linux-zen-server/drivers/video/fbdev/kyro/STG4000Ramdac.c

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2023-08-30 17:53:23 +02:00
/*
* linux/drivers/video/kyro/STG4000Ramdac.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/kernel.h>
#include <linux/errno.h>
#include <linux/types.h>
#include <video/kyro.h>
#include "STG4000Reg.h"
#include "STG4000Interface.h"
static u32 STG_PIXEL_BUS_WIDTH = 128; /* 128 bit bus width */
static u32 REF_CLOCK = 14318;
int InitialiseRamdac(volatile STG4000REG __iomem * pSTGReg,
u32 displayDepth,
u32 displayWidth,
u32 displayHeight,
s32 HSyncPolarity,
s32 VSyncPolarity, u32 * pixelClock)
{
u32 tmp = 0;
u32 F = 0, R = 0, P = 0;
u32 stride = 0;
u32 ulPdiv = 0;
u32 physicalPixelDepth = 0;
/* Make sure DAC is in Reset */
tmp = STG_READ_REG(SoftwareReset);
if (tmp & 0x1) {
CLEAR_BIT(1);
STG_WRITE_REG(SoftwareReset, tmp);
}
/* Set Pixel Format */
tmp = STG_READ_REG(DACPixelFormat);
CLEAR_BITS_FRM_TO(0, 2);
/* Set LUT not used from 16bpp to 32 bpp ??? */
CLEAR_BITS_FRM_TO(8, 9);
switch (displayDepth) {
case 16:
{
physicalPixelDepth = 16;
tmp |= _16BPP;
break;
}
case 32:
{
/* Set for 32 bits per pixel */
physicalPixelDepth = 32;
tmp |= _32BPP;
break;
}
default:
return -EINVAL;
}
STG_WRITE_REG(DACPixelFormat, tmp);
/* Workout Bus transfer bandwidth according to pixel format */
ulPdiv = STG_PIXEL_BUS_WIDTH / physicalPixelDepth;
/* Get Screen Stride in pixels */
stride = displayWidth;
/* Set Primary size info */
tmp = STG_READ_REG(DACPrimSize);
CLEAR_BITS_FRM_TO(0, 10);
CLEAR_BITS_FRM_TO(12, 31);
tmp |=
((((displayHeight - 1) << 12) | (((displayWidth / ulPdiv) -
1) << 23))
| (stride / ulPdiv));
STG_WRITE_REG(DACPrimSize, tmp);
/* Set Pixel Clock */
*pixelClock = ProgramClock(REF_CLOCK, *pixelClock, &F, &R, &P);
/* Set DAC PLL Mode */
tmp = STG_READ_REG(DACPLLMode);
CLEAR_BITS_FRM_TO(0, 15);
/* tmp |= ((P-1) | ((F-2) << 2) | ((R-2) << 11)); */
tmp |= ((P) | ((F - 2) << 2) | ((R - 2) << 11));
STG_WRITE_REG(DACPLLMode, tmp);
/* Set Prim Address */
tmp = STG_READ_REG(DACPrimAddress);
CLEAR_BITS_FRM_TO(0, 20);
CLEAR_BITS_FRM_TO(20, 31);
STG_WRITE_REG(DACPrimAddress, tmp);
/* Set Cursor details with HW Cursor disabled */
tmp = STG_READ_REG(DACCursorCtrl);
tmp &= ~SET_BIT(31);
STG_WRITE_REG(DACCursorCtrl, tmp);
tmp = STG_READ_REG(DACCursorAddr);
CLEAR_BITS_FRM_TO(0, 20);
STG_WRITE_REG(DACCursorAddr, tmp);
/* Set Video Window */
tmp = STG_READ_REG(DACVidWinStart);
CLEAR_BITS_FRM_TO(0, 10);
CLEAR_BITS_FRM_TO(16, 26);
STG_WRITE_REG(DACVidWinStart, tmp);
tmp = STG_READ_REG(DACVidWinEnd);
CLEAR_BITS_FRM_TO(0, 10);
CLEAR_BITS_FRM_TO(16, 26);
STG_WRITE_REG(DACVidWinEnd, tmp);
/* Set DAC Border Color to default */
tmp = STG_READ_REG(DACBorderColor);
CLEAR_BITS_FRM_TO(0, 23);
STG_WRITE_REG(DACBorderColor, tmp);
/* Set Graphics and Overlay Burst Control */
STG_WRITE_REG(DACBurstCtrl, 0x0404);
/* Set CRC Trigger to default */
tmp = STG_READ_REG(DACCrcTrigger);
CLEAR_BIT(0);
STG_WRITE_REG(DACCrcTrigger, tmp);
/* Set Video Port Control to default */
tmp = STG_READ_REG(DigVidPortCtrl);
CLEAR_BIT(8);
CLEAR_BITS_FRM_TO(16, 27);
CLEAR_BITS_FRM_TO(1, 3);
CLEAR_BITS_FRM_TO(10, 11);
STG_WRITE_REG(DigVidPortCtrl, tmp);
return 0;
}
/* Ramdac control, turning output to the screen on and off */
void DisableRamdacOutput(volatile STG4000REG __iomem * pSTGReg)
{
u32 tmp;
/* Disable DAC for Graphics Stream Control */
tmp = (STG_READ_REG(DACStreamCtrl)) & ~SET_BIT(0);
STG_WRITE_REG(DACStreamCtrl, tmp);
}
void EnableRamdacOutput(volatile STG4000REG __iomem * pSTGReg)
{
u32 tmp;
/* Enable DAC for Graphics Stream Control */
tmp = (STG_READ_REG(DACStreamCtrl)) | SET_BIT(0);
STG_WRITE_REG(DACStreamCtrl, tmp);
}