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|
#include "dnsresolver.h"
#include <library/cpp/actors/core/hfunc.h>
#include <util/generic/intrlist.h>
#include <ares.h>
#include <queue>
namespace NActors {
namespace NDnsResolver {
class TCachingDnsResolver : public TActor<TCachingDnsResolver> {
public:
struct TMonCounters {
NMonitoring::TDynamicCounters::TCounterPtr OutgoingInFlightV4;
NMonitoring::TDynamicCounters::TCounterPtr OutgoingInFlightV6;
NMonitoring::TDynamicCounters::TCounterPtr OutgoingErrorsV4;
NMonitoring::TDynamicCounters::TCounterPtr OutgoingErrorsV6;
NMonitoring::TDynamicCounters::TCounterPtr OutgoingTotalV4;
NMonitoring::TDynamicCounters::TCounterPtr OutgoingTotalV6;
NMonitoring::TDynamicCounters::TCounterPtr IncomingInFlight;
NMonitoring::TDynamicCounters::TCounterPtr IncomingErrors;
NMonitoring::TDynamicCounters::TCounterPtr IncomingTotal;
NMonitoring::TDynamicCounters::TCounterPtr CacheSize;
NMonitoring::TDynamicCounters::TCounterPtr CacheHits;
NMonitoring::TDynamicCounters::TCounterPtr CacheMisses;
TMonCounters(const NMonitoring::TDynamicCounterPtr& counters)
: OutgoingInFlightV4(counters->GetCounter("DnsResolver/Outgoing/InFlight/V4", false))
, OutgoingInFlightV6(counters->GetCounter("DnsResolver/Outgoing/InFlight/V6", false))
, OutgoingErrorsV4(counters->GetCounter("DnsResolver/Outgoing/Errors/V4", true))
, OutgoingErrorsV6(counters->GetCounter("DnsResolver/Outgoing/Errors/V6", true))
, OutgoingTotalV4(counters->GetCounter("DnsResolver/Outgoing/Total/V4", true))
, OutgoingTotalV6(counters->GetCounter("DnsResolver/Outgoing/Total/V6", true))
, IncomingInFlight(counters->GetCounter("DnsResolver/Incoming/InFlight", false))
, IncomingErrors(counters->GetCounter("DnsResolver/Incoming/Errors", true))
, IncomingTotal(counters->GetCounter("DnsResolver/Incoming/Total", true))
, CacheSize(counters->GetCounter("DnsResolver/Cache/Size", false))
, CacheHits(counters->GetCounter("DnsResolver/Cache/Hits", true))
, CacheMisses(counters->GetCounter("DnsResolver/Cache/Misses", true))
{ }
};
public:
TCachingDnsResolver(TActorId upstream, TCachingDnsResolverOptions options)
: TActor(&TThis::StateWork)
, Upstream(upstream)
, Options(std::move(options))
, MonCounters(Options.MonCounters ? new TMonCounters(Options.MonCounters) : nullptr)
{ }
static constexpr EActivityType ActorActivityType() {
return DNS_RESOLVER;
}
private:
STRICT_STFUNC(StateWork, {
hFunc(TEvents::TEvPoison, Handle);
hFunc(TEvDns::TEvGetHostByName, Handle);
hFunc(TEvDns::TEvGetAddr, Handle);
hFunc(TEvDns::TEvGetHostByNameResult, Handle);
hFunc(TEvents::TEvUndelivered, Handle);
});
void Handle(TEvents::TEvPoison::TPtr&) {
DropPending(ARES_ECANCELLED);
PassAway();
}
void Handle(TEvDns::TEvGetHostByName::TPtr& ev) {
auto req = MakeHolder<TIncomingRequest>();
req->Type = EIncomingRequestType::GetHostByName;
req->Sender = ev->Sender;
req->Cookie = ev->Cookie;
req->Name = std::move(ev->Get()->Name);
req->Family = ev->Get()->Family;
EnqueueRequest(std::move(req));
}
void Handle(TEvDns::TEvGetAddr::TPtr& ev) {
auto req = MakeHolder<TIncomingRequest>();
req->Type = EIncomingRequestType::GetAddr;
req->Sender = ev->Sender;
req->Cookie = ev->Cookie;
req->Name = std::move(ev->Get()->Name);
req->Family = ev->Get()->Family;
EnqueueRequest(std::move(req));
}
void Handle(TEvDns::TEvGetHostByNameResult::TPtr& ev) {
auto waitingIt = WaitingRequests.find(ev->Cookie);
Y_VERIFY(waitingIt != WaitingRequests.end(), "Unexpected reply, reqId=%" PRIu64, ev->Cookie);
