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4822 4823 4824 4825 4826 4827 4828 4829 4830 4831 4832 4833 4834 4835 4836 4837 4838 4839 4840 4841 4842 4843 4844 4845 4846 4847 4848 4849 4850 4851 4852 4853 4854 4855 4856 4857 4858 4859 4860 4861 4862 4863 4864 4865 4866 4867 4868 4869 4870 4871 4872 4873 4874 4875 4876 4877 4878 4879 4880 4881 4882 4883 4884 4885 4886 4887 4888 4889 4890 4891 4892 4893 4894 4895 4896 4897 4898 4899 4900 4901 4902 4903 4904 | // SPDX-License-Identifier: GPL-2.0+ /* * Copyright 2015-2017 Google, Inc * * USB Power Delivery protocol stack. */ #include <linux/completion.h> #include <linux/debugfs.h> #include <linux/device.h> #include <linux/jiffies.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/power_supply.h> #include <linux/proc_fs.h> #include <linux/property.h> #include <linux/sched/clock.h> #include <linux/seq_file.h> #include <linux/slab.h> #include <linux/spinlock.h> #include <linux/usb.h> #include <linux/usb/pd.h> #include <linux/usb/pd_ado.h> #include <linux/usb/pd_bdo.h> #include <linux/usb/pd_ext_sdb.h> #include <linux/usb/pd_vdo.h> #include <linux/usb/role.h> #include <linux/usb/tcpm.h> #include <linux/usb/typec_altmode.h> #include <linux/workqueue.h> #define FOREACH_STATE(S) \ S(INVALID_STATE), \ S(TOGGLING), \ S(SRC_UNATTACHED), \ S(SRC_ATTACH_WAIT), \ S(SRC_ATTACHED), \ S(SRC_STARTUP), \ S(SRC_SEND_CAPABILITIES), \ S(SRC_SEND_CAPABILITIES_TIMEOUT), \ S(SRC_NEGOTIATE_CAPABILITIES), \ S(SRC_TRANSITION_SUPPLY), \ S(SRC_READY), \ S(SRC_WAIT_NEW_CAPABILITIES), \ \ S(SNK_UNATTACHED), \ S(SNK_ATTACH_WAIT), \ S(SNK_DEBOUNCED), \ S(SNK_ATTACHED), \ S(SNK_STARTUP), \ S(SNK_DISCOVERY), \ S(SNK_DISCOVERY_DEBOUNCE), \ S(SNK_DISCOVERY_DEBOUNCE_DONE), \ S(SNK_WAIT_CAPABILITIES), \ S(SNK_NEGOTIATE_CAPABILITIES), \ S(SNK_NEGOTIATE_PPS_CAPABILITIES), \ S(SNK_TRANSITION_SINK), \ S(SNK_TRANSITION_SINK_VBUS), \ S(SNK_READY), \ \ S(ACC_UNATTACHED), \ S(DEBUG_ACC_ATTACHED), \ S(AUDIO_ACC_ATTACHED), \ S(AUDIO_ACC_DEBOUNCE), \ \ S(HARD_RESET_SEND), \ S(HARD_RESET_START), \ S(SRC_HARD_RESET_VBUS_OFF), \ S(SRC_HARD_RESET_VBUS_ON), \ S(SNK_HARD_RESET_SINK_OFF), \ S(SNK_HARD_RESET_WAIT_VBUS), \ S(SNK_HARD_RESET_SINK_ON), \ \ S(SOFT_RESET), \ S(SOFT_RESET_SEND), \ \ S(DR_SWAP_ACCEPT), \ S(DR_SWAP_SEND), \ S(DR_SWAP_SEND_TIMEOUT), \ S(DR_SWAP_CANCEL), \ S(DR_SWAP_CHANGE_DR), \ \ S(PR_SWAP_ACCEPT), \ S(PR_SWAP_SEND), \ S(PR_SWAP_SEND_TIMEOUT), \ S(PR_SWAP_CANCEL), \ S(PR_SWAP_START), \ S(PR_SWAP_SRC_SNK_TRANSITION_OFF), \ S(PR_SWAP_SRC_SNK_SOURCE_OFF), \ S(PR_SWAP_SRC_SNK_SOURCE_OFF_CC_DEBOUNCED), \ S(PR_SWAP_SRC_SNK_SINK_ON), \ S(PR_SWAP_SNK_SRC_SINK_OFF), \ S(PR_SWAP_SNK_SRC_SOURCE_ON), \ S(PR_SWAP_SNK_SRC_SOURCE_ON_VBUS_RAMPED_UP), \ \ S(VCONN_SWAP_ACCEPT), \ S(VCONN_SWAP_SEND), \ S(VCONN_SWAP_SEND_TIMEOUT), \ S(VCONN_SWAP_CANCEL), \ S(VCONN_SWAP_START), \ S(VCONN_SWAP_WAIT_FOR_VCONN), \ S(VCONN_SWAP_TURN_ON_VCONN), \ S(VCONN_SWAP_TURN_OFF_VCONN), \ \ S(SNK_TRY), \ S(SNK_TRY_WAIT), \ S(SNK_TRY_WAIT_DEBOUNCE), \ S(SNK_TRY_WAIT_DEBOUNCE_CHECK_VBUS), \ S(SRC_TRYWAIT), \ S(SRC_TRYWAIT_DEBOUNCE), \ S(SRC_TRYWAIT_UNATTACHED), \ \ S(SRC_TRY), \ S(SRC_TRY_WAIT), \ S(SRC_TRY_DEBOUNCE), \ S(SNK_TRYWAIT), \ S(SNK_TRYWAIT_DEBOUNCE), \ S(SNK_TRYWAIT_VBUS), \ S(BIST_RX), \ \ S(GET_STATUS_SEND), \ S(GET_STATUS_SEND_TIMEOUT), \ S(GET_PPS_STATUS_SEND), \ S(GET_PPS_STATUS_SEND_TIMEOUT), \ \ S(ERROR_RECOVERY), \ S(PORT_RESET), \ S(PORT_RESET_WAIT_OFF) #define GENERATE_ENUM(e) e #define GENERATE_STRING(s) #s enum tcpm_state { FOREACH_STATE(GENERATE_ENUM) }; static const char * const tcpm_states[] = { FOREACH_STATE(GENERATE_STRING) }; enum vdm_states { VDM_STATE_ERR_BUSY = -3, VDM_STATE_ERR_SEND = -2, VDM_STATE_ERR_TMOUT = -1, VDM_STATE_DONE = 0, /* Anything >0 represents an active state */ VDM_STATE_READY = 1, VDM_STATE_BUSY = 2, VDM_STATE_WAIT_RSP_BUSY = 3, }; enum pd_msg_request { PD_MSG_NONE = 0, PD_MSG_CTRL_REJECT, PD_MSG_CTRL_WAIT, PD_MSG_CTRL_NOT_SUPP, PD_MSG_DATA_SINK_CAP, PD_MSG_DATA_SOURCE_CAP, }; /* Events from low level driver */ #define TCPM_CC_EVENT BIT(0) #define TCPM_VBUS_EVENT BIT(1) #define TCPM_RESET_EVENT BIT(2) #define LOG_BUFFER_ENTRIES 1024 #define LOG_BUFFER_ENTRY_SIZE 128 /* Alternate mode support */ #define SVID_DISCOVERY_MAX 16 #define ALTMODE_DISCOVERY_MAX (SVID_DISCOVERY_MAX * MODE_DISCOVERY_MAX) struct pd_mode_data { int svid_index; /* current SVID index */ int nsvids; u16 svids[SVID_DISCOVERY_MAX]; int altmodes; /* number of alternate modes */ struct typec_altmode_desc altmode_desc[ALTMODE_DISCOVERY_MAX]; }; /* * @min_volt: Actual min voltage at the local port * @req_min_volt: Requested min voltage to the port partner * @max_volt: Actual max voltage at the local port * @req_max_volt: Requested max voltage to the port partner * @max_curr: Actual max current at the local port * @req_max_curr: Requested max current of the port partner * @req_out_volt: Requested output voltage to the port partner * @req_op_curr: Requested operating current to the port partner * @supported: Parter has atleast one APDO hence supports PPS * @active: PPS mode is active */ struct pd_pps_data { u32 min_volt; u32 req_min_volt; u32 max_volt; u32 req_max_volt; u32 max_curr; u32 req_max_curr; u32 req_out_volt; u32 req_op_curr; bool supported; bool active; }; struct tcpm_port { struct device *dev; struct mutex lock; /* tcpm state machine lock */ struct workqueue_struct *wq; struct typec_capability typec_caps; struct typec_port *typec_port; struct tcpc_dev *tcpc; struct usb_role_switch *role_sw; enum typec_role vconn_role; enum typec_role pwr_role; enum typec_data_role data_role; enum typec_pwr_opmode pwr_opmode; struct usb_pd_identity partner_ident; struct typec_partner_desc partner_desc; struct typec_partner *partner; enum typec_cc_status cc_req; enum typec_cc_status cc1; enum typec_cc_status cc2; enum typec_cc_polarity polarity; bool attached; bool connected; enum typec_port_type port_type; bool vbus_present; bool vbus_never_low; bool vbus_source; bool vbus_charge; bool send_discover; bool op_vsafe5v; int try_role; int try_snk_count; int try_src_count; enum pd_msg_request queued_message; enum tcpm_state enter_state; enum tcpm_state prev_state; enum tcpm_state state; enum tcpm_state delayed_state; unsigned long delayed_runtime; unsigned long delay_ms; spinlock_t pd_event_lock; u32 pd_events; struct work_struct event_work; struct delayed_work state_machine; struct delayed_work vdm_state_machine; bool state_machine_running; struct completion tx_complete; enum tcpm_transmit_status tx_status; struct mutex swap_lock; /* swap command lock */ bool swap_pending; bool non_pd_role_swap; struct completion swap_complete; int swap_status; unsigned int negotiated_rev; unsigned int message_id; unsigned int caps_count; unsigned int hard_reset_count; bool pd_capable; bool explicit_contract; unsigned int rx_msgid; /* Partner capabilities/requests */ u32 sink_request; u32 source_caps[PDO_MAX_OBJECTS]; unsigned int nr_source_caps; u32 sink_caps[PDO_MAX_OBJECTS]; unsigned int nr_sink_caps; /* Local capabilities */ u32 src_pdo[PDO_MAX_OBJECTS]; unsigned int nr_src_pdo; u32 snk_pdo[PDO_MAX_OBJECTS]; unsigned int nr_snk_pdo; u32 snk_vdo[VDO_MAX_OBJECTS]; unsigned int nr_snk_vdo; unsigned int operating_snk_mw; bool update_sink_caps; /* Requested current / voltage to the port partner */ u32 req_current_limit; u32 req_supply_voltage; /* Actual current / voltage limit of the local port */ u32 current_limit; u32 supply_voltage; /* Used to export TA voltage and current */ struct power_supply *psy; struct power_supply_desc psy_desc; enum power_supply_usb_type usb_type; u32 bist_request; /* PD state for Vendor Defined Messages */ enum vdm_states vdm_state; u32 vdm_retries; /* next Vendor Defined Message to send */ u32 vdo_data[VDO_MAX_SIZE]; u8 vdo_count; /* VDO to retry if UFP responder replied busy */ u32 vdo_retry; /* PPS */ struct pd_pps_data pps_data; struct completion pps_complete; bool pps_pending; int pps_status; /* Alternate mode data */ struct pd_mode_data mode_data; struct typec_altmode *partner_altmode[ALTMODE_DISCOVERY_MAX]; struct typec_altmode *port_altmode[ALTMODE_DISCOVERY_MAX]; /* Deadline in jiffies to exit src_try_wait state */ unsigned long max_wait; /* port belongs to a self powered device */ bool self_powered; #ifdef CONFIG_DEBUG_FS struct dentry *dentry; struct mutex logbuffer_lock; /* log buffer access lock */ int logbuffer_head; int logbuffer_tail; u8 *logbuffer[LOG_BUFFER_ENTRIES]; #endif }; struct pd_rx_event { struct work_struct work; struct tcpm_port *port; struct pd_message msg; }; #define tcpm_cc_is_sink(cc) \ ((cc) == TYPEC_CC_RP_DEF || (cc) == TYPEC_CC_RP_1_5 || \ (cc) == TYPEC_CC_RP_3_0) #define tcpm_port_is_sink(port) \ ((tcpm_cc_is_sink((port)->cc1) && !tcpm_cc_is_sink((port)->cc2)) || \ (tcpm_cc_is_sink((port)->cc2) && !tcpm_cc_is_sink((port)->cc1))) #define tcpm_cc_is_source(cc) ((cc) == TYPEC_CC_RD) #define tcpm_cc_is_audio(cc) ((cc) == TYPEC_CC_RA) #define tcpm_cc_is_open(cc) ((cc) == TYPEC_CC_OPEN) #define tcpm_port_is_source(port) \ ((tcpm_cc_is_source((port)->cc1) && \ !tcpm_cc_is_source((port)->cc2)) || \ (tcpm_cc_is_source((port)->cc2) && \ !tcpm_cc_is_source((port)->cc1))) #define tcpm_port_is_debug(port) \ (tcpm_cc_is_source((port)->cc1) && tcpm_cc_is_source((port)->cc2)) #define tcpm_port_is_audio(port) \ (tcpm_cc_is_audio((port)->cc1) && tcpm_cc_is_audio((port)->cc2)) #define tcpm_port_is_audio_detached(port) \ ((tcpm_cc_is_audio((port)->cc1) && tcpm_cc_is_open((port)->cc2)) || \ (tcpm_cc_is_audio((port)->cc2) && tcpm_cc_is_open((port)->cc1))) #define tcpm_try_snk(port) \ ((port)->try_snk_count == 0 && (port)->try_role == TYPEC_SINK && \ (port)->port_type == TYPEC_PORT_DRP) #define tcpm_try_src(port) \ ((port)->try_src_count == 0 && (port)->try_role == TYPEC_SOURCE && \ (port)->port_type == TYPEC_PORT_DRP) static enum tcpm_state tcpm_default_state(struct tcpm_port *port) { if (port->port_type == TYPEC_PORT_DRP) { if (port->try_role == TYPEC_SINK) return SNK_UNATTACHED; else if (port->try_role == TYPEC_SOURCE) return SRC_UNATTACHED; else if (port->tcpc->config && port->tcpc->config->default_role == TYPEC_SINK) return SNK_UNATTACHED; /* Fall through to return SRC_UNATTACHED */ } else if (port->port_type == TYPEC_PORT_SNK) { return SNK_UNATTACHED; } return SRC_UNATTACHED; } static inline struct tcpm_port *typec_cap_to_tcpm(const struct typec_capability *cap) { return container_of(cap, struct tcpm_port, typec_caps); } static bool tcpm_port_is_disconnected(struct tcpm_port *port) { return (!port->attached && port->cc1 == TYPEC_CC_OPEN && port->cc2 == TYPEC_CC_OPEN) || (port->attached && ((port->polarity == TYPEC_POLARITY_CC1 && port->cc1 == TYPEC_CC_OPEN) || (port->polarity == TYPEC_POLARITY_CC2 && port->cc2 == TYPEC_CC_OPEN))); } /* * Logging */ #ifdef CONFIG_DEBUG_FS static bool tcpm_log_full(struct tcpm_port *port) { return port->logbuffer_tail == (port->logbuffer_head + 1) % LOG_BUFFER_ENTRIES; } __printf(2, 0) static void _tcpm_log(struct tcpm_port *port, const char *fmt, va_list args) { char tmpbuffer[LOG_BUFFER_ENTRY_SIZE]; u64 ts_nsec = local_clock(); unsigned long rem_nsec; mutex_lock(&port->logbuffer_lock); if (!port->logbuffer[port->logbuffer_head]) { port->logbuffer[port->logbuffer_head] = kzalloc(LOG_BUFFER_ENTRY_SIZE, GFP_KERNEL); if (!port->logbuffer[port->logbuffer_head]) { mutex_unlock(&port->logbuffer_lock); return; } } vsnprintf(tmpbuffer, sizeof(tmpbuffer), fmt, args); if (tcpm_log_full(port)) { port->logbuffer_head = max(port->logbuffer_head - 1, 0); strcpy(tmpbuffer, "overflow"); } if (port->logbuffer_head < 0 || port->logbuffer_head >= LOG_BUFFER_ENTRIES) { dev_warn(port->dev, "Bad log buffer index %d\n", port->logbuffer_head); goto abort; } if (!port->logbuffer[port->logbuffer_head]) { dev_warn(port->dev, "Log buffer index %d is NULL\n", port->logbuffer_head); goto abort; } rem_nsec = do_div(ts_nsec, 1000000000); scnprintf(port->logbuffer[port->logbuffer_head], LOG_BUFFER_ENTRY_SIZE, "[%5lu.%06lu] %s", (unsigned long)ts_nsec, rem_nsec / 1000, tmpbuffer); port->logbuffer_head = (port->logbuffer_head + 1) % LOG_BUFFER_ENTRIES; abort: mutex_unlock(&port->logbuffer_lock); } __printf(2, 3) static void tcpm_log(struct tcpm_port *port, const char *fmt, ...) { va_list args; /* Do not log while disconnected and unattached */ if (tcpm_port_is_disconnected(port) && (port->state == SRC_UNATTACHED || port->state == SNK_UNATTACHED || port->state == TOGGLING)) return; va_start(args, fmt); _tcpm_log(port, fmt, args); va_end(args); } __printf(2, 3) static void tcpm_log_force(struct tcpm_port *port, const char *fmt, ...) { va_list args; va_start(args, fmt); _tcpm_log(port, fmt, args); va_end(args); } static void tcpm_log_source_caps(struct tcpm_port *port) { int i; for (i = 0; i < port->nr_source_caps; i++) { u32 pdo = port->source_caps[i]; enum pd_pdo_type type = pdo_type(pdo); char msg[64]; switch (type) { case PDO_TYPE_FIXED: scnprintf(msg, sizeof(msg), "%u mV, %u mA [%s%s%s%s%s%s]", pdo_fixed_voltage(pdo), pdo_max_current(pdo), (pdo & PDO_FIXED_DUAL_ROLE) ? "R" : "", (pdo & PDO_FIXED_SUSPEND) ? "S" : "", (pdo & PDO_FIXED_HIGHER_CAP) ? "H" : "", (pdo & PDO_FIXED_USB_COMM) ? "U" : "", (pdo & PDO_FIXED_DATA_SWAP) ? "D" : "", (pdo & PDO_FIXED_EXTPOWER) ? "E" : ""); break; case PDO_TYPE_VAR: scnprintf(msg, sizeof(msg), "%u-%u mV, %u mA", pdo_min_voltage(pdo), pdo_max_voltage(pdo), pdo_max_current(pdo)); break; case PDO_TYPE_BATT: scnprintf(msg, sizeof(msg), "%u-%u mV, %u mW", pdo_min_voltage(pdo), pdo_max_voltage(pdo), pdo_max_power(pdo)); break; case PDO_TYPE_APDO: if (pdo_apdo_type(pdo) == APDO_TYPE_PPS) scnprintf(msg, sizeof(msg), "%u-%u mV, %u mA", pdo_pps_apdo_min_voltage(pdo), pdo_pps_apdo_max_voltage(pdo), pdo_pps_apdo_max_current(pdo)); else strcpy(msg, "undefined APDO"); break; default: strcpy(msg, "undefined"); break; } tcpm_log(port, " PDO %d: type %d, %s", i, type, msg); } } static int tcpm_debug_show(struct seq_file *s, void *v) { struct tcpm_port *port = (struct tcpm_port *)s->private; int tail; mutex_lock(&port->logbuffer_lock); tail = port->logbuffer_tail; while (tail != port->logbuffer_head) { seq_printf(s, "%s\n", port->logbuffer[tail]); tail = (tail + 1) % LOG_BUFFER_ENTRIES; } if (!seq_has_overflowed(s)) port->logbuffer_tail = tail; mutex_unlock(&port->logbuffer_lock); return 0; } DEFINE_SHOW_ATTRIBUTE(tcpm_debug); static void tcpm_debugfs_init(struct tcpm_port *port) { char name[NAME_MAX]; mutex_init(&port->logbuffer_lock); snprintf(name, NAME_MAX, "tcpm-%s", dev_name(port->dev)); port->dentry = debugfs_create_file(name, S_IFREG | 0444, usb_debug_root, port, &tcpm_debug_fops); } static void tcpm_debugfs_exit(struct tcpm_port *port) { int i; mutex_lock(&port->logbuffer_lock); for (i = 0; i < LOG_BUFFER_ENTRIES; i++) { kfree(port->logbuffer[i]); port->logbuffer[i] = NULL; } mutex_unlock(&port->logbuffer_lock); debugfs_remove(port->dentry); } #else __printf(2, 3) static void tcpm_log(const struct tcpm_port *port, const char *fmt, ...) { } __printf(2, 3) static void tcpm_log_force(struct tcpm_port *port, const char *fmt, ...) { } static void tcpm_log_source_caps(struct tcpm_port *port) { } static void tcpm_debugfs_init(const struct tcpm_port *port) { } static void tcpm_debugfs_exit(const struct tcpm_port *port) { } #endif static int tcpm_pd_transmit(struct tcpm_port *port, enum tcpm_transmit_type type, const struct pd_message *msg) { unsigned long timeout; int ret; if (msg) tcpm_log(port, "PD TX, header: %#x", le16_to_cpu(msg->header)); else tcpm_log(port, "PD TX, type: %#x", type); reinit_completion(&port->tx_complete); ret = port->tcpc->pd_transmit(port->tcpc, type, msg); if (ret < 0) return ret; mutex_unlock(&port->lock); timeout = wait_for_completion_timeout(&port->tx_complete, msecs_to_jiffies(PD_T_TCPC_TX_TIMEOUT)); mutex_lock(&port->lock); if (!timeout) return -ETIMEDOUT; switch (port->tx_status) { case TCPC_TX_SUCCESS: port->message_id = (port->message_id + 1) & PD_HEADER_ID_MASK; return 0; case TCPC_TX_DISCARDED: return -EAGAIN; case TCPC_TX_FAILED: default: return -EIO; } } void tcpm_pd_transmit_complete(struct tcpm_port *port, enum tcpm_transmit_status status) { tcpm_log(port, "PD TX complete, status: %u", status); port->tx_status = status; complete(&port->tx_complete); } EXPORT_SYMBOL_GPL(tcpm_pd_transmit_complete); static int tcpm_mux_set(struct tcpm_port *port, int state, enum usb_role usb_role, enum typec_orientation orientation) { int ret; tcpm_log(port, "Requesting mux state %d, usb-role %d, orientation %d", state, usb_role, orientation); ret = typec_set_orientation(port->typec_port, orientation); if (ret) return ret; if (port->role_sw) { ret = usb_role_switch_set_role(port->role_sw, usb_role); if (ret) return ret; } return typec_set_mode(port->typec_port, state); } static int tcpm_set_polarity(struct tcpm_port *port, enum typec_cc_polarity polarity) { int ret; tcpm_log(port, "polarity %d", polarity); ret = port->tcpc->set_polarity(port->tcpc, polarity); if (ret < 0) return ret; port->polarity = polarity; return 0; } static int tcpm_set_vconn(struct tcpm_port *port, bool enable) { int ret; tcpm_log(port, "vconn:=%d", enable); ret = port->tcpc->set_vconn(port->tcpc, enable); if (!ret) { port->vconn_role = enable ? TYPEC_SOURCE : TYPEC_SINK; typec_set_vconn_role(port->typec_port, port->vconn_role); } return ret; } static u32 tcpm_get_current_limit(struct tcpm_port *port) { enum typec_cc_status cc; u32 limit; cc = port->polarity ? port->cc2 : port->cc1; switch (cc) { case TYPEC_CC_RP_1_5: limit = 1500; break; case TYPEC_CC_RP_3_0: limit = 3000; break; case TYPEC_CC_RP_DEF: default: if (port->tcpc->get_current_limit) limit = port->tcpc->get_current_limit(port->tcpc); else limit = 0; break; } return limit; } static int tcpm_set_current_limit(struct tcpm_port *port, u32 max_ma, u32 mv) { int ret = -EOPNOTSUPP; tcpm_log(port, "Setting voltage/current limit %u mV %u mA", mv, max_ma); port->supply_voltage = mv; port->current_limit = max_ma; power_supply_changed(port->psy); if (port->tcpc->set_current_limit) ret = port->tcpc->set_current_limit(port->tcpc, max_ma, mv); return ret; } /* * Determine RP value to set based on maximum current supported * by a port if configured as source. * Returns CC value to report to link partner. */ static enum typec_cc_status tcpm_rp_cc(struct tcpm_port *port) { const u32 *src_pdo = port->src_pdo; int nr_pdo = port->nr_src_pdo; int i; /* * Search for first entry with matching voltage. * It should report the maximum supported current. */ for (i = 0; i < nr_pdo; i++) { const u32 pdo = src_pdo[i]; if (pdo_type(pdo) == PDO_TYPE_FIXED && pdo_fixed_voltage(pdo) == 5000) { unsigned int curr = pdo_max_current(pdo); if (curr >= 3000) return TYPEC_CC_RP_3_0; else if (curr >= 1500) return TYPEC_CC_RP_1_5; return TYPEC_CC_RP_DEF; } } return TYPEC_CC_RP_DEF; } static int tcpm_set_attached_state(struct tcpm_port *port, bool attached) { return port->tcpc->set_roles(port->tcpc, attached, port->pwr_role, port->data_role); } static int tcpm_set_roles(struct tcpm_port *port, bool attached, enum typec_role role, enum typec_data_role data) { enum typec_orientation orientation; enum usb_role usb_role; int ret; if (port->polarity == TYPEC_POLARITY_CC1) orientation = TYPEC_ORIENTATION_NORMAL; else orientation = TYPEC_ORIENTATION_REVERSE; if (data == TYPEC_HOST) usb_role = USB_ROLE_HOST; else usb_role = USB_ROLE_DEVICE; ret = tcpm_mux_set(port, TYPEC_STATE_USB, usb_role, orientation); if (ret < 0) return ret; ret = port->tcpc->set_roles(port->tcpc, attached, role, data); if (ret < 0) return ret; port->pwr_role = role; port->data_role = data; typec_set_data_role(port->typec_port, data); typec_set_pwr_role(port->typec_port, role); return 0; } static int tcpm_set_pwr_role(struct tcpm_port *port, enum typec_role role) { int ret; ret = port->tcpc->set_roles(port->tcpc, true, role, port->data_role); if (ret < 0) return ret; port->pwr_role = role; typec_set_pwr_role(port->typec_port, role); return 0; } static int tcpm_pd_send_source_caps(struct tcpm_port *port) { struct pd_message msg; int i; memset(&msg, 0, sizeof(msg)); if (!port->nr_src_pdo) { /* No source capabilities defined, sink only */ msg.header = PD_HEADER_LE(PD_CTRL_REJECT, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, 0); } else { msg.header = PD_HEADER_LE(PD_DATA_SOURCE_CAP, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, port->nr_src_pdo); } for (i = 0; i < port->nr_src_pdo; i++) msg.payload[i] = cpu_to_le32(port->src_pdo[i]); return tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); } static int tcpm_pd_send_sink_caps(struct tcpm_port *port) { struct pd_message msg; int i; memset(&msg, 0, sizeof(msg)); if (!port->nr_snk_pdo) { /* No sink capabilities defined, source only */ msg.header = PD_HEADER_LE(PD_CTRL_REJECT, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, 0); } else { msg.header = PD_HEADER_LE(PD_DATA_SINK_CAP, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, port->nr_snk_pdo); } for (i = 0; i < port->nr_snk_pdo; i++) msg.payload[i] = cpu_to_le32(port->snk_pdo[i]); return tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); } static void tcpm_set_state(struct tcpm_port *port, enum tcpm_state state, unsigned int delay_ms) { if (delay_ms) { tcpm_log(port, "pending state change %s -> %s @ %u ms", tcpm_states[port->state], tcpm_states[state], delay_ms); port->delayed_state = state; mod_delayed_work(port->wq, &port->state_machine, msecs_to_jiffies(delay_ms)); port->delayed_runtime = jiffies + msecs_to_jiffies(delay_ms); port->delay_ms = delay_ms; } else { tcpm_log(port, "state change %s -> %s", tcpm_states[port->state], tcpm_states[state]); port->delayed_state = INVALID_STATE; port->prev_state = port->state; port->state = state; /* * Don't re-queue the state machine work item if we're currently * in the state machine and we're immediately changing states. * tcpm_state_machine_work() will continue running the state * machine. */ if (!port->state_machine_running) mod_delayed_work(port->wq, &port->state_machine, 0); } } static void tcpm_set_state_cond(struct tcpm_port *port, enum tcpm_state state, unsigned int delay_ms) { if (port->enter_state == port->state) tcpm_set_state(port, state, delay_ms); else tcpm_log(port, "skipped %sstate change %s -> %s [%u ms], context state %s", delay_ms ? "delayed " : "", tcpm_states[port->state], tcpm_states[state], delay_ms, tcpm_states[port->enter_state]); } static void tcpm_queue_message(struct tcpm_port *port, enum pd_msg_request message) { port->queued_message = message; mod_delayed_work(port->wq, &port->state_machine, 0); } /* * VDM/VDO handling functions */ static void tcpm_queue_vdm(struct tcpm_port *port, const u32 header, const u32 *data, int cnt) { port->vdo_count = cnt + 1; port->vdo_data[0] = header; memcpy(&port->vdo_data[1], data, sizeof(u32) * cnt); /* Set ready, vdm state machine will actually send */ port->vdm_retries = 0; port->vdm_state = VDM_STATE_READY; } static void svdm_consume_identity(struct tcpm_port *port, const __le32 *payload, int cnt) { u32 vdo = le32_to_cpu(payload[VDO_INDEX_IDH]); u32 product = le32_to_cpu(payload[VDO_INDEX_PRODUCT]); memset(&port->mode_data, 0, sizeof(port->mode_data)); port->partner_ident.id_header = vdo; port->partner_ident.cert_stat = le32_to_cpu(payload[VDO_INDEX_CSTAT]); port->partner_ident.product = product; typec_partner_set_identity(port->partner); tcpm_log(port, "Identity: %04x:%04x.%04x", PD_IDH_VID(vdo), PD_PRODUCT_PID(product), product & 0xffff); } static bool svdm_consume_svids(struct tcpm_port *port, const __le32 *payload, int cnt) { struct pd_mode_data *pmdata = &port->mode_data; int i; for (i = 1; i < cnt; i++) { u32 p = le32_to_cpu(payload[i]); u16 svid; svid = (p >> 16) & 0xffff; if (!svid) return false; if (pmdata->nsvids >= SVID_DISCOVERY_MAX) goto abort; pmdata->svids[pmdata->nsvids++] = svid; tcpm_log(port, "SVID %d: 0x%x", pmdata->nsvids, svid); svid = p & 0xffff; if (!svid) return false; if (pmdata->nsvids >= SVID_DISCOVERY_MAX) goto abort; pmdata->svids[pmdata->nsvids++] = svid; tcpm_log(port, "SVID %d: 0x%x", pmdata->nsvids, svid); } return true; abort: tcpm_log(port, "SVID_DISCOVERY_MAX(%d) too low!", SVID_DISCOVERY_MAX); return false; } static void svdm_consume_modes(struct tcpm_port *port, const __le32 *payload, int cnt) { struct pd_mode_data *pmdata = &port->mode_data; struct typec_altmode_desc *paltmode; int i; if (pmdata->altmodes >= ARRAY_SIZE(port->partner_altmode)) { /* Already logged in svdm_consume_svids() */ return; } for (i = 1; i < cnt; i++) { paltmode = &pmdata->altmode_desc[pmdata->altmodes]; memset(paltmode, 0, sizeof(*paltmode)); paltmode->svid = pmdata->svids[pmdata->svid_index]; paltmode->mode = i; paltmode->vdo = le32_to_cpu(payload[i]); tcpm_log(port, " Alternate mode %d: SVID 0x%04x, VDO %d: 0x%08x", pmdata->altmodes, paltmode->svid, paltmode->mode, paltmode->vdo); pmdata->altmodes++; } } static void tcpm_register_partner_altmodes(struct tcpm_port *port) { struct pd_mode_data *modep = &port->mode_data; struct typec_altmode *altmode; int i; for (i = 0; i < modep->altmodes; i++) { altmode = typec_partner_register_altmode(port->partner, &modep->altmode_desc[i]); if (!altmode) tcpm_log(port, "Failed to register partner SVID 0x%04x", modep->altmode_desc[i].svid); port->partner_altmode[i] = altmode; } } #define supports_modal(port) PD_IDH_MODAL_SUPP((port)->partner_ident.id_header) static int tcpm_pd_svdm(struct tcpm_port *port, const __le32 *payload, int cnt, u32 *response) { struct typec_altmode *adev; struct typec_altmode *pdev; struct pd_mode_data *modep; u32 p[PD_MAX_PAYLOAD]; int rlen = 0; int cmd_type; int cmd; int i; for (i = 0; i < cnt; i++) p[i] = le32_to_cpu(payload[i]); cmd_type = PD_VDO_CMDT(p[0]); cmd = PD_VDO_CMD(p[0]); tcpm_log(port, "Rx VDM cmd 0x%x type %d cmd %d len %d", p[0], cmd_type, cmd, cnt); modep = &port->mode_data; adev = typec_match_altmode(port->port_altmode, ALTMODE_DISCOVERY_MAX, PD_VDO_VID(p[0]), PD_VDO_OPOS(p[0])); pdev = typec_match_altmode(port->partner_altmode, ALTMODE_DISCOVERY_MAX, PD_VDO_VID(p[0]), PD_VDO_OPOS(p[0])); switch (cmd_type) { case CMDT_INIT: switch (cmd) { case CMD_DISCOVER_IDENT: /* 6.4.4.3.1: Only respond as UFP (device) */ if (port->data_role == TYPEC_DEVICE && port->nr_snk_vdo) { for (i = 0; i < port->nr_snk_vdo; i++) response[i + 1] = port->snk_vdo[i]; rlen = port->nr_snk_vdo + 1; } break; case CMD_DISCOVER_SVID: break; case CMD_DISCOVER_MODES: break; case CMD_ENTER_MODE: break; case CMD_EXIT_MODE: break; case CMD_ATTENTION: /* Attention command does not have response */ if (adev) typec_altmode_attention(adev, p[1]); return 0; default: break; } if (rlen >= 1) { response[0] = p[0] | VDO_CMDT(CMDT_RSP_ACK); } else if (rlen == 0) { response[0] = p[0] | VDO_CMDT(CMDT_RSP_NAK); rlen = 1; } else { response[0] = p[0] | VDO_CMDT(CMDT_RSP_BUSY); rlen = 1; } break; case CMDT_RSP_ACK: /* silently drop message if we are not connected */ if (IS_ERR_OR_NULL(port->partner)) break; switch (cmd) { case CMD_DISCOVER_IDENT: /* 6.4.4.3.1 */ svdm_consume_identity(port, payload, cnt); response[0] = VDO(USB_SID_PD, 1, CMD_DISCOVER_SVID); rlen = 1; break; case CMD_DISCOVER_SVID: /* 6.4.4.3.2 */ if (svdm_consume_svids(port, payload, cnt)) { response[0] = VDO(USB_SID_PD, 1, CMD_DISCOVER_SVID); rlen = 1; } else if (modep->nsvids && supports_modal(port)) { response[0] = VDO(modep->svids[0], 1, CMD_DISCOVER_MODES); rlen = 1; } break; case CMD_DISCOVER_MODES: /* 6.4.4.3.3 */ svdm_consume_modes(port, payload, cnt); modep->svid_index++; if (modep->svid_index < modep->nsvids) { u16 svid = modep->svids[modep->svid_index]; response[0] = VDO(svid, 1, CMD_DISCOVER_MODES); rlen = 1; } else { tcpm_register_partner_altmodes(port); } break; case CMD_ENTER_MODE: if (adev && pdev) { typec_altmode_update_active(pdev, true); if (typec_altmode_vdm(adev, p[0], &p[1], cnt)) { response[0] = VDO(adev->svid, 1, CMD_EXIT_MODE); response[0] |= VDO_OPOS(adev->mode); return 1; } } return 0; case CMD_EXIT_MODE: if (adev && pdev) { typec_altmode_update_active(pdev, false); /* Back to USB Operation */ WARN_ON(typec_altmode_notify(adev, TYPEC_STATE_USB, NULL)); } break; default: break; } break; case CMDT_RSP_NAK: switch (cmd) { case CMD_ENTER_MODE: /* Back to USB Operation */ if (adev) WARN_ON(typec_altmode_notify(adev, TYPEC_STATE_USB, NULL)); break; default: break; } break; default: break; } /* Informing the alternate mode drivers about everything */ if (adev) typec_altmode_vdm(adev, p[0], &p[1], cnt); return rlen; } static void tcpm_handle_vdm_request(struct tcpm_port *port, const __le32 *payload, int cnt) { int rlen = 0; u32 response[8] = { }; u32 p0 = le32_to_cpu(payload[0]); if (port->vdm_state == VDM_STATE_BUSY) { /* If UFP responded busy retry after timeout */ if (PD_VDO_CMDT(p0) == CMDT_RSP_BUSY) { port->vdm_state = VDM_STATE_WAIT_RSP_BUSY; port->vdo_retry = (p0 & ~VDO_CMDT_MASK) | CMDT_INIT; mod_delayed_work(port->wq, &port->vdm_state_machine, msecs_to_jiffies(PD_T_VDM_BUSY)); return; } port->vdm_state = VDM_STATE_DONE; } if (PD_VDO_SVDM(p0)) rlen = tcpm_pd_svdm(port, payload, cnt, response); if (rlen > 0) { tcpm_queue_vdm(port, response[0], &response[1], rlen - 1); mod_delayed_work(port->wq, &port->vdm_state_machine, 0); } } static void tcpm_send_vdm(struct tcpm_port *port, u32 vid, int cmd, const u32 *data, int count) { u32 header; if (WARN_ON(count > VDO_MAX_SIZE - 1)) count = VDO_MAX_SIZE - 1; /* set VDM header with VID & CMD */ header = VDO(vid, ((vid & USB_SID_PD) == USB_SID_PD) ? 