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eb700029c7
This patch extends the TX/RX packet abstractions with features that will be used by the e1000e device implementation. Changes are: 1. Support iovec lists for RX buffers 2. Deeper RX packets parsing 3. Loopback option for TX packets 4. Extended VLAN headers handling 5. RSS processing for RX packets Signed-off-by: Dmitry Fleytman <dmitry.fleytman@ravellosystems.com> Signed-off-by: Leonid Bloch <leonid.bloch@ravellosystems.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Jason Wang <jasowang@redhat.com>
420 lines
13 KiB
C
420 lines
13 KiB
C
/*
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* QEMU network structures definitions and helper functions
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*
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* Copyright (c) 2012 Ravello Systems LTD (http://ravellosystems.com)
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*
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* Developed by Daynix Computing LTD (http://www.daynix.com)
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*
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* Portions developed by Free Software Foundation, Inc
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* Copyright (C) 1991-1997, 2001, 2003, 2006 Free Software Foundation, Inc.
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* See netinet/ip6.h and netinet/in.h (GNU C Library)
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*
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* Portions developed by Igor Kovalenko
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* Copyright (c) 2006 Igor Kovalenko
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* See hw/rtl8139.c (QEMU)
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*
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* Authors:
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* Dmitry Fleytman <dmitry@daynix.com>
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* Tamir Shomer <tamirs@daynix.com>
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* Yan Vugenfirer <yan@daynix.com>
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*
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* This work is licensed under the terms of the GNU GPL, version 2 or later.
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* See the COPYING file in the top-level directory.
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*
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*/
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#ifndef QEMU_ETH_H
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#define QEMU_ETH_H
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#include "qemu/bswap.h"
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#include "qemu/iov.h"
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#define ETH_ALEN 6
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#define ETH_HLEN 14
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struct eth_header {
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uint8_t h_dest[ETH_ALEN]; /* destination eth addr */
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uint8_t h_source[ETH_ALEN]; /* source ether addr */
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uint16_t h_proto; /* packet type ID field */
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};
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struct vlan_header {
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uint16_t h_tci; /* priority and VLAN ID */
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uint16_t h_proto; /* encapsulated protocol */
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};
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struct ip_header {
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uint8_t ip_ver_len; /* version and header length */
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uint8_t ip_tos; /* type of service */
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uint16_t ip_len; /* total length */
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uint16_t ip_id; /* identification */
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uint16_t ip_off; /* fragment offset field */
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uint8_t ip_ttl; /* time to live */
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uint8_t ip_p; /* protocol */
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uint16_t ip_sum; /* checksum */
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uint32_t ip_src, ip_dst; /* source and destination address */
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};
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typedef struct tcp_header {
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uint16_t th_sport; /* source port */
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uint16_t th_dport; /* destination port */
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uint32_t th_seq; /* sequence number */
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uint32_t th_ack; /* acknowledgment number */
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uint16_t th_offset_flags; /* data offset, reserved 6 bits, */
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/* TCP protocol flags */
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uint16_t th_win; /* window */
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uint16_t th_sum; /* checksum */
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uint16_t th_urp; /* urgent pointer */
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} tcp_header;
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#define TCP_FLAGS_ONLY(flags) ((flags) & 0x3f)
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#define TCP_HEADER_FLAGS(tcp) \
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TCP_FLAGS_ONLY(be16_to_cpu((tcp)->th_offset_flags))
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#define TCP_FLAG_ACK 0x10
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#define TCP_HEADER_DATA_OFFSET(tcp) \
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(((be16_to_cpu((tcp)->th_offset_flags) >> 12) & 0xf) << 2)
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typedef struct udp_header {
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uint16_t uh_sport; /* source port */
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uint16_t uh_dport; /* destination port */
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uint16_t uh_ulen; /* udp length */
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uint16_t uh_sum; /* udp checksum */
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} udp_header;
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typedef struct ip_pseudo_header {
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uint32_t ip_src;
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uint32_t ip_dst;
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uint8_t zeros;
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uint8_t ip_proto;
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uint16_t ip_payload;
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} ip_pseudo_header;
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/* IPv6 address */
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struct in6_address {
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union {
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uint8_t __u6_addr8[16];
