __GLXcontext *glxc)
{
    glxc->isCurrent = GL_TRUE;
}

/**
 * Given a drawable ID, get the associated drawable and / or pixmap.
 * 
 * If the specified drawable ID is not a pixmap, \c ppPixmap will be set
 * to \c NULL on return.  In either case, \c ppDraw will be set to a drawable.
 * In the case where the drawable ID is a pixmap, \c ppDraw will be set to
 * the drawable associated with that pixmap.
 *
 * \param glxc      Associated GLX context.
 * \param drawId    ID of the drawable.
 * \param client    Pointer to the client state.
 * \return  the __GLXdrawable is returned on success.  Otherwise NULL.
 * 
 * \notes This function will need some modification when support pbuffers
 *        is added.
 */
static __GLXdrawable *
__glXGetDrawable(__GLXcontext *glxc, GLXDrawable drawId, ClientPtr client,
		 int *error)
{
    DrawablePtr pDraw;
    __GLXdrawable *pGlxDraw;
    int rc;

    /* This is the GLX 1.3 case - the client passes in a GLXWindow or
     * GLXPixmap and we just return the __GLXdrawable.  */
    pGlxDraw = (__GLXdrawable *) LookupIDByType(drawId, __glXDrawableRes);
    if (pGlxDraw != NULL) {
	if (glxc != NULL && pGlxDraw->config != glxc->config) {
	    client->errorValue = drawId;
	    *error = BadMatch;
	    return NULL;
	}

	return pGlxDraw;
    }

    /* The drawId wasn't a GLX drawable, so presumably it's a regular
     * X window.  In that case, we create a shadow GLXWindow for it on
     * demand here for pre GLX 1.3 compatibility and use the X Window
     * XID as its GLXWindow XID.  The client can't explicitly create a
     * GLXWindow with the same XID as an X Window, so we wont get any
     * resource ID clashes.  Effectively, the X Window is now also a
     * GLXWindow. */

    rc = dixLookupDrawable(&pDraw, drawId, client, 0, DixGetAttrAccess);
    if (rc != Success || pDraw->type != DRAWABLE_WINDOW) {
	client->errorValue = drawId;
	*error = __glXError(GLXBadDrawable);
	return NULL;
    }

    /* If we're not given a context, don't create the __GLXdrawable */
    if (glxc == NULL) {
	*error = __glXError(GLXBadDrawable);
	return NULL;
    }

    /* We're binding an X Window for the first time and need to create
     * a GLX drawable for it.  Check that the drawable screen matches
     * the context screen and that the context fbconfig is compatible
     * with the window visual. */
    if (pDraw->pScreen != glxc->pGlxScreen->pScreen ||
	!validGlxFBConfigForWindow(client, glxc->config, pDraw, error))
	return NULL;

    pGlxDraw = glxc->pGlxScreen->createDrawable(glxc->pGlxScreen,
						pDraw, GLX_DRAWABLE_WINDOW,
						drawId, glxc->config);

    /* since we are creating the drawablePrivate, drawId should be new */
    if (!AddResource(drawId, __glXDrawableRes, pGlxDraw)) {
	pGlxDraw->destroy (pGlxDraw);
	*error = BadAlloc;
	return NULL;
    }

    return pGlxDraw;
}

/*****************************************************************************/
/*
** Make an OpenGL context and drawable current.
*/

static int
DoMakeCurrent(__GLXclientState *cl,
	      GLXDrawable drawId, GLXDrawable readId,
	      GLXContextID contextId, GLXContextTag tag)
{
    ClientPtr client = cl->client;
    xGLXMakeCurrentReply reply;
    __GLXcontext *glxc, *prevglxc;
    __GLXdrawable *drawPriv = NULL;
    __GLXdrawable *readPriv = NULL;
    GLint error;
    GLuint  mask;

    /*
    ** If one is None and the other isn't, it's a bad match.
    */

    mask  = (drawId == None)    ? (1 << 0) : 0;
    mask |= (readId == None)    ? (1 << 1) : 0;
    mask |= (contextId == None) ? (1 << 2) : 0;

    if ( (mask != 0x00) && (mask != 0x07) ) {
	return BadMatch;
    }
    
    /*
    ** Lookup old context.  If we have one, it must be in a usable state.
    */
    if (tag != 0) {
	prevglxc = __glXLookupContextByTag(cl, tag);
	if (!prevglxc) {
	    /*
	    ** Tag for previous context is invalid.
	    */
	    return __glXError(GLXBadContextTag);
	}
	if (prevglxc->renderMode != GL_RENDER) {
	    /* Oops.  Not in render mode render. */
	    client->errorValue = prevglxc->id;
	    return __glXError(GLXBadContextState);
	}
    } else {
	prevglxc = 0;
    }

    /*
    ** Lookup new context.  It must not be current for someone else.
    */
    if (contextId != None) {
	int  status;

	glxc = (__GLXcontext *) LookupIDByType(contextId, __glXContextRes);
	if (!glxc) {
	    client->errorValue = contextId;
	    return __glXError(GLXBadContext);
	}
	if ((glxc != prevglxc) && glxc->isCurrent) {
	    /* Context is current to somebody else */
	    return BadAccess;
	}

	assert( drawId != None );
	assert( readId != None );

	drawPriv = __glXGetDrawable(glxc, drawId, client, &status);
	if (drawPriv == NULL)
	    return status;

	readPriv = __glXGetDrawable(glxc, readId, client, &status);
	if (readPriv == NULL)
	    return status;

    } else {
	/* Switching to no context.  Ignore new drawable. */
	glxc = 0;
	drawPriv = 0;
	readPriv = 0;
    }


    if (prevglxc) {
	/*
	** Flush the previous context if needed.
	*/
	if (__GLX_HAS_UNFLUSHED_CMDS(prevglxc)) {
	    if (__glXForceCurrent(cl, tag, (int *)&error)) {
		CALL_Flush( GET_DISPATCH(), () );
		__GLX_NOTE_FLUSHED_CMDS(prevglxc);
	    } else {
		return error;
	    }
	}

	/*
	** Make the previous context not current.
	*/
	if (!(*prevglxc->loseCurrent)(prevglxc)) {
	    return __glXError(GLXBadContext);
	}
	__glXFlushContextCache();
	__glXDeassociateContext(prevglxc);
    }
	

    if ((glxc != 0) && !glxc->isDirect) {

	glxc->drawPriv = drawPriv;
	glxc->readPriv = readPriv;

	/* make the context current */
	if (!(*glxc->makeCurrent)(glxc)) {
	    glxc->drawPriv = NULL;
	    glxc->readPriv = NULL;
	    return __glXError(GLXBadContext);
	}

	/* resize the buffers */
	if (!(*drawPriv->resize)(drawPriv)) {
	    /* could not do initial resize.  make current failed */
	    (*glxc->loseCurrent)(glxc);
	    glxc->drawPriv = NULL;
	    glxc->readPriv = NULL;
	    return __glXError(GLXBadContext);
	}

	glxc->isCurrent = GL_TRUE;
	__glXAssociateContext(glxc);
	assert(drawPriv->drawGlxc == glxc);
	assert(readPriv->readGlxc == glxc);
    }

    if (prevglxc) {
	ChangeCurrentContext(cl, glxc, tag);
	StopUsingContext(prevglxc);
    } else {
	tag = AddCurrentContext(cl, glxc);
    }

    if (glxc) {
	StartUsingContext(cl, glxc);
	reply.contextTag = tag;
    } else {
	reply.contextTag = 0;
    }

    reply.length = 0;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
	__glXSwapMakeCurrentReply(client, &reply);
    } else {
	WriteToClient(client, sz_xGLXMakeCurrentReply, (char *)&reply);
    }
    return Success;
}

int __glXDisp_MakeCurrent(__GLXclientState *cl, GLbyte *pc)
{
    xGLXMakeCurrentReq *req = (xGLXMakeCurrentReq *) pc;

    return DoMakeCurrent( cl, req->drawable, req->drawable,
			  req->context, req->oldContextTag );
}

int __glXDisp_MakeContextCurrent(__GLXclientState *cl, GLbyte *pc)
{
    xGLXMakeContextCurrentReq *req = (xGLXMakeContextCurrentReq *) pc;

    return DoMakeCurrent( cl, req->drawable, req->readdrawable,
			  req->context, req->oldContextTag );
}

int __glXDisp_MakeCurrentReadSGI(__GLXclientState *cl, GLbyte *pc)
{
    xGLXMakeCurrentReadSGIReq *req = (xGLXMakeCurrentReadSGIReq *) pc;

    return DoMakeCurrent( cl, req->drawable, req->readable,
			  req->context, req->oldContextTag );
}

int __glXDisp_IsDirect(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXIsDirectReq *req = (xGLXIsDirectReq *) pc;
    xGLXIsDirectReply reply;
    __GLXcontext *glxc;

