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/*
* Copyright (C) 2014 Freescale Semiconductor, Inc. All Rights Reserved.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <malloc.h>
#include <video_fb.h>
#include <asm/arch/imx-regs.h>
#include <asm/arch/sys_proto.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <linux/string.h>
#include <linux/list.h>
#include <linux/fb.h>
#include <gis.h>
#include <mxsfb.h>
#include "mxc_gis.h"
#include "mxc_csi.h"
#include "mxc_pxp.h"
#include "mxc_vadc.h"
#define CHANNEL_OFFSET 36
#define COMMAND_OFFSET 8
#define REG_OFFSET 4
#define COMMAND_OPCODE_SHIFT 8
enum {
CMD_SET_ACC = 0,
CMD_WR_DATA,
CMD_WR_ACC,
CMD_WR_ALU,
CMD_MOV_ACC,
CMD_RD_DATA,
CMD_RD_ALU,
CMD_WR_FB_CSI,
CMD_WR_FB_PXP_IN,
CMD_WR_FB_PXP_OUT,
CMD_WR_FB_LCDIF,
};
enum {
ALU_AND = 0,
ALU_OR,
ALU_XOR,
ALU_ADD,
ALU_SUB,
};
enum {
CH_MAPPING_CSI_ISR = 0,
CH_MAPPING_CSI_FB_UPDATE,
CH_MAPPING_PXP_ISR,
CH_MAPPING_LCDIF_FB_UPDATE,
CH_MAPPING_PXP_KICK,
CH_MAPPING_CHANNEL_UNUSED = 0xf,
};
enum {
LCDIF1_SEL = 0x10,
LCDIF0_SEL = 0x8,
PXP_SEL = 0x4,
CSI1_SEL = 0x2,
CSI0_SEL = 0x1,
};
struct command_opcode {
unsigned opcode:4;
unsigned alu:3;
unsigned acc_neg:1;
};
struct command_param {
union {
struct command_opcode cmd_bits;
u8 cmd_opc;
};
u32 addr;
u32 data;
};
struct channel_param {
u32 ch_num;
u32 ch_map;
u32 cmd_num;
struct command_param cmd_data[4];
};
static void *csibuf0, *csibuf1, *fb0, *fb1;
static struct mxs_gis_regs *gis_regs;
static struct mxs_pxp_regs *pxp_regs;
static struct mxs_csi_regs *csi_regs;
static struct mxs_lcdif_regs *lcdif_regs;
static u32 lcdif_sel;
static bool gis_running;
static void config_channel(struct channel_param *ch)
{
u32 val, i;
u32 reg_offset;
/* Config channel map and command */
switch (ch->ch_num) {
case 0:
val = readl(&gis_regs->hw_gis_config0);
val &= ~(GIS_CONFIG0_CH0_MAPPING_MASK | GIS_CONFIG0_CH0_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG0_CH0_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG0_CH0_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config0);
break;
case 1:
val = readl(&gis_regs->hw_gis_config0);
val &= ~(GIS_CONFIG0_CH1_MAPPING_MASK | GIS_CONFIG0_CH1_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG0_CH1_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG0_CH1_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config0);
break;
case 2:
val = readl(&gis_regs->hw_gis_config0);
val &= ~(GIS_CONFIG0_CH2_MAPPING_MASK | GIS_CONFIG0_CH2_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG0_CH2_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG0_CH2_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config0);
break;
case 3:
val = readl(&gis_regs->hw_gis_config0);
val &= ~(GIS_CONFIG0_CH3_MAPPING_MASK | GIS_CONFIG0_CH3_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG0_CH3_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG0_CH3_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config0);
break;
case 4:
val = readl(&gis_regs->hw_gis_config1);
val &= ~(GIS_CONFIG1_CH4_MAPPING_MASK | GIS_CONFIG1_CH4_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG1_CH4_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG1_CH4_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config1);
break;
case 5:
val = readl(&gis_regs->hw_gis_config1);
val &= ~(GIS_CONFIG1_CH5_MAPPING_MASK | GIS_CONFIG1_CH5_NUM_MASK);
val |= ch->ch_map << GIS_CONFIG1_CH5_MAPPING_SHIFT;
val |= ch->cmd_num << GIS_CONFIG1_CH5_NUM_SHIFT;
