cregit-Linux how code gets into the kernel

Release 4.7 drivers/gpu/drm/tegra/sor.c

/*
 * Copyright (C) 2013 NVIDIA Corporation
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */

#include <linux/clk.h>
#include <linux/debugfs.h>
#include <linux/gpio.h>
#include <linux/io.h>
#include <linux/of_device.h>
#include <linux/platform_device.h>
#include <linux/regulator/consumer.h>
#include <linux/reset.h>

#include <soc/tegra/pmc.h>

#include <drm/drm_atomic_helper.h>
#include <drm/drm_dp_helper.h>
#include <drm/drm_panel.h>

#include "dc.h"
#include "drm.h"
#include "sor.h"


#define SOR_REKEY 0x38


struct tegra_sor_hdmi_settings {
	
unsigned long frequency;

	
u8 vcocap;
	
u8 ichpmp;
	
u8 loadadj;
	
u8 termadj;
	
u8 tx_pu;
	
u8 bg_vref;

	
u8 drive_current[4];
	
u8 preemphasis[4];
};

#if 1

static const struct tegra_sor_hdmi_settings tegra210_sor_hdmi_defaults[] = {
	{
		.frequency = 54000000,
		.vcocap = 0x0,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x10,
		.bg_vref = 0x8,
		.drive_current = { 0x33, 0x3a, 0x3a, 0x3a },
		.preemphasis = { 0x00, 0x00, 0x00, 0x00 },
        }, {
		.frequency = 75000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x40,
		.bg_vref = 0x8,
		.drive_current = { 0x33, 0x3a, 0x3a, 0x3a },
		.preemphasis = { 0x00, 0x00, 0x00, 0x00 },
        }, {
		.frequency = 150000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x66,
		.bg_vref = 0x8,
		.drive_current = { 0x33, 0x3a, 0x3a, 0x3a },
		.preemphasis = { 0x00, 0x00, 0x00, 0x00 },
        }, {
		.frequency = 300000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x66,
		.bg_vref = 0xa,
		.drive_current = { 0x33, 0x3f, 0x3f, 0x3f },
		.preemphasis = { 0x00, 0x17, 0x17, 0x17 },
        }, {
		.frequency = 600000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x66,
		.bg_vref = 0x8,
		.drive_current = { 0x33, 0x3f, 0x3f, 0x3f },
		.preemphasis = { 0x00, 0x00, 0x00, 0x00 },
        },
};
#else

static const struct tegra_sor_hdmi_settings tegra210_sor_hdmi_defaults[] = {
	{
		.frequency = 75000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x40,
		.bg_vref = 0x8,
		.drive_current = { 0x29, 0x29, 0x29, 0x29 },
		.preemphasis = { 0x00, 0x00, 0x00, 0x00 },
        }, {
		.frequency = 150000000,
		.vcocap = 0x3,
		.ichpmp = 0x1,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x66,
		.bg_vref = 0x8,
		.drive_current = { 0x30, 0x37, 0x37, 0x37 },
		.preemphasis = { 0x01, 0x02, 0x02, 0x02 },
        }, {
		.frequency = 300000000,
		.vcocap = 0x3,
		.ichpmp = 0x6,
		.loadadj = 0x3,
		.termadj = 0x9,
		.tx_pu = 0x66,
		.bg_vref = 0xf,
		.drive_current = { 0x30, 0x37, 0x37, 0x37 },
		.preemphasis = { 0x10, 0x3e, 0x3e, 0x3e },
        }, {
		.frequency = 600000000,
		.vcocap = 0x3,
		.ichpmp = 0xa,
		.loadadj = 0x3,
		.termadj = 0xb,
		.tx_pu = 0x66,
		.bg_vref = 0xe,
		.drive_current = { 0x35, 0x3e, 0x3e, 0x3e },
		.preemphasis = { 0x02, 0x3f, 0x3f, 0x3f },
        },
};
#endif


struct tegra_sor_soc {
	
bool supports_edp;
	
bool supports_lvds;
	
bool supports_hdmi;
	
bool supports_dp;

	
const struct tegra_sor_hdmi_settings *settings;
	
unsigned int num_settings;
};

struct tegra_sor;


struct tegra_sor_ops {
	
const char *name;
	
int (*probe)(struct tegra_sor *sor);
	
int (*remove)(struct tegra_sor *sor);
};


struct tegra_sor {
	
struct host1x_client client;
	
struct tegra_output output;
	
struct device *dev;

	
const struct tegra_sor_soc *soc;
	
void __iomem *regs;

	
struct reset_control *rst;
	
struct clk *clk_parent;
	
struct clk *clk_safe;
	
struct clk *clk_dp;
	
struct clk *clk;

	
struct drm_dp_aux *aux;

	
struct drm_info_list *debugfs_files;
	
struct drm_minor *minor;
	
struct dentry *debugfs;

	
const struct tegra_sor_ops *ops;

	/* for HDMI 2.0 */
	
struct tegra_sor_hdmi_settings *settings;
	
unsigned int num_settings;

	
struct regulator *avdd_io_supply;
	
struct regulator *vdd_pll_supply;
	
struct regulator *hdmi_supply;
};


struct tegra_sor_config {
	
u32 bits_per_pixel;

	
u32 active_polarity;
	
u32 active_count;
	
u32 tu_size;
	
u32 active_frac;
	
u32 watermark;

	
u32 hblank_symbols;
	
u32 vblank_symbols;
};


static inline struct tegra_sor * host1x_client_to_sor(struct host1x_client *client) { return container_of(client, struct tegra_sor, client); }

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static inline struct tegra_sor *to_sor(struct tegra_output *output) { return container_of(output, struct tegra_sor, output); }

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static inline u32 tegra_sor_readl(struct tegra_sor *sor, unsigned long offset) { return readl(sor->regs + (offset << 2)); }

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static inline void tegra_sor_writel(struct tegra_sor *sor, u32 value, unsigned long offset) { writel(value, sor->regs + (offset << 2)); }

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static int tegra_sor_dp_train_fast(struct tegra_sor *sor, struct drm_dp_link *link) { unsigned int i; u8 pattern; u32 value; int err; /* setup lane parameters */ value = SOR_LANE_DRIVE_CURRENT_LANE3(0x40) | SOR_LANE_DRIVE_CURRENT_LANE2(0x40) | SOR_LANE_DRIVE_CURRENT_LANE1(0x40) | SOR_LANE_DRIVE_CURRENT_LANE0(0x40); tegra_sor_writel(sor, value, SOR_LANE_DRIVE_CURRENT0); value = SOR_LANE_PREEMPHASIS_LANE3(0x0f) | SOR_LANE_PREEMPHASIS_LANE2(0x0f) | SOR_LANE_PREEMPHASIS_LANE1(0x0f) | SOR_LANE_PREEMPHASIS_LANE0(0x0f); tegra_sor_writel(sor, value, SOR_LANE_PREEMPHASIS0); value = SOR_LANE_POSTCURSOR_LANE3(0x00) | SOR_LANE_POSTCURSOR_LANE2(0x00) | SOR_LANE_POSTCURSOR_LANE1(0x00) | SOR_LANE_POSTCURSOR_LANE0(0x00); tegra_sor_writel(sor, value, SOR_LANE_POSTCURSOR0); /* disable LVDS mode */ tegra_sor_writel(sor, 0, SOR_LVDS); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_TX_PU_ENABLE; value &= ~SOR_DP_PADCTL_TX_PU_MASK; value |= SOR_DP_PADCTL_TX_PU(2); /* XXX: don't hardcode? */ tegra_sor_writel(sor, value, SOR_DP_PADCTL0); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_CM_TXD_3 | SOR_DP_PADCTL_CM_TXD_2 | SOR_DP_PADCTL_CM_TXD_1 | SOR_DP_PADCTL_CM_TXD_0; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); usleep_range(10, 100); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~(SOR_DP_PADCTL_CM_TXD_3 | SOR_DP_PADCTL_CM_TXD_2 | SOR_DP_PADCTL_CM_TXD_1 | SOR_DP_PADCTL_CM_TXD_0); tegra_sor_writel(sor, value, SOR_DP_PADCTL0); err = drm_dp_aux_prepare(sor->aux, DP_SET_ANSI_8B10B); if (err < 0) return err; for (i = 0, value = 0; i < link->num_lanes; i++) { unsigned long lane = SOR_DP_TPG_CHANNEL_CODING | SOR_DP_TPG_SCRAMBLER_NONE | SOR_DP_TPG_PATTERN_TRAIN1; value = (value << 8) | lane; } tegra_sor_writel(sor, value, SOR_DP_TPG); pattern = DP_TRAINING_PATTERN_1; err = drm_dp_aux_train(sor->aux, link, pattern); if (err < 0) return err; value = tegra_sor_readl(sor, SOR_DP_SPARE0); value |= SOR_DP_SPARE_SEQ_ENABLE; value &= ~SOR_DP_SPARE_PANEL_INTERNAL; value |= SOR_DP_SPARE_MACRO_SOR_CLK; tegra_sor_writel(sor, value, SOR_DP_SPARE0); for (i = 0, value = 0; i < link->num_lanes; i++) { unsigned long lane = SOR_DP_TPG_CHANNEL_CODING | SOR_DP_TPG_SCRAMBLER_NONE | SOR_DP_TPG_PATTERN_TRAIN2; value = (value << 8) | lane; } tegra_sor_writel(sor, value, SOR_DP_TPG); pattern = DP_LINK_SCRAMBLING_DISABLE | DP_TRAINING_PATTERN_2; err = drm_dp_aux_train(sor->aux, link, pattern); if (err < 0) return err; for (i = 0, value = 0; i < link->num_lanes; i++) { unsigned long lane = SOR_DP_TPG_CHANNEL_CODING | SOR_DP_TPG_SCRAMBLER_GALIOS | SOR_DP_TPG_PATTERN_NONE; value = (value << 8) | lane; } tegra_sor_writel(sor, value, SOR_DP_TPG); pattern = DP_TRAINING_PATTERN_DISABLE; err = drm_dp_aux_train(sor->aux, link, pattern); if (err < 0) return err; return 0; }

