brillo/dbus/async_event_sequencer.cc - aosp/platform/external/libchromeos - Git at Google

 // Copyright 2014 The Chromium OS 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 <brillo/dbus/async_event_sequencer.h>

 namespace brillo {

 namespace dbus_utils {

 AsyncEventSequencer::AsyncEventSequencer() {
 }
 AsyncEventSequencer::~AsyncEventSequencer() {
 }

 AsyncEventSequencer::Handler AsyncEventSequencer::GetHandler(
     const std::string& descriptive_message,
     bool failure_is_fatal) {
   CHECK(!started_) << "Cannot create handlers after OnAllTasksCompletedCall()";
   int unique_registration_id = ++registration_counter_;
   outstanding_registrations_.insert(unique_registration_id);
   return base::Bind(&AsyncEventSequencer::HandleFinish,
                     this,
                     unique_registration_id,
                     descriptive_message,
                     failure_is_fatal);
 }

 AsyncEventSequencer::ExportHandler AsyncEventSequencer::GetExportHandler(
     const std::string& interface_name,
     const std::string& method_name,
     const std::string& descriptive_message,
     bool failure_is_fatal) {
   auto finish_handler = GetHandler(descriptive_message, failure_is_fatal);
   return base::Bind(&AsyncEventSequencer::HandleDBusMethodExported,
                     this,
                     finish_handler,
                     interface_name,
                     method_name);
 }

 void AsyncEventSequencer::OnAllTasksCompletedCall(
     std::vector<CompletionAction> actions) {
   CHECK(!started_) << "OnAllTasksCompletedCall called twice!";
   started_ = true;
   completion_actions_.assign(actions.begin(), actions.end());
   // All of our callbacks might have been called already.
   PossiblyRunCompletionActions();
 }

 namespace {
 void IgnoreSuccess(const AsyncEventSequencer::CompletionTask& task,
                    bool /*success*/) {
   task.Run();
 }
 void DoNothing(bool success) {
 }
 }  // namespace

 AsyncEventSequencer::CompletionAction AsyncEventSequencer::WrapCompletionTask(
     const CompletionTask& task) {
   return base::Bind(&IgnoreSuccess, task);
 }

 AsyncEventSequencer::CompletionAction
 AsyncEventSequencer::GetDefaultCompletionAction() {
   return base::Bind(&DoNothing);
 }

 void AsyncEventSequencer::HandleFinish(int registration_number,
                                        const std::string& error_message,
                                        bool failure_is_fatal,
                                        bool success) {
   RetireRegistration(registration_number);
   CheckForFailure(failure_is_fatal, success, error_message);
   PossiblyRunCompletionActions();
 }

 void AsyncEventSequencer::HandleDBusMethodExported(
     const AsyncEventSequencer::Handler& finish_handler,
     const std::string& expected_interface_name,
     const std::string& expected_method_name,
     const std::string& actual_interface_name,
     const std::string& actual_method_name,
     bool success) {
   CHECK_EQ(expected_method_name, actual_method_name)
       << "Exported DBus method '" << actual_method_name << "' "
       << "but expected '" << expected_method_name << "'";
   CHECK_EQ(expected_interface_name, actual_interface_name)
       << "Exported method DBus interface '" << actual_interface_name << "' "
       << "but expected '" << expected_interface_name << "'";
   finish_handler.Run(success);
 }

 void AsyncEventSequencer::RetireRegistration(int registration_number) {
   const size_t handlers_retired =
       outstanding_registrations_.erase(registration_number);
   CHECK_EQ(1U, handlers_retired) << "Tried to retire invalid handler "
                                  << registration_number << ")";
 }

 void AsyncEventSequencer::CheckForFailure(bool failure_is_fatal,
                                           bool success,
                                           const std::string& error_message) {
   if (failure_is_fatal) {
     CHECK(success) << error_message;
   }
   if (!success) {
     LOG(ERROR) << error_message;
     had_failures_ = true;
   }
 }

 void AsyncEventSequencer::PossiblyRunCompletionActions() {
   if (!started_ || !outstanding_registrations_.empty()) {
     // Don't run completion actions if we have any outstanding
     // Handlers outstanding or if any more handlers might
     // be scheduled in the future.
     return;
   }
   for (const auto& completion_action : completion_actions_) {
     // Should this be put on the message loop or run directly?
     completion_action.Run(!had_failures_);
   }
   // Discard our references to those actions.
   completion_actions_.clear();
 }

