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|
/* $OpenBSD: parse.y,v 1.89 2002/06/09 05:31:25 deraadt Exp $ */
/*
* Copyright (c) 2001 Markus Friedl. All rights reserved.
* Copyright (c) 2001 Daniel Hartmeier. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
%{
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <netinet/in.h>
#include <netinet/in_systm.h>
#include <netinet/ip.h>
#include <netinet/ip_icmp.h>
#include <netinet/icmp6.h>
#include <net/pfvar.h>
#include <arpa/inet.h>
#include <stdio.h>
#include <stdlib.h>
#include <ifaddrs.h>
#include <netdb.h>
#include <stdarg.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>
#include <err.h>
#include <pwd.h>
#include "pfctl_parser.h"
static struct pfctl *pf = NULL;
static FILE *fin = NULL;
static int debug = 0;
static int lineno = 1;
static int errors = 0;
static int natmode = 0;
struct node_if {
char ifname[IFNAMSIZ];
u_int8_t not;
struct node_if *next;
};
struct node_proto {
u_int8_t proto;
struct node_proto *next;
};
struct node_host {
struct pf_addr_wrap addr;
struct pf_addr mask;
u_int8_t af;
u_int8_t not;
u_int8_t noroute;
struct node_host *next;
u_int32_t ifindex; /* link-local IPv6 addrs */
};
struct node_port {
u_int16_t port[2];
u_int8_t op;
struct node_port *next;
};
struct node_uid {
uid_t uid[2];
u_int8_t op;
struct node_uid *next;
};
struct node_gid {
gid_t gid[2];
u_int8_t op;
struct node_gid *next;
};
struct node_icmp {
u_int8_t code;
u_int8_t type;
u_int8_t proto;
struct node_icmp *next;
};
struct node_state_opt {
enum { PF_STATE_OPT_MAX=0, PF_STATE_OPT_TIMEOUT=1 };
int type;
union {
u_int32_t max_states;
struct {
int number;
u_int32_t seconds;
} timeout;
} data;
struct node_state_opt *next;
};
struct peer {
struct node_host *host;
struct node_port *port;
};
int rule_consistent(struct pf_rule *);
int yyparse(void);
void ipmask(struct pf_addr *, u_int8_t);
void expand_rdr(struct pf_rdr *, struct node_if *, struct node_host *,
struct node_host *);
void expand_nat(struct pf_nat *, struct node_host *, struct node_host *);
void expand_label_addr(const char *, char *, u_int8_t, struct node_host *);
void expand_label_port(const char *, char *, struct node_port *);
void expand_label_proto(const char *, char *, u_int8_t);
void expand_label_nr(const char *, char *);
void expand_label(char *, u_int8_t, struct node_host *, struct node_port *,
struct node_host *, struct node_port *, u_int8_t);
void expand_rule(struct pf_rule *, struct node_if *, struct node_proto *,
struct node_host *, struct node_port *, struct node_host *,
struct node_port *, struct node_uid *, struct node_gid *,
struct node_icmp *);
struct sym {
struct sym *next;
char *nam;
char *val;
};
struct sym *symhead = NULL;
int symset(char *name, char *val);
char * symget(char *name);
struct ifaddrs *ifa0_lookup(char *ifa_name);
struct ifaddrs *ifa4_lookup(char *ifa_name);
struct ifaddrs *ifa6_lookup(char *ifa_name);
typedef struct {
union {
u_int32_t number;
int i;
char *string;
struct {
u_int8_t b1;
u_int8_t b2;
u_int16_t w;
} b;
struct range {
int a;
int b;
int t;
} range;
struct node_if *interface;
struct node_proto *proto;
struct node_icmp *icmp;
struct node_host *host;
struct node_port *port;
struct node_uid *uid;
struct node_gid *gid;
struct node_state_opt *state_opt;
struct peer peer;
struct {
struct peer src, dst;
} fromto;
struct {
char *string;
struct pf_addr *addr;
u_int8_t rt;
u_int8_t af;
} route;
struct redirection {
struct node_host *address;
struct range rport;
} *redirection;
struct {
int action;
struct node_state_opt *options;
} keep_state;
} v;
int lineno;
} YYSTYPE;
%}
%token PASS BLOCK SCRUB RETURN IN OUT LOG LOGALL QUICK ON FROM TO FLAGS
%token RETURNRST RETURNICMP RETURNICMP6 PROTO INET INET6 ALL ANY ICMPTYPE
%token ICMP6TYPE CODE KEEP MODULATE STATE PORT RDR NAT BINAT ARROW NODF
%token MINTTL IPV6ADDR ERROR ALLOWOPTS FASTROUTE ROUTETO DUPTO NO LABEL
%token NOROUTE FRAGMENT USER GROUP MAXMSS MAXIMUM TTL
%token <v.string> STRING
%token <v.number> NUMBER
%token <v.i> PORTUNARY PORTBINARY
%type <v.interface> interface if_list if_item_not if_item
%type <v.number> port icmptype icmp6type minttl uid gid maxmss
%type <v.i> no dir log quick af nodf allowopts fragment
%type <v.b> action flag flags blockspec
%type <v.range> dport rport
%type <v.proto> proto proto_list proto_item
%type <v.icmp> icmpspec icmp_list icmp6_list icmp_item icmp6_item
%type <v.fromto> fromto
%type <v.peer> ipportspec
%type <v.host> ipspec xhost host address host_list IPV6ADDR
%type <v.port> portspec port_list port_item
%type <v.uid> uids uid_list uid_item
%type <v.gid> gids gid_list gid_item
%type <v.route> route
%type <v.redirection> redirection
%type <v.string> label
%type <v.keep_state> keep
%type <v.state_opt> state_opt_spec state_opt_list state_opt_item
%%
ruleset : /* empty */
| ruleset '\n'
| ruleset pfrule '\n'
| ruleset natrule '\n'
| ruleset binatrule '\n'
| ruleset rdrrule '\n'
| ruleset varset '\n'
| ruleset error '\n' { errors++; }
;
varset : STRING PORTUNARY STRING
{
if (pf->opts & PF_OPT_VERBOSE)
printf("%s = %s\n", $1, $3);
if (symset($1, $3) == -1) {
yyerror("cannot store variable %s", $1);
YYERROR;
}
}
;
pfrule : action dir log quick interface route af proto fromto
uids gids flags icmpspec keep fragment nodf minttl
maxmss allowopts label
{
struct pf_rule r;
struct node_state_opt *o;
if (natmode) {
yyerror("filter rule not permitted in nat mode");
YYERROR;
}
memset(&r, 0, sizeof(r));
r.action = $1.b1;
if ($1.b2) {
r.rule_flag |= PFRULE_RETURNRST;
r.return_ttl = $1.w;
} else
r.return_icmp = $1.w;
r.direction = $2;
r.log = $3;
r.quick = $4;
r.af = $7;
r.flags = $12.b1;
r.flagset = $12.b2;
r.keep_state = $14.action;
o = $14.options;
while (o) {
struct node_state_opt *p = o;
switch (o->type) {
case PF_STATE_OPT_MAX:
if (r.max_states) {
yyerror("state option 'max' "
"multiple definitions");
YYERROR;
}
r.max_states = o->data.max_states;
break;
case PF_STATE_OPT_TIMEOUT:
if (r.timeout[o->data.timeout.number]) {
yyerror("state timeout %s "
"multiple definitions",
pf_timeouts[o->data.
