| /* |
| * Copyright 2017-present Open Networking Foundation |
| * |
| * 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 __PARSER__ |
| #define __PARSER__ |
| |
| #include "define.p4" |
| |
| parser FabricParser (packet_in packet, |
| out parsed_headers_t hdr, |
| inout fabric_metadata_t fabric_metadata, |
| inout standard_metadata_t standard_metadata) { |
| |
| bit<6> last_ipv4_dscp = 0; |
| |
| state start { |
| transition select(standard_metadata.ingress_port) { |
| CPU_PORT: parse_packet_out; |
| default: parse_ethernet; |
| } |
| } |
| |
| state parse_packet_out { |
| packet.extract(hdr.packet_out); |
| transition parse_ethernet; |
| } |
| |
| state parse_ethernet { |
| packet.extract(hdr.ethernet); |
| fabric_metadata.vlan_id = DEFAULT_VLAN_ID; |
| transition select(packet.lookahead<bit<16>>()){ |
| ETHERTYPE_QINQ: parse_vlan_tag; |
| ETHERTYPE_QINQ_NON_STD: parse_vlan_tag; |
| ETHERTYPE_VLAN: parse_vlan_tag; |
| default: parse_eth_type; |
| } |
| } |
| |
| state parse_vlan_tag { |
| packet.extract(hdr.vlan_tag); |
| #ifdef WITH_BNG |
| fabric_metadata.bng.s_tag = hdr.vlan_tag.vlan_id; |
| #endif // WITH_BNG |
| transition select(packet.lookahead<bit<16>>()){ |
| #if defined(WITH_XCONNECT) || defined(WITH_DOUBLE_VLAN_TERMINATION) |
| ETHERTYPE_VLAN: parse_inner_vlan_tag; |
| #endif // WITH_XCONNECT || WITH_DOUBLE_VLAN_TERMINATION |
| default: parse_eth_type; |
| } |
| } |
| |
| #if defined(WITH_XCONNECT) || defined(WITH_DOUBLE_VLAN_TERMINATION) |
| state parse_inner_vlan_tag { |
| packet.extract(hdr.inner_vlan_tag); |
| #ifdef WITH_BNG |
| fabric_metadata.bng.c_tag = hdr.inner_vlan_tag.vlan_id; |
| #endif // WITH_BNG |
| transition parse_eth_type; |
| } |
| #endif // WITH_XCONNECT || WITH_DOUBLE_VLAN_TERMINATION |
| |
| state parse_eth_type { |
| packet.extract(hdr.eth_type); |
| transition select(hdr.eth_type.value) { |
| ETHERTYPE_MPLS: parse_mpls; |
| ETHERTYPE_IPV4: parse_ipv4; |
| #ifdef WITH_IPV6 |
| ETHERTYPE_IPV6: parse_ipv6; |
| #endif // WITH_IPV6 |
| #ifdef WITH_BNG |
| ETHERTYPE_PPPOED: parse_pppoe; |
| ETHERTYPE_PPPOES: parse_pppoe; |
| #endif // WITH_BNG |
| default: accept; |
| } |
| } |
| |
| #ifdef WITH_BNG |
| state parse_pppoe { |
| packet.extract(hdr.pppoe); |
| transition select(hdr.pppoe.protocol) { |
| PPPOE_PROTOCOL_MPLS: parse_mpls; |
| PPPOE_PROTOCOL_IP4: parse_ipv4; |
| #ifdef WITH_IPV6 |
| PPPOE_PROTOCOL_IP6: parse_ipv6; |
| #endif // WITH_IPV6 |
| default: accept; |
| } |
| } |
| #endif // WITH_BNG |
| |
| state parse_mpls { |
| packet.extract(hdr.mpls); |
| fabric_metadata.mpls_label = hdr.mpls.label; |
| fabric_metadata.mpls_ttl = hdr.mpls.ttl; |
| // There is only one MPLS label for this fabric. |
| // Assume header after MPLS header is IPv4/IPv6 |
| // Lookup first 4 bits for version |
| transition select(packet.lookahead<bit<IP_VER_LENGTH>>()) { |
| // The packet should be either IPv4 or IPv6. |
| // If we have MPLS, go directly to parsing state without |
