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/Linux-v6.1/tools/testing/selftests/net/
Dfib_nexthops.sh178 IP="ip -netns me"
181 $IP li add veth1 type veth peer name veth2
182 $IP li set veth1 up
183 $IP addr add 172.16.1.1/24 dev veth1
184 $IP -6 addr add 2001:db8:91::1/64 dev veth1 nodad
186 $IP li add veth3 type veth peer name veth4
187 $IP li set veth3 up
188 $IP addr add 172.16.2.1/24 dev veth3
189 $IP -6 addr add 2001:db8:92::1/64 dev veth3 nodad
191 $IP li set veth2 netns peer up
[all …]
Dfib_tests.sh17 IP="ip -netns ns1"
56 $IP link set dev lo up
60 $IP link add dummy0 type dummy
61 $IP link set dev dummy0 up
62 $IP address add 198.51.100.1/24 dev dummy0
63 $IP -6 address add 2001:db8:1::1/64 dev dummy0
70 $IP link del dev dummy0 &> /dev/null
80 addr=$($IP -6 -br addr show dev ${dev} | \
105 $IP route get fibmatch 198.51.100.2 &> /dev/null
107 $IP -6 route get fibmatch 2001:db8:1::2 &> /dev/null
[all …]
Dfib_rule_tests.sh12 IP="ip -netns testns"
59 $IP link set dev lo up
61 $IP link add dummy0 type dummy
62 $IP link set dev dummy0 up
63 $IP address add $DEV_ADDR/24 dev dummy0
64 $IP -6 address add $DEV_ADDR6/64 dev dummy0
71 $IP link del dev dummy0 &> /dev/null
94 $IP -6 rule del $1
100 pref=$($IP -6 rule show $1 table $RTABLE | cut -d ":" -f 1)
101 $IP -6 rule del pref $pref
[all …]
Dio_uring_zerocopy_tx.sh29 for IP in "${IPs[@]}"; do
31 $0 "$IP" udp -m "$mode" -t 1 -n 32
32 $0 "$IP" tcp -m "$mode" -t 1 -n 1
46 readonly IP="$1"
53 if [[ "${IP}" == "4" ]]; then
56 elif [[ "${IP}" == "6" ]]; then
60 echo "Invalid IP version ${IP}"
119 echo "ipv${IP} ${TXMODE} ${ARGS}"
120 ip netns exec "${NS2}" "${BIN_RX}" "-${IP}" -t 2 -C 2 -S "${SADDR}" -D "${DADDR}" -r "${RXMODE}" &
122 ip netns exec "${NS1}" "${BIN_TX}" "-${IP}" -t 1 -D "${DADDR}" ${ARGS} "${TXMODE}"
Dmsg_zerocopy.sh40 readonly IP="$1"
47 if [[ "${IP}" == "4" ]]; then
50 elif [[ "${IP}" == "6" ]]; then
54 echo "Invalid IP version ${IP}"
113 echo "ipv${IP} ${TXMODE} ${ARGS}"
114 …ip netns exec "${NS2}" "${BIN}" "-${IP}" -i "${DEV}" -t 2 -C 2 -S "${SADDR}" -D "${DADDR}" ${ARGS}…
116 …ip netns exec "${NS1}" "${BIN}" "-${IP}" -i "${DEV}" -t 1 -C 3 -S "${SADDR}" -D "${DADDR}" ${ARGS}…
Dgre_gso.sh16 IP="ip -netns ns1"
55 $IP link set dev lo up
60 $IP link set veth1 name veth0
61 $IP link set veth0 up
111 $IP tunnel add gre1 mode $mode local $a2 remote $a1 dev veth0
112 $IP link set gre1 up
153 $IP addr add 172.16.2.2/24 dev gre1
156 $IP -6 addr add 2001:db8:1::2/64 dev gre1 nodad
/Linux-v6.1/tools/testing/selftests/drivers/net/netdevsim/
Dnexthop.sh61 out=$($IP nexthop show ${nharg} | sed -e 's/ *$//')
81 count=$($IP nexthop bucket show id $group_id nhid $nhid |
117 $IP nexthop add id 1 via 192.0.2.2 dev dummy1
124 $IP nexthop del id 1
137 $IP nexthop add id 1 via 192.0.2.2 dev dummy1
139 $IP nexthop add id 2 via 192.0.2.3 dev dummy1 &> /dev/null
147 $IP nexthop flush &> /dev/null
