target/msm8952/target_display.c - kernel/lk - Gitiles

 /* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  *  * Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  *  * Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in
  *    the documentation and/or other materials provided with the
  *    distribution.
  *  * Neither the name of The Linux Foundation nor the names of its
  *    contributors may be used to endorse or promote products derived
  *    from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
  * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
  * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
  * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
  * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
  * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #include <debug.h>
 #include <string.h>
 #include <smem.h>
 #include <err.h>
 #include <msm_panel.h>
 #include <mipi_dsi.h>
 #include <pm8x41.h>
 #include <pm8x41_wled.h>
 #include <qpnp_wled.h>
 #include <qpnp_lcdb.h>
 #include <board.h>
 #include <mdp5.h>
 #include <scm.h>
 #include <regulator.h>
 #include <platform/clock.h>
 #include <platform/gpio.h>
 #include <platform/iomap.h>
 #include <target/display.h>
 #include <qtimer.h>
 #include <platform.h>
 #include <target.h>

 #include "include/panel.h"
 #include "include/display_resource.h"
 #include "gcdb_display.h"

 #define PWM_DUTY_US 13
 #define PWM_PERIOD_US 27

 #define TRULY_720P_VID_PANEL "truly_720p_video"
 #define TRULY_720P_CMD_PANEL "truly_720p_cmd"

 #define HDMI_ADV_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_adv7533_1080p:1:none:cfg:single_dsi"
 #define TRULY_VID_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_truly_720p_video:1:none:cfg:single_dsi"
 #define TRULY_CMD_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_truly_720p_cmd:1:none:cfg:single_dsi"

 /*---------------------------------------------------------------------------*/
 /* GPIO configuration                                                        */
 /*---------------------------------------------------------------------------*/
 static struct gpio_pin reset_gpio = {
   "msmgpio", 0, 3, 1, 0, 1
 };

 static struct gpio_pin enable_gpio = {
   "msmgpio", 90, 3, 1, 0, 1
 };

 static struct gpio_pin bkl_gpio = {
   "msmgpio", 91, 3, 1, 0, 1
 };

 static struct gpio_pin lcd_mode_gpio = {
   "msmgpio", 107, 3, 1, 0, 1
 };

 #define VCO_DELAY_USEC 1000
 #define GPIO_STATE_LOW 0
 #define GPIO_STATE_HIGH 2
 #define RESET_GPIO_SEQ_LEN 3
 #define PMIC_WLED_SLAVE_ID 3

 #define DSI0_BASE_ADJUST -0x4000
 #define DSI0_PHY_BASE_ADJUST -0x4100
 #define DSI0_PHY_PLL_BASE_ADJUST -0x3900
 #define DSI0_PHY_REGULATOR_BASE_ADJUST -0x3C00

 static void mdss_dsi_uniphy_pll_sw_reset_8952(uint32_t pll_base)
 {
 	writel(0x01, pll_base + 0x0068); /* PLL TEST CFG */
 	mdelay(1);
 	writel(0x00, pll_base + 0x0068); /* PLL TEST CFG */
 	mdelay(1);
 }

 static void dsi_pll_toggle_lock_detect_8952(uint32_t pll_base)
 {
 	writel(0x04, pll_base + 0x0064); /* LKDetect CFG2 */
 	udelay(1);
 	writel(0x05, pll_base + 0x0064); /* LKDetect CFG2 */
 	udelay(512);
 }

 static void dsi_pll_sw_reset_8952(uint32_t pll_base)
 {
 	writel(0x01, pll_base + 0x0068); /* PLL TEST CFG */
 	udelay(1);
 	writel(0x00, pll_base + 0x0068); /* PLL TEST CFG */
 	udelay(1);
 }

 static uint32_t dsi_pll_lock_status_8956(uint32_t pll_base)
 {
 	uint32_t counter, status;

 	status = readl(pll_base + 0x00c0) & 0x01;
 	for (counter = 0; counter < 5 && !status; counter++) {
 		udelay(100);
 		status = readl(pll_base + 0x00c0) & 0x01;
 	}

 	return status;
 }

 static uint32_t gf_1_dsi_pll_enable_sequence_8952(uint32_t pll_base)
 {
 	uint32_t rc;

 	dsi_pll_sw_reset_8952(pll_base);

 	/*
 	 * Add hardware recommended delays between register writes for
 	 * the updates to take effect. These delays are necessary for the
 	 * PLL to successfully lock
 	 */
 	writel(0x14, pll_base + 0x0070); /* CAL CFG1*/
 	writel(0x01, pll_base + 0x0020); /* GLB CFG */
 	writel(0x05, pll_base + 0x0020); /* GLB CFG */
 	udelay(3);
 	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
 	udelay(500);

 	dsi_pll_toggle_lock_detect_8952(pll_base);
 	rc = readl(pll_base + 0x00c0) & 0x01;

 	return rc;
 }

 static uint32_t gf_2_dsi_pll_enable_sequence_8952(uint32_t pll_base)
 {
 	uint32_t rc;

 	dsi_pll_sw_reset_8952(pll_base);

 	/*
 	 * Add hardware recommended delays between register writes for
 	 * the updates to take effect. These delays are necessary for the
 	 * PLL to successfully lock
 	 */
 	writel(0x04, pll_base + 0x0070); /* CAL CFG1*/
 	writel(0x01, pll_base + 0x0020); /* GLB CFG */
 	writel(0x05, pll_base + 0x0020); /* GLB CFG */
 	udelay(3);
 	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
 	udelay(500);

 	dsi_pll_toggle_lock_detect_8952(pll_base);
 	rc = readl(pll_base + 0x00c0) & 0x01;

 	return rc;
 }

 static uint32_t tsmc_dsi_pll_enable_sequence_8952(uint32_t pll_base)
 {
 	uint32_t rc;

 	dsi_pll_sw_reset_8952(pll_base);
 	/*
 	 * Add hardware recommended delays between register writes for
 	 * the updates to take effect. These delays are necessary for the
 	 * PLL to successfully lock
 	 */

 	writel(0x34, pll_base + 0x0070); /* CAL CFG1*/
 	writel(0x01, pll_base + 0x0020); /* GLB CFG */
 	writel(0x05, pll_base + 0x0020); /* GLB CFG */
 	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
 	udelay(500);

 	dsi_pll_toggle_lock_detect_8952(pll_base);
 	rc = readl(pll_base + 0x00c0) & 0x01;

