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ixgbe Linux* Base Driver for Intel(R) Ethernet Network Connections
==================================================================

================================================================================

June 4, 2018

================================================================================

Contents
--------

- Important Note
- Overview
- Building and Installation
- Command Line Parameters
- Additional Configurations
- Known Issues/Troubleshooting
- Support
- License


================================================================================


Important Notes
---------------

Disable LRO if enabling ip forwarding or bridging
-------------------------------------------------

WARNING: The ixgbe driver supports the Large Receive Offload (LRO) feature.
This option offers the lowest CPU utilization for receives but is completely
incompatible with *routing/ip forwarding* and *bridging*. If enabling ip
forwarding or bridging is a requirement, it is necessary to disable LRO using
compile time options as noted in the LRO section later in this document. The
result of not disabling LRO when combined with ip forwarding or bridging can be
low throughput or even a kernel panic.


Do not unload port driver if VF with active VM is bound to it
-------------------------------------------------------------
Do not unload a port's driver if a Virtual Function (VF) with an active Virtual
Machine (VM) is bound to it. Doing so will cause the port to appear to hang.
Once the VM shuts down, or otherwise releases the VF, the command will complete.


Configuring SR-IOV for improved network security
------------------------------------------------
In a virtualized environment, on Intel(R) Ethernet Server Adapters that support
SR-IOV, the virtual function (VF) may be subject to malicious behavior.
Software-generated layer two frames, like IEEE 802.3x (link flow control), IEEE
802.1Qbb (priority based flow-control), and others of this type, are not
expected and can throttle traffic between the host and the virtual switch,
reducing performance. To resolve this issue, configure all SR-IOV enabled ports
for VLAN tagging. This configuration allows unexpected, and potentially
malicious, frames to be dropped.


Overview
========
This driver supports kernel versions 2.6.x and newer.

Driver information can be obtained using ethtool, lspci, and ifconfig.
Instructions on updating ethtool can be found in the section Additional
Configurations later in this document.

This driver is only supported as a loadable module at this time. Intel is not
supplying patches against the kernel source to allow for static linking of the
drivers.

For questions related to hardware requirements, refer to the documentation
supplied with your Intel adapter. All hardware requirements listed apply to use
with Linux.

Adapter teaming is implemented using the native Linux Channel bonding module.
This is included in supported Linux kernels. Channel Bonding documentation can
be found in the Linux kernel source:
/documentation/networking/bonding.txt

This driver supports XDP (Express Data Path) on kernel 4.14 and later. Note
that XDP is blocked for frame sizes larger than 3KB.

The driver information previously displayed in the /proc file system is not
supported in this release.

NOTE: Devices based on the Intel(R) Ethernet Connection X552 and Intel(R)
Ethernet Connection X553 do not support the following features:
* Energy Efficient Ethernet (EEE)
* Intel PROSet for Windows Device Manager
* Intel ANS teams or VLANs (LBFO is supported)
* Fibre Channel over Ethernet (FCoE)
* Data Center Bridging (DCB)
* IPSec Offloading
* MACSec Offloading
In addition, SFP+ devices based on the Intel(R) Ethernet Connection X552 and
Intel(R) Ethernet Connection X553 do not support the following features:
* Speed and duplex auto-negotiation.
* Wake on LAN
* 1000BASE-T SFP Modules


Identifying Your Adapter
========================
The driver is compatible with devices based on the following:
  * Intel(R) Ethernet Controller 82598
  * Intel(R) Ethernet Controller 82599
  * Intel(R) Ethernet Controller X520
  * Intel(R) Ethernet Controller X540
  * Intel(R) Ethernet Controller x550
  * Intel(R) Ethernet Controller X552
  * Intel(R) Ethernet Controller X553

For information on how to identify your adapter, and for the latest Intel
network drivers, refer to the Intel Support website:
http://www.intel.com/support


SFP+ Devices with Pluggable Optics
----------------------------------

82599-BASED ADAPTERS
--------------------

NOTES:
- If your 82599-based Intel(R) Network Adapter came with Intel optics or is an
  Intel(R) Ethernet Server Adapter X520-2, then it only supports Intel optics
  and/or the direct attach cables listed below.
- When 82599-based SFP+ devices are connected back to back, they should be
  set to the same Speed setting via ethtool. Results may vary if you mix
  speed settings.

Supplier	Type					Part Numbers
--------	----					------------
SR Modules
Intel		DUAL RATE 1G/10G SFP+ SR (bailed)	FTLX8571D3BCV-IT
Intel		DUAL RATE 1G/10G SFP+ SR (bailed)	AFBR-703SDZ-IN2
Intel		DUAL RATE 1G/10G SFP+ SR (bailed)	AFBR-703SDDZ-IN1
LR Modules
Intel		DUAL RATE 1G/10G SFP+ LR (bailed)	FTLX1471D3BCV-IT
Intel		DUAL RATE 1G/10G SFP+ LR (bailed)	AFCT-701SDZ-IN2
Intel		DUAL RATE 1G/10G SFP+ LR (bailed)	AFCT-701SDDZ-IN1

The following is a list of 3rd party SFP+ modules that have received some
testing. Not all modules are applicable to all devices.

Supplier	Type					Part Numbers
--------	----					------------
Finisar		SFP+ SR bailed, 10g single
rate		FTLX8571D3BCL
Avago		SFP+ SR bailed, 10g single rate		AFBR-700SDZ
Finisar		SFP+ LR bailed, 10g single
rate		FTLX1471D3BCL
Finisar		DUAL RATE 1G/10G SFP+ SR (No
Bail)	FTLX8571D3QCV-IT
Avago		DUAL RATE 1G/10G SFP+ SR (No Bail)	AFBR-703SDZ-IN1
Finisar		DUAL RATE 1G/10G SFP+ LR (No
Bail)	FTLX1471D3QCV-IT
Avago		DUAL RATE 1G/10G SFP+ LR (No Bail)	AFCT-701SDZ-IN1

Finisar		1000BASE-T
SFP				FCLF8522P2BTL
Avago		1000BASE-T				ABCU-5710RZ
HP		1000BASE-SX SFP				453153-001

82599-based adapters support all passive and active limiting direct attach
cables that comply with SFF-8431 v4.1 and SFF-8472 v10.4 specifications.


Laser turns off for SFP+ when ifconfig ethX down
------------------------------------------------

"ifconfig ethX down" turns off the laser for 82599-based SFP+ fiber adapters.
"ifconfig ethX up" turns on the laser.
Alternatively, you can use "ip link set [down/up] dev ethX" to turn the
laser off and on.