auto waitingInfo = waitingIt->second;
WaitingRequests.erase(waitingIt);
switch (waitingInfo.Family) {
case AF_INET6:
if (ev->Get()->Status) {
ProcessErrorV6(waitingInfo.Position, ev->Get()->Status, std::move(ev->Get()->ErrorText));
} else {
ProcessAddrsV6(waitingInfo.Position, std::move(ev->Get()->AddrsV6));
}
break;
case AF_INET:
if (ev->Get()->Status) {
ProcessErrorV4(waitingInfo.Position, ev->Get()->Status, std::move(ev->Get()->ErrorText));
} else {
ProcessAddrsV4(waitingInfo.Position, std::move(ev->Get()->AddrsV4));
}
break;
default:
Y_FAIL("Unexpected request family %d", waitingInfo.Family);
}
}
void Handle(TEvents::TEvUndelivered::TPtr& ev) {
switch (ev->Get()->SourceType) {
case TEvDns::TEvGetHostByName::EventType: {
auto waitingIt = WaitingRequests.find(ev->Cookie);
Y_VERIFY(waitingIt != WaitingRequests.end(), "Unexpected TEvUndelivered, reqId=%" PRIu64, ev->Cookie);
auto waitingInfo = waitingIt->second;
WaitingRequests.erase(waitingIt);
switch (waitingInfo.Family) {
case AF_INET6:
ProcessErrorV6(waitingInfo.Position, ARES_ENOTINITIALIZED, "Caching dns resolver cannot deliver to the underlying resolver");
break;
case AF_INET:
ProcessErrorV4(waitingInfo.Position, ARES_ENOTINITIALIZED, "Caching dns resolver cannot deliver to the underlying resolver");
break;
default:
Y_FAIL("Unexpected request family %d", waitingInfo.Family);
}
break;
}
default:
Y_FAIL("Unexpected TEvUndelievered, type=%" PRIu32, ev->Get()->SourceType);
}
}
private:
enum EIncomingRequestType {
GetHostByName,
GetAddr,
};
struct TIncomingRequest : public TIntrusiveListItem<TIncomingRequest> {
EIncomingRequestType Type;
TActorId Sender;
ui64 Cookie;
TString Name;
int Family;
};
using TIncomingRequestList = TIntrusiveListWithAutoDelete<TIncomingRequest, TDelete>;
void EnqueueRequest(THolder<TIncomingRequest> req) {
if (MonCounters) {
++*MonCounters->IncomingTotal;
}
CleanupExpired(TActivationContext::Now());
switch (req->Family) {
case AF_UNSPEC:
if (Options.AllowIPv6) {
EnqueueRequestIPv6(std::move(req));
return;
}
if (Options.AllowIPv4) {
EnqueueRequestIPv4(std::move(req));
return;
}
break;
case AF_INET6:
if (Options.AllowIPv6) {
EnqueueRequestIPv6(std::move(req));
return;
}
break;
case AF_INET:
if (Options.AllowIPv4) {
EnqueueRequestIPv4(std::move(req));
return;
}
break;
}
ReplyWithError(std::move(req), ARES_EBADFAMILY);
}
void EnqueueRequestIPv6(THolder<TIncomingRequest> req) {
auto now = TActivationContext::Now();
auto& fullState = NameToState[req->Name];
if (MonCounters) {
*MonCounters->CacheSize = NameToState.size();
}
auto& state = fullState.StateIPv6;
EnsureRequest(state, req->Name, AF_INET6, now);
if (state.IsHardExpired(now)) {
Y_VERIFY(state.Waiting);
if (MonCounters) {
++*MonCounters->CacheMisses;
}
// We need to wait for ipv6 reply, schedule ipv4 request in parallel if needed
if (Options.AllowIPv4) {
EnsureRequest(fullState.StateIPv4, req->Name, AF_INET, now);
}
state.WaitingRequests.PushBack(req.Release());
return;
}
// We want to retry AF_UNSPEC with IPv4 in some cases
if (req->Family == AF_UNSPEC && Options.AllowIPv4 && state.RetryUnspec()) {
EnqueueRequestIPv4(std::move(req));
return;
}
if (MonCounters) {
++*MonCounters->CacheHits;
}
if (state.Status != 0) {
ReplyWithError(std::move(req), state.Status, state.ErrorText);
} else {
ReplyWithAddrs(std::move(req), fullState.AddrsIPv6);
}
}
void EnqueueRequestIPv4(THolder<TIncomingRequest> req, bool isCacheMiss = false) {
auto now = TActivationContext::Now();
auto& fullState = NameToState[req->Name];
