diff --git a/testdata/p4tc_samples/skb_meta.p4 b/testdata/p4tc_samples/skb_meta.p4 new file mode 100644 index 0000000000..1e3cd4c4e1 --- /dev/null +++ b/testdata/p4tc_samples/skb_meta.p4 @@ -0,0 +1,142 @@ +#include +#include + +/****** G L O B A L I N G R E S S M E T A D A T A *********/ + +struct my_ingress_metadata_t { +} + +struct empty_metadata_t { +} + +/* -*- P4_16 -*- */ + +/* + * CONST VALUES FOR TYPES + */ +const bit<8> IP_PROTO_TCP = 0x06; +const bit<16> ETHERTYPE_IPV4 = 0x0800; + +/* + * Standard ethernet header + */ +header ethernet_t { + bit<48> dstAddr; + bit<48> 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; + bit<32> srcAddr; + bit<32> dstAddr; +} + +struct my_ingress_headers_t { + ethernet_t ethernet; + ipv4_t ipv4; +} + + /*********************** P A R S E R **************************/ +parser Ingress_Parser( + packet_in pkt, + out my_ingress_headers_t hdr, + inout my_ingress_metadata_t meta, + in pna_main_parser_input_metadata_t istd) +{ + + state start { + transition parse_ethernet; + } + + state parse_ethernet { + pkt.extract(hdr.ethernet); + transition select(hdr.ethernet.etherType) { + ETHERTYPE_IPV4: parse_ipv4; + default: reject; + } + } + state parse_ipv4 { + pkt.extract(hdr.ipv4); + transition select(hdr.ipv4.protocol) { + IP_PROTO_TCP : accept; + default: reject; + } + } +} + +#define L3_TABLE_SIZE 2048 + +/***************** M A T C H - A C T I O N *********************/ + +control ingress( + inout my_ingress_headers_t hdr, + inout my_ingress_metadata_t meta, + in pna_main_input_metadata_t istd, + inout pna_main_output_metadata_t ostd +) +{ + action send_nh(@tc_type("dev") PortId_t port, @tc_type("macaddr") bit<48> srcMac, @tc_type("macaddr") bit<48> dstMac) { + + skb_get_meta(); + skb_set_tc_classid(skb_get_tc_classid() + 1); + skb_set_tc_index(skb_get_tc_index() + 1); + skb_set_meta(); + hdr.ethernet.srcAddr = (bit<48>)skb_get_tstamp() ^ srcMac; + hdr.ethernet.dstAddr = dstMac; + send_to_port(port); + } + + action drop() { + drop_packet(); + } + + table nh_table { + key = { + hdr.ipv4.dstAddr : exact @tc_type("ipv4") @name("dstAddr"); + } + actions = { + send_nh; + drop; + } + size = L3_TABLE_SIZE; + const default_action = drop; + } + + apply { + if (hdr.ipv4.isValid() && hdr.ipv4.protocol == IP_PROTO_TCP) { + nh_table.apply(); + } + } +} + + /********************* D E P A R S E R ************************/ + +control Ingress_Deparser( + packet_out pkt, + inout my_ingress_headers_t hdr, + in my_ingress_metadata_t meta, + in pna_main_output_metadata_t ostd) +{ + apply { + pkt.emit(hdr.ethernet); + pkt.emit(hdr.ipv4); + } +} + +/************ F I N A L P A C K A G E ******************************/ + +PNA_NIC( + Ingress_Parser(), + ingress(), + Ingress_Deparser() +) main; diff --git a/testdata/p4tc_samples_outputs/skb_meta.json b/testdata/p4tc_samples_outputs/skb_meta.json new file mode 100644 index 0000000000..ddce3a92fe --- /dev/null +++ b/testdata/p4tc_samples_outputs/skb_meta.json @@ -0,0 +1,63 @@ +{ + "schema_version" : "1.0.0", + "pipeline_name" : "skb_meta", + "externs" : [], + "tables" : [ + { + "name" : "ingress/nh_table", + "id" : 1, + "tentries" : 2048, + "permissions" : "0x3da4", + "nummask" : 