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|
// $Id$
// We need this to get the status of ACE_NTRACE...
#include "ace/config-all.h"
// Turn off tracing for the duration of this file.
#if defined (ACE_NTRACE)
# undef ACE_NTRACE
#endif /* ACE_NTRACE */
#define ACE_NTRACE 1
// This must come first to avoid "order of include" problems...
#if !defined (ACE_HAS_INLINED_OSCALLS) && !defined(ACE_HAS_ONE_DEFINITION_RULE)
# define ACE_HAS_INLINED_OSCALLS
# include "ace/ACE.h"
# undef ACE_HAS_INLINED_OSCALLS
#else
# include "ace/ACE.h"
#endif /* !ACE_HAS_INLINED_OSCALLS */
#include "ace/Thread_Manager.h"
#include "ace/OS.h"
#if !defined (ACE_MT_SAFE) || (ACE_MT_SAFE == 0)
# include "ace/Object_Manager.h"
#endif /* ! ACE_MT_SAFE */
#if !defined (ACE_LACKS_IOSTREAM_TOTALLY)
# include "ace/streams.h"
#endif /* ! ACE_LACKS_IOSTREAM_TOTALLY */
#include "ace/Log_Msg.h"
#include "ace/Log_Msg_Callback.h"
#include "ace/Log_Msg_IPC.h"
ACE_RCSID(ace, Log_Msg, "$Id$")
ACE_ALLOC_HOOK_DEFINE(ACE_Log_Msg)
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
int ACE_Log_Msg::key_created_ = 0;
# if defined (ACE_HAS_THREAD_SPECIFIC_STORAGE) || \
defined (ACE_HAS_TSS_EMULATION)
ACE_thread_key_t ACE_Log_Msg::log_msg_tss_key_;
# endif /* ACE_HAS_THREAD_SPECIFIC_STORAGE || ACE_HAS_TSS_EMULATION */
#endif /* ACE_MT_SAFE */
// This is only needed here because we can't afford to call
// ACE_LOG_MSG->instance() from within ACE_Log_Msg::instance() or else
// we will recurse infinitely! Not for public use!
#define ACE_NEW_RETURN_I(POINTER,CONSTRUCTOR,RET_VAL) \
do { POINTER = new CONSTRUCTOR; \
if (POINTER == 0) { errno = ENOMEM; return RET_VAL; } \
} while (0)
// Instance count for Log_Msg - used to know when dynamically
// allocated storage (program name and host name) can be safely
// deleted.
int ACE_Log_Msg::instance_count_ = 0;
#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION)
# if !defined (ACE_MT_SAFE) || (ACE_MT_SAFE == 0)
template class ACE_Cleanup_Adapter<ACE_Log_Msg>;
#else
template class ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex>;
template class ACE_Guard<ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex> >;
# endif /* ! ACE_MT_SAFE */
#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA)
# if !defined (ACE_MT_SAFE) || (ACE_MT_SAFE == 0)
# pragma instantiate ACE_Cleanup_Adapter<ACE_Log_Msg>
#else
#pragma instantiate ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex>
#pragma instantiate ACE_Guard<ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex> >
# endif /* ! ACE_MT_SAFE */
#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */
class ACE_Log_Msg_Manager
// = TITLE
// Synchronize output operations.
//
// = DESCRIPTION
// Provides global point of contact for all ACE_Log_Msg instances
// in a process.
//
// For internal use by ACE, only!
{
public:
static ACE_Log_Msg_Backend *ipc_backend_;
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
static void close (void);
static ACE_Recursive_Thread_Mutex *get_lock (void);
private:
static ACE_Recursive_Thread_Mutex *lock_;
#endif /* ! ACE_MT_SAFE */
};
ACE_Log_Msg_Backend *ACE_Log_Msg_Manager::ipc_backend_ = 0;
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
ACE_Recursive_Thread_Mutex *ACE_Log_Msg_Manager::lock_ = 0;
ACE_Recursive_Thread_Mutex *
ACE_Log_Msg_Manager::get_lock (void)
{
// This function is called by the first thread to create an ACE_Log_Msg
// instance. It makes the call while holding a mutex, so we don't have
// to grab another one here.
if (ACE_Log_Msg_Manager::lock_ == 0)
{
ACE_NO_HEAP_CHECK;
ACE_NEW_RETURN_I (ACE_Log_Msg_Manager::lock_,
ACE_Recursive_Thread_Mutex,
0);
}
if (ACE_Log_Msg_Manager::ipc_backend_ == 0)
{
ACE_NO_HEAP_CHECK;
// Allocate the ACE_Log_Msg IPC instance.
ACE_NEW_RETURN (ACE_Log_Msg_Manager::ipc_backend_,
ACE_Log_Msg_IPC,
0);
}
return ACE_Log_Msg_Manager::lock_;
}
void
ACE_Log_Msg_Manager::close (void)
{
#if defined (ACE_HAS_STHREADS) && ! defined (ACE_HAS_TSS_EMULATION) && ! defined (ACE_HAS_EXCEPTIONS)
// Delete the (main thread's) Log_Msg instance. I think that this
// is only "necessary" if exception handling is not enabled.
// Without exception handling, main thread TSS destructors don't
// seem to be called. It's not really necessary anyways, because
// this one leak is harmless on Solaris.
delete ACE_Log_Msg::instance ();
#endif /* ACE_HAS_STHREADS && ! TSS_EMULATION && ! ACE_HAS_EXCEPTIONS */
// Ugly, ugly, but don't know a better way.
delete ACE_Log_Msg_Manager::lock_;
ACE_Log_Msg_Manager::lock_ = 0;
}
# if defined (ACE_HAS_THREAD_SPECIFIC_STORAGE) || \
defined (ACE_HAS_TSS_EMULATION)
/* static */
# if defined (ACE_HAS_THR_C_DEST)
# define LOCAL_EXTERN_PREFIX extern "C"
# else
# define LOCAL_EXTERN_PREFIX
# endif /* ACE_HAS_THR_C_DEST */
LOCAL_EXTERN_PREFIX
void
ACE_TSS_cleanup (void *ptr)
{
#if !defined(ACE_USE_ONE_SHOT_AT_THREAD_EXIT)
// Delegate to thr_desc if this not has terminated
ACE_Log_Msg* log_msg = (ACE_Log_Msg*) ptr;
if (log_msg->thr_desc()!=0)
log_msg->thr_desc()->log_msg_cleanup(log_msg);
else
#endif /* !ACE_USE_ONE_SHOT_AT_THREAD_EXIT */
delete (ACE_Log_Msg *) ptr;
}
# endif /* ACE_HAS_THREAD_SPECIFIC_STORAGE || ACE_HAS_TSS_EMULATION */
#endif /* ! ACE_MT_SAFE */
/* static */
int
ACE_Log_Msg::exists (void)
{
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
# if defined (ACE_HAS_THREAD_SPECIFIC_STORAGE) || \
defined (ACE_HAS_TSS_EMULATION)
ACE_Log_Msg *tss_log_msg = 0;
// Get the tss_log_msg from thread-specific storage.
return key_created_
&& ACE_Thread::getspecific (log_msg_tss_key_,
ACE_reinterpret_cast (void **,
&tss_log_msg)) != -1
&& tss_log_msg;
# else
# error "Platform must support thread-specific storage if threads are used."
# endif /* ACE_HAS_THREAD_SPECIFIC_STORAGE || ACE_HAS_TSS_EMULATION */
#else /* ! ACE_MT_SAFE */
return 1;
#endif /* ! ACE_MT_SAFE */
}
ACE_Log_Msg *
ACE_Log_Msg::instance (void)
{
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
# if defined (ACE_HAS_THREAD_SPECIFIC_STORAGE) || \
defined (ACE_HAS_TSS_EMULATION)
// TSS Singleton implementation.
if (key_created_ == 0)
{
ACE_thread_mutex_t *lock =
ACE_reinterpret_cast (ACE_thread_mutex_t *,
ACE_OS_Object_Manager::preallocated_object
[ACE_OS_Object_Manager::ACE_LOG_MSG_INSTANCE_LOCK]);
ACE_OS::thread_mutex_lock (lock);
if (key_created_ == 0)
{
// Allocate the Singleton lock.
