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|
/*
* Copyright (c) 1997-2003 by The XFree86 Project, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Except as contained in this notice, the name of the copyright holder(s)
* and author(s) shall not be used in advertising or otherwise to promote
* the sale, use or other dealings in this Software without prior written
* authorization from the copyright holder(s) and author(s).
*/
/*
* Authors: Dirk Hohndel <hohndel@XFree86.Org>
* David Dawes <dawes@XFree86.Org>
* ... and others
*
* This file includes the helper functions that the server provides for
* different drivers.
*/
#ifdef HAVE_XORG_CONFIG_H
#include <xorg-config.h>
#endif
#include <pciaccess.h>
#include "Pci.h"
#include <X11/X.h>
#include "os.h"
#include "servermd.h"
#include "pixmapstr.h"
#include "windowstr.h"
#include "propertyst.h"
#include "gcstruct.h"
#include "loaderProcs.h"
#include "xf86.h"
#include "xf86Priv.h"
#include "xf86_OSlib.h"
#include "micmap.h"
#include "xf86PciInfo.h"
#include "xf86DDC.h"
#include "xf86Xinput.h"
#include "xf86InPriv.h"
#include "mivalidate.h"
#include "xf86RAC.h"
#include "xf86Bus.h"
#include "xf86Version.h"
/* For xf86GetClocks */
#if defined(CSRG_BASED) || defined(__GNU__)
#define HAS_SETPRIORITY
#include <sys/resource.h>
#endif
static int xf86ScrnInfoPrivateCount = 0;
/* Add a pointer to a new DriverRec to xf86DriverList */
_X_EXPORT void
xf86AddDriver(DriverPtr driver, pointer module, int flags)
{
/* Don't add null entries */
if (!driver)
return;
if (xf86DriverList == NULL)
xf86NumDrivers = 0;
xf86NumDrivers++;
xf86DriverList = xnfrealloc(xf86DriverList,
xf86NumDrivers * sizeof(DriverPtr));
xf86DriverList[xf86NumDrivers - 1] = xnfalloc(sizeof(DriverRec));
if (flags & HaveDriverFuncs)
*xf86DriverList[xf86NumDrivers - 1] = *driver;
else {
(void) memset( xf86DriverList[xf86NumDrivers - 1], 0,
sizeof( DriverRec ) );
(void) memcpy( xf86DriverList[xf86NumDrivers - 1], driver,
sizeof(DriverRec1));
}
xf86DriverList[xf86NumDrivers - 1]->module = module;
xf86DriverList[xf86NumDrivers - 1]->refCount = 0;
}
_X_EXPORT void
xf86DeleteDriver(int drvIndex)
{
if (xf86DriverList[drvIndex]
&& (!xf86DriverHasEntities(xf86DriverList[drvIndex]))) {
if (xf86DriverList[drvIndex]->module)
UnloadModule(xf86DriverList[drvIndex]->module);
xfree(xf86DriverList[drvIndex]);
xf86DriverList[drvIndex] = NULL;
}
}
/* Add a pointer to a new InputDriverRec to xf86InputDriverList */
_X_EXPORT void
xf86AddInputDriver(InputDriverPtr driver, pointer module, int flags)
{
/* Don't add null entries */
if (!driver)
return;
if (xf86InputDriverList == NULL)
xf86NumInputDrivers = 0;
xf86NumInputDrivers++;
xf86InputDriverList = xnfrealloc(xf86InputDriverList,
xf86NumInputDrivers * sizeof(InputDriverPtr));
xf86InputDriverList[xf86NumInputDrivers - 1] =
xnfalloc(sizeof(InputDriverRec));
*xf86InputDriverList[xf86NumInputDrivers - 1] = *driver;
xf86InputDriverList[xf86NumInputDrivers - 1]->module = module;
xf86InputDriverList[xf86NumInputDrivers - 1]->refCount = 0;
}
void
xf86DeleteInputDriver(int drvIndex)
{
if (xf86InputDriverList[drvIndex] && xf86InputDriverList[drvIndex]->module)
UnloadModule(xf86InputDriverList[drvIndex]->module);
xfree(xf86InputDriverList[drvIndex]);
xf86InputDriverList[drvIndex] = NULL;
}
InputDriverPtr
xf86LookupInputDriver(const char *name)
{
int i;
for (i = 0; i < xf86NumInputDrivers; i++) {
if (xf86InputDriverList[i] && xf86InputDriverList[i]->driverName &&
xf86NameCmp(name, xf86InputDriverList[i]->driverName) == 0)
return xf86InputDriverList[i];
}
return NULL;
}
InputInfoPtr
xf86LookupInput(const char *name)
{
InputInfoPtr p;
for (p = xf86InputDevs; p != NULL; p = p->next) {
if (strcmp(name, p->name) == 0)
return p;
}
return NULL;
}
_X_EXPORT void
xf86AddModuleInfo(ModuleInfoPtr info, pointer module)
{
/* Don't add null entries */
if (!module)
return;
if (xf86ModuleInfoList == NULL)
xf86NumModuleInfos = 0;
xf86NumModuleInfos++;
xf86ModuleInfoList = xnfrealloc(xf86ModuleInfoList,
xf86NumModuleInfos * sizeof(ModuleInfoPtr));
xf86ModuleInfoList[xf86NumModuleInfos - 1] = xnfalloc(sizeof(ModuleInfoRec));
*xf86ModuleInfoList[xf86NumModuleInfos - 1] = *info;
xf86ModuleInfoList[xf86NumModuleInfos - 1]->module = module;
xf86ModuleInfoList[xf86NumModuleInfos - 1]->refCount = 0;
}
_X_EXPORT void
xf86DeleteModuleInfo(int idx)
{
if (xf86ModuleInfoList[idx]) {
if (xf86ModuleInfoList[idx]->module)
UnloadModule(xf86ModuleInfoList[idx]->module);
xfree(xf86ModuleInfoList[idx]);
xf86ModuleInfoList[idx] = NULL;
}
}
/* Allocate a new ScrnInfoRec in xf86Screens */
_X_EXPORT ScrnInfoPtr
xf86AllocateScreen(DriverPtr drv, int flags)
{
int i;
if (xf86Screens == NULL)
xf86NumScreens = 0;
i = xf86NumScreens++;
xf86Screens = xnfrealloc(xf86Screens, xf86NumScreens * sizeof(ScrnInfoPtr));
xf86Screens[i] = xnfcalloc(sizeof(ScrnInfoRec), 1);
xf86Screens[i]->scrnIndex = i; /* Changes when a screen is removed */
xf86Screens[i]->origIndex = i; /* This never changes */
xf86Screens[i]->privates = xnfcalloc(sizeof(DevUnion),
xf86ScrnInfoPrivateCount);
/*
* EnableDisableFBAccess now gets initialized in InitOutput()
* xf86Screens[i]->EnableDisableFBAccess = xf86EnableDisableFBAccess;
*/
xf86Screens[i]->drv = drv;
drv->refCount++;
xf86Screens[i]->module = DuplicateModule(drv->module, NULL);
/*
* set the initial access state. This will be modified after PreInit.
* XXX Or should we do it some other place?
*/
xf86Screens[i]->CurrentAccess = &xf86CurrentAccess;
xf86Screens[i]->resourceType = MEM_IO;
#ifdef DEBUG
/* OOps -- What's this ? */
ErrorF("xf86AllocateScreen - xf86Screens[%d]->pScreen = %p\n",
i, xf86Screens[i]->pScreen );
if ( NULL != xf86Screens[i]->pScreen ) {
ErrorF("xf86Screens[%d]->pScreen->CreateWindow = %p\n",
i, xf86Screens[i]->pScreen->CreateWindow );
}
#endif
xf86Screens[i]->DriverFunc = drv->driverFunc;
return xf86Screens[i];
}
/*
* Remove an entry from xf86Screens. Ideally it should free all allocated
* data. To do this properly may require a driver hook.
*/
_X_EXPORT void
xf86DeleteScreen(int scrnIndex, int flags)
{
ScrnInfoPtr pScrn;
int i;
/* First check if the screen is valid */
if (xf86NumScreens == 0 || xf86Screens == NULL)
return;
if (scrnIndex > xf86NumScreens - 1)
return;
if (!(pScrn = xf86Screens[scrnIndex]))
return;
/* If a FreeScreen function is defined, call it here */
if (pScrn->FreeScreen != NULL)
pScrn->FreeScreen(scrnIndex, 0);
while (pScrn->modes)
xf86DeleteMode(&pScrn->modes, pScrn->modes);
while (pScrn->modePool)
xf86DeleteMode(&pScrn->modePool, pScrn->modePool);
xf86OptionListFree(pScrn->options);
if (pScrn->module)
UnloadModule(pScrn->module);
if (pScrn->drv)
pScrn->drv->refCount--;
if (pScrn->privates)
xfree(pScrn->privates);
xf86ClearEntityListForScreen(scrnIndex);
xfree(pScrn);
/* Move the other entries down, updating their scrnIndex fields */
xf86NumScreens--;
for (i = scrnIndex; i < xf86NumScreens; i++) {
xf86Screens[i] = xf86Screens[i + 1];
xf86Screens[i]->scrnIndex = i;
/* Also need to take care of the screen layout settings */
}
}
/*
* Allocate a private in ScrnInfoRec.
*/
_X_EXPORT int
xf86AllocateScrnInfoPrivateIndex(void)
{
int idx, i;
ScrnInfoPtr pScr;
DevUnion *nprivs;
idx = xf86ScrnInfoPrivateCount++;
for (i = 0; i < xf86NumScreens; i++) {
pScr = xf86Screens[i];
nprivs = xnfrealloc(pScr->privates,
xf86ScrnInfoPrivateCount * sizeof(DevUnion));
/* Zero the new private */
bzero(&nprivs[idx], sizeof(DevUnion));
pScr->privates = nprivs;
}
return idx;
}
/* Allocate a new InputInfoRec and add it to the head xf86InputDevs. */
_X_EXPORT InputInfoPtr
xf86AllocateInput(InputDriverPtr drv, int flags)
{
InputInfoPtr new;
if (!(new = xcalloc(sizeof(InputInfoRec), 1)))
return NULL;
new->drv = drv;
drv->refCount++;
new->module = DuplicateModule(drv->module, NULL);
new->next = xf86InputDevs;
xf86InputDevs = new;
return new;
}
/*
* Remove an entry from xf86InputDevs. Ideally it should free all allocated
* data. To do this properly may require a driver hook.
*/
_X_EXPORT void
xf86DeleteInput(InputInfoPtr pInp, int flags)
{
InputInfoPtr p;
/* First check if the inputdev is valid. */
if (pInp == NULL)
return;
#if 0
/* If a free function is defined, call it here. */
if (pInp->free)
pInp->free(pInp, 0);
#endif
if (pInp->module)
UnloadModule(pInp->module);
if (pInp->drv)
pInp->drv->refCount--;
if (pInp->private)
xfree(pInp->private);
/* Remove the entry from the list. */
if (pInp == xf86InputDevs)
xf86InputDevs = pInp->next;
else {
p = xf86InputDevs;
while (p && p->next != pInp)
p = p->next;
if (p)
p->next = pInp->next;
/* Else the entry wasn't in the xf86InputDevs list (ignore this). */
}
xfree(pInp);
}
_X_EXPORT Bool
xf86AddPixFormat(ScrnInfoPtr pScrn, int depth, int bpp, int pad)
{
int i;
if (pScrn->numFormats >= MAXFORMATS)
return FALSE;
if (bpp <= 0) {
if (depth == 1)
bpp = 1;
else if (depth <= 8)
bpp = 8;
else if (depth <= 16)
bpp = 16;
else if (depth <= 32)
bpp = 32;
else
return FALSE;
}
if (pad <= 0)
pad = BITMAP_SCANLINE_PAD;
i = pScrn->numFormats++;
pScrn->formats[i].depth = depth;
pScrn->formats[i].bitsPerPixel = bpp;
pScrn->formats[i].scanlinePad = pad;
return TRUE;
}
/*
* Set the depth we are using based on (in the following order of preference):
* - values given on the command line
* - values given in the config file
* - values provided by the driver
* - an overall default when nothing else is given
*
* Also find a Display subsection matching the depth/bpp found.
