Exemple #1
0
float
sysapi_load_avg_raw(void)
{
  struct pst_dynamic d;
  	/* make numcpus static so we do not have to recompute
	 * numcpus every time the load average is requested.
	 * after all, the number of cpus is not going to change!
	 * we need to multiply the value the HPUX kerenel gives
	 * us by the number of CPUs, because on SMP HPUX the kernel
	 * "distributes" the load average across all CPUs.  But
	 * no other Unix does that, so our startd assumes otherwise.
	 * So we multiply by the number of CPUs so HPUX SMP load avg
	 * is reported the same way as other Unixes. -Todd
	 */
  static int numcpus = 0;  

  sysapi_internal_reconfig();
  if ( numcpus == 0 ) {
    numcpus = sysapi_ncpus();
	if ( numcpus < 1 ) {
		numcpus = 1;
	}
  }

  if ( pstat_getdynamic ( &d, sizeof(d), (size_t)1, 0) != -1 ) {
    return (d.psd_avg_1_min * numcpus);
  }
  else {
    return -1.0;
  }
}
Exemple #2
0
float
sysapi_load_avg_raw(void)
{
	static HANDLE threadHandle = NULL;
	static int threadID = -1;
	time_t currentTime;
	double totalLoad=0.0;
	DWORD exitCode = 0;
	BOOL createNewThread = FALSE;
	int numSamples=0, i;

	sysapi_internal_reconfig();
	
	if (threadHandle == NULL) {
		ncpus = sysapi_ncpus();
		InitializeCriticalSection(&cs);
		createNewThread = TRUE;	
	} else {
		if ( ! GetExitCodeThread( threadHandle, &exitCode ) ) {
			dprintf(D_ALWAYS, "GetExitCodeThread() failed. (err=%li)\n",
				   	GetLastError());
		} else {
			if ( exitCode != STILL_ACTIVE ) {
				// somehow the thread died, so we should get its
				// return code, dprintf it and then start a new thread.
				
				dprintf(D_ALWAYS, "loadavg thread died, restarting. "
						"(exit code=%li)\n", exitCode);
				CloseHandle(threadHandle);
				createNewThread = TRUE;
			} else {
				// thread is still alive and well. Go in peace.
				createNewThread = FALSE;
			}
		}
	}
	
	if ( createNewThread == TRUE ) {
		threadHandle = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)sample_load, 
			NULL, 0, (LPDWORD)&threadID);
		if (threadHandle == NULL) {
#ifndef TESTING
			dprintf(D_ALWAYS, "failed to create loadavg thread, errno = %d\n",
				GetLastError());
#endif
			return 0.0;
		}
		Sleep(SAMPLE_INTERVAL*5);	/* wait for ~5 samples */
	}
	
	currentTime = time(NULL);
	
	EnterCriticalSection(&cs);
	for (i=0; i < NUM_SAMPLES; i++) {
		/* if this sample occurred within the minute, then add to total */
		if ((currentTime-60) <= samples[i].sampletime) {
			totalLoad += samples[i].load;
			numSamples++;
		}
	}
	LeaveCriticalSection(&cs);

	if (numSamples == 0) {
#ifndef TESTING
		dprintf(D_ALWAYS, "no loadavg samples this minute, maybe thread died???\n");
#endif
		return 0.0;
	}

#ifndef TESTING
	dprintf(D_LOAD, "loadavg=%.2f with %d samples\n",
			((float)totalLoad)/((float)numSamples), numSamples);
#endif

	return ((float)totalLoad)/((float)numSamples);
}
Exemple #3
0
MachAttributes::MachAttributes()
   : m_user_specified(NULL, ";"), m_user_settings_init(false), m_named_chroot()
{
	m_mips = -1;
	m_kflops = -1;
	m_last_benchmark = 0;
	m_last_keypress = time(0)-1;
	m_seen_keypress = false;

	m_arch = NULL;
	m_opsys = NULL;
	m_opsysver = 0;
	m_opsys_and_ver = NULL;
	m_opsys_major_ver = 0;
	m_opsys_name = NULL;
	m_opsys_long_name = NULL;
	m_opsys_short_name = NULL;
	m_opsys_legacy = NULL;
	m_uid_domain = NULL;
	m_filesystem_domain = NULL;
	m_idle_interval = -1;
	m_ckptpltfrm = NULL;

	m_clock_day = -1;
	m_clock_min = -1;
	m_condor_load = -1.0;
	m_console_idle = 0;
	m_idle = 0;
	m_load = -1.0;
	m_owner_load = -1.0;
	m_virt_mem = 0;

		// Number of CPUs.  Since this is used heavily by the ResMgr
		// instantiation and initialization, we need to have a real
		// value for this as soon as the MachAttributes object exists.
	m_num_cpus = sysapi_ncpus();

	m_num_real_cpus = sysapi_ncpus_raw();

		// The same is true of physical memory.  If we had an error in
		// sysapi_phys_memory(), we need to just EXCEPT with a message
		// telling the user to define MEMORY manually.
	m_phys_mem = sysapi_phys_memory();
	if( m_phys_mem <= 0 ) {
		dprintf( D_ALWAYS, 
				 "Error computing physical memory with calc_phys_mem().\n" );
		dprintf( D_ALWAYS | D_NOHEADER, 
				 "\t\tMEMORY parameter not defined in config file.\n" );
		dprintf( D_ALWAYS | D_NOHEADER, 
				 "\t\tTry setting MEMORY to the number of megabytes of RAM.\n"
				 );
		EXCEPT( "Can't compute physical memory." );
	}

	dprintf( D_FULLDEBUG, "Memory: Detected %d megs RAM\n", m_phys_mem );

		// identification of the checkpointing platform signature
    const char * ckptpltfrm = param( ATTR_CHECKPOINT_PLATFORM );
	if( ckptpltfrm == NULL ) {
    	ckptpltfrm = sysapi_ckptpltfrm();
    }
    m_ckptpltfrm = strdup( ckptpltfrm );

        // temporary attributes for raw utsname info
	m_utsname_sysname = NULL;
	m_utsname_nodename = NULL;
	m_utsname_release = NULL;
	m_utsname_version = NULL;
	m_utsname_machine = NULL;


#if defined ( WIN32 )
	// Get the version information of the copy of Windows 
	// we are running
	ZeroMemory ( &m_window_version_info, sizeof ( OSVERSIONINFOEX ) );
	m_window_version_info.dwOSVersionInfoSize = 
		sizeof ( OSVERSIONINFOEX );	
	m_got_windows_version_info = 
		GetVersionEx ( (OSVERSIONINFO*) &m_window_version_info );
	if ( !m_got_windows_version_info ) {
		m_window_version_info.dwOSVersionInfoSize = 
			sizeof ( OSVERSIONINFO );	
		m_got_windows_version_info = 
			GetVersionEx ( (OSVERSIONINFO*) &m_window_version_info );
		if ( !m_got_windows_version_info ) {
			dprintf ( D_ALWAYS, "MachAttributes: failed to "
				"get Windows version information.\n" );
		}
	}
	m_local_credd = NULL;
	m_last_credd_test = 0;
    m_dot_Net_Versions = NULL;
#endif
}