/* * SPDX-FileCopyrightText: 2015-2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include "freertos/FreeRTOS.h" #include "esp_log.h" #include "esp_check.h" #include "esp_private/periph_ctrl.h" #include "esp_private/usb_phy.h" #include "soc/usb_otg_periph.h" #include "hal/usb_phy_hal.h" #include "hal/usb_phy_ll.h" #include "esp_rom_gpio.h" #include "driver/gpio.h" #include "hal/gpio_ll.h" #include "soc/soc_caps.h" #include "soc/usb_pins.h" #if !SOC_RCC_IS_INDEPENDENT #define USB_WRAP_RCC_ATOMIC() PERIPH_RCC_ATOMIC() #else #define USB_WRAP_RCC_ATOMIC() #endif static const char *USBPHY_TAG = "usb_phy"; #define USBPHY_NOT_INIT_ERR_STR "USB_PHY is not initialized" typedef struct phy_context_t phy_context_t; struct phy_context_t { usb_phy_target_t target; /**< PHY target */ usb_phy_controller_t controller; /**< PHY controller */ usb_phy_status_t status; /**< PHY status */ usb_otg_mode_t otg_mode; /**< USB OTG mode */ usb_phy_speed_t otg_speed; /**< USB speed */ usb_phy_ext_io_conf_t *iopins; /**< external PHY I/O pins */ usb_phy_hal_context_t hal_context; /**< USB_PHY hal context */ }; typedef struct { phy_context_t *internal_phy; /**< internal PHY context */ phy_context_t *external_phy; /**< external PHY context */ uint32_t ref_count; /**< reference count used to protect p_phy_ctrl_obj */ } phy_ctrl_obj_t; /** * @brief A pin descriptor for initialize external PHY I/O pins */ typedef struct { int pin; /**< GPIO pin num */ const int func; /**< GPIO matrix signal */ const bool is_output; /**< input/output signal */ } usb_iopin_dsc_t; static phy_ctrl_obj_t *p_phy_ctrl_obj = NULL; static portMUX_TYPE phy_spinlock = portMUX_INITIALIZER_UNLOCKED; static esp_err_t phy_iopins_configure(const usb_iopin_dsc_t *usb_periph_iopins, int iopins_num) { for (int i = 0; i < iopins_num; i++) { const usb_iopin_dsc_t iopin = usb_periph_iopins[i]; if (iopin.pin != GPIO_NUM_NC) { ESP_RETURN_ON_FALSE((iopin.is_output && GPIO_IS_VALID_OUTPUT_GPIO(iopin.pin)) || (!iopin.is_output && GPIO_IS_VALID_GPIO(iopin.pin)), ESP_ERR_INVALID_ARG, USBPHY_TAG, "io_num argument is invalid"); esp_rom_gpio_pad_select_gpio(iopin.pin); if (iopin.is_output) { esp_rom_gpio_connect_out_signal(iopin.pin, iopin.func, false, false); } else { esp_rom_gpio_connect_in_signal(iopin.pin, iopin.func, false); gpio_ll_input_enable(&GPIO, iopin.pin); } esp_rom_gpio_pad_unhold(iopin.pin); } } return ESP_OK; } static esp_err_t phy_external_iopins_configure(const usb_phy_ext_io_conf_t *ext_io_conf) { const usb_iopin_dsc_t usb_periph_iopins[] = { {ext_io_conf->vp_io_num, usb_otg_periph_signal.extphy_vp_in, false}, {ext_io_conf->vm_io_num, usb_otg_periph_signal.extphy_vm_in, false}, {ext_io_conf->rcv_io_num, usb_otg_periph_signal.extphy_rcv_in, false}, {ext_io_conf->oen_io_num, usb_otg_periph_signal.extphy_oen_out, true}, {ext_io_conf->vpo_io_num, usb_otg_periph_signal.extphy_vpo_out, true}, {ext_io_conf->vmo_io_num, usb_otg_periph_signal.extphy_vmo_out, true}, }; return phy_iopins_configure(usb_periph_iopins, sizeof(usb_periph_iopins) / sizeof(usb_iopin_dsc_t)); } static esp_err_t phy_otg_iopins_configure(const usb_phy_otg_io_conf_t *otg_io_conf) { const usb_iopin_dsc_t