clang-tools-extra/clangd/support/Trace.cpp - llvm-project - Git at Google

 //===--- Trace.cpp - Performance tracing facilities -----------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "support/Trace.h"
 #include "support/Context.h"
 #include "llvm/ADT/DenseSet.h"
 #include "llvm/ADT/Optional.h"
 #include "llvm/ADT/ScopeExit.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/Support/Chrono.h"
 #include "llvm/Support/FormatProviders.h"
 #include "llvm/Support/FormatVariadic.h"
 #include "llvm/Support/Threading.h"
 #include <atomic>
 #include <chrono>
 #include <memory>
 #include <mutex>

 namespace clang {
 namespace clangd {
 namespace trace {

 namespace {
 // The current implementation is naive: each thread writes to Out guarded by Mu.
 // Perhaps we should replace this by something that disturbs performance less.
 class JSONTracer : public EventTracer {
 public:
   JSONTracer(llvm::raw_ostream &OS, bool Pretty)
       : Out(OS, Pretty ? 2 : 0), Start(std::chrono::system_clock::now()) {
     // The displayTimeUnit must be ns to avoid low-precision overlap
     // calculations!
     Out.objectBegin();
     Out.attribute("displayTimeUnit", "ns");
     Out.attributeBegin("traceEvents");
     Out.arrayBegin();
     rawEvent("M", llvm::json::Object{
                       {"name", "process_name"},
                       {"args", llvm::json::Object{{"name", "clangd"}}},
                   });
   }

   ~JSONTracer() {
     Out.arrayEnd();
     Out.attributeEnd();
     Out.objectEnd();
     Out.flush();
   }

   // We stash a Span object in the context. It will record the start/end,
   // and this also allows us to look up the parent Span's information.
   Context beginSpan(
       llvm::StringRef Name,
       llvm::function_ref<void(llvm::json::Object *)> AttachDetails) override {
     auto JS = std::make_unique<JSONSpan>(this, Name);
     AttachDetails(&JS->Args);
     return Context::current().derive(SpanKey, std::move(JS));
   }

   // Trace viewer requires each thread to properly stack events.
   // So we need to mark only duration that the span was active on the thread.
   // (Hopefully any off-thread activity will be connected by a flow event).
   // Record the end time here, but don't write the event: Args aren't ready yet.
   void endSpan() override {
     Context::current().getExisting(SpanKey)->markEnded();
   }

   void instant(llvm::StringRef Name, llvm::json::Object &&Args) override {
     captureThreadMetadata();
     jsonEvent("i",
               llvm::json::Object{{"name", Name}, {"args", std::move(Args)}});
   }

   // Record an event on the current thread. ph, pid, tid, ts are set.
   // Contents must be a list of the other JSON key/values.
   void jsonEvent(llvm::StringRef Phase, llvm::json::Object &&Contents,
                  uint64_t TID = llvm::get_threadid(), double Timestamp = 0) {
     Contents["ts"] = Timestamp ? Timestamp : timestamp();
     Contents["tid"] = int64_t(TID);
     std::lock_guard<std::mutex> Lock(Mu);
     rawEvent(Phase, Contents);
   }

 private:
   class JSONSpan {
   public:
     JSONSpan(JSONTracer *Tracer, llvm::StringRef Name)
         : StartTime(Tracer->timestamp()), EndTime(0), Name(Name),
           TID(llvm::get_threadid()), Tracer(Tracer) {
       // ~JSONSpan() may run in a different thread, so we need to capture now.
       Tracer->captureThreadMetadata();

       // We don't record begin events here (and end events in the destructor)
       // because B/E pairs have to appear in the right order, which is awkward.
       // Instead we send the complete (X) event in the destructor.

