@ -17,7 +17,6 @@ package collector
import (
"errors"
"os"
"strconv"
"unsafe"
@ -25,9 +24,8 @@ import (
)
/ *
# cgo LDFLAGS : - lkvm
# cgo LDFLAGS :
# include < fcntl . h >
# include < kvm . h >
# include < stdlib . h >
# include < sys / param . h >
# include < sys / pcpu . h >
@ -35,17 +33,71 @@ import (
# include < sys / sysctl . h >
# include < sys / time . h >
long _clockrate ( ) {
static int mibs_set_up = 0 ;
static int mib_kern_cp_times [ 2 ] ;
static size_t mib_kern_cp_times_len = 2 ;
static const int mib_hw_ncpu [ ] = { CTL_HW , HW_NCPU } ;
static const size_t mib_hw_ncpu_len = 2 ;
static const int mib_kern_clockrate [ ] = { CTL_KERN , KERN_CLOCKRATE } ;
static size_t mib_kern_clockrate_len = 2 ;
// Setup method for MIBs not available as constants.
// Calls to this method must be synchronized externally.
int setupSysctlMIBs ( ) {
int ret = sysctlnametomib ( "kern.cp_times" , mib_kern_cp_times , & mib_kern_cp_times_len ) ;
if ( ret == 0 ) mibs_set_up = 1 ;
return ret ;
}
int getCPUTimes ( int * ncpu , double * * cpu_times , size_t * cp_times_length ) {
// Assert that mibs are set up through setupSysctlMIBs
if ( ! mibs_set_up ) {
return - 1 ;
}
// Retrieve number of cpu cores
size_t ncpu_size = sizeof ( * ncpu ) ;
if ( sysctl ( mib_hw_ncpu , mib_hw_ncpu_len , ncpu , & ncpu_size , NULL , 0 ) == - 1 ||
sizeof ( * ncpu ) != ncpu_size ) {
return - 1 ;
}
// Retrieve clockrate
struct clockinfo clockrate ;
size_t size = sizeof ( clockrate ) ;
int res = sysctlbyname ( "kern.clockrate" , & clockrate , & size , NULL , 0 ) ;
if ( res == - 1 ) {
size_t clockrate_ size = sizeof ( clockrate ) ;
if ( sysctl ( mib_kern_clockrate , mib_kern_clockrate_len , & clockrate , & clockrate_ size, NULL , 0 ) == - 1 ||
sizeof ( clockrate ) != clockrate_size ) {
return - 1 ;
}
if ( size != sizeof ( clockrate ) ) {
return - 2 ;
// Retrieve cp_times values
* cp_times_length = ( * ncpu ) * CPUSTATES ;
long cp_times [ * cp_times_length ] ;
size_t cp_times_size = sizeof ( cp_times ) ;
if ( sysctl ( mib_kern_cp_times , mib_kern_cp_times_len , & cp_times , & cp_times_size , NULL , 0 ) == - 1 ||
sizeof ( cp_times ) != cp_times_size ) {
return - 1 ;
}
return clockrate . stathz > 0 ? clockrate . stathz : clockrate . hz ;
// Compute absolute time for different CPU states
long cpufreq = clockrate . stathz > 0 ? clockrate . stathz : clockrate . hz ;
* cpu_times = ( double * ) malloc ( sizeof ( double ) * ( * cp_times_length ) ) ;
for ( int i = 0 ; i < ( * cp_times_length ) ; i ++ ) {
( * cpu_times ) [ i ] = ( ( double ) cp_times [ i ] ) / cpufreq ;
}
return 0 ;
}
void freeCPUTimes ( double * cpu_times ) {
free ( cpu_times ) ;
}
* /
@ -62,6 +114,9 @@ func init() {
// Takes a prometheus registry and returns a new Collector exposing
// CPU stats.
func NewStatCollector ( ) ( Collector , error ) {
if C . setupSysctlMIBs ( ) == - 1 {
return nil , errors . New ( "could not initialize sysctl MIBs" )
}
return & statCollector {
cpu : prometheus . NewCounterVec (
prometheus . CounterOpts {
@ -74,50 +129,40 @@ func NewStatCollector() (Collector, error) {
} , nil
}
// Expose CPU stats using KVM .
