// SPDX-License-Identifier: GPL-2.0 /* * USB Type-C Connector System Software Interface driver * * Copyright (C) 2017, Intel Corporation * Author: Heikki Krogerus */ #include #include #include #include #include #include #include #include "ucsi.h" #include "trace.h" /* * UCSI_TIMEOUT_MS - PPM communication timeout * * Ideally we could use MIN_TIME_TO_RESPOND_WITH_BUSY (which is defined in UCSI * specification) here as reference, but unfortunately we can't. It is very * difficult to estimate the time it takes for the system to process the command * before it is actually passed to the PPM. */ #define UCSI_TIMEOUT_MS 5000 /* * UCSI_SWAP_TIMEOUT_MS - Timeout for role swap requests * * 5 seconds is close to the time it takes for CapsCounter to reach 0, so even * if the PPM does not generate Connector Change events before that with * partners that do not support USB Power Delivery, this should still work. */ #define UCSI_SWAP_TIMEOUT_MS 5000 static int ucsi_read_message_in(struct ucsi *ucsi, void *buf, size_t buf_size) { /* * Below UCSI 2.0, MESSAGE_IN was limited to 16 bytes. Truncate the * reads here. */ if (ucsi->version <= UCSI_VERSION_1_2) buf_size = clamp(buf_size, 0, 16); return ucsi->ops->read(ucsi, UCSI_MESSAGE_IN, buf, buf_size); } static int ucsi_acknowledge(struct ucsi *ucsi, bool conn_ack) { u64 ctrl; ctrl = UCSI_ACK_CC_CI; ctrl |= UCSI_ACK_COMMAND_COMPLETE; if (conn_ack) { clear_bit(EVENT_PENDING, &ucsi->flags); ctrl |= UCSI_ACK_CONNECTOR_CHANGE; } return ucsi->ops->sync_write(ucsi, UCSI_CONTROL, &ctrl, sizeof(ctrl)); } static int ucsi_exec_command(struct ucsi *ucsi, u64 command); static int ucsi_read_error(struct ucsi *ucsi) { u16 error; int ret; /* Acknowledge the command that failed */ ret = ucsi_acknowledge(ucsi, false); if (ret) return ret; ret = ucsi_exec_command(ucsi, UCSI_GET_ERROR_STATUS); if (ret < 0) return ret; ret = ucsi_read_message_in(ucsi, &error, sizeof(error)); if (ret) return ret; ret = ucsi_acknowledge(ucsi, false); if (ret) return ret; switch (error) { case UCSI_ERROR_INCOMPATIBLE_PARTNER: return -EOPNOTSUPP; case UCSI_ERROR_CC_COMMUNICATION_ERR: return -ECOMM; case UCSI_ERROR_CONTRACT_NEGOTIATION_FAIL: return -EPROTO; case UCSI_ERROR_DEAD_BATTERY: dev_warn(ucsi->dev, "Dead battery condition!\n"); return -EPERM; case UCSI_ERROR_INVALID_CON_NUM: case UCSI_ERROR_UNREGONIZED_CMD: case UCSI_ERROR_INVALID_CMD_ARGUMENT: dev_err(ucsi->dev, "possible UCSI driver bug %u\n", error); return -EINVAL; case UCSI_ERROR_OVERCURRENT: dev_warn(ucsi->dev, "Overcurrent condition\n"); break; case UCSI_ERROR_PARTNER_REJECTED_SWAP: dev_warn(ucsi->dev, "Partner rejected swap\n"); break; case UCSI_ERROR_HARD_RESET: dev_warn(ucsi->dev, "Hard reset occurred\n"); break; case UCSI_ERROR_PPM_POLICY_CONFLICT: dev_warn(ucsi->dev, "PPM Policy conflict\n"); break; case UCSI_ERROR_SWAP_REJECTED: dev_warn(ucsi->dev, "Swap rejected\n"); break; case UCSI_ERROR_UNDEFINED: default: dev_err(ucsi->dev, "unknown error %u\n", error); break; } return -EIO; } static int ucsi_exec_command(struct ucsi *ucsi, u64 cmd) { u32 cci; int ret; ret = ucsi->ops->sync_write(ucsi, UCSI_CONTROL, &cmd, sizeof(cmd)); if (ret) return ret; ret = ucsi->ops->read(ucsi, UCSI_CCI, &cci, sizeof(cci)); if (ret) return ret; if (cmd != UCSI_CANCEL && cci & UCSI_CCI_BUSY) return ucsi_exec_command(ucsi, UCSI_CANCEL); if (!(cci & UCSI_CCI_COMMAND_COMPLETE)) return -EIO; if (cci & UCSI_CCI_NOT_SUPPORTED) { if (ucsi_acknowledge(ucsi, false) < 0) dev_err(ucsi->dev, "ACK of unsupported command failed\n"); return -EOPNOTSUPP; } if (cci & UCSI_CCI_ERROR) { if (cmd == UCSI_GET_ERROR_STATUS) { ret = ucsi_acknowledge(ucsi, false); if (ret) return ret; return -EIO; } return ucsi_read_error(ucsi); } if (cmd == UCSI_CANCEL && cci & UCSI_CCI_CANCEL_COMPLETE) { ret = ucsi_acknowledge(ucsi, false); return ret ? ret : -EBUSY; } return UCSI_CCI_LENGTH(cci); } static int ucsi_send_command_common(struct ucsi *ucsi, u64 command, void *data, size_t size, bool conn_ack) { u8 length; int ret; mutex_lock(&ucsi->ppm_lock); ret = ucsi_exec_command(ucsi, command); if (ret < 0) goto out; length = ret; if (data) { ret = ucsi_read_message_in(ucsi, data, size); if (ret) goto out; } ret = ucsi_acknowledge(ucsi, conn_ack); if (ret) goto out; ret = length; out: mutex_unlock(&ucsi->ppm_lock); return ret; } int ucsi_send_command(struct ucsi *ucsi, u64 command, void *data, size_t size) { return ucsi_send_command_common(ucsi, command, data, size, false); } EXPORT_SYMBOL_GPL(ucsi_send_command); /* -------------------------------------------------------------------------- */ struct ucsi_work { struct delayed_work work; struct list_head node; unsigned long delay; unsigned int count; struct ucsi_connector *con; int (*cb)(struct ucsi_connector *); }; static void ucsi_poll_worker(struct work_struct *work) { struct ucsi_work *uwork = container_of(work, struct ucsi_work, work.work); struct ucsi_connector *con = uwork->con; int ret; mutex_lock(&con->lock); if (!con->partner) { list_del(&uwork->node); mutex_unlock(&con->lock); kfree(uwork); return; } ret = uwork->cb(con); if (uwork->count-- && (ret == -EBUSY || ret == -ETIMEDOUT)) { queue_delayed_work(con->wq, &uwork->work, uwork->delay); } else { list_del(&uwork->node); kfree(uwork); } mutex_unlock(&con->lock); } static int ucsi_partner_task(struct ucsi_connector *con, int (*cb)(struct ucsi_connector *), int retries, unsigned long delay) { struct ucsi_work *uwork; if (!con->partner) return 0; uwork = kzalloc(sizeof(*uwork), GFP_KERNEL); if (!uwork) return -ENOMEM; INIT_DELAYED_WORK(&uwork->work, ucsi_poll_worker); uwork->count = retries; uwork->delay = delay; uwork->con = con; uwork->cb = cb; list_add_tail(&uwork->node, &con->partner_tasks); queue_delayed_work(con->wq, &uwork->work, delay); return 