| /openbmc/linux/Documentation/admin-guide/perf/ |
| H A D | nvidia-pmu.rst | 31 The SCF PMU monitors system level cache events, CPU traffic, and
32 strongly-ordered (SO) PCIE write traffic to local/remote memory. Please see
34 traffic coverage.
52 The NVLink-C2C0 PMU monitors incoming traffic from a GPU/CPU connected with
53 NVLink-C2C (Chip-2-Chip) interconnect. The type of traffic captured by this PMU
58 In this config, the PMU captures GPU ATS translated or EGM traffic from the GPU.
66 the PMU traffic coverage.
92 The NVLink-C2C1 PMU monitors incoming traffic from a GPU connected with
94 traffic, in contrast with NvLink-C2C0 PMU that captures ATS translated traffic.
96 the PMU traffic coverage.
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| /openbmc/linux/Documentation/misc-devices/ |
| H A D | dw-xdata-pcie.rst | 4 Driver for Synopsys DesignWare PCIe traffic generator (also known as xData)
22 The dw-xdata-pcie driver can be used to enable/disable PCIe traffic
33 Write TLPs traffic generation - Root Complex to Endpoint direction
36 Generate traffic::
45 Stop traffic in any direction::
49 Read TLPs traffic generation - Endpoint to Root Complex direction
52 Generate traffic::
61 Stop traffic in any direction::
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| /openbmc/linux/Documentation/networking/ |
| H A D | tc-queue-filters.rst | 7 TC can be used for directing traffic to either a set of queues or
12 1) TC filter directing traffic to a set of queues is achieved
14 the priority maps to a traffic class (set of queues) when
17 2) TC filter directs traffic to a transmit queue with the action
25 1) TC flower filter directs incoming traffic to a set of queues using
27 hw_tc $TCID - Specify a hardware traffic class to pass matching
35 devices, TC filter directing traffic to a queue have higher
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| H A D | bareudp.rst | 30 This creates a bareudp tunnel device which tunnels L3 traffic with ethertype
31 0x8847 (MPLS traffic). The destination port of the UDP header will be set to
32 6635.The device will listen on UDP port 6635 to receive traffic.
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| H A D | bonding.rst | 287 traffic recently (the precise criteria depends upon the
288 bonding mode, and the state of the slave). Regular traffic is
331 non-ARP traffic should be filtered (disregarded) for link
371 is receiving the appropriate ARP traffic.
390 target fail (but not the switch itself), the probe traffic
406 determining if a slave has received traffic for link availability
410 levels of third party broadcast traffic would fool the standard
412 filtering can resolve this, as only ARP traffic is considered for
488 often takes place for any traffic, not just ARP
489 traffic, if the switch snoops incoming traffic to
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| /openbmc/linux/Documentation/admin-guide/cgroup-v1/ |
| H A D | net_prio.rst | 6 dynamically set the priority of network traffic generated by various
9 Nominally, an application would set the priority of its traffic via the
13 2) The priority of application traffic is often a site-specific administrative
17 the priority of egress traffic on a given interface. Network priority groups can
34 This file contains a map of the priorities assigned to traffic originating
42 This command would force any traffic originating from processes belonging to the
44 said traffic set to the value 5. The parent accounting group also has a
53 traffic to be steered to hardware/driver based traffic classes. These mappings
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| /openbmc/linux/Documentation/networking/device_drivers/ethernet/freescale/ |
| H A D | dpaa.rst | 159 different traffic flows received by one interface to be processed by different
162 The driver has support for multiple prioritized Tx traffic classes. Priorities
164 strict priority levels. Each traffic class contains NR_CPU TX queues. By
165 default, only one traffic class is enabled and the lowest priority Tx queues
166 are used. Higher priority traffic classes can be enabled with the mqprio
167 qdisc. For example, all four traffic classes are enabled on an interface with
168 the following command. Furthermore, skb priority levels are mapped to traffic
171 * priorities 0 to 3 - traffic class 0 (low priority)
172 * priorities 4 to 7 - traffic class 1 (medium-low priority)
173 * priorities 8 to 11 - traffic class 2 (medium-high priority)
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| /openbmc/linux/Documentation/networking/device_drivers/ethernet/mellanox/mlx5/ |
| H A D | counters.rst | 75 with NIC. These counters include Ethernet traffic counters (including Raw
76 Ethernet) and RDMA/RoCE traffic counters.
94 Counters which count traffic. These counters can be used for load estimation
98 Counters which count traffic that was accelerated by Mellanox driver or by
100 and the same traffic is counted in both informative and acceleration counters.