1 : (PD_VDO_CMD(cmd) <= CMD_ATTENTION), cmd); tcpm_queue_vdm(port, header, data, count); mod_delayed_work(port->wq, &port->vdm_state_machine, 0); } static unsigned int vdm_ready_timeout(u32 vdm_hdr) { unsigned int timeout; int cmd = PD_VDO_CMD(vdm_hdr); /* its not a structured VDM command */ if (!PD_VDO_SVDM(vdm_hdr)) return PD_T_VDM_UNSTRUCTURED; switch (PD_VDO_CMDT(vdm_hdr)) { case CMDT_INIT: if (cmd == CMD_ENTER_MODE || cmd == CMD_EXIT_MODE) timeout = PD_T_VDM_WAIT_MODE_E; else timeout = PD_T_VDM_SNDR_RSP; break; default: if (cmd == CMD_ENTER_MODE || cmd == CMD_EXIT_MODE) timeout = PD_T_VDM_E_MODE; else timeout = PD_T_VDM_RCVR_RSP; break; } return timeout; } static void vdm_run_state_machine(struct tcpm_port *port) { struct pd_message msg; int i, res; switch (port->vdm_state) { case VDM_STATE_READY: /* Only transmit VDM if attached */ if (!port->attached) { port->vdm_state = VDM_STATE_ERR_BUSY; break; } /* * if there's traffic or we're not in PDO ready state don't send * a VDM. */ if (port->state != SRC_READY && port->state != SNK_READY) break; /* Prepare and send VDM */ memset(&msg, 0, sizeof(msg)); msg.header = PD_HEADER_LE(PD_DATA_VENDOR_DEF, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, port->vdo_count); for (i = 0; i < port->vdo_count; i++) msg.payload[i] = cpu_to_le32(port->vdo_data[i]); res = tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); if (res < 0) { port->vdm_state = VDM_STATE_ERR_SEND; } else { unsigned long timeout; port->vdm_retries = 0; port->vdm_state = VDM_STATE_BUSY; timeout = vdm_ready_timeout(port->vdo_data[0]); mod_delayed_work(port->wq, &port->vdm_state_machine, timeout); } break; case VDM_STATE_WAIT_RSP_BUSY: port->vdo_data[0] = port->vdo_retry; port->vdo_count = 1; port->vdm_state = VDM_STATE_READY; break; case VDM_STATE_BUSY: port->vdm_state = VDM_STATE_ERR_TMOUT; break; case VDM_STATE_ERR_SEND: /* * A partner which does not support USB PD will not reply, * so this is not a fatal error. At the same time, some * devices may not return GoodCRC under some circumstances, * so we need to retry. */ if (port->vdm_retries < 3) { tcpm_log(port, "VDM Tx error, retry"); port->vdm_retries++; port->vdm_state = VDM_STATE_READY; } break; default: break; } } static void vdm_state_machine_work(struct work_struct *work) { struct tcpm_port *port = container_of(work, struct tcpm_port, vdm_state_machine.work); enum vdm_states prev_state; mutex_lock(&port->lock); /* * Continue running as long as the port is not busy and there was * a state change. */ do { prev_state = port->vdm_state; vdm_run_state_machine(port); } while (port->vdm_state != prev_state && port->vdm_state != VDM_STATE_BUSY); mutex_unlock(&port->lock); } enum pdo_err { PDO_NO_ERR, PDO_ERR_NO_VSAFE5V, PDO_ERR_VSAFE5V_NOT_FIRST, PDO_ERR_PDO_TYPE_NOT_IN_ORDER, PDO_ERR_FIXED_NOT_SORTED, PDO_ERR_VARIABLE_BATT_NOT_SORTED, PDO_ERR_DUPE_PDO, PDO_ERR_PPS_APDO_NOT_SORTED, PDO_ERR_DUPE_PPS_APDO, }; static const char * const pdo_err_msg[] = { [PDO_ERR_NO_VSAFE5V] = " err: source/sink caps should atleast have vSafe5V", [PDO_ERR_VSAFE5V_NOT_FIRST] = " err: vSafe5V Fixed Supply Object Shall always be the first object", [PDO_ERR_PDO_TYPE_NOT_IN_ORDER] = " err: PDOs should be in the following order: Fixed; Battery; Variable", [PDO_ERR_FIXED_NOT_SORTED] = " err: Fixed supply pdos should be in increasing order of their fixed voltage", [PDO_ERR_VARIABLE_BATT_NOT_SORTED] = " err: Variable/Battery supply pdos should be in increasing order of their minimum voltage", [PDO_ERR_DUPE_PDO] = " err: Variable/Batt supply pdos cannot have same min/max voltage", [PDO_ERR_PPS_APDO_NOT_SORTED] = " err: Programmable power supply apdos should be in increasing order of their maximum voltage", [PDO_ERR_DUPE_PPS_APDO] = " err: Programmable power supply apdos cannot have same min/max voltage and max current", }; static enum pdo_err tcpm_caps_err(struct tcpm_port *port, const u32 *pdo, unsigned int nr_pdo) { unsigned int i; /* Should at least contain vSafe5v */ if (nr_pdo < 1) return PDO_ERR_NO_VSAFE5V; /* The vSafe5V Fixed Supply Object Shall always be the first object */ if (pdo_type(pdo[0]) != PDO_TYPE_FIXED || pdo_fixed_voltage(pdo[0]) != VSAFE5V) return PDO_ERR_VSAFE5V_NOT_FIRST; for (i = 1; i < nr_pdo; i++) { if (pdo_type(pdo[i]) < pdo_type(pdo[i - 1])) { return PDO_ERR_PDO_TYPE_NOT_IN_ORDER; } else if (pdo_type(pdo[i]) == pdo_type(pdo[i - 1])) { enum pd_pdo_type type = pdo_type(pdo[i]); switch (type) { /* * The remaining Fixed Supply Objects, if * present, shall be sent in voltage order; * lowest to highest. */ case PDO_TYPE_FIXED: if (pdo_fixed_voltage(pdo[i]) <= pdo_fixed_voltage(pdo[i - 1])) return PDO_ERR_FIXED_NOT_SORTED; break; /* * The Battery Supply Objects and Variable * supply, if present shall be sent in Minimum * Voltage order; lowest to highest. */ case PDO_TYPE_VAR: case PDO_TYPE_BATT: if (pdo_min_voltage(pdo[i]) < pdo_min_voltage(pdo[i - 1])) return PDO_ERR_VARIABLE_BATT_NOT_SORTED; else if ((pdo_min_voltage(pdo[i]) == pdo_min_voltage(pdo[i - 1])) && (pdo_max_voltage(pdo[i]) == pdo_max_voltage(pdo[i - 1]))) return PDO_ERR_DUPE_PDO; break; /* * The Programmable Power Supply APDOs, if present, * shall be sent in Maximum Voltage order; * lowest to highest. */ case PDO_TYPE_APDO: if (pdo_apdo_type(pdo[i]) != APDO_TYPE_PPS) break; if (pdo_pps_apdo_max_voltage(pdo[i]) < pdo_pps_apdo_max_voltage(pdo[i - 1])) return PDO_ERR_PPS_APDO_NOT_SORTED; else if (pdo_pps_apdo_min_voltage(pdo[i]) == pdo_pps_apdo_min_voltage(pdo[i - 1]) && pdo_pps_apdo_max_voltage(pdo[i]) == pdo_pps_apdo_max_voltage(pdo[i - 1]) && pdo_pps_apdo_max_current(pdo[i]) == pdo_pps_apdo_max_current(pdo[i - 1])) return PDO_ERR_DUPE_PPS_APDO; break; default: tcpm_log_force(port, " Unknown pdo type"); } } } return PDO_NO_ERR; } static int tcpm_validate_caps(struct tcpm_port *port, const u32 *pdo, unsigned int nr_pdo) { enum pdo_err err_index = tcpm_caps_err(port, pdo, nr_pdo); if (err_index != PDO_NO_ERR) { tcpm_log_force(port, " %s", pdo_err_msg[err_index]); return -EINVAL; } return 0; } static int tcpm_altmode_enter(struct typec_altmode *altmode) { struct tcpm_port *port = typec_altmode_get_drvdata(altmode); u32 header; mutex_lock(&port->lock); header = VDO(altmode->svid, 1, CMD_ENTER_MODE); header |= VDO_OPOS(altmode->mode); tcpm_queue_vdm(port, header, NULL, 0); mod_delayed_work(port->wq, &port->vdm_state_machine, 0); mutex_unlock(&port->lock); return 0; } static int tcpm_altmode_exit(struct typec_altmode *altmode) { struct tcpm_port *port = typec_altmode_get_drvdata(altmode); u32 header; mutex_lock(&port->lock); header = VDO(altmode->svid, 1, CMD_EXIT_MODE); header |= VDO_OPOS(altmode->mode); tcpm_queue_vdm(port, header, NULL, 0); mod_delayed_work(port->wq, &port->vdm_state_machine, 0); mutex_unlock(&port->lock); return 0; } static int tcpm_altmode_vdm(struct typec_altmode *altmode, u32 header, const u32 *data, int count) { struct tcpm_port *port = typec_altmode_get_drvdata(altmode); mutex_lock(&port->lock); tcpm_queue_vdm(port, header, data, count - 1); mod_delayed_work(port->wq, &port->vdm_state_machine, 0); mutex_unlock(&port->lock); return 0; } static const struct typec_altmode_ops tcpm_altmode_ops = { .enter = tcpm_altmode_enter, .exit = tcpm_altmode_exit, .vdm = tcpm_altmode_vdm, }; /* * PD (data, control) command handling functions */ static inline enum tcpm_state ready_state(struct tcpm_port *port) { if (port->pwr_role == TYPEC_SOURCE) return SRC_READY; else return SNK_READY; } static int tcpm_pd_send_control(struct tcpm_port *port, enum pd_ctrl_msg_type type); static void tcpm_handle_alert(struct tcpm_port *port, const __le32 *payload, int cnt) { u32 p0 = le32_to_cpu(payload[0]); unsigned int type = usb_pd_ado_type(p0); if (!type) { tcpm_log(port, "Alert message received with no type"); return; } /* Just handling non-battery alerts for now */ if (!(type & USB_PD_ADO_TYPE_BATT_STATUS_CHANGE)) { switch (port->state) { case SRC_READY: case SNK_READY: tcpm_set_state(port, GET_STATUS_SEND, 0); break; default: tcpm_queue_message(port, PD_MSG_CTRL_WAIT); break; } } } static void tcpm_pd_data_request(struct tcpm_port *port, const struct pd_message *msg) { enum pd_data_msg_type type = pd_header_type_le(msg->header); unsigned int cnt = pd_header_cnt_le(msg->header); unsigned int rev = pd_header_rev_le(msg->header); unsigned int i; switch (type) { case PD_DATA_SOURCE_CAP: if (port->pwr_role != TYPEC_SINK) break; for (i = 0; i < cnt; i++) port->source_caps[i] = le32_to_cpu(msg->payload[i]); port->nr_source_caps = cnt; tcpm_log_source_caps(port); tcpm_validate_caps(port, port->source_caps, port->nr_source_caps); /* * Adjust revision in subsequent message headers, as required, * to comply with 6.2.1.1.5 of the USB PD 3.0 spec. We don't * support Rev 1.0 so just do nothing in that scenario. */ if (rev == PD_REV10) break; if (rev < PD_MAX_REV) port->negotiated_rev = rev; /* * This message may be received even if VBUS is not * present. This is quite unexpected; see USB PD * specification, sections 8.3.3.6.3.1 and 8.3.3.6.3.2. * However, at the same time, we must be ready to * receive this message and respond to it 15ms after * receiving PS_RDY during power swap operations, no matter * if VBUS is available or not (USB PD specification, * section 6.5.9.2). * So we need to accept the message either way, * but be prepared to keep waiting for VBUS after it was * handled. */ tcpm_set_state(port, SNK_NEGOTIATE_CAPABILITIES, 0); break; case PD_DATA_REQUEST: if (port->pwr_role != TYPEC_SOURCE || cnt != 1) { tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } /* * Adjust revision in subsequent message headers, as required, * to comply with 6.2.1.1.5 of the USB PD 3.0 spec. We don't * support Rev 1.0 so just reject in that scenario. */ if (rev == PD_REV10) { tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } if (rev < PD_MAX_REV) port->negotiated_rev = rev; port->sink_request = le32_to_cpu(msg->payload[0]); tcpm_set_state(port, SRC_NEGOTIATE_CAPABILITIES, 0); break; case PD_DATA_SINK_CAP: /* We don't do anything with this at the moment... */ for (i = 0; i < cnt; i++) port->sink_caps[i] = le32_to_cpu(msg->payload[i]); port->nr_sink_caps = cnt; break; case PD_DATA_VENDOR_DEF: tcpm_handle_vdm_request(port, msg->payload, cnt); break; case PD_DATA_BIST: if (port->state == SRC_READY || port->state == SNK_READY) { port->bist_request = le32_to_cpu(msg->payload[0]); tcpm_set_state(port, BIST_RX, 0); } break; case PD_DATA_ALERT: tcpm_handle_alert(port, msg->payload, cnt); break; case PD_DATA_BATT_STATUS: case PD_DATA_GET_COUNTRY_INFO: /* Currently unsupported */ tcpm_queue_message(port, PD_MSG_CTRL_NOT_SUPP); break; default: tcpm_log(port, "Unhandled data message type %#x", type); break; } } static void tcpm_pps_complete(struct tcpm_port *port, int result) { if (port->pps_pending) { port->pps_status = result; port->pps_pending = false; complete(&port->pps_complete); } } static void tcpm_pd_ctrl_request(struct tcpm_port *port, const struct pd_message *msg) { enum pd_ctrl_msg_type type = pd_header_type_le(msg->header); enum tcpm_state next_state; switch (type) { case PD_CTRL_GOOD_CRC: case PD_CTRL_PING: break; case PD_CTRL_GET_SOURCE_CAP: switch (port->state) { case SRC_READY: case SNK_READY: tcpm_queue_message(port, PD_MSG_DATA_SOURCE_CAP); break; default: tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } break; case PD_CTRL_GET_SINK_CAP: switch (port->state) { case SRC_READY: case SNK_READY: tcpm_queue_message(port, PD_MSG_DATA_SINK_CAP); break; default: tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } break; case PD_CTRL_GOTO_MIN: break; case PD_CTRL_PS_RDY: switch (port->state) { case SNK_TRANSITION_SINK: if (port->vbus_present) { tcpm_set_current_limit(port, port->req_current_limit, port->req_supply_voltage); port->explicit_contract = true; tcpm_set_state(port, SNK_READY, 0); } else { /* * Seen after power swap. Keep waiting for VBUS * in a transitional state. */ tcpm_set_state(port, SNK_TRANSITION_SINK_VBUS, 0); } break; case PR_SWAP_SRC_SNK_SOURCE_OFF_CC_DEBOUNCED: tcpm_set_state(port, PR_SWAP_SRC_SNK_SINK_ON, 0); break; case PR_SWAP_SNK_SRC_SINK_OFF: tcpm_set_state(port, PR_SWAP_SNK_SRC_SOURCE_ON, 0); break; case VCONN_SWAP_WAIT_FOR_VCONN: tcpm_set_state(port, VCONN_SWAP_TURN_OFF_VCONN, 0); break; default: break; } break; case PD_CTRL_REJECT: case PD_CTRL_WAIT: case PD_CTRL_NOT_SUPP: switch (port->state) { case SNK_NEGOTIATE_CAPABILITIES: /* USB PD specification, Figure 8-43 */ if (port->explicit_contract) next_state = SNK_READY; else next_state = SNK_WAIT_CAPABILITIES; tcpm_set_state(port, next_state, 0); break; case SNK_NEGOTIATE_PPS_CAPABILITIES: /* Revert data back from any requested PPS updates */ port->pps_data.req_out_volt = port->supply_voltage; port->pps_data.req_op_curr = port->current_limit; port->pps_status = (type == PD_CTRL_WAIT ? -EAGAIN : -EOPNOTSUPP); tcpm_set_state(port, SNK_READY, 0); break; case DR_SWAP_SEND: port->swap_status = (type == PD_CTRL_WAIT ? -EAGAIN : -EOPNOTSUPP); tcpm_set_state(port, DR_SWAP_CANCEL, 0); break; case PR_SWAP_SEND: port->swap_status = (type == PD_CTRL_WAIT ? -EAGAIN : -EOPNOTSUPP); tcpm_set_state(port, PR_SWAP_CANCEL, 0); break; case VCONN_SWAP_SEND: port->swap_status = (type == PD_CTRL_WAIT ? -EAGAIN : -EOPNOTSUPP); tcpm_set_state(port, VCONN_SWAP_CANCEL, 0); break; default: break; } break; case PD_CTRL_ACCEPT: switch (port->state) { case SNK_NEGOTIATE_CAPABILITIES: port->pps_data.active = false; tcpm_set_state(port, SNK_TRANSITION_SINK, 0); break; case SNK_NEGOTIATE_PPS_CAPABILITIES: port->pps_data.active = true; port->pps_data.min_volt = port->pps_data.req_min_volt; port->pps_data.max_volt = port->pps_data.req_max_volt; port->pps_data.max_curr = port->pps_data.req_max_curr; port->req_supply_voltage = port->pps_data.req_out_volt; port->req_current_limit = port->pps_data.req_op_curr; power_supply_changed(port->psy); tcpm_set_state(port, SNK_TRANSITION_SINK, 0); break; case SOFT_RESET_SEND: port->message_id = 0; port->rx_msgid = -1; if (port->pwr_role == TYPEC_SOURCE) next_state = SRC_SEND_CAPABILITIES; else next_state = SNK_WAIT_CAPABILITIES; tcpm_set_state(port, next_state, 0); break; case DR_SWAP_SEND: tcpm_set_state(port, DR_SWAP_CHANGE_DR, 0); break; case PR_SWAP_SEND: tcpm_set_state(port, PR_SWAP_START, 0); break; case VCONN_SWAP_SEND: tcpm_set_state(port, VCONN_SWAP_START, 0); break; default: break; } break; case PD_CTRL_SOFT_RESET: tcpm_set_state(port, SOFT_RESET, 0); break; case PD_CTRL_DR_SWAP: if (port->port_type != TYPEC_PORT_DRP) { tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } /* * XXX * 6.3.9: If an alternate mode is active, a request to swap * alternate modes shall trigger a port reset. */ switch (port->state) { case SRC_READY: case SNK_READY: tcpm_set_state(port, DR_SWAP_ACCEPT, 0); break; default: tcpm_queue_message(port, PD_MSG_CTRL_WAIT); break; } break; case PD_CTRL_PR_SWAP: if (port->port_type != TYPEC_PORT_DRP) { tcpm_queue_message(port, PD_MSG_CTRL_REJECT); break; } switch (port->state) { case SRC_READY: case SNK_READY: tcpm_set_state(port, PR_SWAP_ACCEPT, 0); break; default: tcpm_queue_message(port, PD_MSG_CTRL_WAIT); break; } break; case PD_CTRL_VCONN_SWAP: switch (port->state) { case SRC_READY: case SNK_READY: tcpm_set_state(port, VCONN_SWAP_ACCEPT, 0); break; default: tcpm_queue_message(port, PD_MSG_CTRL_WAIT); break; } break; case PD_CTRL_GET_SOURCE_CAP_EXT: case PD_CTRL_GET_STATUS: case PD_CTRL_FR_SWAP: case PD_CTRL_GET_PPS_STATUS: case PD_CTRL_GET_COUNTRY_CODES: /* Currently not supported */ tcpm_queue_message(port, PD_MSG_CTRL_NOT_SUPP); break; default: tcpm_log(port, "Unhandled ctrl message type %#x", type); break; } } static void tcpm_pd_ext_msg_request(struct tcpm_port *port, const struct pd_message *msg) { enum pd_ext_msg_type type = pd_header_type_le(msg->header); unsigned int data_size = pd_ext_header_data_size_le(msg->ext_msg.header); if (!