0; } /* -------------------------------------------------------------------------- */ void ucsi_altmode_update_active(struct ucsi_connector *con) { const struct typec_altmode *altmode = NULL; u64 command; int ret; u8 cur; int i; command = UCSI_GET_CURRENT_CAM | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(con->ucsi, command, &cur, sizeof(cur)); if (ret < 0) { if (con->ucsi->version > 0x0100) { dev_err(con->ucsi->dev, "GET_CURRENT_CAM command failed\n"); return; } cur = 0xff; } if (cur < UCSI_MAX_ALTMODES) altmode = typec_altmode_get_partner(con->port_altmode[cur]); for (i = 0; con->partner_altmode[i]; i++) typec_altmode_update_active(con->partner_altmode[i], con->partner_altmode[i] == altmode); } static int ucsi_altmode_next_mode(struct typec_altmode **alt, u16 svid) { u8 mode = 1; int i; for (i = 0; alt[i]; i++) { if (i > MODE_DISCOVERY_MAX) return -ERANGE; if (alt[i]->svid == svid) mode++; } return mode; } static int ucsi_next_altmode(struct typec_altmode **alt) { int i = 0; for (i = 0; i < UCSI_MAX_ALTMODES; i++) if (!alt[i]) return i; return -ENOENT; } static int ucsi_get_num_altmode(struct typec_altmode **alt) { int i; for (i = 0; i < UCSI_MAX_ALTMODES; i++) if (!alt[i]) break; return i; } static int ucsi_register_altmode(struct ucsi_connector *con, struct typec_altmode_desc *desc, u8 recipient) { struct typec_altmode *alt; bool override; int ret; int i; override = !!(con->ucsi->cap.features & UCSI_CAP_ALT_MODE_OVERRIDE); switch (recipient) { case UCSI_RECIPIENT_CON: i = ucsi_next_altmode(con->port_altmode); if (i < 0) { ret = i; goto err; } ret = ucsi_altmode_next_mode(con->port_altmode, desc->svid); if (ret < 0) return ret; desc->mode = ret; switch (desc->svid) { case USB_TYPEC_DP_SID: alt = ucsi_register_displayport(con, override, i, desc); break; case USB_TYPEC_NVIDIA_VLINK_SID: if (desc->vdo == USB_TYPEC_NVIDIA_VLINK_DBG_VDO) alt = typec_port_register_altmode(con->port, desc); else alt = ucsi_register_displayport(con, override, i, desc); break; default: alt = typec_port_register_altmode(con->port, desc); break; } if (IS_ERR(alt)) { ret = PTR_ERR(alt); goto err; } con->port_altmode[i] = alt; break; case UCSI_RECIPIENT_SOP: i = ucsi_next_altmode(con->partner_altmode); if (i < 0) { ret = i; goto err; } ret = ucsi_altmode_next_mode(con->partner_altmode, desc->svid); if (ret < 0) return ret; desc->mode = ret; alt = typec_partner_register_altmode(con->partner, desc); if (IS_ERR(alt)) { ret = PTR_ERR(alt); goto err; } con->partner_altmode[i] = alt; break; case UCSI_RECIPIENT_SOP_P: i = ucsi_next_altmode(con->plug_altmode); if (i < 0) { ret = i; goto err; } ret = ucsi_altmode_next_mode(con->plug_altmode, desc->svid); if (ret < 0) return ret; desc->mode = ret; alt = typec_plug_register_altmode(con->plug, desc); if (IS_ERR(alt)) { ret = PTR_ERR(alt); goto err; } con->plug_altmode[i] = alt; break; default: return -EINVAL; } trace_ucsi_register_altmode(recipient, alt); return 0; err: dev_err(con->ucsi->dev, "failed to registers svid 0x%04x mode %d\n", desc->svid, desc->mode); return ret; } static int ucsi_register_altmodes_nvidia(struct ucsi_connector *con, u8 recipient) { int max_altmodes = UCSI_MAX_ALTMODES; struct typec_altmode_desc desc; struct ucsi_altmode alt; struct ucsi_altmode orig[UCSI_MAX_ALTMODES]; struct ucsi_altmode updated[UCSI_MAX_ALTMODES]; struct ucsi *ucsi = con->ucsi; bool multi_dp = false; u64 command; int ret; int len; int i; int k = 0; if (recipient == UCSI_RECIPIENT_CON) max_altmodes = con->ucsi->cap.num_alt_modes; memset(orig, 0, sizeof(orig)); memset(updated, 0, sizeof(updated)); /* First get all the alternate modes */ for (i = 0; i < max_altmodes; i++) { memset(&alt, 0, sizeof(alt)); command = UCSI_GET_ALTERNATE_MODES; command |= UCSI_GET_ALTMODE_RECIPIENT(recipient); command |= UCSI_GET_ALTMODE_CONNECTOR_NUMBER(con->num); command |= UCSI_GET_ALTMODE_OFFSET(i); len = ucsi_send_command(con->ucsi, command, &alt, sizeof(alt)); /* * We are collecting all altmodes first and then registering. * Some type-C device will return zero length data beyond last * alternate modes. We should not return if length is zero. */ if (len < 0) return len; /* We got all altmodes, now break out and register them */ if (!len || !alt.svid) break; orig[k].mid = alt.mid; orig[k].svid = alt.svid; k++; } /* * Update the original altmode table as some ppms may report * multiple DP altmodes. */ if (recipient == UCSI_RECIPIENT_CON) multi_dp = ucsi->ops->update_altmodes(ucsi, orig, updated); /* now register altmodes */ for (i = 0; i < max_altmodes; i++) { memset(&desc, 0, sizeof(desc)); if (multi_dp && recipient == UCSI_RECIPIENT_CON) { desc.svid = updated[i].svid; desc.vdo = updated[i].mid; } else { desc.svid = orig[i].svid; desc.vdo = orig[i].mid; } desc.roles = TYPEC_PORT_DRD; if (!desc.svid) return 0; ret = ucsi_register_altmode(con, &desc, recipient); if (ret) return ret; } return 0; } static int ucsi_register_altmodes(struct ucsi_connector *con, u8 recipient) { int max_altmodes = UCSI_MAX_ALTMODES; struct typec_altmode_desc desc; struct ucsi_altmode alt[2]; u64 command; int num; int ret; int len; int j; int i; if (!