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#include "http_proxy.h"
#include "http_proxy_sock_impl.h"

namespace NHttp {

template <typename TSocketImpl>
class TOutgoingConnectionActor : public NActors::TActor<TOutgoingConnectionActor<TSocketImpl>>, public TSocketImpl, virtual public THttpConfig {
public:
    using TBase = NActors::TActor<TOutgoingConnectionActor<TSocketImpl>>;
    using TSelf = TOutgoingConnectionActor<TSocketImpl>;
    const TActorId Owner;
    const TActorId Poller;
    SocketAddressType Address;
    TString Host;
    TActorId RequestOwner;
    THttpOutgoingRequestPtr Request;
    THttpIncomingResponsePtr Response;
    TInstant LastActivity;
    TDuration ConnectionTimeout = CONNECTION_TIMEOUT;
    NActors::TPollerToken::TPtr PollerToken; 

    TOutgoingConnectionActor(const TActorId& owner, const TString& host, const TActorId& poller)
        : TBase(&TSelf::StateWaiting)
        , Owner(owner)
        , Poller(poller)
        , Host(host)
    {
        TSocketImpl::SetNonBlock();
        TSocketImpl::SetTimeout(SOCKET_TIMEOUT);
    }

    void Die(const NActors::TActorContext& ctx) override {
        ctx.Send(Owner, new TEvHttpProxy::TEvHttpConnectionClosed(ctx.SelfID));
        TSocketImpl::Shutdown(); // to avoid errors when connection already closed
        TBase::Die(ctx);
    }

    void ReplyAndDie(const NActors::TActorContext& ctx) {
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") -> (" << Response->Status << " " << Response->Message << ")");
        ctx.Send(RequestOwner, new TEvHttpProxy::TEvHttpIncomingResponse(Request, Response));
        RequestOwner = TActorId();
        THolder<TEvHttpProxy::TEvReportSensors> sensors(BuildOutgoingRequestSensors(Request, Response));
        ctx.Send(Owner, sensors.Release());
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") connection closed");
        Die(ctx);
    }

    void ReplyErrorAndDie(const NActors::TActorContext& ctx, const TString& error) {
        LOG_ERROR_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") connection closed with error: " << error);
        if (RequestOwner) {
            ctx.Send(RequestOwner, new TEvHttpProxy::TEvHttpIncomingResponse(Request, Response, error));
            RequestOwner = TActorId();
            THolder<TEvHttpProxy::TEvReportSensors> sensors(BuildOutgoingRequestSensors(Request, Response));
            ctx.Send(Owner, sensors.Release());
            Die(ctx);
        }
    }

protected:
    void FailConnection(const NActors::TActorContext& ctx, const TString& error) {
        if (Request) {
            return ReplyErrorAndDie(ctx, error);
        }
        return TBase::Become(&TOutgoingConnectionActor::StateFailed);
    }

    void Connect(const NActors::TActorContext& ctx) {
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") connecting");
        int res = TSocketImpl::Connect(Address);
        RegisterPoller(ctx);
        switch (-res) {
        case 0:
            return OnConnect(ctx);
        case EINPROGRESS:
        case EAGAIN:
            return TBase::Become(&TOutgoingConnectionActor::StateConnecting);
        default:
            return ReplyErrorAndDie(ctx, strerror(-res));
        }
    }

    void FlushOutput(const NActors::TActorContext& ctx) {
        if (Request != nullptr) {
            Request->Finish();
            while (auto size = Request->Size()) { 
                bool read = false, write = false; 
                ssize_t res = TSocketImpl::Send(Request->Data(), size, read, write); 
                if (res > 0) {
                   Request->ChopHead(res);
                } else if (-res == EINTR) { 
                    continue; 
                } else if (-res == EAGAIN || -res == EWOULDBLOCK) { 
                    if (PollerToken) { 
                        if (!read && !write) { 
                            write = true; 
                        } 
                        PollerToken->Request(read, write); 
                    } 
                    break; 
                } else {
                    if (!res) { 
                        ReplyAndDie(ctx);
                    } else { 
                        ReplyErrorAndDie(ctx, strerror(-res));
                    }
                    break; 
                }
            }
        }
    }