82599-based QSFP+ Adapters
--------------------------

NOTES:
- If your 82599-based Intel(R) Network Adapter came with Intel optics, it
  only supports Intel optics.
- 82599-based QSFP+ adapters only support 4x10 Gbps connections.
  1x40 Gbps connections are not supported. QSFP+ link partners must be
  configured for 4x10 Gbps.
- 82599-based QSFP+ adapters do not support automatic link speed detection.
  The link speed must be configured to either 10 Gbps or 1 Gbps to match the
  link partners speed capabilities. Incorrect speed configurations will result
  in failure to link.
- Intel(R) Ethernet Converged Network Adapter X520-Q1 only supports the
  optics and direct attach cables listed below.


Supplier	Type				Part Numbers
--------	----				------------
Intel	DUAL RATE 1G/10G QSFP+ SRL (bailed)	E10GQSFPSR

82599-based QSFP+ adapters support all passive and active limiting QSFP+
direct attach cables that comply with SFF-8436 v4.1 specifications.


82598-BASED ADAPTERS
--------------------

NOTES:
- Intel(r) Ethernet Network Adapters that support removable optical modules
  only support their original module type (for example, the Intel(R) 10 Gigabit
  SR Dual Port Express Module only supports SR optical modules). If you plug
  in a different type of module, the driver will not load.
- Hot Swapping/hot plugging optical modules is not supported.
- Only single speed, 10 gigabit modules are supported.
- LAN on Motherboard (LOMs) may support DA, SR, or LR modules. Other module
  types are not supported. Please see your system documentation for details.

  The following is a list of SFP+ modules and direct attach cables that have
  received some testing. Not all modules are applicable to all devices.

Supplier	Type					Part Numbers
--------	----					------------
Finisar		SFP+ SR bailed, 10g single
rate		FTLX8571D3BCL
Avago		SFP+ SR bailed, 10g single rate		AFBR-700SDZ
Finisar		SFP+ LR bailed, 10g single
rate		FTLX1471D3BCL

82598-based adapters support all passive direct attach cables that comply with
SFF-8431 v4.1 and SFF-8472 v10.4 specifications. Active direct attach cables
are not supported.

Third party optic modules and cables referred to above are listed only for the
purpose of highlighting third party specifications and potential
compatibility, and are not recommendations or endorsements or sponsorship of
any third party's product by Intel. Intel is not endorsing or promoting
products made by any third party and the third party reference is provided
only to share information regarding certain optic modules and cables with the
above specifications. There may be other manufacturers or suppliers, producing
or supplying optic modules and cables with similar or matching descriptions.
Customers must use their own discretion and diligence to purchase optic
modules and cables from any third party of their choice. Customers are solely
responsible for assessing the suitability of the product and/or devices and
for the selection of the vendor for purchasing any product. THE OPTIC MODULES
AND CABLES REFERRED TO ABOVE ARE NOT WARRANTED OR SUPPORTED BY INTEL. INTEL
ASSUMES NO LIABILITY WHATSOEVER, AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED
WARRANTY, RELATING TO SALE AND/OR USE OF SUCH THIRD PARTY PRODUCTS OR
SELECTION OF VENDOR BY CUSTOMERS.


================================================================================


Building and Installation
-------------------------
To build a binary RPM* package of this driver, run 'rpmbuild -tb
ixgbe-<x.x.x>.tar.gz', where <x.x.x> is the version number for the driver tar
file.

Note: For the build to work properly, the currently running kernel MUST match
the version and configuration of the installed kernel sources. If you have just
recompiled the kernel reboot the system before building.

Note: RPM functionality has only been tested in Red Hat distributions.
_lbank_line_

1. Move the base driver tar file to the directory of your choice. For
   example, use '/home/username/ixgbe' or '/usr/local/src/ixgbe'.

2. Untar/unzip the archive, where <x.x.x> is the version number for the
   driver tar file:
   tar zxf ixgbe-<x.x.x>.tar.gz

3. Change to the driver src directory, where <x.x.x> is the version number
   for the driver tar:
   cd ixgbe-<x.x.x>/src/

4. Compile the driver module:
   # make install
   The binary will be installed as:
   /lib/modules/<KERNEL
VERSION>/updates/drivers/net/ethernet/intel/ixgbe/ixgbe.ko

   The install location listed above is the default location. This may differ
   for various Linux distributions.
   NOTE: To compile the driver on some kernel/arch combinations, a
   package with the development version of libelf (e.g. libelf-dev,
   libelf-devel, elfutilsl-libelf-devel) may need to be installed.

5. Load the module using the modprobe command:
   modprobe <ixgbe> [parameter=port1_value,port2_value]

   Make sure that any older ixgbe drivers are removed from the kernel before
   loading the new module:
   rmmod ixgbe; modprobe ixgbe

6. Assign an IP address to the interface by entering the following,
   where ethX is the interface name that was shown in dmesg after modprobe:
  
   ip address add <IP_address>/<netmask bits> dev ethX

7. Verify that the interface works. Enter the following, where IP_address
   is the IP address for another machine on the same subnet as the interface
   that is being tested:
   ping <IP_address>

Note: For certain distributions like (but not limited to) RedHat Enterprise
Linux 7 and Ubuntu, once the driver is installed the initrd/initramfs file may
need to be updated to prevent the OS loading old versions of the ixgbe driver.
The dracut utility may be used on RedHat distributions:
	# dracut --force
   For Ubuntu:
	# update-initramfs -u


================================================================================


Command Line Parameters
-----------------------
If the driver is built as a module, the following optional parameters are used
by entering them on the command line with the modprobe command using this
syntax:
modprobe ixgbe [<option>=<VAL1>,<VAL2>,...]

There needs to be a <VAL#> for each network port in the system supported by
this driver. The values will be applied to each instance, in function order.
For example:
modprobe ixgbe InterruptThrottleRate=16000,16000

In this case, there are two network ports supported by ixgbe in the system.
The default value for each parameter is generally the recommended setting,
unless otherwise noted.

NOTE: For more information about the command line parameters, see the
application note at: http://www.intel.com/design/network/applnots/ap450.htm.

NOTE: A descriptor describes a data buffer and attributes related to the data
buffer. This information is accessed by the hardware.


RSS
---
Valid Range: 0-16
0 = Assign up to the lesser value of the number of CPUs or the number of queues
X = Assign X queues, where X is less than or equal to the maximum number of
queues (16 queues).
RSS also effects the number of transmit queues allocated on 2.6.23 and
newer kernels with CONFIG_NETDEVICES_MULTIQUEUE set in the kernel .config file.
CONFIG_NETDEVICES_MULTIQUEUE only exists from 2.6.23 to 2.6.26. Other options
enable multiqueue in 2.6.27 and newer kernels.


