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|
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2011-2013, NVIDIA Corporation.
*/
#include <common.h>
#include <dm.h>
#include <errno.h>
#include <log.h>
#include <malloc.h>
#include <panel.h>
#include <syscon.h>
#include <video_bridge.h>
#include <asm/io.h>
#include <asm/arch/clock.h>
#include <asm/arch-tegra/dc.h>
#include <linux/delay.h>
#include "displayport.h"
#include "sor.h"
#include <linux/err.h>
#define DEBUG_SOR 0
#define APBDEV_PMC_DPD_SAMPLE 0x20
#define APBDEV_PMC_DPD_SAMPLE_ON_DISABLE 0
#define APBDEV_PMC_DPD_SAMPLE_ON_ENABLE 1
#define APBDEV_PMC_SEL_DPD_TIM 0x1c8
#define APBDEV_PMC_SEL_DPD_TIM_SEL_DPD_TIM_DEFAULT 0x7f
#define APBDEV_PMC_IO_DPD2_REQ 0x1c0
#define APBDEV_PMC_IO_DPD2_REQ_LVDS_SHIFT 25
#define APBDEV_PMC_IO_DPD2_REQ_LVDS_OFF (0 << 25)
#define APBDEV_PMC_IO_DPD2_REQ_LVDS_ON (1 << 25)
#define APBDEV_PMC_IO_DPD2_REQ_CODE_SHIFT 30
#define APBDEV_PMC_IO_DPD2_REQ_CODE_DEFAULT_MASK (0x3 << 30)
#define APBDEV_PMC_IO_DPD2_REQ_CODE_IDLE (0 << 30)
#define APBDEV_PMC_IO_DPD2_REQ_CODE_DPD_OFF (1 << 30)
#define APBDEV_PMC_IO_DPD2_REQ_CODE_DPD_ON (2 << 30)
#define APBDEV_PMC_IO_DPD2_STATUS 0x1c4
#define APBDEV_PMC_IO_DPD2_STATUS_LVDS_SHIFT 25
#define APBDEV_PMC_IO_DPD2_STATUS_LVDS_OFF (0 << 25)
#define APBDEV_PMC_IO_DPD2_STATUS_LVDS_ON (1 << 25)
struct tegra_dc_sor_data {
void *base;
void *pmc_base;
u8 portnum; /* 0 or 1 */
int power_is_up;
struct udevice *panel;
};
static inline u32 tegra_sor_readl(struct tegra_dc_sor_data *sor, u32 reg)
{
return readl((u32 *)sor->base + reg);
}
static inline void tegra_sor_writel(struct tegra_dc_sor_data *sor, u32 reg,
u32 val)
{
writel(val, (u32 *)sor->base + reg);
}
static inline void tegra_sor_write_field(struct tegra_dc_sor_data *sor,
u32 reg, u32 mask, u32 val)
{
u32 reg_val = tegra_sor_readl(sor, reg);
reg_val &= ~mask;
reg_val |= val;
tegra_sor_writel(sor, reg, reg_val);
}
void tegra_dp_disable_tx_pu(struct udevice *dev)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum),
DP_PADCTL_TX_PU_MASK, DP_PADCTL_TX_PU_DISABLE);
}
void tegra_dp_set_pe_vs_pc(struct udevice *dev, u32 mask, u32 pe_reg,
u32 vs_reg, u32 pc_reg, u8 pc_supported)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
tegra_sor_write_field(sor, PR(sor->portnum), mask, pe_reg);
tegra_sor_write_field(sor, DC(sor->portnum), mask, vs_reg);
if (pc_supported) {
tegra_sor_write_field(sor, POSTCURSOR(sor->portnum), mask,
pc_reg);
}
}
static int tegra_dc_sor_poll_register(struct tegra_dc_sor_data *sor, u32 reg,
u32 mask, u32 exp_val,
int poll_interval_us, int timeout_ms)
{
u32 reg_val = 0;
ulong start;
start = get_timer(0);
do {
reg_val = tegra_sor_readl(sor, reg);
if (((reg_val & mask) == exp_val))
return 0;
udelay(poll_interval_us);
} while (get_timer(start) < timeout_ms);
debug("sor_poll_register 0x%x: timeout, (reg_val)0x%08x & (mask)0x%08x != (exp_val)0x%08x\n",
reg, reg_val, mask, exp_val);
return -ETIMEDOUT;
}
int tegra_dc_sor_set_power_state(struct udevice *dev, int pu_pd)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
u32 orig_val;
orig_val = tegra_sor_readl(sor, PWR);
reg_val = pu_pd ? PWR_NORMAL_STATE_PU :
PWR_NORMAL_STATE_PD; /* normal state only */
if (reg_val == orig_val)
return 0; /* No update needed */
reg_val |= PWR_SETTING_NEW_TRIGGER;
tegra_sor_writel(sor, PWR, reg_val);
/* Poll to confirm it is done */
if (tegra_dc_sor_poll_register(sor, PWR,
PWR_SETTING_NEW_DEFAULT_MASK,
PWR_SETTING_NEW_DONE,
100, TEGRA_SOR_TIMEOUT_MS)) {
debug("dc timeout waiting for SOR_PWR = NEW_DONE\n");
return -EFAULT;
}
return 0;
}
void tegra_dc_sor_set_dp_linkctl(struct udevice *dev, int ena,
u8 training_pattern,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, DP_LINKCTL(sor->portnum));
if (ena)
reg_val |= DP_LINKCTL_ENABLE_YES;
else
reg_val &= DP_LINKCTL_ENABLE_NO;
reg_val &= ~DP_LINKCTL_TUSIZE_MASK;
reg_val |= (link_cfg->tu_size << DP_LINKCTL_TUSIZE_SHIFT);
if (link_cfg->enhanced_framing)
reg_val |= DP_LINKCTL_ENHANCEDFRAME_ENABLE;
tegra_sor_writel(sor, DP_LINKCTL(sor->portnum), reg_val);
switch (training_pattern) {
case training_pattern_1:
tegra_sor_writel(sor, DP_TPG, 0x41414141);
break;
case training_pattern_2:
case training_pattern_3:
reg_val = (link_cfg->link_bw == SOR_LINK_SPEED_G5_4) ?
