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12.\" Copyright 2016 Joyent, Inc.
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14.Dd Dec 22, 2016
15.Dt USBA_HCDI_PIPE_CTRL_XFER 9E
16.Os
17.Sh NAME
18.Nm usba_hcdi_pipe_ctrl_xfer
19.Nd perform a USB control transfer
20.Sh SYNOPSIS
21.In sys/usb/usba/hcdi.h
22.Ft int
23.Fo prefix_hcdi_pipe_ctrl_xfer
24.Fa "usba_pipe_handle_data_t *ph"
25.Fa "usb_ctrl_req_t *ucrp"
26.Fa "usb_flags_t usb_flags"
27.Fc
28.Sh INTERFACE LEVEL
29.Sy Volatile -
30illumos USB HCD private function
31.Pp
32This is a private function that is not part of the stable DDI.
33It may be removed or changed at any time.
34.Sh PARAMETERS
35.Bl -tag -width Fa
36.It Fa ph
37A pointer to a USB pipe handle as defined in
38.Xr usba_pipe_handle_data 9S .
39.It Fa ucrp
40A pointer to a USB control transfer request.
41The structure's members are documented in
42.Xr usb_ctrl_req 9S .
43.It Fa usb_flags
44Flags which describe how allocations should be performed.
45Valid flags are:
46.Bl -tag -width Sy
47.It Sy USB_FLAGS_NOSLEEP
48Do not block waiting for memory.
49If memory is not available the allocation will fail.
50.It Sy USB_FLAGS_SLEEP
51Perform a blocking allocation.
52If memory is not available, the function will wait until memory is made
53available.
54.Pp
55Note, the request may still fail even if
56.Sy USB_FLAGS_SLEEP
57is specified.
58.El
59.El
60.Sh DESCRIPTION
61The
62.Fn usba_hcdi_pipe_ctrl_xfer
63entry point is used to initiate an
64.Em asynchronous
65USB Control transfer on the pipe
66.Fa ph .
67The specific USB control transfer is provided in
68.Fa ucrp .
69For more background on transfer types, see
70.Xr usba_hcdi 9E .
71.Pp
72The host controller driver should first check the USB address of the
73pipe handle.
74It may correspond to the root hub.
75If it does, rather than initiating an I/O transfer, the driver may need to
76emulate it using available information.
77.Pp
78Control endpoints are always bi-directional.
79A given endpoint may perform transfer data from the OS to the device, or from
80the device to the OS.
81The driver will need to look at the control transfer request and transform that
82into the appropriate format for the controller.
83.Pp
84Control transfers are made up of three parts.
85A setup stage, an optional data stage, and a status stage.
86Depending on the controller, the driver may need to transform the transfer
87request into a format that matches this.
88Refer to the device's controller specification for more information on whether
89this is required or not.
90.Pp
91The device driver should a request based on the information present in
92the control request
93.Fa ucrp .
94If there is a non-zero length for the transfer, indicated by the
95.Sy ctrl_wLength
96member of
97.Fa ucrp
98being greater than zero, then the controller needs to allocate a
99separate memory buffer for the request.
100The corresponding data will be found in an
101.Xr mblk 9S
102structure as the
103.Sy ctrl_data
104member of
105.Fa ucrp .
106.Pp
107If this transfer needs to be sent to a device through the controller and
108is not being handled directly by the driver, then the driver should
109allocate a separate region of memory (generally memory suitable for a
110DMA transfer) for the transfer.
111If sending data to the device, the data in the message block should be copied
112prior to the transfer.
113Otherwise, once the transfer completes, data should be transferred into the
114message block and the write pointer incremented.
115.Pp
116If the driver needs to allocate memory for this transfer, it should
117honor the values set in
118.Fa usb_flags
119to indicate whether or not it should block for memory, whether DMA
120memory or normal kernel memory.
121.Pp
122If the driver successfully schedules the I/O or it can handle the I/O
123itself because it's a synthetic root hub request, then it should return
124.Sy USB_SUCCESS .
125If the driver returns successfully, it must call
126.Xr usba_hcdi_cb 9F
127with
128.Fa ucrp
129either before or after it returns.
130The only times that a driver would call the callback before the function returns
131are for requests to the root hub that it handles inline and does not need to
132send off asynchronous activity to the controller.
133.Pp
134For asynchronous requests, the controller is also responsible for
135timing out the request if it does not complete.
136If the timeout in the request as indicated in the
137.Sy ctrl_timeout
138member is set to zero, then the driver should use the USBA default
139timeout of
140.Sy HCDI_DEFAULT_TIMEOUT .
141All timeout values are in
142.Em seconds .
143.Ss Callback Handling
144When the control transfer completes the driver should consider the
145following items to determine what actions it should take on the callback:
146.Bl -bullet
147.It
148If the transfer timed out, it should remove the transfer from the
149outstanding list, queue the next transfer, and return the transfer back
150to the OS with the error code
151.Sy USB_CR_TIMEOUT
152with
153.Xr usba_hcdi_cb 9F .
154.It
155If the transfer failed, it should find the appropriate error and call
156.Xr usba_hcdi_cb 9F
157with that error.
158.It
159If the transfer succeeded, but less data was transferred than expected,
160consult the
161.Sy ctrl_attributes
162member of the
163.Fa ucrp .
164If the
165.Sy USB_ATTRS_SHORT_XFER_OK
166flag is not present, then the driver should call
167.Xr usba_hcdi_cb 9F
168with the error
169.Sy USB_CR_DATA_UNDERRUN .
170.It
171If the transfer was going to the host, then the driver should copy the
172data into the transfer's message block and update the
173.Sy b_wptr
174member of the
175.Xr mblk 9S .
176.It
177If everything was successful, call
178.Xr usba_hcdi_cb 9F
179with the code
180.Sy USB_CR_OK .
181.El
182.Sh RETURN VALUES
183Upon successful completion, the
184.Fn usba_hcdi_pipe_ctrl_xfer
185function should return
186.Sy USB_SUCCESS .
187Otherwise, it should return the appropriate USB error.
188If uncertain, use
189.Sy USB_FAILURE .
190.Sh SEE ALSO
191.Xr usba_hcdi 9E ,
192.Xr usba_hcdi_cb 9F ,
193.Xr mblk 9S ,
194.Xr usb_ctrl_req 9S ,
195.Xr usba_pipe_handle_data 9S
196