    /*
    ** Find the GL context.
    */
    glxc = (__GLXcontext *) LookupIDByType(req->context, __glXContextRes);
    if (!glxc) {
	client->errorValue = req->context;
	return __glXError(GLXBadContext);
    }

    reply.isDirect = glxc->isDirect;
    reply.length = 0;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
	__glXSwapIsDirectReply(client, &reply);
    } else {
	WriteToClient(client, sz_xGLXIsDirectReply, (char *)&reply);
    }

    return Success;
}

int __glXDisp_QueryVersion(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryVersionReq *req = (xGLXQueryVersionReq *) pc;
    xGLXQueryVersionReply reply;
    GLuint major, minor;

    major = req->majorVersion;
    minor = req->minorVersion;
    (void)major;
    (void)minor;

    /*
    ** Server should take into consideration the version numbers sent by the
    ** client if it wants to work with older clients; however, in this
    ** implementation the server just returns its version number.
    */
    reply.majorVersion = GLX_SERVER_MAJOR_VERSION;
    reply.minorVersion = GLX_SERVER_MINOR_VERSION;
    reply.length = 0;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
	__glXSwapQueryVersionReply(client, &reply);
    } else {
	WriteToClient(client, sz_xGLXQueryVersionReply, (char *)&reply);
    }
    return Success;
}

int __glXDisp_WaitGL(__GLXclientState *cl, GLbyte *pc)
{
    xGLXWaitGLReq *req = (xGLXWaitGLReq *)pc;
    int error;
    
    if (!__glXForceCurrent(cl, req->contextTag, &error)) {
	return error;
    }
    CALL_Finish( GET_DISPATCH(), () );
    return Success;
}

int __glXDisp_WaitX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXWaitXReq *req = (xGLXWaitXReq *)pc;
    int error;
    
    if (!__glXForceCurrent(cl, req->contextTag, &error)) {
	return error;
    }
    /*
    ** In a multithreaded server that had separate X and GL threads, we would
    ** have to wait for the X thread to finish before returning.  As it stands,
    ** this sample implementation only supports singlethreaded servers, and
    ** nothing needs to be done here.
    */
    return Success;
}

int __glXDisp_CopyContext(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXCopyContextReq *req = (xGLXCopyContextReq *) pc;
    GLXContextID source = req->source;
    GLXContextID dest = req->dest;
    GLXContextTag tag = req->contextTag;
    unsigned long mask = req->mask;
    __GLXcontext *src, *dst;
    int error;

    /*
    ** Check that each context exists.
    */
    src = (__GLXcontext *) LookupIDByType(source, __glXContextRes);
    if (!src) {
	client->errorValue = source;
	return __glXError(GLXBadContext);
    }
    dst = (__GLXcontext *) LookupIDByType(dest, __glXContextRes);
    if (!dst) {
	client->errorValue = dest;
	return __glXError(GLXBadContext);
    }

    /*
    ** They must be in the same address space, and same screen.
    ** NOTE: no support for direct rendering contexts here.
    */
    if (src->isDirect || dst->isDirect ||
	(src->pGlxScreen != dst->pGlxScreen)) {
	client->errorValue = source;
	return BadMatch;
    }

    /*
    ** The destination context must not be current for any client.
    */
    if (dst->isCurrent) {
	client->errorValue = dest;
	return BadAccess;
    }

    if (tag) {
	__GLXcontext *tagcx = __glXLookupContextByTag(cl, tag);
	
	if (!tagcx) {
	    return __glXError(GLXBadContextTag);
	}
	if (tagcx != src) {
	    /*
	    ** This would be caused by a faulty implementation of the client
	    ** library.
	    */
	    return BadMatch;
	}
	/*
	** In this case, glXCopyContext is in both GL and X streams, in terms
	** of sequentiality.
	*/
	if (__glXForceCurrent(cl, tag, &error)) {
	    /*
	    ** Do whatever is needed to make sure that all preceding requests
	    ** in both streams are completed before the copy is executed.
	    */
	    CALL_Finish( GET_DISPATCH(), () );
	    __GLX_NOTE_FLUSHED_CMDS(tagcx);
	} else {
	    return error;
	}
    }
    /*
    ** Issue copy.  The only reason for failure is a bad mask.
    */
    if (!(*dst->copy)(dst, src, mask)) {
	client->errorValue = mask;
	return BadValue;
    }
    return Success;
}


int __glXDisp_GetVisualConfigs(__GLXclientState *cl, GLbyte *pc)
{
    xGLXGetVisualConfigsReq *req = (xGLXGetVisualConfigsReq *) pc;
    ClientPtr client = cl->client;
    xGLXGetVisualConfigsReply reply;
    __GLXscreen *pGlxScreen;
    __GLXconfig *modes;
    CARD32 buf[__GLX_TOTAL_CONFIG];
    int p, i, err;
    __GLX_DECLARE_SWAP_VARIABLES;
    __GLX_DECLARE_SWAP_ARRAY_VARIABLES;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;

    reply.numVisuals = pGlxScreen->numVisuals;
    reply.numProps = __GLX_TOTAL_CONFIG;
    reply.length = (reply.numVisuals * __GLX_SIZE_CARD32 * __GLX_TOTAL_CONFIG) >> 2;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
	__GLX_SWAP_SHORT(&reply.sequenceNumber);
	__GLX_SWAP_INT(&reply.length);
	__GLX_SWAP_INT(&reply.numVisuals);
	__GLX_SWAP_INT(&reply.numProps);
    }

    WriteToClient(client, sz_xGLXGetVisualConfigsReply, (char *)&reply);

    for (i = 0; i < pGlxScreen->numVisuals; i++) {
	modes = pGlxScreen->visuals[i];

	p = 0;
	buf[p++] = modes->visualID;
	buf[p++] = glxConvertToXVisualType( modes->visualType );
	buf[p++] = modes->rgbMode;

	buf[p++] = modes->redBits;
	buf[p++] = modes->greenBits;
	buf[p++] = modes->blueBits;
	buf[p++] = modes->alphaBits;
	buf[p++] = modes->accumRedBits;
	buf[p++] = modes->accumGreenBits;
	buf[p++] = modes->accumBlueBits;
	buf[p++] = modes->accumAlphaBits;

	buf[p++] = modes->doubleBufferMode;
	buf[p++] = modes->stereoMode;

	buf[p++] = modes->rgbBits;
	buf[p++] = modes->depthBits;
	buf[p++] = modes->stencilBits;
	buf[p++] = modes->numAuxBuffers;
	buf[p++] = modes->level;
	/* 
	** Add token/value pairs for extensions.
	*/
	buf[p++] = GLX_VISUAL_CAVEAT_EXT;
	buf[p++] = modes->visualRating;
	buf[p++] = GLX_TRANSPARENT_TYPE;
	buf[p++] = modes->transparentPixel;
	buf[p++] = GLX_TRANSPARENT_RED_VALUE;
	buf[p++] = modes->transparentRed;
	buf[p++] = GLX_TRANSPARENT_GREEN_VALUE;
	buf[p++] = modes->transparentGreen;
	buf[p++] = GLX_TRANSPARENT_BLUE_VALUE;
	buf[p++] = modes->transparentBlue;
	buf[p++] = GLX_TRANSPARENT_ALPHA_VALUE;
	buf[p++] = modes->transparentAlpha;
	buf[p++] = GLX_TRANSPARENT_INDEX_VALUE;
	buf[p++] = modes->transparentIndex;
	buf[p++] = GLX_SAMPLES_SGIS;
	buf[p++] = modes->samples;
	buf[p++] = GLX_SAMPLE_BUFFERS_SGIS;
	buf[p++] = modes->sampleBuffers;
	buf[p++] = 0; /* copy over visualSelectGroup (GLX_VISUAL_SELECT_GROUP_SGIX)? */
	buf[p++] = 0;

	if (client->swapped) {
	    __GLX_SWAP_INT_ARRAY(buf, __GLX_TOTAL_CONFIG);
	}
	WriteToClient(client, __GLX_SIZE_CARD32 * __GLX_TOTAL_CONFIG, 
		(char *)buf);
    }
    return Success;
}

