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|
/*
* netsniff-ng - the packet sniffing beast
* By Daniel Borkmann <daniel@netsniff-ng.org>
* Copyright 2012 Daniel Borkmann <dborkma@tik.ee.ethz.ch>,
* Swiss federal institute of technology (ETH Zurich)
* Subject to the GPL, version 2.
*/
/* yaac-func-prefix: yy */
%{
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <errno.h>
#include <libgen.h>
#include <signal.h>
#include <unistd.h>
#include <net/if_arp.h>
#include <netinet/in.h>
#include <linux/icmp.h>
#include <linux/if_ether.h>
#include <linux/icmpv6.h>
#include "xmalloc.h"
#include "trafgen_parser.tab.h"
#include "trafgen_conf.h"
#include "trafgen_proto.h"
#include "trafgen_l2.h"
#include "trafgen_l3.h"
#include "trafgen_l4.h"
#include "built_in.h"
#include "die.h"
#include "str.h"
#include "csum.h"
#include "cpp.h"
#ifndef ETH_P_8021AD
#define ETH_P_8021AD 0x88A8
#endif
#define YYERROR_VERBOSE 0
#define YYDEBUG 0
#define YYENABLE_NLS 1
#define YYLTYPE_IS_TRIVIAL 1
#define ENABLE_NLS 1
extern FILE *yyin;
extern int yylex(void);
extern void yy_scan_string(char *);
extern void yylex_destroy();
extern void yyerror(const char *);
extern int yylineno;
extern char *yytext;
extern struct packet *packets;
extern size_t plen;
#define packet_last (plen - 1)
#define payload_last (packets[packet_last].len - 1)
extern struct packet_dyn *packet_dyn;
extern size_t dlen;
#define packetd_last (dlen - 1)
#define packetdc_last (packet_dyn[packetd_last].clen - 1)
#define packetdr_last (packet_dyn[packetd_last].rlen - 1)
#define packetds_last (packet_dyn[packetd_last].slen - 1)
static int our_cpu, min_cpu = -1, max_cpu = -1;
enum field_expr_type_t {
FIELD_EXPR_UNKNOWN,
FIELD_EXPR_NUMB,
FIELD_EXPR_MAC,
FIELD_EXPR_IP4_ADDR,
FIELD_EXPR_IP6_ADDR,
FIELD_EXPR_INC,
FIELD_EXPR_RND,
};
struct proto_field_expr {
enum field_expr_type_t type;
struct proto_field *field;
union {
struct in_addr ip4_addr;
struct in6_addr ip6_addr;
long long int number;
uint8_t bytes[256];
struct proto_field_func func;
} val;
};
static struct proto_field_expr field_expr;
static struct proto_hdr *hdr;
static inline int test_ignore(void)
{
if (min_cpu < 0 && max_cpu < 0)
return 0;
else if (max_cpu >= our_cpu && min_cpu <= our_cpu)
return 0;
else
return 1;
}
static inline void __init_new_packet_slot(struct packet *slot)
{
memset(slot, 0, sizeof(*slot));
}
static inline void __init_new_counter_slot(struct packet_dyn *slot)
{
slot->cnt = NULL;
slot->clen = 0;
}
static inline void __init_new_randomizer_slot(struct packet_dyn *slot)
{
slot->rnd = NULL;
slot->rlen = 0;
}
static inline void __init_new_csum_slot(struct packet_dyn *slot)
{
slot->csum = NULL;
slot->slen = 0;
}
static inline void __init_new_fields_slot(struct packet_dyn *slot)
{
slot->fields = NULL;
slot->flen = 0;
}
static inline void __setup_new_counter(struct counter *c, uint8_t start,
uint8_t stop, uint8_t stepping,
int type)
{
c->min = start;
c->max = stop;
c->inc = stepping;
c->val = (type == TYPE_INC) ? start : stop;
c->off = payload_last;
c->type = type;
}
static inline void __setup_new_randomizer(struct randomizer *r)
{
r->off = payload_last;
}
static inline void __setup_new_csum16(struct csum16 *s, off_t from, off_t to,
enum csum which)
{
s->off = payload_last - 1;
s->from = from;
s->to = to;
s->which = which;
}
