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-rw-r--r--lib/dns/rpz.c2413
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diff --git a/lib/dns/rpz.c b/lib/dns/rpz.c
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--- /dev/null
+++ b/lib/dns/rpz.c
@@ -0,0 +1,2413 @@
+/*
+ * Copyright (C) Internet Systems Consortium, Inc. ("ISC")
+ *
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/.
+ *
+ * See the COPYRIGHT file distributed with this work for additional
+ * information regarding copyright ownership.
+ */
+
+/*! \file */
+
+#include <config.h>
+
+#include <inttypes.h>
+#include <stdbool.h>
+
+#include <isc/buffer.h>
+#include <isc/mem.h>
+#include <isc/net.h>
+#include <isc/netaddr.h>
+#include <isc/print.h>
+#include <isc/rwlock.h>
+#include <isc/stdlib.h>
+#include <isc/string.h>
+#include <isc/util.h>
+
+#include <dns/db.h>
+#include <dns/fixedname.h>
+#include <dns/log.h>
+#include <dns/rdata.h>
+#include <dns/rdataset.h>
+#include <dns/rdatastruct.h>
+#include <dns/result.h>
+#include <dns/rbt.h>
+#include <dns/rpz.h>
+#include <dns/view.h>
+
+
+/*
+ * Parallel radix trees for databases of response policy IP addresses
+ *
+ * The radix or patricia trees are somewhat specialized to handle response
+ * policy addresses by representing the two sets of IP addresses and name
+ * server IP addresses in a single tree. One set of IP addresses is
+ * for rpz-ip policies or policies triggered by addresses in A or
+ * AAAA records in responses.
+ * The second set is for rpz-nsip policies or policies triggered by addresses
+ * in A or AAAA records for NS records that are authorities for responses.
+ *
+ * Each leaf indicates that an IP address is listed in the IP address or the
+ * name server IP address policy sub-zone (or both) of the corresponding
+ * response policy zone. The policy data such as a CNAME or an A record
+ * is kept in the policy zone. After an IP address has been found in a radix
+ * tree, the node in the policy zone's database is found by converting
+ * the IP address to a domain name in a canonical form.
+ *
+ *
+ * The response policy zone canonical form of an IPv6 address is one of:
+ * prefix.W.W.W.W.W.W.W.W
+ * prefix.WORDS.zz
+ * prefix.WORDS.zz.WORDS
+ * prefix.zz.WORDS
+ * where
+ * prefix is the prefix length of the IPv6 address between 1 and 128
+ * W is a number between 0 and 65535
+ * WORDS is one or more numbers W separated with "."
+ * zz corresponds to :: in the standard IPv6 text representation
+ *
+ * The canonical form of IPv4 addresses is:
+ * prefix.B.B.B.B
+ * where
+ * prefix is the prefix length of the address between 1 and 32
+ * B is a number between 0 and 255
+ *
+ * Names for IPv4 addresses are distinguished from IPv6 addresses by having
+ * 5 labels all of which are numbers, and a prefix between 1 and 32.
+ */
+
+
+/*
+ * Use a private definition of IPv6 addresses because s6_addr32 is not
+ * always defined and our IPv6 addresses are in non-standard byte order
+ */
+typedef uint32_t dns_rpz_cidr_word_t;
+#define DNS_RPZ_CIDR_WORD_BITS ((int)sizeof(dns_rpz_cidr_word_t)*8)
+#define DNS_RPZ_CIDR_KEY_BITS ((int)sizeof(dns_rpz_cidr_key_t)*8)
+#define DNS_RPZ_CIDR_WORDS (128/DNS_RPZ_CIDR_WORD_BITS)
+typedef struct {
+ dns_rpz_cidr_word_t w[DNS_RPZ_CIDR_WORDS];
+} dns_rpz_cidr_key_t;
+
+#define ADDR_V4MAPPED 0xffff
+#define KEY_IS_IPV4(prefix,ip) ((prefix) >= 96 && (ip)->w[0] == 0 && \
+ (ip)->w[1] == 0 && (ip)->w[2] == ADDR_V4MAPPED)
+
+#define DNS_RPZ_WORD_MASK(b) ((b) == 0 ? (dns_rpz_cidr_word_t)(-1) \
+ : ((dns_rpz_cidr_word_t)(-1) \
+ << (DNS_RPZ_CIDR_WORD_BITS - (b))))
+
+/*
+ * Get bit #n from the array of words of an IP address.
+ */
+#define DNS_RPZ_IP_BIT(ip, n) (1 & ((ip)->w[(n)/DNS_RPZ_CIDR_WORD_BITS] >> \
+ (DNS_RPZ_CIDR_WORD_BITS \
+ - 1 - ((n) % DNS_RPZ_CIDR_WORD_BITS))))
+
+/*
+ * A triplet of arrays of bits flagging the existence of
+ * client-IP, IP, and NSIP policy triggers.
+ */
+typedef struct dns_rpz_addr_zbits dns_rpz_addr_zbits_t;
+struct dns_rpz_addr_zbits {
+ dns_rpz_zbits_t client_ip;
+ dns_rpz_zbits_t ip;
+ dns_rpz_zbits_t nsip;
+};
+
+/*
+ * A CIDR or radix tree node.
+ */
+struct dns_rpz_cidr_node {
+ dns_rpz_cidr_node_t *parent;
+ dns_rpz_cidr_node_t *child[2];
+ dns_rpz_cidr_key_t ip;
+ dns_rpz_prefix_t prefix;
+ dns_rpz_addr_zbits_t set;
+ dns_rpz_addr_zbits_t sum;
+};
+
+/*
+ * A pair of arrays of bits flagging the existence of
+ * QNAME and NSDNAME policy triggers.
+ */
+typedef struct dns_rpz_nm_zbits dns_rpz_nm_zbits_t;
+struct dns_rpz_nm_zbits {
+ dns_rpz_zbits_t qname;
+ dns_rpz_zbits_t ns;
+};
+
+/*
+ * The data in a RBT node has two pairs of bits for policy zones.
+ * One pair is for the corresponding name of the node such as example.com
+ * and the other pair is for a wildcard child such as *.example.com.
+ */
+typedef struct dns_rpz_nm_data dns_rpz_nm_data_t;
+struct dns_rpz_nm_data {
+ dns_rpz_nm_zbits_t set;
+ dns_rpz_nm_zbits_t wild;
+};
+
+#if 0
+/*
+ * Catch a name while debugging.
+ */
+static void
+catch_name(const dns_name_t *src_name, const char *tgt, const char *str) {
+ dns_fixedname_t tgt_namef;
+ dns_name_t *tgt_name;
+
+ tgt_name = dns_fixedname_initname(&tgt_namef);
+ dns_name_fromstring(tgt_name, tgt, DNS_NAME_DOWNCASE, NULL);
+ if (dns_name_equal(src_name, tgt_name)) {
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "rpz hit failed: %s %s", str, tgt);
+ }
+}
+#endif
+
+const char *
+dns_rpz_type2str(dns_rpz_type_t type) {
+ switch (type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ return ("CLIENT-IP");
+ case DNS_RPZ_TYPE_QNAME:
+ return ("QNAME");
+ case DNS_RPZ_TYPE_IP:
+ return ("IP");
+ case DNS_RPZ_TYPE_NSIP:
+ return ("NSIP");
+ case DNS_RPZ_TYPE_NSDNAME:
+ return ("NSDNAME");
+ case DNS_RPZ_TYPE_BAD:
+ break;
+ }
+ FATAL_ERROR(__FILE__, __LINE__, "impossible rpz type %d", type);
+ return ("impossible");
+}
+
+dns_rpz_policy_t
+dns_rpz_str2policy(const char *str) {
+ static struct {
+ const char *str;
+ dns_rpz_policy_t policy;
+ } tbl[] = {
+ {"given", DNS_RPZ_POLICY_GIVEN},
+ {"disabled", DNS_RPZ_POLICY_DISABLED},
+ {"passthru", DNS_RPZ_POLICY_PASSTHRU},
+ {"drop", DNS_RPZ_POLICY_DROP},
+ {"tcp-only", DNS_RPZ_POLICY_TCP_ONLY},
+ {"nxdomain", DNS_RPZ_POLICY_NXDOMAIN},
+ {"nodata", DNS_RPZ_POLICY_NODATA},
+ {"cname", DNS_RPZ_POLICY_CNAME},
+ {"no-op", DNS_RPZ_POLICY_PASSTHRU}, /* old passthru */
+ };
+ unsigned int n;
+
+ if (str == NULL)
+ return (DNS_RPZ_POLICY_ERROR);
+ for (n = 0; n < sizeof(tbl)/sizeof(tbl[0]); ++n) {
+ if (!strcasecmp(tbl[n].str, str))
+ return (tbl[n].policy);
+ }
+ return (DNS_RPZ_POLICY_ERROR);
+}
+
+const char *
+dns_rpz_policy2str(dns_rpz_policy_t policy) {
+ const char *str;
+
+ switch (policy) {
+ case DNS_RPZ_POLICY_PASSTHRU:
+ str = "PASSTHRU";
+ break;
+ case DNS_RPZ_POLICY_DROP:
+ str = "DROP";
+ break;
+ case DNS_RPZ_POLICY_TCP_ONLY:
+ str = "TCP-ONLY";
+ break;
+ case DNS_RPZ_POLICY_NXDOMAIN:
+ str = "NXDOMAIN";
+ break;
+ case DNS_RPZ_POLICY_NODATA:
+ str = "NODATA";
+ break;
+ case DNS_RPZ_POLICY_RECORD:
+ str = "Local-Data";
+ break;
+ case DNS_RPZ_POLICY_CNAME:
+ case DNS_RPZ_POLICY_WILDCNAME:
+ str = "CNAME";
+ break;
+ case DNS_RPZ_POLICY_MISS:
+ str = "MISS";
+ break;
+ default:
+ str = "";
+ POST(str);
+ INSIST(0);
+ }
+ return (str);
+}
+
+/*
+ * Return the bit number of the highest set bit in 'zbit'.
+ * (for example, 0x01 returns 0, 0xFF returns 7, etc.)
+ */
+static int
+zbit_to_num(dns_rpz_zbits_t zbit) {
+ dns_rpz_num_t rpz_num;
+
+ REQUIRE(zbit != 0);
+ rpz_num = 0;
+#if DNS_RPZ_MAX_ZONES > 32
+ if ((zbit & 0xffffffff00000000L) != 0) {
+ zbit >>= 32;
+ rpz_num += 32;
+ }
+#endif
+ if ((zbit & 0xffff0000) != 0) {
+ zbit >>= 16;
+ rpz_num += 16;
+ }
+ if ((zbit & 0xff00) != 0) {
+ zbit >>= 8;
+ rpz_num += 8;
+ }
+ if ((zbit & 0xf0) != 0) {
+ zbit >>= 4;
+ rpz_num += 4;
+ }
+ if ((zbit & 0xc) != 0) {
+ zbit >>= 2;
+ rpz_num += 2;
+ }
+ if ((zbit & 2) != 0)
+ ++rpz_num;
+ return (rpz_num);
+}
+
+/*
+ * Make a set of bit masks given one or more bits and their type.
