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/* -*- C++ -*- */
// $Id$
// ============================================================================
//
// = LIBRARY
// ace
//
// = FILENAME
// Service_Config.h
//
// = AUTHOR
// Doug Schmidt
//
// ============================================================================
#ifndef ACE_SERVICE_CONFIG_H
#define ACE_SERVICE_CONFIG_H
#include "ace/Service_Object.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Signal.h"
#include "ace/Containers.h"
#include "ace/SString.h"
// Forward decl.
class ACE_Service_Repository;
class ACE_Service_Type;
class ACE_Allocator;
class ACE_Reactor;
class ACE_Thread_Manager;
extern "C"
{
typedef ACE_Service_Object *(*ACE_SERVICE_ALLOCATOR) (ACE_Service_Object_Exterminator *);
}
class ACE_Static_Svc_Descriptor
{
// = TITLE
// Holds the information necessary to describe a statically linked
// Svc.
public:
ASYS_TCHAR *name_;
// Name of the service.
int type_;
// Type of service.
ACE_SERVICE_ALLOCATOR alloc_;
// Factory function that allocates the service.
u_int flags_;
// Bitmask flags indicating how the framework should delete memory.
int active_;
// Flag indicating whether the service starts out active.
void dump (void) const;
// Dump the state of an object.
ACE_ALLOC_HOOK_DECLARE;
// Declare the dynamic allocation hooks.
public:
int operator== (ACE_Static_Svc_Descriptor &) const;
// Compare two service descriptors for equality.
};
// Maintain a set of the statically linked service descriptors.
typedef ACE_Unbounded_Set<ACE_Static_Svc_Descriptor *>
ACE_STATIC_SVCS;
typedef ACE_Unbounded_Set_Iterator<ACE_Static_Svc_Descriptor *>
ACE_STATIC_SVCS_ITERATOR;
// Maintain a queue of services to be configured from the
// command-line.
typedef ACE_Unbounded_Queue<ACE_CString>
ACE_SVC_QUEUE;
typedef ACE_Unbounded_Queue_Iterator<ACE_CString>
ACE_SVC_QUEUE_ITERATOR;
class ACE_Export ACE_Service_Config
{
// = TITLE
// Supplies common server operations for dynamic and static
// configuration of services.
//
// = DESCRIPTION
// NOTE: the signal_handler_ static member is allocated by the
// ACE_Object_Manager. The ACE_Service_Config constructor uses
// signal_handler_. Therefore, if the program has any static
// ACE_Service_Config objects, there might be initialization
// order problems. They can be minimized, but not eliminated,
// by _not_ #defining ACE_HAS_NONSTATIC_OBJECT_MANAGER.
public:
enum {MAX_SERVICES = ACE_DEFAULT_SELECT_REACTOR_SIZE};
// = Initialization and termination methods.
ACE_Service_Config (int ignore_static_svcs = 1,
size_t size = ACE_Service_Config::MAX_SERVICES,
int signum = SIGHUP);
// Initialize the Service Repository.
ACE_Service_Config (const ASYS_TCHAR program_name[],
LPCTSTR logger_key = ACE_DEFAULT_LOGGER_KEY);
// Performs an open without parsing command-line arguments.
static int open (const ASYS_TCHAR program_name[],
LPCTSTR logger_key = ACE_DEFAULT_LOGGER_KEY,
int ignore_static_svcs = 1);
// Performs an open without parsing command-line arguments. Returns
// number of errors that occurred on failure and 0 otherwise.
static int open (int argc,
ASYS_TCHAR *argv[],
LPCTSTR logger_key = ACE_DEFAULT_LOGGER_KEY,
int ignore_static_svcs = 1);
// This is the primary entry point into the ACE_Service_Config (the
// constructor just handles simple initializations). It parses
// arguments passed in from the command-line. Returns number of
// errors that occurred on failure and 0 otherwise.
virtual ~ACE_Service_Config (void);
// Perform user-specified close activities and remove dynamic
// memory.
static int close (void);
// Tidy up and perform last rites when ACE_Service_Config is shut
// down. This method calls <close_svcs> and <close_singletons>.