8, + "keysize" : 32, + "keyfields" : [ + { + "id" : 1, + "name" : "dstAddr", + "type" : "ipv4", + "match_type" : "exact", + "bitwidth" : 32 + } + ], + "actions" : [ + { + "id" : 1, + "name" : "ingress/send_nh", + "action_scope" : "TableAndDefault", + "annotations" : [], + "params" : [ + { + "id" : 1, + "name" : "port", + "type" : "dev", + "bitwidth" : 32 + }, + { + "id" : 2, + "name" : "srcMac", + "type" : "macaddr", + "bitwidth" : 48 + }, + { + "id" : 3, + "name" : "dstMac", + "type" : "macaddr", + "bitwidth" : 48 + } + ], + "default_hit_action" : false, + "default_miss_action" : false + }, + { + "id" : 2, + "name" : "ingress/drop", + "action_scope" : "TableAndDefault", + "annotations" : [], + "params" : [], + "default_hit_action" : false, + "default_miss_action" : true + } + ] + } + ] +} \ No newline at end of file diff --git a/testdata/p4tc_samples_outputs/skb_meta.template b/testdata/p4tc_samples_outputs/skb_meta.template new file mode 100755 index 0000000000..20739bec2a --- /dev/null +++ b/testdata/p4tc_samples_outputs/skb_meta.template @@ -0,0 +1,24 @@ +#!/bin/bash -x + +set -e + +: "${TC:="tc"}" +$TC p4template create pipeline/skb_meta numtables 1 + +$TC p4template create action/skb_meta/ingress/send_nh actid 1 \ + param port type dev \ + param srcMac type macaddr \ + param dstMac type macaddr +$TC p4template update action/skb_meta/ingress/send_nh state active + +$TC p4template create action/skb_meta/ingress/drop actid 2 +$TC p4template update action/skb_meta/ingress/drop state active + +$TC p4template create table/skb_meta/ingress/nh_table \ + tblid 1 \ + type exact \ + keysz 32 permissions 0x3da4 tentries 2048 nummasks 1 \ + table_acts act name skb_meta/ingress/send_nh \ + act name skb_meta/ingress/drop +$TC p4template update table/skb_meta/ingress/nh_table default_miss_action permissions 0x1024 action skb_meta/ingress/drop +$TC p4template update pipeline/skb_meta state ready \ No newline at end of file diff --git a/testdata/p4tc_samples_outputs/skb_meta_control_blocks.c b/testdata/p4tc_samples_outputs/skb_meta_control_blocks.c new file mode 100644 index 0000000000..78a7825932 --- /dev/null +++ b/testdata/p4tc_samples_outputs/skb_meta_control_blocks.c @@ -0,0 +1,343 @@ +#include "skb_meta_parser.h" +struct p4tc_filter_fields p4tc_filter_fields; + +struct internal_metadata { + __u16 pkt_ether_type; +} __attribute__((aligned(4))); + +struct skb_aggregate { + struct p4tc_skb_meta_get get; + struct p4tc_skb_meta_set set; +}; + +struct __attribute__((__packed__)) ingress_nh_table_key { + u32 keysz; + u32 maskid; + u32 field0; /* hdr.ipv4.dstAddr */ +} __attribute__((aligned(8))); +#define INGRESS_NH_TABLE_ACT_INGRESS_SEND_NH 1 +#define INGRESS_NH_TABLE_ACT_INGRESS_DROP 2 +#define INGRESS_NH_TABLE_ACT_NOACTION 0 +struct __attribute__((__packed__)) ingress_nh_table_value { + unsigned int action; + u32 hit:1, + is_default_miss_act:1, + is_default_hit_act:1; + union { + struct { + } _NoAction; + struct __attribute__((__packed__)) { + u32 port; + u64 srcMac; + u64 dstMac; + } ingress_send_nh; + struct { + } ingress_drop; + } u; +}; + +static __always_inline int process(struct __sk_buff *skb, struct my_ingress_headers_t *hdr, struct pna_global_metadata *compiler_meta__, struct skb_aggregate *sa) +{ + struct hdr_md *hdrMd; + + unsigned ebpf_packetOffsetInBits_save = 0; + ParserError_t ebpf_errorCode = NoError; + void* pkt = ((void*)(long)skb->data); + u8* hdr_start = pkt; + void* ebpf_packetEnd = ((void*)(long)skb->data_end); + u32 ebpf_zero = 0; + u32 ebpf_one = 1; + unsigned char ebpf_byte; + u32 pkt_len = skb->len; + + struct my_ingress_metadata_t *meta; + hdrMd = BPF_MAP_LOOKUP_ELEM(hdr_md_cpumap, &ebpf_zero); + if (!hdrMd) + return TC_ACT_SHOT; + unsigned ebpf_packetOffsetInBits = hdrMd->ebpf_packetOffsetInBits; + hdr_start = pkt + BYTES(ebpf_packetOffsetInBits); + hdr = &(hdrMd->cpumap_hdr); + meta = &(hdrMd->cpumap_usermeta); +{ + u8 hit; + u16 tmp = 0; + u16 tmp_2 = 0; + u64 tmp_5 = 0; + { +if (/* hdr->ipv4.isValid() */ + hdr->ipv4.ebpf_valid && hdr->ipv4.protocol == 0x6) { +/* nh_table_0.apply() */ + { + /* construct key */ + struct p4tc_table_entry_act_bpf_params__local params = { + .pipeid = p4tc_filter_fields.pipeid, + .tblid = 1 + }; + struct ingress_nh_table_key key; + __builtin_memset(&key, 0, sizeof(key)); + key.keysz = 32; + key.field0 = bpf_htonl(hdr->ipv4.dstAddr); + struct p4tc_table_entry_act_bpf *act_bpf; + /* value */ + struct ingress_nh_table_value *value = NULL; + /* perform lookup */ + act_bpf = bpf_p4tc_tbl_read(skb, ¶ms, sizeof(params), &key, sizeof(key)); + value = (struct ingress_nh_table_value *)act_bpf; + if (value == NULL) { + /* miss; find default action */ + hit = 0; + } else { + hit = value->hit; + } + if (value != NULL) { + /* run action */ + switch (value->action) { + case INGRESS_NH_TABLE_ACT_INGRESS_SEND_NH: + { +/* skb_get_meta() */ + bpf_p4tc_skb_meta_get(skb,&sa->get,sizeof(sa->get)); + tmp = bpf_p4tc_skb_get_tc_classid(skb, &sa->get); + /* skb_set_tc_classid((tmp + 1)) */ + bpf_p4tc_skb_set_tc_classid(skb,&sa->set,(tmp + 1)); + tmp_2 = bpf_p4tc_skb_get_tc_index(skb, &sa->get); + /* skb_set_tc_index((tmp_2 + 1)) */ + bpf_p4tc_skb_set_tc_index(skb,&sa->set,(tmp_2 + 1)); + /* skb_set_meta() */ + bpf_p4tc_skb_meta_set(skb,&sa->set,sizeof(sa->set)); + tmp_5 = bpf_p4tc_skb_get_tstamp(skb, &sa->get); + hdr->ethernet.srcAddr = (((u64)tmp_5 ^ bpf_cpu_to_be64(value->u.ingress_send_nh.srcMac)) & ((1ULL << 48) - 1)); + hdr->ethernet.dstAddr = ntohll(value->u.ingress_send_nh.dstMac << 16); + /* send_to_port(value->u.ingress_send_nh.port) */ + compiler_meta__->drop = false; + send_to_port(value->u.ingress_send_nh.port); + } + break; + case INGRESS_NH_TABLE_ACT_INGRESS_DROP: + { +/* drop_packet() */ + drop_packet(); + } + break; + case INGRESS_NH_TABLE_ACT_NOACTION: + { + } + break; + } + } else { + } + } +; } + + } + } + { +{ +; + ; + } + + if (compiler_meta__->drop) { + return TC_ACT_SHOT; + } + int outHeaderLength = 0; + if (hdr->ethernet.ebpf_valid) { + outHeaderLength += 112; + } +; if (hdr->ipv4.ebpf_valid) { + outHeaderLength += 160; + } +; + __u16 saved_proto = 0; + bool have_saved_proto = false; + // bpf_skb_adjust_room works only when protocol is IPv4 or IPv6 + // 0x0800 = IPv4, 0x86dd = IPv6 + if ((skb->protocol != 0x0800) && (skb->protocol != 0x86dd)) { + saved_proto = skb->protocol; + have_saved_proto = true; + bpf_p4tc_skb_set_protocol(skb, &sa->set, 