[PATCH] USB: kerneldoc for usbfs

So far as I know, "usbfs" was never documented ... so
here's a patch with some text I've had sitting around,
merging it into the other USB kerneldoc.

It should be accurate, down to the warnings about why
not to use several of the calls, though cross-review
with the code would be good too.  A notable omission
is any details on the async APIs.

Documentation/DocBook/usb.tmpl

@@ -100,7 +100,8 @@
 <chapter id="host">
     <title>USB Host-Side API Model</title>
 
-    <para>Host-side drivers for USB devices talk to the "usbcore" APIs.
+    <para>Within the kernel,
+    host-side drivers for USB devices talk to the "usbcore" APIs.
     There are two types of public "usbcore" APIs, targetted at two different
     layers of USB driver.  Those are
     <emphasis>general purpose</emphasis> drivers, exposed through
@@ -289,6 +290,684 @@
 !Edrivers/usb/core/buffer.c
     </chapter>
 
+    <chapter>
+	<title>The USB Filesystem (usbfs)</title>
+
+	<para>This chapter presents the Linux <emphasis>usbfs</emphasis>.
+	You may prefer to avoid avoid writing new kernel code for your
+	USB driver; that's the problem that usbfs set out to solve.
+	User mode device drivers are usually packaged as applications
+	or libraries, and may use usbfs through some programming library
+	that wraps it.  Such libraries include
+	<ulink url="http://libusb.sourceforge.net">libusb</ulink>
+	for C/C++, and
+	<ulink url="http://jUSB.sourceforge.net">jUSB</ulink> for Java.
+	</para>
+
+	<note><title>Unfinished</title>
+	    <para>This particular documentation is incomplete,
+	    especially with respect to the asynchronous mode.
+	    As of kernel 2.5.66 the code and this (new) documentation
+	    need to be cross-reviewed.
+	    </para>
+	    </note>
+
+	<para>Configure usbfs into Linux kernels by enabling the
+	<emphasis>USB filesystem</emphasis> option (CONFIG_USB_DEVICEFS),
+	and you get basic support for user mode USB device drivers.
+	Until relatively recently it was often (confusingly) called
+	<emphasis>usbdevfs</emphasis> although it wasn't solving what
+	<emphasis>devfs</emphasis> was.
+	Every USB device will appear in usbfs, regardless of whether or
+	not it has a kernel driver; but only devices with kernel drivers
+	show up in devfs.
+	</para>
+
+	<sect1>
+	    <title>What files are in "usbfs"?</title>
+
+	    <para>Conventionally mounted at
+	    <filename>/proc/bus/usb</filename>, usbfs 
+	    features include:
+	    <itemizedlist>
+		<listitem><para><filename>/proc/bus/usb/devices</filename>
+		    ... a text file
+		    showing each of the USB devices on known to the kernel,
+		    and their configuration descriptors.
+		    You can also poll() this to learn about new devices.
+		    </para></listitem>
+		<listitem><para><filename>/proc/bus/usb/BBB/DDD</filename>
+		    ... magic files
+		    exposing the each device's configuration descriptors, and
+		    supporting a series of ioctls for making device requests,
+		    including I/O to devices.  (Purely for access by programs.)
+		    </para></listitem>
+	    </itemizedlist>
+	    </para>
+
+	    <para> Each bus is given a number (BBB) based on when it was
+	    enumerated; within each bus, each device is given a similar
+	    number (DDD).
+	    Those BBB/DDD paths are not "stable" identifiers;
+	    expect them to change even if you always leave the devices
+	    plugged in to the same hub port.
+	    <emphasis>Don't even think of saving these in application
+	    configuration files.</emphasis>
+	    Stable identifiers are available, for user mode applications
+	    that want to use them.  HID and networking devices expose
+	    these IDs.
+	    </para>
+
+	</sect1>
+
+	<sect1>
+	    <title>Mounting and Access Control</title>
+
+	    <para>There are a number of mount options for usbfs, which will
+	    be of most interest to you if you need to override the default
+	    access control policy.
+	    That policy is that only root may read or write device files
+	    (<filename>/proc/bus/BBB/DDD</filename>) although anyone may read
+	    the <filename>devices</filename>
+	    or <filename>drivers</filename> files.
+	    I/O requests to the device also need the CAP_SYS_RAWIO capability,
+	    </para>
+
+	    <para>The significance of that is that by default, all user mode
+	    device drivers need super-user privileges.
