add initial support for the crisarchitecture used on foxboards to openwrt

[openwrt/staging/dedeckeh.git] / target / linux / etrax-2.6 / image / e100boot / src / libpcap-0.4 / grammar.y

%{
/*
 * Copyright (c) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996
 *      The Regents of the University of California.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that: (1) source code distributions
 * retain the above copyright notice and this paragraph in its entirety, (2)
 * distributions including binary code include the above copyright notice and
 * this paragraph in its entirety in the documentation or other materials
 * provided with the distribution, and (3) all advertising materials mentioning
 * features or use of this software display the following acknowledgement:
 * ``This product includes software developed by the University of California,
 * Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
 * the University nor the names of its contributors may be used to endorse
 * or promote products derived from this software without specific prior
 * written permission.
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
 * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 *
 */
#ifndef lint
static const char rcsid[] =
    "@(#) $Header: /usr/local/cvs/linux/tools/build/e100boot/libpcap-0.4/grammar.y,v 1.1 1999/08/26 10:05:22 johana Exp $ (LBL)";
#endif

#include <sys/types.h>
#include <sys/time.h>
#include <sys/socket.h>

#if __STDC__
struct mbuf;
struct rtentry;
#endif

#include <net/if.h>

#include <netinet/in.h>
#include <netinet/if_ether.h>

#include <stdio.h>

#include "pcap-int.h"

#include "gencode.h"
#include <pcap-namedb.h>

#include "gnuc.h"
#ifdef HAVE_OS_PROTO_H
#include "os-proto.h"
#endif

#define QSET(q, p, d, a) (q).proto = (p),\
                         (q).dir = (d),\
                         (q).addr = (a)

int n_errors = 0;

static struct qual qerr = { Q_UNDEF, Q_UNDEF, Q_UNDEF, Q_UNDEF };

static void
yyerror(char *msg)
{
        ++n_errors;
        bpf_error("%s", msg);
        /* NOTREACHED */
}

#ifndef YYBISON
int yyparse(void);

int
pcap_parse()
{
        return (yyparse());
}
#endif

%}

%union {
        int i;
        bpf_u_int32 h;
        u_char *e;
        char *s;
        struct stmt *stmt;
        struct arth *a;
        struct {
                struct qual q;
                struct block *b;
        } blk;
        struct block *rblk;
}

%type   <blk>   expr id nid pid term rterm qid
%type   <blk>   head
%type   <i>     pqual dqual aqual ndaqual
%type   <a>     arth narth
%type   <i>     byteop pname pnum relop irelop
%type   <blk>   and or paren not null prog
%type   <rblk>  other

%token  DST SRC HOST GATEWAY
%token  NET MASK PORT LESS GREATER PROTO BYTE
%token  ARP RARP IP TCP UDP ICMP IGMP IGRP
%token  ATALK DECNET LAT SCA MOPRC MOPDL
%token  TK_BROADCAST TK_MULTICAST
%token  NUM INBOUND OUTBOUND
%token  LINK
%token  GEQ LEQ NEQ
%token  ID EID HID
%token  LSH RSH
%token  LEN