writel(val, &gis_regs->hw_gis_config1);
break;
default:
printf("Error channel num\n");
}
/* Config command */
for (i = 0; i < ch->cmd_num; i++) {
val = readl(&gis_regs->hw_gis_ch0_ctrl + ch->ch_num * CHANNEL_OFFSET);
val &= ~(0xFF << (COMMAND_OPCODE_SHIFT * i));
val |= ch->cmd_data[i].cmd_opc << (COMMAND_OPCODE_SHIFT * i);
writel(val, &gis_regs->hw_gis_ch0_ctrl + ch->ch_num * CHANNEL_OFFSET);
reg_offset = ch->ch_num * CHANNEL_OFFSET + i * COMMAND_OFFSET;
writel(ch->cmd_data[i].addr, &gis_regs->hw_gis_ch0_addr0 + reg_offset);
writel(ch->cmd_data[i].data, &gis_regs->hw_gis_ch0_data0 + reg_offset);
}
}
static void gis_channel_init(void)
{
struct channel_param ch;
int ret;
u32 addr0, data0, addr1, data1;
u32 val;
/* Restart the GIS block */
ret = mxs_reset_block(&gis_regs->hw_gis_ctrl_reg);
if (ret) {
debug("MXS GIS: Block reset timeout\n");
return;
}
writel((u32)csibuf0, &gis_regs->hw_gis_fb0);
writel((u32)csibuf1, &gis_regs->hw_gis_fb1);
writel((u32)fb0, &gis_regs->hw_gis_pxp_fb0);
writel((u32)fb1, &gis_regs->hw_gis_pxp_fb1);
/* Config channel 0 -- CSI clean interrupt */
addr0 = (u32)&csi_regs->csi_csisr;
data0 = BIT_DMA_TSF_DONE_FB1 | BIT_DMA_TSF_DONE_FB2 | BIT_SOF_INT;
ch.ch_num = 0;
ch.ch_map = CH_MAPPING_CSI_ISR;
ch.cmd_num = 1;
ch.cmd_data[0].cmd_bits.opcode = CMD_WR_DATA;
ch.cmd_data[0].cmd_bits.alu = ALU_AND;
ch.cmd_data[0].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[0].addr = CSI0_SEL << GIS_CH_ADDR_SEL_SHIFT | addr0;
ch.cmd_data[0].data = data0;
config_channel(&ch);
/* Config channel 1 -- CSI set next framebuffer addr */
addr0 = (u32)&csi_regs->csi_csidmasa_fb1;
data0 = (u32)&csi_regs->csi_csidmasa_fb2;
ch.ch_num = 1;
ch.ch_map = CH_MAPPING_CSI_FB_UPDATE;
ch.cmd_num = 1;
ch.cmd_data[0].cmd_bits.opcode = CMD_WR_FB_CSI;
ch.cmd_data[0].cmd_bits.alu = ALU_AND;
ch.cmd_data[0].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[0].addr = CSI0_SEL << GIS_CH_ADDR_SEL_SHIFT | addr0;
ch.cmd_data[0].data = data0;
config_channel(&ch);
/* Config channel 2 -- PXP clear interrupt and set framebuffer */
addr0 = (u32)&pxp_regs->pxp_stat_clr;
data0 = BM_PXP_STAT_IRQ;
addr1 = (u32)&pxp_regs->pxp_out_buf;
data1 = 0;
ch.ch_num = 2;
ch.ch_map = CH_MAPPING_PXP_ISR;
ch.cmd_num = 2;
ch.cmd_data[0].cmd_bits.opcode = CMD_WR_DATA;
ch.cmd_data[0].cmd_bits.alu = ALU_AND;
ch.cmd_data[0].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[0].addr = PXP_SEL << GIS_CH_ADDR_SEL_SHIFT | addr0;
ch.cmd_data[0].data = data0;
ch.cmd_data[1].cmd_bits.opcode = CMD_WR_FB_PXP_OUT;
ch.cmd_data[1].cmd_bits.alu = ALU_AND;
ch.cmd_data[1].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[1].addr = PXP_SEL << GIS_CH_ADDR_SEL_SHIFT | addr1;
ch.cmd_data[1].data = data1;
config_channel(&ch);
/* Config channel 3 -- LCDIF set framebuffer to display */
addr0 = (u32)&lcdif_regs->hw_lcdif_next_buf;
data0 = 0;
ch.ch_num = 3;
ch.ch_map = CH_MAPPING_LCDIF_FB_UPDATE;
ch.cmd_num = 1;
ch.cmd_data[0].cmd_bits.opcode = CMD_WR_FB_LCDIF;
ch.cmd_data[0].cmd_bits.alu = ALU_AND;
ch.cmd_data[0].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[0].addr = ((lcdif_sel == 0) ? LCDIF0_SEL : LCDIF1_SEL) << GIS_CH_ADDR_SEL_SHIFT | addr0;
ch.cmd_data[0].data = data0;
config_channel(&ch);
/* Config channel 4 -- PXP kick to process next framebuffer */
addr0 = (u32)&pxp_regs->pxp_ps_buf;
data0 = 0;
addr1 = (u32)&pxp_regs->pxp_ctrl;
data1 = BM_PXP_CTRL_IRQ_ENABLE | BM_PXP_CTRL_ENABLE;
ch.ch_num = 4;
ch.ch_map = CH_MAPPING_PXP_KICK;
ch.cmd_num = 2;
