/* * SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include "sdkconfig.h" #include #include #include #include #include "freertos/FreeRTOS.h" #include "freertos/portmacro.h" #include "esp_err.h" #include "esp_heap_caps.h" #include "esp_log.h" #include "usb_private.h" #include "hcd.h" #include "hub.h" #include "usb/usb_helpers.h" #if ENABLE_USB_HUBS #include "ext_hub.h" #endif // ENABLE_USB_HUBS /* Implementation of the HUB driver that only supports the Root Hub with a single port. Therefore, we currently don't implement the bare minimum to control the root HCD port. */ #define HUB_ROOT_PORT_NUM 1 // HCD only supports one port #define HUB_ROOT_DEV_UID 1 // Unique device ID #ifdef CONFIG_USB_HOST_HW_BUFFER_BIAS_IN #define HUB_ROOT_HCD_PORT_FIFO_BIAS HCD_PORT_FIFO_BIAS_RX #elif CONFIG_USB_HOST_HW_BUFFER_BIAS_PERIODIC_OUT #define HUB_ROOT_HCD_PORT_FIFO_BIAS HCD_PORT_FIFO_BIAS_PTX #else // CONFIG_USB_HOST_HW_BUFFER_BIAS_BALANCED #define HUB_ROOT_HCD_PORT_FIFO_BIAS HCD_PORT_FIFO_BIAS_BALANCED #endif #define PORT_REQ_DISABLE 0x01 #define PORT_REQ_RECOVER 0x02 /** * @brief Hub driver action flags */ typedef enum { HUB_DRIVER_ACTION_ROOT_EVENT = (1 << 0), HUB_DRIVER_ACTION_ROOT_REQ = (1 << 1), #if ENABLE_USB_HUBS HUB_DRIVER_ACTION_EXT_HUB = (1 << 6), HUB_DRIVER_ACTION_EXT_PORT = (1 << 7) #endif // ENABLE_USB_HUBS } hub_flag_action_t; /** * @brief Root port states */ typedef enum { ROOT_PORT_STATE_NOT_POWERED, /**< Root port initialized and/or not powered */ ROOT_PORT_STATE_POWERED, /**< Root port is powered, device is not connected */ ROOT_PORT_STATE_DISABLED, /**< A device is connected but is disabled (i.e., not reset, no SOFs are sent) */ ROOT_PORT_STATE_ENABLED, /**< A device is connected, port has been reset, SOFs are sent */ ROOT_PORT_STATE_RECOVERY, /**< Root port encountered an error and needs to be recovered */ } root_port_state_t; /** * @brief Hub device tree node * * Object type of a node in the USB device tree that is maintained by the Hub driver */ struct dev_tree_node_s { TAILQ_ENTRY(dev_tree_node_s) tailq_entry; /**< Entry for the device tree node object tailq */ unsigned int uid; /**< Device's unique ID */ usb_device_handle_t parent_dev_hdl; /**< Device's parent handle */ uint8_t parent_port_num; /**< Device's parent port number */ }; typedef struct dev_tree_node_s dev_tree_node_t; typedef struct { struct { union { struct { hub_flag_action_t actions: 8; /**< Hub actions */ uint32_t reserved24: 24; /**< Reserved */ }; uint32_t val; /**< Hub flag action value */ } flags; /**< Hub flags */ root_port_state_t root_port_state; /**< Root port state */ unsigned int port_reqs; /**< Root port request flag */ } dynamic; /**< Dynamic members. Require a critical section */ struct { TAILQ_HEAD(tailhead_devs, dev_tree_node_s) dev_nodes_tailq; /**< Tailq of attached devices */ uint8_t next_uid; /**< Unique ID for next upcoming device */ } single_thread; /**< Single thread members don't require a critical section so long as they are never accessed from multiple threads */ struct { hcd_port_handle_t root_port_hdl; /**< Root port HCD handle */ usb_proc_req_cb_t proc_req_cb; /**< Process request callback */ void *proc_req_cb_arg; /**< Process request callback argument */ hub_event_cb_t event_cb; /**< Hub Driver event callback */ void *event_cb_arg; /**< Event callback argument */ } constant; /**< Constant members. Do not change after installation thus do not require a critical section or mutex */ } hub_driver_t; static hub_driver_t *p_hub_driver_obj = NULL; static portMUX_TYPE hub_driver_lock = portMUX_INITIALIZER_UNLOCKED; const