 	return rc;
 }


 static uint32_t dsi_pll_enable_seq_8952(uint32_t pll_base)
 {
 	uint32_t pll_locked = 0;
 	uint32_t counter = 0;

 	do {
 		pll_locked = tsmc_dsi_pll_enable_sequence_8952(pll_base);

 		dprintf(SPEW, "TSMC pll locked status is %d\n", pll_locked);
 		++counter;
 	} while (!pll_locked && (counter < 3));

 	if(!pll_locked) {
 		counter = 0;
 		do {
 			pll_locked = gf_1_dsi_pll_enable_sequence_8952(pll_base);

 			dprintf(SPEW, "GF P1 pll locked status is %d\n", pll_locked);
 			++counter;
 		} while (!pll_locked && (counter < 3));
 	}

 	if(!pll_locked) {
 		counter = 0;
 		do {
 			pll_locked = gf_2_dsi_pll_enable_sequence_8952(pll_base);

 			dprintf(SPEW, "GF P2 pll locked status is %d\n", pll_locked);
 			++counter;
 		} while (!pll_locked && (counter < 3));
 	}

 	return pll_locked;
 }

 static uint32_t dsi_pll_enable_seq_8956(uint32_t pll_base)
 {
 	/*
 	 * PLL power up sequence
 	 * Add necessary delays recommended by h/w team
 	 */

 	/* Lock Detect setting */
 	writel(0x0d, pll_base + 0x0064); /* LKDetect CFG2 */
 	writel(0x34, pll_base + 0x0070); /* PLL CAL_CFG1 */
 	writel(0x10, pll_base + 0x005c); /* LKDetect CFG0 */
 	writel(0x1a, pll_base + 0x0060); /* LKDetect CFG1 */

 	writel(0x01, pll_base + 0x0020); /* GLB CFG */
 	udelay(300);
 	writel(0x05, pll_base + 0x0020); /* GLB CFG */
 	udelay(300);
 	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
 	udelay(300);
 	writel(0x07, pll_base + 0x0020); /* GLB CFG */
 	udelay(300);
 	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
 	udelay(1000);

 	return dsi_pll_lock_status_8956(pll_base);
 }

 static int msm8952_wled_backlight_ctrl(uint8_t enable)
 {
 	uint8_t slave_id = PMIC_WLED_SLAVE_ID;	/* pmi */

 	pm8x41_wled_config_slave_id(slave_id);
 	if (target_get_pmic() == PMIC_IS_PMI632) {
 		qpnp_lcdb_enable(enable);
 	}
 	else {
 		qpnp_wled_enable_backlight(enable);
 		qpnp_ibb_enable(enable);
 	}
 	return NO_ERROR;
 }

 static int pwm_backlight_ctrl(uint8_t enable)
 {
 	if (enable) {
 		pm_pwm_enable(false);
 		pm_pwm_config(PWM_DUTY_US, PWM_PERIOD_US);
 		pm_pwm_enable(true);
 	} else {
 		pm_pwm_enable(false);
 	}

 	return NO_ERROR;
 }

 int target_backlight_ctrl(struct backlight *bl, uint8_t enable)
 {
 	uint32_t ret = NO_ERROR;

 	if (bl->bl_interface_type == BL_DCS)
 		return ret;

 	if ((target_get_pmic() == PMIC_IS_PMI632) &&
 		(bl->bl_interface_type == BL_PWM)) {
 		ret = pwm_backlight_ctrl(enable);
 	} else {
 		ret = msm8952_wled_backlight_ctrl(enable);
 	}
 	return ret;
 }

 static int32_t mdss_dsi_pll_config(uint32_t pll_base, uint32_t ctl_base,
 		struct mdss_dsi_pll_config *pll_data)
 {
 	int32_t ret = 0;
 	if (!platform_is_msm8956())
 		mdss_dsi_uniphy_pll_sw_reset_8952(pll_base);
 	else
 		dsi_pll_sw_reset_8952(pll_base);
 	mdss_dsi_auto_pll_config(pll_base, ctl_base, pll_data);
 	if (platform_is_msm8956())
 		ret = dsi_pll_enable_seq_8956(pll_base);
 	else
 		ret = dsi_pll_enable_seq_8952(pll_base);

 	return ret;
 }

 int target_panel_clock(uint8_t enable, struct msm_panel_info *pinfo)
 {
 	int32_t ret = 0, flags;
 	struct mdss_dsi_pll_config *pll_data;
 	dprintf(SPEW, "target_panel_clock\n");

 	if (pinfo->dest == DISPLAY_2) {
 		flags = MMSS_DSI_CLKS_FLAG_DSI1;
 		if (pinfo->mipi.dual_dsi)
 			flags |= MMSS_DSI_CLKS_FLAG_DSI0;
 	} else {
 		flags = MMSS_DSI_CLKS_FLAG_DSI0;
 		if (pinfo->mipi.dual_dsi)
 			flags |= MMSS_DSI_CLKS_FLAG_DSI1;
 	}

 	pll_data = pinfo->mipi.dsi_pll_config;
 	pll_data->vco_delay = VCO_DELAY_USEC;

 	/* SSC parameters */
 	if (platform_is_msm8937() || platform_is_msm8917()) {
 		pll_data->ssc_en = true;
 		pll_data->is_center_spread = false;
 		pll_data->ssc_freq = 30000;
 		pll_data->ssc_ppm = 5000;
 	}

 	if (enable) {
 		mdp_gdsc_ctrl(enable);
 		mdss_bus_clocks_enable();
 		mdp_clock_enable();
 		ret = restore_secure_cfg(SECURE_DEVICE_MDSS);
 		if (ret) {
 			dprintf(CRITICAL,
 				"%s: Failed to restore MDP security configs",
 				__func__);
 			mdp_clock_disable();
 			mdss_bus_clocks_disable();
 			mdp_gdsc_ctrl(0);
 			return ret;
 		}

 		ret = mdss_dsi_pll_config(pinfo->mipi.pll_base,
 			pinfo->mipi.ctl_base, pll_data);
 		if (!ret)
 			dprintf(CRITICAL, "Not able to enable master pll\n");

 		if (platform_is_msm8956() && pinfo->mipi.dual_dsi &&
 			!platform_is_msm8976_v_1_1()) {
 				ret = mdss_dsi_pll_config(pinfo->mipi.spll_base,
 					pinfo->mipi.sctl_base, pll_data);
 			if (!ret)
 				dprintf(CRITICAL, "Not able to enable second pll\n");
 		}

