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|
// Copyright Epic Games, Inc. All Rights Reserved.
#include "remotehttprunner.h"
#if ZEN_WITH_COMPUTE_SERVICES
# include <zencore/compactbinary.h>
# include <zencore/compactbinarybuilder.h>
# include <zencore/compactbinarypackage.h>
# include <zencore/compress.h>
# include <zencore/except.h>
# include <zencore/filesystem.h>
# include <zencore/fmtutils.h>
# include <zencore/iobuffer.h>
# include <zencore/iohash.h>
# include <zencore/scopeguard.h>
# include <zencore/system.h>
# include <zencore/trace.h>
# include <zenhttp/httpcommon.h>
# include <zenstore/cidstore.h>
# include <span>
//////////////////////////////////////////////////////////////////////////
namespace zen::compute {
using namespace std::literals;
//////////////////////////////////////////////////////////////////////////
RemoteHttpRunner::RemoteHttpRunner(ChunkResolver& InChunkResolver,
const std::filesystem::path& BaseDir,
std::string_view HostName,
WorkerThreadPool& InWorkerPool)
: FunctionRunner(BaseDir)
, m_Log(logging::Get("http_exec"))
, m_ChunkResolver{InChunkResolver}
, m_WorkerPool{InWorkerPool}
, m_HostName{HostName}
, m_BaseUrl{fmt::format("{}/compute", HostName)}
, m_Http(m_BaseUrl)
, m_InstanceId(Oid::NewOid())
{
// Attempt to connect a WebSocket for push-based completion notifications.
// If the remote doesn't support WS, OnWsClose fires and we fall back to polling.
{
std::string WsUrl = HttpToWsUrl(HostName, "/compute/ws");
HttpWsClientSettings WsSettings;
WsSettings.LogCategory = "http_exec_ws";
WsSettings.ConnectTimeout = std::chrono::milliseconds{3000};
IWsClientHandler& Handler = *this;
m_WsClient = std::make_unique<HttpWsClient>(WsUrl, Handler, WsSettings);
m_WsClient->Connect();
}
m_MonitorThread = std::thread{&RemoteHttpRunner::MonitorThreadFunction, this};
}
RemoteHttpRunner::~RemoteHttpRunner()
{
Shutdown();
}
void
RemoteHttpRunner::Shutdown()
{
m_AcceptNewActions = false;
// Close the WebSocket client first, so no more wakeup signals arrive.
if (m_WsClient)
{
m_WsClient->Close();
}
// Cancel all known remote queues so the remote side stops scheduling new
// work and cancels in-flight actions belonging to those queues.
{
std::vector<std::pair<int, Oid>> Queues;
m_QueueTokenLock.WithSharedLock([&] { Queues.assign(m_RemoteQueueTokens.begin(), m_RemoteQueueTokens.end()); });
for (const auto& [QueueId, Token] : Queues)
{
CancelRemoteQueue(QueueId);
}
}
// Stop the monitor thread so it no longer polls the remote.
m_MonitorThreadEnabled = false;
m_MonitorThreadEvent.Set();
if (m_MonitorThread.joinable())
{
m_MonitorThread.join();
}
// Drain the running map and mark all remaining actions as Failed so the
// scheduler can reschedule or finalize them.
std::unordered_map<int, HttpRunningAction> Remaining;
m_RunningLock.WithExclusiveLock([&] { Remaining.swap(m_RemoteRunningMap); });
for (auto& [RemoteLsn, HttpAction] : Remaining)
{
ZEN_DEBUG("shutdown: marking remote action LSN {} (local LSN {}) as Failed", RemoteLsn, HttpAction.Action->ActionLsn);
HttpAction.Action->SetActionState(RunnerAction::State::Failed);
}
}
bool
RemoteHttpRunner::RegisterWorker(const CbPackage& WorkerPackage)
{
ZEN_TRACE_CPU("RemoteHttpRunner::RegisterWorker");
const IoHash WorkerId = WorkerPackage.GetObjectHash();
CbPackage WorkerDesc = WorkerPackage;
std::string WorkerUrl = fmt::format("/workers/{}", WorkerId);
HttpClient::Response WorkerResponse = m_Http.Get(WorkerUrl);
if (WorkerResponse.StatusCode == HttpResponseCode::NotFound)
{
HttpClient::Response DescResponse = m_Http.Post(WorkerUrl, WorkerDesc.GetObject());
if (DescResponse.StatusCode == HttpResponseCode::NotFound)
{
CbPackage Pkg = WorkerDesc;
// Build response package by sending only the attachments
// the other end needs. We start with the full package and
// remove the attachments which are not needed.