static void realloc_packet(void)
{
if (test_ignore())
return;
plen++;
packets = xrealloc(packets, plen * sizeof(*packets));
__init_new_packet_slot(&packets[packet_last]);
dlen++;
packet_dyn = xrealloc(packet_dyn, dlen * sizeof(*packet_dyn));
__init_new_counter_slot(&packet_dyn[packetd_last]);
__init_new_randomizer_slot(&packet_dyn[packetd_last]);
__init_new_csum_slot(&packet_dyn[packetd_last]);
__init_new_fields_slot(&packet_dyn[packetd_last]);
}
struct packet *current_packet(void)
{
return &packets[packet_last];
}
uint32_t current_packet_id(void)
{
return packet_last;
}
struct packet *packet_get(uint32_t id)
{
return &packets[id];
}
static void set_byte(uint8_t val)
{
struct packet *pkt = &packets[packet_last];
if (test_ignore())
return;
pkt->len++;
pkt->payload = xrealloc(pkt->payload, pkt->len);
pkt->payload[payload_last] = val;
}
static void set_multi_byte(uint8_t *s, size_t len)
{
size_t i;
for (i = 0; i < len; ++i)
set_byte(s[i]);
}
void set_fill(uint8_t val, size_t len)
{
size_t i;
struct packet *pkt = &packets[packet_last];
if (test_ignore())
return;
pkt->len += len;
pkt->payload = xrealloc(pkt->payload, pkt->len);
for (i = 0; i < len; ++i)
pkt->payload[payload_last - i] = val;
}
static void __set_csum16_dynamic(size_t from, size_t to, enum csum which)
{
struct packet *pkt = &packets[packet_last];
struct packet_dyn *pktd = &packet_dyn[packetd_last];
pkt->len += 2;
pkt->payload = xrealloc(pkt->payload, pkt->len);
pktd->slen++;
pktd->csum = xrealloc(pktd->csum, pktd->slen * sizeof(struct csum16));
__setup_new_csum16(&pktd->csum[packetds_last], from, to, which);
}
static void __set_csum16_static(size_t from, size_t to, enum csum which __maybe_unused)
{
struct packet *pkt = &packets[packet_last];
uint16_t sum;
uint8_t *psum;
sum = htons(calc_csum(pkt->payload + from, to - from));
psum = (uint8_t *) ∑
set_byte(psum[0]);
set_byte(psum[1]);
}
static inline bool is_dynamic_csum(enum csum which)
{
switch (which) {
case CSUM_UDP:
case CSUM_TCP:
case CSUM_UDP6:
case CSUM_TCP6:
return true;
default:
return false;
}
}
static void set_csum16(size_t from, size_t to, enum csum which)
{
struct packet *pkt = &packets[packet_last];
struct packet_dyn *pktd = &packet_dyn[packetd_last];
if (test_ignore())
return;
if (to < from) {
size_t tmp = to;
to = from;
from = tmp;
}
bug_on(!(from < to));
if (packet_dyn_has_elems(pktd) || to >= pkt->len || is_dynamic_csum(which))
__set_csum16_dynamic(from, to, which);
else
__set_csum16_static(from, to, which);
}
static void set_rnd(size_t len)
{
size_t i;
struct packet *pkt = &packets[packet_last];
if (test_ignore())
return;
pkt->len += len;
pkt->payload = xrealloc(pkt->payload, pkt->len);
for (i = 0; i < len; ++i)
pkt->payload[payload_last - i] = (uint8_t) rand();
}
static void set_sequential_inc(uint8_t start, size_t len, uint8_t stepping)
{
size_t i;
struct packet *pkt = &packets[packet_last];
if (test_ignore())
return;
pkt->len += len;
pkt->payload = xrealloc(pkt->payload, pkt->len);
for (i = 0; i < len; ++i) {
off_t off = len - 1 - i;
pkt->payload[payload_last - off] = start;
start += stepping;
}
}
static void set_sequential_dec(uint8_t start, size_t len, uint8_t stepping)
{
size_t i;
struct packet *pkt = &packets[packet_last];
if (test_ignore())
return;
pkt->len += len;
pkt->payload = xrealloc(pkt->payload, pkt->len);