| // moving to pre_ states, the packet is considered MPLS |
| IP_VERSION_4: parse_ipv4; |
| #ifdef WITH_IPV6 |
| IP_VERSION_6: parse_ipv6; |
| #endif // WITH_IPV6 |
| default: parse_ethernet; |
| } |
| } |
| |
| state parse_ipv4 { |
| packet.extract(hdr.ipv4); |
| fabric_metadata.ip_proto = hdr.ipv4.protocol; |
| fabric_metadata.ip_eth_type = ETHERTYPE_IPV4; |
| fabric_metadata.ipv4_src_addr = hdr.ipv4.src_addr; |
| fabric_metadata.ipv4_dst_addr = hdr.ipv4.dst_addr; |
| last_ipv4_dscp = hdr.ipv4.dscp; |
| //Need header verification? |
| transition select(hdr.ipv4.protocol) { |
| PROTO_TCP: parse_tcp; |
| PROTO_UDP: parse_udp; |
| PROTO_ICMP: parse_icmp; |
| default: accept; |
| } |
| } |
| |
| #ifdef WITH_IPV6 |
| state parse_ipv6 { |
| packet.extract(hdr.ipv6); |
| fabric_metadata.ip_proto = hdr.ipv6.next_hdr; |
| fabric_metadata.ip_eth_type = ETHERTYPE_IPV6; |
| transition select(hdr.ipv6.next_hdr) { |
| PROTO_TCP: parse_tcp; |
| PROTO_UDP: parse_udp; |
| PROTO_ICMPV6: parse_icmp; |
| default: accept; |
| } |
| } |
| #endif // WITH_IPV6 |
| |
| state parse_tcp { |
| packet.extract(hdr.tcp); |
| fabric_metadata.l4_sport = hdr.tcp.sport; |
| fabric_metadata.l4_dport = hdr.tcp.dport; |
| #ifdef WITH_INT |
| transition parse_int; |
| #else |
| transition accept; |
| #endif // WITH_INT |
| } |
| |
| state parse_udp { |
| packet.extract(hdr.udp); |
| fabric_metadata.l4_sport = hdr.udp.sport; |
| fabric_metadata.l4_dport = hdr.udp.dport; |
| transition select(hdr.udp.dport) { |
| #ifdef WITH_SPGW |
| UDP_PORT_GTPU: parse_gtpu; |
| #endif // WITH_SPGW |
| #ifdef WITH_INT |
| default: parse_int; |
| #else |
| default: accept; |
| #endif // WITH_INT |
| } |
| } |
| |
| state parse_icmp { |
| packet.extract(hdr.icmp); |
| transition accept; |
| } |
| |
| #ifdef WITH_SPGW |
| state parse_gtpu { |
| packet.extract(hdr.gtpu); |
| transition parse_inner_ipv4; |
| } |
| |
| state parse_inner_ipv4 { |
| packet.extract(hdr.inner_ipv4); |
| last_ipv4_dscp = hdr.inner_ipv4.dscp; |
| transition select(hdr.inner_ipv4.protocol) { |
| PROTO_TCP: parse_tcp; |
| PROTO_UDP: parse_inner_udp; |
| PROTO_ICMP: parse_icmp; |
| default: accept; |
| } |
| } |
| |
| state parse_inner_udp { |
| packet.extract(hdr.inner_udp); |
| fabric_metadata.inner_l4_sport = hdr.inner_udp.sport; |
| fabric_metadata.inner_l4_dport = hdr.inner_udp.dport; |
| #ifdef WITH_INT |
| transition parse_int; |
| #else |
| transition accept; |
| #endif // WITH_INT |
| } |
| |
| state parse_inner_tcp { |
| packet.extract(hdr.inner_tcp); |
| fabric_metadata.inner_l4_sport = hdr.inner_tcp.sport; |
| fabric_metadata.inner_l4_dport = hdr.inner_tcp.dport; |
| transition accept; |
| } |
| |
| state parse_inner_icmp { |
| packet.extract(hdr.inner_icmp); |
| transition accept; |
| } |
| #endif // WITH_SPGW |
| |
| #ifdef WITH_INT |
| state parse_int { |
| transition select(last_ipv4_dscp) { |
