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// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "flutter/shell/platform/linux/public/flutter_linux/fl_engine.h"
#include <gmodule.h>
#include <cstring>
#include <string>
#include <vector>
#include "flutter/shell/platform/common/engine_switches.h"
#include "flutter/shell/platform/embedder/embedder.h"
#include "flutter/shell/platform/linux/fl_binary_messenger_private.h"
#include "flutter/shell/platform/linux/fl_dart_project_private.h"
#include "flutter/shell/platform/linux/fl_engine_private.h"
#include "flutter/shell/platform/linux/fl_pixel_buffer_texture_private.h"
#include "flutter/shell/platform/linux/fl_plugin_registrar_private.h"
#include "flutter/shell/platform/linux/fl_renderer.h"
#include "flutter/shell/platform/linux/fl_renderer_headless.h"
#include "flutter/shell/platform/linux/fl_settings_plugin.h"
#include "flutter/shell/platform/linux/fl_texture_gl_private.h"
#include "flutter/shell/platform/linux/fl_texture_registrar_private.h"
#include "flutter/shell/platform/linux/public/flutter_linux/fl_plugin_registry.h"
// Unique number associated with platform tasks.
static constexpr size_t kPlatformTaskRunnerIdentifier = 1;
// Use different device ID for mouse and pan/zoom events, since we can't
// differentiate the actual device (mouse v.s. trackpad)
static constexpr int32_t kMousePointerDeviceId = 0;
static constexpr int32_t kPointerPanZoomDeviceId = 1;
struct _FlEngine {
GObject parent_instance;
// Thread the GLib main loop is running on.
GThread* thread;
FlDartProject* project;
FlRenderer* renderer;
FlBinaryMessenger* binary_messenger;
FlSettingsPlugin* settings_plugin;
FlTextureRegistrar* texture_registrar;
FlTaskRunner* task_runner;
FlutterEngineAOTData aot_data;
FLUTTER_API_SYMBOL(FlutterEngine) engine;
FlutterEngineProcTable embedder_api;
// Function to call when a platform message is received.
FlEnginePlatformMessageHandler platform_message_handler;
gpointer platform_message_handler_data;
GDestroyNotify platform_message_handler_destroy_notify;
// Function to call when a semantic node is received.
FlEngineUpdateSemanticsNodeHandler update_semantics_node_handler;
gpointer update_semantics_node_handler_data;
GDestroyNotify update_semantics_node_handler_destroy_notify;
// Function to call right before the engine is restarted.
FlEngineOnPreEngineRestartHandler on_pre_engine_restart_handler;
gpointer on_pre_engine_restart_handler_data;
GDestroyNotify on_pre_engine_restart_handler_destroy_notify;
};
G_DEFINE_QUARK(fl_engine_error_quark, fl_engine_error)
static void fl_engine_plugin_registry_iface_init(
FlPluginRegistryInterface* iface);
G_DEFINE_TYPE_WITH_CODE(
FlEngine,
fl_engine,
G_TYPE_OBJECT,
G_IMPLEMENT_INTERFACE(fl_plugin_registry_get_type(),
fl_engine_plugin_registry_iface_init))
enum { kProp0, kPropBinaryMessenger, kPropLast };
// Parse a locale into its components.
static void parse_locale(const gchar* locale,
gchar** language,
gchar** territory,
gchar** codeset,
gchar** modifier) {
gchar* l = g_strdup(locale);
// Locales are in the form "language[_territory][.codeset][@modifier]"
gchar* match = strrchr(l, '@');
if (match != nullptr) {
if (modifier != nullptr) {
*modifier = g_strdup(match + 1);
}
*match = '\0';
} else if (modifier != nullptr) {
*modifier = nullptr;
}
match = strrchr(l, '.');
if (match != nullptr) {
if (codeset != nullptr) {
*codeset = g_strdup(match + 1);
}
*match = '\0';
} else if (codeset != nullptr) {
*codeset = nullptr;
}
match = strrchr(l, '_');
if (match != nullptr) {
if (territory != nullptr) {
*territory = g_strdup(match + 1);
}
*match = '\0';
} else if (territory != nullptr) {
*territory = nullptr;
}
if (language != nullptr) {
*language = l;
}
}
// Passes locale information to the Flutter engine.
