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/* Get the system load averages.
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Copyright ( C ) 1985 - 1989 , 1991 - 1995 , 1997 , 1999 - 2000 , 2003 - 2010 Free Software
Foundation , Inc .
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NOTE : The canonical source of this file is maintained with gnulib .
Bugs can be reported to bug - gnulib @ gnu . org .
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This program is free software : you can redistribute it and / or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation ; either version 3 of the License , or
( at your option ) any later version .
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This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
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along with this program . If not , see < http : //www.gnu.org/licenses/>. */
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/* Compile-time symbols that this file uses:
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HAVE_PSTAT_GETDYNAMIC Define this if your system has the
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pstat_getdynamic function . I think it
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is unique to HPUX9 . The best way to get the
definition is through the AC_FUNC_GETLOADAVG
macro that comes with autoconf 2.13 or newer .
If that isn ' t an option , then just put
AC_CHECK_FUNCS ( pstat_getdynamic ) in your
configure . in file .
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HAVE_LIBPERFSTAT Define this if your system has the
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perfstat_cpu_total function in libperfstat ( AIX ) .
FIXUP_KERNEL_SYMBOL_ADDR ( ) Adjust address in returned struct nlist .
KERNEL_FILE Name of the kernel file to nlist .
LDAV_CVT ( ) Scale the load average from the kernel .
Returns a double .
LDAV_SYMBOL Name of kernel symbol giving load average .
LOAD_AVE_TYPE Type of the load average array in the kernel .
Must be defined unless one of
apollo , DGUX , NeXT , or UMAX is defined ;
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or we have libkstat ;
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otherwise , no load average is available .
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HAVE_NLIST_H nlist . h is available . NLIST_STRUCT defaults
to this .
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NLIST_STRUCT Include nlist . h , not a . out . h .
N_NAME_POINTER The nlist n_name element is a pointer ,
not an array .
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HAVE_STRUCT_NLIST_N_UN_N_NAME ` n_un . n_name ' is member of ` struct nlist ' .
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LINUX_LDAV_FILE [ __linux__ , __CYGWIN__ ] : File containing
load averages .
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Specific system predefines this file uses , aside from setting
default values if not emacs :
apollo
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BSD Real BSD , not just BSD - like .
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convex
DGUX
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eunice UNIX emulator under VMS .
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hpux
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__MSDOS__ No - op for MSDOS .
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NeXT
sgi
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sequent Sequent Dynix 3. x . x ( BSD )
_SEQUENT_ Sequent DYNIX / ptx 1. x . x ( SYSV )
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sony_news NEWS - OS ( works at least for 4.1 C )
UMAX
UMAX4_3
VMS
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WINDOWS32 No - op for Windows95 / NT .
__linux__ Linux : assumes / proc file system mounted .
Support from Michael K . Johnson .
__CYGWIN__ Cygwin emulates linux / proc / loadavg .
__NetBSD__ NetBSD : assumes / kern file system mounted .
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In addition , to avoid nesting many # ifdefs , we internally set
LDAV_DONE to indicate that the load average has been computed .
We also # define LDAV_PRIVILEGED if a program will require
special installation to be able to call getloadavg . */
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/* "configure" defines CONFIGURING_GETLOADAVG to sidestep problems
with partially - configured source directories . */
# ifndef CONFIGURING_GETLOADAVG
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# include <config.h>
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# include <stdbool.h>
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# endif
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/* Specification. */
# include <stdlib.h>
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# include <errno.h>
# include <stdio.h>
/* Exclude all the code except the test program at the end
if the system has its own ` getloadavg ' function . */
# ifndef HAVE_GETLOADAVG
# include <sys / types.h>
/* Both the Emacs and non-Emacs sections want this. Some
configuration files ' definitions for the LOAD_AVE_CVT macro ( like
sparc . h ' s ) use macros like FSCALE , defined here . */
# if defined (unix) || defined (__unix)
# include <sys / param.h>
# endif
# include "c-strtod.h"
# include "cloexec.h"
# include "intprops.h"
/* The existing Emacs configuration files define a macro called
LOAD_AVE_CVT , which accepts a value of type LOAD_AVE_TYPE , and
returns the load average multiplied by 100. What we actually want
is a macro called LDAV_CVT , which returns the load average as an
unmultiplied double .
