/*
* convert ndb to zone
*/
#include <u.h>
#include <libc.h>
#include <bio.h>
#include <ndb.h>
#include <regexp.h>
#include <ip.h>
typedef struct Rrtab Rrtab;
typedef struct Soatab Soatab;
typedef struct Re Re;
typedef struct Retab Retab;
struct Rrtab {
char *s;
Ndbtuple *rr;
};
struct Re {
Reprog *re;
char *s;
char flag;
};
struct Retab {
Re *r;
int nre;
int nalloc;
};
struct Soatab {
char *s;
Re *re;
Ndbtuple *soa;
uchar ip[IPaddrlen];
uchar m[IPaddrlen];
int bits;
Rrtab *rr;
int nrr;
int arr;
};
enum {
Fexact = 1<<0,
Fneg = 1<<1,
};
static int flag[127];
static Biobuf bout;
static Soatab soatab[128];
static int soaidx;
static ulong soamtime;
#define dprint(...) if(flag['d']) fprint(2, __VA_ARGS__); else {}
#pragma varargck type "t" char*
void
usage(void)
{
fprint(2, "usage: ndb/tozone [-dg] [-f ndbfile] [zone ...]\n");
exits("usage");
}
/* there is no way to get " or \n in an ndb rr */
static int
fmtzonequote(Fmt *f)
{
char *s;
uchar buf[IPaddrlen];
s = va_arg(f->args, char*);
if(strpbrk(s, " \t") == nil){
if(parseip(buf, s) == -1)
return fmtprint(f, "%s.", s);
else
return fmtprint(f, "%s", s);
}else
return fmtprint(f, "\"%s\"", s);
}
static int
fmttabpad(Fmt *f)
{
char *s;
int l, p;
l = strlen(s = va_arg(f->args, char*));
p = f->prec;
fmtprint(f, "%s", s);
for(; l < p; l += 8)
fmtprint(f, "\t");
return 0;
}
Ndb*
ndbopen1(char *s)
{
Dir *d;
Ndb *db;
db = ndbopen(s);
if(db && (d = dirstat(s))){
if(d->mtime > soamtime)
soamtime = d->mtime;
free(d);
}
return db;
}
Ndbtuple*
ndbfcopy0(Ndbtuple *from, char **okrr, int nok)
{
Ndbtuple *first, *to, *last, *line;
int newline, i;
newline = 1;
last = nil;
first = nil;
line = nil;
for(; from != nil; from = from->entry){
for(i = 0; i < nok; i++)
if(strcmp(from->attr, okrr[i]) == 0)
break;
if(nok > 0 && i == nok){
newline = from->line != from->entry;
continue;
}
to = ndbnew(from->attr, from->val);
if(newline)
line = to;
else
last->line = to;
if(last != nil)
last->entry = to;
else {
first = to;
line = to;
}
to->entry = nil;
to->line = line;
last = to;
newline = from->line != from->entry;
}
ndbsetmalloctag(first, getcallerpc(&from));
return first;
}
Ndbtuple*
ndbcopy(Ndbtuple *from)
{
return ndbfcopy0(from, nil, 0);
}
static char *glue[] = {
"ip",
"ns",
};
Ndbtuple*
ndbfcopy(Ndbtuple *from)
{
return ndbfcopy0(from, glue, nelem(glue));
}
enum {
Retry,
Expire,
Minttl,
Refresh,
Serial,
Mb,
};
char *nametab[] = {
"retry",
"expire",
"minttl",
"refresh",
"serial",
"mb",
};
char *deftab[] = {
"3600",
"86400",
"3600",
"3600",
nil,
nil,
};
char *rrtab[] = {
"ns",
"cname",
"mx",
"txtrr",
"ip",
"aaaa",
"a6",
"ptr",
};
char *rrntab[] = {
"ns",
"cname",
"mx",
"txt",
"a",
"aaaa",
"a6",
"ptr",
};
int rrorigin[] = {
1,
1,
1,
0,
0,
0,
0,
0,
};
void
origin(char *dom, int domsz, char *zone, char *origin, int inzone)
{
char *p;
int d;
p = strstr(zone, origin);
if(p != nil && (p[strlen(origin)] != 0 || p > zone && p[-1] != '.'))
