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control-panel-dns
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No commits in common. "15d9f9769360b1cb8c748de8ee995030ade5eb35" and "2d1e3213261bee4640c11d8e1f526fcb6234e037" have entirely different histories.
15d9f97693 ... 2d1e321326

25 changed files with 1185 additions and 1730 deletions
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25
args.go
View File

@ -18,14 +18,11 @@ var args struct {
VerboseDNS bool `arg:"--verbose-dns" help:"debug your dns settings"`
}
var NOW log.LogFlag
var INFO log.LogFlag
var NET log.LogFlag
var DNS log.LogFlag
var NOW log.LogFlag
var PROC log.LogFlag
var SPEW log.LogFlag
var CHANGE log.LogFlag
var STATUS log.LogFlag
func init() {
arg.MustParse(&args)
@ -37,24 +34,12 @@ func init() {
NOW.Desc = "temp debugging stuff"
NOW.Register()
INFO.B = false
INFO.Name = "INFO"
INFO.Subsystem = "cpdns"
INFO.Desc = "normal debugging stuff"
INFO.Register()
NET.B = false
NET.Name = "NET"
NET.Subsystem = "cpdns"
NET.Desc = "Network logging"
NET.Register()
DNS.B = false
DNS.Name = "DNS"
DNS.Subsystem = "cpdns"
DNS.Desc = "dnsStatus.update()"
DNS.Register()
PROC.B = false
PROC.Name = "PROC"
PROC.Subsystem = "cpdns"
@ -67,18 +52,12 @@ func init() {
SPEW.Desc = "spew logging"
SPEW.Register()
CHANGE.B = true
CHANGE.B = false
CHANGE.Name = "CHANGE"
CHANGE.Subsystem = "cpdns"
CHANGE.Desc = "show droplet state changes"
CHANGE.Register()
STATUS.B = false
STATUS.Name = "STATUS"
STATUS.Subsystem = "cpdns"
STATUS.Desc = "updateStatus()"
STATUS.Register()
if debugger.ArgDebug() {
log.Log(true, "INIT() gui debug == true")
} else {

314
digStatus.go
View File

@ -1,314 +0,0 @@
/*
'dig'
This is essentially doing what the command 'dig' does
It performing DNS queries on TCP and UDP
against localhost, cloudflare & google
IPv4() and IPv6() return true if they are working
with the 'gui' package, it can also display the results
*/
package main
import (
"os"
"fmt"
"time"
"strings"
"reflect"
"errors"
"go.wit.com/log"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"go.wit.com/shell"
)
type digStatus struct {
ready bool
hidden bool
statusIPv4 string
statusIPv6 string
parent *gui.Node
window *gadgets.BasicWindow
group *gui.Node
grid *gui.Node
summary *gui.Node
status *gadgets.OneLiner
statusAAAA *gadgets.OneLiner
speed *gadgets.OneLiner
speedActual *gadgets.OneLiner
details *gui.Node
dsLocalhost *resolverStatus
dsLocalNetwork *resolverStatus
dsCloudflare *resolverStatus
dsGoogle *resolverStatus
DnsDigUDP *gui.Node
DnsDigTCP *gui.Node
httpGoWitCom *gadgets.OneLiner
statusHTTP *gadgets.OneLiner
}
func NewDigStatusWindow(p *gui.Node) *digStatus {
var ds *digStatus
ds = new(digStatus)
ds.ready = false
ds.hidden = true
ds.window = gadgets.NewBasicWindow(p, "DNS Resolver Status")
ds.window.Draw()
ds.window.Hide()
// summary of the current state of things
ds.summary = ds.window.Box().NewGroup("Summary")
g := ds.summary.NewGrid("LookupStatus", 2, 2)
g.Pad()
ds.status = gadgets.NewOneLiner(g, "status").Set("unknown")
ds.statusAAAA = gadgets.NewOneLiner(g, "IPv6 status").Set("unknown")
ds.statusHTTP = gadgets.NewOneLiner(g, "IPv6 via HTTP").Set("unknown")
ds.speed = gadgets.NewOneLiner(g, "speed").Set("unknown")
ds.speedActual = gadgets.NewOneLiner(g, "actual").Set("unknown")
// make the area to store the raw details
ds.details = ds.window.Box().NewGroup("Details")
ds.dsLocalhost = NewResolverStatus(ds.details, "(localhost)", "127.0.0.1:53", "go.wit.com")
ds.dsLocalNetwork = NewResolverStatus(ds.details, "(Local Network)", "192.168.86.1:53", "go.wit.com")
ds.dsCloudflare = NewResolverStatus(ds.details, "(cloudflare)", "1.1.1.1:53", "go.wit.com")
ds.dsGoogle = NewResolverStatus(ds.details, "(google)", "8.8.8.8:53", "go.wit.com")
ds.makeDnsStatusGrid()
ds.makeHttpStatusGrid()
ds.hidden = false
ds.ready = true
return ds
}
func (ds *digStatus) Update() {
log.Info("digStatus() Update() START")
if ds == nil {
log.Error(errors.New("digStatus() Update() ds == nil"))
return
}
duration := timeFunction(func () {
ds.updateDnsStatus()
})
s := fmt.Sprint(duration)
// ds.speedActual.Set(s)
me.digStatus.set(ds.speedActual, s)
if (duration > 500 * time.Millisecond ) {
me.digStatus.set(ds.speed, "SLOW")
} else if (duration > 100 * time.Millisecond ) {
me.digStatus.set(ds.speed, "OK")
} else {
me.digStatus.set(ds.speed, "FAST")
}
log.Info("digStatus() Update() END")
}
// Returns true if the status is valid
func (ds *digStatus) Ready() bool {
if ds == nil {return false}
return ds.ready
}
// Returns true if IPv4 is working
func (ds *digStatus) IPv4() bool {
if ! ds.Ready() {return false}
if (ds.statusIPv4 == "OK") {
return true
}
if (ds.statusIPv4 == "GOOD") {
return true
}
return false
}
// Returns true if IPv6 is working
func (ds *digStatus) IPv6() bool {
if ! ds.Ready() {return false}
if (ds.statusIPv6 == "GOOD") {
return true
}
return false
}
func (ds *digStatus) setIPv4status(s string) {
ds.statusIPv4 = s
if ! ds.Ready() {return}
me.digStatus.set(ds.status, s)
}
func (ds *digStatus) setIPv6status(s string) {
ds.statusIPv6 = s
if ! ds.Ready() {return}
me.digStatus.set(ds.statusAAAA, s)
}
func (ds *digStatus) SetIPv6(s string) {
if ! ds.Ready() {return}
log.Warn("Should SetIPv6() here to", s)
log.Warn("Should SetIPv6() here to", s)
log.Warn("Should SetIPv6() here to", s)
log.Warn("Should SetIPv6() here to", s)
me.DnsAAAA.Set(s)
// me.digStatus.set(ds.httpGoWitCom, addr)
}
func (ds *digStatus) set(a any, s string) {
if ! ds.Ready() {return}
if ds.hidden {
return
}
if a == nil {
return
}
var n *gui.Node
if reflect.TypeOf(a) == reflect.TypeOf(n) {
n = a.(*gui.Node)
n.SetText(s)
return
}
var ol *gadgets.OneLiner
if reflect.TypeOf(a) == reflect.TypeOf(ol) {
ol = a.(*gadgets.OneLiner)
ol.Set(s)
return
}
log.Warn("unknown type TypeOf(a) =", reflect.TypeOf(a), "a =", a)
os.Exit(0)
}
func (ds *digStatus) updateDnsStatus() {
var cmd, out string
var ipv4, ipv6 bool
log.Info("updateDnsStatus() START")
if (ds == nil) {
log.Error(errors.New("updateDnsStatus() not initialized yet. ds == nil"))
return
}
if (! ds.ready) {
log.Error(errors.New("updateDnsStatus() not ready yet"))
return
}
ipv4, ipv6 = ds.dsLocalhost.update()
ipv4, ipv6 = ds.dsLocalNetwork.update()
ipv4, ipv6 = ds.dsCloudflare.update()
ipv4, ipv6 = ds.dsGoogle.update()
if me.statusOS.ValidHostname() {
if ds.checkLookupDoH(me.statusOS.GetHostname()) {
log.Log(DNS, "updateDnsStatus() HTTP DNS lookups working")
me.digStatus.set(ds.statusHTTP, "WORKING")
} else {
log.Log(DNS, "updateDnsStatus() HTTP DNS lookups not working")
log.Log(DNS, "updateDnsStatus() It's really unlikely you are on the internet")
me.digStatus.set(ds.statusHTTP, "BROKEN")
}
} else {
me.digStatus.set(ds.statusHTTP, "INVALID HOSTNAME")
}
if (ipv4) {
log.Log(DNS, "updateDnsStatus() IPv4 A lookups working")
ds.setIPv4status("OK")
} else {
log.Log(DNS, "updateDnsStatus() IPv4 A lookups not working. No internet?")
ds.setIPv4status("No Internet?")
}
if (ipv6) {
log.Log(DNS, "updateDnsStatus() IPv6 AAAA lookups working")
ds.setIPv4status("GOOD")
ds.setIPv6status("GOOD")
} else {
log.Log(DNS, "updateDnsStatus() IPv6 AAAA lookups are not working")
ds.setIPv6status("Need VPN")
}
cmd = "dig +noall +answer www.wit.com A"
out = shell.Run(cmd)
log.Log(DNS, "makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigUDP, out)
cmd = "dig +noall +answer www.wit.com AAAA"
out = shell.Run(cmd)
log.Log(DNS, "makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigTCP, out)
}
func (ds *digStatus) makeHttpStatusGrid() {
group := ds.details.NewGroup("dns.google.com via HTTPS")
grid := group.NewGrid("LookupStatus", 2, 2)
ds.httpGoWitCom = gadgets.NewOneLiner(grid, "go.wit.com")
me.digStatus.set(ds.httpGoWitCom, "unknown")
group.Pad()
grid.Pad()
}
func (ds *digStatus) makeDnsStatusGrid() {
var cmd, out string
group := ds.details.NewGroup("dig results")
grid := group.NewGrid("LookupStatus", 2, 2)
cmd = "dig +noall +answer go.wit.com A"
grid.NewLabel(cmd)
ds.DnsDigUDP = grid.NewLabel("?")
out = shell.Run(cmd)
log.Log(DNS, "makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigUDP, out)
cmd = "dig +noall +answer go.wit.com AAAA"
grid.NewLabel(cmd)
ds.DnsDigTCP = grid.NewLabel("?")
out = shell.Run(cmd)
log.Log(DNS, "makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigTCP, out)
group.Pad()
grid.Pad()
}
func (ds *digStatus) checkLookupDoH(hostname string) bool {
var status bool = false
ipv6Addresses := lookupDoH(hostname, "AAAA")
log.Log(DNS, "IPv6 Addresses for ", hostname)
var s []string
for _, addr := range ipv6Addresses {
log.Log(DNS, addr)
s = append(s, addr)
status = true
}
me.digStatus.SetIPv6(strings.Join(s, "\n"))
return status
}
func (ds *digStatus) Show() {
log.Info("digStatus.Show() window")
if me.digStatus.hidden {
me.digStatus.window.Show()
}
me.digStatus.hidden = false
}
func (ds *digStatus) Hide() {
log.Info("digStatus.Hide() window")
if ! me.digStatus.hidden {
me.digStatus.window.Hide()
}
me.digStatus.hidden = true
}

