/* -*- C++ -*- */ //============================================================================= /** * @file SUN_Proactor.h * * $Id$ * * @author Alexander Libman */ //============================================================================= #ifndef ACE_SUN_PROACTOR_H #define ACE_SUN_PROACTOR_H #include "ace/config-all.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #if defined (ACE_HAS_AIO_CALLS) && defined (sun) #include "ace/POSIX_Proactor.h" #include /**/ // Sun native aio calls /** * @class ACE_SUN_Proactor * * @brief Implementation of the fast and reliable Proactor * for SunOS 5.6, 5.7, etc. * * This proactor, based on , * works with Sun native interface for aio calls. * POSIX_API Native SUN_API * aio_read aioread * aio_write aiowrite * aio_suspend aiowait * aio_error aio_result_t.errno * aio_return aio_result_t.return * On Solaris, the Sun native implementation is more * reliable and efficient than POSIX implementation. * There is a problem of lost RT signals with POSIX, if we start * more than SIGQUEUEMAX asynchronous operations at the same * time. * The Sun it is not the standard POSX , instead, * it has the following structure: * typedef struct aiocb * { * int aio_fildes; File descriptor * void *aio_buf; buffer location * size_t aio_nbytes; length of transfer * off_t aio_offset; file offset * int aio_reqprio; request priority offset * sigevent aio_sigevent; signal number and offset * int aio_lio_opcode; listio operation * aio_result_t aio_resultp; results * int aio_state; state flag for List I/O * int aio__pad[1]; extension padding * }; */ class ACE_Export ACE_SUN_Proactor : public ACE_POSIX_AIOCB_Proactor { public: virtual Proactor_Type get_impl_type (void); /// Destructor. virtual ~ACE_SUN_Proactor (void); /// Constructor defines max number asynchronous operations that can /// be started at the same time. ACE_SUN_Proactor (size_t max_aio_operations = ACE_AIO_DEFAULT_SIZE); protected: /** * Dispatch a single set of events. If @a wait_time elapses before * any events occur, return 0. Return 1 on success i.e., when a * completion is dispatched, non-zero (-1) on errors and errno is * set accordingly. */ virtual int handle_events (ACE_Time_Value &wait_time); /** * Block indefinitely until at least one event is dispatched. * Dispatch a single set of events. Return 1 on success i.e., when a * completion is dispatched, non-zero (-1) on errors and errno is * set accordingly. */ virtual int handle_events (void); /// Internal completion detection and dispatching. int handle_events_i (ACE_Time_Value *delta); /// Initiate an aio operation. virtual int start_aio_i (ACE_POSIX_Asynch_Result *result); /// Check AIO for completion, error and result status /// Return: 1 - AIO completed , 0 - not completed yet virtual int get_result_status (ACE_POSIX_Asynch_Result* asynch_result, int &error_status, size_t &transfer_count); /// Extract the results of aio. ACE_POSIX_Asynch_Result *find_completed_aio (aio_result_t *result, int &error_status, size_t &transfer_count); /// From ACE_POSIX_AIOCB_Proactor. /// Attempt to cancel running request virtual int cancel_aiocb (ACE_POSIX_Asynch_Result *result); /// Specific Sun aiowait int wait_for_start (ACE_Time_Value * abstime); /// Condition variable . /// used to wait the first AIO start ACE_SYNCH_CONDITION condition_; }; #if defined (__ACE_INLINE__) #include "ace/SUN_Proactor.inl" #endif /* __ACE_INLINE__ */ #endif /* ACE_HAS_AIO_CALLS && sun */ #endif /* ACE_SUN_PROACTOR_H*/