static void setup_locales(FlEngine* self) {
const gchar* const* languages = g_get_language_names();
g_autoptr(GPtrArray) locales_array = g_ptr_array_new_with_free_func(g_free);
// Helper array to take ownership of the strings passed to Flutter.
g_autoptr(GPtrArray) locale_strings = g_ptr_array_new_with_free_func(g_free);
for (int i = 0; languages[i] != nullptr; i++) {
gchar *language, *territory;
parse_locale(languages[i], &language, &territory, nullptr, nullptr);
if (language != nullptr) {
g_ptr_array_add(locale_strings, language);
}
if (territory != nullptr) {
g_ptr_array_add(locale_strings, territory);
}
FlutterLocale* locale =
static_cast<FlutterLocale*>(g_malloc0(sizeof(FlutterLocale)));
g_ptr_array_add(locales_array, locale);
locale->struct_size = sizeof(FlutterLocale);
locale->language_code = language;
locale->country_code = territory;
locale->script_code = nullptr;
locale->variant_code = nullptr;
}
FlutterLocale** locales =
reinterpret_cast<FlutterLocale**>(locales_array->pdata);
FlutterEngineResult result = self->embedder_api.UpdateLocales(
self->engine, const_cast<const FlutterLocale**>(locales),
locales_array->len);
if (result != kSuccess) {
g_warning("Failed to set up Flutter locales");
}
}
// Called when engine needs a backing store for a specific #FlutterLayer.
static bool compositor_create_backing_store_callback(
const FlutterBackingStoreConfig* config,
FlutterBackingStore* backing_store_out,
void* user_data) {
g_return_val_if_fail(FL_IS_RENDERER(user_data), false);
return fl_renderer_create_backing_store(FL_RENDERER(user_data), config,
backing_store_out);
}
// Called when the backing store is to be released.
static bool compositor_collect_backing_store_callback(
const FlutterBackingStore* renderer,
void* user_data) {
g_return_val_if_fail(FL_IS_RENDERER(user_data), false);
return fl_renderer_collect_backing_store(FL_RENDERER(user_data), renderer);
}
// Called when embedder should composite contents of each layer onto the screen.
static bool compositor_present_layers_callback(const FlutterLayer** layers,
size_t layers_count,
void* user_data) {
g_return_val_if_fail(FL_IS_RENDERER(user_data), false);
return fl_renderer_present_layers(FL_RENDERER(user_data), layers,
layers_count);
}
// Flutter engine rendering callbacks.
static void* fl_engine_gl_proc_resolver(void* user_data, const char* name) {
FlEngine* self = static_cast<FlEngine*>(user_data);
return fl_renderer_get_proc_address(self->renderer, name);
}
static bool fl_engine_gl_make_current(void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
g_autoptr(GError) error = nullptr;
gboolean result = fl_renderer_make_current(self->renderer, &error);
if (!result) {
g_warning("%s", error->message);
}
return result;
}
static bool fl_engine_gl_clear_current(void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
g_autoptr(GError) error = nullptr;
gboolean result = fl_renderer_clear_current(self->renderer, &error);
if (!result) {
g_warning("%s", error->message);
}
return result;
}
static uint32_t fl_engine_gl_get_fbo(void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
return fl_renderer_get_fbo(self->renderer);
}
static bool fl_engine_gl_present(void* user_data) {
// No action required, as this is handled in
// compositor_present_layers_callback.
return true;
}
static bool fl_engine_gl_make_resource_current(void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
g_autoptr(GError) error = nullptr;
gboolean result = fl_renderer_make_resource_current(self->renderer, &error);
if (!result) {
g_warning("%s", error->message);
}
return result;
}
// Called by the engine to retrieve an external texture.
static bool fl_engine_gl_external_texture_frame_callback(
void* user_data,
int64_t texture_id,
size_t width,
size_t height,
FlutterOpenGLTexture* opengl_texture) {
FlEngine* self = static_cast<FlEngine*>(user_data);
if (!self->texture_registrar) {
return false;
}
FlTexture* texture =
fl_texture_registrar_lookup_texture(self->texture_registrar, texture_id);
if (texture == nullptr) {
g_warning("Unable to find texture %" G_GINT64_FORMAT, texture_id);
return false;
}
gboolean result;
g_autoptr(GError) error = nullptr;
if (FL_IS_TEXTURE_GL(texture)) {
result = fl_texture_gl_populate(FL_TEXTURE_GL(texture), width, height,
opengl_texture, &error);
} else if (FL_IS_PIXEL_BUFFER_TEXTURE(texture)) {
result =
fl_pixel_buffer_texture_populate(FL_PIXEL_BUFFER_TEXTURE(texture),
width, height, opengl_texture, &error);
} else {
g_warning("Unsupported texture type %" G_GINT64_FORMAT, texture_id);
return false;
}
if (!result) {
g_warning("%s", error->message);
return false;
}
return true;
}
// Called by the engine to determine if it is on the GTK thread.