0x43434343 : 0x42424242;
tegra_sor_writel(sor, DP_TPG, reg_val);
break;
default:
tegra_sor_writel(sor, DP_TPG, 0x50505050);
break;
}
}
static int tegra_dc_sor_enable_lane_sequencer(struct tegra_dc_sor_data *sor,
int pu, int is_lvds)
{
u32 reg_val;
/* SOR lane sequencer */
if (pu) {
reg_val = LANE_SEQ_CTL_SETTING_NEW_TRIGGER |
LANE_SEQ_CTL_SEQUENCE_DOWN |
LANE_SEQ_CTL_NEW_POWER_STATE_PU;
} else {
reg_val = LANE_SEQ_CTL_SETTING_NEW_TRIGGER |
LANE_SEQ_CTL_SEQUENCE_UP |
LANE_SEQ_CTL_NEW_POWER_STATE_PD;
}
if (is_lvds)
reg_val |= 15 << LANE_SEQ_CTL_DELAY_SHIFT;
else
reg_val |= 1 << LANE_SEQ_CTL_DELAY_SHIFT;
tegra_sor_writel(sor, LANE_SEQ_CTL, reg_val);
if (tegra_dc_sor_poll_register(sor, LANE_SEQ_CTL,
LANE_SEQ_CTL_SETTING_MASK,
LANE_SEQ_CTL_SETTING_NEW_DONE,
100, TEGRA_SOR_TIMEOUT_MS)) {
debug("dp: timeout while waiting for SOR lane sequencer to power down lanes\n");
return -1;
}
return 0;
}
static int tegra_dc_sor_power_dplanes(struct udevice *dev,
u32 lane_count, int pu)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, DP_PADCTL(sor->portnum));
if (pu) {
switch (lane_count) {
case 4:
reg_val |= (DP_PADCTL_PD_TXD_3_NO |
DP_PADCTL_PD_TXD_2_NO);
/* fall through */
case 2:
reg_val |= DP_PADCTL_PD_TXD_1_NO;
case 1:
reg_val |= DP_PADCTL_PD_TXD_0_NO;
break;
default:
debug("dp: invalid lane number %d\n", lane_count);
return -1;
}
tegra_sor_writel(sor, DP_PADCTL(sor->portnum), reg_val);
tegra_dc_sor_set_lane_count(dev, lane_count);
}
return tegra_dc_sor_enable_lane_sequencer(sor, pu, 0);
}
void tegra_dc_sor_set_panel_power(struct udevice *dev, int power_up)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, DP_PADCTL(sor->portnum));
if (power_up)
reg_val |= DP_PADCTL_PAD_CAL_PD_POWERUP;
else
reg_val &= ~DP_PADCTL_PAD_CAL_PD_POWERUP;
tegra_sor_writel(sor, DP_PADCTL(sor->portnum), reg_val);
}
static void tegra_dc_sor_config_pwm(struct tegra_dc_sor_data *sor, u32 pwm_div,
u32 pwm_dutycycle)
{
tegra_sor_writel(sor, PWM_DIV, pwm_div);
tegra_sor_writel(sor, PWM_CTL,
(pwm_dutycycle & PWM_CTL_DUTY_CYCLE_MASK) |
PWM_CTL_SETTING_NEW_TRIGGER);
if (tegra_dc_sor_poll_register(sor, PWM_CTL,
PWM_CTL_SETTING_NEW_SHIFT,
PWM_CTL_SETTING_NEW_DONE,
100, TEGRA_SOR_TIMEOUT_MS)) {
debug("dp: timeout while waiting for SOR PWM setting\n");
}
}
static void tegra_dc_sor_set_dp_mode(struct udevice *dev,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
tegra_dc_sor_set_link_bandwidth(dev, link_cfg->link_bw);
tegra_dc_sor_set_dp_linkctl(dev, 1, training_pattern_none, link_cfg);
reg_val = tegra_sor_readl(sor, DP_CONFIG(sor->portnum));
reg_val &= ~DP_CONFIG_WATERMARK_MASK;
reg_val |= link_cfg->watermark;
reg_val &= ~DP_CONFIG_ACTIVESYM_COUNT_MASK;
reg_val |= (link_cfg->active_count <<
DP_CONFIG_ACTIVESYM_COUNT_SHIFT);
reg_val &= ~DP_CONFIG_ACTIVESYM_FRAC_MASK;
reg_val |= (link_cfg->active_frac <<
DP_CONFIG_ACTIVESYM_FRAC_SHIFT);
if (link_cfg->activepolarity)
reg_val |= DP_CONFIG_ACTIVESYM_POLARITY_POSITIVE;
else
reg_val &= ~DP_CONFIG_ACTIVESYM_POLARITY_POSITIVE;
reg_val |= (DP_CONFIG_ACTIVESYM_CNTL_ENABLE |
DP_CONFIG_RD_RESET_VAL_NEGATIVE);
