/* -*- C++ -*- */ // $Id$ // ============================================================================ // // = LIBRARY // // ace // // = FILENAME // // Asynch_IO.h // // = DESCRIPTION // // This works on Win32 (#if defined (ACE_WIN32) && !defined // (ACE_HAS_WINCE)) platforms and on POSIX4 platforms with // routines (#if defined (ACE_HAS_AIO_CALLS)) // // On Win32 platforms, the implementation of // and are only // supported if ACE_HAS_WINSOCK2 is defined or you are on WinNT 4.0 // or higher. // // = AUTHOR // // Irfan Pyarali , // Tim Harrison and // Alexander Babu Arulanthu // // ============================================================================ #if !defined (ACE_ASYNCH_IO_H) #define ACE_ASYNCH_IO_H #include "ace/OS.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) #pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #if (defined (ACE_WIN32) && !defined (ACE_HAS_WINCE)) || (defined (ACE_HAS_AIO_CALLS)) // Forward declarations class ACE_Proactor; class ACE_Handler; class ACE_Message_Block; class ACE_INET_Addr; // Forward declarations class ACE_Asynch_Result_Impl; class ACE_Export ACE_Asynch_Result { // = TITLE // // An interface base class which allows users access to common // information related to an asynchronous operation. // // = DESCRIPTION // // An interface base class from which you can obtain some basic // information like the number of bytes transferred, the ACT // associated with the asynchronous operation, indication of // success or failure, etc. Subclasses may want to store more // information that is particular to the asynchronous operation // it represents. public: u_long bytes_transferred (void) const; // Number of bytes transferred by the operation. const void *act (void) const; // ACT associated with the operation. int success (void) const; // Did the operation succeed? const void *completion_key (void) const; // This is the ACT associated with the handle on which the // Asynch_Operation takes place. // // On WIN32, this returns the ACT associated with the handle when it // was registered with the I/O completion port. // // @@ This is not implemented for POSIX4 platforms. Returns 0. u_long error (void) const; // Error value if the operation fails. ACE_HANDLE event (void) const; // On WIN32, this returns the event associated with the OVERLAPPED // structure. // // This returns ACE_INVALID_HANDLE on POSIX4-Unix platforms. u_long offset (void) const; u_long offset_high (void) const; // This really make sense only when doing file I/O. // // On WIN32, these are represented in the OVERLAPPED datastructure. // // @@ On POSIX4-Unix, offset_high should be supported using aiocb64. int priority (void) const; // Priority of the operation. // // On POSIX4-Unix, this is supported. Works like in // Unix. Negative values are not allowed. 0 means priority of the // operation same as the process priority. 1 means priority of the // operation is one less than process. And so forth. // // On Win32, this is a no-op. int signal_number (void) const; // POSIX4 real-time signal number to be used for the // operation. ranges from ACE_SIGRTMIN to ACE_SIGRTMAX. By // default, ACE_SIGRTMIN is used to issue calls. This is a no-op // on non-POSIX4 systems and returns 0. virtual ~ACE_Asynch_Result (void); // Destructor. protected: ACE_Asynch_Result (ACE_Asynch_Result_Impl *implementation); // Constructor. This implementation will not be deleted. The // implementation will be deleted by the Proactor. ACE_Asynch_Result_Impl *implementation (void) const; // Get the implementation class. ACE_Asynch_Result_Impl *implementation_; // Implementation class. }; // Forward declarations class ACE_Asynch_Operation_Impl; class ACE_Export ACE_Asynch_Operation { // = TITLE // // This is an interface base class for all asynch // operations. The resposiblility of this class is to forward // all methods to its delegation/implementation class, e.g., // or . // // = DESCRIPTION // // There are some attributes and functionality which is common // to all asychronous operations. The delegation classes of this // class will factor out this code. public: int open (ACE_Handler &handler, ACE_HANDLE handle, const void *completion_key, ACE_Proactor *proactor); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int cancel (void); // On Win32, this cancels all pending accepts operations that were // issued by the calling thread. The function does not cancel // asynchronous