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Linux* Base Driver for Intel(R) Ethernet Network Connection =========================================================== April 14, 2011 Contents ======== - In This Release - Identifying Your Adapter - Building and Installation - Command Line Parameters - Additional Configurations - Known Issues/Troubleshooting - Support In This Release =============== This file describes the igb Linux* Base Driver for Intel Ethernet Network Connection. This driver supports kernel versions 2.4.x and 2.6.x. 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 driver. For questions related to hardware requirements, refer to the documentation supplied with your Intel Gigabit adapter. All hardware requirements listed apply to use with Linux. The following features are now available in supported kernels: - Native VLANs - Channel Bonding (teaming) - SNMP Channel Bonding documentation can be found in the Linux kernel source: /Documentation/networking/bonding.txt The igb driver supports IEEE 1588 time stamping for kernels 2.6.30 and above. The driver information previously displayed in the /proc filesystem is not supported in this release. Alternatively, you can use ethtool (version 1.6 or later), lspci, and ifconfig to obtain the same information. Instructions on updating ethtool can be found in the section "Additional Configurations" later in this document. Identifying Your Adapter ======================== For more information on how to identify your adapter, go to the Adapter & Driver ID Guide at: http://support.intel.com/support/go/network/adapter/idguide.htm For the latest Intel network drivers for Linux, refer to the following website. Select the link for your adapter. http://support.intel.com/support/go/network/adapter/home.htm Building and Installation ========================= To build a binary RPM* package of this driver, run 'rpmbuild -tb <filename.tar.gz>'. Replace <filename.tar.gz> with the specific filename of the driver. 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 now. RPM functionality has only been tested in Red Hat distributions. 1. Move the base driver tar file to the directory of your choice. For example, use /home/username/igb or /usr/local/src/igb. 2. Untar/unzip archive: tar zxf igb-x.x.x.tar.gz 3. Change to the driver src directory: cd igb-x.x.x/src/ 4. Compile the driver module: make install The binary will be installed as: /lib/modules/<KERNEL VERSION>/kernel/drivers/net/igb/igb.[k]o The install locations listed above are the default locations. They might not be correct for certain Linux distributions. 5. Load the module using either the insmod or modprobe command: modprobe igb insmod igb Note that for 2.6 kernels the insmod command can be used if the full path to the driver module is specified. For example: insmod /lib/modules/<KERNEL VERSION>/kernel/drivers/net/igb/igb.ko With 2.6 based kernels also make sure that older igb drivers are removed from the kernel, before loading the new module: rmmod igb; modprobe igb 6. Assign an IP address to the interface by entering the following, where x is the interface number: ifconfig ethx <IP_address> 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> TROUBLESHOOTING: Some systems have trouble supporting MSI and/or MSI-X interrupts. If you believe your system needs to disable this style of interrupt, the driver can be built and installed with the command: make CFLAGS_EXTRA=-DDISABLE_PCI_MSI install Normally the driver will generate an interrupt every two seconds, so if you can see that you're no longer getting interrupts in cat /proc/interrupts for the ethX igb device, then this workaround may be necessary. To build igb driver with DCA: ------------------------------ If your kernel supports DCA, the driver will build by default with DCA enabled. 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 igb [<option>=<VAL1>,<VAL2>,...] For example: modprobe igb InterruptThrottleRate=16000,16000 The default value for each parameter is generally the recommended setting, unless otherwise noted. NOTES: For more information about the InterruptThrottleRate, parameter, see the application note at: http://www.intel.com/design/network/applnots/ap450.htm A descriptor describes a data buffer and attributes related to the data buffer. This information is accessed by the hardware. InterruptThrottleRate --------------------- Valid Range: 0,1,3,100-100000 (0=off, 1=dynamic, 3=dynamic conservative) Default Value: 3 The driver can limit the amount of interrupts per second that the adapter will generate for incoming packets. It does this by writing a value to the adapter that is based on the maximum amount of interrupts that the adapter will generate per second. Setting InterruptThrottleRate to a value greater or equal to 100 will program the adapter to send out a maximum of 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. The default behaviour of the driver previously assumed a static InterruptThrottleRate value of 8000, providing a good fallback value for all traffic types,but lacking in small packet performance and latency. The hardware can handle many more small packets per second however, and for this reason an adaptive interrupt moderation algorithm was implemented. The driver has two adaptive modes (setting 1 or 3) in which it dynamically adjusts the InterruptThrottleRate value based on the traffic that it receives. After