For backwards compatibility , we ' ll define LDAV_CVT in terms of
LOAD_AVE_CVT , but future machine config files should just define
LDAV_CVT directly . */
# if !defined (LDAV_CVT) && defined (LOAD_AVE_CVT)
# define LDAV_CVT(n) (LOAD_AVE_CVT (n) / 100.0)
# endif
# if !defined (BSD) && defined (ultrix)
/* Ultrix behaves like BSD on Vaxen. */
# define BSD
# endif
# ifdef NeXT
/* NeXT in the 2.{0,1,2} releases defines BSD in <sys/param.h>, which
conflicts with the definition understood in this file , that this
really is BSD . */
# undef BSD
/* NeXT defines FSCALE in <sys/param.h>. However, we take FSCALE being
defined to mean that the nlist method should be used , which is not true . */
# undef FSCALE
# endif
/* Same issues as for NeXT apply to the HURD-based GNU system. */
# ifdef __GNU__
# undef BSD
# undef FSCALE
# endif /* __GNU__ */
/* Set values that are different from the defaults, which are
set a little farther down with # ifndef . */
/* Some shorthands. */
# if defined (HPUX) && !defined (hpux)
# define hpux
# endif
# if defined (__hpux) && !defined (hpux)
# define hpux
# endif
# if defined (__sun) && !defined (sun)
# define sun
# endif
# if defined (hp300) && !defined (hpux)
# define MORE_BSD
# endif
# if defined (ultrix) && defined (mips)
# define decstation
# endif
# if defined (__SVR4) && !defined (SVR4)
# define SVR4
# endif
# if (defined (sun) && defined (SVR4)) || defined (SOLARIS2)
# define SUNOS_5
# endif
# if defined (__osf__) && (defined (__alpha) || defined (__alpha__))
# define OSF_ALPHA
# include <sys / mbuf.h>
# include <sys / socket.h>
# include <net / route.h>
# include <sys / table.h>
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/* Tru64 4.0D's table.h redefines sys */
# undef sys
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# endif
# if defined (__osf__) && (defined (mips) || defined (__mips__))
# define OSF_MIPS
# include <sys / table.h>
# endif
/* UTek's /bin/cc on the 4300 has no architecture specific cpp define by
default , but _MACH_IND_SYS_TYPES is defined in < sys / types . h > . Combine
that with a couple of other things and we ' ll have a unique match . */
# if !defined (tek4300) && defined (unix) && defined (m68k) && defined (mc68000) && defined (mc68020) && defined (_MACH_IND_SYS_TYPES)
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# define tek4300 /* Define by emacs, but not by other users. */
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# endif
/* VAX C can't handle multi-line #ifs, or lines longer than 256 chars. */
# ifndef LOAD_AVE_TYPE
# ifdef MORE_BSD
# define LOAD_AVE_TYPE long
# endif
# ifdef sun
# define LOAD_AVE_TYPE long
# endif
# ifdef decstation
# define LOAD_AVE_TYPE long
# endif
# ifdef _SEQUENT_
# define LOAD_AVE_TYPE long
# endif
# ifdef sgi
# define LOAD_AVE_TYPE long
# endif
# ifdef SVR4
# define LOAD_AVE_TYPE long
# endif
# ifdef sony_news
# define LOAD_AVE_TYPE long
# endif
# ifdef sequent
# define LOAD_AVE_TYPE long
# endif
# ifdef OSF_ALPHA
# define LOAD_AVE_TYPE long
# endif
# if defined (ardent) && defined (titan)
# define LOAD_AVE_TYPE long
# endif
# ifdef tek4300
# define LOAD_AVE_TYPE long
# endif
# if defined (alliant) && defined (i860) /* Alliant FX/2800 */
# define LOAD_AVE_TYPE long
# endif
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# if defined _AIX && ! defined HAVE_LIBPERFSTAT
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# define LOAD_AVE_TYPE long
# endif
# ifdef convex
# define LOAD_AVE_TYPE double
# ifndef LDAV_CVT
# define LDAV_CVT(n) (n)
# endif
# endif
# endif /* No LOAD_AVE_TYPE. */
# ifdef OSF_ALPHA
/* <sys/param.h> defines an incorrect value for FSCALE on Alpha OSF/1,
according to ghazi @ noc . rutgers . edu . */
# undef FSCALE
# define FSCALE 1024.0
# endif
# if defined (alliant) && defined (i860) /* Alliant FX/2800 */
/* <sys/param.h> defines an incorrect value for FSCALE on an
Alliant FX / 2800 Concentrix 2.2 , according to ghazi @ noc . rutgers . edu . */
# undef FSCALE
# define FSCALE 100.0
# endif
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# ifndef FSCALE