+ */
+static void
+make_addr_set(dns_rpz_addr_zbits_t *tgt_set, dns_rpz_zbits_t zbits,
+ dns_rpz_type_t type)
+{
+ switch (type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ tgt_set->client_ip = zbits;
+ tgt_set->ip = 0;
+ tgt_set->nsip = 0;
+ break;
+ case DNS_RPZ_TYPE_IP:
+ tgt_set->client_ip = 0;
+ tgt_set->ip = zbits;
+ tgt_set->nsip = 0;
+ break;
+ case DNS_RPZ_TYPE_NSIP:
+ tgt_set->client_ip = 0;
+ tgt_set->ip = 0;
+ tgt_set->nsip = zbits;
+ break;
+ default:
+ INSIST(0);
+ break;
+ }
+}
+
+static void
+make_nm_set(dns_rpz_nm_zbits_t *tgt_set,
+ dns_rpz_num_t rpz_num, dns_rpz_type_t type)
+{
+ switch (type) {
+ case DNS_RPZ_TYPE_QNAME:
+ tgt_set->qname = DNS_RPZ_ZBIT(rpz_num);
+ tgt_set->ns = 0;
+ break;
+ case DNS_RPZ_TYPE_NSDNAME:
+ tgt_set->qname = 0;
+ tgt_set->ns = DNS_RPZ_ZBIT(rpz_num);
+ break;
+ default:
+ INSIST(0);
+ break;
+ }
+}
+
+/*
+ * Mark a node and all of its parents as having client-IP, IP, or NSIP data
+ */
+static void
+set_sum_pair(dns_rpz_cidr_node_t *cnode) {
+ dns_rpz_cidr_node_t *child;
+ dns_rpz_addr_zbits_t sum;
+
+ do {
+ sum = cnode->set;
+
+ child = cnode->child[0];
+ if (child != NULL) {
+ sum.client_ip |= child->sum.client_ip;
+ sum.ip |= child->sum.ip;
+ sum.nsip |= child->sum.nsip;
+ }
+
+ child = cnode->child[1];
+ if (child != NULL) {
+ sum.client_ip |= child->sum.client_ip;
+ sum.ip |= child->sum.ip;
+ sum.nsip |= child->sum.nsip;
+ }
+
+ if (cnode->sum.client_ip == sum.client_ip &&
+ cnode->sum.ip == sum.ip &&
+ cnode->sum.nsip == sum.nsip)
+ break;
+ cnode->sum = sum;
+ cnode = cnode->parent;
+ } while (cnode != NULL);
+}
+
+/* Caller must hold rpzs->maint_lock */
+static void
+fix_qname_skip_recurse(dns_rpz_zones_t *rpzs) {
+ dns_rpz_zbits_t mask;
+
+ /*
+ * qname_wait_recurse and qname_skip_recurse are used to
+ * implement the "qname-wait-recurse" config option.
+ *
+ * When "qname-wait-recurse" is yes, no processing happens
+ * without recursion. In this case, qname_wait_recurse is true,
+ * and qname_skip_recurse (a bitfield indicating which policy
+ * zones can be processed without recursion) is set to all 0's
+ * by fix_qname_skip_recurse().
+ *
+ * When "qname-wait-recurse" is no, qname_skip_recurse may be
+ * set to a non-zero value by fix_qname_skip_recurse(). The mask
+ * has to have bits set for the policy zones for which
+ * processing may continue without recursion, and bits cleared
+ * for the rest.
+ *
+ * (1) The ARM says:
+ *
+ * The "qname-wait-recurse no" option overrides that default
+ * behavior when recursion cannot change a non-error
+ * response. The option does not affect QNAME or client-IP
+ * triggers in policy zones listed after other zones
+ * containing IP, NSIP and NSDNAME triggers, because those may
+ * depend on the A, AAAA, and NS records that would be found
+ * during recursive resolution.
+ *
+ * Let's consider the following:
+ *
+ * zbits_req = (rpzs->have.ipv4 | rpzs->have.ipv6 |
+ * rpzs->have.nsdname |
+ * rpzs->have.nsipv4 | rpzs->have.nsipv6);
+ *
+ * zbits_req now contains bits set for zones which require
+ * recursion.
+ *
+ * But going by the description in the ARM, if the first policy
+ * zone requires recursion, then all zones after that (higher
+ * order bits) have to wait as well. If the Nth zone requires
+ * recursion, then (N+1)th zone onwards all need to wait.
+ *
+ * So mapping this, examples:
+ *
+ * zbits_req = 0b000 mask = 0xffffffff (no zones have to wait for
+ * recursion)
+ * zbits_req = 0b001 mask = 0x00000000 (all zones have to wait)
+ * zbits_req = 0b010 mask = 0x00000001 (the first zone doesn't have to
+ * wait, second zone onwards need
+ * to wait)
+ * zbits_req = 0b011 mask = 0x00000000 (all zones have to wait)
+ * zbits_req = 0b100 mask = 0x00000011 (the 1st and 2nd zones don't
+ * have to wait, third zone
+ * onwards need to wait)
+ *
+ * More generally, we have to count the number of trailing 0
+ * bits in zbits_req and only these can be processed without
+ * recursion. All the rest need to wait.
+ *
+ * (2) The ARM says that "qname-wait-recurse no" option
+ * overrides the default behavior when recursion cannot change a
+ * non-error response. So, in the order of listing of policy
+ * zones, within the first policy zone where recursion may be
+ * required, we should first allow CLIENT-IP and QNAME policy
+ * records to be attempted without recursion.
+ */
+
+ /*
+ * Get a mask covering all policy zones that are not subordinate to
+ * other policy zones containing triggers that require that the
+ * qname be resolved before they can be checked.
+ */
+ rpzs->have.client_ip = rpzs->have.client_ipv4 | rpzs->have.client_ipv6;
+ rpzs->have.ip = rpzs->have.ipv4 | rpzs->have.ipv6;
+ rpzs->have.nsip = rpzs->have.nsipv4 | rpzs->have.nsipv6;
+
+ if (rpzs->p.qname_wait_recurse) {
+ mask = 0;
+ } else {
+ dns_rpz_zbits_t zbits_req;
+ dns_rpz_zbits_t zbits_notreq;
+ dns_rpz_zbits_t mask2;
+ dns_rpz_zbits_t req_mask;
+
+ /*
+ * Get the masks of zones with policies that
+ * do/don't require recursion
+ */
+
+ zbits_req = (rpzs->have.ipv4 | rpzs->have.ipv6 |
+ rpzs->have.nsdname |
+ rpzs->have.nsipv4 | rpzs->have.nsipv6);
+ zbits_notreq = (rpzs->have.client_ip | rpzs->have.qname);
+
+ if (zbits_req == 0) {
+ mask = DNS_RPZ_ALL_ZBITS;
+ goto set;
+ }
+
+ /*
+ * req_mask is a mask covering used bits in
+ * zbits_req. (For instance, 0b1 => 0b1, 0b101 => 0b111,
+ * 0b11010101 => 0b11111111).
+ */
+ req_mask = zbits_req;
+ req_mask |= req_mask >> 1;
+ req_mask |= req_mask >> 2;
+ req_mask |= req_mask >> 4;
+ req_mask |= req_mask >> 8;
+ req_mask |= req_mask >> 16;
+#if DNS_RPZ_MAX_ZONES > 32
+ req_mask |= req_mask >> 32;
+#endif
+
+ /*
+ * There's no point in skipping recursion for a later
+ * zone if it is required in a previous zone.
+ */
+ if ((zbits_notreq & req_mask) == 0) {
+ mask = 0;
+ goto set;
+ }
+
+ /*
+ * This bit arithmetic creates a mask of zones in which
+ * it is okay to skip recursion. After the first zone
+ * that has to wait for recursion, all the others have
+ * to wait as well, so we want to create a mask in which
+ * all the trailing zeroes in zbits_req are are 1, and
+ * more significant bits are 0. (For instance,
+ * 0x0700 => 0x00ff, 0x0007 => 0x0000)
+ */
+ mask = ~(zbits_req | ((~zbits_req) + 1));
+
+ /*
+ * As mentioned in (2) above, the zone corresponding to
+ * the least significant zero could have its CLIENT-IP
+ * and QNAME policies checked before recursion, if it
+ * has any of those policies. So if it does, we
+ * can set its 0 to 1.
+ *
+ * Locate the least significant 0 bit in the mask (for
+ * instance, 0xff => 0x100)...
+ */
+ mask2 = (mask << 1) & ~mask;
+
+ /*
+ * Also set the bit for zone 0, because if it's in
+ * zbits_notreq then it's definitely okay to attempt to
+ * skip recursion for zone 0...
+ */
+ mask2 |= 1;
+
+ /* Clear any bits *not* in zbits_notreq... */
+ mask2 &= zbits_notreq;
+
+ /* And merge the result into the skip-recursion mask */
+ mask |= mask2;
+ }
+
+ set:
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ, DNS_LOGMODULE_RBTDB,
+ DNS_RPZ_DEBUG_QUIET,
+ "computed RPZ qname_skip_recurse mask=0x%" PRIx64,
+ (uint64_t) mask);
+ rpzs->have.qname_skip_recurse = mask;
+}
+
+static void
+adj_trigger_cnt(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type,
+ const dns_rpz_cidr_key_t *tgt_ip, dns_rpz_prefix_t tgt_prefix,
+ bool inc)
+{
+ dns_rpz_trigger_counter_t *cnt;
+ dns_rpz_zbits_t *have;
+
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ REQUIRE(tgt_ip != NULL);
+ if (KEY_IS_IPV4(tgt_prefix, tgt_ip)) {
+ cnt = &rpzs->triggers[rpz_num].client_ipv4;
+ have = &rpzs->have.client_ipv4;
+ } else {
+ cnt = &rpzs->triggers[rpz_num].client_ipv6;
+ have = &rpzs->have.client_ipv6;
+ }
+ break;
+ case DNS_RPZ_TYPE_QNAME:
+ cnt = &rpzs->triggers[rpz_num].qname;
+ have = &rpzs->have.qname;
+ break;
+ case DNS_RPZ_TYPE_IP:
+ REQUIRE(tgt_ip != NULL);
+ if (KEY_IS_IPV4(tgt_prefix, tgt_ip)) {
+ cnt = &rpzs->triggers[rpz_num].ipv4;
+ have = &rpzs->have.ipv4;
+ } else {
+ cnt = &rpzs->triggers[rpz_num].ipv6;
+ have = &rpzs->have.ipv6;
+ }
+ break;
+ case DNS_RPZ_TYPE_NSDNAME:
+ cnt = &rpzs->triggers[rpz_num].nsdname;
+ have = &rpzs->have.nsdname;
+ break;
+ case DNS_RPZ_TYPE_NSIP:
+ REQUIRE(tgt_ip != NULL);
+ if (KEY_IS_IPV4(tgt_prefix, tgt_ip)) {
+ cnt = &rpzs->triggers[rpz_num].nsipv4;
+ have = &rpzs->have.nsipv4;
+ } else {
+ cnt = &rpzs->triggers[rpz_num].nsipv6;
+ have = &rpzs->have.nsipv6;
+ }
+ break;
+ default:
+ INSIST(0);
+ }
+
+ if (inc) {
+ if (++*cnt == 1U) {
+ *have |= DNS_RPZ_ZBIT(rpz_num);
+ fix_qname_skip_recurse(rpzs);
+ }
+ } else {
+ REQUIRE(*cnt != 0U);
+ if (--*cnt == 0U) {
+ *have &= ~DNS_RPZ_ZBIT(rpz_num);
+ fix_qname_skip_recurse(rpzs);
+ }
+ }
+}
+
+static dns_rpz_cidr_node_t *
+new_node(dns_rpz_zones_t *rpzs,
+ const dns_rpz_cidr_key_t *ip, dns_rpz_prefix_t prefix,
+ const dns_rpz_cidr_node_t *child)
+{
+ dns_rpz_cidr_node_t *node;
+ int i, words, wlen;
+
+ node = isc_mem_get(rpzs->mctx, sizeof(*node));
+ if (node == NULL)
+ return (NULL);
+ memset(node, 0, sizeof(*node));
+
+ if (child != NULL)
+ node->sum = child->sum;
+
+ node->prefix = prefix;
+ words = prefix / DNS_RPZ_CIDR_WORD_BITS;
+ wlen = prefix % DNS_RPZ_CIDR_WORD_BITS;
+ i = 0;
+ while (i < words) {
+ node->ip.w[i] = ip->w[i];
+ ++i;
+ }
+ if (wlen != 0) {
+ node->ip.w[i] = ip->w[i] & DNS_RPZ_WORD_MASK(wlen);
+ ++i;
+ }
+ while (i < DNS_RPZ_CIDR_WORDS)
+ node->ip.w[i++] = 0;
+
+ return (node);
+}
+
+static void
+badname(int level, dns_name_t *name, const char *str1, const char *str2) {
+ char namebuf[DNS_NAME_FORMATSIZE];
+
+ /*
+ * bin/tests/system/rpz/tests.sh looks for "invalid rpz".
