runtime/lib/ffi.cc - sdk.git - Git at Google

 // Copyright (c) 2019, 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 "include/dart_api.h"
 #include "include/dart_api_dl.h"
 #include "include/dart_native_api.h"
 #include "include/dart_version.h"
 #include "include/internal/dart_api_dl_impl.h"
 #include "platform/globals.h"
 #include "vm/bootstrap_natives.h"
 #include "vm/class_finalizer.h"
 #include "vm/class_id.h"
 #include "vm/compiler/ffi/native_type.h"
 #include "vm/dart_api_impl.h"
 #include "vm/exceptions.h"
 #include "vm/flags.h"
 #include "vm/heap/gc_shared.h"
 #include "vm/log.h"
 #include "vm/native_arguments.h"
 #include "vm/native_entry.h"
 #include "vm/object.h"
 #include "vm/object_store.h"
 #include "vm/symbols.h"

 #if !defined(DART_PRECOMPILED_RUNTIME)
 #include "vm/compiler/assembler/assembler.h"
 #include "vm/compiler/ffi/call.h"
 #include "vm/compiler/ffi/callback.h"
 #include "vm/compiler/ffi/marshaller.h"
 #include "vm/compiler/jit/compiler.h"
 #endif  // !defined(DART_PRECOMPILED_RUNTIME)

 namespace dart {

 // The remainder of this file implements the dart:ffi native methods.

 DEFINE_NATIVE_ENTRY(Ffi_fromAddress, 1, 1) {
   UNREACHABLE();
 }

 DEFINE_NATIVE_ENTRY(Ffi_address, 0, 1) {
   UNREACHABLE();
 }

 #define DEFINE_NATIVE_ENTRY_LOAD(type)                                         \
   DEFINE_NATIVE_ENTRY(Ffi_load##type, 0, 2) { UNREACHABLE(); }
 CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_LOAD)
 #undef DEFINE_NATIVE_ENTRY_LOAD

 DEFINE_NATIVE_ENTRY(Ffi_loadPointer, 1, 2) {
   UNREACHABLE();
 }

 DEFINE_NATIVE_ENTRY(Ffi_loadStruct, 0, 2) {
   UNREACHABLE();
 }

 #define DEFINE_NATIVE_ENTRY_STORE(type)                                        \
   DEFINE_NATIVE_ENTRY(Ffi_store##type, 0, 3) { UNREACHABLE(); }
 CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_STORE)
 #undef DEFINE_NATIVE_ENTRY_STORE

 DEFINE_NATIVE_ENTRY(Ffi_storePointer, 0, 3) {
   UNREACHABLE();
 }

 // Static invocations to this method are translated directly in streaming FGB.
 DEFINE_NATIVE_ENTRY(Ffi_asFunctionInternal, 2, 2) {
   UNREACHABLE();
 }

 #define DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA(type)                       \
   DEFINE_NATIVE_ENTRY(Ffi_asExternalTypedData##type, 0, 2) { UNREACHABLE(); }
 CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA)
 #undef DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA

 DEFINE_NATIVE_ENTRY(Ffi_nativeCallbackFunction, 1, 2) {
 #if defined(DART_PRECOMPILED_RUNTIME) || defined(DART_PRECOMPILER)
   // Calls to this function are removed by the flow-graph builder in AOT.
   // See StreamingFlowGraphBuilder::BuildFfiNativeCallbackFunction().
   UNREACHABLE();
 #else
   GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
   GET_NON_NULL_NATIVE_ARGUMENT(Closure, closure, arguments->NativeArgAt(0));
   GET_NON_NULL_NATIVE_ARGUMENT(Instance, exceptional_return,
                                arguments->NativeArgAt(1));

   ASSERT(type_arg.IsInstantiated() && type_arg.IsFunctionType());
   const FunctionType& native_signature = FunctionType::Cast(type_arg);
   Function& func = Function::Handle(zone, closure.function());