ACE_Log_Msg_Manager::get_lock ();
{
ACE_NO_HEAP_CHECK;
if (ACE_Thread::keycreate (&log_msg_tss_key_,
&ACE_TSS_cleanup) != 0)
{
ACE_OS::thread_mutex_unlock (lock);
return 0; // Major problems, this should *never* happen!
}
}
key_created_ = 1;
}
ACE_OS::thread_mutex_unlock (lock);
}
ACE_Log_Msg *tss_log_msg = 0;
// Get the tss_log_msg from thread-specific storage.
if (ACE_Thread::getspecific (log_msg_tss_key_,
ACE_reinterpret_cast (void **,
&tss_log_msg)) == -1)
return 0; // This should not happen!
// Check to see if this is the first time in for this thread.
if (tss_log_msg == 0)
{
// Allocate memory off the heap and store it in a pointer in
// thread-specific storage (on the stack...). Stop heap
// checking, the memory will always be freed by the thread
// rundown because of the TSS callback set up when the key was
// created. This prevents from getting these blocks reported as
// memory leaks.
{
ACE_NO_HEAP_CHECK;
ACE_NEW_RETURN_I (tss_log_msg,
ACE_Log_Msg,
0);
// Store the dynamically allocated pointer in thread-specific
// storage. It gets deleted via the ACE_TSS_cleanup function
// when the thread terminates.
if (ACE_Thread::setspecific (log_msg_tss_key_,
ACE_reinterpret_cast (void *,
tss_log_msg)) != 0)
return 0; // Major problems, this should *never* happen!
}
}
return tss_log_msg;
# else
# error "Platform must support thread-specific storage if threads are used."
# endif /* ACE_HAS_THREAD_SPECIFIC_STORAGE || ACE_HAS_TSS_EMULATION */
#else /* ! ACE_MT_SAFE */
// We don't have threads, we cannot call
// ACE_Log_Msg_Manager::get_lock () to initialize the logger
// callback, so instead we do it here.
if (ACE_Log_Msg_Manager::ipc_backend_ == 0)
ACE_NEW_RETURN (ACE_Log_Msg_Manager::ipc_backend_,
ACE_Log_Msg_IPC,
0);
// Singleton implementation.
static ACE_Cleanup_Adapter<ACE_Log_Msg> *log_msg = 0;
if (log_msg == 0)
{
ACE_NEW_RETURN (log_msg, ACE_Cleanup_Adapter<ACE_Log_Msg>, 0);
// Register the instance for destruction at program termination.
ACE_Object_Manager::at_exit (log_msg);
}
return &log_msg->object ();
#endif /* ! ACE_MT_SAFE */
}
// Sets the flag in the default priority mask used to initialize
// ACE_Log_Msg instances, as well as the current per-thread instance.
void
ACE_Log_Msg::enable_debug_messages (ACE_Log_Priority priority)
{
ACE_SET_BITS (ACE_Log_Msg::default_priority_mask_, priority);
ACE_Log_Msg *i = ACE_Log_Msg::instance ();
i->priority_mask (i->priority_mask () | priority);
}
// Clears the flag in the default priority mask used to initialize
// ACE_Log_Msg instances, as well as the current per-thread instance.
void
ACE_Log_Msg::disable_debug_messages (ACE_Log_Priority priority)
{
ACE_CLR_BITS (ACE_Log_Msg::default_priority_mask_, priority);
ACE_Log_Msg *i = ACE_Log_Msg::instance ();
i->priority_mask (i->priority_mask () & ~priority);
}
// Name of the local host.
const ACE_TCHAR *ACE_Log_Msg::local_host_ = 0;
// Records the program name.
const ACE_TCHAR *ACE_Log_Msg::program_name_ = 0;
// Default is to use stderr.
u_long ACE_Log_Msg::flags_ = ACE_Log_Msg::STDERR;
// Process id of the current process.
pid_t ACE_Log_Msg::pid_ = -1;
// Current offset of msg_[].
int ACE_Log_Msg::msg_off_ = 0;
// Default per-thread priority mask
// By default, all priorities are enabled.
u_long ACE_Log_Msg::default_priority_mask_ = LM_SHUTDOWN
| LM_TRACE
| LM_DEBUG
| LM_INFO
| LM_NOTICE
| LM_WARNING
| LM_STARTUP
| LM_ERROR
| LM_CRITICAL
| LM_ALERT
| LM_EMERGENCY;
// Default per-process priority mask
// By default, no priorities are enabled.
u_long ACE_Log_Msg::process_priority_mask_ = 0;
void
ACE_Log_Msg::close (void)
{
// Please note that this will be called by a statement that is
// harded coded into the ACE_Object_Manager's shutdown sequence, in
// its destructor.
ACE_MT (ACE_Log_Msg_Manager::close ());
}
void
ACE_Log_Msg::sync_hook (const ACE_TCHAR *prg_name)
{
ACE_LOG_MSG->sync (prg_name);
}
ACE_OS_Thread_Descriptor *
ACE_Log_Msg::thr_desc_hook (void)
{
return ACE_LOG_MSG->thr_desc ();
}
// Call after a fork to resynchronize the PID and PROGRAM_NAME
// variables.
void
ACE_Log_Msg::sync (const ACE_TCHAR *prog_name)
{
ACE_TRACE ("ACE_Log_Msg::sync");
if (prog_name)
{
// Must free if already allocated!!!
ACE_OS::free ((void *) ACE_Log_Msg::program_name_);
// Stop heap checking, block will be freed by the destructor when
// the last ACE_Log_Msg instance is deleted.
// Heap checking state will be restored when the block is left.