timeout.number].name);
YYERROR;
}
r.timeout[o->data.timeout.number] =
o->data.timeout.seconds;
}
o = o->next;
free(p);
}
if ($15)
r.rule_flag |= PFRULE_FRAGMENT;
if ($16)
r.rule_flag |= PFRULE_NODF;
if ($17)
r.min_ttl = $17;
if ($18)
r.max_mss = $18;
r.allow_opts = $19;
if ($6.rt) {
r.rt = $6.rt;
if ($6.string) {
memcpy(r.rt_ifname, $6.string,
sizeof(r.rt_ifname));
free($6.string);
}
if ($6.addr) {
if (!r.af)
r.af = $6.af;
else if (r.af != $6.af) {
yyerror("address family"
" mismatch");
YYERROR;
}
memcpy(&r.rt_addr, $6.addr,
sizeof(r.rt_addr));
free($6.addr);
}
}
if ($20) {
if (strlen($20) >= PF_RULE_LABEL_SIZE) {
yyerror("rule label too long (max "
"%d chars)", PF_RULE_LABEL_SIZE-1);
YYERROR;
}
strlcpy(r.label, $20, sizeof(r.label));
free($20);
}
expand_rule(&r, $5, $8, $9.src.host, $9.src.port,
$9.dst.host, $9.dst.port, $10, $11, $13);
}
;
action : PASS { $$.b1 = PF_PASS; $$.b2 = $$.w = 0; }
| BLOCK blockspec { $$ = $2; $$.b1 = PF_DROP; }
| SCRUB { $$.b1 = PF_SCRUB; $$.b2 = $$.w = 0; }
;
blockspec : /* empty */ { $$.b2 = 0; $$.w = 0; }
| RETURNRST { $$.b2 = 1; $$.w = 0;}
| RETURNRST '(' TTL NUMBER ')' {
$$.w = $4;
$$.b2 = 1;
}
| RETURNICMP {
$$.b2 = 0;
$$.w = (ICMP_UNREACH << 8) | ICMP_UNREACH_PORT;
}
| RETURNICMP6 {
$$.b2 = 0;
$$.w = (ICMP6_DST_UNREACH << 8) |
ICMP6_DST_UNREACH_NOPORT;
}
| RETURNICMP '(' NUMBER ')' {
$$.w = (ICMP_UNREACH << 8) | $3;
$$.b2 = 0;
}
| RETURNICMP '(' STRING ')' {
const struct icmpcodeent *p;
if ((p = geticmpcodebyname(ICMP_UNREACH, $3,
AF_INET)) == NULL) {
yyerror("unknown icmp code %s", $3);
YYERROR;
}
$$.w = (p->type << 8) | p->code;
$$.b2 = 0;
}
| RETURNICMP6 '(' NUMBER ')' {
$$.w = (ICMP6_DST_UNREACH << 8) | $3;
$$.b2 = 0;
}
| RETURNICMP6 '(' STRING ')' {
const struct icmpcodeent *p;
if ((p = geticmpcodebyname(ICMP6_DST_UNREACH, $3,
AF_INET6)) == NULL) {
yyerror("unknown icmp code %s", $3);
YYERROR;
}
$$.w = (p->type << 8) | p->code;
$$.b2 = 0;
}
;
dir : IN { $$ = PF_IN; }
| OUT { $$ = PF_OUT; }
;
log : /* empty */ { $$ = 0; }
| LOG { $$ = 1; }
| LOGALL { $$ = 2; }
;
quick : /* empty */ { $$ = 0; }
| QUICK { $$ = 1; }
;
interface : /* empty */ { $$ = NULL; }
| ON if_item_not { $$ = $2; }
| ON '{' if_list '}' { $$ = $3; }
;
if_list : if_item_not { $$ = $1; }
| if_list ',' if_item_not { $3->next = $1; $$ = $3; }
;
if_item_not : '!' if_item { $$ = $2; $$->not = 1; }
| if_item { $$ = $1; }
if_item : STRING {
if (ifa0_lookup($1) == 0) {
yyerror("unknown interface %s", $1);
YYERROR;
}
$$ = malloc(sizeof(struct node_if));
if ($$ == NULL)
err(1, "if_item: malloc");
strlcpy($$->ifname, $1, IFNAMSIZ);
$$->not = 0;
$$->next = NULL;
}
;
af : /* empty */ { $$ = 0; }
| INET { $$ = AF_INET; }
| INET6 { $$ = AF_INET6; }
proto : /* empty */ { $$ = NULL; }
| PROTO proto_item { $$ = $2; }
| PROTO '{' proto_list '}' { $$ = $3; }
;
proto_list : proto_item { $$ = $1; }
| proto_list ',' proto_item { $3->next = $1; $$ = $3; }
;
proto_item : NUMBER {
struct protoent *p;
if ((p = getprotobynumber($1)) == NULL) {
yyerror("unknown protocol %d", $1);
YYERROR;
}
$$ = malloc(sizeof(struct node_proto));
if ($$ == NULL)
err(1, "proto_item: malloc");
$$->proto = p->p_proto;
$$->next = NULL;
}
| STRING {
struct protoent *p;
if ((p = getprotobyname($1)) == NULL) {
yyerror("unknown protocol %s", $1);
YYERROR;
}
$$ = malloc(sizeof(struct node_proto));
if ($$ == NULL)
err(1, "proto_item: malloc");
$$->proto = p->p_proto;
$$->next = NULL;
}
;
fromto : ALL {
$$.src.host = NULL;
$$.src.port = NULL;
$$.dst.host = NULL;
$$.dst.port = NULL;
}
| FROM ipportspec TO ipportspec {
$$.src = $2;
$$.dst = $4;
}
;
ipportspec : ipspec { $$.host = $1; $$.port = NULL; }
| ipspec PORT portspec {
$$.host = $1;
$$.port = $3;
}
;
ipspec : ANY { $$ = NULL; }
| xhost { $$ = $1; }
| '{' host_list '}' { $$ = $2; }
;
host_list : xhost { $$ = $1; }
| host_list ',' xhost {
/* both $1 and $3 may be lists, so join them */
$$ = $3;
while ($3->next)
$3 = $3->next;
$3->next = $1;
}
;
xhost : '!' host { $$ = $2; $$->not = 1; }
| host { $$ = $1; }
| NOROUTE {
$$ = calloc(1, sizeof(struct node_host));
if ($$ == NULL)
err(1, "xhost: calloc");
$$->noroute = 1;
}
;
host : address {
struct node_host *n;
for (n = $1; n; n = n->next)
if (n->af == AF_INET)
ipmask(&n->mask, 32);
else
ipmask(&n->mask, 128);
$$ = $1;
}
| address '/' NUMBER {
struct node_host *n;
for (n = $1; n; n = n->next) {
if ($1->af == AF_INET) {
if ($3 < 0 || $3 > 32) {
yyerror(
"illegal netmask value %d",
$3);
YYERROR;
}
} else {
if ($3 < 0 || $3 > 128) {
yyerror(
"illegal netmask value %d",
$3);
YYERROR;
}
}
ipmask(&n->mask, $3);
}
$$ = $1;
}
;
address : '(' STRING ')' {
$$ = calloc(1, sizeof(struct node_host));
if ($$ == NULL)
err(1, "address: calloc");
$$->af = 0;
$$->addr.addr_dyn = (struct pf_addr_dyn *)1;
strncpy($$->addr.addr.pfa.ifname, $2,
sizeof($$->addr.addr.pfa.ifname));
}
| STRING {
if (ifa0_lookup($1)) {
struct ifaddrs *ifa;
/* an interface with this name exists */
if ((ifa = ifa4_lookup($1))) {
struct sockaddr_in *sin =
(struct sockaddr_in *)
ifa->ifa_addr;
$$ = calloc(1,
sizeof(struct node_host));
if ($$ == NULL)
err(1, "address: calloc");
$$->af = AF_INET;
$$->addr.addr_dyn = NULL;
memcpy(&$$->addr.addr, &sin->sin_addr,
sizeof(u_int32_t));
} else if ((ifa = ifa6_lookup($1))) {
struct sockaddr_in6 *sin6 =
(struct sockaddr_in6 *)
ifa->ifa_addr;
$$ = calloc(1,
sizeof(struct node_host));
if ($$ == NULL)
err(1, "address: calloc");
$$->af = AF_INET6;
$$->addr.addr_dyn = NULL;
memcpy(&$$->addr.addr, &sin6->sin6_addr,
sizeof(struct pf_addr));
} else {
yyerror("interface %s has no IP "
"addresses", $1);
YYERROR;
}
} else {
struct node_host *h = NULL, *n;
struct addrinfo hints, *res0, *res;
int error;
memset(&hints, 0, sizeof(hints));
hints.ai_family = PF_UNSPEC;
hints.ai_socktype = SOCK_STREAM; /* DUMMY */
error = getaddrinfo($1, NULL, &hints, &res0);
if (error) {
yyerror("cannot resolve %s: %s",
$1, gai_strerror(error));
YYERROR;
}
for (res = res0; res; res = res->ai_next) {
if (res->ai_family != AF_INET &&
res->ai_family != AF_INET6)
continue;
n = calloc(1, sizeof(struct node_host));
if (n == NULL)
err(1, "address: calloc");
n->af = res->ai_family;
n->addr.addr_dyn = NULL;
if (res->ai_family == AF_INET)
memcpy(&n->addr.addr,
&((struct sockaddr_in *)
res->ai_addr)
->sin_addr.s_addr,
sizeof(struct in_addr));
else {
memcpy(&n->addr.addr,
&((struct sockaddr_in6 *)
res->ai_addr)
->sin6_addr.s6_addr,
sizeof(struct in6_addr));
n->ifindex =
((struct sockaddr_in6 *)
res->ai_addr)
->sin6_scope_id;
}
n->next = h;
h = n;