tegra_sor_writel(sor, DP_CONFIG(sor->portnum), reg_val);
/* program h/vblank sym */
tegra_sor_write_field(sor, DP_AUDIO_HBLANK_SYMBOLS,
DP_AUDIO_HBLANK_SYMBOLS_MASK,
link_cfg->hblank_sym);
tegra_sor_write_field(sor, DP_AUDIO_VBLANK_SYMBOLS,
DP_AUDIO_VBLANK_SYMBOLS_MASK,
link_cfg->vblank_sym);
}
static inline void tegra_dc_sor_super_update(struct tegra_dc_sor_data *sor)
{
tegra_sor_writel(sor, SUPER_STATE0, 0);
tegra_sor_writel(sor, SUPER_STATE0, 1);
tegra_sor_writel(sor, SUPER_STATE0, 0);
}
static inline void tegra_dc_sor_update(struct tegra_dc_sor_data *sor)
{
tegra_sor_writel(sor, STATE0, 0);
tegra_sor_writel(sor, STATE0, 1);
tegra_sor_writel(sor, STATE0, 0);
}
static int tegra_dc_sor_io_set_dpd(struct tegra_dc_sor_data *sor, int up)
{
u32 reg_val;
void *pmc_base = sor->pmc_base;
if (up) {
writel(APBDEV_PMC_DPD_SAMPLE_ON_ENABLE,
pmc_base + APBDEV_PMC_DPD_SAMPLE);
writel(10, pmc_base + APBDEV_PMC_SEL_DPD_TIM);
}
reg_val = readl(pmc_base + APBDEV_PMC_IO_DPD2_REQ);
reg_val &= ~(APBDEV_PMC_IO_DPD2_REQ_LVDS_ON ||
APBDEV_PMC_IO_DPD2_REQ_CODE_DEFAULT_MASK);
reg_val = up ? APBDEV_PMC_IO_DPD2_REQ_LVDS_ON |
APBDEV_PMC_IO_DPD2_REQ_CODE_DPD_OFF :
APBDEV_PMC_IO_DPD2_REQ_LVDS_OFF |
APBDEV_PMC_IO_DPD2_REQ_CODE_DPD_ON;
writel(reg_val, pmc_base + APBDEV_PMC_IO_DPD2_REQ);
/* Polling */
u32 temp = 10 * 1000;
do {
udelay(20);
reg_val = readl(pmc_base + APBDEV_PMC_IO_DPD2_STATUS);
if (temp > 20)
temp -= 20;
else
break;
} while ((reg_val & APBDEV_PMC_IO_DPD2_STATUS_LVDS_ON) != 0);
if ((reg_val & APBDEV_PMC_IO_DPD2_STATUS_LVDS_ON) != 0) {
debug("PMC_IO_DPD2 polling failed (0x%x)\n", reg_val);
return -EIO;
}
if (up) {
writel(APBDEV_PMC_DPD_SAMPLE_ON_DISABLE,
pmc_base + APBDEV_PMC_DPD_SAMPLE);
}
return 0;
}
void tegra_dc_sor_set_internal_panel(struct udevice *dev, int is_int)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, DP_SPARE(sor->portnum));
if (is_int)
reg_val |= DP_SPARE_PANEL_INTERNAL;
else
reg_val &= ~DP_SPARE_PANEL_INTERNAL;
reg_val |= DP_SPARE_SOR_CLK_SEL_MACRO_SORCLK |
DP_SPARE_SEQ_ENABLE_YES;
tegra_sor_writel(sor, DP_SPARE(sor->portnum), reg_val);
}
void tegra_dc_sor_read_link_config(struct udevice *dev, u8 *link_bw,
u8 *lane_count)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, CLK_CNTRL);
*link_bw = (reg_val & CLK_CNTRL_DP_LINK_SPEED_MASK)
>> CLK_CNTRL_DP_LINK_SPEED_SHIFT;
reg_val = tegra_sor_readl(sor,
DP_LINKCTL(sor->portnum));
switch (reg_val & DP_LINKCTL_LANECOUNT_MASK) {
case DP_LINKCTL_LANECOUNT_ZERO:
*lane_count = 0;
break;
case DP_LINKCTL_LANECOUNT_ONE:
*lane_count = 1;
break;
case DP_LINKCTL_LANECOUNT_TWO:
*lane_count = 2;
break;
case DP_LINKCTL_LANECOUNT_FOUR:
*lane_count = 4;
break;
default:
printf("Unknown lane count\n");
}
}
void tegra_dc_sor_set_link_bandwidth(struct udevice *dev, u8 link_bw)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
tegra_sor_write_field(sor, CLK_CNTRL,
CLK_CNTRL_DP_LINK_SPEED_MASK,
link_bw << CLK_CNTRL_DP_LINK_SPEED_SHIFT);
}
void tegra_dc_sor_set_lane_count(struct udevice *dev, u8 lane_count)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg_val;
reg_val = tegra_sor_readl(sor, DP_LINKCTL(sor->portnum));
