runtime/vm/metrics.cc - sdk.git - Git at Google

 // Copyright (c) 2014, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/metrics.h"

 #include "vm/isolate.h"
 #include "vm/json_stream.h"
 #include "vm/native_entry.h"
 #include "vm/runtime_entry.h"
 #include "vm/object.h"
 #include "vm/log.h"

 namespace dart {

 DEFINE_FLAG(bool,
             print_metrics,
             false,
             "Print metrics when isolates (and the VM) are shutdown.");

 Metric* Metric::vm_list_head_ = NULL;

 Metric::Metric()
     : isolate_(NULL),
       name_(NULL),
       description_(NULL),
       unit_(kCounter),
       value_(0),
       next_(NULL) {}


 void Metric::Init(Isolate* isolate,
                   const char* name,
                   const char* description,
                   Unit unit) {
   // Only called once.
   ASSERT(next_ == NULL);
   ASSERT(name != NULL);
   isolate_ = isolate;
   name_ = name;
   description_ = description;
   unit_ = unit;
   RegisterWithIsolate();
 }


 void Metric::Init(const char* name, const char* description, Unit unit) {
   // Only called once.
   ASSERT(next_ == NULL);
   ASSERT(name != NULL);
   name_ = name;
   description_ = description;
   unit_ = unit;
   RegisterWithVM();
 }


 Metric::~Metric() {
   // Only deregister metrics which had been registered. Metrics without a name
   // are from shallow copy isolates.
   if (name_ != NULL) {
     if (isolate_ == NULL) {
       DeregisterWithVM();
     } else {
       DeregisterWithIsolate();
     }
   }
 }


 #ifndef PRODUCT
 static const char* UnitString(intptr_t unit) {
   switch (unit) {
     case Metric::kCounter:
       return "counter";
     case Metric::kByte:
       return "byte";
     default:
       UNREACHABLE();
   }
   UNREACHABLE();
   return NULL;
 }


 void Metric::PrintJSON(JSONStream* stream) {
   if (!FLAG_support_service) {
     return;
   }
   JSONObject obj(stream);
   obj.AddProperty("type", "Counter");
   obj.AddProperty("name", name_);
   obj.AddProperty("description", description_);
   obj.AddProperty("unit", UnitString(unit()));
   if (isolate_ == NULL) {
     obj.AddFixedServiceId("vm/metrics/%s", name_);
   } else {
     obj.AddFixedServiceId("metrics/native/%s", name_);
   }
   // TODO(johnmccutchan): Overflow?
   double value_as_double = static_cast<double>(Value());
   obj.AddProperty("value", value_as_double);
 }
 #endif  // !PRODUCT


 char* Metric::ValueToString(int64_t value, Unit unit) {
   Thread* thread = Thread::Current();
   ASSERT(thread != NULL);
   Zone* zone = thread->zone();
   ASSERT(zone != NULL);
   switch (unit) {
     case kCounter:
       return zone->PrintToString("%" Pd64 "", value);
     case kByte: {
       const char* scaled_suffix = "b";
       double scaled_value = static_cast<double>(value);
       if (value > KB) {
         scaled_suffix = "kb";
         scaled_value /= KB;
       } else if (value > MB) {
         scaled_suffix = "mb";
         scaled_value /= MB;
       } else if (value > GB) {
         scaled_suffix = "gb";
         scaled_value /= GB;
       }
       return zone->PrintToString("%.3f %s (%" Pd64 ")", scaled_value,
                                  scaled_suffix, value);
     }
     default:
       UNREACHABLE();
       return NULL;
   }
 }


 char* Metric::ToString() {
   Thread* thread = Thread::Current();
   ASSERT(thread != NULL);
   Zone* zone = thread->zone();
   ASSERT(zone != NULL);
   return zone->PrintToString("%s %s", name(), ValueToString(value(), unit()));
 }


 bool Metric::NameExists(Metric* head, const char* name) {
   ASSERT(name != NULL);
   while (head != NULL) {
     const char* metric_name = head->name();
     ASSERT(metric_name != NULL);
     if (strcmp(metric_name, name) == 0) {
       return true;
     }
     head = head->next();
   }
   return false;
 }


