drivers/gpu/drm/msm/dp/dp_usbpd.c - kernel/msm-4.9 - Gitiles

 /*
  * Copyright (c) 2012-2017, The Linux Foundation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  */

 #define pr_fmt(fmt)	"[drm-dp] %s: " fmt, __func__

 #include <linux/slab.h>
 #include <linux/device.h>

 #include "dp_usbpd.h"

 /* DP specific VDM commands */
 #define DP_USBPD_VDM_STATUS	0x10
 #define DP_USBPD_VDM_CONFIGURE	0x11

 /* USBPD-TypeC specific Macros */
 #define VDM_VERSION		0x0
 #define USB_C_DP_SID		0xFF01

 enum dp_usbpd_pin_assignment {
 	DP_USBPD_PIN_A,
 	DP_USBPD_PIN_B,
 	DP_USBPD_PIN_C,
 	DP_USBPD_PIN_D,
 	DP_USBPD_PIN_E,
 	DP_USBPD_PIN_F,
 	DP_USBPD_PIN_MAX,
 };

 enum dp_usbpd_events {
 	DP_USBPD_EVT_DISCOVER,
 	DP_USBPD_EVT_ENTER,
 	DP_USBPD_EVT_STATUS,
 	DP_USBPD_EVT_CONFIGURE,
 	DP_USBPD_EVT_CC_PIN_POLARITY,
 	DP_USBPD_EVT_EXIT,
 	DP_USBPD_EVT_ATTENTION,
 };

 enum dp_usbpd_alt_mode {
 	DP_USBPD_ALT_MODE_NONE	    = 0,
 	DP_USBPD_ALT_MODE_INIT	    = BIT(0),
 	DP_USBPD_ALT_MODE_DISCOVER  = BIT(1),
 	DP_USBPD_ALT_MODE_ENTER	    = BIT(2),
 	DP_USBPD_ALT_MODE_STATUS    = BIT(3),
 	DP_USBPD_ALT_MODE_CONFIGURE = BIT(4),
 };

 struct dp_usbpd_capabilities {
 	enum dp_usbpd_port port;
 	bool receptacle_state;
 	u8 ulink_pin_config;
 	u8 dlink_pin_config;
 };

 struct dp_usbpd_private {
 	bool forced_disconnect;
 	u32 vdo;
 	struct device *dev;
 	struct usbpd *pd;
 	struct usbpd_svid_handler svid_handler;
 	struct dp_usbpd_cb *dp_cb;
 	struct dp_usbpd_capabilities cap;
 	struct dp_usbpd dp_usbpd;
 	enum dp_usbpd_alt_mode alt_mode;
 	u32 dp_usbpd_config;
 };

 static const char *dp_usbpd_pin_name(u8 pin)
 {
 	switch (pin) {
 	case DP_USBPD_PIN_A: return "DP_USBPD_PIN_ASSIGNMENT_A";
 	case DP_USBPD_PIN_B: return "DP_USBPD_PIN_ASSIGNMENT_B";
 	case DP_USBPD_PIN_C: return "DP_USBPD_PIN_ASSIGNMENT_C";
 	case DP_USBPD_PIN_D: return "DP_USBPD_PIN_ASSIGNMENT_D";
 	case DP_USBPD_PIN_E: return "DP_USBPD_PIN_ASSIGNMENT_E";
 	case DP_USBPD_PIN_F: return "DP_USBPD_PIN_ASSIGNMENT_F";
 	default: return "UNKNOWN";
 	}
 }

 static const char *dp_usbpd_port_name(enum dp_usbpd_port port)
 {
 	switch (port) {
 	case DP_USBPD_PORT_NONE: return "DP_USBPD_PORT_NONE";
 	case DP_USBPD_PORT_UFP_D: return "DP_USBPD_PORT_UFP_D";
 	case DP_USBPD_PORT_DFP_D: return "DP_USBPD_PORT_DFP_D";
 	case DP_USBPD_PORT_D_UFP_D: return "DP_USBPD_PORT_D_UFP_D";
 	default: return "DP_USBPD_PORT_NONE";
 	}
 }

 static const char *dp_usbpd_cmd_name(u8 cmd)
 {
 	switch (cmd) {
 	case USBPD_SVDM_DISCOVER_MODES: return "USBPD_SVDM_DISCOVER_MODES";
 	case USBPD_SVDM_ENTER_MODE: return "USBPD_SVDM_ENTER_MODE";
 	case USBPD_SVDM_ATTENTION: return "USBPD_SVDM_ATTENTION";
 	case DP_USBPD_VDM_STATUS: return "DP_USBPD_VDM_STATUS";
 	case DP_USBPD_VDM_CONFIGURE: return "DP_USBPD_VDM_CONFIGURE";
 	default: return "DP_USBPD_VDM_ERROR";
 	}
 }

