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rbldnsd_ip4set.c
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rbldnsd_ip4set.c
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/* ip4set dataset type: IP4 addresses (ranges), with A and TXT
* values for every individual entry.
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "rbldnsd.h"
struct entry {
ip4addr_t addr; /* key: IP address */
const char *rr; /* A and TXT RRs */
};
struct dsdata {
unsigned n[4]; /* counts */
unsigned a[4]; /* allocated (only for loading) */
unsigned h[4]; /* hint, how much to allocate next time */
struct entry *e[4]; /* entries */
const char *def_rr; /* default A and TXT RRs */
};
/* indexes */
#define E32 0
#define E24 1
#define E16 2
#define E08 3
/* ..and masks, "network" and "host" parts */
#define M32 0xffffffffu
#define H32 0x00000000u
#define M24 0xffffff00u
#define H24 0x000000ffu
#define M16 0xffff0000u
#define H16 0x0000ffffu
#define M08 0xff000000u
#define H08 0x00ffffffu
definedstype(ip4set, DSTF_IP4REV, "set of (ip4 range, value) pairs");
static void ds_ip4set_reset(struct dsdata *dsd, int UNUSED unused_freeall) {
unsigned r;
for (r = 0; r < 4; ++r) {
if (!dsd->e[r]) continue;
free(dsd->e[r]);
dsd->e[r] = NULL;
dsd->n[r] = dsd->a[r] = 0;
}
dsd->def_rr = NULL;
}
static int
ds_ip4set_addent(struct dsdata *dsd, unsigned idx,
ip4addr_t a, unsigned count,
const char *rr) {
struct entry *e = dsd->e[idx];
ip4addr_t step = 1 << (idx << 3);
if (dsd->n[idx] + count > dsd->a[idx]) {
if (!dsd->a[idx])
dsd->a[idx] = dsd->h[idx] ? dsd->h[idx] : 64;
while(dsd->n[idx] + count > dsd->a[idx])
dsd->a[idx] <<= 1;
e = trealloc(struct entry, e, dsd->a[idx]);
if (!e)
return 0;
dsd->e[idx] = e;
}
e += dsd->n[idx];
dsd->n[idx] += count;
for(; count--; a += step, ++e) {
e->addr = a;
e->rr = rr;
}
return 1;
}
static void ds_ip4set_start(struct dataset *ds) {
ds->ds_dsd->def_rr = def_rr;
}
static int
ds_ip4set_line(struct dataset *ds, char *s, struct dsctx *dsc) {
struct dsdata *dsd = ds->ds_dsd;
ip4addr_t a, b;
const char *rr;
unsigned rrl;
int not;
int bits;
if (*s == ':') {
if (!(rrl = parse_a_txt(s, &rr, def_rr, dsc)))
return 1;
if (!(dsd->def_rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
return 1;
}
if (*s == '!') {
not = 1;
++s; SKIPSPACE(s);
}
else
not = 0;
if ((bits = ip4range(s, &a, &b, &s)) <= 0 ||
(*s && !ISSPACE(*s) && !ISCOMMENT(*s) && *s != ':')) {
dswarn(dsc, "invalid address");
return 1;
}
if (accept_in_cidr)
a &= ip4mask(bits);
else if (a & ~ip4mask(bits)) {
dswarn(dsc, "invalid range (non-zero host part)");
return 1;
}
if (dsc->dsc_ip4maxrange && dsc->dsc_ip4maxrange <= (b - a)) {
dswarn(dsc, "too large range (%u) ignored (%u max)",
b - a + 1, dsc->dsc_ip4maxrange);
return 1;
}
if (not)
rr = NULL;
else {
SKIPSPACE(s);