 void Metric::RegisterWithIsolate() {
   ASSERT(isolate_ != NULL);
   ASSERT(next_ == NULL);
   // No duplicate names allowed.
   ASSERT(!NameExists(isolate_->metrics_list_head(), name()));
   Metric* head = isolate_->metrics_list_head();
   if (head != NULL) {
     set_next(head);
   }
   isolate_->set_metrics_list_head(this);
 }


 void Metric::DeregisterWithIsolate() {
   Metric* head = isolate_->metrics_list_head();
   ASSERT(head != NULL);
   // Handle head of list case.
   if (head == this) {
     isolate_->set_metrics_list_head(next());
     set_next(NULL);
     return;
   }
   Metric* previous = NULL;
   while (true) {
     previous = head;
     ASSERT(previous != NULL);
     head = head->next();
     if (head == NULL) {
       break;
     }
     if (head == this) {
       // Remove this from list.
       previous->set_next(head->next());
       set_next(NULL);
       return;
     }
     ASSERT(head != NULL);
   }
   UNREACHABLE();
 }


 void Metric::RegisterWithVM() {
   ASSERT(isolate_ == NULL);
   ASSERT(next_ == NULL);
   // No duplicate names allowed.
   ASSERT(!NameExists(vm_list_head_, name()));
   Metric* head = vm_list_head_;
   if (head != NULL) {
     set_next(head);
   }
   vm_list_head_ = this;
 }


 void Metric::DeregisterWithVM() {
   ASSERT(isolate_ == NULL);
   Metric* head = vm_list_head_;
   if (head == NULL) {
     return;
   }
   // Handle head of list case.
   if (head == this) {
     vm_list_head_ = next();
     set_next(NULL);
     return;
   }
   Metric* previous = NULL;
   while (true) {
     previous = head;
     ASSERT(previous != NULL);
     head = head->next();
     if (head == NULL) {
       break;
     }
     if (head == this) {
       // Remove this from list.
       previous->set_next(head->next());
       set_next(NULL);
       return;
     }
     ASSERT(head != NULL);
   }
   UNREACHABLE();
 }


 int64_t MetricHeapOldUsed::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->UsedInWords(Heap::kOld) * kWordSize;
 }


 int64_t MetricHeapOldCapacity::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->CapacityInWords(Heap::kOld) * kWordSize;
 }


 int64_t MetricHeapOldExternal::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->ExternalInWords(Heap::kOld) * kWordSize;
 }


 int64_t MetricHeapNewUsed::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->UsedInWords(Heap::kNew) * kWordSize;
 }


 int64_t MetricHeapNewCapacity::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->CapacityInWords(Heap::kNew) * kWordSize;
 }


 int64_t MetricHeapNewExternal::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->ExternalInWords(Heap::kNew) * kWordSize;
 }


 int64_t MetricHeapUsed::Value() const {
   ASSERT(isolate() == Isolate::Current());
   return isolate()->heap()->UsedInWords(Heap::kNew) * kWordSize +
          isolate()->heap()->UsedInWords(Heap::kOld) * kWordSize;
 }

 int64_t MetricIsolateCount::Value() const {
   return Isolate::IsolateListLength();
 }

 #define VM_METRIC_VARIABLE(type, variable, name, unit)                         \
   static type vm_metric_##variable##_;
 VM_METRIC_LIST(VM_METRIC_VARIABLE);
 #undef VM_METRIC_VARIABLE


 void Metric::InitOnce() {
 #define VM_METRIC_INIT(type, variable, name, unit)                             \
   vm_metric_##variable##_.Init(name, NULL, Metric::unit);
   VM_METRIC_LIST(VM_METRIC_INIT);
 #undef VM_METRIC_INIT
 }

 void Metric::Cleanup() {
   if (FLAG_print_metrics) {
     // Create a zone to allocate temporary strings in.
     StackZone sz(Thread::Current());
     OS::PrintErr("Printing metrics for VM\n");
     Metric* current = Metric::vm_head();
     while (current != NULL) {
       OS::PrintErr("%s\n", current->ToString());
       current = current->next();
     }
     OS::PrintErr("\n");
   }
 }


 MaxMetric::MaxMetric() : Metric() {
   set_value(kMinInt64);
 }


 void MaxMetric::SetValue(int64_t new_value) {
   if (new_value > value()) {
     set_value(new_value);
   }
 }


 MinMetric::MinMetric() : Metric() {
   set_value(kMaxInt64);
 }


 void MinMetric::SetValue(int64_t new_value) {
   if (new_value < value()) {
     set_value(new_value);
   }
 }