char *HUB_DRIVER_TAG = "HUB"; #define HUB_DRIVER_ENTER_CRITICAL_ISR() portENTER_CRITICAL_ISR(&hub_driver_lock) #define HUB_DRIVER_EXIT_CRITICAL_ISR() portEXIT_CRITICAL_ISR(&hub_driver_lock) #define HUB_DRIVER_ENTER_CRITICAL() portENTER_CRITICAL(&hub_driver_lock) #define HUB_DRIVER_EXIT_CRITICAL() portEXIT_CRITICAL(&hub_driver_lock) #define HUB_DRIVER_ENTER_CRITICAL_SAFE() portENTER_CRITICAL_SAFE(&hub_driver_lock) #define HUB_DRIVER_EXIT_CRITICAL_SAFE() portEXIT_CRITICAL_SAFE(&hub_driver_lock) #define HUB_DRIVER_CHECK(cond, ret_val) ({ \ if (!(cond)) { \ return (ret_val); \ } \ }) #define HUB_DRIVER_CHECK_FROM_CRIT(cond, ret_val) ({ \ if (!(cond)) { \ HUB_DRIVER_EXIT_CRITICAL(); \ return ret_val; \ } \ }) // ------------------------------------------------- Forward Declare --------------------------------------------------- /** * @brief HCD port callback for the root port * * - This callback is called from the context of the HCD, so any event handling should be deferred to hub_process() * - Under the current HCD implementation, this callback should only be ever be called in an ISR * - This callback needs to call proc_req_cb to ensure that hub_process() gets a chance to run * * @param port_hdl HCD port handle * @param port_event HCD port event * @param user_arg Callback argument * @param in_isr Whether callback is in an ISR context * @return Whether a yield is required */ static bool root_port_callback(hcd_port_handle_t port_hdl, hcd_port_event_t port_event, void *user_arg, bool in_isr); // ---------------------- Internal Logic ------------------------ /** * @brief Creates new device tree node and propagate HUB_EVENT_CONNECTED event * * @return esp_err_t */ static esp_err_t new_dev_tree_node(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num, usb_speed_t speed) { esp_err_t ret; unsigned int node_uid = p_hub_driver_obj->single_thread.next_uid; dev_tree_node_t *dev_tree_node = heap_caps_calloc(1, sizeof(dev_tree_node_t), MALLOC_CAP_DEFAULT); if (dev_tree_node == NULL) { return ESP_ERR_NO_MEM; } // Allocate a new USBH device usbh_dev_params_t params = { .uid = node_uid, .speed = speed, .root_port_hdl = p_hub_driver_obj->constant.root_port_hdl, // Always the same for all devices // TODO: IDF-10023 Move responsibility of parent-child tree building to Hub Driver instead of USBH .parent_dev_hdl = parent_dev_hdl, .parent_port_num = parent_port_num, }; ret = usbh_devs_add(¶ms); if (ret != ESP_OK) { // USBH devs add could failed due to lack of free hcd channels // TODO: IDF-10044 Hub should recover after running out of hcd channels goto fail; } dev_tree_node->uid = node_uid; dev_tree_node->parent_dev_hdl = parent_dev_hdl; dev_tree_node->parent_port_num = parent_port_num; TAILQ_INSERT_TAIL(&p_hub_driver_obj->single_thread.dev_nodes_tailq, dev_tree_node, tailq_entry); p_hub_driver_obj->single_thread.next_uid++; if (p_hub_driver_obj->single_thread.next_uid == 0) { ESP_LOGW(HUB_DRIVER_TAG, "Counter overflowed, possibility of uid collisions"); p_hub_driver_obj->single_thread.next_uid = HUB_ROOT_DEV_UID; } // Verify presence of a device with newly prepared uid in USBH // TODO: IDF-10022 Provide a mechanism to request presence status of a device with uid in USBH device object list // Return if device uid is not in USBH device object list, repeat until uid will be founded ESP_LOGD(HUB_DRIVER_TAG, "New device tree node (uid=%d)", node_uid); hub_event_data_t event_data = { .event = HUB_EVENT_CONNECTED, .connected = { .uid = node_uid, }, }; p_hub_driver_obj->constant.event_cb(&event_data, p_hub_driver_obj->constant.event_cb_arg); return