| /dpdk/devtools/cocci/ |
| H A D | nullfree.cocci | 7 expression E;
10 - if (E != NULL) free(E);
11 + free(E);
13 - if (E != NULL) rte_bitmap_free(E);
16 - if (E != NULL) rte_free(E);
17 + rte_free(E);
19 - if (E != NULL) rte_hash_free(E);
22 - if (E != NULL) rte_ring_free(E);
25 - if (E != NULL) rte_pktmbuf_free(E);
28 - if (E != NULL) rte_mempool_free(E);
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| /dpdk/drivers/common/cnxk/ |
| H A D | roc_hash.c | 43 E = _H[4]; in roc_hash_sha1_gen()
56 E = D; in roc_hash_sha1_gen()
67 E += _H[4]; in roc_hash_sha1_gen()
124 E = _H[4]; in roc_hash_sha256_gen()
130 S1 = rrot32(6, E) ^ rrot32(11, E) ^ rrot32(25, E); in roc_hash_sha256_gen()
131 temp[0] = (E & F) ^ ((~E) & G); in roc_hash_sha256_gen()
139 F = E; in roc_hash_sha256_gen()
236 E = _H[4]; in roc_hash_sha512_gen()
242 S1 = rrot64(14, E) ^ rrot64(18, E) ^ rrot64(41, E); in roc_hash_sha512_gen()
243 temp[0] = (E & F) ^ ((~E) & G); in roc_hash_sha512_gen()
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| /dpdk/examples/l3fwd/ |
| H A D | em_default_v6.cfg | 16 R2001:0200:0000:000E:0000:0000:0000:0000 2001:0200:0000:000E:0000:0000:0000:0001 9 9 0x11 14
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| H A D | lpm_default_v6.cfg | 16 R2001:0200:0000:000E:0000:0000:0000:0000/64 14
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| /dpdk/doc/guides/prog_guide/ |
| H A D | switch_representation.rst | 315 `-+--' `-----+-----' `-----+-----' `--(D)-' `-(E)--'
334 - **E**: VF 2 proper.
355 - **D to E**: VF 1 MAC as source and VF 2 MAC as destination.
360 - **A to E**, **D to E** and **F to E**: VF 2 MAC as destination.
361 - **E to A**: VF 2 MAC as source and PF MAC as destination.
362 - **E to D**: VF 2 MAC as source and VF 1 MAC as destination.
363 - **E to F**: VF 2 MAC as source.
435 `-+--' `-----+-----' `-----+-----' `--(D)-' `-(E)--'
656 - Matches **D** or **E** in `traffic steering`_.
665 - Targets **D** or **E** in `traffic steering`_.
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| H A D | rte_security.rst | 137 E.g. in case of IPsec the device may internally manage anti-replay etc.
155 processing. E.g. in case of IPsec, the seq number will be added to the
204 E.g. in case of IPsec, IPsec tunnel headers (if any), ESP/AH headers
261 Based on 3GPP TS 36.323 Evolved Universal Terrestrial Radio Access (E-UTRA);
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| H A D | bbdev.rst | 572 (this maps to E described in 3GPP TS 36.212 section 5.1.4.1.2). The output mbuf
682 for the given CB parameter ``e`` size (this maps to E described in
804 | |e |E, length of the rate matched output sequence in bits |
823 CB-mode ut contains the encoded CB of size ``e`` (E in 3GPP TS 38.212
1019 | |e |E, length of the rate matched output sequence in bits |
1043 output of size ``e`` (this is ``E`` as per 3GPP TS 38.212 section 6.2.5).
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| H A D | rte_flow.rst | 1064 Matches an IEEE 802.1BR E-Tag header.
1069 - ``epcp_edei_in_ecid_b``: E-Tag control information (E-TCI), E-PCP (3b),
1070 E-DEI (1b), ingress E-CID base (12b).
1071 - ``rsvd_grp_ecid_b``: reserved (2b), GRP (2b), E-CID base (12b).
1072 - ``in_ecid_e``: ingress E-CID ext.
1073 - ``ecid_e``: E-CID ext.
1075 - Default ``mask`` simultaneously matches GRP and E-CID base.
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| H A D | qos_framework.rst | 1736 * Excess (E) bucket: fed with tokens at the same rate as the C bucket.
1737 … The size of the E bucket is defined by the Excess Burst Size (EBS) parameter (measured in bytes).