 }  // namespace dart
	// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/metrics.h"

	#include "vm/isolate.h"
	#include "vm/json_stream.h"
	#include "vm/native_entry.h"
	#include "vm/runtime_entry.h"
	#include "vm/object.h"
	#include "vm/log.h"

	namespace dart {

	DEFINE_FLAG(bool,
	print_metrics,
	false,
	"Print metrics when isolates (and the VM) are shutdown.");

	Metric* Metric::vm_list_head_ = NULL;

	Metric::Metric()
	: isolate_(NULL),
	name_(NULL),
	description_(NULL),
	unit_(kCounter),
	value_(0),
	next_(NULL) {}


	void Metric::Init(Isolate* isolate,
	const char* name,
	const char* description,
	Unit unit) {
	// Only called once.
	ASSERT(next_ == NULL);
	ASSERT(name != NULL);
	isolate_ = isolate;
	name_ = name;
	description_ = description;
	unit_ = unit;
	RegisterWithIsolate();
	}


	void Metric::Init(const char* name, const char* description, Unit unit) {
	// Only called once.
	ASSERT(next_ == NULL);
	ASSERT(name != NULL);
	name_ = name;
	description_ = description;
	unit_ = unit;
	RegisterWithVM();
	}


	Metric::~Metric() {
	// Only deregister metrics which had been registered. Metrics without a name
	// are from shallow copy isolates.
	if (name_ != NULL) {
	if (isolate_ == NULL) {
	DeregisterWithVM();
	} else {
	DeregisterWithIsolate();
	}
	}
	}


	#ifndef PRODUCT
	static const char* UnitString(intptr_t unit) {
	switch (unit) {
	case Metric::kCounter:
	return "counter";
	case Metric::kByte:
	return "byte";
	default:
	UNREACHABLE();
	}
	UNREACHABLE();
	return NULL;
	}


	void Metric::PrintJSON(JSONStream* stream) {
	if (!FLAG_support_service) {
	return;
	}
	JSONObject obj(stream);
	obj.AddProperty("type", "Counter");
	obj.AddProperty("name", name_);
	obj.AddProperty("description", description_);
	obj.AddProperty("unit", UnitString(unit()));
	if (isolate_ == NULL) {
	obj.AddFixedServiceId("vm/metrics/%s", name_);
	} else {
	obj.AddFixedServiceId("metrics/native/%s", name_);
	}
	// TODO(johnmccutchan): Overflow?
	double value_as_double = static_cast<double>(Value());
	obj.AddProperty("value", value_as_double);
	}
	#endif // !PRODUCT


	char* Metric::ValueToString(int64_t value, Unit unit) {
	Thread* thread = Thread::Current();
	ASSERT(thread != NULL);
	Zone* zone = thread->zone();
	ASSERT(zone != NULL);
	switch (unit) {
	case kCounter:
	return zone->PrintToString("%" Pd64 "", value);
	case kByte: {
	const char* scaled_suffix = "b";
	double scaled_value = static_cast<double>(value);
	if (value > KB) {
	scaled_suffix = "kb";
	scaled_value /= KB;
	} else if (value > MB) {
	scaled_suffix = "mb";
	scaled_value /= MB;
	} else if (value > GB) {
	scaled_suffix = "gb";
	scaled_value /= GB;
	}
	return zone->PrintToString("%.3f %s (%" Pd64 ")", scaled_value,
	scaled_suffix, value);
	}
	default:
	UNREACHABLE();
	return NULL;
	}
	}


	char* Metric::ToString() {
	Thread* thread = Thread::Current();
	ASSERT(thread != NULL);
	Zone* zone = thread->zone();
	ASSERT(zone != NULL);
	return zone->PrintToString("%s %s", name(), ValueToString(value(), unit()));
	}


	bool Metric::NameExists(Metric* head, const char* name) {
	ASSERT(name != NULL);
	while (head != NULL) {
	const char* metric_name = head->name();
	ASSERT(metric_name != NULL);
	if (strcmp(metric_name, name) == 0) {
	return true;
	}
	head = head->next();
	}
	return false;
	}


	void Metric::RegisterWithIsolate() {
	ASSERT(isolate_ != NULL);
	ASSERT(next_ == NULL);
	// No duplicate names allowed.
	ASSERT(!NameExists(isolate_->metrics_list_head(), name()));
	Metric* head = isolate_->metrics_list_head();
	if (head != NULL) {
	set_next(head);
	}
	isolate_->set_metrics_list_head(this);
	}


