NetBSD-5.0.2/dist/ipf/tools/ipfcomp.c
/* $NetBSD: ipfcomp.c,v 1.4 2007/05/15 22:52:23 martin Exp $ */
/*
* Copyright (C) 2001-2005 by Darren Reed.
*
* See the IPFILTER.LICENCE file for details on licencing.
*/
#if !defined(lint)
static const char sccsid[] = "@(#)ip_fil.c 2.41 6/5/96 (C) 1993-2000 Darren Reed";
static const char rcsid[] = "@(#)Id: ipfcomp.c,v 1.24.2.7 2007/05/01 22:15:00 darrenr Exp";
#endif
#include "ipf.h"
typedef struct {
int c;
int e;
int n;
int p;
int s;
} mc_t;
static char *portcmp[] = { "*", "==", "!=", "<", ">", "<=", ">=", "**", "***" };
static int count = 0;
int intcmp __P((const void *, const void *));
static void indent __P((FILE *, int));
static void printeq __P((FILE *, char *, int, int, int));
static void printipeq __P((FILE *, char *, int, int, int));
static void addrule __P((FILE *, frentry_t *));
static void printhooks __P((FILE *, int, int, frgroup_t *));
static void emitheader __P((frgroup_t *, u_int, u_int));
static void emitGroup __P((int, int, void *, frentry_t *, char *,
u_int, u_int));
static void emittail __P((void));
static void printCgroup __P((int, frentry_t *, mc_t *, char *));
#define FRC_IFN 0
#define FRC_V 1
#define FRC_P 2
#define FRC_FL 3
#define FRC_TOS 4
#define FRC_TTL 5
#define FRC_SRC 6
#define FRC_DST 7
#define FRC_TCP 8
#define FRC_SP 9
#define FRC_DP 10
#define FRC_OPT 11
#define FRC_SEC 12
#define FRC_ATH 13
#define FRC_ICT 14
#define FRC_ICC 15
#define FRC_MAX 16
static FILE *cfile = NULL;
/*
* This is called once per filter rule being loaded to emit data structures
* required.
*/
void printc(fr)
frentry_t *fr;
{
fripf_t *ipf;
u_long *ulp;
char *and;
FILE *fp;
int i;
if (fr->fr_v != 4)
return;
if ((fr->fr_type != FR_T_IPF) && (fr->fr_type != FR_T_NONE))
return;
if ((fr->fr_type == FR_T_IPF) &&
((fr->fr_datype != FRI_NORMAL) || (fr->fr_satype != FRI_NORMAL)))
return;
ipf = fr->fr_ipf;
if (cfile == NULL)
cfile = fopen("ip_rules.c", "w");
if (cfile == NULL)
return;
fp = cfile;
if (count == 0) {
fprintf(fp, "/*\n");
fprintf(fp, "* Copyright (C) 1993-2000 by Darren Reed.\n");
fprintf(fp, "*\n");
fprintf(fp, "* Redistribution and use in source and binary forms are permitted\n");
fprintf(fp, "* provided that this notice is preserved and due credit is given\n");
fprintf(fp, "* to the original author and the contributors.\n");
fprintf(fp, "*/\n\n");
fprintf(fp, "#include <sys/param.h>\n");
fprintf(fp, "#include <sys/types.h>\n");
fprintf(fp, "#include <sys/time.h>\n");
fprintf(fp, "#include <sys/socket.h>\n");
fprintf(fp, "#if (__FreeBSD_version >= 40000)\n");
fprintf(fp, "# if defined(_KERNEL)\n");
fprintf(fp, "# include <sys/libkern.h>\n");
fprintf(fp, "# else\n");
fprintf(fp, "# include <sys/unistd.h>\n");
fprintf(fp, "# endif\n");
fprintf(fp, "#endif\n");
fprintf(fp, "#if (__NetBSD_Version__ >= 399000000)\n");
fprintf(fp, "#else\n");
fprintf(fp, "# if !defined(__FreeBSD__) && !defined(__OpenBSD__) && !defined(__sgi)\n");
fprintf(fp, "# include <sys/systm.h>\n");
fprintf(fp, "# endif\n");
fprintf(fp, "#endif\n");
fprintf(fp, "#include <sys/errno.h>\n");
fprintf(fp, "#include <sys/param.h>\n");
fprintf(fp,
"#if !defined(__SVR4) && !defined(__svr4__) && !defined(__hpux)\n");
fprintf(fp, "# include <sys/mbuf.h>\n");
fprintf(fp, "#endif\n");
fprintf(fp,
"#if defined(__FreeBSD__) && (__FreeBSD_version > 220000)\n");
fprintf(fp, "# include <sys/sockio.h>\n");
fprintf(fp, "#else\n");
fprintf(fp, "# include <sys/ioctl.h>\n");
fprintf(fp, "#endif /* FreeBSD */\n");
fprintf(fp, "#include <net/if.h>\n");
fprintf(fp, "#include <netinet/in.h>\n");
fprintf(fp, "#include <netinet/in_systm.h>\n");
fprintf(fp, "#include <netinet/ip.h>\n");
fprintf(fp, "#include <netinet/tcp.h>\n");