94
dns-https.go
View File

@ -2,27 +2,76 @@ package main
import (
"fmt"
"strings"
"go.wit.com/log"
"io/ioutil"
"encoding/json"
"net/http"
"go.wit.com/log"
"github.com/miekg/dns"
)
/*
func getAAAArecords() {
hostname := "go.wit.com"
ipv6Addresses, err := dnsLookupDoH(hostname)
if err != nil {
log.Error(err, "getAAAArecords")
return
}
fmt.Printf("IPv6 Addresses for %s:\n", hostname)
for _, addr := range ipv6Addresses {
log.Println(addr)
}
}
*/
// dnsLookupDoH performs a DNS lookup for AAAA records over HTTPS.
func dnsAAAAlookupDoH(domain string) ([]string, error) {
var ipv6Addresses []string
// Construct the URL for a DNS query with Google's DNS-over-HTTPS API
url := fmt.Sprintf("https://dns.google/resolve?name=%s&type=AAAA", domain)
log.Println("curl", url)
// Perform the HTTP GET request
resp, err := http.Get(url)
if err != nil {
return nil, fmt.Errorf("error performing DNS-over-HTTPS request: %w", err)
}
defer resp.Body.Close()
// Read and unmarshal the response body
body, err := ioutil.ReadAll(resp.Body)
if err != nil {
return nil, fmt.Errorf("error reading response: %w", err)
}
var data struct {
Answer []struct {
Data string `json:"data"`
} `json:"Answer"`
}
if err := json.Unmarshal(body, &data); err != nil {
return nil, fmt.Errorf("error unmarshaling response: %w", err)
}
// Extract the IPv6 addresses
for _, answer := range data.Answer {
ipv6Addresses = append(ipv6Addresses, answer.Data)
}
return ipv6Addresses, nil
}
// dnsLookupDoH performs a DNS lookup for AAAA records over HTTPS.
func lookupDoH(hostname string, rrType string) []string {
var values []string
// Construct the URL for a DNS query with Google's DNS-over-HTTPS API
url := fmt.Sprintf("https://dns.google.com/resolve?name=%s&type=%s", hostname, rrType)
url := fmt.Sprintf("https://dns.google/resolve?name=%s&type=%s", hostname, rrType)
log.Log(DNS, "lookupDoH()", url)
if hostname == "" {
log.Warn("lookupDoH() was sent a empty hostname")
return nil
}
log.Println("curl", url)
// Perform the HTTP GET request
resp, err := http.Get(url)
@ -57,28 +106,3 @@ func lookupDoH(hostname string, rrType string) []string {
return values
}
func digAAAA(hostname string) []string {
var blah, ipv6Addresses []string
// domain := hostname
recordType := dns.TypeAAAA // dns.TypeTXT
// Cloudflare's DNS server
blah, _ = dnsUdpLookup("1.1.1.1:53", hostname, recordType)
log.Println("digAAAA() has BLAH =", blah)
if (len(blah) == 0) {
log.Println("digAAAA() RUNNING dnsAAAAlookupDoH(domain)")
ipv6Addresses = lookupDoH(hostname, "AAAA")
log.Println("digAAAA() has ipv6Addresses =", strings.Join(ipv6Addresses, " "))
for _, addr := range ipv6Addresses {
log.Println(addr)
}
return ipv6Addresses
}
// TODO: check digDoH vs blah, if so, then port 53 TCP and/or UDP is broken or blocked
log.Println("digAAAA() has BLAH =", blah)
return blah
}

4
dns.go
View File

@ -111,10 +111,10 @@ func lookupNS(domain string) {
}
tmp = shell.Chomp(tmp)
if (tmp != me.status.NSrr.Get()) {
if (tmp != me.NSrr.S) {
me.changed = true
log.Log(CHANGE, "lookupNS() setting me.NSrr =", tmp)
me.status.NSrr.Set(tmp)
me.NSrr.SetText(tmp)
}
}

476
dnsLookupStatus.go Normal file
View File

@ -0,0 +1,476 @@
/*
'dig'
This is essentially doing what the command 'dig' does
It performing DNS queries on TCP and UDP
against localhost, cloudflare & google
IPv4() and IPv6() return true if they are working
with the 'gui' package, it can also display the results
*/
package main
import (
"os"
"fmt"
"time"
"strconv"
"reflect"
"errors"
"go.wit.com/log"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"go.wit.com/shell"
"github.com/miekg/dns"
)
type digStatus struct {
ready bool
hidden bool
statusIPv4 string
statusIPv6 string
parent *gui.Node
window *gadgets.BasicWindow
group *gui.Node
grid *gui.Node
summary *gui.Node
status *gadgets.OneLiner
statusAAAA *gadgets.OneLiner
speed *gadgets.OneLiner
speedActual *gadgets.OneLiner
details *gui.Node
dsLocalhost *dnsStatus
dsLocalNetwork *dnsStatus
dsCloudflare *dnsStatus
dsGoogle *dnsStatus
DnsDigUDP *gui.Node
DnsDigTCP *gui.Node
httpGoWitCom *gadgets.OneLiner
statusHTTP *gadgets.OneLiner
}
type dnsStatus struct {
title string
server string // The DNS server. Example: "127.0.0.1:53" or "1.1.1.1:53"
hostname string // the hostname to lookup. Example: "www.google.com" or "go.wit.com"
parent *gui.Node
group *gui.Node
grid *gui.Node
// DNS setup options
udpA *gui.Node
tcpA *gui.Node
udpAAAA *gui.Node
tcpAAAA *gui.Node
// show the display
aFail *gui.Node
aSuccess *gui.Node
aaaaFail *gui.Node
aaaaSuccess *gui.Node
// interger counters
aFailc int
aSuccessc int
aaaaFailc int
aaaaSuccessc int
}
func NewDigStatusWindow(p *gui.Node) *digStatus {
var ds *digStatus
ds = new(digStatus)
ds.ready = false
ds.hidden = true
ds.window = gadgets.NewBasicWindow(p, "DNS Resolver Status")
ds.window.Draw()
ds.window.Hide()
// summary of the current state of things
ds.summary = ds.window.Box().NewGroup("Summary")
g := ds.summary.NewGrid("LookupStatus", 2, 2)
g.Pad()
ds.status = gadgets.NewOneLiner(g, "status").Set("unknown")
ds.statusAAAA = gadgets.NewOneLiner(g, "IPv6 status").Set("unknown")
ds.statusHTTP = gadgets.NewOneLiner(g, "IPv6 via HTTP").Set("unknown")
ds.speed = gadgets.NewOneLiner(g, "speed").Set("unknown")
ds.speedActual = gadgets.NewOneLiner(g, "actual").Set("unknown")
// make the area to store the raw details
ds.details = ds.window.Box().NewGroup("Details")
ds.dsLocalhost = NewDnsStatus(ds.details, "(localhost)", "127.0.0.1:53", "go.wit.com")
ds.dsLocalNetwork = NewDnsStatus(ds.details, "(Local Network)", "172.22.0.1:53", "go.wit.com")
ds.dsCloudflare = NewDnsStatus(ds.details, "(cloudflare)", "1.1.1.1:53", "go.wit.com")
ds.dsGoogle = NewDnsStatus(ds.details, "(google)", "8.8.8.8:53", "go.wit.com")
ds.makeDnsStatusGrid()
ds.makeHttpStatusGrid()
ds.hidden = false
ds.ready = true
return ds
}
func (ds *digStatus) Update() {
log.Info("digStatus() Update() START")
if ds == nil {
log.Error(errors.New("digStatus() Update() ds == nil"))
return
}
duration := timeFunction(func () {
ds.updateDnsStatus()
})
s := fmt.Sprint(duration)
// ds.speedActual.Set(s)
me.digStatus.set(ds.speedActual, s)
if (duration > 500 * time.Millisecond ) {
me.digStatus.set(ds.speed, "SLOW")
} else if (duration > 100 * time.Millisecond ) {
me.digStatus.set(ds.speed, "OK")
} else {
me.digStatus.set(ds.speed, "FAST")
}
log.Info("digStatus() Update() END")
}
// Returns true if the status is valid
func (ds *digStatus) Ready() bool {
if ds == nil {return false}
return ds.ready
}
// Returns true if IPv4 is working
func (ds *digStatus) IPv4() bool {
if ! ds.Ready() {return false}
if (ds.statusIPv4 == "OK") {
return true
}
if (ds.statusIPv4 == "GOOD") {
return true
}
return false
}
// Returns true if IPv6 is working
func (ds *digStatus) IPv6() bool {
if ! ds.Ready() {return false}
if (ds.statusIPv6 == "GOOD") {
return true
}
return false
}
func (ds *digStatus) setIPv4(s string) {
ds.statusIPv4 = s
if ! ds.Ready() {return}
me.digStatus.set(ds.status, s)
}
func (ds *digStatus) setIPv6(s string) {
ds.statusIPv6 = s
if ! ds.Ready() {return}
me.digStatus.set(ds.statusAAAA, s)
}
func (ds *digStatus) set(a any, s string) {
if ! ds.Ready() {return}
if ds.hidden {
return
}
if a == nil {
return
}
var n *gui.Node
if reflect.TypeOf(a) == reflect.TypeOf(n) {
n = a.(*gui.Node)
n.SetText(s)
return
}
var ol *gadgets.OneLiner
if reflect.TypeOf(a) == reflect.TypeOf(ol) {
ol = a.(*gadgets.OneLiner)
ol.Set(s)
return
}
log.Warn("unknown type TypeOf(a) =", reflect.TypeOf(a), "a =", a)
os.Exit(0)
}
func (ds *digStatus) updateDnsStatus() {
var cmd, out string
var ipv4, ipv6 bool
log.Info("updateDnsStatus() START")
if (ds == nil) {
log.Error(errors.New("updateDnsStatus() not initialized yet. ds == nil"))
return
}
if (! ds.ready) {
log.Error(errors.New("updateDnsStatus() not ready yet"))
return
}
ipv4, ipv6 = ds.dsLocalhost.update()
ipv4, ipv6 = ds.dsLocalNetwork.update()
ipv4, ipv6 = ds.dsCloudflare.update()
ipv4, ipv6 = ds.dsGoogle.update()
if ds.checkLookupDoH("go.wit.com") {
log.Println("updateDnsStatus() HTTP DNS lookups working")
me.digStatus.set(ds.statusHTTP, "WORKING")
} else {
log.Println("updateDnsStatus() HTTP DNS lookups not working")
log.Println("updateDnsStatus() It's really unlikely you are on the internet")
me.digStatus.set(ds.statusHTTP, "BROKEN")
}
if (ipv4) {
log.Println("updateDnsStatus() IPv4 A lookups working")
ds.setIPv4("OK")
} else {
log.Println("updateDnsStatus() IPv4 A lookups not working. No internet?")
ds.setIPv4("No Internet?")
}
if (ipv6) {
log.Println("updateDnsStatus() IPv6 AAAA lookups working")
ds.setIPv4("GOOD")
ds.setIPv6("GOOD")
} else {
log.Println("updateDnsStatus() IPv6 AAAA lookups are not working")
ds.setIPv6("Need VPN")
}
cmd = "dig +noall +answer www.wit.com A"
out = shell.Run(cmd)
log.Println("makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigUDP, out)
cmd = "dig +noall +answer www.wit.com AAAA"
out = shell.Run(cmd)
log.Println("makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigTCP, out)
}
// Makes a DNS Status Grid
func NewDnsStatus(p *gui.Node, title string, server string, hostname string) *dnsStatus {
var ds *dnsStatus
ds = new(dnsStatus)
ds.parent = p
ds.group = p.NewGroup(server + " " + title + " lookup")
ds.grid = ds.group.NewGrid("LookupStatus", 5, 2)
ds.server = server
ds.hostname = hostname
ds.grid.NewLabel("")
ds.grid.NewLabel("UDP")
ds.grid.NewLabel("TCP")
ds.grid.NewLabel("Success")
ds.grid.NewLabel("Fail")
ds.grid.NewLabel("A")
ds.udpA = ds.grid.NewLabel("?")
ds.tcpA = ds.grid.NewLabel("?")
ds.aSuccess = ds.grid.NewLabel("?")
ds.aFail = ds.grid.NewLabel("?")
ds.grid.NewLabel("AAAA")
ds.udpAAAA = ds.grid.NewLabel("?")
ds.tcpAAAA = ds.grid.NewLabel("?")
ds.aaaaSuccess = ds.grid.NewLabel("?")
ds.aaaaFail = ds.grid.NewLabel("?")
ds.group.Margin()
ds.grid.Margin()
ds.group.Pad()
ds.grid.Pad()
return ds
}
// special thanks to the Element Hotel wifi in Philidelphia that allowed me to
// easily debug this code since the internet connection here blocks port 53 traffic
func (ds *dnsStatus) update() (bool, bool) {
var results []string
var a bool = false
var aaaa bool = false
log.Println("dnsStatus.update() For server", ds.server, "on", ds.hostname)
results, _ = dnsUdpLookup(ds.server, ds.hostname, dns.TypeA)
log.Println("dnsStatus.update() UDP type A =", results)
if (len(results) == 0) {
me.digStatus.set(ds.udpA, "BROKEN")
ds.aFailc += 1
} else {
me.digStatus.set(ds.udpA, "WORKING")
ds.aSuccessc += 1
a = true
}
results, _ = dnsTcpLookup(ds.server, ds.hostname, dns.TypeA)
log.Println("dnsStatus.update() TCP type A =", results)
if (len(results) == 0) {
me.digStatus.set(ds.tcpA, "BROKEN")
ds.aFailc += 1
} else {
me.digStatus.set(ds.tcpA, "WORKING")
ds.aSuccessc += 1
a = true
}
me.digStatus.set(ds.aFail, strconv.Itoa(ds.aFailc))
me.digStatus.set(ds.aSuccess,strconv.Itoa(ds.aSuccessc))
results, _ = dnsUdpLookup(ds.server, ds.hostname, dns.TypeAAAA)
log.Println("dnsStatus.update() UDP type AAAA =", results)
if (len(results) == 0) {
me.digStatus.set(ds.udpAAAA, "BROKEN")
ds.aaaaFailc += 1
me.digStatus.set(ds.aaaaFail, strconv.Itoa(ds.aaaaFailc))
} else {
me.digStatus.set(ds.udpAAAA, "WORKING")
ds.aaaaSuccessc += 1
aaaa = true
}
results, _ = dnsTcpLookup(ds.server, ds.hostname, dns.TypeAAAA)
log.Println("dnsStatus.update() UDP type AAAA =", results)
if (len(results) == 0) {
me.digStatus.set(ds.tcpAAAA, "BROKEN")
ds.aaaaFailc += 1
me.digStatus.set(ds.aaaaFail, strconv.Itoa(ds.aaaaFailc))
} else {
me.digStatus.set(ds.tcpAAAA, "WORKING")
ds.aaaaSuccessc += 1
aaaa = true
}
me.digStatus.set(ds.aaaaFail, strconv.Itoa(ds.aaaaFailc))
me.digStatus.set(ds.aaaaSuccess,strconv.Itoa(ds.aaaaSuccessc))
return a, aaaa
}
func (ds *digStatus) makeHttpStatusGrid() {
group := ds.details.NewGroup("dns.google.com via HTTPS")
grid := group.NewGrid("LookupStatus", 2, 2)
ds.httpGoWitCom = gadgets.NewOneLiner(grid, "go.wit.com")
me.digStatus.set(ds.httpGoWitCom, "unknown")
group.Pad()
grid.Pad()
}
func (ds *digStatus) makeDnsStatusGrid() {
var cmd, out string
group := ds.details.NewGroup("dig results")
grid := group.NewGrid("LookupStatus", 2, 2)
cmd = "dig +noall +answer go.wit.com A"
grid.NewLabel(cmd)
ds.DnsDigUDP = grid.NewLabel("?")
out = shell.Run(cmd)
log.Println("makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigUDP, out)
cmd = "dig +noall +answer go.wit.com AAAA"
grid.NewLabel(cmd)
ds.DnsDigTCP = grid.NewLabel("?")
out = shell.Run(cmd)
log.Println("makeDnsStatusGrid() dig", out)
me.digStatus.set(ds.DnsDigTCP, out)
group.Pad()
grid.Pad()
}
// dnsLookup performs a DNS lookup for the specified record type (e.g., "TXT", "AAAA") for a given domain.
func dnsUdpLookup(server string, domain string, recordType uint16) ([]string, error) {
var records []string
c := new(dns.Client)
m := new(dns.Msg)
m.SetQuestion(dns.Fqdn(domain), recordType)
r, _, err := c.Exchange(m, server) // If server = "1.1.1.1:53" then use Cloudflare's DNS server
if err != nil {
return nil, err
}
for _, ans := range r.Answer {
records = append(records, ans.String())
}
return records, nil
}
func dnsTcpLookup(server string, domain string, recordType uint16) ([]string, error) {
var records []string
c := new(dns.Client)
c.Net = "tcp" // Specify to use TCP for the query
c.Timeout = time.Second * 5 // Set a 5-second timeout
m := new(dns.Msg)
m.SetQuestion(dns.Fqdn(domain), recordType)
r, _, err := c.Exchange(m, server) // If server = "1.1.1.1:53" then use Cloudflare's DNS server
if err != nil {
return nil, err
}
for _, ans := range r.Answer {
records = append(records, ans.String())
}
return records, nil
}
func (ds *digStatus) checkLookupDoH(hostname string) bool {
var status bool = false
domain := "go.wit.com"
ipv6Addresses, err := dnsAAAAlookupDoH(domain)
if err != nil {
log.Error(err, "checkLookupDoH()")
return status
}
log.Println("IPv6 Addresses for %s:\n", domain)
for _, addr := range ipv6Addresses {
log.Println(addr)
me.digStatus.set(ds.httpGoWitCom, addr)
status = true
}
return status
}
func (ds *digStatus) Show() {
log.Info("digStatus.Show() window")
if me.digStatus.hidden {
me.digStatus.window.Show()
}
me.digStatus.hidden = false
}
func (ds *digStatus) Hide() {
log.Info("digStatus.Hide() window")
if ! me.digStatus.hidden {
me.digStatus.window.Hide()
}
me.digStatus.hidden = true
}