*
* Sets the following ScrnInfoRec fields:
* bitsPerPixel, pixmap24, depth, display, imageByteOrder,
* bitmapScanlinePad, bitmapScanlineUnit, bitmapBitOrder, numFormats,
* formats, fbFormat.
*/
/* Can the screen handle 24 bpp pixmaps */
#define DO_PIX24(f) ((f & Support24bppFb) || \
((f & Support32bppFb) && (f & SupportConvert24to32)))
/* Can the screen handle 32 bpp pixmaps */
#define DO_PIX32(f) ((f & Support32bppFb) || \
((f & Support24bppFb) && (f & SupportConvert32to24)))
/* Does the screen prefer 32bpp fb for 24bpp pixmaps */
#define CHOOSE32FOR24(f) ((f & Support32bppFb) && (f & SupportConvert24to32) \
&& (f & PreferConvert24to32))
/* Does the screen prefer 24bpp fb for 32bpp pixmaps */
#define CHOOSE24FOR32(f) ((f & Support24bppFb) && (f & SupportConvert32to24) \
&& (f & PreferConvert32to24))
/* Can the screen handle 32bpp pixmaps for 24bpp fb */
#define DO_PIX32FOR24(f) ((f & Support24bppFb) && (f & SupportConvert32to24))
/* Can the screen handle 24bpp pixmaps for 32bpp fb */
#define DO_PIX24FOR32(f) ((f & Support32bppFb) && (f & SupportConvert24to32))
#ifndef GLOBAL_DEFAULT_DEPTH
#define GLOBAL_DEFAULT_DEPTH 24
#endif
#ifndef GLOBAL_DEFAULT_FBBPP
#define GLOBAL_DEFAULT_FBBPP 32
#endif
_X_EXPORT Bool
xf86SetDepthBpp(ScrnInfoPtr scrp, int depth, int dummy, int fbbpp,
int depth24flags)
{
int i;
DispPtr disp;
Pix24Flags pix24 = xf86Info.pixmap24;
Bool nomatch = FALSE;
scrp->bitsPerPixel = -1;
scrp->depth = -1;
scrp->pixmap24 = Pix24DontCare;
scrp->bitsPerPixelFrom = X_DEFAULT;
scrp->depthFrom = X_DEFAULT;
#if BITMAP_SCANLINE_UNIT == 64
/*
* For platforms with 64-bit scanlines, modify the driver's depth24flags
* to remove preferences for packed 24bpp modes, which are not currently
* supported on these platforms.
*/
depth24flags &= ~(SupportConvert32to24 | SupportConvert32to24 |
PreferConvert24to32 | PreferConvert32to24);
#endif
if (xf86FbBpp > 0) {
scrp->bitsPerPixel = xf86FbBpp;
scrp->bitsPerPixelFrom = X_CMDLINE;
}
if (xf86Depth > 0) {
scrp->depth = xf86Depth;
scrp->depthFrom = X_CMDLINE;
}
if (xf86FbBpp < 0 && xf86Depth < 0) {
if (scrp->confScreen->defaultfbbpp > 0) {
scrp->bitsPerPixel = scrp->confScreen->defaultfbbpp;
scrp->bitsPerPixelFrom = X_CONFIG;
}
if (scrp->confScreen->defaultdepth > 0) {
scrp->depth = scrp->confScreen->defaultdepth;
scrp->depthFrom = X_CONFIG;
}
if (scrp->confScreen->defaultfbbpp <= 0 &&
scrp->confScreen->defaultdepth <= 0) {
/*
* Check for DefaultDepth and DefaultFbBpp options in the
* Device sections.
*/
int i;
GDevPtr device;
Bool found = FALSE;
for (i = 0; i < scrp->numEntities; i++) {
device = xf86GetDevFromEntity(scrp->entityList[i],
scrp->entityInstanceList[i]);
if (device && device->options) {
if (xf86FindOption(device->options, "DefaultDepth")) {
scrp->depth = xf86SetIntOption(device->options,
"DefaultDepth", -1);
scrp->depthFrom = X_CONFIG;
found = TRUE;
}
if (xf86FindOption(device->options, "DefaultFbBpp")) {
scrp->bitsPerPixel = xf86SetIntOption(device->options,
"DefaultFbBpp",
-1);
scrp->bitsPerPixelFrom = X_CONFIG;
found = TRUE;
}
}
if (found)
break;
}
}
}
/* If none of these is set, pick a default */
if (scrp->bitsPerPixel < 0 && scrp->depth < 0) {
if (fbbpp > 0 || depth > 0) {
if (fbbpp > 0)
scrp->bitsPerPixel = fbbpp;
if (depth > 0)
scrp->depth = depth;
} else {
scrp->bitsPerPixel = GLOBAL_DEFAULT_FBBPP;
scrp->depth = GLOBAL_DEFAULT_DEPTH;
}
}
/* If any are not given, determine a default for the others */
if (scrp->bitsPerPixel < 0) {
/* The depth must be set */
if (scrp->depth > -1) {
if (scrp->depth == 1)
scrp->bitsPerPixel = 1;
else if (scrp->depth <= 4)
scrp->bitsPerPixel = 4;
else if (scrp->depth <= 8)
scrp->bitsPerPixel = 8;
else if (scrp->depth <= 16)
scrp->bitsPerPixel = 16;
else if (scrp->depth <= 24) {
/*
* Figure out if a choice is possible based on the depth24
* and pix24 flags.
*/
/* Check pix24 first */
if (pix24 != Pix24DontCare) {
if (pix24 == Pix24Use32) {
if (DO_PIX32(depth24flags)) {
if (CHOOSE24FOR32(depth24flags))
scrp->bitsPerPixel = 24;
else
scrp->bitsPerPixel = 32;
} else {
nomatch = TRUE;
}
} else if (pix24 == Pix24Use24) {
if (DO_PIX24(depth24flags)) {
if (CHOOSE32FOR24(depth24flags))
scrp->bitsPerPixel = 32;
else
scrp->bitsPerPixel = 24;
} else {
nomatch = TRUE;
}
}
} else {
if (DO_PIX32(depth24flags)) {
if (CHOOSE24FOR32(depth24flags))
scrp->bitsPerPixel = 24;
else
scrp->bitsPerPixel = 32;
} else if (DO_PIX24(depth24flags)) {
if (CHOOSE32FOR24(depth24flags))
scrp->bitsPerPixel = 32;
else
scrp->bitsPerPixel = 24;
}
}
} else if (scrp->depth <= 32)
scrp->bitsPerPixel = 32;
else {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Specified depth (%d) is greater than 32\n",
scrp->depth);
return FALSE;
}
} else {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"xf86SetDepthBpp: internal error: depth and fbbpp"
" are both not set\n");
return FALSE;
}
if (scrp->bitsPerPixel < 0) {
if (nomatch)
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Driver can't support depth 24 pixmap format (%d)\n",
PIX24TOBPP(pix24));
else if ((depth24flags & (Support24bppFb | Support32bppFb)) ==
NoDepth24Support)
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Driver can't support depth 24\n");
else
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Can't find fbbpp for depth 24\n");
return FALSE;
}
scrp->bitsPerPixelFrom = X_PROBED;
}
if (scrp->depth <= 0) {
/* bitsPerPixel is already set */
switch (scrp->bitsPerPixel) {
case 32:
scrp->depth = 24;
break;
default:
/* 1, 4, 8, 16 and 24 */
scrp->depth = scrp->bitsPerPixel;
break;
}
scrp->depthFrom = X_PROBED;
}
/* Sanity checks */
if (scrp->depth < 1 || scrp->depth > 32) {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Specified depth (%d) is not in the range 1-32\n",
scrp->depth);
return FALSE;
}
switch (scrp->bitsPerPixel) {
case 1:
case 4:
case 8:
case 16:
case 24:
case 32:
break;
default:
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Specified fbbpp (%d) is not a permitted value\n",
scrp->bitsPerPixel);
return FALSE;
}
if (scrp->depth > scrp->bitsPerPixel) {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Specified depth (%d) is greater than the fbbpp (%d)\n",
scrp->depth, scrp->bitsPerPixel);
return FALSE;
}
/* set scrp->pixmap24 if the driver isn't flexible */
if (scrp->bitsPerPixel == 24 && !DO_PIX32FOR24(depth24flags)) {
scrp->pixmap24 = Pix24Use24;
}
if (scrp->bitsPerPixel == 32 && !DO_PIX24FOR32(depth24flags)) {
scrp->pixmap24 = Pix24Use32;
}
/*
* Find the Display subsection matching the depth/fbbpp and initialise
* scrp->display with it.
*/
for (i = 0, disp = scrp->confScreen->displays;
i < scrp->confScreen->numdisplays; i++, disp++) {
if ((disp->depth == scrp->depth && disp->fbbpp == scrp->bitsPerPixel)
|| (disp->depth == scrp->depth && disp->fbbpp <= 0)
|| (disp->fbbpp == scrp->bitsPerPixel && disp->depth <= 0)) {
scrp->display = disp;
break;
}
}
/*
* If an exact match can't be found, see if there is one with no
* depth or fbbpp specified.
*/
if (i == scrp->confScreen->numdisplays) {
for (i = 0, disp = scrp->confScreen->displays;
i < scrp->confScreen->numdisplays; i++, disp++) {
if (disp->depth <= 0 && disp->fbbpp <= 0) {
scrp->display = disp;
break;
}
}
}
/*
* If all else fails, create a default one.
*/
if (i == scrp->confScreen->numdisplays) {
scrp->confScreen->numdisplays++;
scrp->confScreen->displays =
xnfrealloc(scrp->confScreen->displays,
scrp->confScreen->numdisplays * sizeof(DispRec));
xf86DrvMsg(scrp->scrnIndex, X_INFO,
"Creating default Display subsection in Screen section\n"
"\t\"%s\" for depth/fbbpp %d/%d\n",
scrp->confScreen->id, scrp->depth, scrp->bitsPerPixel);
memset(&scrp->confScreen->displays[i], 0, sizeof(DispRec));
scrp->confScreen->displays[i].blackColour.red = -1;
scrp->confScreen->displays[i].blackColour.green = -1;
scrp->confScreen->displays[i].blackColour.blue = -1;
scrp->confScreen->displays[i].whiteColour.red = -1;
scrp->confScreen->displays[i].whiteColour.green = -1;
scrp->confScreen->displays[i].whiteColour.blue = -1;
scrp->confScreen->displays[i].defaultVisual = -1;
scrp->confScreen->displays[i].modes = xnfalloc(sizeof(char *));
scrp->confScreen->displays[i].modes[0] = NULL;
scrp->confScreen->displays[i].depth = depth;
scrp->confScreen->displays[i].fbbpp = fbbpp;
scrp->display = &scrp->confScreen->displays[i];
}
/*
* Setup defaults for the display-wide attributes the framebuffer will
* need. These defaults should eventually be set globally, and not
* dependent on the screens.