+	    You can change modes or ownership in a driver setup
+	    when the device hotplugs, or maye just start the
+	    driver right then, as a privileged server (or some activity
+	    within one).
+	    That's the most secure approach for multi-user systems,
+	    but for single user systems ("trusted" by that user)
+	    it's more convenient just to grant everyone all access
+	    (using the <emphasis>devmode=0666</emphasis> option)
+	    so the driver can start whenever it's needed.
+	    </para>
+
+	    <para>The mount options for usbfs, usable in /etc/fstab or
+	    in command line invocations of <emphasis>mount</emphasis>, are:
+
+	    <variablelist>
+		<varlistentry>
+		    <term><emphasis>busgid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the GID used for the
+		    /proc/bus/usb/BBB
+		    directories.  (Default: 0)</para></listitem></varlistentry>
+		<varlistentry><term><emphasis>busmode</emphasis>=MMM</term>
+		    <listitem><para>Controls the file mode used for the
+		    /proc/bus/usb/BBB
+		    directories.  (Default: 0555)
+		    </para></listitem></varlistentry>
+		<varlistentry><term><emphasis>busuid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the UID used for the
+		    /proc/bus/usb/BBB
+		    directories.  (Default: 0)</para></listitem></varlistentry>
+
+		<varlistentry><term><emphasis>devgid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the GID used for the
+		    /proc/bus/usb/BBB/DDD
+		    files.  (Default: 0)</para></listitem></varlistentry>
+		<varlistentry><term><emphasis>devmode</emphasis>=MMM</term>
+		    <listitem><para>Controls the file mode used for the
+		    /proc/bus/usb/BBB/DDD
+		    files.  (Default: 0644)</para></listitem></varlistentry>
+		<varlistentry><term><emphasis>devuid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the UID used for the
+		    /proc/bus/usb/BBB/DDD
+		    files.  (Default: 0)</para></listitem></varlistentry>
+
+		<varlistentry><term><emphasis>listgid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the GID used for the
+		    /proc/bus/usb/devices and drivers files.
+		    (Default: 0)</para></listitem></varlistentry>
+		<varlistentry><term><emphasis>listmode</emphasis>=MMM</term>
+		    <listitem><para>Controls the file mode used for the
+		    /proc/bus/usb/devices and drivers files.
+		    (Default: 0444)</para></listitem></varlistentry>
+		<varlistentry><term><emphasis>listuid</emphasis>=NNNNN</term>
+		    <listitem><para>Controls the UID used for the
+		    /proc/bus/usb/devices and drivers files.
+		    (Default: 0)</para></listitem></varlistentry>
+	    </variablelist>
+
+	    </para>
+
+	    <para>Note that many Linux distributions hard-wire the mount options
+	    for usbfs in their init scripts, such as
+	    <filename>/etc/rc.d/rc.sysinit</filename>,
+	    rather than making it easy to set this per-system
+	    policy in <filename>/etc/fstab</filename>.
+	    </para>
+
+	</sect1>
+
+	<sect1>
+	    <title>/proc/bus/usb/devices</title>
+
+	    <para>This file is handy for status viewing tools in user
+	    mode, which can scan the text format and ignore most of it.
+	    More detailed device status (including class and vendor
+	    status) is available from device-specific files.
+	    For information about the current format of this file,
+	    see the
+	    <filename>Documentation/usb/proc_usb_info.txt</filename>
+	    file in your Linux kernel sources.
+	    </para>
+
+	    <para>Otherwise the main use for this file from programs
+	    is to poll() it to get notifications of usb devices
+	    as they're plugged or unplugged.
+	    To see what changed, you'd need to read the file and
+	    compare "before" and "after" contents, scan the filesystem,
+	    or see its hotplug event.
+	    </para>
+
+	</sect1>
+
+	<sect1>
+	    <title>/proc/bus/usb/BBB/DDD</title>
+
+	    <para>Use these files in one of these basic ways:
+	    </para>
+
+	    <para><emphasis>They can be read,</emphasis>
+	    producing first the device descriptor
+	    (18 bytes) and then the descriptors for the current configuration.
+	    See the USB 2.0 spec for details about those binary data formats.
+	    You'll need to convert most multibyte values from little endian
+	    format to your native host byte order, although a few of the
+	    fields in the device descriptor (both of the BCD-encoded fields,
+	    and the vendor and product IDs) will be byteswapped for you.