usb_periph_iopins[] = { {otg_io_conf->iddig_io_num, usb_otg_periph_signal.otg_iddig_in, false}, {otg_io_conf->avalid_io_num, usb_otg_periph_signal.otg_avalid_in, false}, {otg_io_conf->vbusvalid_io_num, usb_otg_periph_signal.otg_vbusvalid_in, false}, {otg_io_conf->idpullup_io_num, usb_otg_periph_signal.otg_idpullup_out, true}, {otg_io_conf->dppulldown_io_num, usb_otg_periph_signal.otg_dppulldown_out, true}, {otg_io_conf->dmpulldown_io_num, usb_otg_periph_signal.otg_dmpulldown_out, true}, {otg_io_conf->drvvbus_io_num, usb_otg_periph_signal.otg_drvvbus_out, true}, {otg_io_conf->bvalid_io_num, usb_otg_periph_signal.srp_bvalid_in, false}, {otg_io_conf->sessend_io_num, usb_otg_periph_signal.srp_sessend_in, false}, {otg_io_conf->chrgvbus_io_num, usb_otg_periph_signal.srp_chrgvbus_out, true}, {otg_io_conf->dischrgvbus_io_num, usb_otg_periph_signal.srp_dischrgvbus_out, true}, }; return phy_iopins_configure(usb_periph_iopins, sizeof(usb_periph_iopins) / sizeof(usb_iopin_dsc_t)); } esp_err_t usb_phy_otg_set_mode(usb_phy_handle_t handle, usb_otg_mode_t mode) { ESP_RETURN_ON_FALSE(handle, ESP_ERR_INVALID_ARG, USBPHY_TAG, "handle argument is invalid"); ESP_RETURN_ON_FALSE(mode < USB_OTG_MODE_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "mode argument is invalid"); ESP_RETURN_ON_FALSE(handle->controller == USB_PHY_CTRL_OTG, ESP_FAIL, USBPHY_TAG, "phy source is not USB_OTG"); handle->otg_mode = mode; if (mode == USB_OTG_MODE_HOST) { esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ZERO_INPUT, USB_OTG_IDDIG_IN_IDX, false); // connected connector is A side esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ZERO_INPUT, USB_SRP_BVALID_IN_IDX, false); esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ONE_INPUT, USB_OTG_VBUSVALID_IN_IDX, false); // receiving a valid Vbus from host esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ONE_INPUT, USB_OTG_AVALID_IN_IDX, false); // HIGH to force USB host mode if (handle->target == USB_PHY_TARGET_INT) { usb_phy_hal_int_load_conf_host(&(handle->hal_context)); } } else if (mode == USB_OTG_MODE_DEVICE) { esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ONE_INPUT, USB_OTG_IDDIG_IN_IDX, false); // connected connector is mini-B side esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ONE_INPUT, USB_SRP_BVALID_IN_IDX, false); // HIGH to force USB device mode esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ONE_INPUT, USB_OTG_VBUSVALID_IN_IDX, false); // receiving a valid Vbus from device esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ZERO_INPUT, USB_OTG_AVALID_IN_IDX, false); } return ESP_OK; } esp_err_t usb_phy_otg_dev_set_speed(usb_phy_handle_t handle, usb_phy_speed_t speed) { ESP_RETURN_ON_FALSE(handle, ESP_ERR_INVALID_ARG, USBPHY_TAG, "handle argument is invalid"); ESP_RETURN_ON_FALSE(speed < USB_PHY_SPEED_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "speed argument is invalid"); ESP_RETURN_ON_FALSE(handle->controller == USB_PHY_CTRL_OTG, ESP_FAIL, USBPHY_TAG, "phy source is not USB_OTG"); ESP_RETURN_ON_FALSE((handle->target == USB_PHY_TARGET_INT && handle->otg_mode == USB_OTG_MODE_DEVICE), ESP_FAIL, USBPHY_TAG, "set speed not supported"); handle->otg_speed = speed; usb_phy_hal_int_load_conf_dev(&(handle->hal_context), speed); return ESP_OK; } esp_err_t usb_phy_action(usb_phy_handle_t handle, usb_phy_action_t action) { ESP_RETURN_ON_FALSE(handle, ESP_ERR_INVALID_ARG, USBPHY_TAG, "handle argument is invalid"); ESP_RETURN_ON_FALSE(action < USB_PHY_ACTION_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "action argument is invalid"); ESP_RETURN_ON_FALSE((action == USB_PHY_ACTION_HOST_ALLOW_CONN && handle->controller == USB_PHY_CTRL_OTG) || (action == USB_PHY_ACTION_HOST_FORCE_DISCONN && handle->controller == USB_PHY_CTRL_OTG), ESP_ERR_INVALID_ARG, USBPHY_TAG, "wrong target for the action"); esp_err_t ret = ESP_OK; switch (action) { case USB_PHY_ACTION_HOST_ALLOW_CONN: if (handle->target == USB_PHY_TARGET_INT) { usb_phy_hal_int_mimick_disconn(&(handle->hal_context), false); } else { if (!handle->iopins) { ret = ESP_FAIL; ESP_LOGE(USBPHY_TAG, "no I/O pins provided for connection"); break; } /* Allow for connections on the external PHY by connecting the VP and VM signals to the external PHY. */ esp_rom_gpio_connect_in_signal(handle->iopins->vp_io_num, USB_EXTPHY_VP_IDX, false); esp_rom_gpio_connect_in_signal(handle->iopins->vm_io_num, USB_EXTPHY_VM_IDX, false); } break; case USB_PHY_ACTION_HOST_FORCE_DISCONN: if (handle->target == USB_PHY_TARGET_INT) { usb_phy_hal_int_mimick_disconn(&(handle->hal_context), true); } else { /* Disable connections on the external PHY by connecting the VP and VM signals to the constant LOW signal. */ esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ZERO_INPUT, USB_EXTPHY_VP_IDX, false); esp_rom_gpio_connect_in_signal(GPIO_MATRIX_CONST_ZERO_INPUT, USB_EXTPHY_VM_IDX, false); } break; default: break; } return ret; } static esp_err_t usb_phy_install(void) { portENTER_CRITICAL(&phy_spinlock); if (p_phy_ctrl_obj) { // p_phy_ctrl_obj already installed, return immediately portEXIT_CRITICAL(&phy_spinlock); return ESP_OK; } portEXIT_CRITICAL(&phy_spinlock); esp_err_t ret = ESP_OK; phy_ctrl_obj_t *phy_ctrl_obj = (phy_ctrl_obj_t *) calloc(1, sizeof(phy_ctrl_obj_t)); ESP_GOTO_ON_FALSE(phy_ctrl_obj, ESP_ERR_NO_MEM, cleanup, USBPHY_TAG, "no mem for USB_PHY driver"); portENTER_CRITICAL(&phy_spinlock); if (!p_phy_ctrl_obj) { p_phy_ctrl_obj = phy_ctrl_obj; p_phy_ctrl_obj->ref_count = 0; } else { // p_phy_ctrl_obj already installed, need to free resource portEXIT_CRITICAL(&phy_spinlock); goto cleanup; } // Enable USB peripheral and reset the register portEXIT_CRITICAL(&phy_spinlock); USB_WRAP_RCC_ATOMIC() { usb_phy_ll_usb_wrap_enable_bus_clock(true); usb_phy_ll_usb_wrap_reset_register(); } return ESP_OK; cleanup: free(phy_ctrl_obj); return ret; } esp_err_t usb_new_phy(const usb_phy_config_t *config, usb_phy_handle_t *handle_ret) { ESP_RETURN_ON_FALSE(config, ESP_ERR_INVALID_ARG, USBPHY_TAG, "config argument is invalid"); ESP_RETURN_ON_FALSE(config->target < USB_PHY_TARGET_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "specified PHY argument is invalid"); ESP_RETURN_ON_FALSE(config->controller < USB_PHY_CTRL_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "specified source argument is invalid"); ESP_RETURN_ON_ERROR(usb_phy_install(), USBPHY_TAG, "usb_phy driver installation failed"); esp_err_t ret = ESP_OK; bool new_phy = false; phy_context_t *phy_context = (phy_context_t *) calloc(1, sizeof(phy_context_t)); ESP_GOTO_ON_FALSE(phy_context, ESP_ERR_NO_MEM, cleanup, USBPHY_TAG, "no mem for phy context"); portENTER_CRITICAL(&phy_spinlock); usb_phy_get_phy_status(config->target, &phy_context->status); if (phy_context->status == USB_PHY_STATUS_FREE) { new_phy = true; p_phy_ctrl_obj->ref_count++; if (config->target == USB_PHY_TARGET_EXT) { p_phy_ctrl_obj->external_phy = phy_context; } else { p_phy_ctrl_obj->internal_phy = phy_context; } } portEXIT_CRITICAL(&phy_spinlock); ESP_GOTO_ON_FALSE(new_phy, ESP_ERR_INVALID_STATE, cleanup, USBPHY_TAG, "selected PHY is in