*/
scrp->imageByteOrder = IMAGE_BYTE_ORDER;
scrp->bitmapScanlinePad = BITMAP_SCANLINE_PAD;
if (scrp->depth < 8) {
/* Planar modes need these settings */
scrp->bitmapScanlineUnit = 8;
scrp->bitmapBitOrder = MSBFirst;
} else {
scrp->bitmapScanlineUnit = BITMAP_SCANLINE_UNIT;
scrp->bitmapBitOrder = BITMAP_BIT_ORDER;
}
/*
* If an unusual depth is required, add it to scrp->formats. The formats
* for the common depths are handled globally in InitOutput
*/
switch (scrp->depth) {
case 1:
case 4:
case 8:
case 15:
case 16:
case 24:
/* Common depths. Nothing to do for them */
break;
default:
if (!xf86AddPixFormat(scrp, scrp->depth, 0, 0)) {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Can't add pixmap format for depth %d\n", scrp->depth);
return FALSE;
}
}
/* Initialise the framebuffer format for this screen */
scrp->fbFormat.depth = scrp->depth;
scrp->fbFormat.bitsPerPixel = scrp->bitsPerPixel;
scrp->fbFormat.scanlinePad = BITMAP_SCANLINE_PAD;
return TRUE;
}
/*
* Print out the selected depth and bpp.
*/
_X_EXPORT void
xf86PrintDepthBpp(ScrnInfoPtr scrp)
{
xf86DrvMsg(scrp->scrnIndex, scrp->depthFrom, "Depth %d, ", scrp->depth);
xf86Msg(scrp->bitsPerPixelFrom, "framebuffer bpp %d\n", scrp->bitsPerPixel);
}
/*
* xf86SetWeight sets scrp->weight, scrp->mask, scrp->offset, and for depths
* greater than MAX_PSEUDO_DEPTH also scrp->rgbBits.
*/
_X_EXPORT Bool
xf86SetWeight(ScrnInfoPtr scrp, rgb weight, rgb mask)
{
MessageType weightFrom = X_DEFAULT;
scrp->weight.red = 0;
scrp->weight.green = 0;
scrp->weight.blue = 0;
if (xf86Weight.red > 0 && xf86Weight.green > 0 && xf86Weight.blue > 0) {
scrp->weight = xf86Weight;
weightFrom = X_CMDLINE;
} else if (scrp->display->weight.red > 0 && scrp->display->weight.green > 0
&& scrp->display->weight.blue > 0) {
scrp->weight = scrp->display->weight;
weightFrom = X_CONFIG;
} else if (weight.red > 0 && weight.green > 0 && weight.blue > 0) {
scrp->weight = weight;
} else {
switch (scrp->depth) {
case 1:
case 4:
case 8:
scrp->weight.red = scrp->weight.green =
scrp->weight.blue = scrp->rgbBits;
break;
case 15:
scrp->weight.red = scrp->weight.green = scrp->weight.blue = 5;
break;
case 16:
scrp->weight.red = scrp->weight.blue = 5;
scrp->weight.green = 6;
break;
case 24:
scrp->weight.red = scrp->weight.green = scrp->weight.blue = 8;
break;
case 30:
scrp->weight.red = scrp->weight.green = scrp->weight.blue = 10;
break;
}
}
if (scrp->weight.red)
xf86DrvMsg(scrp->scrnIndex, weightFrom, "RGB weight %d%d%d\n",
(int)scrp->weight.red, (int)scrp->weight.green,
(int)scrp->weight.blue);
if (scrp->depth > MAX_PSEUDO_DEPTH &&
(scrp->depth != scrp->weight.red + scrp->weight.green +
scrp->weight.blue)) {
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Weight given (%d%d%d) is inconsistent with the "
"depth (%d)\n",
(int)scrp->weight.red, (int)scrp->weight.green,
(int)scrp->weight.blue, scrp->depth);
return FALSE;
}
if (scrp->depth > MAX_PSEUDO_DEPTH && scrp->weight.red) {
/*
* XXX Does this even mean anything for TrueColor visuals?
* If not, we shouldn't even be setting it here. However, this
* matches the behaviour of 3.x versions of XFree86.
*/
scrp->rgbBits = scrp->weight.red;
if (scrp->weight.green > scrp->rgbBits)
scrp->rgbBits = scrp->weight.green;
if (scrp->weight.blue > scrp->rgbBits)
scrp->rgbBits = scrp->weight.blue;
}
/* Set the mask and offsets */
if (mask.red == 0 || mask.green == 0 || mask.blue == 0) {
/* Default to a setting common to PC hardware */
scrp->offset.red = scrp->weight.green + scrp->weight.blue;
scrp->offset.green = scrp->weight.blue;
scrp->offset.blue = 0;
scrp->mask.red = ((1 << scrp->weight.red) - 1) << scrp->offset.red;
scrp->mask.green = ((1 << scrp->weight.green) - 1)
<< scrp->offset.green;
scrp->mask.blue = (1 << scrp->weight.blue) - 1;
} else {
/* Initialise to the values passed */
scrp->mask.red = mask.red;
scrp->mask.green = mask.green;
scrp->mask.blue = mask.blue;
scrp->offset.red = ffs(mask.red);
scrp->offset.green = ffs(mask.green);
scrp->offset.blue = ffs(mask.blue);
}
return TRUE;
}
_X_EXPORT Bool
xf86SetDefaultVisual(ScrnInfoPtr scrp, int visual)
{
MessageType visualFrom = X_DEFAULT;
if (defaultColorVisualClass >= 0) {
scrp->defaultVisual = defaultColorVisualClass;
visualFrom = X_CMDLINE;
} else if (scrp->display->defaultVisual >= 0) {
scrp->defaultVisual = scrp->display->defaultVisual;
visualFrom = X_CONFIG;
} else if (visual >= 0) {
scrp->defaultVisual = visual;
} else {
if (scrp->depth == 1)
scrp->defaultVisual = StaticGray;
else if (scrp->depth == 4)
scrp->defaultVisual = StaticColor;
else if (scrp->depth <= MAX_PSEUDO_DEPTH)
scrp->defaultVisual = PseudoColor;
else
scrp->defaultVisual = TrueColor;
}
switch (scrp->defaultVisual) {
case StaticGray:
case GrayScale:
case StaticColor:
case PseudoColor:
case TrueColor:
case DirectColor:
xf86DrvMsg(scrp->scrnIndex, visualFrom, "Default visual is %s\n",
xf86VisualNames[scrp->defaultVisual]);
return TRUE;
default:
xf86DrvMsg(scrp->scrnIndex, X_ERROR,
"Invalid default visual class (%d)\n", scrp->defaultVisual);
return FALSE;
}
}
#define TEST_GAMMA(g) \
(g).red > GAMMA_ZERO || (g).green > GAMMA_ZERO || (g).blue > GAMMA_ZERO
#define SET_GAMMA(g) \
(g) > GAMMA_ZERO ? (g) : 1.0
_X_EXPORT Bool
xf86SetGamma(ScrnInfoPtr scrp, Gamma gamma)
{
MessageType from = X_DEFAULT;
#if 0
xf86MonPtr DDC = (xf86MonPtr)(scrp->monitor->DDC);
#endif
if (TEST_GAMMA(xf86Gamma)) {
from = X_CMDLINE;
scrp->gamma.red = SET_GAMMA(xf86Gamma.red);
scrp->gamma.green = SET_GAMMA(xf86Gamma.green);
scrp->gamma.blue = SET_GAMMA(xf86Gamma.blue);
} else if (TEST_GAMMA(scrp->monitor->gamma)) {
from = X_CONFIG;
scrp->gamma.red = SET_GAMMA(scrp->monitor->gamma.red);
scrp->gamma.green = SET_GAMMA(scrp->monitor->gamma.green);
scrp->gamma.blue = SET_GAMMA(scrp->monitor->gamma.blue);
#if 0
} else if ( DDC && DDC->features.gamma > GAMMA_ZERO ) {
from = X_PROBED;
scrp->gamma.red = SET_GAMMA(DDC->features.gamma);
scrp->gamma.green = SET_GAMMA(DDC->features.gamma);
scrp->gamma.blue = SET_GAMMA(DDC->features.gamma);
/* EDID structure version 2 gives optional seperate red, green & blue gamma values
* in bytes 0x57-0x59 */
#endif
} else if (TEST_GAMMA(gamma)) {
scrp->gamma.red = SET_GAMMA(gamma.red);
scrp->gamma.green = SET_GAMMA(gamma.green);
scrp->gamma.blue = SET_GAMMA(gamma.blue);
} else {
scrp->gamma.red = 1.0;
scrp->gamma.green = 1.0;
scrp->gamma.blue = 1.0;
}
xf86DrvMsg(scrp->scrnIndex, from,
"Using gamma correction (%.1f, %.1f, %.1f)\n",
scrp->gamma.red, scrp->gamma.green, scrp->gamma.blue);
return TRUE;
}
#undef TEST_GAMMA
#undef SET_GAMMA
/*
* Set the DPI from the command line option. XXX should allow it to be
* calculated from the widthmm/heightmm values.