 		gcc_dsi_clocks_enable(flags, pinfo->mipi.use_dsi1_pll,
 			pll_data->pclk_m, pll_data->pclk_n, pll_data->pclk_d);
 	} else if(!target_cont_splash_screen()) {
 		gcc_dsi_clocks_disable(flags);
 		mdp_clock_disable();
 		mdss_bus_clocks_disable();
 		mdp_gdsc_ctrl(enable);
 	}

 	return 0;
 }

 int target_panel_reset(uint8_t enable, struct panel_reset_sequence *resetseq,
 						struct msm_panel_info *pinfo)
 {
 	int ret = NO_ERROR;
 	uint32_t hw_id = board_hardware_id();
 	uint32_t hw_subtype = board_hardware_subtype();

 	if (platform_is_msm8956()) {
 		reset_gpio.pin_id = 25;
 		bkl_gpio.pin_id = 66;
 	} else if (platform_is_msm8937()) {
 		reset_gpio.pin_id = 60;
 		bkl_gpio.pin_id = 98;
 		enable_gpio.pin_id = 99;
 	} else if (platform_is_msm8917()) {
 		reset_gpio.pin_id = 60;
 		bkl_gpio.pin_id = 98;
 		pinfo->mipi.use_enable_gpio = 0;
 	} else if ((hw_id == HW_PLATFORM_QRD) &&
 		   (hw_subtype == HW_PLATFORM_SUBTYPE_POLARIS)) {
 		enable_gpio.pin_id = 19;
 	}

 	if (enable) {
 		if (pinfo->mipi.use_enable_gpio && !platform_is_msm8956()) {
 			gpio_tlmm_config(enable_gpio.pin_id, 0,
 				enable_gpio.pin_direction, enable_gpio.pin_pull,
 				enable_gpio.pin_strength,
 				enable_gpio.pin_state);

 			gpio_set_dir(enable_gpio.pin_id, 2);
 		}

 		gpio_tlmm_config(bkl_gpio.pin_id, 0,
 				bkl_gpio.pin_direction, bkl_gpio.pin_pull,
 				bkl_gpio.pin_strength, bkl_gpio.pin_state);

 		gpio_set_dir(bkl_gpio.pin_id, 2);

 		gpio_tlmm_config(reset_gpio.pin_id, 0,
 				reset_gpio.pin_direction, reset_gpio.pin_pull,
 				reset_gpio.pin_strength, reset_gpio.pin_state);

 		gpio_set_dir(reset_gpio.pin_id, 2);

 		/* reset */
 		for (int i = 0; i < RESET_GPIO_SEQ_LEN; i++) {
 			if (resetseq->pin_state[i] == GPIO_STATE_LOW)
 				gpio_set_dir(reset_gpio.pin_id, GPIO_STATE_LOW);
 			else
 				gpio_set_dir(reset_gpio.pin_id, GPIO_STATE_HIGH);
 			mdelay(resetseq->sleep[i]);
 		}

 		if (platform_is_msm8956()) {
 			gpio_tlmm_config(lcd_mode_gpio.pin_id, 0,
 				lcd_mode_gpio.pin_direction, lcd_mode_gpio.pin_pull,
 				lcd_mode_gpio.pin_strength, lcd_mode_gpio.pin_state);

 			if (pinfo->lcdc.split_display || pinfo->lcdc.dst_split)
 				gpio_set_dir(lcd_mode_gpio.pin_id, GPIO_STATE_LOW);
 			else
 				gpio_set_dir(lcd_mode_gpio.pin_id, GPIO_STATE_HIGH);
 		}
 	} else if(!target_cont_splash_screen()) {
 		gpio_set_dir(reset_gpio.pin_id, 0);
 		if (pinfo->mipi.use_enable_gpio && !platform_is_msm8956())
 			gpio_set_dir(enable_gpio.pin_id, 0);
 		if (platform_is_msm8956())
 			gpio_set_dir(lcd_mode_gpio.pin_id, 0);
 	}

 	return ret;
 }

 static int wled_init(struct msm_panel_info *pinfo)
 {
 	struct qpnp_wled_config_data config = {0};
 	struct labibb_desc *labibb;
 	int display_type = 0;
 	bool swire_control = 0;
 	bool wled_avdd_control = 0;
 	int rc = NO_ERROR;

 	labibb = pinfo->labibb;

 	if (labibb)
 		display_type = labibb->amoled_panel;

 	if (display_type) {
 		swire_control = labibb->swire_control;
 		wled_avdd_control = true;
 	} else {
 		swire_control = false;
 		wled_avdd_control = false;
 	}

 	config.display_type = display_type;
 	config.lab_init_volt = 4600000;	/* fixed, see pmi register */
 	config.ibb_init_volt = 1400000;	/* fixed, see pmi register */
 	config.lab_ibb_swire_control = swire_control;
 	config.wled_avdd_control = wled_avdd_control;

 	if(!swire_control) {
 		if (labibb && labibb->force_config) {
 			config.lab_min_volt = labibb->lab_min_volt;
 			config.lab_max_volt = labibb->lab_max_volt;
 			config.ibb_min_volt = labibb->ibb_min_volt;
 			config.ibb_max_volt = labibb->ibb_max_volt;
 			config.pwr_up_delay = labibb->pwr_up_delay;
 			config.pwr_down_delay = labibb->pwr_down_delay;
 			config.ibb_discharge_en = labibb->ibb_discharge_en;
 		} else {
 			/* default */
 			config.pwr_up_delay = 3;
 			config.pwr_down_delay =  3;
 			config.ibb_discharge_en = 1;
 			if (display_type) {	/* amoled */
 				config.lab_min_volt = 4600000;
 				config.lab_max_volt = 4600000;
 				config.ibb_min_volt = 4000000;
 				config.ibb_max_volt = 4000000;
 			} else { /* lcd */
 				config.lab_min_volt = 5500000;
 				config.lab_max_volt = 5500000;
 				config.ibb_min_volt = 5500000;
 				config.ibb_max_volt = 5500000;
 			}
 		}
 	}

 	dprintf(SPEW, "%s: %d %d %d %d %d %d %d %d %d %d\n", __func__,
 		config.display_type,
 		config.lab_min_volt, config.lab_max_volt,
 		config.ibb_min_volt, config.ibb_max_volt,
 		config.lab_init_volt, config.ibb_init_volt,
 		config.pwr_up_delay, config.pwr_down_delay,
 		config.ibb_discharge_en);