}
freeaddrinfo(res0);
if (h == NULL) {
yyerror("no IP address found for %s", $1);
YYERROR;
}
$$ = h;
}
}
| NUMBER '.' NUMBER '.' NUMBER '.' NUMBER {
if ($1 < 0 || $3 < 0 || $5 < 0 || $7 < 0 ||
$1 > 255 || $3 > 255 || $5 > 255 || $7 > 255) {
yyerror("illegal ip address %d.%d.%d.%d",
$1, $3, $5, $7);
YYERROR;
}
$$ = calloc(1, sizeof(struct node_host));
if ($$ == NULL)
err(1, "address: calloc");
$$->af = AF_INET;
$$->addr.addr_dyn = NULL;
$$->addr.addr.addr32[0] = htonl(($1 << 24) |
($3 << 16) | ($5 << 8) | $7);
}
| IPV6ADDR { $$ = $1; }
;
portspec : port_item { $$ = $1; }
| '{' port_list '}' { $$ = $2; }
;
port_list : port_item { $$ = $1; }
| port_list ',' port_item { $3->next = $1; $$ = $3; }
;
port_item : port {
$$ = malloc(sizeof(struct node_port));
if ($$ == NULL)
err(1, "port_item: malloc");
$$->port[0] = $1;
$$->port[1] = $1;
$$->op = PF_OP_EQ;
$$->next = NULL;
}
| PORTUNARY port {
$$ = malloc(sizeof(struct node_port));
if ($$ == NULL)
err(1, "port_item: malloc");
$$->port[0] = $2;
$$->port[1] = $2;
$$->op = $1;
$$->next = NULL;
}
| port PORTBINARY port {
$$ = malloc(sizeof(struct node_port));
if ($$ == NULL)
err(1, "port_item: malloc");
$$->port[0] = $1;
$$->port[1] = $3;
$$->op = $2;
$$->next = NULL;
}
;
port : NUMBER {
if ($1 < 0 || $1 > 65535) {
yyerror("illegal port value %d", $1);
YYERROR;
}
$$ = htons($1);
}
| STRING {
struct servent *s = NULL;
s = getservbyname($1, "tcp");
if (s == NULL)
s = getservbyname($1, "udp");
if (s == NULL) {
yyerror("unknown protocol %s", $1);
YYERROR;
}
$$ = s->s_port;
}
;
uids : /* empty */ { $$ = NULL; }
| USER uid_item { $$ = $2; }
| USER '{' uid_list '}' { $$ = $3; }
;
uid_list : uid_item { $$ = $1; }
| uid_list ',' uid_item { $3->next = $1; $$ = $3; }
;
uid_item : uid {
$$ = malloc(sizeof(struct node_uid));
if ($$ == NULL)
err(1, "uid_item: malloc");
$$->uid[0] = $1;
$$->uid[1] = $1;
$$->op = PF_OP_EQ;
$$->next = NULL;
}
| PORTUNARY uid {
if ($2 == UID_MAX && $1 != PF_OP_EQ && $1 != PF_OP_NE) {
yyerror("user unknown requires operator = or !=");
YYERROR;
}
$$ = malloc(sizeof(struct node_uid));
if ($$ == NULL)
err(1, "uid_item: malloc");
$$->uid[0] = $2;
$$->uid[1] = $2;
$$->op = $1;
$$->next = NULL;
}
| uid PORTBINARY uid {
if ($1 == UID_MAX || $3 == UID_MAX) {
yyerror("user unknown requires operator = or !=");
YYERROR;
}
$$ = malloc(sizeof(struct node_uid));
if ($$ == NULL)
err(1, "uid_item: malloc");
$$->uid[0] = $1;
$$->uid[1] = $3;
$$->op = $2;
$$->next = NULL;
}
;
uid : NUMBER {
if ($1 < 0 || $1 >= UID_MAX) {
yyerror("illegal uid value %d", $1);
YYERROR;
}
$$ = $1;
}
| STRING {
if (!strcmp($1, "unknown"))
$$ = UID_MAX;
else {
struct passwd *pw;
if ((pw = getpwnam($1)) == NULL) {
yyerror("unknown user %s", $1);
YYERROR;
}
$$ = pw->pw_uid;
}
}
;
gids : /* empty */ { $$ = NULL; }
| GROUP gid_item { $$ = $2; }
| GROUP '{' gid_list '}' { $$ = $3; }
;
gid_list : gid_item { $$ = $1; }
| gid_list ',' gid_item { $3->next = $1; $$ = $3; }
;
gid_item : gid {
$$ = malloc(sizeof(struct node_gid));
if ($$ == NULL)
err(1, "gid_item: malloc");
$$->gid[0] = $1;
$$->gid[1] = $1;
$$->op = PF_OP_EQ;
$$->next = NULL;
}
| PORTUNARY gid {
if ($2 == GID_MAX && $1 != PF_OP_EQ && $1 != PF_OP_NE) {
yyerror("group unknown requires operator = or !=");
YYERROR;
}
$$ = malloc(sizeof(struct node_gid));
if ($$ == NULL)
err(1, "gid_item: malloc");
$$->gid[0] = $2;
$$->gid[1] = $2;
$$->op = $1;
$$->next = NULL;
}
| gid PORTBINARY gid {
if ($1 == GID_MAX || $3 == GID_MAX) {
yyerror("group unknown requires operator = or !=");
YYERROR;
}
$$ = malloc(sizeof(struct node_gid));
if ($$ == NULL)
err(1, "gid_item: malloc");
$$->gid[0] = $1;
$$->gid[1] = $3;
$$->op = $2;
$$->next = NULL;
}
;
gid : NUMBER {
if ($1 < 0 || $1 >= GID_MAX) {
yyerror("illegal gid value %d", $1);
YYERROR;
}
$$ = $1;
}
| STRING {
if (!strcmp($1, "unknown"))
$$ = GID_MAX;
else {
struct passwd *pw;
if ((pw = getpwnam($1)) == NULL) {
yyerror("unknown group %s", $1);
YYERROR;
}
$$ = pw->pw_uid;
}
}
;
flag : STRING {
int f;
if ((f = parse_flags($1)) < 0) {
yyerror("bad flags %s", $1);
YYERROR;
}
$$.b1 = f;
}
;
flags : /* empty */ { $$.b1 = 0; $$.b2 = 0; }
| FLAGS flag { $$.b1 = $2.b1; $$.b2 = PF_TH_ALL; }
| FLAGS flag "/" flag { $$.b1 = $2.b1; $$.b2 = $4.b1; }
| FLAGS "/" flag { $$.b1 = 0; $$.b2 = $3.b1; }
;
icmpspec : /* empty */ { $$ = NULL; }
| ICMPTYPE icmp_item { $$ = $2; }
| ICMPTYPE '{' icmp_list '}' { $$ = $3; }
| ICMP6TYPE icmp6_item { $$ = $2; }
| ICMP6TYPE '{' icmp6_list '}' { $$ = $3; }
;
icmp_list : icmp_item { $$ = $1; }
| icmp_list ',' icmp_item { $3->next = $1; $$ = $3; }
;
icmp6_list : icmp6_item { $$ = $1; }
| icmp6_list ',' icmp6_item { $3->next = $1; $$ = $3; }
;
icmp_item : icmptype {
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
$$->type = $1;
$$->code = 0;
$$->proto = IPPROTO_ICMP;
$$->next = NULL;
}
| icmptype CODE NUMBER {
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
if ($3 < 0 || $3 > 255) {
yyerror("illegal icmp code %d", $3);
YYERROR;
}
$$->type = $1;
$$->code = $3 + 1;
$$->proto = IPPROTO_ICMP;
$$->next = NULL;
}
| icmptype CODE STRING {
const struct icmpcodeent *p;
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
$$->type = $1;
if ((p = geticmpcodebyname($1, $3,
AF_INET)) == NULL) {
yyerror("unknown icmp-code %s", $3);
YYERROR;
}
$$->code = p->code + 1;
$$->proto = IPPROTO_ICMP;
$$->next = NULL;
}
;
icmp6_item : icmp6type {
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
$$->type = $1;
$$->code = 0;
$$->proto = IPPROTO_ICMPV6;
$$->next = NULL;
}
| icmp6type CODE NUMBER {
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
if ($3 < 0 || $3 > 255) {
yyerror("illegal icmp6 code %d", $3);
YYERROR;
}
$$->type = $1;
$$->code = $3 + 1;
$$->proto = IPPROTO_ICMPV6;
$$->next = NULL;
}
| icmp6type CODE STRING {
const struct icmpcodeent *p;
$$ = malloc(sizeof(struct node_icmp));
if ($$ == NULL)
err(1, "icmp_item: malloc");
$$->type = $1;
if ((p = geticmpcodebyname($1, $3,
AF_INET6)) == NULL) {
yyerror("unknown icmp6-code %s", $3);
YYERROR;
}
$$->code = p->code + 1;
$$->proto = IPPROTO_ICMPV6;
$$->next = NULL;
}
;
icmptype : STRING {
const struct icmptypeent *p;
if ((p = geticmptypebyname($1, AF_INET)) == NULL) {
yyerror("unknown icmp-type %s", $1);
YYERROR;
}
$$ = p->type + 1;
}
| NUMBER {
if ($1 < 0 || $1 > 255) {
yyerror("illegal icmp type %d", $1);
YYERROR;
}
$$ = $1 + 1;
}
;
icmp6type : STRING {
const struct icmptypeent *p;
if ((p = geticmptypebyname($1, AF_INET6)) == NULL) {
yyerror("unknown ipv6-icmp-type %s", $1);
