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b824979aec
Spotted by Geert Uytterhoeven <geert@linux-m68k.org>. Signed-off-by: Thomas Graf <tgraf@suug.ch> Signed-off-by: David S. Miller <davem@davemloft.net>
519 lines
17 KiB
Plaintext
519 lines
17 KiB
Plaintext
#
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# Traffic control configuration.
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#
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choice
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prompt "Packet scheduler clock source"
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depends on NET_SCHED
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default NET_SCH_CLK_JIFFIES
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help
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Packet schedulers need a monotonic clock that increments at a static
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rate. The kernel provides several suitable interfaces, each with
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different properties:
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- high resolution (us or better)
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- fast to read (minimal locking, no i/o access)
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- synchronized on all processors
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- handles cpu clock frequency changes
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but nothing provides all of the above.
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config NET_SCH_CLK_JIFFIES
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bool "Timer interrupt"
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help
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Say Y here if you want to use the timer interrupt (jiffies) as clock
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source. This clock source is fast, synchronized on all processors and
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handles cpu clock frequency changes, but its resolution is too low
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for accurate shaping except at very low speed.
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config NET_SCH_CLK_GETTIMEOFDAY
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bool "gettimeofday"
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help
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Say Y here if you want to use gettimeofday as clock source. This clock
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source has high resolution, is synchronized on all processors and
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handles cpu clock frequency changes, but it is slow.
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Choose this if you need a high resolution clock source but can't use
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the CPU's cycle counter.
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config NET_SCH_CLK_CPU
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bool "CPU cycle counter"
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depends on X86_TSC || X86_64 || ALPHA || SPARC64 || PPC64 || IA64
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help
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Say Y here if you want to use the CPU's cycle counter as clock source.
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This is a cheap and high resolution clock source, but on some
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architectures it is not synchronized on all processors and doesn't
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handle cpu clock frequency changes.
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The useable cycle counters are:
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x86/x86_64 - Timestamp Counter
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alpha - Cycle Counter
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sparc64 - %ticks register
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ppc64 - Time base
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ia64 - Interval Time Counter
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Choose this if your CPU's cycle counter is working properly.
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endchoice
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config NET_SCH_CBQ
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tristate "CBQ packet scheduler"
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depends on NET_SCHED
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---help---
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Say Y here if you want to use the Class-Based Queueing (CBQ) packet
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scheduling algorithm for some of your network devices. This
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algorithm classifies the waiting packets into a tree-like hierarchy
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of classes; the leaves of this tree are in turn scheduled by
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separate algorithms (called "disciplines" in this context).
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See the top of <file:net/sched/sch_cbq.c> for references about the
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CBQ algorithm.
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CBQ is a commonly used scheduler, so if you're unsure, you should
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say Y here. Then say Y to all the queueing algorithms below that you
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want to use as CBQ disciplines. Then say Y to "Packet classifier
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API" and say Y to all the classifiers you want to use; a classifier
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is a routine that allows you to sort your outgoing traffic into
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classes based on a certain criterion.
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To compile this code as a module, choose M here: the
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module will be called sch_cbq.
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config NET_SCH_HTB
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tristate "HTB packet scheduler"
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depends on NET_SCHED
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---help---
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Say Y here if you want to use the Hierarchical Token Buckets (HTB)
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packet scheduling algorithm for some of your network devices. See
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<http://luxik.cdi.cz/~devik/qos/htb/> for complete manual and
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in-depth articles.
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HTB is very similar to the CBQ regarding its goals however is has
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different properties and different algorithm.
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To compile this code as a module, choose M here: the
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module will be called sch_htb.
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config NET_SCH_HFSC
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tristate "HFSC packet scheduler"
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depends on NET_SCHED
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---help---
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Say Y here if you want to use the Hierarchical Fair Service Curve
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(HFSC) packet scheduling algorithm for some of your network devices.
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To compile this code as a module, choose M here: the
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module will be called sch_hfsc.
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#tristate ' H-PFQ packet scheduler' CONFIG_NET_SCH_HPFQ
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config NET_SCH_ATM
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tristate "ATM pseudo-scheduler"
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depends on NET_SCHED && ATM
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---help---
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Say Y here if you want to use the ATM pseudo-scheduler. This
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provides a framework for invoking classifiers (aka "filters"), which
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in turn select classes of this queuing discipline. Each class maps
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the flow(s) it is handling to a given virtual circuit (see the top of
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<file:net/sched/sch_atm.c>).