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} __in6_u;
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};
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struct ip6_header {
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union {
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struct ip6_hdrctl {
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uint32_t ip6_un1_flow; /* 4 bits version, 8 bits TC,
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20 bits flow-ID */
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uint16_t ip6_un1_plen; /* payload length */
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uint8_t ip6_un1_nxt; /* next header */
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uint8_t ip6_un1_hlim; /* hop limit */
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} ip6_un1;
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uint8_t ip6_un2_vfc; /* 4 bits version, top 4 bits tclass */
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struct ip6_ecn_access {
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uint8_t ip6_un3_vfc; /* 4 bits version, top 4 bits tclass */
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uint8_t ip6_un3_ecn; /* 2 bits ECN, top 6 bits payload length */
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} ip6_un3;
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} ip6_ctlun;
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struct in6_address ip6_src; /* source address */
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struct in6_address ip6_dst; /* destination address */
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};
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typedef struct ip6_pseudo_header {
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struct in6_address ip6_src;
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struct in6_address ip6_dst;
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uint32_t len;
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uint8_t zero[3];
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uint8_t next_hdr;
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} ip6_pseudo_header;
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struct ip6_ext_hdr {
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uint8_t ip6r_nxt; /* next header */
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uint8_t ip6r_len; /* length in units of 8 octets */
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};
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struct ip6_ext_hdr_routing {
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uint8_t nxt;
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uint8_t len;
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uint8_t rtype;
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uint8_t segleft;
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uint8_t rsvd[4];
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};
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struct ip6_option_hdr {
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#define IP6_OPT_PAD1 (0x00)
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#define IP6_OPT_HOME (0xC9)
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uint8_t type;
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uint8_t len;
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};
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struct udp_hdr {
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uint16_t uh_sport; /* source port */
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uint16_t uh_dport; /* destination port */
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uint16_t uh_ulen; /* udp length */
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uint16_t uh_sum; /* udp checksum */
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};
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struct tcp_hdr {
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u_short th_sport; /* source port */
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u_short th_dport; /* destination port */
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uint32_t th_seq; /* sequence number */
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uint32_t th_ack; /* acknowledgment number */
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#ifdef HOST_WORDS_BIGENDIAN
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u_char th_off : 4, /* data offset */
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th_x2:4; /* (unused) */
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#else
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u_char th_x2 : 4, /* (unused) */
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th_off:4; /* data offset */
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#endif
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#define TH_ELN 0x1 /* explicit loss notification */
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#define TH_ECN 0x2 /* explicit congestion notification */
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#define TH_FS 0x4 /* fast start */
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u_char th_flags;
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#define TH_FIN 0x01
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#define TH_SYN 0x02
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#define TH_RST 0x04
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#define TH_PUSH 0x08
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#define TH_ACK 0x10
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#define TH_URG 0x20
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u_short th_win; /* window */
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u_short th_sum; /* checksum */
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u_short th_urp; /* urgent pointer */
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};
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#define ip6_nxt ip6_ctlun.ip6_un1.ip6_un1_nxt
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#define ip6_ecn_acc ip6_ctlun.ip6_un3.ip6_un3_ecn
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#define PKT_GET_ETH_HDR(p) \
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((struct eth_header *)(p))
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#define PKT_GET_VLAN_HDR(p) \
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((struct vlan_header *) (((uint8_t *)(p)) + sizeof(struct eth_header)))
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#define PKT_GET_DVLAN_HDR(p) \
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(PKT_GET_VLAN_HDR(p) + 1)
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#define PKT_GET_IP_HDR(p) \
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((struct ip_header *)(((uint8_t *)(p)) + eth_get_l2_hdr_length(p)))
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#define IP_HDR_GET_LEN(p) \
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((((struct ip_header *)(p))->ip_ver_len & 0x0F) << 2)
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#define PKT_GET_IP_HDR_LEN(p) \
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(IP_HDR_GET_LEN(PKT_GET_IP_HDR(p)))
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#define PKT_GET_IP6_HDR(p) \
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((struct ip6_header *) (((uint8_t *)(p)) + eth_get_l2_hdr_length(p)))
