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Pull HID updates from Jiri Kosina: - Documentation conversion to ReST, from Mauro Carvalho Chehab - Wacom MobileStudio Pro support, from Ping Cheng - Wacom 2nd Gen Intuos Pro Small support, from Aaron Armstrong Skomra - assorted small fixes and device ID additions * 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/hid/hid: HID: Add another Primax PIXART OEM mouse quirk HID: wacom: generic: add touchring adjustment for 2nd Gen Pro Small docs: hid: convert to ReST HID: remove NO_D3 flag when remove driver HID: wacom: add new MobileStudio Pro support HID: wacom: generic: read the number of expected touches on a per collection basis HID: wacom: generic: support the 'report valid' usage for touch HID: wacom: generic: read HID_DG_CONTACTMAX from any feature report HID: wacom: Add 2nd gen Intuos Pro Small support HID: uclogic: Add support for Ugee Rainbow CV720 HID: logitech-dj: fix return value of logi_dj_recv_query_hidpp_devices HID: logitech-hidpp: HID: make const array consumer_rdesc_start static HID: logitech-dj: make const array template static HID: wacom: correct touch resolution x/y typo HID: wacom: generic: Correct pad syncing HID: wacom: generic: only switch the mode on devices with LEDs HID: logitech-dj: Add usb-id for the 27MHz MX3000 receiver
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=========================
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HID I/O Transport Drivers
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=========================
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The HID subsystem is independent of the underlying transport driver. Initially,
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only USB was supported, but other specifications adopted the HID design and
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provided new transport drivers. The kernel includes at least support for USB,
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Bluetooth, I2C and user-space I/O drivers.
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1) HID Bus
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==========
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The HID subsystem is designed as a bus. Any I/O subsystem may provide HID
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devices and register them with the HID bus. HID core then loads generic device
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drivers on top of it. The transport drivers are responsible of raw data
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transport and device setup/management. HID core is responsible of
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report-parsing, report interpretation and the user-space API. Device specifics
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and quirks are handled by all layers depending on the quirk.
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::
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+-----------+ +-----------+ +-----------+ +-----------+
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| Device #1 | | Device #i | | Device #j | | Device #k |
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+-----------+ +-----------+ +-----------+ +-----------+
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\\ // \\ //
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+------------+ +------------+
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| I/O Driver | | I/O Driver |
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+------------+ +------------+
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|| ||
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+------------------+ +------------------+
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| Transport Driver | | Transport Driver |
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+------------------+ +------------------+
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\___ ___/
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\ /
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+----------------+
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| HID Core |
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+----------------+
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/ | | \
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/ | | \
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____________/ | | \_________________
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/ | | \
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/ | | \
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+----------------+ +-----------+ +------------------+ +------------------+
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| Generic Driver | | MT Driver | | Custom Driver #1 | | Custom Driver #2 |
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+----------------+ +-----------+ +------------------+ +------------------+
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Example Drivers:
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- I/O: USB, I2C, Bluetooth-l2cap
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- Transport: USB-HID, I2C-HID, BT-HIDP
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Everything below "HID Core" is simplified in this graph as it is only of
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interest to HID device drivers. Transport drivers do not need to know the
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specifics.
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1.1) Device Setup
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-----------------
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I/O drivers normally provide hotplug detection or device enumeration APIs to the
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transport drivers. Transport drivers use this to find any suitable HID device.
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They allocate HID device objects and register them with HID core. Transport
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drivers are not required to register themselves with HID core. HID core is never
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aware of which transport drivers are available and is not interested in it. It
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is only interested in devices.
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Transport drivers attach a constant "struct hid_ll_driver" object with each
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device. Once a device is registered with HID core, the callbacks provided via
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this struct are used by HID core to communicate with the device.
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Transport drivers are responsible of detecting device failures and unplugging.
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HID core will operate a device as long as it is registered regardless of any
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device failures. Once transport drivers detect unplug or failure events, they
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must unregister the device from HID core and HID core will stop using the
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provided callbacks.
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1.2) Transport Driver Requirements
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----------------------------------
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The terms "asynchronous" and "synchronous" in this document describe the
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transmission behavior regarding acknowledgements. An asynchronous channel must
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not perform any synchronous operations like waiting for acknowledgements or
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verifications. Generally, HID calls operating on asynchronous channels must be
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running in atomic-context just fine.
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On the other hand, synchronous channels can be implemented by the transport
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driver in whatever way they like. They might just be the same as asynchronous
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channels, but they can also provide acknowledgement reports, automatic
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retransmission on failure, etc. in a blocking manner. If such functionality is
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required on asynchronous channels, a transport-driver must implement that via
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its own worker threads.
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HID core requires transport drivers to follow a given design. A Transport
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driver must provide two bi-directional I/O channels to each HID device. These
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channels must not necessarily be bi-directional in the hardware itself. A
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transport driver might just provide 4 uni-directional channels. Or it might
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multiplex all four on a single physical channel. However, in this document we
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will describe them as two bi-directional channels as they have several
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properties in common.