 	/* QPNP WLED init for display backlight */
 	pm8x41_wled_config_slave_id(PMIC_WLED_SLAVE_ID);

 	if (target_get_pmic() == PMIC_IS_PMI632)
 		rc = qpnp_lcdb_init(&config);
 	else
 		rc = qpnp_wled_init(&config);

 	return rc;
 }

 int target_dsi_phy_config(struct mdss_dsi_phy_ctrl *phy_db)
 {
 	memcpy(phy_db->regulator, panel_regulator_settings, REGULATOR_SIZE);
 	memcpy(phy_db->ctrl, panel_physical_ctrl, PHYSICAL_SIZE);
 	memcpy(phy_db->strength, panel_strength_ctrl, STRENGTH_SIZE);
 	memcpy(phy_db->bistCtrl, panel_bist_ctrl, BIST_SIZE);
 	memcpy(phy_db->laneCfg, panel_lane_config, LANE_SIZE);
 	return NO_ERROR;
 }

 int target_display_get_base_offset(uint32_t base)
 {
 	if(platform_is_msm8956() || platform_is_msm8937() ||
 			platform_is_msm8917()) {
 		if (base == MIPI_DSI0_BASE)
 			return DSI0_BASE_ADJUST;
 		else if (base == DSI0_PHY_BASE)
 			return DSI0_PHY_BASE_ADJUST;
 		else if (base == DSI0_PLL_BASE)
 			return DSI0_PHY_PLL_BASE_ADJUST;
 		else if (base == DSI0_REGULATOR_BASE)
 			return DSI0_PHY_REGULATOR_BASE_ADJUST;
 	}

 	return 0;
 }

 int target_ldo_ctrl(uint8_t enable, struct msm_panel_info *pinfo)
 {
 	int rc = 0;
 	uint32_t ldo_num = REG_LDO6 | REG_LDO17;

 	if (platform_is_msm8956())
 		ldo_num |= REG_LDO1;
 	else
 		ldo_num |= REG_LDO2;

 	if (enable) {
 		regulator_enable(ldo_num);
 		mdelay(10);
 		rc = wled_init(pinfo);
 		if (rc) {
 			dprintf(CRITICAL, "%s: wled init failed\n", __func__);
 			return rc;
 		}
 		if (target_get_pmic() == PMIC_IS_PMI632)
 			rc = qpnp_lcdb_enable(true);
 		else
 			rc = qpnp_ibb_enable(true); /*5V boost*/
 		if (rc) {
 			dprintf(CRITICAL, "%s: qpnp_ibb/lcdb failed\n", __func__);
 			return rc;
 		}
 		mdelay(50);
 	} else {
 		/*
 		 * LDO1, LDO2 and LDO6 are shared with other subsystems.
 		 * Do not disable them.
 		 */
 		regulator_disable(REG_LDO17);
 	}

 	return NO_ERROR;
 }

 bool target_display_panel_node(char *pbuf, uint16_t buf_size)
 {
 	int prefix_string_len = strlen(DISPLAY_CMDLINE_PREFIX);
 	bool ret = true;
 	struct oem_panel_data oem = mdss_dsi_get_oem_data();
 	uint32_t platform_subtype = board_hardware_subtype();
 	uint32_t platform = board_platform_id();

 	/* default to hdmi for apq iot */
 	if ((APQ8017 == platform) && ((HW_PLATFORM_SUBTYPE_SAP == platform_subtype) ||
 		(HW_PLATFORM_SUBTYPE_SAP_NOPMI == platform_subtype))) {
 		if (!strcmp(oem.panel, "")) {
 			if (buf_size < (prefix_string_len +
 				strlen(HDMI_ADV_PANEL_STRING))) {
 				dprintf(CRITICAL, "HDMI command line argument \
 					is greater than buffer size\n");
 				return false;
 			}
 			strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
 			buf_size -= prefix_string_len;
 			pbuf += prefix_string_len;
 			strlcpy(pbuf, HDMI_ADV_PANEL_STRING, buf_size);
 		} else if (!strcmp(oem.panel, TRULY_720P_VID_PANEL)) {
 			if (buf_size < (prefix_string_len +
 				strlen(TRULY_VID_PANEL_STRING))) {
 				dprintf(CRITICAL, "TRULY VIDEO command line \
 					argument is greater than \
 					buffer size\n");
 				return false;
 			}
 			strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
 			buf_size -= prefix_string_len;
 			pbuf += prefix_string_len;
 			strlcpy(pbuf, TRULY_VID_PANEL_STRING, buf_size);
 		} else if (!strcmp(oem.panel, TRULY_720P_CMD_PANEL)) {
 			if (buf_size < (prefix_string_len +
 				strlen(TRULY_CMD_PANEL_STRING))) {
 				dprintf(CRITICAL, "TRULY CMD command line argument \
 					argument is greater than \
 					buffer size\n");
 				return false;
 			}
 			strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
 			buf_size -= prefix_string_len;
 			pbuf += prefix_string_len;
 			strlcpy(pbuf, TRULY_CMD_PANEL_STRING, buf_size);
 		}
 	} else {
 		ret = gcdb_display_cmdline_arg(pbuf, buf_size);
 	}

 	return ret;
 }

 void target_display_init(const char *panel_name)
 {
 	struct oem_panel_data oem;
 	int32_t ret = 0;
 	uint32_t panel_loop = 0;
 	uint32_t platform_subtype = board_hardware_subtype();
 	uint32_t platform = board_platform_id();

 	set_panel_cmd_string(panel_name);
 	oem = mdss_dsi_get_oem_data();

 	if (!strcmp(oem.panel, NO_PANEL_CONFIG)
 		|| !strcmp(oem.panel, SIM_VIDEO_PANEL)
 		|| !strcmp(oem.panel, SIM_CMD_PANEL)
 		|| oem.skip) {
 		dprintf(INFO, "Selected panel: %s\nSkip panel configuration\n",
 			oem.panel);
 		oem.cont_splash = false;
 	}

 	if ((APQ8017 == platform) && ((HW_PLATFORM_SUBTYPE_SAP == platform_subtype) ||
 		(HW_PLATFORM_SUBTYPE_SAP_NOPMI == platform_subtype))) {
 		dprintf(INFO, "%s: Platform subtype %d\n",
 			__func__, platform_subtype);
 		return;
 	}

