// -*- C++ -*- //============================================================================= /** * @file UUID.h * * $Id$ * * @author Andrew T. Finnel * @author Yamuna Krishnmaurthy */ //============================================================================= #ifndef ACE_UUID_H #define ACE_UUID_H #include /**/ "ace/pre.h" #include "ace/config-all.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #include "ace/SString.h" #include "ace/Singleton.h" #include "ace/Synch_Traits.h" ACE_BEGIN_VERSIONED_NAMESPACE_DECL namespace ACE_Utils { /// Class to hold a MAC address class ACE_Export UUID_node { public: /// Constructor UUID_node (void); enum {NODE_ID_SIZE = 6}; typedef u_char NodeID[NODE_ID_SIZE]; NodeID& nodeID (void); void nodeID (NodeID&); ///// Equality Operations //bool operator == (const UUID_node& right) const; //bool operator != (const UUID_node& right) const; ///// Relational Operations //bool operator < (const UUID_node& right) const; private: NodeID nodeID_; }; /** * @class ACE_UUID * * ACE_UUID represents a Universally Unique IDentifier (UUID) as * described in (the expired) INTERNET-DRAFT specification entitled * UUIDs and GUIDs. All instances of UUID are of the time-based * variety. That is, the version number part of the timeHiAndVersion * field is 1. * * The default constructor creates a nil UUID. * * UUIDs have value semantics. In addition, they may be compared for * ordering and equality. * * Additionally in this implementation provisions have been made to include * process and thread ids to make the UUIDs more unique. The variant 0xc0 * has been added to facilitate this. */ class ACE_Export UUID { public: /// Constructor UUID (void); /// Constructs a UUID from a string representation. UUID (const ACE_CString& uuidString); // Destructor ~UUID (void); ACE_UINT32 timeLow (void); void timeLow (ACE_UINT32); ACE_UINT16 timeMid (void); void timeMid (ACE_UINT16); ACE_UINT16 timeHiAndVersion (void); void timeHiAndVersion (ACE_UINT16); u_char clockSeqHiAndReserved (void); void clockSeqHiAndReserved (u_char); u_char clockSeqLow (void); void clockSeqLow (u_char); UUID_node* node (void); void node (UUID_node*); ACE_CString* thr_id (void); void thr_id (char*); ACE_CString* pid (void); void pid (char*); /// Returns a string representation of the UUID const ACE_CString* to_string (void); static UUID NIL_UUID; /// Equality Operations //bool operator== (const UUID &right) const; //bool operator!= (const UUID &right) const; /// Relational Operations //bool operator< (const UUID &right) const; //bool operator> (const UUID &right) const; //bool operator<= (const UUID &right) const; //bool operator>= (const UUID &right) const; private: // Copy constructor and assignment operator were not implemented // correctly, so I removed their implementation as an easy solution. UUID (const UUID&); UUID& operator= (const UUID&); /// Data Members for Class Attributes ACE_UINT32 timeLow_; ACE_UINT16 timeMid_; ACE_UINT16 timeHiAndVersion_; u_char clockSeqHiAndReserved_; u_char clockSeqLow_; UUID_node* node_; int node_release_; ACE_CString thr_id_; ACE_CString pid_; /// The string representation of the UUID. This is created and /// updated only on demand. ACE_CString *as_string_; }; /** * @class ACE_UUID_Generator * * Singleton class that generates UUIDs. * */ class ACE_Export UUID_Generator { public: enum {ACE_UUID_CLOCK_SEQ_MASK = 0x3FFF}; UUID_Generator(); ~UUID_Generator(); void init (void); /// Format timestamp, clockseq, and nodeID into an UUID of the /// specified version and variant. For generating UUID's with /// thread and process ids use variant=0xc0 void generateUUID (UUID&, ACE_UINT16 version=0x0001, u_char variant=0x80); /// Format timestamp, clockseq, and nodeID into a VI UUID. For /// generating UUID's with thread and process ids use variant=0xc0 UUID* generateUUID (ACE_UINT16 version=0x0001, u_char variant=0x80); /// Type to represent UTC as a count of 100 nanosecond intervals /// since 00:00:00.00, 15 October 1582. typedef ACE_UINT64 UUID_time; /// The locking strategy prevents multiple generators from accessing /// the UUID_state at the same time. Get the locking strategy. ACE_SYNCH_MUTEX* lock (void); /// Set a new locking strategy and return the old one. ACE_SYNCH_MUTEX* lock (ACE_SYNCH_MUTEX*lock, int release_lock); private: /// The system time when that last uuid was generated. UUID_time timeLast_; /// Type to contain the UUID generator persistent state. This will /// be kept in memory mapped shared memory struct UUID_State { UUID_time timestamp; UUID_node node; ACE_UINT16 clockSequence; }; /// Obtain a UUID timestamp. Compensate for the fact that the time /// obtained from getSystem time has a resolution less than 100ns. void get_timestamp (UUID_time& timestamp); /// Obtain the system time in UTC as a count of 100 nanosecond intervals /// since 00:00:00.00, 15 October 1582 (the date of Gregorian reform to /// the Christian calendar). void get_systemtime( UUID_time& timeNow); /// The UUID generator persistent state. UUID_State uuid_state_; ACE_SYNCH_MUTEX* lock_; int destroy_lock_; }; typedef ACE_Singleton UUID_GENERATOR; } ACE_END_VERSIONED_NAMESPACE_DECL #if defined (__ACE_INLINE__) #include "ace/UUID.inl" #endif /* __ACE_INLINE__ */ #include /**/ "ace/post.h" #endif // ACE_UUID_H