0x0800); + bpf_p4tc_skb_meta_set(skb, &sa->set, sizeof(sa->set)); + } + ; + + int outHeaderOffset = BYTES(outHeaderLength) - (hdr_start - (u8*)pkt); + if (outHeaderOffset != 0) { + int returnCode = 0; + returnCode = bpf_skb_adjust_room(skb, outHeaderOffset, 1, 0); + if (returnCode) { + return TC_ACT_SHOT; + } + } + + if (have_saved_proto) { + bpf_p4tc_skb_set_protocol(skb, &sa->set, saved_proto); + bpf_p4tc_skb_meta_set(skb, &sa->set, sizeof(sa->set)); + } + + pkt = ((void*)(long)skb->data); + ebpf_packetEnd = ((void*)(long)skb->data_end); + ebpf_packetOffsetInBits = 0; + if (hdr->ethernet.ebpf_valid) { + if (ebpf_packetEnd < pkt + BYTES(ebpf_packetOffsetInBits + 112)) { + return TC_ACT_SHOT; + } + + hdr->ethernet.dstAddr = htonll(hdr->ethernet.dstAddr << 16); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[2]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 2, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[3]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 3, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[4]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 4, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.dstAddr))[5]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 5, (ebpf_byte)); + ebpf_packetOffsetInBits += 48; + + hdr->ethernet.srcAddr = htonll(hdr->ethernet.srcAddr << 16); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[2]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 2, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[3]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 3, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[4]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 4, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.srcAddr))[5]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 5, (ebpf_byte)); + ebpf_packetOffsetInBits += 48; + + hdr->ethernet.etherType = bpf_htons(hdr->ethernet.etherType); + ebpf_byte = ((char*)(&hdr->ethernet.etherType))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ethernet.etherType))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_packetOffsetInBits += 16; + + } +; if (hdr->ipv4.ebpf_valid) { + if (ebpf_packetEnd < pkt + BYTES(ebpf_packetOffsetInBits + 160)) { + return TC_ACT_SHOT; + } + + ebpf_byte = ((char*)(&hdr->ipv4.version))[0]; + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 0, 4, 4, (ebpf_byte >> 0)); + ebpf_packetOffsetInBits += 4; + + ebpf_byte = ((char*)(&hdr->ipv4.ihl))[0]; + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 0, 4, 0, (ebpf_byte >> 0)); + ebpf_packetOffsetInBits += 4; + + ebpf_byte = ((char*)(&hdr->ipv4.diffserv))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_packetOffsetInBits += 8; + + hdr->ipv4.totalLen = bpf_htons(hdr->ipv4.totalLen); + ebpf_byte = ((char*)(&hdr->ipv4.totalLen))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.totalLen))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_packetOffsetInBits += 16; + + hdr->ipv4.identification = bpf_htons(hdr->ipv4.identification); + ebpf_byte = ((char*)(&hdr->ipv4.identification))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.identification))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_packetOffsetInBits += 16; + + ebpf_byte = ((char*)(&hdr->ipv4.flags))[0]; + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 0, 3, 5, (ebpf_byte >> 0)); + ebpf_packetOffsetInBits += 3; + + hdr->ipv4.fragOffset = bpf_htons(hdr->ipv4.fragOffset << 3); + ebpf_byte = ((char*)(&hdr->ipv4.fragOffset))[0]; + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 0, 5, 0, (ebpf_byte >> 3)); + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 0 + 1, 3, 5, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.fragOffset))[1]; + write_partial(pkt + BYTES(ebpf_packetOffsetInBits) + 1, 5, 0, (ebpf_byte >> 3)); + ebpf_packetOffsetInBits += 13; + + ebpf_byte = ((char*)(&hdr->ipv4.ttl))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_packetOffsetInBits += 8; + + ebpf_byte = ((char*)(&hdr->ipv4.protocol))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_packetOffsetInBits += 8; + + hdr->ipv4.hdrChecksum = bpf_htons(hdr->ipv4.hdrChecksum); + ebpf_byte = ((char*)(&hdr->ipv4.hdrChecksum))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.hdrChecksum))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_packetOffsetInBits += 16; + + hdr->ipv4.srcAddr = htonl(hdr->ipv4.srcAddr); + ebpf_byte = ((char*)(&hdr->ipv4.srcAddr))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.srcAddr))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.srcAddr))[2]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 2, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.srcAddr))[3]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 3, (ebpf_byte)); + ebpf_packetOffsetInBits += 32; + + hdr->ipv4.dstAddr = htonl(hdr->ipv4.dstAddr); + ebpf_byte = ((char*)(&hdr->ipv4.dstAddr))[0]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 0, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.dstAddr))[1]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 1, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.dstAddr))[2]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 2, (ebpf_byte)); + ebpf_byte = ((char*)(&hdr->ipv4.dstAddr))[3]; + write_byte(pkt, BYTES(ebpf_packetOffsetInBits) + 3, (ebpf_byte)); + ebpf_packetOffsetInBits += 32; + + } +; + } + return -1; +} +SEC("p4tc/main") +int tc_ingress_func(struct __sk_buff *skb) { + struct skb_aggregate skbstuff = { + + .get = { .bitmask = P4TC_SKB_META_GET_AT_INGRESS_BIT | P4TC_SKB_META_GET_FROM_INGRESS_BIT }, + .set = { }, +}; + struct pna_global_metadata *compiler_meta__ = (struct pna_global_metadata *) skb->cb; + compiler_meta__->drop = false; + compiler_meta__->recirculate = false; + if (!compiler_meta__->recirculated) { + compiler_meta__->mark = 153; + struct internal_metadata *md = (struct internal_metadata *)(unsigned long)skb->data_meta; + if ((void *) ((struct internal_metadata *) md + 1) <= (void *)(long)skb->data) { + __u16 *ether_type = (__u16 *) ((void *) (long)skb->data + 12); + if ((void *) ((__u16 *) ether_type + 1) > (void *) (long) skb->data_end) { + return TC_ACT_SHOT; + } + *ether_type = md->pkt_ether_type; + } + } + struct hdr_md *hdrMd; + struct my_ingress_headers_t *hdr; + int ret = -1; + ret = process(skb, (struct my_ingress_headers_t *) hdr, compiler_meta__, &skbstuff); + if (ret != -1) { + return