xref: /linux/Documentation/hid/uhid.rst (revision 6fdcba32711044c35c0e1b094cbd8f3f0b4472c9)
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2UHID - User-space I/O driver support for HID subsystem
3======================================================
4
5UHID allows user-space to implement HID transport drivers. Please see
6hid-transport.txt for an introduction into HID transport drivers. This document
7relies heavily on the definitions declared there.
8
9With UHID, a user-space transport driver can create kernel hid-devices for each
10device connected to the user-space controlled bus. The UHID API defines the I/O
11events provided from the kernel to user-space and vice versa.
12
13There is an example user-space application in ./samples/uhid/uhid-example.c
14
15The UHID API
16------------
17
18UHID is accessed through a character misc-device. The minor-number is allocated
19dynamically so you need to rely on udev (or similar) to create the device node.
20This is /dev/uhid by default.
21
22If a new device is detected by your HID I/O Driver and you want to register this
23device with the HID subsystem, then you need to open /dev/uhid once for each
24device you want to register. All further communication is done by read()'ing or
25write()'ing "struct uhid_event" objects. Non-blocking operations are supported
26by setting O_NONBLOCK::
27
28  struct uhid_event {
29        __u32 type;
30        union {
31                struct uhid_create2_req create2;
32                struct uhid_output_req output;
33                struct uhid_input2_req input2;
34                ...
35        } u;
36  };
37
38The "type" field contains the ID of the event. Depending on the ID different
39payloads are sent. You must not split a single event across multiple read()'s or
40multiple write()'s. A single event must always be sent as a whole. Furthermore,
41only a single event can be sent per read() or write(). Pending data is ignored.
42If you want to handle multiple events in a single syscall, then use vectored
43I/O with readv()/writev().
44The "type" field defines the payload. For each type, there is a
45payload-structure available in the union "u" (except for empty payloads). This
46payload contains management and/or device data.
47
48The first thing you should do is sending an UHID_CREATE2 event. This will
49register the device. UHID will respond with an UHID_START event. You can now
50start sending data to and reading data from UHID. However, unless UHID sends the
51UHID_OPEN event, the internally attached HID Device Driver has no user attached.
52That is, you might put your device asleep unless you receive the UHID_OPEN
53event. If you receive the UHID_OPEN event, you should start I/O. If the last
54user closes the HID device, you will receive an UHID_CLOSE event. This may be
55followed by an UHID_OPEN event again and so on. There is no need to perform
56reference-counting in user-space. That is, you will never receive multiple
57UHID_OPEN events without an UHID_CLOSE event. The HID subsystem performs
58ref-counting for you.
59You may decide to ignore UHID_OPEN/UHID_CLOSE, though. I/O is allowed even
60though the device may have no users.
61
62If you want to send data on the interrupt channel to the HID subsystem, you send
63an HID_INPUT2 event with your raw data payload. If the kernel wants to send data
64on the interrupt channel to the device, you will read an UHID_OUTPUT event.
65Data requests on the control channel are currently limited to GET_REPORT and
66SET_REPORT (no other data reports on the control channel are defined so far).
67Those requests are always synchronous. That means, the kernel sends
68UHID_GET_REPORT and UHID_SET_REPORT events and requires you to forward them to
69the device on the control channel. Once the device responds, you must forward
70the response via UHID_GET_REPORT_REPLY and UHID_SET_REPORT_REPLY to the kernel.
71The kernel blocks internal driver-execution during such round-trips (times out
72after a hard-coded period).
73
74If your device disconnects, you should send an UHID_DESTROY event. This will
75unregister the device. You can now send UHID_CREATE2 again to register a new
76device.
77If you close() the fd, the device is automatically unregistered and destroyed
78internally.
79
80write()
81-------
82write() allows you to modify the state of the device and feed input data into
83the kernel. The kernel will parse the event immediately and if the event ID is
84not supported, it will return -EOPNOTSUPP. If the payload is invalid, then
85-EINVAL is returned, otherwise, the amount of data that was read is returned and
86the request was handled successfully. O_NONBLOCK does not affect write() as
87writes are always handled immediately in a non-blocking fashion. Future requests
88might make use of O_NONBLOCK, though.
89
90UHID_CREATE2:
91  This creates the internal HID device. No I/O is possible until you send this
92  event to the kernel. The payload is of type struct uhid_create2_req and
93  contains information about your device. You can start I/O now.
94
95UHID_DESTROY:
96  This destroys the internal HID device. No further I/O will be accepted. There
97  may still be pending messages that you can receive with read() but no further
98  UHID_INPUT events can be sent to the kernel.
99  You can create a new device by sending UHID_CREATE2 again. There is no need to
100  reopen the character device.
