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|
#include "module.h"
#include <library/cpp/messagebus/scheduler_actor.h>
#include <library/cpp/messagebus/thread_extra.h>
#include <library/cpp/messagebus/actor/actor.h>
#include <library/cpp/messagebus/actor/queue_in_actor.h>
#include <library/cpp/messagebus/actor/what_thread_does.h>
#include <library/cpp/messagebus/actor/what_thread_does_guard.h>
#include <util/generic/singleton.h>
#include <util/string/printf.h>
#include <util/system/event.h>
using namespace NActor;
using namespace NBus;
using namespace NBus::NPrivate;
namespace {
Y_POD_STATIC_THREAD(TBusJob*)
ThreadCurrentJob;
struct TThreadCurrentJobGuard {
TBusJob* Prev;
TThreadCurrentJobGuard(TBusJob* job)
: Prev(ThreadCurrentJob)
{
Y_ASSERT(!ThreadCurrentJob || ThreadCurrentJob == job);
ThreadCurrentJob = job;
}
~TThreadCurrentJobGuard() {
ThreadCurrentJob = Prev;
}
};
void ClearState(NBus::TJobState* state) {
/// skip sendbacks handlers
if (state->Message != state->Reply) {
if (state->Message) {
delete state->Message;
state->Message = nullptr;
}
if (state->Reply) {
delete state->Reply;
state->Reply = nullptr;
}
}
}
void ClearJobStateVector(NBus::TJobStateVec* vec) {
Y_ASSERT(vec);
for (auto& call : *vec) {
ClearState(&call);
}
vec->clear();
}
}
namespace NBus {
namespace NPrivate {
class TJobStorage {
};
struct TModuleClientHandler
: public IBusClientHandler {
TModuleClientHandler(TBusModuleImpl* module)
: Module(module)
{
}
void OnReply(TAutoPtr<TBusMessage> req, TAutoPtr<TBusMessage> reply) override;
void OnMessageSentOneWay(TAutoPtr<TBusMessage> pMessage) override;
void OnError(TAutoPtr<TBusMessage> msg, EMessageStatus status) override;
void OnClientConnectionEvent(const TClientConnectionEvent& event) override;
TBusModuleImpl* const Module;
};
struct TModuleServerHandler
: public IBusServerHandler {
TModuleServerHandler(TBusModuleImpl* module)
: Module(module)
{
}
void OnMessage(TOnMessageContext& msg) override;
TBusModuleImpl* const Module;
};
struct TBusModuleImpl: public TBusModuleInternal {
TBusModule* const Module;
TBusMessageQueue* Queue;
TScheduler Scheduler;
const char* const Name;
typedef TList<TJobRunner*> TBusJobList;
/// jobs currently in-flight on this module
TBusJobList Jobs;
/// module level mutex
TMutex Lock;
TCondVar ShutdownCondVar;
TAtomic JobCount;
enum EState {
CREATED,
RUNNING,
STOPPED,
};
TAtomic State;
TBusModuleConfig ModuleConfig;
TBusServerSessionPtr ExternalSession;
/// protocol for local proxy session
THolder<IBusClientHandler> ModuleClientHandler;
THolder<IBusServerHandler> ModuleServerHandler;
TVector<TSimpleSharedPtr<TBusStarter>> Starters;
// Sessions must be destroyed before
// ModuleClientHandler / ModuleServerHandler
TVector<TBusClientSessionPtr> ClientSessions;
TVector<TBusServerSessionPtr> ServerSessions;
TBusModuleImpl(TBusModule* module, const char* name)
: Module(module)
, Queue()
, Name(name)
, JobCount(0)
, State(CREATED)
, ExternalSession(nullptr)
, ModuleClientHandler(new TModuleClientHandler(this))
, ModuleServerHandler(new TModuleServerHandler(this))
{
}
~TBusModuleImpl() override {
// Shutdown cannot be called from destructor,
// because module has virtual methods.
