// SPDX-License-Identifier: GPL-2.0 /** * USB Typec-C DisplayPort Alternate Mode driver * * Copyright (C) 2018 Intel Corporation * Author: Heikki Krogerus * * DisplayPort is trademark of VESA (www.vesa.org) */ #include #include #include #include #include #define DP_HEADER(cmd) (VDO(USB_TYPEC_DP_SID, 1, cmd) | \ VDO_OPOS(USB_TYPEC_DP_MODE)) enum { DP_CONF_USB, DP_CONF_DFP_D, DP_CONF_UFP_D, DP_CONF_DUAL_D, }; /* Helper for setting/getting the pin assignement value to the configuration */ #define DP_CONF_SET_PIN_ASSIGN(_a_) ((_a_) << 8) #define DP_CONF_GET_PIN_ASSIGN(_conf_) (((_conf_) & GENMASK(15, 8)) >> 8) /* Pin assignments that use USB3.1 Gen2 signaling to carry DP protocol */ #define DP_PIN_ASSIGN_GEN2_BR_MASK (BIT(DP_PIN_ASSIGN_A) | \ BIT(DP_PIN_ASSIGN_B)) /* Pin assignments that use DP v1.3 signaling to carry DP protocol */ #define DP_PIN_ASSIGN_DP_BR_MASK (BIT(DP_PIN_ASSIGN_C) | \ BIT(DP_PIN_ASSIGN_D) | \ BIT(DP_PIN_ASSIGN_E) | \ BIT(DP_PIN_ASSIGN_F)) /* DP only pin assignments */ #define DP_PIN_ASSIGN_DP_ONLY_MASK (BIT(DP_PIN_ASSIGN_A) | \ BIT(DP_PIN_ASSIGN_C) | \ BIT(DP_PIN_ASSIGN_E)) /* Pin assignments where one channel is for USB */ #define DP_PIN_ASSIGN_MULTI_FUNC_MASK (BIT(DP_PIN_ASSIGN_B) | \ BIT(DP_PIN_ASSIGN_D) | \ BIT(DP_PIN_ASSIGN_F)) enum dp_state { DP_STATE_IDLE, DP_STATE_ENTER, DP_STATE_UPDATE, DP_STATE_CONFIGURE, DP_STATE_EXIT, }; struct dp_altmode { struct typec_displayport_data data; enum dp_state state; struct mutex lock; /* device lock */ struct work_struct work; struct typec_altmode *alt; const struct typec_altmode *port; }; static int dp_altmode_notify(struct dp_altmode *dp) { u8 state = get_count_order(DP_CONF_GET_PIN_ASSIGN(dp->data.conf)); return typec_altmode_notify(dp->alt, TYPEC_MODAL_STATE(state), &dp->data); } static int dp_altmode_configure(struct dp_altmode *dp, u8 con) { u32 conf = DP_CONF_SIGNALING_DP; /* Only DP signaling supported */ u8 pin_assign = 0; switch (con) { case DP_STATUS_CON_DISABLED: return 0; case DP_STATUS_CON_DFP_D: conf |= DP_CONF_UFP_U_AS_DFP_D; pin_assign = DP_CAP_UFP_D_PIN_ASSIGN(dp->alt->vdo) & DP_CAP_DFP_D_PIN_ASSIGN(dp->port->vdo); break; case DP_STATUS_CON_UFP_D: case DP_STATUS_CON_BOTH: /* NOTE: First acting as DP source */ conf |= DP_CONF_UFP_U_AS_UFP_D; pin_assign = DP_CAP_DFP_D_PIN_ASSIGN(dp->alt->vdo) & DP_CAP_UFP_D_PIN_ASSIGN(dp->port->vdo); break; default: break; } /* Determining the initial pin assignment. */ if (!DP_CONF_GET_PIN_ASSIGN(dp->data.conf)) { /* Is USB together with DP preferred */ if (dp->data.status & DP_STATUS_PREFER_MULTI_FUNC && pin_assign & DP_PIN_ASSIGN_MULTI_FUNC_MASK) pin_assign &= DP_PIN_ASSIGN_MULTI_FUNC_MASK; else pin_assign &= DP_PIN_ASSIGN_DP_ONLY_MASK; if (!pin_assign) return -EINVAL; conf |= DP_CONF_SET_PIN_ASSIGN(pin_assign); } dp->data.conf = conf; return 0; } static int dp_altmode_status_update(struct dp_altmode *dp) { bool configured = !!DP_CONF_GET_PIN_ASSIGN(dp->data.conf); u8 con = DP_STATUS_CONNECTION(dp->data.status); int ret = 0; if (configured && (dp->data.status & DP_STATUS_SWITCH_TO_USB)) { dp->data.conf = 0; dp->state = DP_STATE_CONFIGURE; } else if (dp->data.status & DP_STATUS_EXIT_DP_MODE) { dp->state = DP_STATE_EXIT; } else if (!