for (i = 0; i < len; ++i) {
int off = len - 1 - i;
pkt->payload[payload_last - off] = start;
start -= stepping;
}
}
static void set_dynamic_rnd(void)
{
struct packet *pkt = &packets[packet_last];
struct packet_dyn *pktd = &packet_dyn[packetd_last];
if (test_ignore())
return;
pkt->len++;
pkt->payload = xrealloc(pkt->payload, pkt->len);
pktd->rlen++;
pktd->rnd = xrealloc(pktd->rnd, pktd->rlen * sizeof(struct randomizer));
__setup_new_randomizer(&pktd->rnd[packetdr_last]);
}
static void set_dynamic_incdec(uint8_t start, uint8_t stop, uint8_t stepping,
int type)
{
struct packet *pkt = &packets[packet_last];
struct packet_dyn *pktd = &packet_dyn[packetd_last];
if (test_ignore())
return;
pkt->len++;
pkt->payload = xrealloc(pkt->payload, pkt->len);
pktd->clen++;
pktd->cnt = xrealloc(pktd->cnt, pktd->clen * sizeof(struct counter));
__setup_new_counter(&pktd->cnt[packetdc_last], start, stop, stepping, type);
}
static void proto_add(enum proto_id pid)
{
hdr = proto_header_push(pid);
}
static void proto_field_set(uint32_t fid)
{
field_expr.field = proto_hdr_field_by_id(hdr, fid);
}
static void proto_field_func_setup(struct proto_field *field, struct proto_field_func *func)
{
struct packet_dyn *pkt_dyn;
proto_hdr_field_func_add(field->hdr, field->id, func);
pkt_dyn = &packet_dyn[packetd_last];
pkt_dyn->flen++;
pkt_dyn->fields = xrealloc(pkt_dyn->fields, pkt_dyn->flen *
sizeof(struct proto_field *));
pkt_dyn->fields[pkt_dyn->flen - 1] = field;
}
static void proto_field_expr_eval(void)
{
struct proto_field *field = field_expr.field;
switch (field_expr.type) {
case FIELD_EXPR_NUMB:
if (field->len == 1)
proto_hdr_field_set_u8(hdr, field->id, field_expr.val.number);
else if (field->len == 2)
proto_hdr_field_set_be16(hdr, field->id, field_expr.val.number);
else if (field->len == 4)
proto_hdr_field_set_be32(hdr, field->id, field_expr.val.number);
else
bug();
break;
case FIELD_EXPR_MAC:
proto_hdr_field_set_bytes(hdr, field->id, field_expr.val.bytes);
break;
case FIELD_EXPR_IP4_ADDR:
proto_hdr_field_set_u32(hdr, field->id, field_expr.val.ip4_addr.s_addr);
break;
case FIELD_EXPR_IP6_ADDR:
proto_hdr_field_set_bytes(hdr, field->id,
(uint8_t *)&field_expr.val.ip6_addr.s6_addr);
break;
case FIELD_EXPR_INC:
case FIELD_EXPR_RND:
if (field_expr.val.func.min
&& field_expr.val.func.min >= field_expr.val.func.max)
panic("dinc(): min(%u) can't be >= max(%u)\n",
field_expr.val.func.min, field_expr.val.func.max);
proto_field_func_setup(field, &field_expr.val.func);
break;
case FIELD_EXPR_UNKNOWN:
default:
bug();
}
memset(&field_expr, 0, sizeof(field_expr));
}
%}
%union {
struct in_addr ip4_addr;
struct in6_addr ip6_addr;
long long int number;
uint8_t bytes[256];
char *str;
}
%token K_COMMENT K_FILL K_RND K_SEQINC K_SEQDEC K_DRND K_DINC K_DDEC K_WHITE
%token K_CPU K_CSUMIP K_CSUMUDP K_CSUMTCP K_CSUMUDP6 K_CSUMTCP6 K_CONST8 K_CONST16 K_CONST32 K_CONST64
%token K_DADDR K_SADDR K_ETYPE K_TYPE
%token K_TIME K_PRIO
%token K_OPER K_SHA K_SPA K_THA K_TPA K_REQUEST K_REPLY K_PTYPE K_HTYPE
%token K_PROT K_TTL K_DSCP K_ECN K_TOS K_LEN K_ID K_FLAGS K_FRAG K_IHL K_VER K_CSUM K_DF K_MF
%token K_FLOW K_NEXT_HDR K_HOP_LIMIT
%token K_CODE K_ECHO_REQUEST K_ECHO_REPLY
%token K_SPORT K_DPORT
%token K_SEQ K_ACK_SEQ K_DOFF K_CWR K_ECE K_URG K_ACK K_PSH K_RST K_SYN K_FIN K_WINDOW K_URG_PTR