// Returns 0.
static int fini_svcs (void);
// Perform user-specified close hooks and possibly delete all of the
// configured services in the <Service_Repository>.
static int close_svcs (void);
// Perform user-specified close hooks on all of the configured
// services in the <Service_Repository>, then delete the
// <Service_Repository> itself. Returns 0.
static int close_singletons (void);
// Delete the dynamically allocated Singletons (i.e., the <Reactor>,
// <Proactor>, <ReactorEx>, <Thread_Manager>, and <Allocator>).
// Returns 0.
// = Reactor event loop management methods.
static int run_reactor_event_loop (void);
// Run the event loop until the <ACE_Reactor::handle_events> method
// returns -1 or the <end_reactor_event_loop> method is invoked.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::run_event_loop() instead.
static int run_reactor_event_loop (ACE_Time_Value &tv);
// Run the event loop until the <ACE_Reactor::handle_events> method
// returns -1, the <end_reactor_event_loop> method is invoked, or the
// <ACE_Time_Value> expires.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::run_event_loop() instead.
static int end_reactor_event_loop (void);
// Instruct the <ACE_Service_Config> to terminate its event loop and
// notifies the <ACE_Reactor::instance> so that it can wake up
// and close down gracefully.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::end_event_loop() instead.
static int reactor_event_loop_done (void);
// Report if the Reactor's event loop is finished.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::event_loop_done() instead.
static int reconfig_occurred (void);
// True if reconfiguration occurred.
static void reconfig_occurred (int);
// Indicate that reconfiguration occurred.
static void reconfigure (void);
// Perform the reconfiguration process.
// = The following methods are static in order to enforce Singleton
// semantics for the Reactor, Service_Repository, Thread_Manager,
// and Acceptor/Connector Strategy factory. Other portions of the
// system may need to access them at some point or another...
// = Accessors and mutators for process-wide Singletons.
static ACE_STATIC_SVCS *static_svcs (void);
// Returns a pointer to the list of statically linked services.
static ACE_Reactor *reactor (void);
// Get pointer to a process-wide <ACE_Reactor>.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::instance() instead.
static ACE_Reactor *reactor (ACE_Reactor *);
// Set pointer to a process-wide <ACE_Reactor> and return existing
// pointer.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Reactor::instance() instead.
static ACE_Service_Repository *svc_rep (void);
// Get pointer to a process-wide <ACE_Service_Repository>.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Service_Repository::instance() instead.
static ACE_Service_Repository *svc_rep (ACE_Service_Repository *);
// Set pointer to a process-wide <ACE_Service_Repository> and return
// existing pointer.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Service_Repository::instance() instead.
static ACE_Thread_Manager *thr_mgr (void);
// Get pointer to a process-wide <ACE_Thread_Manager>.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Thread_Manager::instance() instead.
static ACE_Thread_Manager *thr_mgr (ACE_Thread_Manager *);
// Set pointer to a process-wide <ACE_Thread_Manager> and return
// existing pointer.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Thread_Manager::instance() instead.
static ACE_Allocator *alloc (void);
// Get pointer to a default <ACE_Allocator>.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Allocator::instance() instead.
static ACE_Allocator *alloc (ACE_Allocator *);
// Set pointer to a process-wide <ACE_Allocator> and return existing
// pointer.
// DO NOT USE THIS METHOD. It may be unsupported in future releases.
// Use ACE_Allocator::instance() instead.