static bool fl_engine_runs_task_on_current_thread(void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
return self->thread == g_thread_self();
}
// Called when the engine has a task to perform in the GTK thread.
static void fl_engine_post_task(FlutterTask task,
uint64_t target_time_nanos,
void* user_data) {
FlEngine* self = static_cast<FlEngine*>(user_data);
fl_task_runner_post_task(self->task_runner, task, target_time_nanos);
}
// Called when a platform message is received from the engine.
static void fl_engine_platform_message_cb(const FlutterPlatformMessage* message,
void* user_data) {
FlEngine* self = FL_ENGINE(user_data);
gboolean handled = FALSE;
if (self->platform_message_handler != nullptr) {
g_autoptr(GBytes) data =
g_bytes_new(message->message, message->message_size);
handled = self->platform_message_handler(
self, message->channel, data, message->response_handle,
self->platform_message_handler_data);
}
if (!handled) {
fl_engine_send_platform_message_response(self, message->response_handle,
nullptr, nullptr);
}
}
// Called when a semantic node update is received from the engine.
static void fl_engine_update_semantics_node_cb(const FlutterSemanticsNode* node,
void* user_data) {
FlEngine* self = FL_ENGINE(user_data);
if (self->update_semantics_node_handler != nullptr) {
self->update_semantics_node_handler(
self, node, self->update_semantics_node_handler_data);
}
}
// Called right before the engine is restarted.
//
// This method should reset states to as if the engine has just been started,
// which usually indicates the user has requested a hot restart (Shift-R in the
// Flutter CLI.)
static void fl_engine_on_pre_engine_restart_cb(void* user_data) {
FlEngine* self = FL_ENGINE(user_data);
if (self->on_pre_engine_restart_handler != nullptr) {
self->on_pre_engine_restart_handler(
self, self->on_pre_engine_restart_handler_data);
}
}
// Called when a response to a sent platform message is received from the
// engine.
static void fl_engine_platform_message_response_cb(const uint8_t* data,
size_t data_length,
void* user_data) {
g_autoptr(GTask) task = G_TASK(user_data);
g_task_return_pointer(task, g_bytes_new(data, data_length),
reinterpret_cast<GDestroyNotify>(g_bytes_unref));
}
// Implements FlPluginRegistry::get_registrar_for_plugin.
static FlPluginRegistrar* fl_engine_get_registrar_for_plugin(
FlPluginRegistry* registry,
const gchar* name) {
FlEngine* self = FL_ENGINE(registry);
return fl_plugin_registrar_new(nullptr, self->binary_messenger,
self->texture_registrar);
}
static void fl_engine_plugin_registry_iface_init(
FlPluginRegistryInterface* iface) {
iface->get_registrar_for_plugin = fl_engine_get_registrar_for_plugin;
}
static void fl_engine_set_property(GObject* object,
guint prop_id,
const GValue* value,
GParamSpec* pspec) {
FlEngine* self = FL_ENGINE(object);
switch (prop_id) {
case kPropBinaryMessenger:
g_set_object(&self->binary_messenger,
FL_BINARY_MESSENGER(g_value_get_object(value)));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void fl_engine_dispose(GObject* object) {
FlEngine* self = FL_ENGINE(object);
if (self->engine != nullptr) {
self->embedder_api.Shutdown(self->engine);
self->engine = nullptr;
}
if (self->aot_data != nullptr) {
self->embedder_api.CollectAOTData(self->aot_data);
self->aot_data = nullptr;
}
g_clear_object(&self->project);
g_clear_object(&self->renderer);
g_clear_object(&self->texture_registrar);
g_clear_object(&self->binary_messenger);
g_clear_object(&self->settings_plugin);
g_clear_object(&self->task_runner);
if (self->platform_message_handler_destroy_notify) {
self->platform_message_handler_destroy_notify(
self->platform_message_handler_data);
}
