tools/test/p4src/p4-16/ecmp.p4 - onos - Gitiles

 #include <core.p4>
 #include <v1model.p4>
 #include "include/defines.p4"
 #include "include/headers.p4"
 #include "include/parsers.p4"
 #include "include/port_counters.p4"
 #include "include/checksums.p4"
 #include "include/actions.p4"


 control ingress(inout headers hdr, inout metadata meta, inout standard_metadata_t standard_metadata) {
     direct_counter(CounterType.packets) ecmp_group_table_counter;
     direct_counter(CounterType.packets) table0_counter;

     action ecmp_group(GroupId groupId, GroupSize groupSize) {
         meta.ecmp_metadata.groupId = groupId;
         hash(meta.ecmp_metadata.selector, HashAlgorithm.crc16, (bit<64>)0, { hdr.ipv4.srcAddr, hdr.ipv4.dstAddr, hdr.ipv4.protocol, hdr.tcp.srcPort, hdr.tcp.dstPort, hdr.udp.srcPort, hdr.udp.dstPort }, (bit<128>)groupSize);
     }

     table ecmp_group_table {
         actions = {
             set_egress_port(standard_metadata);
         }
         key = {
             meta.ecmp_metadata.groupId : exact;
             meta.ecmp_metadata.selector: exact;
         }
         counters = ecmp_group_table_counter;
     }

     table table0 {
         support_timeout = true;
         actions = {
             ecmp_group;
             set_egress_port(standard_metadata);
             send_to_cpu(standard_metadata);
             drop(standard_metadata);
         }
         key = {
             standard_metadata.ingress_port: ternary;
             hdr.ethernet.dstAddr          : ternary;
             hdr.ethernet.srcAddr          : ternary;
             hdr.ethernet.etherType        : ternary;
         }
         counters = table0_counter;
     }
     PortCountersControl() port_counters_control;
     apply {
         switch (table0.apply().action_run) {
             ecmp_group: {
                 ecmp_group_table.apply();
             }
         }

         port_counters_control.apply(hdr, meta, standard_metadata);
     }
 }

 control egress(inout headers hdr, inout metadata meta, inout standard_metadata_t standard_metadata) {
     apply {
         // Nothing to do
     }
 }

 V1Switch(ParserImpl(), verifyChecksum(), ingress(), egress(), computeChecksum(), DeparserImpl()) main;
	#include <core.p4>
	#include <v1model.p4>
	#include "include/defines.p4"
	#include "include/headers.p4"
	#include "include/parsers.p4"
	#include "include/port_counters.p4"
	#include "include/checksums.p4"
	#include "include/actions.p4"


	control ingress(inout headers hdr, inout metadata meta, inout standard_metadata_t standard_metadata) {
	direct_counter(CounterType.packets) ecmp_group_table_counter;
	direct_counter(CounterType.packets) table0_counter;

	action ecmp_group(GroupId groupId, GroupSize groupSize) {
	meta.ecmp_metadata.groupId = groupId;
	hash(meta.ecmp_metadata.selector, HashAlgorithm.crc16, (bit<64>)0, { hdr.ipv4.srcAddr, hdr.ipv4.dstAddr, hdr.ipv4.protocol, hdr.tcp.srcPort, hdr.tcp.dstPort, hdr.udp.srcPort, hdr.udp.dstPort }, (bit<128>)groupSize);
	}

	table ecmp_group_table {
	actions = {
	set_egress_port(standard_metadata);
	}
	key = {
	meta.ecmp_metadata.groupId : exact;
	meta.ecmp_metadata.selector: exact;
	}
	counters = ecmp_group_table_counter;
	}

	table table0 {
	support_timeout = true;
	actions = {
	ecmp_group;
	set_egress_port(standard_metadata);
	send_to_cpu(standard_metadata);
	drop(standard_metadata);
	}
	key = {
	standard_metadata.ingress_port: ternary;
	hdr.ethernet.dstAddr : ternary;
	hdr.ethernet.srcAddr : ternary;
	hdr.ethernet.etherType : ternary;
	}
	counters = table0_counter;
	}
	PortCountersControl() port_counters_control;
	apply {
	switch (table0.apply().action_run) {
	ecmp_group: {
	ecmp_group_table.apply();
	}
	}

	port_counters_control.apply(hdr, meta, standard_metadata);
	}
	}

	control egress(inout headers hdr, inout metadata meta, inout standard_metadata_t standard_metadata) {
	apply {
	// Nothing to do
	}
	}

	V1Switch(ParserImpl(), verifyChecksum(), ingress(), egress(), computeChecksum(), DeparserImpl()) main;