 static void dp_usbpd_init_port(enum dp_usbpd_port *port, u32 in_port)
 {
 	switch (in_port) {
 	case 0:
 		*port = DP_USBPD_PORT_NONE;
 		break;
 	case 1:
 		*port = DP_USBPD_PORT_UFP_D;
 		break;
 	case 2:
 		*port = DP_USBPD_PORT_DFP_D;
 		break;
 	case 3:
 		*port = DP_USBPD_PORT_D_UFP_D;
 		break;
 	default:
 		*port = DP_USBPD_PORT_NONE;
 	}
 	pr_debug("port:%s\n", dp_usbpd_port_name(*port));
 }

 static void dp_usbpd_get_capabilities(struct dp_usbpd_private *pd)
 {
 	struct dp_usbpd_capabilities *cap = &pd->cap;
 	u32 buf = pd->vdo;
 	int port = buf & 0x3;

 	cap->receptacle_state = (buf & BIT(6)) ? true : false;
 	cap->dlink_pin_config = (buf >> 8) & 0xff;
 	cap->ulink_pin_config = (buf >> 16) & 0xff;

 	dp_usbpd_init_port(&cap->port, port);
 }

 static void dp_usbpd_get_status(struct dp_usbpd_private *pd)
 {
 	struct dp_usbpd *status = &pd->dp_usbpd;
 	u32 buf = pd->vdo;
 	int port = buf & 0x3;

 	status->low_pow_st     = (buf & BIT(2)) ? true : false;
 	status->adaptor_dp_en  = (buf & BIT(3)) ? true : false;
 	status->multi_func     = (buf & BIT(4)) ? true : false;
 	status->usb_config_req = (buf & BIT(5)) ? true : false;
 	status->exit_dp_mode   = (buf & BIT(6)) ? true : false;
 	status->hpd_high       = (buf & BIT(7)) ? true : false;
 	status->hpd_irq        = (buf & BIT(8)) ? true : false;

 	pr_debug("low_pow_st = %d, adaptor_dp_en = %d, multi_func = %d\n",
 			status->low_pow_st, status->adaptor_dp_en,
 			status->multi_func);
 	pr_debug("usb_config_req = %d, exit_dp_mode = %d, hpd_high =%d\n",
 			status->usb_config_req,
 			status->exit_dp_mode, status->hpd_high);
 	pr_debug("hpd_irq = %d\n", status->hpd_irq);

 	dp_usbpd_init_port(&status->port, port);
 }

 static u32 dp_usbpd_gen_config_pkt(struct dp_usbpd_private *pd)
 {
 	u8 pin_cfg, pin;
 	u32 config = 0;
 	const u32 ufp_d_config = 0x2, dp_ver = 0x1;

 	if (pd->cap.receptacle_state)
 		pin_cfg = pd->cap.ulink_pin_config;
 	else
 		pin_cfg = pd->cap.dlink_pin_config;

 	for (pin = DP_USBPD_PIN_A; pin < DP_USBPD_PIN_MAX; pin++) {
 		if (pin_cfg & BIT(pin)) {
 			if (pd->dp_usbpd.multi_func) {
 				if (pin == DP_USBPD_PIN_D)
 					break;
 			} else {
 				break;
 			}
 		}
 	}

 	if (pin == DP_USBPD_PIN_MAX)
 		pin = DP_USBPD_PIN_C;

 	pr_debug("pin assignment: %s\n", dp_usbpd_pin_name(pin));

 	config |= BIT(pin) << 8;

 	config |= (dp_ver << 2);
 	config |= ufp_d_config;

 	pr_debug("config = 0x%x\n", config);
 	return config;
 }

 static void dp_usbpd_send_event(struct dp_usbpd_private *pd,
 		enum dp_usbpd_events event)
 {
 	u32 config;