fprintf(fp, "#include \"netinet/ip_compat.h\"\n");
fprintf(fp, "#include \"netinet/ip_fil.h\"\n\n");
fprintf(fp, "#include \"netinet/ip_rules.h\"\n\n");
fprintf(fp, "#ifndef _KERNEL\n");
fprintf(fp, "# include <string.h>\n");
fprintf(fp, "#endif /* _KERNEL */\n");
fprintf(fp, "\n");
fprintf(fp, "#ifdef IPFILTER_COMPILED\n");
}
addrule(fp, fr);
fr->fr_type |= FR_T_BUILTIN;
and = "";
fr->fr_ref = 1;
i = sizeof(*fr);
if (i & -(1 - sizeof(*ulp)))
i += sizeof(u_long);
for (i /= sizeof(u_long), ulp = (u_long *)fr; i > 0; i--) {
fprintf(fp, "%s%#lx", and, *ulp++);
and = ", ";
}
fprintf(fp, "\n};\n");
fr->fr_type &= ~FR_T_BUILTIN;
count++;
fflush(fp);
}
static frgroup_t *groups = NULL;
static void addrule(fp, fr)
FILE *fp;
frentry_t *fr;
{
frentry_t *f, **fpp;
frgroup_t *g;
u_long *ulp;
char *and;
int i;
f = (frentry_t *)malloc(sizeof(*f));
bcopy((char *)fr, (char *)f, sizeof(*fr));
if (fr->fr_ipf) {
f->fr_ipf = (fripf_t *)malloc(sizeof(*f->fr_ipf));
bcopy((char *)fr->fr_ipf, (char *)f->fr_ipf,
sizeof(*fr->fr_ipf));
}
f->fr_next = NULL;
for (g = groups; g != NULL; g = g->fg_next)
if ((strncmp(g->fg_name, f->fr_group, FR_GROUPLEN) == 0) &&
(g->fg_flags == (f->fr_flags & FR_INOUT)))
break;
if (g == NULL) {
g = (frgroup_t *)calloc(1, sizeof(*g));
g->fg_next = groups;
groups = g;
g->fg_head = f;
bcopy(f->fr_group, g->fg_name, FR_GROUPLEN);
g->fg_ref = 0;
g->fg_flags = f->fr_flags & FR_INOUT;
}
for (fpp = &g->fg_start; *fpp != NULL; )
fpp = &((*fpp)->fr_next);
*fpp = f;
if (fr->fr_dsize > 0) {
fprintf(fp, "\
static u_long ipf%s_rule_data_%s_%u[] = {\n",
f->fr_flags & FR_INQUE ? "in" : "out",
g->fg_name, g->fg_ref);
and = "";
i = fr->fr_dsize;
ulp = fr->fr_data;
for (i /= sizeof(u_long); i > 0; i--) {
fprintf(fp, "%s%#lx", and, *ulp++);
and = ", ";
}
fprintf(fp, "\n};\n");
}
fprintf(fp, "\nstatic u_long %s_rule_%s_%d[] = {\n",
f->fr_flags & FR_INQUE ? "in" : "out", g->fg_name, g->fg_ref);
g->fg_ref++;
if (f->fr_grhead != 0) {
for (g = groups; g != NULL; g = g->fg_next)
if ((strncmp(g->fg_name, f->fr_grhead,
FR_GROUPLEN) == 0) &&
g->fg_flags == (f->fr_flags & FR_INOUT))
break;
if (g == NULL) {
g = (frgroup_t *)calloc(1, sizeof(*g));
g->fg_next = groups;
groups = g;
g->fg_head = f;
bcopy(f->fr_grhead, g->fg_name, FR_GROUPLEN);
g->fg_ref = 0;
g->fg_flags = f->fr_flags & FR_INOUT;
}
}
}
int intcmp(c1, c2)
const void *c1, *c2;
{
const mc_t *i1 = (const mc_t *)c1, *i2 = (const mc_t *)c2;
if (i1->n == i2->n) {
return i1->c - i2->c;
}
return i2->n - i1->n;
}
static void indent(fp, in)
FILE *fp;
int in;
{
for (; in; in--)
fputc('\t', fp);
}
static void printeq(fp, var, m, max, v)
FILE *fp;
char *var;
int m, max, v;
{
if (m == max)
fprintf(fp, "%s == %#x) {\n", var, v);
else
fprintf(fp, "(%s & %#x) == %#x) {\n", var, m, v);
}
/*
* Parameters: var - IP# being compared
* fl - 0 for positive match, 1 for negative match
* m - netmask
* v - required address
*/
static void printipeq(fp, var, fl, m, v)
FILE *fp;
char *var;
int fl, m, v;
{
if (m == 0xffffffff)
fprintf(fp, "%s ", var);
else
fprintf(fp, "(%s & %#x) ", var, m);
fprintf(fp, "%c", fl ? '!' : '=');
fprintf(fp, "= %#x) {\n", v);
}
void emit(num, dir, v, fr)
int num, dir;
void *v;
frentry_t *fr;
{
u_int incnt, outcnt;
frgroup_t *g;
frentry_t *f;
for (g = groups; g != NULL; g = g->fg_next) {
if (dir == 0 || dir == -1) {
if ((g->fg_flags & FR_INQUE) == 0)
continue;
for (incnt = 0, f = g->fg_start; f != NULL;
f = f->fr_next)
incnt++;
emitGroup(num, dir, v, fr, g->fg_name, incnt, 0);
}
if (dir == 1 || dir == -1) {
if ((g->fg_flags & FR_OUTQUE) == 0)
continue;
for (outcnt = 0, f = g->fg_start; f != NULL;
f = f->fr_next)
outcnt++;
emitGroup(num, dir, v, fr, g->fg_name, 0, outcnt);
}
}
if (num == -1 && dir == -1) {
