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|
/*
* Copyright 2010 NVIDIA Corporation
* Copyright 1996-1997 David J. McKay
*
* 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
* DAVID J. MCKAY 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.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
/* Hacked together from mga driver and 3.3.4 NVIDIA driver by Jarno Paananen
<jpaana@s2.org> */
#include "nv_include.h"
#include "xf86int10.h"
#include "vbeModes.h"
const OptionInfoRec * RivaAvailableOptions(int chipid, int busid);
Bool RivaGetScrnInfoRec(PciChipsets *chips, int chip);
Bool G80GetScrnInfoRec(PciChipsets *chips, int chip);
/*
* Forward definitions for the functions that make up the driver.
*/
/* Mandatory functions */
static const OptionInfoRec * NVAvailableOptions(int chipid, int busid);
static void NVIdentify(int flags);
#if XSERVER_LIBPCIACCESS
static Bool NVPciProbe(DriverPtr, int entity, struct pci_device*, intptr_t data);
#else
static Bool NVProbe(DriverPtr drv, int flags);
#endif
static Bool NVPreInit(ScrnInfoPtr pScrn, int flags);
static Bool NVScreenInit(int Index, ScreenPtr pScreen, int argc,
char **argv);
static Bool NVEnterVT(int scrnIndex, int flags);
static Bool NVEnterVTFBDev(int scrnIndex, int flags);
static void NVLeaveVT(int scrnIndex, int flags);
static Bool NVCloseScreen(int scrnIndex, ScreenPtr pScreen);
static Bool NVSaveScreen(ScreenPtr pScreen, int mode);
/* Optional functions */
static void NVFreeScreen(int scrnIndex, int flags);
static ModeStatus NVValidMode(int scrnIndex, DisplayModePtr mode,
Bool verbose, int flags);
#ifdef RANDR
static Bool NVDriverFunc(ScrnInfoPtr pScrnInfo, xorgDriverFuncOp op,
pointer data);
#endif
/* Internally used functions */
static Bool NVMapMem(ScrnInfoPtr pScrn);
static Bool NVMapMemFBDev(ScrnInfoPtr pScrn);
static Bool NVUnmapMem(ScrnInfoPtr pScrn);
static void NVSave(ScrnInfoPtr pScrn);
static void NVSaveRestoreVBE(ScrnInfoPtr, vbeSaveRestoreFunction);
static void NVRestore(ScrnInfoPtr pScrn);
static Bool NVModeInit(ScrnInfoPtr pScrn, DisplayModePtr mode);
static Bool NVSetModeVBE(ScrnInfoPtr pScrn, DisplayModePtr pMode);
#if XSERVER_LIBPCIACCESS
/* For now, just match any NVIDIA display device and sort through them in the
* probe routine */
/*
* libpciaccess's masks are shifted by 8 bits compared to the ones in xf86Pci.h.
*/
#define LIBPCIACCESS_CLASS_SHIFT (PCI_CLASS_SHIFT - 8)
#define LIBPCIACCESS_CLASS_MASK (PCI_CLASS_MASK >> 8)
static const struct pci_id_match NVPciIdMatchList[] = {
{ PCI_VENDOR_NVIDIA, PCI_MATCH_ANY, PCI_MATCH_ANY, PCI_MATCH_ANY,
PCI_CLASS_DISPLAY << LIBPCIACCESS_CLASS_SHIFT, LIBPCIACCESS_CLASS_MASK, 0 },
{ PCI_VENDOR_NVIDIA_SGS, PCI_MATCH_ANY, PCI_MATCH_ANY, PCI_MATCH_ANY,
PCI_CLASS_DISPLAY << LIBPCIACCESS_CLASS_SHIFT, LIBPCIACCESS_CLASS_MASK, 0 },
{ 0, 0, 0 }
};
#endif
/*
* This contains the functions needed by the server after loading the
* driver module. It must be supplied, and gets added the driver list by
* the Module Setup funtion in the dynamic case. In the static case a
* reference to this is compiled in, and this requires that the name of
* this DriverRec be an upper-case version of the driver name.
*/
_X_EXPORT DriverRec NV = {
NV_VERSION,
NV_DRIVER_NAME,
NVIdentify,
#if XSERVER_LIBPCIACCESS
NULL,
#else
NVProbe,
#endif
NVAvailableOptions,
NULL,
0,
NULL,
#if XSERVER_LIBPCIACCESS
NVPciIdMatchList,
NVPciProbe,
#endif
};
/* Known cards as of 2010/03/10 */
static SymTabRec NVKnownChipsets[] =
{
{ 0x12D20018, "RIVA 128" },
{ 0x10DE0020, "RIVA TNT" },
{ 0x10DE0028, "RIVA TNT2" },
{ 0x10DE002A, "Unknown TNT2" },
{ 0x10DE002C, "Vanta" },
{ 0x10DE0029, "RIVA TNT2 Ultra" },
{ 0x10DE002D, "RIVA TNT2 Model 64" },
{ 0x10DE00A0, "Aladdin TNT2" },
{ 0x10DE0100, "GeForce 256" },
{ 0x10DE0101, "GeForce DDR" },
{ 0x10DE0103, "Quadro" },
{ 0x10DE0110, "GeForce2 MX/MX 400" },
{ 0x10DE0111, "GeForce2 MX 100/200" },
{ 0x10DE0112, "GeForce2 Go" },
{ 0x10DE0113, "Quadro2 MXR/EX/Go" },
{ 0x10DE01A0, "GeForce2 Integrated GPU" },
{ 0x10DE0150, "GeForce2 GTS" },
{ 0x10DE0151, "GeForce2 Ti" },
{ 0x10DE0152, "GeForce2 Ultra" },
{ 0x10DE0153, "Quadro2 Pro" },
{ 0x10DE0170, "GeForce4 MX 460" },
{ 0x10DE0171, "GeForce4 MX 440" },
{ 0x10DE0172, "GeForce4 MX 420" },
{ 0x10DE0173, "GeForce4 MX 440-SE" },
{ 0x10DE0174, "GeForce4 440 Go" },
{ 0x10DE0175, "GeForce4 420 Go" },
{ 0x10DE0176, "GeForce4 420 Go 32M" },
{ 0x10DE0177, "GeForce4 460 Go" },
{ 0x10DE0178, "Quadro4 550 XGL" },
#if defined(__powerpc__)
{ 0x10DE0179, "GeForce4 MX (Mac)" },
#else
{ 0x10DE0179, "GeForce4 440 Go 64M" },
#endif
{ 0x10DE017A, "Quadro NVS" },
{ 0x10DE017C, "Quadro4 500 GoGL" },
{ 0x10DE017D, "GeForce4 410 Go 16M" },
{ 0x10DE0181, "GeForce4 MX 440 with AGP8X" },
{ 0x10DE0182, "GeForce4 MX 440SE with AGP8X" },
{ 0x10DE0183, "GeForce4 MX 420 with AGP8X" },
{ 0x10DE0185, "GeForce4 MX 4000" },
{ 0x10DE0186, "GeForce4 448 Go" },
{ 0x10DE0187, "GeForce4 488 Go" },
{ 0x10DE0188, "Quadro4 580 XGL" },
#if defined(__powerpc__)
{ 0x10DE0189, "GeForce4 MX with AGP8X (Mac)" },
#endif
{ 0x10DE018A, "Quadro4 NVS 280 SD" },
{ 0x10DE018B, "Quadro4 380 XGL" },
{ 0x10DE018C, "Quadro NVS 50 PCI" },
{ 0x10DE018D, "GeForce4 448 Go" },
{ 0x10DE01F0, "GeForce4 MX Integrated GPU" },
{ 0x10DE0200, "GeForce3" },
{ 0x10DE0201, "GeForce3 Ti 200" },
{ 0x10DE0202, "GeForce3 Ti 500" },
{ 0x10DE0203, "Quadro DCC" },
{ 0x10DE0250, "GeForce4 Ti 4600" },
{ 0x10DE0251, "GeForce4 Ti 4400" },
{ 0x10DE0253, "GeForce4 Ti 4200" },
{ 0x10DE0258, "Quadro4 900 XGL" },
{ 0x10DE0259, "Quadro4 750 XGL" },
{ 0x10DE025B, "Quadro4 700 XGL" },
{ 0x10DE0280, "GeForce4 Ti 4800" },
{ 0x10DE0281, "GeForce4 Ti 4200 with AGP8X" },
{ 0x10DE0282, "GeForce4 Ti 4800 SE" },
{ 0x10DE0286, "GeForce4 4200 Go" },
{ 0x10DE028C, "Quadro4 700 GoGL" },
{ 0x10DE0288, "Quadro4 980 XGL" },
{ 0x10DE0289, "Quadro4 780 XGL" },
{ 0x10DE0301, "GeForce FX 5800 Ultra" },
{ 0x10DE0302, "GeForce FX 5800" },
{ 0x10DE0308, "Quadro FX 2000" },
{ 0x10DE0309, "Quadro FX 1000" },
{ 0x10DE0311, "GeForce FX 5600 Ultra" },
{ 0x10DE0312, "GeForce FX 5600" },
{ 0x10DE0314, "GeForce FX 5600XT" },
{ 0x10DE031A, "GeForce FX Go5600" },
{ 0x10DE031B, "GeForce FX Go5650" },
{ 0x10DE031C, "Quadro FX Go700" },
{ 0x10DE0320, "GeForce FX 5200" },
{ 0x10DE0321, "GeForce FX 5200 Ultra" },
{ 0x10DE0322, "GeForce FX 5200" },
{ 0x10DE0323, "GeForce FX 5200LE" },
{ 0x10DE0324, "GeForce FX Go5200" },
{ 0x10DE0325, "GeForce FX Go5250" },
{ 0x10DE0326, "GeForce FX 5500" },
{ 0x10DE0327, "GeForce FX 5100" },
{ 0x10DE0328, "GeForce FX Go5200 32M/64M" },
#if defined(__powerpc__)
{ 0x10DE0329, "GeForce FX 5200 (Mac)" },
#endif
{ 0x10DE032A, "Quadro NVS 55/280 PCI" },
{ 0x10DE032B, "Quadro FX 500/600 PCI" },
{ 0x10DE032C, "GeForce FX Go53xx Series" },
{ 0x10DE032D, "GeForce FX Go5100" },
{ 0x10DE0330, "GeForce FX 5900 Ultra" },
{ 0x10DE0331, "GeForce FX 5900" },
{ 0x10DE0332, "GeForce FX 5900XT" },
{ 0x10DE0333, "GeForce FX 5950 Ultra" },
{ 0x10DE0334, "GeForce FX 5900ZT" },
{ 0x10DE0338, "Quadro FX 3000" },
{ 0x10DE033F, "Quadro FX 700" },
{ 0x10DE0341, "GeForce FX 5700 Ultra" },
{ 0x10DE0342, "GeForce FX 5700" },
{ 0x10DE0343, "GeForce FX 5700LE" },
{ 0x10DE0344, "GeForce FX 5700VE" },
{ 0x10DE0347, "GeForce FX Go5700" },
{ 0x10DE0348, "GeForce FX Go5700" },
{ 0x10DE034C, "Quadro FX Go1000" },
{ 0x10DE034E, "Quadro FX 1100" },
{ 0x10DE0040, "GeForce 6800 Ultra" },
{ 0x10DE0041, "GeForce 6800" },
{ 0x10DE0042, "GeForce 6800 LE" },
{ 0x10DE0043, "GeForce 6800 XE" },
{ 0x10DE0044, "GeForce 6800 XT" },
{ 0x10DE0045, "GeForce 6800 GT" },
{ 0x10DE0046, "GeForce 6800 GT" },
{ 0x10DE0047, "GeForce 6800 GS" },