if (MonCounters) {
*MonCounters->CacheSize = NameToState.size();
}
auto& state = fullState.StateIPv4;
EnsureRequest(state, req->Name, AF_INET, now);
if (state.IsHardExpired(now)) {
Y_VERIFY(state.Waiting);
if (MonCounters && !isCacheMiss) {
++*MonCounters->CacheMisses;
}
state.WaitingRequests.PushBack(req.Release());
return;
}
if (MonCounters && !isCacheMiss) {
++*MonCounters->CacheHits;
}
if (state.Status != 0) {
ReplyWithError(std::move(req), state.Status, state.ErrorText);
} else {
ReplyWithAddrs(std::move(req), fullState.AddrsIPv4);
}
}
private:
struct TFamilyState {
TIncomingRequestList WaitingRequests;
TInstant SoftDeadline;
TInstant HardDeadline;
TInstant NextSoftDeadline;
TInstant NextHardDeadline;
TString ErrorText;
int Status = -1; // never requested before
bool InSoftHeap = false;
bool InHardHeap = false;
bool Waiting = false;
bool Needed() const {
return InSoftHeap || InHardHeap || Waiting;
}
bool RetryUnspec() const {
return (
Status == ARES_ENODATA ||
Status == ARES_EBADRESP ||
Status == ARES_ETIMEOUT);
}
bool ServerReplied() const {
return ServerReplied(Status);
}
bool IsSoftExpired(TInstant now) const {
return !InSoftHeap || NextSoftDeadline < now;
}
bool IsHardExpired(TInstant now) const {
return !InHardHeap || NextHardDeadline < now;
}
static bool ServerReplied(int status) {
return (
status == ARES_SUCCESS ||
status == ARES_ENODATA ||
status == ARES_ENOTFOUND);
}
};
struct TState {
TFamilyState StateIPv6;
TFamilyState StateIPv4;
TVector<struct in6_addr> AddrsIPv6;
TVector<struct in_addr> AddrsIPv4;
bool Needed() const {
return StateIPv6.Needed() || StateIPv4.Needed();
}
};
using TNameToState = THashMap<TString, TState>;
template<const TFamilyState TState::* StateToFamily,
const TInstant TFamilyState::* FamilyToDeadline>
struct THeapCompare {
// returns true when b < a
bool operator()(TNameToState::iterator a, TNameToState::iterator b) const {
const TState& aState = a->second;
const TState& bState = b->second;
const TFamilyState& aFamily = aState.*StateToFamily;
const TFamilyState& bFamily = bState.*StateToFamily;
const TInstant& aDeadline = aFamily.*FamilyToDeadline;
const TInstant& bDeadline = bFamily.*FamilyToDeadline;
return bDeadline < aDeadline;
}
};
template<const TFamilyState TState::* StateToFamily,
const TInstant TFamilyState::* FamilyToDeadline>
using TStateHeap = std::priority_queue<
TNameToState::iterator,
std::vector<TNameToState::iterator>,
THeapCompare<StateToFamily, FamilyToDeadline>
>;
struct TWaitingInfo {
TNameToState::iterator Position;
int Family;
};
private:
void EnsureRequest(TFamilyState& state, const TString& name, int family, TInstant now) {
if (state.Waiting) {
return; // request is already pending
}
if (!state.IsSoftExpired(now) && !state.IsHardExpired(now)) {
return; // response is not expired yet
}
if (MonCounters) {
switch (family) {
case AF_INET6:
++*MonCounters->OutgoingInFlightV6;
++*MonCounters->OutgoingTotalV6;
break;
case AF_INET:
++*MonCounters->OutgoingInFlightV4;
++*MonCounters->OutgoingTotalV4;
break;
}
}
ui64 reqId = ++LastRequestId;
auto& req = WaitingRequests[reqId];
req.Position = NameToState.find(name);
req.Family = family;
Y_VERIFY(req.Position != NameToState.end());
Send(Upstream, new TEvDns::TEvGetHostByName(name, family), IEventHandle::FlagTrackDelivery, reqId);
state.Waiting = true;
}
template<TFamilyState TState::* StateToFamily,
TInstant TFamilyState::* FamilyToDeadline,
TInstant TFamilyState::* FamilyToNextDeadline,
bool TFamilyState::* FamilyToFlag,