    void PullInput(const NActors::TActorContext& ctx) {
        for (;;) { 
            if (Response == nullptr) {
                Response = new THttpIncomingResponse(Request);
            }
            if (!Response->EnsureEnoughSpaceAvailable()) {
                return ReplyErrorAndDie(ctx, "Not enough space in socket buffer");
            }
            bool read = false, write = false; 
            ssize_t res = TSocketImpl::Recv(Response->Pos(), Response->Avail(), read, write); 
            if (res > 0) {
                Response->Advance(res);
                if (Response->IsDone() && Response->IsReady()) { 
                    return ReplyAndDie(ctx); 
                } 
            } else if (-res == EINTR) { 
                continue; 
            } else if (-res == EAGAIN || -res == EWOULDBLOCK) { 
                if (PollerToken) { 
                    if (!read && !write) { 
                        read = true; 
                    }
                    PollerToken->Request(read, write); 
                }
                return; 
            } else {
                if (!res) { 
                    Response->ConnectionClosed();
                }
                if (Response->IsDone() && Response->IsReady()) { 
                    return ReplyAndDie(ctx); 
                } 
                return ReplyErrorAndDie(ctx, strerror(-res)); 
            }
        } 
    }

    void RegisterPoller(const NActors::TActorContext& ctx) {
        ctx.Send(Poller, new NActors::TEvPollerRegister(TSocketImpl::Socket, ctx.SelfID, ctx.SelfID)); 
    }

    void OnConnect(const NActors::TActorContext& ctx) {
        bool read = false, write = false; 
        if (int res = TSocketImpl::OnConnect(read, write); res != 1) { 
            if (-res == EAGAIN) { 
                if (PollerToken) { 
                    PollerToken->Request(read, write); 
                } 
                return;
            } else { 
                return ReplyErrorAndDie(ctx, strerror(-res)); 
            }
        }
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") outgoing connection opened");
        TBase::Become(&TOutgoingConnectionActor::StateConnected);
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << "," << Address << ") <- (" << Request->Method << " " << Request->URL << ")");
        ctx.Send(ctx.SelfID, new NActors::TEvPollerReady(nullptr, true, true)); 
    }

    void HandleResolving(TEvHttpProxy::TEvResolveHostResponse::TPtr event, const NActors::TActorContext& ctx) {
        LastActivity = ctx.Now();
        if (!event->Get()->Error.empty()) {
            return FailConnection(ctx, event->Get()->Error);
        }
        Address = event->Get()->Address;
        if (Address.GetPort() == 0) {
            Address.SetPort(Request->Secure ? 443 : 80);
        }
        Connect(ctx);
    }

    void HandleConnecting(NActors::TEvPollerReady::TPtr, const NActors::TActorContext& ctx) { 
        LastActivity = ctx.Now();
        int res = TSocketImpl::GetError();
        if (res == 0) {
            OnConnect(ctx);
        } else {
            FailConnection(ctx, TStringBuilder() << strerror(res));
        }
    }

    void HandleConnecting(NActors::TEvPollerRegisterResult::TPtr ev, const NActors::TActorContext& ctx) { 
        PollerToken = std::move(ev->Get()->PollerToken); 
        LastActivity = ctx.Now();
        int res = TSocketImpl::GetError();
        if (res == 0) {
            OnConnect(ctx);
        } else {
            FailConnection(ctx, TStringBuilder() << strerror(res));
        }
    }

