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#pragma once
#include <library/cpp/actors/core/actor_bootstrapped.h>
#include <library/cpp/actors/core/hfunc.h>
#include <library/cpp/actors/core/event_pb.h>
#include <library/cpp/actors/core/events.h>
#include <library/cpp/monlib/dynamic_counters/counters.h>
#include "interconnect_common.h"
#include "interconnect_counters.h"
#include "interconnect_tcp_session.h"
#include "profiler.h"
#define ICPROXY_PROFILED TFunction func(*this, __func__, __LINE__)
namespace NActors {
/* WARNING: all proxy actors should be alive during actorsystem activity */
class TInterconnectProxyTCP
: public TActor<TInterconnectProxyTCP>
, public TInterconnectLoggingBase
, public TProfiled
{
enum {
EvCleanupEventQueue = EventSpaceBegin(TEvents::ES_PRIVATE),
EvQueryStats,
EvStats,
EvPassAwayIfNeeded,
};
struct TEvCleanupEventQueue : TEventLocal<TEvCleanupEventQueue, EvCleanupEventQueue> {};
public:
struct TEvQueryStats : TEventLocal<TEvQueryStats, EvQueryStats> {};
struct TProxyStats {
TString Path;
TString State;
TScopeId PeerScopeId;
TInstant LastSessionDieTime;
ui64 TotalOutputQueueSize;
bool Connected;
bool ExternalDataChannel;
TString Host;
ui16 Port;
TInstant LastErrorTimestamp;
TString LastErrorKind;
TString LastErrorExplanation;
TDuration Ping;
i64 ClockSkew;
TString Encryption;
};
struct TEvStats : TEventLocal<TEvStats, EvStats> {
ui32 PeerNodeId;
TProxyStats ProxyStats;
};
static constexpr EActivityType ActorActivityType() {
return INTERCONNECT_PROXY_TCP;
}
TInterconnectProxyTCP(const ui32 node, TInterconnectProxyCommon::TPtr common, IActor **dynamicPtr = nullptr);
STFUNC(StateInit) {
Bootstrap();
if (ev->Type != TEvents::TSystem::Bootstrap) { // for dynamic nodes we do not receive Bootstrap event
Receive(ev, ctx);
}
}
void Bootstrap();
void Registered(TActorSystem* sys, const TActorId& owner) override;
private:
friend class TInterconnectSessionTCP;
friend class TInterconnectSessionTCPv0;
friend class THandshake;
friend class TInputSessionTCP;
void UnregisterSession(TInterconnectSessionTCP* session);
#define SESSION_EVENTS(HANDLER) \
fFunc(TEvInterconnect::EvForward, HANDLER) \
fFunc(TEvInterconnect::TEvConnectNode::EventType, HANDLER) \
fFunc(TEvents::TEvSubscribe::EventType, HANDLER) \
fFunc(TEvents::TEvUnsubscribe::EventType, HANDLER)
#define INCOMING_HANDSHAKE_EVENTS(HANDLER) \
fFunc(TEvHandshakeAsk::EventType, HANDLER) \
fFunc(TEvHandshakeRequest::EventType, HANDLER)
#define HANDSHAKE_STATUS_EVENTS(HANDLER) \
hFunc(TEvHandshakeDone, HANDLER) \
hFunc(TEvHandshakeFail, HANDLER)
#define PROXY_STFUNC(STATE, SESSION_HANDLER, INCOMING_HANDSHAKE_HANDLER, \
HANDSHAKE_STATUS_HANDLER, DISCONNECT_HANDLER, \
WAKEUP_HANDLER, NODE_INFO_HANDLER) \
STATEFN(STATE) { \
const ui32 type = ev->GetTypeRewrite(); \
const bool profiled = type != TEvInterconnect::EvForward \
&& type != TEvInterconnect::EvConnectNode \
&& type != TEvents::TSystem::Subscribe \
&& type != TEvents::TSystem::Unsubscribe; \
if (profiled) { \
TProfiled::Start(); \
} \
{ \
TProfiled::TFunction func(*this, __func__, __LINE__); \
switch (type) { \
SESSION_EVENTS(SESSION_HANDLER) \
INCOMING_HANDSHAKE_EVENTS(INCOMING_HANDSHAKE_HANDLER) \
HANDSHAKE_STATUS_EVENTS(HANDSHAKE_STATUS_HANDLER) \
cFunc(TEvInterconnect::EvDisconnect, DISCONNECT_HANDLER) \
hFunc(TEvents::TEvWakeup, WAKEUP_HANDLER) \
hFunc(TEvGetSecureSocket, Handle) \
hFunc(NMon::TEvHttpInfo, GenerateHttpInfo) \