reg_val &= ~DP_LINKCTL_LANECOUNT_MASK;
switch (lane_count) {
case 0:
break;
case 1:
reg_val |= DP_LINKCTL_LANECOUNT_ONE;
break;
case 2:
reg_val |= DP_LINKCTL_LANECOUNT_TWO;
break;
case 4:
reg_val |= DP_LINKCTL_LANECOUNT_FOUR;
break;
default:
/* 0 should be handled earlier. */
printf("dp: Invalid lane count %d\n", lane_count);
return;
}
tegra_sor_writel(sor, DP_LINKCTL(sor->portnum), reg_val);
}
/*
* The SOR power sequencer does not work for t124 so SW has to
* go through the power sequence manually
* Power up steps from spec:
* STEP PDPORT PDPLL PDBG PLLVCOD PLLCAPD E_DPD PDCAL
* 1 1 1 1 1 1 1 1
* 2 1 1 1 1 1 0 1
* 3 1 1 0 1 1 0 1
* 4 1 0 0 0 0 0 1
* 5 0 0 0 0 0 0 1
*/
static int tegra_dc_sor_power_up(struct udevice *dev, int is_lvds)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 reg;
int ret;
if (sor->power_is_up)
return 0;
/*
* If for some reason it is already powered up, don't do it again.
* This can happen if U-Boot is the secondary boot loader.
*/
reg = tegra_sor_readl(sor, DP_PADCTL(sor->portnum));
if (reg & DP_PADCTL_PD_TXD_0_NO)
return 0;
/* Set link bw */
tegra_dc_sor_set_link_bandwidth(dev, is_lvds ?
CLK_CNTRL_DP_LINK_SPEED_LVDS :
CLK_CNTRL_DP_LINK_SPEED_G1_62);
/* step 1 */
tegra_sor_write_field(sor, PLL2,
PLL2_AUX7_PORT_POWERDOWN_MASK | /* PDPORT */
PLL2_AUX6_BANDGAP_POWERDOWN_MASK | /* PDBG */
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_MASK, /* PLLCAPD */
PLL2_AUX7_PORT_POWERDOWN_ENABLE |
PLL2_AUX6_BANDGAP_POWERDOWN_ENABLE |
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_ENABLE);
tegra_sor_write_field(sor, PLL0, PLL0_PWR_MASK | /* PDPLL */
PLL0_VCOPD_MASK, /* PLLVCOPD */
PLL0_PWR_OFF | PLL0_VCOPD_ASSERT);
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum),
DP_PADCTL_PAD_CAL_PD_POWERDOWN, /* PDCAL */
DP_PADCTL_PAD_CAL_PD_POWERDOWN);
/* step 2 */
ret = tegra_dc_sor_io_set_dpd(sor, 1);
if (ret)
return ret;
udelay(15);
/* step 3 */
tegra_sor_write_field(sor, PLL2,
PLL2_AUX6_BANDGAP_POWERDOWN_MASK,
PLL2_AUX6_BANDGAP_POWERDOWN_DISABLE);
udelay(25);
/* step 4 */
tegra_sor_write_field(sor, PLL0,
PLL0_PWR_MASK | /* PDPLL */
PLL0_VCOPD_MASK, /* PLLVCOPD */
PLL0_PWR_ON | PLL0_VCOPD_RESCIND);
/* PLLCAPD */
tegra_sor_write_field(sor, PLL2,
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_MASK,
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_DISABLE);
udelay(225);
/* step 5 PDPORT */
tegra_sor_write_field(sor, PLL2,
PLL2_AUX7_PORT_POWERDOWN_MASK,
PLL2_AUX7_PORT_POWERDOWN_DISABLE);
sor->power_is_up = 1;
return 0;
}
#if DEBUG_SOR
static void dump_sor_reg(struct tegra_dc_sor_data *sor)
{
#define DUMP_REG(a) printk(BIOS_INFO, \
"%-32s %03x %08x\n", \
#a, a, tegra_sor_readl(sor, a));
DUMP_REG(SUPER_STATE0);
DUMP_REG(SUPER_STATE1);
DUMP_REG(STATE0);
DUMP_REG(STATE1);
DUMP_REG(NV_HEAD_STATE0(0));
DUMP_REG(NV_HEAD_STATE0(1));
DUMP_REG(NV_HEAD_STATE1(0));
DUMP_REG(NV_HEAD_STATE1(1));
DUMP_REG(NV_HEAD_STATE2(0));
DUMP_REG(NV_HEAD_STATE2(1));
DUMP_REG(NV_HEAD_STATE3(0));
DUMP_REG(NV_HEAD_STATE3(1));
DUMP_REG(NV_HEAD_STATE4(0));
DUMP_REG(NV_HEAD_STATE4(1));
DUMP_REG(NV_HEAD_STATE5(0));