Multiqueue
----------
Valid Range:
0, 1
0 = Disables Multiple Queue support
1 = Enabled Multiple Queue support (a prerequisite for RSS)


Direct Cache Access (DCA)
-------------------------
Valid Range: 0, 1
0 = Disables DCA support in the driver
1 = Enables DCA support in the driver
If the driver is enabled for DCA, this parameter allows load-time control of
the feature.
Note: DCA is not supported on X550-based adapters.


IntMode
-------
Valid Range: 0-2 (0 = Legacy Int, 1 = MSI and 2 = MSI-X)
IntMode controls allow load time control over the type of interrupt
registered for by the driver. MSI-X is required for multiple queue
support, and some kernels and combinations of kernel .config options
will force a lower level of interrupt support.
'cat /proc/interrupts' will show different values for each type of interrupt.


InterruptThrottleRate
---------------------
Valid Range:
0=off
1=dynamic
<min_ITR>-<max_ITR>
Interrupt Throttle Rate controls the number of interrupts each interrupt
vector can generate per second. Increasing ITR lowers latency at the cost of
increased CPU utilization, though it may help throughput in some circumstances.
0 = Setting InterruptThrottleRate to 0 turns off any interrupt moderation
  and may improve small packet latency. However, this is generally not
  suitable for bulk throughput traffic due to the increased CPU utilization
  of the higher interrupt rate.
  NOTES:
  - On 82599, and X540, and X550-based adapters, disabling InterruptThrottleRate
    will also result in the driver disabling HW RSC.
  - On 82598-based adapters, disabling InterruptThrottleRate will also
    result in disabling LRO (Large Receive Offloads).
1 = Setting InterruptThrottleRate to Dynamic mode attempts to moderate
  interrupts per vector while maintaining very low latency. This can
  sometimes cause extra CPU utilization. If planning on deploying ixgbe
  in a latency sensitive environment, this parameter should be considered.
<min_ITR>-<max_ITR> = 956-488281
  Setting InterruptThrottleRate to a value greater or equal to <min_ITR>
  will program the adapter to send at most that many interrupts
  per second, even if more packets have come in. This reduces interrupt load
  on the system and can lower CPU utilization under heavy load, but will
  increase latency as packets are not processed as quickly.



LLI (Low Latency Interrupts)
----------------------------

LLI allows for immediate generation of an interrupt upon processing receive
packets that match certain criteria as set by the parameters described below.
LLI parameters are not enabled when Legacy interrupts are used. You must be
using MSI or MSI-X (see cat /proc/interrupts) to successfully use LLI.

Note: LLI is not supported on X550-based adapters.


LLIPort
-------
Valid Range: 0-65535
LLI is configured with the LLIPort command-line parameter, which specifies
which TCP port should generate Low Latency Interrupts.
For example, using LLIPort=80 would cause the board to generate an immediate
interrupt upon receipt of any packet sent to TCP port 80 on the local machine.
WARNING: Enabling LLI can result in an excessive number of interrupts/second
that may cause problems with the system and in some cases may cause a kernel
panic.

Note: LLI is not supported on X550-based adapters.


LLIPush
-------
Valid Range: 0-1
LLIPush can be set to be enabled or disabled (default). It is most effective
in an environment with many small transactions.
NOTE: Enabling LLIPush may allow a denial of service attack.

Note: LLI is not supported on X550-based adapters.


LLISize
-------
Valid Range: 0-1500
LLISize causes an immediate interrupt if the board receives a packet smaller
than the specified size.

Note: LLI is not supported on X550-based adapters.


LLIEType
--------
Valid Range: 0-0x8FFF
This parameter specifies the Low Latency Interrupt (LLI) Ethernet protocol type.

Note: LLI is not supported on X550-based adapters.


LLIVLANP
--------

Valid Range: 0-7

This parameter specifies the LLI on VLAN priority threshold.

Note: LLI is not supported on X550-based adapters.


Flow Control
------------
Ethernet Flow Control (IEEE 802.3x) can be configured with ethtool to enable
receiving and transmitting pause frames for ixgbe. When transmit is enabled,
pause frames are generated when the receive packet buffer crosses a predefined
threshold. When receive is enabled, the transmit unit will halt for the time
delay specified when a pause frame is received.

NOTE: You must have a flow control capable link partner.

Flow Control is enabled by default.

Use ethtool to change the flow control settings.

To enable or disable rx or tx Flow Control:
ethtool -A eth? rx <on|off> tx <on|off>
Note: This command only enables or disables Flow Control if auto-negotiation is
disabled. If auto-negotiation is enabled, this command changes the parameters
used for auto-negotiation with the link partner.

To enable or disable auto-negotiation:
ethtool -s eth? autoneg <on|off>
Note: Flow Control auto-negotiation is part of link auto-negotiation. Depending
on your device, you may not be able to change the auto-negotiation setting.

NOTE: For 82598 backplane cards entering 1 gigabit mode, flow control default
behavior is changed to off. Flow control in 1 gigabit mode on these devices can
lead to transmit hangs.


Intel(R) Ethernet Flow Director
-------------------------------
NOTE: Intel Ethernet Flow Director parameters are only supported on kernel
versions 2.6.30 or newer.

The Intel Ethernet Flow Director performs the following tasks:

- Directs receive packets according to their flows to different queues.
- Enables tight control on routing a flow in the platform.
- Matches flows and CPU cores for flow affinity.
- Supports multiple parameters for flexible flow classification and load
  balancing (in SFP mode only).

NOTE: An included script (set_irq_affinity) automates setting the IRQ to CPU
affinity.

NOTE: Intel Ethernet Flow Director masking works in the opposite manner from
subnet masking. In the following command:
  #ethtool -N eth11 flow-type ip4 src-ip 172.4.1.2 m 255.0.0.0 dst-ip \
  172.21.1.1 m 255.128.0.0 action 31
The src-ip value that is written to the filter will be 0.4.1.2, not 172.0.0.0
as might be expected. Similarly, the dst-ip value written to the filter will be
0.21.1.1, not 172.0.0.0.

ethtool commands:

To enable or disable the Intel Ethernet Flow Director:

  # ethtool -K ethX ntuple <on|off>

When disabling ntuple filters, all the user programmed filters are flushed from
the driver cache and hardware. All needed filters must be re-added when ntuple
is re-enabled.