{
std::unordered_set<IoHash> Needed;
CbObject Response = DescResponse.AsObject();
for (auto& Item : Response["need"sv])
{
const IoHash NeedHash = Item.AsHash();
Needed.insert(NeedHash);
}
std::unordered_set<IoHash> ToRemove;
for (const CbAttachment& Attachment : Pkg.GetAttachments())
{
const IoHash& Hash = Attachment.GetHash();
if (Needed.find(Hash) == Needed.end())
{
ToRemove.insert(Hash);
}
}
for (const IoHash& Hash : ToRemove)
{
int RemovedCount = Pkg.RemoveAttachment(Hash);
ZEN_ASSERT(RemovedCount == 1);
}
}
// Post resulting package
HttpClient::Response PayloadResponse = m_Http.Post(WorkerUrl, Pkg);
if (!IsHttpSuccessCode(PayloadResponse.StatusCode))
{
ZEN_ERROR("ERROR: unable to register payloads for worker {} at {}{}", WorkerId, m_Http.GetBaseUri(), WorkerUrl);
return false;
}
}
else if (!IsHttpSuccessCode(DescResponse.StatusCode))
{
ZEN_ERROR("ERROR: unable to register worker {} at {}{}", WorkerId, m_Http.GetBaseUri(), WorkerUrl);
return false;
}
else
{
ZEN_ASSERT(DescResponse.StatusCode == HttpResponseCode::NoContent);
}
}
else if (WorkerResponse.StatusCode == HttpResponseCode::OK)
{
// Already known from a previous run
}
else if (!IsHttpSuccessCode(WorkerResponse.StatusCode))
{
ZEN_ERROR("ERROR: unable to look up worker {} at {}{} (error: {} {})",
WorkerId,
m_Http.GetBaseUri(),
WorkerUrl,
(int)WorkerResponse.StatusCode,
ToString(WorkerResponse.StatusCode));
return false;
}
return true;
}
size_t
RemoteHttpRunner::QueryCapacity()
{
if (!m_AcceptNewActions)
{
return 0;
}
// Estimate how much more work we're ready to accept
RwLock::SharedLockScope _{m_RunningLock};
size_t RunningCount = m_RemoteRunningMap.size();
if (RunningCount >= size_t(m_MaxRunningActions))
{
return 0;
}
return m_MaxRunningActions - RunningCount;
}
std::vector<SubmitResult>
RemoteHttpRunner::SubmitActions(const std::vector<Ref<RunnerAction>>& Actions)
{
ZEN_TRACE_CPU("RemoteHttpRunner::SubmitActions");
if (Actions.size() <= 1)
{
std::vector<SubmitResult> Results;
for (const Ref<RunnerAction>& Action : Actions)
{
Results.push_back(SubmitAction(Action));
}
return Results;
}
// Collect distinct QueueIds and ensure remote queues exist once per queue
std::unordered_map<int, Oid> QueueTokens; // QueueId → remote token (0 stays as Zero)
for (const Ref<RunnerAction>& Action : Actions)
{
const int QueueId = Action->QueueId;
if (QueueId != 0 && QueueTokens.find(QueueId) == QueueTokens.end())
{
CbObject QueueMeta = Action->GetOwnerSession()->GetQueueMetadata(QueueId);
CbObject QueueConfig = Action->GetOwnerSession()->GetQueueConfig(QueueId);
QueueTokens[QueueId] = EnsureRemoteQueue(QueueId, QueueMeta, QueueConfig);
}
}
// Group actions by QueueId
struct QueueGroup
{
std::vector<Ref<RunnerAction>> Actions;
