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author | David S. Miller <davem@davemloft.net> | 2008-07-09 08:14:24 +0200 |
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committer | David S. Miller <davem@davemloft.net> | 2008-07-09 08:14:24 +0200 |
commit | b19fa1fa91845234961c64dbd564671aa7c0fd27 (patch) | |
tree | efb09da87299ef503b59396b69a7667f1650e378 /Documentation/networking/multiqueue.txt | |
parent | netdev: Move _xmit_lock and xmit_lock_owner into netdev_queue. (diff) | |
download | linux-b19fa1fa91845234961c64dbd564671aa7c0fd27.tar.xz linux-b19fa1fa91845234961c64dbd564671aa7c0fd27.zip |
net: Delete NETDEVICES_MULTIQUEUE kconfig option.
Multiple TX queue support is a core networking feature.
Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'Documentation/networking/multiqueue.txt')
-rw-r--r-- | Documentation/networking/multiqueue.txt | 79 |
1 files changed, 1 insertions, 78 deletions
diff --git a/Documentation/networking/multiqueue.txt b/Documentation/networking/multiqueue.txt index ea5a42e8f79f..e6dc1ee9e8f1 100644 --- a/Documentation/networking/multiqueue.txt +++ b/Documentation/networking/multiqueue.txt @@ -3,19 +3,11 @@ =========================================== Section 1: Base driver requirements for implementing multiqueue support -Section 2: Qdisc support for multiqueue devices -Section 3: Brief howto using PRIO or RR for multiqueue devices - Intro: Kernel support for multiqueue devices --------------------------------------------------------- -Kernel support for multiqueue devices is only an API that is presented to the -netdevice layer for base drivers to implement. This feature is part of the -core networking stack, and all network devices will be running on the -multiqueue-aware stack. If a base driver only has one queue, then these -changes are transparent to that driver. - +Kernel support for multiqueue devices is always present. Section 1: Base driver requirements for implementing multiqueue support ----------------------------------------------------------------------- @@ -43,73 +35,4 @@ bitmap on device initialization. Below is an example from e1000: netdev->features |= NETIF_F_MULTI_QUEUE; #endif - -Section 2: Qdisc support for multiqueue devices ------------------------------------------------ - -Currently two qdiscs support multiqueue devices. A new round-robin qdisc, -sch_rr, and sch_prio. The qdisc is responsible for classifying the skb's to -bands and queues, and will store the queue mapping into skb->queue_mapping. -Use this field in the base driver to determine which queue to send the skb -to. - -sch_rr has been added for hardware that doesn't want scheduling policies from -software, so it's a straight round-robin qdisc. It uses the same syntax and -classification priomap that sch_prio uses, so it should be intuitive to -configure for people who've used sch_prio. - -In order to utilitize the multiqueue features of the qdiscs, the network -device layer needs to enable multiple queue support. This can be done by -selecting NETDEVICES_MULTIQUEUE under Drivers. - -The PRIO qdisc naturally plugs into a multiqueue device. If -NETDEVICES_MULTIQUEUE is selected, then on qdisc load, the number of -bands requested is compared to the number of queues on the hardware. If they -are equal, it sets a one-to-one mapping up between the queues and bands. If -they're not equal, it will not load the qdisc. This is the same behavior -for RR. Once the association is made, any skb that is classified will have -skb->queue_mapping set, which will allow the driver to properly queue skb's -to multiple queues. - - -Section 3: Brief howto using PRIO and RR for multiqueue devices ---------------------------------------------------------------- - -The userspace command 'tc,' part of the iproute2 package, is used to configure -qdiscs. To add the PRIO qdisc to your network device, assuming the device is -called eth0, run the following command: - -# tc qdisc add dev eth0 root handle 1: prio bands 4 multiqueue - -This will create 4 bands, 0 being highest priority, and associate those bands -to the queues on your NIC. Assuming eth0 has 4 Tx queues, the band mapping -would look like: - -band 0 => queue 0 -band 1 => queue 1 -band 2 => queue 2 -band 3 => queue 3 - -Traffic will begin flowing through each queue if your TOS values are assigning -traffic across the various bands. For example, ssh traffic will always try to -go out band 0 based on TOS -> Linux priority conversion (realtime traffic), -so it will be sent out queue 0. ICMP traffic (pings) fall into the "normal" -traffic classification, which is band 1. Therefore pings will be send out -queue 1 on the NIC. - -Note the use of the multiqueue keyword. This is only in versions of iproute2 -that support multiqueue networking devices; if this is omitted when loading -a qdisc onto a multiqueue device, the qdisc will load and operate the same -if it were loaded onto a single-queue device (i.e. - sends all traffic to -queue 0). - -Another alternative to multiqueue band allocation can be done by using the -multiqueue option and specify 0 bands. If this is the case, the qdisc will -allocate the number of bands to equal the number of queues that the device -reports, and bring the qdisc online. - -The behavior of tc filters remains the same, where it will override TOS priority -classification. - - Author: Peter P. Waskiewicz Jr. <peter.p.waskiewicz.jr@intel.com> |