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static void tegra_sor_dp_term_calibrate(struct tegra_sor *sor) { u32 mask = 0x08, adj = 0, value; /* enable pad calibration logic */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); value = tegra_sor_readl(sor, SOR_PLL1); value |= SOR_PLL1_TMDS_TERM; tegra_sor_writel(sor, value, SOR_PLL1); while (mask) { adj |= mask; value = tegra_sor_readl(sor, SOR_PLL1); value &= ~SOR_PLL1_TMDS_TERMADJ_MASK; value |= SOR_PLL1_TMDS_TERMADJ(adj); tegra_sor_writel(sor, value, SOR_PLL1); usleep_range(100, 200); value = tegra_sor_readl(sor, SOR_PLL1); if (value & SOR_PLL1_TERM_COMPOUT) adj &= ~mask; mask >>= 1; } value = tegra_sor_readl(sor, SOR_PLL1); value &= ~SOR_PLL1_TMDS_TERMADJ_MASK; value |= SOR_PLL1_TMDS_TERMADJ(adj); tegra_sor_writel(sor, value, SOR_PLL1); /* disable pad calibration logic */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); }

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static void tegra_sor_super_update(struct tegra_sor *sor) { tegra_sor_writel(sor, 0, SOR_SUPER_STATE0); tegra_sor_writel(sor, 1, SOR_SUPER_STATE0); tegra_sor_writel(sor, 0, SOR_SUPER_STATE0); }

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static void tegra_sor_update(struct tegra_sor *sor) { tegra_sor_writel(sor, 0, SOR_STATE0); tegra_sor_writel(sor, 1, SOR_STATE0); tegra_sor_writel(sor, 0, SOR_STATE0); }

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static int tegra_sor_setup_pwm(struct tegra_sor *sor, unsigned long timeout) { u32 value; value = tegra_sor_readl(sor, SOR_PWM_DIV); value &= ~SOR_PWM_DIV_MASK; value |= 0x400; /* period */ tegra_sor_writel(sor, value, SOR_PWM_DIV); value = tegra_sor_readl(sor, SOR_PWM_CTL); value &= ~SOR_PWM_CTL_DUTY_CYCLE_MASK; value |= 0x400; /* duty cycle */ value &= ~SOR_PWM_CTL_CLK_SEL; /* clock source: PCLK */ value |= SOR_PWM_CTL_TRIGGER; tegra_sor_writel(sor, value, SOR_PWM_CTL); timeout = jiffies + msecs_to_jiffies(timeout); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_PWM_CTL); if ((value & SOR_PWM_CTL_TRIGGER) == 0) return 0; usleep_range(25, 100); } return -ETIMEDOUT; }

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static int tegra_sor_attach(struct tegra_sor *sor) { unsigned long value, timeout; /* wake up in normal mode */ value = tegra_sor_readl(sor, SOR_SUPER_STATE1); value |= SOR_SUPER_STATE_HEAD_MODE_AWAKE; value |= SOR_SUPER_STATE_MODE_NORMAL; tegra_sor_writel(sor, value, SOR_SUPER_STATE1); tegra_sor_super_update(sor); /* attach */ value = tegra_sor_readl(sor, SOR_SUPER_STATE1); value |= SOR_SUPER_STATE_ATTACHED; tegra_sor_writel(sor, value, SOR_SUPER_STATE1); tegra_sor_super_update(sor); timeout = jiffies + msecs_to_jiffies(250); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_TEST); if ((value & SOR_TEST_ATTACHED) != 0) return 0; usleep_range(25, 100); } return -ETIMEDOUT; }

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static int tegra_sor_wakeup(struct tegra_sor *sor) { unsigned long value, timeout; timeout = jiffies + msecs_to_jiffies(250); /* wait for head to wake up */ while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_TEST); value &= SOR_TEST_HEAD_MODE_MASK; if (value == SOR_TEST_HEAD_MODE_AWAKE) return 0; usleep_range(25, 100); } return -ETIMEDOUT; }

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static int tegra_sor_power_up(struct tegra_sor *sor, unsigned long timeout) { u32 value; value = tegra_sor_readl(sor, SOR_PWR); value |= SOR_PWR_TRIGGER | SOR_PWR_NORMAL_STATE_PU; tegra_sor_writel(sor, value, SOR_PWR); timeout = jiffies + msecs_to_jiffies(timeout); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_PWR); if ((value & SOR_PWR_TRIGGER) == 0) return 0; usleep_range(25, 100); } return -ETIMEDOUT; }

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struct tegra_sor_params { /* number of link clocks per line */ unsigned int num_clocks; /* ratio between input and output */ u64 ratio; /* precision factor */ u64 precision; unsigned int active_polarity; unsigned int active_count; unsigned int active_frac; unsigned int tu_size; unsigned int error; };
static int tegra_sor_compute_params(struct tegra_sor *sor, struct tegra_sor_params *params, unsigned int tu_size) { u64 active_sym, active_count, frac, approx; u32 active_polarity, active_frac = 0; const u64 f = params->precision; s64 error; active_sym = params->ratio * tu_size; active_count = div_u64(active_sym, f) * f; frac = active_sym - active_count; /* fraction < 0.5 */ if (frac >= (f / 2)) { active_polarity = 1; frac = f - frac; } else { active_polarity = 0; } if (frac != 0) { frac = div_u64(f * f, frac); /* 1/fraction */ if (frac <= (15 * f)) { active_frac = div_u64(frac, f); /* round up */ if (active_polarity) active_frac++; } else { active_frac = active_polarity ? 1 : 15; } } if (active_frac == 1) active_polarity = 0; if (active_polarity == 1) { if (active_frac) { approx = active_count + (active_frac * (f - 1)) * f; approx = div_u64(approx, active_frac * f); } else { approx = active_count + f; } } else { if (active_frac) approx = active_count + div_u64(f, active_frac); else approx = active_count; } error = div_s64(active_sym - approx, tu_size); error *= params->num_clocks; if (error <= 0 && abs(error) < params->error) { params->active_count = div_u64(active_count, f); params->active_polarity = active_polarity; params->active_frac = active_frac; params->error = abs(error); params->tu_size = tu_size; if (error == 0) return true; } return false; }

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static int tegra_sor_calc_config(struct tegra_sor *sor, const struct drm_display_mode *mode, struct tegra_sor_config *config, struct drm_dp_link *link) { const u64 f = 100000, link_rate = link->rate * 1000; const u64 pclk = mode->clock * 1000; u64 input, output, watermark, num; struct tegra_sor_params params; u32 num_syms_per_line; unsigned int i; if (!link_rate || !link->num_lanes || !pclk || !config->bits_per_pixel) return -EINVAL; output = link_rate * 8 * link->num_lanes; input = pclk * config->bits_per_pixel; if (input >= output) return -ERANGE; memset(&params, 0, sizeof(params)); params.ratio = div64_u64(input * f, output); params.num_clocks = div_u64(link_rate * mode->hdisplay, pclk); params.precision = f; params.error = 64 * f; params.tu_size = 64; for (i = params.tu_size; i >= 32; i--) if (tegra_sor_compute_params(sor, &params, i)) break; if (params.active_frac == 0) { config->active_polarity = 0; config->active_count = params.active_count; if (!params.active_polarity) config->active_count--; config->tu_size = params.tu_size; config->active_frac = 1; } else { config->active_polarity = params.active_polarity; config->active_count = params.active_count; config->active_frac = params.active_frac; config->tu_size = params.tu_size; } dev_dbg(sor->dev, "polarity: %d active count: %d tu size: %d active frac: %d\n", config->active_polarity, config->active_count, config->tu_size, config->active_frac); watermark = params.ratio * config->tu_size * (f - params.ratio); watermark = div_u64(watermark, f); watermark = div_u64(watermark + params.error, f); config->watermark = watermark + (config->bits_per_pixel / 8) + 2; num_syms_per_line = (mode->hdisplay * config->bits_per_pixel) * (link->num_lanes * 8); if (config->watermark > 30) { config->watermark = 30; dev_err(sor->dev, "unable to compute TU size, forcing watermark to %u\n", config->watermark); } else if (config->watermark > num_syms_per_line) { config->watermark = num_syms_per_line; dev_err(sor->dev, "watermark too high, forcing to %u\n", config->watermark); } /* compute the number of symbols per horizontal blanking interval */ num = ((mode->htotal - mode->hdisplay) - 7) * link_rate; config->hblank_symbols = div_u64(num, pclk); if (link->capabilities & DP_LINK_CAP_ENHANCED_FRAMING) config->hblank_symbols -= 3; config->hblank_symbols -= 12 / link->num_lanes; /* compute the number of symbols per vertical blanking interval */ num = (mode->hdisplay - 25) * link_rate; config->vblank_symbols = div_u64(num, pclk); config->vblank_symbols -= 36 / link->num_lanes + 4; dev_dbg(sor->dev, "blank symbols: H:%u V:%u\n", config->hblank_symbols, config->vblank_symbols); return 0; }

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static int tegra_sor_detach(struct tegra_sor *sor) { unsigned long value, timeout; /* switch to safe mode */ value = tegra_sor_readl(sor, SOR_SUPER_STATE1); value &= ~SOR_SUPER_STATE_MODE_NORMAL; tegra_sor_writel(sor, value, SOR_SUPER_STATE1); tegra_sor_super_update(sor); timeout = jiffies + msecs_to_jiffies(250); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_PWR); if (value & SOR_PWR_MODE_SAFE) break; } if ((value & SOR_PWR_MODE_SAFE) == 0) return -ETIMEDOUT; /* go to sleep */ value = tegra_sor_readl(sor, SOR_SUPER_STATE1); value &= ~SOR_SUPER_STATE_HEAD_MODE_MASK; tegra_sor_writel(sor, value, SOR_SUPER_STATE1); tegra_sor_super_update(sor); /* detach */ value = tegra_sor_readl(sor, SOR_SUPER_STATE1); value &= ~SOR_SUPER_STATE_ATTACHED; tegra_sor_writel(sor, value, SOR_SUPER_STATE1); tegra_sor_super_update(sor); timeout = jiffies + msecs_to_jiffies(250); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_TEST); if ((value & SOR_TEST_ATTACHED) == 0) break; usleep_range(25, 100); } if ((value & SOR_TEST_ATTACHED) != 0) return -ETIMEDOUT; return 0; }

