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|
/*
* This file is part of PowerDNS or dnsdist.
* Copyright -- PowerDNS.COM B.V. and its contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* In addition, for the avoidance of any doubt, permission is granted to
* link this program with OpenSSL and to (re)distribute the binaries
* produced as the result of such linking.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#pragma once
#include <boost/multi_index_container.hpp>
#include <boost/multi_index/ordered_index.hpp>
#include <boost/multi_index/sequenced_index.hpp>
#include <boost/multi_index/key_extractors.hpp>
#include "cachecleaner.hh"
#include "dnsdist.hh"
#include "dnsdist-ecs.hh"
#include "dnsdist-kvs.hh"
#include "dnsdist-lua-ffi.hh"
#include "dolog.hh"
#include "dnsparser.hh"
class MaxQPSIPRule : public DNSRule
{
public:
MaxQPSIPRule(unsigned int qps, unsigned int burst, unsigned int ipv4trunc=32, unsigned int ipv6trunc=64, unsigned int expiration=300, unsigned int cleanupDelay=60, unsigned int scanFraction=10, size_t shardsCount=10):
d_shards(shardsCount), d_qps(qps), d_burst(burst), d_ipv4trunc(ipv4trunc), d_ipv6trunc(ipv6trunc), d_cleanupDelay(cleanupDelay), d_expiration(expiration), d_scanFraction(scanFraction)
{
d_cleaningUp.clear();
gettime(&d_lastCleanup, true);
}
void clear()
{
for (auto& shard : d_shards) {
shard.lock()->clear();
}
}
size_t cleanup(const struct timespec& cutOff, size_t* scannedCount=nullptr) const
{
size_t removed = 0;
if (scannedCount != nullptr) {
*scannedCount = 0;
}
for (auto& shard : d_shards) {
auto limits = shard.lock();
const size_t toLook = std::round((1.0 * limits->size()) / d_scanFraction)+ 1;
size_t lookedAt = 0;
auto& sequence = limits->get<SequencedTag>();
for (auto entry = sequence.begin(); entry != sequence.end() && lookedAt < toLook; lookedAt++) {
if (entry->d_limiter.seenSince(cutOff)) {
/* entries are ordered from least recently seen to more recently
seen, as soon as we see one that has not expired yet, we are
done */
lookedAt++;
break;
}
entry = sequence.erase(entry);
removed++;
}
if (scannedCount != nullptr) {
*scannedCount += lookedAt;
}
}
return removed;
}
void cleanupIfNeeded(const struct timespec& now) const
{
if (d_cleanupDelay > 0) {
struct timespec cutOff = d_lastCleanup;
cutOff.tv_sec += d_cleanupDelay;
if (cutOff < now) {
try {
if (d_cleaningUp.test_and_set()) {
return;
}
d_lastCleanup = now;
/* the QPS Limiter doesn't use realtime, be careful! */
gettime(&cutOff, false);
cutOff.tv_sec -= d_expiration;
cleanup(cutOff);
d_cleaningUp.clear();
}
catch (...) {
d_cleaningUp.clear();
throw;
}
}
}
}
bool matches(const DNSQuestion* dq) const override
{
cleanupIfNeeded(dq->getQueryRealTime());
ComboAddress zeroport(dq->ids.origRemote);
zeroport.sin4.sin_port=0;