ret; + } + if (!compiler_meta__->drop && compiler_meta__->recirculate) { + compiler_meta__->recirculated = true; + return TC_ACT_UNSPEC; + } + if (!compiler_meta__->drop && compiler_meta__->egress_port == 0) + return TC_ACT_OK; + return bpf_redirect(compiler_meta__->egress_port, 0); +} +char _license[] SEC("license") = "GPL"; diff --git a/testdata/p4tc_samples_outputs/skb_meta_parser.c b/testdata/p4tc_samples_outputs/skb_meta_parser.c new file mode 100644 index 0000000000..feae2db4f8 --- /dev/null +++ b/testdata/p4tc_samples_outputs/skb_meta_parser.c @@ -0,0 +1,140 @@ +#include "skb_meta_parser.h" + +struct p4tc_filter_fields p4tc_filter_fields; + +static __always_inline int run_parser(struct __sk_buff *skb, struct my_ingress_headers_t *hdr, struct pna_global_metadata *compiler_meta__) +{ + struct hdr_md *hdrMd; + + unsigned ebpf_packetOffsetInBits_save = 0; + ParserError_t ebpf_errorCode = NoError; + void* pkt = ((void*)(long)skb->data); + u8* hdr_start = pkt; + void* ebpf_packetEnd = ((void*)(long)skb->data_end); + u32 ebpf_zero = 0; + u32 ebpf_one = 1; + unsigned char ebpf_byte; + u32 pkt_len = skb->len; + + struct my_ingress_metadata_t *meta; + + hdrMd = BPF_MAP_LOOKUP_ELEM(hdr_md_cpumap, &ebpf_zero); + if (!hdrMd) + return TC_ACT_SHOT; + __builtin_memset(hdrMd, 0, sizeof(struct hdr_md)); + + unsigned ebpf_packetOffsetInBits = 0; + hdr = &(hdrMd->cpumap_hdr); + meta = &(hdrMd->cpumap_usermeta); + { + goto start; + parse_ipv4: { +/* extract(hdr->ipv4) */ + if ((u8*)ebpf_packetEnd < hdr_start + BYTES(160 + 0)) { + ebpf_errorCode = PacketTooShort; + goto reject; + } + + hdr->ipv4.version = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits)) >> 4) & EBPF_MASK(u8, 4)); + ebpf_packetOffsetInBits += 4; + + hdr->ipv4.ihl = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits))) & EBPF_MASK(u8, 4)); + ebpf_packetOffsetInBits += 4; + + hdr->ipv4.diffserv = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 8; + + hdr->ipv4.totalLen = (u16)((load_half(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 16; + + hdr->ipv4.identification = (u16)((load_half(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 16; + + hdr->ipv4.flags = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits)) >> 5) & EBPF_MASK(u8, 3)); + ebpf_packetOffsetInBits += 3; + + hdr->ipv4.fragOffset = (u16)((load_half(pkt, BYTES(ebpf_packetOffsetInBits))) & EBPF_MASK(u16, 13)); + ebpf_packetOffsetInBits += 13; + + hdr->ipv4.ttl = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 8; + + hdr->ipv4.protocol = (u8)((load_byte(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 8; + + hdr->ipv4.hdrChecksum = (u16)((load_half(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 16; + + hdr->ipv4.srcAddr = (u32)((load_word(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 32; + + hdr->ipv4.dstAddr = (u32)((load_word(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 32; + + + hdr->ipv4.ebpf_valid = 1; + hdr_start += BYTES(160); + +; + u8 select_0; + select_0 = hdr->ipv4.protocol; + if (select_0 == 0x6)goto accept; + if ((select_0 & 0x0) == (0x0 & 0x0))goto reject; + else goto reject; + } + start: { +/* extract(hdr->ethernet) */ + if ((u8*)ebpf_packetEnd < hdr_start + BYTES(112 + 0)) { + ebpf_errorCode = PacketTooShort; + goto reject; + } + + hdr->ethernet.dstAddr = (u64)((load_dword(pkt, BYTES(ebpf_packetOffsetInBits)) >> 16) & EBPF_MASK(u64, 48)); + ebpf_packetOffsetInBits += 48; + + hdr->ethernet.srcAddr = (u64)((load_dword(pkt, BYTES(ebpf_packetOffsetInBits)) >> 16) & EBPF_MASK(u64, 48)); + ebpf_packetOffsetInBits += 48; + + hdr->ethernet.etherType = (u16)((load_half(pkt, BYTES(ebpf_packetOffsetInBits)))); + ebpf_packetOffsetInBits += 16; + + + hdr->ethernet.ebpf_valid = 1; + hdr_start += BYTES(112); + +; + u16 select_1; + select_1 = hdr->ethernet.etherType; + if (select_1 == 0x800)goto parse_ipv4; + if ((select_1 & 0x0) == (0x0 & 0x0))goto reject; + else goto reject; + } + + reject: { + if (ebpf_errorCode == 0) { + return TC_ACT_SHOT; + } + compiler_meta__->parser_error = ebpf_errorCode; + goto accept; + } + + } + + accept: + hdrMd->ebpf_packetOffsetInBits = ebpf_packetOffsetInBits; + return -1; +} + +SEC("p4tc/parse") +int tc_parse_func(struct __sk_buff *skb) { + struct pna_global_metadata *compiler_meta__ = (struct pna_global_metadata *) skb->cb; + struct hdr_md *hdrMd; + struct my_ingress_headers_t *hdr; + int ret = -1; + ret = run_parser(skb, (struct my_ingress_headers_t *) hdr, compiler_meta__); + if (ret != -1) { + return ret; + } + return TC_ACT_PIPE; + } +char _license[] SEC("license") = "GPL"; diff --git a/testdata/p4tc_samples_outputs/skb_meta_parser.h b/testdata/p4tc_samples_outputs/skb_meta_parser.h new file mode 100644 index 0000000000..8869b895e0 --- /dev/null +++ b/testdata/p4tc_samples_outputs/skb_meta_parser.h @@ -0,0 +1,65 @@ +#include "ebpf_kernel.h" + +#include +#include +#include "pna.h" + +#define EBPF_MASK(t, w) ((((t)(1)) << (w)) - (t)1) +#define BYTES(w) ((w) / 8) +#define write_partial(a, w, s, v) do { *((u8*)a) = ((*((u8*)a)) & ~(EBPF_MASK(u8, w) << s)) | (v << s) ; } while (0) +#define write_byte(base, offset, v) do { *(u8*)((base) + (offset)) = (v); } while (0) +#define bpf_trace_message(fmt, ...) + + +struct my_ingress_metadata_t { +}; +struct empty_metadata_t { +}; +struct ethernet_t { + u64 dstAddr; /* bit<48> */ + u64 srcAddr; /* bit<48> */ + u16 etherType; /* bit<16> */ + u8 ebpf_valid; +}; +struct ipv4_t { + u8 version; /* bit<4> */ + u8 ihl; /* bit<4> */ + u8 diffserv; /* bit<8> */ + u16 totalLen; /* bit<16> */ + u16 identification; /* bit<16> */ + u8 flags; /* bit<3> */ + u16 fragOffset; /* bit<13> */ + u8 ttl; /* bit<8> */ + u8 protocol; /* bit<8> */ + u16 hdrChecksum; /* bit<16> */ + u32 srcAddr; /* bit<32> */ + u32 dstAddr; /* bit<32> */ + u8 ebpf_valid; +}; +struct my_ingress_headers_t { + struct ethernet_t ethernet; /* ethernet_t */ + struct ipv4_t ipv4; /* ipv4_t */ +}; + +struct hdr_md { + struct my_ingress_headers_t cpumap_hdr; + struct my_ingress_metadata_t cpumap_usermeta; + unsigned ebpf_packetOffsetInBits; + __u8 __hook; +}; + +struct p4tc_filter_fields { + __u32 pipeid; + __u32 handle; + __u32 classid; + __u32 chain; + __u32 blockid; + __be16 proto; + __u16 prio; +}; + +REGISTER_START() +REGISTER_TABLE(hdr_md_cpumap, BPF_MAP_TYPE_PERCPU_ARRAY, u32, struct hdr_md, 2) +BPF_ANNOTATE_KV_PAIR(hdr_md_cpumap, u32, struct hdr_md) +REGISTER_END() +