44
fix.go
View File

@ -1,44 +0,0 @@
// This creates a simple hello world window
package main
import (
"go.wit.com/log"
)
func fix() bool {
log.Warn("")
if ! me.status.Ready() {
log.Warn("The IPv6 Control Panel is not Ready() yet")
return false
}
if me.statusOS.ValidHostname() {
log.Warn("Your hostname is VALID:", me.statusOS.GetHostname())
} else {
log.Warn("You must first fix your hostname:", me.statusOS.GetHostname())
return false
}
if me.digStatus.IPv4() {
log.Warn("IPv4 addresses are resolving")
} else {
log.Warn("You must first figure out why you can't look up IPv4 addresses")
log.Warn("Are you on the internet at all?")
return false
}
if me.digStatus.IPv6() {
log.Warn("IPv6 addresses are resolving")
} else {
log.Warn("You must first figure out why you can't look up IPv6 addresses")
return false
}
if ! me.status.IPv4() {
log.Warn("You do not have real IPv4 addresses. Nothing to fix here")
}
if ! me.status.IPv6() {
log.Warn("IPv6 DNS is broken. Check what is broken here")
log.Warn("What are my IPv6 addresses?")
log.Warn("What are the AAAA resource records in DNS?")
return false
}
log.Warn("YOU SHOULD BE IN IPv6 BLISS")
return true
}

194
gui.go
View File

@ -4,15 +4,18 @@ package main
import (
"time"
"os"
"os/user"
"strconv"
// "net"
"strings"
"go.wit.com/log"
"go.wit.com/shell"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"go.wit.com/gui/cloudflare"
"go.wit.com/gui/debugger"
"go.wit.com/control-panels/dns/linuxstatus"
)
// This setups up the dns control panel window
@ -22,7 +25,56 @@ func setupControlPanelWindow() {
// setup the main tab
mainWindow("DNS and IPv6 Control Panel")
detailsTab("OS Details")
debugTab("Debug")
// me.digStatus = NewDigStatusWindow(me.window)
}
func detailsTab(title string) {
var g2 *gui.Node
me.details = gadgets.NewBasicWindow(me.myGui, title)
me.details.Draw()
me.details.Hide()
g2 = me.details.Box().NewGroup("Real Stuff")
grid := g2.NewGrid("gridnuts", 2, 2)
grid.SetNext(1,1)
grid.NewLabel("domainname =")
me.domainname = grid.NewLabel("domainname")
grid.NewLabel("hostname -s =")
me.hostshort = grid.NewLabel("hostname -s")
grid.NewLabel("NS records =")
me.NSrr = grid.NewLabel("NS RR's")
grid.NewLabel("UID =")
me.uid = grid.NewLabel("my uid")
grid.NewLabel("Current IPv4 =")
me.IPv4 = grid.NewLabel("?")
grid.NewLabel("Current IPv6 =")
me.IPv6 = grid.NewLabel("?")
grid.NewLabel("Working Real IPv6 =")
me.workingIPv6 = grid.NewLabel("?")
grid.NewLabel("interfaces =")
me.Interfaces = grid.NewCombobox("Interfaces")
grid.NewLabel("refresh speed")
me.LocalSpeedActual = grid.NewLabel("unknown")
grid.Margin()
grid.Pad()
me.details.Hide()
}
func debugTab(title string) {
@ -38,20 +90,18 @@ func debugTab(title string) {
debugger.DebugWindow(me.myGui)
})
g2.NewButton("getHostname() looks at the OS settings", func () {
getHostname()
})
g2.NewButton("dig A & AAAA DNS records", func () {
log.Println("updateDNS()")
updateDNS()
})
g2.NewButton("dig +trace", func () {
log.Log(NOW, "TODO: redo this")
// o := shell.Run("dig +trace +noadditional DS " + me.hostname + " @8.8.8.8")
// log.Println(o)
})
g2.NewButton("getProcessNameByPort()", func () {
processName := getProcessNameByPort(53)
log.Info("Process with port 53:", processName)
o := shell.Run("dig +trace +noadditional DS " + me.hostname + " @8.8.8.8")
log.Println(o)
})
g2 = me.debug.Box().NewGroup("debugging options")
@ -98,15 +148,15 @@ func missingAAAA() string {
// it just updates the GUI
func displayDNS() string {
var aaaa []string
aaaa = append(aaaa, "blah", "more")
// h := me.hostname
aaaa = dhcpAAAA() // your AAAA records right now
h := me.hostname
var all string
var broken string = "unknown"
for _, s := range aaaa {
log.Log(STATUS, "host", "fixme", "DNS AAAA =", s, "ipmap[s] =", me.ipmap[s])
log.Log(NOW, "host", h, "DNS AAAA =", s, "ipmap[s] =", me.ipmap[s])
all += s + "\n"
if ( me.ipmap[s] == nil) {
log.Warn("THIS IS THE WRONG AAAA DNS ENTRY: host", "fixme", "DNS AAAA =", s)
log.Warn("THIS IS THE WRONG AAAA DNS ENTRY: host", h, "DNS AAAA =", s)
broken = "wrong AAAA entry"
} else {
if (broken == "unknown") {
@ -114,16 +164,21 @@ func displayDNS() string {
}
}
}
all = sortLines(all)
if (me.workingIPv6.S != all) {
log.Warn("workingIPv6.SetText() to:", all)
me.workingIPv6.SetText(all)
}
var a []string
a = realA()
all = sortLines(strings.Join(a, "\n"))
if (all == "") {
log.Log(NOW, "THERE IS NOT a real A DNS ENTRY")
log.Info("THERE IS NOT a real A DNS ENTRY")
all = "CNAME ipv6.wit.com"
}
if (me.DnsA.S != all) {
log.Log(NOW, "DnsA.SetText() to:", all)
log.Warn("DnsA.SetText() to:", all)
me.DnsA.SetText(all)
}
return broken
@ -137,20 +192,26 @@ func myDefaultExit(n *gui.Node) {
func mainWindow(title string) {
me.window = gadgets.NewBasicWindow(me.myGui, title)
gr := me.window.Box().NewGroup("dns update")
grid := gr.NewGrid("gridnuts", 2, 2)
me.mainStatus = me.window.Box().NewGroup("dns update")
grid := me.mainStatus.NewGrid("gridnuts", 2, 2)
grid.SetNext(1,1)
me.hostname = gadgets.NewOneLiner(grid, "hostname =").Set("unknown")
me.DnsAAAA = gadgets.NewOneLiner(grid, "DNS AAAA =").Set("unknown")
grid.NewLabel("hostname =")
me.fqdn = grid.NewLabel("?")
me.hostname = ""
grid.NewLabel("DNS AAAA =")
me.DnsAAAA = grid.NewLabel("?")
grid.NewLabel("DNS A =")
me.DnsA = grid.NewLabel("?")
// This is where you figure out what to do next to fix the problems
gr.NewButton("fix", func () {
fix()
me.digStatus = NewDigStatusWindow(me.myGui)
me.hostnameStatus = NewHostnameStatusWindow(me.myGui)
me.hostnameStatusButton = me.mainStatus.NewButton("Fix hostname DNS", func () {
me.hostnameStatus.window.Toggle()
})
grid.Margin()
@ -158,44 +219,20 @@ func mainWindow(title string) {
statusGrid(me.window.Box())
gr = me.window.Box().NewGroup("debugging")
gr.NewButton("hostname status", func () {
if ! me.status.Ready() {return}
me.status.window.Toggle()
gr := me.window.Box().NewGroup("debugging")
gr.NewButton("GO GUI Debugger", func () {
debugger.DebugWindow(me.myGui)
})
gr.NewButton("linuxstatus.New()", func () {
if (me.statusOS == nil) {
me.statusOS = linuxstatus.New()
}
me.statusOS.SetParent(me.myGui)
me.statusOS.InitWindow()
me.statusOS.Make()
me.statusOS.Draw2()
gr.NewButton("OS Details", func () {
me.details.Toggle()
})
gr.NewButton("statusOS.Ready()", func () {
me.statusOS.Ready()
gr.NewButton("DNS Debug", func () {
me.debug.Toggle()
})
gr.NewButton("statusOS.Draw()", func () {
me.statusOS.Draw()
me.statusOS.Draw2()
})
gr.NewButton("statusOS.Update()", func () {
me.statusOS.Update()
})
gr.NewButton("Linux Status", func () {
me.statusOS.Toggle()
})
gr.NewButton("resolver status", func () {
gr.NewButton("Resolver Status", func () {
if ! me.digStatus.Ready() {return}
me.digStatus.window.Toggle()
})
gr.NewButton("cloudflare wit.com", func () {
cloudflare.CreateRR(me.myGui, "wit.com", "3777302ac4a78cd7fa4f6d3f72086d06")
})
gr.NewButton("Debug", func () {
me.debug.Toggle()
})
}
func statusGrid(n *gui.Node) {
@ -203,15 +240,15 @@ func statusGrid(n *gui.Node) {
gridP := problems.NewGrid("nuts", 2, 2)
gridP.NewLabel("hostname =")
me.hostnameStatus = gridP.NewLabel("invalid")
gridP.NewLabel("DNS Status =")
me.DnsStatus = gridP.NewLabel("unknown")
me.statusIPv6 = gadgets.NewOneLiner(gridP, "IPv6 working")
me.statusIPv6.Set("known")
gridP.NewLabel("hostname =")
me.hostnameStatusOLD = gridP.NewLabel("invalid")
gridP.NewLabel("dns resolution")
me.DnsSpeed = gridP.NewLabel("unknown")
@ -242,27 +279,29 @@ func statusGrid(n *gui.Node) {
// run everything because something has changed
func updateDNS() {
var aaaa []string
h := me.hostname
if (h == "") {
h = "test.wit.com"
}
me.digStatus.Update()
me.status.Update()
me.hostnameStatus.Update()
// log.Println("digAAAA()")
if me.statusOS.ValidHostname() {
var aaaa []string
h := me.statusOS.GetHostname()
aaaa = digAAAA(h)
log.Log(NOW, "digAAAA() for", h, "=", aaaa)
log.Log(NOW, "digAAAA() =", aaaa)
// log.Println(SPEW, me)
if (aaaa == nil) {
log.Warn("There are no DNS AAAA records for hostname: ", h)
me.DnsAAAA.Set("(none)")
me.DnsAAAA.SetText("(none)")
if (cloudflare.CFdialog.TypeNode != nil) {
cloudflare.CFdialog.TypeNode.SetText("AAAA new")
}
if (cloudflare.CFdialog.NameNode != nil) {
cloudflare.CFdialog.NameNode.SetText(h)
cloudflare.CFdialog.NameNode.SetText(me.hostname)
}
d := deleteAAA()
@ -288,7 +327,6 @@ func updateDNS() {
*/
}
}
}
status := displayDNS() // update the GUI based on dig results
me.DnsStatus.SetText(status)
@ -303,10 +341,32 @@ func updateDNS() {
// me.fix.Enable()
user, _ := user.Current()
log.Println("os.Getuid =", user.Username, os.Getuid())
if (me.uid != nil) {
me.uid.SetText(user.Username + " (" + strconv.Itoa(os.Getuid()) + ")")
}
// lookup the NS records for your domain
// if your host is test.wit.com, find the NS resource records for wit.com
lookupNS(me.statusOS.GetDomainName())
lookupNS(me.domainname.S)
log.Println("updateDNS() END")
}
func suggestProcDebugging() {
if (me.fixProc != nil) {
// me.fixProc.Disable()
return
}
me.fixProc = me.mainStatus.NewButton("Try debugging Slow DNS lookups", func () {
log.Warn("You're DNS lookups are very slow")
me.dbOn.Set(true)
me.dbProc.Set(true)
processName := getProcessNameByPort(53)
log.Info("Process with port 53:", processName)
})
// me.fixProc.Disable()
}