*/
#undef MMPERINCH
#define MMPERINCH 25.4
_X_EXPORT void
xf86SetDpi(ScrnInfoPtr pScrn, int x, int y)
{
MessageType from = X_DEFAULT;
xf86MonPtr DDC = (xf86MonPtr)(pScrn->monitor->DDC);
int ddcWidthmm, ddcHeightmm;
int widthErr, heightErr;
/* XXX Maybe there is no need for widthmm/heightmm in ScrnInfoRec */
pScrn->widthmm = pScrn->monitor->widthmm;
pScrn->heightmm = pScrn->monitor->heightmm;
if (DDC && (DDC->features.hsize > 0 && DDC->features.vsize > 0) ) {
/* DDC gives display size in mm for individual modes,
* but cm for monitor
*/
ddcWidthmm = DDC->features.hsize * 10; /* 10mm in 1cm */
ddcHeightmm = DDC->features.vsize * 10; /* 10mm in 1cm */
} else {
ddcWidthmm = ddcHeightmm = 0;
}
if (monitorResolution > 0) {
pScrn->xDpi = monitorResolution;
pScrn->yDpi = monitorResolution;
from = X_CMDLINE;
} else if (pScrn->widthmm > 0 || pScrn->heightmm > 0) {
from = X_CONFIG;
if (pScrn->widthmm > 0) {
pScrn->xDpi =
(int)((double)pScrn->virtualX * MMPERINCH / pScrn->widthmm);
}
if (pScrn->heightmm > 0) {
pScrn->yDpi =
(int)((double)pScrn->virtualY * MMPERINCH / pScrn->heightmm);
}
if (pScrn->xDpi > 0 && pScrn->yDpi <= 0)
pScrn->yDpi = pScrn->xDpi;
if (pScrn->yDpi > 0 && pScrn->xDpi <= 0)
pScrn->xDpi = pScrn->yDpi;
xf86DrvMsg(pScrn->scrnIndex, from, "Display dimensions: (%d, %d) mm\n",
pScrn->widthmm, pScrn->heightmm);
/* Warn if config and probe disagree about display size */
if ( ddcWidthmm && ddcHeightmm ) {
if (pScrn->widthmm > 0) {
widthErr = abs(ddcWidthmm - pScrn->widthmm);
} else {
widthErr = 0;
}
if (pScrn->heightmm > 0) {
heightErr = abs(ddcHeightmm - pScrn->heightmm);
} else {
heightErr = 0;
}
if (widthErr>10 || heightErr>10) {
/* Should include config file name for monitor here */
xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
"Probed monitor is %dx%d mm, using Displaysize %dx%d mm\n",
ddcWidthmm,ddcHeightmm, pScrn->widthmm,pScrn->heightmm);
}
}
} else if ( ddcWidthmm && ddcHeightmm ) {
from = X_PROBED;
xf86DrvMsg(pScrn->scrnIndex, from, "Display dimensions: (%d, %d) mm\n",
ddcWidthmm, ddcHeightmm );
pScrn->widthmm = ddcWidthmm;
pScrn->heightmm = ddcHeightmm;
if (pScrn->widthmm > 0) {
pScrn->xDpi =
(int)((double)pScrn->virtualX * MMPERINCH / pScrn->widthmm);
}
if (pScrn->heightmm > 0) {
pScrn->yDpi =
(int)((double)pScrn->virtualY * MMPERINCH / pScrn->heightmm);
}
if (pScrn->xDpi > 0 && pScrn->yDpi <= 0)
pScrn->yDpi = pScrn->xDpi;
if (pScrn->yDpi > 0 && pScrn->xDpi <= 0)
pScrn->xDpi = pScrn->yDpi;
} else {
if (x > 0)
pScrn->xDpi = x;
else
pScrn->xDpi = DEFAULT_DPI;
if (y > 0)
pScrn->yDpi = y;
else
pScrn->yDpi = DEFAULT_DPI;
}
xf86DrvMsg(pScrn->scrnIndex, from, "DPI set to (%d, %d)\n",
pScrn->xDpi, pScrn->yDpi);
}
#undef MMPERINCH
_X_EXPORT void
xf86SetBlackWhitePixels(ScreenPtr pScreen)
{
if (xf86FlipPixels) {
pScreen->whitePixel = 0;
pScreen->blackPixel = 1;
} else {
pScreen->whitePixel = 1;
pScreen->blackPixel = 0;
}
}
/*
* xf86SetRootClip --
* Enable or disable rendering to the screen by
* setting the root clip list and revalidating
* all of the windows
*/
static void
xf86SetRootClip (ScreenPtr pScreen, Bool enable)
{
WindowPtr pWin = WindowTable[pScreen->myNum];
WindowPtr pChild;
Bool WasViewable = (Bool)(pWin->viewable);
Bool anyMarked = FALSE;
RegionPtr pOldClip = NULL, bsExposed;
#ifdef DO_SAVE_UNDERS
Bool dosave = FALSE;
#endif
WindowPtr pLayerWin;
BoxRec box;
if (WasViewable)
{
for (pChild = pWin->firstChild; pChild; pChild = pChild->nextSib)
{
(void) (*pScreen->MarkOverlappedWindows)(pChild,
pChild,
&pLayerWin);
}
(*pScreen->MarkWindow) (pWin);
anyMarked = TRUE;
if (pWin->valdata)
{
if (HasBorder (pWin))
{
RegionPtr borderVisible;
borderVisible = REGION_CREATE(pScreen, NullBox, 1);
REGION_SUBTRACT(pScreen, borderVisible,
&pWin->borderClip, &pWin->winSize);
pWin->valdata->before.borderVisible = borderVisible;
}
pWin->valdata->before.resized = TRUE;
}
}
/*
* Use REGION_BREAK to avoid optimizations in ValidateTree
* that assume the root borderClip can't change well, normally
* it doesn't...)
*/
if (enable)
{
box.x1 = 0;
box.y1 = 0;
box.x2 = pScreen->width;
box.y2 = pScreen->height;
REGION_INIT (pScreen, &pWin->winSize, &box, 1);
REGION_INIT (pScreen, &pWin->borderSize, &box, 1);
if (WasViewable)
REGION_RESET(pScreen, &pWin->borderClip, &box);
pWin->drawable.width = pScreen->width;
pWin->drawable.height = pScreen->height;
REGION_BREAK (pWin->drawable.pScreen, &pWin->clipList);
}
else
{
REGION_EMPTY(pScreen, &pWin->borderClip);
REGION_BREAK (pWin->drawable.pScreen, &pWin->clipList);
}
ResizeChildrenWinSize (pWin, 0, 0, 0, 0);
if (WasViewable)
{
if (pWin->backStorage)
{
pOldClip = REGION_CREATE(pScreen, NullBox, 1);
REGION_COPY(pScreen, pOldClip, &pWin->clipList);
}
if (pWin->firstChild)
{
anyMarked |= (*pScreen->MarkOverlappedWindows)(pWin->firstChild,
pWin->firstChild,
(WindowPtr *)NULL);
}
else
{
(*pScreen->MarkWindow) (pWin);
anyMarked = TRUE;
}
#ifdef DO_SAVE_UNDERS
if (DO_SAVE_UNDERS(pWin))
{
dosave = (*pScreen->ChangeSaveUnder)(pLayerWin, pLayerWin);
}
#endif /* DO_SAVE_UNDERS */
if (anyMarked)
(*pScreen->ValidateTree)(pWin, NullWindow, VTOther);
}
if (pWin->backStorage &&
((pWin->backingStore == Always) || WasViewable))
{
if (!WasViewable)
pOldClip = &pWin->clipList; /* a convenient empty region */
bsExposed = (*pScreen->TranslateBackingStore)
(pWin, 0, 0, pOldClip,
pWin->drawable.x, pWin->drawable.y);
if (WasViewable)
REGION_DESTROY(pScreen, pOldClip);
if (bsExposed)
{
RegionPtr valExposed = NullRegion;
if (pWin->valdata)
valExposed = &pWin->valdata->after.exposed;
(*pScreen->WindowExposures) (pWin, valExposed, bsExposed);
if (valExposed)
REGION_EMPTY(pScreen, valExposed);
REGION_DESTROY(pScreen, bsExposed);
}
}
if (WasViewable)
{
if (anyMarked)
(*pScreen->HandleExposures)(pWin);
#ifdef DO_SAVE_UNDERS
if (dosave)
(*pScreen->PostChangeSaveUnder)(pLayerWin, pLayerWin);
#endif /* DO_SAVE_UNDERS */
if (anyMarked && pScreen->PostValidateTree)
(*pScreen->PostValidateTree)(pWin, NullWindow, VTOther);
}
if (pWin->realized)
WindowsRestructured ();
FlushAllOutput ();
}
/*
* Function to enable/disable access to the frame buffer
*
* This is used when VT switching and when entering/leaving DGA direct mode.
*
* This has been rewritten again to eliminate the saved pixmap. The
* devPrivate field in the screen pixmap is set to NULL to catch code
* accidentally referencing the frame buffer while the X server is not
* supposed to touch it.
*
* Here, we exchange the pixmap private data, rather than the pixmaps
* themselves to avoid having to find and change any references to the screen
* pixmap such as GC's, window privates etc. This also means that this code
* does not need to know exactly how the pixmap pixels are accessed. Further,
* this exchange is >not< done through the screen's ModifyPixmapHeader()
* vector. This means the called frame buffer code layers can determine
* whether they are switched in or out by keeping track of the root pixmap's
* private data, and therefore don't need to access pScrnInfo->vtSema.
*/
_X_EXPORT void
xf86EnableDisableFBAccess(int scrnIndex, Bool enable)
{
ScrnInfoPtr pScrnInfo = xf86Screens[scrnIndex];
ScreenPtr pScreen = pScrnInfo->pScreen;
PixmapPtr pspix;
pspix = (*pScreen->GetScreenPixmap) (pScreen);
if (enable)
{
/*
* Restore the screen pixmap devPrivate field
*/
pspix->devPrivate = pScrnInfo->pixmapPrivate;
/*
* Restore all of the clip lists on the screen
*/
if (!xf86Resetting)
xf86SetRootClip (pScreen, TRUE);
}
else
{
/*
* Empty all of the clip lists on the screen
*/
xf86SetRootClip (pScreen, FALSE);
/*
* save the screen pixmap devPrivate field and
* replace it with NULL so accidental references
* to the frame buffer are caught
*/
pScrnInfo->pixmapPrivate = pspix->devPrivate;
pspix->devPrivate.ptr = NULL;
}
}
/* Print driver messages in the standard format */
#undef PREFIX_SIZE
#define PREFIX_SIZE 14
_X_EXPORT void
xf86VDrvMsgVerb(int scrnIndex, MessageType type, int verb, const char *format,
va_list args)
{
char *tmpFormat;
/* Prefix the scrnIndex name to the format string. */
if (scrnIndex >= 0 && scrnIndex < xf86NumScreens &&
xf86Screens[scrnIndex]->name) {
tmpFormat = xalloc(strlen(format) +
strlen(xf86Screens[scrnIndex]->name) +
PREFIX_SIZE + 1);
if (!tmpFormat)
return;
snprintf(tmpFormat, PREFIX_SIZE + 1, "%s(%d): ",
xf86Screens[scrnIndex]->name, scrnIndex);
strcat(tmpFormat, format);
LogVMessageVerb(type, verb, tmpFormat, args);
xfree(tmpFormat);
} else
LogVMessageVerb(type, verb, format, args);
}
#undef PREFIX_SIZE
/* Print driver messages, with verbose level specified directly */
_X_EXPORT void
xf86DrvMsgVerb(int scrnIndex, MessageType type, int verb, const char *format,
...)
{
va_list ap;
va_start(ap, format);
xf86VDrvMsgVerb(scrnIndex, type, verb, format, ap);
va_end(ap);
}
/* Print driver messages, with verbose level of 1 (default) */
_X_EXPORT void
xf86DrvMsg(int scrnIndex, MessageType type, const char *format, ...)
{
va_list ap;
va_start(ap, format);
xf86VDrvMsgVerb(scrnIndex, type, 1, format, ap);
va_end(ap);
}
/* Print non-driver messages with verbose level specified directly */
_X_EXPORT void
xf86MsgVerb(MessageType type, int verb, const char *format, ...)
{
va_list ap;
va_start(ap, format);
xf86VDrvMsgVerb(-1, type, verb, format, ap);
va_end(ap);
}
/* Print non-driver messages with verbose level of 1 (default) */
_X_EXPORT void
xf86Msg(MessageType type, const char *format, ...)
{
va_list ap;
va_start(ap, format);
xf86VDrvMsgVerb(-1, type, 1, format, ap);
va_end(ap);
}
/* Just like ErrorF, but with the verbose level checked */
_X_EXPORT void
xf86ErrorFVerb(int verb, const char *format, ...)
{
va_list ap;
va_start(ap, format);
if (xf86Verbose >= verb || xf86LogVerbose >= verb)
LogVWrite(verb, format, ap);
va_end(ap);
}
/* Like xf86ErrorFVerb, but with an implied verbose level of 1 */
_X_EXPORT void
xf86ErrorF(const char *format, ...)