155 $IP nexthop add id 1 via 192.0.2.2 dev dummy1
156 $IP nexthop add id 2 via 192.0.2.3 dev dummy1
158 $IP nexthop add id 10 group 1/2
[all …]
Dhw_stats_l3.sh87 local ifindex=$($IP -j link show dev $netdev | jq '.[].ifindex')
125 IP="ip -n testns1"
127 $IP link add name dummy1 type dummy
128 $IP link set dev dummy1 up
129 DUMMY_IFINDEX=$($IP -j link show dev dummy1 | jq '.[].ifindex')
136 $IP link del name dummy1
149 $IP -j stats show dev "$netdev" group offload subgroup hw_stats_info |
174 $IP -j stats show dev "$netdev" group offload subgroup hw_stats_info |
213 $IP stats set dev dummy1 ${type}_stats on
227 $IP stats set dev dummy1 ${type}_stats off
[all …]
Dfib_notifications.sh93 $IP monitor route &> $outfile &
95 $IP route add $route dev dummy1
102 $IP route del $route dev dummy1
142 $IP route add $route dev dummy1
147 $IP monitor route &> $outfile &
149 $IP route del $route dev dummy1
185 $IP route add $route dev dummy1
190 $IP monitor route &> $outfile &
192 $IP route replace $route dev dummy2
199 $IP route del $route dev dummy2
[all …]
/Linux-v6.1/samples/bpf/
Dtc_l2_redirect.sh5 [[ -z $IP ]] && IP='ip'
16 $IP netns add ns1
17 $IP netns add ns2
18 $IP link add ve1 type veth peer name vens1
19 $IP link add ve2 type veth peer name vens2
20 $IP link set dev ve1 up
21 $IP link set dev ve2 up
22 $IP link set dev ve1 mtu 1500
23 $IP link set dev ve2 mtu 1500
24 $IP link set dev vens1 netns ns1
[all …]
Dtest_cgrp2_tc.sh11 [ -z "$IP" ] && IP='ip'
74 $IP link add $HOST_IFC type veth peer name $NS_IFC || return $?
75 $IP link set dev $HOST_IFC up || return $?
78 $IP netns add ns || return $?
79 $IP link set dev $NS_IFC netns ns || return $?
80 $IP -n $NS link set dev $NS_IFC up || return $?
81 $IP netns exec $NS sysctl -q net.ipv6.conf.$NS_IFC.accept_dad=0
86 $IP netns del $NS
87 $IP link del $HOST_IFC
125 $IP netns
[all …]
/Linux-v6.1/drivers/net/ethernet/intel/ice/
Dice_lan_tx_rx.h723 ICE_PTT(22, IP, IPV4, FRG, NONE, NONE, NOF, NONE, PAY3),
724 ICE_PTT(23, IP, IPV4, NOF, NONE, NONE, NOF, NONE, PAY3),
725 ICE_PTT(24, IP, IPV4, NOF, NONE, NONE, NOF, UDP, PAY4),
727 ICE_PTT(26, IP, IPV4, NOF, NONE, NONE, NOF, TCP, PAY4),
728 ICE_PTT(27, IP, IPV4, NOF, NONE, NONE, NOF, SCTP, PAY4),
729 ICE_PTT(28, IP, IPV4, NOF, NONE, NONE, NOF, ICMP, PAY4),
732 ICE_PTT(29, IP, IPV4, NOF, IP_IP, IPV4, FRG, NONE, PAY3),
733 ICE_PTT(30, IP, IPV4, NOF, IP_IP, IPV4, NOF, NONE, PAY3),
734 ICE_PTT(31, IP, IPV4, NOF, IP_IP, IPV4, NOF, UDP, PAY4),
736 ICE_PTT(33, IP, IPV4, NOF, IP_IP, IPV4, NOF, TCP, PAY4),
[all …]
/Linux-v6.1/drivers/net/ethernet/intel/iavf/
Diavf_common.c572 IAVF_PTT(22, IP, IPV4, FRG, NONE, NONE, NOF, NONE, PAY3),
573 IAVF_PTT(23, IP, IPV4, NOF, NONE, NONE, NOF, NONE, PAY3),
574 IAVF_PTT(24, IP, IPV4, NOF, NONE, NONE, NOF, UDP, PAY4),
576 IAVF_PTT(26, IP, IPV4, NOF, NONE, NONE, NOF, TCP, PAY4),
577 IAVF_PTT(27, IP, IPV4, NOF, NONE, NONE, NOF, SCTP, PAY4),