class THeap>
void PushToHeap(THeap& heap, TNameToState::iterator it, TInstant newDeadline) {
auto& family = it->second.*StateToFamily;
TInstant& deadline = family.*FamilyToDeadline;
TInstant& nextDeadline = family.*FamilyToNextDeadline;
bool& flag = family.*FamilyToFlag;
nextDeadline = newDeadline;
if (!flag) {
deadline = newDeadline;
heap.push(it);
flag = true;
}
}
void PushSoftV6(TNameToState::iterator it, TInstant newDeadline) {
PushToHeap<&TState::StateIPv6, &TFamilyState::SoftDeadline, &TFamilyState::NextSoftDeadline, &TFamilyState::InSoftHeap>(SoftHeapIPv6, it, newDeadline);
}
void PushHardV6(TNameToState::iterator it, TInstant newDeadline) {
PushToHeap<&TState::StateIPv6, &TFamilyState::HardDeadline, &TFamilyState::NextHardDeadline, &TFamilyState::InHardHeap>(HardHeapIPv6, it, newDeadline);
}
void PushSoftV4(TNameToState::iterator it, TInstant newDeadline) {
PushToHeap<&TState::StateIPv4, &TFamilyState::SoftDeadline, &TFamilyState::NextSoftDeadline, &TFamilyState::InSoftHeap>(SoftHeapIPv4, it, newDeadline);
}
void PushHardV4(TNameToState::iterator it, TInstant newDeadline) {
PushToHeap<&TState::StateIPv4, &TFamilyState::HardDeadline, &TFamilyState::NextHardDeadline, &TFamilyState::InHardHeap>(HardHeapIPv4, it, newDeadline);
}
void ProcessErrorV6(TNameToState::iterator it, int status, TString errorText) {
auto now = TActivationContext::Now();
if (MonCounters) {
--*MonCounters->OutgoingInFlightV6;
++*MonCounters->OutgoingErrorsV6;
}
auto& state = it->second.StateIPv6;
Y_VERIFY(state.Waiting, "Got error for a state we are not waiting");
state.Waiting = false;
// When we have a cached positive reply, don't overwrite it with spurious errors
const bool serverReplied = TFamilyState::ServerReplied(status);
if (!serverReplied && state.ServerReplied() && !state.IsHardExpired(now)) {
PushSoftV6(it, now + Options.SoftNegativeExpireTime);
if (state.Status == ARES_SUCCESS) {
SendAddrsV6(it);
} else {
SendErrorsV6(it, now);
}
return;
}
state.Status = status;
state.ErrorText = std::move(errorText);
PushSoftV6(it, now + Options.SoftNegativeExpireTime);
if (serverReplied) {
// Server actually replied, so keep it cached for longer
PushHardV6(it, now + Options.HardPositiveExpireTime);
} else {
PushHardV6(it, now + Options.HardNegativeExpireTime);
}
SendErrorsV6(it, now);
}
void SendErrorsV6(TNameToState::iterator it, TInstant now) {
bool cleaned = false;
auto& state = it->second.StateIPv6;
while (state.WaitingRequests) {
THolder<TIncomingRequest> req(state.WaitingRequests.PopFront());
if (req->Family == AF_UNSPEC && Options.AllowIPv4 && state.RetryUnspec()) {
if (!cleaned) {
CleanupExpired(now);
cleaned = true;
}
EnqueueRequestIPv4(std::move(req), /* isCacheMiss */ true);
} else {
ReplyWithError(std::move(req), state.Status, state.ErrorText);
}
}
}
void ProcessErrorV4(TNameToState::iterator it, int status, TString errorText) {
auto now = TActivationContext::Now();
if (MonCounters) {
--*MonCounters->OutgoingInFlightV4;
++*MonCounters->OutgoingErrorsV4;
}
auto& state = it->second.StateIPv4;
Y_VERIFY(state.Waiting, "Got error for a state we are not waiting");
state.Waiting = false;
// When we have a cached positive reply, don't overwrite it with spurious errors
const bool serverReplied = TFamilyState::ServerReplied(status);
if (!serverReplied && state.ServerReplied() && !state.IsHardExpired(now)) {
PushSoftV4(it, now + Options.SoftNegativeExpireTime);
if (state.Status == ARES_SUCCESS) {
SendAddrsV4(it);
} else {
SendErrorsV4(it);
}
return;