zeroport.truncate(zeroport.sin4.sin_family == AF_INET ? d_ipv4trunc : d_ipv6trunc);
auto hash = ComboAddress::addressOnlyHash()(zeroport);
auto& shard = d_shards[hash % d_shards.size()];
{
auto limits = shard.lock();
auto iter = limits->find(zeroport);
if (iter == limits->end()) {
Entry e(zeroport, QPSLimiter(d_qps, d_burst));
iter = limits->insert(e).first;
}
moveCacheItemToBack<SequencedTag>(*limits, iter);
return !iter->d_limiter.check(d_qps, d_burst);
}
}
string toString() const override
{
return "IP (/"+std::to_string(d_ipv4trunc)+", /"+std::to_string(d_ipv6trunc)+") match for QPS over " + std::to_string(d_qps) + " burst "+ std::to_string(d_burst);
}
size_t getEntriesCount() const
{
size_t count = 0;
for (auto& shard : d_shards) {
count += shard.lock()->size();
}
return count;
}
size_t getNumberOfShards() const
{
return d_shards.size();
}
private:
struct HashedTag {};
struct SequencedTag {};
struct Entry
{
Entry(const ComboAddress& addr, BasicQPSLimiter&& limiter): d_limiter(limiter), d_addr(addr)
{
}
mutable BasicQPSLimiter d_limiter;
ComboAddress d_addr;
};
typedef multi_index_container<
Entry,
indexed_by <
hashed_unique<tag<HashedTag>, member<Entry,ComboAddress,&Entry::d_addr>, ComboAddress::addressOnlyHash >,
sequenced<tag<SequencedTag> >
>
> qpsContainer_t;
mutable std::vector<LockGuarded<qpsContainer_t>> d_shards;
mutable struct timespec d_lastCleanup;
const unsigned int d_qps, d_burst, d_ipv4trunc, d_ipv6trunc, d_cleanupDelay, d_expiration;
const unsigned int d_scanFraction{10};
mutable std::atomic_flag d_cleaningUp;
};
class MaxQPSRule : public DNSRule
{
public:
MaxQPSRule(unsigned int qps)
: d_qps(qps, qps)
{}
MaxQPSRule(unsigned int qps, unsigned int burst)
: d_qps(qps, burst)
{}
bool matches(const DNSQuestion* qd) const override
{
return d_qps.check();
}
string toString() const override
{
return "Max " + std::to_string(d_qps.getRate()) + " qps";
}
private:
mutable QPSLimiter d_qps;
};
class NMGRule : public DNSRule
{
public:
NMGRule(const NetmaskGroup& nmg) : d_nmg(nmg) {}
protected:
NetmaskGroup d_nmg;
};
class NetmaskGroupRule : public NMGRule
{
public:
NetmaskGroupRule(const NetmaskGroup& nmg, bool src, bool quiet = false) : NMGRule(nmg)
{
d_src = src;
d_quiet = quiet;
}
bool matches(const DNSQuestion* dq) const override
{
if(!d_src) {
return d_nmg.match(dq->ids.origDest);
}
return d_nmg.match(dq->ids.origRemote);
}
string toString() const override
{
string ret = "Src: ";
if(!d_src) {
ret = "Dst: ";
}
if (d_quiet) {
return ret + "in-group";
}
return ret + d_nmg.toString();
}
private:
bool d_src;
bool d_quiet;
};
class TimedIPSetRule : public DNSRule, boost::noncopyable
{
private:
struct IPv6 {
IPv6(const ComboAddress& ca)
{
static_assert(sizeof(*this)==16, "IPv6 struct has wrong size");
