shell/platform/linux/fl_method_channel.cc - mirrors/engine - Git at Google

 // 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_method_channel.h"

 #include <gmodule.h>

 #include "flutter/shell/platform/linux/fl_method_call_private.h"
 #include "flutter/shell/platform/linux/fl_method_channel_private.h"
 #include "flutter/shell/platform/linux/fl_method_codec_private.h"

 struct _FlMethodChannel {
   GObject parent_instance;

   // Messenger to communicate on.
   FlBinaryMessenger* messenger;

   // TRUE if the channel has been closed.
   gboolean channel_closed;

   // Channel name.
   gchar* name;

   // Codec to en/decode messages.
   FlMethodCodec* codec;

   // Function called when a method call is received.
   FlMethodChannelMethodCallHandler method_call_handler;
   gpointer method_call_handler_data;
   GDestroyNotify method_call_handler_destroy_notify;
 };

 G_DEFINE_TYPE(FlMethodChannel, fl_method_channel, G_TYPE_OBJECT)

 // Called when a binary message is received on this channel.
 static void message_cb(FlBinaryMessenger* messenger,
                        const gchar* channel,
                        GBytes* message,
                        FlBinaryMessengerResponseHandle* response_handle,
                        gpointer user_data) {
   FlMethodChannel* self = FL_METHOD_CHANNEL(user_data);

   if (self->method_call_handler == nullptr) {
     return;
   }

   g_autofree gchar* method = nullptr;
   g_autoptr(FlValue) args = nullptr;
   g_autoptr(GError) error = nullptr;
   if (!fl_method_codec_decode_method_call(self->codec, message, &method, &args,
                                           &error)) {
     g_warning("Failed to decode method call: %s", error->message);
     return;
   }

   g_autoptr(FlMethodCall) method_call =
       fl_method_call_new(method, args, self, response_handle);
   self->method_call_handler(self, method_call, self->method_call_handler_data);
 }

 // Called when a response is received to a sent message.
 static void message_response_cb(GObject* object,
                                 GAsyncResult* result,
                                 gpointer user_data) {
   GTask* task = G_TASK(user_data);
   g_task_return_pointer(task, result, g_object_unref);
 }

 // Called when the channel handler is closed.
 static void channel_closed_cb(gpointer user_data) {
   g_autoptr(FlMethodChannel) self = FL_METHOD_CHANNEL(user_data);

   self->channel_closed = TRUE;

   // Disconnect handler.
   if (self->method_call_handler_destroy_notify != nullptr) {
     self->method_call_handler_destroy_notify(self->method_call_handler_data);
   }
   self->method_call_handler = nullptr;
   self->method_call_handler_data = nullptr;
   self->method_call_handler_destroy_notify = nullptr;
 }

 static void fl_method_channel_dispose(GObject* object) {
   FlMethodChannel* self = FL_METHOD_CHANNEL(object);

   // Note we don't have to clear the handler in messenger as it holds
   // a reference to this object so the following code is only run after
   // the messenger has closed the channel already.

   g_clear_object(&self->messenger);
   g_clear_pointer(&self->name, g_free);
   g_clear_object(&self->codec);

   if (self->method_call_handler_destroy_notify != nullptr) {
     self->method_call_handler_destroy_notify(self->method_call_handler_data);
   }
   self->method_call_handler = nullptr;
   self->method_call_handler_data = nullptr;
   self->method_call_handler_destroy_notify = nullptr;

   G_OBJECT_CLASS(fl_method_channel_parent_class)->dispose(object);
 }

 static void fl_method_channel_class_init(FlMethodChannelClass* klass) {
   G_OBJECT_CLASS(klass)->dispose = fl_method_channel_dispose;
 }

 static void fl_method_channel_init(FlMethodChannel* self) {}

 G_MODULE_EXPORT FlMethodChannel* fl_method_channel_new(
     FlBinaryMessenger* messenger,
     const gchar* name,
     FlMethodCodec* codec) {
   g_return_val_if_fail(FL_IS_BINARY_MESSENGER(messenger), nullptr);
   g_return_val_if_fail(name != nullptr, nullptr);
   g_return_val_if_fail(FL_IS_METHOD_CODEC(codec), nullptr);