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- Interrupt Channel (intr): The intr channel is used for asynchronous data
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reports. No management commands or data acknowledgements are sent on this
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channel. Any unrequested incoming or outgoing data report must be sent on
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this channel and is never acknowledged by the remote side. Devices usually
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send their input events on this channel. Outgoing events are normally
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not send via intr, except if high throughput is required.
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- Control Channel (ctrl): The ctrl channel is used for synchronous requests and
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device management. Unrequested data input events must not be sent on this
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channel and are normally ignored. Instead, devices only send management
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events or answers to host requests on this channel.
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The control-channel is used for direct blocking queries to the device
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independent of any events on the intr-channel.
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Outgoing reports are usually sent on the ctrl channel via synchronous
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SET_REPORT requests.
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Communication between devices and HID core is mostly done via HID reports. A
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report can be of one of three types:
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- INPUT Report: Input reports provide data from device to host. This
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data may include button events, axis events, battery status or more. This
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data is generated by the device and sent to the host with or without
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requiring explicit requests. Devices can choose to send data continuously or
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only on change.
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- OUTPUT Report: Output reports change device states. They are sent from host
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to device and may include LED requests, rumble requests or more. Output
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reports are never sent from device to host, but a host can retrieve their
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current state.
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Hosts may choose to send output reports either continuously or only on
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change.
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- FEATURE Report: Feature reports are used for specific static device features
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and never reported spontaneously. A host can read and/or write them to access
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data like battery-state or device-settings.
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Feature reports are never sent without requests. A host must explicitly set
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or retrieve a feature report. This also means, feature reports are never sent
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on the intr channel as this channel is asynchronous.
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INPUT and OUTPUT reports can be sent as pure data reports on the intr channel.
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For INPUT reports this is the usual operational mode. But for OUTPUT reports,
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this is rarely done as OUTPUT reports are normally quite scarce. But devices are
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free to make excessive use of asynchronous OUTPUT reports (for instance, custom
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HID audio speakers make great use of it).
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Plain reports must not be sent on the ctrl channel, though. Instead, the ctrl
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channel provides synchronous GET/SET_REPORT requests. Plain reports are only
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allowed on the intr channel and are the only means of data there.
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- GET_REPORT: A GET_REPORT request has a report ID as payload and is sent
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from host to device. The device must answer with a data report for the
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requested report ID on the ctrl channel as a synchronous acknowledgement.
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Only one GET_REPORT request can be pending for each device. This restriction
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is enforced by HID core as several transport drivers don't allow multiple
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simultaneous GET_REPORT requests.
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Note that data reports which are sent as answer to a GET_REPORT request are
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not handled as generic device events. That is, if a device does not operate
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in continuous data reporting mode, an answer to GET_REPORT does not replace
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the raw data report on the intr channel on state change.
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GET_REPORT is only used by custom HID device drivers to query device state.
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Normally, HID core caches any device state so this request is not necessary
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on devices that follow the HID specs except during device initialization to
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retrieve the current state.
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GET_REPORT requests can be sent for any of the 3 report types and shall
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return the current report state of the device. However, OUTPUT reports as
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payload may be blocked by the underlying transport driver if the
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specification does not allow them.
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- SET_REPORT: A SET_REPORT request has a report ID plus data as payload. It is
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sent from host to device and a device must update it's current report state
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according to the given data. Any of the 3 report types can be used. However,
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INPUT reports as payload might be blocked by the underlying transport driver
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if the specification does not allow them.
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A device must answer with a synchronous acknowledgement. However, HID core
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does not require transport drivers to forward this acknowledgement to HID
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core.
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Same as for GET_REPORT, only one SET_REPORT can be pending at a time. This
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restriction is enforced by HID core as some transport drivers do not support
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multiple synchronous SET_REPORT requests.
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Other ctrl-channel requests are supported by USB-HID but are not available
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(or deprecated) in most other transport level specifications:
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- GET/SET_IDLE: Only used by USB-HID and I2C-HID.
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- GET/SET_PROTOCOL: Not used by HID core.
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- RESET: Used by I2C-HID, not hooked up in HID core.
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- SET_POWER: Used by I2C-HID, not hooked up in HID core.