127 These counters provide information on the amount of traffic that was accelerated
128 by the NIC. The counters are counting the accelerated traffic in addition to the
129 standard counters which counts it (i.e. accelerated traffic is counted twice).
230 traffic. It might imply that the device MTU is larger than the software
492 traffic rx over all queues and/or increase rx ring size.
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| /openbmc/linux/Documentation/networking/device_drivers/ethernet/intel/ |
| H A D | e1000e.rst | 64 all traffic types, but lacking in small packet performance and latency.
69 it dynamically adjusts the InterruptThrottleRate value based on the traffic
70 that it receives. After determining the type of incoming traffic in the last
72 for that traffic.
74 The algorithm classifies the incoming traffic every interval into
76 adjusted to suit that traffic type the best. There are three classes defined:
77 "Bulk traffic", for large amounts of packets of normal size; "Low latency",
78 for small amounts of traffic and/or a significant percentage of small
80 minimal traffic.
84 However, this is generally not suitable for bulk throughput traffic due
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| H A D | e1000.rst | 111 all traffic types,but lacking in small packet performance and latency.
116 it dynamically adjusts the InterruptThrottleRate value based on the traffic
117 that it receives. After determining the type of incoming traffic in the last
119 for that traffic.
121 The algorithm classifies the incoming traffic every interval into
123 adjusted to suit that traffic type the best. There are three classes defined:
124 "Bulk traffic", for large amounts of packets of normal size; "Low latency",
125 for small amounts of traffic and/or a significant percentage of small
127 minimal traffic.
130 for traffic that falls in class "Bulk traffic". If traffic falls in the "Low
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| H A D | ixgbe.rst | 232 the DCB features (multiple traffic classes utilizing Priority Flow Control and
235 When DCB is enabled, network traffic is transmitted and received through
236 multiple traffic classes (packet buffers in the NIC). The traffic is associated
238 in the VLAN tag. When SR-IOV is not enabled, each traffic class is associated
240 pairs for a given traffic class depends on the hardware configuration. When
243 receive/transmit descriptor queue pairs. When multiple traffic classes are
245 each traffic class. When a single traffic class is configured in the hardware,
246 the pools contain multiple queue pairs from the single traffic class.
248 The number of VFs that can be allocated depends on the number of traffic
249 classes that can be enabled. The configurable number of traffic classes for
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| H A D | iavf.rst | 121 allow L2 tunneling and the ability to segregate traffic within a particular
139 and allow Tx traffic to be rate limited per application. Follow the steps below
155 1. Create traffic classes (TCs). Maximum of 8 TCs can be created per interface.
209 for VXLAN traffic in non-tunnel mode, PCTYPE is identified as a VXLAN
212 - If a TC filter on a PF matches traffic over a VF (on the PF), that traffic
214 the VF. Such traffic will end up getting dropped higher up in the TCP/IP
216 - If traffic matches multiple TC filters that point to different TCs, that
217 traffic will be duplicated and sent to all matching TC queues. The hardware
236 You may not be able to pass traffic between a client system and a
251 Using four traffic classes fails
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| H A D | i40e.rst | 103 ingress traffic, use the following command::
121 this example is that the VF will get all traffic that is tagged with VLAN 100.
