diff --git a/collector/cpu_freebsd.go b/collector/cpu_freebsd.go index c4504b7a..29748f11 100644 --- a/collector/cpu_freebsd.go +++ b/collector/cpu_freebsd.go @@ -17,7 +17,6 @@ package collector import ( "errors" - "os" "strconv" "unsafe" @@ -25,9 +24,8 @@ import ( ) /* -#cgo LDFLAGS: -lkvm +#cgo LDFLAGS: #include -#include #include #include #include @@ -35,17 +33,71 @@ import ( #include #include -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; + } + + // 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; } - if (size != sizeof(clockrate)) { - return -2; + + // 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 clockrate.stathz > 0 ? clockrate.stathz : clockrate.hz; + + 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 -}