#define __GLX_TOTAL_FBCONFIG_ATTRIBS (35)
#define __GLX_FBCONFIG_ATTRIBS_LENGTH (__GLX_TOTAL_FBCONFIG_ATTRIBS * 2)
/**
 * Send the set of GLXFBConfigs to the client.  There is not currently
 * and interface into the driver on the server-side to get GLXFBConfigs,
 * so we "invent" some based on the \c __GLXvisualConfig structures that
 * the driver does supply.
 * 
 * The reply format for both \c glXGetFBConfigs and \c glXGetFBConfigsSGIX
 * is the same, so this routine pulls double duty.
 */

static int
DoGetFBConfigs(__GLXclientState *cl, unsigned screen)
{
    ClientPtr client = cl->client;
    xGLXGetFBConfigsReply reply;
    __GLXscreen *pGlxScreen;
    CARD32 buf[__GLX_FBCONFIG_ATTRIBS_LENGTH];
    int p, err;
    __GLXconfig *modes;
    __GLX_DECLARE_SWAP_VARIABLES;
    __GLX_DECLARE_SWAP_ARRAY_VARIABLES;

    if (!validGlxScreen(cl->client, screen, &pGlxScreen, &err))
	return err;

    reply.numFBConfigs = pGlxScreen->numFBConfigs;
    reply.numAttribs = __GLX_TOTAL_FBCONFIG_ATTRIBS;
    reply.length = (__GLX_FBCONFIG_ATTRIBS_LENGTH * reply.numFBConfigs);
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
	__GLX_SWAP_SHORT(&reply.sequenceNumber);
	__GLX_SWAP_INT(&reply.length);
	__GLX_SWAP_INT(&reply.numFBConfigs);
	__GLX_SWAP_INT(&reply.numAttribs);
    }

    WriteToClient(client, sz_xGLXGetFBConfigsReply, (char *)&reply);

    for (modes = pGlxScreen->fbconfigs; modes != NULL; modes = modes->next) {
	p = 0;

#define WRITE_PAIR(tag,value) \
    do { buf[p++] = tag ; buf[p++] = value ; } while( 0 )

	WRITE_PAIR( GLX_VISUAL_ID,        modes->visualID );
	WRITE_PAIR( GLX_FBCONFIG_ID,      modes->fbconfigID );
	WRITE_PAIR( GLX_X_RENDERABLE,     GL_TRUE );

	WRITE_PAIR( GLX_RGBA,             modes->rgbMode );
	WRITE_PAIR( GLX_DOUBLEBUFFER,     modes->doubleBufferMode );
	WRITE_PAIR( GLX_STEREO,           modes->stereoMode );

	WRITE_PAIR( GLX_BUFFER_SIZE,      modes->rgbBits );
	WRITE_PAIR( GLX_LEVEL,            modes->level );
	WRITE_PAIR( GLX_AUX_BUFFERS,      modes->numAuxBuffers );
	WRITE_PAIR( GLX_RED_SIZE,         modes->redBits );
	WRITE_PAIR( GLX_GREEN_SIZE,       modes->greenBits );
	WRITE_PAIR( GLX_BLUE_SIZE,        modes->blueBits );
	WRITE_PAIR( GLX_ALPHA_SIZE,       modes->alphaBits );
	WRITE_PAIR( GLX_ACCUM_RED_SIZE,   modes->accumRedBits );
	WRITE_PAIR( GLX_ACCUM_GREEN_SIZE, modes->accumGreenBits );
	WRITE_PAIR( GLX_ACCUM_BLUE_SIZE,  modes->accumBlueBits );
	WRITE_PAIR( GLX_ACCUM_ALPHA_SIZE, modes->accumAlphaBits );
	WRITE_PAIR( GLX_DEPTH_SIZE,       modes->depthBits );
	WRITE_PAIR( GLX_STENCIL_SIZE,     modes->stencilBits );
	WRITE_PAIR( GLX_X_VISUAL_TYPE,    modes->visualType );
	WRITE_PAIR( GLX_CONFIG_CAVEAT, modes->visualRating );
	WRITE_PAIR( GLX_TRANSPARENT_TYPE, modes->transparentPixel );
	WRITE_PAIR( GLX_TRANSPARENT_RED_VALUE, modes->transparentRed );
	WRITE_PAIR( GLX_TRANSPARENT_GREEN_VALUE, modes->transparentGreen );
	WRITE_PAIR( GLX_TRANSPARENT_BLUE_VALUE, modes->transparentBlue );
	WRITE_PAIR( GLX_TRANSPARENT_ALPHA_VALUE, modes->transparentAlpha );
	WRITE_PAIR( GLX_TRANSPARENT_INDEX_VALUE, modes->transparentIndex );
	WRITE_PAIR( GLX_SWAP_METHOD_OML, modes->swapMethod );
	WRITE_PAIR( GLX_SAMPLES_SGIS, modes->samples );
	WRITE_PAIR( GLX_SAMPLE_BUFFERS_SGIS, modes->sampleBuffers );
	/* GLX_VISUAL_SELECT_GROUP_SGIX ? */
	WRITE_PAIR( GLX_DRAWABLE_TYPE, modes->drawableType );
	WRITE_PAIR( GLX_BIND_TO_TEXTURE_RGB_EXT, modes->bindToTextureRgb );
	WRITE_PAIR( GLX_BIND_TO_TEXTURE_RGBA_EXT, modes->bindToTextureRgba );
	WRITE_PAIR( GLX_BIND_TO_MIPMAP_TEXTURE_EXT, modes->bindToMipmapTexture );
	WRITE_PAIR( GLX_BIND_TO_TEXTURE_TARGETS_EXT, modes->bindToTextureTargets );

	if (client->swapped) {
	    __GLX_SWAP_INT_ARRAY(buf, __GLX_FBCONFIG_ATTRIBS_LENGTH);
	}
	WriteToClient(client, __GLX_SIZE_CARD32 * __GLX_FBCONFIG_ATTRIBS_LENGTH,
		      (char *)buf);
    }
    return Success;
}


int __glXDisp_GetFBConfigs(__GLXclientState *cl, GLbyte *pc)
{
    xGLXGetFBConfigsReq *req = (xGLXGetFBConfigsReq *) pc;
    return DoGetFBConfigs(cl, req->screen);
}

int __glXDisp_GetFBConfigsSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXGetFBConfigsSGIXReq *req = (xGLXGetFBConfigsSGIXReq *) pc;
    return DoGetFBConfigs(cl, req->screen);
}

static int 
DoCreateGLXDrawable(ClientPtr client, __GLXscreen *pGlxScreen, __GLXconfig *config,
		    DrawablePtr pDraw, XID glxDrawableId, int type)
{
    __GLXdrawable *pGlxDraw;

    LEGAL_NEW_RESOURCE(glxDrawableId, client);

    if (pGlxScreen->pScreen != pDraw->pScreen)
	return BadMatch;

    pGlxDraw = pGlxScreen->createDrawable(pGlxScreen, pDraw, type,
					  glxDrawableId, config);
    if (pGlxDraw == NULL)
	return BadAlloc;

    if (!AddResource(glxDrawableId, __glXDrawableRes, pGlxDraw)) {
	pGlxDraw->destroy (pGlxDraw);
	return BadAlloc;
    }

    return Success;
}

static int
DoCreateGLXPixmap(ClientPtr client, __GLXscreen *pGlxScreen, __GLXconfig *config,
		  XID drawableId, XID glxDrawableId)
{
    DrawablePtr pDraw;
    int err;

    err = dixLookupDrawable(&pDraw, drawableId, client, 0, DixAddAccess);
    if (err != Success || pDraw->type != DRAWABLE_PIXMAP) {
	client->errorValue = drawableId;
	return BadPixmap;
    }

    err = DoCreateGLXDrawable(client, pGlxScreen, config, pDraw,
			      glxDrawableId, GLX_DRAWABLE_PIXMAP);

    if (err == Success)
	((PixmapPtr) pDraw)->refcnt++;

    return err;
}

static void
determineTextureTarget(XID glxDrawableID, CARD32 *attribs, CARD32 numAttribs)
{
    GLenum target = 0;
    int i;
    __GLXdrawable *pGlxDraw;