To add a filter that directs packet to queue 2, use -U or -N switch:

  # ethtool -N ethX flow-type tcp4 src-ip 192.168.10.1 dst-ip \
  192.168.10.2 src-port 2000 dst-port 2001 action 2 [loc 1]

To see the list of filters currently present:
  # ethtool <-u|-n> ethX


Sideband Perfect Filters
------------------------
Sideband Perfect Filters are used to direct traffic that matches specified
characteristics. They are enabled through ethtool's ntuple interface. To add a
new filter use the following command:
  ethtool -U <device> flow-type <type> src-ip <ip> dst-ip <ip> src-port <port>
dst-port <port> action <queue>
Where:
  <device> - the ethernet device to program
  <type> - can be ip4, tcp4, udp4, or sctp4
  <ip> - the ip address to match on
  <port> - the port number to match on
  <queue> - the queue to direct traffic towards (-1 discards the matched
traffic)
Use the following command to display all of the active filters:
  ethtool -u <device>
Use the following command to delete a filter:
  ethtool -U <device> delete <N>
Where <N> is the filter id displayed when printing all the active filters, and
may also have been specified using "loc <N>" when adding the filter.

The following example matches TCP traffic sent from 192.168.0.1, port 5300,
directed to 192.168.0.5, port 80, and sends it to queue 7:
  ethtool -U enp130s0 flow-type tcp4 src-ip 192.168.0.1 dst-ip 192.168.0.5
  src-port 5300 dst-port 80 action 7

For each flow-type, the programmed filters must all have the same matching
input set. For example, issuing the following two commands is acceptable:
  ethtool -U enp130s0 flow-type ip4 src-ip 192.168.0.1 src-port 5300 action 7
  ethtool -U enp130s0 flow-type ip4 src-ip 192.168.0.5 src-port 55 action 10
Issuing the next two commands, however, is not acceptable, since the first
specifies src-ip and the second specifies dst-ip:
  ethtool -U enp130s0 flow-type ip4 src-ip 192.168.0.1 src-port 5300 action 7
  ethtool -U enp130s0 flow-type ip4 dst-ip 192.168.0.5 src-port 55 action 10
The second command will fail with an error. You may program multiple filters
with the same fields, using different values, but, on one device, you may not
program two tcp4 filters with different matching fields.

Matching on a sub-portion of a field is not supported by the ixgbe driver, thus
partial mask fields are not supported.

The driver also supports matching user-defined data within the packet payload.
This flexible data is specified using the "user-def" field of the ethtool
command in the following way:
+----------------------------+--------------------------+
| 31    28    24    20    16 | 15    12    8    4    0  |
+----------------------------+--------------------------+
| offset into packet payload | 2 bytes of flexible data |
+----------------------------+--------------------------+

For example,
  ... user-def 0x4FFFF ...

tells the filter to look 4 bytes into the payload and match that value against
0xFFFF. The offset is based on the beginning of the payload, and not the
beginning of the packet. Thus

  flow-type tcp4 ... user-def 0x8BEAF ...

would match TCP/IPv4 packets which have the value 0xBEAF 8 bytes into the
TCP/IPv4 payload.

Note that ICMP headers are parsed as 4 bytes of header and 4 bytes of payload.
Thus to match the first byte of the payload, you must actually add 4 bytes to
the offset. Also note that ip4 filters match both ICMP frames as well as raw
(unknown) ip4 frames, where the payload will be the L3 payload of the IP4 frame.

The maximum offset is 64. The hardware will only read up to 64 bytes of data
from the payload. The offset must be even because the flexible data is 2 bytes
long and must be aligned to byte 0 of the packet payload.

The user-defined flexible offset is also considered part of the input set and
cannot be programmed separately for multiple filters of the same type. However,
the flexible data is not part of the input set and multiple filters may use the
same offset but match against different data.

To create filters that direct traffic to a specific Virtual Function, use the
"action" parameter. Specify the action as a 64 bit value, where the lower 32
bits represents the queue number, while the next 8 bits represent which VF.
Note that 0 is the PF, so the VF identifier is offset by 1. For example:

  ... action 0x800000002 ...

specifies to direct traffic to Virtual Function 7 (8 minus 1) into queue 2 of
that VF.

Note that these filters will not break internal routing rules, and will not
route traffic that otherwise would not have been sent to the specified Virtual
Function.


Support for UDP RSS
-------------------

This feature adds an ON/OFF switch for hashing over certain flow types. Only
UDP can be turned on. The default setting is disabled.

Only support for enabling/disabling hashing on ports for UDP over IPv4 (UDP4) or
IPv6 (UDP6) is supported.

NOTE: Fragmented packets may arrive out of order when RSS UDP support is
configured.

Supported Ethtool Commands and Options:
  -n --show-nfc
    Retrieves the receive network flow classification configurations.
  rx-flow-hash tcp4|udp4|ah4|esp4|sctp4|tcp6|udp6|ah6|esp6|sctp6
    Retrieves the hash options for the specified network traffic type.
  -N --config-nfc
    Configures the receive network flow classification.
  rx-flow-hash tcp4|udp4|ah4|esp4|sctp4|tcp6|udp6|ah6|esp6|sctp6
  m|v|t|s|d|f|n|r...
    Configures the hash options for the specified network traffic type.
	udp4	UDP over IPv4
	udp6	UDP over IPv6
	f	Hash on bytes 0 and 1 of the Layer 4 header of the rx packet.
	n	Hash on bytes 2 and 3 of the Layer 4 header of the rx packet.

The following is an example using udp4 (UDP over IPv4):
  - To include UDP port numbers in RSS hashing run:
    ethtool -N ethX rx-flow-hash udp4 sdfn

  - To exclude UDP port numbers from RSS hashing run:
    ethtool -N ethX rx-flow-hash udp4 sd

  - To display UDP hashing current configuration run:
    ethtool -n ethX rx-flow-hash udp4

The results of running that call will be the following, if UDP hashing is
enabled.

  UDP over IPV4 flows use these fields for computing Hash flow key:
    IP SA
    IP DA
    L4 bytes 0 & 1 [TCP/UDP src port]
    L4 bytes 2 & 3 [TCP/UDP dst port]

The results if UDP hashing is disabled are shown below.
  UDP over IPV4 flows use these fields for computing Hash flow key:
    IP SA
    IP DA

Parameters FdirPballoc and AtrSampleRate impact Flow Director.