(con->ucsi->cap.features & UCSI_CAP_ALT_MODE_DETAILS)) return 0; if (recipient == UCSI_RECIPIENT_SOP && con->partner_altmode[0]) return 0; if (con->ucsi->ops->update_altmodes) return ucsi_register_altmodes_nvidia(con, recipient); if (recipient == UCSI_RECIPIENT_CON) max_altmodes = con->ucsi->cap.num_alt_modes; for (i = 0; i < max_altmodes;) { memset(alt, 0, sizeof(alt)); command = UCSI_GET_ALTERNATE_MODES; command |= UCSI_GET_ALTMODE_RECIPIENT(recipient); command |= UCSI_GET_ALTMODE_CONNECTOR_NUMBER(con->num); command |= UCSI_GET_ALTMODE_OFFSET(i); len = ucsi_send_command(con->ucsi, command, alt, sizeof(alt)); if (len == -EBUSY) continue; if (len <= 0) return len; /* * This code is requesting one alt mode at a time, but some PPMs * may still return two. If that happens both alt modes need be * registered and the offset for the next alt mode has to be * incremented. */ num = len / sizeof(alt[0]); i += num; for (j = 0; j < num; j++) { if (!alt[j].svid) return 0; memset(&desc, 0, sizeof(desc)); desc.vdo = alt[j].mid; desc.svid = alt[j].svid; desc.roles = TYPEC_PORT_DRD; ret = ucsi_register_altmode(con, &desc, recipient); if (ret) return ret; } } return 0; } static void ucsi_unregister_altmodes(struct ucsi_connector *con, u8 recipient) { const struct typec_altmode *pdev; struct typec_altmode **adev; int i = 0; switch (recipient) { case UCSI_RECIPIENT_CON: adev = con->port_altmode; break; case UCSI_RECIPIENT_SOP: adev = con->partner_altmode; break; case UCSI_RECIPIENT_SOP_P: adev = con->plug_altmode; break; default: return; } while (adev[i]) { if (recipient == UCSI_RECIPIENT_SOP && (adev[i]->svid == USB_TYPEC_DP_SID || (adev[i]->svid == USB_TYPEC_NVIDIA_VLINK_SID && adev[i]->vdo != USB_TYPEC_NVIDIA_VLINK_DBG_VDO))) { pdev = typec_altmode_get_partner(adev[i]); ucsi_displayport_remove_partner((void *)pdev); } typec_unregister_altmode(adev[i]); adev[i++] = NULL; } } static int ucsi_read_pdos(struct ucsi_connector *con, enum typec_role role, int is_partner, u32 *pdos, int offset, int num_pdos) { struct ucsi *ucsi = con->ucsi; u64 command; int ret; if (is_partner && ucsi->quirks & UCSI_NO_PARTNER_PDOS && ((con->status.flags & UCSI_CONSTAT_PWR_DIR) || !is_source(role))) return 0; command = UCSI_COMMAND(UCSI_GET_PDOS) | UCSI_CONNECTOR_NUMBER(con->num); command |= UCSI_GET_PDOS_PARTNER_PDO(is_partner); command |= UCSI_GET_PDOS_PDO_OFFSET(offset); command |= UCSI_GET_PDOS_NUM_PDOS(num_pdos - 1); command |= is_source(role) ? UCSI_GET_PDOS_SRC_PDOS : 0; ret = ucsi_send_command(ucsi, command, pdos + offset, num_pdos * sizeof(u32)); if (ret < 0 && ret != -ETIMEDOUT) dev_err(ucsi->dev, "UCSI_GET_PDOS failed (%d)\n", ret); return ret; } static int ucsi_get_pdos(struct ucsi_connector *con, enum typec_role role, int is_partner, u32 *pdos) { u8 num_pdos; int ret; /* UCSI max payload means only getting at most 4 PDOs at a time */ ret = ucsi_read_pdos(con, role, is_partner, pdos, 0, UCSI_MAX_PDOS); if (ret < 0) return ret; num_pdos = ret / sizeof(u32); /* number of bytes to 32-bit PDOs */ if (num_pdos < UCSI_MAX_PDOS) return num_pdos; /* get the remaining PDOs, if any */ ret = ucsi_read_pdos(con, role, is_partner, pdos, UCSI_MAX_PDOS, PDO_MAX_OBJECTS - UCSI_MAX_PDOS); if (ret < 0) return ret; return ret / sizeof(u32) + num_pdos; } static int ucsi_get_src_pdos(struct ucsi_connector *con) { int ret; ret = ucsi_get_pdos(con, TYPEC_SOURCE, 1, con->src_pdos); if (ret < 0) return ret; con->num_pdos = ret; ucsi_port_psy_changed(con); return ret; } static struct usb_power_delivery_capabilities *ucsi_get_pd_caps(struct ucsi_connector *con, enum typec_role role, bool is_partner) { struct usb_power_delivery_capabilities_desc pd_caps; int ret; ret = ucsi_get_pdos(con, role, is_partner, pd_caps.pdo); if (ret <= 0) return ERR_PTR(ret); if (ret < PDO_MAX_OBJECTS) pd_caps.pdo[ret] = 0; pd_caps.role = role; return usb_power_delivery_register_capabilities(is_partner ? con->partner_pd : con->pd, &pd_caps); } static int ucsi_read_identity(struct ucsi_connector *con, u8 recipient, u8 offset, u8 bytes, void *resp) { struct ucsi *ucsi = con->ucsi; u64 command; int ret; command = UCSI_COMMAND(UCSI_GET_PD_MESSAGE) | UCSI_CONNECTOR_NUMBER(con->num); command |= UCSI_GET_PD_MESSAGE_RECIPIENT(recipient); command |= UCSI_GET_PD_MESSAGE_OFFSET(offset); command |= UCSI_GET_PD_MESSAGE_BYTES(bytes); command |= UCSI_GET_PD_MESSAGE_TYPE(UCSI_GET_PD_MESSAGE_TYPE_IDENTITY); ret = ucsi_send_command(ucsi, command, resp, bytes); if (ret < 0) dev_err(ucsi->dev, "UCSI_GET_PD_MESSAGE failed (%d)\n", ret); return ret; } static int ucsi_get_identity(struct ucsi_connector *con, u8 recipient, struct usb_pd_identity *id) { struct ucsi *ucsi = con->ucsi; struct ucsi_pd_message_disc_id resp = {}; int ret; if (ucsi->version < UCSI_VERSION_2_0) { /* * Before UCSI v2.0, MESSAGE_IN is 16 bytes which cannot fit * the 28 byte identity response including the VDM header. * First request the VDM header, ID Header VDO, Cert Stat VDO * and Product VDO. */ ret = ucsi_read_identity(con, recipient, 0, 0x10, &resp); if (ret < 0) return ret; /* Then request Product Type VDO1 through Product Type VDO3. */ ret = ucsi_read_identity(con, recipient, 0x10, 0xc, &resp.vdo[0]); if (ret < 0) return ret; } else { /* * In UCSI v2.0 and after, MESSAGE_IN is large enough to request * the large enough to request the full Discover Identity * response at once. */ ret = ucsi_read_identity(con, recipient, 0x0, 0x1c, &resp); if (ret < 0) return ret; } id->id_header = resp.id_header; id->cert_stat = resp.cert_stat; id->product = resp.product; id->vdo[0] = resp.vdo[0]; id->vdo[1] = resp.vdo[1]; id->vdo[2] = resp.vdo[2]; return 0; } static int ucsi_get_partner_identity(struct ucsi_connector *con) { int ret; ret = ucsi_get_identity(con, UCSI_RECIPIENT_SOP, &con->partner_identity); if (ret < 0) return ret; ret = typec_partner_set_identity(con->partner); if (ret < 0) { dev_err(con->ucsi->dev, "Failed to set partner identity (%d)\n", ret); } return ret; } static int ucsi_get_cable_identity(struct ucsi_connector *con) { int ret; ret = ucsi_get_identity(con, UCSI_RECIPIENT_SOP_P, &con->cable_identity); if (ret < 0) return ret; ret = typec_cable_set_identity(con->cable); if (ret < 0) { dev_err(con->ucsi->dev, "Failed to set cable identity (%d)\n", ret); } return ret; } static int ucsi_check_altmodes(struct ucsi_connector *con) { int ret, num_partner_am; ret = ucsi_register_altmodes(con, UCSI_RECIPIENT_SOP); if (ret && ret != -ETIMEDOUT) dev_err(con->ucsi->dev, "con%d: failed to register partner alt modes (%d)\n", con->num, ret); /* Ignoring the errors in this case. */ if (con->partner_altmode[0]) { num_partner_am = ucsi_get_num_altmode(con->partner_altmode); if (num_partner_am > 0) typec_partner_set_num_altmodes(con->partner, num_partner_am); ucsi_altmode_update_active(con); return 0; } return ret; } static void ucsi_register_device_pdos(struct ucsi_connector *con) { struct ucsi *ucsi = con->ucsi; struct usb_power_delivery_desc desc = { ucsi->cap.pd_version }; struct usb_power_delivery_capabilities *pd_cap; if (con->pd) return; con->pd = usb_power_delivery_register(ucsi->dev, &desc); pd_cap = ucsi_get_pd_caps(con, TYPEC_SOURCE, false); if (!IS_ERR(pd_cap)) con->port_source_caps = pd_cap; pd_cap = ucsi_get_pd_caps(con, TYPEC_SINK, false); if (!IS_ERR(pd_cap)) con->port_sink_caps = pd_cap; typec_port_set_usb_power_delivery(con->port, con->pd); } static int ucsi_register_partner_pdos(struct ucsi_connector *con) { struct usb_power_delivery_desc desc = { con->ucsi->cap.pd_version }; struct usb_power_delivery_capabilities *cap; if (con->partner_pd) return 0; con->partner_pd = typec_partner_usb_power_delivery_register(con->partner, &desc); if (IS_ERR(con->partner_pd)) return PTR_ERR(con->partner_pd); cap = ucsi_get_pd_caps(con, TYPEC_SOURCE, true); if (IS_ERR(cap)) return PTR_ERR(cap); con->partner_source_caps = cap; cap = ucsi_get_pd_caps(con, TYPEC_SINK, true); if (IS_ERR(cap)) return PTR_ERR(cap); con->partner_sink_caps = cap; return typec_partner_set_usb_power_delivery(con->partner, con->partner_pd); } static void ucsi_unregister_partner_pdos(struct ucsi_connector *con) { usb_power_delivery_unregister_capabilities(con->partner_sink_caps); con->partner_sink_caps = NULL; usb_power_delivery_unregister_capabilities(con->partner_source_caps); con->partner_source_caps = NULL; usb_power_delivery_unregister(con->partner_pd); con->partner_pd = NULL; } static int ucsi_register_plug(struct ucsi_connector *con) { struct typec_plug *plug; struct typec_plug_desc desc = {.index = TYPEC_PLUG_SOP_P}; plug = typec_register_plug(con->cable, &desc); if (IS_ERR(plug)) { dev_err(con->ucsi->dev, "con%d: failed to register plug (%ld)\n", con->num, PTR_ERR(plug)); return PTR_ERR(plug); } con->plug = plug; return 0; } static void ucsi_unregister_plug(struct ucsi_connector *con) { if (!con->plug) return; ucsi_unregister_altmodes(con, UCSI_RECIPIENT_SOP_P); typec_unregister_plug(con->plug); con->plug = NULL; } static int ucsi_register_cable(struct ucsi_connector *con) { struct typec_cable *cable; struct typec_cable_desc desc = {}; switch (UCSI_CABLE_PROP_FLAG_PLUG_TYPE(con->cable_prop.flags)) { case UCSI_CABLE_PROPERTY_PLUG_TYPE_A: desc.type = USB_PLUG_TYPE_A; break; case UCSI_CABLE_PROPERTY_PLUG_TYPE_B: desc.type = USB_PLUG_TYPE_B; break; case UCSI_CABLE_PROPERTY_PLUG_TYPE_C: desc.type = USB_PLUG_TYPE_C; break; default: desc.type = USB_PLUG_NONE; break; } desc.identity = &con->cable_identity; desc.active = !!(UCSI_CABLE_PROP_FLAG_ACTIVE_CABLE & con->cable_prop.flags); desc.pd_revision = UCSI_CABLE_PROP_FLAG_PD_MAJOR_REV_AS_BCD( con->cable_prop.flags); cable = typec_register_cable(con->port, &desc); if (IS_ERR(cable)) { dev_err(con->ucsi->dev, "con%d: failed to register cable (%ld)\n", con->num, PTR_ERR(cable)); return PTR_ERR(cable); } con->cable = cable; return 0; } static void ucsi_unregister_cable(struct ucsi_connector *con) { if (!con->cable) return; ucsi_unregister_plug(con); typec_unregister_cable(con->cable); memset(&con->cable_identity, 0, sizeof(con->cable_identity)); con->cable = NULL; } static void ucsi_pwr_opmode_change(struct ucsi_connector *con) { switch (UCSI_CONSTAT_PWR_OPMODE(con->status.flags)) { case UCSI_CONSTAT_PWR_OPMODE_PD: con->rdo = con->status.request_data_obj; typec_set_pwr_opmode(con->port, TYPEC_PWR_MODE_PD); ucsi_partner_task(con, ucsi_get_src_pdos, 30, 0); ucsi_partner_task(con, ucsi_check_altmodes, 30, 0); ucsi_partner_task(con, ucsi_register_partner_pdos, 1, HZ); break; case UCSI_CONSTAT_PWR_OPMODE_TYPEC1_5: con->rdo = 0; typec_set_pwr_opmode(con->port, TYPEC_PWR_MODE_1_5A); break; case UCSI_CONSTAT_PWR_OPMODE_TYPEC3_0: con->rdo = 0; typec_set_pwr_opmode(con->port, TYPEC_PWR_MODE_3_0A); break; default: con->rdo = 0; typec_set_pwr_opmode(con->port, TYPEC_PWR_MODE_USB); break; } } static int ucsi_register_partner(struct ucsi_connector *con) { u8 pwr_opmode = UCSI_CONSTAT_PWR_OPMODE(con->status.flags); struct typec_partner_desc desc; struct typec_partner *partner; if (con->partner) return 0; memset(&desc, 0, sizeof(desc)); switch (UCSI_CONSTAT_PARTNER_TYPE(con->status.flags)) { case UCSI_CONSTAT_PARTNER_TYPE_DEBUG: desc.accessory = TYPEC_ACCESSORY_DEBUG; break; case UCSI_CONSTAT_PARTNER_TYPE_AUDIO: desc.accessory = TYPEC_ACCESSORY_AUDIO; break; default: break; } if (pwr_opmode == UCSI_CONSTAT_PWR_OPMODE_PD) ucsi_register_device_pdos(con); desc.identity = &con->partner_identity; desc.usb_pd = pwr_opmode == UCSI_CONSTAT_PWR_OPMODE_PD; desc.pd_revision = UCSI_CONCAP_FLAG_PARTNER_PD_MAJOR_REV_AS_BCD(con->cap.flags); partner = typec_register_partner(con->port, &desc); if (IS_ERR(partner)) { dev_err(con->ucsi->dev, "con%d: failed to register partner (%ld)\n", con->num, PTR_ERR(partner)); return PTR_ERR(partner); } con->partner = partner; return 0; } static void ucsi_unregister_partner(struct ucsi_connector *con) { if (!con->partner) return; typec_set_mode(con->port, TYPEC_STATE_SAFE); typec_partner_set_usb_power_delivery(con->partner, NULL); ucsi_unregister_partner_pdos(con); ucsi_unregister_altmodes(con, UCSI_RECIPIENT_SOP); ucsi_unregister_cable(con); typec_unregister_partner(con->partner); memset(&con->partner_identity, 