04d43857ea
Definition of `rte_ether_addr` structure used a workaround allowing DPDK and Windows SDK headers to be used in the same file, because Windows SDK defines `s_addr` as a macro. Rename `s_addr` to `src_addr` and `d_addr` to `dst_addr` to avoid the conflict and remove the workaround. Deprecation notice: https://mails.dpdk.org/archives/dev/2021-July/215270.html Signed-off-by: Dmitry Kozlyuk <dmitry.kozliuk@gmail.com>
396 lines
11 KiB
C
396 lines
11 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2010-2014 Intel Corporation
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*/
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#ifndef _RTE_ETHER_H_
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#define _RTE_ETHER_H_
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/**
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* @file
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*
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* Ethernet Helpers in RTE
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*/
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdint.h>
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#include <stdio.h>
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#include <rte_memcpy.h>
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#include <rte_random.h>
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#include <rte_mbuf.h>
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#include <rte_byteorder.h>
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#define RTE_ETHER_ADDR_LEN 6 /**< Length of Ethernet address. */
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#define RTE_ETHER_TYPE_LEN 2 /**< Length of Ethernet type field. */
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#define RTE_ETHER_CRC_LEN 4 /**< Length of Ethernet CRC. */
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#define RTE_ETHER_HDR_LEN \
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(RTE_ETHER_ADDR_LEN * 2 + \
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RTE_ETHER_TYPE_LEN) /**< Length of Ethernet header. */
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#define RTE_ETHER_MIN_LEN 64 /**< Minimum frame len, including CRC. */
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#define RTE_ETHER_MAX_LEN 1518 /**< Maximum frame len, including CRC. */
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#define RTE_ETHER_MTU \
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(RTE_ETHER_MAX_LEN - RTE_ETHER_HDR_LEN - \
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RTE_ETHER_CRC_LEN) /**< Ethernet MTU. */
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#define RTE_ETHER_MAX_VLAN_FRAME_LEN \
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(RTE_ETHER_MAX_LEN + 4)
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/**< Maximum VLAN frame length, including CRC. */
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#define RTE_ETHER_MAX_JUMBO_FRAME_LEN \
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0x3F00 /**< Maximum Jumbo frame length, including CRC. */
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#define RTE_ETHER_MAX_VLAN_ID 4095 /**< Maximum VLAN ID. */
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#define RTE_ETHER_MIN_MTU 68 /**< Minimum MTU for IPv4 packets, see RFC 791. */
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/**
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* Ethernet address:
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* A universally administered address is uniquely assigned to a device by its
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* manufacturer. The first three octets (in transmission order) contain the
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* Organizationally Unique Identifier (OUI). The following three (MAC-48 and
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* EUI-48) octets are assigned by that organization with the only constraint
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* of uniqueness.
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* A locally administered address is assigned to a device by a network
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* administrator and does not contain OUIs.
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* See http://standards.ieee.org/regauth/groupmac/tutorial.html
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*/
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struct rte_ether_addr {
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uint8_t addr_bytes[RTE_ETHER_ADDR_LEN]; /**< Addr bytes in tx order */
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} __rte_aligned(2);
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#define RTE_ETHER_LOCAL_ADMIN_ADDR 0x02 /**< Locally assigned Eth. address. */
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#define RTE_ETHER_GROUP_ADDR 0x01 /**< Multicast or broadcast Eth. address. */
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/**
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* Check if two Ethernet addresses are the same.
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*
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* @param ea1
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* A pointer to the first ether_addr structure containing
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* the ethernet address.
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* @param ea2
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* A pointer to the second ether_addr structure containing
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* the ethernet address.
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*
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* @return
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* True (1) if the given two ethernet address are the same;
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* False (0) otherwise.
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*/
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static inline int rte_is_same_ether_addr(const struct rte_ether_addr *ea1,
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const struct rte_ether_addr *ea2)
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{
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const uint16_t *w1 = (const uint16_t *)ea1;
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const uint16_t *w2 = (const uint16_t *)ea2;
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return ((w1[0] ^ w2[0]) | (w1[1] ^ w2[1]) | (w1[2] ^ w2[2])) == 0;
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}
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/**
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* Check if an Ethernet address is filled with zeros.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is filled with zeros;
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* false (0) otherwise.
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*/
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static inline int rte_is_zero_ether_addr(const struct rte_ether_addr *ea)
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{
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const uint16_t *w = (const uint16_t *)ea;
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return (w[0] | w[1] | w[2]) == 0;
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}
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/**
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* Check if an Ethernet address is a unicast address.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is a unicast address;
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* false (0) otherwise.
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*/
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static inline int rte_is_unicast_ether_addr(const struct rte_ether_addr *ea)
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{
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return (ea->addr_bytes[0] & RTE_ETHER_GROUP_ADDR) == 0;
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}
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/**
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* Check if an Ethernet address is a multicast address.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is a multicast address;
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* false (0) otherwise.
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*/
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static inline int rte_is_multicast_ether_addr(const struct rte_ether_addr *ea)
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{
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return ea->addr_bytes[0] & RTE_ETHER_GROUP_ADDR;
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}
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/**
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* Check if an Ethernet address is a broadcast address.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is a broadcast address;
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* false (0) otherwise.