DUMP_REG(NV_HEAD_STATE5(1));
DUMP_REG(CRC_CNTRL);
DUMP_REG(CLK_CNTRL);
DUMP_REG(CAP);
DUMP_REG(PWR);
DUMP_REG(TEST);
DUMP_REG(PLL0);
DUMP_REG(PLL1);
DUMP_REG(PLL2);
DUMP_REG(PLL3);
DUMP_REG(CSTM);
DUMP_REG(LVDS);
DUMP_REG(CRCA);
DUMP_REG(CRCB);
DUMP_REG(SEQ_CTL);
DUMP_REG(LANE_SEQ_CTL);
DUMP_REG(SEQ_INST(0));
DUMP_REG(SEQ_INST(1));
DUMP_REG(SEQ_INST(2));
DUMP_REG(SEQ_INST(3));
DUMP_REG(SEQ_INST(4));
DUMP_REG(SEQ_INST(5));
DUMP_REG(SEQ_INST(6));
DUMP_REG(SEQ_INST(7));
DUMP_REG(SEQ_INST(8));
DUMP_REG(PWM_DIV);
DUMP_REG(PWM_CTL);
DUMP_REG(MSCHECK);
DUMP_REG(XBAR_CTRL);
DUMP_REG(DP_LINKCTL(0));
DUMP_REG(DP_LINKCTL(1));
DUMP_REG(DC(0));
DUMP_REG(DC(1));
DUMP_REG(LANE_DRIVE_CURRENT(0));
DUMP_REG(PR(0));
DUMP_REG(LANE4_PREEMPHASIS(0));
DUMP_REG(POSTCURSOR(0));
DUMP_REG(DP_CONFIG(0));
DUMP_REG(DP_CONFIG(1));
DUMP_REG(DP_MN(0));
DUMP_REG(DP_MN(1));
DUMP_REG(DP_PADCTL(0));
DUMP_REG(DP_PADCTL(1));
DUMP_REG(DP_DEBUG(0));
DUMP_REG(DP_DEBUG(1));
DUMP_REG(DP_SPARE(0));
DUMP_REG(DP_SPARE(1));
DUMP_REG(DP_TPG);
return;
}
#endif
static void tegra_dc_sor_config_panel(struct tegra_dc_sor_data *sor,
int is_lvds,
const struct tegra_dp_link_config *link_cfg,
const struct display_timing *timing)
{
const int head_num = 0;
u32 reg_val = STATE1_ASY_OWNER_HEAD0 << head_num;
u32 vtotal, htotal;
u32 vsync_end, hsync_end;
u32 vblank_end, hblank_end;
u32 vblank_start, hblank_start;
reg_val |= is_lvds ? STATE1_ASY_PROTOCOL_LVDS_CUSTOM :
STATE1_ASY_PROTOCOL_DP_A;
reg_val |= STATE1_ASY_SUBOWNER_NONE |
STATE1_ASY_CRCMODE_COMPLETE_RASTER;
reg_val |= STATE1_ASY_HSYNCPOL_NEGATIVE_TRUE;
reg_val |= STATE1_ASY_VSYNCPOL_NEGATIVE_TRUE;
reg_val |= (link_cfg->bits_per_pixel > 18) ?
STATE1_ASY_PIXELDEPTH_BPP_24_444 :
STATE1_ASY_PIXELDEPTH_BPP_18_444;
tegra_sor_writel(sor, STATE1, reg_val);
/*
* Skipping programming NV_HEAD_STATE0, assuming:
* interlacing: PROGRESSIVE, dynamic range: VESA, colorspace: RGB
*/
vtotal = timing->vsync_len.typ + timing->vback_porch.typ +
timing->vactive.typ + timing->vfront_porch.typ;
htotal = timing->hsync_len.typ + timing->hback_porch.typ +
timing->hactive.typ + timing->hfront_porch.typ;
tegra_sor_writel(sor, NV_HEAD_STATE1(head_num),
vtotal << NV_HEAD_STATE1_VTOTAL_SHIFT |
htotal << NV_HEAD_STATE1_HTOTAL_SHIFT);
vsync_end = timing->vsync_len.typ - 1;
hsync_end = timing->hsync_len.typ - 1;
tegra_sor_writel(sor, NV_HEAD_STATE2(head_num),
vsync_end << NV_HEAD_STATE2_VSYNC_END_SHIFT |
hsync_end << NV_HEAD_STATE2_HSYNC_END_SHIFT);
vblank_end = vsync_end + timing->vback_porch.typ;
hblank_end = hsync_end + timing->hback_porch.typ;
tegra_sor_writel(sor, NV_HEAD_STATE3(head_num),
vblank_end << NV_HEAD_STATE3_VBLANK_END_SHIFT |
hblank_end << NV_HEAD_STATE3_HBLANK_END_SHIFT);
vblank_start = vblank_end + timing->vactive.typ;
hblank_start = hblank_end + timing->hactive.typ;
tegra_sor_writel(sor, NV_HEAD_STATE4(head_num),
vblank_start << NV_HEAD_STATE4_VBLANK_START_SHIFT |
hblank_start << NV_HEAD_STATE4_HBLANK_START_SHIFT);
/* TODO: adding interlace mode support */
tegra_sor_writel(sor, NV_HEAD_STATE5(head_num), 0x1);
tegra_sor_write_field(sor, CSTM,
CSTM_ROTCLK_DEFAULT_MASK |