YYERROR;
}
$$ = p->type + 1;
}
| NUMBER {
if ($1 < 0 || $1 > 255) {
yyerror("illegal icmp6 type %d", $1);
YYERROR;
}
$$ = $1 + 1;
}
;
keep : /* empty */ { $$.action = 0; }
| KEEP STATE state_opt_spec {
$$.action = PF_STATE_NORMAL;
$$.options = $3;
}
| MODULATE STATE state_opt_spec {
$$.action = PF_STATE_MODULATE;
$$.options = $3;
}
;
state_opt_spec : /* empty */ { $$ = NULL; }
| '(' state_opt_list ')' { $$ = $2; }
;
state_opt_list : state_opt_item { $$ = $1; }
| state_opt_list ',' state_opt_item {
$$ = $1;
while ($1->next)
$1 = $1->next;
$1->next = $3;
}
;
state_opt_item : MAXIMUM NUMBER {
if ($2 <= 0) {
yyerror("illegal states max value %d", $2);
YYERROR;
}
$$ = calloc(1, sizeof(struct node_state_opt));
if ($$ == NULL)
err(1, "state_opt_item: calloc");
$$->type = PF_STATE_OPT_MAX;
$$->data.max_states = $2;
$$->next = NULL;
}
| STRING NUMBER {
int i;
for (i = 0; pf_timeouts[i].name &&
strcmp(pf_timeouts[i].name, $1); ++i);
if (!pf_timeouts[i].name) {
yyerror("illegal timeout name %s", $1);
YYERROR;
}
if ($2 < 0) {
yyerror("illegal timeout value %d", $2);
YYERROR;
}
$$ = calloc(1, sizeof(struct node_state_opt));
if ($$ == NULL)
err(1, "state_opt_item: calloc");
$$->type = PF_STATE_OPT_TIMEOUT;
$$->data.timeout.number = pf_timeouts[i].timeout;
$$->data.timeout.seconds = $2;
$$->next = NULL;
}
;
fragment : /* empty */ { $$ = 0; }
| FRAGMENT { $$ = 1; }
minttl : /* empty */ { $$ = 0; }
| MINTTL NUMBER {
if ($2 < 0 || $2 > 255) {
yyerror("illegal min-ttl value %d", $2);
YYERROR;
}
$$ = $2;
}
;
nodf : /* empty */ { $$ = 0; }
| NODF { $$ = 1; }
;
maxmss : /* empty */ { $$ = 0; }
| MAXMSS NUMBER {
if ($2 < 0) {
yyerror("illegal max-mss value %d", $2);
YYERROR;
}
$$ = $2;
}
;
allowopts : /* empty */ { $$ = 0; }
| ALLOWOPTS { $$ = 1; }
label : /* empty */ { $$ = NULL; }
| LABEL STRING {
if (($$ = strdup($2)) == NULL) {
yyerror("rule label strdup() failed");
YYERROR;
}
}
;
no : /* empty */ { $$ = 0; }
| NO { $$ = 1; }
;
rport : port {
$$.a = $1;
$$.b = $$.t = 0;
}
| port ':' '*' {
$$.a = $1;
$$.b = 0;
$$.t = PF_RPORT_RANGE;
}
;
redirection : /* empty */ { $$ = NULL; }
| ARROW address {
$$ = malloc(sizeof(struct redirection));
if ($$ == NULL)
err(1, "redirection: malloc");
if ($2->next) {
yyerror("multiple ip addresses");
YYERROR;
}
$$->address = $2;
$$->rport.a = $$->rport.b = $$->rport.t = 0;
}
| ARROW address PORT rport {
$$ = malloc(sizeof(struct redirection));
if ($$ == NULL)
err(1, "redirection: malloc");
if ($2->next) {
yyerror("multiple ip addresses");
YYERROR;
}
$$->address = $2;
$$->rport = $4;
}
;
natrule : no NAT interface af proto FROM ipspec TO ipspec redirection
{
struct pf_nat nat;
if (!natmode) {
yyerror("nat rule not permitted in filter mode");
YYERROR;
}
memset(&nat, 0, sizeof(nat));
nat.no = $1;
if ($3 != NULL) {
memcpy(nat.ifname, $3->ifname,
sizeof(nat.ifname));
nat.ifnot = $3->not;
free($3);
}
nat.af = $4;
if ($5 != NULL) {
nat.proto = $5->proto;
free($5);
}
if ($7 != NULL && $9 != NULL && $7->af != $9->af) {
yyerror("nat ip versions must match");
YYERROR;
}
if ($7 != NULL) {
if ($7->addr.addr_dyn != NULL) {
if (!nat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$7->af = nat.af;
}
if (nat.af && $7->af != nat.af) {
yyerror("nat ip versions must match");
YYERROR;
}
nat.af = $7->af;
memcpy(&nat.saddr, &$7->addr,
sizeof(nat.saddr));
memcpy(&nat.smask, &$7->mask,
sizeof(nat.smask));
nat.snot = $7->not;
}
if ($9 != NULL) {
if ($9->addr.addr_dyn != NULL) {
if (!nat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$9->af = nat.af;
}
if (nat.af && $9->af != nat.af) {
yyerror("nat ip versions must match");
YYERROR;
}
nat.af = $9->af;
memcpy(&nat.daddr, &$9->addr,
sizeof(nat.daddr));
memcpy(&nat.dmask, &$9->mask,
sizeof(nat.dmask));
nat.dnot = $9->not;
}
if (nat.no) {
if ($10 != NULL) {
yyerror("'no nat' rule does not need '->'");
YYERROR;
}
} else {
if ($10 == NULL || $10->address == NULL) {
yyerror("'nat' rule requires '-> address'");
YYERROR;
}
if ($10->address->addr.addr_dyn != NULL) {
if (!nat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$10->address->af = nat.af;
}
if (nat.af && $10->address->af != nat.af) {
yyerror("nat ip versions must match");
YYERROR;
}
nat.af = $10->address->af;
memcpy(&nat.raddr, &$10->address->addr,
sizeof(nat.raddr));
free($10->address);
free($10);
}
expand_nat(&nat, $7, $9);
}
;
binatrule : no BINAT interface af proto FROM address TO ipspec redirection
{
struct pf_binat binat;
if (!natmode) {
yyerror("binat rule not permitted in filter mode");
YYERROR;
}
memset(&binat, 0, sizeof(binat));
binat.no = $1;
if ($3 != NULL) {
memcpy(binat.ifname, $3->ifname,
sizeof(binat.ifname));
free($3);
}
binat.af = $4;
if ($5 != NULL) {
binat.proto = $5->proto;
free($5);
}
if ($7 != NULL && $9 != NULL && $7->af != $9->af) {
yyerror("binat ip versions must match");
YYERROR;
}
if ($7 != NULL) {
if ($7->next) {
yyerror("multiple binat ip addresses");
YYERROR;
}
if ($7->addr.addr_dyn != NULL) {
if (!binat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$7->af = binat.af;
}
if (binat.af && $7->af != binat.af) {
yyerror("binat ip versions must match");
YYERROR;
}
binat.af = $7->af;
memcpy(&binat.saddr, &$7->addr,
sizeof(binat.saddr));
free($7);
}
if ($9 != NULL) {
if ($9->next) {
yyerror("multiple binat ip addresses");
YYERROR;
}
if ($9->addr.addr_dyn != NULL) {
if (!binat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$9->af = binat.af;
}
if (binat.af && $9->af != binat.af) {
yyerror("binat ip versions must match");
YYERROR;
}
binat.af = $9->af;
memcpy(&binat.daddr, &$9->addr,
sizeof(binat.daddr));
memcpy(&binat.dmask, &$9->mask,
sizeof(binat.dmask));
binat.dnot = $9->not;
free($9);
}
if (binat.no) {
if ($10 != NULL) {
yyerror("'no binat' rule does not need"
" '->'");
YYERROR;
}
} else {
if ($10 == NULL || $10->address == NULL) {
yyerror("'binat' rule requires"
" '-> address'");
YYERROR;
}
if ($10->address->addr.addr_dyn != NULL) {
if (!binat.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$10->address->af = binat.af;
}
if (binat.af && $10->address->af != binat.af) {
yyerror("binat ip versions must match");
YYERROR;
}
binat.af = $10->address->af;
memcpy(&binat.raddr, &$10->address->addr,
sizeof(binat.raddr));
free($10->address);
free($10);
}
pfctl_add_binat(pf, &binat);
}
rdrrule : no RDR interface af proto FROM ipspec TO ipspec dport redirection
{
struct pf_rdr rdr;
if (!natmode) {
yyerror("rdr rule not permitted in filter mode");
YYERROR;
}
memset(&rdr, 0, sizeof(rdr));
rdr.no = $1;
if ($3 != NULL) {
