runtime/lib/ffi_dynamic_library.cc - sdk - 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 "lib/ffi_dynamic_library.h"

 #include "platform/globals.h"
 #include "platform/utils.h"
 #if defined(DART_HOST_OS_WINDOWS)
 #include <Psapi.h>
 #include <Windows.h>
 #include <combaseapi.h>
 #include <stdio.h>
 #include <tchar.h>
 #endif

 #include "vm/bootstrap_natives.h"
 #include "vm/dart_api_impl.h"
 #include "vm/exceptions.h"
 #include "vm/ffi/native_assets.h"
 #include "vm/native_entry.h"
 #include "vm/symbols.h"
 #include "vm/zone_text_buffer.h"

 #if defined(DART_HOST_OS_LINUX) || defined(DART_HOST_OS_MACOS) ||              \
     defined(DART_HOST_OS_ANDROID) || defined(DART_HOST_OS_FUCHSIA)
 #include <dlfcn.h>
 #endif

 namespace dart {

 #if defined(USING_SIMULATOR) || (defined(DART_PRECOMPILER) && !defined(TESTING))

 DART_NORETURN static void SimulatorUnsupported() {
 #if defined(USING_SIMULATOR)
   Exceptions::ThrowUnsupportedError(
       "Not supported on simulated architectures.");
 #else
   Exceptions::ThrowUnsupportedError("Not supported in precompiler.");
 #endif
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_open, 0, 1) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_processLibrary, 0, 0) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_executableLibrary, 0, 0) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_lookup, 1, 2) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_getHandle, 0, 1) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_close, 0, 1) {
   SimulatorUnsupported();
 }
 DEFINE_NATIVE_ENTRY(Ffi_dl_providesSymbol, 0, 2) {
   SimulatorUnsupported();
 }

 DEFINE_NATIVE_ENTRY(Ffi_GetFfiNativeResolver, 1, 0) {
   SimulatorUnsupported();
 }

 #else  // defined(USING_SIMULATOR) ||                                          \
        // (defined(DART_PRECOMPILER) && !defined(TESTING))

 // If an error occurs populates |error| (if provided) with an error message
 // (caller must free this message when it is no longer needed).
 static void* LoadDynamicLibrary(const char* library_file,
                                 char** error = nullptr) {
   char* utils_error = nullptr;
   void* handle = Utils::LoadDynamicLibrary(library_file, &utils_error);
   if (utils_error != nullptr) {
     if (error != nullptr) {
       *error = OS::SCreate(
           /*use malloc*/ nullptr, "Failed to load dynamic library '%s': %s",
           library_file != nullptr ? library_file : "<process>", utils_error);
     }
     free(utils_error);
   }
   return handle;
 }

 #if defined(DART_HOST_OS_WINDOWS)
 // On windows, nullptr signals trying a lookup in all loaded modules.
 const nullptr_t kWindowsDynamicLibraryProcessPtr = nullptr;

 void* co_task_mem_allocated = nullptr;

 // If an error occurs populates |error| with an error message
 // (caller must free this message when it is no longer needed).
 void* LookupSymbolInProcess(const char* symbol, char** error) {
   // Force loading ole32.dll.
   if (co_task_mem_allocated == nullptr) {
     co_task_mem_allocated = CoTaskMemAlloc(sizeof(intptr_t));
     CoTaskMemFree(co_task_mem_allocated);
   }

   HANDLE current_process =
       OpenProcess(PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE,
                   GetCurrentProcessId());
   if (current_process == nullptr) {
     *error = OS::SCreate(nullptr, "Failed to open current process.");
     return nullptr;
   }

   HMODULE modules[1024];
   DWORD cb_needed;
   if (EnumProcessModules(current_process, modules, sizeof(modules),
                          &cb_needed) != 0) {
     for (intptr_t i = 0; i < (cb_needed / sizeof(HMODULE)); i++) {
       if (auto result =
               reinterpret_cast<void*>(GetProcAddress(modules[i], symbol))) {
         CloseHandle(current_process);
         return result;
       }
     }
   }
   CloseHandle(current_process);

   *error = OS::SCreate(
       nullptr,  // Use `malloc`.
       "None of the loaded modules contained the requested symbol '%s'.",
       symbol);
   return nullptr;
 }
 #endif