self->platform_message_handler_data = nullptr;
self->platform_message_handler_destroy_notify = nullptr;
if (self->update_semantics_node_handler_destroy_notify) {
self->update_semantics_node_handler_destroy_notify(
self->update_semantics_node_handler_data);
}
self->update_semantics_node_handler_data = nullptr;
self->update_semantics_node_handler_destroy_notify = nullptr;
if (self->on_pre_engine_restart_handler_destroy_notify) {
self->on_pre_engine_restart_handler_destroy_notify(
self->on_pre_engine_restart_handler_data);
}
self->on_pre_engine_restart_handler_data = nullptr;
self->on_pre_engine_restart_handler_destroy_notify = nullptr;
G_OBJECT_CLASS(fl_engine_parent_class)->dispose(object);
}
static void fl_engine_class_init(FlEngineClass* klass) {
G_OBJECT_CLASS(klass)->dispose = fl_engine_dispose;
G_OBJECT_CLASS(klass)->set_property = fl_engine_set_property;
g_object_class_install_property(
G_OBJECT_CLASS(klass), kPropBinaryMessenger,
g_param_spec_object(
"binary-messenger", "messenger", "Binary messenger",
fl_binary_messenger_get_type(),
static_cast<GParamFlags>(G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS)));
}
static void fl_engine_init(FlEngine* self) {
self->thread = g_thread_self();
self->embedder_api.struct_size = sizeof(FlutterEngineProcTable);
FlutterEngineGetProcAddresses(&self->embedder_api);
self->texture_registrar = fl_texture_registrar_new(self);
}
FlEngine* fl_engine_new(FlDartProject* project, FlRenderer* renderer) {
g_return_val_if_fail(FL_IS_DART_PROJECT(project), nullptr);
g_return_val_if_fail(FL_IS_RENDERER(renderer), nullptr);
FlEngine* self = FL_ENGINE(g_object_new(fl_engine_get_type(), nullptr));
self->project = FL_DART_PROJECT(g_object_ref(project));
self->renderer = FL_RENDERER(g_object_ref(renderer));
self->binary_messenger = fl_binary_messenger_new(self);
return self;
}
G_MODULE_EXPORT FlEngine* fl_engine_new_headless(FlDartProject* project) {
g_autoptr(FlRendererHeadless) renderer = fl_renderer_headless_new();
return fl_engine_new(project, FL_RENDERER(renderer));
}
gboolean fl_engine_start(FlEngine* self, GError** error) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
self->task_runner = fl_task_runner_new(self);
FlutterRendererConfig config = {};
config.type = kOpenGL;
config.open_gl.struct_size = sizeof(FlutterOpenGLRendererConfig);
config.open_gl.gl_proc_resolver = fl_engine_gl_proc_resolver;
config.open_gl.make_current = fl_engine_gl_make_current;
config.open_gl.clear_current = fl_engine_gl_clear_current;
config.open_gl.fbo_callback = fl_engine_gl_get_fbo;
config.open_gl.present = fl_engine_gl_present;
config.open_gl.make_resource_current = fl_engine_gl_make_resource_current;
config.open_gl.gl_external_texture_frame_callback =
fl_engine_gl_external_texture_frame_callback;
FlutterTaskRunnerDescription platform_task_runner = {};
platform_task_runner.struct_size = sizeof(FlutterTaskRunnerDescription);
platform_task_runner.user_data = self;
platform_task_runner.runs_task_on_current_thread_callback =
fl_engine_runs_task_on_current_thread;
platform_task_runner.post_task_callback = fl_engine_post_task;
platform_task_runner.identifier = kPlatformTaskRunnerIdentifier;
FlutterCustomTaskRunners custom_task_runners = {};
custom_task_runners.struct_size = sizeof(FlutterCustomTaskRunners);
custom_task_runners.platform_task_runner = &platform_task_runner;
custom_task_runners.render_task_runner = &platform_task_runner;
g_autoptr(GPtrArray) command_line_args = fl_engine_get_switches(self);
// FlutterProjectArgs expects a full argv, so when processing it for flags
// the first item is treated as the executable and ignored. Add a dummy value
// so that all switches are used.
