541 lines
14 KiB
Text
541 lines
14 KiB
Text
.TH USB 3
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.EQ
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delim $$
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.EN
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.SH NAME
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usb \- USB Host Controller Interface
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.SH SYNOPSIS
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.nf
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.B bind -a #u /dev
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.PP
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.nf
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.B /dev/usb
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.B /dev/usb/ctl
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.BI /dev/usb/ep N . M
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.BI /dev/usb/ep N . M /data
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.BI /dev/usb/ep N . M /ctl
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\&...
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.fi
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.SH DESCRIPTION
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The Universal Serial Bus is a complex yet popular bus
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for connecting all kind of devices to a computer.
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It is a four-wire tree-shaped bus that provides both communication and (limited)
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power to devices.
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Branching points in the tree are provided by devices called
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.IR hubs .
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Hubs provide ports where USB devices (also hubs) can be attached.
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.PP
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Most PCs have one or more USB controllers called
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.I host
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controllers.
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Each one has a built-in hub called a
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.I "root hub"
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providing several ports.
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In some cases, more hubs are built-in
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and attached to a root hub port.
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The topology of the network is a tree with at most
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127 nodes, counting both internal and leaf nodes.
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.PP
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Host controllers come in four flavours:
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UHCI and OHCI for USB 1 (up to 12 Mb/s),
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EHCI for USB 2 (up to 480 Mb/s)
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and
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XHCI for USB 3 (up to 5 Gb/s).
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We currently support all but XHCI, which is still quite new.
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.PP
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The USB bus is fully controlled by the host; all devices are polled.
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Hubs are passive in the sense that they do not poll the devices attached
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to them.
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The host polls those devices and the hubs merely route the messages.
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.PP
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Devices may be added to or removed from the bus at any time.
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When a device is attached, the host queries it to determine its type and speed.
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The querying process is standardized.
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The first level of querying is the same for all devices,
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the next is somewhat specialized
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for particular classes of devices (such as mice, keyboards, or audio devices).
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Specialization continues as subclasses and subsubclasses are explored.
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.PP
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Enumeration of the bus and initial configuration of devices is done
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by a user level program,
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.IR usbd .
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Device drivers are implemented by separate user programs, although
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some of them may be statically linked into
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.IR usbd .
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.PP
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The kernel device described in this page is responsible for providing
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I/O for using the devices through so called
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.IR endpoints .
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Access to the host controller is hidden from user programs, which see
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just a set of endpoints.
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After system initialization, some endpoints
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are created by the device to permit I/O to root hubs.
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All other devices must be configured by
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.IR usbd .
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.SS Devices and Endpoints
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A device includes one or more functions (e.g., audio output,
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volume control buttons, mouse input, etc.)
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Communication with device functions is performed
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by some combination of
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issuing control requests to, sending data to, and receiving data from
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device
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.IR endpoints .
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Endpoints can be understood as addresses in the bus.
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There are several types:
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.TF "\fIIsochronous
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.TP
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.I Control
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Their main use is to configure devices.
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Writing a message with a specific format
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(specified in the USB specification)
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issues a request to the device.
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If the request implies a reply,
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a read can be made next to retrieve the requested data (if the write succeeded).
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.TP
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.I Interrupt
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Used to send and receive messages to or from a specific device function
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(e.g., to read events from a mouse).
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.TP
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.I Bulk
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Used to send and receive larger amounts of data through streams
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(e.g., to write blocks to a disk).
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.TP
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.I Isochronous
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Used to send and receive data in a timely manner
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(e.g., to write audio samples to a speaker).
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.PD
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.PP
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All USB devices include at least
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a control endpoint to perform device configuration.
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This is called the
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.I setup
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endpoint or
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.IR "endpoint zero" .
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After configuring a device, other endpoints may be created
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as dictated by the device to perform actual I/O.
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.SS Operation
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Bus enumeration and device configuration is performed by
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.I usbd
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and not by this driver.
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The driver provides an interface
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to access existing endpoints (initially those for the built-in root hubs),
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to create and configure other ones, and to perform I/O through them.
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.PP
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Each directory
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.BI /dev/usb/ep N . M
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represents an endpoint, where
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.I N
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is a number identifying a device and
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.I M
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is a number identifying one of its endpoints.
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.PP
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For each device attached to the bus, and configured by
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.IR usbd ,
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an endpoint zero (a
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.I setup
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endpoint)
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is provided at
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.BI /dev/usb/ep N .0
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for configuring the device.
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This is always a control endpoint and represents the device itself.
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.PP
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The device driver may use the setup endpoint
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to issue control requests and perhaps to create more endpoints for the device.
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Each new endpoint created has its own directory as said above.
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For example, if the driver for the device
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.BI /dev/usb/ep N . 0
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creates the endpoint number 3 for that device, a directory
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.BI /dev/usb/ep N .3
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will be available to access that endpoint.
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.PP
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All endpoint directories contain two files:
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.B data
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and
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.BR ctl .
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The former has mode bit
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.B DMEXCL
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set and can be open by only one process at a time.
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.SS data
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.PP
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The
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.B data
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file is used to perform actual I/O.