%type   <s> ID
%type   <e> EID
%type   <s> HID
%type   <i> NUM

%left OR AND
%nonassoc  '!'
%left '|'
%left '&'
%left LSH RSH
%left '+' '-'
%left '*' '/'
%nonassoc UMINUS
%%
prog:     null expr
{
        finish_parse($2.b);
}
        | null
        ;
null:     /* null */            { $$.q = qerr; }
        ;
expr:     term
        | expr and term         { gen_and($1.b, $3.b); $$ = $3; }
        | expr and id           { gen_and($1.b, $3.b); $$ = $3; }
        | expr or term          { gen_or($1.b, $3.b); $$ = $3; }
        | expr or id            { gen_or($1.b, $3.b); $$ = $3; }
        ;
and:      AND                   { $$ = $<blk>0; }
        ;
or:       OR                    { $$ = $<blk>0; }
        ;
id:       nid
        | pnum                  { $$.b = gen_ncode(NULL, (bpf_u_int32)$1,
                                                   $$.q = $<blk>0.q); }
        | paren pid ')'         { $$ = $2; }
        ;
nid:      ID                    { $$.b = gen_scode($1, $$.q = $<blk>0.q); }
        | HID '/' NUM           { $$.b = gen_mcode($1, NULL, $3,
                                    $$.q = $<blk>0.q); }
        | HID MASK HID          { $$.b = gen_mcode($1, $3, 0,
                                    $$.q = $<blk>0.q); }
        | HID                   {
                                  /* Decide how to parse HID based on proto */
                                  $$.q = $<blk>0.q;
                                  switch ($$.q.proto) {
                                  case Q_DECNET:
                                        $$.b = gen_ncode($1, 0, $$.q);
                                        break;
                                  default:
                                        $$.b = gen_ncode($1, 0, $$.q);
                                        break;
                                  }
                                }
        | EID                   { $$.b = gen_ecode($1, $$.q = $<blk>0.q); }
        | not id                { gen_not($2.b); $$ = $2; }
        ;
not:      '!'                   { $$ = $<blk>0; }
        ;
paren:    '('                   { $$ = $<blk>0; }
        ;
pid:      nid
        | qid and id            { gen_and($1.b, $3.b); $$ = $3; }
        | qid or id             { gen_or($1.b, $3.b); $$ = $3; }
        ;
qid:      pnum                  { $$.b = gen_ncode(NULL, (bpf_u_int32)$1,
                                                   $$.q = $<blk>0.q); }
        | pid
        ;
term:     rterm
        | not term              { gen_not($2.b); $$ = $2; }
        ;
head:     pqual dqual aqual     { QSET($$.q, $1, $2, $3); }
        | pqual dqual           { QSET($$.q, $1, $2, Q_DEFAULT); }
        | pqual aqual           { QSET($$.q, $1, Q_DEFAULT, $2); }
        | pqual PROTO           { QSET($$.q, $1, Q_DEFAULT, Q_PROTO); }
        | pqual ndaqual         { QSET($$.q, $1, Q_DEFAULT, $2); }
        ;
rterm:    head id               { $$ = $2; }
        | paren expr ')'        { $$.b = $2.b; $$.q = $1.q; }
        | pname                 { $$.b = gen_proto_abbrev($1); $$.q = qerr; }
        | arth relop arth       { $$.b = gen_relation($2, $1, $3, 0);
                                  $$.q = qerr; }
        | arth irelop arth      { $$.b = gen_relation($2, $1, $3, 1);
                                  $$.q = qerr; }
        | other                 { $$.b = $1; $$.q = qerr; }
        ;
/* protocol level qualifiers */
pqual:    pname
        |                       { $$ = Q_DEFAULT; }
        ;
/* 'direction' qualifiers */
dqual:    SRC                   { $$ = Q_SRC; }
        | DST                   { $$ = Q_DST; }
        | SRC OR DST            { $$ = Q_OR; }
        | DST OR SRC            { $$ = Q_OR; }
        | SRC AND DST           { $$ = Q_AND; }
        | DST AND SRC           { $$ = Q_AND; }
        ;
/* address type qualifiers */
aqual:    HOST                  { $$ = Q_HOST; }
        | NET                   { $$ = Q_NET; }
        | PORT                  { $$ = Q_PORT; }
        ;
/* non-directional address type qualifiers */
ndaqual:  GATEWAY               { $$ = Q_GATEWAY; }
        ;
pname:    LINK                  { $$ = Q_LINK; }
        | IP                    { $$ = Q_IP; }
        | ARP                   { $$ = Q_ARP; }
        | RARP                  { $$ = Q_RARP; }
        | TCP                   { $$ = Q_TCP; }
        | UDP                   { $$ = Q_UDP; }
        | ICMP                  { $$ = Q_ICMP; }
        | IGMP                  { $$ = Q_IGMP; }
        | IGRP                  { $$ = Q_IGRP; }
        | ATALK                 { $$ = Q_ATALK; }
        | DECNET                { $$ = Q_DECNET; }
        | LAT                   { $$ = Q_LAT; }
        | SCA                   { $$ = Q_SCA; }
        | MOPDL                 { $$ = Q_MOPDL; }
        | MOPRC                 { $$ = Q_MOPRC; }
        ;
other:    pqual TK_BROADCAST    { $$ = gen_broadcast($1); }
        | pqual TK_MULTICAST    { $$ = gen_multicast($1); }
        | LESS NUM              { $$ = gen_less($2); }
        | GREATER NUM           { $$ = gen_greater($2); }
        | BYTE NUM byteop NUM   { $$ = gen_byteop($3, $2, $4); }
        | INBOUND               { $$ = gen_inbound(0); }
        | OUTBOUND              { $$ = gen_inbound(1); }
        ;
relop:    '>'                   { $$ = BPF_JGT; }
        | GEQ                   { $$ = BPF_JGE; }
        | '='                   { $$ = BPF_JEQ; }
        ;
irelop:   LEQ                   { $$ = BPF_JGT; }
        | '<'                   { $$ = BPF_JGE; }
        | NEQ                   { $$ = BPF_JEQ; }
        ;
arth:     pnum                  { $$ = gen_loadi($1); }
        | narth
        ;
narth:    pname '[' arth ']'            { $$ = gen_load($1, $3, 1); }
        | pname '[' arth ':' NUM ']'    { $$ = gen_load($1, $3, $5); }
        | arth '+' arth                 { $$ = gen_arth(BPF_ADD, $1, $3); }
        | arth '-' arth                 { $$ = gen_arth(BPF_SUB, $1, $3); }
        | arth '*' arth                 { $$ = gen_arth(BPF_MUL, $1, $3); }
        | arth '/' arth                 { $$ = gen_arth(BPF_DIV, $1, $3); }
        | arth '&' arth                 { $$ = gen_arth(BPF_AND, $1, $3); }
        | arth '|' arth                 { $$ = gen_arth(BPF_OR, $1, $3); }
        | arth LSH arth                 { $$ = gen_arth(BPF_LSH, $1, $3); }
        | arth RSH arth                 { $$ = gen_arth(BPF_RSH, $1, $3); }
        | '-' arth %prec UMINUS         { $$ = gen_neg($2); }
        | paren narth ')'               { $$ = $2; }
        | LEN                           { $$ = gen_loadlen(); }
        ;
byteop:   '&'                   { $$ = '&'; }
        | '|'                   { $$ = '|'; }
        | '<'                   { $$ = '<'; }
        | '>'                   { $$ = '>'; }
        | '='                   { $$ = '='; }
        ;
pnum:     NUM
        | paren pnum ')'        { $$ = $2; }
        ;
%%