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/*
// Copyright (c) 2017 Intel Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
*/
#ifndef __INCLUDE_PIPELINE_ARPICMP_BE_H__
#define __INCLUDE_PIPELINE_ARPICMP_BE_H__
#include "pipeline_common_be.h"
#define PIPELINE_ARPICMP_KEY_PORT_IN_AH(f_ah, f_pkt_work, f_pkt4_work) \
static int \
f_ah( \
__rte_unused struct rte_pipeline *rte_p, \
struct rte_mbuf **pkts, \
uint32_t n_pkts, \
void *arg) \
{ \
uint32_t i, j; \
\
for (j = 0; j < n_pkts; j++) \
rte_prefetch0(pkts[j]); \
\
for (i = 0; i < (n_pkts & (~0x3LLU)); i += 4) \
f_pkt4_work(&pkts[i], i, arg); \
\
for ( ; i < n_pkts; i++) \
f_pkt_work(pkts[i], i, arg); \
\
\
return 0; \
}
extern struct app_params *myApp;
void print_pkt1(struct rte_mbuf *pkt);
struct ether_addr *get_link_hw_addr(uint8_t out_port);
#ifdef VNF_ACL
#include <rte_pipeline.h>
#include "rte_ether.h"
#include "app.h"
#if (RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN)
// x86 == little endian
// network == big endian
#define CHECK_ENDIAN_16(x) rte_be_to_cpu_16(x)
#define CHECK_ENDIAN_32(x) rte_be_to_cpu_32(x)
#else
#define CHECK_ENDIAN_16(x) (x)
#define CHECK_ENDIAN_32(x) (x)
#endif
#define MAX_ARP_RT_ENTRY 32
#define MAX_ND_RT_ENTRY 32
#define ND_IPV6_ADDR_SIZE 16 /* 16 Byte of IPv6 Address */
enum {
ARP_FOUND,
ARP_NOT_FOUND,
NH_NOT_FOUND,
};
enum arp_key_type {
ARP_IPV4,
/* ND IPv6 */
ND_IPV6,
};
struct arp_key_ipv4 {
uint32_t ip;
uint8_t port_id;
uint8_t filler1;
uint8_t filler2;
uint8_t filler3;
};
/* ND IPv6 */
struct nd_key_ipv6 {
/*128 Bit of IPv6 Address */
/*<48bit Network> <16bit Subnet> <64bit Interface> */
uint8_t ipv6[ND_IPV6_ADDR_SIZE];
uint8_t port_id;
uint8_t filler1;
uint8_t filler2;
uint8_t filler3;
};
struct arp_key {
enum arp_key_type type;
union {
struct arp_key_ipv4 ipv4;
} key;
};
struct lib_arp_route_table_entry {
uint32_t ip;
uint32_t mask;
uint32_t port;
uint32_t nh;
};
struct lib_nd_route_table_entry {
uint8_t ipv6[16];
uint8_t depth;
uint32_t port;
uint8_t nhipv6[16];
};
extern struct lib_arp_route_table_entry lib_arp_route_table[MAX_ARP_RT_ENTRY];
extern struct lib_nd_route_table_entry lib_nd_route_table[MAX_ND_RT_ENTRY];
extern uint8_t prv_in_port_a[PIPELINE_MAX_PORT_IN];
extern void convert_prefixlen_to_netmask_ipv6(uint32_t depth,
uint8_t netmask_ipv6[]);
uint32_t get_nh(uint32_t, uint32_t*);
void get_nh_ipv6(uint8_t ipv6[], uint32_t *port, uint8_t nhipv6[]);
extern uint32_t ARPICMP_DEBUG;
/* ARP entry populated and echo reply recieved */
#define COMPLETE 1
/* ARP entry populated and either awaiting echo reply or stale entry */
#define INCOMPLETE 0
/* ND IPv6 */
extern uint32_t NDIPV6_DEBUG;
/* ICMPv6 entry populated and echo reply recieved */
#define ICMPv6_COMPLETE 1
/* ICMPv6 entry populated and either awaiting echo reply or stale entry */
#define ICMPv6_INCOMPLETE 0
struct arp_entry_data {
struct ether_addr eth_addr;
uint8_t port;
uint8_t status;