       // If our parent was on a different thread, add an arrow to this span.
       auto *Parent = Context::current().get(SpanKey);
       if (Parent && *Parent && (*Parent)->TID != TID) {
         // If the parent span ended already, then show this as "following" it.
         // Otherwise show us as "parallel".
         double OriginTime = (*Parent)->EndTime;
         if (!OriginTime)
           OriginTime = (*Parent)->StartTime;

         auto FlowID = nextID();
         Tracer->jsonEvent(
             "s",
             llvm::json::Object{{"id", FlowID},
                                {"name", "Context crosses threads"},
                                {"cat", "mock_cat"}},
             (*Parent)->TID, (*Parent)->StartTime);
         Tracer->jsonEvent(
             "f",
             llvm::json::Object{{"id", FlowID},
                                {"bp", "e"},
                                {"name", "Context crosses threads"},
                                {"cat", "mock_cat"}},
             TID);
       }
     }

     ~JSONSpan() {
       // Finally, record the event (ending at EndTime, not timestamp())!
       Tracer->jsonEvent("X",
                         llvm::json::Object{{"name", std::move(Name)},
                                            {"args", std::move(Args)},
                                            {"dur", EndTime - StartTime}},
                         TID, StartTime);
     }

     // May be called by any thread.
     void markEnded() { EndTime = Tracer->timestamp(); }

     llvm::json::Object Args;

   private:
     static int64_t nextID() {
       static std::atomic<int64_t> Next = {0};
       return Next++;
     }

     double StartTime;
     std::atomic<double> EndTime; // Filled in by markEnded().
     std::string Name;
     uint64_t TID;
     JSONTracer *Tracer;
   };
   static Key<std::unique_ptr<JSONSpan>> SpanKey;

   // Record an event. ph and pid are set.
   // Contents must be a list of the other JSON key/values.
   void rawEvent(llvm::StringRef Phase,
                 const llvm::json::Object &Event) /*REQUIRES(Mu)*/ {
     // PID 0 represents the clangd process.
     Out.object([&] {
       Out.attribute("pid", 0);
       Out.attribute("ph", Phase);
       for (const auto &KV : Event)
         Out.attribute(KV.first, KV.second);
     });
   }

   // If we haven't already, emit metadata describing this thread.
   void captureThreadMetadata() {
     uint64_t TID = llvm::get_threadid();
     std::lock_guard<std::mutex> Lock(Mu);
     if (ThreadsWithMD.insert(TID).second) {
       llvm::SmallString<32> Name;
       llvm::get_thread_name(Name);
       if (!Name.empty()) {
         rawEvent("M", llvm::json::Object{
                           {"tid", int64_t(TID)},
                           {"name", "thread_name"},
                           {"args", llvm::json::Object{{"name", Name}}},
                       });
       }
     }
   }

   double timestamp() {
     using namespace std::chrono;
     return duration<double, std::micro>(system_clock::now() - Start).count();
   }

   std::mutex Mu;
   llvm::json::OStream Out /*GUARDED_BY(Mu)*/;
   llvm::DenseSet<uint64_t> ThreadsWithMD /*GUARDED_BY(Mu)*/;
   const llvm::sys::TimePoint<> Start;
 };

 // We emit CSV as specified in RFC 4180: https://www.ietf.org/rfc/rfc4180.txt.
 // \r\n line endings are used, cells with \r\n," are quoted, quotes are doubled.
 class CSVMetricTracer : public EventTracer {
 public:
   CSVMetricTracer(llvm::raw_ostream &Out) : Out(Out) {
     Start = std::chrono::steady_clock::now();

     Out.SetUnbuffered(); // We write each line atomically.
     Out << "Kind,Metric,Label,Value,Timestamp\r\n";
   }

   void record(const Metric &Metric, double Value,
               llvm::StringRef Label) override {
     assert(!needsQuote(Metric.Name));
     std::string QuotedLabel;
     if (needsQuote(Label))
       Label = QuotedLabel = quote(Label);
     uint64_t Micros = std::chrono::duration_cast<std::chrono::microseconds>(
                           std::chrono::steady_clock::now() - Start)
                           .count();
     std::lock_guard<std::mutex> Lock(Mu);
     Out << llvm::formatv("{0},{1},{2},{3:e},{4}.{5:6}\r\n",
                          typeName(Metric.Type), Metric.Name, Label, Value,
                          Micros / 1000000, Micros % 1000000);
   }