use"); phy_context->target = config->target; phy_context->controller = config->controller; phy_context->status = USB_PHY_STATUS_IN_USE; usb_phy_hal_init(&(phy_context->hal_context)); if (config->controller == USB_PHY_CTRL_OTG) { usb_phy_hal_otg_conf(&(phy_context->hal_context), config->target == USB_PHY_TARGET_EXT); } #if SOC_USB_SERIAL_JTAG_SUPPORTED else if (config->controller == USB_PHY_CTRL_SERIAL_JTAG) { usb_phy_hal_jtag_conf(&(phy_context->hal_context), config->target == USB_PHY_TARGET_EXT); phy_context->otg_mode = USB_OTG_MODE_DEVICE; phy_context->otg_speed = USB_PHY_SPEED_FULL; } #endif if (config->target == USB_PHY_TARGET_INT) { gpio_set_drive_capability(USBPHY_DM_NUM, GPIO_DRIVE_CAP_3); gpio_set_drive_capability(USBPHY_DP_NUM, GPIO_DRIVE_CAP_3); } *handle_ret = (usb_phy_handle_t) phy_context; if (config->ext_io_conf && config->target == USB_PHY_TARGET_EXT) { phy_context->iopins = (usb_phy_ext_io_conf_t *) calloc(1, sizeof(usb_phy_ext_io_conf_t)); ESP_GOTO_ON_FALSE(phy_context->iopins, ESP_ERR_NO_MEM, cleanup, USBPHY_TAG, "no mem for storing I/O pins"); memcpy(phy_context->iopins, config->ext_io_conf, sizeof(usb_phy_ext_io_conf_t)); ESP_ERROR_CHECK(phy_external_iopins_configure(phy_context->iopins)); } if (config->otg_mode != USB_PHY_MODE_DEFAULT) { ESP_ERROR_CHECK(usb_phy_otg_set_mode(*handle_ret, config->otg_mode)); } if (config->otg_speed != USB_PHY_SPEED_UNDEFINED) { ESP_ERROR_CHECK(usb_phy_otg_dev_set_speed(*handle_ret, config->otg_speed)); } if (config->otg_io_conf && (phy_context->controller == USB_PHY_CTRL_OTG)) { ESP_ERROR_CHECK(phy_otg_iopins_configure(config->otg_io_conf)); } return ESP_OK; cleanup: free(phy_context->iopins); free(phy_context); if (p_phy_ctrl_obj->ref_count == 0) { free(p_phy_ctrl_obj); p_phy_ctrl_obj = NULL; } return ret; } static void phy_uninstall(void) { phy_ctrl_obj_t *p_phy_ctrl_obj_free = NULL; portENTER_CRITICAL(&phy_spinlock); if (p_phy_ctrl_obj->ref_count == 0) { p_phy_ctrl_obj_free = p_phy_ctrl_obj; p_phy_ctrl_obj = NULL; USB_WRAP_RCC_ATOMIC() { // Disable USB peripheral without reset the module usb_phy_ll_usb_wrap_enable_bus_clock(false); } } portEXIT_CRITICAL(&phy_spinlock); free(p_phy_ctrl_obj_free); } esp_err_t usb_del_phy(usb_phy_handle_t handle) { ESP_RETURN_ON_FALSE(handle, ESP_ERR_INVALID_ARG, USBPHY_TAG, "handle argument is invalid"); portENTER_CRITICAL(&phy_spinlock); p_phy_ctrl_obj->ref_count--; if (handle->target == USB_PHY_TARGET_EXT) { p_phy_ctrl_obj->external_phy = NULL; } else { // Clear pullup and pulldown loads on D+ / D-, and disable the pads usb_phy_ll_int_load_conf(handle->hal_context.wrap_dev, false, false, false, false); usb_phy_ll_usb_wrap_pad_enable(handle->hal_context.wrap_dev, false); p_phy_ctrl_obj->internal_phy = NULL; } portEXIT_CRITICAL(&phy_spinlock); free(handle->iopins); free(handle); phy_uninstall(); return ESP_OK; } esp_err_t usb_phy_get_phy_status(usb_phy_target_t target, usb_phy_status_t *status) { ESP_RETURN_ON_FALSE(target < USB_PHY_TARGET_MAX, ESP_ERR_INVALID_ARG, USBPHY_TAG, "argument is invalid"); ESP_RETURN_ON_FALSE(p_phy_ctrl_obj, ESP_ERR_INVALID_STATE, USBPHY_TAG, USBPHY_NOT_INIT_ERR_STR); if (target == USB_PHY_TARGET_EXT && p_phy_ctrl_obj->external_phy) { *status = p_phy_ctrl_obj->external_phy->status; } else if (target == USB_PHY_TARGET_INT && p_phy_ctrl_obj->internal_phy) { *status = p_phy_ctrl_obj->internal_phy->status; } else { *status = USB_PHY_STATUS_FREE; } return ESP_OK; }