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ovpn-admin/main.go

594 lines
19 KiB
Go

package main
import (
"bytes"
"fmt"
"io/ioutil"
"log"
"os"
"os/exec"
"regexp"
"time"
"strings"
"text/template"
"bufio"
"net"
"encoding/json"
"net/http"
"gopkg.in/alecthomas/kingpin.v2"
)
var (
listenHost = kingpin.Flag("listen.host","host for openvpn-admin").Default("0.0.0.0").String()
listenPort = kingpin.Flag("listen.port","port for openvpn-admin").Default("8080").String()
openvpnServerHost = kingpin.Flag("ovpn.host","host for openvpn server").Default("127.0.0.1").String()
openvpnServerPort = kingpin.Flag("ovpn.port","port for openvpn server").Default("7777").String()
openvpnNetwork = kingpin.Flag("ovpn.network","network for openvpn server").Default("172.16.100.0/24").String()
mgmtListenHost = kingpin.Flag("mgmt.host","host for mgmt").Default("127.0.0.1").String()
mgmtListenPort = kingpin.Flag("mgmt.port","port for mgmt").Default("8989").String()
easyrsaDirPath = kingpin.Flag("easyrsa.path", "path to easyrsa dir").Default("/mnt/easyrsa").String()
indexTxtPath = kingpin.Flag("easyrsa.index-path", "path to easyrsa index file.").Default("/mnt/easyrsa/pki/index.txt").String()
ccdDir = kingpin.Flag("ccd.path", "path to client-config-dir").Default("/mnt/ccd").String()
staticPath = kingpin.Flag("static.path", "path to static dir").Default("./static").String()
debug = kingpin.Flag("debug", "Enable debug mode.").Default("false").Bool()
)
const (
usernameRegexp = `^([a-zA-Z0-9_.-])+$`
)
type openvpnClientConfig struct {
Host string
Port string
CA string
Cert string
Key string
TLS string
}
type openvpnClient struct {
Identity string `json:"Identity"`
AccountStatus string `json:"AccountStatus"`
ExpirationDate string `json:"ExpirationDate"`
RevocationDate string `json:"RevocationDate"`
ConnectionStatus string `json:"ConnectionStatus"`
}
type ccdRoute struct {
Address string `json:"Address"`
Mask string `json:"Mask"`
Description string `json:"Description"`
}
type Ccd struct {
User string `json:"User"`
ClientAddress string `json:"ClientAddress"`
CustomRoutes []ccdRoute `json:"CustomRoutes"`
}
type indexTxtLine struct {
Flag string
ExpirationDate string
RevocationDate string
SerialNumber string
Filename string
DistinguishedName string
Identity string
}
type clientStatus struct {
CommonName string
RealAddress string
BytesReceived string
BytesSent string
ConnectedSince string
VirtualAddress string
LastRef string
ConnectedSinceFormated string
LastRefFormated string
}
func userListHandler(w http.ResponseWriter, r *http.Request) {
usersList, _ := json.Marshal(usersList())
fmt.Fprintf(w, "%s", usersList)
}
func userCreateHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
userCreated, userCreateStatus := userCreate(r.FormValue("username"))
if userCreated {
w.WriteHeader(http.StatusOK)
fmt.Fprintf(w, userCreateStatus)
return
} else {
http.Error(w, userCreateStatus, http.StatusUnprocessableEntity)
}
}
func userRevokeHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
fmt.Fprintf(w, "%s", userRevoke(r.FormValue("username")))
}
func userUnrevokeHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
fmt.Fprintf(w, "%s", userUnrevoke(r.FormValue("username")))
}
func userShowConfigHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
fmt.Fprintf(w, "%s", renderClientConfig(r.FormValue("username")))
}
func userDisconnectHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
// fmt.Fprintf(w, "%s", userDisconnect(r.FormValue("username")))
fmt.Fprintf(w, "%s", r.FormValue("username"))
}
func userShowCcdHandler(w http.ResponseWriter, r *http.Request) {
r.ParseForm()
ccd, _ := json.Marshal(getCcd(r.FormValue("username")))
fmt.Fprintf(w, "%s", ccd)
}
func userApplyCcdHandler(w http.ResponseWriter, r *http.Request) {
var ccd Ccd
if r.Body == nil {
http.Error(w, "Please send a request body", 400)
return
}
err := json.NewDecoder(r.Body).Decode(&ccd)
if err != nil {
log.Println(err)
}
ccdApplied, applyStatus := modifyCcd(ccd)
if ccdApplied {
w.WriteHeader(http.StatusOK)
fmt.Fprintf(w, applyStatus)
return
} else {
http.Error(w, applyStatus, http.StatusUnprocessableEntity)
}
}
func main() {
kingpin.Parse()
fmt.Println("Bind: http://" + *listenHost + ":" + *listenPort)
fs := CacheControlWrapper(http.FileServer(http.Dir(*staticPath)))
http.Handle("/", fs)
http.HandleFunc("/api/users/list", userListHandler)
http.HandleFunc("/api/user/create", userCreateHandler)
http.HandleFunc("/api/user/revoke", userRevokeHandler)
http.HandleFunc("/api/user/unrevoke", userUnrevokeHandler)
