DOC: A couple corrections and clarifications in USB doc.

A couple of corrections and clarifications in USB documentation. Signed-off-by: Robert P. J. Day <rpjday@crashcourse.ca> Signed-off-by: Jesper Juhl <jesper.juhl@gmail.com>
author: Robert P. J. Day <rpjday@crashcourse.ca> 2008-04-21 18:57:50 -0400
committer: Jesper Juhl <juhl@hera.kernel.org> 2008-04-21 18:57:50 -0400
commit: 838cb6aba4cebcf4fcd06b90e2adf890bef884ac (patch)
tree: 30f485426309483487ad821fa9980c61564e7cbe /Documentation/DocBook
parent: 37679011c5a674eb80bff5c2b9b067bf16011d46 (diff)
1 files changed, 7 insertions, 7 deletions
diff --git a/Documentation/DocBook/writing_usb_driver.tmpl b/Documentation/DocBook/writing_usb_driver.tmpl
index d4188d4ff535..eeff19ca831b 100644
--- a/Documentation/DocBook/writing_usb_driver.tmpl
+++ b/Documentation/DocBook/writing_usb_driver.tmpl
@@ -100,8 +100,8 @@
      useful documents, at the USB home page (see Resources). An excellent
      introduction to the Linux USB subsystem can be found at the USB Working
      Devices List (see Resources). It explains how the Linux USB subsystem is
-      structured and introduces the reader to the concept of USB urbs, which
+      structured and introduces the reader to the concept of USB urbs
-      are essential to USB drivers.
+      (USB Request Blocks), which are essential to USB drivers.
  </para>
  <para>
      The first thing a Linux USB driver needs to do is register itself with
@@ -162,8 +162,8 @@ static int __init usb_skel_init(void)
 module_init(usb_skel_init);
  </programlisting>
  <para>
-      When the driver is unloaded from the system, it needs to unregister
+      When the driver is unloaded from the system, it needs to deregister
-      itself with the USB subsystem. This is done with the usb_unregister
+      itself with the USB subsystem. This is done with the usb_deregister
      function:
  </para>
  <programlisting>
@@ -232,7 +232,7 @@ static int skel_probe(struct usb_interface *interface,
     were passed to the USB subsystem will be called from a user program trying
     to talk to the device. The first function called will be open, as the
     program tries to open the device for I/O. We increment our private usage
-     count and save off a pointer to our internal structure in the file
+     count and save a pointer to our internal structure in the file
     structure. This is done so that future calls to file operations will
     enable the driver to determine which device the user is addressing.  All
     of this is done with the following code:
@@ -252,8 +252,8 @@ file->private_data = dev;
     send to the device based on the size of the write urb it has created (this
     size depends on the size of the bulk out end point that the device has).
     Then it copies the data from user space to kernel space, points the urb to
-     the data and submits the urb to the USB subsystem.  This can be shown in
+     the data and submits the urb to the USB subsystem.  This can be seen in
-     he following code:
+     the following code:
  </para>
  <programlisting>
 /* we can only write as much as 1 urb will hold */
author	Robert P. J. Day <rpjday@crashcourse.ca>	2008-04-21 18:57:50 -0400
committer	Jesper Juhl <juhl@hera.kernel.org>	2008-04-21 18:57:50 -0400
commit	838cb6aba4cebcf4fcd06b90e2adf890bef884ac (patch)
tree	30f485426309483487ad821fa9980c61564e7cbe /Documentation/DocBook
parent	37679011c5a674eb80bff5c2b9b067bf16011d46 (diff)

diff --git a/Documentation/DocBook/writing_usb_driver.tmpl b/Documentation/DocBook/writing_usb_driver.tmpl index d4188d4ff535..eeff19ca831b 100644 --- a/Documentation/DocBook/writing_usb_driver.tmpl +++ b/Documentation/DocBook/writing_usb_driver.tmpl
@@ -100,8 +100,8 @@
100	useful documents, at the USB home page (see Resources). An excellent	100	useful documents, at the USB home page (see Resources). An excellent
101	introduction to the Linux USB subsystem can be found at the USB Working	101	introduction to the Linux USB subsystem can be found at the USB Working
102	Devices List (see Resources). It explains how the Linux USB subsystem is	102	Devices List (see Resources). It explains how the Linux USB subsystem is
103	structured and introduces the reader to the concept of USB urbs, which	103	structured and introduces the reader to the concept of USB urbs
104	are essential to USB drivers.	104	(USB Request Blocks), which are essential to USB drivers.
105	</para>	105	</para>
106	<para>	106	<para>
107	The first thing a Linux USB driver needs to do is register itself with	107	The first thing a Linux USB driver needs to do is register itself with
@@ -162,8 +162,8 @@ static int __init usb_skel_init(void)
162	module_init(usb_skel_init);	162	module_init(usb_skel_init);
163	</programlisting>	163	</programlisting>
164	<para>	164	<para>
165	When the driver is unloaded from the system, it needs to unregister	165	When the driver is unloaded from the system, it needs to deregister
166	itself with the USB subsystem. This is done with the usb_unregister	166	itself with the USB subsystem. This is done with the usb_deregister
167	function:	167	function:
168	</para>	168	</para>
169	<programlisting>	169	<programlisting>
@@ -232,7 +232,7 @@ static int skel_probe(struct usb_interface *interface,
232	were passed to the USB subsystem will be called from a user program trying	232	were passed to the USB subsystem will be called from a user program trying
233	to talk to the device. The first function called will be open, as the	233	to talk to the device. The first function called will be open, as the
234	program tries to open the device for I/O. We increment our private usage	234	program tries to open the device for I/O. We increment our private usage
235	count and save off a pointer to our internal structure in the file	235	count and save a pointer to our internal structure in the file
236	structure. This is done so that future calls to file operations will	236	structure. This is done so that future calls to file operations will
237	enable the driver to determine which device the user is addressing. All	237	enable the driver to determine which device the user is addressing. All
238	of this is done with the following code:	238	of this is done with the following code:
@@ -252,8 +252,8 @@ file->private_data = dev;
252	send to the device based on the size of the write urb it has created (this	252	send to the device based on the size of the write urb it has created (this
253	size depends on the size of the bulk out end point that the device has).	253	size depends on the size of the bulk out end point that the device has).
254	Then it copies the data from user space to kernel space, points the urb to	254	Then it copies the data from user space to kernel space, points the urb to
255	the data and submits the urb to the USB subsystem. This can be shown in	255	the data and submits the urb to the USB subsystem. This can be seen in
256	he following code:	256	the following code:
257	</para>	257	</para>
258	<programlisting>	258	<programlisting>
259	/* we can only write as much as 1 urb will hold */	259	/* we can only write as much as 1 urb will hold */