cFunc(EvCleanupEventQueue, HandleCleanupEventQueue) \
hFunc(TEvInterconnect::TEvNodeInfo, NODE_INFO_HANDLER) \
cFunc(TEvInterconnect::EvClosePeerSocket, HandleClosePeerSocket) \
cFunc(TEvInterconnect::EvCloseInputSession, HandleCloseInputSession) \
cFunc(TEvInterconnect::EvPoisonSession, HandlePoisonSession) \
hFunc(TEvSessionBufferSizeRequest, HandleSessionBufferSizeRequest) \
hFunc(TEvQueryStats, Handle) \
cFunc(TEvInterconnect::EvTerminate, HandleTerminate) \
cFunc(EvPassAwayIfNeeded, HandlePassAwayIfNeeded) \
default: \
Y_FAIL("unexpected event Type# 0x%08" PRIx32, type); \
} \
} \
if (profiled) { \
if (TProfiled::Duration() >= TDuration::MilliSeconds(16)) { \
const TString report = TProfiled::Format(); \
LOG_ERROR_IC("ICP35", "event processing took too much time %s", report.data()); \
} \
TProfiled::Finish(); \
} \
}
template <typename T>
void Ignore(T& /*ev*/) {
ICPROXY_PROFILED;
}
void Ignore() {
ICPROXY_PROFILED;
}
void Ignore(TEvHandshakeDone::TPtr& ev) {
ICPROXY_PROFILED;
Y_VERIFY(ev->Sender != IncomingHandshakeActor);
Y_VERIFY(ev->Sender != OutgoingHandshakeActor);
}
void Ignore(TEvHandshakeFail::TPtr& ev) {
ICPROXY_PROFILED;
Y_VERIFY(ev->Sender != IncomingHandshakeActor);
Y_VERIFY(ev->Sender != OutgoingHandshakeActor);
LogHandshakeFail(ev, true);
}
const char* State = nullptr;
TInstant StateSwitchTime;
template <typename... TArgs>
void SwitchToState(int line, const char* name, TArgs&&... args) {
ICPROXY_PROFILED;
LOG_DEBUG_IC("ICP77", "@%d %s -> %s", line, State, name);
State = name;
StateSwitchTime = TActivationContext::Now();
Become(std::forward<TArgs>(args)...);
Y_VERIFY(!Terminated || CurrentStateFunc() == &TThis::HoldByError); // ensure we never escape this state
if (CurrentStateFunc() != &TThis::PendingActivation) {
PassAwayTimestamp = TMonotonic::Max();
} else if (DynamicPtr) {
PassAwayTimestamp = TActivationContext::Monotonic() + TDuration::Seconds(15);
if (!PassAwayScheduled) {
TActivationContext::Schedule(PassAwayTimestamp, new IEventHandle(EvPassAwayIfNeeded, 0, SelfId(),
{}, nullptr, 0));
PassAwayScheduled = true;
}
}
}
TMonotonic PassAwayTimestamp;
bool PassAwayScheduled = false;
void SwitchToInitialState() {
ICPROXY_PROFILED;
Y_VERIFY(!PendingSessionEvents && !PendingIncomingHandshakeEvents, "%s PendingSessionEvents# %zu"
" PendingIncomingHandshakeEvents# %zu State# %s", LogPrefix.data(), PendingSessionEvents.size(),
PendingIncomingHandshakeEvents.size(), State);
SwitchToState(__LINE__, "PendingActivation", &TThis::PendingActivation);
}
void HandlePassAwayIfNeeded() {
Y_VERIFY(PassAwayScheduled);
const TMonotonic now = TActivationContext::Monotonic();
if (now >= PassAwayTimestamp) {
PassAway();
} else if (PassAwayTimestamp != TMonotonic::Max()) {
TActivationContext::Schedule(PassAwayTimestamp, new IEventHandle(EvPassAwayIfNeeded, 0, SelfId(),
{}, nullptr, 0));
} else {
PassAwayScheduled = false;
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// PendingActivation
//
// In this state we are just waiting for some activities, which may include:
// * an external Session event
// * incoming handshake request
//
// Upon receiving such event, we put it to corresponding queue and initiate start up by calling IssueGetNodeRequest,
// which, as the name says, issued TEvGetNode to the nameservice and arms timer to handle timeout (which should not
// occur, but we want to be sure we don't hang on this), and then switches to PendingNodeInfo state.