p = nil;
if(p == nil){
if(inzone)
sysfatal("%s not subdomain of %s", zone, origin);
snprint(dom, domsz, "%q", zone);
return;
}else
d = p - zone - 1;
if(d >= domsz || d == 0)
sysfatal("bad zone: %s", zone);
if(d == -1){
d = 1;
zone = "@";
}
memcpy(dom, zone, d);
dom[d] = 0;
}
void
prsoa(Biobuf *b, Soatab *t)
{
char *tab[Mb + 1], buf[12], dom[128], nm[128], mx[128], val[128];
int i, j, l, lmax;
Ndbtuple *nt, *pt;
memcpy(tab, deftab, sizeof deftab);
for(nt = t->soa; nt; nt = nt->entry)
for(i = 0; i < nelem(nametab); i++)
if(strcmp(nt->attr, nametab[i]) == 0)
tab[i] = nt->val;
if(tab[Serial] == nil){
snprint(buf, sizeof buf, "%lud", soamtime);
tab[Serial] = buf;
}
if(tab[Mb] == nil){
snprint(nm, sizeof nm, "netmaster@%s", t->s);
tab[Mb] = nm;
}
Bprint(b, "$ORIGIN %q\n", t->s);
origin(dom, sizeof dom, t->s, t->s, 1);
Bprint(b, "%s\t" "soa %s. %s. (\n", dom, t->s, tab[Mb]);
Bprint(b, "\t\t\t" "%s\n", tab[Serial]);
Bprint(b, "\t\t\t" "%s\n", tab[Refresh]);
Bprint(b, "\t\t\t" "%s\n", tab[Retry]);
Bprint(b, "\t\t\t" "%s\n", tab[Expire]);
Bprint(b, "\t\t\t" "%s\n", tab[Minttl]);
Bprint(b, "\t\t" ")\n");
for(i = 0; i < nelem(rrtab); i++)
for(nt = t->soa; nt; nt = nt->entry)
if(strcmp(nt->attr, rrtab[i]) == 0){
if(strcmp(nt->attr, "mx") == 0){
if(pt = nt->entry)
if(strcmp(pt->attr, "pref") == 0){
origin(mx, sizeof mx, nt->val, t->s, 0);
Bprint(b, "\t\t" "mx\t" "%s %s\n", pt->val, mx);
}
}else if(rrorigin[i]){
origin(dom, sizeof dom, nt->val, t->s, 0);
Bprint(b, "\t\t" "%s\t" "%s\n", rrntab[i], dom);
}else
Bprint(b, "\t\t" "%s\t" "%q\n", rrntab[i], nt->val);
}
lmax = 1;
for(j = 0; j < t->nrr; j++){
origin(dom, sizeof dom, t->rr[j].s, t->s, 1);
l = strlen(dom);
if(l > lmax)
lmax = l;
}
// lmax += 8;
lmax -= lmax%8;
for(j = 0; j < t->nrr; j++){
origin(dom, sizeof dom, t->rr[j].s, t->s, 1);
for(i = 0; i < nelem(rrtab); i++)
for(nt = t->rr[j].rr; nt; nt = nt->entry)
if(strcmp(nt->attr, rrtab[i]) == 0){
origin(val, sizeof val, nt->val, t->s, 0);
Bprint(b, "%.*t" "%s\t" "%s\n", lmax+8, dom, rrntab[i], val);
}
}
}
char*
lower(char *s)
{
char *p, c;
for(p = s; c = *p; p++)
if(c >= 'A' && c <= 'Z')
*p = c - ('A' - 'a');
return s;
}
int
iregex(Re *r, char *val, int fmask)
{
char *s;
int m, f;
s = lower(strdup(val));
f = r->flag & ~fmask;
if(f & Fexact)
m = strcmp(r->s, s) == 0;
else
m = regexec(r->re, s, 0, 0);
free(s);
if(f & Fneg)
m = !m;
return m;
}
Re*
iregexes(Retab *r, char *val, int fmask)
{
int i;
