/* * Copyright (c) 2006-2018, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2011-12-12 Yi Qiu first version */ #include #include #include "adk.h" #ifdef RT_USBH_ADK static struct uclass_driver adk_driver; static const char* _adk_manufacturer = RT_NULL; static const char* _adk_model = RT_NULL; static const char* _adk_description = RT_NULL; static const char* _adk_version = RT_NULL; static const char* _adk_uri = RT_NULL; static const char* _adk_serial = RT_NULL; rt_err_t rt_usbh_adk_set_string(const char* manufacturer, const char* model, const char* description, const char* _version, const char* uri, const char* serial) { _adk_manufacturer = manufacturer; _adk_model = model; _adk_description = description; _adk_version = _version; _adk_uri = uri; _adk_serial = serial; return RT_EOK; } #ifdef RT_USING_MODULE #include RTM_EXPORT(rt_usbh_adk_set_string); #endif /** * This function will do USB_REQ_GET_PROTOCOL request to set idle period to the usb adk device * * @param intf the interface instance. * @duration the idle period of requesting data. * @report_id the report id * * @return the error code, RT_EOK on successfully. */ static rt_err_t rt_usbh_adk_get_protocol(struct uintf* intf, rt_uint16_t *protocol) { struct urequest setup; uinst_t device; int timeout = USB_TIMEOUT_BASIC; /* parameter check */ RT_ASSERT(intf != RT_NULL); RT_ASSERT(intf->device != RT_NULL); device = intf->device; setup.request_type = USB_REQ_TYPE_DIR_IN | USB_REQ_TYPE_VENDOR | USB_REQ_TYPE_DEVICE; setup.request = USB_REQ_GET_PROTOCOL; setup.index = 0; setup.length = 2; setup.value = 0; if(rt_usb_hcd_control_xfer(device->hcd, device, &setup, (void*)protocol, 2, timeout) == 0) return RT_EOK; else return -RT_FALSE; } /** * This function will do USB_REQ_SEND_STRING request to set idle period to the usb adk device * * @param intf the interface instance. * @duration the idle period of requesting data. * @report_id the report id * * @return the error code, RT_EOK on successfully. */ static rt_err_t rt_usbh_adk_send_string(struct uintf* intf, rt_uint16_t index, const char* str) { struct urequest setup; uinst_t device; int timeout = USB_TIMEOUT_BASIC; /* parameter check */ RT_ASSERT(intf != RT_NULL); RT_ASSERT(intf->device != RT_NULL); device = intf->device; setup.request_type = USB_REQ_TYPE_DIR_OUT | USB_REQ_TYPE_VENDOR | USB_REQ_TYPE_DEVICE; setup.request = USB_REQ_SEND_STRING; setup.index = index; setup.length = rt_strlen(str) + 1; setup.value = 0; if(rt_usb_hcd_control_xfer(device->hcd, device, &setup, (void*)str, rt_strlen(str) + 1, timeout) == 0) return RT_EOK; else return -RT_FALSE; } /** * This function will do USB_REQ_START request to set idle period to the usb adk device * * @param intf the interface instance. * @duration the idle period of requesting data. * @report_id the report id * * @return the error code, RT_EOK on successfully. */ static rt_err_t rt_usbh_adk_start(struct uintf* intf) { struct urequest setup; uinst_t device; int timeout = USB_TIMEOUT_BASIC; /* parameter check */ RT_ASSERT(intf != RT_NULL); RT_ASSERT(intf->device != RT_NULL); device = intf->device; setup.request_type = USB_REQ_TYPE_DIR_OUT | USB_REQ_TYPE_VENDOR | USB_REQ_TYPE_DEVICE; setup.request = USB_REQ_START; setup.index = 0; setup.length = 0; setup.value = 0; if(rt_usb_hcd_control_xfer(device->hcd, device, &setup, RT_NULL, 0, timeout) == 0) return RT_EOK; else return -RT_FALSE; } /** * This function will read data from usb adk device * * @param intf the interface instance. * * @return the error code, RT_EOK on successfully. */ static rt_size_t rt_usbh_adk_read(rt_device_t device, rt_off_t pos, void* buffer, rt_size_t size) { uadk_t adk; rt_size_t length; struct uintf* intf; /* check parameter */ RT_ASSERT(device != RT_NULL); RT_ASSERT(buffer != RT_NULL); intf = (struct uintf*)device->user_data; adk = (uadk_t)intf->user_data; length = rt_usb_hcd_bulk_xfer(intf->device->hcd, adk->pipe_in, buffer, size, 300); return length; } /** * This function will write data to usb adk device * * @param intf the interface instance. * * @return the error code, RT_EOK on successfully. */ static rt_size_t rt_usbh_adk_write (rt_device_t device, rt_off_t pos, const void* buffer, rt_size_t size) { uadk_t adk; rt_size_t length; struct uintf* intf; RT_ASSERT(buffer != RT_NULL); intf = (struct uintf*)device->user_data; adk = (uadk_t)intf->user_data; length = rt_usb_hcd_bulk_xfer(intf->device->hcd, adk->pipe_out, (void*)buffer, size, 300); return length; } #ifdef RT_USING_DEVICE_OPS const static struct rt_device_ops adk_device_ops = { RT_NULL; RT_NULL; RT_NULL; rt_usbh_adk_read; rt_usbh_adk_write; RT_NULL; }; #endif /** * This function will run adk class driver when usb device is detected and identified * as a adk class device, it will continue the enumulate process. * * @param arg the argument. * * @return the error code, RT_EOK on successfully. */ static rt_err_t rt_usbh_adk_enable(void* arg) { int i = 0; uadk_t adk; struct uintf* intf = (struct uintf*)arg; udev_desc_t dev_desc; rt_uint16_t protocol; rt_err_t ret; /* parameter check */ if(intf == RT_NULL) { rt_kprintf("the interface is not available\n"); return -RT_EIO; } RT_DEBUG_LOG(RT_DEBUG_USB, ("rt_usbh_adk_run\n")); dev_desc = &intf->device->dev_desc; if(dev_desc->idVendor == USB_ACCESSORY_VENDOR_ID && (dev_desc->idProduct == USB_ACCESSORY_PRODUCT_ID || dev_desc->idProduct == USB_ACCESSORY_ADB_PRODUCT_ID)) { if(intf->intf_desc->bInterfaceSubClass != 0xFF) return -RT_ERROR; RT_DEBUG_LOG(RT_DEBUG_USB, ("found android accessory device\n")); } else { RT_DEBUG_LOG(RT_DEBUG_USB, ("switch device\n")); if((ret = rt_usbh_adk_get_protocol(intf, &protocol)) != RT_EOK) { rt_kprintf("rt_usbh_adk_get_protocol failed\n"); return ret; } if(protocol != 1) { rt_kprintf("read protocol failed\n"); return -RT_ERROR; } rt_usbh_adk_send_string(intf, ACCESSORY_STRING_MANUFACTURER, _adk_manufacturer); rt_usbh_adk_send_string(intf, ACCESSORY_STRING_MODEL, _adk_model); rt_usbh_adk_send_string(intf, ACCESSORY_STRING_DESCRIPTION, _adk_description); rt_usbh_adk_send_string(intf, ACCESSORY_STRING_VERSION, _adk_version); rt_usbh_adk_send_string(intf, ACCESSORY_STRING_URI, _adk_uri); rt_usbh_adk_send_string(intf, ACCESSORY_STRING_SERIAL, _adk_serial); RT_DEBUG_LOG(RT_DEBUG_USB, ("manufacturer %s\n", _adk_manufacturer)); RT_DEBUG_LOG(RT_DEBUG_USB, ("model %s\n", _adk_model)); RT_DEBUG_LOG(RT_DEBUG_USB, ("description %s\n", _adk_description)); RT_DEBUG_LOG(RT_DEBUG_USB, ("version %s\n", _adk_version)); RT_DEBUG_LOG(RT_DEBUG_USB, ("uri %s\n", _adk_uri)); RT_DEBUG_LOG(RT_DEBUG_USB, ("serial %s\n", _adk_serial)); if((ret = rt_usbh_adk_start(intf)) != RT_EOK) { rt_kprintf("rt_usbh_adk_start failed\n"); return ret; } return RT_EOK; } adk = rt_malloc(sizeof(struct uadkinst)); RT_ASSERT(adk != RT_NULL); /* initilize the data structure */ rt_memset(adk, 0, sizeof(struct uadkinst)); intf->user_data = (void*)adk; for(i=0; iintf_desc->bNumEndpoints; i++) { uep_desc_t ep_desc; /* get endpoint descriptor from interface descriptor */ rt_usbh_get_endpoint_descriptor(intf->intf_desc, i, &ep_desc); if(ep_desc == RT_NULL) { rt_kprintf("rt_usb_get_endpoint_descriptor error\n"); return -RT_ERROR; } /* the endpoint type of adk class should be BULK */ if((ep_desc->bmAttributes & USB_EP_ATTR_TYPE_MASK) != USB_EP_ATTR_BULK) continue; /* allocate pipes according to the endpoint type */ if(ep_desc->bEndpointAddress & USB_DIR_IN) { /* allocate an in pipe for the adk instance */ ret = rt_usb_hcd_alloc_pipe(intf->device->hcd, &adk->pipe_in, intf, ep_desc, RT_NULL); if(ret != RT_EOK) return ret; } else { /* allocate an output pipe for the adk instance */ ret = rt_usb_hcd_alloc_pipe(intf->device->hcd, &adk->pipe_out, intf, ep_desc, RT_NULL); if(ret != RT_EOK) return ret; } } /* check pipes infomation */ if(adk->pipe_in == RT_NULL || adk->pipe_out == RT_NULL) { rt_kprintf("pipe error, unsupported device\n"); return -RT_ERROR; } /* set configuration */ ret = rt_usbh_set_configure(intf->device, 1); if(ret != RT_EOK) return ret; /* register adk device */ adk->device.type = RT_Device_Class_Char; #ifdef RT_USING_DEVICE_OPS adk->device.ops = &adk_device_ops; #else adk->device.init = RT_NULL; adk->device.open = RT_NULL; adk->device.close = RT_NULL; adk->device.read = rt_usbh_adk_read; adk->device.write = rt_usbh_adk_write; adk->device.control = RT_NULL; #endif adk->device.user_data = (void*)intf; rt_device_register(&adk->device, "adkdev", RT_DEVICE_FLAG_RDWR); return RT_EOK; } /** * This function will be invoked when usb device plug out is detected and it would clean * and release all hub class related resources. * * @param arg the argument. * * @return the error code, RT_EOK on successfully. */ static rt_err_t rt_usbh_adk_disable(void* arg) { uadk_t adk; struct uintf* intf = (struct uintf*)arg; RT_ASSERT(intf != RT_NULL); RT_DEBUG_LOG(RT_DEBUG_USB, ("rt_usbh_adk_stop\n")); adk = (uadk_t)intf->user_data; if(adk == RT_NULL) { rt_free(intf); return RT_EOK; } if(adk->pipe_in != RT_NULL) rt_usb_hcd_free_pipe(intf->device->hcd, adk->pipe_in); if(adk->pipe_out != RT_NULL) rt_usb_hcd_free_pipe(intf->device->hcd, adk->pipe_out); /* unregister adk device */ rt_device_unregister(&adk->device); /* free adk instance */ if(adk != RT_NULL) { rt_free(adk); } /* free interface instance */ rt_free(intf); return RT_EOK; } /** * This function will register adk class driver to the usb class driver manager. * and it should be invoked in the usb system initialization. * * @return the error code, RT_EOK on successfully. */ ucd_t rt_usbh_class_driver_adk(void) { adk_driver.class_code = USB_CLASS_ADK; adk_driver.enable = rt_usbh_adk_enable; adk_driver.disable = rt_usbh_adk_disable; return &adk_driver; } #endif