for (g = groups; g != NULL; g = g->fg_next) {
if ((g->fg_flags & FR_INQUE) != 0) {
for (incnt = 0, f = g->fg_start; f != NULL;
f = f->fr_next)
incnt++;
if (incnt > 0)
emitheader(g, incnt, 0);
}
if ((g->fg_flags & FR_OUTQUE) != 0) {
for (outcnt = 0, f = g->fg_start; f != NULL;
f = f->fr_next)
outcnt++;
if (outcnt > 0)
emitheader(g, 0, outcnt);
}
}
emittail();
fprintf(cfile, "#endif /* IPFILTER_COMPILED */\n");
}
}
static void emitheader(grp, incount, outcount)
frgroup_t *grp;
u_int incount, outcount;
{
static FILE *fph = NULL;
frgroup_t *g;
if (fph == NULL) {
fph = fopen("ip_rules.h", "w");
if (fph == NULL)
return;
fprintf(fph, "extern int ipfrule_add __P((void));\n");
fprintf(fph, "extern int ipfrule_remove __P((void));\n");
}
printhooks(cfile, incount, outcount, grp);
if (incount) {
fprintf(fph, "\n\
extern frentry_t *ipfrule_match_in_%s __P((fr_info_t *, u_32_t *));\n\
extern frentry_t *ipf_rules_in_%s[%d];\n",
grp->fg_name, grp->fg_name, incount);
for (g = groups; g != grp; g = g->fg_next)
if ((strncmp(g->fg_name, grp->fg_name,
FR_GROUPLEN) == 0) &&
g->fg_flags == grp->fg_flags)
break;
if (g == grp) {
fprintf(fph, "\n\
extern int ipfrule_add_in_%s __P((void));\n\
extern int ipfrule_remove_in_%s __P((void));\n", grp->fg_name, grp->fg_name);
}
}
if (outcount) {
fprintf(fph, "\n\
extern frentry_t *ipfrule_match_out_%s __P((fr_info_t *, u_32_t *));\n\
extern frentry_t *ipf_rules_out_%s[%d];\n",
grp->fg_name, grp->fg_name, outcount);
for (g = groups; g != g; g = g->fg_next)
if ((strncmp(g->fg_name, grp->fg_name,
FR_GROUPLEN) == 0) &&
g->fg_flags == grp->fg_flags)
break;
if (g == grp) {
fprintf(fph, "\n\
extern int ipfrule_add_out_%s __P((void));\n\
extern int ipfrule_remove_out_%s __P((void));\n",
grp->fg_name, grp->fg_name);
}
}
}
static void emittail()
{
frgroup_t *g;
fprintf(cfile, "\n\
int ipfrule_add()\n\
{\n\
int err;\n\
\n");
for (g = groups; g != NULL; g = g->fg_next)
fprintf(cfile, "\
err = ipfrule_add_%s_%s();\n\
if (err != 0)\n\
return err;\n",
(g->fg_flags & FR_INQUE) ? "in" : "out", g->fg_name);
fprintf(cfile, "\
return 0;\n");
fprintf(cfile, "}\n\
\n");
fprintf(cfile, "\n\
int ipfrule_remove()\n\
{\n\
int err;\n\
\n");
for (g = groups; g != NULL; g = g->fg_next)
fprintf(cfile, "\
err = ipfrule_remove_%s_%s();\n\
if (err != 0)\n\
return err;\n",
(g->fg_flags & FR_INQUE) ? "in" : "out", g->fg_name);
fprintf(cfile, "\
return 0;\n");
fprintf(cfile, "}\n");
}
static void emitGroup(num, dir, v, fr, group, incount, outcount)
int num, dir;
void *v;
frentry_t *fr;
char *group;
u_int incount, outcount;
{
static FILE *fp = NULL;
static int header[2] = { 0, 0 };
static char egroup[FR_GROUPLEN] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
static int openfunc = 0;
static mc_t *n = NULL;
static int sin = 0;
frentry_t *f;
frgroup_t *g;
fripf_t *ipf;
int i, in, j;
mc_t *m = v;
if (fp == NULL)
fp = cfile;
if (fp == NULL)
return;
if (strncmp(egroup, group, FR_GROUPLEN)) {
for (sin--; sin > 0; sin--) {
indent(fp, sin);
fprintf(fp, "}\n");
}
if (openfunc == 1) {
fprintf(fp, "\treturn fr;\n}\n");
openfunc = 0;
if (n != NULL) {
free(n);
n = NULL;
}
}
sin = 0;
header[0] = 0;
header[1] = 0;
strncpy(egroup, group, FR_GROUPLEN);
} else if (openfunc == 1 && num < 0) {
if (n != NULL) {
free(n);
n = NULL;
}
for (sin--; sin > 0; sin--) {
indent(fp, sin);
fprintf(fp, "}\n");
}
if (openfunc == 1) {
fprintf(fp, "\treturn fr;\n}\n");
openfunc = 0;
}
}
if (dir == -1)
return;
for (g = groups; g != NULL; g = g->fg_next) {
if (dir == 0 && (g->fg_flags & FR_INQUE) == 0)
continue;
else if (dir == 1 && (g->fg_flags & FR_OUTQUE) == 0)
continue;
if (strncmp(g->fg_name, group, FR_GROUPLEN) != 0)
continue;
break;
}
/*
* Output the array of pointers to rules for this group.