160
hostname.go Normal file
View File

@ -0,0 +1,160 @@
// figures out if your hostname is valid
// then checks if your DNS is setup correctly
package main
import (
"strings"
"go.wit.com/log"
"go.wit.com/shell"
"go.wit.com/gui/cloudflare"
"github.com/miekg/dns"
// will try to get this hosts FQDN
"github.com/Showmax/go-fqdn"
)
func getHostname() {
var err error
var s string = "gui.Label == nil"
s, err = fqdn.FqdnHostname()
if (err != nil) {
log.Error(err, "FQDN hostname error")
return
}
if (me.fqdn != nil) {
if (me.hostname != s) {
me.fqdn.SetText(s)
me.hostname = s
me.changed = true
}
}
log.Log(NET, "FQDN =", s)
dn := run("domainname")
if (me.domainname.S != dn) {
log.Log(CHANGE, "domainname has changed from", me.domainname.S, "to", dn)
me.domainname.SetText(dn)
me.changed = true
}
hshort := run("hostname -s")
if (me.hostshort.S != hshort) {
log.Log(CHANGE, "hostname -s has changed from", me.hostshort.S, "to", hshort)
me.hostshort.SetText(hshort)
me.changed = true
}
var test string
test = hshort + "." + dn
if (me.hostname != test) {
log.Info("me.hostname", me.hostname, "does not equal", test)
if (me.hostnameStatusOLD.S != "BROKEN") {
log.Log(CHANGE, "me.hostname", me.hostname, "does not equal", test)
me.changed = true
me.hostnameStatusOLD.SetText("BROKEN")
}
} else {
if (me.hostnameStatusOLD.S != "VALID") {
log.Log(CHANGE, "me.hostname", me.hostname, "is valid")
me.hostnameStatusOLD.SetText("VALID")
me.changed = true
}
// enable the cloudflare button if the provider is cloudflare
if (me.cloudflareB == nil) {
log.Log(CHANGE, "me.cloudflare == nil; me.DnsAPI.S =", me.DnsAPI.S)
if (me.DnsAPI.S == "cloudflare") {
me.cloudflareB = me.mainStatus.NewButton("cloudflare wit.com", func () {
cloudflare.CreateRR(me.myGui, "wit.com", "3777302ac4a78cd7fa4f6d3f72086d06")
})
}
}
}
}
// returns true if the hostname is good
// check that all the OS settings are correct here
// On Linux, /etc/hosts, /etc/hostname
// and domainname and hostname
func goodHostname(h string) bool {
hostname := shell.Chomp(shell.Cat("/etc/hostname"))
log.Log(NOW, "hostname =", hostname)
hs := run("hostname -s")
dn := run("domainname")
log.Log(NOW, "hostname short =", hs, "domainname =", dn)
tmp := hs + "." + dn
if (hostname == tmp) {
log.Log(NOW, "hostname seems to be good", hostname)
return true
}
return false
}
/*
func digAAAA(s string) []string {
var aaaa []string
// lookup the IP address from DNS
rrset := dnssecsocket.Dnstrace(s, "AAAA")
// log.Spew(args.VerboseDNS, SPEW, rrset)
for i, rr := range rrset {
ipaddr := dns.Field(rr, 1)
// how the hell do you detect a RRSIG AAAA record here?
if (ipaddr == "28") {
continue
}
log.Log(NOW, "r.Answer =", i, "rr =", rr, "ipaddr =", ipaddr)
aaaa = append(aaaa, ipaddr)
me.ipv6s[ipaddr] = rr
}
log.Info(args.VerboseDNS, "aaaa =", aaaa)
log.Println("digAAAA() returned =", aaaa)
log.Println("digAAAA() me.ipv6s =", me.ipv6s)
os.Exit(0)
return aaaa
}
*/
func digAAAA(hostname string) []string {
var blah, ipv6Addresses []string
// domain := hostname
recordType := dns.TypeAAAA // dns.TypeTXT
// Cloudflare's DNS server
blah, _ = dnsUdpLookup("1.1.1.1:53", hostname, recordType)
log.Println("digAAAA() has BLAH =", blah)
if (len(blah) == 0) {
log.Println("digAAAA() RUNNING dnsAAAAlookupDoH(domain)")
ipv6Addresses, _ = dnsAAAAlookupDoH(hostname)
log.Println("digAAAA() has ipv6Addresses =", strings.Join(ipv6Addresses, " "))
for _, addr := range ipv6Addresses {
log.Println(addr)
}
return ipv6Addresses
}
// TODO: check digDoH vs blah, if so, then port 53 TCP and/or UDP is broken or blocked
log.Println("digAAAA() has BLAH =", blah)
return blah
}
/*
func dnsHttpsLookup(domain string, recordType uint16) ([]string, error) {
domain := "google.com"
dnsLookupDoH(domain string) ([]string, error) {
ipv6Addresses, err := dnsLookupDoH(domain)
if err != nil {
log.Println("Error:", err)
return
}
log.Printf("IPv6 Addresses for %s:\n", domain)
for _, addr := range ipv6Addresses {
log.Println(addr)
}
}
*/