uint32_t ip;
} __attribute__ ((__packed__));
/*ND IPv6*/
struct nd_entry_data {
struct ether_addr eth_addr;
uint8_t port;
uint8_t status;
uint8_t ipv6[ND_IPV6_ADDR_SIZE];
} __attribute__ ((__packed__));
int get_dest_mac_address(const uint32_t ipaddr, const uint32_t phy_port,
struct ether_addr *hw_addr, uint32_t *nhip);
int get_dest_mac_addr(const uint32_t ipaddr, const uint32_t phy_port,
struct ether_addr *hw_addr);
int get_dest_mac_address_ipv6(uint8_t ipv6addr[], uint32_t phy_port,
struct ether_addr *hw_addr, uint8_t nhipv6[]);
void lib_arp_request_arp(
const uint32_t ipaddr,
const uint32_t phy_port,
struct rte_pipeline *rte_p);
void print_arp_table(void);
void print_nd_table(void);
void remove_arp_entry(uint32_t ipaddr, uint8_t portid);
void remove_nd_entry_ipv6(uint8_t ipv6addr[], uint8_t portid);
void populate_arp_entry(const struct ether_addr *hw_addr, uint32_t ipaddr,
uint8_t portid);
/*ND IPv6*/
int populate_nd_entry(const struct ether_addr *hw_addr, uint8_t ip[],
uint8_t portid);
void request_arp(uint8_t port_id, uint32_t ip, struct rte_pipeline *rte_p);
void request_arp_wrap(uint8_t port_id, uint32_t ip);
void request_echo(unsigned int port_id, uint32_t ip);
void process_arpicmp_pkt(struct rte_mbuf *pkt, uint32_t out_port,
uint32_t pkt_num);
struct arp_entry_data *retrieve_arp_entry(const struct arp_key_ipv4 arp_key);
struct nd_entry_data *retrieve_nd_entry(struct nd_key_ipv6 nd_key);
struct nd_entry_data *retrieve_nd_entry(struct nd_key_ipv6 nd_key);
void lib_nd_init(/*struct pipeline_params *params, */ struct app_params *app);
void print_pkt1(struct rte_mbuf *pkt);
#endif
uint8_t lb_outport_id[PIPELINE_MAX_PORT_IN];
struct pipeline *loadb_pipeline[PIPELINE_MAX_PORT_IN];
struct pipeline *all_pipeline[PIPELINE_MAX_PORT_IN];
uint8_t vnf_to_loadb_map[PIPELINE_MAX_PORT_IN];
uint8_t port_to_loadb_map[PIPELINE_MAX_PORT_IN];
uint8_t loadb_pipeline_nums[PIPELINE_MAX_PORT_IN];
#if 0
uint8_t lb_outport_id[PIPELINE_MAX_PORT_IN];
struct pipeline *arp_pipeline[PIPELINE_MAX_PORT_IN];
uint8_t vnf_to_arp_map[PIPELINE_MAX_PORT_IN];
uint8_t port_to_arp_map[PIPELINE_MAX_PORT_IN];
uint8_t arp_pipeline_nums[PIPELINE_MAX_PORT_IN];
#endif
void set_port_to_loadb_map(uint8_t pipeline_num);
uint8_t get_port_to_loadb_map(uint8_t phy_port_id);
/* acts on port_to_loadb_map */
void set_phy_inport_map(uint8_t pipeline_num, uint8_t *map);
void set_phy_outport_map(uint8_t pipeline_num, uint8_t *map);
void set_outport_id(uint8_t pipeline_num, struct pipeline *p, uint8_t *map);
/* acts on lb_outport_id */
uint8_t get_loadb_outport_id(uint8_t actual_phy_port);
/* acts on lb_outport_id */
uint8_t get_vnf_set_num(uint8_t pipeline_num);
void pipelines_port_info(void);
void pipelines_map_info(void);
void register_loadb_to_arp(uint8_t pipeline_num, struct pipeline *p,
__rte_unused struct app_params *app);
/* vnf_to_loadb_map[] and loadb_pipelines[] */
uint8_t SWQ_to_Port_map[128];