   FlMethodChannel* self =
       FL_METHOD_CHANNEL(g_object_new(fl_method_channel_get_type(), nullptr));

   self->messenger = FL_BINARY_MESSENGER(g_object_ref(messenger));
   self->name = g_strdup(name);
   self->codec = FL_METHOD_CODEC(g_object_ref(codec));

   fl_binary_messenger_set_message_handler_on_channel(
       self->messenger, self->name, message_cb, g_object_ref(self),
       channel_closed_cb);

   return self;
 }

 G_MODULE_EXPORT void fl_method_channel_set_method_call_handler(
     FlMethodChannel* self,
     FlMethodChannelMethodCallHandler handler,
     gpointer user_data,
     GDestroyNotify destroy_notify) {
   g_return_if_fail(FL_IS_METHOD_CHANNEL(self));

   // Don't set handler if channel closed.
   if (self->channel_closed) {
     if (handler != nullptr) {
       g_warning(
           "Attempted to set method call handler on a closed FlMethodChannel");
     }
     if (destroy_notify != nullptr) {
       destroy_notify(user_data);
     }
     return;
   }

   if (self->method_call_handler_destroy_notify != nullptr) {
     self->method_call_handler_destroy_notify(self->method_call_handler_data);
   }

   self->method_call_handler = handler;
   self->method_call_handler_data = user_data;
   self->method_call_handler_destroy_notify = destroy_notify;
 }

 G_MODULE_EXPORT void fl_method_channel_invoke_method(
     FlMethodChannel* self,
     const gchar* method,
     FlValue* args,
     GCancellable* cancellable,
     GAsyncReadyCallback callback,
     gpointer user_data) {
   g_return_if_fail(FL_IS_METHOD_CHANNEL(self));
   g_return_if_fail(method != nullptr);

   g_autoptr(GTask) task =
       callback != nullptr ? g_task_new(self, cancellable, callback, user_data)
                           : nullptr;

   g_autoptr(GError) error = nullptr;
   g_autoptr(GBytes) message =
       fl_method_codec_encode_method_call(self->codec, method, args, &error);
   if (message == nullptr) {
     if (task != nullptr) {
       g_task_return_error(task, error);
     }
     return;
   }

   fl_binary_messenger_send_on_channel(
       self->messenger, self->name, message, cancellable,
       callback != nullptr ? message_response_cb : nullptr,
       g_steal_pointer(&task));
 }

 G_MODULE_EXPORT FlMethodResponse* fl_method_channel_invoke_method_finish(
     FlMethodChannel* self,
     GAsyncResult* result,
     GError** error) {
   g_return_val_if_fail(FL_IS_METHOD_CHANNEL(self), nullptr);
   g_return_val_if_fail(g_task_is_valid(result, self), nullptr);

   g_autoptr(GTask) task = G_TASK(result);
   GAsyncResult* r = G_ASYNC_RESULT(g_task_propagate_pointer(task, nullptr));

   g_autoptr(GBytes) response =
       fl_binary_messenger_send_on_channel_finish(self->messenger, r, error);
   if (response == nullptr) {
     return nullptr;
   }

   return fl_method_codec_decode_response(self->codec, response, error);
 }

 gboolean fl_method_channel_respond(
     FlMethodChannel* self,
     FlBinaryMessengerResponseHandle* response_handle,
     FlMethodResponse* response,
     GError** error) {
   g_return_val_if_fail(FL_IS_METHOD_CHANNEL(self), FALSE);
   g_return_val_if_fail(FL_IS_BINARY_MESSENGER_RESPONSE_HANDLE(response_handle),
                        FALSE);
   g_return_val_if_fail(FL_IS_METHOD_SUCCESS_RESPONSE(response) ||
                            FL_IS_METHOD_ERROR_RESPONSE(response) ||
                            FL_IS_METHOD_NOT_IMPLEMENTED_RESPONSE(response),
                        FALSE);

   g_autoptr(GBytes) message = nullptr;
   if (FL_IS_METHOD_SUCCESS_RESPONSE(response)) {
     FlMethodSuccessResponse* r = FL_METHOD_SUCCESS_RESPONSE(response);
     message = fl_method_codec_encode_success_envelope(
         self->codec, fl_method_success_response_get_result(r), error);
     if (message == nullptr) {
       return FALSE;
     }
   } else if (FL_IS_METHOD_ERROR_RESPONSE(response)) {
     FlMethodErrorResponse* r = FL_METHOD_ERROR_RESPONSE(response);
     message = fl_method_codec_encode_error_envelope(
         self->codec, fl_method_error_response_get_code(r),
         fl_method_error_response_get_message(r),
         fl_method_error_response_get_details(r), error);
     if (message == nullptr) {
       return FALSE;
     }
   } else if (FL_IS_METHOD_NOT_IMPLEMENTED_RESPONSE(response)) {
     message = nullptr;
   } else {
     g_assert_not_reached();
   }

   return fl_binary_messenger_send_response(self->messenger, response_handle,
                                            message, error);
 }
	// 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_method_channel.h"

