#include #include #include "headers.p4" // typedef bit<48> EthAddr_t; // header Ethernet_h { // EthAddr_t dstAddr; // EthAddr_t srcAddr; // bit<16> etherType; // } //typedef struct headers Parsed_packet; #define Parsed_packet headers #define user_metadata_t metadata //struct Parsed_packet { // Ethernet_h ethernet; //} // user defined metadata: can be used to share information between // TopParser, TopPipe, and TopDeparser //struct user_metadata_t { // bit<8> unused; //} // digest_data, MUST be 256 bits -- what is this used for? struct digest_data_t { bit<256> unused; } /******************************************************************************** * Parser */ parser RealParser( packet_in packet, out Parsed_packet hdr, out user_metadata_t meta, out digest_data_t digest_data, inout sume_metadata_t standard_metadata) { state start { packet.extract(hdr.ethernet); // meta.unused = 0; digest_data.unused = 0; transition accept; } } @Xilinx_MaxPacketRegion(1024) parser TopParser( packet_in b, out Parsed_packet p, out user_metadata_t user_metadata, out digest_data_t digest_data, inout sume_metadata_t sume_metadata) { RealParser() realparser; state start { realparser.apply(b, p, user_metadata, digest_data, sume_metadata); transition accept; } } /******************************************************************************** * Main */ control RealMain( inout Parsed_packet hdr, inout user_metadata_t meta, inout digest_data_t digest_data, inout sume_metadata_t sume_metadata) { #include "actions_nat64_generic.p4" #include "actions_egress.p4" action swap_eth_addresses() { mac_addr_t temp = hdr.ethernet.dst_addr; hdr.ethernet.dst_addr = hdr.ethernet.src_addr; hdr.ethernet.src_addr = temp; /* set egress port */ sume_metadata.dst_port = sume_metadata.src_port; } action send_to_port1() { sume_metadata.dst_port = 1; } action send_to_all_ports() { /* Taken from commands.txt of the "int" project: table_cam_add_entry forward set_output_port 0xffffffffffff => 0b01010101 python convert: >>> 0b01010101 85 */ sume_metadata.dst_port = 85; } action do_nothing() { mac_addr_t temp = hdr.ethernet.dst_addr; } table lookup_table { key = { hdr.ethernet.dst_addr: exact; } actions = { swap_eth_addresses; do_nothing; send_to_port1; send_to_all_ports; } size = 64; default_action = send_to_port1; // test_port1() } apply { if(hdr.ipv6.isValid()) { if(nat64.apply().hit) { /* generic / static nat64 done */ if(hdr.icmp6.isValid()) { nat64_icmp6_generic(); if(hdr.icmp6.type == ICMP6_ECHO_REPLY) { hdr.icmp.type = ICMP_ECHO_REPLY; hdr.icmp.code = 0; } if(hdr.icmp6.type == ICMP6_ECHO_REQUEST) { hdr.icmp.type = ICMP_ECHO_REQUEST; hdr.icmp.code = 0; } } } } lookup_table.apply(); } } control TopPipe( inout Parsed_packet p, inout user_metadata_t user_metadata, inout digest_data_t digest_data, inout sume_metadata_t sume_metadata) { RealMain() realmain; apply { realmain.apply(p, user_metadata, digest_data, sume_metadata); } } /******************************************************************************** * Deparser */ @Xilinx_MaxPacketRegion(1024) control TopDeparser( packet_out b, in Parsed_packet p, in user_metadata_t user_metadata, inout digest_data_t digest_data, inout sume_metadata_t sume_metadata) { apply { b.emit(p.ethernet); } } /******************************************************************************** * Switch */ SimpleSumeSwitch( TopParser(), TopPipe(), TopDeparser() ) main;