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

 // Copyright (c) 2013, 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 <functional>

 #include "include/dart_native_api.h"

 #include "platform/assert.h"
 #include "platform/utils.h"
 #include "vm/dart_api_impl.h"
 #include "vm/dart_api_message.h"
 #include "vm/dart_api_state.h"
 #include "vm/message.h"
 #include "vm/message_snapshot.h"
 #include "vm/native_message_handler.h"
 #include "vm/port.h"
 #include "vm/service_isolate.h"

 namespace dart {

 // --- Message sending/receiving from native code ---

 class IsolateLeaveScope {
  public:
   explicit IsolateLeaveScope(Isolate* current_isolate)
       : saved_isolate_(current_isolate) {
     if (current_isolate != NULL) {
       ASSERT(current_isolate == Isolate::Current());
       Dart_ExitIsolate();
     }
   }
   ~IsolateLeaveScope() {
     if (saved_isolate_ != NULL) {
       Dart_Isolate I = reinterpret_cast<Dart_Isolate>(saved_isolate_);
       Dart_EnterIsolate(I);
     }
   }

  private:
   Isolate* saved_isolate_;

   DISALLOW_COPY_AND_ASSIGN(IsolateLeaveScope);
 };

 static bool PostCObjectHelper(Dart_Port port_id, Dart_CObject* message) {
   AllocOnlyStackZone zone;
   std::unique_ptr<Message> msg = WriteApiMessage(
       zone.GetZone(), message, port_id, Message::kNormalPriority);

   if (msg == nullptr) {
     return false;
   }

   // Post the message at the given port.
   return PortMap::PostMessage(std::move(msg));
 }

 DART_EXPORT bool Dart_PostCObject(Dart_Port port_id, Dart_CObject* message) {
   return PostCObjectHelper(port_id, message);
 }

 DART_EXPORT bool Dart_PostInteger(Dart_Port port_id, int64_t message) {
   if (Smi::IsValid(message)) {
     return PortMap::PostMessage(
         Message::New(port_id, Smi::New(message), Message::kNormalPriority));
   }
   Dart_CObject cobj;
   cobj.type = Dart_CObject_kInt64;
   cobj.value.as_int64 = message;
   return PostCObjectHelper(port_id, &cobj);
 }

 DART_EXPORT Dart_Port Dart_NewNativePort(const char* name,
                                          Dart_NativeMessageHandler handler,
                                          bool handle_concurrently) {
   if (name == NULL) {
     name = "<UnnamedNativePort>";
   }
   if (handler == NULL) {
     OS::PrintErr("%s expects argument 'handler' to be non-null.\n",
                  CURRENT_FUNC);
     return ILLEGAL_PORT;
   }
   if (!Dart::SetActiveApiCall()) {
     return ILLEGAL_PORT;
   }
   // Start the native port without a current isolate.
   IsolateLeaveScope saver(Isolate::Current());

   NativeMessageHandler* nmh = new NativeMessageHandler(name, handler);
   Dart_Port port_id = PortMap::CreatePort(nmh);
   if (port_id != ILLEGAL_PORT) {
     PortMap::SetPortState(port_id, PortMap::kLivePort);
     if (!nmh->Run(Dart::thread_pool(), NULL, NULL, 0)) {
       PortMap::ClosePort(port_id);
       port_id = ILLEGAL_PORT;
     }
   }
   Dart::ResetActiveApiCall();
   return port_id;
 }

 DART_EXPORT bool Dart_CloseNativePort(Dart_Port native_port_id) {
   // Close the native port without a current isolate.
   IsolateLeaveScope saver(Isolate::Current());

   // TODO(turnidge): Check that the port is native before trying to close.
   return PortMap::ClosePort(native_port_id);
 }

 static Monitor* vm_service_calls_monitor = new Monitor();