   // The FE verifies that the target of a 'fromFunction' is a static method, so
   // the value we see here must be a static tearoff. See ffi_use_sites.dart for
   // details.
   //
   // TODO(36748): Define hot-reload semantics of native callbacks. We may need
   // to look up the target by name.
   ASSERT(func.IsImplicitClosureFunction());
   func = func.parent_function();
   ASSERT(func.is_static());

   // AbiSpecificTypes can have an incomplete mapping.
   const char* error = nullptr;
   compiler::ffi::NativeFunctionTypeFromFunctionType(zone, native_signature,
                                                     &error);
   if (error != nullptr) {
     Exceptions::ThrowCompileTimeError(LanguageError::Handle(
         zone, LanguageError::New(String::Handle(zone, String::New(error)))));
   }

   // We are returning an object which is not an Instance here. This is only OK
   // because we know that the result will be passed directly to
   // _pointerFromFunction and will not leak out into user code.
   arguments->SetReturn(
       Function::Handle(zone, compiler::ffi::NativeCallbackFunction(
                                  native_signature, func, exceptional_return)));

   // Because we have already set the return value.
   return Object::sentinel().ptr();
 #endif
 }

 DEFINE_NATIVE_ENTRY(Ffi_pointerFromFunction, 1, 1) {
   GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
   const Function& function =
       Function::CheckedHandle(zone, arguments->NativeArg0());

   Code& code = Code::Handle(zone);

 #if defined(DART_PRECOMPILED_RUNTIME)
   code = function.CurrentCode();
 #else
   // We compile the callback immediately because we need to return a pointer to
   // the entry-point. Native calls do not use patching like Dart calls, so we
   // cannot compile it lazily.
   const Object& result = Object::Handle(
       zone, Compiler::CompileOptimizedFunction(thread, function));
   if (result.IsError()) {
     Exceptions::PropagateError(Error::Cast(result));
   }
   ASSERT(result.IsCode());
   code ^= result.ptr();
 #endif

   ASSERT(!code.IsNull());
   thread->SetFfiCallbackCode(function.FfiCallbackId(), code);

 #ifdef TARGET_ARCH_IA32
   // On ia32, store the stack delta that we need to use when returning.
   const intptr_t stack_return_delta =
       function.FfiCSignatureReturnsStruct() && CallingConventions::kUsesRet4
           ? compiler::target::kWordSize
           : 0;
   thread->SetFfiCallbackStackReturn(function.FfiCallbackId(),
                                     stack_return_delta);
 #endif

   uword entry_point = code.EntryPoint();
 #if !defined(DART_PRECOMPILED_RUNTIME)
   if (NativeCallbackTrampolines::Enabled()) {
     entry_point = isolate->native_callback_trampolines()->TrampolineForId(
         function.FfiCallbackId());
   }
 #endif

   return Pointer::New(type_arg, entry_point);
 }

 DEFINE_NATIVE_ENTRY(DartNativeApiFunctionPointer, 0, 1) {
   GET_NON_NULL_NATIVE_ARGUMENT(String, name_dart, arguments->NativeArgAt(0));
   const char* name = name_dart.ToCString();

 #define RETURN_FUNCTION_ADDRESS(function_name, R, A)                           \
   if (strcmp(name, #function_name) == 0) {                                     \
     return Integer::New(reinterpret_cast<intptr_t>(function_name));            \
   }
   DART_NATIVE_API_DL_SYMBOLS(RETURN_FUNCTION_ADDRESS)
 #undef RETURN_FUNCTION_ADDRESS

   const String& error = String::Handle(
       String::NewFormatted("Unknown dart_native_api.h symbol: %s.", name));
   Exceptions::ThrowArgumentError(error);
 }

 DEFINE_NATIVE_ENTRY(DartApiDLMajorVersion, 0, 0) {
   return Integer::New(DART_API_DL_MAJOR_VERSION);
 }

