194 lines
6.6 KiB
ReStructuredText
194 lines
6.6 KiB
ReStructuredText
.. _usb_device_stack:
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USB device stack
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################
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.. contents::
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:depth: 2
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:local:
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:backlinks: top
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USB Vendor and Product identifiers
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**********************************
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The USB Vendor ID for the Zephyr project is 0x2FE3. The default USB Product
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ID for the Zephyr project is 0x100. The USB bcdDevice Device Release Number
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represents the Zephyr kernel major and minor versions as a binary coded
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decimal value. When a vendor integrates the Zephyr USB subsystem into a
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product, the vendor must use the USB Vendor and Product ID assigned to them.
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A vendor integrating the Zephyr USB subsystem in a product must not use the
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Vendor ID of the Zephyr project.
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The USB maintainer, if one is assigned, or otherwise the Zephyr Technical
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Steering Committee, may allocate other USB Product IDs based on well-motivated
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and documented requests.
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Each USB sample has its own unique Product ID.
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When adding a new sample, add a new entry in :file:`samples/subsys/usb/usb_pid.Kconfig`
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and a Kconfig file inside your sample subdirectory.
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The following Product IDs are currently used:
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* :option:`CONFIG_USB_PID_CDC_ACM_SAMPLE`
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* :option:`CONFIG_USB_PID_CDC_ACM_COMPOSITE_SAMPLE`
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* :option:`CONFIG_USB_PID_HID_CDC_SAMPLE`
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* :option:`CONFIG_USB_PID_CONSOLE_SAMPLE`
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* :option:`CONFIG_USB_PID_DFU_SAMPLE`
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* :option:`CONFIG_USB_PID_HID_SAMPLE`
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* :option:`CONFIG_USB_PID_HID_MOUSE_SAMPLE`
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* :option:`CONFIG_USB_PID_MASS_SAMPLE`
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* :option:`CONFIG_USB_PID_TESTUSB_SAMPLE`
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* :option:`CONFIG_USB_PID_WEBUSB_SAMPLE`
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USB device controller drivers
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*****************************
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The Device Controller Driver Layer implements the low level control routines
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to deal directly with the hardware. All device controller drivers should
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implement the APIs described in file usb_dc.h. This allows the integration of
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new USB device controllers to be done without changing the upper layers.
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USB device core layer
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*********************
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The USB Device core layer is a hardware independent interface between USB
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device controller driver and USB device class drivers or customer applications.
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It's a port of the LPCUSB device stack. It provides the following
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functionalities:
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* Responds to standard device requests and returns standard descriptors,
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essentially handling 'Chapter 9' processing, specifically the standard
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device requests in table 9-3 from the universal serial bus specification
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revision 2.0.
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* Provides a programming interface to be used by USB device classes or
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customer applications. The APIs are described in the usb_device.h file.
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* Uses the APIs provided by the device controller drivers to interact with
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the USB device controller.
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USB device class drivers
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************************
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To initialize the device class driver instance the USB device class driver
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should call :c:func:`usb_set_config()` passing as parameter the instance's
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configuration structure.
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For example, for USB loopback application:
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.. literalinclude:: ../../../subsys/usb/class/loopback.c
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:language: c
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:start-after: usb.rst config structure start
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:end-before: usb.rst config structure end
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:linenos:
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Endpoint configuration:
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.. literalinclude:: ../../../subsys/usb/class/loopback.c
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:language: c
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:start-after: usb.rst endpoint configuration start
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:end-before: usb.rst endpoint configuration end
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:linenos:
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USB Device configuration structure:
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.. literalinclude:: ../../../subsys/usb/class/loopback.c
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:language: c
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:start-after: usb.rst device config data start
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:end-before: usb.rst device config data end
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:linenos:
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Configuration of USB Device is done in the stack layer.
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The vendor device requests are forwarded by the USB stack core driver to the
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class driver through the registered class handler.
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For the loopback class driver, :c:func:`loopback_vendor_handler` processes
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the vendor requests:
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.. literalinclude:: ../../../subsys/usb/class/loopback.c
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:language: c
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:start-after: usb.rst vendor handler start
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:end-before: usb.rst vendor handler end
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:linenos:
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The class driver waits for the :makevar:`USB_DC_CONFIGURED` device status code
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before transmitting any data.
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Testing USB over USP/IP in native_posix
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***************************************
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Virtual USB controller implemented through USB/IP might be used to test USB
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Device stack. Follow general build procedure to build USB sample for
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the native_posix configuration.
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Run built sample with:
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.. code-block:: console
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make -Cbuild run
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In a terminal window, run the following command to list USB devices:
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.. code-block:: console
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$ usbip list -r localhost
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Exportable USB devices
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======================
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- 127.0.0.1
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1-1: unknown vendor : unknown product (2fe3:0100)
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: /sys/devices/pci0000:00/0000:00:01.2/usb1/1-1
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: (Defined at Interface level) (00/00/00)
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: 0 - Vendor Specific Class / unknown subclass / unknown protocol (ff/00/00)
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In a terminal window, run the following command to attach USB device:
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.. code-block:: console
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$ sudo usbip attach -r localhost -b 1-1
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The USB device should be connected to your Linux host, and verified with the following commands:
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.. code-block:: console
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$ sudo usbip port
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Imported USB devices
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====================
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Port 00: <Port in Use> at Full Speed(12Mbps)
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unknown vendor : unknown product (2fe3:0100)
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7-1 -> usbip://localhost:3240/1-1
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-> remote bus/dev 001/002
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$ lsusb -d 2fe3:0100
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Bus 007 Device 004: ID 2fe3:0100
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API Reference
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*************
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There are two ways to transmit data, using the 'low' level read/write API or
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the 'high' level transfer API.
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Low level API
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To transmit data to the host, the class driver should call usb_write().
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Upon completion the registered endpoint callback will be called. Before
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sending another packet the class driver should wait for the completion of
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the previous write. When data is received, the registered endpoint callback
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is called. usb_read() should be used for retrieving the received data.
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For CDC ACM sample driver this happens via the OUT bulk endpoint handler
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(cdc_acm_bulk_out) mentioned in the endpoint array (cdc_acm_ep_data).
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High level API
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The usb_transfer method can be used to transfer data to/from the host. The
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transfer API will automatically split the data transmission into one or more
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USB transaction(s), depending endpoint max packet size. The class driver does
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not have to implement endpoint callback and should set this callback to the
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generic usb_transfer_ep_callback.
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USB Device Controller
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=====================
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.. doxygengroup:: _usb_device_controller_api
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:project: Zephyr
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USB Device Core Layer
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=====================
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.. doxygengroup:: _usb_device_core_api
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:project: Zephyr
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