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*/
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static inline int rte_is_broadcast_ether_addr(const struct rte_ether_addr *ea)
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{
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const uint16_t *w = (const uint16_t *)ea;
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return (w[0] & w[1] & w[2]) == 0xFFFF;
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}
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/**
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* Check if an Ethernet address is a universally assigned address.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is a universally assigned address;
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* false (0) otherwise.
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*/
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static inline int rte_is_universal_ether_addr(const struct rte_ether_addr *ea)
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{
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return (ea->addr_bytes[0] & RTE_ETHER_LOCAL_ADMIN_ADDR) == 0;
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}
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/**
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* Check if an Ethernet address is a locally assigned address.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is a locally assigned address;
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* false (0) otherwise.
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*/
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static inline int rte_is_local_admin_ether_addr(const struct rte_ether_addr *ea)
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{
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return (ea->addr_bytes[0] & RTE_ETHER_LOCAL_ADMIN_ADDR) != 0;
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}
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/**
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* Check if an Ethernet address is a valid address. Checks that the address is a
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* unicast address and is not filled with zeros.
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*
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* @param ea
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* A pointer to a ether_addr structure containing the ethernet address
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* to check.
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* @return
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* True (1) if the given ethernet address is valid;
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* false (0) otherwise.
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*/
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static inline int rte_is_valid_assigned_ether_addr(const struct rte_ether_addr *ea)
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{
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return rte_is_unicast_ether_addr(ea) && (!rte_is_zero_ether_addr(ea));
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}
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/**
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* Generate a random Ethernet address that is locally administered
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* and not multicast.
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* @param addr
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* A pointer to Ethernet address.
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*/
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void
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rte_eth_random_addr(uint8_t *addr);
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/**
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* Copy an Ethernet address.
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*
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* @param ea_from
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* A pointer to a ether_addr structure holding the Ethernet address to copy.
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* @param ea_to
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* A pointer to a ether_addr structure where to copy the Ethernet address.
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*/
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static inline void
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rte_ether_addr_copy(const struct rte_ether_addr *__restrict ea_from,
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struct rte_ether_addr *__restrict ea_to)
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{
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*ea_to = *ea_from;
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}
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/**
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* Macro to print six-bytes of MAC address in hex format
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*/
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#define RTE_ETHER_ADDR_PRT_FMT "%02X:%02X:%02X:%02X:%02X:%02X"
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/**
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* Macro to extract the MAC address bytes from rte_ether_addr struct
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*/
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#define RTE_ETHER_ADDR_BYTES(mac_addrs) ((mac_addrs)->addr_bytes[0]), \
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((mac_addrs)->addr_bytes[1]), \
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((mac_addrs)->addr_bytes[2]), \
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((mac_addrs)->addr_bytes[3]), \
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((mac_addrs)->addr_bytes[4]), \
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((mac_addrs)->addr_bytes[5])
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#define RTE_ETHER_ADDR_FMT_SIZE 18
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/**
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* Format 48bits Ethernet address in pattern xx:xx:xx:xx:xx:xx.
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*
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* @param buf
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* A pointer to buffer contains the formatted MAC address.
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* @param size
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* The format buffer size.
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* @param eth_addr
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* A pointer to a ether_addr structure.
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*/
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void
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rte_ether_format_addr(char *buf, uint16_t size,
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const struct rte_ether_addr *eth_addr);
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/**
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* Convert string with Ethernet address to an ether_addr.
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*
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* @param str
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* A pointer to buffer contains the formatted MAC address.
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* The supported formats are:
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* XX:XX:XX:XX:XX:XX or XXXX:XXXX:XXXX
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* where XX is a hex digit: 0-9, a-f, or A-F.
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* @param eth_addr
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* A pointer to a ether_addr structure.
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* @return
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* 0 if successful
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* -1 and sets rte_errno if invalid string
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*/
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int
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rte_ether_unformat_addr(const char *str, struct rte_ether_addr *eth_addr);
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/**
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* Ethernet header: Contains the destination address, source address
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* and frame type.
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*/
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struct rte_ether_hdr {
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struct rte_ether_addr dst_addr; /**< Destination address. */
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struct rte_ether_addr src_addr; /**< Source address. */
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rte_be16_t ether_type; /**< Frame type. */
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} __rte_aligned(2);
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/**
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* Ethernet VLAN Header.
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* Contains the 16-bit VLAN Tag Control Identifier and the Ethernet type
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* of the encapsulated frame.