g_ptr_array_insert(command_line_args, 0, g_strdup("flutter"));
gchar** dart_entrypoint_args =
fl_dart_project_get_dart_entrypoint_arguments(self->project);
FlutterProjectArgs args = {};
args.struct_size = sizeof(FlutterProjectArgs);
args.assets_path = fl_dart_project_get_assets_path(self->project);
args.icu_data_path = fl_dart_project_get_icu_data_path(self->project);
args.command_line_argc = command_line_args->len;
args.command_line_argv =
reinterpret_cast<const char* const*>(command_line_args->pdata);
args.platform_message_callback = fl_engine_platform_message_cb;
args.update_semantics_node_callback = fl_engine_update_semantics_node_cb;
args.custom_task_runners = &custom_task_runners;
args.shutdown_dart_vm_when_done = true;
args.on_pre_engine_restart_callback = fl_engine_on_pre_engine_restart_cb;
args.dart_entrypoint_argc =
dart_entrypoint_args != nullptr ? g_strv_length(dart_entrypoint_args) : 0;
args.dart_entrypoint_argv =
reinterpret_cast<const char* const*>(dart_entrypoint_args);
FlutterCompositor compositor = {};
compositor.struct_size = sizeof(FlutterCompositor);
compositor.user_data = self->renderer;
compositor.create_backing_store_callback =
compositor_create_backing_store_callback;
compositor.collect_backing_store_callback =
compositor_collect_backing_store_callback;
compositor.present_layers_callback = compositor_present_layers_callback;
args.compositor = &compositor;
if (self->embedder_api.RunsAOTCompiledDartCode()) {
FlutterEngineAOTDataSource source = {};
source.type = kFlutterEngineAOTDataSourceTypeElfPath;
source.elf_path = fl_dart_project_get_aot_library_path(self->project);
if (self->embedder_api.CreateAOTData(&source, &self->aot_data) !=
kSuccess) {
g_set_error(error, fl_engine_error_quark(), FL_ENGINE_ERROR_FAILED,
"Failed to create AOT data");
return FALSE;
}
args.aot_data = self->aot_data;
}
FlutterEngineResult result = self->embedder_api.Initialize(
FLUTTER_ENGINE_VERSION, &config, &args, self, &self->engine);
if (result != kSuccess) {
g_set_error(error, fl_engine_error_quark(), FL_ENGINE_ERROR_FAILED,
"Failed to initialize Flutter engine");
return FALSE;
}
result = self->embedder_api.RunInitialized(self->engine);
if (result != kSuccess) {
g_set_error(error, fl_engine_error_quark(), FL_ENGINE_ERROR_FAILED,
"Failed to run Flutter engine");
return FALSE;
}
setup_locales(self);
g_autoptr(FlSettings) settings = fl_settings_new();
self->settings_plugin = fl_settings_plugin_new(self);
fl_settings_plugin_start(self->settings_plugin, settings);
result = self->embedder_api.UpdateSemanticsEnabled(self->engine, TRUE);
if (result != kSuccess) {
g_warning("Failed to enable accessibility features on Flutter engine");
}
return TRUE;
}
FlutterEngineProcTable* fl_engine_get_embedder_api(FlEngine* self) {
return &(self->embedder_api);
}
void fl_engine_set_platform_message_handler(
FlEngine* self,
FlEnginePlatformMessageHandler handler,
gpointer user_data,
GDestroyNotify destroy_notify) {
g_return_if_fail(FL_IS_ENGINE(self));
g_return_if_fail(handler != nullptr);
if (self->platform_message_handler_destroy_notify) {
self->platform_message_handler_destroy_notify(
self->platform_message_handler_data);
}
self->platform_message_handler = handler;
self->platform_message_handler_data = user_data;
self->platform_message_handler_destroy_notify = destroy_notify;
}
void fl_engine_set_update_semantics_node_handler(
FlEngine* self,
FlEngineUpdateSemanticsNodeHandler handler,
gpointer user_data,
GDestroyNotify destroy_notify) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->update_semantics_node_handler_destroy_notify) {
self->update_semantics_node_handler_destroy_notify(
self->update_semantics_node_handler_data);
}
self->update_semantics_node_handler = handler;
self->update_semantics_node_handler_data = user_data;
self->update_semantics_node_handler_destroy_notify = destroy_notify;
}
void fl_engine_set_on_pre_engine_restart_handler(
FlEngine* self,
FlEngineOnPreEngineRestartHandler handler,
gpointer user_data,
GDestroyNotify destroy_notify) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->on_pre_engine_restart_handler_destroy_notify) {
self->on_pre_engine_restart_handler_destroy_notify(
self->on_pre_engine_restart_handler_data);
}
self->on_pre_engine_restart_handler = handler;
self->on_pre_engine_restart_handler_data = user_data;
self->on_pre_engine_restart_handler_destroy_notify = destroy_notify;
}
// Note: This function can be called from any thread.