std::vector<size_t> OriginalIndices;
};
std::unordered_map<int, QueueGroup> Groups;
for (size_t i = 0; i < Actions.size(); ++i)
{
auto& Group = Groups[Actions[i]->QueueId];
Group.Actions.push_back(Actions[i]);
Group.OriginalIndices.push_back(i);
}
// Submit each group as a batch and map results back to original indices
std::vector<SubmitResult> Results(Actions.size());
for (auto& [QueueId, Group] : Groups)
{
std::string SubmitUrl = "/jobs";
if (QueueId != 0)
{
if (Oid Token = QueueTokens[QueueId]; Token != Oid::Zero)
{
SubmitUrl = fmt::format("/queues/{}/jobs", Token);
}
}
const size_t BatchLimit = size_t(m_MaxBatchSize);
for (size_t Offset = 0; Offset < Group.Actions.size(); Offset += BatchLimit)
{
size_t End = zen::Min(Offset + BatchLimit, Group.Actions.size());
std::vector<Ref<RunnerAction>> Chunk(Group.Actions.begin() + Offset, Group.Actions.begin() + End);
std::vector<SubmitResult> ChunkResults = SubmitActionBatch(SubmitUrl, Chunk);
for (size_t j = 0; j < ChunkResults.size(); ++j)
{
Results[Group.OriginalIndices[Offset + j]] = std::move(ChunkResults[j]);
}
}
}
return Results;
}
SubmitResult
RemoteHttpRunner::SubmitAction(Ref<RunnerAction> Action)
{
ZEN_TRACE_CPU("RemoteHttpRunner::SubmitAction");
// Verify whether we can accept more work
if (!m_AcceptNewActions)
{
return SubmitResult{.IsAccepted = false, .Reason = "runner is shutting down"};
}
{
RwLock::SharedLockScope _{m_RunningLock};
if (m_RemoteRunningMap.size() >= size_t(m_MaxRunningActions))
{
return SubmitResult{.IsAccepted = false};
}
}
using namespace std::literals;
// Each enqueued action is assigned an integer index (logical sequence number),
// which we use as a key for tracking data structures and as an opaque id which
// may be used by clients to reference the scheduled action
Action->ExecutionLocation = m_HostName;
const int32_t ActionLsn = Action->ActionLsn;
const CbObject& ActionObj = Action->ActionObj;
const IoHash ActionId = ActionObj.GetHash();
MaybeDumpAction(ActionLsn, ActionObj);
// Determine the submission URL. If the action belongs to a queue, ensure a
// corresponding remote queue exists on the target node and submit via it.
std::string SubmitUrl = "/jobs";
if (const int QueueId = Action->QueueId; QueueId != 0)
{
CbObject QueueMeta = Action->GetOwnerSession()->GetQueueMetadata(QueueId);
CbObject QueueConfig = Action->GetOwnerSession()->GetQueueConfig(QueueId);
if (Oid Token = EnsureRemoteQueue(QueueId, QueueMeta, QueueConfig); Token != Oid::Zero)
{
SubmitUrl = fmt::format("/queues/{}/jobs", Token);
}
}
// Enqueue job. If the remote returns FailedDependency (424), it means it
// cannot resolve the worker/function — re-register the worker and retry once.