 // If an error occurs populates |error| with an error message
 // (caller must free this message when it is no longer needed).
 static void* ResolveSymbol(void* handle, const char* symbol, char** error) {
 #if defined(DART_HOST_OS_WINDOWS)
   if (handle == kWindowsDynamicLibraryProcessPtr) {
     return LookupSymbolInProcess(symbol, error);
   }
 #endif
   return Utils::ResolveSymbolInDynamicLibrary(handle, symbol, error);
 }

 static bool SymbolExists(void* handle, const char* symbol) {
   char* error = nullptr;
 #if !defined(DART_HOST_OS_WINDOWS)
   Utils::ResolveSymbolInDynamicLibrary(handle, symbol, &error);
 #else
   if (handle == nullptr) {
     LookupSymbolInProcess(symbol, &error);
   } else {
     Utils::ResolveSymbolInDynamicLibrary(handle, symbol, &error);
   }
 #endif
   if (error != nullptr) {
     free(error);
     return false;
   }
   return true;
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_open, 0, 1) {
   GET_NON_NULL_NATIVE_ARGUMENT(String, lib_path, arguments->NativeArgAt(0));

   char* error = nullptr;
   void* handle = LoadDynamicLibrary(lib_path.ToCString(), &error);
   if (error != nullptr) {
     const String& msg = String::Handle(String::New(error));
     free(error);
     Exceptions::ThrowArgumentError(msg);
   }
   return DynamicLibrary::New(handle, true);
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_processLibrary, 0, 0) {
 #if defined(DART_HOST_OS_LINUX) || defined(DART_HOST_OS_MACOS) ||              \
     defined(DART_HOST_OS_ANDROID) || defined(DART_HOST_OS_FUCHSIA)
   return DynamicLibrary::New(RTLD_DEFAULT, false);
 #else
   return DynamicLibrary::New(kWindowsDynamicLibraryProcessPtr, false);
 #endif
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_executableLibrary, 0, 0) {
   return DynamicLibrary::New(LoadDynamicLibrary(nullptr), false);
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_close, 0, 1) {
   GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
   if (dlib.IsClosed()) {
     // Already closed, nothing to do
   } else if (!dlib.CanBeClosed()) {
     const String& msg = String::Handle(
         String::New("DynamicLibrary.process() and DynamicLibrary.executable() "
                     "can't be closed."));
     Exceptions::ThrowStateError(msg);
   } else {
     void* handle = dlib.GetHandle();
     char* error = nullptr;
     Utils::UnloadDynamicLibrary(handle, &error);

     if (error == nullptr) {
       dlib.SetClosed(true);
     } else {
       const String& msg = String::Handle(String::New(error));
       free(error);
       Exceptions::ThrowStateError(msg);
     }
   }

   return Object::null();
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_lookup, 1, 2) {
   GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
   GET_NON_NULL_NATIVE_ARGUMENT(String, argSymbolName,
                                arguments->NativeArgAt(1));

   if (dlib.IsClosed()) {
     const String& msg =
         String::Handle(String::New("Cannot lookup symbols in closed library."));
     Exceptions::ThrowStateError(msg);
   }

   void* handle = dlib.GetHandle();

   char* error = nullptr;
   const uword pointer = reinterpret_cast<uword>(
       ResolveSymbol(handle, argSymbolName.ToCString(), &error));
   if (error != nullptr) {
     const String& msg = String::Handle(String::NewFormatted(
         "Failed to lookup symbol '%s': %s", argSymbolName.ToCString(), error));
     free(error);
     Exceptions::ThrowArgumentError(msg);
   }
   return Pointer::New(pointer);
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_getHandle, 0, 1) {
   GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));

   intptr_t handle = reinterpret_cast<intptr_t>(dlib.GetHandle());
   return Integer::NewFromUint64(handle);
 }

 DEFINE_NATIVE_ENTRY(Ffi_dl_providesSymbol, 0, 2) {
   GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
   GET_NON_NULL_NATIVE_ARGUMENT(String, argSymbolName,
                                arguments->NativeArgAt(1));

   void* handle = dlib.GetHandle();
   return Bool::Get(SymbolExists(handle, argSymbolName.ToCString())).ptr();
 }

 // nullptr if no native resolver is installed.
 static Dart_FfiNativeResolver GetFfiNativeResolver(Thread* const thread,
                                                    const String& lib_url_str) {
   const Library& lib =
       Library::Handle(Library::LookupLibrary(thread, lib_url_str));
   if (lib.IsNull()) {
     // It is not an error to not have a native resolver installed.
     return nullptr;
   }
   return lib.ffi_native_resolver();
 }