CSTM_LVDS_EN_ENABLE,
2 << CSTM_ROTCLK_SHIFT |
(is_lvds ? CSTM_LVDS_EN_ENABLE :
CSTM_LVDS_EN_DISABLE));
tegra_dc_sor_config_pwm(sor, 1024, 1024);
}
static void tegra_dc_sor_enable_dc(struct dc_ctlr *disp_ctrl)
{
u32 reg_val = readl(&disp_ctrl->cmd.state_access);
writel(reg_val | WRITE_MUX_ACTIVE, &disp_ctrl->cmd.state_access);
writel(VSYNC_H_POSITION(1), &disp_ctrl->disp.disp_timing_opt);
/* Enable DC now - otherwise pure text console may not show. */
writel(CTRL_MODE_C_DISPLAY << CTRL_MODE_SHIFT,
&disp_ctrl->cmd.disp_cmd);
writel(reg_val, &disp_ctrl->cmd.state_access);
}
int tegra_dc_sor_enable_dp(struct udevice *dev,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
int ret;
tegra_sor_write_field(sor, CLK_CNTRL,
CLK_CNTRL_DP_CLK_SEL_MASK,
CLK_CNTRL_DP_CLK_SEL_SINGLE_DPCLK);
tegra_sor_write_field(sor, PLL2,
PLL2_AUX6_BANDGAP_POWERDOWN_MASK,
PLL2_AUX6_BANDGAP_POWERDOWN_DISABLE);
udelay(25);
tegra_sor_write_field(sor, PLL3,
PLL3_PLLVDD_MODE_MASK,
PLL3_PLLVDD_MODE_V3_3);
tegra_sor_writel(sor, PLL0,
0xf << PLL0_ICHPMP_SHFIT |
0x3 << PLL0_VCOCAP_SHIFT |
PLL0_PLLREG_LEVEL_V45 |
PLL0_RESISTORSEL_EXT |
PLL0_PWR_ON | PLL0_VCOPD_RESCIND);
tegra_sor_write_field(sor, PLL2,
PLL2_AUX1_SEQ_MASK |
PLL2_AUX9_LVDSEN_OVERRIDE |
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_MASK,
PLL2_AUX1_SEQ_PLLCAPPD_OVERRIDE |
PLL2_AUX9_LVDSEN_OVERRIDE |
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_DISABLE);
tegra_sor_writel(sor, PLL1, PLL1_TERM_COMPOUT_HIGH |
PLL1_TMDS_TERM_ENABLE);
if (tegra_dc_sor_poll_register(sor, PLL2,
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_MASK,
PLL2_AUX8_SEQ_PLLCAPPD_ENFORCE_DISABLE,
100, TEGRA_SOR_TIMEOUT_MS)) {
printf("DP failed to lock PLL\n");
return -EIO;
}
tegra_sor_write_field(sor, PLL2, PLL2_AUX2_MASK |
PLL2_AUX7_PORT_POWERDOWN_MASK,
PLL2_AUX2_OVERRIDE_POWERDOWN |
PLL2_AUX7_PORT_POWERDOWN_DISABLE);
ret = tegra_dc_sor_power_up(dev, 0);
if (ret) {
debug("DP failed to power up\n");
return ret;
}
/* re-enable SOR clock */
clock_sor_enable_edp_clock();
/* Power up lanes */
tegra_dc_sor_power_dplanes(dev, link_cfg->lane_count, 1);
tegra_dc_sor_set_dp_mode(dev, link_cfg);
debug("%s ret\n", __func__);
return 0;
}
int tegra_dc_sor_attach(struct udevice *dc_dev, struct udevice *dev,
const struct tegra_dp_link_config *link_cfg,
const struct display_timing *timing)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
struct dc_ctlr *disp_ctrl;
u32 reg_val;
/* Use the first display controller */
debug("%s\n", __func__);
disp_ctrl = dev_read_addr_ptr(dc_dev);
tegra_dc_sor_enable_dc(disp_ctrl);
tegra_dc_sor_config_panel(sor, 0, link_cfg, timing);
writel(0x9f00, &disp_ctrl->cmd.state_ctrl);
writel(0x9f, &disp_ctrl->cmd.state_ctrl);
writel(PW0_ENABLE | PW1_ENABLE | PW2_ENABLE | PW3_ENABLE |
PW4_ENABLE | PM0_ENABLE | PM1_ENABLE,
&disp_ctrl->cmd.disp_pow_ctrl);
reg_val = tegra_sor_readl(sor, TEST);
if (reg_val & TEST_ATTACHED_TRUE)
return -EEXIST;
tegra_sor_writel(sor, SUPER_STATE1,
SUPER_STATE1_ATTACHED_NO);
/*
* Enable display2sor clock at least 2 cycles before DC start,
* to clear sor internal valid signal.