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static int tegra_sor_power_down(struct tegra_sor *sor) { unsigned long value, timeout; int err; value = tegra_sor_readl(sor, SOR_PWR); value &= ~SOR_PWR_NORMAL_STATE_PU; value |= SOR_PWR_TRIGGER; tegra_sor_writel(sor, value, SOR_PWR); timeout = jiffies + msecs_to_jiffies(250); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_PWR); if ((value & SOR_PWR_TRIGGER) == 0) return 0; usleep_range(25, 100); } if ((value & SOR_PWR_TRIGGER) != 0) return -ETIMEDOUT; err = clk_set_parent(sor->clk, sor->clk_safe); if (err < 0) dev_err(sor->dev, "failed to set safe parent clock: %d\n", err); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~(SOR_DP_PADCTL_PD_TXD_3 | SOR_DP_PADCTL_PD_TXD_0 | SOR_DP_PADCTL_PD_TXD_1 | SOR_DP_PADCTL_PD_TXD_2); tegra_sor_writel(sor, value, SOR_DP_PADCTL0); /* stop lane sequencer */ value = SOR_LANE_SEQ_CTL_TRIGGER | SOR_LANE_SEQ_CTL_SEQUENCE_UP | SOR_LANE_SEQ_CTL_POWER_STATE_DOWN; tegra_sor_writel(sor, value, SOR_LANE_SEQ_CTL); timeout = jiffies + msecs_to_jiffies(250); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_LANE_SEQ_CTL); if ((value & SOR_LANE_SEQ_CTL_TRIGGER) == 0) break; usleep_range(25, 100); } if ((value & SOR_LANE_SEQ_CTL_TRIGGER) != 0) return -ETIMEDOUT; value = tegra_sor_readl(sor, SOR_PLL2); value |= SOR_PLL2_PORT_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); value = tegra_sor_readl(sor, SOR_PLL0); value |= SOR_PLL0_VCOPD | SOR_PLL0_PWR; tegra_sor_writel(sor, value, SOR_PLL0); value = tegra_sor_readl(sor, SOR_PLL2); value |= SOR_PLL2_SEQ_PLLCAPPD; value |= SOR_PLL2_SEQ_PLLCAPPD_ENFORCE; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); return 0; }

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static int tegra_sor_crc_wait(struct tegra_sor *sor, unsigned long timeout) { u32 value; timeout = jiffies + msecs_to_jiffies(timeout); while (time_before(jiffies, timeout)) { value = tegra_sor_readl(sor, SOR_CRCA); if (value & SOR_CRCA_VALID) return 0; usleep_range(100, 200); } return -ETIMEDOUT; }

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static int tegra_sor_show_crc(struct seq_file *s, void *data) { struct drm_info_node *node = s->private; struct tegra_sor *sor = node->info_ent->data; struct drm_crtc *crtc = sor->output.encoder.crtc; struct drm_device *drm = node->minor->dev; int err = 0; u32 value; drm_modeset_lock_all(drm); if (!crtc || !crtc->state->active) { err = -EBUSY; goto unlock; } value = tegra_sor_readl(sor, SOR_STATE1); value &= ~SOR_STATE_ASY_CRC_MODE_MASK; tegra_sor_writel(sor, value, SOR_STATE1); value = tegra_sor_readl(sor, SOR_CRC_CNTRL); value |= SOR_CRC_CNTRL_ENABLE; tegra_sor_writel(sor, value, SOR_CRC_CNTRL); value = tegra_sor_readl(sor, SOR_TEST); value &= ~SOR_TEST_CRC_POST_SERIALIZE; tegra_sor_writel(sor, value, SOR_TEST); err = tegra_sor_crc_wait(sor, 100); if (err < 0) goto unlock; tegra_sor_writel(sor, SOR_CRCA_RESET, SOR_CRCA); value = tegra_sor_readl(sor, SOR_CRCB); seq_printf(s, "%08x\n", value); unlock: drm_modeset_unlock_all(drm); return err; }

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static int tegra_sor_show_regs(struct seq_file *s, void *data) { struct drm_info_node *node = s->private; struct tegra_sor *sor = node->info_ent->data; struct drm_crtc *crtc = sor->output.encoder.crtc; struct drm_device *drm = node->minor->dev; int err = 0; drm_modeset_lock_all(drm); if (!crtc || !crtc->state->active) { err = -EBUSY; goto unlock; } #define DUMP_REG(name) \ seq_printf(s, "%-38s %#05x %08x\n", #name, name, \ tegra_sor_readl(sor, name)) DUMP_REG(SOR_CTXSW); DUMP_REG(SOR_SUPER_STATE0); DUMP_REG(SOR_SUPER_STATE1); DUMP_REG(SOR_STATE0); DUMP_REG(SOR_STATE1); DUMP_REG(SOR_HEAD_STATE0(0)); DUMP_REG(SOR_HEAD_STATE0(1)); DUMP_REG(SOR_HEAD_STATE1(0)); DUMP_REG(SOR_HEAD_STATE1(1)); DUMP_REG(SOR_HEAD_STATE2(0)); DUMP_REG(SOR_HEAD_STATE2(1)); DUMP_REG(SOR_HEAD_STATE3(0)); DUMP_REG(SOR_HEAD_STATE3(1)); DUMP_REG(SOR_HEAD_STATE4(0)); DUMP_REG(SOR_HEAD_STATE4(1)); DUMP_REG(SOR_HEAD_STATE5(0)); DUMP_REG(SOR_HEAD_STATE5(1)); DUMP_REG(SOR_CRC_CNTRL); DUMP_REG(SOR_DP_DEBUG_MVID); DUMP_REG(SOR_CLK_CNTRL); DUMP_REG(SOR_CAP); DUMP_REG(SOR_PWR); DUMP_REG(SOR_TEST); DUMP_REG(SOR_PLL0); DUMP_REG(SOR_PLL1); DUMP_REG(SOR_PLL2); DUMP_REG(SOR_PLL3); DUMP_REG(SOR_CSTM); DUMP_REG(SOR_LVDS); DUMP_REG(SOR_CRCA); DUMP_REG(SOR_CRCB); DUMP_REG(SOR_BLANK); DUMP_REG(SOR_SEQ_CTL); DUMP_REG(SOR_LANE_SEQ_CTL); DUMP_REG(SOR_SEQ_INST(0)); DUMP_REG(SOR_SEQ_INST(1)); DUMP_REG(SOR_SEQ_INST(2)); DUMP_REG(SOR_SEQ_INST(3)); DUMP_REG(SOR_SEQ_INST(4)); DUMP_REG(SOR_SEQ_INST(5)); DUMP_REG(SOR_SEQ_INST(6)); DUMP_REG(SOR_SEQ_INST(7)); DUMP_REG(SOR_SEQ_INST(8)); DUMP_REG(SOR_SEQ_INST(9)); DUMP_REG(SOR_SEQ_INST(10)); DUMP_REG(SOR_SEQ_INST(11)); DUMP_REG(SOR_SEQ_INST(12)); DUMP_REG(SOR_SEQ_INST(13)); DUMP_REG(SOR_SEQ_INST(14)); DUMP_REG(SOR_SEQ_INST(15)); DUMP_REG(SOR_PWM_DIV); DUMP_REG(SOR_PWM_CTL); DUMP_REG(SOR_VCRC_A0); DUMP_REG(SOR_VCRC_A1); DUMP_REG(SOR_VCRC_B0); DUMP_REG(SOR_VCRC_B1); DUMP_REG(SOR_CCRC_A0); DUMP_REG(SOR_CCRC_A1); DUMP_REG(SOR_CCRC_B0); DUMP_REG(SOR_CCRC_B1); DUMP_REG(SOR_EDATA_A0); DUMP_REG(SOR_EDATA_A1); DUMP_REG(SOR_EDATA_B0); DUMP_REG(SOR_EDATA_B1); DUMP_REG(SOR_COUNT_A0); DUMP_REG(SOR_COUNT_A1); DUMP_REG(SOR_COUNT_B0); DUMP_REG(SOR_COUNT_B1); DUMP_REG(SOR_DEBUG_A0); DUMP_REG(SOR_DEBUG_A1); DUMP_REG(SOR_DEBUG_B0); DUMP_REG(SOR_DEBUG_B1); DUMP_REG(SOR_TRIG); DUMP_REG(SOR_MSCHECK); DUMP_REG(SOR_XBAR_CTRL); DUMP_REG(SOR_XBAR_POL); DUMP_REG(SOR_DP_LINKCTL0); DUMP_REG(SOR_DP_LINKCTL1); DUMP_REG(SOR_LANE_DRIVE_CURRENT0); DUMP_REG(SOR_LANE_DRIVE_CURRENT1); DUMP_REG(SOR_LANE4_DRIVE_CURRENT0); DUMP_REG(SOR_LANE4_DRIVE_CURRENT1); DUMP_REG(SOR_LANE_PREEMPHASIS0); DUMP_REG(SOR_LANE_PREEMPHASIS1); DUMP_REG(SOR_LANE4_PREEMPHASIS0); DUMP_REG(SOR_LANE4_PREEMPHASIS1); DUMP_REG(SOR_LANE_POSTCURSOR0); DUMP_REG(SOR_LANE_POSTCURSOR1); DUMP_REG(SOR_DP_CONFIG0); DUMP_REG(SOR_DP_CONFIG1); DUMP_REG(SOR_DP_MN0); DUMP_REG(SOR_DP_MN1); DUMP_REG(SOR_DP_PADCTL0); DUMP_REG(SOR_DP_PADCTL1); DUMP_REG(SOR_DP_DEBUG0); DUMP_REG(SOR_DP_DEBUG1); DUMP_REG(SOR_DP_SPARE0); DUMP_REG(SOR_DP_SPARE1); DUMP_REG(SOR_DP_AUDIO_CTRL); DUMP_REG(SOR_DP_AUDIO_HBLANK_SYMBOLS); DUMP_REG(SOR_DP_AUDIO_VBLANK_SYMBOLS); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_HEADER); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK0); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK1); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK2); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK3); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK4); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK5); DUMP_REG(SOR_DP_GENERIC_INFOFRAME_SUBPACK6); DUMP_REG(SOR_DP_TPG); DUMP_REG(SOR_DP_TPG_CONFIG); DUMP_REG(SOR_DP_LQ_CSTM0); DUMP_REG(SOR_DP_LQ_CSTM1); DUMP_REG(SOR_DP_LQ_CSTM2); #undef DUMP_REG unlock: drm_modeset_unlock_all(drm); return err; }