 // If an error occurs populates |error| with an error message
 // (caller must free this message when it is no longer needed).
 static void* FfiResolveWithFfiNativeResolver(Thread* const thread,
                                              Dart_FfiNativeResolver resolver,
                                              const String& symbol,
                                              intptr_t args_n,
                                              char** error) {
   auto* result = resolver(symbol.ToCString(), args_n);
   if (result == nullptr) {
     *error = OS::SCreate(/*use malloc*/ nullptr,
                          "Couldn't resolve function: '%s'", symbol.ToCString());
   }
   return result;
 }

 // Array::null if asset is not in mapping or no mapping.
 static ArrayPtr GetAssetLocation(Thread* const thread, const String& asset) {
   Zone* const zone = thread->zone();
   auto& result = Array::Handle(zone);

   const auto& native_assets_map =
       Array::Handle(zone, GetNativeAssetsMap(thread));
   if (!native_assets_map.IsNull()) {
     NativeAssetsMap map(native_assets_map.ptr());
     const auto& lookup = Object::Handle(zone, map.GetOrNull(asset));
     if (!lookup.IsNull()) {
       result = Array::Cast(lookup).ptr();
     }
     map.Release();
   }
   return result.ptr();
 }

 // String is zone allocated.
 static char* AvailableAssetsToCString(Thread* const thread) {
   Zone* const zone = thread->zone();

   const auto& native_assets_map =
       Array::Handle(zone, GetNativeAssetsMap(thread));
   ZoneTextBuffer buffer(zone, 1024);

   if (native_assets_map.IsNull()) {
     buffer.Printf("No available native assets.");
   } else {
     bool first = true;
     buffer.Printf("Available native assets: ");
     NativeAssetsMap map(native_assets_map.ptr());
     NativeAssetsMap::Iterator it(&map);
     auto& asset_id = String::Handle(zone);
     while (it.MoveNext()) {
       if (!first) {
         buffer.Printf(" ,");
         first = false;
       }
       auto entry = it.Current();
       asset_id ^= map.GetKey(entry);
       buffer.Printf("%s", asset_id.ToCString());
     }
     buffer.Printf(".");
     map.Release();
   }
   return buffer.buffer();
 }

 // If an error occurs populates |error| with an error message
 // (caller must free this message when it is no longer needed).
 //
 // The |asset_location| is formatted as follows:
 // ['<path_type>', '<path (optional)>']
 // The |asset_location| is conform to: pkg/vm/lib/native_assets/validator.dart
 static void* FfiResolveAsset(Thread* const thread,
                              const String& asset,
                              const String& symbol,
                              char** error) {
   void* handle = nullptr;
   NativeAssetsApi* native_assets_api =
       thread->isolate_group()->native_assets_api();
   if (native_assets_api->dlopen != nullptr) {
     // Let embedder resolve the asset id to asset path.
     NoActiveIsolateScope no_active_isolate_scope;
     handle = native_assets_api->dlopen(asset.ToCString(), error);
   }
   if (*error == nullptr && handle == nullptr) {
     // Fall back on VM reading ffi:native-assets from special library in kernel.
     // Allow for both embedder and VM resolution so flutter/engine and
     // flutter/flutter PRs can land without manual roll.
     Zone* const zone = thread->zone();
     const auto& asset_location =
         Array::Handle(zone, GetAssetLocation(thread, asset));
     if (asset_location.IsNull()) {
       return nullptr;
     }

     const auto& asset_type =
         String::Cast(Object::Handle(zone, asset_location.At(0)));
     String& path = String::Handle(zone);
     const char* path_cstr = nullptr;
     if (asset_type.Equals(Symbols::absolute()) ||
         asset_type.Equals(Symbols::relative()) ||
         asset_type.Equals(Symbols::system())) {
       path = String::RawCast(asset_location.At(1));
       path_cstr = path.ToCString();
     }