{
va_list ap;
va_start(ap, format);
if (xf86Verbose >= 1 || xf86LogVerbose >= 1)
LogVWrite(1, format, ap);
va_end(ap);
}
void
xf86LogInit()
{
char *lf;
#define LOGSUFFIX ".log"
#define LOGOLDSUFFIX ".old"
/* Get the log file name */
if (xf86LogFileFrom == X_DEFAULT) {
/* Append the display number and ".log" */
lf = malloc(strlen(xf86LogFile) + strlen("%s") +
strlen(LOGSUFFIX) + 1);
if (!lf)
FatalError("Cannot allocate space for the log file name\n");
sprintf(lf, "%s%%s" LOGSUFFIX, xf86LogFile);
xf86LogFile = lf;
}
xf86LogFile = LogInit(xf86LogFile, LOGOLDSUFFIX);
xf86LogFileWasOpened = TRUE;
xf86SetVerbosity(xf86Verbose);
xf86SetLogVerbosity(xf86LogVerbose);
#undef LOGSUFFIX
#undef LOGOLDSUFFIX
}
void
xf86CloseLog()
{
LogClose();
}
/*
* Drivers can use these for using their own SymTabRecs.
*/
_X_EXPORT const char *
xf86TokenToString(SymTabPtr table, int token)
{
int i;
for (i = 0; table[i].token >= 0 && table[i].token != token; i++)
;
if (table[i].token < 0)
return NULL;
else
return(table[i].name);
}
_X_EXPORT int
xf86StringToToken(SymTabPtr table, const char *string)
{
int i;
if (string == NULL)
return -1;
for (i = 0; table[i].token >= 0 && xf86NameCmp(string, table[i].name); i++)
;
return(table[i].token);
}
/*
* helper to display the clocks found on a card
*/
_X_EXPORT void
xf86ShowClocks(ScrnInfoPtr scrp, MessageType from)
{
int j;
xf86DrvMsg(scrp->scrnIndex, from, "Pixel clocks available:");
for (j=0; j < scrp->numClocks; j++) {
if ((j % 4) == 0) {
xf86ErrorF("\n");
xf86DrvMsg(scrp->scrnIndex, from, "pixel clocks:");
}
xf86ErrorF(" %7.3f", (double)scrp->clock[j] / 1000.0);
}
xf86ErrorF("\n");
}
/*
* This prints out the driver identify message, including the names of
* the supported chipsets.
*
* XXX This makes assumptions about the line width, etc. Maybe we could
* use a more general "pretty print" function for messages.
*/
_X_EXPORT void
xf86PrintChipsets(const char *drvname, const char *drvmsg, SymTabPtr chips)
{
int len, i;
len = 6 + strlen(drvname) + 2 + strlen(drvmsg) + 2;
xf86Msg(X_INFO, "%s: %s:", drvname, drvmsg);
for (i = 0; chips[i].name != NULL; i++) {
if (i != 0) {
xf86ErrorF(",");
len++;
}
if (len + 2 + strlen(chips[i].name) < 78) {
xf86ErrorF(" ");
len++;
} else {
xf86ErrorF("\n\t");
len = 8;
}
xf86ErrorF("%s", chips[i].name);
len += strlen(chips[i].name);
}
xf86ErrorF("\n");
}
#define MAXDRIVERS 64 /* A >hack<, to be sure ... */
_X_EXPORT int
xf86MatchDevice(const char *drivername, GDevPtr **sectlist)
{
GDevPtr gdp, *pgdp = NULL;
confScreenPtr screensecptr;
int i,j;
if (sectlist)
*sectlist = NULL;
if (xf86DoProbe) return 1;
if (xf86DoConfigure && xf86DoConfigurePass1) return 1;
/*
* This is a very important function that matches the device sections
* as they show up in the config file with the drivers that the server
* loads at run time.
*
* ChipProbe can call
* int xf86MatchDevice(char * drivername, GDevPtr ** sectlist)
* with its driver name. The function allocates an array of GDevPtr and
* returns this via sectlist and returns the number of elements in
* this list as return value. 0 means none found, -1 means fatal error.
*
* It can figure out which of the Device sections to use for which card
* (using things like the Card statement, etc). For single headed servers
* there will of course be just one such Device section.
*/
i = 0;
/*
* first we need to loop over all the Screens sections to get to all
* 'active' device sections
*/
for (j=0; xf86ConfigLayout.screens[j].screen != NULL; j++) {
screensecptr = xf86ConfigLayout.screens[j].screen;
if ((screensecptr->device->driver != NULL)
&& (xf86NameCmp( screensecptr->device->driver,drivername) == 0)
&& (! screensecptr->device->claimed)) {
/*
* we have a matching driver that wasn't claimed, yet
*/
pgdp = xnfrealloc(pgdp, (i + 2) * sizeof(GDevPtr));
pgdp[i++] = screensecptr->device;
}
}
/* Then handle the inactive devices */
j = 0;
while (xf86ConfigLayout.inactives[j].identifier) {
gdp = &xf86ConfigLayout.inactives[j];
if (gdp->driver && !gdp->claimed &&
!xf86NameCmp(gdp->driver,drivername)) {
/* we have a matching driver that wasn't claimed yet */
pgdp = xnfrealloc(pgdp, (i + 2) * sizeof(GDevPtr));
pgdp[i++] = gdp;
}
j++;
}
/*
* make the array NULL terminated and return its address
*/
if (i)
pgdp[i] = NULL;
if (sectlist)
*sectlist = pgdp;
else
xfree(pgdp);
return i;
}
struct Inst {
struct pci_device * pci;
GDevPtr dev;
Bool foundHW; /* PCIid in list of supported chipsets */
Bool claimed; /* BusID matches with a device section */
int chip;
int screen;
};
/**
* Find set of unclaimed devices matching a given vendor ID.
*
* Used by drivers to find as yet unclaimed devices matching the specified
* vendor ID.
*
* \param driverName Name of the driver. This is used to find Device
* sections in the config file.
* \param vendorID PCI vendor ID of associated devices. If zero, then
* the true vendor ID must be encoded in the \c PCIid
* fields of the \c PCIchipsets entries.
* \param chipsets Symbol table used to associate chipset names with
* PCI IDs.
* \param devList List of Device sections parsed from the config file.
* \param numDevs Number of entries in \c devList.
* \param drvp Pointer the driver's control structure.
* \param foundEntities Returned list of entity indicies associated with the
* driver.
*
* \returns
* The number of elements in returned in \c foundEntities on success or zero
* on failure.
*
* \todo
* This function does a bit more than short description says. Fill in some
* more of the details of its operation.
*
* \todo
* The \c driverName parameter is redundant. It is the same as
* \c DriverRec::driverName. In a future version of this function, remove
* that parameter.
*/
_X_EXPORT int
xf86MatchPciInstances(const char *driverName, int vendorID,
SymTabPtr chipsets, PciChipsets *PCIchipsets,
GDevPtr *devList, int numDevs, DriverPtr drvp,
int **foundEntities)
{
int i,j;
struct pci_device * pPci;
struct pci_device_iterator *iter;
struct Inst *instances = NULL;
int numClaimedInstances = 0;
int allocatedInstances = 0;
int numFound = 0;
SymTabRec *c;
PciChipsets *id;
int *retEntities = NULL;
*foundEntities = NULL;
/* Each PCI device will contribute at least one entry. Each device
* section can contribute at most one entry. The sum of the two is
* guaranteed to be larger than the maximum possible number of entries.
* Do this calculation and memory allocation once now to eliminate the
* need for realloc calls inside the loop.
*/
if ( !xf86DoProbe && !(xf86DoConfigure && xf86DoConfigurePass1) ) {
unsigned max_entries = numDevs;
iter = pci_slot_match_iterator_create(NULL);
while ((pPci = pci_device_next(iter)) != NULL) {
max_entries++;
}
pci_iterator_destroy(iter);
instances = xnfalloc(max_entries * sizeof(struct Inst));
}
iter = pci_slot_match_iterator_create(NULL);
while ((pPci = pci_device_next(iter)) != NULL) {
unsigned device_class = pPci->device_class;
Bool foundVendor = FALSE;
/* Convert the pre-PCI 2.0 device class for a VGA adapter to the
* 2.0 version of the same class.
*/
if ( device_class == 0x00000101 ) {
device_class = 0x00030000;
}
/* Find PCI devices that match the given vendor ID. The vendor ID is
* either specified explicitly as a parameter to the function or
* implicitly encoded in the high bits of id->PCIid.
*
* The first device with a matching vendor is recorded, even if the
* device ID doesn't match. This is done because the Device section
* in the xorg.conf file can over-ride the device ID. A matching PCI
* ID might not be found now, but after the device ID over-ride is
* applied there /might/ be a match.
*/
for (id = PCIchipsets; id->PCIid != -1; id++) {
const unsigned vendor_id = ((id->PCIid & 0xFFFF0000) >> 16)
| vendorID;
const unsigned device_id = (id->PCIid & 0x0000FFFF);
const unsigned match_class = 0x00030000 | id->PCIid;
if ((vendor_id == pPci->vendor_id)
|| ((vendorID == PCI_VENDOR_GENERIC) && (match_class == device_class))) {
if (!foundVendor && (instances != NULL)) {
++allocatedInstances;
instances[allocatedInstances - 1].pci = pPci;
instances[allocatedInstances - 1].dev = NULL;
instances[allocatedInstances - 1].claimed = FALSE;
instances[allocatedInstances - 1].foundHW = FALSE;
instances[allocatedInstances - 1].screen = 0;
}
foundVendor = TRUE;
if ( (device_id == pPci->device_id)
|| ((vendorID == PCI_VENDOR_GENERIC)
&& (match_class == device_class)) ) {
if ( instances != NULL ) {
instances[allocatedInstances - 1].foundHW = TRUE;
instances[allocatedInstances - 1].chip = id->numChipset;
}
if ( xf86DoConfigure && xf86DoConfigurePass1 ) {
if (xf86CheckPciSlot(pPci)) {
GDevPtr pGDev =
xf86AddDeviceToConfigure(drvp->driverName,
pPci, -1);
if (pGDev) {
/* After configure pass 1, chipID and chipRev
* are treated as over-rides, so clobber them
* here.
*/
pGDev->chipID = -1;
pGDev->chipRev = -1;
}
numFound++;
}
}
else {
numFound++;
}
break;
}
}
}
}
pci_iterator_destroy(iter);
/* In "probe only" or "configure" mode (signaled by instances being NULL),
* our work is done. Return the number of detected devices.
*/
if ( instances == NULL ) {
return numFound;
}
/*
* This may be debatable, but if no PCI devices with a matching vendor
* type is found, return zero now. It is probably not desirable to
* allow the config file to override this.
*/
if (allocatedInstances <= 0) {
xfree(instances);
return 0;
}
#ifdef DEBUG
ErrorF("%s instances found: %d\n", driverName, allocatedInstances);
#endif
/*
* Check for devices that need duplicated instances. This is required
* when there is more than one screen per entity.
*
* XXX This currently doesn't work for cases where the BusID isn't
* specified explicitly in the config file.
*/
for (j = 0; j < numDevs; j++) {
if (devList[j]->screen > 0 && devList[j]->busID
&& *devList[j]->busID) {
for (i = 0; i < allocatedInstances; i++) {
pPci = instances[i].pci;
if (xf86ComparePciBusString(devList[j]->busID,
PCI_MAKE_BUS( pPci->domain, pPci->bus ),
pPci->dev,
pPci->func)) {
allocatedInstances++;
instances[allocatedInstances - 1] = instances[i];
instances[allocatedInstances - 1].screen =
devList[j]->screen;
numFound++;
break;
}
}
}
}
for (i = 0; i < allocatedInstances; i++) {
GDevPtr dev = NULL;
GDevPtr devBus = NULL;
pPci = instances[i].pci;
for (j = 0; j < numDevs; j++) {
if (devList[j]->busID && *devList[j]->busID) {
if (xf86ComparePciBusString(devList[j]->busID,
PCI_MAKE_BUS( pPci->domain, pPci->bus ),
pPci->dev,
pPci->func) &&
devList[j]->screen == instances[i].screen) {
if (devBus)
xf86MsgVerb(X_WARNING,0,
"%s: More than one matching Device section for "
"instances\n\t(BusID: %s) found: %s\n",
driverName, devList[j]->busID,
devList[j]->identifier);
else
devBus = devList[j];
}
} else {
/*
* if device section without BusID is found
* only assign to it to the primary device.