95
hostnameStatus.go
View File

@ -16,14 +16,14 @@ import (
"go.wit.com/log"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"go.wit.com/gui/cloudflare"
)
type hostnameStatus struct {
ready bool
hidden bool
// hostname string // my hostname. Example: "test.wit.com"
lastname string // used to watch for changes in the hostname
hostname string // my hostname. Example: "test.wit.com"
window *gadgets.BasicWindow
@ -42,7 +42,6 @@ type hostnameStatus struct {
currentIPv6 *gadgets.OneLiner
// what the DNS servers have
NSrr *gadgets.OneLiner
dnsA *gadgets.OneLiner
dnsAAAA *gadgets.OneLiner
dnsAPI *gadgets.OneLiner
@ -51,8 +50,8 @@ type hostnameStatus struct {
speedActual *gadgets.OneLiner
// Actions
// dnsValue *gui.Node
// dnsAction *gui.Node
dnsValue *gui.Node
dnsAction *gui.Node
}
func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
@ -61,9 +60,9 @@ func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
hs.ready = false
hs.hidden = true
// hs.hostname = me.hostname
hs.hostname = me.hostname
hs.window = gadgets.NewBasicWindow(p, "fix hostname here" + " Status")
hs.window = gadgets.NewBasicWindow(p, hs.hostname + " Status")
hs.window.Draw()
hs.window.Hide()
@ -85,7 +84,6 @@ func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
hs.currentIPv4 = gadgets.NewOneLiner(grid, "Current IPv4")
hs.currentIPv6 = gadgets.NewOneLiner(grid, "Current IPv6")
hs.NSrr = gadgets.NewOneLiner(grid, "dns NS records").Set("unknown")
hs.dnsAPI = gadgets.NewOneLiner(grid, "dns API provider").Set("unknown")
hs.dnsA = gadgets.NewOneLiner(grid, "dns IPv4 resource records").Set("unknown")
hs.dnsAAAA = gadgets.NewOneLiner(grid, "dns IPv6 resource records").Set("unknown")
@ -96,7 +94,6 @@ func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
group.Pad()
grid.Pad()
/*
group = hs.window.Box().NewGroup("Actions")
grid = group.NewGrid("LookupDetails", 2, 2)
@ -110,7 +107,6 @@ func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
hs.createDNSrecord(hs.dnsValue.S)
}
})
*/
group.Pad()
grid.Pad()
@ -120,12 +116,6 @@ func NewHostnameStatusWindow(p *gui.Node) *hostnameStatus {
return hs
}
/*
func (hs *hostnameStatus) ValidHostname() bool {
return goodHostname()
}
*/
func (hs *hostnameStatus) Domain() string {
if ! hs.Ready() {return ""}
return hs.domainname.Get()
@ -136,33 +126,31 @@ func (hs *hostnameStatus) API() string {
return hs.dnsAPI.Get()
}
/*
func (hs *hostnameStatus) deleteDNSrecord(value string) bool {
log.Info("deleteDNSrecord() START for", value)
log.Info("deleteDNSrecord() hostname =", me.status.GetHostname())
log.Info("deleteDNSrecord() hostname =", me.hostname)
log.Info("deleteDNSrecord() domain =", hs.Domain())
log.Info("deleteDNSrecord() DNS API Provider =", hs.API())
if (hs.API() == "cloudflare") {
log.Info("deleteDNSrecord() Try to delete via cloudflare")
return cloudflare.Delete(hs.Domain(), me.status.GetHostname(), value)
return cloudflare.Delete(hs.Domain(), me.hostname, value)
}
return false
}
func (hs *hostnameStatus) createDNSrecord(value string) bool {
log.Info("createDNSrecord() START for", value)
log.Info("createDNSrecord() hostname =", me.status.GetHostname())
log.Info("createDNSrecord() hostname =", me.hostname)
log.Info("createDNSrecord() domain =", hs.Domain())
log.Info("createDNSrecord() DNS API Provider =", hs.API())
if (hs.API() == "cloudflare") {
log.Warn("createDNSrecord() Try to create via cloudflare:", me.status.GetHostname(), value)
return cloudflare.Create(hs.Domain(), me.status.GetHostname(), value)
log.Warn("createDNSrecord() Try to delete via cloudflare:", me.hostname, value)
return cloudflare.Create(hs.Domain(), me.hostname, value)
}
return false
}
*/
func (hs *hostnameStatus) Update() {
log.Info("hostnameStatus() Update() START")
@ -241,10 +229,10 @@ func (hs *hostnameStatus) set(a any, s string) {
if reflect.TypeOf(a) == reflect.TypeOf(ol) {
ol = a.(*gadgets.OneLiner)
if ol == nil {
// log.Println("ol = nil", reflect.TypeOf(a), "a =", a)
log.Println("ol = nil", reflect.TypeOf(a), "a =", a)
return
}
// log.Println("SETTING ol:", ol)
log.Println("SETTING ol:", ol)
ol.Set(s)
return
}
@ -252,67 +240,51 @@ func (hs *hostnameStatus) set(a any, s string) {
os.Exit(0)
}
// returns true if AAAA record already exists in DNS
func (hs *hostnameStatus) existsAAAA(s string) bool {
log.Log(NOW, "existsAAAA() try to see if AAAA is already set", s)
return false
}
/*
// figure out if I'm missing any IPv6 address in DNS
func (hs *hostnameStatus) missingAAAA() bool {
var aaaa []string
aaaa = dhcpAAAA()
for _, s := range aaaa {
log.Log(NET, "my actual AAAA = ",s)
if hs.existsAAAA(s) {
log.Log(NOW, "my actual AAAA already exists in DNS =",s)
} else {
log.Log(NOW, "my actual AAAA is missing from DNS",s)
hs.dnsValue.SetText(s)
hs.dnsAction.SetText("CREATE")
return true
}
}
return false
}
*/
func (hs *hostnameStatus) updateStatus() {
if ! hs.Ready() { return }
var s string
var vals []string
log.Log(STATUS, "updateStatus() START")
log.Info("updateStatus() START")
if ! hs.Ready() { return }
hs.hostShort.Set(me.statusOS.GetHostShort())
hs.domainname.Set(me.statusOS.GetDomainName())
hs.hostShort.Set(me.hostshort.S)
hs.domainname.Set(me.domainname.S)
if me.statusOS.ValidHostname() {
vals = lookupDoH(me.statusOS.GetHostname(), "AAAA")
vals = lookupDoH(hs.hostname, "AAAA")
log.Log(STATUS, "DNS IPv6 Addresses for ", me.statusOS.GetHostname(), "=", vals)
log.Println("DNS IPv6 Addresses for ", hs.hostname, "=", vals)
if len(vals) == 0 {
s = "(none)"
} else {
hs.setIPv6("Check for real IPv6 addresses here")
/*
if hs.missingAAAA() {
hs.setIPv6("Add the missing IPv6 address")
}
*/
} else {
for _, addr := range vals {
log.Log(STATUS, addr)
s += addr + " (DELETE)" + "\n"
log.Println(addr)
s += addr + " (DELETE)"
hs.setIPv6("NEEDS DELETE")
// hs.dnsValue.SetText(addr)
// hs.dnsAction.SetText("DELETE")
hs.dnsValue.SetText(addr)
hs.dnsAction.SetText("DELETE")
}
}
hs.set(hs.dnsAAAA, s)
vals = lookupDoH(me.statusOS.GetHostname(), "A")
log.Log(STATUS, "IPv4 Addresses for ", me.statusOS.GetHostname(), "=", vals)
vals = lookupDoH(hs.hostname, "A")
log.Println("IPv4 Addresses for ", hs.hostname, "=", vals)
s = strings.Join(vals, "\n")
if (s == "") {
s = "(none)"
@ -320,20 +292,17 @@ func (hs *hostnameStatus) updateStatus() {
}
hs.set(hs.dnsA, s)
vals = lookupDoH(me.statusOS.GetHostname(), "CNAME")
vals = lookupDoH(hs.hostname, "CNAME")
s = strings.Join(vals, "\n")
if (s != "") {
hs.set(hs.dnsA, "CNAME " + s)
hs.setIPv4("GOOD")
}
}
// hs.currentIPv4.Set(me.IPv4.S)
// hs.currentIPv6.Set(me.IPv6.S)
hs.currentIPv4.Set("get this from linuxStatus")
hs.currentIPv6.Set("get this from linuxStatus")
hs.currentIPv4.Set(me.IPv4.S)
hs.currentIPv6.Set(me.IPv6.S)
if hs.IPv4() && hs.IPv6() {
if hs.IPv4() && hs.IPv4() {
hs.status.Set("GOOD")
} else {
hs.status.Set("BROKEN")
@ -343,7 +312,7 @@ func (hs *hostnameStatus) updateStatus() {
}
func (hs *hostnameStatus) Show() {
log.Log(STATUS, "hostnameStatus.Show() window")
log.Info("hostnameStatus.Show() window")
if hs.hidden {
hs.window.Show()
}
@ -351,7 +320,7 @@ func (hs *hostnameStatus) Show() {
}
func (hs *hostnameStatus) Hide() {
log.Log(STATUS, "hostnameStatus.Hide() window")
log.Info("hostnameStatus.Hide() window")
if ! hs.hidden {
hs.window.Hide()
}

39
linuxstatus/args.go
View File

@ -1,39 +0,0 @@
package linuxstatus
/*
this enables command line options from other packages like 'gui' and 'log'
*/
import (
"go.wit.com/log"
)
var NOW log.LogFlag
var INFO log.LogFlag
var NET log.LogFlag
var DNS log.LogFlag
var PROC log.LogFlag
var SPEW log.LogFlag
var WARN log.LogFlag
var CHANGE log.LogFlag
var STATUS log.LogFlag
func myreg(f *log.LogFlag, b bool, name string, desc string) {
f.B = b
f.Subsystem = "go.wit.com/control-panels/dns/linuxstatus"
f.Short = "linux"
f.Desc = desc
f.Name = name
f.Register()
}
func init() {
myreg(&NOW, true, "NOW", "temp debugging stuff")
myreg(&NET, false, "NET", "Network Logging")
myreg(&DNS, false, "DNS", "dnsStatus.update()")
myreg(&PROC, false, "PROC", "/proc logging")
myreg(&SPEW, false, "SPEW", "spew stuff")
myreg(&WARN, true, "WARN", "bad things")
myreg(&CHANGE, true, "CHANGE", "show droplet state changes")
myreg(&STATUS, false, "STATUS", "Update() details")
}

89
linuxstatus/common.go
View File

@ -1,89 +0,0 @@
// This creates a simple hello world window
package linuxstatus
import (
"go.wit.com/log"
"go.wit.com/gui/gui"
)
// reports externally if something has changed
// since the last time it was asked about it
func (ls *LinuxStatus) Changed() bool {
if ! ls.Ready() {return false}
if ls.changed {
ls.changed = false
return true
}
return false
}
func (ls *LinuxStatus) Make() {
if ! ls.Ready() {return}
log.Log(CHANGE, "Make() window ready =", ls.ready)
ls.window.Make()
ls.ready = true
}
func (ls *LinuxStatus) Draw() {
if ! ls.Ready() {return}
log.Log(CHANGE, "Draw() window ready =", ls.ready)
ls.window.Draw()
ls.ready = true
}
func (ls *LinuxStatus) Draw2() {
if ! ls.Ready() {return}
log.Log(CHANGE, "draw(ls) ready =", ls.ready)
draw(ls)
}
func (ls *LinuxStatus) Show() {
if ! ls.Ready() {return}
log.Log(CHANGE, "Show() window ready =", ls.ready)
ls.window.Show()
ls.hidden = false
}
func (ls *LinuxStatus) Hide() {
if ! ls.Ready() {return}
log.Log(CHANGE, "Hide() window ready =", ls.ready)
ls.window.Hide()
ls.hidden = true
}
func (ls *LinuxStatus) Toggle() {
if ! ls.Ready() {return}
log.Log(CHANGE, "Toggle() window ready =", ls.ready)
if ls.hidden {
ls.Show()
} else {
ls.Hide()
}
}
func (ls *LinuxStatus) Ready() bool {
log.Log(SPEW, "Ready() maybe not ready? ls =", ls)
if me == nil {return false}
if ls == nil {return false}
if ls.window == nil {return false}
return me.ready
}
func (ls *LinuxStatus) Initialized() bool {
log.Log(CHANGE, "checking Initialized()")
if me == nil {return false}
if ls == nil {return false}
if ls.parent == nil {return false}
return true
}
func (ls *LinuxStatus) SetParent(p *gui.Node) {
log.Log(CHANGE, "Attempting SetParent")
if me == nil {return}
if ls == nil {return}
if ls.parent == nil {
log.Log(CHANGE, "SetParent =", p)
ls.parent = p
return
} else {
log.Log(CHANGE, "SetParent was already set to =", ls.parent)
}
}

38
linuxstatus/draw.go
View File

@ -1,38 +0,0 @@
// This creates a simple hello world window
package linuxstatus
import (
"go.wit.com/gui/gadgets"
)
// creates the actual widgets.
// it's assumed you are always passing in a box
func draw(ls *LinuxStatus) {
if ! ls.Ready() {return}
ls.group = ls.window.Box().NewGroup("What Linux Knows It Is")
ls.grid = ls.group.NewGrid("gridnuts", 2, 2)
ls.grid.SetNext(1,1)
ls.hostnameStatus = gadgets.NewOneLiner(ls.grid, "status")
ls.hostname = gadgets.NewOneLiner(ls.grid, "hostname -f")
ls.hostshort = gadgets.NewOneLiner(ls.grid, "hostname -s")
ls.domainname = gadgets.NewOneLiner(ls.grid, "domain name")
ls.resolver = gadgets.NewOneLiner(ls.grid, "nameservers =")
ls.resolver.Set("TODO")
ls.uid = gadgets.NewOneLiner(ls.grid, "UID =")
ls.IPv4 = gadgets.NewOneLiner(ls.grid, "Current IPv4 =")
ls.IPv6 = gadgets.NewOneLiner(ls.grid, "Current IPv6 =")
ls.workingIPv6 = gadgets.NewOneLiner(ls.grid, "Real IPv6 =")
// ls.nics = gadgets.NewOneLiner(ls.grid, "network intefaces =")
ls.grid.NewLabel("interfaces =")
ls.Interfaces = ls.grid.NewCombobox("Interfaces")
ls.speed = gadgets.NewOneLiner(ls.grid, "refresh speed =")
ls.speedActual = gadgets.NewOneLiner(ls.grid, "refresh speed =")
ls.grid.Margin()
ls.grid.Pad()
}

134
linuxstatus/hostname.go
View File

@ -1,134 +0,0 @@
// figures out if your hostname is valid
// then checks if your DNS is setup correctly
package linuxstatus
import (
"go.wit.com/log"
"go.wit.com/shell"
// will try to get this hosts FQDN
"github.com/Showmax/go-fqdn"
)
func (ls *LinuxStatus) GetDomainName() string {
if ! me.Ready() {return ""}
return me.domainname.Get()
}
func (ls *LinuxStatus) setDomainName() {
if ! me.Ready() {return}
dn := run("domainname")
if (me.domainname.Get() != dn) {
log.Log(CHANGE, "domainname has changed from", me.GetDomainName(), "to", dn)
me.domainname.Set(dn)
me.changed = true
}
}
func (ls *LinuxStatus) GetHostname() string {
if ! me.Ready() {return ""}
return me.hostname.Get()
}
func (ls *LinuxStatus) ValidHostname() bool {
if ! me.Ready() {return false}
if me.hostnameStatus.Get() == "VALID" {
return true
}
return false
}
func (ls *LinuxStatus) setHostname(newname string) {
if ! me.Ready() {return}
if newname == me.hostname.Get() {
return
}
log.Log(CHANGE, "hostname has changed from", me.GetHostname(), "to", newname)
me.hostname.Set(newname)
me.changed = true
}
func (ls *LinuxStatus) GetHostShort() string {
if ! me.Ready() {return ""}
return me.hostshort.Get()
}
func (ls *LinuxStatus) setHostShort() {
if ! me.Ready() {return}
hshort := run("hostname -s")
if (me.hostshort.Get() != hshort) {
log.Log(CHANGE, "hostname -s has changed from", me.hostshort.Get(), "to", hshort)
me.hostshort.Set(hshort)
me.changed = true
}
}
func lookupHostname() {
if ! me.Ready() {return}
var err error
var hostfqdn string = "broken"
hostfqdn, err = fqdn.FqdnHostname()
if (err != nil) {
log.Error(err, "FQDN hostname error")
return
}
log.Log(NET, "full hostname should be: ", hostfqdn)
me.setDomainName()
me.setHostShort()
// these are authoritative
// if they work wrong, your linux configuration is wrong.
// Do not complain.
// Fix your distro if your box is otherwise not working this way
hshort := me.GetHostShort() // from `hostname -s`
dn := me.GetDomainName() // from `domanname`
hostname := me.GetHostname() // from `hostname -f`
if hostfqdn != hostname {
log.Log(WARN, "hostname", hostname, "does not equal fqdn.FqdnHostname()", hostfqdn)
// TODO: figure out what is wrong
}
var test string
test = hshort + "." + dn
me.setHostname(test)
if (hostname != test) {
log.Log(CHANGE, "hostname", hostname, "does not equal", test)
if (me.hostnameStatus.Get() != "BROKEN") {
log.Log(CHANGE, "hostname", hostname, "does not equal", test)
me.changed = true
me.hostnameStatus.Set("BROKEN")
}
} else {
if (me.hostnameStatus.Get() != "VALID") {
log.Log(CHANGE, "hostname", hostname, "is valid")
me.hostnameStatus.Set("VALID")
me.changed = true
}
}
}
// returns true if the hostname is good
// check that all the OS settings are correct here
// On Linux, /etc/hosts, /etc/hostname
// and domainname and hostname
func goodHostname() bool {
hostname := shell.Chomp(shell.Cat("/etc/hostname"))
log.Log(NOW, "hostname =", hostname)
hs := run("hostname -s")
dn := run("domainname")
log.Log(NOW, "hostname short =", hs, "domainname =", dn)
tmp := hs + "." + dn
if (hostname == tmp) {
log.Log(NOW, "hostname seems to be good", hostname)
return true
}
return false
}

