/* * Copyright 2007-2009, Haiku, Inc. All Rights Reserved. * Distributed under the terms of the MIT License. * * Authors: * Axel Dörfler, axeld@pinc-software.de * Ingo Weinhold, bonefish@cs.tu-berlin.de */ #ifndef _KERNEL_NOTIFICATIONS_H #define _KERNEL_NOTIFICATIONS_H #include #include #include #include #ifdef __cplusplus #include #include #include #include class NotificationService; class NotificationListener { public: virtual ~NotificationListener(); virtual void EventOccurred(NotificationService& service, const KMessage* event); virtual void AllListenersNotified( NotificationService& service); virtual bool operator==( const NotificationListener& other) const; bool operator!=( const NotificationListener& other) const { return !(*this == other); } }; class UserMessagingMessageSender { public: UserMessagingMessageSender(); void SendMessage(const KMessage* message, port_id port, int32 token); void FlushMessage(); private: enum { MAX_MESSAGING_TARGET_COUNT = 16, }; const KMessage* fMessage; messaging_target fTargets[MAX_MESSAGING_TARGET_COUNT]; int32 fTargetCount; }; class UserMessagingListener : public NotificationListener { public: UserMessagingListener( UserMessagingMessageSender& sender, port_id port, int32 token); virtual ~UserMessagingListener(); virtual void EventOccurred(NotificationService& service, const KMessage* event); virtual void AllListenersNotified( NotificationService& service); port_id Port() const { return fPort; } int32 Token() const { return fToken; } bool operator==( const NotificationListener& _other) const; private: UserMessagingMessageSender& fSender; port_id fPort; int32 fToken; }; inline bool UserMessagingListener::operator==(const NotificationListener& _other) const { const UserMessagingListener* other = dynamic_cast(&_other); return other != NULL && other->Port() == Port() && other->Token() == Token(); } class NotificationService : public Referenceable { public: virtual ~NotificationService(); virtual status_t AddListener(const KMessage* eventSpecifier, NotificationListener& listener) = 0; virtual status_t RemoveListener(const KMessage* eventSpecifier, NotificationListener& listener) = 0; virtual status_t UpdateListener(const KMessage* eventSpecifier, NotificationListener& listener) = 0; virtual const char* Name() = 0; NotificationService*& Link() { return fLink; } private: NotificationService* fLink; }; struct default_listener : public DoublyLinkedListLinkImpl { ~default_listener(); uint32 eventMask; team_id team; NotificationListener* listener; }; typedef DoublyLinkedList DefaultListenerList; class DefaultNotificationService : public NotificationService { public: DefaultNotificationService(const char* name); virtual ~DefaultNotificationService(); void Notify(const KMessage& event, uint32 eventMask); virtual status_t AddListener(const KMessage* eventSpecifier, NotificationListener& listener); virtual status_t UpdateListener(const KMessage* eventSpecifier, NotificationListener& listener); virtual status_t RemoveListener(const KMessage* eventSpecifier, NotificationListener& listener); virtual const char* Name() { return fName; } protected: virtual status_t ToEventMask(const KMessage& eventSpecifier, uint32& eventMask); virtual void FirstAdded(); virtual void LastRemoved(); recursive_lock fLock; DefaultListenerList fListeners; const char* fName; }; class DefaultUserNotificationService : public DefaultNotificationService, NotificationListener { public: DefaultUserNotificationService( const char* name); virtual ~DefaultUserNotificationService(); virtual status_t AddListener(const KMessage* eventSpecifier, NotificationListener& listener); virtual status_t UpdateListener(const KMessage* eventSpecifier, NotificationListener& listener); virtual status_t RemoveListener(const KMessage* eventSpecifier, NotificationListener& listener); status_t RemoveUserListeners(port_id port, uint32 token); status_t UpdateUserListener(uint32 eventMask, port_id port, uint32 token); private: virtual void EventOccurred(NotificationService& service, const KMessage* event); virtual void AllListenersNotified( NotificationService& service); status_t _AddListener(uint32 eventMask, NotificationListener& listener); UserMessagingMessageSender fSender; }; class NotificationManager { public: static NotificationManager& Manager(); static status_t CreateManager(); status_t RegisterService(NotificationService& service); void UnregisterService( NotificationService& service); status_t AddListener(const char* service, uint32 eventMask, NotificationListener& listener); status_t AddListener(const char* service, const KMessage* eventSpecifier, NotificationListener& listener); status_t UpdateListener(const char* service, uint32 eventMask, NotificationListener& listener); status_t UpdateListener(const char* service, const KMessage* eventSpecifier, NotificationListener& listener); status_t RemoveListener(const char* service, const KMessage* eventSpecifier, NotificationListener& listener); private: NotificationManager(); ~NotificationManager(); status_t _Init(); NotificationService* _ServiceFor(const char* name); struct HashDefinition { typedef const char* KeyType; typedef NotificationService ValueType; size_t HashKey(const char* key) const { return hash_hash_string(key); } size_t Hash(NotificationService *service) const { return hash_hash_string(service->Name()); } bool Compare(const char* key, NotificationService* service) const { return !strcmp(key, service->Name()); } NotificationService*& GetLink( NotificationService* service) const { return service->Link(); } }; typedef BOpenHashTable ServiceHash; static NotificationManager sManager; mutex fLock; ServiceHash fServiceHash; }; extern "C" { #endif // __cplusplus void notifications_init(void); #ifdef __cplusplus } #endif // __cplusplus #endif // _KERNEL_NOTIFICATIONS_H