Lines Matching refs:Packets
378 i.e.\ packets send through it are encapsulated and sent via the ``master''
387 mode i.e.\ all packets sent to it are immediately discarded.
389 in packets.
395 packets for transmission and it may inject into the kernel packets received
399 hosts. All packets sent through it will be returned
400 and nothing but bounced packets can be received.
402 \item \verb|BROADCAST| --- the device has the facility to send packets
406 attached to each end. All packets sent to this link will reach the peer
407 and all packets received by us came from this single peer.
416 is aware of multicasting i.e.\ sending packets to some subset of neighbouring
433 \item \verb|ALLMULTI| --- the device receives all multicast packets
439 resolution and that the software or hardware knows how to deliver packets
489 RX: bytes packets errors dropped overrun mcast
491 TX: bytes packets errors dropped carrier collsns
502 \item \verb|packets| --- the total number of packets received or transmitted
505 \item \verb|dropped| --- the total number of packets dropped due to lack
508 in dropped packets. As a rule, if the interface is overrun, it means
511 \item \verb|mcast| --- the total number of received multicast packets. This option
518 \item \verb|compressed| --- the total number of compressed packets. This is
531 RX: bytes packets errors dropped overrun mcast
535 TX: bytes packets errors dropped carrier collsns
753 of outgoing packets (Cf.\ Appendix~\ref{ADDR-SEL}, p.\pageref{ADDR-SEL}.).
1143 the data required to deliver IP packets (f.e.\ output device and
1159 \item \verb|unreachable| --- these destinations are unreachable. Packets
1162 \item \verb|blackhole| --- these destinations are unreachable. Packets
1164 \item \verb|prohibit| --- these destinations are unreachable. Packets
1168 host. The packets are looped back and delivered locally.
1170 The packets are sent as link broadcasts.
1175 table. The packets are dropped and the ICMP message {\em net unreachable\/}
1281 all packets will be sent without the DF bit in IPv4 case
1620 \item \verb|local| --- packets are delivered locally.
1637 \item \verb|redirect| --- packets going via this route will
1667 \item \verb|iif| --- the packets for this path are expected to arrive
1799 to output packets towards the requested destination.
1801 with a subsequent {\tt ip route ls cache}, however, no packets are
1811 packets to 193.233.7.82:
1819 \item Find a route to forward packets arriving on \verb|eth0|
1835 \item Find a multicast route for packets arriving on \verb|eth0|
1851 forwards packets. The output device for such entries is always loopback.
1879 5 packets transmitted, 5 packets received, 0% packet loss
1905 based only on the destination address of packets (and in theory,
1909 In some circumstances we want to route packets differently depending not only
1940 to mark some classes of packets with \verb|fwmark|. Therefore,
2050 the rule only matches packets originating from this host. This means that you
2051 may create separate routing tables for forwarded and local packets and,
2094 In the last case the router does not translate the packets,
2108 \item Route packets with source addresses from 192.203.80/24
2164 they are routed differently when the packets leave it.
2261 to the router, wait for duplicated packets on the wire.
2302 --- the interface on which multicast packets are received.
2324 the interface on which multicast packets are expected to arrive.
2333 number of packets and bytes forwarded along this route and
2334 the number of packets that arrived on the wrong interface, if this number is not zero.
2339 9383 packets, 300256 bytes
2350 packets in IPv4 packets and then sending them over the IP infrastructure.
2385 --- set the fixed local address for tunneled packets.
2390 --- set a fixed TTL \verb|N| on tunneled packets.
2392 meaning that packets inherit the TTL value.
2397 --- set a fixed TOS \verb|T| on tunneled packets.
2405 tunneled packets will only be routed via this device and will
2424 --- (only GRE tunnels) generate/require checksums for tunneled packets.
2425 The \verb|ocsum| flag calculates checksums for outgoing packets.
2426 The \verb|icsum| flag requires that all input packets have the correct
2432 --- (only GRE tunnels) serialize packets.
2433 The \verb|oseq| flag enables sequencing of outgoing packets.
2434 The \verb|iseq| flag requires that all input packets are serialized.
2475 RX: Packets Bytes Errors CsumErrs OutOfSeq Mcasts
2477 TX: Packets Bytes Errors DeadLoop NoRoute NoBufs
2486 \item \verb|CsumErrs| --- the total number of packets dropped
2488 \item \verb|OutOfSeq| --- the total number of packets dropped
2491 \item \verb|Mcasts| --- the total number of multicast packets
2493 \item \verb|DeadLoop| --- the total number of packets which were not
2495 \item \verb|NoRoute| --- the total number of packets which were not
2497 \item \verb|NoBufs| --- the total number of packets which were not
2542 tables may be huge. If we want to classify or to account for the packets
2544 want to distinguish the packets not only by their destination, but
2605 where they are used to help assign packets to traffic classes,
2618 This shows that this router received 153805 packets from
2619 the realm \verb|russia| and forwarded 169176 packets to \verb|russia|.
2623 Note that locally originating packets are not accounted here,
2624 \verb|rtacct| shows incoming packets only. Using the \verb|route|
2626 accounting information about outgoing packets, optionally
2712 attached to the interface through which the packets will be routed.
2866 sends something to the outer world and these packets are forwarded
2881 kernel. In this case the router will masquerade the packets as this address.
2899 packets from 193.233.7.83 do not leave networks 193.233.7/24
2903 will occur. Otherwise, the packets are translated.
2908 to \verb|fwmark| a class of packets.
2909 Suppose you did and all the packets from 193.233.7.83