 private:
   llvm::StringRef typeName(Metric::MetricType T) {
     switch (T) {
     case Metric::Value:
       return "v";
     case Metric::Counter:
       return "c";
     case Metric::Distribution:
       return "d";
     }
     llvm_unreachable("Unknown Metric::MetricType enum");
   }

   static bool needsQuote(llvm::StringRef Text) {
     // https://www.ietf.org/rfc/rfc4180.txt section 2.6
     return Text.find_first_of(",\"\r\n") != llvm::StringRef::npos;
   }

   std::string quote(llvm::StringRef Text) {
     std::string Result = "\"";
     for (char C : Text) {
       Result.push_back(C);
       if (C == '"')
         Result.push_back('"');
     }
     Result.push_back('"');
     return Result;
   }

 private:
   std::mutex Mu;
   llvm::raw_ostream &Out /*GUARDED_BY(Mu)*/;
   std::chrono::steady_clock::time_point Start;
 };

 Key<std::unique_ptr<JSONTracer::JSONSpan>> JSONTracer::SpanKey;

 EventTracer *T = nullptr;
 } // namespace

 Session::Session(EventTracer &Tracer) {
   assert(!T && "Resetting global tracer is not allowed.");
   T = &Tracer;
 }

 Session::~Session() { T = nullptr; }

 std::unique_ptr<EventTracer> createJSONTracer(llvm::raw_ostream &OS,
                                               bool Pretty) {
   return std::make_unique<JSONTracer>(OS, Pretty);
 }

 std::unique_ptr<EventTracer> createCSVMetricTracer(llvm::raw_ostream &OS) {
   return std::make_unique<CSVMetricTracer>(OS);
 }

 void log(const llvm::Twine &Message) {
   if (!T)
     return;
   T->instant("Log", llvm::json::Object{{"Message", Message.str()}});
 }

 bool enabled() { return T != nullptr; }

 // The JSON object is event args (owned by context), if the tracer wants them.
 static std::pair<Context, llvm::json::Object *>
 makeSpanContext(llvm::Twine Name, const Metric &LatencyMetric) {
   if (!T)
     return std::make_pair(Context::current().clone(), nullptr);
   llvm::Optional<WithContextValue> WithLatency;
   using Clock = std::chrono::high_resolution_clock;
   WithLatency.emplace(llvm::make_scope_exit(
       [StartTime = Clock::now(), Name = Name.str(), &LatencyMetric] {
         LatencyMetric.record(
             std::chrono::duration_cast<std::chrono::milliseconds>(Clock::now() -
                                                                   StartTime)
                 .count(),
             Name);
       }));
   llvm::json::Object *Args = nullptr;
   Context Ctx = T->beginSpan(
       Name.isSingleStringRef() ? Name.getSingleStringRef()
                                : llvm::StringRef(Name.str()),
       [&](llvm::json::Object *A) {
         assert(A && A->empty() && "Invalid AttachDetails() placeholder!");
         Args = A;
       });
   return std::make_pair(std::move(Ctx), Args);
 }

 // Fallback metric that measures latencies for spans without an explicit latency
 // metric. Labels are span names.
 constexpr Metric SpanLatency("span_latency", Metric::Distribution, "span_name");

 // Span keeps a non-owning pointer to the args, which is how users access them.
 // The args are owned by the context though. They stick around until the
 // beginSpan() context is destroyed, when the tracing engine will consume them.
 Span::Span(llvm::Twine Name) : Span(Name, SpanLatency) {}
 Span::Span(llvm::Twine Name, const Metric &LatencyMetric)
     : Span(makeSpanContext(Name, LatencyMetric)) {}
 Span::Span(std::pair<Context, llvm::json::Object *> Pair)
     : Args(Pair.second), RestoreCtx(std::move(Pair.first)) {}

 Span::~Span() {
   if (T)
     T->endSpan();
 }

 void Metric::record(double Value, llvm::StringRef Label) const {
   if (!T)
     return;
   assert((LabelName.empty() == Label.empty()) &&
          "recording a measurement with inconsistent labeling");
   T->record(*this, Value, Label);
 }