 	switch (event) {
 	case DP_USBPD_EVT_DISCOVER:
 		usbpd_send_svdm(pd->pd, USB_C_DP_SID,
 			USBPD_SVDM_DISCOVER_MODES,
 			SVDM_CMD_TYPE_INITIATOR, 0x0, 0x0, 0x0);
 		break;
 	case DP_USBPD_EVT_ENTER:
 		usbpd_send_svdm(pd->pd, USB_C_DP_SID,
 			USBPD_SVDM_ENTER_MODE,
 			SVDM_CMD_TYPE_INITIATOR, 0x1, 0x0, 0x0);
 		break;
 	case DP_USBPD_EVT_EXIT:
 		usbpd_send_svdm(pd->pd, USB_C_DP_SID,
 			USBPD_SVDM_EXIT_MODE,
 			SVDM_CMD_TYPE_INITIATOR, 0x1, 0x0, 0x0);
 		break;
 	case DP_USBPD_EVT_STATUS:
 		config = 0x1; /* DFP_D connected */
 		usbpd_send_svdm(pd->pd, USB_C_DP_SID, DP_USBPD_VDM_STATUS,
 			SVDM_CMD_TYPE_INITIATOR, 0x1, &config, 0x1);
 		break;
 	case DP_USBPD_EVT_CONFIGURE:
 		config = dp_usbpd_gen_config_pkt(pd);
 		usbpd_send_svdm(pd->pd, USB_C_DP_SID, DP_USBPD_VDM_CONFIGURE,
 			SVDM_CMD_TYPE_INITIATOR, 0x1, &config, 0x1);
 		break;
 	default:
 		pr_err("unknown event:%d\n", event);
 	}
 }

 static void dp_usbpd_connect_cb(struct usbpd_svid_handler *hdlr)
 {
 	struct dp_usbpd_private *pd;

 	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);
 	if (!pd) {
 		pr_err("get_usbpd phandle failed\n");
 		return;
 	}

 	pr_debug("\n");
 	dp_usbpd_send_event(pd, DP_USBPD_EVT_DISCOVER);
 }

 static void dp_usbpd_disconnect_cb(struct usbpd_svid_handler *hdlr)
 {
 	struct dp_usbpd_private *pd;

 	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);
 	if (!pd) {
 		pr_err("get_usbpd phandle failed\n");
 		return;
 	}

 	pd->alt_mode = DP_USBPD_ALT_MODE_NONE;
 	pd->dp_usbpd.alt_mode_cfg_done = false;
 	pr_debug("\n");

 	if (pd->dp_cb && pd->dp_cb->disconnect)
 		pd->dp_cb->disconnect(pd->dev);
 }

 static int dp_usbpd_validate_callback(u8 cmd,
 	enum usbpd_svdm_cmd_type cmd_type, int num_vdos)
 {
 	int ret = 0;

 	if (cmd_type == SVDM_CMD_TYPE_RESP_NAK) {
 		pr_err("error: NACK\n");
 		ret = -EINVAL;
 		goto end;
 	}

 	if (cmd_type == SVDM_CMD_TYPE_RESP_BUSY) {
 		pr_err("error: BUSY\n");
 		ret = -EBUSY;
 		goto end;
 	}

 	if (cmd == USBPD_SVDM_ATTENTION) {
 		if (cmd_type != SVDM_CMD_TYPE_INITIATOR) {
 			pr_err("error: invalid cmd type for attention\n");
 			ret = -EINVAL;
 			goto end;
 		}

 		if (!num_vdos) {
 			pr_err("error: no vdo provided\n");
 			ret = -EINVAL;
 			goto end;
 		}
 	} else {
 		if (cmd_type != SVDM_CMD_TYPE_RESP_ACK) {
 			pr_err("error: invalid cmd type\n");
 			ret = -EINVAL;
 		}
 	}
 end:
 	return ret;
 }

 static void dp_usbpd_response_cb(struct usbpd_svid_handler *hdlr, u8 cmd,
 				enum usbpd_svdm_cmd_type cmd_type,
 				const u32 *vdos, int num_vdos)
 {
 	struct dp_usbpd_private *pd;

 	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);

 	pr_debug("callback -> cmd: %s, *vdos = 0x%x, num_vdos = %d\n",
 				dp_usbpd_cmd_name(cmd), *vdos, num_vdos);

 	if (dp_usbpd_validate_callback(cmd, cmd_type, num_vdos)) {
 		pr_debug("invalid callback received\n");
 		return;
 	}

 	switch (cmd) {
 	case USBPD_SVDM_DISCOVER_MODES:
 		pd->vdo = *vdos;
 		dp_usbpd_get_capabilities(pd);

 		pd->alt_mode |= DP_USBPD_ALT_MODE_DISCOVER;

 		if (pd->cap.port & BIT(0))
 			dp_usbpd_send_event(pd, DP_USBPD_EVT_ENTER);
 		break;
 	case USBPD_SVDM_ENTER_MODE:
 		pd->alt_mode |= DP_USBPD_ALT_MODE_ENTER;

 		dp_usbpd_send_event(pd, DP_USBPD_EVT_STATUS);
 		break;
 	case USBPD_SVDM_ATTENTION:
 		if (pd->forced_disconnect)
 			break;

 		pd->vdo = *vdos;
 		dp_usbpd_get_status(pd);