gboolean fl_engine_send_platform_message_response(
FlEngine* self,
const FlutterPlatformMessageResponseHandle* handle,
GBytes* response,
GError** error) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
g_return_val_if_fail(handle != nullptr, FALSE);
if (self->engine == nullptr) {
g_set_error(error, fl_engine_error_quark(), FL_ENGINE_ERROR_FAILED,
"No engine to send response to");
return FALSE;
}
gsize data_length = 0;
const uint8_t* data = nullptr;
if (response != nullptr) {
data =
static_cast<const uint8_t*>(g_bytes_get_data(response, &data_length));
}
FlutterEngineResult result = self->embedder_api.SendPlatformMessageResponse(
self->engine, handle, data, data_length);
if (result != kSuccess) {
g_set_error(error, fl_engine_error_quark(), FL_ENGINE_ERROR_FAILED,
"Failed to send platform message response");
return FALSE;
}
return TRUE;
}
void fl_engine_send_platform_message(FlEngine* self,
const gchar* channel,
GBytes* message,
GCancellable* cancellable,
GAsyncReadyCallback callback,
gpointer user_data) {
g_return_if_fail(FL_IS_ENGINE(self));
GTask* task = nullptr;
FlutterPlatformMessageResponseHandle* response_handle = nullptr;
if (callback != nullptr) {
task = g_task_new(self, cancellable, callback, user_data);
if (self->engine == nullptr) {
g_task_return_new_error(task, fl_engine_error_quark(),
FL_ENGINE_ERROR_FAILED, "No engine to send to");
return;
}
FlutterEngineResult result =
self->embedder_api.PlatformMessageCreateResponseHandle(
self->engine, fl_engine_platform_message_response_cb, task,
&response_handle);
if (result != kSuccess) {
g_task_return_new_error(task, fl_engine_error_quark(),
FL_ENGINE_ERROR_FAILED,
"Failed to create response handle");
g_object_unref(task);
return;
}
} else if (self->engine == nullptr) {
return;
}
FlutterPlatformMessage fl_message = {};
fl_message.struct_size = sizeof(fl_message);
fl_message.channel = channel;
fl_message.message =
message != nullptr
? static_cast<const uint8_t*>(g_bytes_get_data(message, nullptr))
: nullptr;
fl_message.message_size = message != nullptr ? g_bytes_get_size(message) : 0;
fl_message.response_handle = response_handle;
FlutterEngineResult result =
self->embedder_api.SendPlatformMessage(self->engine, &fl_message);
if (result != kSuccess && task != nullptr) {
g_task_return_new_error(task, fl_engine_error_quark(),
FL_ENGINE_ERROR_FAILED,
"Failed to send platform messages");
g_object_unref(task);
}
if (response_handle != nullptr) {
self->embedder_api.PlatformMessageReleaseResponseHandle(self->engine,
response_handle);
}
}
GBytes* fl_engine_send_platform_message_finish(FlEngine* self,
GAsyncResult* result,
GError** error) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
g_return_val_if_fail(g_task_is_valid(result, self), FALSE);
return static_cast<GBytes*>(g_task_propagate_pointer(G_TASK(result), error));
}
void fl_engine_send_window_metrics_event(FlEngine* self,
size_t width,
size_t height,
double pixel_ratio) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
FlutterWindowMetricsEvent event = {};
event.struct_size = sizeof(FlutterWindowMetricsEvent);
event.width = width;
event.height = height;
event.pixel_ratio = pixel_ratio;
self->embedder_api.SendWindowMetricsEvent(self->engine, &event);
}
void fl_engine_send_mouse_pointer_event(FlEngine* self,
FlutterPointerPhase phase,
size_t timestamp,
double x,
double y,
double scroll_delta_x,
double scroll_delta_y,
int64_t buttons) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
FlutterPointerEvent fl_event = {};
fl_event.struct_size = sizeof(fl_event);
fl_event.phase = phase;
fl_event.timestamp = timestamp;
fl_event.x = x;
fl_event.y = y;