FdirPballoc
-----------
Valid Range: 1-3
Specifies the Flow Director allocated packet buffer size.
1 = 64k
2 = 128k
3 = 256k


AtrSampleRate
-------------
Valid Range: 0-255
This parameter is used with the Flow Director and is the software ATR transmit
packet sample rate. For example, when AtrSampleRate is set to 20, every 20th
packet looks to see if the packet will create a new flow. A value of 0
indicates that ATR should be disabled and no samples will be taken.


max_vfs
-------
This parameter adds support for SR-IOV. It causes the driver to spawn up to
max_vfs worth of virtual functions.
Valid Range: 1-63
If the value is greater than 0 it will also force the VMDq parameter to be 1 or
more.

NOTE: This parameter is only used on kernel 3.7.x and below. On kernel 3.8.x
and above, use sysfs to enable VFs. Also, for Red Hat distributions, this
parameter is only used on version 6.6 and older. For version 6.7 and newer, use
sysfs. For example:
#echo $num_vf_enabled > /sys/class/net/$dev/device/sriov_numvfs	//enable
VFs
#echo 0 > /sys/class/net/$dev/device/sriov_numvfs	//disable VFs

The parameters for the driver are referenced by position. Thus, if you have a
dual port adapter, or more than one adapter in your system, and want N virtual
functions per port, you must specify a number for each port with each parameter
separated by a comma. For example:

  modprobe ixgbe max_vfs=4

This will spawn 4 VFs on the first port.

  modprobe ixgbe max_vfs=2,4

This will spawn 2 VFs on the first port and 4 VFs on the second port.

NOTE: Caution must be used in loading the driver with these parameters.
Depending on your system configuration, number of slots, etc., it is impossible
to predict in all cases where the positions would be on the command line.

NOTE: Neither the device nor the driver control how VFs are mapped into config
space. Bus layout will vary by operating system. On operating systems that
support it, you can check sysfs to find the mapping.

NOTE: When either SR-IOV mode or VMDq mode is enabled, hardware VLAN filtering
and VLAN tag stripping/insertion will remain enabled. Please remove the old
VLAN filter before the new VLAN filter is added. For example,
ip link set eth0 vf 0 vlan 100	// set vlan 100 for VF 0
ip link set eth0 vf 0 vlan 0	// Delete vlan 100
ip link set eth0 vf 0 vlan 200	// set a new vlan 200 for VF 0

With kernel 3.6, the driver supports the simultaneous usage of max_vfs and DCB
features, subject to the constraints described below. Prior to kernel 3.6, the
driver did not support the simultaneous operation of max_vfs greater than 0 and
the DCB features (multiple traffic classes utilizing Priority Flow Control and
Extended Transmission Selection).

When DCB is enabled, network traffic is transmitted and received through
multiple traffic classes (packet buffers in the NIC). The traffic is associated
with a specific class based on priority, which has a value of 0 through 7 used
in the VLAN tag. When SR-IOV is not enabled, each traffic class is associated
with a set of receive/transmit descriptor queue pairs. The number of queue
pairs for a given traffic class depends on the hardware configuration. When
SR-IOV is enabled, the descriptor queue pairs are grouped into pools. The
Physical Function (PF) and each Virtual Function (VF) is allocated a pool of
receive/transmit descriptor queue pairs. When multiple traffic classes are
configured (for example, DCB is enabled), each pool contains a queue pair from
each traffic class. When a single traffic class is configured in the hardware,
the pools contain multiple queue pairs from the single traffic class.

The number of VFs that can be allocated depends on the number of traffic
classes that can be enabled. The configurable number of traffic classes for
each enabled VF is as follows:
0 - 15 VFs = Up to 8 traffic classes, depending on device support
16 - 31 VFs = Up to 4 traffic classes
32 - 63 VFs = 1 traffic class

When VFs are configured, the PF is allocated one pool as well. The PF supports
the DCB features with the constraint that each traffic class will only use a
single queue pair. When zero VFs are configured, the PF can support multiple
queue pairs per traffic class.


Configuring SR-IOV for improved network security
------------------------------------------------
In a virtualized environment, on Intel(R) Ethernet Server Adapters that support
SR-IOV, the virtual function (VF) may be subject to malicious behavior.
Software-generated layer two frames, like IEEE 802.3x (link flow control), IEEE
802.1Qbb (priority based flow-control), and others of this type, are not
expected and can throttle traffic between the host and the virtual switch,
reducing performance. To resolve this issue, configure all SR-IOV enabled ports
for VLAN tagging. This configuration allows unexpected, and potentially
malicious, frames to be dropped.


Configuring VLAN tagging on SR-IOV enabled adapter ports
--------------------------------------------------------
To configure VLAN tagging for the ports on an SR-IOV enabled adapter, use the
following command. The VLAN configuration should be done before the VF driver
is loaded or the VM is booted.

$ ip link set dev <PF netdev id> vf <id> vlan <vlan id>

For example, the following instructions will configure PF eth0 and the first VF
on VLAN 10.
$ ip link set dev eth0 vf 0 vlan 10


L2LBen
------
Valid Range: 0 (disabled), 1 (enabled)
This parameter controls the internal switch (L2 loopback between pf and vf).
By default the switch is enabled.


LRO
---
Valid Range: 0(off), 1(on)
Large Receive Offload (LRO) is a technique for increasing inbound throughput
of high-bandwidth network connections by reducing CPU overhead. It works by
aggregating multiple incoming packets from a single stream into a larger
buffer before they are passed higher up the networking stack, thus reducing
the number of packets that have to be processed. LRO combines multiple
Ethernet frames into a single receive in the stack, thereby potentially
decreasing CPU utilization for receives.
This technique is also referred to as Hardware Receive Side Coalescing
(HW RSC). 82599 and X540, and X550-based adapters support HW RSC. The
LRO parameter controls HW RSC enablement.
You can verify that the driver is using LRO by looking at these counters in
ethtool:
- hw_rsc_aggregated - counts total packets that were combined
- hw_rsc_flushed - counts the number of packets flushed out of LRO
NOTE: IPv6 and UDP are not supported by LRO.


EEE
---
Valid Range: 0-1
0 = Disables EEE
1 = Enables EEE
A link between two EEE-compliant devices will result in periodic bursts of data
followed by periods where the link is in an idle state. This Low Power Idle
(LPI) state is supported in both 1 Gbps and 10 Gbps link speeds.

NOTES:
- EEE support requires auto-negotiation.
- Both link partners must support EEE.
- EEE is not supported on all Intel(R) Ethernet Network devices or at all link
speeds.