+ */
+ if (level < DNS_RPZ_DEBUG_QUIET &&
+ isc_log_wouldlog(dns_lctx, level)) {
+ dns_name_format(name, namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, level,
+ "invalid rpz IP address \"%s\"%s%s",
+ namebuf, str1, str2);
+ }
+}
+
+/*
+ * Convert an IP address from radix tree binary (host byte order) to
+ * to its canonical response policy domain name without the origin of the
+ * policy zone.
+ *
+ * Generate a name for an IPv6 address that fits RFC 5952, except that
+ * our reversed format requires that when the length of the consecutive
+ * 16-bit 0 fields are equal (e.g., 1.0.0.1.0.0.db8.2001 corresponding
+ * to 2001:db8:0:0:1:0:0:1), we shorted the last instead of the first
+ * (e.g., 1.0.0.1.zz.db8.2001 corresponding to 2001:db8::1:0:0:1).
+ */
+static isc_result_t
+ip2name(const dns_rpz_cidr_key_t *tgt_ip, dns_rpz_prefix_t tgt_prefix,
+ dns_name_t *base_name, dns_name_t *ip_name)
+{
+#ifndef INET6_ADDRSTRLEN
+#define INET6_ADDRSTRLEN 46
+#endif
+ int w[DNS_RPZ_CIDR_WORDS*2];
+ char str[1+8+1+INET6_ADDRSTRLEN+1];
+ isc_buffer_t buffer;
+ isc_result_t result;
+ int best_first, best_len, cur_first, cur_len;
+ int i, n, len;
+
+ if (KEY_IS_IPV4(tgt_prefix, tgt_ip)) {
+ len = snprintf(str, sizeof(str), "%u.%u.%u.%u.%u",
+ tgt_prefix - 96U,
+ tgt_ip->w[3] & 0xffU,
+ (tgt_ip->w[3]>>8) & 0xffU,
+ (tgt_ip->w[3]>>16) & 0xffU,
+ (tgt_ip->w[3]>>24) & 0xffU);
+ if (len < 0 || len > (int)sizeof(str)) {
+ return (ISC_R_FAILURE);
+ }
+ } else {
+ len = snprintf(str, sizeof(str), "%d", tgt_prefix);
+ if (len == -1)
+ return (ISC_R_FAILURE);
+ for (i = 0; i < DNS_RPZ_CIDR_WORDS; i++) {
+ w[i*2+1] = ((tgt_ip->w[DNS_RPZ_CIDR_WORDS-1-i] >> 16)
+ & 0xffff);
+ w[i*2] = tgt_ip->w[DNS_RPZ_CIDR_WORDS-1-i] & 0xffff;
+ }
+ /*
+ * Find the start and length of the first longest sequence
+ * of zeros in the address.
+ */
+ best_first = -1;
+ best_len = 0;
+ cur_first = -1;
+ cur_len = 0;
+ for (n = 0; n <=7; ++n) {
+ if (w[n] != 0) {
+ cur_len = 0;
+ cur_first = -1;
+ } else {
+ ++cur_len;
+ if (cur_first < 0) {
+ cur_first = n;
+ } else if (cur_len >= best_len) {
+ best_first = cur_first;
+ best_len = cur_len;
+ }
+ }
+ }
+
+ for (n = 0; n <= 7; ++n) {
+ INSIST(len < (int)sizeof(str));
+ if (n == best_first) {
+ len += snprintf(str + len, sizeof(str) - len,
+ ".zz");
+ n += best_len - 1;
+ } else {
+ len += snprintf(str + len, sizeof(str) - len,
+ ".%x", w[n]);
+ }
+ }
+ }
+
+ isc_buffer_init(&buffer, str, sizeof(str));
+ isc_buffer_add(&buffer, len);
+ result = dns_name_fromtext(ip_name, &buffer, base_name, 0, NULL);
+ return (result);
+}
+
+/*
+ * Determine the type of a name in a response policy zone.
+ */
+static dns_rpz_type_t
+type_from_name(dns_rpz_zone_t *rpz, dns_name_t *name) {
+
+ if (dns_name_issubdomain(name, &rpz->ip))
+ return (DNS_RPZ_TYPE_IP);
+
+ if (dns_name_issubdomain(name, &rpz->client_ip))
+ return (DNS_RPZ_TYPE_CLIENT_IP);
+
+#ifdef ENABLE_RPZ_NSIP
+ if (dns_name_issubdomain(name, &rpz->nsip))
+ return (DNS_RPZ_TYPE_NSIP);
+#endif
+
+#ifdef ENABLE_RPZ_NSDNAME
+ if (dns_name_issubdomain(name, &rpz->nsdname))
+ return (DNS_RPZ_TYPE_NSDNAME);
+#endif
+
+ return (DNS_RPZ_TYPE_QNAME);
+}
+
+/*
+ * Convert an IP address from canonical response policy domain name form
+ * to radix tree binary (host byte order) for adding or deleting IP or NSIP
+ * data.
+ */
+static isc_result_t
+name2ipkey(int log_level,
+ const dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, dns_name_t *src_name,
+ dns_rpz_cidr_key_t *tgt_ip, dns_rpz_prefix_t *tgt_prefix,
+ dns_rpz_addr_zbits_t *new_set)
+{
+ dns_rpz_zone_t *rpz;
+ char ip_str[DNS_NAME_FORMATSIZE];
+ char ip2_str[DNS_NAME_FORMATSIZE];
+ dns_offsets_t ip_name_offsets;
+ dns_fixedname_t ip_name2f;
+ dns_name_t ip_name, *ip_name2;
+ const char *prefix_str, *cp, *end;
+ char *cp2;
+ int ip_labels;
+ dns_rpz_prefix_t prefix;
+ unsigned long prefix_num, l;
+ isc_result_t result;
+ int i;
+
+ REQUIRE(rpzs != NULL && rpz_num < rpzs->p.num_zones);
+ rpz = rpzs->zones[rpz_num];
+ REQUIRE(rpz != NULL);
+
+ make_addr_set(new_set, DNS_RPZ_ZBIT(rpz_num), rpz_type);
+
+ ip_labels = dns_name_countlabels(src_name);
+ if (rpz_type == DNS_RPZ_TYPE_QNAME)
+ ip_labels -= dns_name_countlabels(&rpz->origin);
+ else
+ ip_labels -= dns_name_countlabels(&rpz->nsdname);
+ if (ip_labels < 2) {
+ badname(log_level, src_name, "; too short", "");
+ return (ISC_R_FAILURE);
+ }
+ dns_name_init(&ip_name, ip_name_offsets);
+ dns_name_getlabelsequence(src_name, 0, ip_labels, &ip_name);
+
+ /*
+ * Get text for the IP address
+ */
+ dns_name_format(&ip_name, ip_str, sizeof(ip_str));
+ end = &ip_str[strlen(ip_str)+1];
+ prefix_str = ip_str;
+
+ prefix_num = strtoul(prefix_str, &cp2, 10);
+ if (*cp2 != '.') {
+ badname(log_level, src_name,
+ "; invalid leading prefix length", "");
+ return (ISC_R_FAILURE);
+ }
+
+ if (prefix_num < 1U || prefix_num > 128U) {
+ badname(log_level, src_name,
+ "; invalid prefix length of ", prefix_str);
+ return (ISC_R_FAILURE);
+ }
+ cp = cp2+1;
+
+ if (--ip_labels == 4 && !strchr(cp, 'z')) {
+ /*
+ * Convert an IPv4 address
+ * from the form "prefix.z.y.x.w"
+ */
+ if (prefix_num > 32U) {
+ badname(log_level, src_name,
+ "; invalid IPv4 prefix length of ", prefix_str);
+ return (ISC_R_FAILURE);
+ }
+ prefix_num += 96;
+ *tgt_prefix = (dns_rpz_prefix_t)prefix_num;
+ tgt_ip->w[0] = 0;
+ tgt_ip->w[1] = 0;
+ tgt_ip->w[2] = ADDR_V4MAPPED;
+ tgt_ip->w[3] = 0;
+ for (i = 0; i < 32; i += 8) {
+ l = strtoul(cp, &cp2, 10);
+ if (l > 255U || (*cp2 != '.' && *cp2 != '\0')) {
+ if (*cp2 == '.')
+ *cp2 = '\0';
+ badname(log_level, src_name,
+ "; invalid IPv4 octet ", cp);
+ return (ISC_R_FAILURE);
+ }
+ tgt_ip->w[3] |= l << i;
+ cp = cp2 + 1;
+ }
+ } else {
+ /*
+ * Convert a text IPv6 address.
+ */
+ *tgt_prefix = (dns_rpz_prefix_t)prefix_num;
+ for (i = 0;
+ ip_labels > 0 && i < DNS_RPZ_CIDR_WORDS * 2;
+ ip_labels--) {
+ if (cp[0] == 'z' && cp[1] == 'z' &&
+ (cp[2] == '.' || cp[2] == '\0') &&
+ i <= 6) {
+ do {
+ if ((i & 1) == 0)
+ tgt_ip->w[3-i/2] = 0;
+ ++i;
+ } while (ip_labels + i <= 8);
+ cp += 3;
+ } else {
+ l = strtoul(cp, &cp2, 16);
+ if (l > 0xffffu ||
+ (*cp2 != '.' && *cp2 != '\0')) {
+ if (*cp2 == '.')