%token K_TPID K_TCI K_PCP K_DEI K_1Q K_1AD
%token K_LABEL K_TC K_LAST K_EXP
%token K_ADDR K_MTU
%token K_ETH
%token K_PAUSE
%token K_PFC
%token K_VLAN K_MPLS
%token K_ARP
%token K_IP4 K_IP6
%token K_ICMP4 K_ICMP6
%token K_UDP K_TCP
%token ',' '{' '}' '(' ')' '[' ']' ':' '-' '+' '*' '/' '%' '&' '|' '<' '>' '^'
%token number string mac ip4_addr ip6_addr
%type <number> number expression
%type <str> string
%type <bytes> mac
%type <ip4_addr> ip4_addr
%type <ip6_addr> ip6_addr
%left '-' '+' '*' '/' '%' '&' '|' '<' '>' '^'
%%
packets
: { }
| packets packet { }
| packets inline_comment { }
| packets K_WHITE { }
;
inline_comment
: K_COMMENT { }
;
cpu_delim
: ':' { }
| '-' { }
;
delimiter_nowhite
: ',' { }
| ',' K_WHITE { }
;
noenforce_white
: { }
| K_WHITE { }
| delimiter_nowhite { }
;
skip_white
: { }
| K_WHITE { }
;
packet
: '{' noenforce_white payload noenforce_white '}' {
min_cpu = max_cpu = -1;
proto_packet_finish();
realloc_packet();
}
| K_CPU '(' number cpu_delim number ')' ':' noenforce_white '{' noenforce_white payload noenforce_white '}' {
min_cpu = $3;
max_cpu = $5;
if (min_cpu > max_cpu) {
int tmp = min_cpu;
min_cpu = max_cpu;
max_cpu = tmp;
}
proto_packet_finish();
realloc_packet();
}
| K_CPU '(' number ')' ':' noenforce_white '{' noenforce_white payload noenforce_white '}' {
min_cpu = max_cpu = $3;
proto_packet_finish();
realloc_packet();
}
;
payload
: elem { }
| payload elem_delimiter { }
;
delimiter
: delimiter_nowhite { }
| K_WHITE { }
;
elem_delimiter
: delimiter elem { }
;
elem
: number { set_byte((uint8_t) $1); }
| string { set_multi_byte((uint8_t *) $1 + 1, strlen($1) - 2); }
| fill { }
| rnd { }
| drnd { }
| seqinc { }
| seqdec { }
| dinc { }
| ddec { }
| csum { }
| const { }
| proto { proto_header_finish(hdr); }
| inline_comment { }
;
expression
: number
{ $$ = $1; }
| expression '+' expression
{ $$ = $1 + $3; }
| expression '-' expression
{ $$ = $1 - $3; }
| expression '*' expression
{ $$ = $1 * $3; }
| expression '/' expression
{ $$ = $1 / $3; }
| expression '%' expression
{ $$ = $1 % $3; }
| expression '&' expression
{ $$ = $1 & $3; }
| expression '|' expression
{ $$ = $1 | $3; }
| expression '^' expression
{ $$ = $1 ^ $3; }
| expression '<' '<' expression
{ $$ = $1 << $4; }
| expression '>' '>' expression
{ $$ = $1 >> $4; }
| '-' expression
{ $$ = -1 * $2; }
| '(' expression ')'
{ $$ = $2;}
;
fill
: K_FILL '(' number delimiter number ')'
{ set_fill($3, $5); }
;
const
: K_CONST8 '(' expression ')'
{ set_byte((uint8_t) $3); }
| K_CONST16 '(' expression ')' {
uint16_t __c = cpu_to_be16((uint16_t) $3);
set_multi_byte((uint8_t *) &__c, sizeof(__c));
}
| K_CONST32 '(' expression ')' {
uint32_t __c = cpu_to_be32((uint32_t) $3);
set_multi_byte((uint8_t *) &__c, sizeof(__c));
}
| K_CONST64 '(' expression ')' {
uint64_t __c = cpu_to_be64((uint64_t) $3);
set_multi_byte((uint8_t *) &__c, sizeof(__c));
}
;
rnd
: K_RND '(' number ')'
{ set_rnd($3); }
;
csum
: K_CSUMIP '(' number delimiter number ')'
{ set_csum16($3, $5, CSUM_IP); }
| K_CSUMTCP '(' number delimiter number ')'
{ set_csum16($3, $5, CSUM_TCP); }
| K_CSUMUDP '(' number delimiter number ')'
{ set_csum16($3, $5, CSUM_UDP); }
| K_CSUMTCP6 '(' number delimiter number ')'
{ set_csum16($3, $5, CSUM_TCP6); }
| K_CSUMUDP6 '(' number delimiter number ')'
{ set_csum16($3, $5, CSUM_UDP6); }