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2) HID API
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==========
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2.1) Initialization
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-------------------
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Transport drivers normally use the following procedure to register a new device
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with HID core::
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struct hid_device *hid;
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int ret;
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hid = hid_allocate_device();
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if (IS_ERR(hid)) {
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ret = PTR_ERR(hid);
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goto err_<...>;
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}
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strscpy(hid->name, <device-name-src>, sizeof(hid->name));
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strscpy(hid->phys, <device-phys-src>, sizeof(hid->phys));
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strscpy(hid->uniq, <device-uniq-src>, sizeof(hid->uniq));
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hid->ll_driver = &custom_ll_driver;
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hid->bus = <device-bus>;
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hid->vendor = <device-vendor>;
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hid->product = <device-product>;
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hid->version = <device-version>;
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hid->country = <device-country>;
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hid->dev.parent = <pointer-to-parent-device>;
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hid->driver_data = <transport-driver-data-field>;
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ret = hid_add_device(hid);
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if (ret)
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goto err_<...>;
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Once hid_add_device() is entered, HID core might use the callbacks provided in
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"custom_ll_driver". Note that fields like "country" can be ignored by underlying
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transport-drivers if not supported.
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To unregister a device, use::
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hid_destroy_device(hid);
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Once hid_destroy_device() returns, HID core will no longer make use of any
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driver callbacks.
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2.2) hid_ll_driver operations
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-----------------------------
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The available HID callbacks are:
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::
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int (*start) (struct hid_device *hdev)
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Called from HID device drivers once they want to use the device. Transport
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drivers can choose to setup their device in this callback. However, normally
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devices are already set up before transport drivers register them to HID core
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so this is mostly only used by USB-HID.
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::
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void (*stop) (struct hid_device *hdev)
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Called from HID device drivers once they are done with a device. Transport
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drivers can free any buffers and deinitialize the device. But note that
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->start() might be called again if another HID device driver is loaded on the
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device.
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Transport drivers are free to ignore it and deinitialize devices after they
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destroyed them via hid_destroy_device().
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::
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int (*open) (struct hid_device *hdev)
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Called from HID device drivers once they are interested in data reports.
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Usually, while user-space didn't open any input API/etc., device drivers are
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not interested in device data and transport drivers can put devices asleep.
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However, once ->open() is called, transport drivers must be ready for I/O.
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->open() calls are nested for each client that opens the HID device.
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::
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void (*close) (struct hid_device *hdev)
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Called from HID device drivers after ->open() was called but they are no
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longer interested in device reports. (Usually if user-space closed any input
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devices of the driver).
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Transport drivers can put devices asleep and terminate any I/O of all
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->open() calls have been followed by a ->close() call. However, ->start() may
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be called again if the device driver is interested in input reports again.
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::
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int (*parse) (struct hid_device *hdev)
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Called once during device setup after ->start() has been called. Transport
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drivers must read the HID report-descriptor from the device and tell HID core
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about it via hid_parse_report().
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::
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int (*power) (struct hid_device *hdev, int level)
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Called by HID core to give PM hints to transport drivers. Usually this is
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analogical to the ->open() and ->close() hints and redundant.
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::
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void (*request) (struct hid_device *hdev, struct hid_report *report,
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int reqtype)
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Send an HID request on the ctrl channel. "report" contains the report that
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should be sent and "reqtype" the request type. Request-type can be
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HID_REQ_SET_REPORT or HID_REQ_GET_REPORT.
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This callback is optional. If not provided, HID core will assemble a raw
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report following the HID specs and send it via the ->raw_request() callback.
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The transport driver is free to implement this asynchronously.
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::
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int (*wait) (struct hid_device *hdev)
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Used by HID core before calling ->request() again. A transport driver can use
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it to wait for any pending requests to complete if only one request is
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allowed at a time.
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::
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int (*raw_request) (struct hid_device *hdev, unsigned char reportnum,
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__u8 *buf, size_t count, unsigned char rtype,
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int reqtype)
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Same as ->request() but provides the report as raw buffer. This request shall
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be synchronous. A transport driver must not use ->wait() to complete such
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requests. This request is mandatory and hid core will reject the device if
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it is missing.
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::
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int (*output_report) (struct hid_device *hdev, __u8 *buf, size_t len)
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Send raw output report via intr channel. Used by some HID device drivers
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which require high throughput for outgoing requests on the intr channel. This
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must not cause SET_REPORT calls! This must be implemented as asynchronous
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output report on the intr channel!
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::
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int (*idle) (struct hid_device *hdev, int report, int idle, int reqtype)
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Perform SET/GET_IDLE request. Only used by USB-HID, do not implement!
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2.3) Data Path
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--------------
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Transport drivers are responsible of reading data from I/O devices. They must
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handle any I/O-related state-tracking themselves. HID core does not implement
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protocol handshakes or other management commands which can be required by the
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given HID transport specification.
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Every raw data packet read from a device must be fed into HID core via
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hid_input_report(). You must specify the channel-type (intr or ctrl) and report
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type (input/output/feature). Under normal conditions, only input reports are
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provided via this API.
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Responses to GET_REPORT requests via ->request() must also be provided via this
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API. Responses to ->raw_request() are synchronous and must be intercepted by the
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transport driver and not passed to hid_input_report().
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Acknowledgements to SET_REPORT requests are not of interest to HID core.
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----------------------------------------------------
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Written 2013, David Herrmann <dh.herrmann@gmail.com>
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