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static const struct drm_info_list debugfs_files[] = { { "crc", tegra_sor_show_crc, 0, NULL }, { "regs", tegra_sor_show_regs, 0, NULL }, };
static int tegra_sor_debugfs_init(struct tegra_sor *sor, struct drm_minor *minor) { const char *name = sor->soc->supports_dp ? "sor1" : "sor"; unsigned int i; int err; sor->debugfs = debugfs_create_dir(name, minor->debugfs_root); if (!sor->debugfs) return -ENOMEM; sor->debugfs_files = kmemdup(debugfs_files, sizeof(debugfs_files), GFP_KERNEL); if (!sor->debugfs_files) { err = -ENOMEM; goto remove; } for (i = 0; i < ARRAY_SIZE(debugfs_files); i++) sor->debugfs_files[i].data = sor; err = drm_debugfs_create_files(sor->debugfs_files, ARRAY_SIZE(debugfs_files), sor->debugfs, minor); if (err < 0) goto free; sor->minor = minor; return 0; free: kfree(sor->debugfs_files); sor->debugfs_files = NULL; remove: debugfs_remove_recursive(sor->debugfs); sor->debugfs = NULL; return err; }

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static void tegra_sor_debugfs_exit(struct tegra_sor *sor) { drm_debugfs_remove_files(sor->debugfs_files, ARRAY_SIZE(debugfs_files), sor->minor); sor->minor = NULL; kfree(sor->debugfs_files); sor->debugfs_files = NULL; debugfs_remove_recursive(sor->debugfs); sor->debugfs = NULL; }

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static enum drm_connector_status tegra_sor_connector_detect(struct drm_connector *connector, bool force) { struct tegra_output *output = connector_to_output(connector); struct tegra_sor *sor = to_sor(output); if (sor->aux) return drm_dp_aux_detect(sor->aux); return tegra_output_connector_detect(connector, force); }

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static const struct drm_connector_funcs tegra_sor_connector_funcs = { .dpms = drm_atomic_helper_connector_dpms, .reset = drm_atomic_helper_connector_reset, .detect = tegra_sor_connector_detect, .fill_modes = drm_helper_probe_single_connector_modes, .destroy = tegra_output_connector_destroy, .atomic_duplicate_state = drm_atomic_helper_connector_duplicate_state, .atomic_destroy_state = drm_atomic_helper_connector_destroy_state, };
static int tegra_sor_connector_get_modes(struct drm_connector *connector) { struct tegra_output *output = connector_to_output(connector); struct tegra_sor *sor = to_sor(output); int err; if (sor->aux) drm_dp_aux_enable(sor->aux); err = tegra_output_connector_get_modes(connector); if (sor->aux) drm_dp_aux_disable(sor->aux); return err; }

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static enum drm_mode_status tegra_sor_connector_mode_valid(struct drm_connector *connector, struct drm_display_mode *mode) { return MODE_OK; }

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static const struct drm_connector_helper_funcs tegra_sor_connector_helper_funcs = { .get_modes = tegra_sor_connector_get_modes, .mode_valid = tegra_sor_connector_mode_valid, .best_encoder = tegra_output_connector_best_encoder, }; static const struct drm_encoder_funcs tegra_sor_encoder_funcs = { .destroy = tegra_output_encoder_destroy, };
static void tegra_sor_edp_disable(struct drm_encoder *encoder) { struct tegra_output *output = encoder_to_output(encoder); struct tegra_dc *dc = to_tegra_dc(encoder->crtc); struct tegra_sor *sor = to_sor(output); u32 value; int err; if (output->panel) drm_panel_disable(output->panel); err = tegra_sor_detach(sor); if (err < 0) dev_err(sor->dev, "failed to detach SOR: %d\n", err); tegra_sor_writel(sor, 0, SOR_STATE1); tegra_sor_update(sor); /* * The following accesses registers of the display controller, so make * sure it's only executed when the output is attached to one. */ if (dc) { value = tegra_dc_readl(dc, DC_DISP_DISP_WIN_OPTIONS); value &= ~SOR_ENABLE; tegra_dc_writel(dc, value, DC_DISP_DISP_WIN_OPTIONS); tegra_dc_commit(dc); } err = tegra_sor_power_down(sor); if (err < 0) dev_err(sor->dev, "failed to power down SOR: %d\n", err); if (sor->aux) { err = drm_dp_aux_disable(sor->aux); if (err < 0) dev_err(sor->dev, "failed to disable DP: %d\n", err); } err = tegra_io_rail_power_off(TEGRA_IO_RAIL_LVDS); if (err < 0) dev_err(sor->dev, "failed to power off I/O rail: %d\n", err); if (output->panel) drm_panel_unprepare(output->panel); reset_control_assert(sor->rst); clk_disable_unprepare(sor->clk); }