49
linuxstatus/linuxloop.go
View File

@ -1,49 +0,0 @@
// GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007
// Copyright (c) 2023 WIT.COM, Inc.
// This is a control panel for DNS
package linuxstatus
import (
"os"
"os/user"
"strconv"
"strings"
"go.wit.com/log"
)
func linuxLoop() {
me.changed = false
duration := timeFunction(lookupHostname)
log.Log(INFO, "getHostname() execution Time: ", duration, "me.changed =", me.changed)
duration = timeFunction(scanInterfaces)
log.Log(NET, "scanInterfaces() execution Time: ", duration)
for i, t := range me.ifmap {
log.Log(NET, strconv.Itoa(i) + " iface = " + t.iface.Name)
}
// get all the real AAAA records from all the network interfaces linux can see
tmp := strings.Join(realAAAA(), "\n")
tmp = sortLines(tmp)
me.workingIPv6.Set(tmp)
user, _ := user.Current()
log.Log(INFO, "os.Getuid =", user.Username, os.Getuid())
if (me.uid != nil) {
me.uid.Set(user.Username + " (" + strconv.Itoa(os.Getuid()) + ")")
}
/*
processName := getProcessNameByPort(53)
fmt.Println("Process with port 53:", processName)
commPath := filepath.Join("/proc", proc.Name(), "comm")
comm, err := ioutil.ReadFile(commPath)
if err != nil {
return "", err // Error reading the process name
}
return strings.TrimSpace(string(comm)), nil
*/
}

271
linuxstatus/net.go
View File

@ -1,271 +0,0 @@
// This creates a simple hello world window
package linuxstatus
import (
// "log"
"net"
"sort"
"strings"
"go.wit.com/log"
)
func IsIPv6(address string) bool {
return strings.Count(address, ":") >= 2
}
func (t *IPtype) IsReal() bool {
if (t.ip.IsPrivate() || t.ip.IsLoopback() || t.ip.IsLinkLocalUnicast()) {
log.Log(NET, "\t\tIP is Real = false")
return false
} else {
log.Log(NET, "\t\tIP is Real = true")
return true
}
}
func IsReal(ip *net.IP) bool {
if (ip.IsPrivate() || ip.IsLoopback() || ip.IsLinkLocalUnicast()) {
log.Log(NET, "\t\tIP is Real = false")
return false
} else {
log.Log(NET, "\t\tIP is Real = true")
return true
}
}
func renameInterface(i *net.Interface) {
/*
/sbin/ip link set eth1 down
/sbin/ip link set eth1 name eth123
/sbin/ip link set eth123 up
*/
}
// Will figure out if an interface was just added
func checkInterface(i net.Interface) {
val, ok := me.ifmap[i.Index]
if ! ok {
log.Log(INFO, i.Name, "is a new network interface. The linux kernel index =", i.Index)
me.ifmap[i.Index] = new(IFtype)
me.ifmap[i.Index].gone = false
me.ifmap[i.Index].iface = &i
me.changed = true
if (me.Interfaces != nil) {
me.Interfaces.AddText(i.Name)
me.Interfaces.SetText(i.Name)
}
return
}
me.ifmap[i.Index].gone = false
log.Log(NET, "me.ifmap[i] does exist. Need to compare everything.", i.Index, i.Name, val.iface.Index, val.iface.Name)
if (val.iface.Name != i.Name) {
log.Log(INFO, val.iface.Name, "has changed to it's name to", i.Name)
me.ifmap[i.Index].iface = &i
me.changed = true
if (me.Interfaces != nil) {
me.Interfaces.AddText(i.Name)
me.Interfaces.SetText(i.Name)
}
return
}
}
/*
These are the real IP address you have been
given from DHCP
*/
func realAAAA() []string {
var aaaa []string
for s, t := range me.ipmap {
if (t.IsReal()) {
if (t.ipv6) {
aaaa = append(aaaa, s)
}
}
}
return aaaa
}
func realA() []string {
var a []string
for s, t := range me.ipmap {
if (t.IsReal()) {
if (t.ipv4) {
a = append(a, s)
}
}
}
return a
}
func checkDNS() (map[string]*IPtype, map[string]*IPtype) {
var ipv4s map[string]*IPtype
var ipv6s map[string]*IPtype
ipv4s = make(map[string]*IPtype)
ipv6s = make(map[string]*IPtype)
for s, t := range me.ipmap {
i := t.iface
ipt := "IPv4"
if (t.ipv6) {
ipt = "IPv6"
}
if (t.IsReal()) {
log.Log(INFO, "\tIP is Real ", ipt, i.Index, i.Name, s)
if (t.ipv6) {
ipv6s[s] = t
} else {
ipv4s[s] = t
}
} else {
log.Log(INFO, "\tIP is not Real", ipt, i.Index, i.Name, s)
}
}
return ipv6s, ipv4s
}
// Will figure out if an IP address is new
func checkIP(ip *net.IPNet, i net.Interface) bool {
log.Log(NET, "\t\taddr.(type) = *net.IPNet")
log.Log(NET, "\t\taddr.(type) =", ip)
var realip string
realip = ip.IP.String()
val, ok := me.ipmap[realip]
if ok {
log.Log(NET, val.ipnet.IP.String(), "is already a defined IP address")
me.ipmap[realip].gone = false
return false
}
me.ipmap[realip] = new(IPtype)
me.ipmap[realip].gone = false
me.ipmap[realip].ipv4 = true
me.ipmap[realip].ipnet = ip
me.ipmap[realip].ip = ip.IP
me.ipmap[realip].iface = &i
t := "IPv4"
if (IsIPv6(ip.String())) {
me.ipmap[realip].ipv6 = true
me.ipmap[realip].ipv4 = false
t = "IPv6"
if (me.IPv6 != nil) {
me.IPv6.Set(realip)
}
} else {
me.ipmap[realip].ipv6 = false
me.ipmap[realip].ipv4 = true
if (me.IPv4 != nil) {
me.IPv4.Set(realip)
}
}
if (IsReal(&ip.IP)) {
log.Log(INFO, "\tIP is Real ", t, i.Index, i.Name, realip)
} else {
log.Log(INFO, "\tIP is not Real", t, i.Index, i.Name, realip)
}
log.Log(NET, "\t\tIP is IsPrivate() =", ip.IP.IsPrivate())
log.Log(NET, "\t\tIP is IsLoopback() =", ip.IP.IsLoopback())
log.Log(NET, "\t\tIP is IsLinkLocalUnicast() =", ip.IP.IsLinkLocalUnicast())
// log.Log(INFO, "HERE HERE", "realip =", realip, "me.ip[realip]=", me.ipmap[realip])
return true
}
func scanInterfaces() {
log.Log(NET, "scanInterfaces() START")
ifaces, _ := net.Interfaces()
// me.ifnew = ifaces
log.Log(NET, SPEW, ifaces)
for _, i := range ifaces {
addrs, _ := i.Addrs()
// log.Log(INFO, "range ifaces = ", i)
checkInterface(i)
log.Log(NET, "*net.Interface.Name = ", i.Name, i.Index)
log.Log(NET, SPEW, i)
log.Log(NET, SPEW, addrs)
for _, addr := range addrs {
log.Log(NET, "\taddr =", addr)
log.Log(NET, SPEW, addrs)
ips, _ := net.LookupIP(addr.String())
log.Log(NET, "\tLookupIP(addr) =", ips)
switch v := addr.(type) {
case *net.IPNet:
if checkIP(v, i) {
log.Log(true, "scanInterfaces() IP is new () i =", v.IP.String())
}
default:
log.Log(NET, "\t\taddr.(type) = NO IDEA WHAT TO DO HERE v =", v)
}
}
}
if deleteChanges() {
me.changed = true
log.Log(NET, "deleteChanges() detected network changes")
}
updateRealAAAA()
log.Log(NET, "scanInterfaces() END")
}
// displays the IP address found on your network interfaces
func updateRealAAAA() {
var all4 []string
var all6 []string
for s, t := range me.ipmap {
if (t.ipv4) {
all4 = append(all4, s)
log.Log(NET, "IPv4 =", s)
} else if (t.ipv6) {
all6 = append(all6, s)
log.Log(NET, "IPv6 =", s)
} else {
log.Log(NET, "???? =", s)
}
}
// sort and create text
sort.Strings(all4)
sort.Strings(all6)
s4 := strings.Join(all4, "\n")
s6 := strings.Join(all6, "\n")
if (me.IPv4.Get() != s4) {
log.Log(CHANGE, "IPv4 addresses have changed", s4)
me.IPv4.Set(s4)
me.changed = true
}
if (me.IPv6.Get() != s6) {
log.Log(CHANGE, "IPv6 addresses have changed", s6)
me.IPv6.Set(s6)
me.changed = true
}
}
// delete network interfaces and ip addresses from the gui
func deleteChanges() bool {
var changed bool = false
for i, t := range me.ifmap {
if (t.gone) {
log.Log(CHANGE, "DELETE int =", i, "name =", t.name, t.iface)
delete(me.ifmap, i)
changed = true
}
t.gone = true
}
for s, t := range me.ipmap {
if (t.gone) {
log.Log(CHANGE, "DELETE name =", s, "IPv4 =", t.ipv4)
log.Log(CHANGE, "DELETE name =", s, "IPv6 =", t.ipv6)
log.Log(CHANGE, "DELETE name =", s, "iface =", t.iface)
log.Log(CHANGE, "DELETE name =", s, "ip =", t.ip)
delete(me.ipmap, s)
changed = true
}
t.gone = true
}
return changed
}

39
linuxstatus/new.go
View File

@ -1,39 +0,0 @@
// This creates a simple hello world window
package linuxstatus
import (
"go.wit.com/log"
"go.wit.com/gui/gadgets"
)
func New() *LinuxStatus {
if me != nil {
log.Log(WARN, "You have done New() twice. You can only do this once")
return me
}
me = &LinuxStatus {
hidden: true,
ready: false,
}
me.ifmap = make(map[int]*IFtype)
me.ipmap = make(map[string]*IPtype)
return me
}
func (ls *LinuxStatus) InitWindow() {
if ! ls.Initialized() {
log.Log(WARN, "not initalized yet (no parent for the window?)")
return
}
if ls.window != nil {
log.Log(WARN, "You already have a window")
ls.ready = true
return
}
log.Log(WARN, "Creating the Window")
ls.window = gadgets.NewBasicWindow(ls.parent, "Linux OS Details")
ls.ready = true
}

60
linuxstatus/structs.go
View File

@ -1,60 +0,0 @@
/*
figures out if your hostname is valid
then checks if your DNS is setup correctly
*/
package linuxstatus
import (
"net"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
)
var me *LinuxStatus
type LinuxStatus struct {
ready bool
hidden bool
changed bool
parent *gui.Node
ifmap map[int]*IFtype // the current interfaces
ipmap map[string]*IPtype // the current ip addresses
window *gadgets.BasicWindow
group *gui.Node
grid *gui.Node
hostnameStatus *gadgets.OneLiner
hostname *gadgets.OneLiner
hostshort *gadgets.OneLiner
domainname *gadgets.OneLiner
resolver *gadgets.OneLiner
uid *gadgets.OneLiner
IPv4 *gadgets.OneLiner
IPv6 *gadgets.OneLiner
workingIPv6 *gadgets.OneLiner
Interfaces *gui.Node
speed *gadgets.OneLiner
speedActual *gadgets.OneLiner
}
type IPtype struct {
gone bool // used to track if the ip exists
ipv6 bool // the future
ipv4 bool // the past
LinkLocal bool
iface *net.Interface
ip net.IP
ipnet *net.IPNet
}
type IFtype struct {
gone bool // used to track if the interface exists
name string // just a shortcut to the name. maybe this is dumb
// up bool // could be used to track ifup/ifdown
iface *net.Interface
}