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In general, reading from it retrieves
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data from the endpoint and writing into it sends data to the endpoint.
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For control endpoints, writing to this file issues a control request
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(which may include data); if the request retrieves data from the device,
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a following read on the file will provide such data.
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.PP
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USB errors reported by the endpoint upon I/O failures
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are passed to the user process through the error string.
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I/O stalls not resulting from an error, usually
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an indication from the device, are reported by indicating that the
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number of bytes transferred has been zero.
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In most cases, the correct course of action after noticing the stall
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is for the device driver to issue a `clear halt' request (see
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.I unstall
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in
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.IR nusb (2))
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to resume I/O.
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The most common error is
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.L crc/timeout
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indicating problems in communication with the device (eg., a physical
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detach of the device or a wiring problem).
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.PP
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For control and isochronous transfers, there is an implicit
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timeout performed by the kernel and it is not necessary for applications
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to place their own timers.
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For other transfer types, the kernel will not time out any operation
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by default
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(but see the
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.L timeout
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control request).
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.SS "ctl and status"
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.PP
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The
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.B ctl
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file can be read to learn about the endpoint.
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It contains information that can be used
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to locate a particular device (or endpoint).
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It also accepts writes with textual control requests described later.
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.PP
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This may result from the read of an endpoint control file:
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.IP
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.EX
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.I "(the first line is wrapped to make it fit here)"
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.ft L
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enabled control rw speed full maxpkt 64 pollival 0
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samplesz 0 hz 0 hub 1 port 3 busy
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storage csp 0x500608 vid 0x951 did 0x1613 Kingston 'DT 101 II'
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.ft
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.EE
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.LP
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The first line contains status information.
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The rest is information supplied by
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.I usbd
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as an aid to locate devices.
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The status information includes:
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.TF "\fREndpoint mode
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.PD
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.TP
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Device state
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One of
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.BR config ,
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.BR enabled ,
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and
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.BR detached .
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An endpoint starts in the
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.B config
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state, and accepts control commands written to its
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.B ctl
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file to configure the endpoint.
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When configured, the
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state is
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.B enabled
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and the
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.B data
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file is used as described above (several control requests can still
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be issued to its
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.B ctl
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file, but most will not be accepted from now on).
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Upon severe errors, perhaps a physical
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detachment from the bus, the endpoint enters the
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.B detached
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state and no further I/O is accepted on it.
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Files for an endpoint (including its directory)
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vanish when the device is detached and its files are no longer open.
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Root hubs may not be detached.
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.TP
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Endpoint type
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.BR control ,
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.BR iso ,
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.BR interrupt ,
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or
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.BR bulk ,
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indicating the type of transfer supported by the endpoint.
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.TP
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Endpoint mode
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One of
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.BR r ,
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.BR w ,
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or
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.BR rw ,
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depending on the direction of the endpoint (in, out, or inout).
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.TP
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Speed
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.BR low
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(1.5 Mb/s),
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.BR full
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(12 Mb/s),
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or
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.BR high
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(480 Mb/s).
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.TP
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Maximum packet size
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Used when performing I/O on the data file.
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.TP
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Polling interval
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The polling period expressed as a number of µframes
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(for high-speed endpoints) or frames (for low- and full-speed endpoints).
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Note that a µframe takes 125 µs while a frame takes 1 ms.
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This is only of relevance for interrupt and isochronous endpoints.
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This value determines how often I/O happens.
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Note that the control request adjusting the polling interval does
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.I not
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use these units, to make things easier for USB device drivers.
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.TP
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Sample size
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Number of bytes per I/O sample (isochronous endpoints only).
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.TP
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Frequency
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Number of samples per second (Hertz).
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.TP
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Hub address
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Device address of the hub where the device is attached.
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.TP
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Port number
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Port number (in the hub) where the device is attached.
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.TP
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Usage
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.L busy
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while the data file is open and
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.L idle
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otherwise.
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This is useful to avoid disturbing endpoints already run
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by a device driver.
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.LP
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The second line contains information describing the device:
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.TF "\fRDevice strings
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.PD
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.TP
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Class name
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As provided by the device itself.
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.TP
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CSP
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Class, Subclass, and Protocol for the device.
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If the device contains different functions and has more CSPs,
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all of them will be listed.
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The first one is that of the device itself.
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For example,
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a mouse and keyboard combo may identify itself as a keyboard but
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then include two CSPs, one for the keyboard and another one for the mouse.
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.TP
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Vid and Did
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Vendor and device identifiers.
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.TP
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Device strings
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Provided by the device and identifying the manufacturer and type of device.
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.LP
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For example, to find a mouse not yet in use by a driver, scan the
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.B ctl
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files for
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.BR enabled ,
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.BR idle ,
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and
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.BR "csp 0x020103" .
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A mouse belongs to class 3 (in the least significant byte),
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.IR "human interface device" ,
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subclass 1,
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.IR boot ,
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protocol 2,
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.I mouse
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(protocol 1 would be the keyboard).
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USB class, subclass and proto codes can be found at
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.BR http://www.usb.org .