ret; fail: heap_caps_free(dev_tree_node); return ret; } static esp_err_t dev_tree_node_reset_completed(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num) { dev_tree_node_t *dev_tree_node = NULL; dev_tree_node_t *dev_tree_iter; // Search the device tree nodes list for a device node with the specified parent TAILQ_FOREACH(dev_tree_iter, &p_hub_driver_obj->single_thread.dev_nodes_tailq, tailq_entry) { if (dev_tree_iter->parent_dev_hdl == parent_dev_hdl && dev_tree_iter->parent_port_num == parent_port_num) { dev_tree_node = dev_tree_iter; break; } } if (dev_tree_node == NULL) { ESP_LOGE(HUB_DRIVER_TAG, "Reset completed, but device tree node with port=%d not found", parent_port_num); return ESP_ERR_NOT_FOUND; } hub_event_data_t event_data = { .event = HUB_EVENT_RESET_COMPLETED, .reset_completed = { .uid = dev_tree_node->uid, }, }; p_hub_driver_obj->constant.event_cb(&event_data, p_hub_driver_obj->constant.event_cb_arg); return ESP_OK; } static esp_err_t dev_tree_node_dev_gone(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num) { dev_tree_node_t *dev_tree_node = NULL; dev_tree_node_t *dev_tree_iter; // Search the device tree nodes list for a device node with the specified parent TAILQ_FOREACH(dev_tree_iter, &p_hub_driver_obj->single_thread.dev_nodes_tailq, tailq_entry) { if (dev_tree_iter->parent_dev_hdl == parent_dev_hdl && dev_tree_iter->parent_port_num == parent_port_num) { dev_tree_node = dev_tree_iter; break; } } if (dev_tree_node == NULL) { ESP_LOGE(HUB_DRIVER_TAG, "Device tree node with port=%d not found", parent_port_num); return ESP_ERR_NOT_FOUND; } ESP_LOGD(HUB_DRIVER_TAG, "Device tree node (uid=%d): device gone", dev_tree_node->uid); hub_event_data_t event_data = { .event = HUB_EVENT_DISCONNECTED, .disconnected = { .uid = dev_tree_node->uid, }, }; p_hub_driver_obj->constant.event_cb(&event_data, p_hub_driver_obj->constant.event_cb_arg); return ESP_OK; } /** * @brief Frees device tree node * * @return esp_err_t */ static esp_err_t dev_tree_node_remove_by_parent(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num) { dev_tree_node_t *dev_tree_node = NULL; dev_tree_node_t *dev_tree_iter; // Search the device tree nodes list for a device node with the specified parent TAILQ_FOREACH(dev_tree_iter, &p_hub_driver_obj->single_thread.dev_nodes_tailq, tailq_entry) { if (dev_tree_iter->parent_dev_hdl == parent_dev_hdl && dev_tree_iter->parent_port_num == parent_port_num) { dev_tree_node = dev_tree_iter; break; } } if (dev_tree_node == NULL) { ESP_LOGE(HUB_DRIVER_TAG, "Device tree node with port=%d not found", parent_port_num); return ESP_ERR_NOT_FOUND; } ESP_LOGD(HUB_DRIVER_TAG, "Device tree node freeing (uid=%d)", dev_tree_node->uid); TAILQ_REMOVE(&p_hub_driver_obj->single_thread.dev_nodes_tailq, dev_tree_node, tailq_entry); heap_caps_free(dev_tree_node); return ESP_OK; } // ---------------------- Callbacks ------------------------ static bool root_port_callback(hcd_port_handle_t port_hdl, hcd_port_event_t port_event, void *user_arg, bool in_isr) { HUB_DRIVER_ENTER_CRITICAL_SAFE(); p_hub_driver_obj->dynamic.flags.actions |= HUB_DRIVER_ACTION_ROOT_EVENT; HUB_DRIVER_EXIT_CRITICAL_SAFE(); assert(in_isr); // Currently, this callback should only ever be called from an ISR context return p_hub_driver_obj->constant.proc_req_cb(USB_PROC_REQ_SOURCE_HUB, in_isr, p_hub_driver_obj->constant.proc_req_cb_arg); } #ifdef ENABLE_USB_HUBS static bool ext_hub_callback(bool in_isr, void *user_arg) { HUB_DRIVER_ENTER_CRITICAL_SAFE(); p_hub_driver_obj->dynamic.flags.actions |= HUB_DRIVER_ACTION_EXT_HUB; HUB_DRIVER_EXIT_CRITICAL_SAFE(); return