}
state.Status = status;
state.ErrorText = std::move(errorText);
PushSoftV4(it, now + Options.SoftNegativeExpireTime);
if (serverReplied) {
// Server actually replied, so keep it cached for longer
PushHardV4(it, now + Options.HardPositiveExpireTime);
} else {
PushHardV4(it, now + Options.HardNegativeExpireTime);
}
SendErrorsV4(it);
}
void SendErrorsV4(TNameToState::iterator it) {
auto& state = it->second.StateIPv4;
while (state.WaitingRequests) {
THolder<TIncomingRequest> req(state.WaitingRequests.PopFront());
ReplyWithError(std::move(req), state.Status, state.ErrorText);
}
}
void ProcessAddrsV6(TNameToState::iterator it, TVector<struct in6_addr> addrs) {
if (Y_UNLIKELY(addrs.empty())) {
// Probably unnecessary: we don't want to deal with empty address lists
return ProcessErrorV6(it, ARES_ENODATA, ares_strerror(ARES_ENODATA));
}
auto now = TActivationContext::Now();
if (MonCounters) {
--*MonCounters->OutgoingInFlightV6;
}
auto& state = it->second.StateIPv6;
Y_VERIFY(state.Waiting, "Got reply for a state we are not waiting");
state.Waiting = false;
state.Status = ARES_SUCCESS;
it->second.AddrsIPv6 = std::move(addrs);
PushSoftV6(it, now + Options.SoftPositiveExpireTime);
PushHardV6(it, now + Options.HardPositiveExpireTime);
SendAddrsV6(it);
}
void SendAddrsV6(TNameToState::iterator it) {
auto& state = it->second.StateIPv6;
while (state.WaitingRequests) {
THolder<TIncomingRequest> req(state.WaitingRequests.PopFront());
ReplyWithAddrs(std::move(req), it->second.AddrsIPv6);
}
}
void ProcessAddrsV4(TNameToState::iterator it, TVector<struct in_addr> addrs) {
if (Y_UNLIKELY(addrs.empty())) {
// Probably unnecessary: we don't want to deal with empty address lists
return ProcessErrorV4(it, ARES_ENODATA, ares_strerror(ARES_ENODATA));
}
auto now = TActivationContext::Now();
if (MonCounters) {
--*MonCounters->OutgoingInFlightV4;
}
auto& state = it->second.StateIPv4;
Y_VERIFY(state.Waiting, "Got reply for a state we are not waiting");
state.Waiting = false;
state.Status = ARES_SUCCESS;
it->second.AddrsIPv4 = std::move(addrs);
PushSoftV4(it, now + Options.SoftPositiveExpireTime);
PushHardV4(it, now + Options.HardPositiveExpireTime);
SendAddrsV4(it);
}
void SendAddrsV4(TNameToState::iterator it) {
auto& state = it->second.StateIPv4;
while (state.WaitingRequests) {
THolder<TIncomingRequest> req(state.WaitingRequests.PopFront());
ReplyWithAddrs(std::move(req), it->second.AddrsIPv4);
}
}
private:
template<TFamilyState TState::*StateToFamily,
TInstant TFamilyState::* FamilyToDeadline,
TInstant TFamilyState::* FamilyToNextDeadline,
bool TFamilyState::* FamilyToFlag>
void DoCleanupExpired(TStateHeap<StateToFamily, FamilyToDeadline>& heap, TInstant now) {
while (!heap.empty()) {
auto it = heap.top();
auto& family = it->second.*StateToFamily;
TInstant& deadline = family.*FamilyToDeadline;
if (now <= deadline) {
break;
}
bool& flag = family.*FamilyToFlag;
Y_VERIFY(flag);
heap.pop();
flag = false;
TInstant& nextDeadline = family.*FamilyToNextDeadline;
if (now < nextDeadline) {
deadline = nextDeadline;
heap.push(it);
flag = true;
continue;
}
// Remove unnecessary items
if (!it->second.Needed()) {
NameToState.erase(it);
if (MonCounters) {
*MonCounters->CacheSize = NameToState.size();
}
}
}
}
void CleanupExpired(TInstant now) {
DoCleanupExpired<&TState::StateIPv6, &TFamilyState::SoftDeadline, &TFamilyState::NextSoftDeadline, &TFamilyState::InSoftHeap>(SoftHeapIPv6, now);
DoCleanupExpired<&TState::StateIPv6, &TFamilyState::HardDeadline, &TFamilyState::NextHardDeadline, &TFamilyState::InHardHeap>(HardHeapIPv6, now);