*/
if (xf86IsPrimaryPci(pPci)) {
xf86Msg(X_PROBED, "Assigning device section with no busID"
" to primary device\n");
if (dev || devBus)
xf86MsgVerb(X_WARNING, 0,
"%s: More than one matching Device section "
"found: %s\n", driverName, devList[j]->identifier);
else
dev = devList[j];
}
}
}
if (devBus) dev = devBus; /* busID preferred */
if (!dev) {
if ( xf86CheckPciSlot( pPci ) ) {
xf86MsgVerb(X_WARNING, 0, "%s: No matching Device section "
"for instance (BusID PCI:%u@%u:%u:%u) found\n",
driverName, pPci->domain, pPci->bus, pPci->dev,
pPci->func);
}
} else {
numClaimedInstances++;
instances[i].claimed = TRUE;
instances[i].dev = dev;
}
}
#ifdef DEBUG
ErrorF("%s instances found: %d\n", driverName, numClaimedInstances);
#endif
/*
* Now check that a chipset or chipID override in the device section
* is valid. Chipset has precedence over chipID.
* If chipset is not valid ignore BusSlot completely.
*/
for (i = 0; i < allocatedInstances && numClaimedInstances > 0; i++) {
MessageType from = X_PROBED;
if (!instances[i].claimed) {
continue;
}
if (instances[i].dev->chipset) {
for (c = chipsets; c->token >= 0; c++) {
if (xf86NameCmp(c->name, instances[i].dev->chipset) == 0)
break;
}
if (c->token == -1) {
instances[i].claimed = FALSE;
numClaimedInstances--;
xf86MsgVerb(X_WARNING, 0, "%s: Chipset \"%s\" in Device "
"section \"%s\" isn't valid for this driver\n",
driverName, instances[i].dev->chipset,
instances[i].dev->identifier);
} else {
instances[i].chip = c->token;
for (id = PCIchipsets; id->numChipset >= 0; id++) {
if (id->numChipset == instances[i].chip)
break;
}
if(id->numChipset >=0){
xf86Msg(X_CONFIG,"Chipset override: %s\n",
instances[i].dev->chipset);
from = X_CONFIG;
} else {
instances[i].claimed = FALSE;
numClaimedInstances--;
xf86MsgVerb(X_WARNING, 0, "%s: Chipset \"%s\" in Device "
"section \"%s\" isn't a valid PCI chipset\n",
driverName, instances[i].dev->chipset,
instances[i].dev->identifier);
}
}
} else if (instances[i].dev->chipID > 0) {
for (id = PCIchipsets; id->numChipset >= 0; id++) {
if (id->PCIid == instances[i].dev->chipID)
break;
}
if (id->numChipset == -1) {
instances[i].claimed = FALSE;
numClaimedInstances--;
xf86MsgVerb(X_WARNING, 0, "%s: ChipID 0x%04X in Device "
"section \"%s\" isn't valid for this driver\n",
driverName, instances[i].dev->chipID,
instances[i].dev->identifier);
} else {
instances[i].chip = id->numChipset;
xf86Msg( X_CONFIG,"ChipID override: 0x%04X\n",
instances[i].dev->chipID);
from = X_CONFIG;
}
} else if (!instances[i].foundHW) {
/*
* This means that there was no override and the PCI chipType
* doesn't match one that is supported
*/
instances[i].claimed = FALSE;
numClaimedInstances--;
}
if (instances[i].claimed == TRUE){
for (c = chipsets; c->token >= 0; c++) {
if (c->token == instances[i].chip)
break;
}
xf86Msg(from,"Chipset %s found\n",
c->name);
}
}
/*
* Of the claimed instances, check that another driver hasn't already
* claimed its slot.
*/
numFound = 0;
for (i = 0; i < allocatedInstances && numClaimedInstances > 0; i++) {
if (!instances[i].claimed)
continue;
pPci = instances[i].pci;
/*
* Allow the same entity to be used more than once for devices with
* multiple screens per entity. This assumes implicitly that there
* will be a screen == 0 instance.
*
* XXX Need to make sure that two different drivers don't claim
* the same screen > 0 instance.
*/
if (instances[i].screen == 0 && !xf86CheckPciSlot( pPci ))
continue;
#ifdef DEBUG
ErrorF("%s: card at %d:%d:%d is claimed by a Device section\n",
driverName, pPci->bus, pPci->dev, pPci->func);
#endif
/* Allocate an entry in the lists to be returned */
numFound++;
retEntities = xnfrealloc(retEntities, numFound * sizeof(int));
retEntities[numFound - 1] = xf86ClaimPciSlot( pPci, drvp,
instances[i].chip,
instances[i].dev,
instances[i].dev->active);
if (retEntities[numFound - 1] == -1 && instances[i].screen > 0) {
for (j = 0; j < xf86NumEntities; j++) {
EntityPtr pEnt = xf86Entities[j];
if (pEnt->bus.type != BUS_PCI)
continue;
if (pEnt->bus.id.pci == pPci) {
retEntities[numFound - 1] = j;
xf86AddDevToEntity(j, instances[i].dev);
break;
}
}
}
}
xfree(instances);
if (numFound > 0) {
*foundEntities = retEntities;
}
return numFound;
}
_X_EXPORT int
xf86MatchIsaInstances(const char *driverName, SymTabPtr chipsets,
IsaChipsets *ISAchipsets, DriverPtr drvp,
FindIsaDevProc FindIsaDevice, GDevPtr *devList,
int numDevs, int **foundEntities)
{
SymTabRec *c;
IsaChipsets *Chips;
int i;
int numFound = 0;
int foundChip = -1;
int *retEntities = NULL;
*foundEntities = NULL;
#if defined(__sparc__) || defined(__powerpc__)
FindIsaDevice = NULL; /* Temporary */
#endif
if (xf86DoProbe || (xf86DoConfigure && xf86DoConfigurePass1)) {
if (FindIsaDevice &&
((foundChip = (*FindIsaDevice)(NULL)) != -1)) {
xf86AddDeviceToConfigure(drvp->driverName, NULL, foundChip);
return 1;
}
return 0;
}
for (i = 0; i < numDevs; i++) {
MessageType from = X_CONFIG;
GDevPtr dev = NULL;
GDevPtr devBus = NULL;
if (devList[i]->busID && *devList[i]->busID) {
if (xf86ParseIsaBusString(devList[i]->busID)) {
if (devBus) xf86MsgVerb(X_WARNING,0,
"%s: More than one matching Device "
"section for ISA-Bus found: %s\n",
driverName,devList[i]->identifier);
else devBus = devList[i];
}
} else {
if (xf86IsPrimaryIsa()) {
if (dev) xf86MsgVerb(X_WARNING,0,
"%s: More than one matching "
"Device section found: %s\n",
driverName,devList[i]->identifier);
else dev = devList[i];
}
}
if (devBus) dev = devBus;
if (dev) {
if (dev->chipset) {
for (c = chipsets; c->token >= 0; c++) {
if (xf86NameCmp(c->name, dev->chipset) == 0)
break;
}
if (c->token == -1) {
xf86MsgVerb(X_WARNING, 0, "%s: Chipset \"%s\" in Device "
"section \"%s\" isn't valid for this driver\n",
driverName, dev->chipset,
dev->identifier);
} else
foundChip = c->token;
} else {
if (FindIsaDevice) foundChip = (*FindIsaDevice)(dev);
/* Probe it */
from = X_PROBED;
}
}
/* Check if the chip type is listed in the chipset table - for sanity*/
if (foundChip >= 0){
for (Chips = ISAchipsets; Chips->numChipset >= 0; Chips++) {
if (Chips->numChipset == foundChip)
break;
}
if (Chips->numChipset == -1){
foundChip = -1;
xf86MsgVerb(X_WARNING,0,
"%s: Driver detected unknown ISA-Bus Chipset\n",
driverName);
}
}
if (foundChip != -1) {
numFound++;
retEntities = xnfrealloc(retEntities,numFound * sizeof(int));
retEntities[numFound - 1] =
xf86ClaimIsaSlot(drvp,foundChip,dev, dev->active ? TRUE : FALSE);
for (c = chipsets; c->token >= 0; c++) {
if (c->token == foundChip)
break;
}
xf86Msg(from, "Chipset %s found\n", c->name);
}
}
*foundEntities = retEntities;
return numFound;
}
/*
* xf86GetClocks -- get the dot-clocks via a BIG BAD hack ...