{
ACE_NO_HEAP_CHECK;
ACE_Log_Msg::program_name_ = ACE_OS::strdup (prog_name);
}
}
ACE_Log_Msg::pid_ = ACE_OS::getpid ();
ACE_Log_Msg::msg_off_ = 0;
}
u_long
ACE_Log_Msg::flags (void)
{
ACE_TRACE ("ACE_Log_Msg::flags");
u_long result;
ACE_MT (ACE_GUARD_RETURN (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock (), 0));
result = ACE_Log_Msg::flags_;
return result;
}
void
ACE_Log_Msg::set_flags (u_long flgs)
{
ACE_TRACE ("ACE_Log_Msg::set_flags");
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock ()));
ACE_SET_BITS (ACE_Log_Msg::flags_, flgs);
}
void
ACE_Log_Msg::clr_flags (u_long flgs)
{
ACE_TRACE ("ACE_Log_Msg::clr_flags");
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock ()));
ACE_CLR_BITS (ACE_Log_Msg::flags_, flgs);
}
int
ACE_Log_Msg::acquire (void)
{
ACE_TRACE ("ACE_Log_Msg::acquire");
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
return ACE_Log_Msg_Manager::get_lock ()->acquire ();
#else /* ! ACE_MT_SAFE */
return 0;
#endif /* ! ACE_MT_SAFE */
}
u_long
ACE_Log_Msg::priority_mask (u_long n_mask, MASK_TYPE mask_type)
{
u_long o_mask;
if (mask_type == THREAD) {
o_mask = this->priority_mask_;
this->priority_mask_ = n_mask;
}
else {
o_mask = ACE_Log_Msg::process_priority_mask_;
ACE_Log_Msg::process_priority_mask_ = n_mask;
}
return o_mask;
}
u_long
ACE_Log_Msg::priority_mask (MASK_TYPE mask_type)
{
return mask_type == THREAD ? this->priority_mask_
: ACE_Log_Msg::process_priority_mask_;
}
int
ACE_Log_Msg::log_priority_enabled (ACE_Log_Priority log_priority)
{
return ACE_BIT_ENABLED (this->priority_mask_ |
ACE_Log_Msg::process_priority_mask_,
log_priority);
}
int
ACE_Log_Msg::release (void)
{
ACE_TRACE ("ACE_Log_Msg::release");
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
return ACE_Log_Msg_Manager::get_lock ()->release ();
#else /* ! ACE_MT_SAFE */
return 0;
#endif /* ! ACE_MT_SAFE */
}
ACE_Log_Msg::ACE_Log_Msg (void)
: status_ (0),
errnum_ (0),
linenum_ (0),
restart_ (1), // Restart by default...
ostream_ (0),
msg_callback_ (0),
trace_depth_ (0),
trace_active_ (0),
tracing_enabled_ (1), // On by default?
delete_ostream_(0),
thr_desc_ (0),
priority_mask_ (default_priority_mask_)
{
// ACE_TRACE ("ACE_Log_Msg::ACE_Log_Msg");
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock ()));
++instance_count_;
if (this->instance_count_ == 1)
ACE_Base_Thread_Adapter::set_log_msg_hooks (ACE_Log_Msg::init_hook,
ACE_Log_Msg::inherit_hook,
ACE_Log_Msg::close,
ACE_Log_Msg::sync_hook,
ACE_Log_Msg::thr_desc_hook);
this->conditional_values_.is_set_ = 0;
}
ACE_Log_Msg::~ACE_Log_Msg (void)
{
#if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
int instance_count;
// Only hold the guard while updating the instance_count_.
// If ACE_Log_Msg_Manager::close () is called, the lock will
// be deleted.
{
ACE_MT (ACE_GUARD (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock ()));
instance_count = --instance_count_;
}
// Release the guard.
#else /* ! ACE_MT_SAFE */
int instance_count = --instance_count_;
#endif /* ! ACE_MT_SAFE */
// If this is the last instance then cleanup. Only the last
// thread to destroy its ACE_Log_Msg instance should execute
// this block.
if (instance_count == 0)
{
# if defined (ACE_MT_SAFE) && (ACE_MT_SAFE != 0)
# if defined (ACE_HAS_TSS_EMULATION)
ACE_Log_Msg_Manager::close ();
# endif /* ACE_HAS_TSS_EMULATION */
# endif /* ACE_MT_SAFE */
// Destroy the message queue instance.
ACE_Log_Msg_Manager::ipc_backend_->close ();
if (ACE_Log_Msg::program_name_)
{
ACE_OS::free ((void *) ACE_Log_Msg::program_name_);
ACE_Log_Msg::program_name_ = 0;
}
if (ACE_Log_Msg::local_host_)
{
ACE_OS::free ((void *) ACE_Log_Msg::local_host_);
ACE_Log_Msg::local_host_ = 0;
}
}
//
// do we need to close and clean up?
//
if (this->delete_ostream_ == 1)
#if defined (ACE_LACKS_IOSTREAM_TOTALLY)
{
ACE_OS::fclose (this->ostream_);
}
#else
{
delete ostream_;
}
#endif
}
// Open the sender-side of the message queue.
int
ACE_Log_Msg::open (const ACE_TCHAR *prog_name,
u_long flags,
const ACE_TCHAR *logger_key)
{
ACE_TRACE ("ACE_Log_Msg::open");
ACE_MT (ACE_GUARD_RETURN (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock (), -1));
if (prog_name)
{
ACE_OS::free ((void *) ACE_Log_Msg::program_name_);
// Stop heap checking, block will be freed by the destructor.
{
ACE_NO_HEAP_CHECK;
ACE_ALLOCATOR_RETURN (ACE_Log_Msg::program_name_,
ACE_OS::strdup (prog_name),
-1);
}
}
int status = 0;
// Be sure that there is a message_queue_, with multiple threads.
ACE_MT (ACE_Log_Msg_Manager::get_lock ());
// Always close the current handle before doing anything else.
ACE_Log_Msg_Manager::ipc_backend_->reset ();
// Note that if we fail to open the message queue the default action
// is to use stderr (set via static initialization in the
// Log_Msg.cpp file).
if (ACE_BIT_ENABLED (flags, ACE_Log_Msg::LOGGER))
{
if (logger_key == 0)
status = -1;
else
{
status =
ACE_Log_Msg_Manager::ipc_backend_->open (logger_key);
}
if (status == -1)
ACE_SET_BITS (ACE_Log_Msg::flags_, ACE_Log_Msg::STDERR);
else
ACE_SET_BITS (ACE_Log_Msg::flags_, ACE_Log_Msg::LOGGER);
}
else if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_, ACE_Log_Msg::LOGGER))
{
// If we are closing down logger, redirect logging to stderr.
ACE_CLR_BITS (ACE_Log_Msg::flags_, ACE_Log_Msg::LOGGER);
ACE_SET_BITS (ACE_Log_Msg::flags_, ACE_Log_Msg::STDERR);
}
// Remember, ACE_Log_Msg::STDERR bit is on by default...
if (status != -1
&& ACE_BIT_ENABLED (flags,
ACE_Log_Msg::STDERR) == 0)
ACE_CLR_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::STDERR);
// VERBOSE takes precedence over VERBOSE_LITE...
if (ACE_BIT_ENABLED (flags,
ACE_Log_Msg::VERBOSE_LITE))
ACE_SET_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::VERBOSE_LITE);
else if (ACE_BIT_ENABLED (flags,
ACE_Log_Msg::VERBOSE))
ACE_SET_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::VERBOSE);
if (ACE_BIT_ENABLED (flags,
ACE_Log_Msg::OSTREAM))
{
ACE_SET_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::OSTREAM);
// Only set this to cerr if it hasn't already been set.
if (this->msg_ostream () == 0)
this->msg_ostream (ACE_DEFAULT_LOG_STREAM);
}
if (ACE_BIT_ENABLED (flags,
ACE_Log_Msg::MSG_CALLBACK))
ACE_SET_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::MSG_CALLBACK);
if (ACE_BIT_ENABLED (flags,
ACE_Log_Msg::SILENT))
ACE_SET_BITS (ACE_Log_Msg::flags_,
ACE_Log_Msg::SILENT);
return status;
}
// Valid Options (prefixed by '%', as in printf format strings) include:
// 'A': print an ACE_timer_t value
// 'a': exit the program at this point (var-argument is the exit status!)
