p4tutorials-turkce/exercises/calc/calc.p4

/* -*- P4_16 -*- */

/*
 * P4 Calculator
 *
 * This program implements a simple protocol. It can be carried over Ethernet
 * (Ethertype 0x1234).
 *
 * The Protocol header looks like this:
 *
 *        0                1                  2              3
 * +----------------+----------------+----------------+---------------+
 * |      P         |       4        |     Version    |     Op        |
 * +----------------+----------------+----------------+---------------+
 * |                              Operand A                           |
 * +----------------+----------------+----------------+---------------+
 * |                              Operand B                           |
 * +----------------+----------------+----------------+---------------+
 * |                              Result                              |
 * +----------------+----------------+----------------+---------------+
 *
 * P is an ASCII Letter 'P' (0x50)
 * 4 is an ASCII Letter '4' (0x34)
 * Version is currently 0.1 (0x01)
 * Op is an operation to Perform:
 *   '+' (0x2b) Result = OperandA + OperandB
 *   '-' (0x2d) Result = OperandA - OperandB
 *   '&' (0x26) Result = OperandA & OperandB
 *   '|' (0x7c) Result = OperandA | OperandB
 *   '^' (0x5e) Result = OperandA ^ OperandB
 *
 * The device receives a packet, performs the requested operation, fills in the
 * result and sends the packet back out of the same port it came in on, while
 * swapping the source and destination addresses.
 *
 * If an unknown operation is specified or the header is not valid, the packet
 * is dropped
 */

#include <core.p4>
#include <v1model.p4>

/*
 * Define the headers the program will recognize
 */

/*
 * Standard Ethernet header
 */
header ethernet_t {
    bit<48> dstAddr;
    bit<48> srcAddr;
    bit<16> etherType;
}

/*
 * This is a custom protocol header for the calculator. We'll use
 * etherType 0x1234 for it (see parser)
 */
const bit<16> P4CALC_ETYPE = 0x1234;
const bit<8>  P4CALC_P     = 0x50;   // 'P'
const bit<8>  P4CALC_4     = 0x34;   // '4'
const bit<8>  P4CALC_VER   = 0x01;   // v0.1
const bit<8>  P4CALC_PLUS  = 0x2b;   // '+'
const bit<8>  P4CALC_MINUS = 0x2d;   // '-'
const bit<8>  P4CALC_AND   = 0x26;   // '&'
const bit<8>  P4CALC_OR    = 0x7c;   // '|'
const bit<8>  P4CALC_CARET = 0x5e;   // '^'

header p4calc_t {
    bit<8>  op;
/* TODO
 * fill p4calc_t header with P, four, ver, op, operand_a, operand_b, and res
   entries based on above protocol header definition.
 */
}

/*
 * All headers, used in the program needs to be assembled into a single struct.
 * We only need to declare the type, but there is no need to instantiate it,
 * because it is done "by the architecture", i.e. outside of P4 functions
 */
struct headers {
    ethernet_t   ethernet;
    p4calc_t     p4calc;
}

/*
 * All metadata, globally used in the program, also  needs to be assembled
 * into a single struct. As in the case of the headers, we only need to
 * declare the type, but there is no need to instantiate it,
 * because it is done "by the architecture", i.e. outside of P4 functions
 */

struct metadata {
    /* In our case it is empty */
}

/*************************************************************************
 ***********************  P A R S E R  ***********************************
 *************************************************************************/
parser MyParser(packet_in packet,
                out headers hdr,
                inout metadata meta,
                inout standard_metadata_t standard_metadata) {
    state start {
        packet.extract(hdr.ethernet);
        transition select(hdr.ethernet.etherType) {
            P4CALC_ETYPE : check_p4calc;
            default      : accept;
        }
    }

    state check_p4calc {
        /* TODO: just uncomment the following parse block */
        /*
        transition select(packet.lookahead<p4calc_t>().p,
        packet.lookahead<p4calc_t>().four,
        packet.lookahead<p4calc_t>().ver) {
            (P4CALC_P, P4CALC_4, P4CALC_VER) : parse_p4calc;
            default                          : accept;
        }
        */
    }

    state parse_p4calc {
        packet.extract(hdr.p4calc);
        transition accept;
    }
}

/*************************************************************************
 ************   C H E C K S U M    V E R I F I C A T I O N   *************
 *************************************************************************/
control MyVerifyChecksum(inout headers hdr,
                         inout metadata meta) {
    apply { }
}

/*************************************************************************
 **************  I N G R E S S   P R O C E S S I N G   *******************
 *************************************************************************/
control MyIngress(inout headers hdr,
                  inout metadata meta,
                  inout standard_metadata_t standard_metadata) {
    action send_back(bit<32> result) {
        /* TODO
         * - put the result back in hdr.p4calc.res
         * - swap MAC addresses in hdr.ethernet.dstAddr and
         *   hdr.ethernet.srcAddr using a temp variable
         * - Send the packet back to the port it came from
             by saving standard_metadata.ingress_port into
             standard_metadata.egress_spec
         */
    }

    action operation_add() {
        /* TODO call send_back with operand_a + operand_b */
    }

    action operation_sub() {
        /* TODO call send_back with operand_a - operand_b */
    }

    action operation_and() {
        /* TODO call send_back with operand_a & operand_b */
    }

    action operation_or() {
        /* TODO call send_back with operand_a | operand_b */
    }

    action operation_xor() {
        /* TODO call send_back with operand_a ^ operand_b */
    }

    action operation_drop() {
        mark_to_drop(standard_metadata);
    }

    table calculate {
        key = {
            hdr.p4calc.op        : exact;
        }
        actions = {
            operation_add;
            operation_sub;
            operation_and;
            operation_or;
            operation_xor;
            operation_drop;
        }
        const default_action = operation_drop();
        const entries = {
            P4CALC_PLUS : operation_add();
            P4CALC_MINUS: operation_sub();
            P4CALC_AND  : operation_and();
            P4CALC_OR   : operation_or();
            P4CALC_CARET: operation_xor();
        }
    }

    apply {
        if (hdr.p4calc.isValid()) {
            calculate.apply();
        } else {
            operation_drop();
        }
    }
}

/*************************************************************************
 ****************  E G R E S S   P R O C E S S I N G   *******************
 *************************************************************************/
control MyEgress(inout headers hdr,
                 inout metadata meta,
                 inout standard_metadata_t standard_metadata) {
    apply { }
}

/*************************************************************************
 *************   C H E C K S U M    C O M P U T A T I O N   **************
 *************************************************************************/

control MyComputeChecksum(inout headers hdr, inout metadata meta) {
    apply { }
}

/*************************************************************************
 ***********************  D E P A R S E R  *******************************
 *************************************************************************/
control MyDeparser(packet_out packet, in headers hdr) {
    apply {
        packet.emit(hdr.ethernet);
        packet.emit(hdr.p4calc);
    }
}

/*************************************************************************
 ***********************  S W I T T C H **********************************
 *************************************************************************/

V1Switch(
MyParser(),
MyVerifyChecksum(),
MyIngress(),
MyEgress(),
MyComputeChecksum(),
MyDeparser()
) main;