    pGlxDraw = LookupIDByType(glxDrawableID, __glXDrawableRes);

    for (i = 0; i < numAttribs; i++) {
	if (attribs[2 * i] == GLX_TEXTURE_TARGET_EXT) {
	    switch (attribs[2 * i + 1]) {
	    case GLX_TEXTURE_2D_EXT:
		target = GL_TEXTURE_2D;
		break;
	    case GLX_TEXTURE_RECTANGLE_EXT:
		target = GL_TEXTURE_RECTANGLE_ARB;
		break;
	    }
	}
    }
 
    if (!target) {
	int w = pGlxDraw->pDraw->width, h = pGlxDraw->pDraw->height;
	
	if (h & (h - 1) || w & (w - 1))
	    target = GL_TEXTURE_RECTANGLE_ARB;
	else
	    target = GL_TEXTURE_2D;
    }

    pGlxDraw->target = target;
}

int __glXDisp_CreateGLXPixmap(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateGLXPixmapReq *req = (xGLXCreateGLXPixmapReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxVisual(cl->client, pGlxScreen, req->visual, &config, &err))
	return err;

    return DoCreateGLXPixmap(cl->client, pGlxScreen, config,
			     req->pixmap, req->glxpixmap);
}

int __glXDisp_CreatePixmap(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreatePixmapReq *req = (xGLXCreatePixmapReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(cl->client, pGlxScreen, req->fbconfig, &config, &err))
	return err;

    err = DoCreateGLXPixmap(cl->client, pGlxScreen, config,
			    req->pixmap, req->glxpixmap);
    if (err != Success)
	return err;

    determineTextureTarget(req->glxpixmap,
			   (CARD32*) (req + 1), req->numAttribs);

    return Success;
}

int __glXDisp_CreateGLXPixmapWithConfigSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateGLXPixmapWithConfigSGIXReq *req = 
	(xGLXCreateGLXPixmapWithConfigSGIXReq *) pc;
    __GLXconfig *config;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(cl->client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(cl->client, pGlxScreen, req->fbconfig, &config, &err))
	return err;

    return DoCreateGLXPixmap(cl->client, pGlxScreen,
			     config, req->pixmap, req->glxpixmap);
}


static int DoDestroyDrawable(__GLXclientState *cl, XID glxdrawable, int type)
{
    ClientPtr client = cl->client;
    __GLXdrawable *pGlxDraw;

    /*
    ** Check it's the right type of drawable.
    */
    pGlxDraw = LookupIDByType(glxdrawable, __glXDrawableRes);
    if (pGlxDraw == NULL || pGlxDraw->type != type) {
	client->errorValue = glxdrawable;
	switch (type) {
	case GLX_DRAWABLE_WINDOW:
	    return __glXError(GLXBadWindow);
	case GLX_DRAWABLE_PIXMAP:
	    return __glXError(GLXBadDrawable);
	case GLX_DRAWABLE_PBUFFER:
	    return __glXError(GLXBadPbuffer);
	}
    }

    if (type == GLX_DRAWABLE_PIXMAP) {
	((PixmapPtr) pGlxDraw->pDraw)->refcnt--;
    }

    FreeResource(glxdrawable, FALSE);

    return Success;
}

int __glXDisp_DestroyGLXPixmap(__GLXclientState *cl, GLbyte *pc)
{
    xGLXDestroyGLXPixmapReq *req = (xGLXDestroyGLXPixmapReq *) pc;

    return DoDestroyDrawable(cl, req->glxpixmap, GLX_DRAWABLE_PIXMAP);
}

int __glXDisp_DestroyPixmap(__GLXclientState *cl, GLbyte *pc)
{
    xGLXDestroyPixmapReq *req = (xGLXDestroyPixmapReq *) pc;

    return DoDestroyDrawable(cl, req->glxpixmap, GLX_DRAWABLE_PIXMAP);
}

static int
DoCreatePbuffer(ClientPtr client, int screenNum, XID fbconfigId,
		int width, int height, XID glxDrawableId)
{
    __GLXconfig	*config;
    __GLXscreen		*pGlxScreen;
    PixmapPtr		 pPixmap;
    int			 err;

    if (!validGlxScreen(client, screenNum, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(client, pGlxScreen, fbconfigId, &config, &err))
	return err;

    __glXenterServer(GL_FALSE);
    pPixmap = (*pGlxScreen->pScreen->CreatePixmap) (pGlxScreen->pScreen,
						    width, height, config->rgbBits, 0);
    __glXleaveServer(GL_FALSE);

    return DoCreateGLXDrawable(client, pGlxScreen, config, &pPixmap->drawable,
			       glxDrawableId, GLX_DRAWABLE_PBUFFER);
}

int __glXDisp_CreatePbuffer(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreatePbufferReq	*req = (xGLXCreatePbufferReq *) pc;
    CARD32			*attrs;
    int				 width, height, i;

    attrs = (CARD32 *) (req + 1);
    width = 0;
    height = 0;

    for (i = 0; i < req->numAttribs; i++) {
	switch (attrs[i * 2]) {
	case GLX_PBUFFER_WIDTH:
	    width = attrs[i * 2 + 1];
	    break;
	case GLX_PBUFFER_HEIGHT:
	    height = attrs[i * 2 + 1];
	    break;
	case GLX_LARGEST_PBUFFER:
	case GLX_PRESERVED_CONTENTS:
	    /* FIXME: huh... */
	    break;
	}
    }

    return DoCreatePbuffer(cl->client, req->screen, req->fbconfig,
			   width, height, req->pbuffer);
}

int __glXDisp_CreateGLXPbufferSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateGLXPbufferSGIXReq *req = (xGLXCreateGLXPbufferSGIXReq *) pc;

    return DoCreatePbuffer(cl->client, req->screen, req->fbconfig,
			   req->width, req->height, req->pbuffer);
}

int __glXDisp_DestroyPbuffer(__GLXclientState *cl, GLbyte *pc)
{
    xGLXDestroyPbufferReq *req = (xGLXDestroyPbufferReq *) pc;

    return DoDestroyDrawable(cl, req->pbuffer, GLX_DRAWABLE_PBUFFER);
}

int __glXDisp_DestroyGLXPbufferSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXDestroyGLXPbufferSGIXReq *req = (xGLXDestroyGLXPbufferSGIXReq *) pc;

    return DoDestroyDrawable(cl, req->pbuffer, GLX_DRAWABLE_PBUFFER);
}

static int
DoChangeDrawableAttributes(ClientPtr client, XID glxdrawable,
			   int numAttribs, CARD32 *attribs)
{
    __GLXdrawable *pGlxDraw;
    int i;

    pGlxDraw = LookupIDByType(glxdrawable, __glXDrawableRes);
    for (i = 0; i < numAttribs; i++) {
	switch(attribs[i * 2]) {
	case GLX_EVENT_MASK:
	    /* All we do is to record the event mask so we can send it
	     * back when queried.  We never actually clobber the
	     * pbuffers, so we never need to send out the event. */
	    pGlxDraw->eventMask = attribs[i * 2 + 1];
	    break;
	}
    }

    return Success;
}

int __glXDisp_ChangeDrawableAttributes(__GLXclientState *cl, GLbyte *pc)
{
    xGLXChangeDrawableAttributesReq *req =
	(xGLXChangeDrawableAttributesReq *) pc;

    return DoChangeDrawableAttributes(cl->client, req->drawable,
				      req->numAttribs, (CARD32 *) (req + 1));
}

int __glXDisp_ChangeDrawableAttributesSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXChangeDrawableAttributesSGIXReq *req =
	(xGLXChangeDrawableAttributesSGIXReq *)pc;

    return DoChangeDrawableAttributes(cl->client, req->drawable,
				      req->numAttribs, (CARD32 *) (req + 1));
}

int __glXDisp_CreateWindow(__GLXclientState *cl, GLbyte *pc)
{
    xGLXCreateWindowReq	*req = (xGLXCreateWindowReq *) pc;
    __GLXconfig	*config;
    __GLXscreen		*pGlxScreen;
    ClientPtr		 client = cl->client;
    DrawablePtr		 pDraw;
    int			 err;

    if (!validGlxScreen(client, req->screen, &pGlxScreen, &err))
	return err;
    if (!validGlxFBConfig(client, pGlxScreen, req->fbconfig, &config, &err))
	return err;