 DART_EXPORT bool Dart_InvokeVMServiceMethod(uint8_t* request_json,
                                             intptr_t request_json_length,
                                             uint8_t** response_json,
                                             intptr_t* response_json_length,
                                             char** error) {
 #if !defined(PRODUCT)
   Isolate* isolate = Isolate::Current();
   ASSERT(isolate == nullptr || !isolate->is_service_isolate());
   IsolateLeaveScope saver(isolate);

   if (!Dart::IsInitialized()) {
     *error = ::dart::Utils::StrDup("VM Service is not active.");
     return false;
   }

   // We only allow one isolate reload at a time.  If this turns out to be on the
   // critical path, we can change it to have a global datastructure which is
   // mapping the reply ports to receive buffers.
   MonitorLocker _(vm_service_calls_monitor);

   static Monitor* vm_service_call_monitor = new Monitor();
   static uint8_t* result_bytes = nullptr;
   static intptr_t result_length = 0;

   ASSERT(result_bytes == nullptr);
   ASSERT(result_length == 0);

   struct Utils {
     static void HandleResponse(Dart_Port dest_port_id, Dart_CObject* message) {
       MonitorLocker monitor(vm_service_call_monitor);

       RELEASE_ASSERT(message->type == Dart_CObject_kTypedData);
       RELEASE_ASSERT(message->value.as_typed_data.type ==
                      Dart_TypedData_kUint8);
       result_length = message->value.as_typed_data.length;
       result_bytes = reinterpret_cast<uint8_t*>(malloc(result_length));
       memmove(result_bytes, message->value.as_typed_data.values, result_length);

       monitor.Notify();
     }
   };

   auto port =
       ::Dart_NewNativePort("service-rpc", &Utils::HandleResponse, false);
   if (port == ILLEGAL_PORT) {
     if (error != nullptr) {
       *error = ::dart::Utils::StrDup("Was unable to create native port.");
     }
     return false;
   }

   // Before sending the message we'll lock the monitor, which the receiver
   // will later on notify once the answer has been received.
   MonitorLocker monitor(vm_service_call_monitor);

   if (ServiceIsolate::SendServiceRpc(request_json, request_json_length, port,
                                      error)) {
     // We posted successfully and expect the vm-service to send the reply, so
     // we will wait for it now. Since the service isolate could have shutdown
     // after we sent the message we make sure to wake up periodically and
     // check to see if the service isolate has shutdown.
     do {
       auto wait_result = monitor.Wait(1000); /* milliseconds */
       if (wait_result == Monitor::kNotified) {
         break;
       }
       if (!ServiceIsolate::IsRunning()) {
         // Service Isolate has shutdown while we were waiting for a reply,
         // We will not get a reply anymore, cleanup and return an error.
         Dart_CloseNativePort(port);
         return false;
       }
     } while (true);

     // The caller takes ownership of the data.
     *response_json = result_bytes;
     *response_json_length = result_length;

     // Reset global data, which can be used by the next call (after the mutex
     // has been released).
     result_bytes = nullptr;
     result_length = 0;

     // After the data has been received, we will not get any more messages on
     // this port and can safely close it now.
     Dart_CloseNativePort(port);

     return true;
   } else {
     // We couldn't post the message and will not receive any reply. Therefore we
     // clean up the port and return an error.
     Dart_CloseNativePort(port);
     return false;
   }
 #else   // !defined(PRODUCT)
   if (error != nullptr) {
     *error = Utils::StrDup("VM Service is not supported in PRODUCT mode.");
   }
   return false;
 #endif  // !defined(PRODUCT)
 }

