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noaction_example_01.p4
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noaction_example_01.p4
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#include <core.p4>
#include <tc/pna.p4>
typedef bit<48> EthernetAddress;
header ethernet_t {
EthernetAddress dstAddr;
EthernetAddress srcAddr;
bit<16> etherType;
}
header ipv4_t {
bit<4> version;
bit<4> ihl;
bit<8> diffserv;
bit<16> totalLen;
bit<16> identification;
bit<3> flags;
bit<13> fragOffset;
bit<8> ttl;
bit<8> protocol;
bit<16> hdrChecksum;
@tc_type ("ipv4") bit<32> srcAddr;
@tc_type ("ipv4") bit<32> dstAddr;
}
//////////////////////////////////////////////////////////////////////
// Struct types for holding user-defined collections of headers and
// metadata in the P4 developer's program.
//
// Note: The names of these struct types are completely up to the P4
// developer, as are their member fields, with the only restriction
// being that the structs intended to contain headers should only
// contain members whose types are header, header stack, or
// header_union.
//////////////////////////////////////////////////////////////////////
struct main_metadata_t {
// empty for this skeleton
}
// User-defined struct containing all of those headers parsed in the
// main parser.
struct headers_t {
ethernet_t ethernet;
ipv4_t ipv4;
}
parser MainParserImpl(
packet_in pkt,
out headers_t hdr,
inout main_metadata_t main_meta,
in pna_main_parser_input_metadata_t istd)
{
state start {
pkt.extract(hdr.ethernet);
transition select(hdr.ethernet.etherType) {
0x0800 : parse_ipv4;
default : accept;
}
}
state parse_ipv4 {
pkt.extract(hdr.ipv4);
transition accept;
}
}
control MainControlImpl(
inout headers_t hdr, // from main parser
inout main_metadata_t user_meta, // from main parser, to "next block"
in pna_main_input_metadata_t istd,
inout pna_main_output_metadata_t ostd)
{
action next_hop(PortId_t vport) {
send_to_port(vport);
}
action default_route_drop() {
drop_packet();
}
action sendtoport(PortId_t vport) {
send_to_port(vport);
}
action drop() {
drop_packet();
}
table ipv4_tbl_1 {
key = {
hdr.ipv4.dstAddr : exact;
}
actions = {
next_hop;
default_route_drop;
}
default_action = default_route_drop;
}
table ipv4_tbl_2 {
key = {
hdr.ipv4.dstAddr : exact;
hdr.ipv4.srcAddr : exact;
hdr.ipv4.flags : exact;
}
actions = {
sendtoport;
drop;
NoAction;
}
size = 1024;
default_action = NoAction();
}
apply {
if (hdr.ipv4.isValid()) {
ipv4_tbl_1.apply();
ipv4_tbl_2.apply();
}
}
}
control MainDeparserImpl(
packet_out pkt,
inout headers_t hdr, // from main control
in main_metadata_t user_meta, // from main control
in pna_main_output_metadata_t ostd)
{
apply {
pkt.emit(hdr.ethernet);
pkt.emit(hdr.ipv4);
}
}
// BEGIN:Package_Instantiation_Example
PNA_NIC(
MainParserImpl(),
MainControlImpl(),
MainDeparserImpl()
) main;
// END:Package_Instantiation_Example