 		if (!pd->dp_usbpd.alt_mode_cfg_done) {
 			if (pd->dp_usbpd.port & BIT(1))
 				dp_usbpd_send_event(pd, DP_USBPD_EVT_CONFIGURE);
 			break;
 		}

 		if (pd->dp_cb && pd->dp_cb->attention)
 			pd->dp_cb->attention(pd->dev);

 		break;
 	case DP_USBPD_VDM_STATUS:
 		pd->vdo = *vdos;
 		dp_usbpd_get_status(pd);

 		if (!(pd->alt_mode & DP_USBPD_ALT_MODE_CONFIGURE)) {
 			pd->alt_mode |= DP_USBPD_ALT_MODE_STATUS;

 			if (pd->dp_usbpd.port & BIT(1))
 				dp_usbpd_send_event(pd, DP_USBPD_EVT_CONFIGURE);
 		}
 		break;
 	case DP_USBPD_VDM_CONFIGURE:
 		pd->alt_mode |= DP_USBPD_ALT_MODE_CONFIGURE;
 		pd->dp_usbpd.alt_mode_cfg_done = true;
 		dp_usbpd_get_status(pd);

 		pd->dp_usbpd.orientation = usbpd_get_plug_orientation(pd->pd);

 		/*
 		 * By default, USB reserves two lanes for Super Speed.
 		 * Which means DP has remaining two lanes to operate on.
 		 * If multi-function is not supported, request USB to
 		 * release the Super Speed lanes so that DP can use
 		 * all four lanes in case DPCD indicates support for
 		 * four lanes.
 		 */
 		if (!pd->dp_usbpd.multi_func)
 			pd->svid_handler.request_usb_ss_lane(pd->pd,
 				&pd->svid_handler);

 		if (pd->dp_cb && pd->dp_cb->configure)
 			pd->dp_cb->configure(pd->dev);
 		break;
 	default:
 		pr_err("unknown cmd: %d\n", cmd);
 		break;
 	}
 }

 static int dp_usbpd_simulate_connect(struct dp_usbpd *dp_usbpd, bool hpd)
 {
 	int rc = 0;
 	struct dp_usbpd_private *pd;

 	if (!dp_usbpd) {
 		pr_err("invalid input\n");
 		rc = -EINVAL;
 		goto error;
 	}

 	pd = container_of(dp_usbpd, struct dp_usbpd_private, dp_usbpd);

 	dp_usbpd->hpd_high = hpd;
 	pd->forced_disconnect = !hpd;

 	if (hpd)
 		pd->dp_cb->configure(pd->dev);
 	else
 		pd->dp_cb->disconnect(pd->dev);

 error:
 	return rc;
 }

 struct dp_usbpd *dp_usbpd_get(struct device *dev, struct dp_usbpd_cb *cb)
 {
 	int rc = 0;
 	const char *pd_phandle = "qcom,dp-usbpd-detection";
 	struct usbpd *pd = NULL;
 	struct dp_usbpd_private *usbpd;
 	struct dp_usbpd *dp_usbpd;
 	struct usbpd_svid_handler svid_handler = {
 		.svid		= USB_C_DP_SID,
 		.vdm_received	= NULL,
 		.connect	= &dp_usbpd_connect_cb,
 		.svdm_received	= &dp_usbpd_response_cb,
 		.disconnect	= &dp_usbpd_disconnect_cb,
 	};

 	if (!cb) {
 		pr_err("invalid cb data\n");
 		rc = -EINVAL;
 		goto error;
 	}

 	pd = devm_usbpd_get_by_phandle(dev, pd_phandle);
 	if (IS_ERR(pd)) {
 		pr_err("usbpd phandle failed (%ld)\n", PTR_ERR(pd));
 		rc = PTR_ERR(pd);
 		goto error;
 	}

 	usbpd = devm_kzalloc(dev, sizeof(*usbpd), GFP_KERNEL);
 	if (!usbpd) {
 		rc = -ENOMEM;
 		goto error;
 	}

 	usbpd->dev = dev;
 	usbpd->pd = pd;
 	usbpd->svid_handler = svid_handler;
 	usbpd->dp_cb = cb;

 	rc = usbpd_register_svid(pd, &usbpd->svid_handler);
 	if (rc) {
 		pr_err("pd registration failed\n");
 		rc = -ENODEV;
 		devm_kfree(dev, usbpd);
 		goto error;
 	}

 	dp_usbpd = &usbpd->dp_usbpd;
 	dp_usbpd->simulate_connect = dp_usbpd_simulate_connect;

 	return dp_usbpd;
 error:
 	return ERR_PTR(rc);
 }

 void dp_usbpd_put(struct dp_usbpd *dp_usbpd)
 {
 	struct dp_usbpd_private *usbpd;

 	if (!dp_usbpd)
 		return;

 	usbpd = container_of(dp_usbpd, struct dp_usbpd_private, dp_usbpd);

 	usbpd_unregister_svid(usbpd->pd, &usbpd->svid_handler);

 	devm_kfree(usbpd->dev, usbpd);
 }
	/*
	* Copyright (c) 2012-2017, The Linux Foundation. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	*/