+ *cp2 = '\0';
+ badname(log_level, src_name,
+ "; invalid IPv6 word ", cp);
+ return (ISC_R_FAILURE);
+ }
+ if ((i & 1) == 0)
+ tgt_ip->w[3-i/2] = l;
+ else
+ tgt_ip->w[3-i/2] |= l << 16;
+ i++;
+ cp = cp2 + 1;
+ }
+ }
+ }
+ if (cp != end) {
+ badname(log_level, src_name, "", "");
+ return (ISC_R_FAILURE);
+ }
+
+ /*
+ * Check for 1s after the prefix length.
+ */
+ prefix = (dns_rpz_prefix_t)prefix_num;
+ while (prefix < DNS_RPZ_CIDR_KEY_BITS) {
+ dns_rpz_cidr_word_t aword;
+
+ i = prefix % DNS_RPZ_CIDR_WORD_BITS;
+ aword = tgt_ip->w[prefix / DNS_RPZ_CIDR_WORD_BITS];
+ if ((aword & ~DNS_RPZ_WORD_MASK(i)) != 0) {
+ badname(log_level, src_name,
+ "; too small prefix length of ", prefix_str);
+ return (ISC_R_FAILURE);
+ }
+ prefix -= i;
+ prefix += DNS_RPZ_CIDR_WORD_BITS;
+ }
+
+ /*
+ * Complain about bad names but be generous and accept them.
+ */
+ if (log_level < DNS_RPZ_DEBUG_QUIET &&
+ isc_log_wouldlog(dns_lctx, log_level)) {
+ /*
+ * Convert the address back to a canonical domain name
+ * to ensure that the original name is in canonical form.
+ */
+ ip_name2 = dns_fixedname_initname(&ip_name2f);
+ result = ip2name(tgt_ip, (dns_rpz_prefix_t)prefix_num,
+ NULL, ip_name2);
+ if (result != ISC_R_SUCCESS ||
+ !dns_name_equal(&ip_name, ip_name2)) {
+ dns_name_format(ip_name2, ip2_str, sizeof(ip2_str));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, log_level,
+ "rpz IP address \"%s\""
+ " is not the canonical \"%s\"",
+ ip_str, ip2_str);
+ }
+ }
+
+ return (ISC_R_SUCCESS);
+}
+
+/*
+ * Get trigger name and data bits for adding or deleting summary NSDNAME
+ * or QNAME data.
+ */
+static void
+name2data(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, const dns_name_t *src_name,
+ dns_name_t *trig_name, dns_rpz_nm_data_t *new_data)
+{
+ dns_rpz_zone_t *rpz;
+ dns_offsets_t tmp_name_offsets;
+ dns_name_t tmp_name;
+ unsigned int prefix_len, n;
+
+ REQUIRE(rpzs != NULL && rpz_num < rpzs->p.num_zones);
+ rpz = rpzs->zones[rpz_num];
+ REQUIRE(rpz != NULL);
+
+ /*
+ * Handle wildcards by putting only the parent into the
+ * summary RBT. The summary database only causes a check of the
+ * real policy zone where wildcards will be handled.
+ */
+ if (dns_name_iswildcard(src_name)) {
+ prefix_len = 1;
+ memset(&new_data->set, 0, sizeof(new_data->set));
+ make_nm_set(&new_data->wild, rpz_num, rpz_type);
+ } else {
+ prefix_len = 0;
+ make_nm_set(&new_data->set, rpz_num, rpz_type);
+ memset(&new_data->wild, 0, sizeof(new_data->wild));
+ }
+
+ dns_name_init(&tmp_name, tmp_name_offsets);
+ n = dns_name_countlabels(src_name);
+ n -= prefix_len;
+ if (rpz_type == DNS_RPZ_TYPE_QNAME)
+ n -= dns_name_countlabels(&rpz->origin);
+ else
+ n -= dns_name_countlabels(&rpz->nsdname);
+ dns_name_getlabelsequence(src_name, prefix_len, n, &tmp_name);
+ (void)dns_name_concatenate(&tmp_name, dns_rootname, trig_name, NULL);
+}
+
+#ifndef HAVE_BUILTIN_CLZ
+/**
+ * \brief Count Leading Zeros: Find the location of the left-most set
+ * bit.
+ */
+static inline unsigned int
+clz(dns_rpz_cidr_word_t w) {
+ unsigned int bit;
+
+ bit = DNS_RPZ_CIDR_WORD_BITS-1;
+
+ if ((w & 0xffff0000) != 0) {
+ w >>= 16;
+ bit -= 16;
+ }
+
+ if ((w & 0xff00) != 0) {
+ w >>= 8;
+ bit -= 8;
+ }
+
+ if ((w & 0xf0) != 0) {
+ w >>= 4;
+ bit -= 4;
+ }
+
+ if ((w & 0xc) != 0) {
+ w >>= 2;
+ bit -= 2;
+ }
+
+ if ((w & 2) != 0)
+ --bit;
+
+ return (bit);
+}
+#endif
+
+/*
+ * Find the first differing bit in two keys (IP addresses).
+ */
+static int
+diff_keys(const dns_rpz_cidr_key_t *key1, dns_rpz_prefix_t prefix1,
+ const dns_rpz_cidr_key_t *key2, dns_rpz_prefix_t prefix2)
+{
+ dns_rpz_cidr_word_t delta;
+ dns_rpz_prefix_t maxbit, bit;
+ int i;
+
+ bit = 0;
+ maxbit = ISC_MIN(prefix1, prefix2);
+
+ /*
+ * find the first differing words
+ */
+ for (i = 0; bit < maxbit; i++, bit += DNS_RPZ_CIDR_WORD_BITS) {
+ delta = key1->w[i] ^ key2->w[i];
+ if (ISC_UNLIKELY(delta != 0)) {
+#ifdef HAVE_BUILTIN_CLZ
+ bit += __builtin_clz(delta);
+#else
+ bit += clz(delta);
+#endif
+ break;
+ }
+ }
+ return (ISC_MIN(bit, maxbit));
+}
+
+/*
+ * Given a hit while searching the radix trees,
+ * clear all bits for higher numbered zones.
+ */
+static inline dns_rpz_zbits_t
+trim_zbits(dns_rpz_zbits_t zbits, dns_rpz_zbits_t found) {
+ dns_rpz_zbits_t x;
+
+ /*
+ * Isolate the first or smallest numbered hit bit.
+ * Make a mask of that bit and all smaller numbered bits.
+ */
+ x = zbits & found;
+ x &= (~x + 1);
+ x = (x << 1) - 1;
+ return (zbits &= x);
+}
+
+/*
+ * Search a radix tree for an IP address for ordinary lookup
+ * or for a CIDR block adding or deleting an entry
+ *
+ * Return ISC_R_SUCCESS, DNS_R_PARTIALMATCH, ISC_R_NOTFOUND,
+ * and *found=longest match node
+ * or with create==true, ISC_R_EXISTS or ISC_R_NOMEMORY
+ */
+static isc_result_t
+search(dns_rpz_zones_t *rpzs,
+ const dns_rpz_cidr_key_t *tgt_ip, dns_rpz_prefix_t tgt_prefix,
+ const dns_rpz_addr_zbits_t *tgt_set, bool create,
+ dns_rpz_cidr_node_t **found)
+{
+ dns_rpz_cidr_node_t *cur, *parent, *child, *new_parent, *sibling;
+ dns_rpz_addr_zbits_t set;
+ int cur_num, child_num;
+ dns_rpz_prefix_t dbit;
+ isc_result_t find_result;
+
+ set = *tgt_set;
+ find_result = ISC_R_NOTFOUND;
+ *found = NULL;
+ cur = rpzs->cidr;
+ parent = NULL;
+ cur_num = 0;
+ for (;;) {
+ if (cur == NULL) {
+ /*
+ * No child so we cannot go down.
+ * Quit with whatever we already found
+ * or add the target as a child of the current parent.
+ */
+ if (!create)
+ return (find_result);
+ child = new_node(rpzs, tgt_ip, tgt_prefix, NULL);
+ if (child == NULL)
+ return (ISC_R_NOMEMORY);
+ if (parent == NULL)
+ rpzs->cidr = child;
+ else
+ parent->child[cur_num] = child;
+ child->parent = parent;
+ child->set.client_ip |= tgt_set->client_ip;
+ child->set.ip |= tgt_set->ip;
+ child->set.nsip |= tgt_set->nsip;
+ set_sum_pair(child);
+ *found = child;
+ return (ISC_R_SUCCESS);
+ }
+
+ if ((cur->sum.client_ip & set.client_ip) == 0 &&
+ (cur->sum.ip & set.ip) == 0 &&
+ (cur->sum.nsip & set.nsip) == 0) {
+ /*
+ * This node has no relevant data
+ * and is in none of the target trees.
+ * Pretend it does not exist if we are not adding.
+ *
+ * If we are adding, continue down to eventually add
+ * a node and mark/put this node in the correct tree.
+ */
+ if (!create)
+ return (find_result);
+ }
+
+ dbit = diff_keys(tgt_ip, tgt_prefix, &cur->ip, cur->prefix);
+ /*
+ * dbit <= tgt_prefix and dbit <= cur->prefix always.
+ * We are finished searching if we matched all of the target.
+ */
+ if (dbit == tgt_prefix) {
+ if (tgt_prefix == cur->prefix) {
+ /*
+ * The node's key matches the target exactly.
+ */
+ if ((cur->set.client_ip & set.client_ip) != 0 ||
+ (cur->set.ip & set.ip) != 0 ||
+ (cur->set.nsip & set.nsip) != 0) {
+ /*
+ * It is the answer if it has data.
+ */
+ *found = cur;
+ if (create) {
+ find_result = ISC_R_EXISTS;
+ } else {
+ find_result = ISC_R_SUCCESS;
+ }
+ } else if (create) {
+ /*
+ * The node lacked relevant data,
+ * but will have it now.
+ */
+ cur->set.client_ip |= tgt_set->client_ip;
+ cur->set.ip |= tgt_set->ip;
+ cur->set.nsip |= tgt_set->nsip;
+ set_sum_pair(cur);
+ *found = cur;
+ find_result = ISC_R_SUCCESS;
+ }
+ return (find_result);
+ }
+
+ /*
+ * We know tgt_prefix < cur->prefix which means that
+ * the target is shorter than the current node.
+ * Add the target as the current node's parent.