(msg->ext_msg.header & PD_EXT_HDR_CHUNKED)) { tcpm_log(port, "Unchunked extended messages unsupported"); return; } if (data_size > PD_EXT_MAX_CHUNK_DATA) { tcpm_log(port, "Chunk handling not yet supported"); return; } switch (type) { case PD_EXT_STATUS: /* * If PPS related events raised then get PPS status to clear * (see USB PD 3.0 Spec, 6.5.2.4) */ if (msg->ext_msg.data[USB_PD_EXT_SDB_EVENT_FLAGS] & USB_PD_EXT_SDB_PPS_EVENTS) tcpm_set_state(port, GET_PPS_STATUS_SEND, 0); else tcpm_set_state(port, ready_state(port), 0); break; case PD_EXT_PPS_STATUS: /* * For now the PPS status message is used to clear events * and nothing more. */ tcpm_set_state(port, ready_state(port), 0); break; case PD_EXT_SOURCE_CAP_EXT: case PD_EXT_GET_BATT_CAP: case PD_EXT_GET_BATT_STATUS: case PD_EXT_BATT_CAP: case PD_EXT_GET_MANUFACTURER_INFO: case PD_EXT_MANUFACTURER_INFO: case PD_EXT_SECURITY_REQUEST: case PD_EXT_SECURITY_RESPONSE: case PD_EXT_FW_UPDATE_REQUEST: case PD_EXT_FW_UPDATE_RESPONSE: case PD_EXT_COUNTRY_INFO: case PD_EXT_COUNTRY_CODES: tcpm_queue_message(port, PD_MSG_CTRL_NOT_SUPP); break; default: tcpm_log(port, "Unhandled extended message type %#x", type); break; } } static void tcpm_pd_rx_handler(struct work_struct *work) { struct pd_rx_event *event = container_of(work, struct pd_rx_event, work); const struct pd_message *msg = &event->msg; unsigned int cnt = pd_header_cnt_le(msg->header); struct tcpm_port *port = event->port; mutex_lock(&port->lock); tcpm_log(port, "PD RX, header: %#x [%d]", le16_to_cpu(msg->header), port->attached); if (port->attached) { enum pd_ctrl_msg_type type = pd_header_type_le(msg->header); unsigned int msgid = pd_header_msgid_le(msg->header); /* * USB PD standard, 6.6.1.2: * "... if MessageID value in a received Message is the * same as the stored value, the receiver shall return a * GoodCRC Message with that MessageID value and drop * the Message (this is a retry of an already received * Message). Note: this shall not apply to the Soft_Reset * Message which always has a MessageID value of zero." */ if (msgid == port->rx_msgid && type != PD_CTRL_SOFT_RESET) goto done; port->rx_msgid = msgid; /* * If both ends believe to be DFP/host, we have a data role * mismatch. */ if (!!(le16_to_cpu(msg->header) & PD_HEADER_DATA_ROLE) == (port->data_role == TYPEC_HOST)) { tcpm_log(port, "Data role mismatch, initiating error recovery"); tcpm_set_state(port, ERROR_RECOVERY, 0); } else { if (msg->header & PD_HEADER_EXT_HDR) tcpm_pd_ext_msg_request(port, msg); else if (cnt) tcpm_pd_data_request(port, msg); else tcpm_pd_ctrl_request(port, msg); } } done: mutex_unlock(&port->lock); kfree(event); } void tcpm_pd_receive(struct tcpm_port *port, const struct pd_message *msg) { struct pd_rx_event *event; event = kzalloc(sizeof(*event), GFP_ATOMIC); if (!event) return; INIT_WORK(&event->work, tcpm_pd_rx_handler); event->port = port; memcpy(&event->msg, msg, sizeof(*msg)); queue_work(port->wq, &event->work); } EXPORT_SYMBOL_GPL(tcpm_pd_receive); static int tcpm_pd_send_control(struct tcpm_port *port, enum pd_ctrl_msg_type type) { struct pd_message msg; memset(&msg, 0, sizeof(msg)); msg.header = PD_HEADER_LE(type, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, 0); return tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); } /* * Send queued message without affecting state. * Return true if state machine should go back to sleep, * false otherwise. */ static bool tcpm_send_queued_message(struct tcpm_port *port) { enum pd_msg_request queued_message; do { queued_message = port->queued_message; port->queued_message = PD_MSG_NONE; switch (queued_message) { case PD_MSG_CTRL_WAIT: tcpm_pd_send_control(port, PD_CTRL_WAIT); break; case PD_MSG_CTRL_REJECT: tcpm_pd_send_control(port, PD_CTRL_REJECT); break; case PD_MSG_CTRL_NOT_SUPP: tcpm_pd_send_control(port, PD_CTRL_NOT_SUPP); break; case PD_MSG_DATA_SINK_CAP: tcpm_pd_send_sink_caps(port); break; case PD_MSG_DATA_SOURCE_CAP: tcpm_pd_send_source_caps(port); break; default: break; } } while (port->queued_message != PD_MSG_NONE); if (port->delayed_state != INVALID_STATE) { if (time_is_after_jiffies(port->delayed_runtime)) { mod_delayed_work(port->wq, &port->state_machine, port->delayed_runtime - jiffies); return true; } port->delayed_state = INVALID_STATE; } return false; } static int tcpm_pd_check_request(struct tcpm_port *port) { u32 pdo, rdo = port->sink_request; unsigned int max, op, pdo_max, index; enum pd_pdo_type type; index = rdo_index(rdo); if (!index || index > port->nr_src_pdo) return -EINVAL; pdo = port->src_pdo[index - 1]; type = pdo_type(pdo); switch (type) { case PDO_TYPE_FIXED: case PDO_TYPE_VAR: max = rdo_max_current(rdo); op = rdo_op_current(rdo); pdo_max = pdo_max_current(pdo); if (op > pdo_max) return -EINVAL; if (max > pdo_max && !(rdo & RDO_CAP_MISMATCH)) return -EINVAL; if (type == PDO_TYPE_FIXED) tcpm_log(port, "Requested %u mV, %u mA for %u / %u mA", pdo_fixed_voltage(pdo), pdo_max, op, max); else tcpm_log(port, "Requested %u -> %u mV, %u mA for %u / %u mA", pdo_min_voltage(pdo), pdo_max_voltage(pdo), pdo_max, op, max); break; case PDO_TYPE_BATT: max = rdo_max_power(rdo); op = rdo_op_power(rdo); pdo_max = pdo_max_power(pdo); if (op > pdo_max) return -EINVAL; if (max > pdo_max && !(rdo & RDO_CAP_MISMATCH)) return -EINVAL; tcpm_log(port, "Requested %u -> %u mV, %u mW for %u / %u mW", pdo_min_voltage(pdo), pdo_max_voltage(pdo), pdo_max, op, max); break; default: return -EINVAL; } port->op_vsafe5v = index == 1; return 0; } #define min_power(x, y) min(pdo_max_power(x), pdo_max_power(y)) #define min_current(x, y) min(pdo_max_current(x), pdo_max_current(y)) static int tcpm_pd_select_pdo(struct tcpm_port *port, int *sink_pdo, int *src_pdo) { unsigned int i, j, max_src_mv = 0, min_src_mv = 0, max_mw = 0, max_mv = 0, src_mw = 0, src_ma = 0, max_snk_mv = 0, min_snk_mv = 0; int ret = -EINVAL; port->pps_data.supported = false; port->usb_type = POWER_SUPPLY_USB_TYPE_PD; power_supply_changed(port->psy); /* * Select the source PDO providing the most power which has a * matchig sink cap. */ for (i = 0; i < port->nr_source_caps; i++) { u32 pdo = port->source_caps[i]; enum pd_pdo_type type = pdo_type(pdo); switch (type) { case PDO_TYPE_FIXED: max_src_mv = pdo_fixed_voltage(pdo); min_src_mv = max_src_mv; break; case PDO_TYPE_BATT: case PDO_TYPE_VAR: max_src_mv = pdo_max_voltage(pdo); min_src_mv = pdo_min_voltage(pdo); break; case PDO_TYPE_APDO: if (pdo_apdo_type(pdo) == APDO_TYPE_PPS) { port->pps_data.supported = true; port->usb_type = POWER_SUPPLY_USB_TYPE_PD_PPS; power_supply_changed(port->psy); } continue; default: tcpm_log(port, "Invalid source PDO type, ignoring"); continue; } switch (type) { case PDO_TYPE_FIXED: case PDO_TYPE_VAR: src_ma = pdo_max_current(pdo); src_mw = src_ma * min_src_mv / 1000; break; case PDO_TYPE_BATT: src_mw = pdo_max_power(pdo); break; case PDO_TYPE_APDO: continue; default: tcpm_log(port, "Invalid source PDO type, ignoring"); continue; } for (j = 0; j < port->nr_snk_pdo; j++) { pdo = port->snk_pdo[j]; switch (pdo_type(pdo)) { case PDO_TYPE_FIXED: max_snk_mv = pdo_fixed_voltage(pdo); min_snk_mv = max_snk_mv; break; case PDO_TYPE_BATT: case PDO_TYPE_VAR: max_snk_mv = pdo_max_voltage(pdo); min_snk_mv = pdo_min_voltage(pdo); break; case PDO_TYPE_APDO: continue; default: tcpm_log(port, "Invalid sink PDO type, ignoring"); continue; } if (max_src_mv <= max_snk_mv && min_src_mv >= min_snk_mv) { /* Prefer higher voltages if available */ if ((src_mw == max_mw && min_src_mv > max_mv) || src_mw > max_mw) { *src_pdo = i; *sink_pdo = j; max_mw = src_mw; max_mv = min_src_mv; ret = 0; } } } } return ret; } #define min_pps_apdo_current(x, y) \ min(pdo_pps_apdo_max_current(x), pdo_pps_apdo_max_current(y)) static unsigned int tcpm_pd_select_pps_apdo(struct tcpm_port *port) { unsigned int i, j, max_mw = 0, max_mv = 0; unsigned int min_src_mv, max_src_mv, src_ma, src_mw; unsigned int min_snk_mv, max_snk_mv; unsigned int max_op_mv; u32 pdo, src, snk; unsigned int src_pdo = 0, snk_pdo = 0; /* * Select the source PPS APDO providing the most power while staying * within the board's limits. We skip the first PDO as this is always * 5V 3A. */ for (i = 1; i < port->nr_source_caps; ++i) { pdo = port->source_caps[i]; switch (pdo_type(pdo)) { case PDO_TYPE_APDO: if (pdo_apdo_type(pdo) != APDO_TYPE_PPS) { tcpm_log(port, "Not PPS APDO (source), ignoring"); continue; } min_src_mv = pdo_pps_apdo_min_voltage(pdo); max_src_mv = pdo_pps_apdo_max_voltage(pdo); src_ma = pdo_pps_apdo_max_current(pdo); src_mw = (src_ma * max_src_mv) / 1000; /* * Now search through the sink PDOs to find a matching * PPS APDO. Again skip the first sink PDO as this will * always be 5V 3A. */ for (j = 1; j < port->nr_snk_pdo; j++) { pdo = port->snk_pdo[j]; switch (pdo_type(pdo)) { case PDO_TYPE_APDO: if (pdo_apdo_type(pdo) != APDO_TYPE_PPS) { tcpm_log(port, "Not PPS APDO (sink), ignoring"); continue; } min_snk_mv = pdo_pps_apdo_min_voltage(pdo); max_snk_mv = pdo_pps_apdo_max_voltage(pdo); break; default: tcpm_log(port, "Not APDO type (sink), ignoring"); continue; } if (min_src_mv <= max_snk_mv && max_src_mv >= min_snk_mv) { max_op_mv = min(max_src_mv, max_snk_mv); src_mw = (max_op_mv * src_ma) / 1000; /* Prefer higher voltages if available */ if ((src_mw == max_mw && max_op_mv > max_mv) || src_mw > max_mw) { src_pdo = i; snk_pdo = j; max_mw = src_mw; max_mv = max_op_mv; } } } break; default: tcpm_log(port, "Not APDO type (source), ignoring"); continue; } } if (src_pdo) { src = port->source_caps[src_pdo]; snk = port->snk_pdo[snk_pdo]; port->pps_data.req_min_volt = max(pdo_pps_apdo_min_voltage(src), pdo_pps_apdo_min_voltage(snk)); port->pps_data.req_max_volt = min(pdo_pps_apdo_max_voltage(src), pdo_pps_apdo_max_voltage(snk)); port->pps_data.req_max_curr = min_pps_apdo_current(src, snk); port->pps_data.req_out_volt = min(port->pps_data.req_max_volt, max(port->pps_data.req_min_volt, port->pps_data.req_out_volt)); port->pps_data.req_op_curr = min(port->pps_data.req_max_curr, port->pps_data.req_op_curr); } return src_pdo; } static int tcpm_pd_build_request(struct tcpm_port *port, u32 *rdo) { unsigned int mv, ma, mw, flags; unsigned int max_ma, max_mw; enum pd_pdo_type type; u32 pdo, matching_snk_pdo; int src_pdo_index = 0; int snk_pdo_index = 0; int ret; ret = tcpm_pd_select_pdo(port, &snk_pdo_index, &src_pdo_index); if (ret < 0) return ret; pdo = port->source_caps[src_pdo_index]; matching_snk_pdo = port->snk_pdo[snk_pdo_index]; type = pdo_type(pdo); switch (type) { case PDO_TYPE_FIXED: mv = pdo_fixed_voltage(pdo); break; case PDO_TYPE_BATT: case PDO_TYPE_VAR: mv = pdo_min_voltage(pdo); break; default: tcpm_log(port, "Invalid PDO selected!"); return -EINVAL; } /* Select maximum available current within the sink pdo's limit */ if (type == PDO_TYPE_BATT) { mw = min_power(pdo, matching_snk_pdo); ma = 1000 * mw / mv; } else { ma = min_current(pdo, matching_snk_pdo); mw = ma * mv / 1000; } flags = RDO_USB_COMM | RDO_NO_SUSPEND; /* Set mismatch bit if offered power is less than operating power */ max_ma = ma; max_mw = mw; if (mw < port->operating_snk_mw) { flags |= RDO_CAP_MISMATCH; if (type == PDO_TYPE_BATT && (pdo_max_power(matching_snk_pdo) > pdo_max_power(pdo))) max_mw = pdo_max_power(matching_snk_pdo); else if (pdo_max_current(matching_snk_pdo) > pdo_max_current(pdo)) max_ma = pdo_max_current(matching_snk_pdo); } tcpm_log(port, "cc=%d cc1=%d cc2=%d vbus=%d vconn=%s polarity=%d", port->cc_req, port->cc1, port->cc2, port->vbus_source, port->vconn_role == TYPEC_SOURCE ? "source" : "sink", port->polarity); if (type == PDO_TYPE_BATT) { *rdo = RDO_BATT(src_pdo_index + 1, mw, max_mw, flags); tcpm_log(port, "Requesting PDO %d: %u mV, %u mW%s", src_pdo_index, mv, mw, flags & RDO_CAP_MISMATCH ? " [mismatch]" : ""); } else { *rdo = RDO_FIXED(src_pdo_index + 1, ma, max_ma, flags); tcpm_log(port, "Requesting PDO %d: %u mV, %u mA%s", src_pdo_index, mv, ma, flags & RDO_CAP_MISMATCH ? " [mismatch]" : ""); } port->req_current_limit = ma; port->req_supply_voltage = mv; return 0; } static int tcpm_pd_send_request(struct tcpm_port *port) { struct pd_message msg; int ret; u32 rdo; ret = tcpm_pd_build_request(port, &rdo); if (ret < 0) return ret; memset(&msg, 0, sizeof(msg)); msg.header = PD_HEADER_LE(PD_DATA_REQUEST, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, 1); msg.payload[0] = cpu_to_le32(rdo); return tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); } static int tcpm_pd_build_pps_request(struct tcpm_port *port, u32 *rdo) { unsigned int out_mv, op_ma, op_mw, max_mv, max_ma, flags; enum pd_pdo_type type; unsigned int src_pdo_index; u32 pdo; src_pdo_index = tcpm_pd_select_pps_apdo(port); if (!src_pdo_index) return -EOPNOTSUPP; pdo = port->source_caps[src_pdo_index]; type = pdo_type(pdo); switch (type) { case PDO_TYPE_APDO: if (pdo_apdo_type(pdo) != APDO_TYPE_PPS) { tcpm_log(port, "Invalid APDO selected!"); return -EINVAL; } max_mv = port->pps_data.req_max_volt; max_ma = port->pps_data.req_max_curr; out_mv = port->pps_data.req_out_volt; op_ma = port->pps_data.req_op_curr; break; default: tcpm_log(port, "Invalid PDO selected!"); return -EINVAL; } flags = RDO_USB_COMM | RDO_NO_SUSPEND; op_mw = (op_ma * out_mv) / 1000; if (op_mw < port->operating_snk_mw) { /* * Try raising current to meet power needs. If that's not enough * then try upping the voltage. If that's still not enough * then we've obviously chosen a PPS APDO which really isn't * suitable so abandon ship. */ op_ma = (port->operating_snk_mw * 1000) / out_mv; if ((port->operating_snk_mw * 1000) % out_mv) ++op_ma; op_ma += RDO_PROG_CURR_MA_STEP - (op_ma % RDO_PROG_CURR_MA_STEP); if (op_ma > max_ma) { op_ma = max_ma; out_mv = (port->operating_snk_mw * 1000) / op_ma; if ((port->operating_snk_mw * 1000) % op_ma) ++out_mv; out_mv += RDO_PROG_VOLT_MV_STEP - (out_mv % RDO_PROG_VOLT_MV_STEP); if (out_mv > max_mv) { tcpm_log(port, "Invalid PPS APDO selected!"); return -EINVAL; } } } tcpm_log(port, "cc=%d cc1=%d cc2=%d vbus=%d vconn=%s polarity=%d", port->cc_req, port->cc1, port->cc2, port->vbus_source, port->vconn_role == TYPEC_SOURCE ? "source" : "sink", port->polarity); *rdo = RDO_PROG(src_pdo_index + 1, out_mv, op_ma, flags); tcpm_log(port, "Requesting APDO %d: %u mV, %u mA", src_pdo_index, out_mv, op_ma); port->pps_data.req_op_curr = op_ma; port->pps_data.req_out_volt = out_mv; return 0; } static int tcpm_pd_send_pps_request(struct tcpm_port *port) { struct pd_message msg; int ret; u32 rdo; ret = tcpm_pd_build_pps_request(port, &rdo); if (ret < 0) return ret; memset(&msg, 0, sizeof(msg)); msg.header = PD_HEADER_LE(PD_DATA_REQUEST, port->pwr_role, port->data_role, port->negotiated_rev, port->message_id, 1); msg.payload[0] = cpu_to_le32(rdo); return tcpm_pd_transmit(port, TCPC_TX_SOP, &msg); } static int tcpm_set_vbus(struct tcpm_port *port, bool enable) { int ret; if (enable && port->vbus_charge) return -EINVAL; tcpm_log(port, "vbus:=%d charge=%d", enable, port->vbus_charge); ret = port->tcpc->set_vbus(port->tcpc, enable, port->vbus_charge); if (ret < 0) return ret; port->vbus_source = enable; return 0; } static int tcpm_set_charge(struct tcpm_port *port, bool charge) { int ret; if (charge && port->vbus_source) return -EINVAL; if (charge != port->vbus_charge) { tcpm_log(port, "vbus=%d charge:=%d", port->vbus_source, charge); ret = port->tcpc->set_vbus(port->tcpc, port->vbus_source, charge); if (ret < 0) return ret; } port->vbus_charge = charge; power_supply_changed(port->psy); return 0; } static bool tcpm_start_toggling(struct tcpm_port *port, enum typec_cc_status cc) { int ret; if (!port->tcpc->start_toggling) return false; tcpm_log_force(port, "Start toggling"); ret = port->tcpc->start_toggling(port->tcpc, port->port_type, cc); return ret == 0; } static void tcpm_set_cc(struct tcpm_port *port, enum typec_cc_status cc) { tcpm_log(port, "cc:=%d", cc); port->cc_req = cc; port->tcpc->set_cc(port->tcpc, cc); } static int tcpm_init_vbus(struct tcpm_port *port) { int ret; ret = port->tcpc->set_vbus(port->tcpc, false, false); port->vbus_source = false; port->vbus_charge = false; return ret; } static int tcpm_init_vconn(struct tcpm_port *port) { int ret; ret = port->tcpc->set_vconn(port->tcpc, false); port->vconn_role = TYPEC_SINK; return ret; } static void tcpm_typec_connect(struct tcpm_port *port) { if (!port->connected) { /* Make sure we don't report stale identity information */ memset(&port->partner_ident, 0, sizeof(port->partner_ident)); port->partner_desc.usb_pd = port->pd_capable; if (tcpm_port_is_debug(port)) port->partner_desc.accessory = TYPEC_ACCESSORY_DEBUG; else if (tcpm_port_is_audio(port)) port->partner_desc.accessory = TYPEC_ACCESSORY_AUDIO; else port->partner_desc.accessory = TYPEC_ACCESSORY_NONE; port->partner = typec_register_partner(port->typec_port, &port->partner_desc); port->connected = true; } } static int tcpm_src_attach(struct tcpm_port *port) { enum typec_cc_polarity polarity = port->cc2 == TYPEC_CC_RD ? TYPEC_POLARITY_CC2 : TYPEC_POLARITY_CC1; int ret; if (port->attached) return 0; ret = tcpm_set_polarity(port, polarity); if (ret < 0) return ret; ret = tcpm_set_roles(port, true, TYPEC_SOURCE, TYPEC_HOST); if (ret < 0) return ret; ret = port->tcpc->set_pd_rx(port->tcpc, true); if (ret < 0) goto out_disable_mux; /* * USB Type-C specification, version 1.2, * chapter 4.5.2.2.8.1 (Attached.SRC Requirements) * Enable VCONN only if the non-RD port is set to RA. */ if ((polarity == TYPEC_POLARITY_CC1 && port->cc2 == TYPEC_CC_RA) || (polarity == TYPEC_POLARITY_CC2 && port->cc1 == TYPEC_CC_RA)) { ret = tcpm_set_vconn(port, true); if (ret < 0) goto out_disable_pd; } ret = tcpm_set_vbus(port, true); if (ret < 0) goto out_disable_vconn; port->pd_capable = false; port->partner = NULL; port->attached = true; port->send_discover = true; return 0; out_disable_vconn: tcpm_set_vconn(port, false); out_disable_pd: port->tcpc->set_pd_rx(port->tcpc, false); out_disable_mux: tcpm_mux_set(port, TYPEC_STATE_SAFE, USB_ROLE_NONE, TYPEC_ORIENTATION_NONE); return ret; } static void tcpm_typec_disconnect(struct tcpm_port *port) { if (port->connected) { typec_unregister_partner(port->partner); port->partner = NULL; port->connected = false; } } static void tcpm_unregister_altmodes(struct tcpm_port *port) { struct pd_mode_data *modep = &port->mode_data; int i; for (i = 0; i < modep->altmodes; i++) { typec_unregister_altmode(port->partner_altmode[i]); port->partner_altmode[i] = NULL; } memset(modep, 0, sizeof(*modep)); } static void tcpm_reset_port(struct tcpm_port *port) { tcpm_unregister_altmodes(port); tcpm_typec_disconnect(port); port->attached = false; port->pd_capable = false; port->pps_data.supported = false; /* * First Rx ID should be 0; set this to a sentinel of -1 so that * we can check tcpm_pd_rx_handler() if we had seen it before. */ port->rx_msgid = -1; port->tcpc->set_pd_rx(port->tcpc, false); tcpm_init_vbus(port); /* also disables charging */ tcpm_init_vconn(port); tcpm_set_current_limit(port, 0, 0); tcpm_set_polarity(port, TYPEC_POLARITY_CC1); tcpm_mux_set(port, TYPEC_STATE_SAFE, USB_ROLE_NONE, TYPEC_ORIENTATION_NONE); tcpm_set_attached_state(port, false); port->try_src_count = 0; port->try_snk_count = 0; port->usb_type = POWER_SUPPLY_USB_TYPE_C; } static void tcpm_detach(struct tcpm_port *port) { if (tcpm_port_is_disconnected(port)) port->hard_reset_count = 0; if (!port->attached) return; tcpm_reset_port(port); } static void tcpm_src_detach(struct tcpm_port *port) { tcpm_detach(port); } static int tcpm_snk_attach(struct tcpm_port *port) { int ret; if (port->attached) return 0; ret = tcpm_set_polarity(port, port->cc2 != TYPEC_CC_OPEN ? TYPEC_POLARITY_CC2 : TYPEC_POLARITY_CC1); if (ret < 0) return ret; ret = tcpm_set_roles(port, true, TYPEC_SINK, TYPEC_DEVICE); if (ret < 0) return ret; port->pd_capable = false; port->partner = NULL; port->attached = true; port->send_discover = true; return 0; } static void tcpm_snk_detach(struct tcpm_port *port) { tcpm_detach(port); } static int tcpm_acc_attach(struct tcpm_port *port) { int ret; if (port->attached) return 0; ret = tcpm_set_roles(port, true, TYPEC_SOURCE, TYPEC_HOST); if (ret < 0) return ret; port->partner = NULL; tcpm_typec_connect(port); port->attached = true; return 0; } static void tcpm_acc_detach(struct tcpm_port *port) { tcpm_detach(port); } static inline enum tcpm_state hard_reset_state(struct tcpm_port *port) { if (port->hard_reset_count < PD_N_HARD_RESET_COUNT) return HARD_RESET_SEND; if (port->pd_capable) return ERROR_RECOVERY; if (port->pwr_role == TYPEC_SOURCE) return SRC_UNATTACHED; if (port->state == SNK_WAIT_CAPABILITIES) return SNK_READY; return SNK_UNATTACHED; } static inline enum tcpm_state unattached_state(struct tcpm_port *port) { if (port->port_type == TYPEC_PORT_DRP) { if (port->pwr_role == TYPEC_SOURCE) return SRC_UNATTACHED; else return SNK_UNATTACHED; } else if (port->port_type == TYPEC_PORT_SRC) { return SRC_UNATTACHED; } return SNK_UNATTACHED; } static void tcpm_check_send_discover(struct tcpm_port *port) { if (port->data_role == TYPEC_HOST && port->send_discover && port->pd_capable) { tcpm_send_vdm(port, USB_SID_PD, CMD_DISCOVER_IDENT, NULL, 0); port->send_discover = false; } } static void tcpm_swap_complete(struct tcpm_port *port, int result) { if (port->swap_pending) { port->swap_status = result; port->swap_pending = false; port->non_pd_role_swap = false; complete(&port->swap_complete); } } static enum typec_pwr_opmode tcpm_get_pwr_opmode(enum typec_cc_status cc) { switch (cc) { case TYPEC_CC_RP_1_5: return TYPEC_PWR_MODE_1_5A; case TYPEC_CC_RP_3_0: return TYPEC_PWR_MODE_3_0A; case TYPEC_CC_RP_DEF: default: return TYPEC_PWR_MODE_USB; } } static void run_state_machine(struct tcpm_port *port) { int ret; enum typec_pwr_opmode opmode; unsigned int msecs; port->enter_state = port->state; switch (port->state) { case TOGGLING: break; /* SRC states */ case SRC_UNATTACHED: if (!port->non_pd_role_swap) tcpm_swap_complete(port, -ENOTCONN); tcpm_src_detach(port); if (tcpm_start_toggling(port, tcpm_rp_cc(port))) { tcpm_set_state(port, TOGGLING, 0); break; } tcpm_set_cc(port, tcpm_rp_cc(port)); if (port->port_type == TYPEC_PORT_DRP) tcpm_set_state(port, SNK_UNATTACHED, PD_T_DRP_SNK); break; case SRC_ATTACH_WAIT: if (tcpm_port_is_debug(port)) tcpm_set_state(port, DEBUG_ACC_ATTACHED, PD_T_CC_DEBOUNCE); else if (tcpm_port_is_audio(port)) tcpm_set_state(port, AUDIO_ACC_ATTACHED, PD_T_CC_DEBOUNCE); else if (tcpm_port_is_source(port)) tcpm_set_state(port, tcpm_try_snk(port) ? SNK_TRY : SRC_ATTACHED, PD_T_CC_DEBOUNCE); break; case SNK_TRY: port->try_snk_count++; /* * Requirements: * - Do not drive vconn or vbus * - Terminate CC pins (both) to Rd * Action: * - Wait for tDRPTry (PD_T_DRP_TRY). * Until then, ignore any state changes. */ tcpm_set_cc(port, TYPEC_CC_RD); tcpm_set_state(port, SNK_TRY_WAIT, PD_T_DRP_TRY); break; case SNK_TRY_WAIT: if (tcpm_port_is_sink(port)) { tcpm_set_state(port, SNK_TRY_WAIT_DEBOUNCE, 0); } else { tcpm_set_state(port, SRC_TRYWAIT, 0); port->max_wait = 0; } break; case SNK_TRY_WAIT_DEBOUNCE: tcpm_set_state(port, SNK_TRY_WAIT_DEBOUNCE_CHECK_VBUS, PD_T_PD_DEBOUNCE); break; case SNK_TRY_WAIT_DEBOUNCE_CHECK_VBUS: if (port->vbus_present && tcpm_port_is_sink(port)) { tcpm_set_state(port, SNK_ATTACHED, 0); } else { tcpm_set_state(port, SRC_TRYWAIT, 0); port->max_wait = 0; } break; case SRC_TRYWAIT: tcpm_set_cc(port, tcpm_rp_cc(port)); if (port->max_wait == 0) { port->max_wait = jiffies + msecs_to_jiffies(PD_T_DRP_TRY); tcpm_set_state(port, SRC_TRYWAIT_UNATTACHED, PD_T_DRP_TRY); } else { if (time_is_after_jiffies(port->max_wait)) tcpm_set_state(port, SRC_TRYWAIT_UNATTACHED, jiffies_to_msecs(port->max_wait - jiffies)); else tcpm_set_state(port, SNK_UNATTACHED, 0); } break; case SRC_TRYWAIT_DEBOUNCE: tcpm_set_state(port, SRC_ATTACHED, PD_T_CC_DEBOUNCE); break; case SRC_TRYWAIT_UNATTACHED: tcpm_set_state(port, SNK_UNATTACHED, 0); break; case SRC_ATTACHED: ret = tcpm_src_attach(port); tcpm_set_state(port, SRC_UNATTACHED, ret < 0 ? 0 : PD_T_PS_SOURCE_ON); break; case SRC_STARTUP: opmode = tcpm_get_pwr_opmode(tcpm_rp_cc(port)); typec_set_pwr_opmode(port->typec_port, opmode); port->pwr_opmode = TYPEC_PWR_MODE_USB; port->caps_count = 0; port->negotiated_rev = PD_MAX_REV; port->message_id = 0; port->rx_msgid = -1; port->explicit_contract = false; tcpm_set_state(port, SRC_SEND_CAPABILITIES, 0); break; case SRC_SEND_CAPABILITIES: port->caps_count++; if (port->caps_count > PD_N_CAPS_COUNT) { tcpm_set_state(port, SRC_READY, 0); break; } ret = tcpm_pd_send_source_caps(port); if (ret < 0) { tcpm_set_state(port, SRC_SEND_CAPABILITIES, PD_T_SEND_SOURCE_CAP); } else { /* * Per standard, we should clear the reset counter here. * However, that can result in state machine hang-ups. * Reset it only in READY state to improve stability. */ /* port->hard_reset_count = 0; */ port->caps_count = 0; port->pd_capable = true; tcpm_set_state_cond(port, SRC_SEND_CAPABILITIES_TIMEOUT, PD_T_SEND_SOURCE_CAP); } break; case SRC_SEND_CAPABILITIES_TIMEOUT: /* * Error recovery for a PD_DATA_SOURCE_CAP reply timeout. * * PD 2.0 sinks are supposed to accept src-capabilities with a * 3.0 header and simply ignore any src PDOs which the sink does * not understand such as PPS but some 2.0 sinks instead ignore * the entire PD_DATA_SOURCE_CAP message, causing contract * negotiation to fail. * * After PD_N_HARD_RESET_COUNT hard-reset attempts, we try * sending src-capabilities with a lower PD revision to * make these broken sinks work. */ if (port->hard_reset_count < PD_N_HARD_RESET_COUNT) { tcpm_set_state(port, HARD_RESET_SEND, 0); } else if (port->negotiated_rev > PD_REV20) { port->negotiated_rev--; port->hard_reset_count = 0; tcpm_set_state(port, SRC_SEND_CAPABILITIES, 0); } else { tcpm_set_state(port, hard_reset_state(port), 0); } break; case SRC_NEGOTIATE_CAPABILITIES: ret = tcpm_pd_check_request(port); if (ret < 0) { tcpm_pd_send_control(port, PD_CTRL_REJECT); if (!port->explicit_contract) { tcpm_set_state(port, SRC_WAIT_NEW_CAPABILITIES, 0); } else { tcpm_set_state(port, SRC_READY, 0); } } else { tcpm_pd_send_control(port, PD_CTRL_ACCEPT); tcpm_set_state(port, SRC_TRANSITION_SUPPLY, PD_T_SRC_TRANSITION); } break; case SRC_TRANSITION_SUPPLY: /* XXX: regulator_set_voltage(vbus, ...) */ tcpm_pd_send_control(port, PD_CTRL_PS_RDY); port->explicit_contract = true; typec_set_pwr_opmode(port->typec_port, TYPEC_PWR_MODE_PD); port->pwr_opmode = TYPEC_PWR_MODE_PD; tcpm_set_state_cond(port, SRC_READY, 0); break; case SRC_READY: #if 1 port->hard_reset_count = 0; #endif port->try_src_count = 0; tcpm_swap_complete(port, 0); tcpm_typec_connect(port); tcpm_check_send_discover(port); /* * 6.3.5 * Sending ping messages is not necessary if * - the source operates at vSafe5V * or * - The system is not operating in PD mode * or * - Both partners are connected using a Type-C connector * * There is no actual need to send PD messages since the local * port type-c and the spec does not clearly say whether PD is * possible when type-c is connected to Type-A/B */ break; case SRC_WAIT_NEW_CAPABILITIES: /* Nothing to do... */ break; /* SNK states */ case SNK_UNATTACHED: if (!port->non_pd_role_swap) tcpm_swap_complete(port, -ENOTCONN); tcpm_pps_complete(port, -ENOTCONN); tcpm_snk_detach(port); if (tcpm_start_toggling(port, TYPEC_CC_RD)) { tcpm_set_state(port, TOGGLING, 0); break; } tcpm_set_cc(port, TYPEC_CC_RD); if (port->port_type == TYPEC_PORT_DRP) tcpm_set_state(port, SRC_UNATTACHED, PD_T_DRP_SRC); break; case SNK_ATTACH_WAIT: if ((port->cc1 == TYPEC_CC_OPEN && port->cc2 != TYPEC_CC_OPEN) || (port->cc1 != TYPEC_CC_OPEN && port->cc2 == TYPEC_CC_OPEN)) tcpm_set_state(port, SNK_DEBOUNCED, PD_T_CC_DEBOUNCE); else if (tcpm_port_is_disconnected(port)) tcpm_set_state(port, SNK_UNATTACHED, PD_T_PD_DEBOUNCE); break; case SNK_DEBOUNCED: if (tcpm_port_is_disconnected(port)) tcpm_set_state(port, SNK_UNATTACHED, PD_T_PD_DEBOUNCE); else if (port->vbus_present) tcpm_set_state(port, tcpm_try_src(port) ? SRC_TRY : SNK_ATTACHED, 0); break; case SRC_TRY: port->try_src_count++; tcpm_set_cc(port, tcpm_rp_cc(port)); port->max_wait = 0; tcpm_set_state(port, SRC_TRY_WAIT, 0); break; case SRC_TRY_WAIT: if (port->max_wait == 0) { port->max_wait = jiffies + msecs_to_jiffies(PD_T_DRP_TRY); msecs = PD_T_DRP_TRY; } else { if (time_is_after_jiffies(port->max_wait)) msecs = jiffies_to_msecs(port->max_wait - jiffies); else msecs = 0; } tcpm_set_state(port, SNK_TRYWAIT, msecs); break; case SRC_TRY_DEBOUNCE: tcpm_set_state(port, SRC_ATTACHED, PD_T_PD_DEBOUNCE); break; case SNK_TRYWAIT: tcpm_set_cc(port, TYPEC_CC_RD); tcpm_set_state(port, SNK_TRYWAIT_VBUS, PD_T_CC_DEBOUNCE); break; case SNK_TRYWAIT_VBUS: /* * TCPM stays in this state indefinitely until VBUS * is detected as long as Rp is not detected for * more than a time period of tPDDebounce. */ if (port->vbus_present && tcpm_port_is_sink(port)) { tcpm_set_state(port, SNK_ATTACHED, 0); break; } if (!tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_TRYWAIT_DEBOUNCE, 0); break; case SNK_TRYWAIT_DEBOUNCE: tcpm_set_state(port, SNK_UNATTACHED, PD_T_PD_DEBOUNCE); break; case SNK_ATTACHED: ret = tcpm_snk_attach(port); if (ret < 0) tcpm_set_state(port, SNK_UNATTACHED, 0); else tcpm_set_state(port, SNK_STARTUP, 0); break; case SNK_STARTUP: opmode = tcpm_get_pwr_opmode(port->polarity ? port->cc2 : port->cc1); typec_set_pwr_opmode(port->typec_port, opmode); port->pwr_opmode = TYPEC_PWR_MODE_USB; port->negotiated_rev = PD_MAX_REV; port->message_id = 0; port->rx_msgid = -1; port->explicit_contract = false; tcpm_set_state(port, SNK_DISCOVERY, 0); break; case SNK_DISCOVERY: if (port->vbus_present) { tcpm_set_current_limit(port, tcpm_get_current_limit(port), 5000); tcpm_set_charge(port, true); tcpm_set_state(port, SNK_WAIT_CAPABILITIES, 0); break; } /* * For DRP, timeouts differ. Also, handling is supposed to be * different and much more complex (dead battery detection; * see USB power delivery specification, section 8.3.3.6.1.5.1). */ tcpm_set_state(port, hard_reset_state(port), port->port_type == TYPEC_PORT_DRP ? PD_T_DB_DETECT : PD_T_NO_RESPONSE); break; case SNK_DISCOVERY_DEBOUNCE: tcpm_set_state(port, SNK_DISCOVERY_DEBOUNCE_DONE, PD_T_CC_DEBOUNCE); break; case SNK_DISCOVERY_DEBOUNCE_DONE: if (!tcpm_port_is_disconnected(port) && tcpm_port_is_sink(port) && time_is_after_jiffies(port->delayed_runtime)) { tcpm_set_state(port, SNK_DISCOVERY, jiffies_to_msecs(port->delayed_runtime - jiffies)); break; } tcpm_set_state(port, unattached_state(port), 0); break; case SNK_WAIT_CAPABILITIES: ret = port->tcpc->set_pd_rx(port->tcpc, true); if (ret < 0) { tcpm_set_state(port, SNK_READY, 0); break; } /* * If VBUS has never been low, and we time out waiting * for source cap, try a soft reset first, in case we * were already in a stable contract before this boot. * Do this only once. */ if (port->vbus_never_low) { port->vbus_never_low = false; tcpm_set_state(port, SOFT_RESET_SEND, PD_T_SINK_WAIT_CAP); } else { tcpm_set_state(port, hard_reset_state(port), PD_T_SINK_WAIT_CAP); } break; case SNK_NEGOTIATE_CAPABILITIES: port->pd_capable = true; port->hard_reset_count = 0; ret = tcpm_pd_send_request(port); if (ret < 0) { /* Let the Source send capabilities again. */ tcpm_set_state(port, SNK_WAIT_CAPABILITIES, 0); } else { tcpm_set_state_cond(port, hard_reset_state(port), PD_T_SENDER_RESPONSE); } break; case SNK_NEGOTIATE_PPS_CAPABILITIES: ret = tcpm_pd_send_pps_request(port); if (ret < 0) { port->pps_status = ret; /* * If this was called due to updates to sink * capabilities, and pps is no longer valid, we should * safely fall back to a standard PDO. */ if (port->update_sink_caps) tcpm_set_state(port, SNK_NEGOTIATE_CAPABILITIES, 0); else tcpm_set_state(port, SNK_READY, 0); } else { tcpm_set_state_cond(port, hard_reset_state(port), PD_T_SENDER_RESPONSE); } break; case SNK_TRANSITION_SINK: case SNK_TRANSITION_SINK_VBUS: tcpm_set_state(port, hard_reset_state(port), PD_T_PS_TRANSITION); break; case SNK_READY: port->try_snk_count = 0; port->update_sink_caps = false; if (port->explicit_contract) { typec_set_pwr_opmode(port->typec_port, TYPEC_PWR_MODE_PD); port->pwr_opmode = TYPEC_PWR_MODE_PD; } tcpm_swap_complete(port, 0); tcpm_typec_connect(port); tcpm_check_send_discover(port); tcpm_pps_complete(port, port->pps_status); power_supply_changed(port->psy); break; /* Accessory states */ case ACC_UNATTACHED: tcpm_acc_detach(port); tcpm_set_state(port, SRC_UNATTACHED, 0); break; case DEBUG_ACC_ATTACHED: case AUDIO_ACC_ATTACHED: ret = tcpm_acc_attach(port); if (ret < 0) tcpm_set_state(port, ACC_UNATTACHED, 0); break; case AUDIO_ACC_DEBOUNCE: tcpm_set_state(port, ACC_UNATTACHED, PD_T_CC_DEBOUNCE); break; /* Hard_Reset states */ case HARD_RESET_SEND: tcpm_pd_transmit(port, TCPC_TX_HARD_RESET, NULL); tcpm_set_state(port, HARD_RESET_START, 0); break; case HARD_RESET_START: port->hard_reset_count++; port->tcpc->set_pd_rx(port->tcpc, false); tcpm_unregister_altmodes(port); port->send_discover = true; if (port->pwr_role == TYPEC_SOURCE) tcpm_set_state(port, SRC_HARD_RESET_VBUS_OFF, PD_T_PS_HARD_RESET); else tcpm_set_state(port, SNK_HARD_RESET_SINK_OFF, 0); break; case SRC_HARD_RESET_VBUS_OFF: tcpm_set_vconn(port, true); tcpm_set_vbus(port, false); tcpm_set_roles(port, port->self_powered, TYPEC_SOURCE, TYPEC_HOST); tcpm_set_state(port, SRC_HARD_RESET_VBUS_ON, PD_T_SRC_RECOVER); break; case SRC_HARD_RESET_VBUS_ON: tcpm_set_vbus(port, true); port->tcpc->set_pd_rx(port->tcpc, true); tcpm_set_attached_state(port, true); tcpm_set_state(port, SRC_UNATTACHED, PD_T_PS_SOURCE_ON); break; case SNK_HARD_RESET_SINK_OFF: memset(&port->pps_data, 0, sizeof(port->pps_data)); tcpm_set_vconn(port, false); if (port->pd_capable) tcpm_set_charge(port, false); tcpm_set_roles(port, port->self_powered, TYPEC_SINK, TYPEC_DEVICE); /* * VBUS may or may not toggle, depending on the adapter. * If it doesn't toggle, transition to SNK_HARD_RESET_SINK_ON * directly after timeout. */ tcpm_set_state(port, SNK_HARD_RESET_SINK_ON, PD_T_SAFE_0V); break; case SNK_HARD_RESET_WAIT_VBUS: /* Assume we're disconnected if VBUS doesn't come back. */ tcpm_set_state(port, SNK_UNATTACHED, PD_T_SRC_RECOVER_MAX + PD_T_SRC_TURN_ON); break; case SNK_HARD_RESET_SINK_ON: /* Note: There is no guarantee that VBUS is on in this state */ /* * XXX: * The specification suggests that dual mode ports in sink * mode should transition to state PE_SRC_Transition_to_default. * See USB power delivery specification chapter 8.3.3.6.1.3. * This would mean to to * - turn off VCONN, reset power supply * - request hardware reset * - turn on VCONN * - Transition to state PE_Src_Startup * SNK only ports shall transition to state Snk_Startup * (see chapter 8.3.3.3.8). * Similar, dual-mode ports in source mode should transition * to PE_SNK_Transition_to_default. */ if (port->pd_capable) { tcpm_set_current_limit(port, tcpm_get_current_limit(port), 5000); tcpm_set_charge(port, true); } tcpm_set_attached_state(port, true); tcpm_set_state(port, SNK_STARTUP, 0); break; /* Soft_Reset states */ case SOFT_RESET: port->message_id = 0; port->rx_msgid = -1; tcpm_pd_send_control(port, PD_CTRL_ACCEPT); if (port->pwr_role == TYPEC_SOURCE) tcpm_set_state(port, SRC_SEND_CAPABILITIES, 0); else tcpm_set_state(port, SNK_WAIT_CAPABILITIES, 0); break; case SOFT_RESET_SEND: port->message_id = 0; port->rx_msgid = -1; if (tcpm_pd_send_control(port, PD_CTRL_SOFT_RESET)) tcpm_set_state_cond(port, hard_reset_state(port), 0); else tcpm_set_state_cond(port, hard_reset_state(port), PD_T_SENDER_RESPONSE); break; /* DR_Swap states */ case DR_SWAP_SEND: tcpm_pd_send_control(port, PD_CTRL_DR_SWAP); tcpm_set_state_cond(port, DR_SWAP_SEND_TIMEOUT, PD_T_SENDER_RESPONSE); break; case DR_SWAP_ACCEPT: tcpm_pd_send_control(port, PD_CTRL_ACCEPT); tcpm_set_state_cond(port, DR_SWAP_CHANGE_DR, 0); break; case DR_SWAP_SEND_TIMEOUT: tcpm_swap_complete(port, -ETIMEDOUT); tcpm_set_state(port, ready_state(port), 0); break; case DR_SWAP_CHANGE_DR: if (port->data_role == TYPEC_HOST) { tcpm_unregister_altmodes(port); tcpm_set_roles(port, true, port->pwr_role, TYPEC_DEVICE); } else { tcpm_set_roles(port, true, port->pwr_role, TYPEC_HOST); port->send_discover = true; } tcpm_set_state(port, ready_state(port), 0); break; /* PR_Swap states */ case PR_SWAP_ACCEPT: tcpm_pd_send_control(port, PD_CTRL_ACCEPT); tcpm_set_state(port, PR_SWAP_START, 0); break; case PR_SWAP_SEND: tcpm_pd_send_control(port, PD_CTRL_PR_SWAP); tcpm_set_state_cond(port, PR_SWAP_SEND_TIMEOUT, PD_T_SENDER_RESPONSE); break; case PR_SWAP_SEND_TIMEOUT: tcpm_swap_complete(port, -ETIMEDOUT); tcpm_set_state(port, ready_state(port), 0); break; case PR_SWAP_START: if (port->pwr_role == TYPEC_SOURCE) tcpm_set_state(port, PR_SWAP_SRC_SNK_TRANSITION_OFF, PD_T_SRC_TRANSITION); else tcpm_set_state(port, PR_SWAP_SNK_SRC_SINK_OFF, 0); break; case PR_SWAP_SRC_SNK_TRANSITION_OFF: tcpm_set_vbus(port, false); port->explicit_contract = false; /* allow time for Vbus discharge, must be < tSrcSwapStdby */ tcpm_set_state(port, PR_SWAP_SRC_SNK_SOURCE_OFF, PD_T_SRCSWAPSTDBY); break; case PR_SWAP_SRC_SNK_SOURCE_OFF: tcpm_set_cc(port, TYPEC_CC_RD); /* allow CC debounce */ tcpm_set_state(port, PR_SWAP_SRC_SNK_SOURCE_OFF_CC_DEBOUNCED, PD_T_CC_DEBOUNCE); break; case PR_SWAP_SRC_SNK_SOURCE_OFF_CC_DEBOUNCED: /* * USB-PD standard, 6.2.1.4, Port Power Role: * "During the Power Role Swap Sequence, for the initial Source * Port, the Port Power Role field shall be set to Sink in the * PS_RDY Message indicating that the initial Source’s power * supply is turned off" */ tcpm_set_pwr_role(port, TYPEC_SINK); if (tcpm_pd_send_control(port, PD_CTRL_PS_RDY)) { tcpm_set_state(port, ERROR_RECOVERY, 0); break; } tcpm_set_state_cond(port, SNK_UNATTACHED, PD_T_PS_SOURCE_ON); break; case PR_SWAP_SRC_SNK_SINK_ON: tcpm_set_state(port, SNK_STARTUP, 0); break; case PR_SWAP_SNK_SRC_SINK_OFF: tcpm_set_charge(port, false); tcpm_set_state(port, hard_reset_state(port), PD_T_PS_SOURCE_OFF); break; case PR_SWAP_SNK_SRC_SOURCE_ON: tcpm_set_cc(port, tcpm_rp_cc(port)); tcpm_set_vbus(port, true); /* * allow time VBUS ramp-up, must be < tNewSrc * Also, this window overlaps with CC debounce as well. * So, Wait for the max of two which is PD_T_NEWSRC */ tcpm_set_state(port, PR_SWAP_SNK_SRC_SOURCE_ON_VBUS_RAMPED_UP, PD_T_NEWSRC); break; case PR_SWAP_SNK_SRC_SOURCE_ON_VBUS_RAMPED_UP: /* * USB PD standard, 6.2.1.4: * "Subsequent Messages initiated by the Policy Engine, * such as the PS_RDY Message sent to indicate that Vbus * is ready, will have the Port Power Role field set to * Source." */ tcpm_set_pwr_role(port, TYPEC_SOURCE); tcpm_pd_send_control(port, PD_CTRL_PS_RDY); tcpm_set_state(port, SRC_STARTUP, PD_T_SWAP_SRC_START); break; case VCONN_SWAP_ACCEPT: tcpm_pd_send_control(port, PD_CTRL_ACCEPT); tcpm_set_state(port, VCONN_SWAP_START, 0); break; case VCONN_SWAP_SEND: tcpm_pd_send_control(port, PD_CTRL_VCONN_SWAP); tcpm_set_state(port, VCONN_SWAP_SEND_TIMEOUT, PD_T_SENDER_RESPONSE); break; case VCONN_SWAP_SEND_TIMEOUT: tcpm_swap_complete(port, -ETIMEDOUT); tcpm_set_state(port, ready_state(port), 0); break; case VCONN_SWAP_START: if (port->vconn_role == TYPEC_SOURCE) tcpm_set_state(port, VCONN_SWAP_WAIT_FOR_VCONN, 0); else tcpm_set_state(port, VCONN_SWAP_TURN_ON_VCONN, 0); break; case VCONN_SWAP_WAIT_FOR_VCONN: tcpm_set_state(port, hard_reset_state(port), PD_T_VCONN_SOURCE_ON); break; case VCONN_SWAP_TURN_ON_VCONN: tcpm_set_vconn(port, true); tcpm_pd_send_control(port, PD_CTRL_PS_RDY); tcpm_set_state(port, ready_state(port), 0); break; case VCONN_SWAP_TURN_OFF_VCONN: tcpm_set_vconn(port, false); tcpm_set_state(port, ready_state(port), 0); break; case DR_SWAP_CANCEL: case PR_SWAP_CANCEL: case VCONN_SWAP_CANCEL: tcpm_swap_complete(port, port->swap_status); if (port->pwr_role == TYPEC_SOURCE) tcpm_set_state(port, SRC_READY, 0); else tcpm_set_state(port, SNK_READY, 0); break; case BIST_RX: switch (BDO_MODE_MASK(port->bist_request)) { case BDO_MODE_CARRIER2: tcpm_pd_transmit(port, TCPC_TX_BIST_MODE_2, NULL); break; default: break; } /* Always switch to unattached state */ tcpm_set_state(port, unattached_state(port), 0); break; case GET_STATUS_SEND: tcpm_pd_send_control(port, PD_CTRL_GET_STATUS); tcpm_set_state(port, GET_STATUS_SEND_TIMEOUT, PD_T_SENDER_RESPONSE); break; case GET_STATUS_SEND_TIMEOUT: tcpm_set_state(port, ready_state(port), 0); break; case GET_PPS_STATUS_SEND: tcpm_pd_send_control(port, PD_CTRL_GET_PPS_STATUS); tcpm_set_state(port, GET_PPS_STATUS_SEND_TIMEOUT, PD_T_SENDER_RESPONSE); break; case GET_PPS_STATUS_SEND_TIMEOUT: tcpm_set_state(port, ready_state(port), 0); break; case ERROR_RECOVERY: tcpm_swap_complete(port, -EPROTO); tcpm_pps_complete(port, -EPROTO); tcpm_set_state(port, PORT_RESET, 0); break; case PORT_RESET: tcpm_reset_port(port); tcpm_set_cc(port, TYPEC_CC_OPEN); tcpm_set_state(port, PORT_RESET_WAIT_OFF, PD_T_ERROR_RECOVERY); break; case PORT_RESET_WAIT_OFF: tcpm_set_state(port, tcpm_default_state(port), port->vbus_present ? PD_T_PS_SOURCE_OFF : 0); break; default: WARN(1, "Unexpected port state %d\n", port->state); break; } } static void tcpm_state_machine_work(struct work_struct *work) { struct tcpm_port *port = container_of(work, struct tcpm_port, state_machine.work); enum tcpm_state prev_state; mutex_lock(&port->lock); port->state_machine_running = true; if (port->queued_message && tcpm_send_queued_message(port)) goto done; /* If we were queued due to a delayed state change, update it now */ if (port->delayed_state) { tcpm_log(port, "state change %s -> %s [delayed %ld ms]", tcpm_states[port->state], tcpm_states[port->delayed_state], port->delay_ms); port->prev_state = port->state; port->state = port->delayed_state; port->delayed_state = INVALID_STATE; } /* * Continue running as long as we have (non-delayed) state changes * to make. */ do { prev_state = port->state; run_state_machine(port); if (port->queued_message) tcpm_send_queued_message(port); } while (port->state != prev_state && !port->delayed_state); done: port->state_machine_running = false; mutex_unlock(&port->lock); } static void _tcpm_cc_change(struct tcpm_port *port, enum typec_cc_status cc1, enum typec_cc_status cc2) { enum typec_cc_status old_cc1, old_cc2; enum tcpm_state new_state; old_cc1 = port->cc1; old_cc2 = port->cc2; port->cc1 = cc1; port->cc2 = cc2; tcpm_log_force(port, "CC1: %u -> %u, CC2: %u -> %u [state %s, polarity %d, %s]", old_cc1, cc1, old_cc2, cc2, tcpm_states[port->state], port->polarity, tcpm_port_is_disconnected(port) ? "disconnected" : "connected"); switch (port->state) { case TOGGLING: if (tcpm_port_is_debug(port) || tcpm_port_is_audio(port) || tcpm_port_is_source(port)) tcpm_set_state(port, SRC_ATTACH_WAIT, 0); else if (tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_ATTACH_WAIT, 0); break; case SRC_UNATTACHED: case ACC_UNATTACHED: if (tcpm_port_is_debug(port) || tcpm_port_is_audio(port) || tcpm_port_is_source(port)) tcpm_set_state(port, SRC_ATTACH_WAIT, 0); break; case SRC_ATTACH_WAIT: if (tcpm_port_is_disconnected(port) || tcpm_port_is_audio_detached(port)) tcpm_set_state(port, SRC_UNATTACHED, 0); else if (cc1 != old_cc1 || cc2 != old_cc2) tcpm_set_state(port, SRC_ATTACH_WAIT, 0); break; case SRC_ATTACHED: case SRC_STARTUP: case SRC_SEND_CAPABILITIES: case SRC_READY: if (tcpm_port_is_disconnected(port) || !tcpm_port_is_source(port)) tcpm_set_state(port, SRC_UNATTACHED, 0); break; case SNK_UNATTACHED: if (tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_ATTACH_WAIT, 0); break; case SNK_ATTACH_WAIT: if ((port->cc1 == TYPEC_CC_OPEN && port->cc2 != TYPEC_CC_OPEN) || (port->cc1 != TYPEC_CC_OPEN && port->cc2 == TYPEC_CC_OPEN)) new_state = SNK_DEBOUNCED; else if (tcpm_port_is_disconnected(port)) new_state = SNK_UNATTACHED; else break; if (new_state != port->delayed_state) tcpm_set_state(port, SNK_ATTACH_WAIT, 0); break; case SNK_DEBOUNCED: if (tcpm_port_is_disconnected(port)) new_state = SNK_UNATTACHED; else if (port->vbus_present) new_state = tcpm_try_src(port) ? SRC_TRY : SNK_ATTACHED; else new_state = SNK_UNATTACHED; if (new_state != port->delayed_state) tcpm_set_state(port, SNK_DEBOUNCED, 0); break; case SNK_READY: if (tcpm_port_is_disconnected(port)) tcpm_set_state(port, unattached_state(port), 0); else if (!port->pd_capable && (cc1 != old_cc1 || cc2 != old_cc2)) tcpm_set_current_limit(port, tcpm_get_current_limit(port), 5000); break; case AUDIO_ACC_ATTACHED: if (cc1 == TYPEC_CC_OPEN || cc2 == TYPEC_CC_OPEN) tcpm_set_state(port, AUDIO_ACC_DEBOUNCE, 0); break; case AUDIO_ACC_DEBOUNCE: if (tcpm_port_is_audio(port)) tcpm_set_state(port, AUDIO_ACC_ATTACHED, 0); break; case DEBUG_ACC_ATTACHED: if (cc1 == TYPEC_CC_OPEN || cc2 == TYPEC_CC_OPEN) tcpm_set_state(port, ACC_UNATTACHED, 0); break; case SNK_TRY: /* Do nothing, waiting for timeout */ break; case SNK_DISCOVERY: /* CC line is unstable, wait for debounce */ if (tcpm_port_is_disconnected(port)) tcpm_set_state(port, SNK_DISCOVERY_DEBOUNCE, 0); break; case SNK_DISCOVERY_DEBOUNCE: break; case SRC_TRYWAIT: /* Hand over to state machine if needed */ if (!port->vbus_present && tcpm_port_is_source(port)) tcpm_set_state(port, SRC_TRYWAIT_DEBOUNCE, 0); break; case SRC_TRYWAIT_DEBOUNCE: if (port->vbus_present || !tcpm_port_is_source(port)) tcpm_set_state(port, SRC_TRYWAIT, 0); break; case SNK_TRY_WAIT_DEBOUNCE: if (!tcpm_port_is_sink(port)) { port->max_wait = 0; tcpm_set_state(port, SRC_TRYWAIT, 0); } break; case SRC_TRY_WAIT: if (tcpm_port_is_source(port)) tcpm_set_state(port, SRC_TRY_DEBOUNCE, 0); break; case SRC_TRY_DEBOUNCE: tcpm_set_state(port, SRC_TRY_WAIT, 0); break; case SNK_TRYWAIT_DEBOUNCE: if (tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_TRYWAIT_VBUS, 0); break; case SNK_TRYWAIT_VBUS: if (!tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_TRYWAIT_DEBOUNCE, 0); break; case SNK_TRYWAIT: /* Do nothing, waiting for tCCDebounce */ break; case PR_SWAP_SNK_SRC_SINK_OFF: case PR_SWAP_SRC_SNK_TRANSITION_OFF: case PR_SWAP_SRC_SNK_SOURCE_OFF: case PR_SWAP_SRC_SNK_SOURCE_OFF_CC_DEBOUNCED: case PR_SWAP_SNK_SRC_SOURCE_ON: /* * CC state change is expected in PR_SWAP * Ignore it. */ break; case PORT_RESET: case PORT_RESET_WAIT_OFF: /* * State set back to default mode once the timer completes. * Ignore CC changes here. */ break; default: if (tcpm_port_is_disconnected(port)) tcpm_set_state(port, unattached_state(port), 0); break; } } static void _tcpm_pd_vbus_on(struct tcpm_port *port) { tcpm_log_force(port, "VBUS on"); port->vbus_present = true; switch (port->state) { case SNK_TRANSITION_SINK_VBUS: port->explicit_contract = true; tcpm_set_state(port, SNK_READY, 0); break; case SNK_DISCOVERY: tcpm_set_state(port, SNK_DISCOVERY, 0); break; case SNK_DEBOUNCED: tcpm_set_state(port, tcpm_try_src(port) ? SRC_TRY : SNK_ATTACHED, 0); break; case SNK_HARD_RESET_WAIT_VBUS: tcpm_set_state(port, SNK_HARD_RESET_SINK_ON, 0); break; case SRC_ATTACHED: tcpm_set_state(port, SRC_STARTUP, 0); break; case SRC_HARD_RESET_VBUS_ON: tcpm_set_state(port, SRC_STARTUP, 0); break; case SNK_TRY: /* Do nothing, waiting for timeout */ break; case SRC_TRYWAIT: /* Do nothing, Waiting for Rd to be detected */ break; case SRC_TRYWAIT_DEBOUNCE: tcpm_set_state(port, SRC_TRYWAIT, 0); break; case SNK_TRY_WAIT_DEBOUNCE: /* Do nothing, waiting for PD_DEBOUNCE to do be done */ break; case SNK_TRYWAIT: /* Do nothing, waiting for tCCDebounce */ break; case SNK_TRYWAIT_VBUS: if (tcpm_port_is_sink(port)) tcpm_set_state(port, SNK_ATTACHED, 0); break; case SNK_TRYWAIT_DEBOUNCE: /* Do nothing, waiting for Rp */ break; case SRC_TRY_WAIT: case SRC_TRY_DEBOUNCE: /* Do nothing, waiting for sink detection */ break; case PORT_RESET: case PORT_RESET_WAIT_OFF: /* * State set back to default mode once the timer completes. * Ignore vbus changes here. */ break; default: break; } } static void _tcpm_pd_vbus_off(struct tcpm_port *port) { tcpm_log_force(port, "VBUS off"); port->vbus_present = false; port->vbus_never_low = false; switch (port->state) { case SNK_HARD_RESET_SINK_OFF: tcpm_set_state(port, SNK_HARD_RESET_WAIT_VBUS, 0); break; case SRC_HARD_RESET_VBUS_OFF: tcpm_set_state(port, SRC_HARD_RESET_VBUS_ON, 0); break; case HARD_RESET_SEND: break; case SNK_TRY: /* Do nothing, waiting for timeout */ break; case SRC_TRYWAIT: /* Hand over to state machine if needed */ if (tcpm_port_is_source(port)) tcpm_set_state(port, SRC_TRYWAIT_DEBOUNCE, 0); break; case SNK_TRY_WAIT_DEBOUNCE: /* Do nothing, waiting for PD_DEBOUNCE to do be done */ break; case SNK_TRYWAIT: case SNK_TRYWAIT_VBUS: case SNK_TRYWAIT_DEBOUNCE: break; case SNK_ATTACH_WAIT: case SNK_DEBOUNCED: /* Do nothing, as TCPM is still waiting for vbus to reaach VSAFE5V to connect */ break; case SNK_NEGOTIATE_CAPABILITIES: break; case PR_SWAP_SRC_SNK_TRANSITION_OFF: tcpm_set_state(port, PR_SWAP_SRC_SNK_SOURCE_OFF, 0); break; case PR_SWAP_SNK_SRC_SINK_OFF: /* Do nothing, expected */ break; case PORT_RESET_WAIT_OFF: tcpm_set_state(port, tcpm_default_state(port), 0); break; case SRC_TRY_WAIT: case SRC_TRY_DEBOUNCE: /* Do nothing, waiting for sink detection */ break; case PORT_RESET: /* * State set back to default mode once the timer completes. * Ignore vbus changes here. */ break; default: if (port->pwr_role == TYPEC_SINK && port->attached) tcpm_set_state(port, SNK_UNATTACHED, 0); break; } } static void _tcpm_pd_hard_reset(struct tcpm_port *port) { tcpm_log_force(port, "Received hard reset"); /* * If we keep receiving hard reset requests, executing the hard reset * must have failed. Revert to error recovery if that happens. */ tcpm_set_state(port, port->hard_reset_count < PD_N_HARD_RESET_COUNT ? HARD_RESET_START : ERROR_RECOVERY, 0); } static void tcpm_pd_event_handler(struct work_struct *work) { struct tcpm_port *port = container_of(work, struct tcpm_port, event_work); u32 events; mutex_lock(&port->lock); spin_lock(&port->pd_event_lock); while (port->pd_events) { events = port->pd_events; port->pd_events = 0; spin_unlock(&port->pd_event_lock); if (events & TCPM_RESET_EVENT) _tcpm_pd_hard_reset(port); if (events & TCPM_VBUS_EVENT) { bool vbus; vbus = port->tcpc->get_vbus(port->tcpc); if (vbus) _tcpm_pd_vbus_on(port); else _tcpm_pd_vbus_off(port); } if (events & TCPM_CC_EVENT) { enum typec_cc_status cc1, cc2; if (port->tcpc->get_cc(port->tcpc, &cc1, &cc2) == 0) _tcpm_cc_change(port, cc1, cc2); } spin_lock(&port->pd_event_lock); } spin_unlock(&port->pd_event_lock); mutex_unlock(&port->lock); } void tcpm_cc_change(struct tcpm_port *port) { spin_lock(&port->pd_event_lock); port->pd_events |= TCPM_CC_EVENT; spin_unlock(&port->pd_event_lock); queue_work(port->wq, &port->event_work); } EXPORT_SYMBOL_GPL(tcpm_cc_change); void tcpm_vbus_change(struct tcpm_port *port) { spin_lock(&port->pd_event_lock); port->pd_events |= TCPM_VBUS_EVENT; spin_unlock(&port->pd_event_lock); queue_work(port->wq, &port->event_work); } EXPORT_SYMBOL_GPL(tcpm_vbus_change); void tcpm_pd_hard_reset(struct tcpm_port *port) { spin_lock(&port->pd_event_lock); port->pd_events = TCPM_RESET_EVENT; spin_unlock(&port->pd_event_lock); queue_work(port->wq, &port->event_work); } EXPORT_SYMBOL_GPL(tcpm_pd_hard_reset); static int tcpm_dr_set(const struct typec_capability *cap, enum typec_data_role data) { struct tcpm_port *port = typec_cap_to_tcpm(cap); int ret; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (port->port_type != TYPEC_PORT_DRP) { ret = -EINVAL; goto port_unlock; } if (port->state != SRC_READY && port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } if (port->data_role == data) { ret = 0; goto port_unlock; } /* * XXX * 6.3.9: If an alternate mode is active, a request to swap * alternate modes shall trigger a port reset. * Reject data role swap request in this case. */ if (!port->pd_capable) { /* * If the partner is not PD capable, reset the port to * trigger a role change. This can only work if a preferred * role is configured, and if it matches the requested role. */ if (port->try_role == TYPEC_NO_PREFERRED_ROLE || port->try_role == port->pwr_role) { ret = -EINVAL; goto port_unlock; } port->non_pd_role_swap = true; tcpm_set_state(port, PORT_RESET, 0); } else { tcpm_set_state(port, DR_SWAP_SEND, 0); } port->swap_status = 0; port->swap_pending = true; reinit_completion(&port->swap_complete); mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->swap_complete, msecs_to_jiffies(PD_ROLE_SWAP_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->swap_status; port->non_pd_role_swap = false; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static int tcpm_pr_set(const struct typec_capability *cap, enum typec_role role) { struct tcpm_port *port = typec_cap_to_tcpm(cap); int ret; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (port->port_type != TYPEC_PORT_DRP) { ret = -EINVAL; goto port_unlock; } if (port->state != SRC_READY && port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } if (role == port->pwr_role) { ret = 0; goto port_unlock; } port->swap_status = 0; port->swap_pending = true; reinit_completion(&port->swap_complete); tcpm_set_state(port, PR_SWAP_SEND, 0); mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->swap_complete, msecs_to_jiffies(PD_ROLE_SWAP_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->swap_status; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static int tcpm_vconn_set(const struct typec_capability *cap, enum typec_role role) { struct tcpm_port *port = typec_cap_to_tcpm(cap); int ret; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (port->state != SRC_READY && port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } if (role == port->vconn_role) { ret = 0; goto port_unlock; } port->swap_status = 0; port->swap_pending = true; reinit_completion(&port->swap_complete); tcpm_set_state(port, VCONN_SWAP_SEND, 0); mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->swap_complete, msecs_to_jiffies(PD_ROLE_SWAP_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->swap_status; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static int tcpm_try_role(const struct typec_capability *cap, int role) { struct tcpm_port *port = typec_cap_to_tcpm(cap); struct tcpc_dev *tcpc = port->tcpc; int ret = 0; mutex_lock(&port->lock); if (tcpc->try_role) ret = tcpc->try_role(tcpc, role); if (!ret && (!tcpc->config || !tcpc->config->try_role_hw)) port->try_role = role; port->try_src_count = 0; port->try_snk_count = 0; mutex_unlock(&port->lock); return ret; } static int tcpm_pps_set_op_curr(struct tcpm_port *port, u16 req_op_curr) { unsigned int target_mw; int ret; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (!port->pps_data.active) { ret = -EOPNOTSUPP; goto port_unlock; } if (port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } if (req_op_curr > port->pps_data.max_curr) { ret = -EINVAL; goto port_unlock; } target_mw = (req_op_curr * port->supply_voltage) / 1000; if (target_mw < port->operating_snk_mw) { ret = -EINVAL; goto port_unlock; } /* Round down operating current to align with PPS valid steps */ req_op_curr = req_op_curr - (req_op_curr % RDO_PROG_CURR_MA_STEP); reinit_completion(&port->pps_complete); port->pps_data.req_op_curr = req_op_curr; port->pps_status = 0; port->pps_pending = true; tcpm_set_state(port, SNK_NEGOTIATE_PPS_CAPABILITIES, 0); mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->pps_complete, msecs_to_jiffies(PD_PPS_CTRL_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->pps_status; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static int tcpm_pps_set_out_volt(struct tcpm_port *port, u16 req_out_volt) { unsigned int target_mw; int ret; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (!port->pps_data.active) { ret = -EOPNOTSUPP; goto port_unlock; } if (port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } if (req_out_volt < port->pps_data.min_volt || req_out_volt > port->pps_data.max_volt) { ret = -EINVAL; goto port_unlock; } target_mw = (port->current_limit * req_out_volt) / 1000; if (target_mw < port->operating_snk_mw) { ret = -EINVAL; goto port_unlock; } /* Round down output voltage to align with PPS valid steps */ req_out_volt = req_out_volt - (req_out_volt % RDO_PROG_VOLT_MV_STEP); reinit_completion(&port->pps_complete); port->pps_data.req_out_volt = req_out_volt; port->pps_status = 0; port->pps_pending = true; tcpm_set_state(port, SNK_NEGOTIATE_PPS_CAPABILITIES, 0); mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->pps_complete, msecs_to_jiffies(PD_PPS_CTRL_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->pps_status; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static int tcpm_pps_activate(struct tcpm_port *port, bool activate) { int ret = 0; mutex_lock(&port->swap_lock); mutex_lock(&port->lock); if (!port->pps_data.supported) { ret = -EOPNOTSUPP; goto port_unlock; } /* Trying to deactivate PPS when already deactivated so just bail */ if (!port->pps_data.active && !activate) goto port_unlock; if (port->state != SNK_READY) { ret = -EAGAIN; goto port_unlock; } reinit_completion(&port->pps_complete); port->pps_status = 0; port->pps_pending = true; /* Trigger PPS request or move back to standard PDO contract */ if (activate) { port->pps_data.req_out_volt = port->supply_voltage; port->pps_data.req_op_curr = port->current_limit; tcpm_set_state(port, SNK_NEGOTIATE_PPS_CAPABILITIES, 0); } else { tcpm_set_state(port, SNK_NEGOTIATE_CAPABILITIES, 0); } mutex_unlock(&port->lock); if (!wait_for_completion_timeout(&port->pps_complete, msecs_to_jiffies(PD_PPS_CTRL_TIMEOUT))) ret = -ETIMEDOUT; else ret = port->pps_status; goto swap_unlock; port_unlock: mutex_unlock(&port->lock); swap_unlock: mutex_unlock(&port->swap_lock); return ret; } static void tcpm_init(struct tcpm_port *port) { enum typec_cc_status cc1, cc2; port->tcpc->init(port->tcpc); tcpm_reset_port(port); /* * XXX * Should possibly wait for VBUS to settle if it was enabled locally * since tcpm_reset_port() will disable VBUS. */ port->vbus_present = port->tcpc->get_vbus(port->tcpc); if (port->vbus_present) port->vbus_never_low = true; tcpm_set_state(port, tcpm_default_state(port), 0); if (port->tcpc->get_cc(port->tcpc, &cc1, &cc2) == 0) _tcpm_cc_change(port, cc1, cc2); /* * Some adapters need a clean slate at startup, and won't recover * otherwise. So do not try to be fancy and force a clean disconnect. */ tcpm_set_state(port, PORT_RESET, 0); } static int tcpm_port_type_set(const struct typec_capability *cap, enum typec_port_type type) { struct tcpm_port *port = typec_cap_to_tcpm(cap); mutex_lock(&port->lock); if (type == port->port_type) goto port_unlock; port->port_type = type; if (!port->connected) { tcpm_set_state(port, PORT_RESET, 0); } else if (type == TYPEC_PORT_SNK) { if (!(port->pwr_role == TYPEC_SINK && port->data_role == TYPEC_DEVICE)) tcpm_set_state(port, PORT_RESET, 0); } else if (type == TYPEC_PORT_SRC) { if (!(port->pwr_role == TYPEC_SOURCE && port->data_role == TYPEC_HOST)) tcpm_set_state(port, PORT_RESET, 0); } port_unlock: mutex_unlock(&port->lock); return 0; } void tcpm_tcpc_reset(struct tcpm_port *port) { mutex_lock(&port->lock); /* XXX: Maintain PD connection if possible? */ tcpm_init(port); mutex_unlock(&port->lock); } EXPORT_SYMBOL_GPL(tcpm_tcpc_reset); static int tcpm_copy_pdos(u32 *dest_pdo, const u32 *src_pdo, unsigned int nr_pdo) { unsigned int i; if (nr_pdo > PDO_MAX_OBJECTS) nr_pdo = PDO_MAX_OBJECTS; for (i = 0; i < nr_pdo; i++) dest_pdo[i] = src_pdo[i]; return nr_pdo; } static int tcpm_copy_vdos(u32 *dest_vdo, const u32 *src_vdo, unsigned int nr_vdo) { unsigned int i; if (nr_vdo > VDO_MAX_OBJECTS) nr_vdo = VDO_MAX_OBJECTS; for (i = 0; i < nr_vdo; i++) dest_vdo[i] = src_vdo[i]; return nr_vdo; } static int tcpm_fw_get_caps(struct tcpm_port *port, struct fwnode_handle *fwnode) { const char *cap_str; int ret; u32 mw; if (!fwnode) return -EINVAL; /* USB data support is optional */ ret = fwnode_property_read_string(fwnode, "data-role", &cap_str); if (ret == 0) { ret = typec_find_port_data_role(cap_str); if (ret < 0) return ret; port->typec_caps.data = ret; } ret = fwnode_property_read_string(fwnode, "power-role", &cap_str); if (ret < 0) return ret; ret = typec_find_port_power_role(cap_str); if (ret < 0) return ret; port->typec_caps.type = ret; port->port_type = port->typec_caps.type; if (port->port_type == TYPEC_PORT_SNK) goto sink; /* Get source pdos */ ret = fwnode_property_count_u32(fwnode, "source-pdos"); if (ret <= 0) return -EINVAL; port->nr_src_pdo = min(ret, PDO_MAX_OBJECTS); ret = fwnode_property_read_u32_array(fwnode, "source-pdos", port->src_pdo, port->nr_src_pdo); if ((ret < 0) || tcpm_validate_caps(port, port->src_pdo, port->nr_src_pdo)) return -EINVAL; if (port->port_type == TYPEC_PORT_SRC) return 0; /* Get the preferred power role for DRP */ ret = fwnode_property_read_string(fwnode, "try-power-role", &cap_str); if (ret < 0) return ret; port->typec_caps.prefer_role = typec_find_power_role(cap_str); if (port->typec_caps.prefer_role < 0) return -EINVAL; sink: /* Get sink pdos */ ret = fwnode_property_count_u32(fwnode, "sink-pdos"); if (ret <= 0) return -EINVAL; port->nr_snk_pdo = min(ret, PDO_MAX_OBJECTS); ret = fwnode_property_read_u32_array(fwnode, "sink-pdos", port->snk_pdo, port->nr_snk_pdo); if ((ret < 0) || tcpm_validate_caps(port, port->snk_pdo, port->nr_snk_pdo)) return -EINVAL; if (fwnode_property_read_u32(fwnode, "op-sink-microwatt", &mw) < 0) return -EINVAL; port->operating_snk_mw = mw / 1000; port->self_powered = fwnode_property_read_bool(fwnode, "self-powered"); return 0; } /* Power Supply access to expose source power information */ enum tcpm_psy_online_states { TCPM_PSY_OFFLINE = 0, TCPM_PSY_FIXED_ONLINE, TCPM_PSY_PROG_ONLINE, }; static enum power_supply_property tcpm_psy_props[] = { POWER_SUPPLY_PROP_USB_TYPE, POWER_SUPPLY_PROP_ONLINE, POWER_SUPPLY_PROP_VOLTAGE_MIN, POWER_SUPPLY_PROP_VOLTAGE_MAX, POWER_SUPPLY_PROP_VOLTAGE_NOW, POWER_SUPPLY_PROP_CURRENT_MAX, POWER_SUPPLY_PROP_CURRENT_NOW, }; static int tcpm_psy_get_online(struct tcpm_port *port, union power_supply_propval *val) { if (port->vbus_charge) { if (port->pps_data.active) val->intval = TCPM_PSY_PROG_ONLINE; else val->intval = TCPM_PSY_FIXED_ONLINE; } else { val->intval = TCPM_PSY_OFFLINE; } return 0; } static int tcpm_psy_get_voltage_min(struct tcpm_port *port, union power_supply_propval *val) { if (port->pps_data.active) val->intval = port->pps_data.min_volt * 1000; else val->intval = port->supply_voltage * 1000; return 0; } static int tcpm_psy_get_voltage_max(struct tcpm_port *port, union power_supply_propval *val) { if (port->pps_data.active) val->intval = port->pps_data.max_volt * 1000; else val->intval = port->supply_voltage * 1000; return 0; } static int tcpm_psy_get_voltage_now(struct tcpm_port *port, union power_supply_propval *val) { val->intval = port->supply_voltage * 1000; return 0; } static int tcpm_psy_get_current_max(struct tcpm_port *port, union power_supply_propval *val) { if (port->pps_data.active) val->intval = port->pps_data.max_curr * 1000; else val->intval = port->current_limit * 1000; return 0; } static int tcpm_psy_get_current_now(struct tcpm_port *port, union power_supply_propval *val) { val->intval = port->current_limit * 1000; return 0; } static int tcpm_psy_get_prop(struct power_supply *psy, enum power_supply_property psp, union power_supply_propval *val) { struct tcpm_port *port = power_supply_get_drvdata(psy); int ret = 0; switch (psp) { case POWER_SUPPLY_PROP_USB_TYPE: val->intval = port->usb_type; break; case POWER_SUPPLY_PROP_ONLINE: ret = tcpm_psy_get_online(port, val); break; case POWER_SUPPLY_PROP_VOLTAGE_MIN: ret = tcpm_psy_get_voltage_min(port, val); break; case POWER_SUPPLY_PROP_VOLTAGE_MAX: ret = tcpm_psy_get_voltage_max(port, val); break; case POWER_SUPPLY_PROP_VOLTAGE_NOW: ret = tcpm_psy_get_voltage_now(port, val); break; case POWER_SUPPLY_PROP_CURRENT_MAX: ret = tcpm_psy_get_current_max(port, val); break; case POWER_SUPPLY_PROP_CURRENT_NOW: ret = tcpm_psy_get_current_now(port, val); break; default: ret = -EINVAL; break; } return ret; } static int tcpm_psy_set_online(struct tcpm_port *port, const union power_supply_propval *val) { int ret; switch (val->intval) { case TCPM_PSY_FIXED_ONLINE: ret = tcpm_pps_activate(port, false); break; case TCPM_PSY_PROG_ONLINE: ret = tcpm_pps_activate(port, true); break; default: ret = -EINVAL; break; } return ret; } static int tcpm_psy_set_prop(struct power_supply *psy, enum power_supply_property psp, const union power_supply_propval *val) { struct tcpm_port *port = power_supply_get_drvdata(psy); int ret; switch (psp) { case POWER_SUPPLY_PROP_ONLINE: ret = tcpm_psy_set_online(port, val); break; case POWER_SUPPLY_PROP_VOLTAGE_NOW: if (val->intval < port->pps_data.min_volt * 1000 || val->intval > port->pps_data.max_volt * 1000) ret = -EINVAL; else ret = tcpm_pps_set_out_volt(port, val->intval / 1000); break; case POWER_SUPPLY_PROP_CURRENT_NOW: if (val->intval > port->pps_data.max_curr * 1000) ret = -EINVAL; else ret = tcpm_pps_set_op_curr(port, val->intval / 1000); break; default: ret = -EINVAL; break; } power_supply_changed(port->psy); return ret; } static int tcpm_psy_prop_writeable(struct power_supply *psy, enum power_supply_property psp) { switch (psp) { case POWER_SUPPLY_PROP_ONLINE: case POWER_SUPPLY_PROP_VOLTAGE_NOW: case POWER_SUPPLY_PROP_CURRENT_NOW: return 1; default: return 0; } } static enum power_supply_usb_type tcpm_psy_usb_types[] = { POWER_SUPPLY_USB_TYPE_C, POWER_SUPPLY_USB_TYPE_PD, POWER_SUPPLY_USB_TYPE_PD_PPS, }; static const char *tcpm_psy_name_prefix = "tcpm-source-psy-"; static int devm_tcpm_psy_register(struct tcpm_port *port) { struct power_supply_config psy_cfg = {}; const char *port_dev_name = dev_name(port->dev); size_t psy_name_len = strlen(tcpm_psy_name_prefix) + strlen(port_dev_name) + 1; char *psy_name; psy_cfg.drv_data = port; psy_cfg.fwnode = dev_fwnode(port->dev); psy_name = devm_kzalloc(port->dev, psy_name_len, GFP_KERNEL); if (!psy_name) return -ENOMEM; snprintf(psy_name, psy_name_len, "%s%s", tcpm_psy_name_prefix, port_dev_name); port->psy_desc.name = psy_name; port->psy_desc.type = POWER_SUPPLY_TYPE_USB, port->psy_desc.usb_types = tcpm_psy_usb_types; port->psy_desc.num_usb_types = ARRAY_SIZE(tcpm_psy_usb_types); port->psy_desc.properties = tcpm_psy_props, port->psy_desc.num_properties = ARRAY_SIZE(tcpm_psy_props), port->psy_desc.get_property = tcpm_psy_get_prop, port->psy_desc.set_property = tcpm_psy_set_prop, port->psy_desc.property_is_writeable = tcpm_psy_prop_writeable, port->usb_type = POWER_SUPPLY_USB_TYPE_C; port->psy = devm_power_supply_register(port->dev, &port->psy_desc, &psy_cfg); return PTR_ERR_OR_ZERO(port->psy); } static int tcpm_copy_caps(struct tcpm_port *port, const struct tcpc_config *tcfg) { if (tcpm_validate_caps(port, tcfg->src_pdo, tcfg->nr_src_pdo) || tcpm_validate_caps(port, tcfg->snk_pdo, tcfg->nr_snk_pdo)) return -EINVAL; port->nr_src_pdo = tcpm_copy_pdos(port->src_pdo, tcfg->src_pdo, tcfg->nr_src_pdo); port->nr_snk_pdo = tcpm_copy_pdos(port->snk_pdo, tcfg->snk_pdo, tcfg->nr_snk_pdo); port->nr_snk_vdo = tcpm_copy_vdos(port->snk_vdo, tcfg->snk_vdo, tcfg->nr_snk_vdo); port->operating_snk_mw = tcfg->operating_snk_mw; port->typec_caps.prefer_role = tcfg->default_role; port->typec_caps.type = tcfg->type; port->typec_caps.data = tcfg->data; port->self_powered = tcfg->self_powered; return 0; } struct tcpm_port *tcpm_register_port(struct device *dev, struct tcpc_dev *tcpc) { struct tcpm_port *port; int i, err; if (!dev || !tcpc || !tcpc->get_vbus || !tcpc->set_cc || !tcpc->get_cc || !tcpc->set_polarity || !tcpc->set_vconn || !tcpc->set_vbus || !tcpc->set_pd_rx || !tcpc->set_roles || !tcpc->pd_transmit) return ERR_PTR(-EINVAL); port = devm_kzalloc(dev, sizeof(*port), GFP_KERNEL); if (!port) return ERR_PTR(-ENOMEM); port->dev = dev; port->tcpc = tcpc; mutex_init(&port->lock); mutex_init(&port->swap_lock); port->wq = create_singlethread_workqueue(dev_name(dev)); if (!port->wq) return ERR_PTR(-ENOMEM); INIT_DELAYED_WORK(&port->state_machine, tcpm_state_machine_work); INIT_DELAYED_WORK(&port->vdm_state_machine, vdm_state_machine_work); INIT_WORK(&port->event_work, tcpm_pd_event_handler); spin_lock_init(&port->pd_event_lock); init_completion(&port->tx_complete); init_completion(&port->swap_complete); init_completion(&port->pps_complete); tcpm_debugfs_init(port); err = tcpm_fw_get_caps(port, tcpc->fwnode); if ((err < 0) && tcpc->config) err = tcpm_copy_caps(port, tcpc->config); if (err < 0) goto out_destroy_wq; if (!tcpc->config || !tcpc->config->try_role_hw) port->try_role = port->typec_caps.prefer_role; else port->try_role = TYPEC_NO_PREFERRED_ROLE; port->typec_caps.fwnode = tcpc->fwnode; port->typec_caps.revision = 0x0120; /* Type-C spec release 1.2 */ port->typec_caps.pd_revision = 0x0300; /* USB-PD spec release 3.0 */ port->typec_caps.dr_set = tcpm_dr_set; port->typec_caps.pr_set = tcpm_pr_set; port->typec_caps.vconn_set = tcpm_vconn_set; port->typec_caps.try_role = tcpm_try_role; port->typec_caps.port_type_set = tcpm_port_type_set; port->partner_desc.identity = &port->partner_ident; port->port_type = port->typec_caps.type; port->role_sw = usb_role_switch_get(port->dev); if (IS_ERR(port->role_sw)) { err = PTR_ERR(port->role_sw); goto out_destroy_wq; } err = devm_tcpm_psy_register(port); if (err) goto out_role_sw_put; power_supply_changed(port->psy); port->typec_port = typec_register_port(port->dev, &port->typec_caps); if (IS_ERR(port->typec_port)) { err = PTR_ERR(port->typec_port); goto out_role_sw_put; } if (tcpc->config && tcpc->config->alt_modes) { const struct typec_altmode_desc *paltmode = tcpc->config->alt_modes; i = 0; while (paltmode->svid && i < ARRAY_SIZE(port->port_altmode)) { struct typec_altmode *alt; alt = typec_port_register_altmode(port->typec_port, paltmode); if (IS_ERR(alt)) { tcpm_log(port, "%s: failed to register port alternate mode 0x%x", dev_name(dev), paltmode->svid); break; } typec_altmode_set_drvdata(alt, port); alt->ops = &tcpm_altmode_ops; port->port_altmode[i] = alt; i++; paltmode++; } } mutex_lock(&port->lock); tcpm_init(port); mutex_unlock(&port->lock); tcpm_log(port, "%s: registered", dev_name(dev)); return port; out_role_sw_put: usb_role_switch_put(port->role_sw); out_destroy_wq: tcpm_debugfs_exit(port); destroy_workqueue(port->wq); return ERR_PTR(err); } EXPORT_SYMBOL_GPL(tcpm_register_port); void tcpm_unregister_port(struct tcpm_port *port) { int i; tcpm_reset_port(port); for (i = 0; i < ARRAY_SIZE(port->port_altmode); i++) typec_unregister_altmode(port->port_altmode[i]); typec_unregister_port(port->typec_port); usb_role_switch_put(port->role_sw); tcpm_debugfs_exit(port); destroy_workqueue(port->wq); } EXPORT_SYMBOL_GPL(tcpm_unregister_port); MODULE_AUTHOR("Guenter Roeck <groeck@chromium.org>"); MODULE_DESCRIPTION("USB Type-C Port Manager"); MODULE_LICENSE("GPL"); |