	#define pr_fmt(fmt) "[drm-dp] %s: " fmt, __func__

	#include <linux/slab.h>
	#include <linux/device.h>

	#include "dp_usbpd.h"

	/* DP specific VDM commands */
	#define DP_USBPD_VDM_STATUS 0x10
	#define DP_USBPD_VDM_CONFIGURE 0x11

	/* USBPD-TypeC specific Macros */
	#define VDM_VERSION 0x0
	#define USB_C_DP_SID 0xFF01

	enum dp_usbpd_pin_assignment {
	DP_USBPD_PIN_A,
	DP_USBPD_PIN_B,
	DP_USBPD_PIN_C,
	DP_USBPD_PIN_D,
	DP_USBPD_PIN_E,
	DP_USBPD_PIN_F,
	DP_USBPD_PIN_MAX,
	};

	enum dp_usbpd_events {
	DP_USBPD_EVT_DISCOVER,
	DP_USBPD_EVT_ENTER,
	DP_USBPD_EVT_STATUS,
	DP_USBPD_EVT_CONFIGURE,
	DP_USBPD_EVT_CC_PIN_POLARITY,
	DP_USBPD_EVT_EXIT,
	DP_USBPD_EVT_ATTENTION,
	};

	enum dp_usbpd_alt_mode {
	DP_USBPD_ALT_MODE_NONE = 0,
	DP_USBPD_ALT_MODE_INIT = BIT(0),
	DP_USBPD_ALT_MODE_DISCOVER = BIT(1),
	DP_USBPD_ALT_MODE_ENTER = BIT(2),
	DP_USBPD_ALT_MODE_STATUS = BIT(3),
	DP_USBPD_ALT_MODE_CONFIGURE = BIT(4),
	};

	struct dp_usbpd_capabilities {
	enum dp_usbpd_port port;
	bool receptacle_state;
	u8 ulink_pin_config;
	u8 dlink_pin_config;
	};

	struct dp_usbpd_private {
	bool forced_disconnect;
	u32 vdo;
	struct device *dev;
	struct usbpd *pd;
	struct usbpd_svid_handler svid_handler;
	struct dp_usbpd_cb *dp_cb;
	struct dp_usbpd_capabilities cap;
	struct dp_usbpd dp_usbpd;
	enum dp_usbpd_alt_mode alt_mode;
	u32 dp_usbpd_config;
	};

	static const char *dp_usbpd_pin_name(u8 pin)
	{
	switch (pin) {
	case DP_USBPD_PIN_A: return "DP_USBPD_PIN_ASSIGNMENT_A";
	case DP_USBPD_PIN_B: return "DP_USBPD_PIN_ASSIGNMENT_B";
	case DP_USBPD_PIN_C: return "DP_USBPD_PIN_ASSIGNMENT_C";
	case DP_USBPD_PIN_D: return "DP_USBPD_PIN_ASSIGNMENT_D";
	case DP_USBPD_PIN_E: return "DP_USBPD_PIN_ASSIGNMENT_E";
	case DP_USBPD_PIN_F: return "DP_USBPD_PIN_ASSIGNMENT_F";
	default: return "UNKNOWN";
	}
	}

	static const char *dp_usbpd_port_name(enum dp_usbpd_port port)
	{
	switch (port) {
	case DP_USBPD_PORT_NONE: return "DP_USBPD_PORT_NONE";
	case DP_USBPD_PORT_UFP_D: return "DP_USBPD_PORT_UFP_D";
	case DP_USBPD_PORT_DFP_D: return "DP_USBPD_PORT_DFP_D";
	case DP_USBPD_PORT_D_UFP_D: return "DP_USBPD_PORT_D_UFP_D";
	default: return "DP_USBPD_PORT_NONE";
	}
	}