    err = dixLookupDrawable(&pDraw, req->window, client, 0, DixAddAccess);
    if (err != Success || pDraw->type != DRAWABLE_WINDOW) {
	client->errorValue = req->window;
	return BadWindow;
    }

    if (!validGlxFBConfigForWindow(client, config, pDraw, &err))
	return err;

    return DoCreateGLXDrawable(client, pGlxScreen, config,
			       pDraw, req->glxwindow, GLX_DRAWABLE_WINDOW);
}

int __glXDisp_DestroyWindow(__GLXclientState *cl, GLbyte *pc)
{
    xGLXDestroyWindowReq *req = (xGLXDestroyWindowReq *) pc;

    return DoDestroyDrawable(cl, req->glxwindow, GLX_DRAWABLE_WINDOW);
}


/*****************************************************************************/

/*
** NOTE: There is no portable implementation for swap buffers as of
** this time that is of value.  Consequently, this code must be
** implemented by somebody other than SGI.
*/
int __glXDisp_SwapBuffers(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXSwapBuffersReq *req = (xGLXSwapBuffersReq *) pc;
    GLXContextTag tag = req->contextTag;
    XID drawId = req->drawable;
    __GLXcontext *glxc = NULL;
    __GLXdrawable *pGlxDraw;
    int error;

    if (tag) {
	glxc = __glXLookupContextByTag(cl, tag);
	if (!glxc) {
	    return __glXError(GLXBadContextTag);
	}
	/*
	** The calling thread is swapping its current drawable.  In this case,
	** glxSwapBuffers is in both GL and X streams, in terms of
	** sequentiality.
	*/
	if (__glXForceCurrent(cl, tag, &error)) {
	    /*
	    ** Do whatever is needed to make sure that all preceding requests
	    ** in both streams are completed before the swap is executed.
	    */
	    CALL_Finish( GET_DISPATCH(), () );
	    __GLX_NOTE_FLUSHED_CMDS(glxc);
	} else {
	    return error;
	}
    }

    pGlxDraw = __glXGetDrawable(glxc, drawId, client, &error);
    if (pGlxDraw == NULL)
	return error;

    if (pGlxDraw->type == DRAWABLE_WINDOW &&
	(*pGlxDraw->swapBuffers)(pGlxDraw) == GL_FALSE)
	return __glXError(GLXBadDrawable);

    return Success;
}


static int
DoQueryContext(__GLXclientState *cl, GLXContextID gcId)
{
    ClientPtr client = cl->client;
    __GLXcontext *ctx;
    xGLXQueryContextInfoEXTReply reply;
    int nProps;
    int *sendBuf, *pSendBuf;
    int nReplyBytes;

    ctx = (__GLXcontext *) LookupIDByType(gcId, __glXContextRes);
    if (!ctx) {
	client->errorValue = gcId;
	return __glXError(GLXBadContext);
    }

    nProps = 3;
    reply.length = nProps << 1;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.n = nProps;

    nReplyBytes = reply.length << 2;
    sendBuf = (int *)xalloc((size_t)nReplyBytes);
    if (sendBuf == NULL) {
	return __glXError(GLXBadContext);	/* XXX: Is this correct? */
    }
    pSendBuf = sendBuf;
    *pSendBuf++ = GLX_SHARE_CONTEXT_EXT;
    *pSendBuf++ = (int)(ctx->share_id);
    *pSendBuf++ = GLX_VISUAL_ID_EXT;
    *pSendBuf++ = (int)(ctx->config->visualID);
    *pSendBuf++ = GLX_SCREEN_EXT;
    *pSendBuf++ = (int)(ctx->pGlxScreen->pScreen->myNum);

    if (client->swapped) {
	__glXSwapQueryContextInfoEXTReply(client, &reply, sendBuf);
    } else {
	WriteToClient(client, sz_xGLXQueryContextInfoEXTReply, (char *)&reply);
	WriteToClient(client, nReplyBytes, (char *)sendBuf);
    }
    xfree((char *)sendBuf);

    return Success;
}

int __glXDisp_QueryContextInfoEXT(__GLXclientState *cl, GLbyte *pc)
{
    xGLXQueryContextInfoEXTReq *req = (xGLXQueryContextInfoEXTReq *) pc;

    return DoQueryContext(cl, req->context);
}

int __glXDisp_QueryContext(__GLXclientState *cl, GLbyte *pc)
{
    xGLXQueryContextReq *req = (xGLXQueryContextReq *) pc;

    return DoQueryContext(cl, req->context);
}

int __glXDisp_BindTexImageEXT(__GLXclientState *cl, GLbyte *pc)
{
    xGLXVendorPrivateReq *req = (xGLXVendorPrivateReq *) pc;
    ClientPtr		 client = cl->client;
    __GLXcontext	*context;
    __GLXdrawable	*pGlxDraw;
    GLXDrawable		 drawId;
    int			 buffer;
    int			 error;

    pc += __GLX_VENDPRIV_HDR_SIZE;

    drawId = *((CARD32 *) (pc));
    buffer = *((INT32 *)  (pc + 4));

    if (buffer != GLX_FRONT_LEFT_EXT)
	return __glXError(GLXBadPixmap);

    context = __glXForceCurrent (cl, req->contextTag, &error);
    if (!context)
	return error;

    pGlxDraw = __glXGetDrawable(NULL, drawId, client, &error);
    if (!pGlxDraw || pGlxDraw->type != GLX_DRAWABLE_PIXMAP) {
	client->errorValue = drawId;
	return __glXError(GLXBadPixmap);
    }

    if (!context->textureFromPixmap)
	return __glXError(GLXUnsupportedPrivateRequest);

    return context->textureFromPixmap->bindTexImage(context,
						    buffer,
						    pGlxDraw);
}

int __glXDisp_ReleaseTexImageEXT(__GLXclientState *cl, GLbyte *pc)
{
    xGLXVendorPrivateReq *req = (xGLXVendorPrivateReq *) pc;
    ClientPtr		 client = cl->client;
    __GLXdrawable	*pGlxDraw;
    __GLXcontext	*context;
    GLXDrawable		 drawId;
    int			 buffer;
    int			 error;

    pc += __GLX_VENDPRIV_HDR_SIZE;

    drawId = *((CARD32 *) (pc));
    buffer = *((INT32 *)  (pc + 4));
    
    context = __glXForceCurrent (cl, req->contextTag, &error);
    if (!context)
	return error;

    pGlxDraw = __glXGetDrawable(NULL, drawId, client, &error);
    if (!pGlxDraw || pGlxDraw->type != GLX_DRAWABLE_PIXMAP) {
	client->errorValue = drawId;
	return error;
    }

    if (!context->textureFromPixmap)
	return __glXError(GLXUnsupportedPrivateRequest);

    return context->textureFromPixmap->releaseTexImage(context,
						       buffer,
						       pGlxDraw);
}

int __glXDisp_CopySubBufferMESA(__GLXclientState *cl, GLbyte *pc)
{
    xGLXVendorPrivateReq *req = (xGLXVendorPrivateReq *) pc;
    GLXContextTag         tag = req->contextTag;
    __GLXcontext         *glxc = NULL;
    __GLXdrawable        *pGlxDraw;
    ClientPtr		  client = cl->client;
    GLXDrawable		  drawId;
    int                   error;
    int                   x, y, width, height;

    (void) client;
    (void) req;

    pc += __GLX_VENDPRIV_HDR_SIZE;

    drawId = *((CARD32 *) (pc));
    x      = *((INT32 *)  (pc + 4));
    y      = *((INT32 *)  (pc + 8));
    width  = *((INT32 *)  (pc + 12));
    height = *((INT32 *)  (pc + 16));

    if (tag) {
	glxc = __glXLookupContextByTag(cl, tag);
	if (!glxc) {
	    return __glXError(GLXBadContextTag);
	}
	/*
	** The calling thread is swapping its current drawable.  In this case,
	** glxSwapBuffers is in both GL and X streams, in terms of
	** sequentiality.
	*/
	if (__glXForceCurrent(cl, tag, &error)) {
	    /*
	    ** Do whatever is needed to make sure that all preceding requests
	    ** in both streams are completed before the swap is executed.
	    */
	    CALL_Finish( GET_DISPATCH(), () );
	    __GLX_NOTE_FLUSHED_CMDS(glxc);
	} else {
	    return error;
	}
    }

    pGlxDraw = __glXGetDrawable(glxc, drawId, client, &error);
    if (!pGlxDraw)
	return error;

    if (pGlxDraw == NULL ||
	pGlxDraw->type != GLX_DRAWABLE_WINDOW ||
	pGlxDraw->copySubBuffer == NULL)
	return __glXError(GLXBadDrawable);