+ */
+ if (!create)
+ return (find_result);
+
+ new_parent = new_node(rpzs, tgt_ip, tgt_prefix, cur);
+ if (new_parent == NULL)
+ return (ISC_R_NOMEMORY);
+ new_parent->parent = parent;
+ if (parent == NULL)
+ rpzs->cidr = new_parent;
+ else
+ parent->child[cur_num] = new_parent;
+ child_num = DNS_RPZ_IP_BIT(&cur->ip, tgt_prefix);
+ new_parent->child[child_num] = cur;
+ cur->parent = new_parent;
+ new_parent->set = *tgt_set;
+ set_sum_pair(new_parent);
+ *found = new_parent;
+ return (ISC_R_SUCCESS);
+ }
+
+ if (dbit == cur->prefix) {
+ if ((cur->set.client_ip & set.client_ip) != 0 ||
+ (cur->set.ip & set.ip) != 0 ||
+ (cur->set.nsip & set.nsip) != 0) {
+ /*
+ * We have a partial match between of all of the
+ * current node but only part of the target.
+ * Continue searching for other hits in the
+ * same or lower numbered trees.
+ */
+ find_result = DNS_R_PARTIALMATCH;
+ *found = cur;
+ set.client_ip = trim_zbits(set.client_ip,
+ cur->set.client_ip);
+ set.ip = trim_zbits(set.ip,
+ cur->set.ip);
+ set.nsip = trim_zbits(set.nsip,
+ cur->set.nsip);
+ }
+ parent = cur;
+ cur_num = DNS_RPZ_IP_BIT(tgt_ip, dbit);
+ cur = cur->child[cur_num];
+ continue;
+ }
+
+
+ /*
+ * dbit < tgt_prefix and dbit < cur->prefix,
+ * so we failed to match both the target and the current node.
+ * Insert a fork of a parent above the current node and
+ * add the target as a sibling of the current node
+ */
+ if (!create)
+ return (find_result);
+
+ sibling = new_node(rpzs, tgt_ip, tgt_prefix, NULL);
+ if (sibling == NULL)
+ return (ISC_R_NOMEMORY);
+ new_parent = new_node(rpzs, tgt_ip, dbit, cur);
+ if (new_parent == NULL) {
+ isc_mem_put(rpzs->mctx, sibling, sizeof(*sibling));
+ return (ISC_R_NOMEMORY);
+ }
+ new_parent->parent = parent;
+ if (parent == NULL)
+ rpzs->cidr = new_parent;
+ else
+ parent->child[cur_num] = new_parent;
+ child_num = DNS_RPZ_IP_BIT(tgt_ip, dbit);
+ new_parent->child[child_num] = sibling;
+ new_parent->child[1-child_num] = cur;
+ cur->parent = new_parent;
+ sibling->parent = new_parent;
+ sibling->set = *tgt_set;
+ set_sum_pair(sibling);
+ *found = sibling;
+ return (ISC_R_SUCCESS);
+ }
+}
+
+/*
+ * Add an IP address to the radix tree.
+ */
+static isc_result_t
+add_cidr(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, dns_name_t *src_name)
+{
+ dns_rpz_cidr_key_t tgt_ip;
+ dns_rpz_prefix_t tgt_prefix;
+ dns_rpz_addr_zbits_t set;
+ dns_rpz_cidr_node_t *found;
+ isc_result_t result;
+
+ result = name2ipkey(DNS_RPZ_ERROR_LEVEL, rpzs, rpz_num, rpz_type,
+ src_name, &tgt_ip, &tgt_prefix, &set);
+ /*
+ * Log complaints about bad owner names but let the zone load.
+ */
+ if (result != ISC_R_SUCCESS)
+ return (ISC_R_SUCCESS);
+
+ result = search(rpzs, &tgt_ip, tgt_prefix, &set, true, &found);
+ if (result != ISC_R_SUCCESS) {
+ char namebuf[DNS_NAME_FORMATSIZE];
+
+ /*
+ * Do not worry if the radix tree already exists,
+ * because diff_apply() likes to add nodes before deleting.
+ */
+ if (result == ISC_R_EXISTS)
+ return (ISC_R_SUCCESS);
+
+ /*
+ * bin/tests/system/rpz/tests.sh looks for "rpz.*failed".
+ */
+ dns_name_format(src_name, namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "rpz add_cidr(%s) failed: %s",
+ namebuf, isc_result_totext(result));
+ return (result);
+ }
+
+ adj_trigger_cnt(rpzs, rpz_num, rpz_type, &tgt_ip, tgt_prefix, true);
+ return (result);
+}
+
+static isc_result_t
+add_nm(dns_rpz_zones_t *rpzs, dns_name_t *trig_name,
+ const dns_rpz_nm_data_t *new_data)
+{
+ dns_rbtnode_t *nmnode;
+ dns_rpz_nm_data_t *nm_data;
+ isc_result_t result;
+
+ nmnode = NULL;
+ result = dns_rbt_addnode(rpzs->rbt, trig_name, &nmnode);
+ switch (result) {
+ case ISC_R_SUCCESS:
+ case ISC_R_EXISTS:
+ nm_data = nmnode->data;
+ if (nm_data == NULL) {
+ nm_data = isc_mem_get(rpzs->mctx, sizeof(*nm_data));
+ if (nm_data == NULL)
+ return (ISC_R_NOMEMORY);
+ *nm_data = *new_data;
+ nmnode->data = nm_data;
+ return (ISC_R_SUCCESS);
+ }
+ break;
+ default:
+ return (result);
+ }
+
+ /*
+ * Do not count bits that are already present
+ */
+ if ((nm_data->set.qname & new_data->set.qname) != 0 ||
+ (nm_data->set.ns & new_data->set.ns) != 0 ||
+ (nm_data->wild.qname & new_data->wild.qname) != 0 ||
+ (nm_data->wild.ns & new_data->wild.ns) != 0)
+ return (ISC_R_EXISTS);
+
+ nm_data->set.qname |= new_data->set.qname;
+ nm_data->set.ns |= new_data->set.ns;
+ nm_data->wild.qname |= new_data->wild.qname;
+ nm_data->wild.ns |= new_data->wild.ns;
+ return (ISC_R_SUCCESS);
+}
+
+static isc_result_t
+add_name(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, dns_name_t *src_name)
+{
+ dns_rpz_nm_data_t new_data;
+ dns_fixedname_t trig_namef;
+ dns_name_t *trig_name;
+ isc_result_t result;
+
+ /*
+ * We need a summary database of names even with 1 policy zone,
+ * because wildcard triggers are handled differently.
+ */
+
+ trig_name = dns_fixedname_initname(&trig_namef);
+ name2data(rpzs, rpz_num, rpz_type, src_name, trig_name, &new_data);
+
+ result = add_nm(rpzs, trig_name, &new_data);
+
+ /*
+ * Do not worry if the node already exists,
+ * because diff_apply() likes to add nodes before deleting.
+ */
+ if (result == ISC_R_EXISTS)
+ return (ISC_R_SUCCESS);
+ if (result == ISC_R_SUCCESS)
+ adj_trigger_cnt(rpzs, rpz_num, rpz_type, NULL, 0, true);
+ return (result);
+}
+
+/*
+ * Callback to free the data for a node in the summary RBT database.
+ */
+static void
+rpz_node_deleter(void *nm_data, void *mctx) {
+ isc_mem_put(mctx, nm_data, sizeof(dns_rpz_nm_data_t));
+}
+
+/*
+ * Get ready for a new set of policy zones for a view.
+ */
+isc_result_t
+dns_rpz_new_zones(dns_rpz_zones_t **rpzsp, isc_mem_t *mctx) {
+ dns_rpz_zones_t *new;
+ isc_result_t result;
+
+ REQUIRE(rpzsp != NULL && *rpzsp == NULL);
+
+ *rpzsp = NULL;
+
+ new = isc_mem_get(mctx, sizeof(*new));
+ if (new == NULL)
+ return (ISC_R_NOMEMORY);
+ memset(new, 0, sizeof(*new));
+
+ result = isc_rwlock_init(&new->search_lock, 0, 0);
+ if (result != ISC_R_SUCCESS) {
+ isc_mem_put(mctx, new, sizeof(*new));
+ return (result);
+ }
+
+ result = isc_mutex_init(&new->maint_lock);
+ if (result != ISC_R_SUCCESS) {
+ isc_rwlock_destroy(&new->search_lock);
+ isc_mem_put(mctx, new, sizeof(*new));
+ return (result);
+ }
+
+ result = isc_refcount_init(&new->refs, 1);
+ if (result != ISC_R_SUCCESS) {
+ DESTROYLOCK(&new->maint_lock);
+ isc_rwlock_destroy(&new->search_lock);
+ isc_mem_put(mctx, new, sizeof(*new));
+ return (result);
+ }
+
+ result = dns_rbt_create(mctx, rpz_node_deleter, mctx, &new->rbt);
+ if (result != ISC_R_SUCCESS) {
+ isc_refcount_decrement(&new->refs, NULL);
+ isc_refcount_destroy(&new->refs);
+ DESTROYLOCK(&new->maint_lock);
+ isc_rwlock_destroy(&new->search_lock);
+ isc_mem_put(mctx, new, sizeof(*new));
+ return (result);
+ }
+
+ isc_mem_attach(mctx, &new->mctx);
+
+ *rpzsp = new;
+ return (ISC_R_SUCCESS);
+}
+
+/*
+ * Free the radix tree of a response policy database.
+ */
+static void
+cidr_free(dns_rpz_zones_t *rpzs) {
+ dns_rpz_cidr_node_t *cur, *child, *parent;
+
+ cur = rpzs->cidr;
+ while (cur != NULL) {
+ /* Depth first. */
+ child = cur->child[0];
+ if (child != NULL) {
+ cur = child;
+ continue;
+ }
+ child = cur->child[1];
+ if (child != NULL) {
+ cur = child;
+ continue;
+ }
+
+ /* Delete this leaf and go up. */
+ parent = cur->parent;
+ if (parent == NULL)
+ rpzs->cidr = NULL;
+ else
+ parent->child[parent->child[1] == cur] = NULL;
+ isc_mem_put(rpzs->mctx, cur, sizeof(*cur));
+ cur = parent;
+ }
+}
+
+/*
+ * Discard a response policy zone blob
+ * before discarding the overall rpz structure.
+ */
+static void
+rpz_detach(dns_rpz_zone_t **rpzp, dns_rpz_zones_t *rpzs) {
+ dns_rpz_zone_t *rpz;
+ unsigned int refs;
+
+ rpz = *rpzp;
+ *rpzp = NULL;
+ isc_refcount_decrement(&rpz->refs, &refs);
+ if (refs != 0)
+ return;
+ isc_refcount_destroy(&rpz->refs);
+
+ if (dns_name_dynamic(&rpz->origin))
+ dns_name_free(&rpz->origin, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->client_ip))
+ dns_name_free(&rpz->client_ip, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->ip))
+ dns_name_free(&rpz->ip, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->nsdname))
+ dns_name_free(&rpz->nsdname, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->nsip))
+ dns_name_free(&rpz->nsip, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->passthru))
+ dns_name_free(&rpz->passthru, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->drop))
+ dns_name_free(&rpz->drop, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->tcp_only))
+ dns_name_free(&rpz->tcp_only, rpzs->mctx);
+ if (dns_name_dynamic(&rpz->cname))
+ dns_name_free(&rpz->cname, rpzs->mctx);
+
+ isc_mem_put(rpzs->mctx, rpz, sizeof(*rpz));
+}
+
+void
+dns_rpz_attach_rpzs(dns_rpz_zones_t *rpzs, dns_rpz_zones_t **rpzsp) {
+ REQUIRE(rpzsp != NULL && *rpzsp == NULL);
+ isc_refcount_increment(&rpzs->refs, NULL);
+ *rpzsp = rpzs;
+}
+
+/*
+ * Forget a view's policy zones.