+	    Note that configuration descriptors include descriptors for
+	    interfaces, altsettings, endpoints, and maybe additional
+	    class descriptors.
+	    </para>
+
+	    <para><emphasis>Perform USB operations</emphasis> using 
+	    <emphasis>ioctl()</emphasis> requests to make endpoint I/O
+	    requests (synchronously or asynchronously) or manage
+	    the device.
+	    These requests need the CAP_SYS_RAWIO capability,
+	    as well as filesystem access permissions.
+	    Only one ioctl request can be made on one of these
+	    device files at a time.
+	    This means that if you are synchronously reading an endpoint
+	    from one thread, you won't be able to write to a different
+	    endpoint from another thread until the read completes.
+	    This works for <emphasis>half duplex</emphasis> protocols,
+	    but otherwise you'd use asynchronous i/o requests. 
+	    </para>
+
+	    </sect1>
+
+
+	<sect1>
+	    <title>Life Cycle of User Mode Drivers</title>
+
+	    <para>Such a driver first needs to find a device file
+	    for a device it knows how to handle.
+	    Maybe it was told about it because a
+	    <filename>/sbin/hotplug</filename> event handling agent
+	    chose that driver to handle the new device.
+	    Or maybe it's an application that scans all the
+	    /proc/bus/usb device files, and ignores most devices.
+	    In either case, it should <function>read()</function> all
+	    the descriptors from the device file,
+	    and check them against what it knows how to handle.
+	    It might just reject everything except a particular
+	    vendor and product ID, or need a more complex policy.
+	    </para>
+
+	    <para>Never assume there will only be one such device
+	    on the system at a time!
+	    If your code can't handle more than one device at
+	    a time, at least detect when there's more than one, and
+	    have your users choose which device to use.
+	    </para>
+
+	    <para>Once your user mode driver knows what device to use,
+	    it interacts with it in either of two styles.
+	    The simple style is to make only control requests; some
+	    devices don't need more complex interactions than those.
+	    (An example might be software using vendor-specific control
+	    requests for some initialization or configuration tasks,
+	    with a kernel driver for the rest.)
+	    </para>
+
+	    <para>More likely, you need a more complex style driver:
+	    one using non-control endpoints, reading or writing data
+	    and claiming exclusive use of an interface.
+	    <emphasis>Bulk</emphasis> transfers are easiest to use,
+	    but only their sibling <emphasis>interrupt</emphasis> transfers 
+	    work with low speed devices.
+	    Both interrupt and <emphasis>isochronous</emphasis> transfers
+	    offer service guarantees because their bandwidth is reserved.
+	    Such "periodic" transfers are awkward to use through usbfs,
+	    unless you're using the asynchronous calls.  However, interrupt
+	    transfers can also be used in a synchronous "one shot" style.
+	    </para>
+
+	    <para>Your user-mode driver should never need to worry
+	    about cleaning up request state when the device is
+	    disconnected, although it should close its open file
+	    descriptors as soon as it starts seeing the ENODEV
+	    errors.
+	    </para>
+
+	    </sect1>
+
+	<sect1><title>The ioctl() Requests</title>
+
+	    <para>To use these ioctls, you need to include the following
+	    headers in your userspace program:
+<programlisting>#include &lt;linux/usb.h&gt;
+#include &lt;linux/usbdevice_fs.h&gt;
+#include &lt;asm/byteorder.h&gt;</programlisting>
+	    The standard USB device model requests, from "Chapter 9" of
+	    the USB 2.0 specification, are automatically included from
+	    the <filename>&lt;linux/usb_ch9.h&gt;</filename> header.
+	    </para>
+
+	    <para>Unless noted otherwise, the ioctl requests
+	    described here will
+	    update the modification time on the usbfs file to which
+	    they are applied (unless they fail).
+	    A return of zero indicates success; otherwise, a
+	    standard USB error code is returned.  (These are
+	    documented in
+	    <filename>Documentation/usb/error-codes.txt</filename>
+	    in your kernel sources.)
+	    </para>
+
+	    <para>Each of these files multiplexes access to several
+	    I/O streams, one per endpoint.
+	    Each device has one control endpoint (endpoint zero)
+	    which supports a limited RPC style RPC access.
+	    Devices are configured
+	    by khubd (in the kernel) setting a device-wide
+	    <emphasis>configuration</emphasis> that affects things
+	    like power consumption and basic functionality.
+	    The endpoints are part of USB <emphasis>interfaces</emphasis>,
+	    which may have <emphasis>altsettings</emphasis>
+	    affecting things like which endpoints are available.
