/* * Copyright (c) 2025 Jianxiong Gu * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include "fusb307.h" #define DT_DRV_COMPAT onnn_fusb307_tcpc LOG_MODULE_REGISTER(tcpc_fusb307, CONFIG_USBC_LOG_LEVEL); struct fusb307_data { /* Device structure used to retrieve it in k_work functions */ const struct device *const dev; struct k_work_delayable init_dwork; int init_retries; bool initialized; /* TCPCI Specification Revision */ uint8_t pd_int_rev; struct gpio_callback alert_cb; struct k_work alert_work; bool msg_pending; /* One-slot Rx FIFO */ struct pd_msg rx_msg; tcpc_alert_handler_cb_t alert_handler; void *alert_handler_data; tcpc_vconn_discharge_cb_t vconn_discharge_cb; tcpc_vconn_control_cb_t vconn_cb; bool cc_changed; enum tc_cc_voltage_state cc1; enum tc_cc_voltage_state cc2; enum tc_cc_polarity cc_polarity; enum tc_power_role power_role; /* Flag to receive or ignore SOP Prime messages */ bool rx_sop_prime_enable; }; struct fusb307_cfg { const struct i2c_dt_spec bus; const struct gpio_dt_spec alert_gpio; const struct gpio_dt_spec vconn_disc_gpio; /* Maximum number of packet retransmissions done by TCPC */ const uint8_t transmit_retries; }; static int tcpci_init_alert_mask(const struct device *dev) { const struct fusb307_cfg *cfg = dev->config; uint16_t mask = TCPC_REG_ALERT_TX_COMPLETE | TCPC_REG_ALERT_RX_STATUS | TCPC_REG_ALERT_RX_HARD_RST | TCPC_REG_ALERT_CC_STATUS | TCPC_REG_ALERT_POWER_STATUS | TCPC_REG_ALERT_FAULT | TCPC_REG_ALERT_RX_BUF_OVF; return tcpci_tcpm_mask_status_register(&cfg->bus, TCPC_ALERT_STATUS, mask); } static int fusb307_tcpc_init(const struct device *dev) { struct fusb307_data *data = dev->data; if (!data->initialized) { if (data->init_retries > CONFIG_USBC_TCPC_FUSB307_INIT_RETRIES) { LOG_ERR("TCPC was not initialized correctly"); return -EIO; } return -EAGAIN; } data->rx_sop_prime_enable = false; data->msg_pending = false; memset(&data->rx_msg, 0x00, sizeof(data->rx_msg)); LOG_INF("FUSB307 TCPC initialized"); return 0; } static int fusb307_tcpc_get_cc(const struct device *dev, enum tc_cc_voltage_state *cc1, enum tc_cc_voltage_state *cc2) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; int ret; if (!data->initialized) { return -EIO; } if (IS_ENABLED(CONFIG_USBC_CSM_SINK_ONLY) && !data->cc_changed) { *cc1 = data->cc1; *cc2 = data->cc2; return 0; } data->cc_changed = false; ret = tcpci_tcpm_get_cc(&cfg->bus, cc1, cc2); if (IS_ENABLED(CONFIG_USBC_CSM_SINK_ONLY) || *cc1 != data->cc1 || *cc2 != data->cc2) { LOG_DBG("CC changed values: %d->%d, %d->%d", data->cc1, *cc1, data->cc2, *cc2); data->cc1 = *cc1; data->cc2 = *cc2; } return ret; } static int fusb307_tcpc_select_rp_value(const struct device *dev, enum tc_rp_value rp) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; data->cc_changed = true; return tcpci_tcpm_select_rp_value(&cfg->bus, rp); } static int fusb307_tcpc_get_rp_value(const struct device *dev, enum tc_rp_value *rp) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_get_rp_value(&cfg->bus, rp); } static int fusb307_tcpc_set_cc(const struct device *dev, enum tc_cc_pull