/*! \file usbh_std.c \brief USB 2.0 standard function definition */ /* Copyright (C) 2017 GigaDevice 2017-02-10, V1.0.0, firmware for GD32F30x */ #include "usbh_core.h" #include "usbh_usr.h" #include "usbh_std.h" #include "usbh_ctrl.h" uint8_t local_buffer[64]; uint8_t usbh_cfg_desc[512]; uint8_t enum_polling_handle_flag = 0U; static void enum_idle_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_full_dev_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_set_addr_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_cfg_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_full_cfg_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_mfc_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_product_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_get_serialnum_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_set_configuration_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); static void enum_dev_configured_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate); /* the enumeration state handle function array */ void (*enum_state_handle[]) (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) = { enum_idle_handle, enum_set_addr_handle, enum_get_full_dev_desc_handle, enum_get_cfg_desc_handle, enum_get_full_cfg_desc_handle, enum_get_mfc_string_desc_handle, enum_get_product_string_desc_handle, enum_get_serialnum_string_desc_handle, enum_set_configuration_handle, enum_dev_configured_handle, }; /* the enumeration state handle table */ state_table_struct enum_handle_table[ENUM_HANDLE_TABLE_SIZE] = { /* the current state the current event the next state the event function */ {ENUM_IDLE, ENUM_EVENT_SET_ADDR, ENUM_SET_ADDR, only_state_move }, {ENUM_SET_ADDR, ENUN_EVENT_GET_FULL_DEV_DESC, ENUM_GET_FULL_DEV_DESC, only_state_move }, {ENUM_GET_FULL_DEV_DESC, ENUN_EVENT_GET_CFG_DESC, ENUM_GET_CFG_DESC, only_state_move }, {ENUM_GET_CFG_DESC, ENUN_EVENT_GET_FULL_CFG_DESC, ENUM_GET_FULL_CFG_DESC, only_state_move }, {ENUM_GET_FULL_CFG_DESC, ENUN_EVENT_GET_MFC_STRING_DESC, ENUM_GET_MFC_STRING_DESC, only_state_move }, {ENUM_GET_MFC_STRING_DESC, ENUN_EVENT_GET_PRODUCT_STRING_DESC, ENUM_GET_PRODUCT_STRING_DESC, only_state_move }, {ENUM_GET_PRODUCT_STRING_DESC, ENUN_EVENT_GET_SERIALNUM_STRING_DESC, ENUM_GET_SERIALNUM_STRING_DESC, only_state_move }, {ENUM_GET_SERIALNUM_STRING_DESC, ENUN_EVENT_SET_CONFIGURATION, ENUM_SET_CONFIGURATION, only_state_move }, {ENUM_SET_CONFIGURATION, ENUN_EVENT_DEV_CONFIGURED, ENUM_DEV_CONFIGURED, only_state_move }, {ENUM_DEV_CONFIGURED, GO_TO_UP_STATE_EVENT, UP_STATE, goto_up_state_fun }, }; /*! \brief the polling function of enumeration state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval usb host status */ usbh_status_enum enum_state_polling_fun (usb_core_handle_struct *pudev, usbh_host_struct *puhost, void *pustate) { usbh_status_enum exe_state = USBH_BUSY; usbh_state_handle_struct *p_state; p_state = (usbh_state_handle_struct *)pustate; if (0U == enum_polling_handle_flag) { enum_polling_handle_flag = 1U; scd_table_push(p_state); scd_state_move(p_state, ENUM_IDLE); } /* start the enumeration state handle */ scd_begin(p_state,ENUM_FSM_ID); if (0 == p_state->usbh_current_state_stack_top) { enum_state_handle[p_state->usbh_current_state](pudev, puhost, p_state); } else { enum_state_handle[p_state->stack[1].state](pudev, puhost, p_state); } /* determine the enumeration whether to complete */ if (ENUM_DEV_CONFIGURED == puhost->usbh_backup_state.enum_backup_state) { puhost->usbh_backup_state.enum_backup_state = ENUM_IDLE; enum_polling_handle_flag = 0U; exe_state = USBH_OK; } return exe_state; } /*! \brief the handle function of ENUM_IDLE state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_idle_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_IDLE; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_DEVDESC, 8U); if ((void *)0 != pudev->mdelay) { pudev->mdelay(100U); } } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { usbh_device_desc_parse(&puhost->device.dev_desc, pudev->host.rx_buffer, 