// 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. //go:build !nonetclass && linux // +build !nonetclass,linux package collector import ( "errors" "fmt" "net" "os" "regexp" "github.com/alecthomas/kingpin/v2" "github.com/go-kit/log" "github.com/go-kit/log/level" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/procfs/sysfs" ) var ( netclassIgnoredDevices = kingpin.Flag("collector.netclass.ignored-devices", "Regexp of net devices to ignore for netclass collector.").Default("^$").String() netclassInvalidSpeed = kingpin.Flag("collector.netclass.ignore-invalid-speed", "Ignore devices where the speed is invalid. This will be the default behavior in 2.x.").Bool() netclassNetlink = kingpin.Flag("collector.netclass.netlink", "Use netlink to gather stats instead of /proc/net/dev.").Default("false").Bool() ) type netClassCollector struct { fs sysfs.FS subsystem string ignoredDevicesPattern *regexp.Regexp metricDescs map[string]*prometheus.Desc logger log.Logger } func init() { registerCollector("netclass", defaultEnabled, NewNetClassCollector) } // NewNetClassCollector returns a new Collector exposing network class stats. func NewNetClassCollector(logger log.Logger) (Collector, error) { fs, err := sysfs.NewFS(*sysPath) if err != nil { return nil, fmt.Errorf("failed to open sysfs: %w", err) } pattern := regexp.MustCompile(*netclassIgnoredDevices) return &netClassCollector{ fs: fs, subsystem: "network", ignoredDevicesPattern: pattern, metricDescs: map[string]*prometheus.Desc{}, logger: logger, }, nil } func (c *netClassCollector) Update(ch chan<- prometheus.Metric) error { if *netclassNetlink { return c.netClassRTNLUpdate(ch) } return c.netClassSysfsUpdate(ch) } func (c *netClassCollector) netClassSysfsUpdate(ch chan<- prometheus.Metric) error { netClass, err := c.getNetClassInfo() if err != nil { if errors.Is(err, os.ErrNotExist) || errors.Is(err, os.ErrPermission) { level.Debug(c.logger).Log("msg", "Could not read netclass file", "err", err) return ErrNoData } return fmt.Errorf("could not get net class info: %w", err) } for _, ifaceInfo := range netClass { upDesc := prometheus.NewDesc( prometheus.BuildFQName(namespace, c.subsystem, "up"), "Value is 1 if operstate is 'up', 0 otherwise.", []string{"device"}, nil, ) upValue := 0.0 if ifaceInfo.OperState == "up" { upValue = 1.0 } ch <- prometheus.MustNewConstMetric(upDesc, prometheus.GaugeValue, upValue, ifaceInfo.Name) infoDesc := prometheus.NewDesc( prometheus.BuildFQName(namespace, c.subsystem, "info"), "Non-numeric data from /sys/class/net/, value is always 1.", []string{"device", "address", "broadcast", "duplex", "operstate", "adminstate", "ifalias"}, nil, ) infoValue := 1.0 ch <- prometheus.MustNewConstMetric(infoDesc, prometheus.GaugeValue, infoValue, ifaceInfo.Name, ifaceInfo.Address, ifaceInfo.Broadcast, ifaceInfo.Duplex, ifaceInfo.OperState, getAdminState(ifaceInfo.Flags), ifaceInfo.IfAlias) pushMetric(ch, c.getFieldDesc("address_assign_type"), "address_assign_type", ifaceInfo.AddrAssignType, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("carrier"), "carrier", ifaceInfo.Carrier, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("carrier_changes_total"), "carrier_changes_total", ifaceInfo.CarrierChanges, prometheus.CounterValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("carrier_up_changes_total"), "carrier_up_changes_total", ifaceInfo.CarrierUpCount, prometheus.CounterValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("carrier_down_changes_total"), "carrier_down_changes_total", ifaceInfo.CarrierDownCount, prometheus.CounterValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("device_id"), "device_id", ifaceInfo.DevID, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("dormant"), "dormant", ifaceInfo.Dormant, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("flags"), "flags", ifaceInfo.Flags, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("iface_id"), "iface_id", ifaceInfo.IfIndex, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("iface_link"), "iface_link", ifaceInfo.IfLink, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("iface_link_mode"), "iface_link_mode", ifaceInfo.LinkMode, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("mtu_bytes"), "mtu_bytes", ifaceInfo.MTU, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("name_assign_type"), "name_assign_type", ifaceInfo.NameAssignType, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("net_dev_group"), "net_dev_group", ifaceInfo.NetDevGroup, prometheus.GaugeValue, ifaceInfo.Name) if ifaceInfo.Speed != nil { // Some devices return -1 if the speed is unknown. if *ifaceInfo.Speed >= 0 || !*netclassInvalidSpeed { speedBytes := int64(*ifaceInfo.Speed * 1000 * 1000 / 8) pushMetric(ch, c.getFieldDesc("speed_bytes"), "speed_bytes", speedBytes, prometheus.GaugeValue, ifaceInfo.Name) } } pushMetric(ch, c.getFieldDesc("transmit_queue_length"), "transmit_queue_length", ifaceInfo.TxQueueLen, prometheus.GaugeValue, ifaceInfo.Name) pushMetric(ch, c.getFieldDesc("protocol_type"), "protocol_type", ifaceInfo.Type, prometheus.GaugeValue, ifaceInfo.Name) } return nil } func (c *netClassCollector) getFieldDesc(name string) *prometheus.Desc { fieldDesc, exists := c.metricDescs[name] if !exists { fieldDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, c.subsystem, name), fmt.Sprintf("Network device property: %s", name), []string{"device"}, nil, ) c.metricDescs[name] = fieldDesc } return fieldDesc } func (c *netClassCollector) getNetClassInfo() (sysfs.NetClass, error) { netClass := sysfs.NetClass{} netDevices, err := c.fs.NetClassDevices() if err != nil { return netClass, err } for _, device := range netDevices { if c.ignoredDevicesPattern.MatchString(device) { continue } interfaceClass, err := c.fs.NetClassByIface(device) if err != nil { return netClass, err } netClass[device] = *interfaceClass } return netClass, nil } func getAdminState(flags *int64) string { if flags == nil { return "unknown" } if *flags&int64(net.FlagUp) == 1 { return "up" } return "down" }