{ 0x10DE0048, "GeForce 6800 XT" },
{ 0x10DE004E, "Quadro FX 4000" },
{ 0x10DE00C0, "GeForce 6800 GS" },
{ 0x10DE00C1, "GeForce 6800" },
{ 0x10DE00C2, "GeForce 6800 LE" },
{ 0x10DE00C3, "GeForce 6800 XT" },
{ 0x10DE00C8, "GeForce Go 6800" },
{ 0x10DE00C9, "GeForce Go 6800 Ultra" },
{ 0x10DE00CC, "Quadro FX Go1400" },
{ 0x10DE00CD, "Quadro FX 3450/4000 SDI" },
{ 0x10DE00CE, "Quadro FX 1400" },
{ 0x10DE0140, "GeForce 6600 GT" },
{ 0x10DE0141, "GeForce 6600" },
{ 0x10DE0142, "GeForce 6600 LE" },
{ 0x10DE0143, "GeForce 6600 VE" },
{ 0x10DE0144, "GeForce Go 6600" },
{ 0x10DE0145, "GeForce 6610 XL" },
{ 0x10DE0146, "GeForce Go 6600 TE/6200 TE" },
{ 0x10DE0147, "GeForce 6700 XL" },
{ 0x10DE0148, "GeForce Go 6600" },
{ 0x10DE0149, "GeForce Go 6600 GT" },
{ 0x10DE014A, "Quadro NVS 440" },
{ 0x10DE014C, "Quadro FX 550" },
{ 0x10DE014D, "Quadro FX 550" },
{ 0x10DE014E, "Quadro FX 540" },
{ 0x10DE014F, "GeForce 6200" },
{ 0x10DE0160, "GeForce 6500" },
{ 0x10DE0161, "GeForce 6200 TurboCache(TM)" },
{ 0x10DE0162, "GeForce 6200SE TurboCache(TM)" },
{ 0x10DE0163, "GeForce 6200 LE" },
{ 0x10DE0164, "GeForce Go 6200" },
{ 0x10DE0165, "Quadro NVS 285" },
{ 0x10DE0166, "GeForce Go 6400" },
{ 0x10DE0167, "GeForce Go 6200" },
{ 0x10DE0168, "GeForce Go 6400" },
{ 0x10DE0169, "GeForce 6250" },
{ 0x10DE016A, "GeForce 7100 GS" },
{ 0x10DE0211, "GeForce 6800" },
{ 0x10DE0212, "GeForce 6800 LE" },
{ 0x10DE0215, "GeForce 6800 GT" },
{ 0x10DE0218, "GeForce 6800 XT" },
{ 0x10DE0221, "GeForce 6200" },
{ 0x10DE0222, "GeForce 6200 A-LE" },
{ 0x10DE0090, "GeForce 7800 GTX" },
{ 0x10DE0091, "GeForce 7800 GTX" },
{ 0x10DE0092, "GeForce 7800 GT" },
{ 0x10DE0093, "GeForce 7800 GS" },
{ 0x10DE0095, "GeForce 7800 SLI" },
{ 0x10DE0098, "GeForce Go 7800" },
{ 0x10DE0099, "GeForce Go 7800 GTX" },
{ 0x10DE009D, "Quadro FX 4500" },
{ 0x10DE01D0, "GeForce 7350 LE" },
{ 0x10DE01D1, "GeForce 7300 LE" },
{ 0x10DE01D3, "GeForce 7300 SE" },
{ 0x10DE01D6, "GeForce Go 7200" },
{ 0x10DE01D7, "GeForce Go 7300" },
{ 0x10DE01D8, "GeForce Go 7400" },
{ 0x10DE01D9, "GeForce Go 7400 GS" },
{ 0x10DE01DA, "Quadro NVS 110M" },
{ 0x10DE01DB, "Quadro NVS 120M" },
{ 0x10DE01DC, "Quadro FX 350M" },
{ 0x10DE01DD, "GeForce 7500 LE" },
{ 0x10DE01DE, "Quadro FX 350" },
{ 0x10DE01DF, "GeForce 7300 GS" },
{ 0x10DE0390, "GeForce 7650 GS" },
{ 0x10DE0391, "GeForce 7600 GT" },
{ 0x10DE0392, "GeForce 7600 GS" },
{ 0x10DE0393, "GeForce 7300 GT" },
{ 0x10DE0394, "GeForce 7600 LE" },
{ 0x10DE0395, "GeForce 7300 GT" },
{ 0x10DE0397, "GeForce Go 7700" },
{ 0x10DE0398, "GeForce Go 7600" },
{ 0x10DE0399, "GeForce Go 7600 GT"},
{ 0x10DE039A, "Quadro NVS 300M" },
{ 0x10DE039B, "GeForce Go 7900 SE" },
{ 0x10DE039C, "Quadro FX 550M" },
{ 0x10DE039E, "Quadro FX 560" },
{ 0x10DE0290, "GeForce 7900 GTX" },
{ 0x10DE0291, "GeForce 7900 GT" },
{ 0x10DE0292, "GeForce 7900 GS" },
{ 0x10DE0293, "GeForce 7950 GX2" },
{ 0x10DE0294, "GeForce 7950 GX2" },
{ 0x10DE0295, "GeForce 7950 GT"},
{ 0x10DE0297, "GeForce Go 7950 GTX" },
{ 0x10DE0298, "GeForce Go 7900 GS" },
{ 0x10DE0299, "GeForce Go 7900 GTX" },
{ 0x10DE029A, "Quadro FX 2500M" },
{ 0x10DE029B, "Quadro FX 1500M" },
{ 0x10DE029C, "Quadro FX 5500" },
{ 0x10DE029D, "Quadro FX 3500" },
{ 0x10DE029E, "Quadro FX 1500" },
{ 0x10DE029F, "Quadro FX 4500 X2" },
{ 0x10DE0240, "GeForce 6150" },
{ 0x10DE0241, "GeForce 6150 LE" },
{ 0x10DE0242, "GeForce 6100" },
{ 0x10DE0244, "GeForce Go 6150" },
{ 0x10DE0245, "Quadro NVS 210S / NVIDIA GeForce 6150LE" },
{ 0x10DE0247, "GeForce Go 6100" },
{ 0x10DE03D0, "GeForce 6150SE" },
{ 0x10DE03D1, "GeForce 6100 nForce 405" },
{ 0x10DE03D2, "GeForce 6100 nForce 400" },
{ 0x10DE03D5, "GeForce 6100 nForce 420" },
{ 0x10DE0531, "GeForce 7150M / nForce 630M" },
{ 0x10DE0533, "GeForce 7000M / nForce 610M" },
{ 0x10DE053A, "GeForce 7050 PV / nForce 630a" },
{ 0x10DE053B, "GeForce 7050 PV / nForce 630a" },
{ 0x10DE053E, "GeForce 7025 / nForce 630a" },
/*************** G8x ***************/
{ 0x10DE0191, "GeForce 8800 GTX" },
{ 0x10DE0193, "GeForce 8800 GTS" },
{ 0x10DE0194, "GeForce 8800 Ultra" },
{ 0x10DE019D, "Quadro FX 5600" },
{ 0x10DE019E, "Quadro FX 4600" },
{ 0x10DE0400, "GeForce 8600 GTS" },
{ 0x10DE0401, "GeForce 8600 GT" },
{ 0x10DE0402, "GeForce 8600 GT" },
{ 0x10DE0403, "GeForce 8600 GS" },
{ 0x10DE0404, "GeForce 8400 GS" },
{ 0x10DE0405, "GeForce 9500M GS" },
{ 0x10DE0407, "GeForce 8600M GT" },
{ 0x10DE0408, "GeForce 9650M GS" },
{ 0x10DE0409, "GeForce 8700M GT" },
{ 0x10DE040A, "Quadro FX 370" },
{ 0x10DE040B, "Quadro NVS 320M" },
{ 0x10DE040C, "Quadro FX 570M" },
{ 0x10DE040D, "Quadro FX 1600M" },
{ 0x10DE040E, "Quadro FX 570" },
{ 0x10DE040F, "Quadro FX 1700" },
{ 0x10DE0420, "GeForce 8400 SE" },
{ 0x10DE0421, "GeForce 8500 GT" },
{ 0x10DE0422, "GeForce 8400 GS" },
{ 0x10DE0423, "GeForce 8300 GS" },
{ 0x10DE0424, "GeForce 8400 GS" },
{ 0x10DE0425, "GeForce 8600M GS" },
{ 0x10DE0426, "GeForce 8400M GT" },
{ 0x10DE0427, "GeForce 8400M GS" },
{ 0x10DE0428, "GeForce 8400M G" },
{ 0x10DE0429, "Quadro NVS 140M" },
{ 0x10DE042A, "Quadro NVS 130M" },
{ 0x10DE042B, "Quadro NVS 135M" },
{ 0x10DE042C, "GeForce 9400 GT" },
{ 0x10DE042D, "Quadro FX 360M" },
{ 0x10DE042E, "GeForce 9300M G" },
{ 0x10DE042F, "Quadro NVS 290" },
{ 0x10DE05E0, "GeForce GTX 295" },
{ 0x10DE05E1, "GeForce GTX 280" },
{ 0x10DE05E2, "GeForce GTX 260" },
{ 0x10DE05E3, "GeForce GTX 285" },
{ 0x10DE05E6, "GeForce GTX 275" },
{ 0x10DE05EB, "GeForce GTX 295" },
{ 0x10DE05F9, "Quadro CX" },
{ 0x10DE05FD, "Quadro FX 5800" },
{ 0x10DE05FE, "Quadro FX 4800" },
{ 0x10DE05FF, "Quadro FX 3800" },
{ 0x10DE0600, "GeForce 8800 GTS 512" },
{ 0x10DE0601, "GeForce 9800 GT" },
{ 0x10DE0602, "GeForce 8800 GT" },
{ 0x10DE0604, "GeForce 9800 GX2" },
{ 0x10DE0605, "GeForce 9800 GT" },
{ 0x10DE0606, "GeForce 8800 GS" },
{ 0x10DE0607, "GeForce GTS 240" },
{ 0x10DE0608, "GeForce 9800M GTX" },
{ 0x10DE0609, "GeForce 8800M GTS" },
{ 0x10DE060A, "GeForce GTX 280M" },
{ 0x10DE060B, "GeForce 9800M GT" },
{ 0x10DE060C, "GeForce 8800M GTX" },
{ 0x10DE060D, "GeForce 8800 GS" },
{ 0x10DE0610, "GeForce 9600 GSO" },
{ 0x10DE0611, "GeForce 8800 GT" },
{ 0x10DE0612, "GeForce 9800 GTX" },
{ 0x10DE0613, "GeForce 9800 GTX+" },
{ 0x10DE0614, "GeForce 9800 GT" },
{ 0x10DE0615, "GeForce GTS 250" },
{ 0x10DE0617, "GeForce 9800M GTX" },
{ 0x10DE0618, "GeForce GTX 260M" },
{ 0x10DE061A, "Quadro FX 3700" },
{ 0x10DE061C, "Quadro FX 3600M" },
{ 0x10DE061D, "Quadro FX 2800M" },
{ 0x10DE061E, "Quadro FX 3700M" },
{ 0x10DE061F, "Quadro FX 3800M" },
{ 0x10DE0622, "GeForce 9600 GT" },
{ 0x10DE0623, "GeForce 9600 GS" },
{ 0x10DE0625, "GeForce 9600 GSO 512" },
{ 0x10DE0626, "GeForce GT 130" },
{ 0x10DE0627, "GeForce GT 140" },
{ 0x10DE0628, "GeForce 9800M GTS" },
{ 0x10DE062A, "GeForce 9700M GTS" },
{ 0x10DE062B, "GeForce 9800M GS" },
{ 0x10DE062C, "GeForce 9800M GTS" },
{ 0x10DE0638, "Quadro FX 1800" },
{ 0x10DE063A, "Quadro FX 2700M" },
{ 0x10DE0640, "GeForce 9500 GT" },
{ 0x10DE0641, "GeForce 9400 GT" },
{ 0x10DE0643, "GeForce 9500 GT" },
{ 0x10DE0644, "GeForce 9500 GS" },
{ 0x10DE0646, "GeForce GT 120" },
{ 0x10DE0647, "GeForce 9600M GT" },
{ 0x10DE0648, "GeForce 9600M GS" },
{ 0x10DE0649, "GeForce 9600M GT" },
{ 0x10DE064A, "GeForce 9700M GT" },
{ 0x10DE064B, "GeForce 9500M G" },
{ 0x10DE064C, "GeForce 9650M GT" },
{ 0x10DE0652, "GeForce GT 130M" },
{ 0x10DE0656, "GeForce 9500 GT" },
{ 0x10DE0658, "Quadro FX 380" },
{ 0x10DE0659, "Quadro FX 580" },
{ 0x10DE065A, "Quadro FX 1700M" },
{ 0x10DE065C, "Quadro FX 770M" },
{ 0x10DE06E0, "GeForce 9300 GE" },
{ 0x10DE06E1, "GeForce 9300 GS" },
{ 0x10DE06E4, "GeForce 8400 GS" },