memcpy(rdr.ifname, $3->ifname,
sizeof(rdr.ifname));
rdr.ifnot = $3->not;
}
if ($5 != NULL) {
rdr.proto = $5->proto;
free($5);
}
if ($7 != NULL && $9 != NULL && $7->af != $9->af) {
yyerror("rdr ip versions must match");
YYERROR;
}
if ($7 != NULL) {
if ($7->addr.addr_dyn != NULL) {
if (!rdr.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$7->af = rdr.af;
}
if (rdr.af && $7->af != rdr.af) {
yyerror("rdr ip versions must match");
YYERROR;
}
rdr.af = $7->af;
memcpy(&rdr.saddr, &$7->addr,
sizeof(rdr.saddr));
memcpy(&rdr.smask, &$7->mask,
sizeof(rdr.smask));
rdr.snot = $7->not;
}
if ($9 != NULL) {
if ($9->addr.addr_dyn != NULL) {
if (!rdr.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$9->af = rdr.af;
}
if (rdr.af && $9->af != rdr.af) {
yyerror("rdr ip versions must match");
YYERROR;
}
rdr.af = $9->af;
memcpy(&rdr.daddr, &$9->addr,
sizeof(rdr.daddr));
memcpy(&rdr.dmask, &$9->mask,
sizeof(rdr.dmask));
rdr.dnot = $9->not;
}
rdr.dport = $10.a;
rdr.dport2 = $10.b;
rdr.opts |= $10.t;
if (rdr.no) {
if ($11 != NULL) {
yyerror("'no rdr' rule does not need '->'");
YYERROR;
}
} else {
if ($11 == NULL || $11->address == NULL) {
yyerror("'rdr' rule requires '-> address'");
YYERROR;
}
if ($11->address->addr.addr_dyn != NULL) {
if (!rdr.af) {
yyerror("address family (inet/"
"inet6) undefined");
YYERROR;
}
$11->address->af = rdr.af;
}
if (rdr.af && $11->address->af != rdr.af) {
yyerror("rdr ip versions must match");
YYERROR;
}
rdr.af = $11->address->af;
memcpy(&rdr.raddr, &$11->address->addr,
sizeof(rdr.raddr));
free($11->address);
rdr.rport = $11->rport.a;
rdr.opts |= $11->rport.t;
free($11);
}
if (rdr.proto && rdr.proto != IPPROTO_TCP &&
rdr.proto != IPPROTO_UDP &&
(rdr.dport || rdr.dport2 || rdr.rport)) {
yyerror("rdr ports are only valid for proto tcp/udp");
YYERROR;
}
expand_rdr(&rdr, $3, $7, $9);
}
;
dport : /* empty */ {
$$.a = $$.b = $$.t = 0;
}
| PORT port {
$$.a = $2;
$$.b = $$.t = 0;
}
| PORT port ':' port {
$$.a = $2;
$$.b = $4;
$$.t = PF_DPORT_RANGE;
}
;
route : /* empty */ {
$$.string = NULL;
$$.rt = 0;
$$.addr = NULL;
$$.af = 0;
}
| FASTROUTE {
$$.string = NULL;
$$.rt = PF_FASTROUTE;
$$.addr = NULL;
}
| ROUTETO STRING ':' address {
$$.string = strdup($2);
$$.rt = PF_ROUTETO;
if ($4->addr.addr_dyn != NULL) {
yyerror("route-to does not support"
" dynamic addresses");
YYERROR;
}
if ($4->next) {
yyerror("multiple routeto ip addresses");
YYERROR;
}
$$.addr = &$4->addr.addr;
$$.af = $4->af;
}
| ROUTETO STRING {
$$.string = strdup($2);
$$.rt = PF_ROUTETO;
$$.addr = NULL;
}
| DUPTO STRING ':' address {
$$.string = strdup($2);
$$.rt = PF_DUPTO;
if ($4->addr.addr_dyn != NULL) {
yyerror("dup-to does not support"
" dynamic addresses");
YYERROR;
}
if ($4->next) {
yyerror("multiple dupto ip addresses");
YYERROR;
}
$$.addr = &$4->addr.addr;
$$.af = $4->af;
}
| DUPTO STRING {
$$.string = strdup($2);
$$.rt = PF_DUPTO;
$$.addr = NULL;
}
;
%%
int
yyerror(char *fmt, ...)
{
va_list ap;
extern char *infile;
errors = 1;
va_start(ap, fmt);
fprintf(stderr, "%s:%d: ", infile, yylval.lineno);
vfprintf(stderr, fmt, ap);
fprintf(stderr, "\n");
va_end(ap);
return (0);
}
int
rule_consistent(struct pf_rule *r)
{
int problems = 0;
if (r->action == PF_SCRUB) {
if (r->quick) {
yyerror("quick does not apply to scrub");
problems++;
}
if (r->keep_state == PF_STATE_MODULATE) {
yyerror("modulate state does not apply to scrub");
problems++;
}
if (r->keep_state == PF_STATE_NORMAL) {
yyerror("keep state does not apply to scrub");
problems++;
}
if (r->src.port_op) {
yyerror("src port does not apply to scrub");
problems++;
}
if (r->dst.port_op) {
yyerror("dst port does not apply to scrub");
problems++;
}
if (r->type || r->code) {
yyerror("icmp-type/code does not apply to scrub");
problems++;
}
if (r->rule_flag & PFRULE_FRAGMENT) {
yyerror("fragment flag does not apply to scrub");
problems++;
}
} else {
if (r->rule_flag & PFRULE_NODF) {
yyerror("nodf only applies to scrub");
problems++;
}
if (r->min_ttl) {
yyerror("min-ttl only applies to scrub");
problems++;
}
if (r->max_mss) {
yyerror("max-mss only applies to scrub");
problems++;
}
}
if (r->proto != IPPROTO_TCP && r->proto != IPPROTO_UDP &&
(r->src.port_op || r->dst.port_op)) {
yyerror("port only applies to tcp/udp");
problems++;
}
if (r->proto != IPPROTO_ICMP && r->proto != IPPROTO_ICMPV6 &&
(r->type || r->code)) {
yyerror("icmp-type/code only applies to icmp");
problems++;
}
if (!r->af && (r->type || r->code)) {
yyerror("must indicate address family with icmp-type/code");
problems++;
}
if ((r->proto == IPPROTO_ICMP && r->af == AF_INET6) ||
(r->proto == IPPROTO_ICMPV6 && r->af == AF_INET)) {
yyerror("icmp version does not match address family");
problems++;
}
if (!(r->rule_flag & PFRULE_RETURNRST) && r->return_icmp &&
((r->af != AF_INET6 && (r->return_icmp>>8) != ICMP_UNREACH) ||
(r->af == AF_INET6 && (r->return_icmp>>8) != ICMP6_DST_UNREACH))) {
yyerror("return-icmp version does not match address family");
problems++;
}
if (r->keep_state == PF_STATE_MODULATE && r->proto &&
r->proto != IPPROTO_TCP) {
yyerror("modulate state can only be applied to TCP rules");
problems++;
}
if (r->allow_opts && r->action != PF_PASS) {
yyerror("allow-opts can only be specified for pass rules");
problems++;
}
if (!r->af && (r->src.addr.addr_dyn != NULL ||
r->dst.addr.addr_dyn != NULL)) {
yyerror("dynamic addresses require address family (inet/inet6)");
problems++;
}
if (r->rule_flag & PFRULE_FRAGMENT && (r->src.port_op ||
r->dst.port_op || r->flagset || r->type || r->code)) {
yyerror("fragments can be filtered only on IP header fields");
problems++;
}
return (-problems);
}
struct keywords {
const char *k_name;
int k_val;
};
/* macro gore, but you should've seen the prior indentation nightmare... */
#define CHECK_ROOT(T,r) \
do { \
if (r == NULL) { \
r = malloc(sizeof(T)); \
if (r == NULL) \
err(1, "malloc"); \
memset(r, 0, sizeof(T)); \
} \
} while (0)
#define FREE_LIST(T,r) \
do { \
T *p, *n = r; \
while (n != NULL) { \
p = n; \
n = n->next; \
free(p); \
} \
} while (0)
#define LOOP_THROUGH(T,n,r,C) \
do { \
T *n = r; \
while (n != NULL) { \
do { \
C; \
} while (0); \
n = n->next; \
} \
} while (0)
void
expand_label_addr(const char *name, char *label, u_int8_t af,
struct node_host *host)
{
char tmp[PF_RULE_LABEL_SIZE];
char *p;
while ((p = strstr(label, name)) != NULL) {
tmp[0] = 0;
strlcat(tmp, label, p-label+1);
if (host->not)
strlcat(tmp, "! ", PF_RULE_LABEL_SIZE);
if (host->addr.addr_dyn != NULL) {
strlcat(tmp, "(", PF_RULE_LABEL_SIZE);
