Documentation/networking/x25-iface.txt - android_kernel_oneplus_msm8996 - Gitiles

 			X.25 Device Driver Interface 1.1

 			   Jonathan Naylor 26.12.96

 This is a description of the messages to be passed between the X.25 Packet
 Layer and the X.25 device driver. They are designed to allow for the easy
 setting of the LAPB mode from within the Packet Layer.

 The X.25 device driver will be coded normally as per the Linux device driver
 standards. Most X.25 device drivers will be moderately similar to the
 already existing Ethernet device drivers. However unlike those drivers, the
 X.25 device driver has a state associated with it, and this information
 needs to be passed to and from the Packet Layer for proper operation.

 All messages are held in sk_buff's just like real data to be transmitted
 over the LAPB link. The first byte of the skbuff indicates the meaning of
 the rest of the skbuff, if any more information does exist.


 Packet Layer to Device Driver
 -----------------------------

 First Byte = 0x00 (X25_IFACE_DATA)

 This indicates that the rest of the skbuff contains data to be transmitted
 over the LAPB link. The LAPB link should already exist before any data is
 passed down.

 First Byte = 0x01 (X25_IFACE_CONNECT)

 Establish the LAPB link. If the link is already established then the connect
 confirmation message should be returned as soon as possible.

 First Byte = 0x02 (X25_IFACE_DISCONNECT)

 Terminate the LAPB link. If it is already disconnected then the disconnect
 confirmation message should be returned as soon as possible.

 First Byte = 0x03 (X25_IFACE_PARAMS)

 LAPB parameters. To be defined.


 Device Driver to Packet Layer
 -----------------------------

 First Byte = 0x00 (X25_IFACE_DATA)

 This indicates that the rest of the skbuff contains data that has been
 received over the LAPB link.

 First Byte = 0x01 (X25_IFACE_CONNECT)

 LAPB link has been established. The same message is used for both a LAPB
 link connect_confirmation and a connect_indication.

 First Byte = 0x02 (X25_IFACE_DISCONNECT)

 LAPB link has been terminated. This same message is used for both a LAPB
 link disconnect_confirmation and a disconnect_indication.

 First Byte = 0x03 (X25_IFACE_PARAMS)

 LAPB parameters. To be defined.


 Possible Problems
 =================

 (Henner Eisen, 2000-10-28)

 The X.25 packet layer protocol depends on a reliable datalink service.
 The LAPB protocol provides such reliable service. But this reliability
 is not preserved by the Linux network device driver interface:

 - With Linux 2.4.x (and above) SMP kernels, packet ordering is not
   preserved. Even if a device driver calls netif_rx(skb1) and later
   netif_rx(skb2), skb2 might be delivered to the network layer
   earlier that skb1.
 - Data passed upstream by means of netif_rx() might be dropped by the
   kernel if the backlog queue is congested.

 The X.25 packet layer protocol will detect this and reset the virtual
 call in question. But many upper layer protocols are not designed to
 handle such N-Reset events gracefully. And frequent N-Reset events
 will always degrade performance.

 Thus, driver authors should make netif_rx() as reliable as possible:

 SMP re-ordering will not occur if the driver's interrupt handler is
 always executed on the same CPU. Thus,

 - Driver authors should use irq affinity for the interrupt handler.

 The probability of packet loss due to backlog congestion can be
 reduced by the following measures or a combination thereof:

 (1) Drivers for kernel versions 2.4.x and above should always check the
     return value of netif_rx(). If it returns NET_RX_DROP, the
     driver's LAPB protocol must not confirm reception of the frame
     to the peer.
     This will reliably suppress packet loss. The LAPB protocol will
     automatically cause the peer to re-transmit the dropped packet
     later.
     The lapb module interface was modified to support this. Its
     data_indication() method should now transparently pass the
     netif_rx() return value to the (lapb mopdule) caller.
 (2) Drivers for kernel versions 2.2.x should always check the global
     variable netdev_dropping when a new frame is received. The driver
     should only call netif_rx() if netdev_dropping is zero. Otherwise
     the driver should not confirm delivery of the frame and drop it.
     Alternatively, the driver can queue the frame internally and call
     netif_rx() later when netif_dropping is 0 again. In that case, delivery
     confirmation should also be deferred such that the internal queue
     cannot grow to much.
     This will not reliably avoid packet loss, but the probability
     of packet loss in netif_rx() path will be significantly reduced.
 (3) Additionally, driver authors might consider to support
     CONFIG_NET_HW_FLOWCONTROL. This allows the driver to be woken up
     when a previously congested backlog queue becomes empty again.
     The driver could uses this for flow-controlling the peer by means
     of the LAPB protocol's flow-control service.
	X.25 Device Driver Interface 1.1

	Jonathan Naylor 26.12.96

	This is a description of the messages to be passed between the X.25 Packet
	Layer and the X.25 device driver. They are designed to allow for the easy
	setting of the LAPB mode from within the Packet Layer.