36
linuxstatus/timer.go
View File

@ -1,36 +0,0 @@
package linuxstatus
import (
"time"
"sort"
"strings"
)
// timeFunction takes a function as an argument and returns the execution time.
func timeFunction(f func()) time.Duration {
startTime := time.Now() // Record the start time
f() // Execute the function
return time.Since(startTime) // Calculate the elapsed time
}
// sortLines takes a string, splits it on newlines, sorts the lines,
// and rejoins them with newlines.
func sortLines(input string) string {
lines := strings.Split(input, "\n")
// Trim leading and trailing whitespace from each line
for i, line := range lines {
lines[i] = strings.TrimSpace(line)
}
sort.Strings(lines)
tmp := strings.Join(lines, "\n")
tmp = strings.TrimLeft(tmp, "\n")
tmp = strings.TrimRight(tmp, "\n")
return tmp
}
func (ls *LinuxStatus) SetSpeedActual(s string) {
if ! ls.Ready() {return}
ls.speedActual.Set(s)
}

97
linuxstatus/unix.go
View File

@ -1,97 +0,0 @@
// Various Linux/Unix'y things
// https://wiki.archlinux.org/title/Dynamic_DNS
package linuxstatus
import (
"os"
"os/exec"
"net"
"bytes"
"fmt"
"strings"
"go.wit.com/log"
"go.wit.com/shell"
)
func CheckSuperuser() bool {
return os.Getuid() == 0
}
func Escalate() {
if os.Getuid() != 0 {
cmd := exec.Command("sudo", "./control-panel-dns") // TODO: get the actual path
cmd.Stdin = os.Stdin
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err := cmd.Run()
if err != nil {
log.Error(err, "exit in Escalate()")
log.Exit(err)
}
}
}
// You need permission to do a zone transfer. Otherwise:
// dig +noall +answer +multiline lab.wit.com any
// dig +all +multiline fire.lab.wit.com # gives the zonefile header (ttl vals)
func DumpPublicDNSZone(zone string) {
entries, err := net.LookupHost(zone)
if err != nil {
panic(err)
}
for _, entry := range entries {
log.Println(entry)
}
}
func dumpIPs(host string) {
ips, err := net.LookupIP(host)
if err != nil {
log.Error(err, "dumpIPs() failed")
}
for _, ip := range ips {
log.Println(host, ip)
}
}
/*
check if ddclient is installed, working, and/or configured
https://github.com/ddclient/ddclient
*/
func ddclient() {
}
/*
check if ddupdate is installed, working, and/or configured
*/
func ddupdate() {
}
func run(s string) string {
cmdArgs := strings.Fields(s)
// Define the command you want to run
// cmd := exec.Command(cmdArgs)
cmd := exec.Command(cmdArgs[0], cmdArgs[1:len(cmdArgs)]...)
// Create a buffer to capture the output
var out bytes.Buffer
// Set the output of the command to the buffer
cmd.Stdout = &out
// Run the command
err := cmd.Run()
if err != nil {
fmt.Println("Error running command:", err)
return ""
}
tmp := shell.Chomp(out.String())
// Output the results
log.Info("Command Output:", tmp)
return tmp
}

40
linuxstatus/update.go
View File

@ -1,40 +0,0 @@
package linuxstatus
import (
"fmt"
"time"
"errors"
"go.wit.com/log"
)
func (ls *LinuxStatus) Update() {
if ! ls.Ready() {
log.Log(WARN, "can't update yet. ready is false")
log.Error(errors.New("Update() is not ready yet"))
return
}
log.Log(INFO, "Update() START")
duration := timeFunction(func () {
linuxLoop()
})
ls.SetSpeed(duration)
log.Log(INFO, "Update() END")
}
func (ls *LinuxStatus) SetSpeed(duration time.Duration) {
s := fmt.Sprint(duration)
if ls.speedActual == nil {
log.Log(WARN, "can't actually warn")
return
}
ls.speedActual.Set(s)
if (duration > 500 * time.Millisecond ) {
ls.speed.Set("SLOW")
} else if (duration > 100 * time.Millisecond ) {
ls.speed.Set("OK")
} else {
ls.speed.Set("FAST")
}
}

58
main.go
View File

@ -8,6 +8,7 @@ import (
"fmt"
"strings"
"sort"
"strconv"
"runtime"
"time"
"embed"
@ -16,8 +17,6 @@ import (
"go.wit.com/gui/gui"
"go.wit.com/gui/debugger"
"go.wit.com/control-panels/dns/linuxstatus"
"github.com/miekg/dns"
)
@ -45,11 +44,6 @@ func main() {
log.Sleep(me.artificialSleep)
setupControlPanelWindow()
me.digStatus = NewDigStatusWindow(me.myGui)
me.status = NewHostnameStatusWindow(me.myGui)
linuxstatus.New()
if debugger.ArgDebug() {
log.Sleep(2)
debugger.DebugWindow(me.myGui)
@ -100,7 +94,7 @@ func checkNetworkChanges() {
if (runtime.GOOS == "linux") {
duration := timeFunction(linuxLoop)
s := fmt.Sprint(duration)
me.statusOS.SetSpeedActual(s)
me.LocalSpeedActual.SetText(s)
} else {
// TODO: make windows and macos diagnostics
log.Warn("Windows and MacOS don't work yet")
@ -127,15 +121,24 @@ func DNSloop() {
log.Info("dnsTTL() execution Time: ", duration)
var s, newSpeed string
if (duration > 5000 * time.Millisecond ) {
newSpeed = "VERY SLOW"
newSpeed = "VERY BAD"
suggestProcDebugging()
} else if (duration > 2000 * time.Millisecond ) {
newSpeed = "SLOWER"
newSpeed = "BAD"
suggestProcDebugging()
} else if (duration > 500 * time.Millisecond ) {
suggestProcDebugging()
newSpeed = "SLOW"
} else if (duration > 100 * time.Millisecond ) {
newSpeed = "OK"
if (me.fixProc != nil) {
// me.fixProc.Disable()
}
} else {
newSpeed = "FAST"
if (me.fixProc != nil) {
// me.fixProc.Disable()
}
}
if (newSpeed != me.DnsSpeedLast) {
log.Log(CHANGE, "dns lookup speed changed =", newSpeed)
@ -153,16 +156,45 @@ func dnsTTL() {
updateDNS()
}
// run update on the LinuxStatus() window
func linuxLoop() {
me.statusOS.Update()
me.changed = false
log.Log(NET, "FQDN =", me.fqdn.GetText())
duration := timeFunction(getHostname)
log.Info("getHostname() execution Time: ", duration, "me.changed =", me.changed)
if (me.statusOS.Changed()) {
duration = timeFunction(scanInterfaces)
log.Log(NET, "scanInterfaces() execution Time: ", duration)
for i, t := range me.ifmap {
log.Log(NET, strconv.Itoa(i) + " iface = " + t.iface.Name)
}
var aaaa []string
aaaa = dhcpAAAA()
var all string
for _, s := range aaaa {
log.Log(NET, "my actual AAAA = ",s)
all += s + "\n"
}
// me.IPv6.SetText(all)
if (me.changed) {
stamp := time.Now().Format("2006/01/02 15:04:05")
log.Log(CHANGE, "Network things changed on", stamp)
duration := timeFunction(updateDNS)
log.Log(CHANGE, "updateDNS() execution Time: ", duration)
}
/*
processName := getProcessNameByPort(53)
fmt.Println("Process with port 53:", processName)
commPath := filepath.Join("/proc", proc.Name(), "comm")
comm, err := ioutil.ReadFile(commPath)
if err != nil {
return "", err // Error reading the process name
}
return strings.TrimSpace(string(comm)), nil
*/
}
/*

201
net.go
View File

@ -9,6 +9,35 @@ import (
"go.wit.com/log"
)
// this doesn't work
/*
func watchNetworkInterfaces() {
// Get list of network interfaces
interfaces, _ := net.Interfaces()
// Set up a notification channel
notification := make(chan net.Interface)
log.Log(NET, "watchNet()")
// Start goroutine to watch for changes
go func() {
log.Log(NET, "watchNet() func")
for {
log.Log(NET, "forever loop start")
// Check for changes in each interface
for _, i := range interfaces {
log.Log(NET, "something on i =", i)
if status := i.Flags & net.FlagUp; status != 0 {
notification <- i
log.Log(NET, "something on i =", i)
}
}
log.Log(NET, "forever loop end")
}
}()
}
*/
func IsIPv6(address string) bool {
return strings.Count(address, ":") >= 2
}
@ -33,6 +62,43 @@ func IsReal(ip *net.IP) bool {
}
}
func renameInterface(i *net.Interface) {
/*
/sbin/ip link set eth1 down
/sbin/ip link set eth1 name eth123
/sbin/ip link set eth123 up
*/
}
// Will figure out if an interface was just added
func checkInterface(i net.Interface) {
val, ok := me.ifmap[i.Index]
if ! ok {
log.Info(i.Name, "is a new network interface. The linux kernel index =", i.Index)
me.ifmap[i.Index] = new(IFtype)
me.ifmap[i.Index].gone = false
me.ifmap[i.Index].iface = &i
me.changed = true
if (me.Interfaces != nil) {
me.Interfaces.AddText(i.Name)
me.Interfaces.SetText(i.Name)
}
return
}
me.ifmap[i.Index].gone = false
log.Log(NET, "me.ifmap[i] does exist. Need to compare everything.", i.Index, i.Name, val.iface.Index, val.iface.Name)
if (val.iface.Name != i.Name) {
log.Info(val.iface.Name, "has changed to it's name to", i.Name)
me.ifmap[i.Index].iface = &i
me.changed = true
if (me.Interfaces != nil) {
me.Interfaces.AddText(i.Name)
me.Interfaces.SetText(i.Name)
}
return
}
}
/*
These are the real IP address you have been
given from DHCP
@ -89,3 +155,138 @@ func checkDNS() (map[string]*IPtype, map[string]*IPtype) {
}
return ipv6s, ipv4s
}
// Will figure out if an IP address is new
func checkIP(ip *net.IPNet, i net.Interface) bool {
log.Log(NET, "\t\taddr.(type) = *net.IPNet")
log.Log(NET, "\t\taddr.(type) =", ip)
var realip string
realip = ip.IP.String()
val, ok := me.ipmap[realip]
if ok {
log.Log(NET, val.ipnet.IP.String(), "is already a defined IP address")
me.ipmap[realip].gone = false
return false
}
me.ipmap[realip] = new(IPtype)
me.ipmap[realip].gone = false
me.ipmap[realip].ipv4 = true
me.ipmap[realip].ipnet = ip
me.ipmap[realip].ip = ip.IP
me.ipmap[realip].iface = &i
t := "IPv4"
if (IsIPv6(ip.String())) {
me.ipmap[realip].ipv6 = true
me.ipmap[realip].ipv4 = false
t = "IPv6"
if (me.IPv6 != nil) {
me.IPv6.SetText(realip)
}
} else {
me.ipmap[realip].ipv6 = false
me.ipmap[realip].ipv4 = true
if (me.IPv4 != nil) {
me.IPv4.SetText(realip)
}
}
if (IsReal(&ip.IP)) {
log.Info("\tIP is Real ", t, i.Index, i.Name, realip)
} else {
log.Info("\tIP is not Real", t, i.Index, i.Name, realip)
}
log.Log(NET, "\t\tIP is IsPrivate() =", ip.IP.IsPrivate())
log.Log(NET, "\t\tIP is IsLoopback() =", ip.IP.IsLoopback())
log.Log(NET, "\t\tIP is IsLinkLocalUnicast() =", ip.IP.IsLinkLocalUnicast())
// log.Info("HERE HERE", "realip =", realip, "me.ip[realip]=", me.ipmap[realip])
return true
}
func scanInterfaces() {
log.Log(NET, "scanInterfaces() START")
ifaces, _ := net.Interfaces()
// me.ifnew = ifaces
log.Log(NET, SPEW, ifaces)
for _, i := range ifaces {
addrs, _ := i.Addrs()
// log.Info("range ifaces = ", i)
checkInterface(i)
log.Log(NET, "*net.Interface.Name = ", i.Name, i.Index)
log.Log(NET, SPEW, i)
log.Log(NET, SPEW, addrs)
for _, addr := range addrs {
log.Log(NET, "\taddr =", addr)
log.Log(NET, SPEW, addrs)
ips, _ := net.LookupIP(addr.String())
log.Log(NET, "\tLookupIP(addr) =", ips)
switch v := addr.(type) {
case *net.IPNet:
if checkIP(v, i) {
log.Log(true, "scanInterfaces() IP is new () i =", v.IP.String())
}
default:
log.Log(NET, "\t\taddr.(type) = NO IDEA WHAT TO DO HERE v =", v)
}
}
}
if deleteChanges() {
me.changed = true
log.Log(NET, "deleteChanges() detected network changes")
}
updateRealAAAA()
log.Log(NET, "scanInterfaces() END")
}
// displays the IP address found on your network interfaces
func updateRealAAAA() {
var all4 string
var all6 string
for s, t := range me.ipmap {
if (t.ipv4) {
all4 += s + "\n"
log.Log(NET, "IPv4 =", s)
} else if (t.ipv6) {
all6 += s + "\n"
log.Log(NET, "IPv6 =", s)
} else {
log.Log(NET, "???? =", s)
}
}
all4 = sortLines(all4)
all6 = sortLines(all6)
if (me.IPv4.S != all4) {
log.Log(NET, "IPv4 addresses have changed", all4)
me.IPv4.SetText(all4)
}
if (me.IPv6.S != all6) {
log.Log(NET, "IPv6 addresses have changed", all6)
me.IPv6.SetText(all6)
}
}
// delete network interfaces and ip addresses from the gui
func deleteChanges() bool {
var changed bool = false
for i, t := range me.ifmap {
if (t.gone) {
log.Log(CHANGE, "DELETE int =", i, "name =", t.name, t.iface)
delete(me.ifmap, i)
changed = true
}
t.gone = true
}
for s, t := range me.ipmap {
if (t.gone) {
log.Log(CHANGE, "DELETE name =", s, "IPv4 =", t.ipv4)
log.Log(CHANGE, "DELETE name =", s, "IPv6 =", t.ipv6)
log.Log(CHANGE, "DELETE name =", s, "iface =", t.iface)
log.Log(CHANGE, "DELETE name =", s, "ip =", t.ip)
delete(me.ipmap, s)
changed = true
}
t.gone = true
}
return changed
}