CbObject Result;
HttpClient::Response WorkResponse;
HttpResponseCode WorkResponseCode{};
for (int Attempt = 0; Attempt < 2; ++Attempt)
{
WorkResponse = m_Http.Post(SubmitUrl, ActionObj);
WorkResponseCode = WorkResponse.StatusCode;
if (WorkResponseCode == HttpResponseCode::FailedDependency && Attempt == 0)
{
ZEN_WARN("remote {} returned FailedDependency for action {} — re-registering worker and retrying",
m_Http.GetBaseUri(),
ActionId);
(void)RegisterWorker(Action->Worker.Descriptor);
}
else
{
break;
}
}
if (WorkResponseCode == HttpResponseCode::OK)
{
Result = WorkResponse.AsObject();
}
else if (WorkResponseCode == HttpResponseCode::NotFound)
{
// Not all attachments are present
// Build response package including all required attachments
CbPackage Pkg;
Pkg.SetObject(ActionObj);
CbObject Response = WorkResponse.AsObject();
for (auto& Item : Response["need"sv])
{
const IoHash NeedHash = Item.AsHash();
if (IoBuffer Chunk = m_ChunkResolver.FindChunkByCid(NeedHash))
{
uint64_t DataRawSize = 0;
IoHash DataRawHash;
CompressedBuffer Compressed =
CompressedBuffer::FromCompressed(SharedBuffer{Chunk}, /* out */ DataRawHash, /* out */ DataRawSize);
ZEN_ASSERT(DataRawHash == NeedHash);
Pkg.AddAttachment(CbAttachment(Compressed, NeedHash));
}
else
{
// No such attachment
return {.IsAccepted = false, .Reason = fmt::format("missing attachment {}", NeedHash)};
}
}
// Post resulting package
HttpClient::Response PayloadResponse = m_Http.Post(SubmitUrl, Pkg);
if (!PayloadResponse)
{
ZEN_WARN("unable to register payloads for action {} at {}{}", ActionId, m_Http.GetBaseUri(), SubmitUrl);
// TODO: include more information about the failure in the response
return {.IsAccepted = false, .Reason = "HTTP request failed"};
}
else if (PayloadResponse.StatusCode == HttpResponseCode::OK)
{
Result = PayloadResponse.AsObject();
}
else
{
// Unexpected response
const int ResponseStatusCode = (int)PayloadResponse.StatusCode;
ZEN_WARN("unable to register payloads for action {} at {}{} (error: {} {})",
ActionId,
m_Http.GetBaseUri(),
SubmitUrl,
ResponseStatusCode,
ToString(ResponseStatusCode));
return {.IsAccepted = false,
.Reason = fmt::format("unexpected response code {} {} from {}{}",
ResponseStatusCode,
ToString(ResponseStatusCode),
m_Http.GetBaseUri(),
SubmitUrl)};
}
}
if (Result)
{
if (const int32_t LsnField = Result["lsn"].AsInt32(0))
{
HttpRunningAction NewAction;
NewAction.Action = Action;
NewAction.RemoteActionLsn = LsnField;
{
RwLock::ExclusiveLockScope _(m_RunningLock);
m_RemoteRunningMap[LsnField] = std::move(NewAction);
}
ZEN_DEBUG("scheduled action {} with remote LSN {} (local LSN {})", ActionId, LsnField, ActionLsn);
Action->SetActionState(RunnerAction::State::Running);
return SubmitResult{.IsAccepted = true};
}
}
return {};
}
std::vector<SubmitResult>
RemoteHttpRunner::SubmitActionBatch(const std::string& SubmitUrl, const std::vector<Ref<RunnerAction>>& Actions)
{
ZEN_TRACE_CPU("RemoteHttpRunner::SubmitActionBatch");
if (!m_AcceptNewActions)
{
return std::vector<SubmitResult>(Actions.size(), SubmitResult{.IsAccepted = false, .Reason = "runner is shutting down"});
}
// Capacity check
{
RwLock::SharedLockScope _{m_RunningLock};
if (m_RemoteRunningMap.size() >= size_t(m_MaxRunningActions))
{
std::vector<SubmitResult> Results(Actions.size(), SubmitResult{.IsAccepted = false});
return Results;
}
}
// Per-action setup and build batch body
CbObjectWriter Body;
Body.BeginArray("actions"sv);
for (const Ref<RunnerAction>& Action : Actions)
{
Action->ExecutionLocation = m_HostName;
MaybeDumpAction(Action->ActionLsn, Action->ActionObj);
Body.AddObject(Action->ActionObj);
}
Body.EndArray();
// POST the batch
HttpClient::Response Response = m_Http.Post(SubmitUrl, Body.Save());
if (Response.StatusCode == HttpResponseCode::OK)
{
return ParseBatchResponse(Response, Actions);
}
if (Response.StatusCode == HttpResponseCode::NotFound)
{
// Server needs attachments — resolve them and retry with a CbPackage
CbObject NeedObj = Response.AsObject();