PROXY_STFUNC(PendingActivation,
RequestNodeInfo, // Session events
RequestNodeInfoForIncomingHandshake, // Incoming handshake requests
Ignore, // Handshake status
Ignore, // Disconnect request
Ignore, // Wakeup
Ignore // Node info
)
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// PendingNodeInfo
//
// This state is entered when we asked nameserver to provide description for peer node we are working with. All
// external Session events and incoming handshake requests are enqueued into their respective queues, TEvNodeInfo
// is main event that triggers processing. On success, we try to initiate outgoing handshake if needed, or process
// incoming handshakes. On error, we enter HoldByError state.
//
// NOTE: handshake status events are also enqueued as the handshake actor may have generated failure event due to
// timeout or some other reason without waiting for acknowledge, and it must be processed correctly to prevent
// session hang
PROXY_STFUNC(PendingNodeInfo,
EnqueueSessionEvent, // Session events
EnqueueIncomingHandshakeEvent, // Incoming handshake requests
EnqueueIncomingHandshakeEvent, // Handshake status
Disconnect, // Disconnect request
ConfigureTimeout, // Wakeup
Configure // Node info
)
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// PendingConnection
//
// Here we have issued outgoing handshake or have accepted (or may be both) incoming handshake and we are waiting for
// the status of the handshake. When one if handshakes finishes, we use this status to establish connection (or to
// go to error state). When one handshake terminates with error while other is running, we will still wait for the
// second one to finish.
PROXY_STFUNC(PendingConnection,
EnqueueSessionEvent, // Session events
IncomingHandshake, // Incoming handshake requests
HandleHandshakeStatus, // Handshake status
Disconnect, // Disconnect request
Ignore, // Wakeup
Ignore // Node info
)
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// StateWork
//
// We have accepted session and process any incoming messages with the session. Incoming handshakes are accepted
// concurrently and applied when finished.
PROXY_STFUNC(StateWork,
ForwardSessionEventToSession, // Session events
IncomingHandshake, // Incoming handshake requests
HandleHandshakeStatus, // Handshake status
Disconnect, // Disconnect request
Ignore, // Wakeup
Ignore // Node info
)
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// HoldByError
//
// When something bad happens with the connection, we sleep in this state. After wake up we go back to
// PendingActivation.