 // --- Verification tools ---

 DART_EXPORT Dart_Handle Dart_CompileAll() {
 #if defined(DART_PRECOMPILED_RUNTIME)
   return Api::NewError("%s: Cannot compile on an AOT runtime.", CURRENT_FUNC);
 #else
   DARTSCOPE(Thread::Current());
   API_TIMELINE_DURATION(T);
   Dart_Handle result = Api::CheckAndFinalizePendingClasses(T);
   if (Api::IsError(result)) {
     return result;
   }
   CHECK_CALLBACK_STATE(T);
   const Error& error = Error::Handle(T->zone(), Library::CompileAll());
   if (!error.IsNull()) {
     return Api::NewHandle(T, error.ptr());
   }
   return Api::Success();
 #endif  // defined(DART_PRECOMPILED_RUNTIME)
 }

 DART_EXPORT Dart_Handle Dart_FinalizeAllClasses() {
 #if defined(DART_PRECOMPILED_RUNTIME)
   return Api::NewError("%s: All classes are already finalized in AOT runtime.",
                        CURRENT_FUNC);
 #else
   DARTSCOPE(Thread::Current());
   API_TIMELINE_DURATION(T);
   Dart_Handle result = Api::CheckAndFinalizePendingClasses(T);
   if (Api::IsError(result)) {
     return result;
   }
   CHECK_CALLBACK_STATE(T);
   const Error& error = Error::Handle(T->zone(), Library::FinalizeAllClasses());
   if (!error.IsNull()) {
     return Api::NewHandle(T, error.ptr());
   }
   return Api::Success();
 #endif  // defined(DART_PRECOMPILED_RUNTIME)
 }

 struct RunInSafepointAndRWCodeArgs {
   Isolate* isolate;
   std::function<void()>* callback;
 };

 DART_EXPORT void* Dart_ExecuteInternalCommand(const char* command, void* arg) {
   if (strcmp(command, "gc-on-nth-allocation") == 0) {
     Thread* const thread = Thread::Current();
     Isolate* isolate = (thread == NULL) ? NULL : thread->isolate();
     CHECK_ISOLATE(isolate);
     TransitionNativeToVM _(thread);
     intptr_t argument = reinterpret_cast<intptr_t>(arg);
     ASSERT(argument > 0);
     IsolateGroup::Current()->heap()->CollectOnNthAllocation(argument);
     return nullptr;

   } else if (strcmp(command, "gc-now") == 0) {
     ASSERT(arg == nullptr);  // Don't pass an argument to this command.
     Thread* const thread = Thread::Current();
     Isolate* isolate = (thread == NULL) ? NULL : thread->isolate();
     CHECK_ISOLATE(isolate);
     TransitionNativeToVM _(thread);
     IsolateGroup::Current()->heap()->CollectAllGarbage();
     return nullptr;

   } else if (strcmp(command, "is-thread-in-generated") == 0) {
     if (Thread::Current()->execution_state() == Thread::kThreadInGenerated) {
       return reinterpret_cast<void*>(1);
     }
     return nullptr;

   } else if (strcmp(command, "is-mutator-in-native") == 0) {
     Isolate* const isolate = reinterpret_cast<Isolate*>(arg);
     CHECK_ISOLATE(isolate);
     if (isolate->mutator_thread()->execution_state_cross_thread_for_testing() ==
         Thread::kThreadInNative) {
       return arg;
     } else {
       return nullptr;
     }

   } else if (strcmp(command, "run-in-safepoint-and-rw-code") == 0) {
     const RunInSafepointAndRWCodeArgs* const args =
         reinterpret_cast<RunInSafepointAndRWCodeArgs*>(arg);
     Isolate* const isolate = args->isolate;
     CHECK_ISOLATE(isolate);
     Thread::EnterIsolateAsHelper(isolate, Thread::TaskKind::kUnknownTask);
     Thread* const thread = Thread::Current();
     {
       GcSafepointOperationScope scope(thread);
       args->isolate->group()->heap()->WriteProtectCode(/*read_only=*/false);
       (*args->callback)();
       args->isolate->group()->heap()->WriteProtectCode(/*read_only=*/true);
     }
     Thread::ExitIsolateAsHelper();
     return nullptr;