	void Metric::DeregisterWithIsolate() {
	Metric* head = isolate_->metrics_list_head();
	ASSERT(head != NULL);
	// Handle head of list case.
	if (head == this) {
	isolate_->set_metrics_list_head(next());
	set_next(NULL);
	return;
	}
	Metric* previous = NULL;
	while (true) {
	previous = head;
	ASSERT(previous != NULL);
	head = head->next();
	if (head == NULL) {
	break;
	}
	if (head == this) {
	// Remove this from list.
	previous->set_next(head->next());
	set_next(NULL);
	return;
	}
	ASSERT(head != NULL);
	}
	UNREACHABLE();
	}


	void Metric::RegisterWithVM() {
	ASSERT(isolate_ == NULL);
	ASSERT(next_ == NULL);
	// No duplicate names allowed.
	ASSERT(!NameExists(vm_list_head_, name()));
	Metric* head = vm_list_head_;
	if (head != NULL) {
	set_next(head);
	}
	vm_list_head_ = this;
	}


	void Metric::DeregisterWithVM() {
	ASSERT(isolate_ == NULL);
	Metric* head = vm_list_head_;
	if (head == NULL) {
	return;
	}
	// Handle head of list case.
	if (head == this) {
	vm_list_head_ = next();
	set_next(NULL);
	return;
	}
	Metric* previous = NULL;
	while (true) {
	previous = head;
	ASSERT(previous != NULL);
	head = head->next();
	if (head == NULL) {
	break;
	}
	if (head == this) {
	// Remove this from list.
	previous->set_next(head->next());
	set_next(NULL);
	return;
	}
	ASSERT(head != NULL);
	}
	UNREACHABLE();
	}


	int64_t MetricHeapOldUsed::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->UsedInWords(Heap::kOld) * kWordSize;
	}


	int64_t MetricHeapOldCapacity::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->CapacityInWords(Heap::kOld) * kWordSize;
	}


	int64_t MetricHeapOldExternal::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->ExternalInWords(Heap::kOld) * kWordSize;
	}


	int64_t MetricHeapNewUsed::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->UsedInWords(Heap::kNew) * kWordSize;
	}


	int64_t MetricHeapNewCapacity::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->CapacityInWords(Heap::kNew) * kWordSize;
	}


	int64_t MetricHeapNewExternal::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->ExternalInWords(Heap::kNew) * kWordSize;
	}


	int64_t MetricHeapUsed::Value() const {
	ASSERT(isolate() == Isolate::Current());
	return isolate()->heap()->UsedInWords(Heap::kNew) * kWordSize +
	isolate()->heap()->UsedInWords(Heap::kOld) * kWordSize;
	}

	int64_t MetricIsolateCount::Value() const {
	return Isolate::IsolateListLength();
	}

	#define VM_METRIC_VARIABLE(type, variable, name, unit) \
	static type vm_metric_##variable##_;
	VM_METRIC_LIST(VM_METRIC_VARIABLE);
	#undef VM_METRIC_VARIABLE


	void Metric::InitOnce() {
	#define VM_METRIC_INIT(type, variable, name, unit) \
	vm_metric_##variable##_.Init(name, NULL, Metric::unit);
	VM_METRIC_LIST(VM_METRIC_INIT);
	#undef VM_METRIC_INIT
	}

	void Metric::Cleanup() {
	if (FLAG_print_metrics) {
	// Create a zone to allocate temporary strings in.
	StackZone sz(Thread::Current());
	OS::PrintErr("Printing metrics for VM\n");
	Metric* current = Metric::vm_head();
	while (current != NULL) {
	OS::PrintErr("%s\n", current->ToString());
	current = current->next();
	}
	OS::PrintErr("\n");
	}
	}


	MaxMetric::MaxMetric() : Metric() {
	set_value(kMinInt64);
	}


	void MaxMetric::SetValue(int64_t new_value) {
	if (new_value > value()) {
	set_value(new_value);
	}
	}


	MinMetric::MinMetric() : Metric() {
	set_value(kMaxInt64);
	}


	void MinMetric::SetValue(int64_t new_value) {
	if (new_value < value()) {
	set_value(new_value);
	}
	}

	} // namespace dart