memcpy((char*)this, ca.sin6.sin6_addr.s6_addr, 16);
}
bool operator==(const IPv6& rhs) const
{
return a==rhs.a && b==rhs.b;
}
uint64_t a, b;
};
public:
TimedIPSetRule()
{
}
~TimedIPSetRule()
{
}
bool matches(const DNSQuestion* dq) const override
{
if (dq->ids.origRemote.sin4.sin_family == AF_INET) {
auto ip4s = d_ip4s.read_lock();
auto fnd = ip4s->find(dq->ids.origRemote.sin4.sin_addr.s_addr);
if (fnd == ip4s->end()) {
return false;
}
return time(nullptr) < fnd->second;
} else {
auto ip6s = d_ip6s.read_lock();
auto fnd = ip6s->find({dq->ids.origRemote});
if (fnd == ip6s->end()) {
return false;
}
return time(nullptr) < fnd->second;
}
}
void add(const ComboAddress& ca, time_t ttd)
{
// think twice before adding templates here
if (ca.sin4.sin_family == AF_INET) {
auto res = d_ip4s.write_lock()->insert({ca.sin4.sin_addr.s_addr, ttd});
if (!res.second && (time_t)res.first->second < ttd) {
res.first->second = (uint32_t)ttd;
}
}
else {
auto res = d_ip6s.write_lock()->insert({{ca}, ttd});
if (!res.second && (time_t)res.first->second < ttd) {
// coverity[store_truncates_time_t]
res.first->second = (uint32_t)ttd;
}
}
}
void remove(const ComboAddress& ca)
{
if (ca.sin4.sin_family == AF_INET) {
d_ip4s.write_lock()->erase(ca.sin4.sin_addr.s_addr);
}
else {
d_ip6s.write_lock()->erase({ca});
}
}
void clear()
{
d_ip4s.write_lock()->clear();
d_ip6s.write_lock()->clear();
}
void cleanup()
{
time_t now = time(nullptr);
{
auto ip4s = d_ip4s.write_lock();
for (auto iter = ip4s->begin(); iter != ip4s->end(); ) {
if (iter->second < now) {
iter = ip4s->erase(iter);
}
else {
++iter;
}
}
}
{
auto ip6s = d_ip6s.write_lock();
for (auto iter = ip6s->begin(); iter != ip6s->end(); ) {
if (iter->second < now) {
iter = ip6s->erase(iter);
}
else {
++iter;
}
}
}
}
string toString() const override
{
time_t now = time(nullptr);
uint64_t count = 0;
for (const auto& ip : *(d_ip4s.read_lock())) {
if (now < ip.second) {
++count;
}
}
for (const auto& ip : *(d_ip6s.read_lock())) {
if (now < ip.second) {
++count;
}
}
return "Src: "+std::to_string(count)+" ips";
}
private:
struct IPv6Hash
{
std::size_t operator()(const IPv6& ip) const
{
auto ah=std::hash<uint64_t>{}(ip.a);
auto bh=std::hash<uint64_t>{}(ip.b);
return ah & (bh<<1);
}
};
mutable SharedLockGuarded<std::unordered_map<IPv6, time_t, IPv6Hash>> d_ip6s;
mutable SharedLockGuarded<std::unordered_map<uint32_t, time_t>> d_ip4s;
};
class AllRule : public DNSRule
{
public:
AllRule() {}
bool matches(const DNSQuestion* dq) const override
{
return true;
}
string toString() const override
{
return "All";
}
};
class DNSSECRule : public DNSRule
{
public:
DNSSECRule()
{
}
bool matches(const DNSQuestion* dq) const override
{
return dq->getHeader()->cd || (getEDNSZ(*dq) & EDNS_HEADER_FLAG_DO); // turns out dig sets ad by default..
