vendor/github.com/prometheus/procfs/proc_limits.go - voltha-go - Gitiles

 // Copyright 2018 The Prometheus Authors
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 // http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package procfs

 import (
 	"bufio"
 	"fmt"
 	"os"
 	"regexp"
 	"strconv"
 )

 // ProcLimits represents the soft limits for each of the process's resource
 // limits. For more information see getrlimit(2):
 // http://man7.org/linux/man-pages/man2/getrlimit.2.html.
 type ProcLimits struct {
 	// CPU time limit in seconds.
 	CPUTime uint64
 	// Maximum size of files that the process may create.
 	FileSize uint64
 	// Maximum size of the process's data segment (initialized data,
 	// uninitialized data, and heap).
 	DataSize uint64
 	// Maximum size of the process stack in bytes.
 	StackSize uint64
 	// Maximum size of a core file.
 	CoreFileSize uint64
 	// Limit of the process's resident set in pages.
 	ResidentSet uint64
 	// Maximum number of processes that can be created for the real user ID of
 	// the calling process.
 	Processes uint64
 	// Value one greater than the maximum file descriptor number that can be
 	// opened by this process.
 	OpenFiles uint64
 	// Maximum number of bytes of memory that may be locked into RAM.
 	LockedMemory uint64
 	// Maximum size of the process's virtual memory address space in bytes.
 	AddressSpace uint64
 	// Limit on the combined number of flock(2) locks and fcntl(2) leases that
 	// this process may establish.
 	FileLocks uint64
 	// Limit of signals that may be queued for the real user ID of the calling
 	// process.
 	PendingSignals uint64
 	// Limit on the number of bytes that can be allocated for POSIX message
 	// queues for the real user ID of the calling process.
 	MsqqueueSize uint64
 	// Limit of the nice priority set using setpriority(2) or nice(2).
 	NicePriority uint64
 	// Limit of the real-time priority set using sched_setscheduler(2) or
 	// sched_setparam(2).
 	RealtimePriority uint64
 	// Limit (in microseconds) on the amount of CPU time that a process
 	// scheduled under a real-time scheduling policy may consume without making
 	// a blocking system call.
 	RealtimeTimeout uint64
 }

 const (
 	limitsFields    = 4
 	limitsUnlimited = "unlimited"
 )

 var (
 	limitsMatch = regexp.MustCompile(`(Max \w+\s{0,1}?\w*\s{0,1}\w*)\s{2,}(\w+)\s+(\w+)`)
 )

 // NewLimits returns the current soft limits of the process.
 //
 // Deprecated: use p.Limits() instead
 func (p Proc) NewLimits() (ProcLimits, error) {
 	return p.Limits()
 }

 // Limits returns the current soft limits of the process.
 func (p Proc) Limits() (ProcLimits, error) {
 	f, err := os.Open(p.path("limits"))
 	if err != nil {
 		return ProcLimits{}, err
 	}
 	defer f.Close()

 	var (
 		l = ProcLimits{}
 		s = bufio.NewScanner(f)
 	)

 	s.Scan() // Skip limits header

 	for s.Scan() {
 		//fields := limitsMatch.Split(s.Text(), limitsFields)
 		fields := limitsMatch.FindStringSubmatch(s.Text())
 		if len(fields) != limitsFields {
 			return ProcLimits{}, fmt.Errorf("couldn't parse %q line %q", f.Name(), s.Text())
 		}

 		switch fields[1] {
 		case "Max cpu time":
 			l.CPUTime, err = parseUint(fields[2])
 		case "Max file size":
 			l.FileSize, err = parseUint(fields[2])
 		case "Max data size":
 			l.DataSize, err = parseUint(fields[2])
 		case "Max stack size":
 			l.StackSize, err = parseUint(fields[2])
 		case "Max core file size":
 			l.CoreFileSize, err = parseUint(fields[2])
 		case "Max resident set":
 			l.ResidentSet, err = parseUint(fields[2])
 		case "Max processes":
 			l.Processes, err = parseUint(fields[2])
 		case "Max open files":
 			l.OpenFiles, err = parseUint(fields[2])
 		case "Max locked memory":
 			l.LockedMemory, err = parseUint(fields[2])
 		case "Max address space":
 			l.AddressSpace, err = parseUint(fields[2])
 		case "Max file locks":
 			l.FileLocks, err = parseUint(fields[2])
 		case "Max pending signals":
 			l.PendingSignals, err = parseUint(fields[2])
 		case "Max msgqueue size":
 			l.MsqqueueSize, err = parseUint(fields[2])
 		case "Max nice priority":
 			l.NicePriority, err = parseUint(fields[2])
 		case "Max realtime priority":
 			l.RealtimePriority, err = parseUint(fields[2])
 		case "Max realtime timeout":
 			l.RealtimeTimeout, err = parseUint(fields[2])
 		}
 		if err != nil {
 			return ProcLimits{}, err
 		}
 	}

 	return l, s.Err()
 }

 func parseUint(s string) (uint64, error) {
 	if s == limitsUnlimited {
 		return 18446744073709551615, nil
 	}
 	i, err := strconv.ParseUint(s, 10, 64)
 	if err != nil {
 		return 0, fmt.Errorf("couldn't parse value %q: %w", s, err)
 	}
 	return i, nil
 }
	// Copyright 2018 The Prometheus Authors
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package procfs

	import (
	"bufio"
	"fmt"
	"os"
	"regexp"
	"strconv"
	)