 DEFINE_NATIVE_ENTRY(DartApiDLMinorVersion, 0, 0) {
   return Integer::New(DART_API_DL_MINOR_VERSION);
 }

 static const DartApiEntry dart_api_entries[] = {
 #define ENTRY(name, R, A)                                                      \
   DartApiEntry{#name, reinterpret_cast<void (*)()>(name)},
     DART_API_ALL_DL_SYMBOLS(ENTRY)
 #undef ENTRY
         DartApiEntry{nullptr, nullptr}};

 static const DartApi dart_api_data = {
     DART_API_DL_MAJOR_VERSION, DART_API_DL_MINOR_VERSION, dart_api_entries};

 DEFINE_NATIVE_ENTRY(DartApiDLInitializeData, 0, 0) {
   return Integer::New(reinterpret_cast<intptr_t>(&dart_api_data));
 }

 // FFI native C function pointer resolver.
 static intptr_t FfiResolve(Dart_Handle lib_url,
                            Dart_Handle name,
                            uintptr_t args_n) {
   DARTSCOPE(Thread::Current());

   const String& lib_url_str = Api::UnwrapStringHandle(T->zone(), lib_url);
   const String& function_name = Api::UnwrapStringHandle(T->zone(), name);

   // Find the corresponding library's native function resolver (if set).
   const Library& lib = Library::Handle(Library::LookupLibrary(T, lib_url_str));
   if (lib.IsNull()) {
     const String& error = String::Handle(String::NewFormatted(
         "Unknown library: '%s'.", lib_url_str.ToCString()));
     Exceptions::ThrowArgumentError(error);
   }
   auto resolver = lib.ffi_native_resolver();
   if (resolver == nullptr) {
     const String& error = String::Handle(String::NewFormatted(
         "Library has no handler: '%s'.", lib_url_str.ToCString()));
     Exceptions::ThrowArgumentError(error);
   }

   auto* f = resolver(function_name.ToCString(), args_n);
   if (f == nullptr) {
     const String& error = String::Handle(String::NewFormatted(
         "Couldn't resolve function: '%s'.", function_name.ToCString()));
     Exceptions::ThrowArgumentError(error);
   }

   return reinterpret_cast<intptr_t>(f);
 }

 // Bootstrap to get the FFI Native resolver through a `native` call.
 DEFINE_NATIVE_ENTRY(Ffi_GetFfiNativeResolver, 1, 0) {
   GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
   return Pointer::New(type_arg, reinterpret_cast<intptr_t>(FfiResolve));
 }

 DEFINE_FFI_NATIVE_ENTRY(FinalizerEntry_SetExternalSize,
                         void,
                         (Dart_Handle entry_handle, intptr_t external_size)) {
   Thread* const thread = Thread::Current();
   TransitionNativeToVM transition(thread);
   Zone* const zone = thread->zone();
   const auto& entry_object =
       Object::Handle(zone, Api::UnwrapHandle(entry_handle));
   const auto& entry = FinalizerEntry::Cast(entry_object);

   Heap::Space space;
   intptr_t external_size_diff;
   {
     NoSafepointScope no_safepoint;
     space = SpaceForExternal(entry.ptr());
     const intptr_t external_size_old = entry.external_size();
     if (FLAG_trace_finalizers) {
       THR_Print("Setting external size from  %" Pd " to  %" Pd
                 " bytes in %s space\n",
                 external_size_old, external_size, space == 0 ? "new" : "old");
     }
     external_size_diff = external_size - external_size_old;
     if (external_size_diff == 0) {
       return;
     }
     entry.set_external_size(external_size);
   }
   // The next call cannot be in safepoint.
   if (external_size_diff > 0) {
     thread->isolate_group()->heap()->AllocatedExternal(external_size_diff,
                                                        space);
   } else {
     thread->isolate_group()->heap()->FreedExternal(-external_size_diff, space);
   }
 };