}
string toString() const override
{
return "DNSSEC";
}
};
class AndRule : public DNSRule
{
public:
AndRule(const std::vector<pair<int, std::shared_ptr<DNSRule> > >& rules)
{
for (const auto& r : rules) {
d_rules.push_back(r.second);
}
}
bool matches(const DNSQuestion* dq) const override
{
for (const auto& rule : d_rules) {
if (!rule->matches(dq)) {
return false;
}
}
return true;
}
string toString() const override
{
string ret;
for (const auto& rule : d_rules) {
if (!ret.empty()) {
ret+= " && ";
}
ret += "("+ rule->toString()+")";
}
return ret;
}
private:
std::vector<std::shared_ptr<DNSRule> > d_rules;
};
class OrRule : public DNSRule
{
public:
OrRule(const std::vector<pair<int, std::shared_ptr<DNSRule> > >& rules)
{
for (const auto& r : rules) {
d_rules.push_back(r.second);
}
}
bool matches(const DNSQuestion* dq) const override
{
for (const auto& rule: d_rules) {
if (rule->matches(dq)) {
return true;
}
}
return false;
}
string toString() const override
{
string ret;
for (const auto& rule : d_rules) {
if (!ret.empty()) {
ret+= " || ";
}
ret += "("+ rule->toString()+")";
}
return ret;
}
private:
std::vector<std::shared_ptr<DNSRule> > d_rules;
};
class RegexRule : public DNSRule
{
public:
RegexRule(const std::string& regex) : d_regex(regex), d_visual(regex)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_regex.match(dq->ids.qname.toStringNoDot());
}
string toString() const override
{
return "Regex: "+d_visual;
}
private:
Regex d_regex;
string d_visual;
};
#ifdef HAVE_RE2
#include <re2/re2.h>
class RE2Rule : public DNSRule
{
public:
RE2Rule(const std::string& re2) : d_re2(re2, RE2::Latin1), d_visual(re2)
{
}
bool matches(const DNSQuestion* dq) const override
{
return RE2::FullMatch(dq->ids.qname.toStringNoDot(), d_re2);
}
string toString() const override
{
return "RE2 match: "+d_visual;
}
private:
RE2 d_re2;
string d_visual;
};
#endif
#ifdef HAVE_DNS_OVER_HTTPS
class HTTPHeaderRule : public DNSRule
{
public:
HTTPHeaderRule(const std::string& header, const std::string& regex);
bool matches(const DNSQuestion* dq) const override;
string toString() const override;
private:
string d_header;
Regex d_regex;
string d_visual;
};
class HTTPPathRule : public DNSRule
{
public:
HTTPPathRule(const std::string& path);
bool matches(const DNSQuestion* dq) const override;
string toString() const override;
private:
string d_path;
};
class HTTPPathRegexRule : public DNSRule
{
public:
HTTPPathRegexRule(const std::string& regex);
bool matches(const DNSQuestion* dq) const override;
string toString() const override;
private:
Regex d_regex;
std::string d_visual;
};
#endif
class SNIRule : public DNSRule
{
public:
SNIRule(const std::string& name) : d_sni(name)
{
}
bool matches(const DNSQuestion* dq) const override
{
return dq->sni == d_sni;
}
string toString() const override
{
return "SNI == " + d_sni;
}
private:
std::string d_sni;
};
class SuffixMatchNodeRule : public DNSRule
{
public:
SuffixMatchNodeRule(const SuffixMatchNode& smn, bool quiet=false) : d_smn(smn), d_quiet(quiet)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_smn.check(dq->ids.qname);
}
string toString() const override
{
if(d_quiet)
return "qname==in-set";
else
return "qname in "+d_smn.toString();
}
private:
SuffixMatchNode d_smn;
bool d_quiet;
};
class QNameRule : public DNSRule
{
public:
QNameRule(const DNSName& qname) : d_qname(qname)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_qname==dq->ids.qname;
}
string toString() const override
{
return "qname=="+d_qname.toString();
}
private:
DNSName d_qname;
};
class QNameSetRule : public DNSRule {
public:
QNameSetRule(const DNSNameSet& names) : qname_idx(names) {}
