1 files changed, 38 insertions, 31 deletions

diff --git a/Documentation/ABI/stable/firewire-cdev b/Documentation/ABI/stable/firewire-cdev
index f72ed653878a..261f85b13154 100644
--- a/Documentation/ABI/stable/firewire-cdev
+++ b/Documentation/ABI/stable/firewire-cdev
@@ -14,13 +14,17 @@ Description:
 		Each /dev/fw* is associated with one IEEE 1394 node, which can
 		be remote or local nodes.  Operations on a /dev/fw* file have
 		different scope:
+
 		  - The 1394 node which is associated with the file:
+
 			  - Asynchronous request transmission
 			  - Get the Configuration ROM
 			  - Query node ID
 			  - Query maximum speed of the path between this node
 			    and local node
+
 		  - The 1394 bus (i.e. "card") to which the node is attached to:
+
 			  - Isochronous stream transmission and reception
 			  - Asynchronous stream transmission and reception
 			  - Asynchronous broadcast request transmission
@@ -31,7 +35,9 @@ Description:
 			    manager
 			  - Query cycle time
 			  - Bus reset initiation, bus reset event reception
+
 		  - All 1394 buses:
+
 			  - Allocation of IEEE 1212 address ranges on the local
 			    link layers, reception of inbound requests to such
 			    an address range, asynchronous response transmission
@@ -43,6 +49,7 @@ Description:
 		userland implement different access permission models, some
 		operations are restricted to /dev/fw* files that are associated
 		with a local node:
+
 			  - Addition of descriptors or directories to the local
 			    nodes' Configuration ROM
 			  - PHY packet transmission and reception
@@ -55,50 +62,50 @@ Description:
 		The following file operations are supported:
 
 		open(2)
-		Currently the only useful flags are O_RDWR.
+		    Currently the only useful flags are O_RDWR.
 
 		ioctl(2)
-		Initiate various actions.  Some take immediate effect, others
-		are performed asynchronously while or after the ioctl returns.
-		See the inline documentation in <linux/firewire-cdev.h> for
-		descriptions of all ioctls.
+		    Initiate various actions.  Some take immediate effect, others
+		    are performed asynchronously while or after the ioctl returns.
+		    See the inline documentation in <linux/firewire-cdev.h> for
+		    descriptions of all ioctls.
 
 		poll(2), select(2), epoll_wait(2) etc.
-		Watch for events to become available to be read.
+		    Watch for events to become available to be read.
 
 		read(2)
-		Receive various events.  There are solicited events like
-		outbound asynchronous transaction completion or isochronous
-		buffer completion, and unsolicited events such as bus resets,
-		request reception, or PHY packet reception.  Always use a read
-		buffer which is large enough to receive the largest event that
-		could ever arrive.  See <linux/firewire-cdev.h> for descriptions
-		of all event types and for which ioctls affect reception of
-		events.
+		    Receive various events.  There are solicited events like
+		    outbound asynchronous transaction completion or isochronous
+		    buffer completion, and unsolicited events such as bus resets,
+		    request reception, or PHY packet reception.  Always use a read
+		    buffer which is large enough to receive the largest event that
+		    could ever arrive.  See <linux/firewire-cdev.h> for descriptions
+		    of all event types and for which ioctls affect reception of
+		    events.
 
 		mmap(2)
-		Allocate a DMA buffer for isochronous reception or transmission
-		and map it into the process address space.  The arguments should
-		be used as follows:  addr = NULL, length = the desired buffer
-		size, i.e. number of packets times size of largest packet,
-		prot = at least PROT_READ for reception and at least PROT_WRITE
-		for transmission, flags = MAP_SHARED, fd = the handle to the
-		/dev/fw*, offset = 0.
+		    Allocate a DMA buffer for isochronous reception or transmission
+		    and map it into the process address space.  The arguments should
+		    be used as follows:  addr = NULL, length = the desired buffer
+		    size, i.e. number of packets times size of largest packet,
+		    prot = at least PROT_READ for reception and at least PROT_WRITE
+		    for transmission, flags = MAP_SHARED, fd = the handle to the
+		    /dev/fw*, offset = 0.
 
 		Isochronous reception works in packet-per-buffer fashion except
 		for multichannel reception which works in buffer-fill mode.
 
 		munmap(2)
-		Unmap the isochronous I/O buffer from the process address space.
+		    Unmap the isochronous I/O buffer from the process address space.
 
 		close(2)
-		Besides stopping and freeing I/O contexts that were associated
-		with the file descriptor, back out any changes to the local
-		nodes' Configuration ROM.  Deallocate isochronous channels and
-		bandwidth at the IRM that were marked for kernel-assisted
-		re- and deallocation.
-
-Users:		libraw1394
-		libdc1394
-		libhinawa
+		    Besides stopping and freeing I/O contexts that were associated
+		    with the file descriptor, back out any changes to the local
+		    nodes' Configuration ROM.  Deallocate isochronous channels and
+		    bandwidth at the IRM that were marked for kernel-assisted
+		    re- and deallocation.
+
+Users:		libraw1394;
+		libdc1394;
+		libhinawa;
 		tools like linux-firewire-utils, fwhack, ...