8U); puhost->control.ep0_size = puhost->device.dev_desc.bMaxPacketSize0; /* issue reset */ usb_port_reset(pudev); /* modify control channels configuration for maxpacket size */ usbh_channel_modify (pudev, puhost->control.hc_out_num, 0U, 0U, 0U, (uint16_t)puhost->control.ep0_size); usbh_channel_modify (pudev, puhost->control.hc_in_num, 0U, 0U, 0U, (uint16_t)puhost->control.ep0_size); scd_event_handle(pudev, puhost, pustate, ENUM_EVENT_SET_ADDR, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_GET_FULL_DEV_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_full_dev_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_GET_FULL_DEV_DESC; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_DEVDESC, USB_DEVDESC_SIZE); } if(USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)){ usbh_device_desc_parse(&puhost->device.dev_desc, pudev->host.rx_buffer, USB_DEVDESC_SIZE); puhost->usr_cb->device_desc_available(&puhost->device.dev_desc); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_CFG_DESC, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_SET_ADDR state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_set_addr_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_SET_ADDR; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_addr_set(pudev, puhost,USBH_DEVICE_ADDRESS); if ((void *)0 != pudev->mdelay) { pudev->mdelay(100U); } } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { if ((void *)0 != pudev->mdelay) { pudev->mdelay(2U); } puhost->device.address = USBH_DEVICE_ADDRESS; /* user callback for device address assigned */ puhost->usr_cb->device_address_set(); /* modify control channels to update device address */ usbh_channel_modify (pudev, puhost->control.hc_in_num, puhost->device.address, 0U, 0U, 0U); usbh_channel_modify (pudev, puhost->control.hc_out_num, puhost->device.address, 0U, 0U, 0U); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_FULL_DEV_DESC, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_GET_CFG_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_cfg_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { uint16_t index = 0U; puhost->usbh_backup_state.enum_backup_state = ENUM_GET_CFG_DESC; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_CFGDESC, USB_CFGDESC_SIZE); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { /* save configuration descriptor for class parsing usage */ for (; index < USB_CFGDESC_SIZE; index ++) { usbh_cfg_desc[index] = pudev->host.rx_buffer[index]; } /* commands successfully sent and response received */ usbh_cfg_desc_parse (&puhost->device.cfg_desc, puhost->device.itf_desc, puhost->device.ep_desc, pudev->host.rx_buffer, USB_CFGDESC_SIZE); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_FULL_CFG_DESC, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_GET_FULL_CFG_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_full_cfg_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { uint16_t index = 0U; puhost->usbh_backup_state.enum_backup_state = ENUM_GET_FULL_CFG_DESC; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get (pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_CFGDESC, puhost->device.cfg_desc.wTotalLength); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { /* save configuration descriptor for class parsing usage */ for (; index < puhost->device.cfg_desc.wTotalLength; index ++) { usbh_cfg_desc[index] = pudev->host.rx_buffer[index]; } /* commands successfully sent and response received */ usbh_cfg_desc_parse (&puhost->device.cfg_desc, puhost->device.itf_desc, puhost->device.ep_desc, pudev->host.rx_buffer, puhost->device.cfg_desc.wTotalLength); /* User callback for configuration descriptors available */ puhost->usr_cb->configuration_desc_available(&puhost->device.cfg_desc, puhost->device.itf_desc, puhost->device.ep_desc[0]); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_MFC_STRING_DESC, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_GET_MFC_STRING_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_mfc_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_GET_MFC_STRING_DESC; if (0U != puhost->device.dev_desc.iManufacturer) { if(CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_STRDESC | puhost->device.dev_desc.iManufacturer, 0xffU); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { usbh_string_desc_parse(pudev->host.rx_buffer, local_buffer, 0xffU); puhost->usr_cb->manufacturer_string(local_buffer); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_PRODUCT_STRING_DESC, pustate->usbh_current_state); } } else { puhost->usr_cb->manufacturer_string("N/A"); scd_state_move((usbh_state_handle_struct *)pustate, ENUM_GET_PRODUCT_STRING_DESC); } } /*! \brief the handle function of ENUM_GET_PRODUCT_STRING_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_product_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_GET_PRODUCT_STRING_DESC; if (0U != puhost->device.dev_desc.iProduct) { if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_STRDESC | puhost->device.dev_desc.iProduct, 0xffU); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { usbh_string_desc_parse(pudev->host.rx_buffer, local_buffer, 0xffU); /* user callback for product string */ puhost->usr_cb->product_string(local_buffer); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_SERIALNUM_STRING_DESC, pustate->usbh_current_state); } } else { puhost->usr_cb->product_string("N/A"); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_GET_SERIALNUM_STRING_DESC, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_GET_SERIALNUM_STRING_DESC state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_get_serialnum_string_desc_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_GET_SERIALNUM_STRING_DESC; if (0U != puhost->device.dev_desc.iSerialNumber) { if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state) { usbh_enum_desc_get(pudev, puhost, pudev->host.rx_buffer, USB_REQTYPE_DEVICE | USB_STANDARD_REQ, USB_STRDESC | puhost->device.dev_desc.iSerialNumber, 0xffU); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)){ usbh_string_desc_parse(pudev->host.rx_buffer, local_buffer, 0xffU); /* user callback for product string */ puhost->usr_cb->serial_num_string(local_buffer); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_SET_CONFIGURATION, pustate->usbh_current_state); } } else { puhost->usr_cb->serial_num_string("N/A"); scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_SET_CONFIGURATION, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_SET_CONFIGURATION state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_set_configuration_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_SET_CONFIGURATION; if (CTRL_IDLE == puhost->usbh_backup_state.ctrl_backup_state ) { usbh_enum_cfg_set(pudev, puhost, (uint16_t)puhost->device.cfg_desc.bConfigurationValue); } if (USBH_OK == ctrl_state_polling_fun(pudev, puhost, pustate)) { scd_event_handle(pudev, puhost, pustate, ENUN_EVENT_DEV_CONFIGURED, pustate->usbh_current_state); } } /*! \brief the handle function of ENUM_DEV_CONFIGURED state \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] pustate: pointer to USB state driver \param[out] none \retval none */ static void enum_dev_configured_handle (usb_core_handle_struct *pudev, usbh_host_struct *puhost, usbh_state_handle_struct *pustate) { puhost->usbh_backup_state.enum_backup_state = ENUM_DEV_CONFIGURED; scd_event_handle(pudev, puhost, pustate, GO_TO_UP_STATE_EVENT, pustate->usbh_current_state); } /*! \brief get descriptor in usb host enumeration stage \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] buf: buffer to store the descriptor \param[in] ReqType: descriptor type \param[in] ValueIdx: wValue for the GetDescriptr request \param[in] Len: length of the descriptor \param[out] none \retval none */ void usbh_enum_desc_get(usb_core_handle_struct *pudev, usbh_host_struct *puhost, uint8_t *buf, uint8_t req_type, uint16_t value_idx, uint16_t len) { usb_setup_union *pSetup = &(puhost->control.setup); pSetup->b.bmRequestType = USB_DIR_IN | req_type; pSetup->b.bRequest = USBREQ_GET_DESCRIPTOR; pSetup->b.wValue = value_idx; if (USB_STRDESC == (value_idx & 0xff00U)){ pSetup->b.wIndex = 0x0409U; } else { pSetup->b.wIndex = 0U; } pSetup->b.wLength = len; puhost->control.buff = buf; puhost->control.length = len; } /*! \brief set address in usb host enumeration stage \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] device_address: the device address \param[out] none \retval none */ void usbh_enum_addr_set(usb_core_handle_struct *pudev, usbh_host_struct *puhost, uint8_t device_address) { usb_setup_union *p_setup = &(puhost->control.setup); p_setup->b.bmRequestType = USB_DIR_OUT | USB_REQTYPE_DEVICE | USB_STANDARD_REQ; p_setup->b.bRequest = USBREQ_SET_ADDRESS; p_setup->b.wValue = (uint16_t)device_address; p_setup->b.wIndex = 0U; p_setup->b.wLength = 0U; puhost->control.buff = 0U; puhost->control.length = 0U; } /*! \brief set configuration in usb host enumeration stage \param[in] pudev: pointer to USB device \param[in] puhost: pointer to USB host \param[in] cfg_idx: the index of the configuration \param[out] none \retval none */ void usbh_enum_cfg_set(usb_core_handle_struct *pudev, usbh_host_struct *puhost, uint16_t cfg_idx) { usb_setup_union *p_setup = &(puhost->control.setup); p_setup->b.bmRequestType = USB_DIR_OUT | USB_REQTYPE_DEVICE | USB_STANDARD_REQ; p_setup->b.bRequest = USBREQ_SET_CONFIGURATION; p_setup->b.wValue = cfg_idx; p_setup->b.wIndex = 0U; p_setup->b.wLength = 0U; puhost->control.buff = 0; puhost->control.length = 0U; } /*! \brief parse the device descriptor \param[in] dev_desc: device_descriptor destinaton address \param[in] buf: buffer where the source descriptor is available \param[in] len: length of the descriptor \param[out] none \retval none */ void usbh_device_desc_parse (usb_descriptor_device_struct *dev_desc, uint8_t *buf, uint16_t len) { dev_desc->Header.bLength = *(uint8_t *)(buf + 0); dev_desc->Header.bDescriptorType = *(uint8_t *)(buf + 1); dev_desc->bcdUSB = SWAPBYTE(buf + 2); dev_desc->bDeviceClass = *(uint8_t *)(buf + 4); dev_desc->bDeviceSubClass = *(uint8_t *)(buf + 5); dev_desc->bDeviceProtocol = *(uint8_t *)(buf + 6); dev_desc->bMaxPacketSize0 = *(uint8_t *)(buf + 7); if (len > 8U){ /* for 1st time after device connection, host may issue only 8 bytes for device descriptor length */ dev_desc->idVendor = SWAPBYTE(buf + 8); dev_desc->idProduct = SWAPBYTE(buf + 10); dev_desc->bcdDevice = SWAPBYTE(buf + 12); dev_desc->iManufacturer = *(uint8_t *)(buf + 14); dev_desc->iProduct = *(uint8_t *)(buf + 15); dev_desc->iSerialNumber = *(uint8_t *)(buf + 16); dev_desc->bNumberConfigurations = *(uint8_t *)(buf + 17); } } /*! \brief parse the configuration descriptor \param[in] cfg_desc: configuration descriptor address \param[in] itf_desc: interface descriptor address \param[in] ep_desc: endpoint descriptor address \param[in] buf: buffer where the source descriptor is available \param[in] len: length of the descriptor \param[out] none \retval none */ void usbh_cfg_desc_parse (usb_descriptor_configuration_struct *cfg_desc, usb_descriptor_interface_struct *itf_desc, usb_descriptor_endpoint_struct ep_desc[][USBH_MAX_EP_NUM], uint8_t *buf, uint16_t len) { usb_descriptor_interface_struct *pitf = NULL; usb_descriptor_interface_struct temp_pitf; usb_descriptor_endpoint_struct *pep = NULL; usb_descriptor_header_struct *pdesc = (usb_descriptor_header_struct *)buf; uint8_t itf_ix = 0U; uint8_t ep_ix = 0U; uint16_t ptr = 0U; static uint8_t prev_itf = 0U; static uint16_t prev_ep_size = 0U; /* parse configuration descriptor */ cfg_desc->Header.bLength = *(uint8_t *)(buf + 0); cfg_desc->Header.bDescriptorType = *(uint8_t *)(buf + 1); cfg_desc->wTotalLength = SWAPBYTE(buf + 2); cfg_desc->bNumInterfaces = *(uint8_t *)(buf + 4); cfg_desc->bConfigurationValue = *(uint8_t *)(buf + 5); cfg_desc->iConfiguration = *(uint8_t *)(buf + 6); cfg_desc->bmAttributes = *(uint8_t *)(buf + 7); cfg_desc->bMaxPower = *(uint8_t *)(buf + 8); if (len > USB_CFGDESC_SIZE) { ptr = USB_CFG_DESC_LEN; if (cfg_desc->bNumInterfaces <= USBH_MAX_INTERFACES_NUM) { pitf = (usb_descriptor_interface_struct *)0; for (; ptr < cfg_desc->wTotalLength; ) { pdesc = usbh_next_desc_get((uint8_t *)pdesc, &ptr); if (USB_DESCTYPE_INTERFACE == pdesc->bDescriptorType) { itf_ix = *((uint8_t *)pdesc + 2U); pitf = &itf_desc[itf_ix]; if (*((uint8_t *)pdesc + 3U) < 3U) { usbh_interface_desc_parse (&temp_pitf, (uint8_t *)pdesc); /* parse endpoint descriptors relative to the current interface */ if (temp_pitf.bNumEndpoints <= USBH_MAX_EP_NUM) { for (ep_ix = 0U; ep_ix < temp_pitf.bNumEndpoints;) { pdesc = usbh_next_desc_get((void* )pdesc, &ptr); if (USB_DESCTYPE_ENDPOINT == pdesc->bDescriptorType) { pep = &ep_desc[itf_ix][ep_ix]; if (prev_itf != itf_ix) { prev_itf = itf_ix; usbh_interface_desc_parse (pitf, (uint8_t *)&temp_pitf); } else { if (prev_ep_size > SWAPBYTE((uint8_t *)pdesc + 4)) { break; } else { usbh_interface_desc_parse (pitf, (uint8_t *)&temp_pitf); } } usbh_endpoint_desc_parse (pep, (uint8_t *)pdesc); prev_ep_size = SWAPBYTE((uint8_t *)pdesc + 4); ep_ix++; } } } } } } } prev_ep_size = 0U; prev_itf = 0U; } } /*! \brief parse the interface descriptor \param[in] itf_desc: interface descriptor destination \param[in] buf: buffer where the descriptor data is available \param[out] none \retval none */ void usbh_interface_desc_parse (usb_descriptor_interface_struct *itf_desc, uint8_t *buf) { itf_desc->Header.bLength = *(uint8_t *)(buf + 0); itf_desc->Header.bDescriptorType = *(uint8_t *)(buf + 1); itf_desc->bInterfaceNumber = *(uint8_t *)(buf + 2); itf_desc->bAlternateSetting = *(uint8_t *)(buf + 3); itf_desc->bNumEndpoints = *(uint8_t *)(buf + 4); itf_desc->bInterfaceClass = *(uint8_t *)(buf + 5); itf_desc->bInterfaceSubClass = *(uint8_t *)(buf + 6); itf_desc->bInterfaceProtocol = *(uint8_t *)(buf + 7); itf_desc->iInterface = *(uint8_t *)(buf + 8); } /*! \brief parse the endpoint descriptor \param[in] ep_desc: endpoint descriptor destination address \param[in] buf: buffer where the parsed descriptor stored \param[out] none \retval none */ void usbh_endpoint_desc_parse (usb_descriptor_endpoint_struct *ep_desc, uint8_t *buf) { ep_desc->Header.bLength = *(uint8_t *)(buf + 0); ep_desc->Header.bDescriptorType = *(uint8_t *)(buf + 1); ep_desc->bEndpointAddress = *(uint8_t *)(buf + 2); ep_desc->bmAttributes = *(uint8_t *)(buf + 3); ep_desc->wMaxPacketSize = SWAPBYTE(buf + 4); ep_desc->bInterval = *(uint8_t *)(buf + 6); } /*! \brief parse the string descriptor \param[in] psrc: source pointer containing the descriptor data \param[in] pdest: destination address pointer \param[in] len: length of the descriptor \param[out] none \retval none */ void usbh_string_desc_parse (uint8_t* psrc, uint8_t* pdest, uint16_t len) { uint16_t strlength; uint16_t idx; /* the unicode string descriptor is not null-terminated. the string length is computed by substracting two from the value of the first byte of the descriptor. */ /* check which is lower size, the size of string or the length of bytes read from the device */ if (USB_DESCTYPE_STRING == psrc[1]){ /* make sure the descriptor is string type */ /* psrc[0] contains size of descriptor, subtract 2 to get the length of string */ strlength = ((((uint16_t)psrc[0] - 2U) <= len) ? ((uint16_t)psrc[0] - 2U) : len); psrc += 2; /* adjust the offset ignoring the string len and descriptor type */ for (idx = 0U; idx < strlength; idx += 2U) { /* copy only the string and ignore the unicode id, hence add the src */ *pdest = psrc[idx]; pdest++; } *pdest = 0U; /* mark end of string */ } } /*! \brief get the next descriptor header \param[in] pbuf: pointer to buffer where the cfg descriptor is available \param[in] ptr: data popinter inside the configuration descriptor \param[out] none \retval next descriptor header */ usb_descriptor_header_struct *usbh_next_desc_get (uint8_t *pbuf, uint16_t *ptr) { uint8_t len = ((usb_descriptor_header_struct *)pbuf)->bLength; usb_descriptor_header_struct *pnext; *ptr += len; pnext = (usb_descriptor_header_struct *)((uint8_t *)pbuf + len); return(pnext); }