Y_ABORT_UNLESS(State != RUNNING, "if running, must explicitly call Shutdown() before destructor");
Scheduler.Stop();
while (!Jobs.empty()) {
DestroyJob(Jobs.front());
}
Y_ABORT_UNLESS(JobCount == 0, "state check");
}
void OnMessageReceived(TAutoPtr<TBusMessage> msg, TOnMessageContext&);
void AddJob(TJobRunner* jobRunner);
void DestroyJob(TJobRunner* job);
/// terminate job on this message
void CancelJob(TBusJob* job, EMessageStatus status);
/// prints statuses of jobs
TString GetStatus(unsigned flags);
size_t Size() const {
return AtomicGet(JobCount);
}
void Shutdown();
TVector<TBusClientSessionPtr> GetClientSessionsInternal() override {
return ClientSessions;
}
TVector<TBusServerSessionPtr> GetServerSessionsInternal() override {
return ServerSessions;
}
TBusMessageQueue* GetQueue() override {
return Queue;
}
TString GetNameInternal() override {
return Name;
}
TString GetStatusSingleLine() override {
TStringStream ss;
ss << "jobs: " << Size();
return ss.Str();
}
void OnClientConnectionEvent(const TClientConnectionEvent& event) {
Module->OnClientConnectionEvent(event);
}
};
struct TJobResponseMessage {
TBusMessage* Request;
TBusMessage* Response;
EMessageStatus Status;
TJobResponseMessage(TBusMessage* request, TBusMessage* response, EMessageStatus status)
: Request(request)
, Response(response)
, Status(status)
{
}
};
struct TJobRunner: public TAtomicRefCount<TJobRunner>,
public NActor::TActor<TJobRunner>,
public NActor::TQueueInActor<TJobRunner, TJobResponseMessage>,
public TScheduleActor<TJobRunner> {
THolder<TBusJob> Job;
TList<TJobRunner*>::iterator JobStorageIterator;
TJobRunner(TAutoPtr<TBusJob> job)
: NActor::TActor<TJobRunner>(job->ModuleImpl->Queue->GetExecutor())
, TScheduleActor<TJobRunner>(&job->ModuleImpl->Scheduler)
, Job(job.Release())
, JobStorageIterator()
{
Job->Runner = this;
}
~TJobRunner() override {
Y_ASSERT(JobStorageIterator == TList<TJobRunner*>::iterator());
}
void ProcessItem(NActor::TDefaultTag, NActor::TDefaultTag, const TJobResponseMessage& message) {
Job->CallReplyHandler(message.Status, message.Request, message.Response);
}
void Destroy() {
if (!!Job->OnMessageContext) {
if (!Job->ReplySent) {
Job->OnMessageContext.ForgetRequest();
}
}
Job->ModuleImpl->DestroyJob(this);
}
void Act(NActor::TDefaultTag) {
if (JobStorageIterator == TList<TJobRunner*>::iterator()) {
return;
}
if (Job->SleepUntil != 0) {
if (AtomicGet(Job->ModuleImpl->State) == TBusModuleImpl::STOPPED) {
Destroy();
return;
}
}
TThreadCurrentJobGuard g(Job.Get());
NActor::TQueueInActor<TJobRunner, TJobResponseMessage>::DequeueAll();
if (Alarm.FetchTask()) {
if (Job->AnyPendingToSend()) {
Y_ASSERT(Job->SleepUntil == 0);
Job->SendPending();
if (Job->AnyPendingToSend()) {
}
} else {
// regular alarm
Y_ASSERT(Job->Pending.empty());
Y_ASSERT(Job->SleepUntil != 0);
Job->SleepUntil = 0;
}
}
for (;;) {
if (Job->Pending.empty() && !!Job->Handler && Job->Status == MESSAGE_OK) {
TWhatThreadDoesPushPop pp("do call job handler (do not confuse with reply handler)");
Job->Handler = Job->Handler(Job->Module, Job.Get(), Job->Message);
}
if (Job->SleepUntil != 0) {