// 'c': print a character
// 'i', 'd': print a decimal number
// 'I', indent according to nesting depth
// 'e', 'E', 'f', 'F', 'g', 'G': print a double
// 'l', print line number where an error occurred.
// 'm': Return the message corresponding to errno value, e.g., as done by <strerror>
// 'N': print file name where the error occurred.
// 'n': print the name of the program (or "<unknown>" if not set)
// 'o': print as an octal number
// 'P': format the current process id
// 'p': format the appropriate errno message from sys_errlist, e.g., as done by <perror>
// 'Q': print out the uint64 number
// 'r': call the function pointed to by the corresponding argument
// 'R': print return status
// 'S': format the appropriate _sys_siglist entry corresponding to var-argument.
// 's': format a character string
// 'T': print timestamp in hour:minute:sec:usec format.
// 'D': print timestamp in month/day/year hour:minute:sec:usec format.
// 't': print thread id (1 if single-threaded)
// 'u': print as unsigned int
// 'X', 'x': print as a hex number
// 'W': print out a wide (Unicode) character string (currently Win32 only).
// '%': format a single percent sign, '%'
ssize_t
ACE_Log_Msg::log (ACE_Log_Priority log_priority,
const ACE_TCHAR *format_str, ...)
{
ACE_TRACE ("ACE_Log_Msg::log");
// Start of variable args section.
va_list argp;
va_start (argp, format_str);
int result = this->log (format_str,
log_priority,
argp);
va_end (argp);
return result;
}
ssize_t
ACE_Log_Msg::log (const ACE_TCHAR *format_str,
ACE_Log_Priority log_priority,
va_list argp)
{
ACE_TRACE ("ACE_Log_Msg::log");
// External decls.
#if ! (defined(__BORLANDC__) && __BORLANDC__ >= 0x0530)
#if defined (__FreeBSD__)
extern const int sys_nerr;
#else
extern int sys_nerr;
#endif /* !__FreeBSD__ */
#endif /* ! (defined(__BORLANDC__) && __BORLANDC__ >= 0x0530) */
typedef void (*PTF)(...);
// Check if there were any conditional values set.
int conditional_values = this->conditional_values_.is_set_;
// Reset conditional values.
this->conditional_values_.is_set_ = 0;
// Only print the message if <priority_mask_> hasn't been reset to
// exclude this logging priority.
if (this->log_priority_enabled (log_priority) == 0)
return 0;
// If conditional values were set and the log priority is correct,
// then the values are actually set.
if (conditional_values)
this->set (this->conditional_values_.file_,
this->conditional_values_.line_,
this->conditional_values_.op_status_,
this->conditional_values_.errnum_,
this->restart (),
this->msg_ostream (),
this->msg_callback ());
// Logging is a benign activity, so don't inadvertently smash errno.
ACE_Errno_Guard guard (errno);
ACE_Log_Record log_record (log_priority,
ACE_OS::gettimeofday (),
this->getpid ());
ACE_TCHAR *bp = ACE_const_cast (ACE_TCHAR *, this->msg ());
int abort_prog = 0;
int exit_value = 0;
ACE_TCHAR *format;
ACE_ALLOCATOR_RETURN (format, ACE_OS::strdup (format_str), -1);
ACE_TCHAR *save_p = format; // Remember pointer for ACE_OS::free()
if (format == 0)
return -1;
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_, ACE_Log_Msg::VERBOSE))
{
// Prepend the program name onto this message
if (ACE_Log_Msg::program_name_ != 0)
{
for (const ACE_TCHAR *s = ACE_Log_Msg::program_name_;
(*bp = *s) != '\0';
s++)
bp++;
*bp++ = '|';
}
}
while (*format != '\0')
{
// Copy input to output until we encounter a %, however a
// % followed by another % is not a format specification.
if (*format != '%')
*bp++ = *format++;
else if (format[1] == '%') // An "escaped" '%' (just print one '%').
{
*bp++ = *format++; // Store first %
format++; // but skip second %
}
else
{
ACE_TCHAR c = '\0'; // high use character
ACE_TCHAR *fp; // local format pointer
int wpc; // width/precision cnt
const int CONTINUE = 0;
const int SKIP_SPRINTF = -1; // We must skip the sprintf phase
const int SKIP_NUL_LOCATE = -2; // Skip locating the NUL character
int type = CONTINUE; // conversion type
int w[2]; // width/precision vals
// % starts a format specification that ends with one of
// "arnPpSsdciIouxXfFeEgG". An optional width and/or precision
// (indicated by an "*") may be encountered prior to the
// nend of the specification, each consumes an int arg.
// A call to sprintf() does the actual conversion.
fp = format++; // Remember beginning of format.
wpc = 0; // Assume no width/precision seen.
while (type == CONTINUE)
{
switch (*format++)
{
case 'A':
type = SKIP_SPRINTF;
{
#if defined (ACE_LACKS_FLOATING_POINT)
ACE_UINT32 value = va_arg (argp, ACE_UINT32);
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%ld"), value);
#else
double value = va_arg (argp, double);
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%f"), value);
#endif /* ACE_LACKS_FLOATING_POINT */
}
break;
case 'a': // Abort program after handling all of format string.
type = SKIP_SPRINTF;
abort_prog = 1;
exit_value = va_arg (argp, int);
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("Aborting..."));
// Make sure to NULL terminate this...
break;
case 'l':
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%d"), this->linenum ());
type = SKIP_SPRINTF;
break;
case 'N':
{
// @@ UNICODE
const ACE_TCHAR *file = this->file ();
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%s"),
file ? file
: ACE_LIB_TEXT ("<unknown file>"));
type = SKIP_SPRINTF;
break;
}
case 'n': // Print the name of the program.
type = SKIP_SPRINTF;
// @@ UNICODE
ACE_OS::strcpy (bp, ACE_Log_Msg::program_name_ ?
ACE_Log_Msg::program_name_ :
ACE_LIB_TEXT ("<unknown>"));
break;
case 'P': // Format the current process id.
type = SKIP_SPRINTF;
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%d"),
ACE_static_cast (int, this->getpid ()));
break;
case 'p': // Format the string assocated with the errno value.
{
type = SKIP_SPRINTF;
errno = ACE::map_errno (this->errnum ());
#if !defined (ACE_HAS_WINCE)
// @@ WINCE There is no strerror available on CE.
// Have to double check if this change is valid.
if (errno >= 0 && errno < sys_nerr)
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%s: %s"),
va_arg (argp, ACE_TCHAR *),
strerror (errno));
else
#endif /* ACE_HAS_WINCE */
{
#if defined (ACE_WIN32)
ACE_TCHAR *lpMsgBuf = 0;
// PharLap can't do FormatMessage, so try for socket
// error.