0, sizeof(con->partner_identity)); con->partner = NULL; } static void ucsi_partner_change(struct ucsi_connector *con) { enum usb_role u_role = USB_ROLE_NONE; int ret; switch (UCSI_CONSTAT_PARTNER_TYPE(con->status.flags)) { case UCSI_CONSTAT_PARTNER_TYPE_UFP: case UCSI_CONSTAT_PARTNER_TYPE_CABLE_AND_UFP: u_role = USB_ROLE_HOST; fallthrough; case UCSI_CONSTAT_PARTNER_TYPE_CABLE: typec_set_data_role(con->port, TYPEC_HOST); break; case UCSI_CONSTAT_PARTNER_TYPE_DFP: u_role = USB_ROLE_DEVICE; typec_set_data_role(con->port, TYPEC_DEVICE); break; default: break; } if (con->status.flags & UCSI_CONSTAT_CONNECTED) { switch (UCSI_CONSTAT_PARTNER_TYPE(con->status.flags)) { case UCSI_CONSTAT_PARTNER_TYPE_DEBUG: typec_set_mode(con->port, TYPEC_MODE_DEBUG); break; case UCSI_CONSTAT_PARTNER_TYPE_AUDIO: typec_set_mode(con->port, TYPEC_MODE_AUDIO); break; default: if (UCSI_CONSTAT_PARTNER_FLAGS(con->status.flags) == UCSI_CONSTAT_PARTNER_FLAG_USB) typec_set_mode(con->port, TYPEC_STATE_USB); } } /* Only notify USB controller if partner supports USB data */ if (!(UCSI_CONSTAT_PARTNER_FLAGS(con->status.flags) & UCSI_CONSTAT_PARTNER_FLAG_USB)) u_role = USB_ROLE_NONE; ret = usb_role_switch_set_role(con->usb_role_sw, u_role); if (ret) dev_err(con->ucsi->dev, "con:%d: failed to set usb role:%d\n", con->num, u_role); } static int ucsi_check_connector_capability(struct ucsi_connector *con) { u64 command; int ret; if (!con->partner || con->ucsi->version < UCSI_VERSION_2_0) return 0; command = UCSI_GET_CONNECTOR_CAPABILITY | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(con->ucsi, command, &con->cap, sizeof(con->cap)); if (ret < 0) { dev_err(con->ucsi->dev, "GET_CONNECTOR_CAPABILITY failed (%d)\n", ret); return ret; } typec_partner_set_pd_revision(con->partner, UCSI_CONCAP_FLAG_PARTNER_PD_MAJOR_REV_AS_BCD(con->cap.flags)); return ret; } static int ucsi_check_connection(struct ucsi_connector *con) { u8 prev_flags = con->status.flags; u64 command; int ret; command = UCSI_GET_CONNECTOR_STATUS | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(con->ucsi, command, &con->status, sizeof(con->status)); if (ret < 0) { dev_err(con->ucsi->dev, "GET_CONNECTOR_STATUS failed (%d)\n", ret); return ret; } if (con->status.flags == prev_flags) return 0; if (con->status.flags & UCSI_CONSTAT_CONNECTED) { ucsi_register_partner(con); ucsi_pwr_opmode_change(con); ucsi_partner_change(con); } else { ucsi_partner_change(con); ucsi_port_psy_changed(con); ucsi_unregister_partner(con); } return 0; } static int ucsi_check_cable(struct ucsi_connector *con) { u64 command; int ret; if (con->cable) return 0; command = UCSI_GET_CABLE_PROPERTY | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(con->ucsi, command, &con->cable_prop, sizeof(con->cable_prop)); if (ret < 0) { dev_err(con->ucsi->dev, "GET_CABLE_PROPERTY failed (%d)\n", ret); return ret; } ret = ucsi_register_cable(con); if (ret < 0) return ret; if (con->ucsi->cap.features & UCSI_CAP_GET_PD_MESSAGE) { ret = ucsi_get_cable_identity(con); if (ret < 0) return ret; } if (con->ucsi->cap.features & UCSI_CAP_ALT_MODE_DETAILS) { ret = ucsi_register_plug(con); if (ret < 0) return ret; ret = ucsi_register_altmodes(con, UCSI_RECIPIENT_SOP_P); if (ret < 0) return ret; } return 0; } static void ucsi_handle_connector_change(struct work_struct *work) { struct ucsi_connector *con = container_of(work, struct ucsi_connector, work); struct ucsi *ucsi = con->ucsi; enum typec_role role; u64 command; int ret; mutex_lock(&con->lock); command = UCSI_GET_CONNECTOR_STATUS | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command_common(ucsi, command, &con->status, sizeof(con->status), true); if (ret < 0) { dev_err(ucsi->dev, "%s: GET_CONNECTOR_STATUS failed (%d)\n", __func__, ret); clear_bit(EVENT_PENDING, &con->ucsi->flags); goto out_unlock; } trace_ucsi_connector_change(con->num, &con->status); if (ucsi->ops->connector_status) ucsi->ops->connector_status(con); role = !!(con->status.flags & UCSI_CONSTAT_PWR_DIR); if (con->status.change & UCSI_CONSTAT_POWER_DIR_CHANGE) { typec_set_pwr_role(con->port, role); /* Complete pending power role swap */ if (!completion_done(&con->complete)) complete(&con->complete); } if (con->status.change & UCSI_CONSTAT_CONNECT_CHANGE) { typec_set_pwr_role(con->port, role); ucsi_port_psy_changed(con); ucsi_partner_change(con); if (con->status.flags & UCSI_CONSTAT_CONNECTED) { ucsi_register_partner(con); ucsi_partner_task(con, ucsi_check_connection, 1, HZ); ucsi_partner_task(con, ucsi_check_connector_capability, 1, HZ); if (con->ucsi->cap.features & UCSI_CAP_GET_PD_MESSAGE) ucsi_partner_task(con, ucsi_get_partner_identity, 1, HZ); if (con->ucsi->cap.features & UCSI_CAP_CABLE_DETAILS) ucsi_partner_task(con, ucsi_check_cable, 1, HZ); if (UCSI_CONSTAT_PWR_OPMODE(con->status.flags) == UCSI_CONSTAT_PWR_OPMODE_PD) ucsi_partner_task(con, ucsi_register_partner_pdos, 1, HZ); } else { ucsi_unregister_partner(con); } } if (con->status.change & UCSI_CONSTAT_POWER_OPMODE_CHANGE || con->status.change & UCSI_CONSTAT_POWER_LEVEL_CHANGE) ucsi_pwr_opmode_change(con); if (con->partner && con->status.change & UCSI_CONSTAT_PARTNER_CHANGE) { ucsi_partner_change(con); /* Complete pending data role swap */ if (!completion_done(&con->complete)) complete(&con->complete); } if (con->status.change & UCSI_CONSTAT_CAM_CHANGE) ucsi_partner_task(con, ucsi_check_altmodes, 1, 0); out_unlock: mutex_unlock(&con->lock); } /** * ucsi_connector_change - Process Connector Change Event * @ucsi: UCSI Interface * @num: Connector number */ void ucsi_connector_change(struct ucsi *ucsi, u8 num) { struct ucsi_connector *con = &ucsi->connector[num - 1]; if (!