	static const char *dp_usbpd_cmd_name(u8 cmd)
	{
	switch (cmd) {
	case USBPD_SVDM_DISCOVER_MODES: return "USBPD_SVDM_DISCOVER_MODES";
	case USBPD_SVDM_ENTER_MODE: return "USBPD_SVDM_ENTER_MODE";
	case USBPD_SVDM_ATTENTION: return "USBPD_SVDM_ATTENTION";
	case DP_USBPD_VDM_STATUS: return "DP_USBPD_VDM_STATUS";
	case DP_USBPD_VDM_CONFIGURE: return "DP_USBPD_VDM_CONFIGURE";
	default: return "DP_USBPD_VDM_ERROR";
	}
	}

	static void dp_usbpd_init_port(enum dp_usbpd_port *port, u32 in_port)
	{
	switch (in_port) {
	case 0:
	*port = DP_USBPD_PORT_NONE;
	break;
	case 1:
	*port = DP_USBPD_PORT_UFP_D;
	break;
	case 2:
	*port = DP_USBPD_PORT_DFP_D;
	break;
	case 3:
	*port = DP_USBPD_PORT_D_UFP_D;
	break;
	default:
	*port = DP_USBPD_PORT_NONE;
	}
	pr_debug("port:%s\n", dp_usbpd_port_name(*port));
	}

	static void dp_usbpd_get_capabilities(struct dp_usbpd_private *pd)
	{
	struct dp_usbpd_capabilities *cap = &pd->cap;
	u32 buf = pd->vdo;
	int port = buf & 0x3;

	cap->receptacle_state = (buf & BIT(6)) ? true : false;
	cap->dlink_pin_config = (buf >> 8) & 0xff;
	cap->ulink_pin_config = (buf >> 16) & 0xff;

	dp_usbpd_init_port(&cap->port, port);
	}

	static void dp_usbpd_get_status(struct dp_usbpd_private *pd)
	{
	struct dp_usbpd *status = &pd->dp_usbpd;
	u32 buf = pd->vdo;
	int port = buf & 0x3;

	status->low_pow_st = (buf & BIT(2)) ? true : false;
	status->adaptor_dp_en = (buf & BIT(3)) ? true : false;
	status->multi_func = (buf & BIT(4)) ? true : false;
	status->usb_config_req = (buf & BIT(5)) ? true : false;
	status->exit_dp_mode = (buf & BIT(6)) ? true : false;
	status->hpd_high = (buf & BIT(7)) ? true : false;
	status->hpd_irq = (buf & BIT(8)) ? true : false;

	pr_debug("low_pow_st = %d, adaptor_dp_en = %d, multi_func = %d\n",
	status->low_pow_st, status->adaptor_dp_en,
	status->multi_func);
	pr_debug("usb_config_req = %d, exit_dp_mode = %d, hpd_high =%d\n",
	status->usb_config_req,
	status->exit_dp_mode, status->hpd_high);
	pr_debug("hpd_irq = %d\n", status->hpd_irq);

	dp_usbpd_init_port(&status->port, port);
	}

	static u32 dp_usbpd_gen_config_pkt(struct dp_usbpd_private *pd)
	{
	u8 pin_cfg, pin;
	u32 config = 0;
	const u32 ufp_d_config = 0x2, dp_ver = 0x1;

	if (pd->cap.receptacle_state)
	pin_cfg = pd->cap.ulink_pin_config;
	else
	pin_cfg = pd->cap.dlink_pin_config;

	for (pin = DP_USBPD_PIN_A; pin < DP_USBPD_PIN_MAX; pin++) {
	if (pin_cfg & BIT(pin)) {
	if (pd->dp_usbpd.multi_func) {
	if (pin == DP_USBPD_PIN_D)
	break;
	} else {
	break;
	}
	}
	}

	if (pin == DP_USBPD_PIN_MAX)
	pin = DP_USBPD_PIN_C;

	pr_debug("pin assignment: %s\n", dp_usbpd_pin_name(pin));

	config \|= BIT(pin) << 8;

	config \|= (dp_ver << 2);
	config \|= ufp_d_config;

	pr_debug("config = 0x%x\n", config);
	return config;
	}

	static void dp_usbpd_send_event(struct dp_usbpd_private *pd,
	enum dp_usbpd_events event)
	{
	u32 config;

