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/*
* Copyright (C) 2014 Freescale Semiconductor, Inc. All Rights Reserved.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <asm/arch/imx-regs.h>
#include <asm/arch/sys_proto.h>
#include <asm/arch/clock.h>
#include <linux/errno.h>
#include <asm/io.h>
#include <linux/string.h>
#include <linux/list.h>
#include <gis.h>
#include "mxc_vadc.h"
#define reg32_write(addr, val) __raw_writel(val, addr)
#define reg32_read(addr) __raw_readl(addr)
#define reg32setbit(addr, bitpos) \
reg32_write((addr), (reg32_read((addr)) | (1<<(bitpos))))
#define reg32clrbit(addr, bitpos) \
reg32_write((addr), (reg32_read((addr)) & (0xFFFFFFFF ^ (1<<(bitpos)))))
void __iomem *vafe_regbase;
void __iomem *vdec_regbase;
enum {
STD_NTSC = 0,
STD_PAL,
};
/* Video format structure. */
struct video_fmt_t{
int v4l2_id; /* Video for linux ID. */
char name[16]; /* Name (e.g., "NTSC", "PAL", etc.) */
u16 active_width; /* Active width. */
u16 active_height; /* Active height. */
};
/* Description of video formats supported.
*
* PAL: active=720x576.
* NTSC:active=720x480.
*/
static struct video_fmt_t video_fmts[] = {
/* NTSC */
{
.v4l2_id = STD_NTSC,
.name = "NTSC",
.active_width = 720,
.active_height = 480,
},
/* (B, G, H, I, N) PAL */
{
.v4l2_id = STD_PAL,
.name = "PAL",
.active_width = 720,
.active_height = 576,
},
};
static void afe_voltage_clampingmode(void)
{
reg32_write(AFE_CLAMP, 0x07);
reg32_write(AFE_CLMPAMP, 0x60);
reg32_write(AFE_CLMPDAT, 0xF0);
}
static void afe_alwayson_clampingmode(void)
{
reg32_write(AFE_CLAMP, 0x15);
reg32_write(AFE_CLMPDAT, 0x08);
reg32_write(AFE_CLMPAMP, 0x00);
}
static void afe_init(void)
{
reg32_write(AFE_PDBUF, 0x1f);
reg32_write(AFE_PDADC, 0x0f);
reg32_write(AFE_PDSARH, 0x01);
reg32_write(AFE_PDSARL, 0xff);
reg32_write(AFE_PDADCRFH, 0x01);
reg32_write(AFE_PDADCRFL, 0xff);
reg32_write(AFE_ICTRL, 0x3a);
reg32_write(AFE_ICTLSTG, 0x1e);
reg32_write(AFE_RCTRLSTG, 0x1e);
reg32_write(AFE_INPBUF, 0x035);
reg32_write(AFE_INPFLT, 0x02);
reg32_write(AFE_ADCDGN, 0x40);
reg32_write(AFE_TSTSEL, 0x10);
reg32_write(AFE_ACCTST, 0x07);
reg32_write(AFE_BGREG, 0x08);
reg32_write(AFE_ADCGN, 0x09);
/* set current controlled clamping
* always on, low current */
reg32_write(AFE_CLAMP, 0x11);
reg32_write(AFE_CLMPAMP, 0x08);
}
static void vdec_mode_timing_init(u32 std)
{
if (std == STD_NTSC) {
/* NTSC 720x480 */
printf("NTSC\n");
reg32_write(VDEC_HACTS, 0x66);
reg32_write(VDEC_HACTE, 0x24);
reg32_write(VDEC_VACTS, 0x29);
reg32_write(VDEC_VACTE, 0x04);
/* set V Position */
reg32_write(VDEC_VRTPOS, 0x2);
} else if (std == STD_PAL) {
/* PAL 720x576 */
printf("PAL\n");
reg32_write(VDEC_HACTS, 0x66);
reg32_write(VDEC_HACTE, 0x24);
reg32_write(VDEC_VACTS, 0x29);
reg32_write(VDEC_VACTE, 0x04);
/* set V Position */
reg32_write(VDEC_VRTPOS, 0x6);
} else
printf("Error not support video mode\n");
/* set H Position */
reg32_write(VDEC_HZPOS, 0x60);
/* set H ignore start */
reg32_write(VDEC_HSIGS, 0xf8);
/* set H ignore end */
reg32_write(VDEC_HSIGE, 0x18);
}
/*
* vdec_init()
* Initialises the VDEC registers
* Returns: nothing
*/
static void vdec_init(struct sensor_data *vadc)
{