determining the type of incoming traffic in the last timeframe, it will adjust the InterruptThrottleRate to an appropriate value for that traffic. The algorithm classifies the incoming traffic every interval into classes. Once the class is determined, the InterruptThrottleRate value is adjusted to suit that traffic type the best. There are three classes defined: "Bulk traffic", for large amounts of packets of normal size; "Low latency", for small amounts of traffic and/or a significant percentage of small packets; and "Lowest latency", for almost completely small packets or minimal traffic. In dynamic conservative mode, the InterruptThrottleRate value is set to 4000 for traffic that falls in class "Bulk traffic". If traffic falls in the "Low latency" or "Lowest latency" class, the InterruptThrottleRate is increased stepwise to 20000. This default mode is suitable for most applications. For situations where low latency is vital such as cluster or grid computing, the algorithm can reduce latency even more when InterruptThrottleRate is set to mode 1. In this mode, which operates the same as mode 3, the InterruptThrottleRate will be increased stepwise to 70000 for traffic in class "Lowest latency". Setting InterruptThrottleRate to 0 turns off any interrupt moderation and may improve small packet latency, but is generally not suitable for bulk throughput traffic. NOTE: Dynamic interrupt throttling is only applicable to adapters operating in MSI or Legacy interrupt mode, using a single receive queue. NOTE: When igb is loaded with default settings and multiple adapters are in use simultaneously, the CPU utilization may increase non- linearly. In order to limit the CPU utilization without impacting the overall throughput, we recommend that you load the driver as follows: modprobe igb InterruptThrottleRate=3000,3000,3000 This sets the InterruptThrottleRate to 3000 interrupts/sec for the first, second, and third instances of the driver. The range of 2000 to 3000 interrupts per second works on a majority of systems and is a good starting point, but the optimal value will be platform-specific. If CPU utilization is not a concern, use default driver settings. 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. LLIPort ------- Valid Range: 0-65535 Default Value: 0 (disabled) 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. LLIPush ------- Valid Range: 0-1 Default Value: 0 (disabled) 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. LLISize ------- Valid Range: 0-1500 Default Value: 0 (disabled) Causes an immediate interrupt if the board receives a packet smaller than the specified size. IntMode ------- Valid Range: 0-2 Default Value: 2 0 - Legacy Interrupts, single queue 1 - MSI interrupts, single queue 2 - MSI-X interrupts, single queue (default) Allows changing interrupt mode and MQ status at load time, without requiring a recompile. If the driver fails to enable a specific interrupt mode, it will fail back to lesser capabilities. RSS --- Valid Range: 0-8 Default Value: 1 0 - Assign up to whichever is less, number of CPUS or number of queues X - Assign X queues where X is less than the maximum number of queues Note: for 82575-based adapters the maximum number of queues is 4; for 82576-based and newer adapters it is 8. This parameter is also affected by the VMDq parameter in that it will limit the queues more. VMDQ Model 0 1 2 3+ 82575 4 4 3 1 82576 8 2 2 2 82580 8 1 1 1 VMDQ ---- Valid Range: 0 - 4 on 82575-based adapters; and 0 - 8 for 82576/82580-based adapters. Default Value: 0 Supports enabling VMDq pools as this is needed to support SR-IOV. 0 - disabled 1 - sets the netdev as pool 0 2+ - add additional queues but they currently are not used. This parameter is forced to 1 or more if the max_vfs module parameter is used. In addition the number of queues available for RSS is limited if this is set to 1 or greater. max_vfs ------- Valid Range: 0-7 Default Value: 0 If the value is greater than 0 it will also force the VMDq parameter to be 1 or more. This parameter adds support for SR-IOV. It causes the driver to spawn up to max_vfs worth of virtual function. QueuePairs ---------- Valid Range: 0-1 Default Value: 1 (TX and RX will be paired onto one interrupt vector) If set to 0, when MSI-X is enabled, the TX and RX will attempt to occupy separate vectors. This option can be overridden to 1 if there are not sufficient interrupts available. This can occur if any combination of RSS, VMDQ, and max_vfs results in more than 4 queues being used. Node ---- Valid Range: 0-n Default Value: -1 (off) 0 - n: where n is the number of the NUMA node that should be used to allocate memory for this adapter port. -1: uses the driver default of allocating memory on whichever processor is running insmod/modprobe. The Node parameter will allow you to pick which NUMA node you want to have the adapter allocate memory from. All driver structures, in-memory queues, and receive buffers will be allocated on the node specified. This parameter is only useful when interrupt affinity is specified, otherwise some portion of the time the interrupt could run on a different core than the memory is allocated on, causing slower memory access and impacting throughput, CPU, or both. EEE --- Valid Range: 0-1 Default Value: 1 (enabled) 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 1Gbps and 100Mbps link speeds. NOTE: EEE support requires autonegotiation. DMAC ---- Valid Range: 0, 250, 500, 1000, 2000, 3000, 4000, 5000, 6000, 7000, 8000, 9000, 10000. Default Value: 0 (disabled) Enables or disables DMA Coalescing feature. Values are in usec�s and increase the internal DMA Coalescing feature�s internal timer. 