+ */
+void
+dns_rpz_detach_rpzs(dns_rpz_zones_t **rpzsp) {
+ dns_rpz_zones_t *rpzs;
+ dns_rpz_zone_t *rpz;
+ dns_rpz_num_t rpz_num;
+ unsigned int refs;
+
+ REQUIRE(rpzsp != NULL);
+ rpzs = *rpzsp;
+ REQUIRE(rpzs != NULL);
+
+ *rpzsp = NULL;
+ isc_refcount_decrement(&rpzs->refs, &refs);
+ if (refs > 0)
+ return;
+
+ /*
+ * Forget the last of view's rpz machinery after the last
+ * reference.
+ */
+ for (rpz_num = 0; rpz_num < DNS_RPZ_MAX_ZONES; ++rpz_num) {
+ rpz = rpzs->zones[rpz_num];
+ rpzs->zones[rpz_num] = NULL;
+ if (rpz != NULL)
+ rpz_detach(&rpz, rpzs);
+ }
+
+ cidr_free(rpzs);
+ dns_rbt_destroy(&rpzs->rbt);
+ DESTROYLOCK(&rpzs->maint_lock);
+ isc_rwlock_destroy(&rpzs->search_lock);
+ isc_refcount_destroy(&rpzs->refs);
+ isc_mem_putanddetach(&rpzs->mctx, rpzs, sizeof(*rpzs));
+}
+
+/*
+ * Create empty summary database to load one zone.
+ * The RBTDB write tree lock must be held.
+ */
+isc_result_t
+dns_rpz_beginload(dns_rpz_zones_t **load_rpzsp,
+ dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num)
+{
+ dns_rpz_zones_t *load_rpzs;
+ dns_rpz_zone_t *rpz;
+ dns_rpz_zbits_t tgt;
+ isc_result_t result;
+
+ REQUIRE(rpz_num < rpzs->p.num_zones);
+ rpz = rpzs->zones[rpz_num];
+ REQUIRE(rpz != NULL);
+
+ /*
+ * When reloading a zone, there are usually records among the summary
+ * data for the zone. Some of those records might be deleted by the
+ * reloaded zone data. To deal with that case:
+ * reload the new zone data into a new blank summary database
+ * if the reload fails, discard the new summary database
+ * if the new zone data is acceptable, copy the records for the
+ * other zones into the new summary CIDR and RBT databases
+ * and replace the old summary databases with the new, and
+ * correct the triggers and have values for the updated
+ * zone.
+ *
+ * At the first attempt to load a zone, there is no summary data
+ * for the zone and so no records that need to be deleted.
+ * This is also the most common case of policy zone loading.
+ * Most policy zone maintenance should be by incremental changes
+ * and so by the addition and deletion of individual records.
+ * Detect that case and load records the first time into the
+ * operational summary database
+ */
+ tgt = DNS_RPZ_ZBIT(rpz_num);
+ LOCK(&rpzs->maint_lock);
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ if ((rpzs->load_begun & tgt) == 0) {
+ /*
+ * There is no existing version of the target zone.
+ */
+ rpzs->load_begun |= tgt;
+ dns_rpz_attach_rpzs(rpzs, load_rpzsp);
+ } else {
+ /*
+ * Setup the new RPZ struct with empty summary trees.
+ */
+ result = dns_rpz_new_zones(load_rpzsp, rpzs->mctx);
+ if (result != ISC_R_SUCCESS)
+ return (result);
+ load_rpzs = *load_rpzsp;
+ /*
+ * Initialize some members so that dns_rpz_add() works.
+ */
+ load_rpzs->p.num_zones = rpzs->p.num_zones;
+ memset(&load_rpzs->triggers, 0, sizeof(load_rpzs->triggers));
+ load_rpzs->zones[rpz_num] = rpz;
+ isc_refcount_increment(&rpz->refs, NULL);
+ }
+
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ UNLOCK(&rpzs->maint_lock);
+
+ return (ISC_R_SUCCESS);
+}
+
+/*
+ * This function updates "have" bits and also the qname_skip_recurse
+ * mask. It must be called when holding a write lock on rpzs->search_lock.
+ */
+static void
+fix_triggers(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num) {
+ dns_rpz_num_t n;
+ dns_rpz_triggers_t old_totals;
+ dns_rpz_zbits_t zbit;
+ char namebuf[DNS_NAME_FORMATSIZE];
+
+ /*
+ * rpzs->total_triggers is only used to log a message below.
+ */
+
+ memmove(&old_totals, &rpzs->total_triggers, sizeof(old_totals));
+ memset(&rpzs->total_triggers, 0, sizeof(rpzs->total_triggers));
+
+#define SET_TRIG(n, zbit, type) \
+ if (rpzs->triggers[n].type == 0U) { \
+ rpzs->have.type &= ~zbit; \
+ } else { \
+ rpzs->total_triggers.type += rpzs->triggers[n].type; \
+ rpzs->have.type |= zbit; \
+ }
+
+ for (n = 0; n < rpzs->p.num_zones; ++n) {
+ zbit = DNS_RPZ_ZBIT(n);
+ SET_TRIG(n, zbit, client_ipv4);
+ SET_TRIG(n, zbit, client_ipv6);
+ SET_TRIG(n, zbit, qname);
+ SET_TRIG(n, zbit, ipv4);
+ SET_TRIG(n, zbit, ipv6);
+ SET_TRIG(n, zbit, nsdname);
+ SET_TRIG(n, zbit, nsipv4);
+ SET_TRIG(n, zbit, nsipv6);
+ }
+
+#undef SET_TRIG
+
+ fix_qname_skip_recurse(rpzs);
+
+ dns_name_format(&rpzs->zones[rpz_num]->origin,
+ namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_INFO_LEVEL,
+ "(re)loading policy zone '%s' changed from"
+ " %lu to %lu qname, %lu to %lu nsdname,"
+ " %lu to %lu IP, %lu to %lu NSIP,"
+ " %lu to %lu CLIENTIP entries",
+ namebuf,
+ (unsigned long) old_totals.qname,
+ (unsigned long) rpzs->total_triggers.qname,
+ (unsigned long) old_totals.nsdname,
+ (unsigned long) rpzs->total_triggers.nsdname,
+ (unsigned long) old_totals.ipv4 + old_totals.ipv6,
+ (unsigned long) (rpzs->total_triggers.ipv4 +
+ rpzs->total_triggers.ipv6),
+ (unsigned long) old_totals.nsipv4 + old_totals.nsipv6,
+ (unsigned long) (rpzs->total_triggers.nsipv4 +
+ rpzs->total_triggers.nsipv6),
+ (unsigned long) old_totals.client_ipv4 +
+ old_totals.client_ipv6,
+ (unsigned long) (rpzs->total_triggers.client_ipv4 +
+ rpzs->total_triggers.client_ipv6));
+}
+
+/*
+ * Finish loading one zone. This function is called during a commit when
+ * a RPZ zone loading is complete. The RBTDB write tree lock must be
+ * held.
+ *
+ * Here, rpzs is a pointer to the view's common rpzs
+ * structure. *load_rpzsp is a rpzs structure that is local to the
+ * RBTDB, which is used during a single zone's load.
+ *
+ * During the zone load, i.e., between dns_rpz_beginload() and
+ * dns_rpz_ready(), only the zone that is being loaded updates
+ * *load_rpzsp. These updates in the summary databases inside load_rpzsp
+ * are made only for the rpz_num (and corresponding bit) of that
+ * zone. Nothing else reads or writes *load_rpzsp. The view's common
+ * rpzs is used during this time for queries.
+ *
+ * When zone loading is complete and we arrive here, the parts of the
+ * summary databases (CIDR and nsdname+qname RBT trees) from the view's
+ * common rpzs struct have to be merged into the summary databases of
+ * *load_rpzsp, as the summary databases of the view's common rpzs
+ * struct may have changed during the time the zone was being loaded.
+ *
+ * The function below carries out the merge. During the merge, it holds
+ * the maint_lock of the view's common rpzs struct so that it is not
+ * updated while the merging is taking place.
+ *
+ * After the merging is carried out, *load_rpzsp contains the most
+ * current state of the rpzs structure, i.e., the summary trees contain
+ * data for the new zone that was just loaded, as well as all other
+ * zones.
+ *
+ * Pointers to the summary databases of *load_rpzsp (CIDR and
+ * nsdname+qname RBT trees) are then swapped into the view's common rpz
+ * struct, so that the query path can continue using it. During the
+ * swap, the search_lock of the view's common rpz struct is acquired so
+ * that queries are paused while this swap occurs.
+ *
+ * The trigger counts for the new zone are also copied into the view's
+ * common rpz struct, and some other summary counts and masks are
+ * updated.
+ */
+isc_result_t
+dns_rpz_ready(dns_rpz_zones_t *rpzs,
+ dns_rpz_zones_t **load_rpzsp, dns_rpz_num_t rpz_num)
+{
+ dns_rpz_zones_t *load_rpzs;
+ const dns_rpz_cidr_node_t *cnode, *next_cnode, *parent_cnode;
+ dns_rpz_cidr_node_t *found;
+ dns_rpz_zbits_t new_bit;
+ dns_rpz_addr_zbits_t new_ip;
+ dns_rbt_t *rbt;
+ dns_rbtnodechain_t chain;
+ dns_rbtnode_t *nmnode;
+ dns_rpz_nm_data_t *nm_data, new_data;
+ dns_fixedname_t labelf, originf, namef;
+ dns_name_t *label, *origin, *name;
+ isc_result_t result;
+
+ INSIST(rpzs != NULL);
+ LOCK(&rpzs->maint_lock);
+ load_rpzs = *load_rpzsp;
+ INSIST(load_rpzs != NULL);
+
+ if (load_rpzs == rpzs) {
+ /*
+ * This is a successful initial zone loading, perhaps
+ * for a new instance of a view.
+ */
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ fix_triggers(rpzs, rpz_num);
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ UNLOCK(&rpzs->maint_lock);
+ dns_rpz_detach_rpzs(load_rpzsp);
+ return (ISC_R_SUCCESS);
+ }
+
+ LOCK(&load_rpzs->maint_lock);
+ RWLOCK(&load_rpzs->search_lock, isc_rwlocktype_write);
+
+ /*
+ * Unless there is only one policy zone, copy the other policy zones
+ * from the old policy structure to the new summary databases.
+ */
+ if (rpzs->p.num_zones > 1) {
+ new_bit = ~DNS_RPZ_ZBIT(rpz_num);
+
+ /*
+ * Copy to the radix tree.