 Context EventTracer::beginSpan(
     llvm::StringRef Name,
     llvm::function_ref<void(llvm::json::Object *)> AttachDetails) {
   return Context::current().clone();
 }
 } // namespace trace
 } // namespace clangd
 } // namespace clang
	//===--- Trace.cpp - Performance tracing facilities -----------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "support/Trace.h"
	#include "support/Context.h"
	#include "llvm/ADT/DenseSet.h"
	#include "llvm/ADT/Optional.h"
	#include "llvm/ADT/ScopeExit.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/Support/Chrono.h"
	#include "llvm/Support/FormatProviders.h"
	#include "llvm/Support/FormatVariadic.h"
	#include "llvm/Support/Threading.h"
	#include <atomic>
	#include <chrono>
	#include <memory>
	#include <mutex>

	namespace clang {
	namespace clangd {
	namespace trace {

	namespace {
	// The current implementation is naive: each thread writes to Out guarded by Mu.
	// Perhaps we should replace this by something that disturbs performance less.
	class JSONTracer : public EventTracer {
	public:
	JSONTracer(llvm::raw_ostream &OS, bool Pretty)
	: Out(OS, Pretty ? 2 : 0), Start(std::chrono::system_clock::now()) {
	// The displayTimeUnit must be ns to avoid low-precision overlap
	// calculations!
	Out.objectBegin();
	Out.attribute("displayTimeUnit", "ns");
	Out.attributeBegin("traceEvents");
	Out.arrayBegin();
	rawEvent("M", llvm::json::Object{
	{"name", "process_name"},
	{"args", llvm::json::Object{{"name", "clangd"}}},
	});
	}

	~JSONTracer() {
	Out.arrayEnd();
	Out.attributeEnd();
	Out.objectEnd();
	Out.flush();
	}

	// We stash a Span object in the context. It will record the start/end,
	// and this also allows us to look up the parent Span's information.
	Context beginSpan(
	llvm::StringRef Name,
	llvm::function_ref<void(llvm::json::Object *)> AttachDetails) override {
	auto JS = std::make_unique<JSONSpan>(this, Name);
	AttachDetails(&JS->Args);
	return Context::current().derive(SpanKey, std::move(JS));
	}

	// Trace viewer requires each thread to properly stack events.
	// So we need to mark only duration that the span was active on the thread.
	// (Hopefully any off-thread activity will be connected by a flow event).
	// Record the end time here, but don't write the event: Args aren't ready yet.
	void endSpan() override {
	Context::current().getExisting(SpanKey)->markEnded();
	}

	void instant(llvm::StringRef Name, llvm::json::Object &&Args) override {
	captureThreadMetadata();
	jsonEvent("i",
	llvm::json::Object{{"name", Name}, {"args", std::move(Args)}});
	}

	// Record an event on the current thread. ph, pid, tid, ts are set.
	// Contents must be a list of the other JSON key/values.
	void jsonEvent(llvm::StringRef Phase, llvm::json::Object &&Contents,
	uint64_t TID = llvm::get_threadid(), double Timestamp = 0) {
	Contents["ts"] = Timestamp ? Timestamp : timestamp();
	Contents["tid"] = int64_t(TID);
	std::lock_guard<std::mutex> Lock(Mu);
	rawEvent(Phase, Contents);
	}

	private:
	class JSONSpan {
	public:
	JSONSpan(JSONTracer *Tracer, llvm::StringRef Name)
	: StartTime(Tracer->timestamp()), EndTime(0), Name(Name),
	TID(llvm::get_threadid()), Tracer(Tracer) {
	// ~JSONSpan() may run in a different thread, so we need to capture now.
	Tracer->captureThreadMetadata();

	// We don't record begin events here (and end events in the destructor)
	// because B/E pairs have to appear in the right order, which is awkward.
	// Instead we send the complete (X) event in the destructor.