    (*pGlxDraw->copySubBuffer)(pGlxDraw, x, y, width, height);

    return Success;
}

/*
** Get drawable attributes
*/
static int
DoGetDrawableAttributes(__GLXclientState *cl, XID drawId)
{
    ClientPtr client = cl->client;
    xGLXGetDrawableAttributesReply reply;
    __GLXdrawable *pGlxDraw;
    CARD32 attributes[6];
    int numAttribs, error;

    pGlxDraw = __glXGetDrawable(NULL, drawId, client, &error);
    if (!pGlxDraw) {
	client->errorValue = drawId;
	return error;
    }

    numAttribs = 3;
    reply.length = numAttribs << 1;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.numAttribs = numAttribs;

    attributes[0] = GLX_TEXTURE_TARGET_EXT;
    attributes[1] = pGlxDraw->target == GL_TEXTURE_2D ? GLX_TEXTURE_2D_EXT :
	GLX_TEXTURE_RECTANGLE_EXT;
    attributes[2] = GLX_Y_INVERTED_EXT;
    attributes[3] = GL_FALSE;
    attributes[4] = GLX_EVENT_MASK;
    attributes[5] = pGlxDraw->eventMask;

    if (client->swapped) {
	__glXSwapGetDrawableAttributesReply(client, &reply, attributes);
    } else {
	WriteToClient(client, sz_xGLXGetDrawableAttributesReply,
		      (char *)&reply);
	WriteToClient(client, reply.length * sizeof (CARD32),
		      (char *)attributes);
    }

    return Success;
}

int __glXDisp_GetDrawableAttributes(__GLXclientState *cl, GLbyte *pc)
{
    xGLXGetDrawableAttributesReq *req = (xGLXGetDrawableAttributesReq *)pc;

    return DoGetDrawableAttributes(cl, req->drawable);
}

int __glXDisp_GetDrawableAttributesSGIX(__GLXclientState *cl, GLbyte *pc)
{
    xGLXGetDrawableAttributesSGIXReq *req =
	(xGLXGetDrawableAttributesSGIXReq *)pc;
    
    return DoGetDrawableAttributes(cl, req->drawable);
}

/************************************************************************/

/*
** Render and Renderlarge are not in the GLX API.  They are used by the GLX
** client library to send batches of GL rendering commands.
*/

/*
** Execute all the drawing commands in a request.
*/
int __glXDisp_Render(__GLXclientState *cl, GLbyte *pc)
{
    xGLXRenderReq *req;
    ClientPtr client= cl->client;
    int left, cmdlen, error;
    int commandsDone;
    CARD16 opcode;
    __GLXrenderHeader *hdr;
    __GLXcontext *glxc;
    __GLX_DECLARE_SWAP_VARIABLES;

    req = (xGLXRenderReq *) pc;
    if (client->swapped) {
	__GLX_SWAP_SHORT(&req->length);
	__GLX_SWAP_INT(&req->contextTag);
    }

    glxc = __glXForceCurrent(cl, req->contextTag, &error);
    if (!glxc) {
	return error;
    }

    commandsDone = 0;
    pc += sz_xGLXRenderReq;
    left = (req->length << 2) - sz_xGLXRenderReq;
    while (left > 0) {
        __GLXrenderSizeData entry;
        int extra;
	__GLXdispatchRenderProcPtr proc;
	int err;

	/*
	** Verify that the header length and the overall length agree.
	** Also, each command must be word aligned.
	*/
	hdr = (__GLXrenderHeader *) pc;
	if (client->swapped) {
	    __GLX_SWAP_SHORT(&hdr->length);
	    __GLX_SWAP_SHORT(&hdr->opcode);
	}
	cmdlen = hdr->length;
	opcode = hdr->opcode;

	/*
	** Check for core opcodes and grab entry data.
	*/
	err = __glXGetProtocolSizeData(& Render_dispatch_info, opcode, & entry);
	proc = (__GLXdispatchRenderProcPtr)
	    __glXGetProtocolDecodeFunction(& Render_dispatch_info,
					   opcode, client->swapped);

	if ((err < 0) || (proc == NULL)) {
	    client->errorValue = commandsDone;
	    return __glXError(GLXBadRenderRequest);
	}

        if (entry.varsize) {
            /* variable size command */
            extra = (*entry.varsize)(pc + __GLX_RENDER_HDR_SIZE,
				     client->swapped);
            if (extra < 0) {
                extra = 0;
            }
            if (cmdlen != __GLX_PAD(entry.bytes + extra)) {
                return BadLength;
            }
        } else {
            /* constant size command */
            if (cmdlen != __GLX_PAD(entry.bytes)) {
                return BadLength;
            }
        }
	if (left < cmdlen) {
	    return BadLength;
	}

	/*
	** Skip over the header and execute the command.  We allow the
	** caller to trash the command memory.  This is useful especially
	** for things that require double alignment - they can just shift
	** the data towards lower memory (trashing the header) by 4 bytes
	** and achieve the required alignment.
	*/
	(*proc)(pc + __GLX_RENDER_HDR_SIZE);
	pc += cmdlen;
	left -= cmdlen;
	commandsDone++;
    }
    __GLX_NOTE_UNFLUSHED_CMDS(glxc);
    return Success;
}


/*
** Execute a large rendering request (one that spans multiple X requests).
*/
int __glXDisp_RenderLarge(__GLXclientState *cl, GLbyte *pc)
{
    xGLXRenderLargeReq *req;
    ClientPtr client= cl->client;
    size_t dataBytes;
    __GLXrenderLargeHeader *hdr;
    __GLXcontext *glxc;
    int error;
    CARD16 opcode;
    __GLX_DECLARE_SWAP_VARIABLES;
    
    req = (xGLXRenderLargeReq *) pc;
    if (client->swapped) {
	__GLX_SWAP_SHORT(&req->length);
	__GLX_SWAP_INT(&req->contextTag);
	__GLX_SWAP_INT(&req->dataBytes);
	__GLX_SWAP_SHORT(&req->requestNumber);
	__GLX_SWAP_SHORT(&req->requestTotal);
    }

    glxc = __glXForceCurrent(cl, req->contextTag, &error);
    if (!glxc) {
	/* Reset in case this isn't 1st request. */
	__glXResetLargeCommandStatus(cl);
	return error;
    }
    dataBytes = req->dataBytes;

    /*
    ** Check the request length.
    */
    if ((req->length << 2) != __GLX_PAD(dataBytes) + sz_xGLXRenderLargeReq) {
	client->errorValue = req->length;
	/* Reset in case this isn't 1st request. */
	__glXResetLargeCommandStatus(cl);
	return BadLength;
    }
    pc += sz_xGLXRenderLargeReq;
    
    if (cl->largeCmdRequestsSoFar == 0) {
	__GLXrenderSizeData entry;
	int extra;
	size_t cmdlen;
	int err;

	/*
	** This is the first request of a multi request command.
	** Make enough space in the buffer, then copy the entire request.
	*/
	if (req->requestNumber != 1) {
	    client->errorValue = req->requestNumber;
	    return __glXError(GLXBadLargeRequest);
	}

	hdr = (__GLXrenderLargeHeader *) pc;
	if (client->swapped) {
	    __GLX_SWAP_INT(&hdr->length);
	    __GLX_SWAP_INT(&hdr->opcode);
	}
	cmdlen = hdr->length;
	opcode = hdr->opcode;