(ucsi->ntfy & UCSI_ENABLE_NTFY_CONNECTOR_CHANGE)) { dev_dbg(ucsi->dev, "Early connector change event\n"); return; } if (!test_and_set_bit(EVENT_PENDING, &ucsi->flags)) schedule_work(&con->work); } EXPORT_SYMBOL_GPL(ucsi_connector_change); /* -------------------------------------------------------------------------- */ static int ucsi_reset_connector(struct ucsi_connector *con, bool hard) { u64 command; command = UCSI_CONNECTOR_RESET | UCSI_CONNECTOR_NUMBER(con->num); command |= hard ? UCSI_CONNECTOR_RESET_HARD : 0; return ucsi_send_command(con->ucsi, command, NULL, 0); } static int ucsi_reset_ppm(struct ucsi *ucsi) { u64 command; unsigned long tmo; u32 cci; int ret; mutex_lock(&ucsi->ppm_lock); ret = ucsi->ops->read(ucsi, UCSI_CCI, &cci, sizeof(cci)); if (ret < 0) goto out; /* * If UCSI_CCI_RESET_COMPLETE is already set we must clear * the flag before we start another reset. Send a * UCSI_SET_NOTIFICATION_ENABLE command to achieve this. * Ignore a timeout and try the reset anyway if this fails. */ if (cci & UCSI_CCI_RESET_COMPLETE) { command = UCSI_SET_NOTIFICATION_ENABLE; ret = ucsi->ops->async_write(ucsi, UCSI_CONTROL, &command, sizeof(command)); if (ret < 0) goto out; tmo = jiffies + msecs_to_jiffies(UCSI_TIMEOUT_MS); do { ret = ucsi->ops->read(ucsi, UCSI_CCI, &cci, sizeof(cci)); if (ret < 0) goto out; if (cci & UCSI_CCI_COMMAND_COMPLETE) break; if (time_is_before_jiffies(tmo)) break; msleep(20); } while (1); WARN_ON(cci & UCSI_CCI_RESET_COMPLETE); } command = UCSI_PPM_RESET; ret = ucsi->ops->async_write(ucsi, UCSI_CONTROL, &command, sizeof(command)); if (ret < 0) goto out; tmo = jiffies + msecs_to_jiffies(UCSI_TIMEOUT_MS); do { if (time_is_before_jiffies(tmo)) { ret = -ETIMEDOUT; goto out; } /* Give the PPM time to process a reset before reading CCI */ msleep(20); ret = ucsi->ops->read(ucsi, UCSI_CCI, &cci, sizeof(cci)); if (ret) goto out; /* If the PPM is still doing something else, reset it again. */ if (cci & ~UCSI_CCI_RESET_COMPLETE) { ret = ucsi->ops->async_write(ucsi, UCSI_CONTROL, &command, sizeof(command)); if (ret < 0) goto out; } } while (!(cci & UCSI_CCI_RESET_COMPLETE)); out: mutex_unlock(&ucsi->ppm_lock); return ret; } static int ucsi_role_cmd(struct ucsi_connector *con, u64 command) { int ret; ret = ucsi_send_command(con->ucsi, command, NULL, 0); if (ret == -ETIMEDOUT) { u64 c; /* PPM most likely stopped responding. Resetting everything. */ ucsi_reset_ppm(con->ucsi); c = UCSI_SET_NOTIFICATION_ENABLE | con->ucsi->ntfy; ucsi_send_command(con->ucsi, c, NULL, 0); ucsi_reset_connector(con, true); } return ret; } static int ucsi_dr_swap(struct typec_port *port, enum typec_data_role role) { struct ucsi_connector *con = typec_get_drvdata(port); u8 partner_type; u64 command; int ret = 0; mutex_lock(&con->lock); if (!con->partner) { ret = -ENOTCONN; goto out_unlock; } partner_type = UCSI_CONSTAT_PARTNER_TYPE(con->status.flags); if ((partner_type == UCSI_CONSTAT_PARTNER_TYPE_DFP && role == TYPEC_DEVICE) || (partner_type == UCSI_CONSTAT_PARTNER_TYPE_UFP && role == TYPEC_HOST)) goto out_unlock; reinit_completion(&con->complete); command = UCSI_SET_UOR | UCSI_CONNECTOR_NUMBER(con->num); command |= UCSI_SET_UOR_ROLE(role); command |= UCSI_SET_UOR_ACCEPT_ROLE_SWAPS; ret = ucsi_role_cmd(con, command); if (ret < 0) goto out_unlock; mutex_unlock(&con->lock); if (!wait_for_completion_timeout(&con->complete, msecs_to_jiffies(UCSI_SWAP_TIMEOUT_MS))) return -ETIMEDOUT; return 0; out_unlock: mutex_unlock(&con->lock); return ret; } static int ucsi_pr_swap(struct typec_port *port, enum typec_role role) { struct ucsi_connector *con = typec_get_drvdata(port); enum typec_role cur_role; u64 command; int ret = 0; mutex_lock(&con->lock); if (!con->partner) { ret = -ENOTCONN; goto out_unlock; } cur_role = !!(con->status.flags & UCSI_CONSTAT_PWR_DIR); if (cur_role == role) goto out_unlock; reinit_completion(&con->complete); command = UCSI_SET_PDR | UCSI_CONNECTOR_NUMBER(con->num); command |= UCSI_SET_PDR_ROLE(role); command |= UCSI_SET_PDR_ACCEPT_ROLE_SWAPS; ret = ucsi_role_cmd(con, command); if (ret < 0) goto out_unlock; mutex_unlock(&con->lock); if (!wait_for_completion_timeout(&con->complete, msecs_to_jiffies(UCSI_SWAP_TIMEOUT_MS))) return -ETIMEDOUT; mutex_lock(&con->lock); /* Something has gone wrong while swapping the role */ if (UCSI_CONSTAT_PWR_OPMODE(con->status.flags) != UCSI_CONSTAT_PWR_OPMODE_PD) { ucsi_reset_connector(con, true); ret = -EPROTO; } out_unlock: mutex_unlock(&con->lock); return ret; } static const struct typec_operations ucsi_ops = { .dr_set = ucsi_dr_swap, .pr_set = ucsi_pr_swap }; /* Caller must call fwnode_handle_put() after use */ static struct fwnode_handle *ucsi_find_fwnode(struct ucsi_connector *con) { struct fwnode_handle *fwnode; int i = 1; device_for_each_child_node(con->ucsi->dev, fwnode) if (i++ == con->num) return fwnode; return NULL; } static int ucsi_register_port(struct ucsi *ucsi, struct ucsi_connector *con) { struct typec_capability *cap = &con->typec_cap; enum typec_accessory *accessory = cap->accessory; enum usb_role u_role = USB_ROLE_NONE; u64 command; char *name; int ret; name = kasprintf(GFP_KERNEL, "%s-con%d", dev_name(ucsi->dev), con->num); if (!name) return -ENOMEM; con->wq = create_singlethread_workqueue(name); kfree(name); if (!con->wq) return -ENOMEM; INIT_WORK(&con->work, ucsi_handle_connector_change); init_completion(&con->complete); mutex_init(&con->lock); INIT_LIST_HEAD(&con->partner_tasks); con->ucsi = ucsi; cap->fwnode = ucsi_find_fwnode(con); con->usb_role_sw = fwnode_usb_role_switch_get(cap->fwnode); if (IS_ERR(con->usb_role_sw)) return dev_err_probe(ucsi->dev, PTR_ERR(con->usb_role_sw), "con%d: failed to get usb role switch\n", con->num); /* Delay other interactions with the con until registration is complete */ mutex_lock(&con->lock); /* Get connector