bool matches(const DNSQuestion* dq) const override {
return qname_idx.find(dq->ids.qname) != qname_idx.end();
}
string toString() const override {
std::stringstream ss;
ss << "qname in DNSNameSet(" << qname_idx.size() << " FQDNs)";
return ss.str();
}
private:
DNSNameSet qname_idx;
};
class QTypeRule : public DNSRule
{
public:
QTypeRule(uint16_t qtype) : d_qtype(qtype)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_qtype == dq->ids.qtype;
}
string toString() const override
{
QType qt(d_qtype);
return "qtype=="+qt.toString();
}
private:
uint16_t d_qtype;
};
class QClassRule : public DNSRule
{
public:
QClassRule(uint16_t qclass) : d_qclass(qclass)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_qclass == dq->ids.qclass;
}
string toString() const override
{
return "qclass=="+std::to_string(d_qclass);
}
private:
uint16_t d_qclass;
};
class OpcodeRule : public DNSRule
{
public:
OpcodeRule(uint8_t opcode) : d_opcode(opcode)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_opcode == dq->getHeader()->opcode;
}
string toString() const override
{
return "opcode=="+std::to_string(d_opcode);
}
private:
uint8_t d_opcode;
};
class DSTPortRule : public DNSRule
{
public:
DSTPortRule(uint16_t port) : d_port(port)
{
}
bool matches(const DNSQuestion* dq) const override
{
return htons(d_port) == dq->ids.origDest.sin4.sin_port;
}
string toString() const override
{
return "dst port=="+std::to_string(d_port);
}
private:
uint16_t d_port;
};
class TCPRule : public DNSRule
{
public:
TCPRule(bool tcp): d_tcp(tcp)
{
}
bool matches(const DNSQuestion* dq) const override
{
return dq->overTCP() == d_tcp;
}
string toString() const override
{
return (d_tcp ? "TCP" : "UDP");
}
private:
bool d_tcp;
};
class NotRule : public DNSRule
{
public:
NotRule(const std::shared_ptr<DNSRule>& rule): d_rule(rule)
{
}
bool matches(const DNSQuestion* dq) const override
{
return !d_rule->matches(dq);
}
string toString() const override
{
return "!("+ d_rule->toString()+")";
}
private:
std::shared_ptr<DNSRule> d_rule;
};
class RecordsCountRule : public DNSRule
{
public:
RecordsCountRule(uint8_t section, uint16_t minCount, uint16_t maxCount): d_minCount(minCount), d_maxCount(maxCount), d_section(section)
{
}
bool matches(const DNSQuestion* dq) const override
{
uint16_t count = 0;
switch(d_section) {
case 0:
count = ntohs(dq->getHeader()->qdcount);
break;
case 1:
count = ntohs(dq->getHeader()->ancount);
break;
case 2:
count = ntohs(dq->getHeader()->nscount);
break;
case 3:
count = ntohs(dq->getHeader()->arcount);
break;
}
return count >= d_minCount && count <= d_maxCount;
}
string toString() const override
{
string section;
switch(d_section) {
case 0:
section = "QD";
break;
case 1:
section = "AN";
break;
case 2:
section = "NS";
break;
case 3:
section = "AR";
break;
}
return std::to_string(d_minCount) + " <= records in " + section + " <= "+ std::to_string(d_maxCount);
}
private:
uint16_t d_minCount;
uint16_t d_maxCount;
uint8_t d_section;
};
class RecordsTypeCountRule : public DNSRule
{
public:
RecordsTypeCountRule(uint8_t section, uint16_t type, uint16_t minCount, uint16_t maxCount): d_type(type), d_minCount(minCount), d_maxCount(maxCount), d_section(section)
{
}
bool matches(const DNSQuestion* dq) const override
{
uint16_t count = 0;
switch(d_section) {
case 0:
count = ntohs(dq->getHeader()->qdcount);
break;
case 1:
count = ntohs(dq->getHeader()->ancount);
break;
case 2:
count = ntohs(dq->getHeader()->nscount);
break;
case 3:
count = ntohs(dq->getHeader()->arcount);
break;
}
if (count < d_minCount) {
return false;
}