578 IAVF_PTT(28, IP, IPV4, NOF, NONE, NONE, NOF, ICMP, PAY4),
581 IAVF_PTT(29, IP, IPV4, NOF, IP_IP, IPV4, FRG, NONE, PAY3),
582 IAVF_PTT(30, IP, IPV4, NOF, IP_IP, IPV4, NOF, NONE, PAY3),
583 IAVF_PTT(31, IP, IPV4, NOF, IP_IP, IPV4, NOF, UDP, PAY4),
585 IAVF_PTT(33, IP, IPV4, NOF, IP_IP, IPV4, NOF, TCP, PAY4),
[all …]
/Linux-v6.1/tools/testing/selftests/drivers/net/mlxsw/
Ddevlink_trap_tunnel_vxlan.sh145 )"45:"$( : IP version + IHL
146 )"00:"$( : IP TOS
147 )"00:14:"$( : IP total length
148 )"00:00:"$( : IP identification
149 )"20:00:"$( : IP flags + frag off
150 )"40:"$( : IP TTL
151 )"00:"$( : IP proto
152 )"D6:E5:"$( : IP header csum
153 )"c0:00:02:03:"$( : IP saddr: 192.0.2.3
154 )"c0:00:02:01:"$( : IP daddr: 192.0.2.1
[all …]
Ddevlink_trap_tunnel_ipip.sh129 )"4"$( : IP version
131 )"00:"$( : IP TOS
132 )"00:14:"$( : IP total length
133 )"00:00:"$( : IP identification
134 )"20:00:"$( : IP flags + frag off
135 )"30:"$( : IP TTL
136 )"01:"$( : IP proto
137 )"E7:E6:"$( : IP header csum
138 )"C0:00:01:01:"$( : IP saddr : 192.0.1.1
139 )"C0:00:02:01:"$( : IP daddr : 192.0.2.1
/Linux-v6.1/Documentation/networking/
Dipddp.rst4 AppleTalk-IP Decapsulation and AppleTalk-IP Encapsulation
14 AppleTalk-IP (IPDDP) is the method computers connected to AppleTalk
15 networks can use to communicate via IP. AppleTalk-IP is simply IP datagrams
19 IP over an AppleTalk network or you can provide IP gatewaying functions
22 You can currently encapsulate or decapsulate AppleTalk-IP on LocalTalk,
28 Compiling AppleTalk-IP Decapsulation/Encapsulation
31 AppleTalk-IP decapsulation needs to be compiled into your kernel. You
32 will need to turn on AppleTalk-IP driver support. Then you will need to
33 select ONE of the two options; IP to AppleTalk-IP encapsulation support or
34 AppleTalk-IP to IP decapsulation support. If you compile the driver
[all …]
Dgtp.rst18 tunneling User-IP payload between a mobile station (phone, modem)
29 technology-dependent protocol stack for transmitting the user IP
41 public internet, but can also be any private IP network (or even
42 theoretically some non-IP network like X.25).
54 able to decapsulate tunneled IP packets in the uplink originated by
55 the phone, and encapsulate raw IP packets received from the external
58 It *only* implements the so-called 'user plane', carrying the User-IP
122 on the inner (user) IP layer, or on the outer (transport) layer.
125 the User IP payload, nor for the outer IP layer. Patches or other
166 instance) per IP address. Tunnel Endpoint Identifier (TEID) are unique
[all …]
/Linux-v6.1/drivers/usb/usbip/
DKconfig4 tristate "USB/IP support"
9 This enables pushing USB packets over IP to allow remote
11 USB/IP core that is required by both drivers.
25 This enables the USB/IP virtual host controller driver,
32 int "Number of ports per USB/IP virtual host controller"