for(i = 0; i < r->nre; i++)
if(iregex(r->r + i, val, fmask))
return r->r + i;
return nil;
}
void*
erealloc(void *a, ulong sz)
{
if((a = realloc(a, sz)) == nil)
sysfatal("realloc: %r");
return a;
}
void
addre(Retab *r, char *s, int flag)
{
char rebuf[128];
int i;
if(r->nre == r->nalloc){
r->r = erealloc(r->r, (r->nalloc += 10)*sizeof r->r[0]);
memset(r->r + r->nre, 0, 10*sizeof r->r[0]);
}
snprint(rebuf, sizeof rebuf, "%s$", s);
for(i = r->nre; i > 0 && strlen(s) > strlen(r->r[i - 1].s); i--)
r->r[i] = r->r[i - 1];
r->r[i].re = regcomp(rebuf);
if(r->r[i].re == nil)
sysfatal("regcomp: %r");
r->r[i].s = strdup(s);
if(r->r[i].s == nil)
sysfatal("strdup: %r");
r->r[i].flag = flag;
r->nre++;
}
void
freeretab(Retab *r)
{
int i;
for(i = 0; i < r->nre; i++){
free(r->r[i].re);
free(r->r[i].s);
}
free(r->r);
}
static char*
bitprint(char *p, char *e, char *fmt, uint i, int, int bits)
{
if(bits > 8)
bits = 8;
if(bits > 0)
p = seprint(p, e, fmt, i & (1<<bits) - 1);
return p;
}
static void
revipmask(char *buf, int bufsz, char *ip, int bits)
{
char *p, *e;
uchar a[IPaddrlen];
int i;
p = buf;
e = p + bufsz;
if(parseip(a, ip) == 6){
for(i = 0; i < 16; i++){
bits = 128 - bits;
p = bitprint(p, e, "%x.", a[IPaddrlen - i - 1]>>0, 4, bits);
bits -= 4;
p = bitprint(p, e, "%x.", a[IPaddrlen - i - 1]>>4, 4, bits);
bits -= 4;
}
}else{
bits = 32 - bits;
for(i = 0; i < 4; i++){
p = bitprint(p, e, "%d.", a[IPaddrlen - i - 1]>>0, 4, bits);
bits -= 8;
}
}
if(p > buf && p[-1] == '.')
p--;
p[0] = 0;
}
int
issoa(Ndbtuple *t)
{
Ndbtuple *nt;
for(nt = t; nt; nt = nt->entry)
if(strcmp(nt->attr, "soa") == 0)
return 1;
return 0;
}
Soatab*
addrr(Soatab *s, char *v, Ndbtuple *t, int f)
{
int j;
dprint("%d: rr %s %s\n", f, s->s, v);
for(j = 0; j < s->nrr; j++)
if(strcmp(s->rr[j].s, v) == 0)
goto found;
if(j >= s->arr){
s->rr = erealloc(s->rr, (s->arr += 20)*sizeof *s->rr);
memset(s->rr + j, 0, sizeof s->rr[j]*20);
}
s->nrr++;
s->rr[j].s = strdup(v);
found:
if(f && strcmp(v, s->s) != 0)
s->rr[j].rr = ndbconcatenate(s->rr[j].rr, ndbfcopy(t));
else
s->rr[j].rr = ndbconcatenate(s->rr[j].rr, ndbcopy(t));
return s;
}
int
ipmatch(uchar *a, uchar *b, uchar *mask)
{
uchar m[2][IPaddrlen];
maskip(a, mask, m[0]);
maskip(b, mask, m[1]);
return memcmp(m[0], m[1], IPaddrlen) == 0;
}
void
addip(Soatab *s, char *v, char *val, int is6)
{
char rev[256], r2[256];
int bits;
Ndbtuple *rr;
bits = s->bits;
if(!is6)
bits -= 96;
revipmask(rev, sizeof rev, val, bits);