strlcat(tmp, host->addr.addr.pfa.ifname,
PF_RULE_LABEL_SIZE);
strlcat(tmp, ")", PF_RULE_LABEL_SIZE);
} else if (!af || (PF_AZERO(&host->addr.addr, af) &&
PF_AZERO(&host->mask, af)))
strlcat(tmp, "any", PF_RULE_LABEL_SIZE);
else {
char a[48];
int bits;
if (inet_ntop(af, &host->addr.addr, a,
sizeof(a)) == NULL)
strlcat(a, "?", sizeof(a));
strlcat(tmp, a, PF_RULE_LABEL_SIZE);
bits = unmask(&host->mask, af);
a[0] = 0;
if ((af == AF_INET && bits < 32) ||
(af == AF_INET6 && bits < 128))
snprintf(a, sizeof(a), "/%u", bits);
strlcat(tmp, a, PF_RULE_LABEL_SIZE);
}
strlcat(tmp, p+strlen(name), PF_RULE_LABEL_SIZE);
strncpy(label, tmp, PF_RULE_LABEL_SIZE);
}
}
void
expand_label_port(const char *name, char *label, struct node_port *port)
{
char tmp[PF_RULE_LABEL_SIZE];
char *p;
char a1[6], a2[6], op[13];
while ((p = strstr(label, name)) != NULL) {
tmp[0] = 0;
strlcat(tmp, label, p-label+1);
snprintf(a1, sizeof(a1), "%u", ntohs(port->port[0]));
snprintf(a2, sizeof(a2), "%u", ntohs(port->port[1]));
if (!port->op)
op[0] = 0;
else if (port->op == PF_OP_IRG)
snprintf(op, sizeof(op), "%s><%s", a1, a2);
else if (port->op == PF_OP_XRG)
snprintf(op, sizeof(op), "%s<>%s", a1, a2);
else if (port->op == PF_OP_EQ)
snprintf(op, sizeof(op), "%s", a1);
else if (port->op == PF_OP_NE)
snprintf(op, sizeof(op), "!=%s", a1);
else if (port->op == PF_OP_LT)
snprintf(op, sizeof(op), "<%s", a1);
else if (port->op == PF_OP_LE)
snprintf(op, sizeof(op), "<=%s", a1);
else if (port->op == PF_OP_GT)
snprintf(op, sizeof(op), ">%s", a1);
else if (port->op == PF_OP_GE)
snprintf(op, sizeof(op), ">=%s", a1);
strlcat(tmp, op, PF_RULE_LABEL_SIZE);
strlcat(tmp, p+strlen(name), PF_RULE_LABEL_SIZE);
strncpy(label, tmp, PF_RULE_LABEL_SIZE);
}
}
void
expand_label_proto(const char *name, char *label, u_int8_t proto)
{
char tmp[PF_RULE_LABEL_SIZE];
char *p;
struct protoent *pe;
while ((p = strstr(label, name)) != NULL) {
tmp[0] = 0;
strlcat(tmp, label, p-label+1);
pe = getprotobynumber(proto);
if (pe != NULL)
strlcat(tmp, pe->p_name, PF_RULE_LABEL_SIZE);
else
snprintf(tmp+strlen(tmp), PF_RULE_LABEL_SIZE-strlen(tmp),
"%u", proto);
strlcat(tmp, p+strlen(name), PF_RULE_LABEL_SIZE);
strncpy(label, tmp, PF_RULE_LABEL_SIZE);
}
}
void
expand_label_nr(const char *name, char *label)
{
char tmp[PF_RULE_LABEL_SIZE];
char *p;
while ((p = strstr(label, name)) != NULL) {
tmp[0] = 0;
strlcat(tmp, label, p-label+1);
snprintf(tmp+strlen(tmp), PF_RULE_LABEL_SIZE-strlen(tmp),
"%u", pf->rule_nr);
strlcat(tmp, p+strlen(name), PF_RULE_LABEL_SIZE);
strncpy(label, tmp, PF_RULE_LABEL_SIZE);
}
}
void
expand_label(char *label, u_int8_t af,
struct node_host *src_host, struct node_port *src_port,
struct node_host *dst_host, struct node_port *dst_port,
u_int8_t proto)
{
expand_label_addr("$srcaddr", label, af, src_host);
expand_label_addr("$dstaddr", label, af, dst_host);
expand_label_port("$srcport", label, src_port);
expand_label_port("$dstport", label, dst_port);
expand_label_proto("$proto", label, proto);
expand_label_nr("$nr", label);
}
void
expand_rule(struct pf_rule *r,
struct node_if *interfaces, struct node_proto *protos,
struct node_host *src_hosts, struct node_port *src_ports,
struct node_host *dst_hosts, struct node_port *dst_ports,
struct node_uid *uids, struct node_gid *gids,
struct node_icmp *icmp_types)
{
int af = r->af, nomatch = 0, added = 0;
char ifname[IF_NAMESIZE];
char label[PF_RULE_LABEL_SIZE];
strlcpy(label, r->label, sizeof(label));
CHECK_ROOT(struct node_if, interfaces);
CHECK_ROOT(struct node_proto, protos);
CHECK_ROOT(struct node_host, src_hosts);
CHECK_ROOT(struct node_port, src_ports);
CHECK_ROOT(struct node_host, dst_hosts);
CHECK_ROOT(struct node_port, dst_ports);
CHECK_ROOT(struct node_uid, uids);
CHECK_ROOT(struct node_gid, gids);
CHECK_ROOT(struct node_icmp, icmp_types);
LOOP_THROUGH(struct node_if, interface, interfaces,
LOOP_THROUGH(struct node_proto, proto, protos,
LOOP_THROUGH(struct node_icmp, icmp_type, icmp_types,
LOOP_THROUGH(struct node_host, src_host, src_hosts,
LOOP_THROUGH(struct node_port, src_port, src_ports,
LOOP_THROUGH(struct node_host, dst_host, dst_hosts,
LOOP_THROUGH(struct node_port, dst_port, dst_ports,
LOOP_THROUGH(struct node_uid, uid, uids,
LOOP_THROUGH(struct node_gid, gid, gids,
r->af = af;
/* for link-local IPv6 address, interface must match up */
if ((r->af && src_host->af && r->af != src_host->af) ||
(r->af && dst_host->af && r->af != dst_host->af) ||
(src_host->af && dst_host->af &&
src_host->af != dst_host->af) ||
(src_host->ifindex && dst_host->ifindex &&
src_host->ifindex != dst_host->ifindex) ||
(src_host->ifindex && if_nametoindex(interface->ifname) &&
src_host->ifindex != if_nametoindex(interface->ifname)) ||
(dst_host->ifindex && if_nametoindex(interface->ifname) &&
dst_host->ifindex != if_nametoindex(interface->ifname)))
continue;
if (!r->af && src_host->af)
r->af = src_host->af;
else if (!r->af && dst_host->af)
r->af = dst_host->af;
if (if_indextoname(src_host->ifindex, ifname))
memcpy(r->ifname, ifname, sizeof(r->ifname));
else if (if_indextoname(dst_host->ifindex, ifname))
memcpy(r->ifname, ifname, sizeof(r->ifname));
else
memcpy(r->ifname, interface->ifname, sizeof(r->ifname));
strlcpy(r->label, label, PF_RULE_LABEL_SIZE);
expand_label(r->label, r->af, src_host, src_port,
dst_host, dst_port, proto->proto);
r->proto = proto->proto;
r->src.addr = src_host->addr;
r->src.mask = src_host->mask;
r->src.noroute = src_host->noroute;
r->src.not = src_host->not;
r->src.port[0] = src_port->port[0];
r->src.port[1] = src_port->port[1];
r->src.port_op = src_port->op;
r->dst.addr = dst_host->addr;
r->dst.mask = dst_host->mask;
r->dst.noroute = dst_host->noroute;
r->dst.not = dst_host->not;
r->dst.port[0] = dst_port->port[0];
r->dst.port[1] = dst_port->port[1];
r->dst.port_op = dst_port->op;
r->uid.op = uid->op;
r->uid.uid[0] = uid->uid[0];
r->uid.uid[1] = uid->uid[1];
r->gid.op = gid->op;
r->gid.gid[0] = gid->gid[0];
r->gid.gid[1] = gid->gid[1];
r->type = icmp_type->type;
r->code = icmp_type->code;
if (icmp_type->proto && r->proto != icmp_type->proto) {
yyerror("icmp-type mismatch");
nomatch++;
}
if (rule_consistent(r) < 0 || nomatch)
yyerror("skipping rule due to errors");
else {
r->nr = pf->rule_nr++;
pfctl_add_rule(pf, r);
added++;
}
)))))))));
FREE_LIST(struct node_if, interfaces);
FREE_LIST(struct node_proto, protos);
FREE_LIST(struct node_host, src_hosts);
FREE_LIST(struct node_port, src_ports);
FREE_LIST(struct node_host, dst_hosts);
FREE_LIST(struct node_port, dst_ports);