if (scroll_delta_x != 0 || scroll_delta_y != 0) {
fl_event.signal_kind = kFlutterPointerSignalKindScroll;
}
fl_event.scroll_delta_x = scroll_delta_x;
fl_event.scroll_delta_y = scroll_delta_y;
fl_event.device_kind = kFlutterPointerDeviceKindMouse;
fl_event.buttons = buttons;
fl_event.device = kMousePointerDeviceId;
self->embedder_api.SendPointerEvent(self->engine, &fl_event, 1);
}
void fl_engine_send_pointer_pan_zoom_event(FlEngine* self,
size_t timestamp,
double x,
double y,
FlutterPointerPhase phase,
double pan_x,
double pan_y,
double scale,
double rotation) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
FlutterPointerEvent fl_event = {};
fl_event.struct_size = sizeof(fl_event);
fl_event.timestamp = timestamp;
fl_event.x = x;
fl_event.y = y;
fl_event.phase = phase;
fl_event.pan_x = pan_x;
fl_event.pan_y = pan_y;
fl_event.scale = scale;
fl_event.rotation = rotation;
fl_event.device = kPointerPanZoomDeviceId;
fl_event.device_kind = kFlutterPointerDeviceKindTrackpad;
self->embedder_api.SendPointerEvent(self->engine, &fl_event, 1);
}
void fl_engine_send_key_event(FlEngine* self,
const FlutterKeyEvent* event,
FlutterKeyEventCallback callback,
void* user_data) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
self->embedder_api.SendKeyEvent(self->engine, event, callback, user_data);
}
void fl_engine_dispatch_semantics_action(FlEngine* self,
uint64_t id,
FlutterSemanticsAction action,
GBytes* data) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
const uint8_t* action_data = nullptr;
size_t action_data_length = 0;
if (data != nullptr) {
action_data = static_cast<const uint8_t*>(
g_bytes_get_data(data, &action_data_length));
}
self->embedder_api.DispatchSemanticsAction(self->engine, id, action,
action_data, action_data_length);
}
gboolean fl_engine_mark_texture_frame_available(FlEngine* self,
int64_t texture_id) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
return self->embedder_api.MarkExternalTextureFrameAvailable(
self->engine, texture_id) == kSuccess;
}
gboolean fl_engine_register_external_texture(FlEngine* self,
int64_t texture_id) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
return self->embedder_api.RegisterExternalTexture(self->engine, texture_id) ==
kSuccess;
}
gboolean fl_engine_unregister_external_texture(FlEngine* self,
int64_t texture_id) {
g_return_val_if_fail(FL_IS_ENGINE(self), FALSE);
return self->embedder_api.UnregisterExternalTexture(self->engine,
texture_id) == kSuccess;
}
G_MODULE_EXPORT FlBinaryMessenger* fl_engine_get_binary_messenger(
FlEngine* self) {
g_return_val_if_fail(FL_IS_ENGINE(self), nullptr);
return self->binary_messenger;
}
FlTaskRunner* fl_engine_get_task_runner(FlEngine* self) {
g_return_val_if_fail(FL_IS_ENGINE(self), nullptr);
return self->task_runner;
}
void fl_engine_execute_task(FlEngine* self, FlutterTask* task) {
g_return_if_fail(FL_IS_ENGINE(self));
self->embedder_api.RunTask(self->engine, task);
}
G_MODULE_EXPORT FlTextureRegistrar* fl_engine_get_texture_registrar(
FlEngine* self) {
g_return_val_if_fail(FL_IS_ENGINE(self), nullptr);
return self->texture_registrar;
}
void fl_engine_update_accessibility_features(FlEngine* self, int32_t flags) {
g_return_if_fail(FL_IS_ENGINE(self));
if (self->engine == nullptr) {
return;
}
self->embedder_api.UpdateAccessibilityFeatures(
self->engine, static_cast<FlutterAccessibilityFeature>(flags));
}
GPtrArray* fl_engine_get_switches(FlEngine* self) {
GPtrArray* switches = g_ptr_array_new_with_free_func(g_free);
for (const auto& env_switch : flutter::GetSwitchesFromEnvironment()) {
g_ptr_array_add(switches, g_strdup(env_switch.c_str()));
}
return switches;
}