snprint(r2, sizeof r2, "%s.%s", rev, s->s);
rr = ndbnew("ptr", v);
addrr(s, r2, rr, 0);
ndbfree(rr);
}
void
lookuprev(char *v, Ndbtuple *t)
{
uchar a[IPaddrlen];
int i, is6;
Ndbtuple *nt;
Soatab *s;
for(nt = t; nt; nt = nt->entry)
if(strcmp(nt->attr, "ip") == 0){
is6 = parseip(a, nt->val) == 6;
for(i = 0; i < soaidx; i++){
s = soatab + i;
if(s->bits >= 0)
if(ipmatch(s->ip, a, s->m))
addip(s, v, nt->val, is6);
}
}
}
static int
domtoip(uchar *a, uchar *m, char *ip)
{
char *p, *r, *s, buf[8];
int l, i, ip6, rem, bits, bits0, step, base, stop;
memset(a, 0, IPaddrlen);
memset(m, 0, IPaddrlen);
l = strlen(ip);
if(l >= 13 && cistrcmp(ip + l - 13, ".in-addr.arpa") == 0){
ip6 = 0;
step = 8;
base = 0;
stop = 96;
}else if (l >= 9 && cistrcmp(ip + l - 9, ".ip6.arpa") == 0){
ip6 = 1;
step = 4;
base = 0xf;
stop = 0;
}else
return -1;
bits = rem = 0;
s = ip;
if((p = strchr(ip, '/')) && p < strchr(ip, '.')){
strtoul(ip, &r, 0);
if(r == p){
rem = strtoul(ip, &r, 0);
bits = strtoul(p + 1, &s, 0);
if(*s)
s++;
}
bits += 96;
}else{
i = 0;
for(p = ip; p = strchr(p, '.'); p++)
i++;
if(!ip6 && strchr(ip, '/'))
i--;
bits = step*(i - 1) + stop;
}
if(rem){
i = bits%step;
if(step == 4 && bits%8 == 0)
rem <<= 4;
a[i/8] |= rem;
}
bits0 = bits;
bits -= bits%8;
for(; bits >= stop && *s; ){
i = strtoul(s, &s, base);
if(*s == '/'){
strtoul(s + 1, &s, 0);
if(*s)
s++;
continue;
}
if(*s)
s++;
if(step == 4 && bits%8 == 0)
i <<= 4;
a[bits/8 - 1] |= i;
bits -= step;
}
if(ip6 == 0)
a[10] = a[11] = 0xff;
if(bits != stop - 8)
sysfatal("rev zone %s missing %d bits\n", ip, bits - stop + 8);
snprint(buf, sizeof buf, "/%d", bits0);
if(parseipmask(m, buf) == bits0)
sysfatal("parseipmask: %r");
return bits0;
}
Soatab*
lookup0(Retab *r, char *v, Ndbtuple *t, int f)
{
int i;
Soatab *s;
Re *m;
if(f == 0)
lookuprev(v, t);
if((m = iregexes(r, v, Fneg)) == nil)
return nil;
for(i = 0; i < soaidx; i++)
if(cistrcmp(soatab[i].s, v) == 0){
s = soatab + i;
dprint("%d: concat %s\n", f, s->s);
s->soa = ndbconcatenate(s->soa, ndbcopy(t));
return s;
}else if(m == soatab[i].re)
return addrr(soatab + i, v, t, f);
if(soaidx == nelem(soatab))
sysfatal("too many doms");
s = soatab + soaidx;
soaidx++;
dprint("%d: new %s\n", f, v);
s->soa = ndbconcatenate(s->soa, ndbcopy(t));
s->s = strdup(v);
s->re = m;
s->bits = domtoip(s->ip, s->m, s->s);
return s;
}
char*
match(char *z, char *s, Ndbtuple*)
{
char *p;
if((p = cistrstr(s, z)) > s && p[-1] == '.')