p_hub_driver_obj->constant.proc_req_cb(USB_PROC_REQ_SOURCE_HUB, in_isr, p_hub_driver_obj->constant.proc_req_cb_arg); } #endif // ENABLE_USB_HUBS // ---------------------- Handlers ------------------------- static void root_port_handle_events(hcd_port_handle_t root_port_hdl) { hcd_port_event_t port_event = hcd_port_handle_event(root_port_hdl); switch (port_event) { case HCD_PORT_EVENT_NONE: // Nothing to do break; case HCD_PORT_EVENT_CONNECTION: { if (hcd_port_command(root_port_hdl, HCD_PORT_CMD_RESET) != ESP_OK) { ESP_LOGE(HUB_DRIVER_TAG, "Root port reset failed"); goto reset_err; } ESP_LOGD(HUB_DRIVER_TAG, "Root port reset"); usb_speed_t speed; if (hcd_port_get_speed(p_hub_driver_obj->constant.root_port_hdl, &speed) != ESP_OK) { goto new_dev_err; } if (new_dev_tree_node(NULL, 0, speed) != ESP_OK) { ESP_LOGE(HUB_DRIVER_TAG, "Failed to add new device"); goto new_dev_err; } // Change Port state HUB_DRIVER_ENTER_CRITICAL(); p_hub_driver_obj->dynamic.root_port_state = ROOT_PORT_STATE_ENABLED; HUB_DRIVER_EXIT_CRITICAL(); break; new_dev_err: // We allow this to fail in case a disconnect/port error happens while disabling. hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_DISABLE); reset_err: break; } case HCD_PORT_EVENT_DISCONNECTION: case HCD_PORT_EVENT_ERROR: case HCD_PORT_EVENT_OVERCURRENT: { bool port_has_device = false; HUB_DRIVER_ENTER_CRITICAL(); switch (p_hub_driver_obj->dynamic.root_port_state) { case ROOT_PORT_STATE_POWERED: // This occurred before enumeration case ROOT_PORT_STATE_DISABLED: // This occurred after the device has already been disabled // Therefore, there's no device object to clean up, and we can go straight to port recovery p_hub_driver_obj->dynamic.port_reqs |= PORT_REQ_RECOVER; p_hub_driver_obj->dynamic.flags.actions |= HUB_DRIVER_ACTION_ROOT_REQ; break; case ROOT_PORT_STATE_ENABLED: // There is an enabled (active) device. We need to indicate to USBH that the device is gone port_has_device = true; break; default: abort(); // Should never occur break; } HUB_DRIVER_EXIT_CRITICAL(); if (port_has_device) { ESP_ERROR_CHECK(dev_tree_node_dev_gone(NULL, 0)); } break; } default: abort(); // Should never occur break; } } static void root_port_req(hcd_port_handle_t root_port_hdl) { unsigned int port_reqs; HUB_DRIVER_ENTER_CRITICAL(); port_reqs = p_hub_driver_obj->dynamic.port_reqs; p_hub_driver_obj->dynamic.port_reqs = 0; HUB_DRIVER_EXIT_CRITICAL(); if (port_reqs & PORT_REQ_DISABLE) { ESP_LOGD(HUB_DRIVER_TAG, "Disabling root port"); // We allow this to fail in case a disconnect/port error happens while disabling. hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_DISABLE); } if (port_reqs & PORT_REQ_RECOVER) { ESP_LOGD(HUB_DRIVER_TAG, "Recovering root port"); ESP_ERROR_CHECK(hcd_port_recover(p_hub_driver_obj->constant.root_port_hdl)); ESP_ERROR_CHECK(hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_POWER_ON)); HUB_DRIVER_ENTER_CRITICAL(); p_hub_driver_obj->dynamic.root_port_state = ROOT_PORT_STATE_POWERED; HUB_DRIVER_EXIT_CRITICAL(); } } static esp_err_t root_port_recycle(void) { // Device is free, we can now request its port be recycled hcd_port_state_t port_state = hcd_port_get_state(p_hub_driver_obj->constant.root_port_hdl); HUB_DRIVER_ENTER_CRITICAL(); // How the port is recycled will depend on the port's state switch (port_state) { case HCD_PORT_STATE_ENABLED: p_hub_driver_obj->dynamic.port_reqs |= PORT_REQ_DISABLE; break; case HCD_PORT_STATE_RECOVERY: p_hub_driver_obj->dynamic.port_reqs |= PORT_REQ_RECOVER; break; default: abort(); // Should never occur