if (!*s || ISCOMMENT(*s))
rr = dsd->def_rr;
else if (!(rrl = parse_a_txt(s, &rr, dsd->def_rr, dsc)))
return 1;
else if (!(rr = mp_dmemdup(ds->ds_mp, rr, rrl)))
return 0;
}
/*XXX some comments about funny ip4range_expand et al */
#define fn(idx,start,count) ds_ip4set_addent(dsd, idx, start, count, rr)
/* helper macro for ip4range_expand:
* deal with last octet, shifting a and b when done
*/
#define ip4range_expand_octet(bits) \
if ((a | 255u) >= b) { \
if (b - a == 255u) \
return fn((bits>>3)+1, a<<bits, 1); \
else \
return fn(bits>>3, a<<bits, b - a + 1); \
} \
if (a & 255u) { \
if (!fn(bits>>3, a<<bits, 256u - (a & 255u))) \
return 0; \
a = (a >> 8) + 1; \
} \
else \
a >>= 8; \
if ((b & 255u) != 255u) { \
if (!fn((bits>>3), (b & ~255u)<<bits, (b&255u)+1)) \
return 0; \
b = (b >> 8) - 1; \
} \
else \
b >>= 8
ip4range_expand_octet(0);
ip4range_expand_octet(8);
ip4range_expand_octet(16);
return fn(3, a << 24, b - a + 1);
}
static void ds_ip4set_finish(struct dataset *ds, struct dsctx *dsc) {
struct dsdata *dsd = ds->ds_dsd;
unsigned r;
for(r = 0; r < 4; ++r) {
if (!dsd->n[r]) {
dsd->h[r] = 0;
continue;
}
dsd->h[r] = dsd->a[r];
while((dsd->h[r] >> 1) >= dsd->n[r])
dsd->h[r] >>= 1;
# define QSORT_TYPE struct entry
# define QSORT_BASE dsd->e[r]
# define QSORT_NELT dsd->n[r]
# define QSORT_LT(a,b) \
a->addr < b->addr ? 1 : \
a->addr > b->addr ? 0 : \
a->rr < b->rr
# include "qsort.c"
#define ip4set_eeq(a,b) a.addr == b.addr && rrs_equal(a,b)
REMOVE_DUPS(struct entry, dsd->e[r], dsd->n[r], ip4set_eeq);
SHRINK_ARRAY(struct entry, dsd->e[r], dsd->n[r], dsd->a[r]);
}
dsloaded(dsc, "e32/24/16/8=%u/%u/%u/%u",
dsd->n[E32], dsd->n[E24], dsd->n[E16], dsd->n[E08]);
}
static const struct entry *
ds_ip4set_find(const struct entry *e, int b, ip4addr_t q) {
int a = 0, m;
--b;
while(a <= b) {
if (e[(m = (a + b) >> 1)].addr == q) {
const struct entry *p = e + m - 1;
while(p >= e && p->addr == q)
--p;
return p + 1;
}
else if (e[m].addr < q) a = m + 1;
else b = m - 1;
}
return NULL;
}
static int
ds_ip4set_query(const struct dataset *ds, const struct dnsqinfo *qi,
struct dnspacket *pkt) {
const struct dsdata *dsd = ds->ds_dsd;
ip4addr_t q = qi->qi_ip4;
ip4addr_t f;
const struct entry *e, *t;
const char *ipsubst;
if (!qi->qi_ip4valid) return 0;
check_query_overwrites(qi);
#define try(i,mask) \
(dsd->n[i] && \
(t = dsd->e[i] + dsd->n[i], \
e = ds_ip4set_find(dsd->e[i], dsd->n[i], (f = q & mask))) != NULL)
if (!try(E32, M32) &&
!try(E24, M24) &&
!try(E16, M16) &&
!try(E08, M08))
return 0;
if (!e->rr) return 0; /* exclusion */
ipsubst = (qi->qi_tflag & NSQUERY_TXT) ? ip4atos(q) : NULL;
do addrr_a_txt(pkt, qi->qi_tflag, e->rr, ipsubst, ds);
while(++e < t && e->addr == f);
return NSQUERY_FOUND;
}
#ifndef NO_MASTER_DUMP
/* dump the data as master-format file.