FREE_LIST(struct node_uid, uids);
FREE_LIST(struct node_gid, gids);
FREE_LIST(struct node_icmp, icmp_types);
if (!added)
yyerror("rule expands to no valid combination");
}
void
expand_nat(struct pf_nat *n, struct node_host *src_hosts,
struct node_host *dst_hosts)
{
int af = n->af, added = 0;
CHECK_ROOT(struct node_host, src_hosts)
; CHECK_ROOT(struct node_host, dst_hosts);
LOOP_THROUGH(struct node_host, src_host, src_hosts,
LOOP_THROUGH(struct node_host, dst_host, dst_hosts,
n->af = af;
if ((n->af && src_host->af && n->af != src_host->af) ||
(n->af && dst_host->af && n->af != dst_host->af) ||
(src_host->af && dst_host->af &&
src_host->af != dst_host->af))
continue;
if (!n->af && src_host->af)
n->af = src_host->af;
else if (!n->af && dst_host->af)
n->af = dst_host->af;
n->saddr = src_host->addr;
n->smask = src_host->mask;
n->daddr = dst_host->addr;
n->dmask = dst_host->mask;
pfctl_add_nat(pf, n);
added++;
));
FREE_LIST(struct node_host, src_hosts);
FREE_LIST(struct node_host, dst_hosts);
if (!added)
yyerror("nat rule expands to no valid combinations");
}
void
expand_rdr(struct pf_rdr *r, struct node_if *interfaces,
struct node_host *src_hosts,
struct node_host *dst_hosts)
{
int af = r->af, added = 0;
char ifname[IF_NAMESIZE];
CHECK_ROOT(struct node_if, interfaces);
CHECK_ROOT(struct node_host, src_hosts);
CHECK_ROOT(struct node_host, dst_hosts);
LOOP_THROUGH(struct node_if, interface, interfaces,
LOOP_THROUGH(struct node_host, src_host, src_hosts,
LOOP_THROUGH(struct node_host, dst_host, dst_hosts,
r->af = af;
if ((r->af && src_host->af && r->af != src_host->af) ||
(r->af && dst_host->af && r->af != dst_host->af) ||
(src_host->af && dst_host->af &&
src_host->af != dst_host->af) ||
(src_host->ifindex && dst_host->ifindex &&
src_host->ifindex != dst_host->ifindex) ||
(src_host->ifindex && if_nametoindex(interface->ifname) &&
src_host->ifindex != if_nametoindex(interface->ifname)) ||
(dst_host->ifindex && if_nametoindex(interface->ifname) &&
dst_host->ifindex != if_nametoindex(interface->ifname)))
continue;
if (!r->af && src_host->af)
r->af = src_host->af;
else if (!r->af && dst_host->af)
r->af = dst_host->af;
if (if_indextoname(src_host->ifindex, ifname))
memcpy(r->ifname, ifname, sizeof(r->ifname));
else if (if_indextoname(dst_host->ifindex, ifname))
memcpy(r->ifname, ifname, sizeof(r->ifname));
else
memcpy(r->ifname, interface->ifname, sizeof(r->ifname));
r->saddr = src_host->addr;
r->smask = src_host->mask;
r->daddr = dst_host->addr;
r->dmask = dst_host->mask;
pfctl_add_rdr(pf, r);
added++;
)));
FREE_LIST(struct node_if, interfaces);
FREE_LIST(struct node_host, src_hosts);
FREE_LIST(struct node_host, dst_hosts);
if (!added)
yyerror("rdr rule expands to no valid combination");
}
#undef FREE_LIST
#undef CHECK_ROOT
#undef LOOP_THROUGH
int
kw_cmp(k, e)
const void *k, *e;
{
return (strcmp(k, ((struct keywords *)e)->k_name));
}
int
lookup(char *s)
{
/* this has to be sorted always */
static const struct keywords keywords[] = {
{ "all", ALL},
{ "allow-opts", ALLOWOPTS},
{ "any", ANY},
{ "binat", BINAT},
{ "block", BLOCK},
{ "code", CODE},
{ "dup-to", DUPTO},
{ "fastroute", FASTROUTE},
{ "flags", FLAGS},
{ "fragment", FRAGMENT},
{ "from", FROM},
{ "group", GROUP},
{ "icmp-type", ICMPTYPE},
{ "in", IN},
{ "inet", INET},
{ "inet6", INET6},
{ "ipv6-icmp-type", ICMP6TYPE},
{ "keep", KEEP},
{ "label", LABEL},
{ "log", LOG},
{ "log-all", LOGALL},
{ "max", MAXIMUM},
{ "max-mss", MAXMSS},
{ "min-ttl", MINTTL},
{ "modulate", MODULATE},
{ "nat", NAT},
{ "no", NO},
{ "no-df", NODF},
{ "no-route", NOROUTE},
{ "on", ON},
{ "out", OUT},
{ "pass", PASS},
{ "port", PORT},
{ "proto", PROTO},
{ "quick", QUICK},
{ "rdr", RDR},
{ "return", RETURN},
{ "return-icmp",RETURNICMP},
{ "return-icmp6",RETURNICMP6},
{ "return-rst", RETURNRST},
{ "route-to", ROUTETO},
{ "scrub", SCRUB},
{ "state", STATE},
{ "to", TO},
{ "ttl", TTL},
{ "user", USER},
};
const struct keywords *p;
p = bsearch(s, keywords, sizeof(keywords)/sizeof(keywords[0]),
sizeof(keywords[0]), kw_cmp);
if (p) {
if (debug > 1)
fprintf(stderr, "%s: %d\n", s, p->k_val);
return (p->k_val);
} else {
if (debug > 1)
fprintf(stderr, "string: %s\n", s);
return (STRING);
}
}
char *parsebuf;
int parseindex;
int
lgetc(FILE *fin)
{
int c, next;
restart:
if (parsebuf) {
/* Reading characters from the parse buffer, instead of input */
c = parsebuf[parseindex++];
if (c != '\0')
return (c);
free(parsebuf);
parsebuf = NULL;
parseindex = 0;
goto restart;
}
c = getc(fin);
if (c == '\\') {
next = getc(fin);
if (next != '\n') {
ungetc(next, fin);
return (c);
}
yylval.lineno = lineno;
lineno++;
goto restart;
}
return (c);
}
int
lungetc(int c, FILE *fin)
{
if (parsebuf && parseindex) {
/* XXX breaks on index 0 */
parseindex--;
return (c);
}
return ungetc(c, fin);
}
int
findeol()
{
int c;
if (parsebuf) {
free(parsebuf);
parsebuf = NULL;
parseindex = 0;
}
/* skip to either EOF or the first real EOL */
while (1) {
c = lgetc(fin);
if (c == '\\') {
c = lgetc(fin);
if (c == '\n')
continue;
}
if (c == EOF || c == '\n')
break;
}
return (ERROR);
}
int
yylex(void)
{
char buf[8096], *p, *val;
int endc, c, next;
int token;
top:
p = buf;
while ((c = lgetc(fin)) == ' ' || c == '\t')
;
yylval.lineno = lineno;
if (c == '#')
while ((c = lgetc(fin)) != '\n' && c != EOF)
;
if (c == '$' && parsebuf == NULL) {
while (1) {
if ((c = lgetc(fin)) == EOF)
return (0);
if (p + 1 >= buf + sizeof(buf) - 1) {
yyerror("string too long");
return (findeol());
}
if (isalnum(c) || c == '_') {
*p++ = (char)c;
continue;
}
*p = '\0';
lungetc(c, fin);
break;
}
val = symget(buf);
if (val == NULL)
return (ERROR);
parsebuf = strdup(val);
if (parsebuf == NULL)
err(1, "parsebuf: strdup");
parseindex = 0;
goto top;
}
switch (c) {
case '\'':
case '"':
endc = c;
while (1) {
if ((c = lgetc(fin)) == EOF)
return (0);
if (c == endc) {
*p = '\0';
break;
}
if (c == '\n')
continue;
if (p + 1 >= buf + sizeof(buf) - 1) {
yyerror("string too long");
return (findeol());
}
*p++ = (char)c;
}
yylval.v.string = strdup(buf);
if (yylval.v.string == NULL)
err(1, "yylex: strdup");
return (STRING);
case '=':
yylval.v.i = PF_OP_EQ;
return (PORTUNARY);
case '!':
next = lgetc(fin);
if (next == '=') {
yylval.v.i = PF_OP_NE;
return (PORTUNARY);
}
lungetc(next, fin);
break;
case '<':
next = lgetc(fin);
if (next == '>') {
yylval.v.i = PF_OP_XRG;
return (PORTBINARY);
} else if (next == '=') {
yylval.v.i = PF_OP_LE;
} else {
yylval.v.i = PF_OP_LT;
lungetc(next, fin);
}
return (PORTUNARY);
break;
case '>':
next = lgetc(fin);