 }  // namespace dbus_utils

 }  // namespace brillo
	// Copyright 2014 The Chromium OS 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 <brillo/dbus/async_event_sequencer.h>

	namespace brillo {

	namespace dbus_utils {

	AsyncEventSequencer::AsyncEventSequencer() {
	}
	AsyncEventSequencer::~AsyncEventSequencer() {
	}

	AsyncEventSequencer::Handler AsyncEventSequencer::GetHandler(
	const std::string& descriptive_message,
	bool failure_is_fatal) {
	CHECK(!started_) << "Cannot create handlers after OnAllTasksCompletedCall()";
	int unique_registration_id = ++registration_counter_;
	outstanding_registrations_.insert(unique_registration_id);
	return base::Bind(&AsyncEventSequencer::HandleFinish,
	this,
	unique_registration_id,
	descriptive_message,
	failure_is_fatal);
	}

	AsyncEventSequencer::ExportHandler AsyncEventSequencer::GetExportHandler(
	const std::string& interface_name,
	const std::string& method_name,
	const std::string& descriptive_message,
	bool failure_is_fatal) {
	auto finish_handler = GetHandler(descriptive_message, failure_is_fatal);
	return base::Bind(&AsyncEventSequencer::HandleDBusMethodExported,
	this,
	finish_handler,
	interface_name,
	method_name);
	}

	void AsyncEventSequencer::OnAllTasksCompletedCall(
	std::vector<CompletionAction> actions) {
	CHECK(!started_) << "OnAllTasksCompletedCall called twice!";
	started_ = true;
	completion_actions_.assign(actions.begin(), actions.end());
	// All of our callbacks might have been called already.
	PossiblyRunCompletionActions();
	}

	namespace {
	void IgnoreSuccess(const AsyncEventSequencer::CompletionTask& task,
	bool /success/) {
	task.Run();
	}
	void DoNothing(bool success) {
	}
	} // namespace

	AsyncEventSequencer::CompletionAction AsyncEventSequencer::WrapCompletionTask(
	const CompletionTask& task) {
	return base::Bind(&IgnoreSuccess, task);
	}

	AsyncEventSequencer::CompletionAction
	AsyncEventSequencer::GetDefaultCompletionAction() {
	return base::Bind(&DoNothing);
	}

	void AsyncEventSequencer::HandleFinish(int registration_number,
	const std::string& error_message,
	bool failure_is_fatal,
	bool success) {
	RetireRegistration(registration_number);
	CheckForFailure(failure_is_fatal, success, error_message);
	PossiblyRunCompletionActions();
	}

	void AsyncEventSequencer::HandleDBusMethodExported(
	const AsyncEventSequencer::Handler& finish_handler,
	const std::string& expected_interface_name,
	const std::string& expected_method_name,
	const std::string& actual_interface_name,
	const std::string& actual_method_name,
	bool success) {
	CHECK_EQ(expected_method_name, actual_method_name)
	<< "Exported DBus method '" << actual_method_name << "' "
	<< "but expected '" << expected_method_name << "'";
	CHECK_EQ(expected_interface_name, actual_interface_name)
	<< "Exported method DBus interface '" << actual_interface_name << "' "
	<< "but expected '" << expected_interface_name << "'";
	finish_handler.Run(success);
	}

	void AsyncEventSequencer::RetireRegistration(int registration_number) {
	const size_t handlers_retired =
	outstanding_registrations_.erase(registration_number);
	CHECK_EQ(1U, handlers_retired) << "Tried to retire invalid handler "
	<< registration_number << ")";
	}

	void AsyncEventSequencer::CheckForFailure(bool failure_is_fatal,
	bool success,
	const std::string& error_message) {
	if (failure_is_fatal) {
	CHECK(success) << error_message;
	}
	if (!success) {
	LOG(ERROR) << error_message;
	had_failures_ = true;
	}
	}

	void AsyncEventSequencer::PossiblyRunCompletionActions() {
	if (!started_ \|\| !outstanding_registrations_.empty()) {
	// Don't run completion actions if we have any outstanding
	// Handlers outstanding or if any more handlers might
	// be scheduled in the future.
	return;
	}
	for (const auto& completion_action : completion_actions_) {
	// Should this be put on the message loop or run directly?
	completion_action.Run(!had_failures_);
	}
	// Discard our references to those actions.
	completion_actions_.clear();
	}

	} // namespace dbus_utils

	} // namespace brillo