gomonop/cmd/zoneserial/main.go

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package zoneserial // import nocternity.net/gomonop/cmd/zoneserial
import (
"fmt"
"net"
"os"
"reflect"
"strconv"
"strings"
"time"
"github.com/karrick/golf"
"github.com/miekg/dns"
"nocternity.net/gomonop/pkg/perfdata"
"nocternity.net/gomonop/pkg/plugin"
"nocternity.net/gomonop/pkg/program"
)
//-------------------------------------------------------------------------------------------------------
type (
// A response to a DNS query. Includes the actual response, the RTT and the error, if any.
queryResponse struct {
data *dns.Msg
rtt time.Duration
err error
}
// A channel that can be used to send DNS query responses back to the caller.
responseChannel chan<- queryResponse
)
// Query a zone's SOA record through a given DNS and return the response using the channel.
func queryZoneSOA(dnsq *dns.Msg, hostname string, port int, output responseChannel) {
dnsc := new(dns.Client)
in, rtt, err := dnsc.Exchange(dnsq, net.JoinHostPort(hostname, strconv.Itoa(port)))
output <- queryResponse{
data: in,
rtt: rtt,
err: err,
}
}
//-------------------------------------------------------------------------------------------------------
// Command line flags that have been parsed.
type programFlags struct {
hostname string // DNS to check - hostname
port int // DNS to check - port
zone string // Zone name
rsHostname string // Reference DNS - hostname
rsPort int // Reference DNS - port
}
// Program data including configuration and runtime data.
type checkProgram struct {
programFlags // Flags from the command line
plugin *plugin.Plugin // Plugin output state
}
// Parse command line arguments and store their values. If the -h flag is present,
// help will be displayed and the program will exit.
func (flags *programFlags) parseArguments() {
var help bool
golf.BoolVarP(&help, 'h', "help", false, "Display usage information")
golf.StringVarP(&flags.hostname, 'H', "hostname", "", "Hostname of the DNS to check.")
golf.IntVarP(&flags.port, 'P', "port", 53, "Port number of the DNS to check.")
golf.StringVarP(&flags.zone, 'z', "zone", "", "Zone name.")
golf.StringVarP(&flags.rsHostname, 'r', "rs-hostname", "", "Hostname of the reference DNS.")
golf.IntVarP(&flags.rsPort, 'p', "rs-port", 53, "Port number of the reference DNS.")
golf.Parse()
if help {
golf.Usage()
os.Exit(0)
}
}
// Initialise the monitoring check program.
func NewProgram() program.Program {
program := &checkProgram{
plugin: plugin.New("DNS zone serial match check"),
}
program.parseArguments()
return program
}
// Terminate the monitoring check program.
func (program *checkProgram) Done() {
if r := recover(); r != nil {
program.plugin.SetState(plugin.StatusUnknown, "Internal error")
program.plugin.AddLinef("Error info: %v", r)
}
program.plugin.Done()
}
// Check the values that were specified from the command line. Returns true if the arguments made sense.
func (program *checkProgram) CheckArguments() bool {
if program.hostname == "" {
program.plugin.SetState(plugin.StatusUnknown, "no DNS hostname specified")
return false
}
if program.port < 1 || program.port > 65535 {
program.plugin.SetState(plugin.StatusUnknown, "invalid DNS port number")
return false
}
if program.zone == "" {
program.plugin.SetState(plugin.StatusUnknown, "no DNS zone specified")
return false
}
if program.rsHostname == "" {
program.plugin.SetState(plugin.StatusUnknown, "no reference DNS hostname specified")
return false
}
if program.rsPort < 1 || program.rsPort > 65535 {
program.plugin.SetState(plugin.StatusUnknown, "invalid reference DNS port number")
return false
}
program.hostname = strings.ToLower(program.hostname)
program.zone = strings.ToLower(program.zone)
program.rsHostname = strings.ToLower(program.rsHostname)
return true
}
// Query both the server to check and the reference server for the zone's SOA record and return both
// responses (checked server response and reference server response, respectively).
func (program *checkProgram) queryServers() (queryResponse, queryResponse) {
dnsq := new(dns.Msg)
dnsq.SetQuestion(dns.Fqdn(program.zone), dns.TypeSOA)
checkOut := make(chan queryResponse)
refOut := make(chan queryResponse)
go queryZoneSOA(dnsq, program.hostname, program.port, checkOut)
go queryZoneSOA(dnsq, program.rsHostname, program.rsPort, refOut)
var checkResponse, refResponse queryResponse
for range 2 {
select {
case m := <-checkOut:
checkResponse = m
case m := <-refOut:
refResponse = m
}
}
return checkResponse, refResponse
}
// Add a server's RTT to the performance data.
func (program *checkProgram) addRttPerf(name string, value time.Duration) {
s := fmt.Sprintf("%f", value.Seconds())
pd := perfdata.New(name, perfdata.UomSeconds, s)
program.plugin.AddPerfData(pd)
}
// Add information about one of the servers' response to the plugin output. This includes
// the error message if the query failed or the RTT performance data if it succeeded. It
// then attempts to extract the serial from a server's response and returns it if
// successful.
func (program *checkProgram) getSerial(server string, response queryResponse) (ok bool, serial uint32) {
if response.err != nil {
program.plugin.AddLinef("%s server error : %s", server, response.err)
return false, 0
}
program.addRttPerf(server+"_rtt", response.rtt)
if len(response.data.Answer) != 1 {
program.plugin.AddLine(server + " server did not return exactly one record")
return false, 0
}
if soa, ok := response.data.Answer[0].(*dns.SOA); ok {
program.plugin.AddLinef("serial on %s server: %d", server, soa.Serial)
return true, soa.Serial
}
t := reflect.TypeOf(response.data.Answer[0])
program.plugin.AddLinef("%s server did not return SOA record; record type: %v", server, t)
return false, 0
}
// Run the monitoring check. This implies querying both servers, extracting the serial from
// their responses, then comparing the serials.
func (program *checkProgram) RunCheck() {
checkResponse, refResponse := program.queryServers()
cOk, cSerial := program.getSerial("checked", checkResponse)
rOk, rSerial := program.getSerial("reference", refResponse)
if !(cOk && rOk) {
program.plugin.SetState(plugin.StatusUnknown, "could not read serials")
return
}
if cSerial == rSerial {
program.plugin.SetState(plugin.StatusOK, "serials match")
} else {
program.plugin.SetState(plugin.StatusCritical, "serials mismatch")
}
}