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To compile this code as a module, choose M here: the
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module will be called sch_atm.
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config NET_SCH_PRIO
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tristate "The simplest PRIO pseudoscheduler"
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depends on NET_SCHED
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help
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Say Y here if you want to use an n-band priority queue packet
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"scheduler" for some of your network devices or as a leaf discipline
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for the CBQ scheduling algorithm. If unsure, say Y.
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To compile this code as a module, choose M here: the
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module will be called sch_prio.
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config NET_SCH_RED
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tristate "RED queue"
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depends on NET_SCHED
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help
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Say Y here if you want to use the Random Early Detection (RED)
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packet scheduling algorithm for some of your network devices (see
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the top of <file:net/sched/sch_red.c> for details and references
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about the algorithm).
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To compile this code as a module, choose M here: the
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module will be called sch_red.
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config NET_SCH_SFQ
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tristate "SFQ queue"
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depends on NET_SCHED
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---help---
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Say Y here if you want to use the Stochastic Fairness Queueing (SFQ)
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packet scheduling algorithm for some of your network devices or as a
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leaf discipline for the CBQ scheduling algorithm (see the top of
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<file:net/sched/sch_sfq.c> for details and references about the SFQ
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algorithm).
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To compile this code as a module, choose M here: the
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module will be called sch_sfq.
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config NET_SCH_TEQL
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tristate "TEQL queue"
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depends on NET_SCHED
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---help---
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Say Y here if you want to use the True Link Equalizer (TLE) packet
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scheduling algorithm for some of your network devices or as a leaf
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discipline for the CBQ scheduling algorithm. This queueing
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discipline allows the combination of several physical devices into
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one virtual device. (see the top of <file:net/sched/sch_teql.c> for
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details).
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To compile this code as a module, choose M here: the
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module will be called sch_teql.
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config NET_SCH_TBF
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tristate "TBF queue"
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depends on NET_SCHED
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help
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Say Y here if you want to use the Simple Token Bucket Filter (TBF)
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packet scheduling algorithm for some of your network devices or as a
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leaf discipline for the CBQ scheduling algorithm (see the top of
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<file:net/sched/sch_tbf.c> for a description of the TBF algorithm).
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To compile this code as a module, choose M here: the
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module will be called sch_tbf.
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config NET_SCH_GRED
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tristate "GRED queue"
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depends on NET_SCHED
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help
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Say Y here if you want to use the Generic Random Early Detection
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(GRED) packet scheduling algorithm for some of your network devices
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(see the top of <file:net/sched/sch_red.c> for details and
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references about the algorithm).
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To compile this code as a module, choose M here: the
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module will be called sch_gred.
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config NET_SCH_DSMARK
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tristate "Diffserv field marker"
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depends on NET_SCHED
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help
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Say Y if you want to schedule packets according to the
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Differentiated Services architecture proposed in RFC 2475.
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Technical information on this method, with pointers to associated
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RFCs, is available at <http://www.gta.ufrj.br/diffserv/>.
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To compile this code as a module, choose M here: the
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module will be called sch_dsmark.
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config NET_SCH_NETEM
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tristate "Network emulator"
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depends on NET_SCHED
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help
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Say Y if you want to emulate network delay, loss, and packet
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re-ordering. This is often useful to simulate networks when
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testing applications or protocols.
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To compile this driver as a module, choose M here: the module
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will be called sch_netem.
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If unsure, say N.
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config NET_SCH_INGRESS
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tristate "Ingress Qdisc"
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depends on NET_SCHED
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help
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If you say Y here, you will be able to police incoming bandwidth
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and drop packets when this bandwidth exceeds your desired rate.
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If unsure, say Y.
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To compile this code as a module, choose M here: the
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module will be called sch_ingress.
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config NET_QOS
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bool "QoS support"
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depends on NET_SCHED
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---help---
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Say Y here if you want to include Quality Of Service scheduling
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features, which means that you will be able to request certain
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rate-of-flow limits for your network devices.
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This Quality of Service (QoS) support will enable you to use
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Differentiated Services (diffserv) and Resource Reservation Protocol
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(RSVP) on your Linux router if you also say Y to "Packet classifier
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API" and to some classifiers below. Documentation and software is at
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<http://diffserv.sourceforge.net/>.