// = Utility methods.
static int initialize (const ACE_Service_Type *,
ASYS_TCHAR parameters[]);
// Dynamically link the shared object file and retrieve a pointer to
// the designated shared object in this file.
static int initialize (const ASYS_TCHAR svc_name[],
ASYS_TCHAR parameters[]);
// Initialize and activate a statically <svc_name> service.
static int resume (const ASYS_TCHAR svc_name[]);
// Resume a <svc_name> that was previously suspended or has not yet
// been resumed (e.g., a static service).
static int suspend (const ASYS_TCHAR svc_name[]);
// Suspend <svc_name>. Note that this will not unlink the service
// from the daemon if it was dynamically linked, it will mark it
// as being suspended in the Service Repository and call the
// suspend() member function on the appropriate ACE_Service_Object.
// A service can be resumed later on by calling the RESUME()
// member function...
static int remove (const ASYS_TCHAR svc_name[]);
// Totally remove <svc_name> from the daemon by removing it
// from the ACE_Reactor, and unlinking it if necessary.
#if defined (ACE_HAS_WINCE)
// We must provide these function to bridge the <Svc_Conf> parser
// with ACE.
static int initialize (const ACE_Service_Type *, char parameters[]);
static int initialize (const char svc_name[], char parameters[]);
static int resume (const char svc_name[]);
static int suspend (const char svc_name[]);
static int remove (const char svc_name[]);
#endif /* ACE_HAS_WINCE */
void dump (void) const;
// Dump the state of an object.
static ACE_INLINE void signal_handler (ACE_Sig_Adapter *);
// Set the signal_handler;for internal use by ACE_Object_Manager only.
ACE_ALLOC_HOOK_DECLARE;
// Declare the dynamic allocation hooks.
static int process_directive (const ASYS_TCHAR directive[]);
// Process one service configuration <directive>, which is passed as
// a string. Returns the number of errors that occurred.
static void handle_signal (int sig, siginfo_t *, ucontext_t *);
// Handles signals to trigger reconfigurations.
protected:
static int process_directives (void);
// Process service configuration requests that are provided in the
// svc.config file(s). Returns the number of errors that occurred.
static int process_commandline_directives (void);
// Process service configuration requests that were provided on the
// command-line. Returns the number of errors that occurred.
static int process_directives_i (void);
// This is the implementation function that <process_directives> and
// <process_directive> both call. Returns the number of errors that
// occurred.
static int parse_args (int, ASYS_TCHAR *argv[]);
// Handle the command-line options intended for the
// <ACE_Service_Config>. Note that <argv[0]> is assumed to be the
// program name.
static int start_daemon (void);
// Become a daemon.
static int load_static_svcs (void);
// Add the default statically-linked services to the
// <ACE_Service_Repository>.
private:
static LPCTSTR logger_key_;
// Where to write the logging output.
static ACE_STATIC_SVCS *static_svcs_;
// Singleton repository of statically linked services.
static ACE_SVC_QUEUE *svc_queue_;
// Queue of services specified on the command-line.
static ACE_SVC_QUEUE *svc_conf_file_queue_;
// Queue of svc.conf files specified on the command-line.
// @@ This should probably be made to handle unicode filenames...
static int init_svc_conf_file_queue (void);
// Initialize the <svc_conf_file_queue_> if necessary.
static sig_atomic_t reconfig_occurred_;
// True if reconfiguration occurred.
// = Set by command-line options.
static char be_a_daemon_;
// Shall we become a daemon process?
static char no_static_svcs_;
// Should we avoid loading the static services?
static int signum_;
// Number of the signal used to trigger reconfiguration.
static ACE_Sig_Adapter *signal_handler_;
// Handles the reconfiguration signals.
};
#if defined (__ACE_INLINE__)
#include "ace/Service_Config.i"
#endif /* __ACE_INLINE__ */
// These must go here to avoid circular includes... (only left here
// for to not break applications which rely on this - no real need any
// longer)
#include "ace/Reactor.h"
#include "ace/Svc_Conf_Tokens.h"
#endif /* ACE_SERVICE_CONFIG_H */
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