;
seqinc
: K_SEQINC '(' number delimiter number ')'
{ set_sequential_inc($3, $5, 1); }
| K_SEQINC '(' number delimiter number delimiter number ')'
{ set_sequential_inc($3, $5, $7); }
;
seqdec
: K_SEQDEC '(' number delimiter number ')'
{ set_sequential_dec($3, $5, 1); }
| K_SEQDEC '(' number delimiter number delimiter number ')'
{ set_sequential_dec($3, $5, $7); }
;
drnd
: K_DRND '(' ')'
{ set_dynamic_rnd(); }
| K_DRND '(' number ')'
{
int i, max = $3;
for (i = 0; i < max; ++i)
set_dynamic_rnd();
}
;
dinc
: K_DINC '(' number delimiter number ')'
{ set_dynamic_incdec($3, $5, 1, TYPE_INC); }
| K_DINC '(' number delimiter number delimiter number ')'
{ set_dynamic_incdec($3, $5, $7, TYPE_INC); }
;
ddec
: K_DDEC '(' number delimiter number ')'
{ set_dynamic_incdec($3, $5, 1, TYPE_DEC); }
| K_DDEC '(' number delimiter number delimiter number ')'
{ set_dynamic_incdec($3, $5, $7, TYPE_DEC); }
;
proto
: eth_proto { }
| pause_proto { }
| pfc_proto { }
| vlan_proto { }
| mpls_proto { }
| arp_proto { }
| ip4_proto { }
| ip6_proto { }
| icmp4_proto { }
| icmpv6_proto { }
| udp_proto { }
| tcp_proto { }
;
field_value_expr
: number { field_expr.type = FIELD_EXPR_NUMB;
field_expr.val.number = $1; }
| mac { field_expr.type = FIELD_EXPR_MAC;
memcpy(field_expr.val.bytes, $1, sizeof(field_expr.val.bytes)); }
| ip4_addr { field_expr.type = FIELD_EXPR_IP4_ADDR;
field_expr.val.ip4_addr = $1; }
| ip6_addr { field_expr.type = FIELD_EXPR_IP6_ADDR;
field_expr.val.ip6_addr = $1; }
| K_DINC '(' ')' { field_expr.type = FIELD_EXPR_INC;
field_expr.val.func.type = PROTO_FIELD_FUNC_INC;
field_expr.val.func.inc = 1; }
| K_DINC '(' number ')'
{ field_expr.type = FIELD_EXPR_INC;
field_expr.val.func.type = PROTO_FIELD_FUNC_INC;
field_expr.val.func.inc = $3; }
| K_DINC '(' number delimiter number ')'
{ field_expr.type = FIELD_EXPR_INC;
field_expr.val.func.type = PROTO_FIELD_FUNC_INC;
field_expr.val.func.type |= PROTO_FIELD_FUNC_MIN;
field_expr.val.func.min = $3;
field_expr.val.func.max = $5;
field_expr.val.func.inc = 1; }
| K_DINC '(' number delimiter number delimiter number ')'
{ field_expr.type = FIELD_EXPR_INC;
field_expr.val.func.type = PROTO_FIELD_FUNC_INC;
field_expr.val.func.type |= PROTO_FIELD_FUNC_MIN;
field_expr.val.func.min = $3;
field_expr.val.func.max = $5;
field_expr.val.func.inc = $7; }
| K_DRND '(' ')' { field_expr.type = FIELD_EXPR_RND;
field_expr.val.func.type = PROTO_FIELD_FUNC_RND; }
| K_DRND '(' number delimiter number ')'
{ field_expr.type = FIELD_EXPR_RND;
field_expr.val.func.type = PROTO_FIELD_FUNC_RND;
field_expr.val.func.min = $3;
field_expr.val.func.max = $5; }
;
eth_proto
: eth '(' eth_param_list ')' { }
;
eth
: K_ETH { proto_add(PROTO_ETH); }
;
eth_param_list
: { }
| eth_expr { }
| eth_expr delimiter eth_param_list { }
;
eth_type
: K_ETYPE { }
| K_TYPE { }
| K_PROT { }
;
eth_field
: K_DADDR { proto_field_set(ETH_DST_ADDR); }
| K_SADDR { proto_field_set(ETH_SRC_ADDR); }
| eth_type { proto_field_set(ETH_TYPE); }
eth_expr
: eth_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
;
pause_proto
: pause '(' pause_param_list ')' { }
;
pause
: K_PAUSE { proto_add(PROTO_PAUSE); }
;
pause_param_list
: { }
| pause_expr { }
| pause_expr delimiter pause_param_list { }
;
pause_field
: K_CODE { proto_field_set(PAUSE_OPCODE); }
| K_TIME { proto_field_set(PAUSE_TIME); }