+ */
+ for (cnode = rpzs->cidr; cnode != NULL; cnode = next_cnode) {
+ new_ip.ip = cnode->set.ip & new_bit;
+ new_ip.client_ip = cnode->set.client_ip & new_bit;
+ new_ip.nsip = cnode->set.nsip & new_bit;
+ if (new_ip.client_ip != 0 ||
+ new_ip.ip != 0 ||
+ new_ip.nsip != 0) {
+ result = search(load_rpzs,
+ &cnode->ip, cnode->prefix,
+ &new_ip, true, &found);
+ if (result == ISC_R_NOMEMORY)
+ goto unlock_and_detach;
+ INSIST(result == ISC_R_SUCCESS);
+ }
+ /*
+ * Do down and to the left as far as possible.
+ */
+ next_cnode = cnode->child[0];
+ if (next_cnode != NULL)
+ continue;
+ /*
+ * Go up until we find a branch to the right where
+ * we previously took the branch to the left.
+ */
+ for (;;) {
+ parent_cnode = cnode->parent;
+ if (parent_cnode == NULL)
+ break;
+ if (parent_cnode->child[0] == cnode) {
+ next_cnode = parent_cnode->child[1];
+ if (next_cnode != NULL)
+ break;
+ }
+ cnode = parent_cnode;
+ }
+ }
+
+ /*
+ * Copy to the summary RBT.
+ */
+ dns_fixedname_init(&namef);
+ name = dns_fixedname_name(&namef);
+ dns_fixedname_init(&labelf);
+ label = dns_fixedname_name(&labelf);
+ dns_fixedname_init(&originf);
+ origin = dns_fixedname_name(&originf);
+ dns_rbtnodechain_init(&chain, NULL);
+ result = dns_rbtnodechain_first(&chain, rpzs->rbt, NULL, NULL);
+ while (result == DNS_R_NEWORIGIN || result == ISC_R_SUCCESS) {
+ result = dns_rbtnodechain_current(&chain, label, origin,
+ &nmnode);
+ INSIST(result == ISC_R_SUCCESS);
+ nm_data = nmnode->data;
+ if (nm_data != NULL) {
+ new_data.set.qname = (nm_data->set.qname &
+ new_bit);
+ new_data.set.ns = nm_data->set.ns & new_bit;
+ new_data.wild.qname = (nm_data->wild.qname &
+ new_bit);
+ new_data.wild.ns = nm_data->wild.ns & new_bit;
+ if (new_data.set.qname != 0 ||
+ new_data.set.ns != 0 ||
+ new_data.wild.qname != 0 ||
+ new_data.wild.ns != 0) {
+ result = dns_name_concatenate(label,
+ origin, name, NULL);
+ INSIST(result == ISC_R_SUCCESS);
+ result = add_nm(load_rpzs, name,
+ &new_data);
+ if (result != ISC_R_SUCCESS)
+ goto unlock_and_detach;
+ }
+ }
+ result = dns_rbtnodechain_next(&chain, NULL, NULL);
+ }
+ if (result != ISC_R_NOMORE && result != ISC_R_NOTFOUND) {
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "dns_rpz_ready(): unexpected %s",
+ isc_result_totext(result));
+ goto unlock_and_detach;
+ }
+ }
+
+ /*
+ * Exchange the summary databases.
+ */
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+
+ rpzs->triggers[rpz_num] = load_rpzs->triggers[rpz_num];
+ fix_triggers(rpzs, rpz_num);
+
+ found = rpzs->cidr;
+ rpzs->cidr = load_rpzs->cidr;
+ load_rpzs->cidr = found;
+
+ rbt = rpzs->rbt;
+ rpzs->rbt = load_rpzs->rbt;
+ load_rpzs->rbt = rbt;
+
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+
+ result = ISC_R_SUCCESS;
+
+ unlock_and_detach:
+ UNLOCK(&rpzs->maint_lock);
+ RWUNLOCK(&load_rpzs->search_lock, isc_rwlocktype_write);
+ UNLOCK(&load_rpzs->maint_lock);
+ dns_rpz_detach_rpzs(load_rpzsp);
+ return (result);
+}
+
+/*
+ * Add an IP address to the radix tree or a name to the summary database.
+ */
+isc_result_t
+dns_rpz_add(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num, dns_name_t *src_name)
+{
+ dns_rpz_zone_t *rpz;
+ dns_rpz_type_t rpz_type;
+ isc_result_t result = ISC_R_FAILURE;
+
+ REQUIRE(rpzs != NULL && rpz_num < rpzs->p.num_zones);
+ rpz = rpzs->zones[rpz_num];
+ REQUIRE(rpz != NULL);
+
+ rpz_type = type_from_name(rpz, src_name);
+
+ LOCK(&rpzs->maint_lock);
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_QNAME:
+ case DNS_RPZ_TYPE_NSDNAME:
+ result = add_name(rpzs, rpz_num, rpz_type, src_name);
+ break;
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ case DNS_RPZ_TYPE_IP:
+ case DNS_RPZ_TYPE_NSIP:
+ result = add_cidr(rpzs, rpz_num, rpz_type, src_name);
+ break;
+ case DNS_RPZ_TYPE_BAD:
+ break;
+ }
+
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ UNLOCK(&rpzs->maint_lock);
+ return (result);
+}
+
+/*
+ * Remove an IP address from the radix tree.
+ */
+static void
+del_cidr(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, dns_name_t *src_name)
+{
+ isc_result_t result;
+ dns_rpz_cidr_key_t tgt_ip;
+ dns_rpz_prefix_t tgt_prefix;
+ dns_rpz_addr_zbits_t tgt_set;
+ dns_rpz_cidr_node_t *tgt, *parent, *child;
+
+ /*
+ * Do not worry about invalid rpz IP address names. If we
+ * are here, then something relevant was added and so was
+ * valid. Invalid names here are usually internal RBTDB nodes.
+ */
+ result = name2ipkey(DNS_RPZ_DEBUG_QUIET, rpzs, rpz_num, rpz_type,
+ src_name, &tgt_ip, &tgt_prefix, &tgt_set);
+ if (result != ISC_R_SUCCESS)
+ return;
+
+ result = search(rpzs, &tgt_ip, tgt_prefix, &tgt_set, false, &tgt);
+ if (result != ISC_R_SUCCESS) {
+ INSIST(result == ISC_R_NOTFOUND ||
+ result == DNS_R_PARTIALMATCH);
+ /*
+ * Do not worry about missing summary RBT nodes that probably
+ * correspond to RBTDB nodes that were implicit RBT nodes
+ * that were later added for (often empty) wildcards
+ * and then to the RBTDB deferred cleanup list.
+ */
+ return;
+ }
+
+ /*
+ * Mark the node and its parents to reflect the deleted IP address.
+ * Do not count bits that are already clear for internal RBTDB nodes.
+ */
+ tgt_set.client_ip &= tgt->set.client_ip;
+ tgt_set.ip &= tgt->set.ip;
+ tgt_set.nsip &= tgt->set.nsip;
+ tgt->set.client_ip &= ~tgt_set.client_ip;
+ tgt->set.ip &= ~tgt_set.ip;
+ tgt->set.nsip &= ~tgt_set.nsip;
+ set_sum_pair(tgt);
+
+ adj_trigger_cnt(rpzs, rpz_num, rpz_type, &tgt_ip, tgt_prefix, false);
+
+ /*
+ * We might need to delete 2 nodes.
+ */
+ do {
+ /*
+ * The node is now useless if it has no data of its own
+ * and 0 or 1 children. We are finished if it is not useless.
+ */
+ if ((child = tgt->child[0]) != NULL) {
+ if (tgt->child[1] != NULL)
+ break;
+ } else {
+ child = tgt->child[1];
+ }
+ if (tgt->set.client_ip != 0 ||
+ tgt->set.ip != 0 ||
+ tgt->set.nsip != 0)
+ break;
+
+ /*
+ * Replace the pointer to this node in the parent with
+ * the remaining child or NULL.
+ */
+ parent = tgt->parent;
+ if (parent == NULL) {
+ rpzs->cidr = child;
+ } else {
+ parent->child[parent->child[1] == tgt] = child;
+ }
+ /*
+ * If the child exists fix up its parent pointer.
+ */
+ if (child != NULL)
+ child->parent = parent;
+ isc_mem_put(rpzs->mctx, tgt, sizeof(*tgt));
+
+ tgt = parent;
+ } while (tgt != NULL);
+}
+
+static void
+del_name(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_rpz_type_t rpz_type, dns_name_t *src_name)
+{
+ char namebuf[DNS_NAME_FORMATSIZE];
+ dns_fixedname_t trig_namef;
+ dns_name_t *trig_name;
+ dns_rbtnode_t *nmnode;
+ dns_rpz_nm_data_t *nm_data, del_data;
+ isc_result_t result;
+ bool exists;
+
+ /*
+ * We need a summary database of names even with 1 policy zone,
+ * because wildcard triggers are handled differently.
+ */
+
+ trig_name = dns_fixedname_initname(&trig_namef);
+ name2data(rpzs, rpz_num, rpz_type, src_name, trig_name, &del_data);
+
+ nmnode = NULL;
+ result = dns_rbt_findnode(rpzs->rbt, trig_name, NULL, &nmnode, NULL, 0,
+ NULL, NULL);
+ if (result != ISC_R_SUCCESS) {
+ /*
+ * Do not worry about missing summary RBT nodes that probably
+ * correspond to RBTDB nodes that were implicit RBT nodes
+ * that were later added for (often empty) wildcards
+ * and then to the RBTDB deferred cleanup list.
+ */
+ if (result == ISC_R_NOTFOUND ||
+ result == DNS_R_PARTIALMATCH)
+ return;
+ dns_name_format(src_name, namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "rpz del_name(%s) node search failed: %s",
+ namebuf, isc_result_totext(result));
+ return;
+ }
+
+ nm_data = nmnode->data;
+ INSIST(nm_data != NULL);
+
+ /*
+ * Do not count bits that next existed for RBT nodes that would we
+ * would not have found in a summary for a single RBTDB tree.
+ */
+ del_data.set.qname &= nm_data->set.qname;
+ del_data.set.ns &= nm_data->set.ns;
+ del_data.wild.qname &= nm_data->wild.qname;
+ del_data.wild.ns &= nm_data->wild.ns;
+
+ exists = (del_data.set.qname != 0 ||
+ del_data.set.ns != 0 ||
+ del_data.wild.qname != 0 ||
+ del_data.wild.ns != 0);
+
+ nm_data->set.qname &= ~del_data.set.qname;
+ nm_data->set.ns &= ~del_data.set.ns;
+ nm_data->wild.qname &= ~del_data.wild.qname;
+ nm_data->wild.ns &= ~del_data.wild.ns;
+
+ if (nm_data->set.qname == 0 && nm_data->set.ns == 0 &&
+ nm_data->wild.qname == 0 && nm_data->wild.ns == 0) {
+ result = dns_rbt_deletenode(rpzs->rbt, nmnode, false);
+ if (result != ISC_R_SUCCESS) {
+ /*
+ * bin/tests/system/rpz/tests.sh looks for "rpz.*failed".