*/
writel(SOR_ENABLE, &disp_ctrl->disp.disp_win_opt);
writel(GENERAL_ACT_REQ, &disp_ctrl->cmd.state_ctrl);
writel(0, &disp_ctrl->disp.disp_win_opt);
writel(GENERAL_ACT_REQ, &disp_ctrl->cmd.state_ctrl);
/* Attach head */
tegra_dc_sor_update(sor);
tegra_sor_writel(sor, SUPER_STATE1,
SUPER_STATE1_ATTACHED_YES);
tegra_sor_writel(sor, SUPER_STATE1,
SUPER_STATE1_ATTACHED_YES |
SUPER_STATE1_ASY_HEAD_OP_AWAKE |
SUPER_STATE1_ASY_ORMODE_NORMAL);
tegra_dc_sor_super_update(sor);
/* Enable dc */
reg_val = readl(&disp_ctrl->cmd.state_access);
writel(reg_val | WRITE_MUX_ACTIVE, &disp_ctrl->cmd.state_access);
writel(CTRL_MODE_C_DISPLAY << CTRL_MODE_SHIFT,
&disp_ctrl->cmd.disp_cmd);
writel(SOR_ENABLE, &disp_ctrl->disp.disp_win_opt);
writel(reg_val, &disp_ctrl->cmd.state_access);
if (tegra_dc_sor_poll_register(sor, TEST,
TEST_ACT_HEAD_OPMODE_DEFAULT_MASK,
TEST_ACT_HEAD_OPMODE_AWAKE,
100,
TEGRA_SOR_ATTACH_TIMEOUT_MS)) {
printf("dc timeout waiting for OPMOD = AWAKE\n");
return -ETIMEDOUT;
} else {
debug("%s: sor is attached\n", __func__);
}
#if DEBUG_SOR
dump_sor_reg(sor);
#endif
debug("%s: ret=%d\n", __func__, 0);
return 0;
}
void tegra_dc_sor_set_lane_parm(struct udevice *dev,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
tegra_sor_writel(sor, LANE_DRIVE_CURRENT(sor->portnum),
link_cfg->drive_current);
tegra_sor_writel(sor, PR(sor->portnum),
link_cfg->preemphasis);
tegra_sor_writel(sor, POSTCURSOR(sor->portnum),
link_cfg->postcursor);
tegra_sor_writel(sor, LVDS, 0);
tegra_dc_sor_set_link_bandwidth(dev, link_cfg->link_bw);
tegra_dc_sor_set_lane_count(dev, link_cfg->lane_count);
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum),
DP_PADCTL_TX_PU_ENABLE |
DP_PADCTL_TX_PU_VALUE_DEFAULT_MASK,
DP_PADCTL_TX_PU_ENABLE |
2 << DP_PADCTL_TX_PU_VALUE_SHIFT);
/* Precharge */
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum), 0xf0, 0xf0);
udelay(20);
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum), 0xf0, 0x0);
}
int tegra_dc_sor_set_voltage_swing(struct udevice *dev,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 drive_current = 0;
u32 pre_emphasis = 0;
/* Set to a known-good pre-calibrated setting */
switch (link_cfg->link_bw) {
case SOR_LINK_SPEED_G1_62:
case SOR_LINK_SPEED_G2_7:
drive_current = 0x13131313;
pre_emphasis = 0;
break;
case SOR_LINK_SPEED_G5_4:
debug("T124 does not support 5.4G link clock.\n");
default:
debug("Invalid sor link bandwidth: %d\n", link_cfg->link_bw);
return -ENOLINK;
}
tegra_sor_writel(sor, LANE_DRIVE_CURRENT(sor->portnum), drive_current);
tegra_sor_writel(sor, PR(sor->portnum), pre_emphasis);
return 0;
}
void tegra_dc_sor_power_down_unused_lanes(struct udevice *dev,
const struct tegra_dp_link_config *link_cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 pad_ctrl = 0;
int err = 0;
switch (link_cfg->lane_count) {
case 4:
pad_ctrl = DP_PADCTL_PD_TXD_0_NO |
DP_PADCTL_PD_TXD_1_NO |
DP_PADCTL_PD_TXD_2_NO |
DP_PADCTL_PD_TXD_3_NO;
break;
case 2:
pad_ctrl = DP_PADCTL_PD_TXD_0_NO |
DP_PADCTL_PD_TXD_1_NO |
DP_PADCTL_PD_TXD_2_YES |
DP_PADCTL_PD_TXD_3_YES;
break;
case 1:
pad_ctrl = DP_PADCTL_PD_TXD_0_NO |
DP_PADCTL_PD_TXD_1_YES |
DP_PADCTL_PD_TXD_2_YES |
DP_PADCTL_PD_TXD_3_YES;
break;
default:
printf("Invalid sor lane count: %u\n", link_cfg->lane_count);
return;
}
pad_ctrl |= DP_PADCTL_PAD_CAL_PD_POWERDOWN;
tegra_sor_writel(sor, DP_PADCTL(sor->portnum), pad_ctrl);
err = tegra_dc_sor_enable_lane_sequencer(sor, 0, 0);
if (err) {
debug("Wait for lane power down failed: %d\n", err);
return;
}
}
int tegra_sor_precharge_lanes(struct udevice *dev,
const struct tegra_dp_link_config *cfg)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