return p - 1;
return 0;
}
int
isglue(char *z, char *s, Ndbtuple *t)
{
char *d, *m;
m = match(z, s, t);
if((d = strchr(s, '.')) && d < m)
return 1;
if(d <= m && issoa(t))
return 1;
return 0;
}
Soatab*
lookup(Retab *r, char *v, Ndbtuple *t, int f)
{
int i;
Soatab *s;
s = lookup0(r, v, t, f);
if(!flag['g'])
for(i = 0; i < soaidx - 1; i++)
if(isglue(soatab[i].s, v, t)){
dprint("glue zone=%s %s\n", soatab[i].s, v);
addrr(soatab + i, v, t, -1);
}
return s;
}
/* equivalent to ndb/requery -f /lib/ndb/external soa 're1|...|ren' dom */
void
soas0(char *dbfile, Ndb *db, Retab *r0, Retab *r1, int f)
{
int m;
Ndb *p;
Ndbtuple *nt, *t;
for(; t = ndbparse(db); ndbfree(t)){
/* why doesn't ndb do this for me? */
if(strcmp(t->attr, "database") == 0){
for(nt = t; nt; nt = nt->entry)
if(strcmp(nt->attr, "file") == 0)
if(strcmp(nt->val, dbfile) != 0){
p = ndbopen1(nt->val);
if(p == nil)
sysfatal("bad ndb file: %s\n", nt->val);
soas0(nt->val, p, r0, r1, f);
ndbclose(p);
}
}
m = 0;
if(issoa(t))
m = 1;
for(nt = t; nt; nt = nt->entry)
if(strcmp(nt->attr, "dom") == 0){
if(f == 2 && m && iregexes(r0, nt->val, 0))
addre(r1, nt->val, 0);
else if(f == 2 && m)
addre(r1, nt->val, Fneg);
else if(f == 1 && m)
lookup(r0, nt->val, t, f);
else if(f == 0 && !m)
lookup(r0, nt->val, t, f);
}
}
}
void
soas(char *dbfile, Ndb *db, char **re, int nre)
{
int i;
Retab r0, r1;
memset(&r0, 0, sizeof r0);
memset(&r1, 0, sizeof r1);
if(nre == 0)
addre(&r0, ".*", 0);
else for(i = 0; i < nre; i++)
addre(&r0, re[i], Fexact);
soas0(dbfile, db, &r0, &r1, 2);
//for(int i=0; i<r1.nre; i++)print(" %s %x\n", r1.r[i].s, r1.r[i].flag);
ndbreopen(db);
soas0(dbfile, db, &r1, nil, 1);
ndbreopen(db);
soas0(dbfile, db, &r1, nil, 0);
freeretab(&r0);
freeretab(&r1);
}
int
alphacmp(void *v1, void *v2)
{
char *f[2][25], *v[2];
int i, n[2], bias;
Rrtab *r[2];
r[0] = v1;
r[1] = v2;
for(i = 0; i < 2; i++){
v[i] = strdup(r[i]->s);
n[i] = gettokens(v[i], f[i], nelem(f[0]), ".");
}
bias = 0;
for(i = 0;; i++){
if(i == n[0] || i == n[1]){
if(n[0] != n[1])
bias = n[1] - n[0];
free(v[0]);
free(v[1]);
return bias;
}
bias = cistrcmp(f[0][n[0] - i - 1], f[1][n[1] - i - 1]);
}
}
int
ipaddrcmp(void *v1, void *v2)
{
uchar m[2][IPaddrlen], ip[2][IPaddrlen];
int i, r;
Rrtab *a, *b;
a = v1;
b = v2;
domtoip(ip[0], m[0], a->s);
domtoip(ip[1], m[1], b->s);
for(i = 0; i < IPaddrlen; i++)
if(r = ip[0][i] - ip[1][i])
return r;
return 0;
}
void
soasort(Soatab *t)
{
int (*f)(void*, void*);
f = alphacmp;
if(t->bits > 0)
f = ipaddrcmp;
qsort(t->rr, t->nrr, sizeof t->rr[0], f);
}
void
main(int argc, char **argv)
{
char *dbfile;
int i;
Ndb *db;
dbfile = "/lib/ndb/local";
ARGBEGIN{
case 'f':
dbfile = EARGF(usage());
break;
case 'd':
case 'g':
flag[ARGC()] = 1;
break;
default:
usage();
}ARGEND;
fmtinstall('q', fmtzonequote);
fmtinstall('t', fmttabpad);
if(Binit(&bout, 1, OWRITE) == -1)
sysfatal("Binit: %r");
db = ndbopen1(dbfile);
if(db == nil)
sysfatal("%s: no db files\n", argv0);
soas(dbfile, db, argv, argc);
ndbclose(db);
for(i = 0; i < soaidx; i++){
if(soatab[i].re->flag & Fneg)
continue;
Bprint(&bout, "$TTL 3600\n");
soasort(soatab + i);
prsoa(&bout, soatab + i);
}
Bterm(&bout);
exits(0);
}
|