{ 0x10DE06E5, "GeForce 9300M GS" },
{ 0x10DE06E6, "GeForce G100" },
{ 0x10DE06E8, "GeForce 9200M GS" },
{ 0x10DE06E9, "GeForce 9300M GS" },
{ 0x10DE06EA, "Quadro NVS 150M" },
{ 0x10DE06EB, "Quadro NVS 160M" },
{ 0x10DE06EC, "GeForce G 105M" },
{ 0x10DE06EF, "GeForce G 103M" },
{ 0x10DE06F8, "Quadro NVS 420" },
{ 0x10DE06F9, "Quadro FX 370 LP" },
{ 0x10DE06FA, "Quadro NVS 450" },
{ 0x10DE06FD, "Quadro NVS 295" },
{ 0x10DE0847, "GeForce 9100" },
{ 0x10DE0848, "GeForce 8300" },
{ 0x10DE0849, "GeForce 8200" },
{ 0x10DE084A, "nForce 730a" },
{ 0x10DE084B, "GeForce 9200" },
{ 0x10DE084C, "nForce 980a/780a SLI" },
{ 0x10DE084D, "nForce 750a SLI" },
{ 0x10DE084F, "GeForce 8100 / nForce 720a" },
{ 0x10DE0844, "GeForce 9100M G" },
{ 0x10DE0845, "GeForce 8200M G" },
{ 0x10DE0861, "GeForce 9400" },
{ 0x10DE0862, "GeForce 9400M G" },
{ 0x10DE0863, "GeForce 9400M" },
{ 0x10DE086C, "GeForce 9300 / nForce 730i" },
{ 0x10DE0872, "GeForce G102M" },
{ 0x10DE0873, "GeForce G102M" },
{ 0x10DE087A, "GeForce 9400" },
{ 0x10DE087D, "ION" },
{ 0x10DE087F, "ION LE" },
{ 0x10DE0A20, "GeForce GT 220" },
{ 0x10DE0A23, "GeForce 210" },
{ 0x10DE0A2A, "GeForce GT 230M" },
{ 0x10DE0A34, "GeForce GT 240M" },
{ 0x10DE0A60, "GeForce G210" },
{ 0x10DE0A62, "GeForce 205" },
{ 0x10DE0A63, "GeForce 310" },
{ 0x10DE0A65, "GeForce 210" },
{ 0x10DE0A66, "GeForce 310" },
{ 0x10DE0A74, "GeForce G210M" },
{ 0x10DE0A78, "Quadro FX 380 LP" },
{ 0x10DE0CA3, "GeForce GT 240" },
{ 0x10DE0CA8, "GeForce GTS 260M" },
{ 0x10DE0CA9, "GeForce GTS 250M" },
{-1, NULL}
};
#ifdef XFree86LOADER
static MODULESETUPPROTO(nvSetup);
static XF86ModuleVersionInfo nvVersRec =
{
"nv",
MODULEVENDORSTRING,
MODINFOSTRING1,
MODINFOSTRING2,
XORG_VERSION_CURRENT,
PACKAGE_VERSION_MAJOR, PACKAGE_VERSION_MINOR, PACKAGE_VERSION_PATCHLEVEL,
ABI_CLASS_VIDEODRV, /* This is a video driver */
ABI_VIDEODRV_VERSION,
MOD_CLASS_VIDEODRV,
{0,0,0,0}
};
_X_EXPORT XF86ModuleData nvModuleData = { &nvVersRec, nvSetup, NULL };
#endif
typedef enum {
OPTION_SW_CURSOR,
OPTION_HW_CURSOR,
OPTION_NOACCEL,
OPTION_SHADOW_FB,
OPTION_FBDEV,
OPTION_ROTATE,
OPTION_VIDEO_KEY,
OPTION_FLAT_PANEL,
OPTION_FP_DITHER,
OPTION_CRTC_NUMBER,
OPTION_FP_SCALE,
OPTION_FP_TWEAK,
OPTION_DUALHEAD,
} NVOpts;
static const OptionInfoRec NVOptions[] = {
{ OPTION_SW_CURSOR, "SWcursor", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_HW_CURSOR, "HWcursor", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_NOACCEL, "NoAccel", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_SHADOW_FB, "ShadowFB", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_FBDEV, "UseFBDev", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_ROTATE, "Rotate", OPTV_ANYSTR, {0}, FALSE },
{ OPTION_VIDEO_KEY, "VideoKey", OPTV_INTEGER, {0}, FALSE },
{ OPTION_FLAT_PANEL, "FlatPanel", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_FP_DITHER, "FPDither", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_CRTC_NUMBER, "CrtcNumber", OPTV_INTEGER, {0}, FALSE },
{ OPTION_FP_SCALE, "FPScale", OPTV_BOOLEAN, {0}, FALSE },
{ OPTION_FP_TWEAK, "FPTweak", OPTV_INTEGER, {0}, FALSE },
{ OPTION_DUALHEAD, "DualHead", OPTV_BOOLEAN, {0}, FALSE },
{ -1, NULL, OPTV_NONE, {0}, FALSE }
};
/*
* This is intentionally screen-independent. It indicates the binding
* choice made in the first PreInit.
*/
static int pix24bpp = 0;
static Bool
NVGetRec(ScrnInfoPtr pScrn)
{
/*
* Allocate an NVRec, and hook it into pScrn->driverPrivate.
* pScrn->driverPrivate is initialised to NULL, so we can check if
* the allocation has already been done.
*/
if (pScrn->driverPrivate != NULL)
return TRUE;
pScrn->driverPrivate = xnfcalloc(sizeof(NVRec), 1);
/* Initialise it */
return TRUE;
}
static void
NVFreeRec(ScrnInfoPtr pScrn)
{
if (pScrn->driverPrivate == NULL)
return;
free(pScrn->driverPrivate);
pScrn->driverPrivate = NULL;
}
#ifdef XFree86LOADER
static pointer
nvSetup(pointer module, pointer opts, int *errmaj, int *errmin)
{
static Bool setupDone = FALSE;
/* This module should be loaded only once, but check to be sure. */
if (!setupDone) {
setupDone = TRUE;
xf86AddDriver(&NV, module,
#if XSERVER_LIBPCIACCESS
HaveDriverFuncs
#else
0
#endif
);
/*
* The return value must be non-NULL on success even though there
* is no TearDownProc.
*/
return (pointer)1;
} else {
if (errmaj) *errmaj = LDR_ONCEONLY;
return NULL;
}
}
#endif /* XFree86LOADER */
static const OptionInfoRec *
NVAvailableOptions(int chipid, int busid)
{
if(chipid == 0x12D20018) {
return RivaAvailableOptions(chipid, busid);
}
return NVOptions;
}
/* Mandatory */
static void
NVIdentify(int flags)
{
xf86PrintChipsets(NV_NAME, "driver for NVIDIA chipsets", NVKnownChipsets);
}
static Bool
NVGetScrnInfoRec(PciChipsets *chips, int chip)
{
ScrnInfoPtr pScrn;
pScrn = xf86ConfigPciEntity(NULL, 0, chip,
chips, NULL, NULL, NULL,
NULL, NULL);
if(!pScrn) return FALSE;
pScrn->driverVersion = NV_VERSION;
pScrn->driverName = NV_DRIVER_NAME;
pScrn->name = NV_NAME;
#if !XSERVER_LIBPCIACCESS
pScrn->Probe = NVProbe;
#endif
pScrn->PreInit = NVPreInit;
pScrn->ScreenInit = NVScreenInit;
pScrn->SwitchMode = NVSwitchMode;
pScrn->AdjustFrame = NVAdjustFrame;
pScrn->EnterVT = NVEnterVT;
pScrn->LeaveVT = NVLeaveVT;
pScrn->FreeScreen = NVFreeScreen;
pScrn->ValidMode = NVValidMode;
return TRUE;
}
#define MAX_CHIPS MAXSCREENS
static CARD32
#if XSERVER_LIBPCIACCESS
NVGetPCIXpressChip (struct pci_device *dev)
#else
NVGetPCIXpressChip (pciVideoPtr pVideo)
#endif
{
volatile CARD32 *regs;
#if XSERVER_LIBPCIACCESS
uint32_t pciid, pcicmd;
void *tmp;
pci_device_cfg_read_u32(dev, &pcicmd, PCI_CMD_STAT_REG);
pci_device_cfg_write_u32(dev, pcicmd | PCI_CMD_MEM_ENABLE,
PCI_CMD_STAT_REG);
pci_device_map_range(dev, dev->regions[0].base_addr, 0x2000,
PCI_DEV_MAP_FLAG_WRITABLE, &tmp);
regs = tmp;
pciid = regs[0x1800/4];
pci_device_unmap_range(dev, tmp, 0x2000);
pci_device_cfg_write_u32(dev, pcicmd, PCI_CMD_STAT_REG);
#else
CARD32 pciid, pcicmd;
PCITAG Tag = ((pciConfigPtr)(pVideo->thisCard))->tag;
pcicmd = pciReadLong(Tag, PCI_CMD_STAT_REG);
pciWriteLong(Tag, PCI_CMD_STAT_REG, pcicmd | PCI_CMD_MEM_ENABLE);
regs = xf86MapPciMem(-1, VIDMEM_MMIO, Tag, pVideo->memBase[0], 0x2000);
pciid = regs[0x1800/4];
xf86UnMapVidMem(-1, (pointer)regs, 0x2000);
pciWriteLong(Tag, PCI_CMD_STAT_REG, pcicmd);
#endif
if((pciid & 0x0000ffff) == 0x000010DE)
pciid = 0x10DE0000 | (pciid >> 16);
else
if((pciid & 0xffff0000) == 0xDE100000) /* wrong endian */
pciid = 0x10DE0000 | ((pciid << 8) & 0x0000ff00) |
((pciid >> 8) & 0x000000ff);
return pciid;
}
static Bool
NVIsG80(int chipType)
{
switch(chipType & 0xfff0) {
case 0x0190:
case 0x0400:
case 0x0420:
case 0x05e0:
case 0x05f0:
case 0x0600:
case 0x0610:
case 0x0620:
case 0x0630:
case 0x0640:
case 0x0650:
case 0x06e0:
case 0x06f0:
case 0x0840:
case 0x0850:
case 0x0860:
case 0x0870:
case 0x0a20:
case 0x0a30:
case 0x0a60:
case 0x0a70:
case 0x0ca0:
case 0x0cb0:
return TRUE;
}
return FALSE;
}
static Bool
NVIsSupported(CARD32 id)
{
/* look for a compatible devices which may be newer than
the NVKnownChipsets list above. */
switch(id & 0xfff0) {
case 0x0040:
case 0x0090:
case 0x00C0:
case 0x0120:
case 0x0140:
case 0x0160:
case 0x0170:
case 0x0180:
case 0x01D0:
case 0x0210:
case 0x0220:
case 0x0240:
case 0x0250:
case 0x0280:
case 0x0290:
case 0x0300:
case 0x0310:
case 0x0320:
case 0x0330:
case 0x0340:
case 0x0390:
case 0x03D0:
case 0x0530:
return TRUE;
}
return FALSE;
}
/* Mandatory */
#if XSERVER_LIBPCIACCESS
static Bool
NVPciProbe(DriverPtr drv, int entity, struct pci_device *dev, intptr_t data)
{
const CARD32 id = ((dev->device_id & 0xfff0) == 0x00F0 ||
(dev->device_id & 0xfff0) == 0x02E0) ?