/* Get work mode PAL or NTSC
* delay 500ms wait vdec detect input format*/
udelay(500*1000);
vadc_get_std(vadc);
vdec_mode_timing_init(vadc->std_id);
/* vcr detect threshold high, automatic detections */
reg32_write(VDEC_VSCON2, 0);
reg32_write(VDEC_BASE + 0x110, 0x01);
/* set the noramp mode on the Hloop PLL. */
reg32_write(VDEC_BASE+(0x14*4), 0x10);
/* set the YC relative delay.*/
reg32_write(VDEC_YCDEL, 0x90);
/* setup the Hpll */
reg32_write(VDEC_BASE+(0x13*4), 0x13);
/* setup the 2d comb */
/* set the gain of the Hdetail output to 3
* set the notch alpha gain to 1 */
reg32_write(VDEC_CFC2, 0x34);
/* setup various 2d comb bits.*/
reg32_write(VDEC_BASE+(0x02*4), 0x01);
reg32_write(VDEC_BASE+(0x03*4), 0x18);
reg32_write(VDEC_BASE+(0x04*4), 0x34);
/* set the start of the burst gate */
reg32_write(VDEC_BRSTGT, 0x30);
/* set 1f motion gain */
reg32_write(VDEC_BASE+(0x0f*4), 0x20);
/* set the 1F chroma motion detector thresh for colour reverse detection */
reg32_write(VDEC_THSH1, 0x02);
reg32_write(VDEC_BASE+(0x4a*4), 0x20);
reg32_write(VDEC_BASE+(0x4b*4), 0x08);
reg32_write(VDEC_BASE+(0x4c*4), 0x08);
/* set the threshold for the narrow/wide adaptive chroma BW */
reg32_write(VDEC_BASE+(0x20*4), 0x20);
/* turn up the colour with the new colour gain reg */
/* hue: */
reg32_write(VDEC_HUE, 0x00);
/* cbgain: 22 B4 */
reg32_write(VDEC_CBGN, 0xb4);
/* cr gain 80 */
reg32_write(VDEC_CRGN, 0x80);
/* luma gain (contrast) */
reg32_write(VDEC_CNTR, 0x80);
/* setup the signed black level register, brightness */
reg32_write(VDEC_BRT, 0x00);
/* filter the standard detection
* enable the comb for the ntsc443 */
reg32_write(VDEC_STDDBG, 0x23);
/* setup chroma kill thresh for no chroma */
reg32_write(VDEC_CHBTH, 0x0);
/* set chroma loop to wider BW
* no set it to normal BW. i fixed the bw problem.*/
reg32_write(VDEC_YCDEL, 0x00);
/* set the compensation in the chroma loop for the Hloop
* set the ratio for the nonarithmetic 3d comb modes.*/
reg32_write(VDEC_BASE + (0x1d*4), 0x90);
/* set the threshold for the nonarithmetic mode for the 2d comb
* the higher the value the more Fc Fh offset we will tolerate before turning off the comb. */
reg32_write(VDEC_BASE + (0x33*4), 0xa0);
/* setup the bluescreen output colour */
reg32_write(VDEC_BASE + (0x3d*4), 35);
reg32_write(VDEC_BLSCRCR, 114);
reg32_write(VDEC_BLSCRCB, 212);
/* disable the active blanking */
reg32_write(VDEC_BASE + (0x15*4), 0x02);
/* setup the luma agc for automatic gain. */
reg32_write(VDEC_LMAGC2, 0x5e);
reg32_write(VDEC_BASE + (0x40*4), 0x81);
/* setup chroma agc */
reg32_write(VDEC_CHAGC2, 0xa0);
reg32_write(VDEC_CHAGC1, 0x01);
/* setup the MV thresh lower nibble
* setup the sync top cap, upper nibble */
reg32_write(VDEC_BASE + (0x3a*4), 0x80);
reg32_write(VDEC_SHPIMP, 0x00);
/* setup the vsync block */
reg32_write(VDEC_VSCON1, 0x87);
/* set the nosignal threshold
* set the vsync threshold */
reg32_write(VDEC_VSSGTH, 0x35);
/* set length for min hphase filter (or saturate limit if saturate is chosen) */
reg32_write(VDEC_BASE + (0x45*4), 0x40);
/* enable the internal resampler,
* select min filter not saturate for hphase noise filter for vcr detect.