*/
if (g != NULL && num == -2 && dir == 0 && header[0] == 0 &&
incount != 0) {
fprintf(fp, "\nfrentry_t *ipf_rules_in_%s[%d] = {",
group, incount);
for (f = g->fg_start, i = 0; f != NULL; f = f->fr_next) {
if ((f->fr_flags & FR_INQUE) == 0)
continue;
if ((i & 1) == 0) {
fprintf(fp, "\n\t");
}
fprintf(fp,
"(frentry_t *)&in_rule_%s_%d",
f->fr_group, i);
if (i + 1 < incount)
fprintf(fp, ", ");
i++;
}
fprintf(fp, "\n};\n");
}
if (g != NULL && num == -2 && dir == 1 && header[0] == 0 &&
outcount != 0) {
fprintf(fp, "\nfrentry_t *ipf_rules_out_%s[%d] = {",
group, outcount);
for (f = g->fg_start, i = 0; f != NULL; f = f->fr_next) {
if ((f->fr_flags & FR_OUTQUE) == 0)
continue;
if ((i & 1) == 0) {
fprintf(fp, "\n\t");
}
fprintf(fp,
"(frentry_t *)&out_rule_%s_%d",
f->fr_group, i);
if (i + 1 < outcount)
fprintf(fp, ", ");
i++;
}
fprintf(fp, "\n};\n");
fp = NULL;
}
if (num < 0)
return;
in = 0;
ipf = fr->fr_ipf;
/*
* If the function header has not been printed then print it now.
*/
if (g != NULL && header[dir] == 0) {
int pdst = 0, psrc = 0;
openfunc = 1;
fprintf(fp, "\nfrentry_t *ipfrule_match_%s_%s(fin, passp)\n",
(dir == 0) ? "in" : "out", group);
fprintf(fp, "fr_info_t *fin;\n");
fprintf(fp, "u_32_t *passp;\n");
fprintf(fp, "{\n");
fprintf(fp, "\tfrentry_t *fr = NULL;\n");
/*
* Print out any variables that need to be declared.
*/
for (f = g->fg_start, i = 0; f != NULL; f = f->fr_next) {
if (incount + outcount > m[FRC_SRC].e + 1)
psrc = 1;
if (incount + outcount > m[FRC_DST].e + 1)
pdst = 1;
}
if (psrc == 1)
fprintf(fp, "\tu_32_t src = ntohl(%s);\n",
"fin->fin_fi.fi_saddr");
if (pdst == 1)
fprintf(fp, "\tu_32_t dst = ntohl(%s);\n",
"fin->fin_fi.fi_daddr");
}
for (i = 0; i < FRC_MAX; i++) {
switch(m[i].c)
{
case FRC_IFN :
if (*fr->fr_ifname)
m[i].s = 1;
break;
case FRC_V :
if (ipf != NULL && ipf->fri_mip.fi_v != 0)
m[i].s = 1;
break;
case FRC_FL :
if (ipf != NULL && ipf->fri_mip.fi_flx != 0)
m[i].s = 1;
break;
case FRC_P :
if (ipf != NULL && ipf->fri_mip.fi_p != 0)
m[i].s = 1;
break;
case FRC_TTL :
if (ipf != NULL && ipf->fri_mip.fi_ttl != 0)
m[i].s = 1;
break;
case FRC_TOS :
if (ipf != NULL && ipf->fri_mip.fi_tos != 0)
m[i].s = 1;
break;
case FRC_TCP :
if (ipf == NULL)
break;
if ((ipf->fri_ip.fi_p == IPPROTO_TCP) &&
fr->fr_tcpfm != 0)
m[i].s = 1;
break;
case FRC_SP :
if (ipf == NULL)
break;
if (fr->fr_scmp == FR_INRANGE)
m[i].s = 1;
else if (fr->fr_scmp == FR_OUTRANGE)
m[i].s = 1;
else if (fr->fr_scmp != 0)
m[i].s = 1;
break;
case FRC_DP :
if (ipf == NULL)
break;
if (fr->fr_dcmp == FR_INRANGE)
m[i].s = 1;
else if (fr->fr_dcmp == FR_OUTRANGE)
m[i].s = 1;
else if (fr->fr_dcmp != 0)
m[i].s = 1;
break;
case FRC_SRC :
if (ipf == NULL)
break;
if (fr->fr_satype == FRI_LOOKUP) {
;
} else if ((fr->fr_smask != 0) ||
(fr->fr_flags & FR_NOTSRCIP) != 0)
m[i].s = 1;
break;
case FRC_DST :
if (ipf == NULL)
break;
if (fr->fr_datype == FRI_LOOKUP) {
;
} else if ((fr->fr_dmask != 0) ||
(fr->fr_flags & FR_NOTDSTIP) != 0)
m[i].s = 1;
break;
case FRC_OPT :