   } else {
     UNREACHABLE();
   }
 }

 }  // namespace dart
	// Copyright (c) 2013, 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 <functional>

	#include "include/dart_native_api.h"

	#include "platform/assert.h"
	#include "platform/utils.h"
	#include "vm/dart_api_impl.h"
	#include "vm/dart_api_message.h"
	#include "vm/dart_api_state.h"
	#include "vm/message.h"
	#include "vm/message_snapshot.h"
	#include "vm/native_message_handler.h"
	#include "vm/port.h"
	#include "vm/service_isolate.h"

	namespace dart {

	// --- Message sending/receiving from native code ---

	class IsolateLeaveScope {
	public:
	explicit IsolateLeaveScope(Isolate* current_isolate)
	: saved_isolate_(current_isolate) {
	if (current_isolate != NULL) {
	ASSERT(current_isolate == Isolate::Current());
	Dart_ExitIsolate();
	}
	}
	~IsolateLeaveScope() {
	if (saved_isolate_ != NULL) {
	Dart_Isolate I = reinterpret_cast<Dart_Isolate>(saved_isolate_);
	Dart_EnterIsolate(I);
	}
	}

	private:
	Isolate* saved_isolate_;

	DISALLOW_COPY_AND_ASSIGN(IsolateLeaveScope);
	};

	static bool PostCObjectHelper(Dart_Port port_id, Dart_CObject* message) {
	AllocOnlyStackZone zone;
	std::unique_ptr<Message> msg = WriteApiMessage(
	zone.GetZone(), message, port_id, Message::kNormalPriority);

	if (msg == nullptr) {
	return false;
	}

	// Post the message at the given port.
	return PortMap::PostMessage(std::move(msg));
	}

	DART_EXPORT bool Dart_PostCObject(Dart_Port port_id, Dart_CObject* message) {
	return PostCObjectHelper(port_id, message);
	}

	DART_EXPORT bool Dart_PostInteger(Dart_Port port_id, int64_t message) {
	if (Smi::IsValid(message)) {
	return PortMap::PostMessage(
	Message::New(port_id, Smi::New(message), Message::kNormalPriority));
	}
	Dart_CObject cobj;
	cobj.type = Dart_CObject_kInt64;
	cobj.value.as_int64 = message;
	return PostCObjectHelper(port_id, &cobj);
	}

	DART_EXPORT Dart_Port Dart_NewNativePort(const char* name,
	Dart_NativeMessageHandler handler,
	bool handle_concurrently) {
	if (name == NULL) {
	name = "<UnnamedNativePort>";
	}
	if (handler == NULL) {
	OS::PrintErr("%s expects argument 'handler' to be non-null.\n",
	CURRENT_FUNC);
	return ILLEGAL_PORT;
	}
	if (!Dart::SetActiveApiCall()) {
	return ILLEGAL_PORT;
	}
	// Start the native port without a current isolate.
	IsolateLeaveScope saver(Isolate::Current());

	NativeMessageHandler* nmh = new NativeMessageHandler(name, handler);
	Dart_Port port_id = PortMap::CreatePort(nmh);
	if (port_id != ILLEGAL_PORT) {
	PortMap::SetPortState(port_id, PortMap::kLivePort);
	if (!nmh->Run(Dart::thread_pool(), NULL, NULL, 0)) {
	PortMap::ClosePort(port_id);
	port_id = ILLEGAL_PORT;
	}
	}
	Dart::ResetActiveApiCall();
	return port_id;
	}

	DART_EXPORT bool Dart_CloseNativePort(Dart_Port native_port_id) {
	// Close the native port without a current isolate.
	IsolateLeaveScope saver(Isolate::Current());

	// TODO(turnidge): Check that the port is native before trying to close.
	return PortMap::ClosePort(native_port_id);
	}

	static Monitor* vm_service_calls_monitor = new Monitor();