+	    Many devices only have a single configuration and interface,
+	    so drivers for them will ignore configurations and altsettings.
+	    </para>
+
+
+	    <sect2>
+		<title>Management/Status Requests</title>
+
+		<para>A number of usbfs requests don't deal very directly
+		with device I/O.
+		They mostly relate to device management and status.
+		These are all synchronous requests.
+		</para>
+
+		<variablelist>
+
+		<varlistentry><term>USBDEVFS_CLAIMINTERFACE</term>
+		    <listitem><para>This is used to force usbfs to
+		    claim a specific interface,
+		    which has not previously been claimed by usbfs or any other
+		    kernel driver.
+		    The ioctl parameter is an integer holding the number of
+		    the interface (bInterfaceNumber from descriptor).
+		    </para><para>
+		    Note that if your driver doesn't claim an interface
+		    before trying to use one of its endpoints, and no
+		    other driver has bound to it, then the interface is
+		    automatically claimed by usbfs.
+		    </para><para>
+		    This claim will be released by a RELEASEINTERFACE ioctl,
+		    or by closing the file descriptor.
+		    File modification time is not updated by this request.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_CONNECTINFO</term>
+		    <listitem><para>Says whether the device is lowspeed.
+		    The ioctl parameter points to a structure like this:
+<programlisting>struct usbdevfs_connectinfo {
+        unsigned int   devnum;
+        unsigned char  slow;
+}; </programlisting>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    <emphasis>You can't tell whether a "not slow"
+		    device is connected at high speed (480 MBit/sec)
+		    or just full speed (12 MBit/sec).</emphasis>
+		    You should know the devnum value already,
+		    it's the DDD value of the device file name.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_GETDRIVER</term>
+		    <listitem><para>Returns the name of the kernel driver
+		    bound to a given interface (a string).  Parameter
+		    is a pointer to this structure, which is modified:
+<programlisting>struct usbdevfs_getdriver {
+        unsigned int  interface;
+        char          driver[USBDEVFS_MAXDRIVERNAME + 1];
+};</programlisting>
+		    File modification time is not updated by this request.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_IOCTL</term>
+		    <listitem><para>Passes a request from userspace through
+		    to a kernel driver that has an ioctl entry in the
+		    <emphasis>struct usb_driver</emphasis> it registered.
+<programlisting>struct usbdevfs_ioctl {
+        int     ifno;
+        int     ioctl_code;
+        void    *data;
+};
+
+/* user mode call looks like this.
+ * 'request' becomes the driver->ioctl() 'code' parameter.
+ * the size of 'param' is encoded in 'request', and that data
+ * is copied to or from the driver->ioctl() 'buf' parameter.
+ */
+static int
+usbdev_ioctl (int fd, int ifno, unsigned request, void *param)
+{
+        struct usbdevfs_ioctl	wrapper;
+
+        wrapper.ifno = ifno;
+        wrapper.ioctl_code = request;
+        wrapper.data = param;
+
+        return ioctl (fd, USBDEVFS_IOCTL, &amp;wrapper);
+} </programlisting>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    This request lets kernel drivers talk to user mode code
+		    through filesystem operations even when they don't create
+		    a charactor or block special device.
+		    It's also been used to do things like ask devices what
+		    device special file should be used.
+		    Two pre-defined ioctls are used
+		    to disconnect and reconnect kernel drivers, so
+		    that user mode code can completely manage binding
+		    and configuration of devices.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_RELEASEINTERFACE</term>
+		    <listitem><para>This is used to release the claim usbfs
+		    made on interface, either implicitly or because of a
+		    USBDEVFS_CLAIMINTERFACE call, before the file
+		    descriptor is closed.
+		    The ioctl parameter is an integer holding the number of
+		    the interface (bInterfaceNumber from descriptor);
+		    File modification time is not updated by this request.
+		    </para><warning><para>
+		    <emphasis>No security check is made to ensure
+		    that the task which made the claim is the one
+		    which is releasing it.
+		    This means that user mode driver may interfere
+		    other ones.  </emphasis>
+		    </para></warning></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_RESETEP</term>
+		    <listitem><para>Resets the data toggle value for an endpoint
+		    (bulk or interrupt) to DATA0.
+		    The ioctl parameter is an integer endpoint number
+		    (1 to 15, as identified in the endpoint descriptor),
+		    with USB_DIR_IN added if the device's endpoint sends
+		    data to the host.