u32 val = 0;
switch (cfg->lane_count) {
case 4:
val |= (DP_PADCTL_PD_TXD_3_NO |
DP_PADCTL_PD_TXD_2_NO);
/* fall through */
case 2:
val |= DP_PADCTL_PD_TXD_1_NO;
/* fall through */
case 1:
val |= DP_PADCTL_PD_TXD_0_NO;
break;
default:
debug("dp: invalid lane number %d\n", cfg->lane_count);
return -EINVAL;
}
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum),
(0xf << DP_PADCTL_COMODE_TXD_0_DP_TXD_2_SHIFT),
(val << DP_PADCTL_COMODE_TXD_0_DP_TXD_2_SHIFT));
udelay(100);
tegra_sor_write_field(sor, DP_PADCTL(sor->portnum),
(0xf << DP_PADCTL_COMODE_TXD_0_DP_TXD_2_SHIFT),
0);
return 0;
}
static void tegra_dc_sor_enable_sor(struct dc_ctlr *disp_ctrl, bool enable)
{
u32 reg_val = readl(&disp_ctrl->disp.disp_win_opt);
reg_val = enable ? reg_val | SOR_ENABLE : reg_val & ~SOR_ENABLE;
writel(reg_val, &disp_ctrl->disp.disp_win_opt);
}
int tegra_dc_sor_detach(struct udevice *dc_dev, struct udevice *dev)
{
struct tegra_dc_sor_data *sor = dev_get_priv(dev);
int dc_reg_ctx[DC_REG_SAVE_SPACE];
struct dc_ctlr *disp_ctrl;
unsigned long dc_int_mask;
int ret;
debug("%s\n", __func__);
/* Use the first display controller */
disp_ctrl = dev_read_addr_ptr(dev);
/* Sleep mode */
tegra_sor_writel(sor, SUPER_STATE1, SUPER_STATE1_ASY_HEAD_OP_SLEEP |
SUPER_STATE1_ASY_ORMODE_SAFE |
SUPER_STATE1_ATTACHED_YES);
tegra_dc_sor_super_update(sor);
tegra_dc_sor_disable_win_short_raster(disp_ctrl, dc_reg_ctx);
if (tegra_dc_sor_poll_register(sor, TEST,
TEST_ACT_HEAD_OPMODE_DEFAULT_MASK,
TEST_ACT_HEAD_OPMODE_SLEEP, 100,
TEGRA_SOR_ATTACH_TIMEOUT_MS)) {
debug("dc timeout waiting for OPMOD = SLEEP\n");
ret = -ETIMEDOUT;
goto err;
}
tegra_sor_writel(sor, SUPER_STATE1, SUPER_STATE1_ASY_HEAD_OP_SLEEP |
SUPER_STATE1_ASY_ORMODE_SAFE |
SUPER_STATE1_ATTACHED_NO);
/* Mask DC interrupts during the 2 dummy frames required for detach */
dc_int_mask = readl(&disp_ctrl->cmd.int_mask);
writel(0, &disp_ctrl->cmd.int_mask);
/* Stop DC->SOR path */
tegra_dc_sor_enable_sor(disp_ctrl, false);
ret = tegra_dc_sor_general_act(disp_ctrl);
if (ret)
goto err;
/* Stop DC */
writel(CTRL_MODE_STOP << CTRL_MODE_SHIFT, &disp_ctrl->cmd.disp_cmd);
ret = tegra_dc_sor_general_act(disp_ctrl);
if (ret)
goto err;
tegra_dc_sor_restore_win_and_raster(disp_ctrl, dc_reg_ctx);
writel(dc_int_mask, &disp_ctrl->cmd.int_mask);
return 0;
err:
debug("%s: ret=%d\n", __func__, ret);
return ret;
}
static int tegra_sor_set_backlight(struct udevice *dev, int percent)
{
struct tegra_dc_sor_data *priv = dev_get_priv(dev);
int ret;
ret = panel_enable_backlight(priv->panel);
if (ret) {
debug("sor: Cannot enable panel backlight\n");
return ret;
}
return 0;
}
static int tegra_sor_of_to_plat(struct udevice *dev)
{
struct tegra_dc_sor_data *priv = dev_get_priv(dev);
int ret;
priv->base = dev_read_addr_ptr(dev);
priv->pmc_base = (void *)syscon_get_first_range(TEGRA_SYSCON_PMC);
if (IS_ERR(priv->pmc_base))
return PTR_ERR(priv->pmc_base);
ret = uclass_get_device_by_phandle(UCLASS_PANEL, dev, "nvidia,panel",
&priv->panel);
if (ret) {
debug("%s: Cannot find panel for '%s' (ret=%d)\n", __func__,
dev->name, ret);
return ret;
}
return 0;
}
static const struct video_bridge_ops tegra_sor_ops = {
.set_backlight = tegra_sor_set_backlight,
};
static const struct udevice_id tegra_sor_ids[] = {
{ .compatible = "nvidia,tegra124-sor" },
{ }
};
U_BOOT_DRIVER(sor_tegra) = {
.name = "sor_tegra",
.id = UCLASS_VIDEO_BRIDGE,
.of_match = tegra_sor_ids,
.of_to_plat = tegra_sor_of_to_plat,
.ops = &tegra_sor_ops,
.priv_auto = sizeof(struct tegra_dc_sor_data),
};
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