	// ProcLimits represents the soft limits for each of the process's resource
	// limits. For more information see getrlimit(2):
	// http://man7.org/linux/man-pages/man2/getrlimit.2.html.
	type ProcLimits struct {
	// CPU time limit in seconds.
	CPUTime uint64
	// Maximum size of files that the process may create.
	FileSize uint64
	// Maximum size of the process's data segment (initialized data,
	// uninitialized data, and heap).
	DataSize uint64
	// Maximum size of the process stack in bytes.
	StackSize uint64
	// Maximum size of a core file.
	CoreFileSize uint64
	// Limit of the process's resident set in pages.
	ResidentSet uint64
	// Maximum number of processes that can be created for the real user ID of
	// the calling process.
	Processes uint64
	// Value one greater than the maximum file descriptor number that can be
	// opened by this process.
	OpenFiles uint64
	// Maximum number of bytes of memory that may be locked into RAM.
	LockedMemory uint64
	// Maximum size of the process's virtual memory address space in bytes.
	AddressSpace uint64
	// Limit on the combined number of flock(2) locks and fcntl(2) leases that
	// this process may establish.
	FileLocks uint64
	// Limit of signals that may be queued for the real user ID of the calling
	// process.
	PendingSignals uint64
	// Limit on the number of bytes that can be allocated for POSIX message
	// queues for the real user ID of the calling process.
	MsqqueueSize uint64
	// Limit of the nice priority set using setpriority(2) or nice(2).
	NicePriority uint64
	// Limit of the real-time priority set using sched_setscheduler(2) or
	// sched_setparam(2).
	RealtimePriority uint64
	// Limit (in microseconds) on the amount of CPU time that a process
	// scheduled under a real-time scheduling policy may consume without making
	// a blocking system call.
	RealtimeTimeout uint64
	}

	const (
	limitsFields = 4
	limitsUnlimited = "unlimited"
	)

	var (
	limitsMatch = regexp.MustCompile(`(Max \w+\s{0,1}?\w\s{0,1}\w)\s{2,}(\w+)\s+(\w+)`)
	)

	// NewLimits returns the current soft limits of the process.
	//
	// Deprecated: use p.Limits() instead
	func (p Proc) NewLimits() (ProcLimits, error) {
	return p.Limits()
	}

	// Limits returns the current soft limits of the process.
	func (p Proc) Limits() (ProcLimits, error) {
	f, err := os.Open(p.path("limits"))
	if err != nil {
	return ProcLimits{}, err
	}
	defer f.Close()

	var (
	l = ProcLimits{}
	s = bufio.NewScanner(f)
	)

	s.Scan() // Skip limits header

	for s.Scan() {
	//fields := limitsMatch.Split(s.Text(), limitsFields)
	fields := limitsMatch.FindStringSubmatch(s.Text())
	if len(fields) != limitsFields {
	return ProcLimits{}, fmt.Errorf("couldn't parse %q line %q", f.Name(), s.Text())
	}

	switch fields[1] {
	case "Max cpu time":
	l.CPUTime, err = parseUint(fields[2])
	case "Max file size":
	l.FileSize, err = parseUint(fields[2])
	case "Max data size":
	l.DataSize, err = parseUint(fields[2])
	case "Max stack size":
	l.StackSize, err = parseUint(fields[2])
	case "Max core file size":
	l.CoreFileSize, err = parseUint(fields[2])
	case "Max resident set":
	l.ResidentSet, err = parseUint(fields[2])
	case "Max processes":
	l.Processes, err = parseUint(fields[2])
	case "Max open files":
	l.OpenFiles, err = parseUint(fields[2])
	case "Max locked memory":
	l.LockedMemory, err = parseUint(fields[2])
	case "Max address space":
	l.AddressSpace, err = parseUint(fields[2])
	case "Max file locks":
	l.FileLocks, err = parseUint(fields[2])
	case "Max pending signals":
	l.PendingSignals, err = parseUint(fields[2])
	case "Max msgqueue size":
	l.MsqqueueSize, err = parseUint(fields[2])
	case "Max nice priority":
	l.NicePriority, err = parseUint(fields[2])
	case "Max realtime priority":
	l.RealtimePriority, err = parseUint(fields[2])
	case "Max realtime timeout":
	l.RealtimeTimeout, err = parseUint(fields[2])
	}
	if err != nil {
	return ProcLimits{}, err
	}
	}

	return l, s.Err()
	}

	func parseUint(s string) (uint64, error) {
	if s == limitsUnlimited {
	return 18446744073709551615, nil
	}
	i, err := strconv.ParseUint(s, 10, 64)
	if err != nil {
	return 0, fmt.Errorf("couldn't parse value %q: %w", s, err)
	}
	return i, nil
	}