+		    </para><warning><para>
+		    <emphasis>Avoid using this request.
+		    It should probably be removed.</emphasis>
+		    Using it typically means the device and driver will lose
+		    toggle synchronization.  If you really lost synchronization,
+		    you likely need to completely handshake with the device,
+		    using a request like CLEAR_HALT
+		    or SET_INTERFACE.
+		    </para></warning></listitem></varlistentry>
+
+		</variablelist>
+
+		</sect2>
+
+	    <sect2>
+		<title>Synchronous I/O Support</title>
+
+		<para>Synchronous requests involve the kernel blocking
+		until until the user mode request completes, either by
+		finishing successfully or by reporting an error.
+		In most cases this is the simplest way to use usbfs,
+		although as noted above it does prevent performing I/O
+		to more than one endpoint at a time.
+		</para>
+
+		<variablelist>
+
+		<varlistentry><term>USBDEVFS_BULK</term>
+		    <listitem><para>Issues a bulk read or write request to the
+		    device.
+		    The ioctl parameter is a pointer to this structure:
+<programlisting>struct usbdevfs_bulktransfer {
+        unsigned int  ep;
+        unsigned int  len;
+        unsigned int  timeout; /* in milliseconds */
+        void          *data;
+};</programlisting>
+		    </para><para>The "ep" value identifies a
+		    bulk endpoint number (1 to 15, as identified in an endpoint
+		    descriptor),
+		    masked with USB_DIR_IN when referring to an endpoint which
+		    sends data to the host from the device.
+		    The length of the data buffer is identified by "len";
+		    Recent kernels support requests up to about 128KBytes.
+		    <emphasis>FIXME say how read length is returned,
+		    and how short reads are handled.</emphasis>.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_CLEAR_HALT</term>
+		    <listitem><para>Clears endpoint halt (stall) and
+		    resets the endpoint toggle.  This is only
+		    meaningful for bulk or interrupt endpoints.
+		    The ioctl parameter is an integer endpoint number
+		    (1 to 15, as identified in an endpoint descriptor),
+		    masked with USB_DIR_IN when referring to an endpoint which
+		    sends data to the host from the device.
+		    </para><para>
+		    Use this on bulk or interrupt endpoints which have
+		    stalled, returning <emphasis>-EPIPE</emphasis> status
+		    to a data transfer request.
+		    Do not issue the control request directly, since
+		    that could invalidate the host's record of the
+		    data toggle.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_CONTROL</term>
+		    <listitem><para>Issues a control request to the device.
+		    The ioctl parameter points to a structure like this:
+<programlisting>struct usbdevfs_ctrltransfer {
+        __u8   bRequestType;
+        __u8   bRequest;
+        __u16  wValue;
+        __u16  wIndex;
+        __u16  wLength;
+        __u32  timeout;  /* in milliseconds */
+        void   *data;
+};</programlisting>
+		    </para><para>
+		    The first eight bytes of this structure are the contents
+		    of the SETUP packet to be sent to the device; see the
+		    USB 2.0 specification for details.
+		    The bRequestType value is composed by combining a
+		    USB_TYPE_* value, a USB_DIR_* value, and a
+		    USB_RECIP_* value (from
+		    <emphasis>&lt;linux/usb.h&gt;</emphasis>).
+		    If wLength is nonzero, it describes the length of the data
+		    buffer, which is either written to the device
+		    (USB_DIR_OUT) or read from the device (USB_DIR_IN).
+		    </para><para>
+		    At this writing, you can't transfer more than 4 KBytes
+		    of data to or from a device; usbfs has a limit, and
+		    some host controller drivers have a limit.
+		    (That's not usually a problem.)
+		    <emphasis>Also</emphasis> there's no way to say it's
+		    not OK to get a short read back from the device.
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_RESET</term>
+		    <listitem><para>Does a USB level device reset.
+		    The ioctl parameter is ignored.
+		    After the reset, this rebinds all device interfaces.
+		    File modification time is not updated by this request.
+		    </para><warning><para>
+		    <emphasis>Avoid using this call</emphasis>
+		    until some usbcore bugs get fixed,
+		    since it does not fully synchronize device, interface,
+		    and driver (not just usbfs) state.