| INT_DSCP &&& INT_DSCP: parse_intl4_shim; |
| default: accept; |
| } |
| } |
| |
| state parse_intl4_shim { |
| packet.extract(hdr.intl4_shim); |
| transition parse_int_header; |
| } |
| |
| state parse_int_header { |
| packet.extract(hdr.int_header); |
| // If there is no INT metadata but the INT header (plus shim and tail) |
| // exists, default value of length field in shim header should be |
| // INT_HEADER_LEN_WORDS. |
| transition select (hdr.intl4_shim.len_words) { |
| INT_HEADER_LEN_WORDS: parse_intl4_tail; |
| default: parse_int_data; |
| } |
| } |
| |
| state parse_int_data { |
| #ifdef WITH_INT_SINK |
| // Parse INT metadata stack, but not tail |
| packet.extract(hdr.int_data, (bit<32>) (hdr.intl4_shim.len_words - INT_HEADER_LEN_WORDS) << 5); |
| transition parse_intl4_tail; |
| #else // not interested in INT data |
| transition accept; |
| #endif // WITH_INT_SINK |
| } |
| |
| state parse_intl4_tail { |
| packet.extract(hdr.intl4_tail); |
| transition accept; |
| } |
| #endif // WITH_INT |
| } |
| |
| control FabricDeparser(packet_out packet,in parsed_headers_t hdr) { |
| |
| apply { |
| packet.emit(hdr.packet_in); |
| #ifdef WITH_INT_SINK |
| packet.emit(hdr.report_ethernet); |
| packet.emit(hdr.report_eth_type); |
| packet.emit(hdr.report_ipv4); |
| packet.emit(hdr.report_udp); |
| packet.emit(hdr.report_fixed_header); |
| #endif // WITH_INT_SINK |
| packet.emit(hdr.ethernet); |
| packet.emit(hdr.vlan_tag); |
| #if defined(WITH_XCONNECT) || defined(WITH_DOUBLE_VLAN_TERMINATION) |
| packet.emit(hdr.inner_vlan_tag); |
| #endif // WITH_XCONNECT || WITH_DOUBLE_VLAN_TERMINATION |
| packet.emit(hdr.eth_type); |
| #ifdef WITH_BNG |
| packet.emit(hdr.pppoe); |
| #endif // WITH_BNG |
| packet.emit(hdr.mpls); |
| #ifdef WITH_SPGW |
| packet.emit(hdr.gtpu_ipv4); |
| packet.emit(hdr.gtpu_udp); |
| packet.emit(hdr.outer_gtpu); |
| #endif // WITH_SPGW |
| packet.emit(hdr.ipv4); |
| #ifdef WITH_IPV6 |
| packet.emit(hdr.ipv6); |
| #endif // WITH_IPV6 |
| packet.emit(hdr.tcp); |
| packet.emit(hdr.udp); |
| packet.emit(hdr.icmp); |
| #ifdef WITH_SPGW |
| // if we parsed a GTPU packet but did not decap it |
| packet.emit(hdr.gtpu); |
| packet.emit(hdr.inner_ipv4); |
| packet.emit(hdr.inner_tcp); |
| packet.emit(hdr.inner_udp); |
| packet.emit(hdr.inner_icmp); |
| #endif // WITH_SPGW |
| #ifdef WITH_INT |
| packet.emit(hdr.intl4_shim); |
| packet.emit(hdr.int_header); |
| #ifdef WITH_INT_TRANSIT |
| packet.emit(hdr.int_switch_id); |
| packet.emit(hdr.int_port_ids); |
| packet.emit(hdr.int_hop_latency); |
| packet.emit(hdr.int_q_occupancy); |
| packet.emit(hdr.int_ingress_tstamp); |
| packet.emit(hdr.int_egress_tstamp); |
| packet.emit(hdr.int_q_congestion); |
| packet.emit(hdr.int_egress_tx_util); |
| #endif // WITH_INT_TRANSIT |
| #ifdef WITH_INT_SINK |
| packet.emit(hdr.int_data); |
| #endif // WITH_INT_SINK |
| packet.emit(hdr.intl4_tail); |
| #endif // WITH_INT |
| } |
| } |
| |
| #endif |