DoCleanupExpired<&TState::StateIPv4, &TFamilyState::SoftDeadline, &TFamilyState::NextSoftDeadline, &TFamilyState::InSoftHeap>(SoftHeapIPv4, now);
DoCleanupExpired<&TState::StateIPv4, &TFamilyState::HardDeadline, &TFamilyState::NextHardDeadline, &TFamilyState::InHardHeap>(HardHeapIPv4, now);
}
template<class TEvent>
void SendError(TActorId replyTo, ui64 cookie, int status, const TString& errorText) {
auto reply = MakeHolder<TEvent>();
reply->Status = status;
reply->ErrorText = errorText;
this->Send(replyTo, reply.Release(), 0, cookie);
}
void ReplyWithError(THolder<TIncomingRequest> req, int status, const TString& errorText) {
if (MonCounters) {
++*MonCounters->IncomingErrors;
}
switch (req->Type) {
case EIncomingRequestType::GetHostByName: {
SendError<TEvDns::TEvGetHostByNameResult>(req->Sender, req->Cookie, status, errorText);
break;
}
case EIncomingRequestType::GetAddr: {
SendError<TEvDns::TEvGetAddrResult>(req->Sender, req->Cookie, status, errorText);
break;
}
}
}
void ReplyWithAddrs(THolder<TIncomingRequest> req, const TVector<struct in6_addr>& addrs) {
switch (req->Type) {
case EIncomingRequestType::GetHostByName: {
auto reply = MakeHolder<TEvDns::TEvGetHostByNameResult>();
reply->AddrsV6 = addrs;
Send(req->Sender, reply.Release(), 0, req->Cookie);
break;
}
case EIncomingRequestType::GetAddr: {
Y_VERIFY(!addrs.empty());
auto reply = MakeHolder<TEvDns::TEvGetAddrResult>();
reply->Addr = addrs.front();
Send(req->Sender, reply.Release(), 0, req->Cookie);
break;
}
}
}
void ReplyWithAddrs(THolder<TIncomingRequest> req, const TVector<struct in_addr>& addrs) {
switch (req->Type) {
case EIncomingRequestType::GetHostByName: {
auto reply = MakeHolder<TEvDns::TEvGetHostByNameResult>();
reply->AddrsV4 = addrs;
Send(req->Sender, reply.Release(), 0, req->Cookie);
break;
}
case EIncomingRequestType::GetAddr: {
Y_VERIFY(!addrs.empty());
auto reply = MakeHolder<TEvDns::TEvGetAddrResult>();
reply->Addr = addrs.front();
Send(req->Sender, reply.Release(), 0, req->Cookie);
break;
}
}
}
void ReplyWithError(THolder<TIncomingRequest> req, int status) {
ReplyWithError(std::move(req), status, ares_strerror(status));
}
void DropPending(TIncomingRequestList& list, int status, const TString& errorText) {
while (list) {
THolder<TIncomingRequest> req(list.PopFront());
ReplyWithError(std::move(req), status, errorText);
}
}
void DropPending(int status, const TString& errorText) {
for (auto& [name, state] : NameToState) {
DropPending(state.StateIPv6.WaitingRequests, status, errorText);
DropPending(state.StateIPv4.WaitingRequests, status, errorText);
}
}
void DropPending(int status) {
DropPending(status, ares_strerror(status));
}
private:
const TActorId Upstream;
const TCachingDnsResolverOptions Options;
const THolder<TMonCounters> MonCounters;
TNameToState NameToState;
TStateHeap<&TState::StateIPv6, &TFamilyState::SoftDeadline> SoftHeapIPv6;
TStateHeap<&TState::StateIPv6, &TFamilyState::HardDeadline> HardHeapIPv6;
TStateHeap<&TState::StateIPv4, &TFamilyState::SoftDeadline> SoftHeapIPv4;
TStateHeap<&TState::StateIPv4, &TFamilyState::HardDeadline> HardHeapIPv4;
THashMap<ui64, TWaitingInfo> WaitingRequests;
ui64 LastRequestId = 0;
};
IActor* CreateCachingDnsResolver(TActorId upstream, TCachingDnsResolverOptions options) {
return new TCachingDnsResolver(upstream, std::move(options));
}
} // namespace NDnsResolver
} // namespace NActors
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