+		    </para></warning></listitem></varlistentry>
+	    
+		<varlistentry><term>USBDEVFS_SETINTERFACE</term>
+		    <listitem><para>Sets the alternate setting for an
+		    interface.  The ioctl parameter is a pointer to a
+		    structure like this:
+<programlisting>struct usbdevfs_setinterface {
+        unsigned int  interface;
+        unsigned int  altsetting;
+}; </programlisting>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    Those struct members are from some interface descriptor
+		    applying to the the current configuration.
+		    The interface number is the bInterfaceNumber value, and
+		    the altsetting number is the bAlternateSetting value.
+		    (This resets each endpoint in the interface.)
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_SETCONFIGURATION</term>
+		    <listitem><para>Issues the
+		    <function>usb_set_configuration</function> call
+		    for the device.
+		    The parameter is an integer holding the number of
+		    a configuration (bConfigurationValue from descriptor).
+		    File modification time is not updated by this request.
+		    </para><warning><para>
+		    <emphasis>Avoid using this call</emphasis>
+		    until some usbcore bugs get fixed,
+		    since it does not fully synchronize device, interface,
+		    and driver (not just usbfs) state.
+		    </para></warning></listitem></varlistentry>
+
+		</variablelist>
+	    </sect2>
+
+	    <sect2>
+		<title>Asynchronous I/O Support</title>
+
+		<para>As mentioned above, there are situations where it may be
+		important to initiate concurrent operations from user mode code.
+		This is particularly important for periodic transfers
+		(interrupt and isochronous), but it can be used for other
+		kinds of USB requests too.
+		In such cases, the asynchronous requests described here
+		are essential.  Rather than submitting one request and having
+		the kernel block until it completes, the blocking is separate.
+		</para>
+
+		<para>These requests are packaged into a structure that
+		resembles the URB used by kernel device drivers.
+		(No POSIX Async I/O support here, sorry.)
+		It identifies the endpoint type (USBDEVFS_URB_TYPE_*),
+		endpoint (number, masked with USB_DIR_IN as appropriate),
+		buffer and length, and a user "context" value serving to
+		uniquely identify each request.
+		(It's usually a pointer to per-request data.)
+		Flags can modify requests (not as many as supported for
+		kernel drivers).
+		</para>
+
+		<para>Each request can specify a realtime signal number
+		(between SIGRTMIN and SIGRTMAX, inclusive) to request a
+		signal be sent when the request completes.
+		</para>
+
+		<para>When usbfs returns these urbs, the status value
+		is updated, and the buffer may have been modified.
+		Except for isochronous transfers, the actual_length is
+		updated to say how many bytes were transferred; if the
+		USBDEVFS_URB_DISABLE_SPD flag is set
+		("short packets are not OK"), if fewer bytes were read
+		than were requested then you get an error report.
+		</para>
+
+<programlisting>struct usbdevfs_iso_packet_desc {
+        unsigned int                     length;
+        unsigned int                     actual_length;
+        unsigned int                     status;
+};
+
+struct usbdevfs_urb {
+        unsigned char                    type;
+        unsigned char                    endpoint;
+        int                              status;
+        unsigned int                     flags;
+        void                             *buffer;
+        int                              buffer_length;
+        int                              actual_length;
+        int                              start_frame;
+        int                              number_of_packets;
+        int                              error_count;
+        unsigned int                     signr;
+        void                             *usercontext;
+        struct usbdevfs_iso_packet_desc  iso_frame_desc[];
+};</programlisting>
+
+		<para> For these asynchronous requests, the file modification
+		time reflects when the request was initiated.
+		This contrasts with their use with the synchronous requests,
+		where it reflects when requests complete.
+		</para>
+
+		<variablelist>
+
+		<varlistentry><term>USBDEVFS_DISCARDURB</term>
+		    <listitem><para>
+		    <emphasis>TBS</emphasis>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_DISCSIGNAL</term>
+		    <listitem><para>
+		    <emphasis>TBS</emphasis>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_REAPURB</term>
+		    <listitem><para>
+		    <emphasis>TBS</emphasis>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_REAPURBNDELAY</term>
+		    <listitem><para>
+		    <emphasis>TBS</emphasis>
+		    File modification time is not updated by this request.
+		    </para><para>
+		    </para></listitem></varlistentry>
+
+		<varlistentry><term>USBDEVFS_SUBMITURB</term>
+		    <listitem><para>
+		    <emphasis>TBS</emphasis>
+		    </para><para>
+		    </para></listitem></varlistentry>
+
+		</variablelist>
+	    </sect2>
+
+	</sect1>
+
+    </chapter>
+
 </book>
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