	// If our parent was on a different thread, add an arrow to this span.
	auto *Parent = Context::current().get(SpanKey);
	if (Parent && Parent && (Parent)->TID != TID) {
	// If the parent span ended already, then show this as "following" it.
	// Otherwise show us as "parallel".
	double OriginTime = (*Parent)->EndTime;
	if (!OriginTime)
	OriginTime = (*Parent)->StartTime;

	auto FlowID = nextID();
	Tracer->jsonEvent(
	"s",
	llvm::json::Object{{"id", FlowID},
	{"name", "Context crosses threads"},
	{"cat", "mock_cat"}},
	(Parent)->TID, (Parent)->StartTime);
	Tracer->jsonEvent(
	"f",
	llvm::json::Object{{"id", FlowID},
	{"bp", "e"},
	{"name", "Context crosses threads"},
	{"cat", "mock_cat"}},
	TID);
	}
	}

	~JSONSpan() {
	// Finally, record the event (ending at EndTime, not timestamp())!
	Tracer->jsonEvent("X",
	llvm::json::Object{{"name", std::move(Name)},
	{"args", std::move(Args)},
	{"dur", EndTime - StartTime}},
	TID, StartTime);
	}

	// May be called by any thread.
	void markEnded() { EndTime = Tracer->timestamp(); }

	llvm::json::Object Args;

	private:
	static int64_t nextID() {
	static std::atomic<int64_t> Next = {0};
	return Next++;
	}

	double StartTime;
	std::atomic<double> EndTime; // Filled in by markEnded().
	std::string Name;
	uint64_t TID;
	JSONTracer *Tracer;
	};
	static Key<std::unique_ptr<JSONSpan>> SpanKey;

	// Record an event. ph and pid are set.
	// Contents must be a list of the other JSON key/values.
	void rawEvent(llvm::StringRef Phase,
	const llvm::json::Object &Event) /REQUIRES(Mu)/ {
	// PID 0 represents the clangd process.
	Out.object([&] {
	Out.attribute("pid", 0);
	Out.attribute("ph", Phase);
	for (const auto &KV : Event)
	Out.attribute(KV.first, KV.second);
	});
	}

	// If we haven't already, emit metadata describing this thread.
	void captureThreadMetadata() {
	uint64_t TID = llvm::get_threadid();
	std::lock_guard<std::mutex> Lock(Mu);
	if (ThreadsWithMD.insert(TID).second) {
	llvm::SmallString<32> Name;
	llvm::get_thread_name(Name);
	if (!Name.empty()) {
	rawEvent("M", llvm::json::Object{
	{"tid", int64_t(TID)},
	{"name", "thread_name"},
	{"args", llvm::json::Object{{"name", Name}}},
	});
	}
	}
	}

	double timestamp() {
	using namespace std::chrono;
	return duration<double, std::micro>(system_clock::now() - Start).count();
	}

	std::mutex Mu;
	llvm::json::OStream Out /GUARDED_BY(Mu)/;
	llvm::DenseSet<uint64_t> ThreadsWithMD /GUARDED_BY(Mu)/;
	const llvm::sys::TimePoint<> Start;
	};

	// We emit CSV as specified in RFC 4180: https://www.ietf.org/rfc/rfc4180.txt.
	// \r\n line endings are used, cells with \r\n," are quoted, quotes are doubled.
	class CSVMetricTracer : public EventTracer {
	public:
	CSVMetricTracer(llvm::raw_ostream &Out) : Out(Out) {
	Start = std::chrono::steady_clock::now();

	Out.SetUnbuffered(); // We write each line atomically.
	Out << "Kind,Metric,Label,Value,Timestamp\r\n";
	}

	void record(const Metric &Metric, double Value,
	llvm::StringRef Label) override {
	assert(!needsQuote(Metric.Name));
	std::string QuotedLabel;
	if (needsQuote(Label))
	Label = QuotedLabel = quote(Label);
	uint64_t Micros = std::chrono::duration_cast<std::chrono::microseconds>(
	std::chrono::steady_clock::now() - Start)
	.count();
	std::lock_guard<std::mutex> Lock(Mu);
	Out << llvm::formatv("{0},{1},{2},{3:e},{4}.{5:6}\r\n",
	typeName(Metric.Type), Metric.Name, Label, Value,
	Micros / 1000000, Micros % 1000000);
	}

	private:
	llvm::StringRef typeName(Metric::MetricType T) {
	switch (T) {
	case Metric::Value:
	return "v";
	case Metric::Counter:
	return "c";
	case Metric::Distribution:
	return "d";
	}
	llvm_unreachable("Unknown Metric::MetricType enum");
	}