1768 * Update the C and E / P token buckets. This is done by reading the current time (from the CPU ti…
1774 …and the amount of tokens currently available in the C and E / P buckets; for color aware mode only,
1777 …subtracted from the C or E /P or both buckets, depending on the algorithm and the output color of …
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| /dpdk/doc/guides/rel_notes/ |
| H A D | release_16_04.rst | 89 * **Added support for E-tag on X550.**
91 …E-tag is defined in `802.1BR - Bridge Port Extension <http://www.ieee802.org/1/pages/802.1br.html>…
95 The forwarding of E-tag packets based on GRP and E-CID_base will have an effect
96 on the PF. Theoretically, the E-tag packets can be forwarded to any pool/queue
98 to the VFs. And E-tag insertion and stripping will have an effect on VFs. When
99 a VF receives E-tag packets it should strip the E-tag. When the VF transmits
100 packets, it should insert the E-tag. Both actions can be offloaded.
102 When we want to use this E-tag support feature, the forwarding should be
108 * Support E-tag offloading of insertion and stripping.
109 * Support Forwarding E-tag packets to pools based on
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| H A D | release_21_02.rst | 89 * Added support for E-Switch mirroring and jump action in the same flow.
91 mirroring action on E-Switch.
483 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P225p (2x25G)
488 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
493 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
498 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
503 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
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| H A D | release_20_08.rst | 534 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P225p (2x25G)
539 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
544 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
549 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
554 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
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| H A D | release_20_05.rst | 346 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P225p (2x25G)
351 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
356 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
361 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
366 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
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| H A D | release_20_11.rst | 923 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P225p (2x25G)
928 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
933 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
938 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P425p (4x25G)
943 * Broadcom\ |reg| NetXtreme-E\ |reg| Series P2100G (2x100G)
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| H A D | release_19_02.rst | 64 * Improved stability of E-Switch flow driver.
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| /dpdk/doc/guides/nics/ |
| H A D | nfb.rst | 86 physical PCI-E slots at the same time (see the diagram below).
87 This is done to allow 200 Gbps of traffic to be transferred through the PCI-E
88 bus (note that a single PCI-E 3.0 x16 slot provides only 125 Gbps theoretical
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| H A D | liquidio.rst | 85 ip link set p4p1 vf 0 mac F2:A8:1B:5E:B4:66
128 Port 0: F2:A8:1B:5E:B4:66
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| H A D | e1000em.rst | 106 -net nic,model=e1000,vlan=1,macaddr=DE:AD:1E:00:00:01
108 -net nic,model=e1000,vlan=2,macaddr=DE:AD:1E:00:00:02
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| H A D | mlx5.rst | 86 - E-Switch mirroring and jump.
87 - E-Switch mirroring and modify.
224 - v_pt_rsv_flags: E flag, S flag, PN flag
336 - E-Switch decapsulation Flow:
342 - E-Switch encapsulation Flow:
397 E-Switch steering domain.
401 first action in the E-Switch egress flow if with header modify or
990 A nonzero value enables E-Switch using Direct Rules.
1151 A SF netdev supports E-Switch representation offload
1267 | Offload | with E-Switch | with NIC |
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| H A D | qede.rst | 84 ``E.g. /lib/firmware/qed/qed_init_values-8.40.33.0.bin``.
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| H A D | dpaa.rst | 289 E.g. enable/disable a port, a operator (set of VLANs and associate rules).
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| H A D | enic.rst | 123 visible on the host, E.g.:
170 In the VM instance, the VF will now be visible. E.g., here the VF 00:04.0 is
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| H A D | bnxt.rst | 9 BCM5741X/BCM575XX NetXtreme-E® Family of Ethernet Network Controllers,
921 BCM574xx/575xx NetXtreme-E® Family of Ethernet Network Controllers
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| /dpdk/doc/guides/sample_app_ug/ |
| H A D | l3_forward.rst | 81 [-E]
131 * ``-E:`` Optional, enable exact match,
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| /dpdk/doc/guides/testpmd_app_ug/ |
| H A D | testpmd_funcs.rst | 559 MAC address: 1E:37:93:28:04:B8
1713 E-tag set
1716 Enable E-tag insertion for a VF on a port::
1720 Disable E-tag insertion for a VF on a port::
1722 testpmd> E-tag set insertion off port (port_id) vf (vf_id)
1724 Enable/disable E-tag stripping on a port::
1726 testpmd> E-tag set stripping (on|off) port (port_id)
1728 Enable/disable E-tag based forwarding on a port::
1730 testpmd> E-tag set forwarding (on|off) port (port_id)
4014 - ``e_tag``: match IEEE 802.1BR E-Tag header.
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