* Having two entries:
* 127.0.0.0/8 "A"
* 127.0.0.2 "B"
* we have to generate the following stuff to make bind return what we need:
* *.127 "A"
* *.0.127 "A"
* *.0.0.127 "A"
* 2.0.0.127 "B"
* If we have two (or more) /8 entries, each should be repeated for /16 and /24.
* The same is when we have /16 and /32 (no /24), or /8 and /24 (no /16).
*
* The algorithm is as follows. We enumerating entries in /8 array
* (ds_ip4set_dump08()), emitting all "previous" entries in /16 (indicating
* there's no parent entry), when all entries in lower levels that are
* covered by our /16 (indicating there IS a parent this time), our own /16
* group -- all entries with the same address. ds_ip4set_dump16() accepts
* 'last' parameter telling it at which address to stop). ds_ip4set_dump16()
* does the same with /16s and /24s as ds_ip4set_dump08() does with /8s and
* /16s. Similarily, ds_ip4set_dump24() deals with /24s and /32s, but at this
* point, it should pay attention to the case when there's a /8 but no /16
* covering the range in question. Ditto for ds_ip4set_dump32(), which also
* should handle the case when there's no upper /24 but either /16 or /8 exists.
*/
struct dumpdata { /* state. */
const struct entry *e[4]; /* current entry we're looking at in each arr */
const struct entry *t[4]; /* end pointers for arrays */
const struct dataset *ds; /* the dataset in question */
FILE *f; /* file to dump data to */
};
/* dump a group of entries with the same IP address.
* idx shows how many octets we want to print --
* used only with E08, E16 or E24, not with E32.
* e is where to start, and t is the end of the array.
* Returns pointer to the next element after the group.
*/
static const struct entry *
ds_ip4set_dump_group(const struct dumpdata *dd,
ip4addr_t saddr, ip4addr_t hmask,
const struct entry *e, const struct entry *t) {
ip4addr_t addr = e->addr;
do
dump_ip4range(saddr, saddr | hmask, e->rr, dd->ds, dd->f);
while(++e < t && e->addr == addr);
return e;
}
/* dump all /32s up to addr <= last.
* u08, u16 and u24 is what's on upper levels. */
static void
ds_ip4set_dump32(struct dumpdata *dd, ip4addr_t last,
const struct entry *u08, const struct entry *u16,
const struct entry *u24) {
const struct entry *e = dd->e[E32], *t = dd->t[E32];
ip4addr_t m16 = 1, m24 = 1;
/* up_rr is true if there's anything non-excluded that is on upper level. */
int up_rr = (u24 ? u24->rr : u16 ? u16->rr : u08 ? u08->rr : NULL) != NULL;
while(e < t && e->addr <= last) {
if (!e->rr && !up_rr) {
/* skip entry if nothing listed on upper level */
++e;
continue;
}
if (!u24 && m24 != (e->addr & M24) && (u08 || u16)) {
/* if there's no "parent" /24 entry, AND
* we just advanced to next /24, AND
* there's something on even-upper levels,
* we have to repeat something from upper-upper level
* in mid-level. */
m24 = e->addr & M24; /* remember parent /24 mask we're in */
if (!u16 && m16 != (m24 & M16) && u08) {
/* if there's no parent /16, but there is parent /8:
* repeat that /8 in current /16, but only once per /16. */
m16 = m24 & M16;
ds_ip4set_dump_group(dd, m16, H16, u08, dd->t[E08]);
}
/* several cases:
u16!=0 and isn't exclusion: dump it in upper /24.
u16!=0 and it IS exclusion: do nothing.
u08!=0 - dump it.
*/
if (!u16) /* u08 is here as per condition above */
ds_ip4set_dump_group(dd, m24, H24, u08, dd->t[E08]);
else if (u16->rr)
ds_ip4set_dump_group(dd, m24, H24, u16, dd->t[E16]);
/* else nothing: the upper-upper /16 is an exclusion anyway */
}
dump_ip4(e->addr, e->rr, dd->ds, dd->f);
++e;
}
dd->e[E32] = e;
}
/* dump all /24s and lower-levels up to addr <= last.