2
nsupdate.go
View File

@ -22,7 +22,7 @@ func nsupdate() {
cmd := "go-nsupdate --tsig-algorithm=hmac-sha512"
tsigSecret = os.Getenv("TIG_SECRET")
cmd += " --tig-secret=\"" + tsigSecret + "\""
cmd += " -i wlo1 " + me.statusOS.GetHostname()
cmd += " -i wlo1 " + me.hostname
log.Log(NET, "nsupdate() RUN:", cmd)
for s, t := range me.ipmap {

209
resolverBox.go
View File

@ -1,209 +0,0 @@
/*
Performs DNS queries on TCP and UDP
*/
package main
import (
"os"
"time"
"strconv"
"reflect"
"go.wit.com/log"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"github.com/miekg/dns"
)
type resolverStatus struct {
title string
server string // The DNS server. Example: "127.0.0.1:53" or "1.1.1.1:53"
hostname string // the hostname to lookup. Example: "www.google.com" or "go.wit.com"
parent *gui.Node
group *gui.Node
grid *gui.Node
// DNS setup options
udpA *gui.Node
tcpA *gui.Node
udpAAAA *gui.Node
tcpAAAA *gui.Node
// show the display
aFail *gui.Node
aSuccess *gui.Node
aaaaFail *gui.Node
aaaaSuccess *gui.Node
// interger counters
aFailc int
aSuccessc int
aaaaFailc int
aaaaSuccessc int
}
func (rs *resolverStatus) set(a any, s string) {
if a == nil {
return
}
var n *gui.Node
if reflect.TypeOf(a) == reflect.TypeOf(n) {
n = a.(*gui.Node)
n.SetText(s)
return
}
var ol *gadgets.OneLiner
if reflect.TypeOf(a) == reflect.TypeOf(ol) {
ol = a.(*gadgets.OneLiner)
ol.Set(s)
return
}
log.Warn("unknown type TypeOf(a) =", reflect.TypeOf(a), "a =", a)
os.Exit(0)
}
// Makes a DNS Status Grid
func NewResolverStatus(p *gui.Node, title string, server string, hostname string) *resolverStatus {
var rs *resolverStatus
rs = new(resolverStatus)
rs.parent = p
rs.group = p.NewGroup(server + " " + title + " lookup")
rs.grid = rs.group.NewGrid("LookupStatus", 5, 2)
rs.server = server
rs.hostname = hostname
rs.grid.NewLabel("")
rs.grid.NewLabel("UDP")
rs.grid.NewLabel("TCP")
rs.grid.NewLabel("Success")
rs.grid.NewLabel("Fail")
rs.grid.NewLabel("A")
rs.udpA = rs.grid.NewLabel("?")
rs.tcpA = rs.grid.NewLabel("?")
rs.aSuccess = rs.grid.NewLabel("?")
rs.aFail = rs.grid.NewLabel("?")
rs.grid.NewLabel("AAAA")
rs.udpAAAA = rs.grid.NewLabel("?")
rs.tcpAAAA = rs.grid.NewLabel("?")
rs.aaaaSuccess = rs.grid.NewLabel("?")
rs.aaaaFail = rs.grid.NewLabel("?")
rs.group.Margin()
rs.grid.Margin()
rs.group.Pad()
rs.grid.Pad()
return rs
}
// special thanks to the Element Hotel wifi in Philidelphia that allowed me to
// easily debug this code since the internet connection here blocks port 53 traffic
func (rs *resolverStatus) update() (bool, bool) {
var results []string
var a bool = false
var aaaa bool = false
log.Log(DNS, "resolverStatus.update() For server", rs.server, "on", rs.hostname)
results, _ = dnsUdpLookup(rs.server, rs.hostname, dns.TypeA)
log.Log(DNS, "resolverStatus.update() UDP type A =", results)
if (len(results) == 0) {
rs.set(rs.udpA, "BROKEN")
rs.aFailc += 1
} else {
rs.set(rs.udpA, "WORKING")
rs.aSuccessc += 1
a = true
}
results, _ = dnsTcpLookup(rs.server, rs.hostname, dns.TypeA)
log.Log(DNS, "resolverStatus.update() TCP type A =", results)
if (len(results) == 0) {
rs.set(rs.tcpA, "BROKEN")
rs.aFailc += 1
} else {
me.digStatus.set(rs.tcpA, "WORKING")
rs.aSuccessc += 1
a = true
}
me.digStatus.set(rs.aFail, strconv.Itoa(rs.aFailc))
me.digStatus.set(rs.aSuccess,strconv.Itoa(rs.aSuccessc))
results, _ = dnsUdpLookup(rs.server, rs.hostname, dns.TypeAAAA)
log.Log(DNS, "resolverStatus.update() UDP type AAAA =", results)
if (len(results) == 0) {
me.digStatus.set(rs.udpAAAA, "BROKEN")
rs.aaaaFailc += 1
me.digStatus.set(rs.aaaaFail, strconv.Itoa(rs.aaaaFailc))
} else {
me.digStatus.set(rs.udpAAAA, "WORKING")
rs.aaaaSuccessc += 1
aaaa = true
}
results, _ = dnsTcpLookup(rs.server, rs.hostname, dns.TypeAAAA)
log.Log(DNS, "resolverStatus.update() UDP type AAAA =", results)
if (len(results) == 0) {
me.digStatus.set(rs.tcpAAAA, "BROKEN")
rs.aaaaFailc += 1
me.digStatus.set(rs.aaaaFail, strconv.Itoa(rs.aaaaFailc))
} else {
me.digStatus.set(rs.tcpAAAA, "WORKING")
rs.aaaaSuccessc += 1
aaaa = true
}
me.digStatus.set(rs.aaaaFail, strconv.Itoa(rs.aaaaFailc))
me.digStatus.set(rs.aaaaSuccess,strconv.Itoa(rs.aaaaSuccessc))
return a, aaaa
}
// dnsLookup performs a DNS lookup for the specified record type (e.g., "TXT", "AAAA") for a given domain.
func dnsUdpLookup(server string, domain string, recordType uint16) ([]string, error) {
var records []string
c := new(dns.Client)
m := new(dns.Msg)
m.SetQuestion(dns.Fqdn(domain), recordType)
r, _, err := c.Exchange(m, server) // If server = "1.1.1.1:53" then use Cloudflare's DNS server
if err != nil {
return nil, err
}
for _, ans := range r.Answer {
records = append(records, ans.String())
}
return records, nil
}
func dnsTcpLookup(server string, domain string, recordType uint16) ([]string, error) {
var records []string
c := new(dns.Client)
c.Net = "tcp" // Specify to use TCP for the query
c.Timeout = time.Second * 5 // Set a 5-second timeout
m := new(dns.Msg)
m.SetQuestion(dns.Fqdn(domain), recordType)
r, _, err := c.Exchange(m, server) // If server = "1.1.1.1:53" then use Cloudflare's DNS server
if err != nil {
return nil, err
}
for _, ans := range r.Answer {
records = append(records, ans.String())
}
return records, nil
}

43
structs.go
View File

@ -6,8 +6,6 @@ import (
"time"
"go.wit.com/gui/gui"
"go.wit.com/gui/gadgets"
"go.wit.com/control-panels/dns/linuxstatus"
"github.com/miekg/dns"
)
@ -15,12 +13,14 @@ import (
var me Host
type Host struct {
status *hostnameStatus // keeps track of the hostname and it's status
statusOS *linuxstatus.LinuxStatus // what the Linux OS sees
hostnameStatus *gui.Node // a summary for the user of where things are
hostname *gadgets.OneLiner // the hostname grabbed from gadget.linuxStatus
hostname string // mirrors
domainname *gui.Node // kernel.org
hostshort *gui.Node // hostname -s
hostnameStatusOLD *gui.Node // is the hostname configured correctly in the OS?
// fqdn string // mirrors.kernel.org
// dnsTTL int `default:"3"` // Recheck DNS is working every TTL (in seconds)
// dnsTTLsleep float64 // sleep between loops
artificialSleep float64 `default:"0.7"` // artificial sleep on startup
artificialS string `default:"abc"` // artificial sleep on startup
@ -42,35 +42,48 @@ type Host struct {
ipv6s map[string]dns.RR
window *gadgets.BasicWindow // the main window
details *gadgets.BasicWindow // more details of the DNS state
debug *gadgets.BasicWindow // more attempts to debug the DNS state
tab *gui.Node // the main dns tab
notes *gui.Node // using this to put notes here
// local OS settings, network interfaces, etc
// fqdn *gui.Node // display the full hostname
// Interfaces *gui.Node // Interfaces
// LocalSpeedActual *gui.Node // the time it takes to check each network interface
uid *gui.Node // user
fqdn *gui.Node // display the full hostname
IPv4 *gui.Node // show valid IPv4 addresses
IPv6 *gui.Node // show valid IPv6 addresses
Interfaces *gui.Node // Interfaces
LocalSpeedActual *gui.Node // the time it takes to check each network interface
// DNS stuff
NSrr *gui.Node // NS resource records for the domain name
DnsAPI *gui.Node // what DNS API to use?
DnsAAAA *gadgets.OneLiner // the actual DNS AAAA results
DnsAAAA *gui.Node // the actual DNS AAAA results
workingIPv6 *gui.Node // currently working AAAA
DnsA *gui.Node // the actual DNS A results (ignore for status since mostly never happens?)
DnsStatus *gui.Node // the current state of DNS
DnsSpeed *gui.Node // 'FAST', 'OK', 'SLOW', etc
DnsSpeedActual *gui.Node // the last actual duration
DnsSpeedLast string // the last state 'FAST', 'OK', etc
// fix *gui.Node // button for the user to click
// fixProc *gui.Node // button for the user to click
fix *gui.Node // button for the user to click
fixProc *gui.Node // button for the user to click
// mainStatus *gui.Node // group for the main display of stuff
// cloudflareB *gui.Node // cloudflare button
mainStatus *gui.Node // group for the main display of stuff
cloudflareB *gui.Node // cloudflare button
dbOn *gui.Node // button for setting debugging on
dbNet *gui.Node // button for setting network debugging on
dbProc *gui.Node // button for setting proc debugging on
digStatus *digStatus
statusIPv6 *gadgets.OneLiner
digStatusButton *gui.Node
hostnameStatus *hostnameStatus
hostnameStatusButton *gui.Node
myDebug *gui.Node
myGui *gui.Node
}