ScheduleAt(TInstant::MilliSeconds(Job->SleepUntil));
return;
}
Job->SendPending();
if (Job->AnyPendingToSend()) {
ScheduleAt(TInstant::Now() + TDuration::Seconds(1));
return;
}
if (!Job->Pending.empty()) {
// waiting replies
return;
}
if (Job->IsDone()) {
Destroy();
return;
}
}
}
};
}
static inline TJobRunner* GetJob(TBusMessage* message) {
return (TJobRunner*)message->Data;
}
static inline void SetJob(TBusMessage* message, TJobRunner* job) {
message->Data = job;
}
TBusJob::TBusJob(TBusModule* module, TBusMessage* message)
: Status(MESSAGE_OK)
, Runner()
, Message(message)
, ReplySent(false)
, Module(module)
, ModuleImpl(module->Impl.Get())
, SleepUntil(0)
{
Handler = TJobHandler(&TBusModule::Start);
}
TBusJob::~TBusJob() {
Y_ASSERT(Pending.size() == 0);
//Y_ASSERT(SleepUntil == 0);
ClearAllMessageStates();
}
TNetAddr TBusJob::GetPeerAddrNetAddr() const {
Y_ABORT_UNLESS(!!OnMessageContext);
return OnMessageContext.GetPeerAddrNetAddr();
}
void TBusJob::CheckThreadCurrentJob() {
Y_ASSERT(ThreadCurrentJob == this);
}
/////////////////////////////////////////////////////////
/// \brief Send messages in pending list
/// If at least one message is gone return true
/// If message has not been send, move it to Finished with appropriate error code
bool TBusJob::SendPending() {
// Iterator type must be size_t, not vector::iterator,
// because `DoCallReplyHandler` may call `Send` that modifies `Pending` vector,
// that in turn invalidates iterator.
// Implementation assumes that `DoCallReplyHandler` only pushes back to `Pending`
// (not erases, and not inserts) so iteration by index is valid.
size_t it = 0;
while (it != Pending.size()) {
TJobState& call = Pending[it];
if (call.Status == MESSAGE_DONT_ASK) {
EMessageStatus getAddressStatus = MESSAGE_OK;
TNetAddr addr;
if (call.UseAddr) {
addr = call.Addr;
} else {
getAddressStatus = const_cast<TBusProtocol*>(call.Session->GetProto())->GetDestination(call.Session, call.Message, call.Session->GetQueue()->GetLocator(), &addr);
}
if (getAddressStatus == MESSAGE_OK) {
// hold extra reference for each request in flight
Runner->Ref();
if (call.OneWay) {
call.Status = call.Session->SendMessageOneWay(call.Message, &addr);
} else {
call.Status = call.Session->SendMessage(call.Message, &addr);
}
if (call.Status != MESSAGE_OK) {
Runner->UnRef();
}
} else {
call.Status = getAddressStatus;
}
}
if (call.Status == MESSAGE_OK) {
++it; // keep pending list until we get reply
} else if (call.Status == MESSAGE_BUSY) {
Y_ABORT("MESSAGE_BUSY is prohibited in modules. Please increase MaxInFlight");
} else if (call.Status == MESSAGE_CONNECT_FAILED && call.NumRetries < call.MaxRetries) {
++it; // try up to call.MaxRetries times to send message
call.NumRetries++;
DoCallReplyHandler(call);
call.Status = MESSAGE_DONT_ASK;
call.Message->Reset(); // generate new Id
} else {
Finished.push_back(call);
DoCallReplyHandler(call);
Pending.erase(Pending.begin() + it);
}
}
return Pending.size() > 0;
}
bool TBusJob::AnyPendingToSend() {
for (unsigned i = 0; i < Pending.size(); ++i) {
if (Pending[i].Status == MESSAGE_DONT_ASK) {
return true;
}
}
return false;
}
bool TBusJob::IsDone() {