break; } p_hub_driver_obj->dynamic.flags.actions |= HUB_DRIVER_ACTION_ROOT_REQ; HUB_DRIVER_EXIT_CRITICAL(); ESP_ERROR_CHECK(dev_tree_node_remove_by_parent(NULL, 0)); p_hub_driver_obj->constant.proc_req_cb(USB_PROC_REQ_SOURCE_HUB, false, p_hub_driver_obj->constant.proc_req_cb_arg); return ESP_OK; } // ---------------------------------------------- Hub Driver Functions ------------------------------------------------- esp_err_t hub_install(hub_config_t *hub_config, void **client_ret) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj == NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); esp_err_t ret; // Allocate Hub driver object hub_driver_t *hub_driver_obj = heap_caps_calloc(1, sizeof(hub_driver_t), MALLOC_CAP_DEFAULT); if (hub_driver_obj == NULL) { return ESP_ERR_NO_MEM; } #if ENABLE_USB_HUBS // Install External HUB driver ext_hub_config_t ext_hub_config = { .proc_req_cb = ext_hub_callback, .port_driver = NULL, }; ret = ext_hub_install(&ext_hub_config); if (ret != ESP_OK) { goto err_ext_hub; } *client_ret = ext_hub_get_client(); #else *client_ret = NULL; #endif // ENABLE_USB_HUBS // Install HCD port hcd_port_config_t port_config = { .fifo_bias = HUB_ROOT_HCD_PORT_FIFO_BIAS, .callback = root_port_callback, .callback_arg = NULL, .context = NULL, }; hcd_port_handle_t root_port_hdl; ret = hcd_port_init(HUB_ROOT_PORT_NUM, &port_config, &root_port_hdl); if (ret != ESP_OK) { goto err; } // Initialize Hub driver object hub_driver_obj->constant.root_port_hdl = root_port_hdl; hub_driver_obj->constant.proc_req_cb = hub_config->proc_req_cb; hub_driver_obj->constant.proc_req_cb_arg = hub_config->proc_req_cb_arg; hub_driver_obj->constant.event_cb = hub_config->event_cb; hub_driver_obj->constant.event_cb_arg = hub_config->event_cb_arg; hub_driver_obj->single_thread.next_uid = HUB_ROOT_DEV_UID; TAILQ_INIT(&hub_driver_obj->single_thread.dev_nodes_tailq); // Driver is not installed, we can modify dynamic section outside of the critical section hub_driver_obj->dynamic.root_port_state = ROOT_PORT_STATE_NOT_POWERED; HUB_DRIVER_ENTER_CRITICAL(); if (p_hub_driver_obj != NULL) { HUB_DRIVER_EXIT_CRITICAL(); ret = ESP_ERR_INVALID_STATE; goto assign_err; } p_hub_driver_obj = hub_driver_obj; HUB_DRIVER_EXIT_CRITICAL(); return ret; assign_err: ESP_ERROR_CHECK(hcd_port_deinit(root_port_hdl)); err: #if ENABLE_USB_HUBS ext_hub_uninstall(); err_ext_hub: #endif // ENABLE_USB_HUBS heap_caps_free(hub_driver_obj); return ret; } esp_err_t hub_uninstall(void) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj->dynamic.root_port_state == ROOT_PORT_STATE_NOT_POWERED, ESP_ERR_INVALID_STATE); hub_driver_t *hub_driver_obj = p_hub_driver_obj; p_hub_driver_obj = NULL; HUB_DRIVER_EXIT_CRITICAL(); #if ENABLE_USB_HUBS ESP_ERROR_CHECK(ext_hub_uninstall()); #endif // ENABLE_USB_HUBS ESP_ERROR_CHECK(hcd_port_deinit(hub_driver_obj->constant.root_port_hdl)); // Free Hub driver resources heap_caps_free(hub_driver_obj); return ESP_OK; } esp_err_t hub_root_start(void) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj->dynamic.root_port_state == ROOT_PORT_STATE_NOT_POWERED, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); // Power ON the root port esp_err_t ret; ret = hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_POWER_ON); if (ret == ESP_OK) { HUB_DRIVER_ENTER_CRITICAL(); p_hub_driver_obj->dynamic.root_port_state = ROOT_PORT_STATE_POWERED; HUB_DRIVER_EXIT_CRITICAL(); } return ret; } esp_err_t hub_root_stop(void) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj->dynamic.root_port_state != ROOT_PORT_STATE_NOT_POWERED, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); esp_err_t ret; ret = hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_POWER_OFF); if (ret == ESP_OK) { HUB_DRIVER_ENTER_CRITICAL(); p_hub_driver_obj->dynamic.root_port_state = ROOT_PORT_STATE_NOT_POWERED; HUB_DRIVER_EXIT_CRITICAL(); } return ret; } esp_err_t hub_port_recycle(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num, unsigned int dev_uid) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); esp_err_t ret; if (parent_port_num == 0) { ret = root_port_recycle(); } else { #if ENABLE_USB_HUBS ext_hub_handle_t ext_hub_hdl = NULL; ext_hub_get_handle(parent_dev_hdl, &ext_hub_hdl); ret = ext_hub_port_recycle(ext_hub_hdl, parent_port_num); #else ESP_LOGW(HUB_DRIVER_TAG, "Recycling External Port is not available (External Hub support disabled)"); ret = ESP_ERR_NOT_SUPPORTED; #endif // ENABLE_USB_HUBS } return ret; } esp_err_t hub_port_reset(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); esp_err_t ret; if (parent_port_num == 0) { ret = hcd_port_command(p_hub_driver_obj->constant.root_port_hdl, HCD_PORT_CMD_RESET); if (ret != ESP_OK) { ESP_LOGE(HUB_DRIVER_TAG, "Failed to issue root port reset"); } ret = dev_tree_node_reset_completed(NULL, 0); } else { #if ENABLE_USB_HUBS ext_hub_handle_t ext_hub_hdl = NULL; ext_hub_get_handle(parent_dev_hdl, &ext_hub_hdl); ret = ext_hub_port_reset(ext_hub_hdl, parent_port_num); #else ESP_LOGW(HUB_DRIVER_TAG, "Resetting External Port is not available (External Hub support disabled)"); ret = ESP_ERR_NOT_SUPPORTED; #endif // ENABLE_USB_HUBS } return ret; } esp_err_t hub_port_active(usb_device_handle_t parent_dev_hdl, uint8_t parent_port_num) { esp_err_t ret; if (parent_port_num == 0) { // Root port no need to be activated ret = ESP_OK; } else { #if ENABLE_USB_HUBS // External Hub port ext_hub_handle_t ext_hub_hdl = NULL; ext_hub_get_handle(parent_dev_hdl, &ext_hub_hdl); ret = ext_hub_port_active(ext_hub_hdl, parent_port_num); #else ESP_LOGW(HUB_DRIVER_TAG, "Activating External Port is not available (External Hub support disabled)"); ret = ESP_ERR_NOT_SUPPORTED; #endif // ENABLE_USB_HUBS } return ret; } #if ENABLE_USB_HUBS esp_err_t hub_notify_new_dev(uint8_t dev_addr) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); return ext_hub_new_dev(dev_addr); } esp_err_t hub_notify_dev_gone(uint8_t dev_addr) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); return ext_hub_dev_gone(dev_addr); } esp_err_t hub_notify_all_free(void) { HUB_DRIVER_ENTER_CRITICAL(); HUB_DRIVER_CHECK_FROM_CRIT(p_hub_driver_obj != NULL, ESP_ERR_INVALID_STATE); HUB_DRIVER_EXIT_CRITICAL(); return ext_hub_all_free(); } #endif // ENABLE_USB_HUBS esp_err_t hub_process(void) { HUB_DRIVER_ENTER_CRITICAL(); uint32_t action_flags = p_hub_driver_obj->dynamic.flags.actions; p_hub_driver_obj->dynamic.flags.actions = 0; HUB_DRIVER_EXIT_CRITICAL(); while (action_flags) { #if ENABLE_USB_HUBS if (action_flags & HUB_DRIVER_ACTION_EXT_PORT) { ESP_LOGW(HUB_DRIVER_TAG, "ext_port_process() has not been implemented yet"); /* ESP_ERROR_CHECK(ext_port_process()); */ } if (action_flags & HUB_DRIVER_ACTION_EXT_HUB) { ESP_ERROR_CHECK(ext_hub_process()); } #endif // ENABLE_USB_HUBS if (action_flags & HUB_DRIVER_ACTION_ROOT_EVENT) { root_port_handle_events(p_hub_driver_obj->constant.root_port_hdl); } if (action_flags & HUB_DRIVER_ACTION_ROOT_REQ) { root_port_req(p_hub_driver_obj->constant.root_port_hdl); } HUB_DRIVER_ENTER_CRITICAL(); action_flags = p_hub_driver_obj->dynamic.flags.actions; p_hub_driver_obj->dynamic.flags.actions = 0; HUB_DRIVER_EXIT_CRITICAL(); } return ESP_OK; }