CbPackage Pkg;
Pkg.SetObject(Body.Save());
for (auto& Item : NeedObj["need"sv])
{
const IoHash NeedHash = Item.AsHash();
if (IoBuffer Chunk = m_ChunkResolver.FindChunkByCid(NeedHash))
{
uint64_t DataRawSize = 0;
IoHash DataRawHash;
CompressedBuffer Compressed =
CompressedBuffer::FromCompressed(SharedBuffer{Chunk}, /* out */ DataRawHash, /* out */ DataRawSize);
ZEN_ASSERT(DataRawHash == NeedHash);
Pkg.AddAttachment(CbAttachment(Compressed, NeedHash));
}
else
{
ZEN_WARN("batch submit: missing attachment {} — falling back to individual submit", NeedHash);
return FallbackToIndividualSubmit(Actions);
}
}
HttpClient::Response RetryResponse = m_Http.Post(SubmitUrl, Pkg);
if (RetryResponse.StatusCode == HttpResponseCode::OK)
{
return ParseBatchResponse(RetryResponse, Actions);
}
ZEN_WARN("batch submit retry failed with {} {} — falling back to individual submit",
(int)RetryResponse.StatusCode,
ToString(RetryResponse.StatusCode));
return FallbackToIndividualSubmit(Actions);
}
// Unexpected status or connection error — fall back to individual submission
if (Response)
{
ZEN_WARN("batch submit to {}{} returned {} {} — falling back to individual submit",
m_Http.GetBaseUri(),
SubmitUrl,
(int)Response.StatusCode,
ToString(Response.StatusCode));
}
else
{
ZEN_WARN("batch submit to {}{} failed — falling back to individual submit", m_Http.GetBaseUri(), SubmitUrl);
}
return FallbackToIndividualSubmit(Actions);
}
std::vector<SubmitResult>
RemoteHttpRunner::ParseBatchResponse(const HttpClient::Response& Response, const std::vector<Ref<RunnerAction>>& Actions)
{
std::vector<SubmitResult> Results;
Results.reserve(Actions.size());
CbObject ResponseObj = Response.AsObject();
CbArrayView ResultArray = ResponseObj["results"sv].AsArrayView();
size_t Index = 0;
for (CbFieldView Field : ResultArray)
{
if (Index >= Actions.size())
{
break;
}
CbObjectView Entry = Field.AsObjectView();
const int32_t LsnField = Entry["lsn"sv].AsInt32(0);
if (LsnField > 0)
{
HttpRunningAction NewAction;
NewAction.Action = Actions[Index];
NewAction.RemoteActionLsn = LsnField;
{
RwLock::ExclusiveLockScope _(m_RunningLock);
m_RemoteRunningMap[LsnField] = std::move(NewAction);
}
ZEN_DEBUG("batch: scheduled action {} with remote LSN {} (local LSN {})",
Actions[Index]->ActionObj.GetHash(),
LsnField,
Actions[Index]->ActionLsn);
Actions[Index]->SetActionState(RunnerAction::State::Running);
Results.push_back(SubmitResult{.IsAccepted = true});
}
else
{
std::string_view ErrorMsg = Entry["error"sv].AsString();
Results.push_back(SubmitResult{.IsAccepted = false, .Reason = std::string(ErrorMsg)});
}
++Index;
}
// If the server returned fewer results than actions, mark the rest as not accepted
while (Results.size() < Actions.size())
{
Results.push_back(SubmitResult{.IsAccepted = false, .Reason = "no result from server"});
}
return Results;
}
std::vector<SubmitResult>
RemoteHttpRunner::FallbackToIndividualSubmit(const std::vector<Ref<RunnerAction>>& Actions)
{
std::vector<std::future<SubmitResult>> Futures;
Futures.reserve(Actions.size());
for (const Ref<RunnerAction>& Action : Actions)
{
std::packaged_task<SubmitResult()> Task([this, Action]() { return SubmitAction(Action); });
Futures.push_back(m_WorkerPool.EnqueueTask(std::move(Task), WorkerThreadPool::EMode::EnableBacklog));
}
std::vector<SubmitResult> Results;
Results.reserve(Futures.size());
for (auto& Future : Futures)
{
Results.push_back(Future.get());
}
return Results;
}
Oid
RemoteHttpRunner::EnsureRemoteQueue(int QueueId, const CbObject& Metadata, const CbObject& Config)
{
{
RwLock::SharedLockScope _(m_QueueTokenLock);
if (auto It = m_RemoteQueueTokens.find(QueueId); It != m_RemoteQueueTokens.end())
{
return It->second;
}
}
// Build a stable idempotency key that uniquely identifies this (runner instance, local queue)
// pair. The server uses this to return the same remote queue token for concurrent or redundant
// requests, preventing orphaned remote queues when multiple threads race through here.