	The X.25 device driver will be coded normally as per the Linux device driver
	standards. Most X.25 device drivers will be moderately similar to the
	already existing Ethernet device drivers. However unlike those drivers, the
	X.25 device driver has a state associated with it, and this information
	needs to be passed to and from the Packet Layer for proper operation.

	All messages are held in sk_buff's just like real data to be transmitted
	over the LAPB link. The first byte of the skbuff indicates the meaning of
	the rest of the skbuff, if any more information does exist.


	Packet Layer to Device Driver
	-----------------------------

	First Byte = 0x00 (X25_IFACE_DATA)

	This indicates that the rest of the skbuff contains data to be transmitted
	over the LAPB link. The LAPB link should already exist before any data is
	passed down.

	First Byte = 0x01 (X25_IFACE_CONNECT)

	Establish the LAPB link. If the link is already established then the connect
	confirmation message should be returned as soon as possible.

	First Byte = 0x02 (X25_IFACE_DISCONNECT)

	Terminate the LAPB link. If it is already disconnected then the disconnect
	confirmation message should be returned as soon as possible.

	First Byte = 0x03 (X25_IFACE_PARAMS)

	LAPB parameters. To be defined.


	Device Driver to Packet Layer
	-----------------------------

	First Byte = 0x00 (X25_IFACE_DATA)

	This indicates that the rest of the skbuff contains data that has been
	received over the LAPB link.

	First Byte = 0x01 (X25_IFACE_CONNECT)

	LAPB link has been established. The same message is used for both a LAPB
	link connect_confirmation and a connect_indication.

	First Byte = 0x02 (X25_IFACE_DISCONNECT)

	LAPB link has been terminated. This same message is used for both a LAPB
	link disconnect_confirmation and a disconnect_indication.

	First Byte = 0x03 (X25_IFACE_PARAMS)

	LAPB parameters. To be defined.



	Possible Problems
	=================

	(Henner Eisen, 2000-10-28)

	The X.25 packet layer protocol depends on a reliable datalink service.
	The LAPB protocol provides such reliable service. But this reliability
	is not preserved by the Linux network device driver interface:

	- With Linux 2.4.x (and above) SMP kernels, packet ordering is not
	preserved. Even if a device driver calls netif_rx(skb1) and later
	netif_rx(skb2), skb2 might be delivered to the network layer
	earlier that skb1.
	- Data passed upstream by means of netif_rx() might be dropped by the
	kernel if the backlog queue is congested.

	The X.25 packet layer protocol will detect this and reset the virtual
	call in question. But many upper layer protocols are not designed to
	handle such N-Reset events gracefully. And frequent N-Reset events
	will always degrade performance.

	Thus, driver authors should make netif_rx() as reliable as possible:

	SMP re-ordering will not occur if the driver's interrupt handler is
	always executed on the same CPU. Thus,

	- Driver authors should use irq affinity for the interrupt handler.

	The probability of packet loss due to backlog congestion can be
	reduced by the following measures or a combination thereof:

	(1) Drivers for kernel versions 2.4.x and above should always check the
	return value of netif_rx(). If it returns NET_RX_DROP, the
	driver's LAPB protocol must not confirm reception of the frame
	to the peer.
	This will reliably suppress packet loss. The LAPB protocol will
	automatically cause the peer to re-transmit the dropped packet
	later.
	The lapb module interface was modified to support this. Its
	data_indication() method should now transparently pass the
	netif_rx() return value to the (lapb mopdule) caller.
	(2) Drivers for kernel versions 2.2.x should always check the global
	variable netdev_dropping when a new frame is received. The driver
	should only call netif_rx() if netdev_dropping is zero. Otherwise
	the driver should not confirm delivery of the frame and drop it.
	Alternatively, the driver can queue the frame internally and call
	netif_rx() later when netif_dropping is 0 again. In that case, delivery
	confirmation should also be deferred such that the internal queue
	cannot grow to much.
	This will not reliably avoid packet loss, but the probability
	of packet loss in netif_rx() path will be significantly reduced.
	(3) Additionally, driver authors might consider to support
	CONFIG_NET_HW_FLOWCONTROL. This allows the driver to be woken up
	when a previously congested backlog queue becomes empty again.
	The driver could uses this for flow-controlling the peer by means
	of the LAPB protocol's flow-control service.