	switch (event) {
	case DP_USBPD_EVT_DISCOVER:
	usbpd_send_svdm(pd->pd, USB_C_DP_SID,
	USBPD_SVDM_DISCOVER_MODES,
	SVDM_CMD_TYPE_INITIATOR, 0x0, 0x0, 0x0);
	break;
	case DP_USBPD_EVT_ENTER:
	usbpd_send_svdm(pd->pd, USB_C_DP_SID,
	USBPD_SVDM_ENTER_MODE,
	SVDM_CMD_TYPE_INITIATOR, 0x1, 0x0, 0x0);
	break;
	case DP_USBPD_EVT_EXIT:
	usbpd_send_svdm(pd->pd, USB_C_DP_SID,
	USBPD_SVDM_EXIT_MODE,
	SVDM_CMD_TYPE_INITIATOR, 0x1, 0x0, 0x0);
	break;
	case DP_USBPD_EVT_STATUS:
	config = 0x1; /* DFP_D connected */
	usbpd_send_svdm(pd->pd, USB_C_DP_SID, DP_USBPD_VDM_STATUS,
	SVDM_CMD_TYPE_INITIATOR, 0x1, &config, 0x1);
	break;
	case DP_USBPD_EVT_CONFIGURE:
	config = dp_usbpd_gen_config_pkt(pd);
	usbpd_send_svdm(pd->pd, USB_C_DP_SID, DP_USBPD_VDM_CONFIGURE,
	SVDM_CMD_TYPE_INITIATOR, 0x1, &config, 0x1);
	break;
	default:
	pr_err("unknown event:%d\n", event);
	}
	}

	static void dp_usbpd_connect_cb(struct usbpd_svid_handler *hdlr)
	{
	struct dp_usbpd_private *pd;

	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);
	if (!pd) {
	pr_err("get_usbpd phandle failed\n");
	return;
	}

	pr_debug("\n");
	dp_usbpd_send_event(pd, DP_USBPD_EVT_DISCOVER);
	}

	static void dp_usbpd_disconnect_cb(struct usbpd_svid_handler *hdlr)
	{
	struct dp_usbpd_private *pd;

	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);
	if (!pd) {
	pr_err("get_usbpd phandle failed\n");
	return;
	}

	pd->alt_mode = DP_USBPD_ALT_MODE_NONE;
	pd->dp_usbpd.alt_mode_cfg_done = false;
	pr_debug("\n");

	if (pd->dp_cb && pd->dp_cb->disconnect)
	pd->dp_cb->disconnect(pd->dev);
	}

	static int dp_usbpd_validate_callback(u8 cmd,
	enum usbpd_svdm_cmd_type cmd_type, int num_vdos)
	{
	int ret = 0;

	if (cmd_type == SVDM_CMD_TYPE_RESP_NAK) {
	pr_err("error: NACK\n");
	ret = -EINVAL;
	goto end;
	}

	if (cmd_type == SVDM_CMD_TYPE_RESP_BUSY) {
	pr_err("error: BUSY\n");
	ret = -EBUSY;
	goto end;
	}

	if (cmd == USBPD_SVDM_ATTENTION) {
	if (cmd_type != SVDM_CMD_TYPE_INITIATOR) {
	pr_err("error: invalid cmd type for attention\n");
	ret = -EINVAL;
	goto end;
	}

	if (!num_vdos) {
	pr_err("error: no vdo provided\n");
	ret = -EINVAL;
	goto end;
	}
	} else {
	if (cmd_type != SVDM_CMD_TYPE_RESP_ACK) {
	pr_err("error: invalid cmd type\n");
	ret = -EINVAL;
	}
	}
	end:
	return ret;
	}

	static void dp_usbpd_response_cb(struct usbpd_svid_handler *hdlr, u8 cmd,
	enum usbpd_svdm_cmd_type cmd_type,
	const u32 *vdos, int num_vdos)
	{
	struct dp_usbpd_private *pd;

	pd = container_of(hdlr, struct dp_usbpd_private, svid_handler);

	pr_debug("callback -> cmd: %s, *vdos = 0x%x, num_vdos = %d\n",
	dp_usbpd_cmd_name(cmd), *vdos, num_vdos);

	if (dp_usbpd_validate_callback(cmd, cmd_type, num_vdos)) {
	pr_debug("invalid callback received\n");
	return;
	}

	switch (cmd) {
	case USBPD_SVDM_DISCOVER_MODES:
	pd->vdo = *vdos;
	dp_usbpd_get_capabilities(pd);

	pd->alt_mode \|= DP_USBPD_ALT_MODE_DISCOVER;

	if (pd->cap.port & BIT(0))
	dp_usbpd_send_event(pd, DP_USBPD_EVT_ENTER);
	break;
	case USBPD_SVDM_ENTER_MODE:
	pd->alt_mode \|= DP_USBPD_ALT_MODE_ENTER;

	dp_usbpd_send_event(pd, DP_USBPD_EVT_STATUS);
	break;
	case USBPD_SVDM_ATTENTION:
	if (pd->forced_disconnect)
	break;

	pd->vdo = *vdos;
	dp_usbpd_get_status(pd);

	if (!pd->dp_usbpd.alt_mode_cfg_done) {
	if (pd->dp_usbpd.port & BIT(1))
	dp_usbpd_send_event(pd, DP_USBPD_EVT_CONFIGURE);
	break;
	}