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 later. This will impart the greatest chance for your system to consume less power. DMA Coalescing is effective in helping potentially saving the platform power only when it is enabled across all active ports. 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 = Disable, 1 = Enable Default Value: 1 This parameter is only relevant for I350 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. Additional 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 Linux Base Driver for the Gigabit Family of Adapters is igb. As an example, if you install the igb driver for two Gigabit 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 igb alias eth1 igb options igb IntMode=2,1 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 MTU to a value larger than the default of 1500. Use the ifconfig command to increase the MTU size. For example: ifconfig eth<x> mtu 9000 up This setting is not saved across reboots. It can be made permanent if you add: MTU=9000 to the file /etc/sysconfig/network-scripts/ifcfg-eth<x>. This example applies to the Red Hat distributions; other distributions may store this setting in a different location. Notes: - To enable Jumbo Frames, increase the MTU size on the interface beyond 1500. - The maximum MTU setting for Jumbo Frames is 9216. This value coincides with the maximum Jumbo Frames size of 9234 bytes. - Using Jumbo frames at 10 or 100 Mbps is not supported and may result in poor performance or loss of link. ethtool ------- The driver utilizes the ethtool interface for driver configuration and diagnostics, as well as displaying statistical information. ethtool version 3.0 or later is required for this functionality, although we strongly recommend downloading the latest version at: http://ftp.kernel.org/pub/software/network/ethtool/. Enabling Wake on LAN* (WoL) --------------------------- WoL is configured through the ethtool* utility. ethtool is included with all versions of Red Hat after Red Hat 7.2. For other Linux distributions, download and install ethtool from the following website: http://sourceforge.net/projects/gkernel. For instructions on enabling WoL with ethtool, refer to the website listed above. WoL will be enabled on the system during the next shut down or reboot. For this driver version, in order to enable WoL, the igb driver must be loaded when shutting down or rebooting the system. Wake On LAN is only supported on port A of multi-port adapters. Wake On LAN is not supported for the Intel(R) Gigabit VT Quad Port Server Adapter. Multiqueue ---------- In this mode, a separate MSI-X vector is allocated for each queue and one for "other" interrupts such as link status change and errors. All interrupts are throttled via interrupt moderation. Interrupt moderation must be used to avoid interrupt storms while the driver is processing one interrupt. The moderation value should be at least as large as the expected time for the driver to process an interrupt. Multiqueue is off by default. REQUIREMENTS: MSI-X support is required for Multiqueue. If MSI-X is not found, the system will fallback to MSI or to Legacy interrupts. This driver supports multiqueue in kernel versions 2.6.24 and greater. This driver supports receive multiqueue on all kernels that support MSI-X. NOTE: Do not use MSI-X with the 2.6.19 or 2.6.20 kernels. LRO --- 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. NOTE: LRO requires 2.4.22 or later kernel version. IGB_LRO is a compile time flag. The user can enable it at compile time to add support for LRO from the driver. The flag is used by adding CFLAGS_EXTRA="-DIGB_LRO" to the make file when it's being compiled. make CFLAGS_EXTRA="-DIGB_LRO" install You can verify that the driver is using LRO by looking at these counters in ethtool: lro_aggregated - count of total packets that were combined lro_flushed - counts the number of packets flushed out of LRO lro_recycled - reflects the number of buffers returned to the ring from recycling NOTE: IPv6 and UDP are not supported by LRO. 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): Spoof event(s) detected on VF(n) Where n=the VF that attempted to do the spoofing. Setting MAC Address, VLAN and Rate Limit Using IProute2 Tool ------------------------------------------------------------ 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. Known Issues/Troubleshooting ============================ For known hardware and troubleshooting issues, refer to the following website. http://support.intel.com/support/go/network/adapter/home.htm Either select the link for your adapter or perform a search for the adapter number. The adapter's page lists many issues. For a complete list of hardware issues download your adapter's user guide and read the Release Notes. NOTE: After installing the driver, if your Intel Ethernet Network Connection is not working, verify in the "In This Release" section of the readme that you have installed the correct driver. Using the igb driver on 2.4 or older 2.6 based kernels ------------------------------------------------------ Due to limited support for PCI-Express in 2.4 kernels and