	#include <gmodule.h>

	#include "flutter/shell/platform/linux/fl_method_call_private.h"
	#include "flutter/shell/platform/linux/fl_method_channel_private.h"
	#include "flutter/shell/platform/linux/fl_method_codec_private.h"

	struct _FlMethodChannel {
	GObject parent_instance;

	// Messenger to communicate on.
	FlBinaryMessenger* messenger;

	// TRUE if the channel has been closed.
	gboolean channel_closed;

	// Channel name.
	gchar* name;

	// Codec to en/decode messages.
	FlMethodCodec* codec;

	// Function called when a method call is received.
	FlMethodChannelMethodCallHandler method_call_handler;
	gpointer method_call_handler_data;
	GDestroyNotify method_call_handler_destroy_notify;
	};

	G_DEFINE_TYPE(FlMethodChannel, fl_method_channel, G_TYPE_OBJECT)

	// Called when a binary message is received on this channel.
	static void message_cb(FlBinaryMessenger* messenger,
	const gchar* channel,
	GBytes* message,
	FlBinaryMessengerResponseHandle* response_handle,
	gpointer user_data) {
	FlMethodChannel* self = FL_METHOD_CHANNEL(user_data);

	if (self->method_call_handler == nullptr) {
	return;
	}

	g_autofree gchar* method = nullptr;
	g_autoptr(FlValue) args = nullptr;
	g_autoptr(GError) error = nullptr;
	if (!fl_method_codec_decode_method_call(self->codec, message, &method, &args,
	&error)) {
	g_warning("Failed to decode method call: %s", error->message);
	return;
	}

	g_autoptr(FlMethodCall) method_call =
	fl_method_call_new(method, args, self, response_handle);
	self->method_call_handler(self, method_call, self->method_call_handler_data);
	}

	// Called when a response is received to a sent message.
	static void message_response_cb(GObject* object,
	GAsyncResult* result,
	gpointer user_data) {
	GTask* task = G_TASK(user_data);
	g_task_return_pointer(task, result, g_object_unref);
	}

	// Called when the channel handler is closed.
	static void channel_closed_cb(gpointer user_data) {
	g_autoptr(FlMethodChannel) self = FL_METHOD_CHANNEL(user_data);

	self->channel_closed = TRUE;

	// Disconnect handler.
	if (self->method_call_handler_destroy_notify != nullptr) {
	self->method_call_handler_destroy_notify(self->method_call_handler_data);
	}
	self->method_call_handler = nullptr;
	self->method_call_handler_data = nullptr;
	self->method_call_handler_destroy_notify = nullptr;
	}

	static void fl_method_channel_dispose(GObject* object) {
	FlMethodChannel* self = FL_METHOD_CHANNEL(object);

	// Note we don't have to clear the handler in messenger as it holds
	// a reference to this object so the following code is only run after
	// the messenger has closed the channel already.

	g_clear_object(&self->messenger);
	g_clear_pointer(&self->name, g_free);
	g_clear_object(&self->codec);

	if (self->method_call_handler_destroy_notify != nullptr) {
	self->method_call_handler_destroy_notify(self->method_call_handler_data);
	}
	self->method_call_handler = nullptr;
	self->method_call_handler_data = nullptr;
	self->method_call_handler_destroy_notify = nullptr;

	G_OBJECT_CLASS(fl_method_channel_parent_class)->dispose(object);
	}

	static void fl_method_channel_class_init(FlMethodChannelClass* klass) {
	G_OBJECT_CLASS(klass)->dispose = fl_method_channel_dispose;
	}

	static void fl_method_channel_init(FlMethodChannel* self) {}

	G_MODULE_EXPORT FlMethodChannel* fl_method_channel_new(
	FlBinaryMessenger* messenger,
	const gchar* name,
	FlMethodCodec* codec) {
	g_return_val_if_fail(FL_IS_BINARY_MESSENGER(messenger), nullptr);
	g_return_val_if_fail(name != nullptr, nullptr);
	g_return_val_if_fail(FL_IS_METHOD_CODEC(codec), nullptr);

	FlMethodChannel* self =
	FL_METHOD_CHANNEL(g_object_new(fl_method_channel_get_type(), nullptr));

	self->messenger = FL_BINARY_MESSENGER(g_object_ref(messenger));
	self->name = g_strdup(name);
	self->codec = FL_METHOD_CODEC(g_object_ref(codec));

	fl_binary_messenger_set_message_handler_on_channel(
	self->messenger, self->name, message_cb, g_object_ref(self),
	channel_closed_cb);

	return self;
	}

	G_MODULE_EXPORT void fl_method_channel_set_method_call_handler(
	FlMethodChannel* self,
	FlMethodChannelMethodCallHandler handler,
	gpointer user_data,
	GDestroyNotify destroy_notify) {
	g_return_if_fail(FL_IS_METHOD_CHANNEL(self));