operations issued by other threads. // // @@ POSIX: please implement me. // = Access methods. ACE_Proactor* proactor (void) const; // Return the underlying proactor. virtual ~ACE_Asynch_Operation (void); // Destructor. protected: ACE_Asynch_Operation (void); // Constructor. ACE_Asynch_Operation_Impl *implementation (void) const; // Return the underlying implementation class. void implementation (ACE_Asynch_Operation_Impl *implementation); // Set the implementation class. ACE_Proactor *get_proactor (ACE_Proactor *user_proactor, ACE_Handler &handler) const; // Get a proactor for/from the user ACE_Asynch_Operation_Impl *implementation_; // Implementation class. }; // Forward declarations class ACE_Asynch_Read_Stream_Result_Impl; class ACE_Asynch_Read_Stream_Impl; class ACE_Export ACE_Asynch_Read_Stream : public ACE_Asynch_Operation { // = TITLE // // This class is a factory for starting off asynchronous reads // on a stream. This class forwards all methods to its // implementation class. // // = DESCRIPTION // // Once is called, multiple asynchronous s can // started using this class. An ACE_Asynch_Read_Stream::Result // will be passed back to the when the asynchronous // reads completes through the // callback. public: ACE_Asynch_Read_Stream (void); // A do nothing constructor. virtual ~ACE_Asynch_Read_Stream (void); // Destructor int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int read (ACE_Message_Block &message_block, u_long bytes_to_read, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous read. Upto will // be read and stored in the . Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Read_Stream_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Read_Stream_Impl *implementation); // Set the implementation class. ACE_Asynch_Read_Stream_Impl *implementation_; // Implementation class that all methods will be forwarded to. public: class ACE_Export Result : public ACE_Asynch_Result { // = TITLE // // This is the class which will be passed back to the // when the asynchronous read completes. This class // forwards all the methods to the implementation classes. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous read. friend class ACE_POSIX_Asynch_Read_Stream_Result; friend class ACE_WIN32_Asynch_Read_Stream_Result; // The concrete implementation result classes only construct this // class. public: u_long bytes_to_read (void) const; // The number of bytes which were requested at the start of the // asynchronous read. ACE_Message_Block &message_block (void) const; // Message block which contains the read data. ACE_HANDLE handle (void) const; // I/O handle used for reading. ACE_Asynch_Read_Stream_Result_Impl *implementation (void) const; // Get the implementation class. protected: Result (ACE_Asynch_Read_Stream_Result_Impl *implementation); // Constructor. virtual ~Result (void); // Destructor. ACE_Asynch_Read_Stream_Result_Impl *implementation_; // The implementation class. }; }; // Forward declarations class ACE_Asynch_Write_Stream_Impl; class ACE_Asynch_Write_Stream_Result_Impl; class ACE_Export ACE_Asynch_Write_Stream : public ACE_Asynch_Operation { // = TITLE // // This class is a factory for starting off asynchronous writes // on a stream. This class forwards all methods to its // implementation class. // // = DESCRIPTION // // Once is called, multiple asynchronous s can // started using this class. An ACE_Asynch_Write_Stream::Result // will be passed back to the when the asynchronous // write completes through the // callback. public: ACE_Asynch_Write_Stream (void); // A do nothing constructor. virtual ~ACE_Asynch_Write_Stream (void); // Destructor. int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int write (ACE_Message_Block &message_block, u_long bytes_to_write, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous write. Upto // will be written from the . Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Write_Stream_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Write_Stream_Impl *implementation); // Set the implementation class. ACE_Asynch_Write_Stream_Impl *implementation_; // Implementation class that all methods will be forwarded to. public: class ACE_Export Result : public ACE_Asynch_Result { // = TITLE // // This is that class which will be passed back to the // when the asynchronous write completes. This class // forwards all the methods to the implementation class. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous write. friend class ACE_POSIX_Asynch_Write_Stream_Result; friend class ACE_WIN32_Asynch_Write_Stream_Result; // The concrete implementation result classes only construct this // class. public: u_long bytes_to_write (void) const; // The number of bytes which were requested at the start of the // asynchronous write. ACE_Message_Block &message_block (void) const; // Message block that contains the data to be written. ACE_HANDLE handle (void) const; // I/O handle used for writing. ACE_Asynch_Write_Stream_Result_Impl *implementation (void) const; // Get the implementation class. protected: Result (ACE_Asynch_Write_Stream_Result_Impl *implementation); // Constrcutor. virtual ~Result (void); // Destructor. ACE_Asynch_Write_Stream_Result_Impl *implementation_; // Implementation class. }; }; // Forward declarations class ACE_Asynch_Read_File_Impl; class ACE_Asynch_Read_File_Result_Impl; class ACE_Export ACE_Asynch_Read_File : public ACE_Asynch_Read_Stream { // = TITLE // // This class is a factory for starting off asynchronous reads // on a file. This class forwards all methods to its // implementation class. // // = DESCRIPTION // // Once is called, multiple asynchronous s can // started using this class. An ACE_Asynch_Read_File::Result // will be passed back to the when the asynchronous // reads completes through the // callback. // // This class differs slightly from ACE_Asynch_Read_Stream as it // allows the user to specify an offset for the read. public: ACE_Asynch_Read_File (void); // A do nothing constructor. virtual ~ACE_Asynch_Read_File (void); // Destructor. int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int read (ACE_Message_Block &message_block, u_long bytes_to_read, u_long offset = 0, u_long offset_high = 0, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous read. Upto will // be read and stored in the . The read will start // at from the beginning of the file. Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Read_File_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Read_File_Impl *implementation); // Set the implementation class. ACE_Asynch_Read_File_Impl *implementation_; // Delegation/implementation class that all methods will be // forwarded to. public: class ACE_Export Result : public ACE_Asynch_Read_Stream::Result { // = TITLE // // This is that class which will be passed back to the // when the asynchronous read completes. This class // forwards all the methods to the implementation class. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous read. // // This class differs slightly from // ACE_Asynch_Read_Stream::Result as it calls back // on the instead of // . No additional state is // required by this class as ACE_Asynch_Result can store the // . friend class ACE_POSIX_Asynch_Read_File_Result; friend class ACE_WIN32_Asynch_Read_File_Result; // The concrete implementation result classes only construct this // class. public: ACE_Asynch_Read_File_Result_Impl *implementation (void) const; // Get the implementation class. protected: Result (ACE_Asynch_Read_File_Result_Impl *implementation); // Constructor. This implementation will not be deleted. virtual ~Result (void); // Destructor. ACE_Asynch_Read_File_Result_Impl *implementation_; // The implementation class. }; }; // Forward declarations class ACE_Asynch_Write_File_Impl; class ACE_Asynch_Write_File_Result_Impl; class ACE_Export ACE_Asynch_Write_File : public ACE_Asynch_Write_Stream { // = TITLE // // This class is a factory for starting off asynchronous writes // on a file. This class forwards all methods to its // implementation class. // // = DESCRIPTION // // Once is called, multiple asynchronous s can be // started using this class. A ACE_Asynch_Write_File::Result // will be passed back to the when the asynchronous // writes completes through the // callback. // // This class differs slightly from ACE_Asynch_Write_Stream as // it allows the user to specify an offset for the write. public: ACE_Asynch_Write_File (void); // A do nothing constructor. virtual ~ACE_Asynch_Write_File (void); // Destructor. int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int write (ACE_Message_Block &message_block, u_long bytes_to_write, u_long offset = 0, u_long offset_high = 0, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous write. Upto // will be write and stored in the . The write will // start at from the beginning of the file. Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Write_File_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Write_File_Impl *implementation); // Set the implementation. ACE_Asynch_Write_File_Impl *implementation_; // Implementation object. public: class ACE_Export Result : public ACE_Asynch_Write_Stream::Result { // = TITLE // // This is that class which will be passed back to the // when the asynchronous write completes. This class // forwards all the methods to the implementation class. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous write. // // This class differs slightly from // ACE_Asynch_Write_Stream::Result as it calls back // on the instead // of . No additional state // is required by this class as ACE_Asynch_Result can store // the . friend class ACE_POSIX_Asynch_Write_File_Result; friend class ACE_WIN32_Asynch_Write_File_Result; // The concrete implementation result classes only construct this // class. public: ACE_Asynch_Write_File_Result_Impl *implementation (void) const; // Get the implementation class. protected: Result (ACE_Asynch_Write_File_Result_Impl *implementation); // Constructor. This implementation will not be deleted. virtual ~Result (void); // Destructor. ACE_Asynch_Write_File_Result_Impl *implementation_; // The implementation class. }; }; // Forward declarations class ACE_Asynch_Accept_Result_Impl; class ACE_Asynch_Accept_Impl; class ACE_Export ACE_Asynch_Accept : public ACE_Asynch_Operation { // = TITLE // // This class is a factory for starting off asynchronous accepts // on a listen handle. This class forwards all methods to its // implementation class. // // = DESCRIPTION // // Once is called, multiple asynchronous s can // started using this class. A ACE_Asynch_Accept::Result will // be passed back to the when the asynchronous accept // completes through the // callback. public: ACE_Asynch_Accept (void); // A do nothing constructor. virtual ~ACE_Asynch_Accept (void); // Destructor. int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int accept (ACE_Message_Block &message_block, u_long bytes_to_read, ACE_HANDLE accept_handle = ACE_INVALID_HANDLE, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous accept. The asynchronous accept // call also allows any initial data to be returned to the // . Upto will be read and stored in the // . The will be used for the // call. If ( == INVALID_HANDLE), a new // handle will be created. Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // // must be specified. This is because the address of // the new connection is placed at the end of this buffer. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Accept_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Accept_Impl *implementation); // Set the implementation class. ACE_Asynch_Accept_Impl *implementation_; // Delegation/implementation class that all methods will be // forwarded to. public: class ACE_Export Result : public ACE_Asynch_Result { // = TITLE // // This is that class which will be passed back to the // when the asynchronous accept completes. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous accept. friend class ACE_POSIX_Asynch_Accept_Result; friend class ACE_WIN32_Asynch_Accept_Result; // The concrete implementation result classes only construct this // class. public: u_long bytes_to_read (void) const; // The number of bytes which were requested at the start of the // asynchronous accept. ACE_Message_Block &message_block (void) const; // Message block which contains the read data. ACE_HANDLE listen_handle (void) const; // I/O handle used for accepting new connections. ACE_HANDLE accept_handle (void) const; // I/O handle for the new connection. ACE_Asynch_Accept_Result_Impl *implementation (void) const; // Get the implementation. protected: Result (ACE_Asynch_Accept_Result_Impl *implementation); // Contructor. Implementation will not be deleted. virtual ~Result (void); // Destructor. ACE_Asynch_Accept_Result_Impl *implementation_; // Impelmentation class. }; }; // Forward declarations class ACE_Asynch_Transmit_File_Result_Impl; class ACE_Asynch_Transmit_File_Impl; class ACE_Export ACE_Asynch_Transmit_File : public ACE_Asynch_Operation { // = TITLE // // This class is a factory for starting off asynchronous // transmit files on a stream. // // = DESCRIPTION // // Once is called, multiple asynchronous s // can started using this class. A // ACE_Asynch_Transmit_File::Result will be passed back to the // when the asynchronous transmit file completes // through the callback. // // The transmit_file function transmits file data over a // connected network connection. The function uses the operating // system's cache manager to retrieve the file data. This // function provides high-performance file data transfer over // network connections. This function would be of great use in // a Web Server, Image Server, etc. public: // Forward declarations class Header_And_Trailer; ACE_Asynch_Transmit_File (void); // A do nothing constructor. virtual ~ACE_Asynch_Transmit_File (void); // Destructor. int open (ACE_Handler &handler, ACE_HANDLE handle = ACE_INVALID_HANDLE, const void *completion_key = 0, ACE_Proactor *proactor = 0); // Initializes the factory with information which will be used with // each asynchronous call. If ( == ACE_INVALID_HANDLE), // will be called on the to get the // correct handle. int transmit_file (ACE_HANDLE file, Header_And_Trailer *header_and_trailer = 0, u_long bytes_to_write = 0, u_long offset = 0, u_long offset_high = 0, u_long bytes_per_send = 0, u_long flags = 0, const void *act = 0, int priority = 0, int signal_number = ACE_SIGRTMIN); // This starts off an asynchronous transmit file. The is a // handle to an open file. is a pointer to a // data structure that contains pointers to data to send before and // after the file data is sent. Set this parameter to 0 if you only // want to transmit the file data. Upto will be // written to the . If you want to send the entire file, // let = 0. is the size of each // block of data sent per send operation. Please read the Win32 // documentation on what the flags should be. Priority of the // operation is specified by . On POSIX4-Unix, this is // supported. Works like in Unix. Negative values are not // allowed. 0 means priority of the operation same as the process // priority. 1 means priority of the operation is one less than // process. And so forth. On Win32, this is a no-op. // is the POSIX4 real-time signal number to be used // for the operation. ranges from ACE_SIGRTMIN to // ACE_SIGRTMAX. This argument is a no-op on non-POSIX4 systems. ACE_Asynch_Transmit_File_Impl *implementation (void) const; // Return the underlying implementation class. protected: void implementation (ACE_Asynch_Transmit_File_Impl *); // Set the implementation. ACE_Asynch_Transmit_File_Impl *implementation_; // The implementation class. public: class ACE_Export Result : public ACE_Asynch_Result { // = TITLE // // This is that class which will be passed back to the // when the asynchronous transmit file completes. // // = DESCRIPTION // // This class has all the information necessary for the // to uniquiely identify the completion of the // asynchronous transmit file. friend class ACE_POSIX_Asynch_Transmit_File_Result; friend class ACE_WIN32_Asynch_Transmit_File_Result; // The concrete implementation result classes only construct this // class. public: ACE_HANDLE socket (void) const; // Socket used for transmitting the file. ACE_HANDLE file (void) const; // File from which the data is read. Header_And_Trailer *header_and_trailer (void) const; // Header and trailer data associated with this transmit file. u_long bytes_to_write (void) const; // The number of bytes which were requested at the start of the // asynchronous transmit file. u_long bytes_per_send (void) const; // Number of bytes per send requested at the start of the transmit // file. u_long flags (void) const; // Flags which were passed into transmit file. ACE_Asynch_Transmit_File_Result_Impl *implementation (void) const; // Get the implementation class. protected: Result (ACE_Asynch_Transmit_File_Result_Impl *implementation); // Constructor. virtual ~Result (void); // Destructor. ACE_Asynch_Transmit_File_Result_Impl *implementation_; // The implementation class. }; class ACE_Export Header_And_Trailer { // = TITLE // // The class defines a data structure that contains pointers // to data to send before and after the file data is sent. // // = DESCRIPTION // // This class provides a wrapper over TRANSMIT_FILE_BUFFERS // and provided a consistent use of ACE_Message_Blocks. public: Header_And_Trailer (ACE_Message_Block *header = 0, u_long header_bytes = 0, ACE_Message_Block *trailer = 0, u_long trailer_bytes = 0); // Constructor. virtual ~Header_And_Trailer (void); // Destructor void header_and_trailer (ACE_Message_Block *header = 0, u_long header_bytes = 