# if !defined (ACE_HAS_PHARLAP)
ACE_TEXT_FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER
| FORMAT_MESSAGE_MAX_WIDTH_MASK
| FORMAT_MESSAGE_FROM_SYSTEM,
NULL,
errno,
MAKELANGID (LANG_NEUTRAL,
SUBLANG_DEFAULT),
// Default language
(ACE_TCHAR *) &lpMsgBuf,
0,
NULL);
# endif /* ACE_HAS_PHARLAP */
// If we don't get a valid response from
// <FormatMessage>, we'll assume this is a
// WinSock error and so we'll try to convert
// it into a string. If this doesn't work it
// returns "unknown error" which is fine for
// our purposes.
if (lpMsgBuf == 0)
{
const ACE_TCHAR *message =
ACE::sock_error (errno);
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%s: %s"),
va_arg (argp, const ACE_TCHAR *),
message);
}
else
{
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%s: %s"),
va_arg (argp, ACE_TCHAR *),
lpMsgBuf);
// Free the buffer.
::LocalFree (lpMsgBuf);
}
#elif !defined (ACE_HAS_WINCE)
ACE_OS::sprintf (bp,
ACE_LIB_TEXT (
"%s: <unknown error> = %d"),
va_arg (argp, ACE_TCHAR *), errno);
#endif /* ACE_WIN32 */
}
break;
}
case 'm': // Format the string assocated with the errno value.
{
type = SKIP_SPRINTF;
errno = ACE::map_errno (this->errnum ());
#if !defined (ACE_HAS_WINCE)
// @@ There is no strerror available on CE.
// Have to double check if this change is valid.
if (errno >= 0 && errno < sys_nerr)
ACE_OS::sprintf (bp,
ACE_LIB_TEXT ("%s"),
strerror (errno));
else
#endif /* ACE_HAS_WINCE */
{
#if defined (ACE_WIN32)
ACE_TCHAR *lpMsgBuf = 0;
// PharLap can't do FormatMessage, so try for socket
// error.
# if !defined (ACE_HAS_PHARLAP)
ACE_TEXT_FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER
| FORMAT_MESSAGE_MAX_WIDTH_MASK
| FORMAT_MESSAGE_FROM_SYSTEM,
NULL,
errno,
MAKELANGID (LANG_NEUTRAL,
SUBLANG_DEFAULT),
// Default language
(ACE_TCHAR *) &lpMsgBuf,
0,
NULL);
# endif /* ACE_HAS_PHARLAP */
// If we don't get a valid response from
// <FormatMessage>, we'll assume this is a
// WinSock error and so we'll try to convert
// it into a string. If this doesn't work it
// returns "unknown error" which is fine for
// our purposes.
if (lpMsgBuf == 0)
{
const ACE_TCHAR *message =
ACE::sock_error (errno);
ACE_OS::sprintf (bp,
ACE_LIB_TEXT ("%s"),
message);
}
else
{
ACE_OS::sprintf (bp,
ACE_LIB_TEXT ("%s"),
lpMsgBuf);
// Free the buffer.
::LocalFree (lpMsgBuf);
}
#elif !defined (ACE_HAS_WINCE)
ACE_OS::sprintf (bp,
ACE_LIB_TEXT ("<unknown error> = %d"),
errno);
#endif /* ACE_WIN32 */
}
break;
}
case 'R': // Format the return status of the operation.
this->op_status (va_arg (argp, int));
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%d"), this->op_status ());
break;
case '{': // Increment the trace_depth, then indent
type = SKIP_NUL_LOCATE;
(void) this->inc ();
break;
case '}': // indent, then decrement trace_depth
type = SKIP_NUL_LOCATE;
(void) this->dec ();
break;
case '$': // insert a newline, then indent the next line
// according to %I
*bp++ = '\n';
/* fallthrough */
case 'I': // Indent with nesting_depth*width spaces
type = SKIP_SPRINTF;
if (!wpc)
w[wpc++] = 1;
w[wpc-1] *= this->trace_depth_;
ACE_OS::memset (bp, ' ', w[wpc-1]);
bp += w[wpc - 1];
*bp = '\0';
break;
case 'r': // Run (invoke) this subroutine.
{
int osave = ACE_Log_Msg::msg_off_;
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::SILENT))
*bp++ = '{';
ACE_Log_Msg::msg_off_ = bp - this->msg_;
type = SKIP_SPRINTF;
(*va_arg (argp, PTF))();
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::SILENT))
{
bp += ACE_OS::strlen (bp);
*bp++ = '}';
}
*bp = '\0';
ACE_Log_Msg::msg_off_ = osave;
break;
}
case 'S': // format the string for with this signal number.
{
int sig = va_arg (argp, int);
type = SKIP_SPRINTF;
#if defined (ACE_HAS_SYS_SIGLIST)
if (sig >= 0 && sig < ACE_NSIG)
ACE_OS::strcpy (bp, _sys_siglist[sig]);
else
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("<unknown signal> %d"),
sig);
#else
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("signal %d"), sig);
#endif /* ACE_HAS_SYS_SIGLIST */
break;
}
case 'D': // Format the timestamp in month/day/year
// hour:minute:sec:usec format.
{
type = SKIP_SPRINTF;
ACE_TCHAR day_and_time[35];
ACE::timestamp (day_and_time,
sizeof day_and_time);
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%s"), day_and_time);
break;
}
case 'T': // Format the timestamp in
// hour:minute:sec:usec format.
{
type = SKIP_SPRINTF;
ACE_TCHAR day_and_time[35];
ACE_OS::sprintf (bp,
ACE_LIB_TEXT ("%s"),
ACE::timestamp (day_and_time,
sizeof day_and_time));
break;
}
case 't': // Format thread id.
type = SKIP_SPRINTF;
#if defined (ACE_WIN32)
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%u"), ACE_Thread::self ());
#elif defined (AIX) && (ACE_AIX_MINOR_VERS <= 2)
// AIX's pthread_t (ACE_hthread_t) is a pointer, and it's
// a little ugly to send that through a %u format. So,
// get the kernel thread ID (tid_t) via thread_self() and
// display that instead.
// This isn't conditionalized on ACE_HAS_THREAD_SELF because
// 1. AIX 4.2 doesn't have that def anymore (it messes up
// other things)
// 2. OSF/1 V3.2 has that def, and I'm not sure what affect
// this would have on that.
// -Steve Huston, 19-Aug-97
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%u"), thread_self());
#elif defined (DIGITAL_UNIX)
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%u"),
pthread_getselfseq_np());
#else
ACE_hthread_t t_id;
ACE_Thread::self (t_id);
# if defined (ACE_HAS_PTHREADS_DRAFT4) && defined (HPUX_10)
// HP-UX 10.x DCE's thread ID is a pointer. Grab the
// more meaningful, readable, thread ID. This will match
// the one seen in the debugger as well.
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%u"),
pthread_getunique_np(&t_id));
# elif defined (ACE_MVS)
// MVS's pthread_t is a struct... yuck. So use the ACE 5.0
// code for it.
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%u"), t_id);
# else
// Yes, this is an ugly C-style cast, but the correct
// C++ cast is different depending on whether the t_id
// is an integral type or a pointer type. FreeBSD uses
// a pointer type, but doesn't have a _np function to
// get an integral type, like the OSes above.