DMAC
----
Valid Range: 0, 41-10000
This parameter enables or disables DMA Coalescing feature. Values are in
microseconds and set the internal DMA Coalescing internal timer.
DMAC is available on Intel(R) X550 (and later) based adapters.
DMA (Direct Memory Access) allows the network device to move packet data
directly to the system's memory, reducing CPU utilization. However, the
frequency and random intervals at which packets arrive do not allow the system
to enter a lower power state. DMA Coalescing allows the adapter to collect
packets before it initiates a DMA event. This may increase network latency but
also increases the chances that the system will enter a lower power state.
Turning on DMA Coalescing may save energy with kernel 2.6.32 and newer. DMA
Coalescing must be enabled across all active ports in order to save platform
power.
InterruptThrottleRate (ITR) should be set to dynamic. When ITR=0, DMA
Coalescing is automatically disabled.
A whitepaper containing information on how to best configure your platform is
available on the Intel website.


MDD (Malicious Driver Detection)
--------------------------------
Valid Range: 0-1
0 = Disabled
1 = Enabled
This parameter is only relevant for devices operating in SR-IOV mode.
When this parameter is set, the driver detects malicious VF driver and
disables its Tx/Rx queues until a VF driver reset occurs.


AQRate
------
Devices that support AQRate (X550 and later) will include 2.5 Gbps and 5 Gbps
in the speeds that the driver advertises during auto-negotiation, even though
ethtool will not display 2.5 Gbps or 5 Gbps as "Supported link modes" or
"Advertised link modes." These speeds are only available through unmodified
auto-negotiation. You cannot use ethtool -s advertise to force auto-negotiation
to advertise 2.5 Gbps or 5 Gbps. If a 2.5 Gbps or 5 Gbps link is created,
ethtool will report the correct link speed.


================================================================================


Additional Features and Configurations
-------------------------------------------

Configuring the Driver on Different Distributions
-------------------------------------------------
Configuring a network driver to load properly when the system is started is
distribution dependent. Typically, the configuration process involves adding an
alias line to /etc/modules.conf or /etc/modprobe.conf as well as editing other
system startup scripts and/or configuration files. Many popular Linux
distributions ship with tools to make these changes for you. To learn the
proper way to configure a network device for your system, refer to your
distribution documentation. If during this process you are asked for the driver
or module name, the name for the Base Driver is ixgbe.

For example, if you install the ixgbe driver for two adapters (eth0 and eth1)
and want to set the interrupt mode to MSI-X and MSI, respectively, add the
following to modules.conf or /etc/modprobe.conf:
alias eth0 ixgbe
alias eth1 ixgbe
options ixgbe InterruptThrottleRate=3,1


Viewing Link Messages
---------------------
Link messages will not be displayed to the console if the distribution is
restricting system messages. In order to see network driver link messages on
your console, set dmesg to eight by entering the following:
dmesg -n 8

NOTE: This setting is not saved across reboots.


Jumbo Frames
------------
Jumbo Frames support is enabled by changing the Maximum Transmission Unit (MTU)
to a value larger than the default value of 1500.

Use the ifconfig command to increase the MTU size. For example, enter the
following where <x> is the interface number:

   ifconfig eth<x> mtu 9000 up
Alternatively, you can use the ip command as follows:
   ip link set mtu 9000 dev eth<x>
   ip link set up dev eth<x>

This setting is not saved across reboots. The setting change can be made
permanent by adding 'MTU=9000' to the file:
/etc/sysconfig/network-scripts/ifcfg-eth<x> for RHEL or to the file
/etc/sysconfig/network/<config_file> for SLES.

NOTE: The maximum MTU setting for Jumbo Frames is 9710. This value coincides
with the maximum Jumbo Frames size of 9728 bytes.

NOTE: This driver will attempt to use multiple page sized buffers to receive
each jumbo packet. This should help to avoid buffer starvation issues when
allocating receive packets.

NOTE: Packet loss may have a greater impact on throughput when you use jumbo
frames. If you observe a drop in performance after enabling jumbo frames,
enabling flow control may mitigate the issue.

NOTE: For 82599-based network connections, if you are enabling jumbo frames in
a virtual function (VF), jumbo frames must first be enabled in the physical
function (PF). The VF MTU setting cannot be larger than the PF MTU.


ethtool
-------
The driver utilizes the ethtool interface for driver configuration and
diagnostics, as well as displaying statistical information. The latest ethtool
version is required for this functionality. Download it at:
http://ftp.kernel.org/pub/software/network/ethtool/


Speed and Duplex Configuration
------------------------------
In addressing speed and duplex configuration issues, you need to distinguish
between copper-based adapters and fiber-based adapters.

In the default mode, an Intel(R) Ethernet Network Adapter using copper
connections will attempt to auto-negotiate with its link partner to determine
the best setting. If the adapter cannot establish link with the link partner
using auto-negotiation, you may need to manually configure the adapter and link
partner to identical settings to establish link and pass packets. This should
only be needed when attempting to link with an older switch that does not
support auto-negotiation or one that has been forced to a specific speed or
duplex mode. Your link partner must match the setting you choose. 1 Gbps speeds
and higher cannot be forced. Use the autonegotiation advertising setting to
manually set devices for 1 Gbps and higher.

Speed, duplex, and autonegotiation advertising are configured through the
ethtool* utility. ethtool is included with all versions of Red Hat after Red
Hat 7.2. For the latest version, download and install ethtool from the
following website:

   http://ftp.kernel.org/pub/software/network/ethtool/

Caution: Only experienced network administrators should force speed and duplex
or change autonegotiation advertising manually. The settings at the switch must
always match the adapter settings. Adapter performance may suffer or your
adapter may not operate if you configure the adapter differently from your
switch.

An Intel(R) Ethernet Network Adapter using fiber-based connections, however,
will not attempt to auto-negotiate with its link partner since those adapters
operate only in full duplex and only at their native speed.

NOTE: For the Intel(R) Ethernet Connection X552 10 GbE SFP+ you must specify
the desired speed.


MAC and VLAN anti-spoofing feature
----------------------------------
When a malicious driver attempts to send a spoofed packet, it is dropped by the
hardware and not transmitted.

An interrupt is sent to the PF driver notifying it of the spoof attempt. When a
spoofed packet is detected, the PF driver will send the following message to
the system log (displayed by the "dmesg" command):
ixgbe ethX: ixgbe_spoof_check: n spoofed packets detected
where "x" is the PF interface number; and "n" is number of spoofed packets.
NOTE: This feature can be disabled for a specific Virtual Function (VF):
ip link set <pf dev> vf <vf id> spoofchk {off|on}


IPRoute2 Tool for setting MAC address, VLAN and rate limit
----------------------------------------------------------

You can set a MAC address of a Virtual Function (VF), a default VLAN and the
rate limit using the IProute2 tool. Download the latest version of the
iproute2 tool from Sourceforge if your version does not have all the features
you require.