 	do {
 		target_force_cont_splash_disable(false);
 		ret = gcdb_display_init(oem.panel, MDP_REV_50, (void *)MIPI_FB_ADDR);
 		if (!ret || ret == ERR_NOT_SUPPORTED) {
 			break;
 		} else {
 			target_force_cont_splash_disable(true);
 			msm_display_off();
 		}
 	} while (++panel_loop <= oem_panel_max_auto_detect_panels());

 	if (!oem.cont_splash) {
 		dprintf(INFO, "Forcing continuous splash disable\n");
 		target_force_cont_splash_disable(true);
 	}
 }

 void target_display_shutdown(void)
 {
 	gcdb_display_shutdown();
 }
	/* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in
	* the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of The Linux Foundation nor the names of its
	* contributors may be used to endorse or promote products derived
	* from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
	* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
	* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
	* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
	* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
	* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
	* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#include <debug.h>
	#include <string.h>
	#include <smem.h>
	#include <err.h>
	#include <msm_panel.h>
	#include <mipi_dsi.h>
	#include <pm8x41.h>
	#include <pm8x41_wled.h>
	#include <qpnp_wled.h>
	#include <qpnp_lcdb.h>
	#include <board.h>
	#include <mdp5.h>
	#include <scm.h>
	#include <regulator.h>
	#include <platform/clock.h>
	#include <platform/gpio.h>
	#include <platform/iomap.h>
	#include <target/display.h>
	#include <qtimer.h>
	#include <platform.h>
	#include <target.h>

	#include "include/panel.h"
	#include "include/display_resource.h"
	#include "gcdb_display.h"

	#define PWM_DUTY_US 13
	#define PWM_PERIOD_US 27

	#define TRULY_720P_VID_PANEL "truly_720p_video"
	#define TRULY_720P_CMD_PANEL "truly_720p_cmd"

	#define HDMI_ADV_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_adv7533_1080p:1:none:cfg:single_dsi"
	#define TRULY_VID_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_truly_720p_video:1:none:cfg:single_dsi"
	#define TRULY_CMD_PANEL_STRING "1:dsi:0:qcom,mdss_dsi_truly_720p_cmd:1:none:cfg:single_dsi"

	/---------------------------------------------------------------------------/
	/* GPIO configuration */
	/---------------------------------------------------------------------------/
	static struct gpio_pin reset_gpio = {
	"msmgpio", 0, 3, 1, 0, 1
	};

	static struct gpio_pin enable_gpio = {
	"msmgpio", 90, 3, 1, 0, 1
	};

	static struct gpio_pin bkl_gpio = {
	"msmgpio", 91, 3, 1, 0, 1
	};

	static struct gpio_pin lcd_mode_gpio = {
	"msmgpio", 107, 3, 1, 0, 1
	};

	#define VCO_DELAY_USEC 1000
	#define GPIO_STATE_LOW 0
	#define GPIO_STATE_HIGH 2
	#define RESET_GPIO_SEQ_LEN 3
	#define PMIC_WLED_SLAVE_ID 3

	#define DSI0_BASE_ADJUST -0x4000
	#define DSI0_PHY_BASE_ADJUST -0x4100
	#define DSI0_PHY_PLL_BASE_ADJUST -0x3900
	#define DSI0_PHY_REGULATOR_BASE_ADJUST -0x3C00

	static void mdss_dsi_uniphy_pll_sw_reset_8952(uint32_t pll_base)
	{
	writel(0x01, pll_base + 0x0068); /* PLL TEST CFG */
	mdelay(1);
	writel(0x00, pll_base + 0x0068); /* PLL TEST CFG */
	mdelay(1);
	}

	static void dsi_pll_toggle_lock_detect_8952(uint32_t pll_base)
	{
	writel(0x04, pll_base + 0x0064); /* LKDetect CFG2 */
	udelay(1);
	writel(0x05, pll_base + 0x0064); /* LKDetect CFG2 */
	udelay(512);
	}

	static void dsi_pll_sw_reset_8952(uint32_t pll_base)
	{
	writel(0x01, pll_base + 0x0068); /* PLL TEST CFG */
	udelay(1);
	writel(0x00, pll_base + 0x0068); /* PLL TEST CFG */
	udelay(1);
	}

	static uint32_t dsi_pll_lock_status_8956(uint32_t pll_base)
	{
	uint32_t counter, status;

	status = readl(pll_base + 0x00c0) & 0x01;
	for (counter = 0; counter < 5 && !status; counter++) {
	udelay(100);
	status = readl(pll_base + 0x00c0) & 0x01;
	}

	return status;
	}

	static uint32_t gf_1_dsi_pll_enable_sequence_8952(uint32_t pll_base)
	{
	uint32_t rc;

	dsi_pll_sw_reset_8952(pll_base);

	/*
	* Add hardware recommended delays between register writes for
	* the updates to take effect. These delays are necessary for the
	* PLL to successfully lock
	*/
	writel(0x14, pll_base + 0x0070); /* CAL CFG1*/
	writel(0x01, pll_base + 0x0020); /* GLB CFG */
	writel(0x05, pll_base + 0x0020); /* GLB CFG */
	udelay(3);
	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
	udelay(500);

	dsi_pll_toggle_lock_detect_8952(pll_base);
	rc = readl(pll_base + 0x00c0) & 0x01;

	return rc;
	}

	static uint32_t gf_2_dsi_pll_enable_sequence_8952(uint32_t pll_base)
	{
	uint32_t rc;

	dsi_pll_sw_reset_8952(pll_base);

	/*
	* Add hardware recommended delays between register writes for
	* the updates to take effect. These delays are necessary for the
	* PLL to successfully lock
	*/
	writel(0x04, pll_base + 0x0070); /* CAL CFG1*/
	writel(0x01, pll_base + 0x0020); /* GLB CFG */
	writel(0x05, pll_base + 0x0020); /* GLB CFG */
	udelay(3);
	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
	udelay(500);

	dsi_pll_toggle_lock_detect_8952(pll_base);
	rc = readl(pll_base + 0x00c0) & 0x01;

	return rc;
	}

	static uint32_t tsmc_dsi_pll_enable_sequence_8952(uint32_t pll_base)
	{
	uint32_t rc;

	dsi_pll_sw_reset_8952(pll_base);
	/*
	* Add hardware recommended delays between register writes for
	* the updates to take effect. These delays are necessary for the
	* PLL to successfully lock
	*/

	writel(0x34, pll_base + 0x0070); /* CAL CFG1*/
	writel(0x01, pll_base + 0x0020); /* GLB CFG */
	writel(0x05, pll_base + 0x0020); /* GLB CFG */
	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
	udelay(500);