ACE_OS::sprintf (bp, ACE_LIB_TEXT ("%lu"),
(unsigned long)t_id);
# endif /* ACE_HAS_PTHREADS_DRAFT4 && HPUX_10 */
#endif /* ACE_WIN32 */
break;
case 's':
type = 1 + wpc; // 1, 2, 3
break;
case 'W':
// @@ UNICODE
#if defined (ACE_WIN32)
fp[1] = 'S';
#endif /* ACE_WIN32 */
case 'd': case 'c': case 'i': case 'o':
case 'u': case 'x': case 'X':
type = 4 + wpc; // 4, 5, 6
break;
case 'F': case 'f': case 'e': case 'E':
case 'g': case 'G':
type = 7 + wpc; // 7, 8, 9
break;
case 'Q':
type = 10 + wpc;
break;
case '*': // consume width/precision
w[wpc++] = va_arg (argp, int);
break;
default:
// ?
break;
}
}
if (type != SKIP_SPRINTF)
{
c = *format; // Remember char before we overwrite.
*format = 0; // Overwrite, terminating format.
switch (type)
{
case 1:
ACE_OS::sprintf (bp, fp, va_arg (argp, ACE_TCHAR *));
break;
case 2:
ACE_OS::sprintf (bp, fp, w[0], va_arg (argp, ACE_TCHAR *));
bp += w[0];
type = SKIP_NUL_LOCATE;
break;
case 3:
ACE_OS::sprintf (bp, fp, w[0], w[1],
va_arg (argp, ACE_TCHAR *));
bp += w[0];
type = SKIP_NUL_LOCATE;
break;
case 4:
ACE_OS::sprintf (bp, fp, va_arg (argp, int));
break;
case 5:
ACE_OS::sprintf (bp, fp, w[0], va_arg (argp, int));
break;
case 6:
ACE_OS::sprintf (bp, fp, w[0], w[1], va_arg (argp, int));
break;
case 7:
ACE_OS::sprintf (bp, fp, va_arg (argp, double));
break;
case 8:
ACE_OS::sprintf (bp, fp, w[0], va_arg (argp, double));
break;
case 9:
ACE_OS::sprintf (bp, fp, w[0], w[1], va_arg (argp, double));
break;
case 10:
#if defined (ACE_LACKS_LONGLONG_T)
{
// This relies on the ACE_U_LongLong storage layout.
ACE_UINT32 hi = va_arg (argp, ACE_UINT32);
ACE_UINT32 lo = va_arg (argp, ACE_UINT32);
if (hi > 0)
ACE_OS::sprintf (bp, "0x%lx%0*lx", hi, 2 * sizeof lo,
lo);
else
ACE_OS::sprintf (bp, "0x%lx", lo);
}
#else /* ! ACE_LACKS_LONGLONG_T */
ACE_OS::sprintf (bp,
ACE_UINT64_FORMAT_SPECIFIER,
va_arg (argp, ACE_UINT64));
#endif /* ! ACE_LACKS_LONGLONG_T */
break;
}
*format = c; // Restore char we overwrote.
}
if (type != SKIP_NUL_LOCATE)
while (*bp != '\0') // Locate end of bp.
bp++;
}
}
*bp = '\0'; // Terminate bp, but don't auto-increment this!
ACE_OS::free (ACE_MALLOC_T (save_p));
// Check that memory was not corrupted.
if (bp >= this->msg_ + ACE_Log_Record::MAXLOGMSGLEN)
{
abort_prog = 1;
ACE_OS::fprintf (stderr,
"The following logged message is too long!\n");
}
// Copy the message from thread-specific storage into the transfer
// buffer (this can be optimized away by changing other code...).
log_record.msg_data (this->msg ());
// Write the <log_record> to the appropriate location.
ssize_t result = this->log (log_record,
abort_prog);
if (abort_prog)
{
// Since we are now calling abort instead of exit, this value is
// not used.
ACE_UNUSED_ARG (exit_value);
// *Always* print a message to stderr if we're aborting. We
// don't use verbose, however, to avoid recursive aborts if
// something is hosed.
log_record.print (ACE_Log_Msg::local_host_, 0);
#if defined (ACE_HAS_WINCE)
// @@ WINCE: Is this what we want to do?
while (1) ;
#else
ACE_OS::abort ();
#endif /* ACE_HAS_WINCE */
}
return result;
}
#if !defined (ACE_WIN32)
class ACE_Log_Msg_Sig_Guard
{
// = TITLE
// Bare-bones ACE_Sig_Guard.
//
// = DESCRIPTION
// For use only by ACE_Log_Msg.
// doesn't require the use of global variables or global
// functions in an application).
private:
ACE_Log_Msg_Sig_Guard (void);
~ACE_Log_Msg_Sig_Guard (void);
sigset_t omask_;
// Original signal mask.
friend ssize_t ACE_Log_Msg::log (ACE_Log_Record &log_record,
int suppress_stderr);
};
ACE_Log_Msg_Sig_Guard::ACE_Log_Msg_Sig_Guard (void)
{
#if !defined (ACE_LACKS_UNIX_SIGNALS)
ACE_OS::sigemptyset (&this->omask_);
# if defined (ACE_LACKS_PTHREAD_THR_SIGSETMASK)
ACE_OS::sigprocmask (SIG_BLOCK,
ACE_OS_Object_Manager::default_mask (),
&this->omask_);
# else
ACE_OS::thr_sigsetmask (SIG_BLOCK,
ACE_OS_Object_Manager::default_mask (),
&this->omask_);
# endif /* ACE_LACKS_PTHREAD_THR_SIGSETMASK */
#endif /* ACE_LACKS_UNIX_SIGNALS */
}
ACE_Log_Msg_Sig_Guard::~ACE_Log_Msg_Sig_Guard (void)
{
#if !defined (ACE_LACKS_UNIX_SIGNALS)
# if defined (ACE_LACKS_PTHREAD_THR_SIGSETMASK)
ACE_OS::sigprocmask (SIG_SETMASK,
&this->omask_,
0);
# else
ACE_OS::thr_sigsetmask (SIG_SETMASK,
&this->omask_,
0);
# endif /* ACE_LACKS_PTHREAD_THR_SIGSETMASK */
#endif /* ! ACE_LACKS_UNIX_SIGNALS */
}
#endif /* ! ACE_WIN32 */
ssize_t
ACE_Log_Msg::log (ACE_Log_Record &log_record,
int suppress_stderr)
{
ssize_t result = 0;
// Only print the message if "SILENT" mode is disabled.
if (ACE_BIT_DISABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::SILENT))
{
int tracing = this->tracing_enabled ();
this->stop_tracing ();
#if !defined (ACE_WIN32)
// Make this block signal-safe.
ACE_Log_Msg_Sig_Guard sb;
#endif /* !ACE_WIN32 && !ACE_PSOS */
// Make sure that the lock is held during all this.
ACE_MT (ACE_GUARD_RETURN (ACE_Recursive_Thread_Mutex, ace_mon,
*ACE_Log_Msg_Manager::get_lock (),
-1));
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::STDERR)
&& !suppress_stderr) // This is taken care of by our caller.
log_record.print (ACE_Log_Msg::local_host_,
ACE_Log_Msg::flags_
#if defined (ACE_HAS_WINCE)
);
#else
, stderr);
#endif /* ACE_HAS_WINCE */
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::LOGGER))
{
// Be sure that there is a message_queue_, with multiple threads.