PROXY_STFUNC(HoldByError,
DropSessionEvent, // Session events
RequestNodeInfoForIncomingHandshake, // Incoming handshake requests
Ignore, // Handshake status
Ignore, // Disconnect request
WakeupFromErrorState, // Wakeup
Ignore // Node info
)
#undef SESSION_EVENTS
#undef INCOMING_HANDSHAKE_EVENTS
#undef HANDSHAKE_STATUS_EVENTS
#undef PROXY_STFUNC
void ForwardSessionEventToSession(STATEFN_SIG);
void EnqueueSessionEvent(STATEFN_SIG);
// Incoming handshake handlers, including special wrapper when the IncomingHandshake is used as fFunc
void IncomingHandshake(STATEFN_SIG) {
switch (ev->GetTypeRewrite()) {
hFunc(TEvHandshakeAsk, IncomingHandshake);
hFunc(TEvHandshakeRequest, IncomingHandshake);
default:
Y_FAIL();
}
}
void IncomingHandshake(TEvHandshakeAsk::TPtr& ev);
void IncomingHandshake(TEvHandshakeRequest::TPtr& ev);
void RequestNodeInfo(STATEFN_SIG);
void RequestNodeInfoForIncomingHandshake(STATEFN_SIG);
void StartInitialHandshake();
void StartResumeHandshake(ui64 inputCounter);
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Incoming handshake event queue processing
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void EnqueueIncomingHandshakeEvent(STATEFN_SIG);
void EnqueueIncomingHandshakeEvent(TEvHandshakeDone::TPtr& ev);
void EnqueueIncomingHandshakeEvent(TEvHandshakeFail::TPtr& ev);
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// PendingNodeInfo
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
IEventBase* ConfigureTimeoutCookie; // pointer to the scheduled event used to match sent and received events
void StartConfiguring();
void Configure(TEvInterconnect::TEvNodeInfo::TPtr& ev);
void ConfigureTimeout(TEvents::TEvWakeup::TPtr& ev);
void ProcessConfigured();
void HandleHandshakeStatus(TEvHandshakeDone::TPtr& ev);
void HandleHandshakeStatus(TEvHandshakeFail::TPtr& ev);
void TransitToErrorState(TString Explanation, bool updateErrorLog = true);
void WakeupFromErrorState(TEvents::TEvWakeup::TPtr& ev);
void Disconnect();
const ui32 PeerNodeId;
IActor **DynamicPtr;
void ValidateEvent(TAutoPtr<IEventHandle>& ev, const char* func) {
if (SelfId().NodeId() == PeerNodeId) {
TString msg = Sprintf("Event Type# 0x%08" PRIx32 " TypeRewrite# 0x%08" PRIx32
" from Sender# %s sent to the proxy for the node itself via Interconnect;"
" THIS IS NOT A BUG IN INTERCONNECT, check the event sender instead",
ev->Type, ev->GetTypeRewrite(), ev->Sender.ToString().data());
LOG_ERROR_IC("ICP03", "%s", msg.data());
Y_VERIFY_DEBUG(false, "%s", msg.data());
}
Y_VERIFY(ev->GetTypeRewrite() != TEvInterconnect::EvForward || ev->Recipient.NodeId() == PeerNodeId,
"Recipient/Proxy NodeId mismatch Recipient# %s Type# 0x%08" PRIx32 " PeerNodeId# %" PRIu32 " Func# %s",
ev->Recipient.ToString().data(), ev->Type, PeerNodeId, func);
}
// Common with helpers
// All proxy actors share the same information in the object
// read only
TInterconnectProxyCommon::TPtr const Common;
const TActorId& GetNameserviceId() const {
return Common->NameserviceId;
}
TString TechnicalPeerHostName;
std::shared_ptr<IInterconnectMetrics> Metrics;
void HandleClosePeerSocket();
void HandleCloseInputSession();
void HandlePoisonSession();
void HandleSessionBufferSizeRequest(TEvSessionBufferSizeRequest::TPtr& ev);
bool CleanupEventQueueScheduled = false;
void ScheduleCleanupEventQueue();
void HandleCleanupEventQueue();
void CleanupEventQueue();
// hold all events before connection is established
struct TPendingSessionEvent {
TMonotonic Deadline;
ui32 Size;
THolder<IEventHandle> Event;
TPendingSessionEvent(TMonotonic deadline, ui32 size, TAutoPtr<IEventHandle> event)
: Deadline(deadline)
, Size(size)
, Event(event)
{}
};
TDeque<TPendingSessionEvent> PendingSessionEvents;
ui64 PendingSessionEventsSize = 0;
void ProcessPendingSessionEvents();
void DropSessionEvent(STATEFN_SIG);