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/* SunOS and some others define FSCALE in sys/param.h. */
# ifdef MORE_BSD
# define FSCALE 2048.0
# endif
# if defined (MIPS) || defined (SVR4) || defined (decstation)
# define FSCALE 256
# endif
# if defined (sgi) || defined (sequent)
/* Sometimes both MIPS and sgi are defined, so FSCALE was just defined
above under # ifdef MIPS . But we want the sgi value . */
# undef FSCALE
# define FSCALE 1000.0
# endif
# if defined (ardent) && defined (titan)
# define FSCALE 65536.0
# endif
# ifdef tek4300
# define FSCALE 100.0
# endif
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# if defined _AIX && !defined HAVE_LIBPERFSTAT
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# define FSCALE 65536.0
# endif
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# endif /* Not FSCALE. */
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# if !defined (LDAV_CVT) && defined (FSCALE)
# define LDAV_CVT(n) (((double) (n)) / FSCALE)
# endif
# ifndef NLIST_STRUCT
# if HAVE_NLIST_H
# define NLIST_STRUCT
# endif
# endif
# if defined (sgi) || (defined (mips) && !defined (BSD))
# define FIXUP_KERNEL_SYMBOL_ADDR(nl) ((nl)[0].n_value &= ~(1 << 31))
# endif
# if !defined (KERNEL_FILE) && defined (sequent)
# define KERNEL_FILE " / dynix"
# endif
# if !defined (KERNEL_FILE) && defined (hpux)
# define KERNEL_FILE " / hp-ux"
# endif
# if !defined (KERNEL_FILE) && (defined (_SEQUENT_) || defined (MIPS) || defined (SVR4) || defined (ISC) || defined (sgi) || (defined (ardent) && defined (titan)))
# define KERNEL_FILE " / unix"
# endif
# if !defined (LDAV_SYMBOL) && defined (alliant)
# define LDAV_SYMBOL "_Loadavg"
# endif
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# if !defined (LDAV_SYMBOL) && ((defined (hpux) && !defined (hp9000s300)) || defined (_SEQUENT_) || defined (SVR4) || defined (ISC) || defined (sgi) || (defined (ardent) && defined (titan)) || (defined (_AIX) && !defined(HAVE_LIBPERFSTAT)))
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# define LDAV_SYMBOL "avenrun"
# endif
# include <unistd.h>
/* LOAD_AVE_TYPE should only get defined if we're going to use the
nlist method . */
# if !defined (LOAD_AVE_TYPE) && (defined (BSD) || defined (LDAV_CVT) || defined (KERNEL_FILE) || defined (LDAV_SYMBOL))
# define LOAD_AVE_TYPE double
# endif
# ifdef LOAD_AVE_TYPE
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# ifndef __VMS
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# ifndef __linux__
# ifndef NLIST_STRUCT
# include <a.out.h>
# else /* NLIST_STRUCT */
# include <nlist.h>
# endif /* NLIST_STRUCT */
# ifdef SUNOS_5
# include <fcntl.h>
# include <kvm.h>
# include <kstat.h>
# endif
# if defined (hpux) && defined (HAVE_PSTAT_GETDYNAMIC)
# include <sys / pstat.h>
# endif
# ifndef KERNEL_FILE
# define KERNEL_FILE " / vmunix"
# endif /* KERNEL_FILE */
# ifndef LDAV_SYMBOL
# define LDAV_SYMBOL "_avenrun"
# endif /* LDAV_SYMBOL */
# endif /* __linux__ */
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# else /* __VMS */
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# ifndef eunice
# include <iodef.h>
# include <descrip.h>
# else /* eunice */
# include <vms / iodef.h>
# endif /* eunice */
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# endif /* __VMS */
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# ifndef LDAV_CVT
# define LDAV_CVT(n) ((double) (n))
# endif /* !LDAV_CVT */
# endif /* LOAD_AVE_TYPE */
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# if defined HAVE_LIBPERFSTAT
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# include <sys / protosw.h>
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# include <libperfstat.h>
# include <sys / proc.h>
# ifndef SBITS
# define SBITS 16
# endif
# endif
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# if defined (__GNU__) && !defined (NeXT)
/* Note that NeXT Openstep defines __GNU__ even though it should not. */
/* GNU system acts much like NeXT, for load average purposes,
but not exactly . */