	dsi_pll_toggle_lock_detect_8952(pll_base);
	rc = readl(pll_base + 0x00c0) & 0x01;

	return rc;
	}


	static uint32_t dsi_pll_enable_seq_8952(uint32_t pll_base)
	{
	uint32_t pll_locked = 0;
	uint32_t counter = 0;

	do {
	pll_locked = tsmc_dsi_pll_enable_sequence_8952(pll_base);

	dprintf(SPEW, "TSMC pll locked status is %d\n", pll_locked);
	++counter;
	} while (!pll_locked && (counter < 3));

	if(!pll_locked) {
	counter = 0;
	do {
	pll_locked = gf_1_dsi_pll_enable_sequence_8952(pll_base);

	dprintf(SPEW, "GF P1 pll locked status is %d\n", pll_locked);
	++counter;
	} while (!pll_locked && (counter < 3));
	}

	if(!pll_locked) {
	counter = 0;
	do {
	pll_locked = gf_2_dsi_pll_enable_sequence_8952(pll_base);

	dprintf(SPEW, "GF P2 pll locked status is %d\n", pll_locked);
	++counter;
	} while (!pll_locked && (counter < 3));
	}

	return pll_locked;
	}

	static uint32_t dsi_pll_enable_seq_8956(uint32_t pll_base)
	{
	/*
	* PLL power up sequence
	* Add necessary delays recommended by h/w team
	*/

	/* Lock Detect setting */
	writel(0x0d, pll_base + 0x0064); /* LKDetect CFG2 */
	writel(0x34, pll_base + 0x0070); /* PLL CAL_CFG1 */
	writel(0x10, pll_base + 0x005c); /* LKDetect CFG0 */
	writel(0x1a, pll_base + 0x0060); /* LKDetect CFG1 */

	writel(0x01, pll_base + 0x0020); /* GLB CFG */
	udelay(300);
	writel(0x05, pll_base + 0x0020); /* GLB CFG */
	udelay(300);
	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
	udelay(300);
	writel(0x07, pll_base + 0x0020); /* GLB CFG */
	udelay(300);
	writel(0x0f, pll_base + 0x0020); /* GLB CFG */
	udelay(1000);

	return dsi_pll_lock_status_8956(pll_base);
	}

	static int msm8952_wled_backlight_ctrl(uint8_t enable)
	{
	uint8_t slave_id = PMIC_WLED_SLAVE_ID; /* pmi */

	pm8x41_wled_config_slave_id(slave_id);
	if (target_get_pmic() == PMIC_IS_PMI632) {
	qpnp_lcdb_enable(enable);
	}
	else {
	qpnp_wled_enable_backlight(enable);
	qpnp_ibb_enable(enable);
	}
	return NO_ERROR;
	}

	static int pwm_backlight_ctrl(uint8_t enable)
	{
	if (enable) {
	pm_pwm_enable(false);
	pm_pwm_config(PWM_DUTY_US, PWM_PERIOD_US);
	pm_pwm_enable(true);
	} else {
	pm_pwm_enable(false);
	}

	return NO_ERROR;
	}

	int target_backlight_ctrl(struct backlight *bl, uint8_t enable)
	{
	uint32_t ret = NO_ERROR;

	if (bl->bl_interface_type == BL_DCS)
	return ret;

	if ((target_get_pmic() == PMIC_IS_PMI632) &&
	(bl->bl_interface_type == BL_PWM)) {
	ret = pwm_backlight_ctrl(enable);
	} else {
	ret = msm8952_wled_backlight_ctrl(enable);
	}
	return ret;
	}

	static int32_t mdss_dsi_pll_config(uint32_t pll_base, uint32_t ctl_base,
	struct mdss_dsi_pll_config *pll_data)
	{
	int32_t ret = 0;
	if (!platform_is_msm8956())
	mdss_dsi_uniphy_pll_sw_reset_8952(pll_base);
	else
	dsi_pll_sw_reset_8952(pll_base);
	mdss_dsi_auto_pll_config(pll_base, ctl_base, pll_data);
	if (platform_is_msm8956())
	ret = dsi_pll_enable_seq_8956(pll_base);
	else
	ret = dsi_pll_enable_seq_8952(pll_base);

	return ret;
	}

	int target_panel_clock(uint8_t enable, struct msm_panel_info *pinfo)
	{
	int32_t ret = 0, flags;
	struct mdss_dsi_pll_config *pll_data;
	dprintf(SPEW, "target_panel_clock\n");

	if (pinfo->dest == DISPLAY_2) {
	flags = MMSS_DSI_CLKS_FLAG_DSI1;
	if (pinfo->mipi.dual_dsi)
	flags \|= MMSS_DSI_CLKS_FLAG_DSI0;
	} else {
	flags = MMSS_DSI_CLKS_FLAG_DSI0;
	if (pinfo->mipi.dual_dsi)
	flags \|= MMSS_DSI_CLKS_FLAG_DSI1;
	}

	pll_data = pinfo->mipi.dsi_pll_config;
	pll_data->vco_delay = VCO_DELAY_USEC;

	/* SSC parameters */
	if (platform_is_msm8937() \|\| platform_is_msm8917()) {
	pll_data->ssc_en = true;
	pll_data->is_center_spread = false;
	pll_data->ssc_freq = 30000;
	pll_data->ssc_ppm = 5000;
	}

	if (enable) {
	mdp_gdsc_ctrl(enable);
	mdss_bus_clocks_enable();
	mdp_clock_enable();
	ret = restore_secure_cfg(SECURE_DEVICE_MDSS);
	if (ret) {
	dprintf(CRITICAL,
	"%s: Failed to restore MDP security configs",
	__func__);
	mdp_clock_disable();
	mdss_bus_clocks_disable();
	mdp_gdsc_ctrl(0);
	return ret;
	}

	ret = mdss_dsi_pll_config(pinfo->mipi.pll_base,
	pinfo->mipi.ctl_base, pll_data);
	if (!ret)
	dprintf(CRITICAL, "Not able to enable master pll\n");

	if (platform_is_msm8956() && pinfo->mipi.dual_dsi &&
	!platform_is_msm8976_v_1_1()) {
	ret = mdss_dsi_pll_config(pinfo->mipi.spll_base,
	pinfo->mipi.sctl_base, pll_data);
	if (!ret)
	dprintf(CRITICAL, "Not able to enable second pll\n");
	}