ch.cmd_data[0].cmd_bits.opcode = CMD_WR_FB_PXP_IN;
ch.cmd_data[0].cmd_bits.alu = ALU_AND;
ch.cmd_data[0].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[0].addr = PXP_SEL << GIS_CH_ADDR_SEL_SHIFT | addr0;
ch.cmd_data[0].data = data0;
ch.cmd_data[1].cmd_bits.opcode = CMD_WR_DATA;
ch.cmd_data[1].cmd_bits.alu = ALU_AND;
ch.cmd_data[1].cmd_bits.acc_neg = GIS_CH_CTRL_CMD_ACC_NO_NEGATE;
ch.cmd_data[1].addr = PXP_SEL << GIS_CH_ADDR_SEL_SHIFT | addr1;
ch.cmd_data[1].data = data1;
config_channel(&ch);
/* start gis */
val = readl(&gis_regs->hw_gis_ctrl);
if (lcdif_sel == 1)
val |= GIS_CTRL_ENABLE_SET | GIS_CTRL_LCDIF_SEL_LCDIF1;
else
val |= GIS_CTRL_ENABLE_SET | GIS_CTRL_LCDIF_SEL_LCDIF0;
writel(val, &gis_regs->hw_gis_ctrl);
}
void mxc_disable_gis(void)
{
u32 val;
if (!gis_running)
return;
/* Stop gis */
val = GIS_CTRL_SFTRST_SET | GIS_CTRL_CLK_GATE_SET;
writel(val, &gis_regs->hw_gis_ctrl);
/* Stop pxp */
mxs_reset_block(&pxp_regs->pxp_ctrl_reg);
val = BM_PXP_CTRL_SFTRST | BM_PXP_CTRL_CLKGATE;
writel(val , &pxp_regs->pxp_ctrl);
csi_disable();
vadc_power_down();
}
void mxc_enable_gis(void)
{
struct sensor_data sensor;
struct csi_conf_param csi_conf;
struct pxp_config_data pxp_conf;
struct display_panel panel;
u32 csimemsize, pxpmemsize;
char const *gis_input = getenv("gis");
gis_regs = (struct mxs_gis_regs *)GIS_BASE_ADDR;
pxp_regs = (struct mxs_pxp_regs *)PXP_BASE_ADDR;
csi_regs = (struct mxs_csi_regs *)CSI1_BASE_ADDR;
gis_running = false;
if (!strcmp(gis_input, "vadc")) {
printf("gis input --- vadc\n");
/* vadc_in 0 */
vadc_config(0);
/* Get vadc mode */
vadc_get_std(&sensor);
} else {
printf("gis input --- No input\n");
return;
}
/* Get display mode */
mxs_lcd_get_panel(&panel);
lcdif_regs = (struct mxs_lcdif_regs *)panel.reg_base;
if (panel.reg_base == LCDIF2_BASE_ADDR)
lcdif_sel = 1;
else
lcdif_sel = 0;
/* Allocate csi buffer */
if (sensor.pixel_fmt == FMT_YUV444) {
csimemsize = sensor.width * sensor.height * 4;
csi_conf.bpp = 32;
} else {
csimemsize = sensor.width * sensor.height * 2;
csi_conf.bpp = 16;
}
pxpmemsize = panel.width * panel.height * panel.gdfbytespp;
csibuf0 = malloc(csimemsize);
csibuf1 = malloc(csimemsize);
fb0 = malloc(pxpmemsize);
fb1 = malloc(pxpmemsize);
if (!csibuf0 || !csibuf1 || !fb0 || !fb1) {
printf("MXSGIS: Error allocating csibuffer!\n");
return;
}
/* Wipe framebuffer */
memset(csibuf0, 0, csimemsize);
memset(csibuf1, 0, csimemsize);
memset(fb0, 0, pxpmemsize);
memset(fb1, 0, pxpmemsize);
/*config csi */
csi_conf.width = sensor.width;
csi_conf.height = sensor.height;
csi_conf.btvmode = true;
csi_conf.std = sensor.std_id;
csi_conf.fb0addr = csibuf0;
csi_conf.fb1addr = csibuf1;
csi_config(&csi_conf);
/* config pxp */
pxp_conf.s0_param.pixel_fmt = sensor.pixel_fmt;
pxp_conf.s0_param.width = sensor.width;
pxp_conf.s0_param.height = sensor.height;
pxp_conf.s0_param.stride = sensor.width * csi_conf.bpp/8;
pxp_conf.s0_param.paddr = csibuf0;
switch (panel.gdfindex) {
case GDF_32BIT_X888RGB:
pxp_conf.out_param.pixel_fmt = FMT_RGB888;
break;
case GDF_16BIT_565RGB:
pxp_conf.out_param.pixel_fmt = FMT_RGB565;
break;
default:
printf("GIS unsupported format!");
}
pxp_conf.out_param.width = panel.width;
pxp_conf.out_param.height = panel.height;
pxp_conf.out_param.stride = pxp_conf.out_param.width * panel.gdfbytespp;
pxp_conf.out_param.paddr = fb0;
pxp_config(&pxp_conf);
gis_running = true;
/* Config gis */
gis_channel_init();
}
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