	DART_EXPORT bool Dart_InvokeVMServiceMethod(uint8_t* request_json,
	intptr_t request_json_length,
	uint8_t** response_json,
	intptr_t* response_json_length,
	char** error) {
	#if !defined(PRODUCT)
	Isolate* isolate = Isolate::Current();
	ASSERT(isolate == nullptr \|\| !isolate->is_service_isolate());
	IsolateLeaveScope saver(isolate);

	if (!Dart::IsInitialized()) {
	*error = ::dart::Utils::StrDup("VM Service is not active.");
	return false;
	}

	// We only allow one isolate reload at a time. If this turns out to be on the
	// critical path, we can change it to have a global datastructure which is
	// mapping the reply ports to receive buffers.
	MonitorLocker _(vm_service_calls_monitor);

	static Monitor* vm_service_call_monitor = new Monitor();
	static uint8_t* result_bytes = nullptr;
	static intptr_t result_length = 0;

	ASSERT(result_bytes == nullptr);
	ASSERT(result_length == 0);

	struct Utils {
	static void HandleResponse(Dart_Port dest_port_id, Dart_CObject* message) {
	MonitorLocker monitor(vm_service_call_monitor);

	RELEASE_ASSERT(message->type == Dart_CObject_kTypedData);
	RELEASE_ASSERT(message->value.as_typed_data.type ==
	Dart_TypedData_kUint8);
	result_length = message->value.as_typed_data.length;
	result_bytes = reinterpret_cast<uint8_t*>(malloc(result_length));
	memmove(result_bytes, message->value.as_typed_data.values, result_length);

	monitor.Notify();
	}
	};

	auto port =
	::Dart_NewNativePort("service-rpc", &Utils::HandleResponse, false);
	if (port == ILLEGAL_PORT) {
	if (error != nullptr) {
	*error = ::dart::Utils::StrDup("Was unable to create native port.");
	}
	return false;
	}

	// Before sending the message we'll lock the monitor, which the receiver
	// will later on notify once the answer has been received.
	MonitorLocker monitor(vm_service_call_monitor);

	if (ServiceIsolate::SendServiceRpc(request_json, request_json_length, port,
	error)) {
	// We posted successfully and expect the vm-service to send the reply, so
	// we will wait for it now. Since the service isolate could have shutdown
	// after we sent the message we make sure to wake up periodically and
	// check to see if the service isolate has shutdown.
	do {
	auto wait_result = monitor.Wait(1000); /* milliseconds */
	if (wait_result == Monitor::kNotified) {
	break;
	}
	if (!ServiceIsolate::IsRunning()) {
	// Service Isolate has shutdown while we were waiting for a reply,
	// We will not get a reply anymore, cleanup and return an error.
	Dart_CloseNativePort(port);
	return false;
	}
	} while (true);

	// The caller takes ownership of the data.
	*response_json = result_bytes;
	*response_json_length = result_length;

	// Reset global data, which can be used by the next call (after the mutex
	// has been released).
	result_bytes = nullptr;
	result_length = 0;

	// After the data has been received, we will not get any more messages on
	// this port and can safely close it now.
	Dart_CloseNativePort(port);

	return true;
	} else {
	// We couldn't post the message and will not receive any reply. Therefore we
	// clean up the port and return an error.
	Dart_CloseNativePort(port);
	return false;
	}
	#else // !defined(PRODUCT)
	if (error != nullptr) {
	*error = Utils::StrDup("VM Service is not supported in PRODUCT mode.");
	}
	return false;
	#endif // !defined(PRODUCT)
	}