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#define IP_HEADER_VERSION(ip) \
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(((ip)->ip_ver_len >> 4) & 0xf)
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#define IP4_IS_FRAGMENT(ip) \
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((be16_to_cpu((ip)->ip_off) & (IP_OFFMASK | IP_MF)) != 0)
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#define ETH_P_IP (0x0800) /* Internet Protocol packet */
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#define ETH_P_ARP (0x0806) /* Address Resolution packet */
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#define ETH_P_IPV6 (0x86dd)
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#define ETH_P_VLAN (0x8100)
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#define ETH_P_DVLAN (0x88a8)
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#define ETH_P_UNKNOWN (0xffff)
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#define VLAN_VID_MASK 0x0fff
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#define IP_HEADER_VERSION_4 (4)
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#define IP_HEADER_VERSION_6 (6)
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#define IP_PROTO_TCP (6)
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#define IP_PROTO_UDP (17)
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#define IPTOS_ECN_MASK 0x03
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#define IPTOS_ECN(x) ((x) & IPTOS_ECN_MASK)
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#define IPTOS_ECN_CE 0x03
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#define IP6_ECN_MASK 0xC0
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#define IP6_ECN(x) ((x) & IP6_ECN_MASK)
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#define IP6_ECN_CE 0xC0
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#define IP4_DONT_FRAGMENT_FLAG (1 << 14)
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#define IS_SPECIAL_VLAN_ID(x) \
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(((x) == 0) || ((x) == 0xFFF))
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#define ETH_MAX_L2_HDR_LEN \
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(sizeof(struct eth_header) + 2 * sizeof(struct vlan_header))
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#define ETH_MAX_IP4_HDR_LEN (60)
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#define ETH_MAX_IP_DGRAM_LEN (0xFFFF)
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#define IP_FRAG_UNIT_SIZE (8)
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#define IP_FRAG_ALIGN_SIZE(x) ((x) & ~0x7)
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#define IP_RF 0x8000 /* reserved fragment flag */
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#define IP_DF 0x4000 /* don't fragment flag */
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#define IP_MF 0x2000 /* more fragments flag */
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#define IP_OFFMASK 0x1fff /* mask for fragmenting bits */
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#define IP6_EXT_GRANULARITY (8) /* Size granularity for
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IPv6 extension headers */
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/* IP6 extension header types */
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#define IP6_HOP_BY_HOP (0)
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#define IP6_ROUTING (43)
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#define IP6_FRAGMENT (44)
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#define IP6_ESP (50)
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#define IP6_AUTHENTICATION (51)
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#define IP6_NONE (59)
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#define IP6_DESTINATON (60)
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#define IP6_MOBILITY (135)
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static inline int is_multicast_ether_addr(const uint8_t *addr)
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{
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return 0x01 & addr[0];
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}
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static inline int is_broadcast_ether_addr(const uint8_t *addr)
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{
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return (addr[0] & addr[1] & addr[2] & addr[3] & addr[4] & addr[5]) == 0xff;
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}
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static inline int is_unicast_ether_addr(const uint8_t *addr)
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{
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return !is_multicast_ether_addr(addr);
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}
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typedef enum {
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ETH_PKT_UCAST = 0xAABBCC00,
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ETH_PKT_BCAST,
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ETH_PKT_MCAST
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} eth_pkt_types_e;
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static inline eth_pkt_types_e
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get_eth_packet_type(const struct eth_header *ehdr)
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{
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if (is_broadcast_ether_addr(ehdr->h_dest)) {
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return ETH_PKT_BCAST;
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} else if (is_multicast_ether_addr(ehdr->h_dest)) {
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return ETH_PKT_MCAST;
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} else { /* unicast */
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return ETH_PKT_UCAST;
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}
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}
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static inline uint32_t
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eth_get_l2_hdr_length(const void *p)
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{
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uint16_t proto = be16_to_cpu(PKT_GET_ETH_HDR(p)->h_proto);
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struct vlan_header *hvlan = PKT_GET_VLAN_HDR(p);
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switch (proto) {
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case ETH_P_VLAN:
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return sizeof(struct eth_header) + sizeof(struct vlan_header);
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case ETH_P_DVLAN:
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if (be16_to_cpu(hvlan->h_proto) == ETH_P_VLAN) {
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return sizeof(struct eth_header) + 2 * sizeof(struct vlan_header);
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} else {
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return sizeof(struct eth_header) + sizeof(struct vlan_header);
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}
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default:
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return sizeof(struct eth_header);
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}