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#if 0 static int calc_h_ref_to_sync(const struct drm_display_mode *mode, unsigned int *value) { unsigned int hfp, hsw, hbp, a = 0, b; hfp = mode->hsync_start - mode->hdisplay; hsw = mode->hsync_end - mode->hsync_start; hbp = mode->htotal - mode->hsync_end; pr_info("hfp: %u, hsw: %u, hbp: %u\n", hfp, hsw, hbp); b = hfp - 1; pr_info("a: %u, b: %u\n", a, b); pr_info("a + hsw + hbp = %u\n", a + hsw + hbp); if (a + hsw + hbp <= 11) { a = 1 + 11 - hsw - hbp; pr_info("a: %u\n", a); } if (a > b) return -EINVAL; if (hsw < 1) return -EINVAL; if (mode->hdisplay < 16) return -EINVAL; if (value) { if (b > a && a % 2) *value = a + 1; else *value = a; } return 0; } #endif
static void tegra_sor_edp_enable(struct drm_encoder *encoder) { struct drm_display_mode *mode = &encoder->crtc->state->adjusted_mode; struct tegra_output *output = encoder_to_output(encoder); struct tegra_dc *dc = to_tegra_dc(encoder->crtc); unsigned int vbe, vse, hbe, hse, vbs, hbs, i; struct tegra_sor *sor = to_sor(output); struct tegra_sor_config config; struct drm_dp_link link; u8 rate, lanes; int err = 0; u32 value; err = clk_prepare_enable(sor->clk); if (err < 0) dev_err(sor->dev, "failed to enable clock: %d\n", err); reset_control_deassert(sor->rst); if (output->panel) drm_panel_prepare(output->panel); err = drm_dp_aux_enable(sor->aux); if (err < 0) dev_err(sor->dev, "failed to enable DP: %d\n", err); err = drm_dp_link_probe(sor->aux, &link); if (err < 0) { dev_err(sor->dev, "failed to probe eDP link: %d\n", err); return; } err = clk_set_parent(sor->clk, sor->clk_safe); if (err < 0) dev_err(sor->dev, "failed to set safe parent clock: %d\n", err); memset(&config, 0, sizeof(config)); config.bits_per_pixel = output->connector.display_info.bpc * 3; err = tegra_sor_calc_config(sor, mode, &config, &link); if (err < 0) dev_err(sor->dev, "failed to compute link configuration: %d\n", err); value = tegra_sor_readl(sor, SOR_CLK_CNTRL); value &= ~SOR_CLK_CNTRL_DP_CLK_SEL_MASK; value |= SOR_CLK_CNTRL_DP_CLK_SEL_SINGLE_DPCLK; tegra_sor_writel(sor, value, SOR_CLK_CNTRL); value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_BANDGAP_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); value = tegra_sor_readl(sor, SOR_PLL3); value |= SOR_PLL3_PLL_VDD_MODE_3V3; tegra_sor_writel(sor, value, SOR_PLL3); value = SOR_PLL0_ICHPMP(0xf) | SOR_PLL0_VCOCAP_RST | SOR_PLL0_PLLREG_LEVEL_V45 | SOR_PLL0_RESISTOR_EXT; tegra_sor_writel(sor, value, SOR_PLL0); value = tegra_sor_readl(sor, SOR_PLL2); value |= SOR_PLL2_SEQ_PLLCAPPD; value &= ~SOR_PLL2_SEQ_PLLCAPPD_ENFORCE; value |= SOR_PLL2_LVDS_ENABLE; tegra_sor_writel(sor, value, SOR_PLL2); value = SOR_PLL1_TERM_COMPOUT | SOR_PLL1_TMDS_TERM; tegra_sor_writel(sor, value, SOR_PLL1); while (true) { value = tegra_sor_readl(sor, SOR_PLL2); if ((value & SOR_PLL2_SEQ_PLLCAPPD_ENFORCE) == 0) break; usleep_range(250, 1000); } value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_POWERDOWN_OVERRIDE; value &= ~SOR_PLL2_PORT_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); /* * power up */ /* set safe link bandwidth (1.62 Gbps) */ value = tegra_sor_readl(sor, SOR_CLK_CNTRL); value &= ~SOR_CLK_CNTRL_DP_LINK_SPEED_MASK; value |= SOR_CLK_CNTRL_DP_LINK_SPEED_G1_62; tegra_sor_writel(sor, value, SOR_CLK_CNTRL); /* step 1 */ value = tegra_sor_readl(sor, SOR_PLL2); value |= SOR_PLL2_SEQ_PLLCAPPD_ENFORCE | SOR_PLL2_PORT_POWERDOWN | SOR_PLL2_BANDGAP_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); value = tegra_sor_readl(sor, SOR_PLL0); value |= SOR_PLL0_VCOPD | SOR_PLL0_PWR; tegra_sor_writel(sor, value, SOR_PLL0); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); /* step 2 */ err = tegra_io_rail_power_on(TEGRA_IO_RAIL_LVDS); if (err < 0) dev_err(sor->dev, "failed to power on I/O rail: %d\n", err); usleep_range(5, 100); /* step 3 */ value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_BANDGAP_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); /* step 4 */ value = tegra_sor_readl(sor, SOR_PLL0); value &= ~SOR_PLL0_VCOPD; value &= ~SOR_PLL0_PWR; tegra_sor_writel(sor, value, SOR_PLL0); value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_SEQ_PLLCAPPD_ENFORCE; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(200, 1000); /* step 5 */ value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_PORT_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); /* switch to DP clock */ err = clk_set_parent(sor->clk, sor->clk_dp); if (err < 0) dev_err(sor->dev, "failed to set DP parent clock: %d\n", err); /* power DP lanes */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); if (link.num_lanes <= 2) value &= ~(SOR_DP_PADCTL_PD_TXD_3 | SOR_DP_PADCTL_PD_TXD_2); else value |= SOR_DP_PADCTL_PD_TXD_3 | SOR_DP_PADCTL_PD_TXD_2; if (link.num_lanes <= 1) value &= ~SOR_DP_PADCTL_PD_TXD_1; else value |= SOR_DP_PADCTL_PD_TXD_1; if (link.num_lanes == 0) value &= ~SOR_DP_PADCTL_PD_TXD_0; else value |= SOR_DP_PADCTL_PD_TXD_0; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); value = tegra_sor_readl(sor, SOR_DP_LINKCTL0); value &= ~SOR_DP_LINKCTL_LANE_COUNT_MASK; value |= SOR_DP_LINKCTL_LANE_COUNT(link.num_lanes); tegra_sor_writel(sor, value, SOR_DP_LINKCTL0); /* start lane sequencer */ value = SOR_LANE_SEQ_CTL_TRIGGER | SOR_LANE_SEQ_CTL_SEQUENCE_DOWN | SOR_LANE_SEQ_CTL_POWER_STATE_UP; tegra_sor_writel(sor, value, SOR_LANE_SEQ_CTL); while (true) { value = tegra_sor_readl(sor, SOR_LANE_SEQ_CTL); if ((value & SOR_LANE_SEQ_CTL_TRIGGER) == 0) break; usleep_range(250, 1000); } /* set link bandwidth */ value = tegra_sor_readl(sor, SOR_CLK_CNTRL); value &= ~SOR_CLK_CNTRL_DP_LINK_SPEED_MASK; value |= drm_dp_link_rate_to_bw_code(link.rate) << 2; tegra_sor_writel(sor, value, SOR_CLK_CNTRL); /* set linkctl */ value = tegra_sor_readl(sor, SOR_DP_LINKCTL0); value |= SOR_DP_LINKCTL_ENABLE; value &= ~SOR_DP_LINKCTL_TU_SIZE_MASK; value |= SOR_DP_LINKCTL_TU_SIZE(config.tu_size); value |= SOR_DP_LINKCTL_ENHANCED_FRAME; tegra_sor_writel(sor, value, SOR_DP_LINKCTL0); for (i = 0, value = 0; i < 4; i++) { unsigned long lane = SOR_DP_TPG_CHANNEL_CODING | SOR_DP_TPG_SCRAMBLER_GALIOS | SOR_DP_TPG_PATTERN_NONE; value = (value << 8) | lane; } tegra_sor_writel(sor, value, SOR_DP_TPG); value = tegra_sor_readl(sor, SOR_DP_CONFIG0); value &= ~SOR_DP_CONFIG_WATERMARK_MASK; value |= SOR_DP_CONFIG_WATERMARK(config.watermark); value &= ~SOR_DP_CONFIG_ACTIVE_SYM_COUNT_MASK; value |= SOR_DP_CONFIG_ACTIVE_SYM_COUNT(config.active_count); value &= ~SOR_DP_CONFIG_ACTIVE_SYM_FRAC_MASK; value |= SOR_DP_CONFIG_ACTIVE_SYM_FRAC(config.active_frac); if (config.active_polarity) value |= SOR_DP_CONFIG_ACTIVE_SYM_POLARITY; else value &= ~SOR_DP_CONFIG_ACTIVE_SYM_POLARITY; value |= SOR_DP_CONFIG_ACTIVE_SYM_ENABLE; value |= SOR_DP_CONFIG_DISPARITY_NEGATIVE; tegra_sor_writel(sor, value, SOR_DP_CONFIG0); value = tegra_sor_readl(sor, SOR_DP_AUDIO_HBLANK_SYMBOLS); value &= ~SOR_DP_AUDIO_HBLANK_SYMBOLS_MASK; value |= config.hblank_symbols & 0xffff; tegra_sor_writel(sor, value, SOR_DP_AUDIO_HBLANK_SYMBOLS); value = tegra_sor_readl(sor, SOR_DP_AUDIO_VBLANK_SYMBOLS); value &= ~SOR_DP_AUDIO_VBLANK_SYMBOLS_MASK; value |= config.vblank_symbols & 0xffff; tegra_sor_writel(sor, value, SOR_DP_AUDIO_VBLANK_SYMBOLS); /* enable pad calibration logic */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); err = drm_dp_link_probe(sor->aux, &link); if (err < 0) dev_err(sor->dev, "failed to probe eDP link: %d\n", err); err = drm_dp_link_power_up(sor->aux, &link); if (err < 0) dev_err(sor->dev, "failed to power up eDP link: %d\n", err); err = drm_dp_link_configure(sor->aux, &link); if (err < 0) dev_err(sor->dev, "failed to configure eDP link: %d\n", err); rate = drm_dp_link_rate_to_bw_code(link.rate); lanes = link.num_lanes; value = tegra_sor_readl(sor, SOR_CLK_CNTRL); value &= ~SOR_CLK_CNTRL_DP_LINK_SPEED_MASK; value |= SOR_CLK_CNTRL_DP_LINK_SPEED(rate); tegra_sor_writel(sor, value, SOR_CLK_CNTRL); value = tegra_sor_readl(sor, SOR_DP_LINKCTL0); value &= ~SOR_DP_LINKCTL_LANE_COUNT_MASK; value |= SOR_DP_LINKCTL_LANE_COUNT(lanes); if (link.capabilities & DP_LINK_CAP_ENHANCED_FRAMING) value |= SOR_DP_LINKCTL_ENHANCED_FRAME; tegra_sor_writel(sor, value, SOR_DP_LINKCTL0); /* disable training pattern generator */ for (i = 0; i < link.num_lanes; i++) { unsigned long lane = SOR_DP_TPG_CHANNEL_CODING | SOR_DP_TPG_SCRAMBLER_GALIOS | SOR_DP_TPG_PATTERN_NONE; value = (value << 8) | lane; } tegra_sor_writel(sor, value, SOR_DP_TPG); err = tegra_sor_dp_train_fast(sor, &link); if (err < 0) dev_err(sor->dev, "DP fast link training failed: %d\n", err); dev_dbg(sor->dev, "fast link training succeeded\n"); err = tegra_sor_power_up(sor, 250); if (err < 0) dev_err(sor->dev, "failed to power up SOR: %d\n", err); /* * configure panel (24bpp, vsync-, hsync-, DP-A protocol, complete * raster, associate with display controller) */ value = SOR_STATE_ASY_PROTOCOL_DP_A | SOR_STATE_ASY_CRC_MODE_COMPLETE | SOR_STATE_ASY_OWNER(dc->pipe + 1); if (mode->flags & DRM_MODE_FLAG_PHSYNC) value &= ~SOR_STATE_ASY_HSYNCPOL; if (mode->flags & DRM_MODE_FLAG_NHSYNC) value |= SOR_STATE_ASY_HSYNCPOL; if (mode->flags & DRM_MODE_FLAG_PVSYNC) value &= ~SOR_STATE_ASY_VSYNCPOL; if (mode->flags & DRM_MODE_FLAG_NVSYNC) value |= SOR_STATE_ASY_VSYNCPOL; switch (config.bits_per_pixel) { case 24: value |= SOR_STATE_ASY_PIXELDEPTH_BPP_24_444; break; case 18: value |= SOR_STATE_ASY_PIXELDEPTH_BPP_18_444; break; default: BUG(); break; } tegra_sor_writel(sor, value, SOR_STATE1); /* * TODO: The video timing programming below doesn't seem to match the * register definitions. */ value = ((mode->vtotal & 0x7fff) << 16) | (mode->htotal & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE1(dc->pipe)); vse = mode->vsync_end - mode->vsync_start - 1; hse = mode->hsync_end - mode->hsync_start - 1; value = ((vse & 0x7fff) << 16) | (hse & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE2(dc->pipe)); vbe = vse + (mode->vsync_start - mode->vdisplay); hbe = hse + (mode->hsync_start - mode->hdisplay); value = ((vbe & 0x7fff) << 16) | (hbe & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE3(dc->pipe)); vbs = vbe + mode->vdisplay; hbs = hbe + mode->hdisplay; value = ((vbs & 0x7fff) << 16) | (hbs & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE4(dc->pipe)); tegra_sor_writel(sor, 0x1, SOR_HEAD_STATE5(dc->pipe)); /* CSTM (LVDS, link A/B, upper) */ value = SOR_CSTM_LVDS | SOR_CSTM_LINK_ACT_A | SOR_CSTM_LINK_ACT_B | SOR_CSTM_UPPER; tegra_sor_writel(sor, value, SOR_CSTM); /* PWM setup */ err = tegra_sor_setup_pwm(sor, 250); if (err < 0) dev_err(sor->dev, "failed to setup PWM: %d\n", err); tegra_sor_update(sor); value = tegra_dc_readl(dc, DC_DISP_DISP_WIN_OPTIONS); value |= SOR_ENABLE; tegra_dc_writel(dc, value, DC_DISP_DISP_WIN_OPTIONS); tegra_dc_commit(dc); err = tegra_sor_attach(sor); if (err < 0) dev_err(sor->dev, "failed to attach SOR: %d\n", err); err = tegra_sor_wakeup(sor); if (err < 0) dev_err(sor->dev, "failed to enable DC: %d\n", err); if (output->panel) drm_panel_enable(output->panel); }

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static int tegra_sor_encoder_atomic_check(struct drm_encoder *encoder, struct drm_crtc_state *crtc_state, struct drm_connector_state *conn_state) { struct tegra_output *output = encoder_to_output(encoder); struct tegra_dc *dc = to_tegra_dc(conn_state->crtc); unsigned long pclk = crtc_state->mode.clock * 1000; struct tegra_sor *sor = to_sor(output); int err; err = tegra_dc_state_setup_clock(dc, crtc_state, sor->clk_parent, pclk, 0); if (err < 0) { dev_err(output->dev, "failed to setup CRTC state: %d\n", err); return err; } return 0; }

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static const struct drm_encoder_helper_funcs tegra_sor_edp_helpers = { .disable = tegra_sor_edp_disable, .enable = tegra_sor_edp_enable, .atomic_check = tegra_sor_encoder_atomic_check, };
static inline u32 tegra_sor_hdmi_subpack(const u8 *ptr, size_t size) { u32 value = 0; size_t i; for (i = size; i > 0; i--) value = (value << 8) | ptr[i - 1]; return value; }

