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linux-next/drivers/video/fbdev/kyro/STG4000VTG.c
Tomi Valkeinen f7018c2135 video: move fbdev to drivers/video/fbdev
The drivers/video directory is a mess. It contains generic video related
files, directories for backlight, console, linux logo, lots of fbdev
device drivers, fbdev framework files.

Make some order into the chaos by creating drivers/video/fbdev
directory, and move all fbdev related files there.

No functionality is changed, although I guess it is possible that some
subtle Makefile build order related issue could be created by this
patch.

Signed-off-by: Tomi Valkeinen <tomi.valkeinen@ti.com>
Acked-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
Acked-by: Geert Uytterhoeven <geert@linux-m68k.org>
Acked-by: Rob Clark <robdclark@gmail.com>
Acked-by: Jingoo Han <jg1.han@samsung.com>
Acked-by: Daniel Vetter <daniel.vetter@ffwll.ch>
2014-04-17 08:10:19 +03:00

171 lines
4.5 KiB
C

/*
* linux/drivers/video/kyro/STG4000VTG.c
*
* Copyright (C) 2002 STMicroelectronics
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of this archive
* for more details.
*/
#include <linux/types.h>
#include <video/kyro.h>
#include "STG4000Reg.h"
#include "STG4000Interface.h"
void DisableVGA(volatile STG4000REG __iomem *pSTGReg)
{
u32 tmp;
volatile u32 count = 0, i;
/* Reset the VGA registers */
tmp = STG_READ_REG(SoftwareReset);
CLEAR_BIT(8);
STG_WRITE_REG(SoftwareReset, tmp);
/* Just for Delay */
for (i = 0; i < 1000; i++) {
count++;
}
/* Pull-out the VGA registers from reset */
tmp = STG_READ_REG(SoftwareReset);
tmp |= SET_BIT(8);
STG_WRITE_REG(SoftwareReset, tmp);
}
void StopVTG(volatile STG4000REG __iomem *pSTGReg)
{
u32 tmp = 0;
/* Stop Ver and Hor Sync Generator */
tmp = (STG_READ_REG(DACSyncCtrl)) | SET_BIT(0) | SET_BIT(2);
CLEAR_BIT(31);
STG_WRITE_REG(DACSyncCtrl, tmp);
}
void StartVTG(volatile STG4000REG __iomem *pSTGReg)
{
u32 tmp = 0;
/* Start Ver and Hor Sync Generator */
tmp = ((STG_READ_REG(DACSyncCtrl)) | SET_BIT(31));
CLEAR_BIT(0);
CLEAR_BIT(2);
STG_WRITE_REG(DACSyncCtrl, tmp);
}
void SetupVTG(volatile STG4000REG __iomem *pSTGReg,
const struct kyrofb_info * pTiming)
{
u32 tmp = 0;
u32 margins = 0;
u32 ulBorder;
u32 xRes = pTiming->XRES;
u32 yRes = pTiming->YRES;
/* Horizontal */
u32 HAddrTime, HRightBorder, HLeftBorder;
u32 HBackPorcStrt, HFrontPorchStrt, HTotal,
HLeftBorderStrt, HRightBorderStrt, HDisplayStrt;
/* Vertical */
u32 VDisplayStrt, VBottomBorder, VTopBorder;
u32 VBackPorchStrt, VTotal, VTopBorderStrt,
VFrontPorchStrt, VBottomBorderStrt, VAddrTime;
/* Need to calculate the right border */
if ((xRes == 640) && (yRes == 480)) {
if ((pTiming->VFREQ == 60) || (pTiming->VFREQ == 72)) {
margins = 8;
}
}
/* Work out the Border */
ulBorder =
(pTiming->HTot -
(pTiming->HST + (pTiming->HBP - margins) + xRes +
(pTiming->HFP - margins))) >> 1;
/* Border the same for Vertical and Horizontal */
VBottomBorder = HLeftBorder = VTopBorder = HRightBorder = ulBorder;
/************ Get Timing values for Horizontal ******************/
HAddrTime = xRes;
HBackPorcStrt = pTiming->HST;
HTotal = pTiming->HTot;
HDisplayStrt =
pTiming->HST + (pTiming->HBP - margins) + HLeftBorder;
HLeftBorderStrt = HDisplayStrt - HLeftBorder;
HFrontPorchStrt =
pTiming->HST + (pTiming->HBP - margins) + HLeftBorder +
HAddrTime + HRightBorder;
HRightBorderStrt = HFrontPorchStrt - HRightBorder;
/************ Get Timing values for Vertical ******************/
VAddrTime = yRes;
VBackPorchStrt = pTiming->VST;
VTotal = pTiming->VTot;
VDisplayStrt =
pTiming->VST + (pTiming->VBP - margins) + VTopBorder;
VTopBorderStrt = VDisplayStrt - VTopBorder;
VFrontPorchStrt =
pTiming->VST + (pTiming->VBP - margins) + VTopBorder +
VAddrTime + VBottomBorder;
VBottomBorderStrt = VFrontPorchStrt - VBottomBorder;
/* Set Hor Timing 1, 2, 3 */
tmp = STG_READ_REG(DACHorTim1);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (HTotal) | (HBackPorcStrt << 16);
STG_WRITE_REG(DACHorTim1, tmp);
tmp = STG_READ_REG(DACHorTim2);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (HDisplayStrt << 16) | HLeftBorderStrt;
STG_WRITE_REG(DACHorTim2, tmp);
tmp = STG_READ_REG(DACHorTim3);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (HFrontPorchStrt << 16) | HRightBorderStrt;
STG_WRITE_REG(DACHorTim3, tmp);
/* Set Ver Timing 1, 2, 3 */
tmp = STG_READ_REG(DACVerTim1);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (VBackPorchStrt << 16) | (VTotal);
STG_WRITE_REG(DACVerTim1, tmp);
tmp = STG_READ_REG(DACVerTim2);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (VDisplayStrt << 16) | VTopBorderStrt;
STG_WRITE_REG(DACVerTim2, tmp);
tmp = STG_READ_REG(DACVerTim3);
CLEAR_BITS_FRM_TO(0, 11);
CLEAR_BITS_FRM_TO(16, 27);
tmp |= (VFrontPorchStrt << 16) | VBottomBorderStrt;
STG_WRITE_REG(DACVerTim3, tmp);
/* Set Verical and Horizontal Polarity */
tmp = STG_READ_REG(DACSyncCtrl) | SET_BIT(3) | SET_BIT(1);
if ((pTiming->HSP > 0) && (pTiming->VSP < 0)) { /* +hsync -vsync */
tmp &= ~0x8;
} else if ((pTiming->HSP < 0) && (pTiming->VSP > 0)) { /* -hsync +vsync */
tmp &= ~0x2;
} else if ((pTiming->HSP < 0) && (pTiming->VSP < 0)) { /* -hsync -vsync */
tmp &= ~0xA;
} else if ((pTiming->HSP > 0) && (pTiming->VSP > 0)) { /* +hsync -vsync */
tmp &= ~0x0;
}
STG_WRITE_REG(DACSyncCtrl, tmp);
}