(con & DP_CONF_CURRENTLY(dp->data.conf))) { ret = dp_altmode_configure(dp, con); if (!ret) dp->state = DP_STATE_CONFIGURE; } return ret; } static int dp_altmode_configured(struct dp_altmode *dp) { int ret; sysfs_notify(&dp->alt->dev.kobj, "displayport", "configuration"); if (!dp->data.conf) return typec_altmode_notify(dp->alt, TYPEC_STATE_USB, &dp->data); ret = dp_altmode_notify(dp); if (ret) return ret; sysfs_notify(&dp->alt->dev.kobj, "displayport", "pin_assignment"); return 0; } static int dp_altmode_configure_vdm(struct dp_altmode *dp, u32 conf) { u32 header = DP_HEADER(DP_CMD_CONFIGURE); int ret; ret = typec_altmode_notify(dp->alt, TYPEC_STATE_SAFE, &dp->data); if (ret) { dev_err(&dp->alt->dev, "unable to put to connector to safe mode\n"); return ret; } ret = typec_altmode_vdm(dp->alt, header, &conf, 2); if (ret) { if (DP_CONF_GET_PIN_ASSIGN(dp->data.conf)) dp_altmode_notify(dp); else typec_altmode_notify(dp->alt, TYPEC_STATE_USB, &dp->data); } return ret; } static void dp_altmode_work(struct work_struct *work) { struct dp_altmode *dp = container_of(work, struct dp_altmode, work); u32 header; u32 vdo; int ret; mutex_lock(&dp->lock); switch (dp->state) { case DP_STATE_ENTER: ret = typec_altmode_enter(dp->alt); if (ret) dev_err(&dp->alt->dev, "failed to enter mode\n"); break; case DP_STATE_UPDATE: header = DP_HEADER(DP_CMD_STATUS_UPDATE); vdo = 1; ret = typec_altmode_vdm(dp->alt, header, &vdo, 2); if (ret) dev_err(&dp->alt->dev, "unable to send Status Update command (%d)\n", ret); break; case DP_STATE_CONFIGURE: ret = dp_altmode_configure_vdm(dp, dp->data.conf); if (ret) dev_err(&dp->alt->dev, "unable to send Configure command (%d)\n", ret); break; case DP_STATE_EXIT: if (typec_altmode_exit(dp->alt)) dev_err(&dp->alt->dev, "Exit Mode Failed!\n"); break; default: break; } dp->state = DP_STATE_IDLE; mutex_unlock(&dp->lock); } static void dp_altmode_attention(struct typec_altmode *alt, const u32 vdo) { struct dp_altmode *dp = typec_altmode_get_drvdata(alt); u8 old_state; mutex_lock(&dp->lock); old_state = dp->state; dp->data.status = vdo; if (old_state != DP_STATE_IDLE) dev_warn(&alt->dev, "ATTENTION while processing state %d\n", old_state); if (dp_altmode_status_update(dp)) dev_warn(&alt->dev, "%s: status update failed\n", __func__); if (dp_altmode_notify(dp)) dev_err(&alt->dev, "%s: notification failed\n", __func__); if (old_state == DP_STATE_IDLE && dp->state != DP_STATE_IDLE) schedule_work(&dp->work); mutex_unlock(&dp->lock); } static int dp_altmode_vdm(struct typec_altmode *alt, const u32 hdr, const u32 *vdo, int count) { struct dp_altmode *dp = typec_altmode_get_drvdata(alt); int cmd_type = PD_VDO_CMDT(hdr); int cmd = PD_VDO_CMD(hdr); int ret = 0; mutex_lock(&dp->lock); if (dp->state != DP_STATE_IDLE) { ret = -EBUSY; goto err_unlock; } switch (cmd_type) { case CMDT_RSP_ACK: switch (cmd) { case CMD_ENTER_MODE: dp->state = DP_STATE_UPDATE; break; case CMD_EXIT_MODE: dp->data.status = 0; dp->data.conf = 0; break; case DP_CMD_STATUS_UPDATE: dp->data.status = *vdo; ret = dp_altmode_status_update(dp); break; case DP_CMD_CONFIGURE: ret = dp_altmode_configured(dp); break; default: break; } break; case CMDT_RSP_NAK: switch (cmd) { case DP_CMD_CONFIGURE: dp->data.conf = 0; ret = dp_altmode_configured(dp); break; default: break; } break; default: break; } if (dp->state != DP_STATE_IDLE) schedule_work(&dp->work); err_unlock: mutex_unlock(&dp->lock); return ret; } static int dp_altmode_activate(struct typec_altmode *alt, int activate) { return activate ? typec_altmode_enter(alt) : typec_altmode_exit(alt); } static const struct typec_altmode_ops dp_altmode_ops = { .attention = dp_altmode_attention, .vdm = dp_altmode_vdm, .activate = dp_altmode_activate, }; static const char * const configurations[] = { [DP_CONF_USB] = "USB", [DP_CONF_DFP_D] = "source", [DP_CONF_UFP_D] = "sink", }; static ssize_t configuration_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t size) { struct dp_altmode *dp = dev_get_drvdata(dev); u32 conf; u32 cap; int con; int ret = 0; con = sysfs_match_string(configurations, buf); if (con < 0) return con; mutex_lock(&dp->lock); if (dp->state != DP_STATE_IDLE) { ret = -EBUSY; goto err_unlock; } cap = DP_CAP_CAPABILITY(dp->alt->vdo); if ((con == DP_CONF_DFP_D && !(cap & DP_CAP_DFP_D)) || (con == DP_CONF_UFP_D && !(cap & DP_CAP_UFP_D))) { ret = -EINVAL; goto err_unlock; } conf = dp->data.conf & ~DP_CONF_DUAL_D; conf |= con; if (dp->alt->active) { ret = dp_altmode_configure_vdm(dp, conf); if (ret) goto err_unlock; } dp->data.conf = conf; err_unlock: mutex_unlock(&dp->lock); return ret ? ret : size; } static ssize_t configuration_show(struct device *dev, struct device_attribute *attr, char *buf) { struct dp_altmode *dp = dev_get_drvdata(dev); int len; u8 cap; u8 cur; int i; mutex_lock(&dp->lock); cap = DP_CAP_CAPABILITY(dp->alt->vdo); cur = DP_CONF_CURRENTLY(dp->data.conf); len = sprintf(buf, "%s ", cur ? "USB" : "[USB]"); for (i = 1; i < ARRAY_SIZE(configurations); i++) { if (i == cur) len += sprintf(buf + len, "[%s] ", configurations[i]); else if ((i == DP_CONF_DFP_D && cap & DP_CAP_DFP_D) || (i == DP_CONF_UFP_D && cap & DP_CAP_UFP_D)) len += sprintf(buf + len, "%s ", configurations[i]); } mutex_unlock(&dp->lock); buf[len - 1] = '\n'; return len; } static DEVICE_ATTR_RW(configuration); static const char * const pin_assignments[] = { [DP_PIN_ASSIGN_A] = "A", [DP_PIN_ASSIGN_B] = "B", [DP_PIN_ASSIGN_C] = "C", [DP_PIN_ASSIGN_D] = "D", [DP_PIN_ASSIGN_E] = "E", [DP_PIN_ASSIGN_F] = "F", }; static ssize_t pin_assignment_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t size) { struct dp_altmode *dp = dev_get_drvdata(dev); u8 assignments; u32 conf; int ret; ret = sysfs_match_string(pin_assignments, buf); if (ret < 0) return ret; conf = DP_CONF_SET_PIN_ASSIGN(BIT(ret)); ret = 0; mutex_lock(&dp->lock); if (conf & dp->data.conf) goto out_unlock; if (dp->state != DP_STATE_IDLE) { ret = -EBUSY; goto out_unlock; } if (DP_CONF_CURRENTLY(dp->data.conf) == DP_CONF_DFP_D) assignments = DP_CAP_UFP_D_PIN_ASSIGN(dp->alt->vdo); else assignments = DP_CAP_DFP_D_PIN_ASSIGN(dp->alt->vdo); if (!