bool r = (SleepUntil == 0 && Pending.size() == 0 && (Handler == nullptr || Status != MESSAGE_OK));
return r;
}
void TBusJob::CallJobHandlerOnly() {
TThreadCurrentJobGuard threadCurrentJobGuard(this);
TWhatThreadDoesPushPop pp("do call job handler (do not confuse with reply handler)");
Handler = Handler(ModuleImpl->Module, this, Message);
}
bool TBusJob::CallJobHandler() {
/// go on as far as we can go without waiting
while (!IsDone()) {
/// call the handler
CallJobHandlerOnly();
/// quit if job is canceled
if (Status != MESSAGE_OK) {
break;
}
/// there are messages to send and wait for reply
SendPending();
if (!Pending.empty()) {
break;
}
/// asked to sleep
if (SleepUntil) {
break;
}
}
Y_ABORT_UNLESS(!(Pending.size() == 0 && Handler == nullptr && Status == MESSAGE_OK && !ReplySent),
"Handler returned NULL without Cancel() or SendReply() for message=%016" PRIx64 " type=%d",
Message->GetHeader()->Id, Message->GetHeader()->Type);
return IsDone();
}
void TBusJob::DoCallReplyHandler(TJobState& call) {
if (call.Handler) {
TWhatThreadDoesPushPop pp("do call reply handler (do not confuse with job handler)");
TThreadCurrentJobGuard threadCurrentJobGuard(this);
(Module->*(call.Handler))(this, call.Status, call.Message, call.Reply);
}
}
int TBusJob::CallReplyHandler(EMessageStatus status, TBusMessage* mess, TBusMessage* reply) {
/// find handler for given message and update it's status
size_t i = 0;
for (; i < Pending.size(); ++i) {
TJobState& call = Pending[i];
if (call.Message == mess) {
break;
}
}
/// if not found, report error
if (i == Pending.size()) {
Y_ABORT("must not happen");
}
/// fill in response into job state
TJobState& call = Pending[i];
call.Status = status;
Y_ASSERT(call.Message == mess);
call.Reply = reply;
if ((status == MESSAGE_TIMEOUT || status == MESSAGE_DELIVERY_FAILED) && call.NumRetries < call.MaxRetries) {
call.NumRetries++;
call.Status = MESSAGE_DONT_ASK;
call.Message->Reset(); // generate new Id
DoCallReplyHandler(call);
return 0;
}
/// call the handler if provided
DoCallReplyHandler(call);
/// move job state into the finished stack
Finished.push_back(Pending[i]);
Pending.erase(Pending.begin() + i);
return 0;
}
///////////////////////////////////////////////////////////////
/// send message to any other session or application
void TBusJob::Send(TBusMessageAutoPtr mess, TBusClientSession* session, TReplyHandler rhandler, size_t maxRetries) {
CheckThreadCurrentJob();
SetJob(mess.Get(), Runner);
Pending.push_back(TJobState(rhandler, MESSAGE_DONT_ASK, mess.Release(), session, nullptr, maxRetries, nullptr, false));
}
void TBusJob::Send(TBusMessageAutoPtr mess, TBusClientSession* session, TReplyHandler rhandler, size_t maxRetries, const TNetAddr& addr) {
CheckThreadCurrentJob();
SetJob(mess.Get(), Runner);
Pending.push_back(TJobState(rhandler, MESSAGE_DONT_ASK, mess.Release(), session, nullptr, maxRetries, &addr, false));
}
void TBusJob::SendOneWayTo(TBusMessageAutoPtr req, TBusClientSession* session, const TNetAddr& addr) {
CheckThreadCurrentJob();
SetJob(req.Get(), Runner);
Pending.push_back(TJobState(nullptr, MESSAGE_DONT_ASK, req.Release(), session, nullptr, 0, &addr, true));