Wake on LAN Support (WoL)
-------------------------

Some adapters do not support Wake on LAN. To determine if your adapter
supports Wake on LAN, run
  ethtool ethX

The Intel(R) Ethernet Converged Network Adapter X550-T1 and Intel(R) Ethernet
Converged Network Adapter X550-T2 have a manageability/AUX power connector.
These devices only support WoL if AUX power is supplied via this connector.
Note that this is system and adapter specific. Some with this connector do not
support WoL. Some systems do not provide the correct power connection. See your
system documentation for details.


IEEE 1588 Precision Time Protocol (PTP) Hardware Clock (PHC)
------------------------------------------------------------
Precision Time Protocol (PTP) is used to synchronize clocks in a computer
network. PTP support varies among Intel devices that support this driver. Use
"ethtool -T <netdev name>" to get a definitive list of PTP capabilities
supported by the device.


VXLAN Overlay HW Offloading
---------------------------

Virtual Extensible LAN (VXLAN) allows you to extend an L2 network over an L3
network, which may be useful in a virtualized or cloud environment. Some
Intel(R) Ethernet Network devices perform VXLAN processing, offloading it from
the operating system. This reduces CPU utilization.

VXLAN offloading is controlled by the tx and rx checksum offload options
provided by ethtool. That is, if tx checksum offload is enabled, and the
adapter has the capability, VXLAN offloading is also enabled.

Support for VXLAN HW offloading is dependent on kernel support of the HW
offloading features.

VXLAN Overlay HW Offloading is enabled by default. To view and configure VXLAN
offload on a VXLAN-overlay offload enabled device, use the following command:

  # ethtool -k ethX
   (This command displays the offloads and their current state.)

For more information on configuring your network for overlay HW offloading
support, refer to the Intel Technical Brief, "Creating Overlay Networks Using
Intel Ethernet Converged Network Adapters" (Intel Networking Division, August
2013):

http://www.intel.com/content/dam/www/public/us/en/documents/technology-briefs/
overlay-networks-using-converged-network-adapters-brief.pdf


Virtual Function (VF) TX Rate Limit
-----------------------------------

Virtual Function (VF) TX rate limit is configured with an ip command from the
PF interface.
  # ip link set eth0 vf 0 rate 1000
    (This command sets TX Rate Limit of 1000Mbps for VF 0)

Note that the limit is set per queue and not for the entire VF interface.


================================================================================


Known Issues/Troubleshooting
============================

MAC address of Virtual Function changes unexpectedly
----------------------------------------------------
If a Virtual Function's MAC address is not assigned in the host, then the VF
(virtual function) driver will use a random MAC address. This random MAC
address may change each time the VF driver is reloaded. You can assign a static
MAC address in the host machine. This static MAC address will survive
a VF driver reload.


Hardware Issues
---------------

For known hardware and troubleshooting issues, either refer to the "Release
Notes" in your User Guide, or for more detailed information, go to
http://www.intel.com.

In the search box enter your devices controller ID followed by "spec update"
(i.e., 82599 spec update). The specification update file has complete
information on known hardware issues.


Software Issues
---------------

NOTE: After installing the driver, if your Intel Ethernet Network Connection
is not working, verify that you have installed the correct driver.

Intel(R) Active Management Technology 2.0, 2.1, 2.5 Not Supported in
Conjunction with Linux driver.


MSI-X Issues with Kernels Between 2.6.19 - 2.6.21 (inclusive)
-------------------------------------------------------------

Kernel panics and instability may be observed on any MSI-X hardware if you use
irqbalance with kernels between 2.6.19 and 2.6.21. If such problems are
encountered, you may disable the irqbalance daemon or upgrade to a newer
kernel.


LRO and iSCSI Incompatibility
-----------------------------

LRO is incompatible with iSCSI target or initiator traffic. A panic may occur
when iSCSI traffic is received through the ixgbe driver with LRO enabled. To
workaround this, the driver should be built and installed with:
# make CFLAGS_EXTRA=-DIXGBE_NO_LRO install


Multiple Interfaces on Same Ethernet Broadcast Network
------------------------------------------------------
Due to the default ARP behavior on Linux, it is not possible to have one system
on two IP networks in the same Ethernet broadcast domain (non-partitioned
switch) behave as expected. All Ethernet interfaces will respond to IP traffic
for any IP address assigned to the system. This results in unbalanced receive
traffic.

If you have multiple interfaces in a server, either turn on ARP filtering by
entering:
echo 1 > /proc/sys/net/ipv4/conf/all/arp_filter

This only works if your kernel's version is higher than 2.4.5.


NOTE: This setting is not saved across reboots. The configuration change can be
made permanent by adding the following line to the file /etc/sysctl.conf:
net.ipv4.conf.all.arp_filter = 1

Another alternative is to install the interfaces in separate broadcast domains
(either in different switches or in a switch partitioned to VLANs).


UDP Stress Test Dropped Packet Issue
------------------------------------
Under small packet UDP stress with the ixgbe driver, the system may drop UDP
packets due to socket buffers being full. Setting the driver Intel Ethernet
Flow Control variables to the minimum may resolve the issue. You may also try
increasing the kernel's default buffer sizes by changing the values in

  /proc/sys/net/core/rmem_default and rmem_max


Cisco Catalyst 4948-10GE port resets may cause switch to shut down ports
------------------------------------------------------------------------
82598-based hardware can re-establish link quickly and when connected to some
switches, rapid resets within the driver may cause the switch port to become
isolated due to "link flap". This is typically indicated by a yellow instead of
a green link light. Several operations may cause this problem, such as
repeatedly running ethtool commands that cause a reset.

A potential workaround is to use the Cisco IOS command "no errdisable detect
cause all" from the Global Configuration prompt which enables the switch to
keep the interfaces up, regardless of errors.


Rx Page Allocation Errors
-------------------------
'Page allocation failure. order:0' errors may occur under stress. with kernels
2.6.25 and newer.
This is caused by the way the Linux kernel reports this stressed condition.



DCB: Generic segmentation offload on causes bandwidth allocation issues
-----------------------------------------------------------------------
In order for DCB to work correctly, Generic Segmentation Offload (GSO), also
known as software TSO, must be disabled using ethtool. Since the hardware
supports TSO (hardware offload of segmentation), GSO will not be running by
default. The GSO state can be queried with ethtool using ethtool -k ethX.