NVGetPCIXpressChip(dev) : dev->vendor_id << 16 | dev->device_id;
const char *name = xf86TokenToString(NVKnownChipsets, id);
if (pci_device_has_kernel_driver(dev)) {
xf86DrvMsg(0, X_ERROR,
NV_NAME ": The PCI device 0x%x (%s) at %2.2x@%2.2x:%2.2x:%1.1x has a kernel module claiming it.\n",
id, name, dev->bus, dev->domain, dev->dev, dev->func);
xf86DrvMsg(0, X_ERROR,
NV_NAME ": This driver cannot operate until it has been unloaded.\n");
return FALSE;
}
if(dev->vendor_id == PCI_VENDOR_NVIDIA && !name &&
!NVIsSupported(id) && !NVIsG80(id)) {
/* See if pci.ids knows what the heck this thing is */
name = pci_device_get_device_name(dev);
if(name)
xf86DrvMsg(0, X_WARNING,
NV_NAME ": Ignoring unsupported device 0x%x (%s) at %2.2x@%2.2x:%2.2x:%1.1x\n",
id, name, dev->bus, dev->domain, dev->dev, dev->func);
else
xf86DrvMsg(0, X_WARNING,
NV_NAME ": Ignoring unsupported device 0x%x at %2.2x@%2.2x:%2.2x:%1.1x\n",
id, dev->bus, dev->domain, dev->dev, dev->func);
return FALSE;
}
if(!name)
name = pci_device_get_device_name(dev);
if(!name)
name = "Unknown GPU";
xf86DrvMsg(0, X_PROBED,
NV_NAME ": Found NVIDIA %s at %2.2x@%2.2x:%2.2x:%1.1x\n",
name, dev->bus, dev->domain, dev->dev, dev->func);
if(NVIsG80(id))
return G80GetScrnInfoRec(NULL, entity);
else if(dev->vendor_id == PCI_VENDOR_NVIDIA_SGS)
return RivaGetScrnInfoRec(NULL, entity);
else
return NVGetScrnInfoRec(NULL, entity);
}
#else
static Bool
NVProbe(DriverPtr drv, int flags)
{
int i;
GDevPtr *devSections;
int *usedChips;
SymTabRec NVChipsets[MAX_CHIPS + 1];
PciChipsets NVPciChipsets[MAX_CHIPS + 1];
pciVideoPtr *ppPci;
int numDevSections;
int numUsed;
Bool foundScreen = FALSE;
if ((numDevSections = xf86MatchDevice(NV_DRIVER_NAME, &devSections)) <= 0)
return FALSE; /* no matching device section */
if (!(ppPci = xf86GetPciVideoInfo()))
return FALSE; /* no PCI cards found */
numUsed = 0;
/* Create the NVChipsets and NVPciChipsets from found devices */
while (*ppPci && (numUsed < MAX_CHIPS)) {
if(((*ppPci)->vendor == PCI_VENDOR_NVIDIA_SGS) ||
((*ppPci)->vendor == PCI_VENDOR_NVIDIA))
{
SymTabRec *nvchips = NVKnownChipsets;
int pciid = ((*ppPci)->vendor << 16) | (*ppPci)->chipType;
int token = pciid;
if(((token & 0xfff0) == 0x00F0) ||
((token & 0xfff0) == 0x02E0))
{
token = NVGetPCIXpressChip(*ppPci);
}
while(nvchips->name) {
if(token == nvchips->token)
break;
nvchips++;
}
if(nvchips->name ||
((*ppPci)->vendor == PCI_VENDOR_NVIDIA &&
(NVIsSupported(token) || NVIsG80((*ppPci)->chipType)))) {
NVChipsets[numUsed].token = pciid;
NVChipsets[numUsed].name = nvchips->name ? nvchips->name : "Unknown NVIDIA chip";
NVPciChipsets[numUsed].numChipset = pciid;
NVPciChipsets[numUsed].PCIid = pciid;
NVPciChipsets[numUsed].resList = RES_SHARED_VGA;
numUsed++;
}
}
ppPci++;
}
/* terminate the list */
NVChipsets[numUsed].token = -1;
NVChipsets[numUsed].name = NULL;
NVPciChipsets[numUsed].numChipset = -1;
NVPciChipsets[numUsed].PCIid = -1;
NVPciChipsets[numUsed].resList = RES_UNDEFINED;
numUsed = xf86MatchPciInstances(NV_NAME, 0, NVChipsets, NVPciChipsets,
devSections, numDevSections, drv,
&usedChips);
if (numUsed <= 0)
return FALSE;
if (flags & PROBE_DETECT)
foundScreen = TRUE;
else for (i = 0; i < numUsed; i++) {
pciVideoPtr pPci;
pPci = xf86GetPciInfoForEntity(usedChips[i]);
if(pPci->vendor == PCI_VENDOR_NVIDIA_SGS) {
if(RivaGetScrnInfoRec(NVPciChipsets, usedChips[i]))
foundScreen = TRUE;
} else if (NVIsG80(pPci->chipType)) {
if(G80GetScrnInfoRec(NVPciChipsets, usedChips[i]))
foundScreen = TRUE;
} else {
if(NVGetScrnInfoRec(NVPciChipsets, usedChips[i]))
foundScreen = TRUE;
}
}
free(devSections);
free(usedChips);
return foundScreen;
}
#endif /* XSERVER_LIBPCIACCESS */
/* Usually mandatory */
Bool
NVSwitchMode(int scrnIndex, DisplayModePtr mode, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVSync(pScrn);
return NVModeInit(pScrn, mode);
}
static Bool
NVSwitchModeVBE(int scrnIndex, DisplayModePtr mode, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVPtr pNv = NVPTR(pScrn);
const Bool disableAccess = pNv->accessEnabled;
if(disableAccess)
pScrn->EnableDisableFBAccess(scrnIndex, FALSE);
NVSync(pScrn);
if (!NVSetModeVBE(pScrn, mode))
return FALSE;
NVAdjustFrame(scrnIndex, pScrn->frameX0, pScrn->frameY0, 0);
if(disableAccess)
pScrn->EnableDisableFBAccess(scrnIndex, TRUE);
return TRUE;
}
/*
* This function is used to initialize the Start Address - the first
* displayed location in the video memory.
*/
/* Usually mandatory */
void
NVAdjustFrame(int scrnIndex, int x, int y, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
int startAddr;
NVPtr pNv = NVPTR(pScrn);
NVFBLayout *pLayout = &pNv->CurrentLayout;
startAddr = (((y*pLayout->displayWidth)+x)*(pLayout->bitsPerPixel/8));
NVSetStartAddress(pNv, startAddr);
}
/*
* This is called when VT switching back to the X server. Its job is
* to reinitialise the video mode.
*
* We may wish to unmap video/MMIO memory too.
*/
/* Mandatory */
static Bool
NVEnterVT(int scrnIndex, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVPtr pNv = NVPTR(pScrn);
if (!NVModeInit(pScrn, pScrn->currentMode))
return FALSE;
NVAdjustFrame(scrnIndex, pScrn->frameX0, pScrn->frameY0, 0);
if(pNv->overlayAdaptor)
NVResetVideo(pScrn);
return TRUE;
}
static Bool
NVEnterVTFBDev(int scrnIndex, int flags)
{
fbdevHWEnterVT(scrnIndex,flags);
return TRUE;
}
static Bool
NVEnterVTVBE(int scrnIndex, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
if (!NVSetModeVBE(pScrn, pScrn->currentMode))
return FALSE;
NVAdjustFrame(scrnIndex, 0, 0, 0);
return TRUE;
}
/*
* This is called when VT switching away from the X server. Its job is
* to restore the previous (text) mode.
*
* We may wish to remap video/MMIO memory too.
*/
/* Mandatory */
static void
NVLeaveVT(int scrnIndex, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVPtr pNv = NVPTR(pScrn);
NVSync(pScrn);
NVRestore(pScrn);
NVLockUnlock(pNv, 1);
}
static void
NVLeaveVTVBE(int scrnIndex, int flags)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVSync(pScrn);
NVSaveRestoreVBE(pScrn, MODE_RESTORE);
}
static void
NVBlockHandler (
int i,
pointer blockData,
pointer pTimeout,
pointer pReadmask
)
{
ScreenPtr pScreen = screenInfo.screens[i];
ScrnInfoPtr pScrnInfo = xf86Screens[i];
NVPtr pNv = NVPTR(pScrnInfo);
if (pNv->DMAKickoffCallback)
(*pNv->DMAKickoffCallback)(pScrnInfo);
pScreen->BlockHandler = pNv->BlockHandler;
(*pScreen->BlockHandler) (i, blockData, pTimeout, pReadmask);
pScreen->BlockHandler = NVBlockHandler;
if (pNv->VideoTimerCallback)
(*pNv->VideoTimerCallback)(pScrnInfo, currentTime.milliseconds);
}
/*
* This is called at the end of each server generation. It restores the
* original (text) mode. It should also unmap the video memory, and free
* any per-generation data allocated by the driver. It should finish
* by unwrapping and calling the saved CloseScreen function.
*/
/* Mandatory */
static Bool
NVCloseScreen(int scrnIndex, ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[scrnIndex];
NVPtr pNv = NVPTR(pScrn);
if (pScrn->vtSema) {
if (!pNv->NoAccel)
NVSync(pScrn);
if (pNv->VBEDualhead) {
NVSaveRestoreVBE(pScrn, MODE_RESTORE);
} else {
NVRestore(pScrn);
NVLockUnlock(pNv, 1);
}
}
NVUnmapMem(pScrn);
vgaHWUnmapMem(pScrn);
if (pNv->AccelInfoRec)
XAADestroyInfoRec(pNv->AccelInfoRec);
if (pNv->CursorInfoRec)
xf86DestroyCursorInfoRec(pNv->CursorInfoRec);
if (pNv->ShadowPtr)
free(pNv->ShadowPtr);
if (pNv->DGAModes)
free(pNv->DGAModes);
if (pNv->overlayAdaptor)
free(pNv->overlayAdaptor);
if (pNv->blitAdaptor)
free(pNv->blitAdaptor);
pScrn->vtSema = FALSE;
pScreen->CloseScreen = pNv->CloseScreen;
pScreen->BlockHandler = pNv->BlockHandler;
return (*pScreen->CloseScreen)(scrnIndex, pScreen);
}
static void
NVEnableDisableFBAccess(int scrnIndex, Bool enable)
{
NVPtr pNv = NVPTR(xf86Screens[scrnIndex]);
pNv->accessEnabled = enable;
pNv->EnableDisableFBAccess(scrnIndex, enable);
}
/* Free up any persistent data structures */
/* Optional */
static void
NVFreeScreen(int scrnIndex, int flags)
{
/*
* This only gets called when a screen is being deleted. It does not
* get called routinely at the end of a server generation.