     if (asset_type.Equals(Symbols::absolute())) {
       if (native_assets_api->dlopen_absolute == nullptr) {
         *error = OS::SCreate(/*use malloc*/ nullptr,
                              "NativeAssetsApi::dlopen_absolute not set.");
         return nullptr;
       }
       NoActiveIsolateScope no_active_isolate_scope;
       handle = native_assets_api->dlopen_absolute(path_cstr, error);
     } else if (asset_type.Equals(Symbols::relative())) {
       if (native_assets_api->dlopen_relative == nullptr) {
         *error = OS::SCreate(/*use malloc*/ nullptr,
                              "NativeAssetsApi::dlopen_relative not set.");
         return nullptr;
       }
       NoActiveIsolateScope no_active_isolate_scope;
       handle = native_assets_api->dlopen_relative(path_cstr, error);
     } else if (asset_type.Equals(Symbols::system())) {
       if (native_assets_api->dlopen_system == nullptr) {
         *error = OS::SCreate(/*use malloc*/ nullptr,
                              "NativeAssetsApi::dlopen_system not set.");
         return nullptr;
       }
       NoActiveIsolateScope no_active_isolate_scope;
       handle = native_assets_api->dlopen_system(path_cstr, error);
     } else if (asset_type.Equals(Symbols::executable())) {
       if (native_assets_api->dlopen_executable == nullptr) {
         *error = OS::SCreate(/*use malloc*/ nullptr,
                              "NativeAssetsApi::dlopen_executable not set.");
         return nullptr;
       }
       NoActiveIsolateScope no_active_isolate_scope;
       handle = native_assets_api->dlopen_executable(error);
     } else {
       RELEASE_ASSERT(asset_type.Equals(Symbols::process()));
       if (native_assets_api->dlopen_process == nullptr) {
         *error = OS::SCreate(/*use malloc*/ nullptr,
                              "NativeAssetsApi::dlopen_process not set.");
         return nullptr;
       }
       NoActiveIsolateScope no_active_isolate_scope;
       handle = native_assets_api->dlopen_process(error);
     }
   }

   if (*error != nullptr) {
     return nullptr;
   }
   if (native_assets_api->dlsym == nullptr) {
     *error =
         OS::SCreate(/*use malloc*/ nullptr, "NativeAssetsApi::dlsym not set.");
     return nullptr;
   }
   void* const result =
       native_assets_api->dlsym(handle, symbol.ToCString(), error);
   return result;
 }

 // Frees |error|.
 static void ThrowFfiResolveError(const String& symbol,
                                  const String& asset,
                                  char* error) {
   const String& error_message = String::Handle(String::NewFormatted(
       "Couldn't resolve native function '%s' in '%s' : %s.\n",
       symbol.ToCString(), asset.ToCString(), error));
   free(error);
   Exceptions::ThrowArgumentError(error_message);
 }

 intptr_t FfiResolveInternal(const String& asset,
                             const String& symbol,
                             uintptr_t args_n,
                             char** error) {
   Thread* thread = Thread::Current();
   // Resolver resolution.
   auto resolver = GetFfiNativeResolver(thread, asset);
   if (resolver != nullptr) {
     void* ffi_native_result = FfiResolveWithFfiNativeResolver(
         thread, resolver, symbol, args_n, error);
     return reinterpret_cast<intptr_t>(ffi_native_result);
   }

   // Native assets resolution.
   void* asset_result = FfiResolveAsset(thread, asset, symbol, error);
   if (asset_result != nullptr) {
     return reinterpret_cast<intptr_t>(asset_result);
   }

   // Resolution in current process.
 #if !defined(DART_HOST_OS_WINDOWS)
   void* const result = Utils::ResolveSymbolInDynamicLibrary(
       RTLD_DEFAULT, symbol.ToCString(), error);
 #else
   void* const result = LookupSymbolInProcess(symbol.ToCString(), error);
 #endif

   if (*error != nullptr) {
     // Process lookup failed, but the user might have tried to use native
     // asset lookup. So augment the error message to include native assets info.
     char* process_lookup_error = *error;
     NativeAssetsApi* native_assets_api =
         thread->isolate_group()->native_assets_api();
     const char* const format =
         "No asset with id '%s' found. %s "
         "Attempted to fallback to process lookup. %s";
     if (native_assets_api->available_assets != nullptr) {
       // Embedder is resolving asset ids to asset paths.
       char* available_assets = native_assets_api->available_assets();
       *error = OS::SCreate(/*use malloc*/ nullptr, format, asset.ToCString(),
                            available_assets, process_lookup_error);
       free(available_assets);
     } else {
       // VM is resolving asset ids to asset paths.
       *error =
           OS::SCreate(/*use malloc*/ nullptr, format, asset.ToCString(),
                       AvailableAssetsToCString(thread), process_lookup_error);
     }
     free(process_lookup_error);
   }

   return reinterpret_cast<intptr_t>(result);
 }

 // FFI native C function pointer resolver.
 static intptr_t FfiResolve(Dart_Handle asset_handle,
                            Dart_Handle symbol_handle,
                            uintptr_t args_n) {
   auto* const thread = Thread::Current();
   DARTSCOPE(thread);
   auto* const zone = thread->zone();
   const String& asset = Api::UnwrapStringHandle(zone, asset_handle);
   const String& symbol = Api::UnwrapStringHandle(zone, symbol_handle);
   char* error = nullptr;

   const intptr_t result = FfiResolveInternal(asset, symbol, args_n, &error);
   if (error != nullptr) {
     ThrowFfiResolveError(symbol, asset, error);
   }
   ASSERT(result != 0x0);
   return result;
 }