}
void TBusJob::SendOneWayWithLocator(TBusMessageAutoPtr req, TBusClientSession* session) {
CheckThreadCurrentJob();
SetJob(req.Get(), Runner);
Pending.push_back(TJobState(nullptr, MESSAGE_DONT_ASK, req.Release(), session, nullptr, 0, nullptr, true));
}
///////////////////////////////////////////////////////////////
/// send reply to the starter message
void TBusJob::SendReply(TBusMessageAutoPtr reply) {
CheckThreadCurrentJob();
Y_ABORT_UNLESS(!ReplySent, "cannot call SendReply twice");
ReplySent = true;
if (!OnMessageContext)
return;
EMessageStatus ok = OnMessageContext.SendReplyMove(reply);
if (ok != MESSAGE_OK) {
// TODO: count errors
}
}
/// set the flag to terminate job at the earliest convenience
void TBusJob::Cancel(EMessageStatus status) {
CheckThreadCurrentJob();
Status = status;
}
void TBusJob::ClearState(TJobState& call) {
TJobStateVec::iterator it;
for (it = Finished.begin(); it != Finished.end(); ++it) {
TJobState& state = *it;
if (&call == &state) {
::ClearState(&call);
Finished.erase(it);
return;
}
}
Y_ASSERT(0);
}
void TBusJob::ClearAllMessageStates() {
ClearJobStateVector(&Finished);
ClearJobStateVector(&Pending);
}
void TBusJob::Sleep(int milliSeconds) {
CheckThreadCurrentJob();
Y_ABORT_UNLESS(Pending.empty(), "sleep is not allowed when there are pending job");
Y_ABORT_UNLESS(SleepUntil == 0, "must not override sleep");
SleepUntil = Now() + milliSeconds;
}
TString TBusJob::GetStatus(unsigned flags) {
TString strReturn;
strReturn += Sprintf(" job=%016" PRIx64 " type=%d sent=%d pending=%d (%d) %s\n",
Message->GetHeader()->Id,
(int)Message->GetHeader()->Type,
(int)(Now() - Message->GetHeader()->SendTime) / 1000,
(int)Pending.size(),
(int)Finished.size(),
Status != MESSAGE_OK ? ToString(Status).data() : "");
TJobStateVec::iterator it;
for (it = Pending.begin(); it != Pending.end(); ++it) {
TJobState& call = *it;
strReturn += call.GetStatus(flags);
}
return strReturn;
}
TString TJobState::GetStatus(unsigned flags) {
Y_UNUSED(flags);
TString strReturn;
strReturn += Sprintf(" pending=%016" PRIx64 " type=%d (%s) sent=%d %s\n",
Message->GetHeader()->Id,
(int)Message->GetHeader()->Type,
Session->GetProto()->GetService(),
(int)(Now() - Message->GetHeader()->SendTime) / 1000,
ToString(Status).data());
return strReturn;
}
//////////////////////////////////////////////////////////////////////
void TBusModuleImpl::CancelJob(TBusJob* job, EMessageStatus status) {
TWhatThreadDoesAcquireGuard<TMutex> G(Lock, "modules: acquiring lock for CancelJob");
if (job) {
job->Cancel(status);
}
}
TString TBusModuleImpl::GetStatus(unsigned flags) {
Y_UNUSED(flags);
TWhatThreadDoesAcquireGuard<TMutex> G(Lock, "modules: acquiring lock for GetStatus");
TString strReturn = Sprintf("JobsInFlight=%d\n", (int)Jobs.size());
for (auto job : Jobs) {
//strReturn += job->Job->GetStatus(flags);
Y_UNUSED(job);
strReturn += "TODO\n";
}
return strReturn;
}
TBusModuleConfig::TBusModuleConfig()
: StarterMaxInFlight(1000)
{
}
TBusModuleConfig::TSecret::TSecret()
: SchedulePeriod(TDuration::Seconds(1))
{
}
TBusModule::TBusModule(const char* name)