;
pause_expr
: pause_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
;
pfc_proto
: pfc '(' pfc_param_list ')' { }
;
pfc
: K_PFC { proto_add(PROTO_PFC); }
;
pfc_param_list
: { }
| pfc_expr { }
| pfc_expr delimiter pfc_param_list { }
;
pfc_field
: K_CODE { proto_field_set(PFC_OPCODE); }
| K_PRIO { proto_field_set(PFC_PRIO); }
| K_PRIO '(' number ')'
{ if ($3 > 7) {
yyerror("pfc: Invalid prio(index) parameter");
panic("pfc: prio(0)..prio(7) is allowed only\n");
}
proto_field_set(PFC_PRIO_0 + $3); }
| K_TIME '(' number ')'
{ if ($3 > 7) {
yyerror("pfc: Invalid time(index) parameter");
panic("pfc: time(0)..time(7) is allowed only\n");
}
proto_field_set(PFC_TIME_0 + $3); }
;
pfc_expr
: pfc_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
;
vlan_proto
: vlan '(' vlan_param_list ')' { }
;
vlan
: K_VLAN { proto_add(PROTO_VLAN); }
;
vlan_param_list
: { }
| vlan_expr { }
| vlan_expr delimiter vlan_param_list { }
;
vlan_type
: K_TPID { }
| K_PROT
;
vlan_field
: vlan_type { proto_field_set(VLAN_TPID); }
| K_TCI { proto_field_set(VLAN_TCI); }
| K_PCP { proto_field_set(VLAN_PCP); }
| K_DEI { proto_field_set(VLAN_DEI); }
| K_ID { proto_field_set(VLAN_VID); }
;
vlan_expr
: vlan_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_1Q
{ proto_hdr_field_set_be16(hdr, VLAN_TPID, ETH_P_8021Q); }
| K_1AD
{ proto_hdr_field_set_be16(hdr, VLAN_TPID, ETH_P_8021AD); }
;
mpls_proto
: mpls '(' mpls_param_list ')' { }
;
mpls
: K_MPLS { proto_add(PROTO_MPLS); }
;
mpls_param_list
: { }
| mpls_expr { }
| mpls_expr delimiter mpls_param_list { }
;
mpls_tc
: K_TC { }
| K_EXP { }
;
mpls_field
: K_LABEL { proto_field_set(MPLS_LABEL); }
| mpls_tc { proto_field_set(MPLS_TC); }
| K_LAST { proto_field_set(MPLS_LAST); }
| K_TTL { proto_field_set(MPLS_TTL); }
;
mpls_expr
: mpls_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
arp_proto
: arp '(' arp_param_list ')' { }
;
arp_param_list
: { }
| arp_expr { }
| arp_expr delimiter arp_param_list { }
;
arp_field
: K_HTYPE
{ proto_field_set(ARP_HTYPE); }
| K_PTYPE
{ proto_field_set(ARP_PTYPE); }
| K_SHA
{ proto_field_set(ARP_SHA); }
| K_THA
{ proto_field_set(ARP_THA); }
| K_SPA
{ proto_field_set(ARP_SPA); }
| K_TPA
{ proto_field_set(ARP_TPA); }
;
arp_expr
: arp_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_OPER skip_white '=' skip_white field_value_expr
{ proto_field_set(ARP_OPER);
proto_field_expr_eval(); }
| K_OPER skip_white '=' skip_white K_REQUEST
{ proto_hdr_field_set_be16(hdr, ARP_OPER, ARPOP_REQUEST); }
| K_OPER skip_white '=' skip_white K_REPLY
{ proto_hdr_field_set_be16(hdr, ARP_OPER, ARPOP_REPLY); }
| K_REQUEST
{ proto_hdr_field_set_be16(hdr, ARP_OPER, ARPOP_REQUEST); }
| K_REPLY
{ proto_hdr_field_set_be16(hdr, ARP_OPER, ARPOP_REPLY); }
;
arp
: K_ARP { proto_add(PROTO_ARP); }
;
ip4_proto
: ip4 '(' ip4_param_list ')' { }
;
ip4_param_list
: { }
| ip4_expr { }
| ip4_expr delimiter ip4_param_list { }
;
ip4_field
: K_VER { proto_field_set(IP4_VER); }
| K_IHL { proto_field_set(IP4_IHL); }
| K_DADDR { proto_field_set(IP4_DADDR); }
| K_SADDR { proto_field_set(IP4_SADDR); }
| K_PROT { proto_field_set(IP4_PROTO); }
| K_TTL { proto_field_set(IP4_TTL); }
| K_DSCP { proto_field_set(IP4_DSCP); }
| K_ECN { proto_field_set(IP4_ECN); }
| K_TOS { proto_field_set(IP4_TOS); }
| K_LEN { proto_field_set(IP4_LEN); }