	/*
	** Check for core opcodes and grab entry data.
	*/
	err = __glXGetProtocolSizeData(& Render_dispatch_info, opcode, & entry);
	if (err < 0) {
	    client->errorValue = opcode;
	    return __glXError(GLXBadLargeRequest);
	}

	if (entry.varsize) {
	    /*
	    ** If it's a variable-size command (a command whose length must
	    ** be computed from its parameters), all the parameters needed
	    ** will be in the 1st request, so it's okay to do this.
	    */
	    extra = (*entry.varsize)(pc + __GLX_RENDER_LARGE_HDR_SIZE,
				     client->swapped);
	    if (extra < 0) {
		extra = 0;
	    }
	    /* large command's header is 4 bytes longer, so add 4 */
	    if (cmdlen != __GLX_PAD(entry.bytes + 4 + extra)) {
		return BadLength;
	    }
	} else {
	    /* constant size command */
	    if (cmdlen != __GLX_PAD(entry.bytes + 4)) {
		return BadLength;
	    }
	}
	/*
	** Make enough space in the buffer, then copy the entire request.
	*/
	if (cl->largeCmdBufSize < cmdlen) {
	    if (!cl->largeCmdBuf) {
		cl->largeCmdBuf = (GLbyte *) xalloc(cmdlen);
	    } else {
		cl->largeCmdBuf = (GLbyte *) xrealloc(cl->largeCmdBuf, cmdlen);
	    }
	    if (!cl->largeCmdBuf) {
		return BadAlloc;
	    }
	    cl->largeCmdBufSize = cmdlen;
	}
	memcpy(cl->largeCmdBuf, pc, dataBytes);

	cl->largeCmdBytesSoFar = dataBytes;
	cl->largeCmdBytesTotal = cmdlen;
	cl->largeCmdRequestsSoFar = 1;
	cl->largeCmdRequestsTotal = req->requestTotal;
	return Success;
	
    } else {
	/*
	** We are receiving subsequent (i.e. not the first) requests of a
	** multi request command.
	*/

	/*
	** Check the request number and the total request count.
	*/
	if (req->requestNumber != cl->largeCmdRequestsSoFar + 1) {
	    client->errorValue = req->requestNumber;
	    __glXResetLargeCommandStatus(cl);
	    return __glXError(GLXBadLargeRequest);
	}
	if (req->requestTotal != cl->largeCmdRequestsTotal) {
	    client->errorValue = req->requestTotal;
	    __glXResetLargeCommandStatus(cl);
	    return __glXError(GLXBadLargeRequest);
	}

	/*
	** Check that we didn't get too much data.
	*/
	if ((cl->largeCmdBytesSoFar + dataBytes) > cl->largeCmdBytesTotal) {
	    client->errorValue = dataBytes;
	    __glXResetLargeCommandStatus(cl);
	    return __glXError(GLXBadLargeRequest);
	}
	memcpy(cl->largeCmdBuf + cl->largeCmdBytesSoFar, pc, dataBytes);
	cl->largeCmdBytesSoFar += dataBytes;
	cl->largeCmdRequestsSoFar++;

	if (req->requestNumber == cl->largeCmdRequestsTotal) {
	    __GLXdispatchRenderProcPtr proc;

	    /*
	    ** This is the last request; it must have enough bytes to complete
	    ** the command.
	    */
	    /* NOTE: the two pad macros have been added below; they are needed
	    ** because the client library pads the total byte count, but not
	    ** the per-request byte counts.  The Protocol Encoding says the
	    ** total byte count should not be padded, so a proposal will be 
	    ** made to the ARB to relax the padding constraint on the total 
	    ** byte count, thus preserving backward compatibility.  Meanwhile, 
	    ** the padding done below fixes a bug that did not allow
	    ** large commands of odd sizes to be accepted by the server.
	    */
	    if (__GLX_PAD(cl->largeCmdBytesSoFar) !=
		__GLX_PAD(cl->largeCmdBytesTotal)) {
		client->errorValue = dataBytes;
		__glXResetLargeCommandStatus(cl);
		return __glXError(GLXBadLargeRequest);
	    }
	    hdr = (__GLXrenderLargeHeader *) cl->largeCmdBuf;
	    /*
	    ** The opcode and length field in the header had already been
	    ** swapped when the first request was received.
	    **
	    ** Use the opcode to index into the procedure table.
	    */
	    opcode = hdr->opcode;

	    proc = (__GLXdispatchRenderProcPtr)
	      __glXGetProtocolDecodeFunction(& Render_dispatch_info, opcode,
					     client->swapped);
	    if (proc == NULL) {
		client->errorValue = opcode;
		return __glXError(GLXBadLargeRequest);
	    }

	    /*
	    ** Skip over the header and execute the command.
	    */
	    (*proc)(cl->largeCmdBuf + __GLX_RENDER_LARGE_HDR_SIZE);
	    __GLX_NOTE_UNFLUSHED_CMDS(glxc);

	    /*
	    ** Reset for the next RenderLarge series.
	    */
	    __glXResetLargeCommandStatus(cl);
	} else {
	    /*
	    ** This is neither the first nor the last request.
	    */
	}
	return Success;
    }
}

extern RESTYPE __glXSwapBarrierRes;

int __glXDisp_BindSwapBarrierSGIX(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXBindSwapBarrierSGIXReq *req = (xGLXBindSwapBarrierSGIXReq *) pc;
    XID drawable = req->drawable;
    int barrier = req->barrier;
    DrawablePtr pDraw;
    int screen, rc;
    __GLXscreen *pGlxScreen;

    rc = dixLookupDrawable(&pDraw, drawable, client, 0, DixGetAttrAccess);
    pGlxScreen = glxGetScreen(pDraw->pScreen);
    if (rc == Success && (pDraw->type == DRAWABLE_WINDOW)) {
	screen = pDraw->pScreen->myNum;
        if (pGlxScreen->swapBarrierFuncs) {
            int ret = pGlxScreen->swapBarrierFuncs->bindSwapBarrierFunc(screen, drawable, barrier);
            if (ret == Success) {
                if (barrier)
                    /* add source for cleanup when drawable is gone */
                    AddResource(drawable, __glXSwapBarrierRes, (pointer)screen);
                else
                    /* delete source */
                    FreeResourceByType(drawable, __glXSwapBarrierRes, FALSE);
            }
            return ret;
        }
    }
    client->errorValue = drawable;
    return __glXError(GLXBadDrawable);
}


int __glXDisp_QueryMaxSwapBarriersSGIX(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryMaxSwapBarriersSGIXReq *req =
                                    (xGLXQueryMaxSwapBarriersSGIXReq *) pc;
    xGLXQueryMaxSwapBarriersSGIXReply reply;
    int screen = req->screen;
    __GLXscreen *pGlxScreen;

    pGlxScreen = glxGetScreen(screenInfo.screens[screen]);
    if (pGlxScreen->swapBarrierFuncs)
        reply.max = pGlxScreen->swapBarrierFuncs->queryMaxSwapBarriersFunc(screen);
    else
        reply.max = 0;


    reply.length = 0;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;

    if (client->swapped) {
        __GLX_DECLARE_SWAP_VARIABLES;
        __GLX_SWAP_SHORT(&reply.sequenceNumber);
    }

    WriteToClient(client, sz_xGLXQueryMaxSwapBarriersSGIXReply,
                        (char *) &reply);
    return Success;
}

#define GLX_BAD_HYPERPIPE_SGIX 92

int __glXDisp_QueryHyperpipeNetworkSGIX(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryHyperpipeNetworkSGIXReq * req = (xGLXQueryHyperpipeNetworkSGIXReq *) pc;
    xGLXQueryHyperpipeNetworkSGIXReply reply;
    int screen = req->screen;
    void *rdata = NULL;

    int length=0;
    int npipes=0;

    int n= 0;
    __GLXscreen *pGlxScreen;

    pGlxScreen = glxGetScreen(screenInfo.screens[screen]);
    if (pGlxScreen->hyperpipeFuncs) {
        rdata =
            (pGlxScreen->hyperpipeFuncs->queryHyperpipeNetworkFunc(screen, &npipes, &n));
    }
    length = __GLX_PAD(n) >> 2;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = length;
    reply.n = n;
    reply.npipes = npipes;

    if (client->swapped) {
        __GLX_DECLARE_SWAP_VARIABLES;
        __GLX_SWAP_SHORT(&reply.sequenceNumber);
        __GLX_SWAP_INT(&reply.length);
        __GLX_SWAP_INT(&reply.n);
        __GLX_SWAP_INT(&reply.npipes);
    }
    WriteToClient(client, sz_xGLXQueryHyperpipeNetworkSGIXReply,
                  (char *) &reply);