capability */ command = UCSI_GET_CONNECTOR_CAPABILITY; command |= UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(ucsi, command, &con->cap, sizeof(con->cap)); if (ret < 0) goto out_unlock; if (con->cap.op_mode & UCSI_CONCAP_OPMODE_DRP) cap->data = TYPEC_PORT_DRD; else if (con->cap.op_mode & UCSI_CONCAP_OPMODE_DFP) cap->data = TYPEC_PORT_DFP; else if (con->cap.op_mode & UCSI_CONCAP_OPMODE_UFP) cap->data = TYPEC_PORT_UFP; if ((con->cap.flags & UCSI_CONCAP_FLAG_PROVIDER) && (con->cap.flags & UCSI_CONCAP_FLAG_CONSUMER)) cap->type = TYPEC_PORT_DRP; else if (con->cap.flags & UCSI_CONCAP_FLAG_PROVIDER) cap->type = TYPEC_PORT_SRC; else if (con->cap.flags & UCSI_CONCAP_FLAG_CONSUMER) cap->type = TYPEC_PORT_SNK; cap->revision = ucsi->cap.typec_version; cap->pd_revision = ucsi->cap.pd_version; cap->svdm_version = SVDM_VER_2_0; cap->prefer_role = TYPEC_NO_PREFERRED_ROLE; if (con->cap.op_mode & UCSI_CONCAP_OPMODE_AUDIO_ACCESSORY) *accessory++ = TYPEC_ACCESSORY_AUDIO; if (con->cap.op_mode & UCSI_CONCAP_OPMODE_DEBUG_ACCESSORY) *accessory = TYPEC_ACCESSORY_DEBUG; cap->driver_data = con; cap->ops = &ucsi_ops; if (ucsi->ops->update_connector) ucsi->ops->update_connector(con); ret = ucsi_register_port_psy(con); if (ret) goto out; /* Register the connector */ con->port = typec_register_port(ucsi->dev, cap); if (IS_ERR(con->port)) { ret = PTR_ERR(con->port); goto out; } if (!(ucsi->quirks & UCSI_DELAY_DEVICE_PDOS)) ucsi_register_device_pdos(con); /* Alternate modes */ ret = ucsi_register_altmodes(con, UCSI_RECIPIENT_CON); if (ret) { dev_err(ucsi->dev, "con%d: failed to register alt modes\n", con->num); goto out; } /* Get the status */ command = UCSI_GET_CONNECTOR_STATUS | UCSI_CONNECTOR_NUMBER(con->num); ret = ucsi_send_command(ucsi, command, &con->status, sizeof(con->status)); if (ret < 0) { dev_err(ucsi->dev, "con%d: failed to get status\n", con->num); ret = 0; goto out; } ret = 0; /* ucsi_send_command() returns length on success */ if (ucsi->ops->connector_status) ucsi->ops->connector_status(con); switch (UCSI_CONSTAT_PARTNER_TYPE(con->status.flags)) { case UCSI_CONSTAT_PARTNER_TYPE_UFP: case UCSI_CONSTAT_PARTNER_TYPE_CABLE_AND_UFP: u_role = USB_ROLE_HOST; fallthrough; case UCSI_CONSTAT_PARTNER_TYPE_CABLE: typec_set_data_role(con->port, TYPEC_HOST); break; case UCSI_CONSTAT_PARTNER_TYPE_DFP: u_role = USB_ROLE_DEVICE; typec_set_data_role(con->port, TYPEC_DEVICE); break; default: break; } /* Check if there is already something connected */ if (con->status.flags & UCSI_CONSTAT_CONNECTED) { typec_set_pwr_role(con->port, !!(con->status.flags & UCSI_CONSTAT_PWR_DIR)); ucsi_register_partner(con); ucsi_pwr_opmode_change(con); ucsi_port_psy_changed(con); if (con->ucsi->cap.features & UCSI_CAP_GET_PD_MESSAGE) ucsi_get_partner_identity(con); if (con->ucsi->cap.features & UCSI_CAP_CABLE_DETAILS) ucsi_check_cable(con); } /* Only notify USB controller if partner supports USB data */ if (!(UCSI_CONSTAT_PARTNER_FLAGS(con->status.flags) & UCSI_CONSTAT_PARTNER_FLAG_USB)) u_role = USB_ROLE_NONE; ret = usb_role_switch_set_role(con->usb_role_sw, u_role); if (ret) { dev_err(ucsi->dev, "con:%d: failed to set usb role:%d\n", con->num, u_role); ret = 0; } if (con->partner && UCSI_CONSTAT_PWR_OPMODE(con->status.flags) == UCSI_CONSTAT_PWR_OPMODE_PD) { ucsi_register_device_pdos(con); ucsi_get_src_pdos(con); ucsi_check_altmodes(con); } trace_ucsi_register_port(con->num, &con->status); out: fwnode_handle_put(cap->fwnode); out_unlock: mutex_unlock(&con->lock); if (ret && con->wq) { destroy_workqueue(con->wq); con->wq = NULL; } return ret; } static u64 ucsi_get_supported_notifications(struct ucsi *ucsi) { u8 features = ucsi->cap.features; u64 ntfy = UCSI_ENABLE_NTFY_ALL; if (!(features & UCSI_CAP_ALT_MODE_DETAILS)) ntfy &= ~UCSI_ENABLE_NTFY_CAM_CHANGE; if (!(features & UCSI_CAP_PDO_DETAILS)) ntfy &= ~(UCSI_ENABLE_NTFY_PWR_LEVEL_CHANGE | UCSI_ENABLE_NTFY_CAP_CHANGE); if (!(features & UCSI_CAP_EXT_SUPPLY_NOTIFICATIONS)) ntfy &= ~UCSI_ENABLE_NTFY_EXT_PWR_SRC_CHANGE; if (!(features & UCSI_CAP_PD_RESET)) ntfy &= ~UCSI_ENABLE_NTFY_PD_RESET_COMPLETE; return ntfy; } /** * ucsi_init - Initialize UCSI interface * @ucsi: UCSI to be initialized * * Registers all ports @ucsi has and enables all notification events. */ static int ucsi_init(struct ucsi *ucsi) { struct ucsi_connector *con, *connector; u64 command, ntfy; u32 cci; int ret; int i; /* Reset the PPM */ ret = ucsi_reset_ppm(ucsi); if (ret) { dev_err(ucsi->dev, "failed to reset PPM!\n"); goto err; } /* Enable basic notifications */ ntfy = UCSI_ENABLE_NTFY_CMD_COMPLETE | UCSI_ENABLE_NTFY_ERROR; command = UCSI_SET_NOTIFICATION_ENABLE | ntfy; ret = ucsi_send_command(ucsi, command, NULL, 0); if (ret < 0) goto err_reset; /* Get PPM capabilities */ command = UCSI_GET_CAPABILITY; ret = ucsi_send_command(ucsi, command, &ucsi->cap, sizeof(ucsi->cap)); if (ret < 0) goto err_reset; if (!ucsi->cap.num_connectors) { ret = -ENODEV; goto err_reset; } /* Allocate the connectors. Released in ucsi_unregister() */ connector = kcalloc(ucsi->cap.num_connectors + 1, sizeof(*connector), GFP_KERNEL); if (!connector) { ret = -ENOMEM; goto err_reset; } /* Register all connectors */ for (i = 0; i < ucsi->cap.num_connectors; i++) { connector[i].num = i + 1; ret = ucsi_register_port(ucsi, &connector[i]); if (ret) goto err_unregister; } /* Enable all supported notifications */ ntfy = ucsi_get_supported_notifications(ucsi); command = UCSI_SET_NOTIFICATION_ENABLE | ntfy; ret = ucsi_send_command(ucsi, command, NULL, 0); if (ret < 0) goto err_unregister; ucsi->connector = connector; ucsi->ntfy = ntfy; mutex_lock(&ucsi->ppm_lock); ret = ucsi->ops->read(ucsi, UCSI_CCI, &cci, sizeof(cci)); mutex_unlock(&ucsi->ppm_lock); if (ret) return ret; if (UCSI_CCI_CONNECTOR(cci)) ucsi_connector_change(ucsi, UCSI_CCI_CONNECTOR(cci)); return 0; err_unregister: for (con = connector; con->port; con++) { ucsi_unregister_partner(con); ucsi_unregister_altmodes(con, UCSI_RECIPIENT_CON); ucsi_unregister_port_psy(con); if (con->wq) destroy_workqueue(con->wq); usb_power_delivery_unregister_capabilities(con->port_sink_caps); con->port_sink_caps = NULL; usb_power_delivery_unregister_capabilities(con->port_source_caps); con->port_source_caps = NULL; usb_power_delivery_unregister(con->pd); con->pd = NULL; typec_unregister_port(con->port); con->port = NULL; } kfree(connector); err_reset: memset(&ucsi->cap, 0, sizeof(ucsi->cap)); ucsi_reset_ppm(ucsi); err: return ret; } static void ucsi_resume_work(struct work_struct *work) { struct ucsi *ucsi = container_of(work, struct ucsi, resume_work); struct ucsi_connector *con; u64 command; int ret; /* Restore UCSI notification enable mask after system resume */ command = UCSI_SET_NOTIFICATION_ENABLE | ucsi->ntfy; ret = ucsi_send_command(ucsi, command, NULL, 0); if (ret < 0) { dev_err(ucsi->dev, "failed to re-enable notifications (%d)\n", ret); return; } for (con = ucsi->connector; con->port; con++) { mutex_lock(&con->lock); ucsi_partner_task(con, ucsi_check_connection, 1, 0); mutex_unlock(&con->lock); } } int ucsi_resume(struct ucsi *ucsi) { if (ucsi->connector) queue_work(system_long_wq, &ucsi->resume_work); return 0; } EXPORT_SYMBOL_GPL(ucsi_resume); static void ucsi_init_work(struct work_struct *work) { struct ucsi *ucsi = container_of(work, struct ucsi, work.work); int ret; ret = ucsi_init(ucsi); if (ret) dev_err_probe(ucsi->dev, ret, "PPM init failed\n"); if (ret == -EPROBE_DEFER) { if (ucsi->work_count++ > UCSI_ROLE_SWITCH_WAIT_COUNT) { dev_err(ucsi->dev, "PPM init failed, stop trying\n"); return; } queue_delayed_work(system_long_wq, &ucsi->work, UCSI_ROLE_SWITCH_INTERVAL); } } /** * ucsi_get_drvdata - Return private driver data pointer * @ucsi: UCSI interface */ void *ucsi_get_drvdata(struct ucsi *ucsi) { return ucsi->driver_data; } EXPORT_SYMBOL_GPL(ucsi_get_drvdata); /** * ucsi_set_drvdata - Assign private driver data pointer * @ucsi: UCSI interface * @data: Private data pointer */ void ucsi_set_drvdata(struct ucsi *ucsi, void *data) { ucsi->driver_data = data; } EXPORT_SYMBOL_GPL(ucsi_set_drvdata); /** * ucsi_create - Allocate UCSI instance * @dev: Device interface to the PPM (Platform Policy Manager) * @ops: I/O routines */ struct ucsi *ucsi_create(struct device *dev, const struct ucsi_operations *ops) { struct ucsi *ucsi; if (!ops || !ops->read || !ops->sync_write || !ops->async_write) return ERR_PTR(-EINVAL); ucsi = kzalloc(sizeof(*ucsi), GFP_KERNEL); if (!ucsi) return ERR_PTR(-ENOMEM); INIT_WORK(&ucsi->resume_work, ucsi_resume_work); INIT_DELAYED_WORK(&ucsi->work, ucsi_init_work); mutex_init(&ucsi->ppm_lock); ucsi->dev = dev; ucsi->ops = ops; return ucsi; } EXPORT_SYMBOL_GPL(ucsi_create); /** * ucsi_destroy - Free UCSI instance * @ucsi: UCSI instance to be freed */ void ucsi_destroy(struct ucsi *ucsi) { ucsi_debugfs_unregister(ucsi); kfree(ucsi); } EXPORT_SYMBOL_GPL(ucsi_destroy); /** * ucsi_register - Register UCSI interface * @ucsi: UCSI instance */ int ucsi_register(struct ucsi *ucsi) { int ret; ret = ucsi->ops->read(ucsi, UCSI_VERSION, &ucsi->version, sizeof(ucsi->version)); if (ret) return ret; if (!ucsi->version) return -ENODEV; /* * Version format is JJ.M.N (JJ = Major version, M = Minor version, * N = sub-minor version). */ dev_dbg(ucsi->dev, "Registered UCSI interface with version %x.%x.%x", UCSI_BCD_GET_MAJOR(ucsi->version), UCSI_BCD_GET_MINOR(ucsi->version), UCSI_BCD_GET_SUBMINOR(ucsi->version)); queue_delayed_work(system_long_wq, &ucsi->work, 0); ucsi_debugfs_register(ucsi); return 0; } EXPORT_SYMBOL_GPL(ucsi_register); /** * ucsi_unregister - Unregister UCSI interface * @ucsi: UCSI interface to be unregistered * * Unregister UCSI interface that was created with ucsi_register(). */ void ucsi_unregister(struct ucsi *ucsi) { u64 cmd = UCSI_SET_NOTIFICATION_ENABLE; int i; /* Make sure that we are not in the middle of driver initialization */ cancel_delayed_work_sync(&ucsi->work); cancel_work_sync(&ucsi->resume_work); /* Disable notifications */ ucsi->ops->async_write(ucsi, UCSI_CONTROL, &cmd, sizeof(cmd)); if (!ucsi->connector) return; for (i = 0; i < ucsi->cap.num_connectors; i++) { cancel_work_sync(&ucsi->connector[i].work); ucsi_unregister_partner(&ucsi->connector[i]); ucsi_unregister_altmodes(&ucsi->connector[i], UCSI_RECIPIENT_CON); ucsi_unregister_port_psy(&ucsi->connector[i]); if (ucsi->connector[i].wq) { struct ucsi_work *uwork; mutex_lock(&ucsi->connector[i].lock); /* * queue delayed items immediately so they can execute * and free themselves before the wq is destroyed */ list_for_each_entry(uwork, &ucsi->connector[i].partner_tasks, node) mod_delayed_work(ucsi->connector[i].wq, &uwork->work, 0); mutex_unlock(&ucsi->connector[i].lock); destroy_workqueue(ucsi->connector[i].wq); } usb_power_delivery_unregister_capabilities(ucsi->connector[i].port_sink_caps); ucsi->connector[i].port_sink_caps = NULL; usb_power_delivery_unregister_capabilities(ucsi->connector[i].port_source_caps); ucsi->connector[i].port_source_caps = NULL; usb_power_delivery_unregister(ucsi->connector[i].pd); ucsi->connector[i].pd = NULL; typec_unregister_port(ucsi->connector[i].port); } kfree(ucsi->connector); } EXPORT_SYMBOL_GPL(ucsi_unregister); static int __init ucsi_module_init(void) { ucsi_debugfs_init(); return 0; } module_init(ucsi_module_init); static void __exit ucsi_module_exit(void) { ucsi_debugfs_exit(); } module_exit(ucsi_module_exit); MODULE_AUTHOR("Heikki Krogerus "); MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("USB Type-C Connector System Software Interface driver");