if (ipf == NULL)
break;
if (fr->fr_optmask != 0)
m[i].s = 1;
break;
case FRC_SEC :
if (ipf == NULL)
break;
if (fr->fr_secmask != 0)
m[i].s = 1;
break;
case FRC_ATH :
if (ipf == NULL)
break;
if (fr->fr_authmask != 0)
m[i].s = 1;
break;
case FRC_ICT :
if (ipf == NULL)
break;
if ((fr->fr_icmpm & 0xff00) != 0)
m[i].s = 1;
break;
case FRC_ICC :
if (ipf == NULL)
break;
if ((fr->fr_icmpm & 0xff) != 0)
m[i].s = 1;
break;
}
}
if (!header[dir]) {
fprintf(fp, "\n");
header[dir] = 1;
sin = 0;
}
qsort(m, FRC_MAX, sizeof(mc_t), intcmp);
if (n) {
/*
* Calculate the indentation interval upto the last common
* common comparison being made.
*/
for (i = 0, in = 1; i < FRC_MAX; i++) {
if (n[i].c != m[i].c)
break;
if (n[i].s != m[i].s)
break;
if (n[i].s) {
if (n[i].n && (n[i].n > n[i].e)) {
m[i].p++;
in += m[i].p;
break;
}
if (n[i].e > 0) {
in++;
} else
break;
}
}
if (sin != in) {
for (j = sin - 1; j >= in; j--) {
indent(fp, j);
fprintf(fp, "}\n");
}
}
} else {
in = 1;
i = 0;
}
/*
* print out C code that implements a filter rule.
*/
for (; i < FRC_MAX; i++) {
switch(m[i].c)
{
case FRC_IFN :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (fin->fin_ifp == ");
fprintf(fp, "ipf_rules_%s_%s[%d]->fr_ifa) {\n",
dir ? "out" : "in", group, num);
in++;
}
break;
case FRC_V :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (fin->fin_v == %d) {\n",
ipf->fri_ip.fi_v);
in++;
}
break;
case FRC_FL :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_flx",
ipf->fri_mip.fi_flx, 0xf,
ipf->fri_ip.fi_flx);
in++;
}
break;
case FRC_P :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (fin->fin_p == %d) {\n",
ipf->fri_ip.fi_p);
in++;
}
break;
case FRC_TTL :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_ttl",
ipf->fri_mip.fi_ttl, 0xff,
ipf->fri_ip.fi_ttl);
in++;
}
break;
case FRC_TOS :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (fin->fin_tos");
printeq(fp, "fin->fin_tos",
ipf->fri_mip.fi_tos, 0xff,
ipf->fri_ip.fi_tos);
in++;
}
break;
case FRC_TCP :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_tcpf", fr->fr_tcpfm,
0xff, fr->fr_tcpf);
in++;
}
break;
case FRC_SP :
if (!m[i].s)
break;
if (fr->fr_scmp == FR_INRANGE) {
indent(fp, in);
fprintf(fp, "if ((fin->fin_data[0] > %d) && ",
fr->fr_sport);
fprintf(fp, "(fin->fin_data[0] < %d)",
fr->fr_stop);
fprintf(fp, ") {\n");
in++;
} else if (fr->fr_scmp == FR_OUTRANGE) {
indent(fp, in);
fprintf(fp, "if ((fin->fin_data[0] < %d) || ",
fr->fr_sport);
fprintf(fp, "(fin->fin_data[0] > %d)",
fr->fr_stop);
fprintf(fp, ") {\n");
in++;
} else if (fr->fr_scmp) {
indent(fp, in);
fprintf(fp, "if (fin->fin_data[0] %s %d)",
portcmp[fr->fr_scmp], fr->fr_sport);
fprintf(fp, " {\n");
in++;
}
break;
case FRC_DP :
if (!m[i].s)
break;
if (fr->fr_dcmp == FR_INRANGE) {
indent(fp, in);
fprintf(fp, "if ((fin->fin_data[1] > %d) && ",
fr->fr_dport);
fprintf(fp, "(fin->fin_data[1] < %d)",
fr->fr_dtop);
fprintf(fp, ") {\n");
in++;
} else if (fr->fr_dcmp == FR_OUTRANGE) {
indent(fp, in);
fprintf(fp, "if ((fin->fin_data[1] < %d) || ",