*/
_X_EXPORT void
xf86GetClocks(ScrnInfoPtr pScrn, int num, Bool (*ClockFunc)(ScrnInfoPtr, int),
void (*ProtectRegs)(ScrnInfoPtr, Bool),
void (*BlankScreen)(ScrnInfoPtr, Bool), IOADDRESS vertsyncreg,
int maskval, int knownclkindex, int knownclkvalue)
{
register int status = vertsyncreg;
unsigned long i, cnt, rcnt, sync;
/* First save registers that get written on */
(*ClockFunc)(pScrn, CLK_REG_SAVE);
xf86SetPriority(TRUE);
if (num > MAXCLOCKS)
num = MAXCLOCKS;
for (i = 0; i < num; i++)
{
if (ProtectRegs)
(*ProtectRegs)(pScrn, TRUE);
if (!(*ClockFunc)(pScrn, i))
{
pScrn->clock[i] = -1;
continue;
}
if (ProtectRegs)
(*ProtectRegs)(pScrn, FALSE);
if (BlankScreen)
(*BlankScreen)(pScrn, FALSE);
usleep(50000); /* let VCO stabilise */
cnt = 0;
sync = 200000;
/* XXX How critical is this? */
if (!xf86DisableInterrupts())
{
(*ClockFunc)(pScrn, CLK_REG_RESTORE);
ErrorF("Failed to disable interrupts during clock probe. If\n");
ErrorF("your OS does not support disabling interrupts, then you\n");
FatalError("must specify a Clocks line in the XF86Config file.\n");
}
while ((inb(status) & maskval) == 0x00)
if (sync-- == 0) goto finish;
/* Something appears to be happening, so reset sync count */
sync = 200000;
while ((inb(status) & maskval) == maskval)
if (sync-- == 0) goto finish;
/* Something appears to be happening, so reset sync count */
sync = 200000;
while ((inb(status) & maskval) == 0x00)
if (sync-- == 0) goto finish;
for (rcnt = 0; rcnt < 5; rcnt++)
{
while (!(inb(status) & maskval))
cnt++;
while ((inb(status) & maskval))
cnt++;
}
finish:
xf86EnableInterrupts();
pScrn->clock[i] = cnt ? cnt : -1;
if (BlankScreen)
(*BlankScreen)(pScrn, TRUE);
}
xf86SetPriority(FALSE);
for (i = 0; i < num; i++)
{
if (i != knownclkindex)
{
if (pScrn->clock[i] == -1)
{
pScrn->clock[i] = 0;
}
else
{
pScrn->clock[i] = (int)(0.5 +
(((float)knownclkvalue) * pScrn->clock[knownclkindex]) /
(pScrn->clock[i]));
/* Round to nearest 10KHz */
pScrn->clock[i] += 5;
pScrn->clock[i] /= 10;
pScrn->clock[i] *= 10;
}
}
}
pScrn->clock[knownclkindex] = knownclkvalue;
pScrn->numClocks = num;
/* Restore registers that were written on */
(*ClockFunc)(pScrn, CLK_REG_RESTORE);
}
_X_EXPORT void
xf86SetPriority(Bool up)
{
static int saved_nice;
if (up) {
#ifdef HAS_SETPRIORITY
saved_nice = getpriority(PRIO_PROCESS, 0);
setpriority(PRIO_PROCESS, 0, -20);
#endif
#if defined(SYSV) || defined(SVR4) || defined(linux)
saved_nice = nice(0);
nice(-20 - saved_nice);
#endif
} else {
#ifdef HAS_SETPRIORITY
setpriority(PRIO_PROCESS, 0, saved_nice);
#endif
#if defined(SYSV) || defined(SVR4) || defined(linux)
nice(20 + saved_nice);
#endif
}
}
_X_EXPORT const char *
xf86GetVisualName(int visual)
{
if (visual < 0 || visual > DirectColor)
return NULL;
return xf86VisualNames[visual];
}
_X_EXPORT int
xf86GetVerbosity()
{
return max(xf86Verbose, xf86LogVerbose);
}
_X_EXPORT Pix24Flags
xf86GetPix24()
{
return xf86Info.pixmap24;
}
_X_EXPORT int
xf86GetDepth()
{
return xf86Depth;
}
_X_EXPORT rgb
xf86GetWeight()
{
return xf86Weight;
}
_X_EXPORT Gamma
xf86GetGamma()
{
return xf86Gamma;
}
_X_EXPORT Bool
xf86GetFlipPixels()
{
return xf86FlipPixels;
}
_X_EXPORT const char *
xf86GetServerName()
{
return xf86ServerName;
}
_X_EXPORT Bool
xf86ServerIsExiting()
{
return (dispatchException & DE_TERMINATE) == DE_TERMINATE;
}
_X_EXPORT Bool
xf86ServerIsResetting()
{
return xf86Resetting;
}
Bool
xf86ServerIsInitialising()
{
return xf86Initialising;
}
_X_EXPORT Bool
xf86ServerIsOnlyDetecting(void)
{
return xf86DoProbe || xf86DoConfigure;
}
_X_EXPORT Bool
xf86ServerIsOnlyProbing(void)
{
return xf86ProbeOnly;
}
_X_EXPORT Bool
xf86CaughtSignal()
{
return xf86Info.caughtSignal;
}
_X_EXPORT Bool
xf86GetVidModeAllowNonLocal()
{
return xf86Info.vidModeAllowNonLocal;
}
_X_EXPORT Bool
xf86GetVidModeEnabled()
{
return xf86Info.vidModeEnabled;
}
_X_EXPORT Bool
xf86GetModInDevAllowNonLocal()
{
return xf86Info.miscModInDevAllowNonLocal;
}
_X_EXPORT Bool
xf86GetModInDevEnabled()
{
return xf86Info.miscModInDevEnabled;
}
_X_EXPORT Bool
xf86GetAllowMouseOpenFail()
{
return xf86Info.allowMouseOpenFail;
}
_X_EXPORT Bool
xf86IsPc98()
{
#if defined(i386) || defined(__i386__)
return xf86Info.pc98;
#else
return FALSE;
#endif
}
_X_EXPORT void
xf86DisableRandR()
{
xf86Info.disableRandR = TRUE;
xf86Info.randRFrom = X_PROBED;
}
_X_EXPORT CARD32
xf86GetVersion()
{
return XF86_VERSION_CURRENT;
}
_X_EXPORT CARD32
xf86GetModuleVersion(pointer module)
{
return (CARD32)LoaderGetModuleVersion(module);
}
_X_EXPORT pointer
xf86LoadDrvSubModule(DriverPtr drv, const char *name)
{
pointer ret;
int errmaj = 0, errmin = 0;
ret = LoadSubModule(drv->module, name, NULL, NULL, NULL, NULL,
&errmaj, &errmin);
if (!ret)
LoaderErrorMsg(NULL, name, errmaj, errmin);
return ret;
}
_X_EXPORT pointer
xf86LoadSubModule(ScrnInfoPtr pScrn, const char *name)
{
pointer ret;
int errmaj = 0, errmin = 0;
ret = LoadSubModule(pScrn->module, name, NULL, NULL, NULL, NULL,
&errmaj, &errmin);
if (!ret)
LoaderErrorMsg(pScrn->name, name, errmaj, errmin);
return ret;
}
/*
* xf86LoadOneModule loads a single module.
*/
_X_EXPORT pointer
xf86LoadOneModule(char *name, pointer opt)
{
int errmaj, errmin;
char *Name;
pointer mod;
if (!name)
return NULL;
#ifndef NORMALISE_MODULE_NAME
Name = xstrdup(name);
#else
/* Normalise the module name */
Name = xf86NormalizeName(name);
#endif
/* Skip empty names */
if (Name == NULL)
return NULL;
if (*Name == '\0') {
xfree(Name);
return NULL;
}
mod = LoadModule(Name, NULL, NULL, NULL, opt, NULL, &errmaj, &errmin);
if (!mod)
LoaderErrorMsg(NULL, Name, errmaj, errmin);
xfree(Name);
return mod;
}
_X_EXPORT void
xf86UnloadSubModule(pointer mod)
{
/*
* This is disabled for now. The loader isn't smart enough yet to undo
* relocations.
*/
#if 0
UnloadSubModule(mod);
#endif
}
_X_EXPORT Bool
xf86LoaderCheckSymbol(const char *name)
{
return LoaderSymbol(name) != NULL;
}
/* These two are just ABI stubs, they don't do anything in dlloader world */
_X_EXPORT void
xf86LoaderReqSymLists(const char **list0, ...)
{
}
_X_EXPORT void
xf86LoaderReqSymbols(const char *sym0, ...)
{
}
_X_EXPORT void
xf86LoaderRefSymLists(const char **list0, ...)
{
}
_X_EXPORT void
xf86LoaderRefSymbols(const char *sym0, ...)
{
}
typedef enum {
OPTION_BACKING_STORE
} BSOpts;
static const OptionInfoRec BSOptions[] = {
{ OPTION_BACKING_STORE, "BackingStore", OPTV_BOOLEAN, {0}, FALSE },
{ -1, NULL, OPTV_NONE, {0}, FALSE }
};
_X_EXPORT void
xf86SetBackingStore(ScreenPtr pScreen)
{
Bool useBS = FALSE;
MessageType from = X_DEFAULT;
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
OptionInfoPtr options;
options = xnfalloc(sizeof(BSOptions));
(void)memcpy(options, BSOptions, sizeof(BSOptions));
xf86ProcessOptions(pScrn->scrnIndex, pScrn->options, options);
/* check for commandline option here */
if (xf86bsEnableFlag) {
from = X_CMDLINE;
useBS = TRUE;
} else if (xf86bsDisableFlag) {
from = X_CMDLINE;
useBS = FALSE;
} else {
if (xf86GetOptValBool(options, OPTION_BACKING_STORE, &useBS))
from = X_CONFIG;
}
xfree(options);
pScreen->backingStoreSupport = useBS ? Always : NotUseful;
if (serverGeneration == 1)
xf86DrvMsg(pScreen->myNum, from, "Backing store %s\n",
useBS ? "enabled" : "disabled");
}
typedef enum {
OPTION_SILKEN_MOUSE
} SMOpts;
static const OptionInfoRec SMOptions[] = {
{ OPTION_SILKEN_MOUSE, "SilkenMouse", OPTV_BOOLEAN, {0}, FALSE },
{ -1, NULL, OPTV_NONE, {0}, FALSE }
};
_X_EXPORT void
xf86SetSilkenMouse (ScreenPtr pScreen)
{
Bool useSM = TRUE;
MessageType from = X_DEFAULT;
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
OptionInfoPtr options;
options = xnfalloc(sizeof(SMOptions));
(void)memcpy(options, SMOptions, sizeof(SMOptions));
xf86ProcessOptions(pScrn->scrnIndex, pScrn->options, options);
/* check for commandline option here */
/* disable if screen shares resources */
if (((pScrn->racMemFlags & RAC_CURSOR) &&
!xf86NoSharedResources(pScrn->scrnIndex,MEM)) ||
((pScrn->racIoFlags & RAC_CURSOR) &&
!xf86NoSharedResources(pScrn->scrnIndex,IO))) {
useSM = FALSE;
from = X_PROBED;
} else if (xf86silkenMouseDisableFlag) {
from = X_CMDLINE;
useSM = FALSE;
} else {
if (xf86GetOptValBool(options, OPTION_SILKEN_MOUSE, &useSM))
from = X_CONFIG;
}
xfree(options);
/*
* XXX quick hack to report correctly for OSs that can't do SilkenMouse
* yet. Should handle this differently so that alternate async methods
* work correctly with this too.
*/
pScrn->silkenMouse = useSM && xf86SIGIOSupported();
if (serverGeneration == 1)
xf86DrvMsg(pScreen->myNum, from, "Silken mouse %s\n",
pScrn->silkenMouse ? "enabled" : "disabled");
}
/* Wrote this function for the PM2 Xv driver, preliminary. */
_X_EXPORT pointer
xf86FindXvOptions(int scrnIndex, int adaptor_index, char *port_name,
char **adaptor_name, pointer *adaptor_options)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
confXvAdaptorPtr adaptor;
int i;
if (adaptor_index >= pScrn->confScreen->numxvadaptors) {
if (adaptor_name) *adaptor_name = NULL;
if (adaptor_options) *adaptor_options = NULL;
return NULL;
}
adaptor = &pScrn->confScreen->xvadaptors[adaptor_index];
if (adaptor_name) *adaptor_name = adaptor->identifier;
if (adaptor_options) *adaptor_options = adaptor->options;
for (i = 0; i < adaptor->numports; i++)
if (!xf86NameCmp(adaptor->ports[i].identifier, port_name))
return adaptor->ports[i].options;
return NULL;
}
/* Rather than duplicate loader's get OS function, just include it directly */
#define LoaderGetOS xf86GetOS
#include "loader/os.c"
/* new RAC */
/*
* xf86ConfigIsa/PciEntity() -- These helper functions assign an
* active entity to a screen, registers its fixed resources, assign
* special enter/leave functions and their private scratch area to
* this entity, take the dog for a walk...