# define NeXT
# define host_self mach_host_self
# endif
# ifdef NeXT
# ifdef HAVE_MACH_MACH_H
# include <mach / mach.h>
# else
# include <mach.h>
# endif
# endif /* NeXT */
# ifdef sgi
# include <sys / sysmp.h>
# endif /* sgi */
# ifdef UMAX
# include <signal.h>
# include <sys / time.h>
# include <sys / wait.h>
# include <sys / syscall.h>
# ifdef UMAX_43
# include <machine / cpu.h>
# include <inq_stats / statistics.h>
# include <inq_stats / sysstats.h>
# include <inq_stats / cpustats.h>
# include <inq_stats / procstats.h>
# else /* Not UMAX_43. */
# include <sys / sysdefs.h>
# include <sys / statistics.h>
# include <sys / sysstats.h>
# include <sys / cpudefs.h>
# include <sys / cpustats.h>
# include <sys / procstats.h>
# endif /* Not UMAX_43. */
# endif /* UMAX */
# ifdef DGUX
# include <sys / dg_sys_info.h>
# endif
# include "fcntl--.h"
/* Avoid static vars inside a function since in HPUX they dump as pure. */
# ifdef NeXT
static processor_set_t default_set ;
static bool getloadavg_initialized ;
# endif /* NeXT */
# ifdef UMAX
static unsigned int cpus = 0 ;
static unsigned int samples ;
# endif /* UMAX */
# ifdef DGUX
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static struct dg_sys_info_load_info load_info ; /* what-a-mouthful! */
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# endif /* DGUX */
# if !defined (HAVE_LIBKSTAT) && defined (LOAD_AVE_TYPE)
/* File descriptor open to /dev/kmem or VMS load ave driver. */
static int channel ;
/* True iff channel is valid. */
static bool getloadavg_initialized ;
/* Offset in kmem to seek to read load average, or 0 means invalid. */
static long offset ;
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# if ! defined __VMS && ! defined sgi && ! defined __linux__
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static struct nlist nl [ 2 ] ;
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# endif
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# ifdef SUNOS_5
static kvm_t * kd ;
# endif /* SUNOS_5 */
# endif /* LOAD_AVE_TYPE && !HAVE_LIBKSTAT */
/* Put the 1 minute, 5 minute and 15 minute load averages
into the first NELEM elements of LOADAVG .
Return the number written ( never more than 3 , but may be less than NELEM ) ,
or - 1 if an error occurred . */
int
getloadavg ( double loadavg [ ] , int nelem )
{
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int elem = 0 ; /* Return value. */
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# ifdef NO_GET_LOAD_AVG
# define LDAV_DONE
/* Set errno to zero to indicate that there was no particular error;
this function just can ' t work at all on this system . */
errno = 0 ;
elem = - 1 ;
# endif
# if !defined (LDAV_DONE) && defined (HAVE_LIBKSTAT)
/* Use libkstat because we don't have to be root. */
# define LDAV_DONE
kstat_ctl_t * kc ;
kstat_t * ksp ;
kstat_named_t * kn ;
kc = kstat_open ( ) ;
if ( kc = = 0 )
return - 1 ;
ksp = kstat_lookup ( kc , " unix " , 0 , " system_misc " ) ;
if ( ksp = = 0 )
return - 1 ;
if ( kstat_read ( kc , ksp , 0 ) = = - 1 )
return - 1 ;
kn = kstat_data_lookup ( ksp , " avenrun_1min " ) ;
if ( kn = = 0 )
{
/* Return -1 if no load average information is available. */
nelem = 0 ;
elem = - 1 ;
}
if ( nelem > = 1 )
loadavg [ elem + + ] = ( double ) kn - > value . ul / FSCALE ;
if ( nelem > = 2 )
{
kn = kstat_data_lookup ( ksp , " avenrun_5min " ) ;
if ( kn ! = 0 )
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{
loadavg [ elem + + ] = ( double ) kn - > value . ul / FSCALE ;
if ( nelem > = 3 )
{
kn = kstat_data_lookup ( ksp , " avenrun_15min " ) ;
if ( kn ! = 0 )
loadavg [ elem + + ] = ( double ) kn - > value . ul / FSCALE ;
}
}
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}
kstat_close ( kc ) ;
# endif /* HAVE_LIBKSTAT */
# if !defined (LDAV_DONE) && defined (hpux) && defined (HAVE_PSTAT_GETDYNAMIC)
/* Use pstat_getdynamic() because we don't have to be root. */
# define LDAV_DONE
# undef LOAD_AVE_TYPE
struct pst_dynamic dyn_info ;
if ( pstat_getdynamic ( & dyn_info , sizeof ( dyn_info ) , 0 , 0 ) < 0 )
return - 1 ;
if ( nelem > 0 )