* u08 and u16 is what's on upper levels. */
static void
ds_ip4set_dump24(struct dumpdata *dd, ip4addr_t last,
const struct entry *u08, const struct entry *u16) {
const struct entry *e = dd->e[E24], *t = dd->t[E24];
ip4addr_t m16 = 1, a;
/* up_rr is true if there's a non-excluded upper-level entry present */
int up_rr = (u16 ? u16->rr : u08 ? u08->rr : NULL) != NULL;
while(e < t && (a = e->addr) <= last) {
if (!e->rr && !up_rr) {
/* ignore exclusions if there's nothing listed in upper levels */
++e;
continue;
}
if (a)
/* dump all preceeding lower-level entries */
ds_ip4set_dump32(dd, a - 1, u08, u16, 0);
/* and this is where the fun is. */
if (!u16 && m16 != (a & M16) && u08) {
/* if there's no "parent" /16 entry, AND
* we just advanced to next /16, AND
* there's a /8 entry,
* repeat that /8 in this new /16.
* This produces *.x.y entry from y/8 and y.x.z/24. */
m16 = a & M16;
ds_ip4set_dump_group(dd, m16, H16, u08, dd->t[E08]);
}
/* dump all lower-level entries covering by our group */
ds_ip4set_dump32(dd, a | H24, u08, u16, e);
/* dump our group */
e = ds_ip4set_dump_group(dd, a, H24, e, t);
}
/* and finally, dump the rest in lower-level groups up to last */
ds_ip4set_dump32(dd, last, u08, u16, 0);
dd->e[E24] = e; /* save loop counter */
}
/* dump all /16s and lower-levels up to addr <= last.
* u08 is what's on upper levels. */
static void
ds_ip4set_dump16(struct dumpdata *dd, ip4addr_t last,
const struct entry *u08) {
const struct entry *e = dd->e[E16], *t = dd->t[E16];
while(e < t && e->addr <= last) {
if (!e->rr && !u08) {
/* skip exclusion only if there's no upper-level entry */
++e;
continue;
}
if (e->addr)
/* dump all preceeding lower-level entries if any */
ds_ip4set_dump24(dd, e->addr - 1, u08, 0);
/* dump all lower-level entries covering by this group */
ds_ip4set_dump24(dd, e->addr | H16, u08, e);
/* dump the group itself */
e = ds_ip4set_dump_group(dd, e->addr, H16, e, t);
}
/* and finally, dump the rest in lower levels, up to last */
ds_ip4set_dump24(dd, last, u08, 0);
dd->e[E16] = e; /* update loop variable */
}
/* ok, the simplest case, dump all /8s in turn, unconditionally */
static void
ds_ip4set_dump08(struct dumpdata *dd) {
const struct entry *e = dd->e[E08], *t = dd->t[E08];
while(e < t) {
if (!e->rr) {
/* just skip all excludes here */
++e;
continue;
}
if (e->addr)
/* dump any preceeding lower-level entries if any */
ds_ip4set_dump16(dd, e->addr - 1, 0);
/* dump all entries covered by our group */
ds_ip4set_dump16(dd, e->addr | H08, e);
/* dump our own group too */
e = ds_ip4set_dump_group(dd, e->addr, H08, e, t);
}
/* and finally, dump the rest */
ds_ip4set_dump16(dd, M32, 0);
dd->e[E08] = e; /* just in case ;) */
}
static void
ds_ip4set_dump(const struct dataset *ds,
const unsigned char UNUSED *unused_odn,
FILE *f) {
struct dumpdata dd;
const struct dsdata *dsd = ds->ds_dsd;
unsigned i;
for(i = 0; i < 4; ++i)
dd.t[i] = (dd.e[i] = dsd->e[i]) + dsd->n[i];
dd.ds = ds;
dd.f = f;
ds_ip4set_dump08(&dd);
}
#endif /* NO_MASTER_DUMP */