count = getRecordsOfTypeCount(reinterpret_cast<const char*>(dq->getData().data()), dq->getData().size(), d_section, d_type);
return count >= d_minCount && count <= d_maxCount;
}
string toString() const override
{
string section;
switch(d_section) {
case 0:
section = "QD";
break;
case 1:
section = "AN";
break;
case 2:
section = "NS";
break;
case 3:
section = "AR";
break;
}
return std::to_string(d_minCount) + " <= " + QType(d_type).toString() + " records in " + section + " <= "+ std::to_string(d_maxCount);
}
private:
uint16_t d_type;
uint16_t d_minCount;
uint16_t d_maxCount;
uint8_t d_section;
};
class TrailingDataRule : public DNSRule
{
public:
TrailingDataRule()
{
}
bool matches(const DNSQuestion* dq) const override
{
uint16_t length = getDNSPacketLength(reinterpret_cast<const char*>(dq->getData().data()), dq->getData().size());
return length < dq->getData().size();
}
string toString() const override
{
return "trailing data";
}
};
class QNameLabelsCountRule : public DNSRule
{
public:
QNameLabelsCountRule(unsigned int minLabelsCount, unsigned int maxLabelsCount): d_min(minLabelsCount), d_max(maxLabelsCount)
{
}
bool matches(const DNSQuestion* dq) const override
{
unsigned int count = dq->ids.qname.countLabels();
return count < d_min || count > d_max;
}
string toString() const override
{
return "labels count < " + std::to_string(d_min) + " || labels count > " + std::to_string(d_max);
}
private:
unsigned int d_min;
unsigned int d_max;
};
class QNameWireLengthRule : public DNSRule
{
public:
QNameWireLengthRule(size_t min, size_t max): d_min(min), d_max(max)
{
}
bool matches(const DNSQuestion* dq) const override
{
size_t const wirelength = dq->ids.qname.wirelength();
return wirelength < d_min || wirelength > d_max;
}
string toString() const override
{
return "wire length < " + std::to_string(d_min) + " || wire length > " + std::to_string(d_max);
}
private:
size_t d_min;
size_t d_max;
};
class RCodeRule : public DNSRule
{
public:
RCodeRule(uint8_t rcode) : d_rcode(rcode)
{
}
bool matches(const DNSQuestion* dq) const override
{
return d_rcode == dq->getHeader()->rcode;
}
string toString() const override
{
return "rcode=="+RCode::to_s(d_rcode);
}
private:
uint8_t d_rcode;
};
class ERCodeRule : public DNSRule
{
public:
ERCodeRule(uint8_t rcode) : d_rcode(rcode & 0xF), d_extrcode(rcode >> 4)
{
}
bool matches(const DNSQuestion* dq) const override
{
// avoid parsing EDNS OPT RR when not needed.
if (d_rcode != dq->getHeader()->rcode) {
return false;
}
EDNS0Record edns0;
if (!getEDNS0Record(dq->getData(), edns0)) {
return false;
}
return d_extrcode == edns0.extRCode;
}
string toString() const override
{
return "ercode=="+ERCode::to_s(d_rcode | (d_extrcode << 4));
}
private:
uint8_t d_rcode; // plain DNS Rcode
uint8_t d_extrcode; // upper bits in EDNS0 record
};
class EDNSVersionRule : public DNSRule
{
public:
EDNSVersionRule(uint8_t version) : d_version(version)
{
}
bool matches(const DNSQuestion* dq) const override
{
EDNS0Record edns0;
if (!getEDNS0Record(dq->getData(), edns0)) {
return false;
}
return d_version < edns0.version;
}
string toString() const override
{
return "ednsversion>"+std::to_string(d_version);
}
private:
uint8_t d_version;
};
class EDNSOptionRule : public DNSRule
{
public:
EDNSOptionRule(uint16_t optcode) : d_optcode(optcode)
{
}
bool matches(const DNSQuestion* dq) const override
{
uint16_t optStart;
size_t optLen = 0;
bool last = false;
int res = locateEDNSOptRR(dq->getData(), &optStart, &optLen, &last);
if (res != 0) {
// no EDNS OPT RR
return false;
}
if (optLen < optRecordMinimumSize) {
return false;
}
if (optStart < dq->getData().size() && dq->getData().at(optStart) != 0) {
// OPT RR Name != '.'