loadavg [ elem + + ] = dyn_info . psd_avg_1_min ;
if ( nelem > 1 )
loadavg [ elem + + ] = dyn_info . psd_avg_5_min ;
if ( nelem > 2 )
loadavg [ elem + + ] = dyn_info . psd_avg_15_min ;
# endif /* hpux && HAVE_PSTAT_GETDYNAMIC */
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# if ! defined LDAV_DONE && defined HAVE_LIBPERFSTAT
# define LDAV_DONE
# undef LOAD_AVE_TYPE
/* Use perfstat_cpu_total because we don't have to be root. */
{
perfstat_cpu_total_t cpu_stats ;
int result = perfstat_cpu_total ( NULL , & cpu_stats , sizeof cpu_stats , 1 ) ;
if ( result = = - 1 )
return result ;
loadavg [ 0 ] = cpu_stats . loadavg [ 0 ] / ( double ) ( 1 < < SBITS ) ;
loadavg [ 1 ] = cpu_stats . loadavg [ 1 ] / ( double ) ( 1 < < SBITS ) ;
loadavg [ 2 ] = cpu_stats . loadavg [ 2 ] / ( double ) ( 1 < < SBITS ) ;
elem = 3 ;
}
# endif
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# if !defined (LDAV_DONE) && (defined (__linux__) || defined (__CYGWIN__))
# define LDAV_DONE
# undef LOAD_AVE_TYPE
# ifndef LINUX_LDAV_FILE
# define LINUX_LDAV_FILE " / proc / loadavg"
# endif
char ldavgbuf [ 3 * ( INT_STRLEN_BOUND ( int ) + sizeof " .00 " ) ] ;
char const * ptr = ldavgbuf ;
int fd , count ;
fd = open ( LINUX_LDAV_FILE , O_RDONLY ) ;
if ( fd = = - 1 )
return - 1 ;
count = read ( fd , ldavgbuf , sizeof ldavgbuf - 1 ) ;
( void ) close ( fd ) ;
if ( count < = 0 )
return - 1 ;
ldavgbuf [ count ] = ' \0 ' ;
for ( elem = 0 ; elem < nelem ; elem + + )
{
char * endptr ;
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double d ;
errno = 0 ;
d = c_strtod ( ptr , & endptr ) ;
if ( ptr = = endptr | | ( d = = 0 & & errno ! = 0 ) )
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{
if ( elem = = 0 )
return - 1 ;
break ;
}
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loadavg [ elem ] = d ;
ptr = endptr ;
}
return elem ;
# endif /* __linux__ || __CYGWIN__ */
# if !defined (LDAV_DONE) && defined (__NetBSD__)
# define LDAV_DONE
# undef LOAD_AVE_TYPE
# ifndef NETBSD_LDAV_FILE
# define NETBSD_LDAV_FILE " / kern / loadavg"
# endif
unsigned long int load_ave [ 3 ] , scale ;
int count ;
FILE * fp ;
fp = fopen ( NETBSD_LDAV_FILE , " r " ) ;
if ( fp = = NULL )
return - 1 ;
count = fscanf ( fp , " %lu %lu %lu %lu \n " ,
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& load_ave [ 0 ] , & load_ave [ 1 ] , & load_ave [ 2 ] ,
& scale ) ;
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( void ) fclose ( fp ) ;
if ( count ! = 4 )
return - 1 ;
for ( elem = 0 ; elem < nelem ; elem + + )
loadavg [ elem ] = ( double ) load_ave [ elem ] / ( double ) scale ;
return elem ;
# endif /* __NetBSD__ */
# if !defined (LDAV_DONE) && defined (NeXT)
# define LDAV_DONE
/* The NeXT code was adapted from iscreen 3.2. */
host_t host ;
struct processor_set_basic_info info ;
unsigned int info_count ;
/* We only know how to get the 1-minute average for this system,
so even if the caller asks for more than 1 , we only return 1. */
if ( ! getloadavg_initialized )
{
if ( processor_set_default ( host_self ( ) , & default_set ) = = KERN_SUCCESS )
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getloadavg_initialized = true ;
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}
if ( getloadavg_initialized )
{
info_count = PROCESSOR_SET_BASIC_INFO_COUNT ;
if ( processor_set_info ( default_set , PROCESSOR_SET_BASIC_INFO , & host ,
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( processor_set_info_t ) & info , & info_count )
! = KERN_SUCCESS )
getloadavg_initialized = false ;
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else
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{
if ( nelem > 0 )
loadavg [ elem + + ] = ( double ) info . load_average / LOAD_SCALE ;
}
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}
if ( ! getloadavg_initialized )
return - 1 ;
# endif /* NeXT */
# if !defined (LDAV_DONE) && defined (UMAX)
# define LDAV_DONE
/* UMAX 4.2, which runs on the Encore Multimax multiprocessor, does not
have a / dev / kmem . Information about the workings of the running kernel
can be gathered with inq_stats system calls .