TInterconnectSessionTCP* Session = nullptr;
TActorId SessionID;
// virtual ids used during handshake to check if it is the connection
// for the same session or to find out the latest shandshake
// it's virtual because session actor apears after successfull handshake
TActorId SessionVirtualId;
TActorId RemoteSessionVirtualId;
TActorId GenerateSessionVirtualId() {
ICPROXY_PROFILED;
const ui64 localId = TlsActivationContext->ExecutorThread.ActorSystem->AllocateIDSpace(1);
return NActors::TActorId(SelfId().NodeId(), 0, localId, 0);
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
TActorId IncomingHandshakeActor;
TInstant IncomingHandshakeActorFilledIn;
TInstant IncomingHandshakeActorReset;
TMaybe<ui64> LastSerialFromIncomingHandshake;
THolder<IEventBase> HeldHandshakeReply;
void DropIncomingHandshake(bool poison = true) {
ICPROXY_PROFILED;
if (const TActorId& actorId = std::exchange(IncomingHandshakeActor, TActorId())) {
LOG_DEBUG_IC("ICP111", "dropped incoming handshake: %s poison: %s", actorId.ToString().data(),
poison ? "true" : "false");
if (poison) {
Send(actorId, new TEvents::TEvPoisonPill);
}
LastSerialFromIncomingHandshake.Clear();
HeldHandshakeReply.Reset();
IncomingHandshakeActorReset = TActivationContext::Now();
}
}
void DropOutgoingHandshake(bool poison = true) {
ICPROXY_PROFILED;
if (const TActorId& actorId = std::exchange(OutgoingHandshakeActor, TActorId())) {
LOG_DEBUG_IC("ICP112", "dropped outgoing handshake: %s poison: %s", actorId.ToString().data(),
poison ? "true" : "false");
if (poison) {
Send(actorId, new TEvents::TEvPoisonPill);
}
OutgoingHandshakeActorReset = TActivationContext::Now();
}
}
void DropHandshakes() {
ICPROXY_PROFILED;
DropIncomingHandshake();
DropOutgoingHandshake();
}
void PrepareNewSessionHandshake() {
ICPROXY_PROFILED;
// drop existing session if we have one
if (Session) {
LOG_INFO_IC("ICP04", "terminating current session as we are negotiating a new one");
IActor::InvokeOtherActor(*Session, &TInterconnectSessionTCP::Terminate, TDisconnectReason::NewSession());
}
// ensure we have no current session
Y_VERIFY(!Session);
// switch to pending connection state -- we wait for handshakes, we want more handshakes!
SwitchToState(__LINE__, "PendingConnection", &TThis::PendingConnection);
}
void IssueIncomingHandshakeReply(const TActorId& handshakeId, ui64 peerLocalId,
THolder<IEventBase> event);
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
TActorId OutgoingHandshakeActor;
TInstant OutgoingHandshakeActorCreated;
TInstant OutgoingHandshakeActorReset;
TInstant LastSessionDieTime;
void GenerateHttpInfo(NMon::TEvHttpInfo::TPtr& ev);
void Handle(TEvQueryStats::TPtr& ev);
TDuration HoldByErrorWakeupDuration = TDuration::Zero();
TEvents::TEvWakeup* HoldByErrorWakeupCookie;
THolder<TProgramInfo> RemoteProgramInfo;
NInterconnect::TSecureSocketContext::TPtr SecureContext;
void Handle(TEvGetSecureSocket::TPtr ev) {
auto socket = MakeIntrusive<NInterconnect::TSecureSocket>(*ev->Get()->Socket, SecureContext);
Send(ev->Sender, new TEvSecureSocket(std::move(socket)));
}
TDeque<THolder<IEventHandle>> PendingIncomingHandshakeEvents;
TDeque<std::tuple<TInstant, TString, TString, ui32>> ErrorStateLog;
void UpdateErrorStateLog(TInstant now, TString kind, TString explanation) {
ICPROXY_PROFILED;
if (ErrorStateLog) {
auto& back = ErrorStateLog.back();
TString lastKind, lastExpl;
if (kind == std::get<1>(back) && explanation == std::get<2>(back)) {
std::get<0>(back) = now;
++std::get<3>(back);
return;
}
}
ErrorStateLog.emplace_back(now, std::move(kind), std::move(explanation), 1);
if (ErrorStateLog.size() > 20) {
ErrorStateLog.pop_front();
}
}
void LogHandshakeFail(TEvHandshakeFail::TPtr& ev, bool inconclusive);
bool Terminated = false;
void HandleTerminate();
void PassAway() override;
};
}
|