	gcc_dsi_clocks_enable(flags, pinfo->mipi.use_dsi1_pll,
	pll_data->pclk_m, pll_data->pclk_n, pll_data->pclk_d);
	} else if(!target_cont_splash_screen()) {
	gcc_dsi_clocks_disable(flags);
	mdp_clock_disable();
	mdss_bus_clocks_disable();
	mdp_gdsc_ctrl(enable);
	}

	return 0;
	}

	int target_panel_reset(uint8_t enable, struct panel_reset_sequence *resetseq,
	struct msm_panel_info *pinfo)
	{
	int ret = NO_ERROR;
	uint32_t hw_id = board_hardware_id();
	uint32_t hw_subtype = board_hardware_subtype();

	if (platform_is_msm8956()) {
	reset_gpio.pin_id = 25;
	bkl_gpio.pin_id = 66;
	} else if (platform_is_msm8937()) {
	reset_gpio.pin_id = 60;
	bkl_gpio.pin_id = 98;
	enable_gpio.pin_id = 99;
	} else if (platform_is_msm8917()) {
	reset_gpio.pin_id = 60;
	bkl_gpio.pin_id = 98;
	pinfo->mipi.use_enable_gpio = 0;
	} else if ((hw_id == HW_PLATFORM_QRD) &&
	(hw_subtype == HW_PLATFORM_SUBTYPE_POLARIS)) {
	enable_gpio.pin_id = 19;
	}

	if (enable) {
	if (pinfo->mipi.use_enable_gpio && !platform_is_msm8956()) {
	gpio_tlmm_config(enable_gpio.pin_id, 0,
	enable_gpio.pin_direction, enable_gpio.pin_pull,
	enable_gpio.pin_strength,
	enable_gpio.pin_state);

	gpio_set_dir(enable_gpio.pin_id, 2);
	}

	gpio_tlmm_config(bkl_gpio.pin_id, 0,
	bkl_gpio.pin_direction, bkl_gpio.pin_pull,
	bkl_gpio.pin_strength, bkl_gpio.pin_state);

	gpio_set_dir(bkl_gpio.pin_id, 2);

	gpio_tlmm_config(reset_gpio.pin_id, 0,
	reset_gpio.pin_direction, reset_gpio.pin_pull,
	reset_gpio.pin_strength, reset_gpio.pin_state);

	gpio_set_dir(reset_gpio.pin_id, 2);

	/* reset */
	for (int i = 0; i < RESET_GPIO_SEQ_LEN; i++) {
	if (resetseq->pin_state[i] == GPIO_STATE_LOW)
	gpio_set_dir(reset_gpio.pin_id, GPIO_STATE_LOW);
	else
	gpio_set_dir(reset_gpio.pin_id, GPIO_STATE_HIGH);
	mdelay(resetseq->sleep[i]);
	}

	if (platform_is_msm8956()) {
	gpio_tlmm_config(lcd_mode_gpio.pin_id, 0,
	lcd_mode_gpio.pin_direction, lcd_mode_gpio.pin_pull,
	lcd_mode_gpio.pin_strength, lcd_mode_gpio.pin_state);

	if (pinfo->lcdc.split_display \|\| pinfo->lcdc.dst_split)
	gpio_set_dir(lcd_mode_gpio.pin_id, GPIO_STATE_LOW);
	else
	gpio_set_dir(lcd_mode_gpio.pin_id, GPIO_STATE_HIGH);
	}
	} else if(!target_cont_splash_screen()) {
	gpio_set_dir(reset_gpio.pin_id, 0);
	if (pinfo->mipi.use_enable_gpio && !platform_is_msm8956())
	gpio_set_dir(enable_gpio.pin_id, 0);
	if (platform_is_msm8956())
	gpio_set_dir(lcd_mode_gpio.pin_id, 0);
	}

	return ret;
	}

	static int wled_init(struct msm_panel_info *pinfo)
	{
	struct qpnp_wled_config_data config = {0};
	struct labibb_desc *labibb;
	int display_type = 0;
	bool swire_control = 0;
	bool wled_avdd_control = 0;
	int rc = NO_ERROR;

	labibb = pinfo->labibb;

	if (labibb)
	display_type = labibb->amoled_panel;

	if (display_type) {
	swire_control = labibb->swire_control;
	wled_avdd_control = true;
	} else {
	swire_control = false;
	wled_avdd_control = false;
	}

	config.display_type = display_type;
	config.lab_init_volt = 4600000; /* fixed, see pmi register */
	config.ibb_init_volt = 1400000; /* fixed, see pmi register */
	config.lab_ibb_swire_control = swire_control;
	config.wled_avdd_control = wled_avdd_control;

	if(!swire_control) {
	if (labibb && labibb->force_config) {
	config.lab_min_volt = labibb->lab_min_volt;
	config.lab_max_volt = labibb->lab_max_volt;
	config.ibb_min_volt = labibb->ibb_min_volt;
	config.ibb_max_volt = labibb->ibb_max_volt;
	config.pwr_up_delay = labibb->pwr_up_delay;
	config.pwr_down_delay = labibb->pwr_down_delay;
	config.ibb_discharge_en = labibb->ibb_discharge_en;
	} else {
	/* default */
	config.pwr_up_delay = 3;
	config.pwr_down_delay = 3;
	config.ibb_discharge_en = 1;
	if (display_type) { /* amoled */
	config.lab_min_volt = 4600000;
	config.lab_max_volt = 4600000;
	config.ibb_min_volt = 4000000;
	config.ibb_max_volt = 4000000;
	} else { /* lcd */
	config.lab_min_volt = 5500000;
	config.lab_max_volt = 5500000;
	config.ibb_min_volt = 5500000;
	config.ibb_max_volt = 5500000;
	}
	}
	}

	dprintf(SPEW, "%s: %d %d %d %d %d %d %d %d %d %d\n", __func__,
	config.display_type,
	config.lab_min_volt, config.lab_max_volt,
	config.ibb_min_volt, config.ibb_max_volt,
	config.lab_init_volt, config.ibb_init_volt,
	config.pwr_up_delay, config.pwr_down_delay,
	config.ibb_discharge_en);