 }  // namespace dart
	// Copyright (c) 2019, 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 "include/dart_api.h"
	#include "include/dart_api_dl.h"
	#include "include/dart_native_api.h"
	#include "include/dart_version.h"
	#include "include/internal/dart_api_dl_impl.h"
	#include "platform/globals.h"
	#include "vm/bootstrap_natives.h"
	#include "vm/class_finalizer.h"
	#include "vm/class_id.h"
	#include "vm/compiler/ffi/native_type.h"
	#include "vm/dart_api_impl.h"
	#include "vm/exceptions.h"
	#include "vm/flags.h"
	#include "vm/heap/gc_shared.h"
	#include "vm/log.h"
	#include "vm/native_arguments.h"
	#include "vm/native_entry.h"
	#include "vm/object.h"
	#include "vm/object_store.h"
	#include "vm/symbols.h"

	#if !defined(DART_PRECOMPILED_RUNTIME)
	#include "vm/compiler/assembler/assembler.h"
	#include "vm/compiler/ffi/call.h"
	#include "vm/compiler/ffi/callback.h"
	#include "vm/compiler/ffi/marshaller.h"
	#include "vm/compiler/jit/compiler.h"
	#endif // !defined(DART_PRECOMPILED_RUNTIME)

	namespace dart {

	// The remainder of this file implements the dart:ffi native methods.

	DEFINE_NATIVE_ENTRY(Ffi_fromAddress, 1, 1) {
	UNREACHABLE();
	}

	DEFINE_NATIVE_ENTRY(Ffi_address, 0, 1) {
	UNREACHABLE();
	}

	#define DEFINE_NATIVE_ENTRY_LOAD(type) \
	DEFINE_NATIVE_ENTRY(Ffi_load##type, 0, 2) { UNREACHABLE(); }
	CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_LOAD)
	#undef DEFINE_NATIVE_ENTRY_LOAD

	DEFINE_NATIVE_ENTRY(Ffi_loadPointer, 1, 2) {
	UNREACHABLE();
	}

	DEFINE_NATIVE_ENTRY(Ffi_loadStruct, 0, 2) {
	UNREACHABLE();
	}

	#define DEFINE_NATIVE_ENTRY_STORE(type) \
	DEFINE_NATIVE_ENTRY(Ffi_store##type, 0, 3) { UNREACHABLE(); }
	CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_STORE)
	#undef DEFINE_NATIVE_ENTRY_STORE

	DEFINE_NATIVE_ENTRY(Ffi_storePointer, 0, 3) {
	UNREACHABLE();
	}

	// Static invocations to this method are translated directly in streaming FGB.
	DEFINE_NATIVE_ENTRY(Ffi_asFunctionInternal, 2, 2) {
	UNREACHABLE();
	}

	#define DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA(type) \
	DEFINE_NATIVE_ENTRY(Ffi_asExternalTypedData##type, 0, 2) { UNREACHABLE(); }
	CLASS_LIST_FFI_NUMERIC_FIXED_SIZE(DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA)
	#undef DEFINE_NATIVE_ENTRY_AS_EXTERNAL_TYPED_DATA

	DEFINE_NATIVE_ENTRY(Ffi_nativeCallbackFunction, 1, 2) {
	#if defined(DART_PRECOMPILED_RUNTIME) \|\| defined(DART_PRECOMPILER)
	// Calls to this function are removed by the flow-graph builder in AOT.
	// See StreamingFlowGraphBuilder::BuildFfiNativeCallbackFunction().
	UNREACHABLE();
	#else
	GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
	GET_NON_NULL_NATIVE_ARGUMENT(Closure, closure, arguments->NativeArgAt(0));
	GET_NON_NULL_NATIVE_ARGUMENT(Instance, exceptional_return,
	arguments->NativeArgAt(1));

	ASSERT(type_arg.IsInstantiated() && type_arg.IsFunctionType());
	const FunctionType& native_signature = FunctionType::Cast(type_arg);
	Function& func = Function::Handle(zone, closure.function());