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static void tegra_sor_hdmi_write_infopack(struct tegra_sor *sor, const void *data, size_t size) { const u8 *ptr = data; unsigned long offset; size_t i, j; u32 value; switch (ptr[0]) { case HDMI_INFOFRAME_TYPE_AVI: offset = SOR_HDMI_AVI_INFOFRAME_HEADER; break; case HDMI_INFOFRAME_TYPE_AUDIO: offset = SOR_HDMI_AUDIO_INFOFRAME_HEADER; break; case HDMI_INFOFRAME_TYPE_VENDOR: offset = SOR_HDMI_VSI_INFOFRAME_HEADER; break; default: dev_err(sor->dev, "unsupported infoframe type: %02x\n", ptr[0]); return; } value = INFOFRAME_HEADER_TYPE(ptr[0]) | INFOFRAME_HEADER_VERSION(ptr[1]) | INFOFRAME_HEADER_LEN(ptr[2]); tegra_sor_writel(sor, value, offset); offset++; /* * Each subpack contains 7 bytes, divided into: * - subpack_low: bytes 0 - 3 * - subpack_high: bytes 4 - 6 (with byte 7 padded to 0x00) */ for (i = 3, j = 0; i < size; i += 7, j += 8) { size_t rem = size - i, num = min_t(size_t, rem, 4); value = tegra_sor_hdmi_subpack(&ptr[i], num); tegra_sor_writel(sor, value, offset++); num = min_t(size_t, rem - num, 3); value = tegra_sor_hdmi_subpack(&ptr[i + 4], num); tegra_sor_writel(sor, value, offset++); } }

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static int tegra_sor_hdmi_setup_avi_infoframe(struct tegra_sor *sor, const struct drm_display_mode *mode) { u8 buffer[HDMI_INFOFRAME_SIZE(AVI)]; struct hdmi_avi_infoframe frame; u32 value; int err; /* disable AVI infoframe */ value = tegra_sor_readl(sor, SOR_HDMI_AVI_INFOFRAME_CTRL); value &= ~INFOFRAME_CTRL_SINGLE; value &= ~INFOFRAME_CTRL_OTHER; value &= ~INFOFRAME_CTRL_ENABLE; tegra_sor_writel(sor, value, SOR_HDMI_AVI_INFOFRAME_CTRL); err = drm_hdmi_avi_infoframe_from_display_mode(&frame, mode); if (err < 0) { dev_err(sor->dev, "failed to setup AVI infoframe: %d\n", err); return err; } err = hdmi_avi_infoframe_pack(&frame, buffer, sizeof(buffer)); if (err < 0) { dev_err(sor->dev, "failed to pack AVI infoframe: %d\n", err); return err; } tegra_sor_hdmi_write_infopack(sor, buffer, err); /* enable AVI infoframe */ value = tegra_sor_readl(sor, SOR_HDMI_AVI_INFOFRAME_CTRL); value |= INFOFRAME_CTRL_CHECKSUM_ENABLE; value |= INFOFRAME_CTRL_ENABLE; tegra_sor_writel(sor, value, SOR_HDMI_AVI_INFOFRAME_CTRL); return 0; }

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static void tegra_sor_hdmi_disable_audio_infoframe(struct tegra_sor *sor) { u32 value; value = tegra_sor_readl(sor, SOR_HDMI_AUDIO_INFOFRAME_CTRL); value &= ~INFOFRAME_CTRL_ENABLE; tegra_sor_writel(sor, value, SOR_HDMI_AUDIO_INFOFRAME_CTRL); }

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static struct tegra_sor_hdmi_settings * tegra_sor_hdmi_find_settings(struct tegra_sor *sor, unsigned long frequency) { unsigned int i; for (i = 0; i < sor->num_settings; i++) if (frequency <= sor->settings[i].frequency) return &sor->settings[i]; return NULL; }

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static void tegra_sor_hdmi_disable(struct drm_encoder *encoder) { struct tegra_output *output = encoder_to_output(encoder); struct tegra_dc *dc = to_tegra_dc(encoder->crtc); struct tegra_sor *sor = to_sor(output); u32 value; int err; err = tegra_sor_detach(sor); if (err < 0) dev_err(sor->dev, "failed to detach SOR: %d\n", err); tegra_sor_writel(sor, 0, SOR_STATE1); tegra_sor_update(sor); /* disable display to SOR clock */ value = tegra_dc_readl(dc, DC_DISP_DISP_WIN_OPTIONS); value &= ~SOR1_TIMING_CYA; value &= ~SOR1_ENABLE; tegra_dc_writel(dc, value, DC_DISP_DISP_WIN_OPTIONS); tegra_dc_commit(dc); err = tegra_sor_power_down(sor); if (err < 0) dev_err(sor->dev, "failed to power down SOR: %d\n", err); err = tegra_io_rail_power_off(TEGRA_IO_RAIL_HDMI); if (err < 0) dev_err(sor->dev, "failed to power off HDMI rail: %d\n", err); reset_control_assert(sor->rst); usleep_range(1000, 2000); clk_disable_unprepare(sor->clk); }

