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#include "cache.h"
#include "thread.h"
#include <util/system/tls.h>
#include <util/system/info.h>
#include <util/system/rwlock.h>
#include <util/thread/singleton.h>
#include <util/generic/singleton.h>
#include <util/generic/hash.h>
using namespace NDns;
namespace {
struct TResolveTask {
enum EMethod {
Normal,
Threaded
};
inline TResolveTask(const TResolveInfo& info, EMethod method)
: Info(info)
, Method(method)
{
}
const TResolveInfo& Info;
const EMethod Method;
};
class IDns {
public:
virtual ~IDns() = default;
virtual const TResolvedHost* Resolve(const TResolveTask&) = 0;
};
typedef TAtomicSharedPtr<TResolvedHost> TResolvedHostPtr;
struct THashResolveInfo {
inline size_t operator()(const TResolveInfo& ri) const {
return ComputeHash(ri.Host) ^ ri.Port;
}
};
struct TCompareResolveInfo {
inline bool operator()(const NDns::TResolveInfo& x, const NDns::TResolveInfo& y) const {
return x.Host == y.Host && x.Port == y.Port;
}
};
class TGlobalCachedDns: public IDns, public TNonCopyable {
public:
const TResolvedHost* Resolve(const TResolveTask& rt) override {
//2. search host in cache
{
TReadGuard guard(L_);
TCache::const_iterator it = C_.find(rt.Info);
if (it != C_.end()) {
return it->second.Get();
}
}
TResolvedHostPtr res = ResolveA(rt);
//update cache
{
TWriteGuard guard(L_);
std::pair<TCache::iterator, bool> updateResult = C_.insert(std::make_pair(TResolveInfo(res->Host, rt.Info.Port), res));
TResolvedHost* rh = updateResult.first->second.Get();
if (updateResult.second) {
//fresh resolved host, set cache record id for it
rh->Id = C_.size() - 1;
}
return rh;
}
}
void AddAlias(const TString& host, const TString& alias) noexcept {
TWriteGuard guard(LA_);
A_[host] = alias;
}
static inline TGlobalCachedDns* Instance() {
return SingletonWithPriority<TGlobalCachedDns, 65530>();
}
private:
inline TResolvedHostPtr ResolveA(const TResolveTask& rt) {
TString originalHost(rt.Info.Host);
TString host(originalHost);
//3. replace host to alias, if exist
if (A_.size()) {
TReadGuard guard(LA_);
TStringBuf names[] = {"*", host};
for (const auto& name : names) {
TAliases::const_iterator it = A_.find(name);
if (it != A_.end()) {
host = it->second;
}
}
}
if (host.length() > 2 && host[0] == '[') {
TString unbracedIpV6(host.data() + 1, host.size() - 2);
host.swap(unbracedIpV6);
}
TAutoPtr<TNetworkAddress> na;
//4. getaddrinfo (direct or in separate thread)
if (rt.Method == TResolveTask::Normal) {
na.Reset(new TNetworkAddress(host, rt.Info.Port));
} else if (rt.Method == TResolveTask::Threaded) {
na = ThreadedResolve(host, rt.Info.Port);
} else {
Y_ASSERT(0);
throw yexception() << TStringBuf("invalid resolve method");
}
return new TResolvedHost(originalHost, *na);
}
typedef THashMap<TResolveInfo, TResolvedHostPtr, THashResolveInfo, TCompareResolveInfo> TCache;
TCache C_;
TRWMutex L_;
typedef THashMap<TString, TString> TAliases;
TAliases A_;
TRWMutex LA_;
};
class TCachedDns: public IDns {
public:
inline TCachedDns(IDns* slave)
: S_(slave)
{
}
const TResolvedHost* Resolve(const TResolveTask& rt) override {
//1. search in local thread cache
{
TCache::const_iterator it = C_.find(rt.Info);
if (it != C_.end()) {
return it->second;
}
}
const TResolvedHost* res = S_->Resolve(rt);
C_[TResolveInfo(res->Host, rt.Info.Port)] = res;
return res;
}
private:
typedef THashMap<TResolveInfo, const TResolvedHost*, THashResolveInfo, TCompareResolveInfo> TCache;
TCache C_;
IDns* S_;
};
struct TThreadedDns: public TCachedDns {
inline TThreadedDns()
: TCachedDns(TGlobalCachedDns::Instance())
{
}
};
inline IDns* ThrDns() {
return FastTlsSingleton<TThreadedDns>();
}
}
namespace NDns {
const TResolvedHost* CachedResolve(const TResolveInfo& ri) {
TResolveTask rt(ri, TResolveTask::Normal);
return ThrDns()->Resolve(rt);
}
const TResolvedHost* CachedThrResolve(const TResolveInfo& ri) {
TResolveTask rt(ri, TResolveTask::Threaded);
return ThrDns()->Resolve(rt);
}
void AddHostAlias(const TString& host, const TString& alias) {
TGlobalCachedDns::Instance()->AddAlias(host, alias);
}
}
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