    void HandleWaiting(TEvHttpProxy::TEvHttpOutgoingRequest::TPtr event, const NActors::TActorContext& ctx) {
        LastActivity = ctx.Now();
        Request = std::move(event->Get()->Request);
        Host = Request->Host;
        LOG_DEBUG_S(ctx, HttpLog, "(#" << TSocketImpl::GetRawSocket() << ") resolving " << Host);
        Request->Timer.Reset();
        RequestOwner = event->Sender;
        ctx.Send(Owner, new TEvHttpProxy::TEvResolveHostRequest(Host));
        if (event->Get()->Timeout) {
            ConnectionTimeout = event->Get()->Timeout;
            TSocketImpl::SetTimeout(ConnectionTimeout);
        }
        ctx.Schedule(ConnectionTimeout, new NActors::TEvents::TEvWakeup());
        LastActivity = ctx.Now();
        TBase::Become(&TOutgoingConnectionActor::StateResolving);
    }

    void HandleConnected(NActors::TEvPollerReady::TPtr event, const NActors::TActorContext& ctx) { 
        LastActivity = ctx.Now();
        if (event->Get()->Read) { 
            PullInput(ctx); 
        }
        if (event->Get()->Write) { 
            FlushOutput(ctx); 
        } 
    }

    void HandleConnected(NActors::TEvPollerRegisterResult::TPtr ev, const NActors::TActorContext& ctx) { 
        PollerToken = std::move(ev->Get()->PollerToken); 
        LastActivity = ctx.Now();
        PullInput(ctx); 
        FlushOutput(ctx);
    }

    void HandleFailed(TEvHttpProxy::TEvHttpOutgoingRequest::TPtr event, const NActors::TActorContext& ctx) {
        Request = std::move(event->Get()->Request);
        RequestOwner = event->Sender;
        ReplyErrorAndDie(ctx, "Failed");
    }

    void HandleTimeout(const NActors::TActorContext& ctx) {
        TDuration inactivityTime = ctx.Now() - LastActivity;
        if (inactivityTime >= ConnectionTimeout) {
            FailConnection(ctx, "Connection timed out");
        } else {
            ctx.Schedule(Min(ConnectionTimeout - inactivityTime, TDuration::MilliSeconds(100)), new NActors::TEvents::TEvWakeup());
        }
    }

    STFUNC(StateWaiting) {
        switch (ev->GetTypeRewrite()) {
            HFunc(TEvHttpProxy::TEvHttpOutgoingRequest, HandleWaiting);
            CFunc(NActors::TEvents::TEvWakeup::EventType, HandleTimeout);
        }
    }

    STFUNC(StateResolving) {
        switch (ev->GetTypeRewrite()) {
            HFunc(TEvHttpProxy::TEvResolveHostResponse, HandleResolving);
            CFunc(NActors::TEvents::TEvWakeup::EventType, HandleTimeout);
        }
    }

    STFUNC(StateConnecting) {
        switch (ev->GetTypeRewrite()) {
            HFunc(NActors::TEvPollerReady, HandleConnecting); 
            CFunc(NActors::TEvents::TEvWakeup::EventType, HandleTimeout);
            HFunc(NActors::TEvPollerRegisterResult, HandleConnecting); 
        }
    }

    STFUNC(StateConnected) {
        switch (ev->GetTypeRewrite()) {
            HFunc(NActors::TEvPollerReady, HandleConnected); 
            CFunc(NActors::TEvents::TEvWakeup::EventType, HandleTimeout);
            HFunc(NActors::TEvPollerRegisterResult, HandleConnected); 
        }
    }

    STFUNC(StateFailed) {
        switch (ev->GetTypeRewrite()) {
            HFunc(TEvHttpProxy::TEvHttpOutgoingRequest, HandleFailed);
        }
    }
};

NActors::IActor* CreateOutgoingConnectionActor(const TActorId& owner, const TString& host, bool secure, const TActorId& poller) {
    if (secure) {
        return new TOutgoingConnectionActor<TSecureSocketImpl>(owner, host, poller);
    } else {
        return new TOutgoingConnectionActor<TPlainSocketImpl>(owner, host, poller);
    }
}

}