node_exporter/collector/netclass_rtnl_linux.go

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// Copyright 2022 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"
"io/fs"
"path/filepath"
"github.com/alecthomas/kingpin/v2"
"github.com/jsimonetti/rtnetlink/v2"
"github.com/mdlayher/ethtool"
"github.com/prometheus/client_golang/prometheus"
"github.com/prometheus/procfs/sysfs"
)
var (
netclassRTNLWithStats = kingpin.Flag("collector.netclass_rtnl.with-stats", "Expose the statistics for each network device, replacing netdev collector.").Bool()
operstateStr = []string{
"unknown", "notpresent", "down", "lowerlayerdown", "testing",
"dormant", "up",
}
)
func (c *netClassCollector) netClassRTNLUpdate(ch chan<- prometheus.Metric) error {
linkModes := make(map[string]*ethtool.LinkMode)
lms, err := c.getLinkModes()
if err != nil {
if !errors.Is(errors.Unwrap(err), fs.ErrNotExist) {
return fmt.Errorf("could not get link modes: %w", err)
}
c.logger.Info("ETHTOOL netlink interface unavailable, duplex and linkspeed are not scraped.")
} else {
for _, lm := range lms {
if c.ignoredDevicesPattern.MatchString(lm.Interface.Name) {
continue
}
if lm.SpeedMegabits >= 0 {
speedBytes := uint64(lm.SpeedMegabits * 1000 * 1000 / 8)
pushMetric(ch, c.getFieldDesc("speed_bytes"), "speed_bytes", speedBytes, prometheus.GaugeValue, lm.Interface.Name)
}
linkModes[lm.Interface.Name] = lm
}
}
// Get most attributes from Netlink
lMsgs, err := c.getNetClassInfoRTNL()
if err != nil {
return fmt.Errorf("could not get net class info: %w", err)
}
relevantLinks := make([]rtnetlink.LinkMessage, 0, len(lMsgs))
for _, msg := range lMsgs {
if !c.ignoredDevicesPattern.MatchString(msg.Attributes.Name) {
relevantLinks = append(relevantLinks, msg)
}
}
// Read sysfs for attributes that Netlink doesn't expose
sysfsAttrs, err := getSysfsAttributes(relevantLinks)
if err != nil {
return fmt.Errorf("could not get sysfs device info: %w", err)
}
// Parse all the info and update metrics
for _, msg := range relevantLinks {
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 msg.Attributes.OperationalState == rtnetlink.OperStateUp {
upValue = 1.0
}
ch <- prometheus.MustNewConstMetric(upDesc, prometheus.GaugeValue, upValue, msg.Attributes.Name)
infoDesc := prometheus.NewDesc(
prometheus.BuildFQName(namespace, c.subsystem, "info"),
"Non-numeric data of <iface>, value is always 1.",
[]string{"device", "address", "broadcast", "duplex", "operstate", "ifalias"},
nil,
)
infoValue := 1.0
var ifalias = ""
if msg.Attributes.Alias != nil {
ifalias = *msg.Attributes.Alias
}
duplex := ""
lm, lmExists := linkModes[msg.Attributes.Name]
if lmExists {
duplex = lm.Duplex.String()
}
ifaceInfo := sysfsAttrs[msg.Attributes.Name]
ch <- prometheus.MustNewConstMetric(infoDesc, prometheus.GaugeValue, infoValue, msg.Attributes.Name, msg.Attributes.Address.String(), msg.Attributes.Broadcast.String(), duplex, operstateStr[int(msg.Attributes.OperationalState)], ifalias)
pushMetric(ch, c.getFieldDesc("address_assign_type"), "address_assign_type", ifaceInfo.AddrAssignType, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("carrier"), "carrier", msg.Attributes.Carrier, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("carrier_changes_total"), "carrier_changes_total", msg.Attributes.CarrierChanges, prometheus.CounterValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("carrier_up_changes_total"), "carrier_up_changes_total", msg.Attributes.CarrierUpCount, prometheus.CounterValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("carrier_down_changes_total"), "carrier_down_changes_total", msg.Attributes.CarrierDownCount, prometheus.CounterValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("device_id"), "device_id", ifaceInfo.DevID, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("flags"), "flags", msg.Flags, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("iface_id"), "iface_id", msg.Index, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("iface_link_mode"), "iface_link_mode", msg.Attributes.LinkMode, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("dormant"), "dormant", msg.Attributes.LinkMode, prometheus.GaugeValue, msg.Attributes.Name)
// kernel logic: IFLA_LINK attribute will be ignore when ifindex is the same as iflink
// (dev->ifindex != dev_get_iflink(dev) && nla_put_u32(skb, IFLA_LINK, dev_get_iflink(dev)))
// As interface ID is never 0, we assume msg.Attributes.Type 0 means iflink is omitted in RTM_GETLINK response.