// Expose CPU stats using sysctl .
func ( c * statCollector ) Update ( ch chan <- prometheus . Metric ) ( err error ) {
if os . Geteuid ( ) != 0 && os . Getegid ( ) != 2 {
return errors . New ( "caller should be either root user or kmem group to access /dev/mem" )
}
var errbuf * C . char
kd := C . kvm_open ( nil , nil , nil , C . O_RDONLY , errbuf )
if errbuf != nil {
return errors . New ( "failed to call kvm_open()" )
}
defer C . kvm_close ( kd )
// The cp_time variable is an array of CPUSTATES long integers -- in
// the same format as the kern.cp_time sysctl. According to the
// comments in sys/kern/kern_clock.c, the frequency of this timer will
// be stathz (or hz, if stathz is zero).
clockrate , err := getClockRate ( )
if err != nil {
return err
// We want time spent per-cpu per CPUSTATE.
// CPUSTATES (number of CPUSTATES) is defined as 5U.
// Order: CP_USER | CP_NICE | CP_SYS | CP_IDLE | CP_INTR
// sysctl kern.cp_times provides hw.ncpu * CPUSTATES long integers:
// hw.ncpu * (space-separated list of the above variables)
//
// Each value is a counter incremented at frequency
// kern.clockrate.(stathz | hz)
//
// Look into sys/kern/kern_clock.c for details.
var ncpu C . int
var cpuTimesC * C . double
var cpuTimesLength C . size_t
if C . getCPUTimes ( & ncpu , & cpuTimesC , & cpuTimesLength ) == - 1 {
return errors . New ( "could not retrieve CPU times" )
}
defer C . freeCPUTimes ( cpuTimesC )
// Convert C.double array to Go array (https://github.com/golang/go/wiki/cgo#turning-c-arrays-into-go-slices).
cpuTimes := ( * [ 1 << 30 ] C . double ) ( unsafe . Pointer ( cpuTimesC ) ) [ : cpuTimesLength : cpuTimesLength ]
ncpus := C . kvm_getncpus ( kd )
for i := 0 ; i < int ( ncpus ) ; i ++ {
pcpu := C . kvm_getpcpu ( kd , C . int ( i ) )
cp_time := ( ( * C . struct_pcpu ) ( unsafe . Pointer ( pcpu ) ) ) . pc_cp_time
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( i ) , "mode" : "user" } ) . Set ( float64 ( cp_time [ C . CP_USER ] ) / clockrate )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( i ) , "mode" : "nice" } ) . Set ( float64 ( cp_time [ C . CP_NICE ] ) / clockrate )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( i ) , "mode" : "system" } ) . Set ( float64 ( cp_time [ C . CP_SYS ] ) / clockrate )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( i ) , "mode" : "interrupt" } ) . Set ( float64 ( cp_time [ C . CP_INTR ] ) / clockrate )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( i ) , "mode" : "idle" } ) . Set ( float64 ( cp_time [ C . CP_IDLE ] ) / clockrate )
for cpu := 0 ; cpu < int ( ncpu ) ; cpu ++ {
base_idx := C . CPUSTATES * cpu
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( cpu ) , "mode" : "user" } ) . Set ( float64 ( cpuTimes [ base_idx + C . CP_USER ] ) )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( cpu ) , "mode" : "nice" } ) . Set ( float64 ( cpuTimes [ base_idx + C . CP_NICE ] ) )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( cpu ) , "mode" : "system" } ) . Set ( float64 ( cpuTimes [ base_idx + C . CP_SYS ] ) )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( cpu ) , "mode" : "interrupt" } ) . Set ( float64 ( cpuTimes [ base_idx + C . CP_INTR ] ) )
c . cpu . With ( prometheus . Labels { "cpu" : strconv . Itoa ( cpu ) , "mode" : "idle" } ) . Set ( float64 ( cpuTimes [ base_idx + C . CP_IDLE ] ) )
}
c . cpu . Collect ( ch )
return err
}
func getClockRate ( ) ( float64 , error ) {
clockrate := C . _clockrate ( )
if clockrate == - 1 {
return 0 , errors . New ( "sysctl(kern.clockrate) failed" )
} else if clockrate == - 2 {
return 0 , errors . New ( "sysctl(kern.clockrate) failed, wrong buffer size" )
} else if clockrate <= 0 {
return 0 , errors . New ( "sysctl(kern.clockrate) bad clocktime" )
}
return float64 ( clockrate ) , nil
}