: Impl(new TBusModuleImpl(this, name))
{
}
TBusModule::~TBusModule() {
}
const char* TBusModule::GetName() const {
return Impl->Name;
}
void TBusModule::SetConfig(const TBusModuleConfig& config) {
Impl->ModuleConfig = config;
}
bool TBusModule::StartInput() {
Y_ABORT_UNLESS(Impl->State == TBusModuleImpl::CREATED, "state check");
Y_ABORT_UNLESS(!!Impl->Queue, "state check");
Impl->State = TBusModuleImpl::RUNNING;
Y_ASSERT(!Impl->ExternalSession);
TBusServerSessionPtr extSession = CreateExtSession(*Impl->Queue);
if (extSession != nullptr) {
Impl->ExternalSession = extSession;
}
return true;
}
bool TBusModule::Shutdown() {
Impl->Shutdown();
return true;
}
TBusJob* TBusModule::CreateJobInstance(TBusMessage* message) {
TBusJob* job = new TBusJob(this, message);
return job;
}
/**
Example for external session creation:
TBusSession* TMyModule::CreateExtSession(TBusMessageQueue& queue) {
TBusSession* session = CreateDefaultDestination(queue, &ExternalProto, ExternalConfig);
session->RegisterService(hostname, begin, end);
return session;
*/
bool TBusModule::CreatePrivateSessions(TBusMessageQueue* queue) {
Impl->Queue = queue;
return true;
}
int TBusModule::GetModuleSessionInFlight() const {
return Impl->Size();
}
TIntrusivePtr<TBusModuleInternal> TBusModule::GetInternal() {
return Impl.Get();
}
TBusServerSessionPtr TBusModule::CreateDefaultDestination(
TBusMessageQueue& queue, TBusProtocol* proto, const TBusServerSessionConfig& config, const TString& name) {
TBusServerSessionConfig patchedConfig = config;
patchedConfig.ExecuteOnMessageInWorkerPool = false;
if (!patchedConfig.Name) {
patchedConfig.Name = name;
}
if (!patchedConfig.Name) {
patchedConfig.Name = Impl->Name;
}
TBusServerSessionPtr session =
TBusServerSession::Create(proto, Impl->ModuleServerHandler.Get(), patchedConfig, &queue);
Impl->ServerSessions.push_back(session);
return session;
}
TBusClientSessionPtr TBusModule::CreateDefaultSource(
TBusMessageQueue& queue, TBusProtocol* proto, const TBusClientSessionConfig& config, const TString& name) {
TBusClientSessionConfig patchedConfig = config;
patchedConfig.ExecuteOnReplyInWorkerPool = false;
if (!patchedConfig.Name) {
patchedConfig.Name = name;
}
if (!patchedConfig.Name) {
patchedConfig.Name = Impl->Name;
}
TBusClientSessionPtr session =
TBusClientSession::Create(proto, Impl->ModuleClientHandler.Get(), patchedConfig, &queue);
Impl->ClientSessions.push_back(session);
return session;
}
TBusStarter* TBusModule::CreateDefaultStarter(TBusMessageQueue&, const TBusSessionConfig& config) {
TBusStarter* session = new TBusStarter(this, config);
Impl->Starters.push_back(session);
return session;
}
void TBusModule::OnClientConnectionEvent(const TClientConnectionEvent& event) {
Y_UNUSED(event);
}
TString TBusModule::GetStatus(unsigned flags) {
TString strReturn = Sprintf("%s\n", Impl->Name);
strReturn += Impl->GetStatus(flags);
return strReturn;
}
}
void TBusModuleImpl::AddJob(TJobRunner* jobRunner) {
TWhatThreadDoesAcquireGuard<TMutex> G(Lock, "modules: acquiring lock for AddJob");
Jobs.push_back(jobRunner);
jobRunner->JobStorageIterator = Jobs.end();
--jobRunner->JobStorageIterator;