	// --- Verification tools ---

	DART_EXPORT Dart_Handle Dart_CompileAll() {
	#if defined(DART_PRECOMPILED_RUNTIME)
	return Api::NewError("%s: Cannot compile on an AOT runtime.", CURRENT_FUNC);
	#else
	DARTSCOPE(Thread::Current());
	API_TIMELINE_DURATION(T);
	Dart_Handle result = Api::CheckAndFinalizePendingClasses(T);
	if (Api::IsError(result)) {
	return result;
	}
	CHECK_CALLBACK_STATE(T);
	const Error& error = Error::Handle(T->zone(), Library::CompileAll());
	if (!error.IsNull()) {
	return Api::NewHandle(T, error.ptr());
	}
	return Api::Success();
	#endif // defined(DART_PRECOMPILED_RUNTIME)
	}

	DART_EXPORT Dart_Handle Dart_FinalizeAllClasses() {
	#if defined(DART_PRECOMPILED_RUNTIME)
	return Api::NewError("%s: All classes are already finalized in AOT runtime.",
	CURRENT_FUNC);
	#else
	DARTSCOPE(Thread::Current());
	API_TIMELINE_DURATION(T);
	Dart_Handle result = Api::CheckAndFinalizePendingClasses(T);
	if (Api::IsError(result)) {
	return result;
	}
	CHECK_CALLBACK_STATE(T);
	const Error& error = Error::Handle(T->zone(), Library::FinalizeAllClasses());
	if (!error.IsNull()) {
	return Api::NewHandle(T, error.ptr());
	}
	return Api::Success();
	#endif // defined(DART_PRECOMPILED_RUNTIME)
	}

	struct RunInSafepointAndRWCodeArgs {
	Isolate* isolate;
	std::function<void()>* callback;
	};

	DART_EXPORT void* Dart_ExecuteInternalCommand(const char* command, void* arg) {
	if (strcmp(command, "gc-on-nth-allocation") == 0) {
	Thread* const thread = Thread::Current();
	Isolate* isolate = (thread == NULL) ? NULL : thread->isolate();
	CHECK_ISOLATE(isolate);
	TransitionNativeToVM _(thread);
	intptr_t argument = reinterpret_cast<intptr_t>(arg);
	ASSERT(argument > 0);
	IsolateGroup::Current()->heap()->CollectOnNthAllocation(argument);
	return nullptr;

	} else if (strcmp(command, "gc-now") == 0) {
	ASSERT(arg == nullptr); // Don't pass an argument to this command.
	Thread* const thread = Thread::Current();
	Isolate* isolate = (thread == NULL) ? NULL : thread->isolate();
	CHECK_ISOLATE(isolate);
	TransitionNativeToVM _(thread);
	IsolateGroup::Current()->heap()->CollectAllGarbage();
	return nullptr;

	} else if (strcmp(command, "is-thread-in-generated") == 0) {
	if (Thread::Current()->execution_state() == Thread::kThreadInGenerated) {
	return reinterpret_cast<void*>(1);
	}
	return nullptr;

	} else if (strcmp(command, "is-mutator-in-native") == 0) {
	Isolate* const isolate = reinterpret_cast<Isolate*>(arg);
	CHECK_ISOLATE(isolate);
	if (isolate->mutator_thread()->execution_state_cross_thread_for_testing() ==
	Thread::kThreadInNative) {
	return arg;
	} else {
	return nullptr;
	}

	} else if (strcmp(command, "run-in-safepoint-and-rw-code") == 0) {
	const RunInSafepointAndRWCodeArgs* const args =
	reinterpret_cast<RunInSafepointAndRWCodeArgs*>(arg);
	Isolate* const isolate = args->isolate;
	CHECK_ISOLATE(isolate);
	Thread::EnterIsolateAsHelper(isolate, Thread::TaskKind::kUnknownTask);
	Thread* const thread = Thread::Current();
	{
	GcSafepointOperationScope scope(thread);
	args->isolate->group()->heap()->WriteProtectCode(/read_only=/false);
	(*args->callback)();
	args->isolate->group()->heap()->WriteProtectCode(/read_only=/true);
	}
	Thread::ExitIsolateAsHelper();
	return nullptr;

	} else {
	UNREACHABLE();
	}
	}

	} // namespace dart