pull) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; if (!data->initialized) { return -EIO; } data->cc_changed = true; return tcpci_tcpm_set_cc(&cfg->bus, pull); } static void fusb307_tcpc_set_vconn_discharge_cb(const struct device *dev, tcpc_vconn_discharge_cb_t cb) { struct fusb307_data *data = dev->data; data->vconn_discharge_cb = cb; } static void fusb307_tcpc_set_vconn_cb(const struct device *dev, tcpc_vconn_control_cb_t vconn_cb) { struct fusb307_data *data = dev->data; data->vconn_cb = vconn_cb; } static int fusb307_tcpc_vconn_discharge(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; if (cfg->vconn_disc_gpio.port == NULL) { /* FUSB307 does not have built-in VCONN discharge path */ LOG_ERR("VCONN discharge GPIO is not defined"); return -EIO; } return gpio_pin_set_dt(&cfg->vconn_disc_gpio, enable); } static int fusb307_tcpc_set_vconn(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; int ret; if (!data->initialized) { return -EIO; } data->cc_changed = true; ret = tcpci_tcpm_set_vconn(&cfg->bus, enable); if (ret != 0) { return ret; } if (data->vconn_cb != NULL) { ret = data->vconn_cb(dev, data->cc_polarity, enable); } return ret; } static int fusb307_tcpc_set_roles(const struct device *dev, enum tc_power_role power_role, enum tc_data_role data_role) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; int ret; ret = tcpci_tcpm_set_roles(&cfg->bus, PD_REV20, power_role, data_role); if (ret != 0) { return ret; } data->power_role = power_role; return 0; } static int fusb307_tcpc_get_rx_pending_msg(const struct device *dev, struct pd_msg *msg) { struct fusb307_data *data = dev->data; /* Rx message pending? */ if (!data->msg_pending) { return -ENODATA; } /* Query status only? */ if (msg == NULL) { return 0; } /* Dequeue Rx FIFO */ *msg = data->rx_msg; data->msg_pending = false; /* Indicate Rx message returned */ return 1; } static int fusb307_tcpc_rx_fifo_enqueue(const struct device *dev) { const struct fusb307_cfg *const cfg = dev->config; struct fusb307_data *data = dev->data; uint8_t buf[4]; uint8_t rxbcnt; uint8_t rxftype; uint16_t rxhead; uint8_t rx_data_size; struct pd_msg *msg = &data->rx_msg; int ret = 0; ret = i2c_burst_read_dt(&cfg->bus, TCPC_REG_RX_BUFFER, buf, sizeof(buf)); if (ret != 0) { return ret; } rxbcnt = buf[0]; rxftype = buf[1]; rxhead = (buf[3] << 8) | buf[2]; /* rxbcnt = 1 (frame type) + 2 (Message Header) + Rx data byte count */ if (rxbcnt < 3) { LOG_ERR("Invalid RXBCNT: %d", rxbcnt); return -EIO; } rx_data_size = rxbcnt - 3; /* Not support Unchunked Extended Message exceeding PD_CONVERT_PD_HEADER_COUNT_TO_BYTES */ if (rx_data_size > (PD_MAX_EXTENDED_MSG_LEGACY_LEN + 2)) { LOG_ERR("Not support Unchunked Extended Message exceeding " "PD_CONVERT_PD_HEADER_COUNT_TO_BYTES: %d", rx_data_size); return -EIO; } /* Rx frame type */ msg->type = rxftype; /* Rx header */ msg->header.raw_value = (uint16_t)rxhead; /* Rx data size */ msg->len = rx_data_size; /* Rx data */ if (rx_data_size > 0) { ret = i2c_burst_read_dt(&cfg->bus, TCPC_REG_RX_BUFFER + 4, msg->data, rx_data_size); if (ret) { LOG_ERR("Failed to read Rx data: %d", ret); } } return