extern struct pipeline_be_ops pipeline_arpicmp_be_ops;
void register_pipeline_Qs(uint8_t pipeline_num, struct pipeline *p);
void set_link_map(uint8_t pipeline_num, struct pipeline *p, uint8_t *map);
void set_outport_id(uint8_t pipeline_num, struct pipeline *p, uint8_t *map);
void set_phy_outport_id(uint8_t pipeline_num, struct pipeline *p, uint8_t *map);
void set_phy_inport_id(uint8_t pipeline_num, struct pipeline *p, uint8_t *map);
/*
* Messages
*/
enum pipeline_arpicmp_msg_req_type {
PIPELINE_ARPICMP_MSG_REQ_ENTRY_DBG,
PIPELINE_ARPICMP_MSG_REQS
};
/*
* MSG ENTRY DBG
*/
struct pipeline_arpicmp_entry_dbg_msg_req {
enum pipeline_msg_req_type type;
enum pipeline_arpicmp_msg_req_type subtype;
/* data */
uint8_t data[2];
};
/*
* ARPICMP Entry
*/
struct pipeline_arpicmp_in_port_h_arg {
struct pipeline_arpicmp *p;
uint8_t in_port_id;
};
struct pipeline_arpicmp_entry_dbg_msg_rsp {
int status;
};
#ifdef VNF_ACL
/* ICMPv6 Header */
struct icmpv6_hdr {
uint8_t icmpv6_type; /* ICMPV6 packet type. */
uint8_t icmpv6_code; /* ICMPV6 packet code. */
uint16_t icmpv6_cksum; /* ICMPV6 packet checksum. */
} __attribute__ ((__packed__));
/**
* ICMPV6 Info Header
*/
struct icmpv6_info_hdr {
uint16_t icmpv6_ident; /* ICMPV6 packet identifier. */
uint16_t icmpv6_seq_nb; /* ICMPV6 packet sequence number. */
} __attribute__ ((__packed__));
/**
* ICMPV6 ND Header
*/
struct icmpv6_nd_hdr {
/*ND Advertisement flags */
uint32_t icmpv6_reserved;
/* bit31-Router, bit30-Solicited, bit29-Override, bit28-bit0 unused */
uint8_t target_ipv6[16]; /**< target IPv6 address */
/*ICMPv6 Option*/
uint8_t type;
uint8_t length;
struct ether_addr link_layer_address;
} __attribute__ ((__packed__));
/* Icmpv6 types */
#define ICMPV6_PROTOCOL_ID 58
#define ICMPV6_ECHO_REQUEST 0x0080
#define ICMPV6_ECHO_REPLY 0x0081
#define ICMPV6_NEIGHBOR_SOLICITATION 0x0087
#define ICMPV6_NEIGHBOR_ADVERTISEMENT 0x0088
#define IPV6_MULTICAST 0xFF02
#define NEIGHBOR_SOLICITATION_SET 0x40000000
enum icmpv6_link_layer_Address_type {
e_Source_Link_Layer_Address = 1,
e_Target_Link_Layer_Address,
e_Link_Layer_Address
};
uint8_t is_multicast_ipv6_addr(uint8_t ipv6[]);
struct icmpv6_port_address {
uint32_t ipv6[16];
uint64_t mac_addr;
};
struct icmpv6_port_address icmpv6_port_addresses[RTE_MAX_ETHPORTS];
#define MAX_NUM_ICMPv6_ENTRIES 64
//struct rte_pipeline *myicmpP;
struct rte_mbuf *lib_icmpv6_pkt;
void request_icmpv6_echo(uint32_t port_id, uint8_t ipv6[]);
void request_icmpv6_echo_message(uint16_t port_id, uint8_t ipv6[],
struct ether_addr *gw_addr);
void
process_icmpv6_pkt(struct rte_mbuf *pkt, uint32_t out_port, uint32_t pkt_num);
int get_dest_mac_addr_port(const uint32_t ipaddr,
uint32_t *phy_port, struct ether_addr *hw_addr);
int get_dest_mac_address_ipv6_port(uint8_t ipv6addr[], uint32_t *phy_port,
struct ether_addr *hw_addr, uint8_t nhipv6[]);
#endif
#endif
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