*/
if (xf86LoaderCheckSymbol("vgaHWFreeHWRec"))
vgaHWFreeHWRec(xf86Screens[scrnIndex]);
NVFreeRec(xf86Screens[scrnIndex]);
}
/* Checks if a mode is suitable for the selected chipset. */
/* Optional */
static ModeStatus
NVValidMode(int scrnIndex, DisplayModePtr mode, Bool verbose, int flags)
{
NVPtr pNv = NVPTR(xf86Screens[scrnIndex]);
if(pNv->fpWidth && pNv->fpHeight)
if((pNv->fpWidth < mode->HDisplay) || (pNv->fpHeight < mode->VDisplay))
return (MODE_PANEL);
return (MODE_OK);
}
static void
nvProbeDDC(ScrnInfoPtr pScrn, int index)
{
vbeInfoPtr pVbe;
if (xf86LoadSubModule(pScrn, "vbe")) {
pVbe = VBEInit(NULL,index);
ConfiguredMonitor = vbeDoEDID(pVbe, NULL);
vbeFree(pVbe);
}
}
Bool NVI2CInit(ScrnInfoPtr pScrn)
{
char *mod = "i2c";
if (xf86LoadSubModule(pScrn, mod)) {
mod = "ddc";
if(xf86LoadSubModule(pScrn, mod)) {
return NVDACi2cInit(pScrn);
}
}
xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
"Couldn't load %s module. DDC probing can't be done\n", mod);
return FALSE;
}
/* Copied from ddc/Property.c */
static DisplayModePtr
NVModesAdd(DisplayModePtr Modes, DisplayModePtr Additions)
{
if (!Modes) {
if (Additions)
return Additions;
else
return NULL;
}
if (Additions) {
DisplayModePtr Mode = Modes;
while (Mode->next)
Mode = Mode->next;
Mode->next = Additions;
Additions->prev = Mode;
}
return Modes;
}
/* Mandatory */
static Bool
NVPreInit(ScrnInfoPtr pScrn, int flags)
{
NVPtr pNv;
MessageType from;
int i, max_width, max_height;
ClockRangePtr clockRanges;
const char *s;
Bool config_mon_rates;
if (flags & PROBE_DETECT) {
EntityInfoPtr pEnt = xf86GetEntityInfo(pScrn->entityList[0]);
if (!pEnt)
return FALSE;
i = pEnt->index;
free(pEnt);
nvProbeDDC(pScrn, i);
return TRUE;
}
/*
* Note: This function is only called once at server startup, and
* not at the start of each server generation. This means that
* only things that are persistent across server generations can
* be initialised here. xf86Screens[] is (pScrn is a pointer to one
* of these). Privates allocated using xf86AllocateScrnInfoPrivateIndex()
* are too, and should be used for data that must persist across
* server generations.
*
* Per-generation data should be allocated with
* AllocateScreenPrivateIndex() from the ScreenInit() function.
*/
/* Check the number of entities, and fail if it isn't one. */
if (pScrn->numEntities != 1)
return FALSE;
/* Allocate the NVRec driverPrivate */
if (!NVGetRec(pScrn)) {
return FALSE;
}
pNv = NVPTR(pScrn);
/* Get the entity, and make sure it is PCI. */
pNv->pEnt = xf86GetEntityInfo(pScrn->entityList[0]);
if (pNv->pEnt->location.type != BUS_PCI)
return FALSE;
/* Find the PCI info for this screen */
pNv->PciInfo = xf86GetPciInfoForEntity(pNv->pEnt->index);
#if !XSERVER_LIBPCIACCESS
pNv->PciTag = pciTag(pNv->PciInfo->bus, pNv->PciInfo->device,
pNv->PciInfo->func);
#endif
pNv->Primary = xf86IsPrimaryPci(pNv->PciInfo);
/* Initialize the card through int10 interface if needed */
if (xf86LoadSubModule(pScrn, "int10")) {
#if !defined(__alpha__) && !defined(__powerpc__)
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Initializing int10\n");
pNv->pInt = xf86InitInt10(pNv->pEnt->index);
#endif
}
#ifndef XSERVER_LIBPCIACCESS
xf86SetOperatingState(resVgaIo, pNv->pEnt->index, ResUnusedOpr);
xf86SetOperatingState(resVgaMem, pNv->pEnt->index, ResDisableOpr);
#endif
/* Set pScrn->monitor */
pScrn->monitor = pScrn->confScreen->monitor;
/*
* Set the Chipset and ChipRev, allowing config file entries to
* override.
*/
if (pNv->pEnt->device->chipset && *pNv->pEnt->device->chipset) {
pScrn->chipset = pNv->pEnt->device->chipset;
pNv->Chipset = xf86StringToToken(NVKnownChipsets, pScrn->chipset);
from = X_CONFIG;
} else if (pNv->pEnt->device->chipID >= 0) {
pNv->Chipset = pNv->pEnt->device->chipID;
pScrn->chipset = (char *)xf86TokenToString(NVKnownChipsets,
pNv->Chipset);
from = X_CONFIG;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "ChipID override: 0x%04X\n",
pNv->Chipset);
} else {
from = X_PROBED;
pNv->Chipset = VENDOR_ID(pNv->PciInfo) << 16 | DEVICE_ID(pNv->PciInfo);
if(((pNv->Chipset & 0xfff0) == 0x00F0) ||
((pNv->Chipset & 0xfff0) == 0x02E0))
{
pNv->Chipset = NVGetPCIXpressChip(pNv->PciInfo);
}
pScrn->chipset = (char *)xf86TokenToString(NVKnownChipsets,
pNv->Chipset);
if(!pScrn->chipset)
pScrn->chipset = "Unknown NVIDIA chipset";
}
if (pNv->pEnt->device->chipRev >= 0) {
pNv->ChipRev = pNv->pEnt->device->chipRev;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "ChipRev override: %d\n",
pNv->ChipRev);
} else {
pNv->ChipRev = CHIP_REVISION(pNv->PciInfo);
}
/*
* This shouldn't happen because such problems should be caught in
* NVProbe(), but check it just in case.
*/
if (pScrn->chipset == NULL) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"ChipID 0x%04X is not recognised\n", pNv->Chipset);
xf86FreeInt10(pNv->pInt);
return FALSE;
}
if (pNv->Chipset < 0) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"Chipset \"%s\" is not recognised\n", pScrn->chipset);
xf86FreeInt10(pNv->pInt);
return FALSE;
}
xf86DrvMsg(pScrn->scrnIndex, from, "Chipset: \"%s\"\n", pScrn->chipset);
/*
* The first thing we should figure out is the depth, bpp, etc.
*/
if (!xf86SetDepthBpp(pScrn, 0, 0, 0, Support32bppFb)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
} else {
/* Check that the returned depth is one we support */
switch (pScrn->depth) {
case 8:
case 15:
case 16:
case 24:
/* OK */
break;
default:
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"Given depth (%d) is not supported by this driver\n",
pScrn->depth);
xf86FreeInt10(pNv->pInt);
return FALSE;
}
}
xf86PrintDepthBpp(pScrn);
/* Get the depth24 pixmap format */
if (pScrn->depth == 24 && pix24bpp == 0)
pix24bpp = xf86GetBppFromDepth(pScrn, 24);
/*
* This must happen after pScrn->display has been set because
* xf86SetWeight references it.
*/
if (pScrn->depth > 8) {
/* The defaults are OK for us */
rgb zeros = {0, 0, 0};
if (!xf86SetWeight(pScrn, zeros, zeros)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
}
if (!xf86SetDefaultVisual(pScrn, -1)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
} else {
/* We don't currently support DirectColor at > 8bpp */
if (pScrn->depth > 8 && (pScrn->defaultVisual != TrueColor)) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Given default visual"
" (%s) is not supported at depth %d\n",
xf86GetVisualName(pScrn->defaultVisual), pScrn->depth);
xf86FreeInt10(pNv->pInt);
return FALSE;
}
}
/* The vgahw module should be loaded here when needed */
if (!xf86LoadSubModule(pScrn, "vgahw")) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
/*
* Allocate a vgaHWRec
*/
if (!vgaHWGetHWRec(pScrn)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
/* We use a programmable clock */
pScrn->progClock = TRUE;
/* Collect all of the relevant option flags (fill in pScrn->options) */
xf86CollectOptions(pScrn, NULL);
/* Process the options */
if (!(pNv->Options = malloc(sizeof(NVOptions))))
return FALSE;
memcpy(pNv->Options, NVOptions, sizeof(NVOptions));
xf86ProcessOptions(pScrn->scrnIndex, pScrn->options, pNv->Options);
/* Set the bits per RGB for 8bpp mode */
if (pScrn->depth == 8)
pScrn->rgbBits = 8;
from = X_DEFAULT;
pNv->HWCursor = TRUE;
/*
* The preferred method is to use the "hw cursor" option as a tri-state
* option, with the default set above.