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Note that the answer to this question won't directly affect the
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kernel: saying N will just cause the configurator to skip all
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the questions about QoS support.
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config NET_ESTIMATOR
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bool "Rate estimator"
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depends on NET_QOS
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help
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In order for Quality of Service scheduling to work, the current
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rate-of-flow for a network device has to be estimated; if you say Y
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here, the kernel will do just that.
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config NET_CLS
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bool "Packet classifier API"
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depends on NET_SCHED
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---help---
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The CBQ scheduling algorithm requires that network packets which are
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scheduled to be sent out over a network device be classified
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according to some criterion. If you say Y here, you will get a
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choice of several different packet classifiers with the following
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questions.
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This will enable you to use Differentiated Services (diffserv) and
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Resource Reservation Protocol (RSVP) on your Linux router.
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Documentation and software is at
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<http://diffserv.sourceforge.net/>.
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config NET_CLS_BASIC
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tristate "Basic classifier"
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depends on NET_CLS
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---help---
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Say Y here if you want to be able to classify packets using
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only extended matches and actions.
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To compile this code as a module, choose M here: the
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module will be called cls_basic.
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config NET_CLS_TCINDEX
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tristate "TC index classifier"
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depends on NET_CLS
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help
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If you say Y here, you will be able to classify outgoing packets
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according to the tc_index field of the skb. You will want this
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feature if you want to implement Differentiated Services using
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sch_dsmark. If unsure, say Y.
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To compile this code as a module, choose M here: the
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module will be called cls_tcindex.
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config NET_CLS_ROUTE4
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tristate "Routing table based classifier"
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depends on NET_CLS
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select NET_CLS_ROUTE
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help
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If you say Y here, you will be able to classify outgoing packets
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according to the route table entry they matched. If unsure, say Y.
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To compile this code as a module, choose M here: the
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module will be called cls_route.
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config NET_CLS_ROUTE
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bool
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default n
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config NET_CLS_FW
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tristate "Firewall based classifier"
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depends on NET_CLS
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help
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If you say Y here, you will be able to classify outgoing packets
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according to firewall criteria you specified.
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To compile this code as a module, choose M here: the
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module will be called cls_fw.
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config NET_CLS_U32
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tristate "U32 classifier"
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depends on NET_CLS
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help
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If you say Y here, you will be able to classify outgoing packets
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according to their destination address. If unsure, say Y.
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To compile this code as a module, choose M here: the
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module will be called cls_u32.
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config CLS_U32_PERF
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bool "U32 classifier performance counters"
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depends on NET_CLS_U32
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help
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gathers stats that could be used to tune u32 classifier performance.
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Requires a new iproute2
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You MUST NOT turn this on if you dont have an update iproute2.
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config NET_CLS_IND
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bool "classify input device (slows things u32/fw) "
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depends on NET_CLS_U32 || NET_CLS_FW
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help
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This option will be killed eventually when a
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metadata action appears because it slows things a little
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Available only for u32 and fw classifiers.
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Requires a new iproute2
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You MUST NOT turn this on if you dont have an update iproute2.
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config CLS_U32_MARK
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bool "Use nfmark as a key in U32 classifier"
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depends on NET_CLS_U32 && NETFILTER
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help
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This allows you to match mark in a u32 filter.
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Example:
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tc filter add dev eth0 protocol ip parent 1:0 prio 5 u32 \
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match mark 0x0090 0xffff \
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match ip dst 4.4.4.4 \
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flowid 1:90
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You must use a new iproute2 to use this feature.
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config NET_CLS_RSVP
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tristate "Special RSVP classifier"
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depends on NET_CLS && NET_QOS
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---help---
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The Resource Reservation Protocol (RSVP) permits end systems to
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request a minimum and maximum data flow rate for a connection; this
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is important for real time data such as streaming sound or video.
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Say Y here if you want to be able to classify outgoing packets based
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on their RSVP requests.
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To compile this code as a module, choose M here: the
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module will be called cls_rsvp.
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config NET_CLS_RSVP6
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tristate "Special RSVP classifier for IPv6"
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depends on NET_CLS && NET_QOS
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---help---
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The Resource Reservation Protocol (RSVP) permits end systems to
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request a minimum and maximum data flow rate for a connection; this
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is important for real time data such as streaming sound or video.