	// The FE verifies that the target of a 'fromFunction' is a static method, so
	// the value we see here must be a static tearoff. See ffi_use_sites.dart for
	// details.
	//
	// TODO(36748): Define hot-reload semantics of native callbacks. We may need
	// to look up the target by name.
	ASSERT(func.IsImplicitClosureFunction());
	func = func.parent_function();
	ASSERT(func.is_static());

	// AbiSpecificTypes can have an incomplete mapping.
	const char* error = nullptr;
	compiler::ffi::NativeFunctionTypeFromFunctionType(zone, native_signature,
	&error);
	if (error != nullptr) {
	Exceptions::ThrowCompileTimeError(LanguageError::Handle(
	zone, LanguageError::New(String::Handle(zone, String::New(error)))));
	}

	// We are returning an object which is not an Instance here. This is only OK
	// because we know that the result will be passed directly to
	// _pointerFromFunction and will not leak out into user code.
	arguments->SetReturn(
	Function::Handle(zone, compiler::ffi::NativeCallbackFunction(
	native_signature, func, exceptional_return)));

	// Because we have already set the return value.
	return Object::sentinel().ptr();
	#endif
	}

	DEFINE_NATIVE_ENTRY(Ffi_pointerFromFunction, 1, 1) {
	GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
	const Function& function =
	Function::CheckedHandle(zone, arguments->NativeArg0());

	Code& code = Code::Handle(zone);

	#if defined(DART_PRECOMPILED_RUNTIME)
	code = function.CurrentCode();
	#else
	// We compile the callback immediately because we need to return a pointer to
	// the entry-point. Native calls do not use patching like Dart calls, so we
	// cannot compile it lazily.
	const Object& result = Object::Handle(
	zone, Compiler::CompileOptimizedFunction(thread, function));
	if (result.IsError()) {
	Exceptions::PropagateError(Error::Cast(result));
	}
	ASSERT(result.IsCode());
	code ^= result.ptr();
	#endif

	ASSERT(!code.IsNull());
	thread->SetFfiCallbackCode(function.FfiCallbackId(), code);

	#ifdef TARGET_ARCH_IA32
	// On ia32, store the stack delta that we need to use when returning.
	const intptr_t stack_return_delta =
	function.FfiCSignatureReturnsStruct() && CallingConventions::kUsesRet4
	? compiler::target::kWordSize
	: 0;
	thread->SetFfiCallbackStackReturn(function.FfiCallbackId(),
	stack_return_delta);
	#endif

	uword entry_point = code.EntryPoint();
	#if !defined(DART_PRECOMPILED_RUNTIME)
	if (NativeCallbackTrampolines::Enabled()) {
	entry_point = isolate->native_callback_trampolines()->TrampolineForId(
	function.FfiCallbackId());
	}
	#endif

	return Pointer::New(type_arg, entry_point);
	}

	DEFINE_NATIVE_ENTRY(DartNativeApiFunctionPointer, 0, 1) {
	GET_NON_NULL_NATIVE_ARGUMENT(String, name_dart, arguments->NativeArgAt(0));
	const char* name = name_dart.ToCString();

	#define RETURN_FUNCTION_ADDRESS(function_name, R, A) \
	if (strcmp(name, #function_name) == 0) { \
	return Integer::New(reinterpret_cast<intptr_t>(function_name)); \
	}
	DART_NATIVE_API_DL_SYMBOLS(RETURN_FUNCTION_ADDRESS)
	#undef RETURN_FUNCTION_ADDRESS

	const String& error = String::Handle(
	String::NewFormatted("Unknown dart_native_api.h symbol: %s.", name));
	Exceptions::ThrowArgumentError(error);
	}

	DEFINE_NATIVE_ENTRY(DartApiDLMajorVersion, 0, 0) {
	return Integer::New(DART_API_DL_MAJOR_VERSION);
	}