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.SS Control requests
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Endpoint control files accept the following requests.
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In most cases
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the driver does not issue them, leaving the task to either
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.I usbd
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or the usb driver library documented in
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.IR nusb (2).
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.TF "\fLsamplehz\fI n
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.TP
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.B detach
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Prevent further I/O on the device (delete the endpoint)
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and remove its file interface as soon as no process is using their files.
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.TP
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.BI maxpkt " n"
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Set the maximum packet size to
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.I n
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bytes.
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.TP
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.BI pollival " n"
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Only for interrupt and isochronous endpoints.
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Set the polling interval as a function of the value
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.I n
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given by the endpoint descriptor.
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The interval value used is the period
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.I n
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in bus time units for low- and full-speed interrupt endpoints.
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Otherwise, the actual interval is
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$2 sup n$
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and not
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.IR n .
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Bus time units are 1 ms for low- and full-speed endpoints and 125 µs for
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high-speed endpoints.
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In most cases, the device driver may ignore
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all this and issue the control request supplying the
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polling interval value as found
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in the endpoint descriptor.
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The kernel adjusts the value according
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to the endpoint configuration and converts it into the number of
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frames or µframes between two consecutive polls.
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.TP
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.BI samplesz " n"
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Use
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.I n
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as the number of bytes per sample.
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.TP
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.BI hz " n"
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Use
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.I n
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as the number of samples per second.
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.TP
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.BI ntds " n"
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Use
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.I n
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as the number of transactions per frame (or µframe), as reported
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by the descriptor.
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.TP
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.BI uframes " n"
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If
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.I n
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is set to 1 for an isochronous endpoint,
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.IR read (2)
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from the data file will not cross μframe boundaries.
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.TP
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.B clrhalt
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Clear the halt condition for an endpoint.
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Used to recover from a stall caused by a device to signal its driver
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(usually due to an unknown request or a failure to complete one).
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.TP
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.BI info " string"
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Replaces description information in
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.B ctl
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with
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.IR string .
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.I Usbd
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uses this to add device descriptions.
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.TP
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.B address
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Tell this driver that the device has been given an address,
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which causes the device to enter the
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.I enabled
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state.
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.TP
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.BI name " str"
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Generates an additional file name,
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.I str ,
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for the
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.B data
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file of the endpoint.
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This file name appears in the root directory of the
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.L #u
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tree.
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For example, this is used by the audio device
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driver to make the
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.B data
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file also available as
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.BR /dev/audio .
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.TP
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.BI debug " n"
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Enable debugging of the endpoint.
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.I N
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is an integer;
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larger values make diagnostics more verbose.
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.L 0
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stops debugging diagnostics.
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.L 1
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causes just problem reports.
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Bigger values report almost everything.
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.TP
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.BI timeout " n"
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Enable time-outs for the endpoint.
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Transfers are timed out by the kernel after
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.I n
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ms.
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This should not be used for control and isochronous endpoints,
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which are always timed out.
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.PD
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.LP
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Setup endpoints
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(those represented by
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.BI ep N .0
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directories)
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also accept the following requests:
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.TP
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.BI new " n type mode"
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Creates a new endpoint with number
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.I n
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of the given
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.IR type
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(\c
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.BR ctl ,
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.BR bulk ,
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.BR intr ,
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or
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.BR iso ).
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.I Mode
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may be
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.BR r ,
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.BR w ,
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or
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.BR rw ,
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which creates, respectively, an input, output, or input/output endpoint.
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.TP
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.B "speed {low|full|high}
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Set the endpoint speed to full, low, or high, respectively.
|
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.TP
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.B hub
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Tell this driver that the endpoint corresponds to a hub device.
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.PD
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.PP
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Setup endpoints for hub devices also accept his request:
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.TP
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.B "newdev {low|full|high} \fIport\fP
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Create a new setup endpoint to represent a new device.
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The first argument is the device speed.
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.I Port
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is the port number where the device is attached
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(the hub is implied by the endpoint where the control request is issued).
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.PD
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.PP
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The file
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.B /dev/usb/ctl
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provides all the information provided by the various
|
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.B ctl
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files when read.
|
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It accepts several requests that refer to
|
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the entire driver and not to particular endpoints:
|
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.TF "\fLdebug \fIn"
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.TP
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.B "debug \fIn\fP
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Sets the global debug flag to
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.IR n .
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.TP
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.B dump
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Dumps data structures for inspection.
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.SH FILES
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.TF #u/usb
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.TP
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.B #u/usb
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root of the USB interface
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.SH SOURCE
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.B /sys/src/9/port/usb.h
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.br
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.B /sys/src/9/port/devusb.c
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.br
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.B /sys/src/9/*/usb*.c
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.SH "SEE ALSO"
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.IR nusb (2),
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.IR nusb (4),
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.IR plan9.ini (8)
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.SH BUGS
|
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USB controllers limit the speed of all their ports
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to that of the slowest device connected to any one of them.
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.PP
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Isochronous input streams are not implemented for OHCI.
|
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.PP
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Some EHCI controllers drop completion interrupts and so must
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be polled, which hurts throughput.
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