*/
_X_EXPORT ScrnInfoPtr
xf86ConfigIsaEntity(ScrnInfoPtr pScrn, int scrnFlag, int entityIndex,
IsaChipsets *i_chip, resList res, EntityProc init,
EntityProc enter, EntityProc leave, pointer private)
{
IsaChipsets *i_id;
EntityInfoPtr pEnt = xf86GetEntityInfo(entityIndex);
if (!pEnt) return pScrn;
if (!(pEnt->location.type == BUS_ISA)) {
xfree(pEnt);
return pScrn;
}
if (!pEnt->active) {
xf86ConfigIsaEntityInactive(pEnt, i_chip, res, init, enter,
leave, private);
xfree(pEnt);
return pScrn;
}
if (!pScrn)
pScrn = xf86AllocateScreen(pEnt->driver,scrnFlag);
xf86AddEntityToScreen(pScrn,entityIndex);
if (i_chip) {
for (i_id = i_chip; i_id->numChipset != -1; i_id++) {
if (pEnt->chipset == i_id->numChipset) break;
}
xf86ClaimFixedResources(i_id->resList,entityIndex);
}
xfree(pEnt);
xf86ClaimFixedResources(res,entityIndex);
xf86SetEntityFuncs(entityIndex,init,enter,leave,private);
return pScrn;
}
_X_EXPORT ScrnInfoPtr
xf86ConfigPciEntity(ScrnInfoPtr pScrn, int scrnFlag, int entityIndex,
PciChipsets *p_chip, resList res, EntityProc init,
EntityProc enter, EntityProc leave, pointer private)
{
PciChipsets *p_id;
EntityInfoPtr pEnt = xf86GetEntityInfo(entityIndex);
if (!pEnt) return pScrn;
if (!(pEnt->location.type == BUS_PCI)
|| !xf86GetPciInfoForEntity(entityIndex)) {
xfree(pEnt);
return pScrn;
}
if (!pEnt->active) {
xf86ConfigPciEntityInactive(pEnt, p_chip, res, init, enter,
leave, private);
xfree(pEnt);
return pScrn;
}
if (!pScrn)
pScrn = xf86AllocateScreen(pEnt->driver,scrnFlag);
if (xf86IsEntitySharable(entityIndex)) {
xf86SetEntityShared(entityIndex);
}
xf86AddEntityToScreen(pScrn,entityIndex);
if (xf86IsEntityShared(entityIndex)) {
return pScrn;
}
if (p_chip) {
for (p_id = p_chip; p_id->numChipset != -1; p_id++) {
if (pEnt->chipset == p_id->numChipset) break;
}
xf86ClaimFixedResources(p_id->resList,entityIndex);
}
xfree(pEnt);
xf86ClaimFixedResources(res,entityIndex);
xf86SetEntityFuncs(entityIndex,init,enter,leave,private);
return pScrn;
}
_X_EXPORT ScrnInfoPtr
xf86ConfigFbEntity(ScrnInfoPtr pScrn, int scrnFlag, int entityIndex,
EntityProc init, EntityProc enter, EntityProc leave,
pointer private)
{
EntityInfoPtr pEnt = xf86GetEntityInfo(entityIndex);
if (!pEnt) return pScrn;
if (!(pEnt->location.type == BUS_NONE)) {
xfree(pEnt);
return pScrn;
}
if (!pEnt->active) {
xf86ConfigFbEntityInactive(pEnt, init, enter, leave, private);
xfree(pEnt);
return pScrn;
}
if (!pScrn)
pScrn = xf86AllocateScreen(pEnt->driver,scrnFlag);
xf86AddEntityToScreen(pScrn,entityIndex);
xf86SetEntityFuncs(entityIndex,init,enter,leave,private);
return pScrn;
}
/*
*
* OBSOLETE ! xf86ConfigActiveIsaEntity() and xf86ConfigActivePciEntity()
* are obsolete functions. They the are likely to be removed
* Don't use!
*/
_X_EXPORT Bool
xf86ConfigActiveIsaEntity(ScrnInfoPtr pScrn, int entityIndex,
IsaChipsets *i_chip, resList res, EntityProc init,
EntityProc enter, EntityProc leave, pointer private)
{
IsaChipsets *i_id;
EntityInfoPtr pEnt = xf86GetEntityInfo(entityIndex);
if (!pEnt) return FALSE;
if (!pEnt->active || !(pEnt->location.type == BUS_ISA)) {
xfree(pEnt);
return FALSE;
}
xf86AddEntityToScreen(pScrn,entityIndex);
if (i_chip) {
for (i_id = i_chip; i_id->numChipset != -1; i_id++) {
if (pEnt->chipset == i_id->numChipset) break;
}
xf86ClaimFixedResources(i_id->resList,entityIndex);
}
xfree(pEnt);
xf86ClaimFixedResources(res,entityIndex);
if (!xf86SetEntityFuncs(entityIndex,init,enter,leave,private))
return FALSE;
return TRUE;
}
_X_EXPORT Bool
xf86ConfigActivePciEntity(ScrnInfoPtr pScrn, int entityIndex,
PciChipsets *p_chip, resList res, EntityProc init,
EntityProc enter, EntityProc leave, pointer private)
{
PciChipsets *p_id;
EntityInfoPtr pEnt = xf86GetEntityInfo(entityIndex);
if (!pEnt) return FALSE;
if (!pEnt->active || !(pEnt->location.type == BUS_PCI)) {
xfree(pEnt);
return FALSE;
}
xf86AddEntityToScreen(pScrn,entityIndex);
if (p_chip) {
for (p_id = p_chip; p_id->numChipset != -1; p_id++) {
if (pEnt->chipset == p_id->numChipset) break;
}
xf86ClaimFixedResources(p_id->resList,entityIndex);
}
xfree(pEnt);
xf86ClaimFixedResources(res,entityIndex);
if (!xf86SetEntityFuncs(entityIndex,init,enter,leave,private))
return FALSE;
return TRUE;
}
/*
* xf86ConfigPci/IsaEntityInactive() -- These functions can be used
* to configure an inactive entity as well as to reconfigure an
* previously active entity inactive. If the entity has been
* assigned to a screen before it will be removed. If p_pci(p_isa) is
* non-NULL all static resources listed there will be registered.
*/
_X_EXPORT void
xf86ConfigPciEntityInactive(EntityInfoPtr pEnt, PciChipsets *p_chip,
resList res, EntityProc init, EntityProc enter,
EntityProc leave, pointer private)
{
PciChipsets *p_id;
ScrnInfoPtr pScrn;
if ((pScrn = xf86FindScreenForEntity(pEnt->index)))
xf86RemoveEntityFromScreen(pScrn,pEnt->index);
else if (p_chip) {
for (p_id = p_chip; p_id->numChipset != -1; p_id++) {
if (pEnt->chipset == p_id->numChipset) break;
}
xf86ClaimFixedResources(p_id->resList,pEnt->index);
}
xf86ClaimFixedResources(res,pEnt->index);
/* shared resources are only needed when entity is active: remove */
xf86DeallocateResourcesForEntity(pEnt->index, ResShared);
xf86SetEntityFuncs(pEnt->index,init,enter,leave,private);
}
_X_EXPORT void
xf86ConfigIsaEntityInactive(EntityInfoPtr pEnt, IsaChipsets *i_chip,
resList res, EntityProc init, EntityProc enter,
EntityProc leave, pointer private)
{
IsaChipsets *i_id;
ScrnInfoPtr pScrn;
if ((pScrn = xf86FindScreenForEntity(pEnt->index)))
xf86RemoveEntityFromScreen(pScrn,pEnt->index);
else if (i_chip) {
for (i_id = i_chip; i_id->numChipset != -1; i_id++) {
if (pEnt->chipset == i_id->numChipset) break;
}
xf86ClaimFixedResources(i_id->resList,pEnt->index);
}
xf86ClaimFixedResources(res,pEnt->index);
/* shared resources are only needed when entity is active: remove */
xf86DeallocateResourcesForEntity(pEnt->index, ResShared);
xf86SetEntityFuncs(pEnt->index,init,enter,leave,private);
}
void
xf86ConfigFbEntityInactive(EntityInfoPtr pEnt, EntityProc init,
EntityProc enter, EntityProc leave, pointer private)
{
ScrnInfoPtr pScrn;
if ((pScrn = xf86FindScreenForEntity(pEnt->index)))
xf86RemoveEntityFromScreen(pScrn,pEnt->index);
xf86SetEntityFuncs(pEnt->index,init,enter,leave,private);
}
_X_EXPORT Bool
xf86IsScreenPrimary(int scrnIndex)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
int i;
for (i=0 ; i < pScrn->numEntities; i++) {
if (xf86IsEntityPrimary(i))
return TRUE;
}
return FALSE;
}
_X_EXPORT int
xf86RegisterRootWindowProperty(int ScrnIndex, Atom property, Atom type,
int format, unsigned long len, pointer value )
{
RootWinPropPtr pNewProp = NULL, pRegProp;
int i;
Bool existing = FALSE;
#ifdef DEBUG
ErrorF("xf86RegisterRootWindowProperty(%d, %ld, %ld, %d, %ld, %p)\n",
ScrnIndex, property, type, format, len, value);
#endif
if (ScrnIndex<0 || ScrnIndex>=xf86NumScreens) {
return(BadMatch);
}
if (xf86RegisteredPropertiesTable &&
xf86RegisteredPropertiesTable[ScrnIndex]) {
for (pNewProp = xf86RegisteredPropertiesTable[ScrnIndex];
pNewProp; pNewProp = pNewProp->next) {
if (strcmp(pNewProp->name, NameForAtom(property)) == 0)
break;
}
}
if (!pNewProp) {
if ((pNewProp = (RootWinPropPtr)xalloc(sizeof(RootWinProp))) == NULL) {
return(BadAlloc);
}
/*
* We will put this property at the end of the list so that
* the changes are made in the order they were requested.
*/
pNewProp->next = NULL;
} else {
if (pNewProp->name)
xfree(pNewProp->name);
existing = TRUE;
}
pNewProp->name = xnfstrdup(NameForAtom(property));
pNewProp->type = type;
pNewProp->format = format;
pNewProp->size = len;
pNewProp->data = value;
#ifdef DEBUG
ErrorF("new property filled\n");
#endif
if (NULL==xf86RegisteredPropertiesTable) {
#ifdef DEBUG
ErrorF("creating xf86RegisteredPropertiesTable[] size %d\n",
xf86NumScreens);
#endif
if ( NULL==(xf86RegisteredPropertiesTable=(RootWinPropPtr*)xnfcalloc(sizeof(RootWinProp),xf86NumScreens) )) {
return(BadAlloc);
}
for (i=0; i<xf86NumScreens; i++) {
xf86RegisteredPropertiesTable[i] = NULL;
}
}
#ifdef DEBUG
ErrorF("xf86RegisteredPropertiesTable %p\n",
(void *)xf86RegisteredPropertiesTable);
ErrorF("xf86RegisteredPropertiesTable[%d] %p\n",
ScrnIndex, (void *)xf86RegisteredPropertiesTable[ScrnIndex]);
#endif
if (!existing) {
if ( xf86RegisteredPropertiesTable[ScrnIndex] == NULL) {
xf86RegisteredPropertiesTable[ScrnIndex] = pNewProp;
} else {
pRegProp = xf86RegisteredPropertiesTable[ScrnIndex];
while (pRegProp->next != NULL) {
#ifdef DEBUG
ErrorF("- next %p\n", (void *)pRegProp);
#endif
pRegProp = pRegProp->next;
}
pRegProp->next = pNewProp;
}
}
#ifdef DEBUG
ErrorF("xf86RegisterRootWindowProperty succeeded\n");
#endif
return(Success);
}
_X_EXPORT Bool
xf86IsUnblank(int mode)
{
switch(mode) {
case SCREEN_SAVER_OFF:
case SCREEN_SAVER_FORCER:
return TRUE;
case SCREEN_SAVER_ON:
case SCREEN_SAVER_CYCLE:
return FALSE;
default:
xf86MsgVerb(X_WARNING, 0, "Unexpected save screen mode: %d\n", mode);
return TRUE;
}
}
_X_EXPORT void
xf86MotionHistoryAllocate(LocalDevicePtr local)
{
AllocateMotionHistory(local->dev);
}
_X_EXPORT int
xf86GetMotionEvents(DeviceIntPtr pDev, xTimecoord *buff, unsigned long start,
unsigned long stop, ScreenPtr pScreen)
{
return GetMotionHistory(pDev, buff, start, stop, pScreen);
}
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