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}
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static inline uint32_t
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eth_get_l2_hdr_length_iov(const struct iovec *iov, int iovcnt)
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{
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uint8_t p[sizeof(struct eth_header) + sizeof(struct vlan_header)];
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size_t copied = iov_to_buf(iov, iovcnt, 0, p, ARRAY_SIZE(p));
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if (copied < ARRAY_SIZE(p)) {
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return copied;
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}
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return eth_get_l2_hdr_length(p);
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}
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static inline uint16_t
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eth_get_pkt_tci(const void *p)
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{
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uint16_t proto = be16_to_cpu(PKT_GET_ETH_HDR(p)->h_proto);
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struct vlan_header *hvlan = PKT_GET_VLAN_HDR(p);
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switch (proto) {
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case ETH_P_VLAN:
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case ETH_P_DVLAN:
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return be16_to_cpu(hvlan->h_tci);
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default:
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return 0;
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}
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}
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bool
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eth_strip_vlan(const struct iovec *iov, int iovcnt, size_t iovoff,
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uint8_t *new_ehdr_buf,
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uint16_t *payload_offset, uint16_t *tci);
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bool
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eth_strip_vlan_ex(const struct iovec *iov, int iovcnt, size_t iovoff,
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uint16_t vet, uint8_t *new_ehdr_buf,
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uint16_t *payload_offset, uint16_t *tci);
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uint16_t
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eth_get_l3_proto(const struct iovec *l2hdr_iov, int iovcnt, size_t l2hdr_len);
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void eth_setup_vlan_headers_ex(struct eth_header *ehdr, uint16_t vlan_tag,
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uint16_t vlan_ethtype, bool *is_new);
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static inline void
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eth_setup_vlan_headers(struct eth_header *ehdr, uint16_t vlan_tag,
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bool *is_new)
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{
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eth_setup_vlan_headers_ex(ehdr, vlan_tag, ETH_P_VLAN, is_new);
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}
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uint8_t eth_get_gso_type(uint16_t l3_proto, uint8_t *l3_hdr, uint8_t l4proto);
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typedef struct eth_ip6_hdr_info_st {
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uint8_t l4proto;
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size_t full_hdr_len;
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struct ip6_header ip6_hdr;
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bool has_ext_hdrs;
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bool rss_ex_src_valid;
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struct in6_address rss_ex_src;
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bool rss_ex_dst_valid;
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struct in6_address rss_ex_dst;
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bool fragment;
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} eth_ip6_hdr_info;
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typedef struct eth_ip4_hdr_info_st {
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struct ip_header ip4_hdr;
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bool fragment;
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} eth_ip4_hdr_info;
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typedef struct eth_l4_hdr_info_st {
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union {
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struct tcp_header tcp;
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struct udp_header udp;
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} hdr;
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bool has_tcp_data;
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} eth_l4_hdr_info;
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void eth_get_protocols(const struct iovec *iov, int iovcnt,
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bool *isip4, bool *isip6,
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bool *isudp, bool *istcp,
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size_t *l3hdr_off,
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size_t *l4hdr_off,
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size_t *l5hdr_off,
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eth_ip6_hdr_info *ip6hdr_info,
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eth_ip4_hdr_info *ip4hdr_info,
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eth_l4_hdr_info *l4hdr_info);
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void eth_setup_ip4_fragmentation(const void *l2hdr, size_t l2hdr_len,
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void *l3hdr, size_t l3hdr_len,
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size_t l3payload_len,
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size_t frag_offset, bool more_frags);
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void
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eth_fix_ip4_checksum(void *l3hdr, size_t l3hdr_len);
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uint32_t
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eth_calc_ip4_pseudo_hdr_csum(struct ip_header *iphdr,
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uint16_t csl,
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uint32_t *cso);
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uint32_t
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eth_calc_ip6_pseudo_hdr_csum(struct ip6_header *iphdr,
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uint16_t csl,
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uint8_t l4_proto,
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uint32_t *cso);
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bool
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eth_parse_ipv6_hdr(const struct iovec *pkt, int pkt_frags,
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size_t ip6hdr_off, eth_ip6_hdr_info *info);
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#endif
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