	/* QPNP WLED init for display backlight */
	pm8x41_wled_config_slave_id(PMIC_WLED_SLAVE_ID);

	if (target_get_pmic() == PMIC_IS_PMI632)
	rc = qpnp_lcdb_init(&config);
	else
	rc = qpnp_wled_init(&config);

	return rc;
	}

	int target_dsi_phy_config(struct mdss_dsi_phy_ctrl *phy_db)
	{
	memcpy(phy_db->regulator, panel_regulator_settings, REGULATOR_SIZE);
	memcpy(phy_db->ctrl, panel_physical_ctrl, PHYSICAL_SIZE);
	memcpy(phy_db->strength, panel_strength_ctrl, STRENGTH_SIZE);
	memcpy(phy_db->bistCtrl, panel_bist_ctrl, BIST_SIZE);
	memcpy(phy_db->laneCfg, panel_lane_config, LANE_SIZE);
	return NO_ERROR;
	}

	int target_display_get_base_offset(uint32_t base)
	{
	if(platform_is_msm8956() \|\| platform_is_msm8937() \|\|
	platform_is_msm8917()) {
	if (base == MIPI_DSI0_BASE)
	return DSI0_BASE_ADJUST;
	else if (base == DSI0_PHY_BASE)
	return DSI0_PHY_BASE_ADJUST;
	else if (base == DSI0_PLL_BASE)
	return DSI0_PHY_PLL_BASE_ADJUST;
	else if (base == DSI0_REGULATOR_BASE)
	return DSI0_PHY_REGULATOR_BASE_ADJUST;
	}

	return 0;
	}

	int target_ldo_ctrl(uint8_t enable, struct msm_panel_info *pinfo)
	{
	int rc = 0;
	uint32_t ldo_num = REG_LDO6 \| REG_LDO17;

	if (platform_is_msm8956())
	ldo_num \|= REG_LDO1;
	else
	ldo_num \|= REG_LDO2;

	if (enable) {
	regulator_enable(ldo_num);
	mdelay(10);
	rc = wled_init(pinfo);
	if (rc) {
	dprintf(CRITICAL, "%s: wled init failed\n", __func__);
	return rc;
	}
	if (target_get_pmic() == PMIC_IS_PMI632)
	rc = qpnp_lcdb_enable(true);
	else
	rc = qpnp_ibb_enable(true); /5V boost/
	if (rc) {
	dprintf(CRITICAL, "%s: qpnp_ibb/lcdb failed\n", __func__);
	return rc;
	}
	mdelay(50);
	} else {
	/*
	* LDO1, LDO2 and LDO6 are shared with other subsystems.
	* Do not disable them.
	*/
	regulator_disable(REG_LDO17);
	}

	return NO_ERROR;
	}

	bool target_display_panel_node(char *pbuf, uint16_t buf_size)
	{
	int prefix_string_len = strlen(DISPLAY_CMDLINE_PREFIX);
	bool ret = true;
	struct oem_panel_data oem = mdss_dsi_get_oem_data();
	uint32_t platform_subtype = board_hardware_subtype();
	uint32_t platform = board_platform_id();

	/* default to hdmi for apq iot */
	if ((APQ8017 == platform) && ((HW_PLATFORM_SUBTYPE_SAP == platform_subtype) \|\|
	(HW_PLATFORM_SUBTYPE_SAP_NOPMI == platform_subtype))) {
	if (!strcmp(oem.panel, "")) {
	if (buf_size < (prefix_string_len +
	strlen(HDMI_ADV_PANEL_STRING))) {
	dprintf(CRITICAL, "HDMI command line argument \
	is greater than buffer size\n");
	return false;
	}
	strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
	buf_size -= prefix_string_len;
	pbuf += prefix_string_len;
	strlcpy(pbuf, HDMI_ADV_PANEL_STRING, buf_size);
	} else if (!strcmp(oem.panel, TRULY_720P_VID_PANEL)) {
	if (buf_size < (prefix_string_len +
	strlen(TRULY_VID_PANEL_STRING))) {
	dprintf(CRITICAL, "TRULY VIDEO command line \
	argument is greater than \
	buffer size\n");
	return false;
	}
	strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
	buf_size -= prefix_string_len;
	pbuf += prefix_string_len;
	strlcpy(pbuf, TRULY_VID_PANEL_STRING, buf_size);
	} else if (!strcmp(oem.panel, TRULY_720P_CMD_PANEL)) {
	if (buf_size < (prefix_string_len +
	strlen(TRULY_CMD_PANEL_STRING))) {
	dprintf(CRITICAL, "TRULY CMD command line argument \
	argument is greater than \
	buffer size\n");
	return false;
	}
	strlcpy(pbuf, DISPLAY_CMDLINE_PREFIX, buf_size);
	buf_size -= prefix_string_len;
	pbuf += prefix_string_len;
	strlcpy(pbuf, TRULY_CMD_PANEL_STRING, buf_size);
	}
	} else {
	ret = gcdb_display_cmdline_arg(pbuf, buf_size);
	}

	return ret;
	}

	void target_display_init(const char *panel_name)
	{
	struct oem_panel_data oem;
	int32_t ret = 0;
	uint32_t panel_loop = 0;
	uint32_t platform_subtype = board_hardware_subtype();
	uint32_t platform = board_platform_id();

	set_panel_cmd_string(panel_name);
	oem = mdss_dsi_get_oem_data();

	if (!strcmp(oem.panel, NO_PANEL_CONFIG)
	\|\| !strcmp(oem.panel, SIM_VIDEO_PANEL)
	\|\| !strcmp(oem.panel, SIM_CMD_PANEL)
	\|\| oem.skip) {
	dprintf(INFO, "Selected panel: %s\nSkip panel configuration\n",
	oem.panel);
	oem.cont_splash = false;
	}

	if ((APQ8017 == platform) && ((HW_PLATFORM_SUBTYPE_SAP == platform_subtype) \|\|
	(HW_PLATFORM_SUBTYPE_SAP_NOPMI == platform_subtype))) {
	dprintf(INFO, "%s: Platform subtype %d\n",
	__func__, platform_subtype);
	return;
	}

	do {
	target_force_cont_splash_disable(false);
	ret = gcdb_display_init(oem.panel, MDP_REV_50, (void *)MIPI_FB_ADDR);
	if (!ret \|\| ret == ERR_NOT_SUPPORTED) {
	break;
	} else {
	target_force_cont_splash_disable(true);
	msm_display_off();
	}
	} while (++panel_loop <= oem_panel_max_auto_detect_panels());

	if (!oem.cont_splash) {
	dprintf(INFO, "Forcing continuous splash disable\n");
	target_force_cont_splash_disable(true);
	}
	}

	void target_display_shutdown(void)
	{
	gcdb_display_shutdown();
	}