	// Don't set handler if channel closed.
	if (self->channel_closed) {
	if (handler != nullptr) {
	g_warning(
	"Attempted to set method call handler on a closed FlMethodChannel");
	}
	if (destroy_notify != nullptr) {
	destroy_notify(user_data);
	}
	return;
	}

	if (self->method_call_handler_destroy_notify != nullptr) {
	self->method_call_handler_destroy_notify(self->method_call_handler_data);
	}

	self->method_call_handler = handler;
	self->method_call_handler_data = user_data;
	self->method_call_handler_destroy_notify = destroy_notify;
	}

	G_MODULE_EXPORT void fl_method_channel_invoke_method(
	FlMethodChannel* self,
	const gchar* method,
	FlValue* args,
	GCancellable* cancellable,
	GAsyncReadyCallback callback,
	gpointer user_data) {
	g_return_if_fail(FL_IS_METHOD_CHANNEL(self));
	g_return_if_fail(method != nullptr);

	g_autoptr(GTask) task =
	callback != nullptr ? g_task_new(self, cancellable, callback, user_data)
	: nullptr;

	g_autoptr(GError) error = nullptr;
	g_autoptr(GBytes) message =
	fl_method_codec_encode_method_call(self->codec, method, args, &error);
	if (message == nullptr) {
	if (task != nullptr) {
	g_task_return_error(task, error);
	}
	return;
	}

	fl_binary_messenger_send_on_channel(
	self->messenger, self->name, message, cancellable,
	callback != nullptr ? message_response_cb : nullptr,
	g_steal_pointer(&task));
	}

	G_MODULE_EXPORT FlMethodResponse* fl_method_channel_invoke_method_finish(
	FlMethodChannel* self,
	GAsyncResult* result,
	GError** error) {
	g_return_val_if_fail(FL_IS_METHOD_CHANNEL(self), nullptr);
	g_return_val_if_fail(g_task_is_valid(result, self), nullptr);

	g_autoptr(GTask) task = G_TASK(result);
	GAsyncResult* r = G_ASYNC_RESULT(g_task_propagate_pointer(task, nullptr));

	g_autoptr(GBytes) response =
	fl_binary_messenger_send_on_channel_finish(self->messenger, r, error);
	if (response == nullptr) {
	return nullptr;
	}

	return fl_method_codec_decode_response(self->codec, response, error);
	}

	gboolean fl_method_channel_respond(
	FlMethodChannel* self,
	FlBinaryMessengerResponseHandle* response_handle,
	FlMethodResponse* response,
	GError** error) {
	g_return_val_if_fail(FL_IS_METHOD_CHANNEL(self), FALSE);
	g_return_val_if_fail(FL_IS_BINARY_MESSENGER_RESPONSE_HANDLE(response_handle),
	FALSE);
	g_return_val_if_fail(FL_IS_METHOD_SUCCESS_RESPONSE(response) \|\|
	FL_IS_METHOD_ERROR_RESPONSE(response) \|\|
	FL_IS_METHOD_NOT_IMPLEMENTED_RESPONSE(response),
	FALSE);

	g_autoptr(GBytes) message = nullptr;
	if (FL_IS_METHOD_SUCCESS_RESPONSE(response)) {
	FlMethodSuccessResponse* r = FL_METHOD_SUCCESS_RESPONSE(response);
	message = fl_method_codec_encode_success_envelope(
	self->codec, fl_method_success_response_get_result(r), error);
	if (message == nullptr) {
	return FALSE;
	}
	} else if (FL_IS_METHOD_ERROR_RESPONSE(response)) {
	FlMethodErrorResponse* r = FL_METHOD_ERROR_RESPONSE(response);
	message = fl_method_codec_encode_error_envelope(
	self->codec, fl_method_error_response_get_code(r),
	fl_method_error_response_get_message(r),
	fl_method_error_response_get_details(r), error);
	if (message == nullptr) {
	return FALSE;
	}
	} else if (FL_IS_METHOD_NOT_IMPLEMENTED_RESPONSE(response)) {
	message = nullptr;
	} else {
	g_assert_not_reached();
	}

	return fl_binary_messenger_send_response(self->messenger, response_handle,
	message, error);
	}