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Say Y here if you want to be able to classify outgoing packets based
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on their RSVP requests and you are using the new Internet Protocol
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IPv6 as opposed to the older and more common IPv4.
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To compile this code as a module, choose M here: the
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module will be called cls_rsvp6.
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config NET_EMATCH
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bool "Extended Matches"
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depends on NET_CLS
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---help---
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Say Y here if you want to use extended matches on top of classifiers
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and select the extended matches below.
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Extended matches are small classification helpers not worth writing
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a separate classifier.
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You must have a recent version of the iproute2 tools in order to use
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extended matches.
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config NET_EMATCH_STACK
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int "Stack size"
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depends on NET_EMATCH
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default "32"
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---help---
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Size of the local stack variable used while evaluating the tree of
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ematches. Limits the depth of the tree, i.e. the number of
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encapsulated precedences. Every level requires 4 bytes of additional
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stack space.
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config NET_EMATCH_CMP
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tristate "Simple packet data comparison"
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depends on NET_EMATCH
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---help---
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Say Y here if you want to be able to classify packets based on
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simple packet data comparisons for 8, 16, and 32bit values.
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To compile this code as a module, choose M here: the
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module will be called em_cmp.
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config NET_EMATCH_NBYTE
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tristate "Multi byte comparison"
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depends on NET_EMATCH
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---help---
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Say Y here if you want to be able to classify packets based on
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multiple byte comparisons mainly useful for IPv6 address comparisons.
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To compile this code as a module, choose M here: the
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module will be called em_nbyte.
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config NET_EMATCH_U32
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tristate "U32 hashing key"
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depends on NET_EMATCH
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---help---
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Say Y here if you want to be able to classify packets using
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the famous u32 key in combination with logic relations.
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To compile this code as a module, choose M here: the
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module will be called em_u32.
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config NET_EMATCH_META
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tristate "Metadata"
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depends on NET_EMATCH
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---help---
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Say Y here if you want to be ablt to classify packets based on
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metadata such as load average, netfilter attributes, socket
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attributes and routing decisions.
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To compile this code as a module, choose M here: the
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module will be called em_meta.
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config NET_CLS_ACT
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bool "Packet ACTION"
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depends on EXPERIMENTAL && NET_CLS && NET_QOS
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---help---
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This option requires you have a new iproute2. It enables
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tc extensions which can be used with tc classifiers.
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You MUST NOT turn this on if you dont have an update iproute2.
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config NET_ACT_POLICE
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tristate "Policing Actions"
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depends on NET_CLS_ACT
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---help---
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If you are using a newer iproute2 select this one, otherwise use one
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below to select a policer.
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You MUST NOT turn this on if you dont have an update iproute2.
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config NET_ACT_GACT
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tristate "generic Actions"
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depends on NET_CLS_ACT
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---help---
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You must have new iproute2 to use this feature.
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This adds simple filtering actions like drop, accept etc.
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config GACT_PROB
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bool "generic Actions probability"
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depends on NET_ACT_GACT
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---help---
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Allows generic actions to be randomly or deterministically used.
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config NET_ACT_MIRRED
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tristate "Packet In/Egress redirecton/mirror Actions"
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depends on NET_CLS_ACT
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---help---
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requires new iproute2
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This allows packets to be mirrored or redirected to netdevices
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config NET_ACT_IPT
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tristate "iptables Actions"
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depends on NET_CLS_ACT && NETFILTER && IP_NF_IPTABLES
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---help---
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requires new iproute2
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This allows iptables targets to be used by tc filters
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config NET_ACT_PEDIT
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tristate "Generic Packet Editor Actions"
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depends on NET_CLS_ACT
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---help---
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requires new iproute2
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This allows for packets to be generically edited
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config NET_CLS_POLICE
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bool "Traffic policing (needed for in/egress)"
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depends on NET_CLS && NET_QOS && NET_CLS_ACT!=y
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help
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Say Y to support traffic policing (bandwidth limits). Needed for
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ingress and egress rate limiting.
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config NET_ACT_SIMP
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tristate "Simple action"
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depends on NET_CLS_ACT
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---help---
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You must have new iproute2 to use this feature.
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This adds a very simple action for demonstration purposes
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The idea is to give action authors a basic example to look at.
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All this action will do is print on the console the configured
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policy string followed by _ then packet count.
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