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*/
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struct rte_vlan_hdr {
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rte_be16_t vlan_tci; /**< Priority (3) + CFI (1) + Identifier Code (12) */
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rte_be16_t eth_proto; /**< Ethernet type of encapsulated frame. */
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} __rte_packed;
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/* Ethernet frame types */
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#define RTE_ETHER_TYPE_IPV4 0x0800 /**< IPv4 Protocol. */
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#define RTE_ETHER_TYPE_IPV6 0x86DD /**< IPv6 Protocol. */
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#define RTE_ETHER_TYPE_ARP 0x0806 /**< Arp Protocol. */
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#define RTE_ETHER_TYPE_RARP 0x8035 /**< Reverse Arp Protocol. */
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#define RTE_ETHER_TYPE_VLAN 0x8100 /**< IEEE 802.1Q VLAN tagging. */
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#define RTE_ETHER_TYPE_QINQ 0x88A8 /**< IEEE 802.1ad QinQ tagging. */
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#define RTE_ETHER_TYPE_QINQ1 0x9100 /**< Deprecated QinQ VLAN. */
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#define RTE_ETHER_TYPE_QINQ2 0x9200 /**< Deprecated QinQ VLAN. */
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#define RTE_ETHER_TYPE_QINQ3 0x9300 /**< Deprecated QinQ VLAN. */
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#define RTE_ETHER_TYPE_PPPOE_DISCOVERY 0x8863 /**< PPPoE Discovery Stage. */
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#define RTE_ETHER_TYPE_PPPOE_SESSION 0x8864 /**< PPPoE Session Stage. */
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#define RTE_ETHER_TYPE_ETAG 0x893F /**< IEEE 802.1BR E-Tag. */
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#define RTE_ETHER_TYPE_1588 0x88F7
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/**< IEEE 802.1AS 1588 Precise Time Protocol. */
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#define RTE_ETHER_TYPE_SLOW 0x8809 /**< Slow protocols (LACP and Marker). */
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#define RTE_ETHER_TYPE_TEB 0x6558 /**< Transparent Ethernet Bridging. */
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#define RTE_ETHER_TYPE_LLDP 0x88CC /**< LLDP Protocol. */
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#define RTE_ETHER_TYPE_MPLS 0x8847 /**< MPLS ethertype. */
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#define RTE_ETHER_TYPE_MPLSM 0x8848 /**< MPLS multicast ethertype. */
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#define RTE_ETHER_TYPE_ECPRI 0xAEFE /**< eCPRI ethertype (.1Q supported). */
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/**
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* Extract VLAN tag information into mbuf
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*
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* Software version of VLAN stripping
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*
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* @param m
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* The packet mbuf.
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* @return
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* - 0: Success
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* - 1: not a vlan packet
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*/
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static inline int rte_vlan_strip(struct rte_mbuf *m)
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{
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struct rte_ether_hdr *eh
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= rte_pktmbuf_mtod(m, struct rte_ether_hdr *);
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struct rte_vlan_hdr *vh;
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if (eh->ether_type != rte_cpu_to_be_16(RTE_ETHER_TYPE_VLAN))
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return -1;
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vh = (struct rte_vlan_hdr *)(eh + 1);
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m->ol_flags |= PKT_RX_VLAN | PKT_RX_VLAN_STRIPPED;
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m->vlan_tci = rte_be_to_cpu_16(vh->vlan_tci);
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/* Copy ether header over rather than moving whole packet */
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memmove(rte_pktmbuf_adj(m, sizeof(struct rte_vlan_hdr)),
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eh, 2 * RTE_ETHER_ADDR_LEN);
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return 0;
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}
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/**
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* Insert VLAN tag into mbuf.
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*
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* Software version of VLAN unstripping
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*
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* @param m
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* The packet mbuf.
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* @return
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* - 0: On success
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* -EPERM: mbuf is is shared overwriting would be unsafe
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* -ENOSPC: not enough headroom in mbuf
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*/
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static inline int rte_vlan_insert(struct rte_mbuf **m)
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{
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struct rte_ether_hdr *oh, *nh;
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struct rte_vlan_hdr *vh;
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/* Can't insert header if mbuf is shared */
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if (!RTE_MBUF_DIRECT(*m) || rte_mbuf_refcnt_read(*m) > 1)
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return -EINVAL;
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/* Can't insert header if the first segment is too short */
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if (rte_pktmbuf_data_len(*m) < 2 * RTE_ETHER_ADDR_LEN)
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return -EINVAL;
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oh = rte_pktmbuf_mtod(*m, struct rte_ether_hdr *);
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nh = (struct rte_ether_hdr *)
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rte_pktmbuf_prepend(*m, sizeof(struct rte_vlan_hdr));
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if (nh == NULL)
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return -ENOSPC;
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memmove(nh, oh, 2 * RTE_ETHER_ADDR_LEN);
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nh->ether_type = rte_cpu_to_be_16(RTE_ETHER_TYPE_VLAN);
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vh = (struct rte_vlan_hdr *) (nh + 1);
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vh->vlan_tci = rte_cpu_to_be_16((*m)->vlan_tci);
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(*m)->ol_flags &= ~(PKT_RX_VLAN_STRIPPED | PKT_TX_VLAN);
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if ((*m)->ol_flags & PKT_TX_TUNNEL_MASK)
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(*m)->outer_l2_len += sizeof(struct rte_vlan_hdr);
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else
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(*m)->l2_len += sizeof(struct rte_vlan_hdr);
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return 0;
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}
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#ifdef __cplusplus
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}
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#endif
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#endif /* _RTE_ETHER_H_ */
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