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

 #endif  // defined(USING_SIMULATOR) ||                                         \
         // (defined(DART_PRECOMPILER) && !defined(TESTING))

 }  // 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 "lib/ffi_dynamic_library.h"

	#include "platform/globals.h"
	#include "platform/utils.h"
	#if defined(DART_HOST_OS_WINDOWS)
	#include <Psapi.h>
	#include <Windows.h>
	#include <combaseapi.h>
	#include <stdio.h>
	#include <tchar.h>
	#endif

	#include "vm/bootstrap_natives.h"
	#include "vm/dart_api_impl.h"
	#include "vm/exceptions.h"
	#include "vm/ffi/native_assets.h"
	#include "vm/native_entry.h"
	#include "vm/symbols.h"
	#include "vm/zone_text_buffer.h"

	#if defined(DART_HOST_OS_LINUX) \|\| defined(DART_HOST_OS_MACOS) \|\| \
	defined(DART_HOST_OS_ANDROID) \|\| defined(DART_HOST_OS_FUCHSIA)
	#include <dlfcn.h>
	#endif

	namespace dart {

	#if defined(USING_SIMULATOR) \|\| (defined(DART_PRECOMPILER) && !defined(TESTING))

	DART_NORETURN static void SimulatorUnsupported() {
	#if defined(USING_SIMULATOR)
	Exceptions::ThrowUnsupportedError(
	"Not supported on simulated architectures.");
	#else
	Exceptions::ThrowUnsupportedError("Not supported in precompiler.");
	#endif
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_open, 0, 1) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_processLibrary, 0, 0) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_executableLibrary, 0, 0) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_lookup, 1, 2) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_getHandle, 0, 1) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_close, 0, 1) {
	SimulatorUnsupported();
	}
	DEFINE_NATIVE_ENTRY(Ffi_dl_providesSymbol, 0, 2) {
	SimulatorUnsupported();
	}

	DEFINE_NATIVE_ENTRY(Ffi_GetFfiNativeResolver, 1, 0) {
	SimulatorUnsupported();
	}

	#else // defined(USING_SIMULATOR) \|\| \
	// (defined(DART_PRECOMPILER) && !defined(TESTING))

	// If an error occurs populates \|error\| (if provided) with an error message
	// (caller must free this message when it is no longer needed).
	static void* LoadDynamicLibrary(const char* library_file,
	char** error = nullptr) {
	char* utils_error = nullptr;
	void* handle = Utils::LoadDynamicLibrary(library_file, &utils_error);
	if (utils_error != nullptr) {
	if (error != nullptr) {
	*error = OS::SCreate(
	/use malloc/ nullptr, "Failed to load dynamic library '%s': %s",
	library_file != nullptr ? library_file : "<process>", utils_error);
	}
	free(utils_error);
	}
	return handle;
	}

	#if defined(DART_HOST_OS_WINDOWS)
	// On windows, nullptr signals trying a lookup in all loaded modules.
	const nullptr_t kWindowsDynamicLibraryProcessPtr = nullptr;

	void* co_task_mem_allocated = nullptr;

	// If an error occurs populates \|error\| with an error message
	// (caller must free this message when it is no longer needed).
	void* LookupSymbolInProcess(const char* symbol, char** error) {
	// Force loading ole32.dll.
	if (co_task_mem_allocated == nullptr) {
	co_task_mem_allocated = CoTaskMemAlloc(sizeof(intptr_t));
	CoTaskMemFree(co_task_mem_allocated);
	}

	HANDLE current_process =
	OpenProcess(PROCESS_QUERY_INFORMATION \| PROCESS_VM_READ, FALSE,
	GetCurrentProcessId());
	if (current_process == nullptr) {
	*error = OS::SCreate(nullptr, "Failed to open current process.");
	return nullptr;
	}

	HMODULE modules[1024];
	DWORD cb_needed;
	if (EnumProcessModules(current_process, modules, sizeof(modules),
	&cb_needed) != 0) {
	for (intptr_t i = 0; i < (cb_needed / sizeof(HMODULE)); i++) {
	if (auto result =
	reinterpret_cast<void*>(GetProcAddress(modules[i], symbol))) {
	CloseHandle(current_process);
	return result;
	}
	}
	}
	CloseHandle(current_process);