* enable vcr pause mode different field lengths */
reg32_write(VDEC_BASE + (0x46*4), 0x90);
/* disable VCR detection, lock to the Hsync rather than the Vsync */
reg32_write(VDEC_VSCON2, 0x04);
/* set tiplevel goal for dc clamp. */
reg32_write(VDEC_BASE + (0x3c*4), 0xB0);
/* override SECAM detection and force SECAM off */
reg32_write(VDEC_BASE + (0x2f*4), 0x20);
/* Set r3d_hardblend in 3D control2 reg */
reg32_write(VDEC_BASE + (0x0c*4), 0x04);
}
/* set Input selector & input pull-downs */
static void vadc_select_input(int vadc_in)
{
switch (vadc_in) {
case 0:
reg32_write(AFE_INPFLT, 0x02);
reg32_write(AFE_OFFDRV, 0x00);
reg32_write(AFE_INPCONFIG, 0x1e);
break;
case 1:
reg32_write(AFE_INPFLT, 0x02);
reg32_write(AFE_OFFDRV, 0x00);
reg32_write(AFE_INPCONFIG, 0x2d);
break;
case 2:
reg32_write(AFE_INPFLT, 0x02);
reg32_write(AFE_OFFDRV, 0x00);
reg32_write(AFE_INPCONFIG, 0x4b);
break;
case 3:
reg32_write(AFE_INPFLT, 0x02);
reg32_write(AFE_OFFDRV, 0x00);
reg32_write(AFE_INPCONFIG, 0x87);
break;
default:
printf("error video input %d\n", vadc_in);
}
}
/*!
* Return attributes of current video standard.
* Since this device autodetects the current standard, this function also
* sets the values that need to be changed if the standard changes.
* There is no set std equivalent function.
*
* @return None.
*/
void vadc_get_std(struct sensor_data *vadc)
{
int tmp;
int idx;
/* Read PAL mode detected result */
tmp = reg32_read(VDEC_VIDMOD);
tmp &= (VDEC_VIDMOD_PAL_MASK | VDEC_VIDMOD_M625_MASK);
if (tmp)
idx = STD_PAL;
else
idx = STD_NTSC;
vadc->std_id = idx;
vadc->pixel_fmt = FMT_YUV444;
vadc->width = video_fmts[idx].active_width;
vadc->height = video_fmts[idx].active_height;
}
void vadc_config(u32 vadc_in)
{
struct sensor_data vadc;
/* map vafe,vdec,gpr,gpc address */
vafe_regbase = (u32 *)VADC_BASE_ADDR;
vdec_regbase = (u32 *)VDEC_BASE_ADDR;
vadc_power_up();
/* clock config for vadc */
reg32_write(VDEC_BASE + 0x320, 0xe3);
reg32_write(VDEC_BASE + 0x324, 0x38);
reg32_write(VDEC_BASE + 0x328, 0x8e);
reg32_write(VDEC_BASE + 0x32c, 0x23);
mxs_set_vadcclk();
afe_init();
/* select Video Input 0-3 */
vadc_select_input(vadc_in);
afe_voltage_clampingmode();
vdec_init(&vadc);
/*
* current control loop will move sinewave input off below
* the bottom of the signal range visible when the testbus is viewed as magnitude,
* so have to break before this point while capturing ENOB data:
*/
afe_alwayson_clampingmode();
}
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