37 To increase number of ports available for USB/IP virtual
39 USB/IP virtual host controller.
42 int "Number of USB/IP virtual host controllers"
47 To increase number of ports available for USB/IP virtual
48 host controller driver, this defines number of USB/IP
[all …]
/Linux-v6.1/fs/jfs/
Djfs_btree.h50 #define BT_PAGE(IP, MP, TYPE, ROOT)\ argument
51 (BT_IS_ROOT(MP) ? (TYPE *)&JFS_IP(IP)->ROOT : (TYPE *)(MP)->data)
54 #define BT_GETPAGE(IP, BN, MP, TYPE, SIZE, P, RC, ROOT)\ argument
58 MP = (struct metapage *)&JFS_IP(IP)->bxflag;\
59 P = (TYPE *)&JFS_IP(IP)->ROOT;\
64 MP = read_metapage((IP), BN, SIZE, 1);\
76 #define BT_MARK_DIRTY(MP, IP)\ argument
79 mark_inode_dirty(IP);\
142 #define BT_GETSEARCH(IP, LEAF, BN, MP, TYPE, P, INDEX, ROOT)\ argument
149 P = (TYPE *)&JFS_IP(IP)->ROOT;\
/Linux-v6.1/Documentation/translations/zh_CN/infiniband/
Dipoib.rst17 infiniband上的IP(IPoIB)
21 infiniband上IP协议的一个实现。它是一个“本地”实现,即把接口类型设置为
55 允许MTU达到最大的IP包大小64K,这减少了处理大型UDP数据包、TCP段等所需的
56 IP包数量,提高了大型信息的性能。
65 如果IB HW支持IPoIB无状态卸载,IPoIB会向网络堆栈广播TCP/IP校验和/或大量
104 在InfiniBand上传输IP(IPoIB)(RFC 4391)。
107 infiniband上的IP:上的IP架构(RFC 4392)。
110 infiniband上的IP: 连接模式 (RFC 4755)
/Linux-v6.1/Documentation/devicetree/bindings/sifive/
Dsifive-blocks-ip-versioning.txt1 DT compatible string versioning for SiFive open-source IP blocks
4 strings for open-source SiFive IP blocks. HDL for these IP blocks
9 IP block-specific DT compatible strings are contained within the HDL,
16 Until these IP blocks (or IP integration) support version
17 auto-discovery, the maintainers of these IP blocks intend to increment
19 interface to these IP blocks changes, or when the functionality of the
20 underlying IP blocks changes in a way that software should be aware of.
26 match on these IP block-specific compatible strings.
33 IP block-specific compatible string (such as "sifive,uart0") should
/Linux-v6.1/Documentation/devicetree/bindings/media/xilinx/
Dvideo.txt1 DT bindings for Xilinx video IP cores
4 Xilinx video IP cores process video streams by acting as video sinks and/or
8 Each video IP core is represented by an AMBA bus child node in the device
9 tree using bindings documented in this directory. Connections between the IP
18 The following properties are common to all Xilinx video IP cores.
21 AXI bus between video IP cores, using its VF code as defined in "AXI4-Stream
22 Video IP and System Design Guide" [UG934]. How the format relates to the IP
23 core is described in the IP core bindings documentation.
Dxlnx,video.txt1 Xilinx Video IP Pipeline (VIPP)
7 Xilinx video IP pipeline processes video streams through one or more Xilinx
8 video IP cores. Each video IP core is represented as documented in video.txt
9 and IP core specific documentation, xlnx,v-*.txt, in this directory. The DT
11 mappings between DMAs and the video IP cores.
/Linux-v6.1/Documentation/networking/device_drivers/wwan/
Diosm.rst28 MBIM IP session:
32 - configure IP network interface
69 The IOSM driver exposes IP link interface "wwan0-X" of type "wwan" for IP
71 interface and for associating it with MBIM IP session. The Driver supports
72 upto 8 IP sessions for simultaneous IP communication.
74 The userspace management application is responsible for creating new IP link
75 prior to establishing MBIM IP session where the SessionId is greater than 0.
77 For example, creating new IP link for a MBIM IP session with SessionId 1:
81 The driver will automatically map the "wwan0-1" network device to MBIM IP
/Linux-v6.1/Documentation/devicetree/bindings/clock/ti/
Ddra7-atl.txt3 The ATL IP is used to generate clock to be used to synchronize baseband and
4 audio codec. A single ATL IP provides four ATL clock instances sharing the same
16 Since the clock instances are part of a single IP this binding is used as a node
17 for the DT clock tree, the IP driver is needed to handle the actual configuration
18 of the IP.
27 Binding for the IP driver:
28 This binding is used to configure the IP driver which is going to handle the
29 configuration of the IP for the ATL clock instances.
33 - reg : base address for the ATL IP
75 /* binding for the IP */

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