fr->fr_dport);
fprintf(fp, "(fin->fin_data[1] > %d)",
fr->fr_dtop);
fprintf(fp, ") {\n");
in++;
} else if (fr->fr_dcmp) {
indent(fp, in);
fprintf(fp, "if (fin->fin_data[1] %s %d)",
portcmp[fr->fr_dcmp], fr->fr_dport);
fprintf(fp, " {\n");
in++;
}
break;
case FRC_SRC :
if (!m[i].s)
break;
if (fr->fr_satype == FRI_LOOKUP) {
;
} else if ((fr->fr_smask != 0) ||
(fr->fr_flags & FR_NOTSRCIP) != 0) {
indent(fp, in);
fprintf(fp, "if (");
printipeq(fp, "src",
fr->fr_flags & FR_NOTSRCIP,
fr->fr_smask, fr->fr_saddr);
in++;
}
break;
case FRC_DST :
if (!m[i].s)
break;
if (fr->fr_datype == FRI_LOOKUP) {
;
} else if ((fr->fr_dmask != 0) ||
(fr->fr_flags & FR_NOTDSTIP) != 0) {
indent(fp, in);
fprintf(fp, "if (");
printipeq(fp, "dst",
fr->fr_flags & FR_NOTDSTIP,
fr->fr_dmask, fr->fr_daddr);
in++;
}
break;
case FRC_OPT :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_fi.fi_optmsk",
fr->fr_optmask, 0xffffffff,
fr->fr_optbits);
in++;
}
break;
case FRC_SEC :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_fi.fi_secmsk",
fr->fr_secmask, 0xffff,
fr->fr_secbits);
in++;
}
break;
case FRC_ATH :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_fi.fi_authmsk",
fr->fr_authmask, 0xffff,
fr->fr_authbits);
in++;
}
break;
case FRC_ICT :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_data[0]",
fr->fr_icmpm & 0xff00, 0xffff,
fr->fr_icmp & 0xff00);
in++;
}
break;
case FRC_ICC :
if (m[i].s) {
indent(fp, in);
fprintf(fp, "if (");
printeq(fp, "fin->fin_data[0]",
fr->fr_icmpm & 0xff, 0xffff,
fr->fr_icmp & 0xff);
in++;
}
break;
}
}
indent(fp, in);
if (fr->fr_flags & FR_QUICK) {
fprintf(fp, "return (frentry_t *)&%s_rule_%s_%d;\n",
fr->fr_flags & FR_INQUE ? "in" : "out",
fr->fr_group, num);
} else {
fprintf(fp, "fr = (frentry_t *)&%s_rule_%s_%d;\n",
fr->fr_flags & FR_INQUE ? "in" : "out",
fr->fr_group, num);
}
if (n == NULL)
n = (mc_t *)malloc(sizeof(*n) * FRC_MAX);
bcopy((char *)m, (char *)n, sizeof(*n) * FRC_MAX);
sin = in;
}
void printC(dir)
int dir;
{
static mc_t *m = NULL;
frgroup_t *g;
if (m == NULL)
m = (mc_t *)calloc(1, sizeof(*m) * FRC_MAX);
for (g = groups; g != NULL; g = g->fg_next) {
if ((dir == 0) && ((g->fg_flags & FR_INQUE) != 0))
printCgroup(dir, g->fg_start, m, g->fg_name);
if ((dir == 1) && ((g->fg_flags & FR_OUTQUE) != 0))
printCgroup(dir, g->fg_start, m, g->fg_name);
}
emit(-1, dir, m, NULL);
}
/*
* Now print out code to implement all of the rules.
*/
static void printCgroup(dir, top, m, group)
int dir;
frentry_t *top;
mc_t *m;
char *group;
{
frentry_t *fr, *fr1;
int i, n, rn;
u_int count;
for (count = 0, fr1 = top; fr1 != NULL; fr1 = fr1->fr_next) {
if ((dir == 0) && ((fr1->fr_flags & FR_INQUE) != 0))
count++;
else if ((dir == 1) && ((fr1->fr_flags & FR_OUTQUE) != 0))
count++;
}
if (dir == 0)
emitGroup(-2, dir, m, fr1, group, count, 0);
else if (dir == 1)
emitGroup(-2, dir, m, fr1, group, 0, count);
/*
* Before printing each rule, check to see how many of its fields are
* matched by subsequent rules.