139 NOTE: The Linux i40e driver allows you to filter traffic based on a
187 Sideband Perfect Filters are used to direct traffic that matches specified
199 <queue> - the queue to direct traffic towards (-1 discards matching traffic)
212 The following example matches TCP traffic sent from 192.168.0.1, port 5300,
278 To create filters that direct traffic to a specific Virtual Function, use the
285 specifies to direct traffic to Virtual Function 7 (8 minus 1) into queue 2 of
289 route traffic that otherwise would not have been sent to the specified Virtual
353 Retrieves the hash options for the specified network traffic type.
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| /openbmc/linux/Documentation/ABI/testing/ |
| H A D | sysfs-driver-xdata | 5 Description: Allows the user to enable the PCIe traffic generator which
7 Endpoint direction or to disable the PCIe traffic generator
30 Description: Allows the user to enable the PCIe traffic generator which
32 Complex direction or to disable the PCIe traffic generator
|
| H A D | sysfs-class-fc | 12 traffic based on the identifier. FC host and FC fabric
13 entities can utilize the application id and FC traffic
14 tag to identify traffic sources.
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| /openbmc/linux/net/bridge/ |
| H A D | Kconfig | 30 bridged ARP traffic in the arptables FORWARD chain.
44 forward multicast traffic based on IGMP/MLD traffic received from
58 receive and forward traffic based on VLAN information in the packet
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| /openbmc/openbmc/meta-openembedded/meta-networking/recipes-support/vnstat/ |
| H A D | vnstat_2.6.bb | 1 …TION = "vnStat is a console-based network traffic monitor for Linux and BSD that keeps a log of ne…
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| /openbmc/openbmc/meta-openembedded/meta-oe/recipes-devtools/iptraf/ |
| H A D | iptraf-ng_1.2.1.bb | 7 and activity indicators, TCP/UDP traffic breakdowns, and LAN station \
8 packet and byte counts. IPTraf-ng features include an IP traffic monitor \
17 you can view just the traffic you want; logging; support for Ethernet, \
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| /openbmc/linux/net/dcb/ |
| H A D | Kconfig | 12 NICs and switches to support network traffic with differing
18 framework for assigning bandwidth guarantees to traffic classes.
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| /openbmc/openbmc-tools/dbus-pcap/ |
| H A D | README.md | 1 # dbus-pcap: A tool to analyse D-Bus traffic captures
3 `dbus-pcap` is a tool to slice, dice and display captures of D-Bus traffic
6 D-Bus traffic on OpenBMC can be captured using `busctl`:
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| /openbmc/openbmc/meta-phosphor/recipes-extended/etcd/etcd/ |
| H A D | etcd-new.conf.sample | 16 # List of comma separated URLs to listen on for peer traffic.
19 # List of comma separated URLs to listen on for client traffic.
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| /openbmc/openbmc/poky/meta/recipes-connectivity/iproute2/ |
| H A D | iproute2_6.12.0.bb | 1 SUMMARY = "TCP / IP networking and traffic control utilities"
3 TCP / IP networking and traffic control in Linux. Of the utilities ip \
5 configuration and tc stands for traffic control."
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| /openbmc/linux/Documentation/networking/dsa/ |
| H A D | b53.rst | 66 # tag traffic on CPU port
93 # tag traffic on ports
113 # tag traffic on CPU port
148 # tag traffic on CPU port
174 # tag traffic on ports
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| /openbmc/linux/net/mac80211/ |
| H A D | led.c | 249 unsigned long traffic, delta; in tpt_trig_traffic() local
251 traffic = tpt_trig->tx_bytes + tpt_trig->rx_bytes; in tpt_trig_traffic()
253 delta = traffic - tpt_trig->prev_traffic; in tpt_trig_traffic()
254 tpt_trig->prev_traffic = traffic; in tpt_trig_traffic()
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| /openbmc/linux/Documentation/networking/device_drivers/ethernet/ti/ |
| H A D | cpsw.rst | 73 - tc - traffic class
191 // Map skb->priority to traffic class:
193 // Map traffic class to transmit queue:
200 // As two interface sharing same set of tx queues, assign all traffic
202 // with traffic from interface Eth0, so use separate txq to send
428 // Map skb->priority to traffic class for Eth0:
430 // Map traffic class to transmit queue:
487 // Map skb->priority to traffic class for Eth1:
489 // Map traffic class to transmit queue:
|