101
102UHID_INPUT2:
103  You must send UHID_CREATE2 before sending input to the kernel! This event
104  contains a data-payload. This is the raw data that you read from your device
105  on the interrupt channel. The kernel will parse the HID reports.
106
107UHID_GET_REPORT_REPLY:
108  If you receive a UHID_GET_REPORT request you must answer with this request.
109  You  must copy the "id" field from the request into the answer. Set the "err"
110  field to 0 if no error occurred or to EIO if an I/O error occurred.
111  If "err" is 0 then you should fill the buffer of the answer with the results
112  of the GET_REPORT request and set "size" correspondingly.
113
114UHID_SET_REPORT_REPLY:
115  This is the SET_REPORT equivalent of UHID_GET_REPORT_REPLY. Unlike GET_REPORT,
116  SET_REPORT never returns a data buffer, therefore, it's sufficient to set the
117  "id" and "err" fields correctly.
118
119read()
120------
121read() will return a queued output report. No reaction is required to any of
122them but you should handle them according to your needs.
123
124UHID_START:
125  This is sent when the HID device is started. Consider this as an answer to
126  UHID_CREATE2. This is always the first event that is sent. Note that this
127  event might not be available immediately after write(UHID_CREATE2) returns.
128  Device drivers might required delayed setups.
129  This event contains a payload of type uhid_start_req. The "dev_flags" field
130  describes special behaviors of a device. The following flags are defined:
131
132      - UHID_DEV_NUMBERED_FEATURE_REPORTS
133      - UHID_DEV_NUMBERED_OUTPUT_REPORTS
134      - UHID_DEV_NUMBERED_INPUT_REPORTS
135
136          Each of these flags defines whether a given report-type uses numbered
137          reports. If numbered reports are used for a type, all messages from
138          the kernel already have the report-number as prefix. Otherwise, no
139          prefix is added by the kernel.
140          For messages sent by user-space to the kernel, you must adjust the
141          prefixes according to these flags.
142
143UHID_STOP:
144  This is sent when the HID device is stopped. Consider this as an answer to
145  UHID_DESTROY.
146
147  If you didn't destroy your device via UHID_DESTROY, but the kernel sends an
148  UHID_STOP event, this should usually be ignored. It means that the kernel
149  reloaded/changed the device driver loaded on your HID device (or some other
150  maintenance actions happened).
151
152  You can usually ignored any UHID_STOP events safely.
153
154UHID_OPEN:
155  This is sent when the HID device is opened. That is, the data that the HID
156  device provides is read by some other process. You may ignore this event but
157  it is useful for power-management. As long as you haven't received this event
158  there is actually no other process that reads your data so there is no need to
159  send UHID_INPUT2 events to the kernel.
160
161UHID_CLOSE:
162  This is sent when there are no more processes which read the HID data. It is
163  the counterpart of UHID_OPEN and you may as well ignore this event.
164
165UHID_OUTPUT:
166  This is sent if the HID device driver wants to send raw data to the I/O
167  device on the interrupt channel. You should read the payload and forward it to
168  the device. The payload is of type "struct uhid_output_req".
169  This may be received even though you haven't received UHID_OPEN, yet.
170
171UHID_GET_REPORT:
172  This event is sent if the kernel driver wants to perform a GET_REPORT request
173  on the control channeld as described in the HID specs. The report-type and
174  report-number are available in the payload.
175  The kernel serializes GET_REPORT requests so there will never be two in
176  parallel. However, if you fail to respond with a UHID_GET_REPORT_REPLY, the
177  request might silently time out.
178  Once you read a GET_REPORT request, you shall forward it to the hid device and
179  remember the "id" field in the payload. Once your hid device responds to the
180  GET_REPORT (or if it fails), you must send a UHID_GET_REPORT_REPLY to the
181  kernel with the exact same "id" as in the request. If the request already
182  timed out, the kernel will ignore the response silently. The "id" field is
183  never re-used, so conflicts cannot happen.
184
185UHID_SET_REPORT:
186  This is the SET_REPORT equivalent of UHID_GET_REPORT. On receipt, you shall
187  send a SET_REPORT request to your hid device. Once it replies, you must tell
188  the kernel about it via UHID_SET_REPORT_REPLY.
189  The same restrictions as for UHID_GET_REPORT apply.
190
191----------------------------------------------------
192
193Written 2012, David Herrmann <dh.herrmann@gmail.com>
194