*/
if (xf86GetOptValBool(pNv->Options, OPTION_HW_CURSOR, &pNv->HWCursor)) {
from = X_CONFIG;
}
/* For compatibility, accept this too (as an override) */
if (xf86ReturnOptValBool(pNv->Options, OPTION_SW_CURSOR, FALSE)) {
from = X_CONFIG;
pNv->HWCursor = FALSE;
}
xf86DrvMsg(pScrn->scrnIndex, from, "Using %s cursor\n",
pNv->HWCursor ? "HW" : "SW");
pNv->FpScale = TRUE;
if (xf86GetOptValBool(pNv->Options, OPTION_FP_SCALE, &pNv->FpScale)) {
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Flat panel scaling %s\n",
pNv->FpScale ? "on" : "off");
}
if (xf86ReturnOptValBool(pNv->Options, OPTION_NOACCEL, FALSE)) {
pNv->NoAccel = TRUE;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Acceleration disabled\n");
}
if (xf86ReturnOptValBool(pNv->Options, OPTION_SHADOW_FB, FALSE)) {
pNv->ShadowFB = TRUE;
pNv->NoAccel = TRUE;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Using \"Shadow Framebuffer\" - acceleration disabled\n");
}
if (xf86ReturnOptValBool(pNv->Options, OPTION_FBDEV, FALSE)) {
pNv->FBDev = TRUE;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Using framebuffer device\n");
}
if (pNv->FBDev) {
/* check for linux framebuffer device */
if (!xf86LoadSubModule(pScrn, "fbdevhw")) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
if (!fbdevHWInit(pScrn, pNv->PciInfo, NULL)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
pScrn->SwitchMode = fbdevHWSwitchModeWeak();
pScrn->AdjustFrame = fbdevHWAdjustFrameWeak();
pScrn->EnterVT = NVEnterVTFBDev;
pScrn->LeaveVT = fbdevHWLeaveVTWeak();
pScrn->ValidMode = fbdevHWValidModeWeak();
}
pNv->Rotate = 0;
pNv->RandRRotation = FALSE;
if ((s = xf86GetOptValString(pNv->Options, OPTION_ROTATE))) {
if(!xf86NameCmp(s, "CW")) {
pNv->ShadowFB = TRUE;
pNv->NoAccel = TRUE;
pNv->HWCursor = FALSE;
pNv->Rotate = 1;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Rotating screen clockwise - acceleration disabled\n");
} else
if(!xf86NameCmp(s, "CCW")) {
pNv->ShadowFB = TRUE;
pNv->NoAccel = TRUE;
pNv->HWCursor = FALSE;
pNv->Rotate = -1;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Rotating screen counter clockwise - acceleration disabled\n");
} else
if(!xf86NameCmp(s, "RandR")) {
#ifdef RANDR
pNv->ShadowFB = TRUE;
pNv->NoAccel = TRUE;
pNv->HWCursor = FALSE;
pNv->RandRRotation = TRUE;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Using RandR rotation - acceleration disabled\n");
#else
xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
"This driver was not compiled with support for the Resize and "
"Rotate extension. Cannot honor 'Option \"Rotate\" "
"\"RandR\"'.\n");
#endif
} else {
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"\"%s\" is not a valid value for Option \"Rotate\"\n", s);
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"Valid options are \"CW\", \"CCW\", and \"RandR\"\n");
}
}
if(xf86GetOptValInteger(pNv->Options, OPTION_VIDEO_KEY, &(pNv->videoKey))) {
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "video key set to 0x%x\n",
pNv->videoKey);
} else {
pNv->videoKey = (1 << pScrn->offset.red) |
(1 << pScrn->offset.green) |
(((pScrn->mask.blue >> pScrn->offset.blue) - 1) << pScrn->offset.blue);
}
if (xf86GetOptValBool(pNv->Options, OPTION_FLAT_PANEL, &(pNv->FlatPanel))) {
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "forcing %s usage\n",
pNv->FlatPanel ? "DFP" : "CRTC");
} else {
pNv->FlatPanel = -1; /* autodetect later */
}
pNv->FPDither = FALSE;
if (xf86GetOptValBool(pNv->Options, OPTION_FP_DITHER, &(pNv->FPDither)))
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "enabling flat panel dither\n");
if (xf86GetOptValInteger(pNv->Options, OPTION_CRTC_NUMBER,
&pNv->CRTCnumber))
{
if((pNv->CRTCnumber < 0) || (pNv->CRTCnumber > 1)) {
pNv->CRTCnumber = -1;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Invalid CRTC number. Must be 0 or 1\n");
}
} else {
pNv->CRTCnumber = -1; /* autodetect later */
}
if (xf86GetOptValInteger(pNv->Options, OPTION_FP_TWEAK,
&pNv->PanelTweak))
{
pNv->usePanelTweak = TRUE;
} else {
pNv->usePanelTweak = FALSE;
}
if (xf86ReturnOptValBool(pNv->Options, OPTION_DUALHEAD, FALSE)) {
if (pNv->FBDev)
xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
"FBDev and Dualhead are incompatible.\n");
else
pNv->VBEDualhead = TRUE;
}
if (pNv->VBEDualhead) {
if (!xf86LoadSubModule(pScrn, "vbe")) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"Couldn't load the VBE module and Dualhead is "
"enabled.\n");
return FALSE;
}
pNv->pVbe = VBEExtendedInit(NULL, pNv->pEnt->index,
SET_BIOS_SCRATCH | RESTORE_BIOS_SCRATCH);
if (!pNv->pVbe) return FALSE;
pNv->pVbeInfo = VBEGetVBEInfo(pNv->pVbe);
if (!pNv->pVbeInfo) return FALSE;
xf86DrvMsg(pScrn->scrnIndex, X_CONFIG,
"Using VBE dual-head mode.\n");
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"Using software cursor.\n");
pNv->HWCursor = FALSE;
pScrn->SwitchMode = NVSwitchModeVBE;
pScrn->EnterVT = NVEnterVTVBE;
pScrn->LeaveVT = NVLeaveVTVBE;
pScrn->ValidMode = NULL;
}
if (pNv->pEnt->device->MemBase != 0) {
/* Require that the config file value matches one of the PCI values. */
if (!xf86CheckPciMemBase(pNv->PciInfo, pNv->pEnt->device->MemBase)) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"MemBase 0x%08lX doesn't match any PCI base register.\n",
pNv->pEnt->device->MemBase);
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
pNv->FbAddress = pNv->pEnt->device->MemBase;
from = X_CONFIG;
} else {
if (MEMBASE(pNv->PciInfo, 1) != 0) {
pNv->FbAddress = MEMBASE(pNv->PciInfo, 1) & 0xff800000;
from = X_PROBED;
} else {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"No valid FB address in PCI config space\n");
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
}
xf86DrvMsg(pScrn->scrnIndex, from, "Linear framebuffer at 0x%lX\n",
(unsigned long)pNv->FbAddress);
if (pNv->pEnt->device->IOBase != 0) {
/* Require that the config file value matches one of the PCI values. */
if (!xf86CheckPciMemBase(pNv->PciInfo, pNv->pEnt->device->IOBase)) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"IOBase 0x%08lX doesn't match any PCI base register.\n",
pNv->pEnt->device->IOBase);
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
pNv->IOAddress = pNv->pEnt->device->IOBase;
from = X_CONFIG;
} else {
if (MEMBASE(pNv->PciInfo, 0) != 0) {
pNv->IOAddress = MEMBASE(pNv->PciInfo, 0) & 0xffffc000;
from = X_PROBED;
} else {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"No valid MMIO address in PCI config space\n");
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
}
xf86DrvMsg(pScrn->scrnIndex, from, "MMIO registers at 0x%lX\n",
(unsigned long)pNv->IOAddress);
#ifndef XSERVER_LIBPCIACCESS
if (xf86RegisterResources(pNv->pEnt->index, NULL, ResExclusive)) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"xf86RegisterResources() found resource conflicts\n");
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
#endif
switch (pNv->Chipset & 0x0ff0) {
case 0x0100: /* GeForce 256 */
case 0x0110: /* GeForce2 MX */
case 0x0150: /* GeForce2 */
case 0x0170: /* GeForce4 MX */
case 0x0180: /* GeForce4 MX (8x AGP) */
case 0x01A0: /* nForce */
case 0x01F0: /* nForce2 */
pNv->Architecture = NV_ARCH_10;
break;
case 0x0200: /* GeForce3 */
case 0x0250: /* GeForce4 Ti */
case 0x0280: /* GeForce4 Ti (8x AGP) */
pNv->Architecture = NV_ARCH_20;
break;
case 0x0300: /* GeForce FX 5800 */
case 0x0310: /* GeForce FX 5600 */
case 0x0320: /* GeForce FX 5200 */
case 0x0330: /* GeForce FX 5900 */
case 0x0340: /* GeForce FX 5700 */
pNv->Architecture = NV_ARCH_30;
break;
case 0x0040: /* GeForce 6800 */
case 0x00C0: /* GeForce 6800 */
case 0x0120: /* GeForce 6800 */
case 0x0140: /* GeForce 6600 */
case 0x0160: /* GeForce 6200 */
case 0x01D0: /* GeForce 7200, 7300, 7400 */
case 0x0090: /* GeForce 7800 */
case 0x0210: /* GeForce 6800 */
case 0x0220: /* GeForce 6200 */
case 0x0290: /* GeForce 7900 */
case 0x0390: /* GeForce 7600 */
case 0x0240: /* GeForce 6100 */
case 0x0530: /* GeForce 7050, 7025 */
case 0x03D0:
pNv->Architecture = NV_ARCH_40;
break;
default:
pNv->Architecture = NV_ARCH_04;
break;
}
pNv->alphaCursor = (pNv->Architecture >= NV_ARCH_10) &&
((pNv->Chipset & 0x0ff0) != 0x0100);
if ((pScrn->monitor->nHsync == 0) &&
(pScrn->monitor->nVrefresh == 0))
config_mon_rates = FALSE;
else
config_mon_rates = TRUE;
NVCommonSetup(pScrn);
if (pNv->FBDev) {
pScrn->videoRam = fbdevHWGetVidmem(pScrn)/1024;
} else {
pScrn->videoRam = pNv->RamAmountKBytes;
}
xf86DrvMsg(pScrn->scrnIndex, X_PROBED, "VideoRAM: %d kBytes\n",
pScrn->videoRam);
pNv->FbMapSize = pScrn->videoRam * 1024;
/*
* If the driver can do gamma correction, it should call xf86SetGamma()
* here.
*/
{
Gamma zeros = {0.0, 0.0, 0.0};
if (!xf86SetGamma(pScrn, zeros)) {
xf86FreeInt10(pNv->pInt);
return FALSE;
}
}
if(pNv->Architecture >= NV_ARCH_40)
pNv->FbUsableSize = pNv->FbMapSize - (560 * 1024);
else
pNv->FbUsableSize = pNv->FbMapSize - (128 * 1024);
pNv->ScratchBufferSize = (pNv->Architecture < NV_ARCH_10) ? 8192 : 16384;
pNv->ScratchBufferStart = pNv->FbUsableSize - pNv->ScratchBufferSize;
pNv->CursorStart = pNv->FbUsableSize + (32 * 1024);
/*
* Setup the ClockRanges, which describe what clock ranges are available,
* and what sort of modes they can be used for.
*/
clockRanges = xnfcalloc(sizeof(ClockRange), 1);
clockRanges->next = NULL;
clockRanges->minClock = pNv->MinVClockFreqKHz;
clockRanges->maxClock = pNv->MaxVClockFreqKHz;
clockRanges->clockIndex = -1; /* programmable */
clockRanges->doubleScanAllowed = TRUE;
if((pNv->Architecture == NV_ARCH_20) ||
((pNv->Architecture == NV_ARCH_10) &&
((pNv->Chipset & 0x0ff0) != 0x0100) &&
((pNv->Chipset & 0x0ff0) != 0x0150)))
{
/* HW is broken */
clockRanges->interlaceAllowed = FALSE;
} else {
clockRanges->interlaceAllowed = TRUE;
}
if(pNv->FlatPanel == 1) {
clockRanges->interlaceAllowed = FALSE;
clockRanges->doubleScanAllowed = FALSE;
}
if(pNv->Architecture < NV_ARCH_10) {
max_width = (pScrn->bitsPerPixel > 16) ? 2032 : 2048;
max_height = 2048;
} else {
max_width = (pScrn->bitsPerPixel > 16) ? 4080 : 4096;
max_height = 4096;
}
/* If DFP, add a modeline corresponding to its panel size */
if (pNv->FlatPanel && !pNv->Television && pNv->fpWidth && pNv->fpHeight) {
DisplayModePtr Mode;
Mode = xf86CVTMode(pNv->fpWidth, pNv->fpHeight, 60.00, TRUE, FALSE);
Mode->type = M_T_DRIVER;
pScrn->monitor->Modes = NVModesAdd(pScrn->monitor->Modes, Mode);
if (!config_mon_rates) {
if (!Mode->HSync)
Mode->HSync = ((float) Mode->Clock ) / ((float) Mode->HTotal);
if (!Mode->VRefresh)
Mode->VRefresh = (1000.0 * ((float) Mode->Clock)) /
((float) (Mode->HTotal * Mode->VTotal));
if (Mode->HSync < pScrn->monitor->hsync[0].lo)
pScrn->monitor->hsync[0].lo = Mode->HSync;
if (Mode->HSync > pScrn->monitor->hsync[0].hi)
pScrn->monitor->hsync[0].hi = Mode->HSync;
if (Mode->VRefresh < pScrn->monitor->vrefresh[0].lo)
pScrn->monitor->vrefresh[0].lo = Mode->VRefresh;
if (Mode->VRefresh > pScrn->monitor->vrefresh[0].hi)
pScrn->monitor->vrefresh[0].hi = Mode->VRefresh;
pScrn->monitor->nHsync = 1;
pScrn->monitor->nVrefresh = 1;
}
}
/*
* xf86ValidateModes will check that the mode HTotal and VTotal values
* don't exceed the chipset's limit if pScrn->maxHValue and
* pScrn->maxVValue are set. Since our NVValidMode() already takes
* care of this, we don't worry about setting them here.