	static bool needsQuote(llvm::StringRef Text) {
	// https://www.ietf.org/rfc/rfc4180.txt section 2.6
	return Text.find_first_of(",\"\r\n") != llvm::StringRef::npos;
	}

	std::string quote(llvm::StringRef Text) {
	std::string Result = "\"";
	for (char C : Text) {
	Result.push_back(C);
	if (C == '"')
	Result.push_back('"');
	}
	Result.push_back('"');
	return Result;
	}

	private:
	std::mutex Mu;
	llvm::raw_ostream &Out /GUARDED_BY(Mu)/;
	std::chrono::steady_clock::time_point Start;
	};

	Key<std::unique_ptr<JSONTracer::JSONSpan>> JSONTracer::SpanKey;

	EventTracer *T = nullptr;
	} // namespace

	Session::Session(EventTracer &Tracer) {
	assert(!T && "Resetting global tracer is not allowed.");
	T = &Tracer;
	}

	Session::~Session() { T = nullptr; }

	std::unique_ptr<EventTracer> createJSONTracer(llvm::raw_ostream &OS,
	bool Pretty) {
	return std::make_unique<JSONTracer>(OS, Pretty);
	}

	std::unique_ptr<EventTracer> createCSVMetricTracer(llvm::raw_ostream &OS) {
	return std::make_unique<CSVMetricTracer>(OS);
	}

	void log(const llvm::Twine &Message) {
	if (!T)
	return;
	T->instant("Log", llvm::json::Object{{"Message", Message.str()}});
	}

	bool enabled() { return T != nullptr; }

	// The JSON object is event args (owned by context), if the tracer wants them.
	static std::pair<Context, llvm::json::Object *>
	makeSpanContext(llvm::Twine Name, const Metric &LatencyMetric) {
	if (!T)
	return std::make_pair(Context::current().clone(), nullptr);
	llvm::Optional<WithContextValue> WithLatency;
	using Clock = std::chrono::high_resolution_clock;
	WithLatency.emplace(llvm::make_scope_exit(
	[StartTime = Clock::now(), Name = Name.str(), &LatencyMetric] {
	LatencyMetric.record(
	std::chrono::duration_cast<std::chrono::milliseconds>(Clock::now() -
	StartTime)
	.count(),
	Name);
	}));
	llvm::json::Object *Args = nullptr;
	Context Ctx = T->beginSpan(
	Name.isSingleStringRef() ? Name.getSingleStringRef()
	: llvm::StringRef(Name.str()),
	[&](llvm::json::Object *A) {
	assert(A && A->empty() && "Invalid AttachDetails() placeholder!");
	Args = A;
	});
	return std::make_pair(std::move(Ctx), Args);
	}

	// Fallback metric that measures latencies for spans without an explicit latency
	// metric. Labels are span names.
	constexpr Metric SpanLatency("span_latency", Metric::Distribution, "span_name");

	// Span keeps a non-owning pointer to the args, which is how users access them.
	// The args are owned by the context though. They stick around until the
	// beginSpan() context is destroyed, when the tracing engine will consume them.
	Span::Span(llvm::Twine Name) : Span(Name, SpanLatency) {}
	Span::Span(llvm::Twine Name, const Metric &LatencyMetric)
	: Span(makeSpanContext(Name, LatencyMetric)) {}
	Span::Span(std::pair<Context, llvm::json::Object *> Pair)
	: Args(Pair.second), RestoreCtx(std::move(Pair.first)) {}

	Span::~Span() {
	if (T)
	T->endSpan();
	}

	void Metric::record(double Value, llvm::StringRef Label) const {
	if (!T)
	return;
	assert((LabelName.empty() == Label.empty()) &&
	"recording a measurement with inconsistent labeling");
	T->record(*this, Value, Label);
	}

	Context EventTracer::beginSpan(
	llvm::StringRef Name,
	llvm::function_ref<void(llvm::json::Object *)> AttachDetails) {
	return Context::current().clone();
	}
	} // namespace trace
	} // namespace clangd
	} // namespace clang