0, ACE_Message_Block *trailer = 0, u_long trailer_bytes = 0); // This method allows all the member to be set in one fell swoop. ACE_Message_Block *header (void) const; void header (ACE_Message_Block *message_block); // Header which goes before the file data. u_long header_bytes (void) const; void header_bytes (u_long bytes); // Size of the header data. ACE_Message_Block *trailer (void) const; void trailer (ACE_Message_Block *message_block); // Trailer which goes after the file data. u_long trailer_bytes (void) const; void trailer_bytes (u_long bytes); // Size of the trailer data. ACE_LPTRANSMIT_FILE_BUFFERS transmit_buffers (void); // Conversion routine. protected: ACE_Message_Block *header_; // Header data. u_long header_bytes_; // Size of header data. ACE_Message_Block *trailer_; // Trailer data. u_long trailer_bytes_; // Size of trailer data. ACE_TRANSMIT_FILE_BUFFERS transmit_buffers_; // Target data structure. }; }; class ACE_Export ACE_Handler { // = TITLE // // This base class defines the interface for receiving the // results of asynchronous operations. // // = DESCRIPTION // // Subclasses of this class will fill in appropriate methods. public: ACE_Handler (void); // A do nothing constructor. ACE_Handler (ACE_Proactor *p); // A do nothing constructor which allows proactor to be set to . virtual ~ACE_Handler (void); // Virtual destruction. virtual void handle_read_stream (const ACE_Asynch_Read_Stream::Result &result); // This method will be called when an asynchronous read completes on // a stream. virtual void handle_write_stream (const ACE_Asynch_Write_Stream::Result &result); // This method will be called when an asynchronous write completes // on a strea_m. virtual void handle_read_file (const ACE_Asynch_Read_File::Result &result); // This method will be called when an asynchronous read completes on // a file. virtual void handle_write_file (const ACE_Asynch_Write_File::Result &result); // This method will be called when an asynchronous write completes // on a file. virtual void handle_accept (const ACE_Asynch_Accept::Result &result); // This method will be called when an asynchronous accept completes. virtual void handle_transmit_file (const ACE_Asynch_Transmit_File::Result &result); // This method will be called when an asynchronous transmit file // completes. virtual void handle_time_out (const ACE_Time_Value &tv, const void *act = 0); // Called when timer expires. was the requested time value and // is the ACT passed when scheduling the timer ACE_Proactor *proactor (void); // Get the proactor associated with this handler. void proactor (ACE_Proactor *p); // Set the proactor. virtual ACE_HANDLE handle (void) const; // Get the I/O handle used by this . This method will be // called by the ACE_Asynch_* classes when an ACE_INVALID_HANDLE is // passed to . protected: ACE_Proactor *proactor_; // The proactor associated with this handler. }; // Forward declarations class ACE_INET_Addr; // Forward declarations template class ACE_Asynch_Acceptor; class ACE_Export ACE_Service_Handler : public ACE_Handler { // = TITLE // // This base class defines the interface for the // ACE_Asynch_Acceptor to call into when new connection are // accepted. // // = DESCRIPTION // // Subclasses of this class will fill in appropriate methods to // define application specific behavior. friend class ACE_Asynch_Acceptor; // The Acceptor is the factory and therefore should have special // privileges. public: ACE_Service_Handler (void); // A do nothing constructor. virtual ~ACE_Service_Handler (void); // Virtual destruction. virtual void open (ACE_HANDLE new_handle, ACE_Message_Block &message_block); // is called by ACE_Asynch_Acceptor to initialize a new // instance of ACE_Service_Handler that has been created after the a // new connection is accepted. The handle for the new connection is // passed along with an initial data that may have shown up. // protected: // This should be corrected after the correct semantics of the // friend has been figured out. virtual void addresses (const ACE_INET_Addr &remote_address, const ACE_INET_Addr &local_address); // Called by ACE_Asynch_Acceptor to pass the addresses of the new // connections. virtual void act (const void *); // Called by ACE_Asynch_Acceptor to pass the act. }; #if defined (__ACE_INLINE__) #include "ace/Asynch_IO.i" #endif /* __ACE_INLINE__ */ #endif /* ACE_WIN32 || ACE_HAS_AIO_CALLS*/ #endif /* ACE_ASYNCH_IO_H */