We only know how to get the 1 - minute average for this system . */
struct proc_summary proc_sum_data ;
struct stat_descr proc_info ;
double load ;
register unsigned int i , j ;
if ( cpus = = 0 )
{
register unsigned int c , i ;
struct cpu_config conf ;
struct stat_descr desc ;
desc . sd_next = 0 ;
desc . sd_subsys = SUBSYS_CPU ;
desc . sd_type = CPUTYPE_CONFIG ;
desc . sd_addr = ( char * ) & conf ;
desc . sd_size = sizeof conf ;
if ( inq_stats ( 1 , & desc ) )
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return - 1 ;
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c = 0 ;
for ( i = 0 ; i < conf . config_maxclass ; + + i )
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{
struct class_stats stats ;
bzero ( ( char * ) & stats , sizeof stats ) ;
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desc . sd_type = CPUTYPE_CLASS ;
desc . sd_objid = i ;
desc . sd_addr = ( char * ) & stats ;
desc . sd_size = sizeof stats ;
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if ( inq_stats ( 1 , & desc ) )
return - 1 ;
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c + = stats . class_numcpus ;
}
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cpus = c ;
samples = cpus < 2 ? 3 : ( 2 * cpus / 3 ) ;
}
proc_info . sd_next = 0 ;
proc_info . sd_subsys = SUBSYS_PROC ;
proc_info . sd_type = PROCTYPE_SUMMARY ;
proc_info . sd_addr = ( char * ) & proc_sum_data ;
proc_info . sd_size = sizeof ( struct proc_summary ) ;
proc_info . sd_sizeused = 0 ;
if ( inq_stats ( 1 , & proc_info ) ! = 0 )
return - 1 ;
load = proc_sum_data . ps_nrunnable ;
j = 0 ;
for ( i = samples - 1 ; i > 0 ; - - i )
{
load + = proc_sum_data . ps_nrun [ j ] ;
if ( j + + = = PS_NRUNSIZE )
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j = 0 ;
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}
if ( nelem > 0 )
loadavg [ elem + + ] = load / samples / cpus ;
# endif /* UMAX */
# if !defined (LDAV_DONE) && defined (DGUX)
# define LDAV_DONE
/* This call can return -1 for an error, but with good args
it ' s not supposed to fail . The first argument is for no
apparent reason of type ` long int * ' . */
dg_sys_info ( ( long int * ) & load_info ,
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DG_SYS_INFO_LOAD_INFO_TYPE ,
DG_SYS_INFO_LOAD_VERSION_0 ) ;
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if ( nelem > 0 )
loadavg [ elem + + ] = load_info . one_minute ;
if ( nelem > 1 )
loadavg [ elem + + ] = load_info . five_minute ;
if ( nelem > 2 )
loadavg [ elem + + ] = load_info . fifteen_minute ;
# endif /* DGUX */
# if !defined (LDAV_DONE) && defined (apollo)
# define LDAV_DONE
/* Apollo code from lisch@mentorg.com (Ray Lischner).
This system call is not documented . The load average is obtained as
three long integers , for the load average over the past minute ,
five minutes , and fifteen minutes . Each value is a scaled integer ,
with 16 bits of integer part and 16 bits of fraction part .