*/
for (fr1 = top, rn = 0; fr1 != NULL; fr1 = fr1->fr_next, rn++) {
if (!dir && !(fr1->fr_flags & FR_INQUE))
continue;
if (dir && !(fr1->fr_flags & FR_OUTQUE))
continue;
n = 0xfffffff;
for (i = 0; i < FRC_MAX; i++)
m[i].e = 0;
qsort(m, FRC_MAX, sizeof(mc_t), intcmp);
for (i = 0; i < FRC_MAX; i++) {
m[i].c = i;
m[i].e = 0;
m[i].n = 0;
m[i].s = 0;
}
for (fr = fr1->fr_next; fr; fr = fr->fr_next) {
if (!dir && !(fr->fr_flags & FR_INQUE))
continue;
if (dir && !(fr->fr_flags & FR_OUTQUE))
continue;
if ((n & 0x0001) &&
!strcmp(fr1->fr_ifname, fr->fr_ifname)) {
m[FRC_IFN].e++;
m[FRC_IFN].n++;
} else
n &= ~0x0001;
if ((n & 0x0002) && (fr1->fr_v == fr->fr_v)) {
m[FRC_V].e++;
m[FRC_V].n++;
} else
n &= ~0x0002;
if ((n & 0x0004) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_mip.fi_flx == fr->fr_mip.fi_flx) &&
(fr1->fr_ip.fi_flx == fr->fr_ip.fi_flx)) {
m[FRC_FL].e++;
m[FRC_FL].n++;
} else
n &= ~0x0004;
if ((n & 0x0008) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_proto == fr->fr_proto)) {
m[FRC_P].e++;
m[FRC_P].n++;
} else
n &= ~0x0008;
if ((n & 0x0010) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_ttl == fr->fr_ttl)) {
m[FRC_TTL].e++;
m[FRC_TTL].n++;
} else
n &= ~0x0010;
if ((n & 0x0020) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_tos == fr->fr_tos)) {
m[FRC_TOS].e++;
m[FRC_TOS].n++;
} else
n &= ~0x0020;
if ((n & 0x0040) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_tcpfm == fr->fr_tcpfm) &&
(fr1->fr_tcpf == fr->fr_tcpf))) {
m[FRC_TCP].e++;
m[FRC_TCP].n++;
} else
n &= ~0x0040;
if ((n & 0x0080) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_scmp == fr->fr_scmp) &&
(fr1->fr_stop == fr->fr_stop) &&
(fr1->fr_sport == fr->fr_sport))) {
m[FRC_SP].e++;
m[FRC_SP].n++;
} else
n &= ~0x0080;
if ((n & 0x0100) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_dcmp == fr->fr_dcmp) &&
(fr1->fr_dtop == fr->fr_dtop) &&
(fr1->fr_dport == fr->fr_dport))) {
m[FRC_DP].e++;
m[FRC_DP].n++;
} else
n &= ~0x0100;
if ((n & 0x0200) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_satype == FRI_LOOKUP) &&
(fr->fr_satype == FRI_LOOKUP) &&
(fr1->fr_srcnum == fr->fr_srcnum))) {
m[FRC_SRC].e++;
m[FRC_SRC].n++;
} else if ((n & 0x0200) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(((fr1->fr_flags & FR_NOTSRCIP) ==
(fr->fr_flags & FR_NOTSRCIP)))) {
if ((fr1->fr_smask == fr->fr_smask) &&
(fr1->fr_saddr == fr->fr_saddr))
m[FRC_SRC].e++;
else
n &= ~0x0200;
if (fr1->fr_smask &&
(fr1->fr_saddr & fr1->fr_smask) ==
(fr->fr_saddr & fr1->fr_smask)) {
m[FRC_SRC].n++;
n |= 0x0200;
}
} else {
n &= ~0x0200;
}
if ((n & 0x0400) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_datype == FRI_LOOKUP) &&
(fr->fr_datype == FRI_LOOKUP) &&
(fr1->fr_dstnum == fr->fr_dstnum))) {
m[FRC_DST].e++;
m[FRC_DST].n++;
} else if ((n & 0x0400) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(((fr1->fr_flags & FR_NOTDSTIP) ==
(fr->fr_flags & FR_NOTDSTIP)))) {
if ((fr1->fr_dmask == fr->fr_dmask) &&
(fr1->fr_daddr == fr->fr_daddr))
m[FRC_DST].e++;
else
n &= ~0x0400;
if (fr1->fr_dmask &&
(fr1->fr_daddr & fr1->fr_dmask) ==
(fr->fr_daddr & fr1->fr_dmask)) {
m[FRC_DST].n++;
n |= 0x0400;
}
} else {
n &= ~0x0400;
}
if ((n & 0x0800) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_optmask == fr->fr_optmask) &&
(fr1->fr_optbits == fr->fr_optbits)) {
m[FRC_OPT].e++;
m[FRC_OPT].n++;
} else
n &= ~0x0800;
if ((n & 0x1000) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_secmask == fr->fr_secmask) &&
(fr1->fr_secbits == fr->fr_secbits)) {
m[FRC_SEC].e++;
m[FRC_SEC].n++;
} else