older 2.6 kernels, the igb driver may run into interrupt related problems on some systems, such as no link or hang when bringing up the device. We recommend the newer 2.6 based kernels, as these kernels correctly configure the PCI-Express configuration space of the adapter and all intervening bridges. If you are required to use a 2.4 kernel, use a 2.4 kernel newer than 2.4.30. For 2.6 kernels we recommend using the 2.6.21 kernel or newer. Alternatively, on 2.6 kernels you may disable MSI support in the kernel by booting with the "pci=nomsi" option or permanently disable MSI support in your kernel by configuring your kernel with CONFIG_PCI_MSI unset. Intel(R) Active Management Technology 2.0, 2.1, 2.5 not supported in conjunction with Linux driver --------------------------------------------------------------------- Driver Compilation ------------------ When trying to compile the driver by running make install, the following error may occur: "Linux kernel source not configured - missing version.h" To solve this issue, create the version.h file by going to the Linux source tree and entering: make include/linux/version.h. Performance Degradation with Jumbo Frames ----------------------------------------- Degradation in throughput performance may be observed in some Jumbo frames environments. If this is observed, increasing the application's socket buffer size and/or increasing the /proc/sys/net/ipv4/tcp_*mem entry values may help. See the specific application manual and /usr/src/linux*/Documentation/networking/ip-sysctl.txt for more details. Jumbo Frames on Foundry BigIron 8000 switch ------------------------------------------- There is a known issue using Jumbo frames when connected to a Foundry BigIron 8000 switch. This is a 3rd party limitation. If you experience loss of packets, lower the MTU size. 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 line: net.ipv4.conf.all.arp_filter = 1 to the file /etc/sysctl.conf or, install the interfaces in separate broadcast domains (either in different switches or in a switch partitioned to VLANs). Disable rx flow control with ethtool ------------------------------------ In order to disable receive flow control using ethtool, you must turn off auto-negotiation on the same command line. For example: ethtool -A eth? autoneg off rx off Unplugging network cable while ethtool -p is running ---------------------------------------------------- In kernel versions 2.5.50 and later (including 2.6 kernel), unplugging the network cable while ethtool -p is running will cause the system to become unresponsive to keyboard commands, except for control-alt-delete. Restarting the system appears to be the only remedy. Trouble passing traffic with on ports 1 and 2 using RHEL3 --------------------------------------------------------- There is a known hardware compatibility issue on some systems with RHEL3 kernels. Traffic on ports 1 and 2 may be slower than expected and ping times higher than expected. This issue MAY be resolved by updating to the latest kernel and BIOS. You can check your system's BIOS by downloading the Linux Firmware Developer Kit that can be obtained at http://www.linuxfirmwarekit.org/ Do Not Use LRO When Routing Packets ----------------------------------- Due to a known general compatibility issue with LRO and routing, do not use LRO when routing packets. Build error with Asianux 3.0 - redefinition of typedef 'irq_handler_t' --------------------------------------------------------------------- Some systems may experience build issues due to redefinition of irq_handler_t. To resolve this issue build the driver (step 4 above) using the command: make CFLAGS_EXTRA=-DAX_RELEASE_CODE=1 install 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. Rx Page Allocation Errors ------------------------- Page allocation failure. order:0 errors may occur under stress with kernels 2.6.25 and above. This is caused by the way the Linux kernel reports this stressed condition. Under Redhat 5.4-GA - System May Crash when Closing Guest OS Window after Loading/Unloading Physical Function (PF) Driver ------------------------------------------------------------------------- Do not remove the igb 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. 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 drivers with CFLAGS_EXTRA=-DDISABLE_PCI_MSI if the driver need 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 (R) 82576-based GbE or Intel (R) 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 later kernel works fine, 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, but rather that 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. The workaround is to tell KVM to emulate a different model of CPU when using qemu to create the KVM guest: "-cpu qemu64,model=13" Support ======= For general information, go to the Intel support website at: 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 the supported kernel with a supported adapter, email the specific information related to the issue to [email protected] License ======= Intel Gigabit Linux driver. Copyright(c) 1999 - 2011 Intel Corporation. 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". Trademarks ========== Intel, Itanium, and Pentium are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries. * Other names and brands may be claimed as the property of others.
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