// Also send hostname so the server can associate the queue with its origin for diagnostics.
CbObjectWriter Body;
Body << "idempotency_key"sv << fmt::format("{}/{}", m_InstanceId, QueueId);
Body << "hostname"sv << GetMachineName();
if (Metadata)
{
Body << "metadata"sv << Metadata;
}
if (Config)
{
Body << "config"sv << Config;
}
HttpClient::Response Resp = m_Http.Post("/queues/remote", Body.Save());
if (!Resp)
{
ZEN_WARN("failed to create remote queue for local queue {} on {}", QueueId, m_HostName);
return Oid::Zero;
}
Oid Token = Oid::TryFromHexString(Resp.AsObject()["queue_token"sv].AsString());
if (Token == Oid::Zero)
{
return Oid::Zero;
}
ZEN_DEBUG("created remote queue '{}' for local queue {} on {}", Token, QueueId, m_HostName);
RwLock::ExclusiveLockScope _(m_QueueTokenLock);
auto [It, Inserted] = m_RemoteQueueTokens.try_emplace(QueueId, Token);
return It->second;
}
void
RemoteHttpRunner::CancelRemoteQueue(int QueueId)
{
Oid Token;
{
RwLock::SharedLockScope _(m_QueueTokenLock);
if (auto It = m_RemoteQueueTokens.find(QueueId); It != m_RemoteQueueTokens.end())
{
Token = It->second;
}
}
if (Token == Oid::Zero)
{
return;
}
HttpClient::Response Resp = m_Http.Delete(fmt::format("/queues/{}", Token));
if (Resp.StatusCode == HttpResponseCode::NoContent)
{
ZEN_DEBUG("cancelled remote queue '{}' (local queue {}) on {}", Token, QueueId, m_HostName);
}
else
{
ZEN_WARN("failed to cancel remote queue '{}' on {}: {}", Token, m_HostName, int(Resp.StatusCode));
}
}
bool
RemoteHttpRunner::IsHealthy()
{
if (HttpClient::Response Ready = m_Http.Get("/ready"))
{
return true;
}
else
{
// TODO: use response to propagate context
return false;
}
}
size_t
RemoteHttpRunner::GetSubmittedActionCount()
{
RwLock::SharedLockScope _(m_RunningLock);
return m_RemoteRunningMap.size();
}
//////////////////////////////////////////////////////////////////////////
//
// IWsClientHandler
//
void
RemoteHttpRunner::OnWsOpen()
{
ZEN_INFO("WebSocket connected to {}", m_HostName);
m_WsConnected.store(true, std::memory_order_release);
}
void
RemoteHttpRunner::OnWsMessage([[maybe_unused]] const WebSocketMessage& Msg)
{
// The message content is a wakeup signal; no parsing needed.
// Signal the monitor thread to sweep completed actions immediately.
m_MonitorThreadEvent.Set();
}
void
RemoteHttpRunner::OnWsClose([[maybe_unused]] uint16_t Code, [[maybe_unused]] std::string_view Reason)
{
ZEN_WARN("WebSocket disconnected from {} (code {})", m_HostName, Code);
m_WsConnected.store(false, std::memory_order_release);
}
//////////////////////////////////////////////////////////////////////////
void
RemoteHttpRunner::MonitorThreadFunction()
{
SetCurrentThreadName("RemoteHttpRunner_Monitor");
do
{
const int NormalWaitingTime = 200;
const int WsWaitingTime = 2000; // Safety-net interval when WS is connected
int WaitTimeMs = m_WsConnected.load(std::memory_order_relaxed) ? WsWaitingTime : NormalWaitingTime;
auto WaitOnce = [&] { return m_MonitorThreadEvent.Wait(WaitTimeMs); };
auto SweepOnce = [&] {
const size_t RetiredCount = SweepRunningActions();
if (m_WsConnected.load(std::memory_order_relaxed))
{
// WS connected: use long safety-net interval; the WS message
// will wake us immediately for the real work.