ACE_MT (ACE_Log_Msg_Manager::get_lock ());
result =
ACE_Log_Msg_Manager::ipc_backend_->log (log_record);
}
// Format the message and print it to stderr and/or ship it off
// to the log_client daemon, and/or print it to the ostream.
// This must come last, after the other two print operations
// (see the <ACE_Log_Record::print> method for details).
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::OSTREAM)
&& this->msg_ostream () != 0)
log_record.print (ACE_Log_Msg::local_host_,
ACE_Log_Msg::flags_,
#if defined (ACE_LACKS_IOSTREAM_TOTALLY)
ACE_static_cast (FILE *,
this->msg_ostream ())
#else /* ! ACE_LACKS_IOSTREAM_TOTALLY */
*this->msg_ostream ()
#endif /* ! ACE_LACKS_IOSTREAM_TOTALLY */
);
if (ACE_BIT_ENABLED (ACE_Log_Msg::flags_,
ACE_Log_Msg::MSG_CALLBACK)
&& this->msg_callback () != 0)
{
// Use a "reverse lock" to avoid holding the lock during the
// callback so we don't have deadlock if the callback uses
// the logger.
ACE_MT (ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex> reverse_lock
(*ACE_Log_Msg_Manager::get_lock ()));
ACE_MT (ACE_GUARD_RETURN (ACE_Reverse_Lock<ACE_Recursive_Thread_Mutex>,
ace_mon_1, reverse_lock, -1));
this->msg_callback ()->log (log_record);
}
if (tracing)
this->start_tracing ();
}
return result;
}
// Calls log to do the actual print, but formats first.
int
ACE_Log_Msg::log_hexdump (ACE_Log_Priority log_priority,
const char *buffer,
int size,
const ACE_TCHAR *text)
{
ACE_TCHAR buf[ACE_Log_Record::MAXLOGMSGLEN -
ACE_Log_Record::VERBOSE_LEN - 58];
// 58 for the HEXDUMP header;
ACE_TCHAR msg_buf[80];
buf[0] = 0; // in case size = 0
int len = ACE::format_hexdump (buffer,
size,
buf,
sizeof (buf) / sizeof (ACE_TCHAR));
int sz = 0;
if (text)
sz = ACE_OS::sprintf (msg_buf,
ACE_LIB_TEXT ("%s - "),
text);
sz += ACE_OS::sprintf (msg_buf + sz,
ACE_LIB_TEXT ("HEXDUMP %d bytes"),
size);
if (len < size)
ACE_OS::sprintf (msg_buf + sz,
ACE_LIB_TEXT (" (showing first %d bytes)"),
len);
// Now print out the formatted buffer.
this->log (log_priority,
ACE_LIB_TEXT ("%s\n%s"),
msg_buf,
buf);
return 0;
}
void
ACE_Log_Msg::set (const ACE_TCHAR *filename,
int line,
int status,
int err,
int rs,
ACE_OSTREAM_TYPE *os,
ACE_Log_Msg_Callback *c)
{
ACE_TRACE ("ACE_Log_Msg::set");
this->file (filename);
this->linenum (line);
this->op_status (status);
this->errnum (err);
this->restart (rs);
this->msg_ostream (os);
this->msg_callback (c);
}
void
ACE_Log_Msg::conditional_set (const ACE_TCHAR *filename,
int line,
int status,
int err)
{
this->conditional_values_.is_set_ = 1;
this->conditional_values_.file_ = filename;
this->conditional_values_.line_ = line;
this->conditional_values_.op_status_ = status;
this->conditional_values_.errnum_ = err;
}
void
ACE_Log_Msg::dump (void) const
{
ACE_TRACE ("ACE_Log_Msg::dump");
ACE_DEBUG ((LM_DEBUG, ACE_BEGIN_DUMP, this));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("status_ = %d\n"), this->status_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nerrnum_ = %d\n"), this->errnum_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nlinenum_ = %d\n"), this->linenum_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nfile_ = %s\n"), this->file_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nmsg_ = %s\n"), this->msg_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nrestart_ = %d\n"), this->restart_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nostream_ = %x\n"), this->ostream_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nmsg_callback_ = %x\n"),
this->msg_callback_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nprogram_name_ = %s\n"),
this->program_name_ ? this->program_name_
: ACE_LIB_TEXT ("<unknown>")));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nlocal_host_ = %s\n"),
this->local_host_ ? this->local_host_
: ACE_LIB_TEXT ("<unknown>")));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\npid_ = %d\n"), this->getpid ()));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nflags_ = %x\n"), this->flags_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\ntrace_depth_ = %d\n"),
this->trace_depth_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\trace_active_ = %d\n"),
this->trace_active_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\tracing_enabled_ = %d\n"),
this->tracing_enabled_));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\npriority_mask_ = %x\n"),
this->priority_mask_));
if (this->thr_desc_ != 0 && this->thr_desc_->state () != 0)
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\thr_state_ = %d\n"),
this->thr_desc_->state ()));
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("\nmsg_off_ = %d\n"), this->msg_off_));
// Be sure that there is a message_queue_, with multiple threads.
ACE_MT (ACE_Log_Msg_Manager::get_lock ());
ACE_MT (ACE_Log_Msg_Manager::get_lock ()->dump ());
// Synchronize output operations.
ACE_DEBUG ((LM_DEBUG, ACE_END_DUMP));
}
void
ACE_Log_Msg::op_status (int status)
{
this->status_ = status;
}
int
ACE_Log_Msg::op_status (void)
{
return this->status_;
}
void
ACE_Log_Msg::restart (int r)
{
this->restart_ = r;
}
int
ACE_Log_Msg::restart (void)
{
return this->restart_;
}
int
ACE_Log_Msg::errnum (void)
{
return this->errnum_;
}
void
ACE_Log_Msg::errnum (int e)
{
this->errnum_ = e;
}
int
ACE_Log_Msg::linenum (void)
{
return this->linenum_;
}
void
ACE_Log_Msg::linenum (int l)
{
this->linenum_ = l;
}
int
ACE_Log_Msg::inc (void)
{
return this->trace_depth_++;
}
int
ACE_Log_Msg::dec (void)
{
return --this->trace_depth_;
}
int
ACE_Log_Msg::trace_depth (void)
{
return this->trace_depth_;
}
void
ACE_Log_Msg::trace_depth (int depth)
{
this->trace_depth_ = depth;
}
int
ACE_Log_Msg::trace_active (void)
{
return this->trace_active_;
}
void
ACE_Log_Msg::trace_active (int value)
{
this->trace_active_ = value;
}
ACE_Thread_Descriptor *
ACE_Log_Msg::thr_desc (void) const
{
return this->thr_desc_;
}
void
ACE_Log_Msg::thr_desc (ACE_Thread_Descriptor *td)
{
this->thr_desc_ = td;
if (td != 0)
td->acquire_release ();
}
#if defined (ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS) && !defined(ACE_HAS_LATEST_AND_GREATEST)
ACE_SEH_EXCEPT_HANDLER
ACE_Log_Msg::seh_except_selector (void)
{
return ACE_OS_Object_Manager::seh_except_selector ();
}
ACE_SEH_EXCEPT_HANDLER
ACE_Log_Msg::seh_except_selector (ACE_SEH_EXCEPT_HANDLER n)
{
return ACE_OS_Object_Manager::seh_except_selector (n);
}
ACE_SEH_EXCEPT_HANDLER
ACE_Log_Msg::seh_except_handler (void)
{
return ACE_OS_Object_Manager::seh_except_handler ();
}
ACE_SEH_EXCEPT_HANDLER
ACE_Log_Msg::seh_except_handler (ACE_SEH_EXCEPT_HANDLER n)
{
return ACE_OS_Object_Manager::seh_except_handler (n);
}
#endif /* ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS && !ACE_HAS_LATEST_AND_GREATEST */
// Enable the tracing facility on a per-thread basis.