	if (pd->dp_cb && pd->dp_cb->attention)
	pd->dp_cb->attention(pd->dev);

	break;
	case DP_USBPD_VDM_STATUS:
	pd->vdo = *vdos;
	dp_usbpd_get_status(pd);

	if (!(pd->alt_mode & DP_USBPD_ALT_MODE_CONFIGURE)) {
	pd->alt_mode \|= DP_USBPD_ALT_MODE_STATUS;

	if (pd->dp_usbpd.port & BIT(1))
	dp_usbpd_send_event(pd, DP_USBPD_EVT_CONFIGURE);
	}
	break;
	case DP_USBPD_VDM_CONFIGURE:
	pd->alt_mode \|= DP_USBPD_ALT_MODE_CONFIGURE;
	pd->dp_usbpd.alt_mode_cfg_done = true;
	dp_usbpd_get_status(pd);

	pd->dp_usbpd.orientation = usbpd_get_plug_orientation(pd->pd);

	/*
	* By default, USB reserves two lanes for Super Speed.
	* Which means DP has remaining two lanes to operate on.
	* If multi-function is not supported, request USB to
	* release the Super Speed lanes so that DP can use
	* all four lanes in case DPCD indicates support for
	* four lanes.
	*/
	if (!pd->dp_usbpd.multi_func)
	pd->svid_handler.request_usb_ss_lane(pd->pd,
	&pd->svid_handler);

	if (pd->dp_cb && pd->dp_cb->configure)
	pd->dp_cb->configure(pd->dev);
	break;
	default:
	pr_err("unknown cmd: %d\n", cmd);
	break;
	}
	}

	static int dp_usbpd_simulate_connect(struct dp_usbpd *dp_usbpd, bool hpd)
	{
	int rc = 0;
	struct dp_usbpd_private *pd;

	if (!dp_usbpd) {
	pr_err("invalid input\n");
	rc = -EINVAL;
	goto error;
	}

	pd = container_of(dp_usbpd, struct dp_usbpd_private, dp_usbpd);

	dp_usbpd->hpd_high = hpd;
	pd->forced_disconnect = !hpd;

	if (hpd)
	pd->dp_cb->configure(pd->dev);
	else
	pd->dp_cb->disconnect(pd->dev);

	error:
	return rc;
	}

	struct dp_usbpd dp_usbpd_get(struct device dev, struct dp_usbpd_cb *cb)
	{
	int rc = 0;
	const char *pd_phandle = "qcom,dp-usbpd-detection";
	struct usbpd *pd = NULL;
	struct dp_usbpd_private *usbpd;
	struct dp_usbpd *dp_usbpd;
	struct usbpd_svid_handler svid_handler = {
	.svid = USB_C_DP_SID,
	.vdm_received = NULL,
	.connect = &dp_usbpd_connect_cb,
	.svdm_received = &dp_usbpd_response_cb,
	.disconnect = &dp_usbpd_disconnect_cb,
	};

	if (!cb) {
	pr_err("invalid cb data\n");
	rc = -EINVAL;
	goto error;
	}

	pd = devm_usbpd_get_by_phandle(dev, pd_phandle);
	if (IS_ERR(pd)) {
	pr_err("usbpd phandle failed (%ld)\n", PTR_ERR(pd));
	rc = PTR_ERR(pd);
	goto error;
	}

	usbpd = devm_kzalloc(dev, sizeof(*usbpd), GFP_KERNEL);
	if (!usbpd) {
	rc = -ENOMEM;
	goto error;
	}

	usbpd->dev = dev;
	usbpd->pd = pd;
	usbpd->svid_handler = svid_handler;
	usbpd->dp_cb = cb;

	rc = usbpd_register_svid(pd, &usbpd->svid_handler);
	if (rc) {
	pr_err("pd registration failed\n");
	rc = -ENODEV;
	devm_kfree(dev, usbpd);
	goto error;
	}

	dp_usbpd = &usbpd->dp_usbpd;
	dp_usbpd->simulate_connect = dp_usbpd_simulate_connect;

	return dp_usbpd;
	error:
	return ERR_PTR(rc);
	}

	void dp_usbpd_put(struct dp_usbpd *dp_usbpd)
	{
	struct dp_usbpd_private *usbpd;

	if (!dp_usbpd)
	return;

	usbpd = container_of(dp_usbpd, struct dp_usbpd_private, dp_usbpd);

	usbpd_unregister_svid(usbpd->pd, &usbpd->svid_handler);

	devm_kfree(usbpd->dev, usbpd);
	}