*/
if (pNv->VBEDualhead) {
pScrn->modePool = VBEGetModePool(pScrn, pNv->pVbe, pNv->pVbeInfo,
V_MODETYPE_VBE);
VBESetModeNames(pScrn->modePool);
i = VBEValidateModes(pScrn, pScrn->monitor->Modes,
pScrn->display->modes, clockRanges,
NULL, 256, max_width,
512, 128, max_height,
pScrn->display->virtualX,
pScrn->display->virtualY,
pNv->ScratchBufferStart,
LOOKUP_BEST_REFRESH);
if (i > 0)
VBESetModeParameters(pScrn, pNv->pVbe);
} else {
i = xf86ValidateModes(pScrn, pScrn->monitor->Modes,
pScrn->display->modes, clockRanges,
NULL, 256, max_width,
512, 128, max_height,
pScrn->display->virtualX,
pScrn->display->virtualY,
pNv->ScratchBufferStart,
LOOKUP_BEST_REFRESH);
}
if (i < 1 && pNv->FBDev) {
fbdevHWUseBuildinMode(pScrn);
pScrn->displayWidth = pScrn->virtualX; /* FIXME: might be wrong */
i = 1;
}
if (i == -1) {
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
/* Prune the modes marked as invalid */
xf86PruneDriverModes(pScrn);
if (i == 0 || pScrn->modes == NULL) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "No valid modes found\n");
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
/*
* Set the CRTC parameters for all of the modes based on the type
* of mode, and the chipset's interlace requirements.
*
* Calling this is required if the mode->Crtc* values are used by the
* driver and if the driver doesn't provide code to set them. They
* are not pre-initialised at all.
*/
xf86SetCrtcForModes(pScrn, 0);
if (pNv->VBEDualhead) {
DisplayModePtr p = pScrn->modes;
/*
* Loop through modes and double their widths. Stash the real width in
* CrtcHDisplay. Also adjust the screen dimensions.
*/
do {
p->CrtcHDisplay = p->HDisplay;
p->HDisplay *= 2;
} while ((p = p->next) != pScrn->modes);
pScrn->virtualX *= 2;
pScrn->displayWidth *= 2;
}
/* Set the current mode to the first in the list */
pScrn->currentMode = pScrn->modes;
/* Print the list of modes being used */
xf86PrintModes(pScrn);
/* Set display resolution */
xf86SetDpi(pScrn, 0, 0);
/*
* XXX This should be taken into account in some way in the mode valdation
* section.
*/
if (xf86LoadSubModule(pScrn, "fb") == NULL) {
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
/* Load XAA if needed */
if (!pNv->NoAccel) {
if (!xf86LoadSubModule(pScrn, "xaa")) {
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
}
/* Load ramdac if needed */
if (pNv->HWCursor) {
if (!xf86LoadSubModule(pScrn, "ramdac")) {
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
}
/* Load shadowfb if needed */
if (pNv->ShadowFB) {
if (!xf86LoadSubModule(pScrn, "shadowfb")) {
xf86FreeInt10(pNv->pInt);
NVFreeRec(pScrn);
return FALSE;
}
}
pNv->CurrentLayout.bitsPerPixel = pScrn->bitsPerPixel;
pNv->CurrentLayout.depth = pScrn->depth;
pNv->CurrentLayout.displayWidth = pScrn->displayWidth;
pNv->CurrentLayout.weight.red = pScrn->weight.red;
pNv->CurrentLayout.weight.green = pScrn->weight.green;
pNv->CurrentLayout.weight.blue = pScrn->weight.blue;
pNv->CurrentLayout.mode = pScrn->currentMode;
xf86FreeInt10(pNv->pInt);
pNv->pInt = NULL;
return TRUE;
}
/*
* Map the framebuffer and MMIO memory.
*/
static Bool
NVMapMem(ScrnInfoPtr pScrn)
{
NVPtr pNv = NVPTR(pScrn);
#if XSERVER_LIBPCIACCESS
void *tmp;
pci_device_map_range(pNv->PciInfo, pNv->FbAddress, pNv->FbMapSize,
PCI_DEV_MAP_FLAG_WRITABLE |
PCI_DEV_MAP_FLAG_WRITE_COMBINE, &tmp);
pNv->FbBase = tmp;
#else
pNv->FbBase = xf86MapPciMem(pScrn->scrnIndex, VIDMEM_FRAMEBUFFER,
pNv->PciTag, pNv->FbAddress,
pNv->FbMapSize);
#endif
if (pNv->FbBase == NULL)
return FALSE;
pNv->FbStart = pNv->FbBase;
return TRUE;
}
static Bool
NVMapMemFBDev(ScrnInfoPtr pScrn)
{
NVPtr pNv;
pNv = NVPTR(pScrn);
pNv->FbBase = fbdevHWMapVidmem(pScrn);
if (pNv->FbBase == NULL)
return FALSE;
pNv->FbStart = pNv->FbBase;
return TRUE;
}
/*
* Unmap the framebuffer and MMIO memory.
*/
static Bool
NVUnmapMem(ScrnInfoPtr pScrn)
{
NVPtr pNv;
pNv = NVPTR(pScrn);
#if XSERVER_LIBPCIACCESS
pci_device_unmap_range(pNv->PciInfo, pNv->FbBase, pNv->FbMapSize);
#else
xf86UnMapVidMem(pScrn->scrnIndex, (pointer)pNv->FbBase, pNv->FbMapSize);
#endif
pNv->FbBase = NULL;
pNv->FbStart = NULL;
return TRUE;
}
/*
* Initialise a new mode.
*/
static Bool
NVModeInit(ScrnInfoPtr pScrn, DisplayModePtr mode)
{
vgaHWPtr hwp = VGAHWPTR(pScrn);
vgaRegPtr vgaReg;
NVPtr pNv = NVPTR(pScrn);
NVRegPtr nvReg;
/* Initialise the ModeReg values */
if (!vgaHWInit(pScrn, mode))
return FALSE;
pScrn->vtSema = TRUE;
vgaReg = &hwp->ModeReg;
nvReg = &pNv->ModeReg;
if(!NVDACInit(pScrn, mode))
return FALSE;
NVLockUnlock(pNv, 0);
if(pNv->twoHeads) {
VGA_WR08(pNv->PCIO, 0x03D4, 0x44);
VGA_WR08(pNv->PCIO, 0x03D5, nvReg->crtcOwner);
NVLockUnlock(pNv, 0);
}
/* Program the registers */
vgaHWProtect(pScrn, TRUE);
NVDACRestore(pScrn, vgaReg, nvReg, FALSE);
#if X_BYTE_ORDER == X_BIG_ENDIAN
/* turn on LFB swapping */
{
unsigned char tmp;
VGA_WR08(pNv->PCIO, 0x3d4, 0x46);
tmp = VGA_RD08(pNv->PCIO, 0x3d5);
tmp |= (1 << 7);
VGA_WR08(pNv->PCIO, 0x3d5, tmp);
}
#endif
NVResetGraphics(pScrn);
vgaHWProtect(pScrn, FALSE);
pNv->CurrentLayout.mode = mode;
return TRUE;
}
static Bool
NVSetModeVBE(ScrnInfoPtr pScrn, DisplayModePtr pMode)
{
NVPtr pNv = NVPTR(pScrn);
VbeModeInfoData *data;
int mode;
data = (VbeModeInfoData*)pMode->Private;
mode = data->mode | 1 << 14;
if(!VBESetVBEMode(pNv->pVbe, mode, data->block))
return FALSE;
pNv->PCRTC0[0x820/4] = pNv->PCRTC0[0x2820/4] =
pScrn->displayWidth * (pScrn->bitsPerPixel / 8);
pNv->vbeCRTC1Offset = pMode->CrtcHDisplay * (pScrn->bitsPerPixel / 8);
pScrn->vtSema = TRUE;
NVLoadStateExt(pNv, NULL);
NVResetGraphics(pScrn);
pNv->CurrentLayout.mode = pMode;
return TRUE;
}
/*
* Restore the initial (text) mode.
*/
static void
NVRestore(ScrnInfoPtr pScrn)
{
vgaHWPtr hwp = VGAHWPTR(pScrn);
vgaRegPtr vgaReg = &hwp->SavedReg;
NVPtr pNv = NVPTR(pScrn);
NVRegPtr nvReg = &pNv->SavedReg;
if(pNv->HWCursor) {
NVShowHideCursor(pNv, 0);
sleep(1);
}
NVLockUnlock(pNv, 0);
if(pNv->twoHeads) {
VGA_WR08(pNv->PCIO, 0x03D4, 0x44);
VGA_WR08(pNv->PCIO, 0x03D5, pNv->CRTCnumber * 0x3);
NVLockUnlock(pNv, 0);
}
/* Only restore text mode fonts/text for the primary card */
vgaHWProtect(pScrn, TRUE);
NVDACRestore(pScrn, vgaReg, nvReg, pNv->Primary);
if(pNv->twoHeads) {
VGA_WR08(pNv->PCIO, 0x03D4, 0x44);
VGA_WR08(pNv->PCIO, 0x03D5, nvReg->crtcOwner);
}
vgaHWProtect(pScrn, FALSE);
}
static void NVBacklightEnable(NVPtr pNv, Bool on)
{
/* This is done differently on each laptop. Here we
define the ones we know for sure. */
#if defined(__powerpc__)
if((pNv->Chipset == 0x10DE0179) ||
(pNv->Chipset == 0x10DE0189) ||
(pNv->Chipset == 0x10DE0329))
{
/* NV17,18,34 Apple iMac, iBook, PowerBook */
CARD32 tmp_pmc, tmp_pcrt;
tmp_pmc = pNv->PMC[0x10F0/4] & 0x7FFFFFFF;
tmp_pcrt = pNv->PCRTC0[0x081C/4] & 0xFFFFFFFC;
if(on) {
tmp_pmc |= (1 << 31);
tmp_pcrt |= 0x1;
}
pNv->PMC[0x10F0/4] = tmp_pmc;
pNv->PCRTC0[0x081C/4] = tmp_pcrt;
}
#endif
if(pNv->LVDS) {
if(pNv->twoHeads) {
if((pNv->Chipset & 0x0ff0) != 0x0110) {
pNv->PMC[0x130C/4] = on ? 3 : 7;
} else if(SUBVENDOR_ID(pNv->PciInfo) == 0x1028 &&
SUBDEVICE_ID(pNv->PciInfo) == 0xd4) {
// Dell Inspiron 8200, GeForce2 Go
CARD32 tmp_pcrt = pNv->PCRTC0[0x081C/4] & 0xFFFFFFFC;
if(on)
tmp_pcrt |= 0x1;
pNv->PCRTC0[0x081C/4] = tmp_pcrt;
}
}
} else {
CARD32 fpcontrol;
fpcontrol = pNv->PRAMDAC[0x0848/4] & 0xCfffffCC;
/* cut the TMDS output */
if(on) fpcontrol |= pNv->fpSyncs;
else fpcontrol |= 0x20000022;
pNv->PRAMDAC[0x0848/4] = fpcontrol;
}
}
static void
NVDPMSSetLCD(ScrnInfoPtr pScrn, int PowerManagementMode, int flags)
{
NVPtr pNv = NVPTR(pScrn);
if (!pScrn->vtSema) return;
vgaHWDPMSSet(pScrn, PowerManagementMode, flags);
switch (PowerManagementMode) {
case DPMSModeStandby: /* HSync: Off, VSync: On */
case DPMSModeSuspend: /* HSync: On, VSync: Off */
case DPMSModeOff: /* HSync: Off, VSync: Off */
NVBacklightEnable(pNv, 0);
break;
case DPMSModeOn: /* HSync: On, VSync: On */
NVBacklightEnable(pNv, 1);
default:
break;
}
}
static void
NVDPMSSet(ScrnInfoPtr pScrn, int PowerManagementMode, int flags)
{
unsigned char crtc1A;
vgaHWPtr hwp = VGAHWPTR(pScrn);
if (!pScrn->vtSema) return;
crtc1A = hwp->readCrtc(hwp, 0x1A) & ~0xC0;
switch (PowerManagementMode) {
case DPMSModeStandby: /* HSync: Off, VSync: On */
crtc1A |= 0x80;
break;
case DPMSModeSuspend: /* HSync: On, VSync: Off */
crtc1A |= 0x40;
break;
case DPMSModeOff: /* HSync: Off, VSync: Off */
crtc1A |= 0xC0;
break;
case DPMSModeOn: /* HSync: On, VSync: On */
default:
break;
}
/* vgaHWDPMSSet will merely cut the dac output */
vgaHWDPMSSet(pScrn, PowerManagementMode, flags);
hwp->writeCrtc(hwp, 0x1A, crtc1A);
}
/* Mandatory */
/* This gets called at the start of each server generation */
static Bool
NVScreenInit(int scrnIndex, ScreenPtr pScreen, int argc, char **argv)
{
ScrnInfoPtr pScrn;
vgaHWPtr hwp;
NVPtr pNv;
int ret;
VisualPtr visual;
unsigned char *FBStart;
int width, height, displayWidth, offscreenHeight, shadowHeight;
BoxRec AvailFBArea;
/*
* First get the ScrnInfoRec
*/
pScrn = xf86Screens[pScreen->myNum];
hwp = VGAHWPTR(pScrn);
pNv = NVPTR(pScrn);
/* Map the NV memory and MMIO areas */
if (pNv->FBDev) {
if (!NVMapMemFBDev(pScrn)) {
return FALSE;
}
} else {
if (!NVMapMem(pScrn)) {
return FALSE;
}
}
/* Map the VGA memory when the primary video */
if (pNv->Primary && !pNv->FBDev) {
hwp->MapSize = 0x10000;
if (!vgaHWMapMem(pScrn))
return FALSE;
}
if (pNv->FBDev) {
fbdevHWSave(pScrn);
if (!fbdevHWModeInit(pScrn, pScrn->currentMode))
return FALSE;
} else if (pNv->VBEDualhead) {
NVSaveRestoreVBE(pScrn, MODE_SAVE);
if (!NVSetModeVBE(pScrn, pScrn->currentMode))
return FALSE;
} else {
/* Save the current state */
NVSave(pScrn);
/* Initialise the first mode */
if (!NVModeInit(pScrn, pScrn->currentMode))
return FALSE;
}
/* Darken the screen for aesthetic reasons and set the viewport */
NVSaveScreen(pScreen, SCREEN_SAVER_ON);
pScrn->AdjustFrame(scrnIndex, pScrn->frameX0, pScrn->frameY0, 0);
/*
* The next step is to setup the screen's visuals, and initialise the
* framebuffer code. In cases where the framebuffer's default
* choices for things like visual layouts and bits per RGB are OK,
* this may be as simple as calling the framebuffer's ScreenInit()
* function. If not, the visuals will need to be setup before calling
* a fb ScreenInit() function and fixed up after.