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static void tegra_sor_hdmi_enable(struct drm_encoder *encoder) { struct tegra_output *output = encoder_to_output(encoder); unsigned int h_ref_to_sync = 1, pulse_start, max_ac; struct tegra_dc *dc = to_tegra_dc(encoder->crtc); unsigned int vbe, vse, hbe, hse, vbs, hbs, div; struct tegra_sor_hdmi_settings *settings; struct tegra_sor *sor = to_sor(output); struct drm_display_mode *mode; struct drm_display_info *info; u32 value; int err; mode = &encoder->crtc->state->adjusted_mode; info = &output->connector.display_info; err = clk_prepare_enable(sor->clk); if (err < 0) dev_err(sor->dev, "failed to enable clock: %d\n", err); usleep_range(1000, 2000); reset_control_deassert(sor->rst); err = clk_set_parent(sor->clk, sor->clk_safe); if (err < 0) dev_err(sor->dev, "failed to set safe parent clock: %d\n", err); div = clk_get_rate(sor->clk) / 1000000 * 4; err = tegra_io_rail_power_on(TEGRA_IO_RAIL_HDMI); if (err < 0) dev_err(sor->dev, "failed to power on HDMI rail: %d\n", err); usleep_range(20, 100); value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_BANDGAP_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); value = tegra_sor_readl(sor, SOR_PLL3); value &= ~SOR_PLL3_PLL_VDD_MODE_3V3; tegra_sor_writel(sor, value, SOR_PLL3); value = tegra_sor_readl(sor, SOR_PLL0); value &= ~SOR_PLL0_VCOPD; value &= ~SOR_PLL0_PWR; tegra_sor_writel(sor, value, SOR_PLL0); value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_SEQ_PLLCAPPD_ENFORCE; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(200, 400); value = tegra_sor_readl(sor, SOR_PLL2); value &= ~SOR_PLL2_POWERDOWN_OVERRIDE; value &= ~SOR_PLL2_PORT_POWERDOWN; tegra_sor_writel(sor, value, SOR_PLL2); usleep_range(20, 100); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_PD_TXD_3 | SOR_DP_PADCTL_PD_TXD_0 | SOR_DP_PADCTL_PD_TXD_1 | SOR_DP_PADCTL_PD_TXD_2; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); while (true) { value = tegra_sor_readl(sor, SOR_LANE_SEQ_CTL); if ((value & SOR_LANE_SEQ_CTL_STATE_BUSY) == 0) break; usleep_range(250, 1000); } value = SOR_LANE_SEQ_CTL_TRIGGER | SOR_LANE_SEQ_CTL_SEQUENCE_DOWN | SOR_LANE_SEQ_CTL_POWER_STATE_UP | SOR_LANE_SEQ_CTL_DELAY(5); tegra_sor_writel(sor, value, SOR_LANE_SEQ_CTL); while (true) { value = tegra_sor_readl(sor, SOR_LANE_SEQ_CTL); if ((value & SOR_LANE_SEQ_CTL_TRIGGER) == 0) break; usleep_range(250, 1000); } value = tegra_sor_readl(sor, SOR_CLK_CNTRL); value &= ~SOR_CLK_CNTRL_DP_LINK_SPEED_MASK; value &= ~SOR_CLK_CNTRL_DP_CLK_SEL_MASK; if (mode->clock < 340000) value |= SOR_CLK_CNTRL_DP_LINK_SPEED_G2_70; else value |= SOR_CLK_CNTRL_DP_LINK_SPEED_G5_40; value |= SOR_CLK_CNTRL_DP_CLK_SEL_SINGLE_PCLK; tegra_sor_writel(sor, value, SOR_CLK_CNTRL); value = tegra_sor_readl(sor, SOR_DP_SPARE0); value |= SOR_DP_SPARE_DISP_VIDEO_PREAMBLE; value &= ~SOR_DP_SPARE_PANEL_INTERNAL; value |= SOR_DP_SPARE_SEQ_ENABLE; tegra_sor_writel(sor, value, SOR_DP_SPARE0); value = SOR_SEQ_CTL_PU_PC(0) | SOR_SEQ_CTL_PU_PC_ALT(0) | SOR_SEQ_CTL_PD_PC(8) | SOR_SEQ_CTL_PD_PC_ALT(8); tegra_sor_writel(sor, value, SOR_SEQ_CTL); value = SOR_SEQ_INST_DRIVE_PWM_OUT_LO | SOR_SEQ_INST_HALT | SOR_SEQ_INST_WAIT_VSYNC | SOR_SEQ_INST_WAIT(1); tegra_sor_writel(sor, value, SOR_SEQ_INST(0)); tegra_sor_writel(sor, value, SOR_SEQ_INST(8)); /* program the reference clock */ value = SOR_REFCLK_DIV_INT(div) | SOR_REFCLK_DIV_FRAC(div); tegra_sor_writel(sor, value, SOR_REFCLK); /* XXX don't hardcode */ value = SOR_XBAR_CTRL_LINK1_XSEL(4, 4) | SOR_XBAR_CTRL_LINK1_XSEL(3, 3) | SOR_XBAR_CTRL_LINK1_XSEL(2, 2) | SOR_XBAR_CTRL_LINK1_XSEL(1, 1) | SOR_XBAR_CTRL_LINK1_XSEL(0, 0) | SOR_XBAR_CTRL_LINK0_XSEL(4, 4) | SOR_XBAR_CTRL_LINK0_XSEL(3, 3) | SOR_XBAR_CTRL_LINK0_XSEL(2, 0) | SOR_XBAR_CTRL_LINK0_XSEL(1, 1) | SOR_XBAR_CTRL_LINK0_XSEL(0, 2); tegra_sor_writel(sor, value, SOR_XBAR_CTRL); tegra_sor_writel(sor, 0x00000000, SOR_XBAR_POL); err = clk_set_parent(sor->clk, sor->clk_parent); if (err < 0) dev_err(sor->dev, "failed to set parent clock: %d\n", err); value = SOR_INPUT_CONTROL_HDMI_SRC_SELECT(dc->pipe); /* XXX is this the proper check? */ if (mode->clock < 75000) value |= SOR_INPUT_CONTROL_ARM_VIDEO_RANGE_LIMITED; tegra_sor_writel(sor, value, SOR_INPUT_CONTROL); max_ac = ((mode->htotal - mode->hdisplay) - SOR_REKEY - 18) / 32; value = SOR_HDMI_CTRL_ENABLE | SOR_HDMI_CTRL_MAX_AC_PACKET(max_ac) | SOR_HDMI_CTRL_AUDIO_LAYOUT | SOR_HDMI_CTRL_REKEY(SOR_REKEY); tegra_sor_writel(sor, value, SOR_HDMI_CTRL); /* H_PULSE2 setup */ pulse_start = h_ref_to_sync + (mode->hsync_end - mode->hsync_start) + (mode->htotal - mode->hsync_end) - 10; value = PULSE_LAST_END_A | PULSE_QUAL_VACTIVE | PULSE_POLARITY_HIGH | PULSE_MODE_NORMAL; tegra_dc_writel(dc, value, DC_DISP_H_PULSE2_CONTROL); value = PULSE_END(pulse_start + 8) | PULSE_START(pulse_start); tegra_dc_writel(dc, value, DC_DISP_H_PULSE2_POSITION_A); value = tegra_dc_readl(dc, DC_DISP_DISP_SIGNAL_OPTIONS0); value |= H_PULSE2_ENABLE; tegra_dc_writel(dc, value, DC_DISP_DISP_SIGNAL_OPTIONS0); /* infoframe setup */ err = tegra_sor_hdmi_setup_avi_infoframe(sor, mode); if (err < 0) dev_err(sor->dev, "failed to setup AVI infoframe: %d\n", err); /* XXX HDMI audio support not implemented yet */ tegra_sor_hdmi_disable_audio_infoframe(sor); /* use single TMDS protocol */ value = tegra_sor_readl(sor, SOR_STATE1); value &= ~SOR_STATE_ASY_PROTOCOL_MASK; value |= SOR_STATE_ASY_PROTOCOL_SINGLE_TMDS_A; tegra_sor_writel(sor, value, SOR_STATE1); /* power up pad calibration */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); /* production settings */ settings = tegra_sor_hdmi_find_settings(sor, mode->clock * 1000); if (!settings) { dev_err(sor->dev, "no settings for pixel clock %d Hz\n", mode->clock * 1000); return; } value = tegra_sor_readl(sor, SOR_PLL0); value &= ~SOR_PLL0_ICHPMP_MASK; value &= ~SOR_PLL0_VCOCAP_MASK; value |= SOR_PLL0_ICHPMP(settings->ichpmp); value |= SOR_PLL0_VCOCAP(settings->vcocap); tegra_sor_writel(sor, value, SOR_PLL0); tegra_sor_dp_term_calibrate(sor); value = tegra_sor_readl(sor, SOR_PLL1); value &= ~SOR_PLL1_LOADADJ_MASK; value |= SOR_PLL1_LOADADJ(settings->loadadj); tegra_sor_writel(sor, value, SOR_PLL1); value = tegra_sor_readl(sor, SOR_PLL3); value &= ~SOR_PLL3_BG_VREF_LEVEL_MASK; value |= SOR_PLL3_BG_VREF_LEVEL(settings->bg_vref); tegra_sor_writel(sor, value, SOR_PLL3); value = settings->drive_current[0] << 24 | settings->drive_current[1] << 16 | settings->drive_current[2] << 8 | settings->drive_current[3] << 0; tegra_sor_writel(sor, value, SOR_LANE_DRIVE_CURRENT0); value = settings->preemphasis[0] << 24 | settings->preemphasis[1] << 16 | settings->preemphasis[2] << 8 | settings->preemphasis[3] << 0; tegra_sor_writel(sor, value, SOR_LANE_PREEMPHASIS0); value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value &= ~SOR_DP_PADCTL_TX_PU_MASK; value |= SOR_DP_PADCTL_TX_PU_ENABLE; value |= SOR_DP_PADCTL_TX_PU(settings->tx_pu); tegra_sor_writel(sor, value, SOR_DP_PADCTL0); /* power down pad calibration */ value = tegra_sor_readl(sor, SOR_DP_PADCTL0); value |= SOR_DP_PADCTL_PAD_CAL_PD; tegra_sor_writel(sor, value, SOR_DP_PADCTL0); /* miscellaneous display controller settings */ value = VSYNC_H_POSITION(1); tegra_dc_writel(dc, value, DC_DISP_DISP_TIMING_OPTIONS); value = tegra_dc_readl(dc, DC_DISP_DISP_COLOR_CONTROL); value &= ~DITHER_CONTROL_MASK; value &= ~BASE_COLOR_SIZE_MASK; switch (info->bpc) { case 6: value |= BASE_COLOR_SIZE_666; break; case 8: value |= BASE_COLOR_SIZE_888; break; default: WARN(1, "%u bits-per-color not supported\n", info->bpc); break; } tegra_dc_writel(dc, value, DC_DISP_DISP_COLOR_CONTROL); err = tegra_sor_power_up(sor, 250); if (err < 0) dev_err(sor->dev, "failed to power up SOR: %d\n", err); /* configure mode */ value = tegra_sor_readl(sor, SOR_STATE1); value &= ~SOR_STATE_ASY_PIXELDEPTH_MASK; value &= ~SOR_STATE_ASY_CRC_MODE_MASK; value &= ~SOR_STATE_ASY_OWNER_MASK; value |= SOR_STATE_ASY_CRC_MODE_COMPLETE | SOR_STATE_ASY_OWNER(dc->pipe + 1); if (mode->flags & DRM_MODE_FLAG_PHSYNC) value &= ~SOR_STATE_ASY_HSYNCPOL; if (mode->flags & DRM_MODE_FLAG_NHSYNC) value |= SOR_STATE_ASY_HSYNCPOL; if (mode->flags & DRM_MODE_FLAG_PVSYNC) value &= ~SOR_STATE_ASY_VSYNCPOL; if (mode->flags & DRM_MODE_FLAG_NVSYNC) value |= SOR_STATE_ASY_VSYNCPOL; switch (info->bpc) { case 8: value |= SOR_STATE_ASY_PIXELDEPTH_BPP_24_444; break; case 6: value |= SOR_STATE_ASY_PIXELDEPTH_BPP_18_444; break; default: BUG(); break; } tegra_sor_writel(sor, value, SOR_STATE1); value = tegra_sor_readl(sor, SOR_HEAD_STATE0(dc->pipe)); value &= ~SOR_HEAD_STATE_RANGECOMPRESS_MASK; value &= ~SOR_HEAD_STATE_DYNRANGE_MASK; tegra_sor_writel(sor, value, SOR_HEAD_STATE0(dc->pipe)); value = tegra_sor_readl(sor, SOR_HEAD_STATE0(dc->pipe)); value &= ~SOR_HEAD_STATE_COLORSPACE_MASK; value |= SOR_HEAD_STATE_COLORSPACE_RGB; tegra_sor_writel(sor, value, SOR_HEAD_STATE0(dc->pipe)); /* * TODO: The video timing programming below doesn't seem to match the * register definitions. */ value = ((mode->vtotal & 0x7fff) << 16) | (mode->htotal & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE1(dc->pipe)); /* sync end = sync width - 1 */ vse = mode->vsync_end - mode->vsync_start - 1; hse = mode->hsync_end - mode->hsync_start - 1; value = ((vse & 0x7fff) << 16) | (hse & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE2(dc->pipe)); /* blank end = sync end + back porch */ vbe = vse + (mode->vtotal - mode->vsync_end); hbe = hse + (mode->htotal - mode->hsync_end); value = ((vbe & 0x7fff) << 16) | (hbe & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE3(dc->pipe)); /* blank start = blank end + active */ vbs = vbe + mode->vdisplay; hbs = hbe + mode->hdisplay; value = ((vbs & 0x7fff) << 16) | (hbs & 0x7fff); tegra_sor_writel(sor, value, SOR_HEAD_STATE4(dc->pipe)); tegra_sor_writel(sor, 0x1, SOR_HEAD_STATE5(dc->pipe)); tegra_sor_update(sor); err = tegra_sor_attach(sor); if (err < 0) dev_err(sor->dev, "failed to attach SOR: %d\n", err); /* enable display to SOR clock and generate HDMI preamble */ value = tegra_dc_readl(dc, DC_DISP_DISP_WIN_OPTIONS); value |= SOR1_ENABLE | SOR1_TIMING_CYA; tegra_dc_writel(dc, value, DC_DISP_DISP_WIN_OPTIONS); tegra_dc_commit(dc); err = tegra_sor_wakeup(sor); if (err < 0) dev_err(sor->dev, "failed to wakeup SOR: %d\n", err); }