I ' m not sure which operating system first supported this system call ,
but I know that SR10 .2 supports it . */
extern void proc1_ $ get_loadav ( ) ;
unsigned long load_ave [ 3 ] ;
proc1_ $ get_loadav ( load_ave ) ;
if ( nelem > 0 )
loadavg [ elem + + ] = load_ave [ 0 ] / 65536.0 ;
if ( nelem > 1 )
loadavg [ elem + + ] = load_ave [ 1 ] / 65536.0 ;
if ( nelem > 2 )
loadavg [ elem + + ] = load_ave [ 2 ] / 65536.0 ;
# endif /* apollo */
# if !defined (LDAV_DONE) && defined (OSF_MIPS)
# define LDAV_DONE
struct tbl_loadavg load_ave ;
table ( TBL_LOADAVG , 0 , & load_ave , 1 , sizeof ( load_ave ) ) ;
loadavg [ elem + + ]
= ( load_ave . tl_lscale = = 0
? load_ave . tl_avenrun . d [ 0 ]
: ( load_ave . tl_avenrun . l [ 0 ] / ( double ) load_ave . tl_lscale ) ) ;
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# endif /* OSF_MIPS */
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# if !defined (LDAV_DONE) && (defined (__MSDOS__) || defined (WINDOWS32))
# define LDAV_DONE
/* A faithful emulation is going to have to be saved for a rainy day. */
for ( ; elem < nelem ; elem + + )
{
loadavg [ elem ] = 0.0 ;
}
# endif /* __MSDOS__ || WINDOWS32 */
# if !defined (LDAV_DONE) && defined (OSF_ALPHA)
# define LDAV_DONE
struct tbl_loadavg load_ave ;
table ( TBL_LOADAVG , 0 , & load_ave , 1 , sizeof ( load_ave ) ) ;
for ( elem = 0 ; elem < nelem ; elem + + )
loadavg [ elem ]
= ( load_ave . tl_lscale = = 0
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? load_ave . tl_avenrun . d [ elem ]
: ( load_ave . tl_avenrun . l [ elem ] / ( double ) load_ave . tl_lscale ) ) ;
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# endif /* OSF_ALPHA */
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# if ! defined LDAV_DONE && defined __VMS
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/* VMS specific code -- read from the Load Ave driver. */
LOAD_AVE_TYPE load_ave [ 3 ] ;
static bool getloadavg_initialized ;
# ifdef eunice
struct
{
int dsc $ w_length ;
char * dsc $ a_pointer ;
} descriptor ;
# endif
/* Ensure that there is a channel open to the load ave device. */
if ( ! getloadavg_initialized )
{
/* Attempt to open the channel. */
# ifdef eunice
descriptor . dsc $ w_length = 18 ;
descriptor . dsc $ a_pointer = " $$VMS_LOAD_AVERAGE " ;
# else
$ DESCRIPTOR ( descriptor , " LAV0: " ) ;
# endif
if ( sys $ assign ( & descriptor , & channel , 0 , 0 ) & 1 )
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getloadavg_initialized = true ;
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}
/* Read the load average vector. */
if ( getloadavg_initialized
& & ! ( sys $ qiow ( 0 , channel , IO $ _READVBLK , 0 , 0 , 0 ,
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load_ave , 12 , 0 , 0 , 0 , 0 ) & 1 ) )
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{
sys $ dassgn ( channel ) ;
getloadavg_initialized = false ;
}
if ( ! getloadavg_initialized )
return - 1 ;
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# endif /* ! defined LDAV_DONE && defined __VMS */
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# if ! defined LDAV_DONE && defined LOAD_AVE_TYPE && ! defined __VMS
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/* UNIX-specific code -- read the average from /dev/kmem. */
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# define LDAV_PRIVILEGED /* This code requires special installation. */
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LOAD_AVE_TYPE load_ave [ 3 ] ;
/* Get the address of LDAV_SYMBOL. */
if ( offset = = 0 )
{
# ifndef sgi
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# if ! defined NLIST_STRUCT || ! defined N_NAME_POINTER
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strcpy ( nl [ 0 ] . n_name , LDAV_SYMBOL ) ;
strcpy ( nl [ 1 ] . n_name , " " ) ;
# else /* NLIST_STRUCT */
# ifdef HAVE_STRUCT_NLIST_N_UN_N_NAME
nl [ 0 ] . n_un . n_name = LDAV_SYMBOL ;
nl [ 1 ] . n_un . n_name = 0 ;
# else /* not HAVE_STRUCT_NLIST_N_UN_N_NAME */
nl [ 0 ] . n_name = LDAV_SYMBOL ;
nl [ 1 ] . n_name = 0 ;
# endif /* not HAVE_STRUCT_NLIST_N_UN_N_NAME */
# endif /* NLIST_STRUCT */
# ifndef SUNOS_5
if (
# if !(defined (_AIX) && !defined (ps2))
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nlist ( KERNEL_FILE , nl )
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# else /* _AIX */
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knlist ( nl , 1 , sizeof ( nl [ 0 ] ) )
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# endif
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> = 0 )
/* Omit "&& nl[0].n_type != 0 " -- it breaks on Sun386i. */
{