}
void TBusModuleImpl::DestroyJob(TJobRunner* job) {
Y_ASSERT(job->JobStorageIterator != TList<TJobRunner*>::iterator());
{
TWhatThreadDoesAcquireGuard<TMutex> G(Lock, "modules: acquiring lock for DestroyJob");
int jobCount = AtomicDecrement(JobCount);
Y_ABORT_UNLESS(jobCount >= 0, "decremented too much");
Jobs.erase(job->JobStorageIterator);
if (AtomicGet(State) == STOPPED) {
if (jobCount == 0) {
ShutdownCondVar.BroadCast();
}
}
}
job->JobStorageIterator = TList<TJobRunner*>::iterator();
}
void TBusModuleImpl::OnMessageReceived(TAutoPtr<TBusMessage> msg0, TOnMessageContext& context) {
TBusMessage* msg = !!msg0 ? msg0.Get() : context.GetMessage();
Y_ABORT_UNLESS(!!msg);
THolder<TJobRunner> jobRunner(new TJobRunner(Module->CreateJobInstance(msg)));
jobRunner->Job->MessageHolder.Reset(msg0.Release());
jobRunner->Job->OnMessageContext.Swap(context);
SetJob(jobRunner->Job->Message, jobRunner.Get());
AtomicIncrement(JobCount);
AddJob(jobRunner.Get());
jobRunner.Release()->Schedule();
}
void TBusModuleImpl::Shutdown() {
if (AtomicGet(State) != TBusModuleImpl::RUNNING) {
AtomicSet(State, TBusModuleImpl::STOPPED);
return;
}
AtomicSet(State, TBusModuleImpl::STOPPED);
for (auto& clientSession : ClientSessions) {
clientSession->Shutdown();
}
for (auto& serverSession : ServerSessions) {
serverSession->Shutdown();
}
for (size_t starter = 0; starter < Starters.size(); ++starter) {
Starters[starter]->Shutdown();
}
{
TWhatThreadDoesAcquireGuard<TMutex> guard(Lock, "modules: acquiring lock for Shutdown");
for (auto& Job : Jobs) {
Job->Schedule();
}
while (!Jobs.empty()) {
ShutdownCondVar.WaitI(Lock);
}
}
}
EMessageStatus TBusModule::StartJob(TAutoPtr<TBusMessage> message) {
Y_ABORT_UNLESS(Impl->State == TBusModuleImpl::RUNNING);
Y_ABORT_UNLESS(!!Impl->Queue);
if ((unsigned)AtomicGet(Impl->JobCount) >= Impl->ModuleConfig.StarterMaxInFlight) {
return MESSAGE_BUSY;
}
TOnMessageContext dummy;
Impl->OnMessageReceived(message.Release(), dummy);
return MESSAGE_OK;
}
void TModuleServerHandler::OnMessage(TOnMessageContext& msg) {
Module->OnMessageReceived(nullptr, msg);
}
void TModuleClientHandler::OnReply(TAutoPtr<TBusMessage> req, TAutoPtr<TBusMessage> resp) {
TJobRunner* job = GetJob(req.Get());
Y_ASSERT(job);
Y_ASSERT(job->Job->Message != req.Get());
job->EnqueueAndSchedule(TJobResponseMessage(req.Release(), resp.Release(), MESSAGE_OK));
job->UnRef();
}
void TModuleClientHandler::OnMessageSentOneWay(TAutoPtr<TBusMessage> req) {
TJobRunner* job = GetJob(req.Get());
Y_ASSERT(job);
Y_ASSERT(job->Job->Message != req.Get());
job->EnqueueAndSchedule(TJobResponseMessage(req.Release(), nullptr, MESSAGE_OK));
job->UnRef();
}
void TModuleClientHandler::OnError(TAutoPtr<TBusMessage> msg, EMessageStatus status) {
TJobRunner* job = GetJob(msg.Get());
if (job) {
Y_ASSERT(job->Job->Message != msg.Get());
job->EnqueueAndSchedule(TJobResponseMessage(msg.Release(), nullptr, status));
job->UnRef();
}
}
void TModuleClientHandler::OnClientConnectionEvent(const TClientConnectionEvent& event) {
Module->OnClientConnectionEvent(event);
}
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