| K_ID { proto_field_set(IP4_ID); }
| K_FLAGS { proto_field_set(IP4_FLAGS); }
| K_FRAG { proto_field_set(IP4_FRAG_OFFS); }
| K_CSUM { proto_field_set(IP4_CSUM); }
;
ip4_expr
: ip4_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_DF { proto_hdr_field_set_be16(hdr, IP4_DF, 1); }
| K_MF { proto_hdr_field_set_be16(hdr, IP4_MF, 1); }
;
ip4
: K_IP4 { proto_add(PROTO_IP4); }
;
ip6_proto
: ip6 '(' ip6_param_list ')' { }
;
ip6_param_list
: { }
| ip6_expr { }
| ip6_expr delimiter ip6_param_list { }
;
ip6_hop_limit
: K_HOP_LIMIT { }
| K_TTL { }
;
ip6_field
: K_VER { proto_field_set(IP6_VER); }
| K_TC { proto_field_set(IP6_CLASS); }
| K_FLOW { proto_field_set(IP6_FLOW_LBL); }
| K_LEN { proto_field_set(IP6_LEN); }
| K_NEXT_HDR { proto_field_set(IP6_NEXT_HDR); }
| ip6_hop_limit { proto_field_set(IP6_HOP_LIMIT); }
| K_SADDR { proto_field_set(IP6_SADDR); }
| K_DADDR { proto_field_set(IP6_DADDR) ; }
;
ip6_expr
: ip6_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
;
ip6
: K_IP6 { proto_add(PROTO_IP6); }
;
icmp4_proto
: icmp4 '(' icmp4_param_list ')' { }
;
icmp4_param_list
: { }
| icmp4_expr { }
| icmp4_expr delimiter icmp4_param_list { }
;
icmp4_field
: K_TYPE { proto_field_set(ICMPV4_TYPE); }
| K_CODE { proto_field_set(ICMPV4_CODE); }
| K_ID { proto_field_set(ICMPV4_ID); }
| K_SEQ { proto_field_set(ICMPV4_SEQ); }
| K_MTU { proto_field_set(ICMPV4_MTU); }
| K_ADDR { proto_field_set(ICMPV4_REDIR_ADDR); }
;
icmp4_expr
: icmp4_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_ECHO_REQUEST
{ proto_hdr_field_set_u8(hdr, ICMPV4_TYPE, ICMP_ECHO);
proto_hdr_field_set_u8(hdr, ICMPV4_CODE, 0); }
| K_ECHO_REPLY
{ proto_hdr_field_set_u8(hdr, ICMPV4_TYPE, ICMP_ECHOREPLY);
proto_hdr_field_set_u8(hdr, ICMPV4_CODE, 0); }
;
icmp4
: K_ICMP4 { proto_add(PROTO_ICMP4); }
;
icmpv6_proto
: icmp6 '(' icmp6_param_list ')' { }
icmp6_param_list
: { }
| icmp6_expr { }
| icmp6_expr delimiter icmp6_param_list { }
;
icmp6_field
: K_CODE { proto_field_set(ICMPV6_CODE); }
| K_CSUM { proto_field_set(ICMPV6_CSUM); }
;
icmp6_expr
: icmp6_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_TYPE skip_white '=' skip_white field_value_expr
{ proto_field_set(ICMPV6_TYPE);
proto_field_expr_eval(); }
| K_TYPE skip_white '=' K_ECHO_REQUEST
{ proto_hdr_field_set_u8(hdr, ICMPV6_TYPE, ICMPV6_ECHO_REQUEST); }
| K_ECHO_REQUEST
{ proto_hdr_field_set_u8(hdr, ICMPV6_TYPE, ICMPV6_ECHO_REQUEST); }
| K_TYPE skip_white '=' K_ECHO_REPLY
{ proto_hdr_field_set_u8(hdr, ICMPV6_TYPE, ICMPV6_ECHO_REPLY); }
| K_ECHO_REPLY
{ proto_hdr_field_set_u8(hdr, ICMPV6_TYPE, ICMPV6_ECHO_REPLY); }
;
icmp6
: K_ICMP6 { proto_add(PROTO_ICMP6); }
;
udp_proto
: udp '(' udp_param_list ')' { }
;
udp_param_list
: { }
| udp_expr { }
| udp_expr delimiter udp_param_list { }
;
udp_field
: K_SPORT { proto_field_set(UDP_SPORT); }
| K_DPORT { proto_field_set(UDP_DPORT); }
| K_LEN { proto_field_set(UDP_LEN); }
| K_CSUM { proto_field_set(UDP_CSUM); }
;
udp_expr
: udp_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
;
udp
: K_UDP { proto_add(PROTO_UDP); }
;
tcp_proto
: tcp '(' tcp_param_list ')' { }
;
tcp_param_list
: { }
| tcp_expr { }
| tcp_expr delimiter tcp_param_list { }
;
tcp_field
: K_SPORT { proto_field_set(TCP_SPORT); }
| K_DPORT { proto_field_set(TCP_DPORT); }
| K_SEQ { proto_field_set(TCP_SEQ); }