(DP_CONF_GET_PIN_ASSIGN(conf) & assignments)) { ret = -EINVAL; goto out_unlock; } conf |= dp->data.conf & ~DP_CONF_PIN_ASSIGNEMENT_MASK; /* Only send Configure command if a configuration has been set */ if (dp->alt->active && DP_CONF_CURRENTLY(dp->data.conf)) { ret = dp_altmode_configure_vdm(dp, conf); if (ret) goto out_unlock; } dp->data.conf = conf; out_unlock: mutex_unlock(&dp->lock); return ret ? ret : size; } static ssize_t pin_assignment_show(struct device *dev, struct device_attribute *attr, char *buf) { struct dp_altmode *dp = dev_get_drvdata(dev); u8 assignments; int len = 0; u8 cur; int i; mutex_lock(&dp->lock); cur = get_count_order(DP_CONF_GET_PIN_ASSIGN(dp->data.conf)); if (DP_CONF_CURRENTLY(dp->data.conf) == DP_CONF_DFP_D) assignments = DP_CAP_UFP_D_PIN_ASSIGN(dp->alt->vdo); else assignments = DP_CAP_DFP_D_PIN_ASSIGN(dp->alt->vdo); for (i = 0; assignments; assignments >>= 1, i++) { if (assignments & 1) { if (i == cur) len += sprintf(buf + len, "[%s] ", pin_assignments[i]); else len += sprintf(buf + len, "%s ", pin_assignments[i]); } } mutex_unlock(&dp->lock); buf[len - 1] = '\n'; return len; } static DEVICE_ATTR_RW(pin_assignment); static struct attribute *dp_altmode_attrs[] = { &dev_attr_configuration.attr, &dev_attr_pin_assignment.attr, NULL }; static const struct attribute_group dp_altmode_group = { .name = "displayport", .attrs = dp_altmode_attrs, }; static int dp_altmode_probe(struct typec_altmode *alt) { const struct typec_altmode *port = typec_altmode_get_partner(alt); struct dp_altmode *dp; int ret; /* FIXME: Port can only be DFP_U. */ /* Make sure we have compatiple pin configurations */ if (!(DP_CAP_DFP_D_PIN_ASSIGN(port->vdo) & DP_CAP_UFP_D_PIN_ASSIGN(alt->vdo)) && !(DP_CAP_UFP_D_PIN_ASSIGN(port->vdo) & DP_CAP_DFP_D_PIN_ASSIGN(alt->vdo))) return -ENODEV; ret = sysfs_create_group(&alt->dev.kobj, &dp_altmode_group); if (ret) return ret; dp = devm_kzalloc(&alt->dev, sizeof(*dp), GFP_KERNEL); if (!dp) return -ENOMEM; INIT_WORK(&dp->work, dp_altmode_work); mutex_init(&dp->lock); dp->port = port; dp->alt = alt; alt->desc = "DisplayPort"; alt->ops = &dp_altmode_ops; typec_altmode_set_drvdata(alt, dp); dp->state = DP_STATE_ENTER; schedule_work(&dp->work); return 0; } static void dp_altmode_remove(struct typec_altmode *alt) { struct dp_altmode *dp = typec_altmode_get_drvdata(alt); sysfs_remove_group(&alt->dev.kobj, &dp_altmode_group); cancel_work_sync(&dp->work); } static const struct typec_device_id dp_typec_id[] = { { USB_TYPEC_DP_SID, USB_TYPEC_DP_MODE }, { }, }; MODULE_DEVICE_TABLE(typec, dp_typec_id); static struct typec_altmode_driver dp_altmode_driver = { .id_table = dp_typec_id, .probe = dp_altmode_probe, .remove = dp_altmode_remove, .driver = { .name = "typec_displayport", .owner = THIS_MODULE, }, }; module_typec_altmode_driver(dp_altmode_driver); MODULE_AUTHOR("Heikki Krogerus "); MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("DisplayPort Alternate Mode");