ret; } static int fusb307_tcpc_set_rx_enable(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; if (!enable) { return tcpci_tcpm_set_rx_type(&cfg->bus, 0); } if (data->rx_sop_prime_enable) { return tcpci_tcpm_set_rx_type(&cfg->bus, TCPC_REG_RX_DETECT_SOP_SOPP_SOPPP_HRST_MASK); } else { return tcpci_tcpm_set_rx_type(&cfg->bus, TCPC_REG_RX_DETECT_SOP_HRST_MASK); } } static int fusb307_tcpc_set_cc_polarity(const struct device *dev, enum tc_cc_polarity polarity) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; enum tc_cc_voltage_state cc1, cc2; int ret; if (!data->initialized) { return -EIO; } ret = tcpci_tcpm_set_cc_polarity(&cfg->bus, polarity); if (ret != 0) { return ret; } /* FUSB307 won't respond with GoodCRC on CC2 unless CC1 is set to OPEN. */ tcpci_tcpm_get_cc(&cfg->bus, &cc1, &cc2); if (cc1) { tcpci_update_reg8(&cfg->bus, TCPC_REG_ROLE_CTRL, TCPC_REG_ROLE_CTRL_CC2_MASK, TCPC_REG_ROLE_CTRL_SET(0, 0, 0, TC_CC_OPEN)); } else if (cc2) { tcpci_update_reg8(&cfg->bus, TCPC_REG_ROLE_CTRL, TCPC_REG_ROLE_CTRL_CC1_MASK, TCPC_REG_ROLE_CTRL_SET(0, 0, TC_CC_OPEN, 0)); } else { if (data->power_role == TC_ROLE_SINK) { tcpci_tcpm_set_cc(&cfg->bus, TC_CC_RD); } else { tcpci_tcpm_set_cc(&cfg->bus, TC_CC_RP); } } data->cc_changed = true; data->cc_polarity = polarity; return 0; } static int fusb307_tcpc_transmit_data(const struct device *dev, struct pd_msg *msg) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_transmit_data(&cfg->bus, msg, cfg->transmit_retries); } static int fusb307_tcpc_dump_std_reg(const struct device *dev) { const struct fusb307_cfg *cfg = dev->config; LOG_INF("TCPC %s:%s registers:", cfg->bus.bus->name, dev->name); return tcpci_tcpm_dump_std_reg(&cfg->bus); } void fusb307_tcpc_alert_handler_cb(const struct device *dev, void *data, enum tcpc_alert alert) { } static int fusb307_tcpc_get_status_register(const struct device *dev, enum tcpc_status_reg reg, uint32_t *status) { const struct fusb307_cfg *cfg = dev->config; if (reg == TCPC_VENDOR_DEFINED_STATUS) { return tcpci_read_reg8(&cfg->bus, FUSB307_REG_ALERT_VD, (uint8_t *)status); } return tcpci_tcpm_get_status_register(&cfg->bus, reg, (uint16_t *)status); } static int fusb307_tcpc_clear_status_register(const struct device *dev, enum tcpc_status_reg reg, uint32_t mask) { const struct fusb307_cfg *cfg = dev->config; if (reg == TCPC_VENDOR_DEFINED_STATUS) { return tcpci_write_reg8(&cfg->bus, FUSB307_REG_ALERT_VD, (uint8_t)mask); } return tcpci_tcpm_clear_status_register(&cfg->bus, reg, (uint16_t)mask); } static int fusb307_tcpc_mask_status_register(const struct device *dev, enum tcpc_status_reg reg, uint32_t mask) { const struct fusb307_cfg *cfg = dev->config; if (reg == TCPC_VENDOR_DEFINED_STATUS) { return tcpci_write_reg8(&cfg->bus, FUSB307_REG_ALERT_VD_MASK, (uint8_t)mask); } return tcpci_tcpm_mask_status_register(&cfg->bus, reg, (uint16_t)mask); } static int fusb307_tcpc_set_drp_toggle(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; const struct fusb307_data *data = dev->data; return tcpci_tcpm_set_drp_toggle(&cfg->bus, data->pd_int_rev, enable); } static int