	DEFINE_NATIVE_ENTRY(DartApiDLMinorVersion, 0, 0) {
	return Integer::New(DART_API_DL_MINOR_VERSION);
	}

	static const DartApiEntry dart_api_entries[] = {
	#define ENTRY(name, R, A) \
	DartApiEntry{#name, reinterpret_cast<void (*)()>(name)},
	DART_API_ALL_DL_SYMBOLS(ENTRY)
	#undef ENTRY
	DartApiEntry{nullptr, nullptr}};

	static const DartApi dart_api_data = {
	DART_API_DL_MAJOR_VERSION, DART_API_DL_MINOR_VERSION, dart_api_entries};

	DEFINE_NATIVE_ENTRY(DartApiDLInitializeData, 0, 0) {
	return Integer::New(reinterpret_cast<intptr_t>(&dart_api_data));
	}

	// FFI native C function pointer resolver.
	static intptr_t FfiResolve(Dart_Handle lib_url,
	Dart_Handle name,
	uintptr_t args_n) {
	DARTSCOPE(Thread::Current());

	const String& lib_url_str = Api::UnwrapStringHandle(T->zone(), lib_url);
	const String& function_name = Api::UnwrapStringHandle(T->zone(), name);

	// Find the corresponding library's native function resolver (if set).
	const Library& lib = Library::Handle(Library::LookupLibrary(T, lib_url_str));
	if (lib.IsNull()) {
	const String& error = String::Handle(String::NewFormatted(
	"Unknown library: '%s'.", lib_url_str.ToCString()));
	Exceptions::ThrowArgumentError(error);
	}
	auto resolver = lib.ffi_native_resolver();
	if (resolver == nullptr) {
	const String& error = String::Handle(String::NewFormatted(
	"Library has no handler: '%s'.", lib_url_str.ToCString()));
	Exceptions::ThrowArgumentError(error);
	}

	auto* f = resolver(function_name.ToCString(), args_n);
	if (f == nullptr) {
	const String& error = String::Handle(String::NewFormatted(
	"Couldn't resolve function: '%s'.", function_name.ToCString()));
	Exceptions::ThrowArgumentError(error);
	}

	return reinterpret_cast<intptr_t>(f);
	}

	// Bootstrap to get the FFI Native resolver through a `native` call.
	DEFINE_NATIVE_ENTRY(Ffi_GetFfiNativeResolver, 1, 0) {
	GET_NATIVE_TYPE_ARGUMENT(type_arg, arguments->NativeTypeArgAt(0));
	return Pointer::New(type_arg, reinterpret_cast<intptr_t>(FfiResolve));
	}

	DEFINE_FFI_NATIVE_ENTRY(FinalizerEntry_SetExternalSize,
	void,
	(Dart_Handle entry_handle, intptr_t external_size)) {
	Thread* const thread = Thread::Current();
	TransitionNativeToVM transition(thread);
	Zone* const zone = thread->zone();
	const auto& entry_object =
	Object::Handle(zone, Api::UnwrapHandle(entry_handle));
	const auto& entry = FinalizerEntry::Cast(entry_object);

	Heap::Space space;
	intptr_t external_size_diff;
	{
	NoSafepointScope no_safepoint;
	space = SpaceForExternal(entry.ptr());
	const intptr_t external_size_old = entry.external_size();
	if (FLAG_trace_finalizers) {
	THR_Print("Setting external size from %" Pd " to %" Pd
	" bytes in %s space\n",
	external_size_old, external_size, space == 0 ? "new" : "old");
	}
	external_size_diff = external_size - external_size_old;
	if (external_size_diff == 0) {
	return;
	}
	entry.set_external_size(external_size);
	}
	// The next call cannot be in safepoint.
	if (external_size_diff > 0) {
	thread->isolate_group()->heap()->AllocatedExternal(external_size_diff,
	space);
	} else {
	thread->isolate_group()->heap()->FreedExternal(-external_size_diff, space);
	}
	};

	} // namespace dart