if (next == '<') {
yylval.v.i = PF_OP_IRG;
return (PORTBINARY);
} else if (next == '=') {
yylval.v.i = PF_OP_GE;
} else {
yylval.v.i = PF_OP_GT;
lungetc(next, fin);
}
return (PORTUNARY);
break;
case '-':
next = lgetc(fin);
if (next == '>')
return (ARROW);
lungetc(next, fin);
break;
}
/* Need to parse v6 addresses before tokenizing numbers. ick */
if (isxdigit(c) || c == ':') {
struct node_host *node = NULL;
u_int32_t addr[4];
char lookahead[46];
int i = 0;
struct addrinfo hints, *res;
lookahead[i] = c;
while (i < sizeof(lookahead) &&
(isalnum(c) || c == ':' || c == '.' || c == '%')) {
lookahead[++i] = c = lgetc(fin);
}
/* quick check avoids calling inet_pton too often */
lungetc(lookahead[i], fin);
lookahead[i] = '\0';
memset(&hints, 0, sizeof(hints));
hints.ai_family = AF_INET6;
hints.ai_socktype = SOCK_DGRAM; /*dummy*/
hints.ai_flags = AI_NUMERICHOST;
if (getaddrinfo(lookahead, "0", &hints, &res) == 0) {
node = calloc(1, sizeof(struct node_host));
if (node == NULL)
err(1, "yylex: calloc");
node->af = AF_INET6;
node->addr.addr_dyn = NULL;
memcpy(&node->addr.addr,
&((struct sockaddr_in6 *)res->ai_addr)->sin6_addr,
sizeof(addr));
node->ifindex = ((struct sockaddr_in6 *)res->ai_addr)
->sin6_scope_id;
yylval.v.host = node;
return IPV6ADDR;
freeaddrinfo(res);
} else {
free(node);
while (i > 1)
lungetc(lookahead[--i], fin);
c = lookahead[--i];
}
}
if (isdigit(c)) {
int index = 0, base = 10;
u_int64_t n = 0;
yylval.v.number = 0;
while (1) {
if (base == 10) {
if (!isdigit(c))
break;
c -= '0';
} else if (base == 16) {
if (isdigit(c))
c -= '0';
else if (c >= 'a' && c <= 'f')
c -= 'a' - 10;
else if (c >= 'A' && c <= 'F')
c -= 'A' - 10;
else
break;
}
n = n * base + c;
if (n > UINT_MAX) {
yyerror("number is too large");
return (ERROR);
}
c = lgetc(fin);
if (c == EOF)
break;
if (index++ == 0 && n == 0 && c == 'x') {
base = 16;
c = lgetc(fin);
if (c == EOF)
break;
}
}
yylval.v.number = (u_int32_t)n;
if (c != EOF)
lungetc(c, fin);
if (debug > 1)
fprintf(stderr, "number: %d\n", yylval.v.number);
return (NUMBER);
}
#define allowed_in_string(x) \
(isalnum(x) || (ispunct(x) && x != '(' && x != ')' && \
x != '{' && x != '}' && x != '<' && x != '>' && \
x != '!' && x != '=' && x != '/' && x != '#' && \
x != ',' && x != ':' && x != '(' && x != ')'))
if (isalnum(c)) {
do {
*p++ = c;
if (p-buf >= sizeof buf) {
yyerror("string too long");
return (ERROR);
}
} while ((c = lgetc(fin)) != EOF && (allowed_in_string(c)));
lungetc(c, fin);
*p = '\0';
token = lookup(buf);
yylval.v.string = strdup(buf);
if (yylval.v.string == NULL)
err(1, "yylex: strdup");
return (token);
}
if (c == '\n') {
yylval.lineno = lineno;
lineno++;
}
if (c == EOF)
return (0);
return (c);
}
int
parse_rules(FILE *input, struct pfctl *xpf)
{
natmode = 0;
fin = input;
pf = xpf;
lineno = 1;
errors = 0;
yyparse();
return (errors ? -1 : 0);
}
int
parse_nat(FILE *input, struct pfctl *xpf)
{
natmode = 1;
fin = input;
pf = xpf;
lineno = 1;
errors = 0;
yyparse();
return (errors ? -1 : 0);
}
void
ipmask(struct pf_addr *m, u_int8_t b)
{
int i, j = 0;
while (b >= 32) {
m->addr32[j++] = 0xffffffff;
b -= 32;
}
for (i = 31; i > 31-b; --i)
m->addr32[j] |= (1 << i);
if (b)
m->addr32[j] = htonl(m->addr32[j]);
}
/*
* Over-designed efficiency is a French and German concept, so how about
* we wait until they discover this ugliness and make it all fancy.
*/
int
symset(char *nam, char *val)
{
struct sym *sym;
sym = calloc(1, sizeof(*sym));
if (sym == NULL)
return (-1);
sym->nam = strdup(nam);
if (sym->nam == NULL) {
free(sym);
return (-1);
}
sym->val = strdup(val);
if (sym->val == NULL) {
free(sym->nam);
free(sym);
return (-1);
}
sym->next = symhead;
symhead = sym;
return (0);
}
char *
symget(char *nam)
{
struct sym *sym;
for (sym = symhead; sym; sym = sym->next)
if (strcmp(nam, sym->nam) == 0)
return (sym->val);
return (NULL);
}
struct ifaddrs **ifa0tab, **ifa4tab, **ifa6tab;
int ifa0len, ifa4len, ifa6len;
int
ifa_comp(const void *p1, const void *p2)
{
struct ifaddrs *ifa1 = *(struct ifaddrs **)p1;
struct ifaddrs *ifa2 = *(struct ifaddrs **)p2;
return strcmp(ifa1->ifa_name, ifa2->ifa_name);
}
void
ifa_load(void)
{
struct ifaddrs *ifap, *ifa;
void *p;
int ifalen = 0;
if (getifaddrs(&ifap) < 0)
err(1, "getifaddrs");
for (ifa = ifap; ifa; ifa = ifa->ifa_next)
ifalen++;
/* (over-)allocate tables */
ifa0tab = malloc(ifalen * sizeof(void *));
ifa4tab = malloc(ifalen * sizeof(void *));
ifa6tab = malloc(ifalen * sizeof(void *));
if (!ifa0tab || !ifa4tab || !ifa6tab)
err(1, "malloc");
for (ifa = ifap; ifa; ifa = ifa->ifa_next) {
if (ifa->ifa_addr->sa_family == AF_LINK) {
if (bsearch(&ifa, ifa0tab, ifa0len, sizeof(void *),
ifa_comp))
continue; /* take only the first LINK address */
ifa0tab[ifa0len++] = ifa;
qsort(ifa0tab, ifa0len, sizeof(void *), ifa_comp);
}
if (ifa->ifa_addr->sa_family == AF_INET) {
if (bsearch(&ifa, ifa4tab, ifa4len, sizeof(void *),
ifa_comp))
continue; /* take only the first IPv4 address */
ifa4tab[ifa4len++] = ifa;
qsort(ifa4tab, ifa4len, sizeof(void *), ifa_comp);
}
if (ifa->ifa_addr->sa_family == AF_INET6) {
/* XXX - better address selection required! */
if (bsearch(&ifa, ifa6tab, ifa6len, sizeof(void *),
ifa_comp))
continue; /* take only the first IPv6 address */
ifa6tab[ifa6len++] = ifa;
qsort(ifa6tab, ifa6len, sizeof(void *), ifa_comp);
}
}
/* shrink tables */
if ((p = realloc(ifa0tab, ifa0len * sizeof(void *))) == NULL) {
free(ifa0tab);
ifa0tab = NULL;
} else
ifa0tab = p;
if ((p = realloc(ifa4tab, ifa4len * sizeof(void *))) == NULL) {
free(ifa4tab);
ifa4tab = NULL;
} else
ifa4tab = p;
if ((p = realloc(ifa6tab, ifa6len * sizeof(void *))) == NULL) {
free(ifa6tab);
ifa6tab = NULL;
} else
ifa6tab = p;
if (!ifa0tab || !ifa4tab || !ifa6tab)
err(1, "realloc");
}
struct ifaddrs *
ifa0_lookup(char *ifa_name)
{
struct ifaddrs ifa, *ifp = &ifa, **ifpp;
if (!ifa0tab)
ifa_load();
ifa.ifa_name = ifa_name;
ifpp = bsearch(&ifp, ifa0tab, ifa0len, sizeof(void *), ifa_comp);
return ifpp ? *ifpp : NULL;
}
struct ifaddrs *
ifa4_lookup(char *ifa_name)
{
struct ifaddrs ifa, *ifp = &ifa, **ifpp;
if (!ifa4tab)
ifa_load();
ifa.ifa_name = ifa_name;
ifpp = bsearch(&ifp, ifa4tab, ifa4len, sizeof(void *), ifa_comp);
return ifpp ? *ifpp : NULL;
}
struct ifaddrs *
ifa6_lookup(char *ifa_name)
{
struct ifaddrs ifa, *ifp = &ifa, **ifpp;
if (!ifa6tab)
ifa_load();
ifa.ifa_name = ifa_name;
ifpp = bsearch(&ifp, ifa6tab, ifa6len, sizeof(void *), ifa_comp);
return ifpp ? *ifpp : NULL;
}
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