WaitTimeMs = WsWaitingTime;
}
else
{
// No WS: adaptive polling as before
m_RunningLock.WithSharedLock([&] {
if (m_RemoteRunningMap.size() > 16)
{
WaitTimeMs = NormalWaitingTime / 4;
}
else
{
if (RetiredCount)
{
WaitTimeMs = NormalWaitingTime / 2;
}
else
{
WaitTimeMs = NormalWaitingTime;
}
}
});
}
};
while (!WaitOnce())
{
SweepOnce();
}
// Signal received — may be a WS wakeup or a quit signal
SweepOnce();
} while (m_MonitorThreadEnabled);
}
size_t
RemoteHttpRunner::SweepRunningActions()
{
ZEN_TRACE_CPU("RemoteHttpRunner::SweepRunningActions");
std::vector<HttpRunningAction> CompletedActions;
// Poll remote for list of completed actions
HttpClient::Response ResponseCompleted = m_Http.Get("/jobs/completed"sv);
if (CbObject Completed = ResponseCompleted.AsObject())
{
for (auto& FieldIt : Completed["completed"sv])
{
CbObjectView EntryObj = FieldIt.AsObjectView();
const int32_t CompleteLsn = EntryObj["lsn"sv].AsInt32();
std::string_view StateName = EntryObj["state"sv].AsString();
RunnerAction::State RemoteState = RunnerAction::FromString(StateName);
// Always fetch to drain the result from the remote's results map,
// but only keep the result package for successfully completed actions.
HttpClient::Response ResponseJob = m_Http.Get(fmt::format("/jobs/{}"sv, CompleteLsn));
m_RunningLock.WithExclusiveLock([&] {
if (auto CompleteIt = m_RemoteRunningMap.find(CompleteLsn); CompleteIt != m_RemoteRunningMap.end())
{
HttpRunningAction CompletedAction = std::move(CompleteIt->second);
CompletedAction.RemoteState = RemoteState;
if (RemoteState == RunnerAction::State::Completed && ResponseJob)
{
CompletedAction.ActionResults = ResponseJob.AsPackage();
}
CompletedActions.push_back(std::move(CompletedAction));
m_RemoteRunningMap.erase(CompleteIt);
}
else
{
// we received a completion notice for an action we don't know about,
// this can happen if the runner is used by multiple upstream schedulers,
// or if this compute node was recently restarted and lost track of
// previously scheduled actions
}
});
}
if (CbObjectView Metrics = Completed["metrics"sv].AsObjectView())
{
// if (const size_t CpuCount = Metrics["core_count"].AsInt32(0))
if (const int32_t CpuCount = Metrics["lp_count"].AsInt32(0))
{
const int32_t NewCap = zen::Max(4, CpuCount);
if (m_MaxRunningActions > NewCap)
{
ZEN_DEBUG("capping {} to {} actions (was {})", m_BaseUrl, NewCap, m_MaxRunningActions);
m_MaxRunningActions = NewCap;
}
}
}
}
// Notify outer. Note that this has to be done without holding any local locks
// otherwise we may end up with deadlocks.
for (HttpRunningAction& HttpAction : CompletedActions)
{
const int ActionLsn = HttpAction.Action->ActionLsn;
ZEN_DEBUG("action {} LSN {} (remote LSN {}) -> {}",
HttpAction.Action->ActionId,
ActionLsn,
HttpAction.RemoteActionLsn,
RunnerAction::ToString(HttpAction.RemoteState));
if (HttpAction.RemoteState == RunnerAction::State::Completed)
{
HttpAction.Action->SetResult(std::move(HttpAction.ActionResults));
}
HttpAction.Action->SetActionState(HttpAction.RemoteState);
}
return CompletedActions.size();
}
} // namespace zen::compute
#endif
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