When using 82598-based network connections, ixgbe driver only supports 16
queues on a platform with more than 16 cores.

Due to known hardware limitations, RSS can only filter in a maximum of 16
receive queues.

82599 and X540, and X550-based network connections support up to 64 queues.


Lower than expected performance
-------------------------------
Some PCIe x8 slots are actually configured as x4 slots. These slots have
insufficient bandwidth for full line rate with dual port and quad port devices.
In addition, if you put a PCIe v3.0-capable adapter into a PCIe v2.x slot, you
cannot get full bandwidth. The driver detects this situation and writes the
following message in the system log:

"PCI-Express bandwidth available for this card is not sufficient for optimal
performance. For optimal performance a x8 PCI-Express slot is required."

If this error occurs, moving your adapter to a true PCIe v3.0 x8 slot will
resolve the issue.


ethtool may incorrectly display SFP+ fiber module as direct attached cable
--------------------------------------------------------------------------
Due to kernel limitations, port type can only be correctly displayed on kernel
2.6.33 or greater.

Under Redhat 5.4, system may crash when closing guest OS window after
loading/unloading the Physical Function (PF) driver.

Do not remove the ixgbe driver from Dom0 while Virtual Functions (VFs) are
assigned to guests. VFs must first use the xm "pci-detach" command to hot-plug
the VF device out of the VM it is assigned to or else shut down the VM.

Unloading Physical Function (PF) driver may cause kernel panic or system reboot
when VM is running and VF is loaded on the VM.

On pre-3.2 Linux kernels, unloading the Physical Function (PF) driver causes
system reboots when the VM is running and VF is loaded on the VM.

Do not unload the PF driver (ixgbe) while VFs are assigned to guests.


Running ethtool -t ethX command causes break between PF and test client
-----------------------------------------------------------------------
When there are active VFs, "ethtool -t" will only run the link test. The driver
will also log in syslog that VFs should be shut down to run a full diagnostic
test.


SLES10 SP3 Random System Panic when Reloading Driver
----------------------------------------------------

This is a known SLES-10 SP3 issue. After requesting interrupts for MSI-X
vectors, system may panic.

Currently, the only known workaround is to build the driver with
CFLAGS_EXTRA=-DDISABLE_PCI_MSI if the driver needs to be loaded/unloaded.
Otherwise, the driver can be loaded once and will be safe, but unloading it
will lead to the issue.

Enabling SR-IOV in a 32-bit Microsoft* Windows* Server 2008 Guest OS Using
Intel® 82576-based GbE or Intel® 82599-based 10GbE Controller Under KVM
KVM Hypervisor/VMM supports direct assignment of a PCIe device to a VM. This
includes traditional PCIe devices, as well as SR-IOV-capable devices using
Intel 82576-based and 82599-based controllers.

While direct assignment of a PCIe device or an SR-IOV Virtual Function (VF) to
a Linux-based VM running 2.6.32 or newer kernel is functional, there is a
known issue with Microsoft Windows Server 2008 VM that results in a "yellow
bang" error. This problem is within the KVM VMM itself, not the Intel driver
or the SR-IOV logic of the VMM. The KVM emulates an older CPU model for the
guests, and this older CPU model does not support MSI-X interrupts, which is a
requirement for Intel SR-IOV.

If you wish to use the Intel 82576- or 82599-based controllers in SR-IOV mode
with KVM and a Microsoft Windows Server 2008 guest, try the following
workaround. Configure KVM to emulate a different model of CPU
when using qemu to create the KVM guest:
"-cpu qemu64,model=13"


Unable to obtain DHCP lease on boot with RedHat
-----------------------------------------------
In configurations where the auto-negotiation process takes more than 5 seconds,
the boot script may fail with the following message:
"ethX: failed. No link present. Check cable?"

This error may occur even though the presence of link can be confirmed using
ethtool ethx. In this case, try setting "LINKDELAY=30" in
/etc/sysconfig/network-scripts/ifdfg-ethx.

The same issue can occur during a network boot (via PXE) on RedHat
distributions that use the dracut script:
"Warning: No carrier detected on interface <interface_name>"

In this case add "rd.net.timeout.carrier=30" at the kernel command line.

NOTE: Link time can vary. Adjust LINKDELAY value accordingly.


Host May Reboot after Removing PF when VF is Active in Guest
------------------------------------------------------------

Using kernel versions earlier than 3.2, do not unload the PF driver with
active VFs. Doing this will cause your VFs to stop working until you reload
the PF driver and may cause a spontaneous reboot of your system.

Prior to unloading the PF driver, you must first ensure that all VFs are
no longer active. Do this by shutting down all VMs and unloading the VF driver.


Out of memory issues on IA32 systems
-------------------------------------

The driver may consume a lot of memory based on the number of CPUs and network
interfaces. This leads to memory segmentation. Thus, the driver may not be
able to allocate enough memory. To resolve this, reduce the number of
descriptors using ethtool -G or the number of queues through the RSS parameter.


VLAN tags are stripped on kernels earlier than 2.6.36
-----------------------------------------------------

In order to support DCB, kernels earlier than 2.6.36 strip VLAN tags for
VLAN0. This ensures connectivity using 802.1p frames between kernels that
have built-in support and kernels that do not.

If the VLAN tags are necessary AND DCB is NOT used, disable vlan stripping
on older kernels at build time with the following:

  # make CFLAGS_EXTRA=-DIXGBE_DISABLE_8021P_SUPPORT


================================================================================


Support
=======
For general information, go to the Intel support website at:
http://www.intel.com/support/

or the Intel Wired Networking project hosted by Sourceforge at:
http://sourceforge.net/projects/e1000
If an issue is identified with the released source code on a supported kernel
with a supported adapter, email the specific information related to the issue
to [email protected].


================================================================================


License
-------
This program is free software; you can redistribute it and/or modify it under
the terms and conditions of the GNU General Public License, version 2, as
published by the Free Software Foundation.

This program is distributed in the hope it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
PARTICULAR PURPOSE. See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
St - Fifth Floor, Boston, MA 02110-1301 USA.

The full GNU General Public License is included in this distribution in the
file called "COPYING".

Copyright(c) 1999 - 2018 Intel Corporation.
================================================================================


Trademarks
----------
Intel and Itanium are trademarks or registered trademarks of Intel Corporation
or its subsidiaries in the United States and/or other countries.

* Other names and brands may be claimed as the property of others.


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