n &= ~0x1000;
if ((n & 0x10000) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
(fr1->fr_authmask == fr->fr_authmask) &&
(fr1->fr_authbits == fr->fr_authbits)) {
m[FRC_ATH].e++;
m[FRC_ATH].n++;
} else
n &= ~0x10000;
if ((n & 0x20000) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_icmpm & 0xff00) ==
(fr->fr_icmpm & 0xff00)) &&
((fr1->fr_icmp & 0xff00) ==
(fr->fr_icmp & 0xff00))) {
m[FRC_ICT].e++;
m[FRC_ICT].n++;
} else
n &= ~0x20000;
if ((n & 0x40000) &&
(fr->fr_type == fr1->fr_type) &&
(fr->fr_type == FR_T_IPF) &&
((fr1->fr_icmpm & 0xff) == (fr->fr_icmpm & 0xff)) &&
((fr1->fr_icmp & 0xff) == (fr->fr_icmp & 0xff))) {
m[FRC_ICC].e++;
m[FRC_ICC].n++;
} else
n &= ~0x40000;
}
/*msort(m);*/
if (dir == 0)
emitGroup(rn, dir, m, fr1, group, count, 0);
else if (dir == 1)
emitGroup(rn, dir, m, fr1, group, 0, count);
}
}
static void printhooks(fp, in, out, grp)
FILE *fp;
int in;
int out;
frgroup_t *grp;
{
frentry_t *fr;
char *group;
int dogrp, i;
char *instr;
group = grp->fg_name;
dogrp = *group ? 1 : 0;
if (in && out) {
fprintf(stderr,
"printhooks called with both in and out set\n");
exit(1);
}
if (in) {
instr = "in";
} else if (out) {
instr = "out";
} else {
instr = "???";
}
fprintf(fp, "static frentry_t ipfrule_%s_%s;\n", instr, group);
fprintf(fp, "\
\n\
int ipfrule_add_%s_%s()\n", instr, group);
fprintf(fp, "\
{\n\
int i, j, err = 0, max;\n\
frentry_t *fp;\n");
if (dogrp)
fprintf(fp, "\
frgroup_t *fg;\n");
fprintf(fp, "\n");
for (i = 0, fr = grp->fg_start; fr != NULL; i++, fr = fr->fr_next)
if (fr->fr_dsize > 0) {
fprintf(fp, "\
ipf_rules_%s_%s[%d]->fr_data = &ipf%s_rule_data_%s_%u;\n",
instr, grp->fg_name, i,
instr, grp->fg_name, i);
}
fprintf(fp, "\
max = sizeof(ipf_rules_%s_%s)/sizeof(frentry_t *);\n\
for (i = 0; i < max; i++) {\n\
fp = ipf_rules_%s_%s[i];\n\
fp->fr_next = NULL;\n", instr, group, instr, group);
fprintf(fp, "\
for (j = i + 1; j < max; j++)\n\
if (strncmp(fp->fr_group,\n\
ipf_rules_%s_%s[j]->fr_group,\n\
FR_GROUPLEN) == 0) {\n\
fp->fr_next = ipf_rules_%s_%s[j];\n\
break;\n\
}\n", instr, group, instr, group);
if (dogrp)
fprintf(fp, "\
\n\
if (fp->fr_grhead != 0) {\n\
fg = fr_addgroup(fp->fr_grhead, fp, FR_INQUE,\n\
IPL_LOGIPF, 0);\n\
if (fg != NULL)\n\
fp->fr_grp = &fg->fg_start;\n\
}\n");
fprintf(fp, "\
}\n\
\n\
fp = &ipfrule_%s_%s;\n", instr, group);
fprintf(fp, "\
bzero((char *)fp, sizeof(*fp));\n\
fp->fr_type = FR_T_CALLFUNC|FR_T_BUILTIN;\n\
fp->fr_flags = FR_%sQUE|FR_NOMATCH;\n\
fp->fr_data = (void *)ipf_rules_%s_%s[0];\n",
(in != 0) ? "IN" : "OUT", instr, group);
fprintf(fp, "\
fp->fr_dsize = sizeof(ipf_rules_%s_%s[0]);\n",
instr, group);
fprintf(fp, "\
fp->fr_v = 4;\n\
fp->fr_func = (ipfunc_t)ipfrule_match_%s_%s;\n\
err = frrequest(IPL_LOGIPF, SIOCADDFR, (caddr_t)fp, fr_active, 0);\n",
instr, group);
fprintf(fp, "\treturn err;\n}\n");
fprintf(fp, "\n\n\
int ipfrule_remove_%s_%s()\n", instr, group);
fprintf(fp, "\
{\n\
int err = 0, i;\n\
frentry_t *fp;\n\
\n\
/*\n\
* Try to remove the %sbound rule.\n", instr);
fprintf(fp, "\
*/\n\
if (ipfrule_%s_%s.fr_ref > 0) {\n", instr, group);
fprintf(fp, "\
err = EBUSY;\n\
} else {\n");
fprintf(fp, "\
i = sizeof(ipf_rules_%s_%s)/sizeof(frentry_t *) - 1;\n\
for (; i >= 0; i--) {\n\
fp = ipf_rules_%s_%s[i];\n\
if (fp->fr_ref > 1) {\n\
err = EBUSY;\n\
break;\n\
}\n\
}\n\
}\n\
if (err == 0)\n\
err = frrequest(IPL_LOGIPF, SIOCDELFR,\n\
(caddr_t)&ipfrule_%s_%s, fr_active, 0);\n",
instr, group, instr, group, instr, group);
fprintf(fp, "\
if (err)\n\
return err;\n\
\n\n");
fprintf(fp, "\treturn err;\n}\n");
}