    WriteToClient(client, length << 2, (char *)rdata);

    return Success;
}

int __glXDisp_DestroyHyperpipeConfigSGIX (__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXDestroyHyperpipeConfigSGIXReq * req =
        (xGLXDestroyHyperpipeConfigSGIXReq *) pc;
    xGLXDestroyHyperpipeConfigSGIXReply reply;
    int screen = req->screen;
    int  success = GLX_BAD_HYPERPIPE_SGIX;
    int hpId ;
    __GLXscreen *pGlxScreen;

    hpId = req->hpId;

    pGlxScreen = glxGetScreen(screenInfo.screens[screen]);
    if (pGlxScreen->hyperpipeFuncs) {
        success = pGlxScreen->hyperpipeFuncs->destroyHyperpipeConfigFunc(screen, hpId);
    }

    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = __GLX_PAD(0) >> 2;
    reply.n = 0;
    reply.success = success;


    if (client->swapped) {
        __GLX_DECLARE_SWAP_VARIABLES;
        __GLX_SWAP_SHORT(&reply.sequenceNumber);
    }
    WriteToClient(client,
                  sz_xGLXDestroyHyperpipeConfigSGIXReply,
                  (char *) &reply);
    return Success;
}

int __glXDisp_QueryHyperpipeConfigSGIX(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryHyperpipeConfigSGIXReq * req =
        (xGLXQueryHyperpipeConfigSGIXReq *) pc;
    xGLXQueryHyperpipeConfigSGIXReply reply;
    int screen = req->screen;
    void *rdata = NULL;
    int length;
    int npipes=0;
    int n= 0;
    int hpId;
    __GLXscreen *pGlxScreen;

    hpId = req->hpId;

    pGlxScreen = glxGetScreen(screenInfo.screens[screen]);
    if (pGlxScreen->hyperpipeFuncs) {
        rdata = pGlxScreen->hyperpipeFuncs->queryHyperpipeConfigFunc(screen, hpId,&npipes, &n);
    }

    length = __GLX_PAD(n) >> 2;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = length;
    reply.n = n;
    reply.npipes = npipes;


    if (client->swapped) {
        __GLX_DECLARE_SWAP_VARIABLES;
        __GLX_SWAP_SHORT(&reply.sequenceNumber);
        __GLX_SWAP_INT(&reply.length);
        __GLX_SWAP_INT(&reply.n);
        __GLX_SWAP_INT(&reply.npipes);
    }

    WriteToClient(client, sz_xGLXQueryHyperpipeConfigSGIXReply,
                  (char *) &reply);

    WriteToClient(client, length << 2, (char *)rdata);

    return Success;
}

int __glXDisp_HyperpipeConfigSGIX(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXHyperpipeConfigSGIXReq * req =
        (xGLXHyperpipeConfigSGIXReq *) pc;
    xGLXHyperpipeConfigSGIXReply reply;
    int screen = req->screen;
    void *rdata;

    int npipes=0, networkId;
    int hpId=-1;
    __GLXscreen *pGlxScreen;

    pGlxScreen = glxGetScreen(screenInfo.screens[screen]);
    networkId = (int)req->networkId;
    npipes = (int)req->npipes;
    rdata = (void *)(req +1);

    if (pGlxScreen->hyperpipeFuncs) {
        pGlxScreen->hyperpipeFuncs->hyperpipeConfigFunc(screen,networkId,
                                                        &hpId, &npipes,
                                                        (void *) rdata);
    }

    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = __GLX_PAD(0) >> 2;
    reply.n = 0;
    reply.npipes = npipes;
    reply.hpId = hpId;

    if (client->swapped) {
        __GLX_DECLARE_SWAP_VARIABLES;
        __GLX_SWAP_SHORT(&reply.sequenceNumber);
        __GLX_SWAP_INT(&reply.npipes);
        __GLX_SWAP_INT(&reply.hpId);
    }

    WriteToClient(client, sz_xGLXHyperpipeConfigSGIXReply,
                  (char *) &reply);

    return Success;
}


/************************************************************************/

/*
** No support is provided for the vendor-private requests other than
** allocating the entry points in the dispatch table.
*/

int __glXDisp_VendorPrivate(__GLXclientState *cl, GLbyte *pc)
{
    xGLXVendorPrivateReq *req = (xGLXVendorPrivateReq *) pc;
    GLint vendorcode = req->vendorCode;
    __GLXdispatchVendorPrivProcPtr proc;


    proc = (__GLXdispatchVendorPrivProcPtr)
      __glXGetProtocolDecodeFunction(& VendorPriv_dispatch_info,
				     vendorcode, 0);
    if (proc != NULL) {
	(*proc)(cl, (GLbyte*)req);
	return Success;
    }

    cl->client->errorValue = req->vendorCode;
    return __glXError(GLXUnsupportedPrivateRequest);
}

int __glXDisp_VendorPrivateWithReply(__GLXclientState *cl, GLbyte *pc)
{
    xGLXVendorPrivateReq *req = (xGLXVendorPrivateReq *) pc;
    GLint vendorcode = req->vendorCode;
    __GLXdispatchVendorPrivProcPtr proc;


    proc = (__GLXdispatchVendorPrivProcPtr)
      __glXGetProtocolDecodeFunction(& VendorPriv_dispatch_info,
				     vendorcode, 0);
    if (proc != NULL) {
	return (*proc)(cl, (GLbyte*)req);
    }

    cl->client->errorValue = vendorcode;
    return __glXError(GLXUnsupportedPrivateRequest);
}

int __glXDisp_QueryExtensionsString(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryExtensionsStringReq *req = (xGLXQueryExtensionsStringReq *) pc;
    xGLXQueryExtensionsStringReply reply;
    __GLXscreen *pGlxScreen;
    size_t n, length;
    char *buf;
    int err;

    if (!validGlxScreen(client, req->screen, &pGlxScreen, &err))
	return err;

    n = strlen(pGlxScreen->GLXextensions) + 1;
    length = __GLX_PAD(n) >> 2;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = length;
    reply.n = n;

    /* Allocate buffer to make sure it's a multiple of 4 bytes big.*/
    buf = (char *) xalloc(length << 2);
    if (buf == NULL)
        return BadAlloc;
    memcpy(buf, pGlxScreen->GLXextensions, n);

    if (client->swapped) {
        glxSwapQueryExtensionsStringReply(client, &reply, buf);
    } else {
        WriteToClient(client, sz_xGLXQueryExtensionsStringReply,(char *)&reply);
        WriteToClient(client, (int)(length << 2), (char *)buf);
    }

    xfree(buf);
    return Success;
}

int __glXDisp_QueryServerString(__GLXclientState *cl, GLbyte *pc)
{
    ClientPtr client = cl->client;
    xGLXQueryServerStringReq *req = (xGLXQueryServerStringReq *) pc;
    xGLXQueryServerStringReply reply;
    size_t n, length;
    const char *ptr;
    char *buf;
    __GLXscreen *pGlxScreen;
    int err;

    if (!validGlxScreen(client, req->screen, &pGlxScreen, &err))
	return err;

    switch(req->name) {
	case GLX_VENDOR:
	    ptr = pGlxScreen->GLXvendor;
	    break;
	case GLX_VERSION:
	    ptr = pGlxScreen->GLXversion;
	    break;
	case GLX_EXTENSIONS:
	    ptr = pGlxScreen->GLXextensions;
	    break;
	default:
	    return BadValue; 
    }

    n = strlen(ptr) + 1;
    length = __GLX_PAD(n) >> 2;
    reply.type = X_Reply;
    reply.sequenceNumber = client->sequence;
    reply.length = length;
    reply.n = n;

    buf = (char *) xalloc(length << 2);
    if (buf == NULL) {
        return BadAlloc;
    }
    memcpy(buf, ptr, n);

    if (client->swapped) {
        glxSwapQueryServerStringReply(client, &reply, buf);
    } else {
        WriteToClient(client, sz_xGLXQueryServerStringReply, (char *)&reply);
        WriteToClient(client, (int)(length << 2), buf);
    }

    xfree(buf);
    return Success;
}

int __glXDisp_ClientInfo(__GLXclientState *cl, GLbyte *pc)
{
    xGLXClientInfoReq *req = (xGLXClientInfoReq *) pc;
    const char *buf;
   
    cl->GLClientmajorVersion = req->major;
    cl->GLClientminorVersion = req->minor;
    if (cl->GLClientextensions)
	xfree(cl->GLClientextensions);
    buf = (const char *)(req+1);
    cl->GLClientextensions = xstrdup(buf);

    return Success;
}