*
* For most PC hardware at depths >= 8, the defaults that fb uses
* are not appropriate. In this driver, we fixup the visuals after.
*/
/*
* Reset the visual list.
*/
miClearVisualTypes();
/* Setup the visuals we support. */
if (!miSetVisualTypes(pScrn->depth,
miGetDefaultVisualMask(pScrn->depth), 8,
pScrn->defaultVisual))
return FALSE;
if (!miSetPixmapDepths ()) return FALSE;
/*
* Call the framebuffer layer's ScreenInit function, and fill in other
* pScreen fields.
*/
width = pScrn->virtualX;
height = pScrn->virtualY;
displayWidth = pScrn->displayWidth;
if(pNv->Rotate) {
height = pScrn->virtualX;
width = pScrn->virtualY;
}
/* If RandR rotation is enabled, leave enough space in the
* framebuffer for us to rotate the screen dimensions without
* changing the pitch.
*/
if(pNv->RandRRotation)
shadowHeight = max(width, height);
else
shadowHeight = height;
if(pNv->ShadowFB) {
pNv->ShadowPitch = BitmapBytePad(pScrn->bitsPerPixel * width);
pNv->ShadowPtr = malloc(pNv->ShadowPitch * shadowHeight);
displayWidth = pNv->ShadowPitch / (pScrn->bitsPerPixel >> 3);
FBStart = pNv->ShadowPtr;
} else {
pNv->ShadowPtr = NULL;
FBStart = pNv->FbStart;
}
switch (pScrn->bitsPerPixel) {
case 8:
case 16:
case 32:
ret = fbScreenInit(pScreen, FBStart, width, height,
pScrn->xDpi, pScrn->yDpi,
displayWidth, pScrn->bitsPerPixel);
break;
default:
xf86DrvMsg(scrnIndex, X_ERROR,
"Internal error: invalid bpp (%d) in NVScreenInit\n",
pScrn->bitsPerPixel);
ret = FALSE;
break;
}
if (!ret)
return FALSE;
if (pScrn->bitsPerPixel > 8) {
/* Fixup RGB ordering */
visual = pScreen->visuals + pScreen->numVisuals;
while (--visual >= pScreen->visuals) {
if ((visual->class | DynamicClass) == DirectColor) {
visual->offsetRed = pScrn->offset.red;
visual->offsetGreen = pScrn->offset.green;
visual->offsetBlue = pScrn->offset.blue;
visual->redMask = pScrn->mask.red;
visual->greenMask = pScrn->mask.green;
visual->blueMask = pScrn->mask.blue;
}
}
}
fbPictureInit (pScreen, 0, 0);
xf86SetBlackWhitePixels(pScreen);
if(!pNv->ShadowFB) /* hardware cursor needs to wrap this layer */
NVDGAInit(pScreen);
offscreenHeight = pNv->ScratchBufferStart /
(pScrn->displayWidth * pScrn->bitsPerPixel >> 3);
if(offscreenHeight > 32767)
offscreenHeight = 32767;
AvailFBArea.x1 = 0;
AvailFBArea.y1 = 0;
AvailFBArea.x2 = pScrn->displayWidth;
AvailFBArea.y2 = offscreenHeight;
xf86InitFBManager(pScreen, &AvailFBArea);
if (!pNv->NoAccel)
NVAccelInit(pScreen);
miInitializeBackingStore(pScreen);
xf86SetBackingStore(pScreen);
xf86SetSilkenMouse(pScreen);
/* Initialize software cursor.
Must precede creation of the default colormap */
miDCInitialize(pScreen, xf86GetPointerScreenFuncs());
/* Initialize HW cursor layer.
Must follow software cursor initialization*/
if (pNv->HWCursor) {
if(!NVCursorInit(pScreen))
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"Hardware cursor initialization failed\n");
}
/* Initialise default colourmap */
if (!miCreateDefColormap(pScreen))
return FALSE;
/* Initialize colormap layer.
Must follow initialization of the default colormap */
if(!xf86HandleColormaps(pScreen, 256, 8,
(pNv->FBDev ? fbdevHWLoadPaletteWeak() : NVDACLoadPalette),
NULL, CMAP_RELOAD_ON_MODE_SWITCH | CMAP_PALETTED_TRUECOLOR))
return FALSE;
if(pNv->ShadowFB) {
RefreshAreaFuncPtr refreshArea = NVRefreshArea;
if(pNv->Rotate || pNv->RandRRotation) {
pNv->PointerMoved = pScrn->PointerMoved;
if(pNv->Rotate)
pScrn->PointerMoved = NVPointerMoved;
switch(pScrn->bitsPerPixel) {
case 8: refreshArea = NVRefreshArea8; break;
case 16: refreshArea = NVRefreshArea16; break;
case 32: refreshArea = NVRefreshArea32; break;
}
if(!pNv->RandRRotation) {
xf86DisableRandR();
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"Driver rotation enabled, RandR disabled\n");
}
}
ShadowFBInit(pScreen, refreshArea);
}
if(pNv->FlatPanel)
xf86DPMSInit(pScreen, NVDPMSSetLCD, 0);
else
xf86DPMSInit(pScreen, NVDPMSSet, 0);
pScrn->memPhysBase = pNv->FbAddress;
pScrn->fbOffset = 0;
if(pNv->Rotate == 0 && !pNv->RandRRotation)
NVInitVideo(pScreen);
pScreen->SaveScreen = NVSaveScreen;
/* Wrap the current CloseScreen function */
pNv->CloseScreen = pScreen->CloseScreen;
pScreen->CloseScreen = NVCloseScreen;
pNv->BlockHandler = pScreen->BlockHandler;
pScreen->BlockHandler = NVBlockHandler;
pNv->accessEnabled = TRUE;
pNv->EnableDisableFBAccess = pScrn->EnableDisableFBAccess;
pScrn->EnableDisableFBAccess = NVEnableDisableFBAccess;
#ifdef RANDR
/* Install our DriverFunc. We have to do it this way instead of using the
* HaveDriverFuncs argument to xf86AddDriver, because InitOutput clobbers
* pScrn->DriverFunc */
pScrn->DriverFunc = NVDriverFunc;
#endif
/* Report any unused options (only for the first generation) */
if (serverGeneration == 1) {
xf86ShowUnusedOptions(pScrn->scrnIndex, pScrn->options);
}
return TRUE;
}
static Bool
NVSaveScreen(ScreenPtr pScreen, int mode)
{
return vgaHWSaveScreen(pScreen, mode);
}
static void
NVSave(ScrnInfoPtr pScrn)
{
NVPtr pNv = NVPTR(pScrn);
NVRegPtr nvReg = &pNv->SavedReg;
vgaHWPtr pVga = VGAHWPTR(pScrn);
vgaRegPtr vgaReg = &pVga->SavedReg;
NVLockUnlock(pNv, 0);
if(pNv->twoHeads) {
VGA_WR08(pNv->PCIO, 0x03D4, 0x44);
VGA_WR08(pNv->PCIO, 0x03D5, pNv->CRTCnumber * 0x3);
NVLockUnlock(pNv, 0);
}
NVDACSave(pScrn, vgaReg, nvReg, pNv->Primary);
}
static void
NVSaveRestoreVBE(ScrnInfoPtr pScrn, vbeSaveRestoreFunction function)
{
NVPtr pNv = NVPTR(pScrn);
if (function == MODE_SAVE) {
VBEGetVBEMode(pNv->pVbe, &pNv->vbeMode);
NVSave(pScrn);
} else if (function == MODE_RESTORE) {
NVRestore(pScrn);
VBESetVBEMode(pNv->pVbe, pNv->vbeMode, NULL);
}
}
#ifdef RANDR
static Bool
NVRandRGetInfo(ScrnInfoPtr pScrn, Rotation *rotations)
{
NVPtr pNv = NVPTR(pScrn);
if(pNv->RandRRotation)
*rotations = RR_Rotate_0 | RR_Rotate_90 | RR_Rotate_270;
else
*rotations = RR_Rotate_0;
return TRUE;
}
static Bool
NVRandRSetConfig(ScrnInfoPtr pScrn, xorgRRConfig *config)
{
NVPtr pNv = NVPTR(pScrn);
switch(config->rotation) {
case RR_Rotate_0:
pNv->Rotate = 0;
pScrn->PointerMoved = pNv->PointerMoved;
break;
case RR_Rotate_90:
pNv->Rotate = -1;
pScrn->PointerMoved = NVPointerMoved;
break;
case RR_Rotate_270:
pNv->Rotate = 1;
pScrn->PointerMoved = NVPointerMoved;
break;
default:
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"Unexpected rotation in NVRandRSetConfig!\n");
pNv->Rotate = 0;
pScrn->PointerMoved = pNv->PointerMoved;
return FALSE;
}
return TRUE;
}
static Bool
NVDriverFunc(ScrnInfoPtr pScrn, xorgDriverFuncOp op, pointer data)
{
switch(op) {
case RR_GET_INFO:
return NVRandRGetInfo(pScrn, (Rotation*)data);
case RR_SET_CONFIG:
return NVRandRSetConfig(pScrn, (xorgRRConfig*)data);
default:
return FALSE;
}
return FALSE;
}
#endif /* RANDR */
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