void
ACE_Log_Msg::start_tracing (void)
{
this->tracing_enabled_ = 1;
}
// Disable the tracing facility on a per-thread basis.
void
ACE_Log_Msg::stop_tracing (void)
{
this->tracing_enabled_ = 0;
}
int
ACE_Log_Msg::tracing_enabled (void)
{
return this->tracing_enabled_;
}
const ACE_TCHAR *
ACE_Log_Msg::file (void)
{
return this->file_;
}
void
ACE_Log_Msg::file (const ACE_TCHAR *s)
{
ACE_OS::strncpy (this->file_, s,
(sizeof this->file_ / sizeof (ACE_TCHAR)));
}
const ACE_TCHAR *
ACE_Log_Msg::msg (void)
{
return this->msg_ + ACE_Log_Msg::msg_off_;
}
void
ACE_Log_Msg::msg (const ACE_TCHAR *m)
{
ACE_OS::strncpy (this->msg_, m,
(sizeof this->msg_ / sizeof (ACE_TCHAR)));
}
ACE_Log_Msg_Callback *
ACE_Log_Msg::msg_callback (void) const
{
return this->msg_callback_;
}
ACE_Log_Msg_Callback *
ACE_Log_Msg::msg_callback (ACE_Log_Msg_Callback *c)
{
ACE_Log_Msg_Callback *old = this->msg_callback_;
this->msg_callback_ = c;
return old;
}
ACE_OSTREAM_TYPE *
ACE_Log_Msg::msg_ostream (void) const
{
return this->ostream_;
}
void
ACE_Log_Msg::msg_ostream (ACE_OSTREAM_TYPE *m, int delete_ostream)
{
this->delete_ostream_ = delete_ostream;
this->ostream_ = m;
}
void
ACE_Log_Msg::msg_ostream (ACE_OSTREAM_TYPE *m)
{
this->ostream_ = m;
}
void
ACE_Log_Msg::local_host (const ACE_TCHAR *s)
{
if (s)
{
ACE_OS::free ((void *) ACE_Log_Msg::local_host_);
{
ACE_NO_HEAP_CHECK;
ACE_ALLOCATOR (ACE_Log_Msg::local_host_, ACE_OS::strdup (s));
}
}
}
const ACE_TCHAR *
ACE_Log_Msg::local_host (void) const
{
return ACE_Log_Msg::local_host_;
}
pid_t
ACE_Log_Msg::getpid (void) const
{
if (ACE_Log_Msg::pid_ == -1)
ACE_Log_Msg::pid_ = ACE_OS::getpid ();
return ACE_Log_Msg::pid_;
}
int
ACE_Log_Msg::log_priority_enabled (ACE_Log_Priority log_priority,
const char *,
...)
{
return this->log_priority_enabled (log_priority);
}
#if defined (ACE_USES_WCHAR)
int
ACE_Log_Msg::log_priority_enabled (ACE_Log_Priority log_priority,
const wchar_t *,
...)
{
return this->log_priority_enabled (log_priority);
}
#endif /* ACE_USES_WCHAR */
// ****************************************************************
void
ACE_Log_Msg::init_hook (ACE_OS_Log_Msg_Attributes &attributes
# if defined (ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS)
, ACE_SEH_EXCEPT_HANDLER selector
, ACE_SEH_EXCEPT_HANDLER handler
# endif /* ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS */
)
{
# if defined (ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS)
attributes.seh_except_selector_ = selector;
attributes.seh_except_handler_ = handler;
# endif /* ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS */
if (ACE_Log_Msg::exists ())
{
ACE_Log_Msg *inherit_log = ACE_LOG_MSG;
attributes.ostream_ = inherit_log->msg_ostream ();
attributes.priority_mask_ = inherit_log->priority_mask ();
attributes.tracing_enabled_ = inherit_log->tracing_enabled ();
attributes.restart_ = inherit_log->restart ();
attributes.trace_depth_ = inherit_log->trace_depth ();
}
}
#if defined (ACE_THREADS_DONT_INHERIT_LOG_MSG) || \
defined (ACE_HAS_MINIMAL_ACE_OS)
# if defined (ACE_PSOS)
// Unique file identifier
static int ACE_PSOS_unique_file_id = 0;
# endif /* ACE_PSOS */
#endif /* ACE_THREADS_DONT_INHERIT_LOG_MSG) || ACE_HAS_MINIMAL_ACE_OS */
void
ACE_Log_Msg::inherit_hook (ACE_OS_Thread_Descriptor *thr_desc,
ACE_OS_Log_Msg_Attributes &attributes)
{
#if !defined (ACE_THREADS_DONT_INHERIT_LOG_MSG) && \
!defined (ACE_HAS_MINIMAL_ACE_OS)
// Inherit the logging features if the parent thread has an
// <ACE_Log_Msg>. Note that all of the following operations occur
// within thread-specific storage.
ACE_Log_Msg *new_log = ACE_LOG_MSG;
// Note that we do not inherit the callback because this might have
// been allocated off of the stack of the original thread, in which
// case all hell would break loose...
if (attributes.ostream_)
{
new_log->msg_ostream (attributes.ostream_);
new_log->priority_mask (attributes.priority_mask_);
if (attributes.tracing_enabled_)
new_log->start_tracing ();
new_log->restart (attributes.restart_);
new_log->trace_depth (attributes.trace_depth_);
}
# if defined (ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS)
new_log->seh_except_selector (attributes.seh_except_selector_);
new_log->seh_except_handler (attributes.seh_except_handler_);
# endif /* ACE_HAS_WIN32_STRUCTURAL_EXCEPTIONS */
// @@ Now the TSS Log_Msg has been created, cache my thread
// descriptor in.
if (thr_desc != 0)
// This downcast is safe. We do it to avoid having to #include
// ace/Thread_Manager.h.
new_log->thr_desc (ACE_static_cast (ACE_Thread_Descriptor *,
thr_desc));
// Block the thread from proceeding until
// thread manager has thread descriptor ready.
# else /* Don't inherit Log Msg */
# if defined (ACE_PSOS)
//Create a special name for each thread...
char new_name[MAXPATHLEN]={"Ace_thread-"};
char new_id[2]={0,0}; //Now it's pre-terminated!
new_id[0] = '0' + (ACE_PSOS_unique_file_id++); //Unique identifier
ACE_OS::strcat(new_name, new_id);
//Initialize the task specific logger
ACE_LOG_MSG->open(new_name);
ACE_DEBUG ((LM_DEBUG, ACE_LIB_TEXT ("(%P|%t) starting %s thread at %D\n"),new_name));
# endif /* ACE_PSOS */
#endif /* ! ACE_THREADS_DONT_INHERIT_LOG_MSG && ! ACE_HAS_MINIMAL_ACE_OS */
}
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