+ */
+ dns_name_format(src_name, namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "rpz del_name(%s) node delete failed: %s",
+ namebuf, isc_result_totext(result));
+ }
+ }
+
+ if (exists)
+ adj_trigger_cnt(rpzs, rpz_num, rpz_type, NULL, 0, false);
+}
+
+/*
+ * Remove an IP address from the radix tree or a name from the summary database.
+ */
+void
+dns_rpz_delete(dns_rpz_zones_t *rpzs, dns_rpz_num_t rpz_num,
+ dns_name_t *src_name) {
+ dns_rpz_zone_t *rpz;
+ dns_rpz_type_t rpz_type;
+
+ REQUIRE(rpzs != NULL && rpz_num < rpzs->p.num_zones);
+ rpz = rpzs->zones[rpz_num];
+ REQUIRE(rpz != NULL);
+
+ rpz_type = type_from_name(rpz, src_name);
+
+ LOCK(&rpzs->maint_lock);
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_QNAME:
+ case DNS_RPZ_TYPE_NSDNAME:
+ del_name(rpzs, rpz_num, rpz_type, src_name);
+ break;
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ case DNS_RPZ_TYPE_IP:
+ case DNS_RPZ_TYPE_NSIP:
+ del_cidr(rpzs, rpz_num, rpz_type, src_name);
+ break;
+ case DNS_RPZ_TYPE_BAD:
+ break;
+ }
+
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_write);
+ UNLOCK(&rpzs->maint_lock);
+}
+
+/*
+ * Search the summary radix tree to get a relative owner name in a
+ * policy zone relevant to a triggering IP address.
+ * rpz_type and zbits limit the search for IP address netaddr
+ * return the policy zone's number or DNS_RPZ_INVALID_NUM
+ * ip_name is the relative owner name found and
+ * *prefixp is its prefix length.
+ */
+dns_rpz_num_t
+dns_rpz_find_ip(dns_rpz_zones_t *rpzs, dns_rpz_type_t rpz_type,
+ dns_rpz_zbits_t zbits, const isc_netaddr_t *netaddr,
+ dns_name_t *ip_name, dns_rpz_prefix_t *prefixp)
+{
+ dns_rpz_cidr_key_t tgt_ip;
+ dns_rpz_addr_zbits_t tgt_set;
+ dns_rpz_cidr_node_t *found;
+ isc_result_t result;
+ dns_rpz_num_t rpz_num;
+ dns_rpz_have_t have;
+ int i;
+
+ LOCK(&rpzs->maint_lock);
+ have = rpzs->have;
+ UNLOCK(&rpzs->maint_lock);
+
+ /*
+ * Convert IP address to CIDR tree key.
+ */
+ if (netaddr->family == AF_INET) {
+ tgt_ip.w[0] = 0;
+ tgt_ip.w[1] = 0;
+ tgt_ip.w[2] = ADDR_V4MAPPED;
+ tgt_ip.w[3] = ntohl(netaddr->type.in.s_addr);
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ zbits &= have.client_ipv4;
+ break;
+ case DNS_RPZ_TYPE_IP:
+ zbits &= have.ipv4;
+ break;
+ case DNS_RPZ_TYPE_NSIP:
+ zbits &= have.nsipv4;
+ break;
+ default:
+ INSIST(0);
+ break;
+ }
+ } else if (netaddr->family == AF_INET6) {
+ dns_rpz_cidr_key_t src_ip6;
+
+ /*
+ * Given the int aligned struct in_addr member of netaddr->type
+ * one could cast netaddr->type.in6 to dns_rpz_cidr_key_t *,
+ * but some people object.
+ */
+ memmove(src_ip6.w, &netaddr->type.in6, sizeof(src_ip6.w));
+ for (i = 0; i < 4; i++) {
+ tgt_ip.w[i] = ntohl(src_ip6.w[i]);
+ }
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ zbits &= have.client_ipv6;
+ break;
+ case DNS_RPZ_TYPE_IP:
+ zbits &= have.ipv6;
+ break;
+ case DNS_RPZ_TYPE_NSIP:
+ zbits &= have.nsipv6;
+ break;
+ default:
+ INSIST(0);
+ break;
+ }
+ } else {
+ return (DNS_RPZ_INVALID_NUM);
+ }
+
+ if (zbits == 0)
+ return (DNS_RPZ_INVALID_NUM);
+ make_addr_set(&tgt_set, zbits, rpz_type);
+
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_read);
+ result = search(rpzs, &tgt_ip, 128, &tgt_set, false, &found);
+ if (result == ISC_R_NOTFOUND) {
+ /*
+ * There are no eligible zones for this IP address.
+ */
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_read);
+ return (DNS_RPZ_INVALID_NUM);
+ }
+
+ /*
+ * Construct the trigger name for the longest matching trigger
+ * in the first eligible zone with a match.
+ */
+ *prefixp = found->prefix;
+ switch (rpz_type) {
+ case DNS_RPZ_TYPE_CLIENT_IP:
+ rpz_num = zbit_to_num(found->set.client_ip & tgt_set.client_ip);
+ break;
+ case DNS_RPZ_TYPE_IP:
+ rpz_num = zbit_to_num(found->set.ip & tgt_set.ip);
+ break;
+ case DNS_RPZ_TYPE_NSIP:
+ rpz_num = zbit_to_num(found->set.nsip & tgt_set.nsip);
+ break;
+ default:
+ INSIST(0);
+ break;
+ }
+ result = ip2name(&found->ip, found->prefix, dns_rootname, ip_name);
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_read);
+ if (result != ISC_R_SUCCESS) {
+ /*
+ * bin/tests/system/rpz/tests.sh looks for "rpz.*failed".
+ */
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "rpz ip2name() failed: %s",
+ isc_result_totext(result));
+ return (DNS_RPZ_INVALID_NUM);
+ }
+ return (rpz_num);
+}
+
+/*
+ * Search the summary radix tree for policy zones with triggers matching
+ * a name.
+ */
+dns_rpz_zbits_t
+dns_rpz_find_name(dns_rpz_zones_t *rpzs, dns_rpz_type_t rpz_type,
+ dns_rpz_zbits_t zbits, dns_name_t *trig_name)
+{
+ char namebuf[DNS_NAME_FORMATSIZE];
+ dns_rbtnode_t *nmnode;
+ const dns_rpz_nm_data_t *nm_data;
+ dns_rpz_zbits_t found_zbits;
+ isc_result_t result;
+
+ if (zbits == 0)
+ return (0);
+
+ found_zbits = 0;
+
+ RWLOCK(&rpzs->search_lock, isc_rwlocktype_read);
+
+ nmnode = NULL;
+ result = dns_rbt_findnode(rpzs->rbt, trig_name, NULL, &nmnode, NULL,
+ DNS_RBTFIND_EMPTYDATA, NULL, NULL);
+ switch (result) {
+ case ISC_R_SUCCESS:
+ nm_data = nmnode->data;
+ if (nm_data != NULL) {
+ if (rpz_type == DNS_RPZ_TYPE_QNAME)
+ found_zbits = nm_data->set.qname;
+ else
+ found_zbits = nm_data->set.ns;
+ }
+ nmnode = nmnode->parent;
+ /* fall thru */
+ case DNS_R_PARTIALMATCH:
+ while (nmnode != NULL) {
+ nm_data = nmnode->data;
+ if (nm_data != NULL) {
+ if (rpz_type == DNS_RPZ_TYPE_QNAME)
+ found_zbits |= nm_data->wild.qname;
+ else
+ found_zbits |= nm_data->wild.ns;
+ }
+ nmnode = nmnode->parent;
+ }
+ break;
+
+ case ISC_R_NOTFOUND:
+ break;
+
+ default:
+ /*
+ * bin/tests/system/rpz/tests.sh looks for "rpz.*failed".
+ */
+ dns_name_format(trig_name, namebuf, sizeof(namebuf));
+ isc_log_write(dns_lctx, DNS_LOGCATEGORY_RPZ,
+ DNS_LOGMODULE_RBTDB, DNS_RPZ_ERROR_LEVEL,
+ "dns_rpz_find_name(%s) failed: %s",
+ namebuf, isc_result_totext(result));
+ break;
+ }
+
+ RWUNLOCK(&rpzs->search_lock, isc_rwlocktype_read);
+ return (zbits & found_zbits);
+}
+
+/*
+ * Translate CNAME rdata to a QNAME response policy action.
+ */
+dns_rpz_policy_t
+dns_rpz_decode_cname(dns_rpz_zone_t *rpz, dns_rdataset_t *rdataset,
+ dns_name_t *selfname)
+{
+ dns_rdata_t rdata = DNS_RDATA_INIT;
+ dns_rdata_cname_t cname;
+ isc_result_t result;
+
+ result = dns_rdataset_first(rdataset);
+ INSIST(result == ISC_R_SUCCESS);
+ dns_rdataset_current(rdataset, &rdata);
+ result = dns_rdata_tostruct(&rdata, &cname, NULL);
+ INSIST(result == ISC_R_SUCCESS);
+ dns_rdata_reset(&rdata);
+
+ /*
+ * CNAME . means NXDOMAIN
+ */
+ if (dns_name_equal(&cname.cname, dns_rootname))
+ return (DNS_RPZ_POLICY_NXDOMAIN);
+
+ if (dns_name_iswildcard(&cname.cname)) {
+ /*
+ * CNAME *. means NODATA
+ */
+ if (dns_name_countlabels(&cname.cname) == 2)
+ return (DNS_RPZ_POLICY_NODATA);
+
+ /*
+ * A qname of www.evil.com and a policy of
+ * *.evil.com CNAME *.garden.net
+ * gives a result of
+ * evil.com CNAME evil.com.garden.net
+ */
+ if (dns_name_countlabels(&cname.cname) > 2)
+ return (DNS_RPZ_POLICY_WILDCNAME);
+ }
+
+ /*
+ * CNAME rpz-tcp-only. means "send truncated UDP responses."
+ */
+ if (dns_name_equal(&cname.cname, &rpz->tcp_only))
+ return (DNS_RPZ_POLICY_TCP_ONLY);
+
+ /*
+ * CNAME rpz-drop. means "do not respond."
+ */
+ if (dns_name_equal(&cname.cname, &rpz->drop))
+ return (DNS_RPZ_POLICY_DROP);
+
+ /*
+ * CNAME rpz-passthru. means "do not rewrite."
+ */
+ if (dns_name_equal(&cname.cname, &rpz->passthru))
+ return (DNS_RPZ_POLICY_PASSTHRU);
+
+ /*
+ * 128.1.0.127.rpz-ip CNAME 128.1.0.0.127. is obsolete PASSTHRU
+ */
+ if (selfname != NULL && dns_name_equal(&cname.cname, selfname))
+ return (DNS_RPZ_POLICY_PASSTHRU);
+
+ /*
+ * Any other rdata gives a response consisting of the rdata.
+ */
+ return (DNS_RPZ_POLICY_RECORD);
+}
generated by cgit v1.2.3 (git 2.39.1) at 2024-11-29 10:53:49 +0000