	*error = OS::SCreate(
	nullptr, // Use `malloc`.
	"None of the loaded modules contained the requested symbol '%s'.",
	symbol);
	return nullptr;
	}
	#endif

	// If an error occurs populates \|error\| with an error message
	// (caller must free this message when it is no longer needed).
	static void* ResolveSymbol(void* handle, const char* symbol, char** error) {
	#if defined(DART_HOST_OS_WINDOWS)
	if (handle == kWindowsDynamicLibraryProcessPtr) {
	return LookupSymbolInProcess(symbol, error);
	}
	#endif
	return Utils::ResolveSymbolInDynamicLibrary(handle, symbol, error);
	}

	static bool SymbolExists(void* handle, const char* symbol) {
	char* error = nullptr;
	#if !defined(DART_HOST_OS_WINDOWS)
	Utils::ResolveSymbolInDynamicLibrary(handle, symbol, &error);
	#else
	if (handle == nullptr) {
	LookupSymbolInProcess(symbol, &error);
	} else {
	Utils::ResolveSymbolInDynamicLibrary(handle, symbol, &error);
	}
	#endif
	if (error != nullptr) {
	free(error);
	return false;
	}
	return true;
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_open, 0, 1) {
	GET_NON_NULL_NATIVE_ARGUMENT(String, lib_path, arguments->NativeArgAt(0));

	char* error = nullptr;
	void* handle = LoadDynamicLibrary(lib_path.ToCString(), &error);
	if (error != nullptr) {
	const String& msg = String::Handle(String::New(error));
	free(error);
	Exceptions::ThrowArgumentError(msg);
	}
	return DynamicLibrary::New(handle, true);
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_processLibrary, 0, 0) {
	#if defined(DART_HOST_OS_LINUX) \|\| defined(DART_HOST_OS_MACOS) \|\| \
	defined(DART_HOST_OS_ANDROID) \|\| defined(DART_HOST_OS_FUCHSIA)
	return DynamicLibrary::New(RTLD_DEFAULT, false);
	#else
	return DynamicLibrary::New(kWindowsDynamicLibraryProcessPtr, false);
	#endif
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_executableLibrary, 0, 0) {
	return DynamicLibrary::New(LoadDynamicLibrary(nullptr), false);
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_close, 0, 1) {
	GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
	if (dlib.IsClosed()) {
	// Already closed, nothing to do
	} else if (!dlib.CanBeClosed()) {
	const String& msg = String::Handle(
	String::New("DynamicLibrary.process() and DynamicLibrary.executable() "
	"can't be closed."));
	Exceptions::ThrowStateError(msg);
	} else {
	void* handle = dlib.GetHandle();
	char* error = nullptr;
	Utils::UnloadDynamicLibrary(handle, &error);

	if (error == nullptr) {
	dlib.SetClosed(true);
	} else {
	const String& msg = String::Handle(String::New(error));
	free(error);
	Exceptions::ThrowStateError(msg);
	}
	}

	return Object::null();
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_lookup, 1, 2) {
	GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
	GET_NON_NULL_NATIVE_ARGUMENT(String, argSymbolName,
	arguments->NativeArgAt(1));

	if (dlib.IsClosed()) {
	const String& msg =
	String::Handle(String::New("Cannot lookup symbols in closed library."));
	Exceptions::ThrowStateError(msg);
	}

	void* handle = dlib.GetHandle();

	char* error = nullptr;
	const uword pointer = reinterpret_cast<uword>(
	ResolveSymbol(handle, argSymbolName.ToCString(), &error));
	if (error != nullptr) {
	const String& msg = String::Handle(String::NewFormatted(
	"Failed to lookup symbol '%s': %s", argSymbolName.ToCString(), error));
	free(error);
	Exceptions::ThrowArgumentError(msg);
	}
	return Pointer::New(pointer);
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_getHandle, 0, 1) {
	GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));

	intptr_t handle = reinterpret_cast<intptr_t>(dlib.GetHandle());
	return Integer::NewFromUint64(handle);
	}

	DEFINE_NATIVE_ENTRY(Ffi_dl_providesSymbol, 0, 2) {
	GET_NON_NULL_NATIVE_ARGUMENT(DynamicLibrary, dlib, arguments->NativeArgAt(0));
	GET_NON_NULL_NATIVE_ARGUMENT(String, argSymbolName,
	arguments->NativeArgAt(1));

	void* handle = dlib.GetHandle();
	return Bool::Get(SymbolExists(handle, argSymbolName.ToCString())).ptr();
	}