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static const struct drm_encoder_helper_funcs tegra_sor_hdmi_helpers = { .disable = tegra_sor_hdmi_disable, .enable = tegra_sor_hdmi_enable, .atomic_check = tegra_sor_encoder_atomic_check, };
static int tegra_sor_init(struct host1x_client *client) { struct drm_device *drm = dev_get_drvdata(client->parent); const struct drm_encoder_helper_funcs *helpers = NULL; struct tegra_sor *sor = host1x_client_to_sor(client); int connector = DRM_MODE_CONNECTOR_Unknown; int encoder = DRM_MODE_ENCODER_NONE; int err; if (!sor->aux) { if (sor->soc->supports_hdmi) { connector = DRM_MODE_CONNECTOR_HDMIA; encoder = DRM_MODE_ENCODER_TMDS; helpers = &tegra_sor_hdmi_helpers; } else if (sor->soc->supports_lvds) { connector = DRM_MODE_CONNECTOR_LVDS; encoder = DRM_MODE_ENCODER_LVDS; } } else { if (sor->soc->supports_edp) { connector = DRM_MODE_CONNECTOR_eDP; encoder = DRM_MODE_ENCODER_TMDS; helpers = &tegra_sor_edp_helpers; } else if (sor->soc->supports_dp) { connector = DRM_MODE_CONNECTOR_DisplayPort; encoder = DRM_MODE_ENCODER_TMDS; } } sor->output.dev = sor->dev; drm_connector_init(drm, &sor->output.connector, &tegra_sor_connector_funcs, connector); drm_connector_helper_add(&sor->output.connector, &tegra_sor_connector_helper_funcs); sor->output.connector.dpms = DRM_MODE_DPMS_OFF; drm_encoder_init(drm, &sor->output.encoder, &tegra_sor_encoder_funcs, encoder, NULL); drm_encoder_helper_add(&sor->output.encoder, helpers); drm_mode_connector_attach_encoder(&sor->output.connector, &sor->output.encoder); drm_connector_register(&sor->output.connector); err = tegra_output_init(drm, &sor->output); if (err < 0) { dev_err(client->dev, "failed to initialize output: %d\n", err); return err; } sor->output.encoder.possible_crtcs = 0x3; if (IS_ENABLED(CONFIG_DEBUG_FS)) { err = tegra_sor_debugfs_init(sor, drm->primary); if (err < 0) dev_err(sor->dev, "debugfs setup failed: %d\n", err); } if (sor->aux) { err = drm_dp_aux_attach(sor->aux, &sor->output); if (err < 0) { dev_err(sor->dev, "failed to attach DP: %d\n", err); return err; } } /* * XXX: Remove this reset once proper hand-over from firmware to * kernel is possible. */ err = reset_control_assert(sor->rst); if (err < 0) { dev_err(sor->dev, "failed to assert SOR reset: %d\n", err); return err; } err = clk_prepare_enable(sor->clk); if (err < 0) { dev_err(sor->dev, "failed to enable clock: %d\n", err); return err; } usleep_range(1000, 3000); err = reset_control_deassert(sor->rst); if (err < 0) { dev_err(sor->dev, "failed to deassert SOR reset: %d\n", err); return err; } err = clk_prepare_enable(sor->clk_safe); if (err < 0) return err; err = clk_prepare_enable(sor->clk_dp); if (err < 0) return err; return 0; }

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Total523100.00%9100.00%


static int tegra_sor_exit(struct host1x_client *client) { struct tegra_sor *sor = host1x_client_to_sor(client); int err; tegra_output_exit(&sor->output); if (sor->aux) { err = drm_dp_aux_detach(sor->aux); if (err < 0) { dev_err(sor->dev, "failed to detach DP: %d\n", err); return err; } } clk_disable_unprepare(sor->clk_safe); clk_disable_unprepare(sor->clk_dp); clk_disable_unprepare(sor->clk); if (IS_ENABLED(CONFIG_DEBUG_FS)) tegra_sor_debugfs_exit(sor); return 0; }

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static const struct host1x_client_ops sor_client_ops = { .init = tegra_sor_init, .exit = tegra_sor_exit, }; static const struct tegra_sor_ops tegra_sor_edp_ops = { .name = "eDP", };
static int tegra_sor_hdmi_probe(struct tegra_sor *sor) { int err; sor->avdd_io_supply = devm_regulator_get(sor->dev, "avdd-io"); if (IS_ERR(sor->avdd_io_supply)) { dev_err(sor->dev, "cannot get AVDD I/O supply: %ld\n", PTR_ERR(sor->avdd_io_supply)); return PTR_ERR(sor->avdd_io_supply); } err = regulator_enable(sor->avdd_io_supply); if (err < 0) { dev_err(sor->dev, "failed to enable AVDD I/O supply: %d\n", err); return err; } sor->vdd_pll_supply = devm_regulator_get(sor->dev, "vdd-pll"); if (IS_ERR(sor->vdd_pll_supply)) { dev_err(sor->dev, "cannot get VDD PLL supply: %ld\n", PTR_ERR(sor->vdd_pll_supply)); return PTR_ERR(sor->vdd_pll_supply); } err = regulator_enable(sor->vdd_pll_supply); if (err < 0) { dev_err(sor->dev, "failed to enable VDD PLL supply: %d\n", err); return err; } sor->hdmi_supply = devm_regulator_get(sor->dev, "hdmi"); if (IS_ERR(sor->hdmi_supply)) { dev_err(sor->dev, "cannot get HDMI supply: %ld\n", PTR_ERR(sor->hdmi_supply)); return PTR_ERR(sor->hdmi_supply); } err = regulator_enable(sor->hdmi_supply); if (err < 0) { dev_err(sor->dev, "failed to enable HDMI supply: %d\n", err); return err; } return 0; }

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static int tegra_sor_hdmi_remove(struct tegra_sor *sor) { regulator_disable(sor->hdmi_supply); regulator_disable(sor->vdd_pll_supply); regulator_disable(sor->avdd_io_supply); return 0; }

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thierry redingthierry reding35100.00%4100.00%
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static const struct tegra_sor_ops tegra_sor_hdmi_ops = { .name = "HDMI", .probe = tegra_sor_hdmi_probe, .remove = tegra_sor_hdmi_remove, }; static const struct tegra_sor_soc tegra124_sor = { .supports_edp = true, .supports_lvds = true, .supports_hdmi = false, .supports_dp = false, }; static const struct tegra_sor_soc tegra210_sor = { .supports_edp = true, .supports_lvds = false, .supports_hdmi = false, .supports_dp = false, }; static const struct tegra_sor_soc tegra210_sor1 = { .supports_edp = false, .supports_lvds = false, .supports_hdmi = true, .supports_dp = true, .num_settings = ARRAY_SIZE(tegra210_sor_hdmi_defaults), .settings = tegra210_sor_hdmi_defaults, }; static const struct of_device_id tegra_sor_of_match[] = { { .compatible = "nvidia,tegra210-sor1", .data = &tegra210_sor1 }, { .compatible = "nvidia,tegra210-sor", .data = &tegra210_sor }, { .compatible = "nvidia,tegra124-sor", .data = &tegra124_sor }, { }, }; MODULE_DEVICE_TABLE(of, tegra_sor_of_match);
static int tegra_sor_probe(struct platform_device *pdev) { const struct of_device_id *match; struct device_node *np; struct tegra_sor *sor; struct resource *regs; int err; match = of_match_device(tegra_sor_of_match, &pdev->dev); sor = devm_kzalloc(&pdev->dev, sizeof(*sor), GFP_KERNEL); if (!sor) return -ENOMEM; sor->output.dev = sor->dev = &pdev->dev; sor->soc = match->data; sor->settings = devm_kmemdup(&pdev->dev, sor->soc->settings, sor->soc->num_settings * sizeof(*sor->settings), GFP_KERNEL); if (!sor->settings) return -ENOMEM; sor->num_settings = sor->soc->num_settings; np = of_parse_phandle(pdev->dev.of_node, "nvidia,dpaux", 0); if (np) { sor->aux = drm_dp_aux_find_by_of_node(np); of_node_put(np); if (!sor->aux) return -EPROBE_DEFER; } if (!sor->aux) { if (sor->soc->supports_hdmi) { sor->ops = &tegra_sor_hdmi_ops; } else if (sor->soc->supports_lvds) { dev_err(&pdev->dev, "LVDS not supported yet\n"); return -ENODEV; } else { dev_err(&pdev->dev, "unknown (non-DP) support\n"); return -ENODEV; } } else { if (sor->soc->supports_edp) { sor->ops = &tegra_sor_edp_ops; } else if (sor->soc->supports_dp) { dev_err(&pdev->dev, "DisplayPort not supported yet\n"); return -ENODEV; } else { dev_err(&pdev->dev, "unknown (DP) support\n"); return -ENODEV; } } err = tegra_output_probe(&sor->output); if (err < 0) { dev_err(&pdev->dev, "failed to probe output: %d\n", err); return err; } if (sor->ops && sor->ops->probe) { err = sor->ops->probe(sor); if (err < 0) { dev_err(&pdev->dev, "failed to probe %s: %d\n", sor->ops->name, err); goto output; } } regs = platform_get_resource(pdev, IORESOURCE_MEM, 0); sor->regs = devm_ioremap_resource(&pdev->dev, regs); if (IS_ERR(sor->regs)) { err = PTR_ERR(sor->regs); goto remove; } sor->rst = devm_reset_control_get(&pdev->dev, "sor"); if (IS_ERR(sor->rst)) { err = PTR_ERR(sor->rst); dev_err(&pdev->dev, "failed to get reset control: %d\n", err); goto remove; } sor->clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(sor->clk)) { err = PTR_ERR(sor->clk); dev_err(&pdev->dev, "failed to get module clock: %d\n", err); goto remove; } sor->clk_parent = devm_clk_get(&pdev->dev, "parent"); if (IS_ERR(sor->clk_parent)) { err = PTR_ERR(sor->clk_parent); dev_err(&pdev->dev, "failed to get parent clock: %d\n", err); goto remove; } sor->clk_safe = devm_clk_get(&pdev->dev, "safe"); if (IS_ERR(sor->clk_safe)) { err = PTR_ERR(sor->clk_safe); dev_err(&pdev->dev, "failed to get safe clock: %d\n", err); goto remove; } sor->clk_dp = devm_clk_get(&pdev->dev, "dp"); if (IS_ERR(sor->clk_dp)) { err = PTR_ERR(sor->clk_dp); dev_err(&pdev->dev, "failed to get DP clock: %d\n", err); goto remove; } INIT_LIST_HEAD(&sor->client.list); sor->client.ops = &sor_client_ops; sor->client.dev = &pdev->dev; err = host1x_client_register(&sor->client); if (err < 0) { dev_err(&pdev->dev, "failed to register host1x client: %d\n", err); goto remove; } platform_set_drvdata(pdev, sor); return 0; remove: if (sor->ops && sor->ops->remove) sor->ops->remove(sor); output: tegra_output_remove(&sor->output); return err; }

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Total817100.00%4100.00%


static int tegra_sor_remove(struct platform_device *pdev) { struct tegra_sor *sor = platform_get_drvdata(pdev); int err; err = host1x_client_unregister(&sor->client); if (err < 0) { dev_err(&pdev->dev, "failed to unregister host1x client: %d\n", err); return err; } if (sor->ops && sor->ops->remove) { err = sor->ops->remove(sor); if (err < 0) dev_err(&pdev->dev, "failed to remove SOR: %d\n", err); } tegra_output_remove(&sor->output); return 0; }

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thierry redingthierry reding111100.00%3100.00%
Total111100.00%3100.00%

struct platform_driver tegra_sor_driver = { .driver = { .name = "tegra-sor", .of_match_table = tegra_sor_of_match, }, .probe = tegra_sor_probe, .remove = tegra_sor_remove, };

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ville syrjalaville syrjala20.02%13.23%
andrew mortonandrew morton20.02%13.23%
dan carpenterdan carpenter20.02%13.23%
Total12415100.00%31100.00%
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