| K_ACK_SEQ { proto_field_set(TCP_ACK_SEQ); }
| K_DOFF { proto_field_set(TCP_DOFF); }
| K_WINDOW { proto_field_set(TCP_WINDOW); }
| K_CSUM { proto_field_set(TCP_CSUM); }
| K_URG_PTR { proto_field_set(TCP_URG_PTR); }
;
tcp_expr
: tcp_field skip_white '=' skip_white field_value_expr
{ proto_field_expr_eval(); }
| K_CWR { proto_hdr_field_set_be16(hdr, TCP_CWR, 1); }
| K_ECE { proto_hdr_field_set_be16(hdr, TCP_ECE, 1); }
| K_URG { proto_hdr_field_set_be16(hdr, TCP_URG, 1); }
| K_ACK { proto_hdr_field_set_be16(hdr, TCP_ACK, 1); }
| K_PSH { proto_hdr_field_set_be16(hdr, TCP_PSH, 1); }
| K_RST { proto_hdr_field_set_be16(hdr, TCP_RST, 1); }
| K_SYN { proto_hdr_field_set_be16(hdr, TCP_SYN, 1); }
| K_FIN { proto_hdr_field_set_be16(hdr, TCP_FIN, 1); }
;
tcp
: K_TCP { proto_add(PROTO_TCP); }
;
%%
static void finalize_packet(void)
{
/* XXX hack ... we allocated one packet pointer too much */
plen--;
dlen--;
}
static void dump_conf(void)
{
size_t i, j;
for (i = 0; i < plen; ++i) {
printf("[%zu] pkt\n", i);
printf(" len %zu cnts %zu rnds %zu\n",
packets[i].len,
packet_dyn[i].clen,
packet_dyn[i].rlen);
printf(" payload ");
for (j = 0; j < packets[i].len; ++j)
printf("%02x ", packets[i].payload[j]);
printf("\n");
for (j = 0; j < packet_dyn[i].clen; ++j)
printf(" cnt%zu [%u,%u], inc %u, off %jd type %s\n", j,
packet_dyn[i].cnt[j].min,
packet_dyn[i].cnt[j].max,
packet_dyn[i].cnt[j].inc,
(intmax_t)packet_dyn[i].cnt[j].off,
packet_dyn[i].cnt[j].type == TYPE_INC ?
"inc" : "dec");
for (j = 0; j < packet_dyn[i].rlen; ++j)
printf(" rnd%zu off %jd\n", j,
(intmax_t)packet_dyn[i].rnd[j].off);
}
}
void cleanup_packets(void)
{
size_t i, j;
for (i = 0; i < plen; ++i) {
struct packet *pkt = &packets[i];
if (pkt->len > 0)
xfree(pkt->payload);
for (j = 0; j < pkt->headers_count; j++) {
struct proto_hdr *hdr = pkt->headers[j];
if (hdr->fields)
xfree(hdr->fields);
xfree(hdr);
}
}
free(packets);
for (i = 0; i < dlen; ++i) {
free(packet_dyn[i].cnt);
free(packet_dyn[i].rnd);
free(packet_dyn[i].fields);
}
free(packet_dyn);
}
void compile_packets(char *file, bool verbose, unsigned int cpu,
bool invoke_cpp, char *const cpp_argv[])
{
char tmp_file[128];
int ret = -1;
if (access(file, R_OK)) {
fprintf(stderr, "Cannot access %s: %s!\n", file, strerror(errno));
die();
}
memset(tmp_file, 0, sizeof(tmp_file));
our_cpu = cpu;
if (invoke_cpp) {
if (cpp_exec(file, tmp_file, sizeof(tmp_file), cpp_argv)) {
fprintf(stderr, "Failed to invoke C preprocessor!\n");
goto err;
}
file = tmp_file;
}
if (!strncmp("-", file, strlen("-")))
yyin = stdin;
else
yyin = fopen(file, "r");
if (!yyin) {
fprintf(stderr, "Cannot open %s: %s!\n", file, strerror(errno));
goto err;
}
realloc_packet();
if (yyparse() != 0)
goto err;
finalize_packet();
if (our_cpu == 0 && verbose)
dump_conf();
ret = 0;
err:
if (yyin && yyin != stdin)
fclose(yyin);
if (invoke_cpp)
unlink(tmp_file);
if (ret)
die();
}
void compile_packets_str(char *str, bool verbose, unsigned int cpu)
{
int ret = 1;
our_cpu = cpu;
realloc_packet();
yy_scan_string(str);
if (yyparse() != 0)
goto err;
finalize_packet();
if (our_cpu == 0 && verbose)
dump_conf();
ret = 0;
err:
yylex_destroy();
if (ret)
die();
}
void yyerror(const char *err)
{
fprintf(stderr, "Syntax error at line %d, char '%s': %s\n", yylineno, yytext, err);
}
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