if msg.Attributes.Type > 0 {
pushMetric(ch, c.getFieldDesc("iface_link"), "iface_link", msg.Attributes.Type, prometheus.GaugeValue, msg.Attributes.Name)
} else {
pushMetric(ch, c.getFieldDesc("iface_link"), "iface_link", msg.Index, prometheus.GaugeValue, msg.Attributes.Name)
}
pushMetric(ch, c.getFieldDesc("mtu_bytes"), "mtu_bytes", msg.Attributes.MTU, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("name_assign_type"), "name_assign_type", ifaceInfo.NameAssignType, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("net_dev_group"), "net_dev_group", msg.Attributes.NetDevGroup, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_queue_length"), "transmit_queue_length", msg.Attributes.TxQueueLen, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("protocol_type"), "protocol_type", msg.Type, prometheus.GaugeValue, msg.Attributes.Name)
// Skip statistics if argument collector.netclass_rtnl.with-stats is false or statistics are unavailable.
if netclassRTNLWithStats == nil || !*netclassRTNLWithStats || msg.Attributes.Stats64 == nil {
continue
}
pushMetric(ch, c.getFieldDesc("receive_packets_total"), "receive_packets_total", msg.Attributes.Stats64.RXPackets, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_packets_total"), "transmit_packets_total", msg.Attributes.Stats64.TXPackets, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_bytes_total"), "receive_bytes_total", msg.Attributes.Stats64.RXBytes, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_bytes_total"), "transmit_bytes_total", msg.Attributes.Stats64.TXBytes, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_errors_total"), "receive_errors_total", msg.Attributes.Stats64.RXErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_errors_total"), "transmit_errors_total", msg.Attributes.Stats64.TXErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_dropped_total"), "receive_dropped_total", msg.Attributes.Stats64.RXDropped, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_dropped_total"), "transmit_dropped_total", msg.Attributes.Stats64.TXDropped, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("multicast_total"), "multicast_total", msg.Attributes.Stats64.Multicast, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("collisions_total"), "collisions_total", msg.Attributes.Stats64.Collisions, prometheus.GaugeValue, msg.Attributes.Name)
// Detailed rx_errors.
pushMetric(ch, c.getFieldDesc("receive_length_errors_total"), "receive_length_errors_total", msg.Attributes.Stats64.RXLengthErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_over_errors_total"), "receive_over_errors_total", msg.Attributes.Stats64.RXOverErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_crc_errors_total"), "receive_crc_errors_total", msg.Attributes.Stats64.RXCRCErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_frame_errors_total"), "receive_frame_errors_total", msg.Attributes.Stats64.RXFrameErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_fifo_errors_total"), "receive_fifo_errors_total", msg.Attributes.Stats64.RXFIFOErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_missed_errors_total"), "receive_missed_errors_total", msg.Attributes.Stats64.RXMissedErrors, prometheus.GaugeValue, msg.Attributes.Name)
// Detailed tx_errors.
pushMetric(ch, c.getFieldDesc("transmit_aborted_errors_total"), "transmit_aborted_errors_total", msg.Attributes.Stats64.TXAbortedErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_carrier_errors_total"), "transmit_carrier_errors_total", msg.Attributes.Stats64.TXCarrierErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_fifo_errors_total"), "transmit_fifo_errors_total", msg.Attributes.Stats64.TXFIFOErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_heartbeat_errors_total"), "transmit_heartbeat_errors_total", msg.Attributes.Stats64.TXHeartbeatErrors, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_window_errors_total"), "transmit_window_errors_total", msg.Attributes.Stats64.TXWindowErrors, prometheus.GaugeValue, msg.Attributes.Name)
// For cslip, etc.
pushMetric(ch, c.getFieldDesc("receive_compressed_total"), "receive_compressed_total", msg.Attributes.Stats64.RXCompressed, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("transmit_compressed_total"), "transmit_compressed_total", msg.Attributes.Stats64.TXCompressed, prometheus.GaugeValue, msg.Attributes.Name)
pushMetric(ch, c.getFieldDesc("receive_nohandler_total"), "receive_nohandler_total", msg.Attributes.Stats64.RXNoHandler, prometheus.GaugeValue, msg.Attributes.Name)
}
return nil
}
func (c *netClassCollector) getNetClassInfoRTNL() ([]rtnetlink.LinkMessage, error) {
conn, err := rtnetlink.Dial(nil)
if err != nil {
return nil, err
}
defer conn.Close()
lMsgs, err := conn.Link.List()
return lMsgs, err
}
func (c *netClassCollector) getLinkModes() ([]*ethtool.LinkMode, error) {
conn, err := ethtool.New()
if err != nil {
return nil, err
}
defer conn.Close()
lms, err := conn.LinkModes()
return lms, err
}
// getSysfsAttributes reads attributes that are absent from netlink but provided
// by sysfs.
func getSysfsAttributes(links []rtnetlink.LinkMessage) (sysfs.NetClass, error) {
netClass := sysfs.NetClass{}
for _, msg := range links {
interfaceClass := sysfs.NetClassIface{}
ifName := msg.Attributes.Name
devPath := filepath.Join("/sys", "class", "net", ifName)
// These three attributes hold a device-specific lock when
// accessed, not the RTNL lock, so they are much less impactful
// than reading most of the other attributes from sysfs.
for _, attr := range []string{"addr_assign_type", "dev_id", "name_assign_type"} {
if err := sysfs.ParseNetClassAttribute(devPath, attr, &interfaceClass); err != nil {
return nil, err
}
}
netClass[ifName] = interfaceClass
}
return netClass, nil
}