tools/test/p4src/tor/headers.p4 - onos - Gitiles

 // Copyright (c) 2017, Google Inc.
 //
 // Common header definitions.
 // Note: This code has not been tested and is expected to contain bugs.

 #ifndef P4_SPEC_HEADERS_P4_
 #define P4_SPEC_HEADERS_P4_

 //------------------------------------------------------------------------------
 // Field type definitions
 //------------------------------------------------------------------------------

 typedef bit<48>   EthernetAddress;
 typedef bit<32>   IPv4Address;
 typedef bit<128>  IPv6Address;
 typedef bit<9>    PortNum;

 //------------------------------------------------------------------------------
 // Protocol header definitions
 //------------------------------------------------------------------------------

 header ethernet_t {
   EthernetAddress dst_addr;
   EthernetAddress src_addr;
   bit<16> ether_type;
 }

 header ipv4_base_t {
   bit<4> version;
   bit<4> ihl;
   bit<8> diffserv;
   bit<16> total_len;
   bit<16> identification;
   bit<3> flags;
   bit<13> frag_offset;
   bit<8> ttl;
   bit<8> protocol;
   bit<16> hdr_checksum;
   IPv4Address src_addr;
   IPv4Address dst_addr;
 }

 // Fixed ipv6 header
 header ipv6_base_t {
   bit<4> version;
   bit<8> traffic_class;
   bit<20> flow_label;
   bit<16> payload_length;
   bit<8> next_header;
   bit<8> hop_limit;
   IPv6Address src_addr;
   IPv6Address dst_addr;
 }

 header udp_t {
   bit<16> src_port;
   bit<16> dst_port;
   bit<16> hdr_length;
   bit<16> checksum;
 }

 header tcp_t {
   bit<16> src_port;
   bit<16> dst_port;
   bit<32> seq_no;
   bit<32> ack_no;
   bit<4> data_offset;
   bit<4> res;
   bit<8> flags;
   bit<16> window;
   bit<16> checksum;
   bit<16> urgent_ptr;
 }

 // Same for both ip v4 and v6
 header icmp_header_t {
   bit<8> icmp_type;
   bit<8> code;
   bit<16> checksum;
 }

 header vlan_tag_t {
   bit<3> pcp;
   bit cfi;
   bit<12> vid;
   bit<16> ether_type;
 }

 header arp_t {
   bit<16> hw_type;
   bit<16> proto_type;
   bit<8> hw_addr_len;
   bit<8> proto_addr_len;
   bit<16> opcode;
   bit<48> sender_hw_addr;
   bit<32> sender_proto_addr;
   bit<48> target_hw_addr;
   bit<32> target_proto_addr;
 }

 //------------------------------------------------------------------------------
 // Controller header definitions
 //------------------------------------------------------------------------------

 @controller_header("packet_in")
 header packet_in_header_t {
   // TODO(samarabdi) Change once we move from 9 to 32 bits
   @proto_tag(1) bit<9> ingress_physical_port;
   @proto_tag(4) bit<7> padding1;
   @proto_tag(2) bit<32> ingress_logical_port;
   // The initial intended egress port decided for the packet by the pipeline.
   // This is standard metadata.egress_spec at the time the punt-rule was hit.
   // TODO(samarabdi) Change once we move from 9 to 32 bits
   @proto_tag(3) bit<9> target_egress_port;
   @proto_tag(5) bit<7> padding2;
 }

 @not_extracted_in_egress
 @controller_header("packet_out")
 header packet_out_header_t {
   // TODO(samarabdi) Change once we move from 9 to 32 bits
   @proto_tag(1) bit<9> egress_physical_port;
   @proto_tag(2) bit<1> submit_to_ingress;
   @proto_tag(3) bit<6> padding;
 }

 //------------------------------------------------------------------------------
 // Metadata definition
 //------------------------------------------------------------------------------

 // Local meta-data for each packet being processed.
 // TODO(samarabdi): Evaluate if this should be role-based.
 struct local_metadata_t {
   bit<32> vrf_id;
   bit<8> class_id;              // Dst traffic class ID (IPSP)
   bit<5> cpu_cos_queue_id;
   bit<1> skip_egress;
   // TODO(samarabdi) Change once we move from 9 to 32 bits
   bit<9> egress_spec_at_punt_match;
   bit<2> color;
   bit<16> l4_src_port;
   bit<16> l4_dst_port;
   bit<8> icmp_code;
 }
 #endif // P4_SPEC_HEADERS_P4_
	// Copyright (c) 2017, Google Inc.
	//
	// Common header definitions.
	// Note: This code has not been tested and is expected to contain bugs.