return false;
}
return isEDNSOptionInOpt(dq->getData(), optStart, optLen, d_optcode);
}
string toString() const override
{
return "ednsoptcode=="+std::to_string(d_optcode);
}
private:
uint16_t d_optcode;
};
class RDRule : public DNSRule
{
public:
RDRule()
{
}
bool matches(const DNSQuestion* dq) const override
{
return dq->getHeader()->rd == 1;
}
string toString() const override
{
return "rd==1";
}
};
class ProbaRule : public DNSRule
{
public:
ProbaRule(double proba) : d_proba(proba)
{
}
bool matches(const DNSQuestion* dq) const override
{
if(d_proba == 1.0)
return true;
double rnd = 1.0*random() / RAND_MAX;
return rnd > (1.0 - d_proba);
}
string toString() const override
{
return "match with prob. " + (boost::format("%0.2f") % d_proba).str();
}
private:
double d_proba;
};
class TagRule : public DNSRule
{
public:
TagRule(const std::string& tag, boost::optional<std::string> value) : d_value(value), d_tag(tag)
{
}
bool matches(const DNSQuestion* dq) const override
{
if (!dq->ids.qTag) {
return false;
}
const auto it = dq->ids.qTag->find(d_tag);
if (it == dq->ids.qTag->cend()) {
return false;
}
if (!d_value) {
return true;
}
return it->second == *d_value;
}
string toString() const override
{
return "tag '" + d_tag + "' is set" + (d_value ? (" to '" + *d_value + "'") : "");
}
private:
boost::optional<std::string> d_value;
std::string d_tag;
};
class PoolAvailableRule : public DNSRule
{
public:
PoolAvailableRule(const std::string& poolname) : d_pools(&g_pools), d_poolname(poolname)
{
}
bool matches(const DNSQuestion* dq) const override
{
return (getPool(*d_pools, d_poolname)->countServers(true) > 0);
}
string toString() const override
{
return "pool '" + d_poolname + "' is available";
}
private:
mutable LocalStateHolder<pools_t> d_pools;
std::string d_poolname;
};
class PoolOutstandingRule : public DNSRule
{
public:
PoolOutstandingRule(const std::string& poolname, const size_t limit) : d_pools(&g_pools), d_poolname(poolname), d_limit(limit)
{
}
bool matches(const DNSQuestion* dq) const override
{
return (getPool(*d_pools, d_poolname)->poolLoad()) > d_limit;
}
string toString() const override
{
return "pool '" + d_poolname + "' outstanding > " + std::to_string(d_limit);
}
private:
mutable LocalStateHolder<pools_t> d_pools;
std::string d_poolname;
size_t d_limit;
};
class KeyValueStoreLookupRule: public DNSRule
{
public:
KeyValueStoreLookupRule(std::shared_ptr<KeyValueStore>& kvs, std::shared_ptr<KeyValueLookupKey>& lookupKey): d_kvs(kvs), d_key(lookupKey)
{
}
bool matches(const DNSQuestion* dq) const override
{
std::vector<std::string> keys = d_key->getKeys(*dq);
for (const auto& key : keys) {
if (d_kvs->keyExists(key) == true) {
return true;
}
}
return false;
}
string toString() const override
{
return "lookup key-value store based on '" + d_key->toString() + "'";
}
private:
std::shared_ptr<KeyValueStore> d_kvs;
std::shared_ptr<KeyValueLookupKey> d_key;
};
class KeyValueStoreRangeLookupRule: public DNSRule
{
public:
KeyValueStoreRangeLookupRule(std::shared_ptr<KeyValueStore>& kvs, std::shared_ptr<KeyValueLookupKey>& lookupKey): d_kvs(kvs), d_key(lookupKey)
{
}
bool matches(const DNSQuestion* dq) const override
{
std::vector<std::string> keys = d_key->getKeys(*dq);
for (const auto& key : keys) {
std::string value;
if (d_kvs->getRangeValue(key, value) == true) {
return true;
}
}
return false;
}
string toString() const override
{