	// nullptr if no native resolver is installed.
	static Dart_FfiNativeResolver GetFfiNativeResolver(Thread* const thread,
	const String& lib_url_str) {
	const Library& lib =
	Library::Handle(Library::LookupLibrary(thread, lib_url_str));
	if (lib.IsNull()) {
	// It is not an error to not have a native resolver installed.
	return nullptr;
	}
	return lib.ffi_native_resolver();
	}

	// If an error occurs populates \|error\| with an error message
	// (caller must free this message when it is no longer needed).
	static void* FfiResolveWithFfiNativeResolver(Thread* const thread,
	Dart_FfiNativeResolver resolver,
	const String& symbol,
	intptr_t args_n,
	char** error) {
	auto* result = resolver(symbol.ToCString(), args_n);
	if (result == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"Couldn't resolve function: '%s'", symbol.ToCString());
	}
	return result;
	}

	// Array::null if asset is not in mapping or no mapping.
	static ArrayPtr GetAssetLocation(Thread* const thread, const String& asset) {
	Zone* const zone = thread->zone();
	auto& result = Array::Handle(zone);

	const auto& native_assets_map =
	Array::Handle(zone, GetNativeAssetsMap(thread));
	if (!native_assets_map.IsNull()) {
	NativeAssetsMap map(native_assets_map.ptr());
	const auto& lookup = Object::Handle(zone, map.GetOrNull(asset));
	if (!lookup.IsNull()) {
	result = Array::Cast(lookup).ptr();
	}
	map.Release();
	}
	return result.ptr();
	}

	// String is zone allocated.
	static char* AvailableAssetsToCString(Thread* const thread) {
	Zone* const zone = thread->zone();

	const auto& native_assets_map =
	Array::Handle(zone, GetNativeAssetsMap(thread));
	ZoneTextBuffer buffer(zone, 1024);

	if (native_assets_map.IsNull()) {
	buffer.Printf("No available native assets.");
	} else {
	bool first = true;
	buffer.Printf("Available native assets: ");
	NativeAssetsMap map(native_assets_map.ptr());
	NativeAssetsMap::Iterator it(&map);
	auto& asset_id = String::Handle(zone);
	while (it.MoveNext()) {
	if (!first) {
	buffer.Printf(" ,");
	first = false;
	}
	auto entry = it.Current();
	asset_id ^= map.GetKey(entry);
	buffer.Printf("%s", asset_id.ToCString());
	}
	buffer.Printf(".");
	map.Release();
	}
	return buffer.buffer();
	}

	// If an error occurs populates \|error\| with an error message
	// (caller must free this message when it is no longer needed).
	//
	// The \|asset_location\| is formatted as follows:
	// ['<path_type>', '<path (optional)>']
	// The \|asset_location\| is conform to: pkg/vm/lib/native_assets/validator.dart
	static void* FfiResolveAsset(Thread* const thread,
	const String& asset,
	const String& symbol,
	char** error) {
	void* handle = nullptr;
	NativeAssetsApi* native_assets_api =
	thread->isolate_group()->native_assets_api();
	if (native_assets_api->dlopen != nullptr) {
	// Let embedder resolve the asset id to asset path.
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen(asset.ToCString(), error);
	}
	if (*error == nullptr && handle == nullptr) {
	// Fall back on VM reading ffi:native-assets from special library in kernel.
	// Allow for both embedder and VM resolution so flutter/engine and
	// flutter/flutter PRs can land without manual roll.
	Zone* const zone = thread->zone();
	const auto& asset_location =
	Array::Handle(zone, GetAssetLocation(thread, asset));
	if (asset_location.IsNull()) {
	return nullptr;
	}

	const auto& asset_type =
	String::Cast(Object::Handle(zone, asset_location.At(0)));
	String& path = String::Handle(zone);
	const char* path_cstr = nullptr;
	if (asset_type.Equals(Symbols::absolute()) \|\|
	asset_type.Equals(Symbols::relative()) \|\|
	asset_type.Equals(Symbols::system())) {
	path = String::RawCast(asset_location.At(1));
	path_cstr = path.ToCString();
	}