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# ifdef FIXUP_KERNEL_SYMBOL_ADDR
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FIXUP_KERNEL_SYMBOL_ADDR ( nl ) ;
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# endif
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offset = nl [ 0 ] . n_value ;
}
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# endif /* !SUNOS_5 */
# else /* sgi */
int ldav_off ;
ldav_off = sysmp ( MP_KERNADDR , MPKA_AVENRUN ) ;
if ( ldav_off ! = - 1 )
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offset = ( long int ) ldav_off & 0x7fffffff ;
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# endif /* sgi */
}
/* Make sure we have /dev/kmem open. */
if ( ! getloadavg_initialized )
{
# ifndef SUNOS_5
channel = open ( " /dev/kmem " , O_RDONLY ) ;
if ( channel > = 0 )
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{
/* Set the channel to close on exec, so it does not
litter any child ' s descriptor table . */
set_cloexec_flag ( channel , true ) ;
getloadavg_initialized = true ;
}
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# else /* SUNOS_5 */
/* We pass 0 for the kernel, corefile, and swapfile names
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to use the currently running kernel . */
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kd = kvm_open ( 0 , 0 , 0 , O_RDONLY , 0 ) ;
if ( kd ! = 0 )
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{
/* nlist the currently running kernel. */
kvm_nlist ( kd , nl ) ;
offset = nl [ 0 ] . n_value ;
getloadavg_initialized = true ;
}
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# endif /* SUNOS_5 */
}
/* If we can, get the load average values. */
if ( offset & & getloadavg_initialized )
{
/* Try to read the load. */
# ifndef SUNOS_5
if ( lseek ( channel , offset , 0 ) = = - 1L
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| | read ( channel , ( char * ) load_ave , sizeof ( load_ave ) )
! = sizeof ( load_ave ) )
{
close ( channel ) ;
getloadavg_initialized = false ;
}
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# else /* SUNOS_5 */
if ( kvm_read ( kd , offset , ( char * ) load_ave , sizeof ( load_ave ) )
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! = sizeof ( load_ave ) )
{
kvm_close ( kd ) ;
getloadavg_initialized = false ;
}
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# endif /* SUNOS_5 */
}
if ( offset = = 0 | | ! getloadavg_initialized )
return - 1 ;
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# endif /* ! defined LDAV_DONE && defined LOAD_AVE_TYPE && ! defined __VMS */
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# if !defined (LDAV_DONE) && defined (LOAD_AVE_TYPE) /* Including VMS. */
if ( nelem > 0 )
loadavg [ elem + + ] = LDAV_CVT ( load_ave [ 0 ] ) ;
if ( nelem > 1 )
loadavg [ elem + + ] = LDAV_CVT ( load_ave [ 1 ] ) ;
if ( nelem > 2 )
loadavg [ elem + + ] = LDAV_CVT ( load_ave [ 2 ] ) ;
# define LDAV_DONE
# endif /* !LDAV_DONE && LOAD_AVE_TYPE */
# if !defined LDAV_DONE
/* Set errno to zero to indicate that there was no particular error;
this function just can ' t work at all on this system . */
errno = 0 ;
elem = - 1 ;
# endif
return elem ;
}
# endif /* ! HAVE_GETLOADAVG */
# ifdef TEST
int
main ( int argc , char * * argv )
{
int naptime = 0 ;
if ( argc > 1 )
naptime = atoi ( argv [ 1 ] ) ;
while ( 1 )
{
double avg [ 3 ] ;
int loads ;
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errno = 0 ; /* Don't be misled if it doesn't set errno. */
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loads = getloadavg ( avg , 3 ) ;
if ( loads = = - 1 )
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{
perror ( " Error getting load average " ) ;
return EXIT_FAILURE ;
}
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if ( loads > 0 )
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printf ( " 1-minute: %f " , avg [ 0 ] ) ;
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if ( loads > 1 )
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printf ( " 5-minute: %f " , avg [ 1 ] ) ;
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if ( loads > 2 )
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printf ( " 15-minute: %f " , avg [ 2 ] ) ;
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if ( loads > 0 )
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putchar ( ' \n ' ) ;
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if ( naptime = = 0 )
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break ;
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sleep ( naptime ) ;
}
return EXIT_SUCCESS ;
}
# endif /* TEST */