	#ifndef P4_SPEC_HEADERS_P4_
	#define P4_SPEC_HEADERS_P4_

	//------------------------------------------------------------------------------
	// Field type definitions
	//------------------------------------------------------------------------------

	typedef bit<48> EthernetAddress;
	typedef bit<32> IPv4Address;
	typedef bit<128> IPv6Address;
	typedef bit<9> PortNum;

	//------------------------------------------------------------------------------
	// Protocol header definitions
	//------------------------------------------------------------------------------

	header ethernet_t {
	EthernetAddress dst_addr;
	EthernetAddress src_addr;
	bit<16> ether_type;
	}

	header ipv4_base_t {
	bit<4> version;
	bit<4> ihl;
	bit<8> diffserv;
	bit<16> total_len;
	bit<16> identification;
	bit<3> flags;
	bit<13> frag_offset;
	bit<8> ttl;
	bit<8> protocol;
	bit<16> hdr_checksum;
	IPv4Address src_addr;
	IPv4Address dst_addr;
	}

	// Fixed ipv6 header
	header ipv6_base_t {
	bit<4> version;
	bit<8> traffic_class;
	bit<20> flow_label;
	bit<16> payload_length;
	bit<8> next_header;
	bit<8> hop_limit;
	IPv6Address src_addr;
	IPv6Address dst_addr;
	}

	header udp_t {
	bit<16> src_port;
	bit<16> dst_port;
	bit<16> hdr_length;
	bit<16> checksum;
	}

	header tcp_t {
	bit<16> src_port;
	bit<16> dst_port;
	bit<32> seq_no;
	bit<32> ack_no;
	bit<4> data_offset;
	bit<4> res;
	bit<8> flags;
	bit<16> window;
	bit<16> checksum;
	bit<16> urgent_ptr;
	}

	// Same for both ip v4 and v6
	header icmp_header_t {
	bit<8> icmp_type;
	bit<8> code;
	bit<16> checksum;
	}

	header vlan_tag_t {
	bit<3> pcp;
	bit cfi;
	bit<12> vid;
	bit<16> ether_type;
	}

	header arp_t {
	bit<16> hw_type;
	bit<16> proto_type;
	bit<8> hw_addr_len;
	bit<8> proto_addr_len;
	bit<16> opcode;
	bit<48> sender_hw_addr;
	bit<32> sender_proto_addr;
	bit<48> target_hw_addr;
	bit<32> target_proto_addr;
	}

	//------------------------------------------------------------------------------
	// Controller header definitions
	//------------------------------------------------------------------------------

	@controller_header("packet_in")
	header packet_in_header_t {
	// TODO(samarabdi) Change once we move from 9 to 32 bits
	@proto_tag(1) bit<9> ingress_physical_port;
	@proto_tag(4) bit<7> padding1;
	@proto_tag(2) bit<32> ingress_logical_port;
	// The initial intended egress port decided for the packet by the pipeline.
	// This is standard metadata.egress_spec at the time the punt-rule was hit.
	// TODO(samarabdi) Change once we move from 9 to 32 bits
	@proto_tag(3) bit<9> target_egress_port;
	@proto_tag(5) bit<7> padding2;
	}

	@not_extracted_in_egress
	@controller_header("packet_out")
	header packet_out_header_t {
	// TODO(samarabdi) Change once we move from 9 to 32 bits
	@proto_tag(1) bit<9> egress_physical_port;
	@proto_tag(2) bit<1> submit_to_ingress;
	@proto_tag(3) bit<6> padding;
	}

	//------------------------------------------------------------------------------
	// Metadata definition
	//------------------------------------------------------------------------------

	// Local meta-data for each packet being processed.
	// TODO(samarabdi): Evaluate if this should be role-based.
	struct local_metadata_t {
	bit<32> vrf_id;
	bit<8> class_id; // Dst traffic class ID (IPSP)
	bit<5> cpu_cos_queue_id;
	bit<1> skip_egress;
	// TODO(samarabdi) Change once we move from 9 to 32 bits
	bit<9> egress_spec_at_punt_match;
	bit<2> color;
	bit<16> l4_src_port;
	bit<16> l4_dst_port;
	bit<8> icmp_code;
	}
	#endif // P4_SPEC_HEADERS_P4_