return "range-based lookup key-value store based on '" + d_key->toString() + "'";
}
private:
std::shared_ptr<KeyValueStore> d_kvs;
std::shared_ptr<KeyValueLookupKey> d_key;
};
class LuaRule : public DNSRule
{
public:
typedef std::function<bool(const DNSQuestion* dq)> func_t;
LuaRule(const func_t& func): d_func(func)
{}
bool matches(const DNSQuestion* dq) const override
{
try {
auto lock = g_lua.lock();
return d_func(dq);
} catch (const std::exception &e) {
warnlog("LuaRule failed inside Lua: %s", e.what());
} catch (...) {
warnlog("LuaRule failed inside Lua: [unknown exception]");
}
return false;
}
string toString() const override
{
return "Lua script";
}
private:
func_t d_func;
};
class LuaFFIRule : public DNSRule
{
public:
typedef std::function<bool(dnsdist_ffi_dnsquestion_t* dq)> func_t;
LuaFFIRule(const func_t& func): d_func(func)
{}
bool matches(const DNSQuestion* dq) const override
{
dnsdist_ffi_dnsquestion_t dqffi(const_cast<DNSQuestion*>(dq));
try {
auto lock = g_lua.lock();
return d_func(&dqffi);
} catch (const std::exception &e) {
warnlog("LuaFFIRule failed inside Lua: %s", e.what());
} catch (...) {
warnlog("LuaFFIRule failed inside Lua: [unknown exception]");
}
return false;
}
string toString() const override
{
return "Lua FFI script";
}
private:
func_t d_func;
};
class LuaFFIPerThreadRule : public DNSRule
{
public:
typedef std::function<bool(dnsdist_ffi_dnsquestion_t* dq)> func_t;
LuaFFIPerThreadRule(const std::string& code): d_functionCode(code), d_functionID(s_functionsCounter++)
{
}
bool matches(const DNSQuestion* dq) const override
{
try {
auto& state = t_perThreadStates[d_functionID];
if (!state.d_initialized) {
setupLuaFFIPerThreadContext(state.d_luaContext);
/* mark the state as initialized first so if there is a syntax error
we only try to execute the code once */
state.d_initialized = true;
state.d_func = state.d_luaContext.executeCode<func_t>(d_functionCode);
}
if (!state.d_func) {
/* the function was not properly initialized */
return false;
}
dnsdist_ffi_dnsquestion_t dqffi(const_cast<DNSQuestion*>(dq));
return state.d_func(&dqffi);
}
catch (const std::exception &e) {
warnlog("LuaFFIPerthreadRule failed inside Lua: %s", e.what());
}
catch (...) {
warnlog("LuaFFIPerThreadRule failed inside Lua: [unknown exception]");
}
return false;
}
string toString() const override
{
return "Lua FFI per-thread script";
}
private:
struct PerThreadState
{
LuaContext d_luaContext;
func_t d_func;
bool d_initialized{false};
};
static std::atomic<uint64_t> s_functionsCounter;
static thread_local std::map<uint64_t, PerThreadState> t_perThreadStates;
const std::string d_functionCode;
const uint64_t d_functionID;
};
class ProxyProtocolValueRule : public DNSRule
{
public:
ProxyProtocolValueRule(uint8_t type, boost::optional<std::string> value): d_value(value), d_type(type)
{
}
bool matches(const DNSQuestion* dq) const override
{
if (!dq->proxyProtocolValues) {
return false;
}
for (const auto& entry : *dq->proxyProtocolValues) {
if (entry.type == d_type && (!d_value || entry.content == *d_value)) {
return true;
}
}
return false;
}
string toString() const override
{
if (d_value) {
return "proxy protocol value of type " + std::to_string(d_type) + " matches";
}
return "proxy protocol value of type " + std::to_string(d_type) + " is present";
}
private:
boost::optional<std::string> d_value;
uint8_t d_type;
};
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