	if (asset_type.Equals(Symbols::absolute())) {
	if (native_assets_api->dlopen_absolute == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"NativeAssetsApi::dlopen_absolute not set.");
	return nullptr;
	}
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen_absolute(path_cstr, error);
	} else if (asset_type.Equals(Symbols::relative())) {
	if (native_assets_api->dlopen_relative == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"NativeAssetsApi::dlopen_relative not set.");
	return nullptr;
	}
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen_relative(path_cstr, error);
	} else if (asset_type.Equals(Symbols::system())) {
	if (native_assets_api->dlopen_system == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"NativeAssetsApi::dlopen_system not set.");
	return nullptr;
	}
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen_system(path_cstr, error);
	} else if (asset_type.Equals(Symbols::executable())) {
	if (native_assets_api->dlopen_executable == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"NativeAssetsApi::dlopen_executable not set.");
	return nullptr;
	}
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen_executable(error);
	} else {
	RELEASE_ASSERT(asset_type.Equals(Symbols::process()));
	if (native_assets_api->dlopen_process == nullptr) {
	error = OS::SCreate(/use malloc*/ nullptr,
	"NativeAssetsApi::dlopen_process not set.");
	return nullptr;
	}
	NoActiveIsolateScope no_active_isolate_scope;
	handle = native_assets_api->dlopen_process(error);
	}
	}

	if (*error != nullptr) {
	return nullptr;
	}
	if (native_assets_api->dlsym == nullptr) {
	*error =
	OS::SCreate(/use malloc/ nullptr, "NativeAssetsApi::dlsym not set.");
	return nullptr;
	}
	void* const result =
	native_assets_api->dlsym(handle, symbol.ToCString(), error);
	return result;
	}

	// Frees \|error\|.
	static void ThrowFfiResolveError(const String& symbol,
	const String& asset,
	char* error) {
	const String& error_message = String::Handle(String::NewFormatted(
	"Couldn't resolve native function '%s' in '%s' : %s.\n",
	symbol.ToCString(), asset.ToCString(), error));
	free(error);
	Exceptions::ThrowArgumentError(error_message);
	}

	intptr_t FfiResolveInternal(const String& asset,
	const String& symbol,
	uintptr_t args_n,
	char** error) {
	Thread* thread = Thread::Current();
	// Resolver resolution.
	auto resolver = GetFfiNativeResolver(thread, asset);
	if (resolver != nullptr) {
	void* ffi_native_result = FfiResolveWithFfiNativeResolver(
	thread, resolver, symbol, args_n, error);
	return reinterpret_cast<intptr_t>(ffi_native_result);
	}

	// Native assets resolution.
	void* asset_result = FfiResolveAsset(thread, asset, symbol, error);
	if (asset_result != nullptr) {
	return reinterpret_cast<intptr_t>(asset_result);
	}

	// Resolution in current process.
	#if !defined(DART_HOST_OS_WINDOWS)
	void* const result = Utils::ResolveSymbolInDynamicLibrary(
	RTLD_DEFAULT, symbol.ToCString(), error);
	#else
	void* const result = LookupSymbolInProcess(symbol.ToCString(), error);
	#endif

	if (*error != nullptr) {
	// Process lookup failed, but the user might have tried to use native
	// asset lookup. So augment the error message to include native assets info.
	char* process_lookup_error = *error;
	NativeAssetsApi* native_assets_api =
	thread->isolate_group()->native_assets_api();
	const char* const format =
	"No asset with id '%s' found. %s "
	"Attempted to fallback to process lookup. %s";
	if (native_assets_api->available_assets != nullptr) {
	// Embedder is resolving asset ids to asset paths.
	char* available_assets = native_assets_api->available_assets();
	error = OS::SCreate(/use malloc*/ nullptr, format, asset.ToCString(),
	available_assets, process_lookup_error);
	free(available_assets);
	} else {
	// VM is resolving asset ids to asset paths.
	*error =
	OS::SCreate(/use malloc/ nullptr, format, asset.ToCString(),
	AvailableAssetsToCString(thread), process_lookup_error);
	}
	free(process_lookup_error);
	}

	return reinterpret_cast<intptr_t>(result);
	}

	// FFI native C function pointer resolver.
	static intptr_t FfiResolve(Dart_Handle asset_handle,
	Dart_Handle symbol_handle,
	uintptr_t args_n) {
	auto* const thread = Thread::Current();
	DARTSCOPE(thread);
	auto* const zone = thread->zone();
	const String& asset = Api::UnwrapStringHandle(zone, asset_handle);
	const String& symbol = Api::UnwrapStringHandle(zone, symbol_handle);
	char* error = nullptr;

	const intptr_t result = FfiResolveInternal(asset, symbol, args_n, &error);
	if (error != nullptr) {
	ThrowFfiResolveError(symbol, asset, error);
	}
	ASSERT(result != 0x0);
	return result;
	}

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

	#endif // defined(USING_SIMULATOR) \|\| \
	// (defined(DART_PRECOMPILER) && !defined(TESTING))

	} // namespace dart