fusb307_tcpc_set_debug_accessory(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_set_debug_accessory(&cfg->bus, enable); } static int fusb307_tcpc_get_snk_ctrl(const struct device *dev) { const struct fusb307_cfg *cfg = dev->config; bool sinking; int ret; ret = tcpci_tcpm_get_snk_ctrl(&cfg->bus, &sinking); if (ret != 0) { return ret; } return sinking; } static int fusb307_tcpc_set_snk_ctrl(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_set_snk_ctrl(&cfg->bus, enable); } static int fusb307_tcpc_get_src_ctrl(const struct device *dev) { const struct fusb307_cfg *cfg = dev->config; bool sourcing; int ret; ret = tcpci_tcpm_get_src_ctrl(&cfg->bus, &sourcing); if (ret != 0) { return ret; } return sourcing; } static int fusb307_tcpc_set_src_ctrl(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_set_src_ctrl(&cfg->bus, enable); } static int fusb307_tcpc_get_chip_info(const struct device *dev, struct tcpc_chip_info *chip_info) { const struct fusb307_cfg *cfg = dev->config; if (chip_info == NULL) { return -EIO; } chip_info->fw_version_number = 0; chip_info->min_req_fw_version_number = 0; return tcpci_tcpm_get_chip_info(&cfg->bus, chip_info); } static int fusb307_tcpc_set_low_power_mode(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_set_low_power_mode(&cfg->bus, enable); } static int fusb307_tcpc_sop_prime_enable(const struct device *dev, bool enable) { struct fusb307_data *data = dev->data; data->rx_sop_prime_enable = enable; return 0; } static int fusb307_tcpc_set_bist_test_mode(const struct device *dev, bool enable) { const struct fusb307_cfg *cfg = dev->config; return tcpci_tcpm_set_bist_test_mode(&cfg->bus, enable); } static int fusb307_tcpc_set_alert_handler_cb(const struct device *dev, tcpc_alert_handler_cb_t handler, void *handler_data) { struct fusb307_data *data = dev->data; if (data->alert_handler == handler && data->alert_handler_data == handler_data) { return 0; } data->alert_handler = handler; data->alert_handler_data = handler_data; return 0; } static DEVICE_API(tcpc, fusb307_driver_api) = { .init = fusb307_tcpc_init, .get_cc = fusb307_tcpc_get_cc, .select_rp_value = fusb307_tcpc_select_rp_value, .get_rp_value = fusb307_tcpc_get_rp_value, .set_cc = fusb307_tcpc_set_cc, .set_vconn_discharge_cb = fusb307_tcpc_set_vconn_discharge_cb, .set_vconn_cb = fusb307_tcpc_set_vconn_cb, .vconn_discharge = fusb307_tcpc_vconn_discharge, .set_vconn = fusb307_tcpc_set_vconn, .set_roles = fusb307_tcpc_set_roles, .get_rx_pending_msg = fusb307_tcpc_get_rx_pending_msg, .set_rx_enable = fusb307_tcpc_set_rx_enable, .set_cc_polarity = fusb307_tcpc_set_cc_polarity, .transmit_data = fusb307_tcpc_transmit_data, .dump_std_reg = fusb307_tcpc_dump_std_reg, .alert_handler_cb = fusb307_tcpc_alert_handler_cb, .get_status_register = fusb307_tcpc_get_status_register, .clear_status_register = fusb307_tcpc_clear_status_register, .mask_status_register = fusb307_tcpc_mask_status_register, .set_debug_accessory = fusb307_tcpc_set_debug_accessory, .set_debug_detach = NULL, .set_drp_toggle = fusb307_tcpc_set_drp_toggle, .get_snk_ctrl = fusb307_tcpc_get_snk_ctrl, .set_snk_ctrl = fusb307_tcpc_set_snk_ctrl, .get_src_ctrl = fusb307_tcpc_get_src_ctrl, .set_src_ctrl = fusb307_tcpc_set_src_ctrl, .get_chip_info = fusb307_tcpc_get_chip_info, .set_low_power_mode = fusb307_tcpc_set_low_power_mode, .sop_prime_enable = fusb307_tcpc_sop_prime_enable, .set_bist_test_mode = fusb307_tcpc_set_bist_test_mode, .set_alert_handler_cb = fusb307_tcpc_set_alert_handler_cb, }; void fusb307_alert_cb(const struct device *port, struct gpio_callback *cb, gpio_port_pins_t pins) { struct fusb307_data *data = CONTAINER_OF(cb, struct fusb307_data, alert_cb); k_work_submit(&data->alert_work); } void fusb307_alert_work_cb(struct k_work *work) { struct fusb307_data *data = CONTAINER_OF(work, struct fusb307_data, alert_work); const struct device *dev = data->dev; const struct fusb307_cfg *cfg = dev->config; uint16_t alert_reg = 0; uint16_t clear_flags = 0; if (!data->initialized) { return; } tcpci_tcpm_get_status_register(&cfg->bus, TCPC_ALERT_STATUS, &alert_reg); while (alert_reg != 0) { enum tcpc_alert alert_type = tcpci_alert_reg_to_enum(alert_reg); if (alert_type == TCPC_ALERT_HARD_RESET_RECEIVED) { LOG_DBG("hard rst received"); tcpci_init_alert_mask(dev); data->cc_changed = true; } else if (alert_type == TCPC_ALERT_FAULT_STATUS) { uint8_t fault; tcpci_tcpm_get_status_register(&cfg->bus, TCPC_FAULT_STATUS, (uint16_t *)&fault); tcpci_tcpm_clear_status_register(&cfg->bus, TCPC_FAULT_STATUS, (uint16_t)fault); LOG_DBG("fault: %02x", fault); } else if (alert_type == TCPC_ALERT_POWER_STATUS) { uint8_t pwr_status; tcpci_tcpm_get_status_register(&cfg->bus, TCPC_POWER_STATUS, (uint16_t *)&pwr_status); LOG_DBG("power status: %02x", pwr_status); } else if (alert_type == TCPC_ALERT_MSG_STATUS) { LOG_DBG("MSG pending"); if (fusb307_tcpc_rx_fifo_enqueue(dev) == 0) { data->msg_pending = true; } } else if (alert_type == TCPC_ALERT_CC_STATUS) { data->cc_changed = true; } if (data->alert_handler != NULL) { data->alert_handler(dev, data->alert_handler_data, alert_type); } clear_flags |= BIT(alert_type); alert_reg &= ~BIT(alert_type); } tcpci_tcpm_clear_status_register(&cfg->bus, TCPC_ALERT_STATUS, clear_flags); tcpci_tcpm_get_status_register(&cfg->bus, TCPC_ALERT_STATUS, &alert_reg); /* If alert_reg is not 0 or the interrupt signal is still active */ if ((alert_reg != 0) || gpio_pin_get_dt(&cfg->alert_gpio)) { k_work_submit(work); } } void fusb307_init_work_cb(struct k_work *work) { struct k_work_delayable *dwork = k_work_delayable_from_work(work); struct fusb307_data *data = CONTAINER_OF(dwork, struct fusb307_data, init_dwork); const struct fusb307_cfg *cfg = data->dev->config; uint8_t power_reg = 0; struct tcpc_chip_info chip_info; uint16_t tcpci_rev; int ret; LOG_INF("Initializing FUSB307 chip: %s", data->dev->name); ret = tcpci_tcpm_get_status_register(&cfg->bus, TCPC_POWER_STATUS, (uint16_t *)&power_reg); if (ret != 0 || (power_reg & TCPC_REG_POWER_STATUS_UNINIT)) { data->init_retries++; if (data->init_retries > CONFIG_USBC_TCPC_FUSB307_INIT_RETRIES) { LOG_ERR("Chip didn't respond"); return; } LOG_DBG("Postpone chip initialization %d", data->init_retries); k_work_schedule(&data->init_dwork, K_MSEC(CONFIG_USBC_TCPC_FUSB307_INIT_DELAY)); return; } fusb307_tcpc_get_chip_info(data->dev, &chip_info); LOG_INF("Initialized chip is: %04x:%04x:%04x", chip_info.vendor_id, chip_info.product_id, chip_info.device_id); /* get TCPCI Specification Revision */ tcpci_read_reg16(&cfg->bus, TCPC_REG_PD_INT_REV, &tcpci_rev); data->pd_int_rev = TCPC_REG_PD_INT_REV_REV_MAJOR(tcpci_rev) << 4 | TCPC_REG_PD_INT_REV_REV_MINOR(tcpci_rev); /* Clear reset flag */ tcpci_tcpm_clear_status_register(&cfg->bus, TCPC_FAULT_STATUS, TCPC_REG_FAULT_STATUS_ALL_REGS_RESET); /* Mask all vendor defined alerts */ tcpci_write_reg8(&cfg->bus, FUSB307_REG_ALERT_VD_MASK, 0); /* Mask all alerts */ tcpci_tcpm_mask_status_register(&cfg->bus, TCPC_ALERT_STATUS, 0); /* Clear the current alert register */ tcpci_tcpm_clear_status_register(&cfg->bus, TCPC_ALERT_STATUS, 0xff); /* Initialize alert interrupt */ gpio_pin_configure_dt(&cfg->alert_gpio, GPIO_INPUT); gpio_init_callback(&data->alert_cb, fusb307_alert_cb, BIT(cfg->alert_gpio.pin)); ret = gpio_add_callback(cfg->alert_gpio.port, &data->alert_cb); if (ret < 0) { LOG_ERR("Failed to add GPIO callback: %d", ret); return; } gpio_pin_interrupt_configure_dt(&cfg->alert_gpio, GPIO_INT_EDGE_TO_ACTIVE); tcpci_init_alert_mask(data->dev); data->initialized = true; /* Disable DRP Toggle */ fusb307_tcpc_set_drp_toggle(data->dev, false); /* Set DebugAccessoryControl control by TCPM */ tcpci_update_reg8(&cfg->bus, TCPC_REG_TCPC_CTRL, TCPC_REG_TCPC_CTRL_DEBUG_ACC_CONTROL, TCPC_REG_TCPC_CTRL_DEBUG_ACC_CONTROL); /* Check and clear any alert set after initialization */ k_work_submit(&data->alert_work); } static int fusb307_dev_init(const struct device *dev) { const struct fusb307_cfg *cfg = dev->config; struct fusb307_data *data = dev->data; int ret; if (!device_is_ready(cfg->bus.bus)) { return -EIO; } /* Resets the chip */ ret = tcpci_write_reg8(&cfg->bus, FUSB307_REG_RESET, FUSB307_REG_RESET_SW_RST); if (ret != 0) { LOG_ERR("Failed to reset chip: %d", ret); return ret; } k_work_init_delayable(&data->init_dwork, fusb307_init_work_cb); k_work_schedule(&data->init_dwork, K_MSEC(CONFIG_USBC_TCPC_FUSB307_INIT_DELAY)); k_work_init(&data->alert_work, fusb307_alert_work_cb); return 0; } #define VCONN_DISC_GPIO(node) \ .vconn_disc_gpio = COND_CODE_1(DT_INST_NODE_HAS_PROP(node, vconn_disc_gpios), \ (GPIO_DT_SPEC_INST_GET(node, vconn_disc_gpios)), ({0})) #define FUSB307_INSTANCE_DEFINE(inst) \ static struct fusb307_data drv_data_fusb307##inst = { \ .dev = DEVICE_DT_GET(DT_DRV_INST(inst)), \ .init_retries = 0, \ .cc_changed = true, \ }; \ static struct fusb307_cfg drv_cfg_fusb307##inst = { \ .bus = I2C_DT_SPEC_GET(DT_DRV_INST(inst)), \ .alert_gpio = GPIO_DT_SPEC_GET(DT_DRV_INST(inst), irq_gpios), \ .transmit_retries = DT_PROP(DT_DRV_INST(inst), transmit_retries), \ VCONN_DISC_GPIO(DT_DRV_INST(inst)), \ }; \ DEVICE_DT_INST_DEFINE(inst, &fusb307_dev_init, NULL, &drv_data_fusb307##inst, \ &drv_cfg_fusb307##inst, POST_KERNEL, CONFIG_USBC_TCPC_INIT_PRIORITY, \ &fusb307_driver_api); DT_INST_FOREACH_STATUS_OKAY(FUSB307_INSTANCE_DEFINE)