http.HandleFunc("/api/user/config/show", userShowConfigHandler)
http.HandleFunc("/api/user/disconnect", userDisconnectHandler)
http.HandleFunc("/api/user/ccd", userShowCcdHandler)
http.HandleFunc("/api/user/ccd/apply", userApplyCcdHandler)
log.Fatal(http.ListenAndServe(*listenHost + ":" + *listenPort, nil))
}
func CacheControlWrapper(h http.Handler) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Cache-Control", "max-age=2592000") // 30 days
h.ServeHTTP(w, r)
})
}
func indexTxtParser(txt string) []indexTxtLine {
indexTxt := []indexTxtLine{}
txtLinesArray := strings.Split(txt, "\n")
for _, v := range txtLinesArray {
str := strings.Fields(v)
if len(str) > 0 {
switch {
// case strings.HasPrefix(str[0], "E"):
case strings.HasPrefix(str[0], "V"):
indexTxt = append(indexTxt, indexTxtLine{Flag: str[0], ExpirationDate: str[1], SerialNumber: str[2], Filename: str[3], DistinguishedName: str[4], Identity: str[4][strings.Index(str[4], "=")+1:]})
case strings.HasPrefix(str[0], "R"):
indexTxt = append(indexTxt, indexTxtLine{Flag: str[0], ExpirationDate: str[1], RevocationDate: str[2], SerialNumber: str[3], Filename: str[4], DistinguishedName: str[5], Identity: str[5][strings.Index(str[5], "=")+1:]})
}
}
}
return indexTxt
}
func renderIndexTxt(data []indexTxtLine) string {
indexTxt := ""
for _, line := range data {
switch {
case line.Flag == "V":
indexTxt += fmt.Sprintf("%s\t%s\t\t%s\t%s\t%s\n", line.Flag, line.ExpirationDate, line.SerialNumber, line.Filename, line.DistinguishedName)
case line.Flag == "R":
indexTxt += fmt.Sprintf("%s\t%s\t%s\t%s\t%s\t%s\n", line.Flag, line.ExpirationDate, line.RevocationDate, line.SerialNumber, line.Filename, line.DistinguishedName)
// case line.flag == "E":
}
}
return indexTxt
}
func renderClientConfig(username string) string {
if checkUserExist(username) {
conf := openvpnClientConfig{}
conf.Host = *openvpnServerHost
conf.Port = *openvpnServerPort
conf.CA = fRead(*easyrsaDirPath + "/pki/ca.crt")
conf.Cert = fRead(*easyrsaDirPath + "/pki/issued/" + username + ".crt")
conf.Key = fRead(*easyrsaDirPath + "/pki/private/" + username + ".key")
conf.TLS = fRead(*easyrsaDirPath + "/pki/ta.key")
t, _ := template.ParseFiles("client.conf.tpl")
var tmp bytes.Buffer
t.Execute(&tmp, conf)
fmt.Printf("%+v\n", tmp.String())
return (fmt.Sprintf("%+v\n", tmp.String()))
}
fmt.Printf("User \"%s\" not found", username)
return fmt.Sprintf("User \"%s\" not found", username)
}
func parseCcd(username string) Ccd {
ccd := Ccd{}
ccd.User = username
ccd.ClientAddress = "dynamic"
ccd.CustomRoutes = []ccdRoute{}
txtLinesArray := strings.Split(fRead(*ccdDir + "/" + username), "\n")
for _, v := range txtLinesArray {
str := strings.Fields(v)
if len(str) > 0 {
switch {
case strings.HasPrefix(str[0], "ifconfig-push"):
ccd.ClientAddress = str[1]
case strings.HasPrefix(str[0], "push"):
ccd.CustomRoutes = append(ccd.CustomRoutes, ccdRoute{Address: strings.Trim(str[2], "\""), Mask: strings.Trim(str[3], "\""), Description: strings.Trim(strings.Join(str[4:], ""), "#")})
}
}
}
return ccd
}
func modifyCcd(ccd Ccd) (bool, string) {
if fCreate(*ccdDir + "/" + ccd.User) {
ccdValid, ccdErr := validateCcd(ccd)
if ccdErr != "" {
return false, ccdErr
}
if ccdValid {
t, _ := template.ParseFiles("ccd.tpl")
var tmp bytes.Buffer
t.Execute(&tmp, ccd)
fWrite(*ccdDir + "/" + ccd.User, tmp.String())
return true, "ccd updated successfully"
}
}
return false, "something goes wrong"
}
func validateCcd(ccd Ccd) (bool, string) {
ccdErr := ""
if ccd.ClientAddress != "dynamic" {
_, ovpnNet, err := net.ParseCIDR(*openvpnNetwork)
if err != nil {
log.Println(err)
}
if ! checkStaticAddressIsFree(ccd.ClientAddress, ccd.User) {
ccdErr = fmt.Sprintf("ClientAddress \"%s\" already assigned to another user", ccd.ClientAddress)
if *debug {
log.Printf("ERROR: Modify ccd for user %s: %s", ccd.User, ccdErr)
}
return false, ccdErr
}
if net.ParseIP(ccd.ClientAddress) == nil {
ccdErr = fmt.Sprintf("ClientAddress \"%s\" not a valid IP address", ccd.ClientAddress)
if *debug {
log.Printf("ERROR: Modify ccd for user %s: %s", ccd.User, ccdErr)
}
return false, ccdErr
}
if ! ovpnNet.Contains(net.ParseIP(ccd.ClientAddress)) {
ccdErr = fmt.Sprintf("ClientAddress \"%s\" not belongs to openvpn server network", ccd.ClientAddress)
if *debug {
log.Printf("ERROR: Modify ccd for user %s: %s", ccdErr)
}
return false, ccdErr
}
}
for _, route := range ccd.CustomRoutes {
if net.ParseIP(route.Address) == nil {
ccdErr = fmt.Sprintf("CustomRoute.Address \"%s\" must be a valid IP address", route.Address)
if *debug {
log.Printf("ERROR: Modify ccd for user %s: %s", ccdErr)
}
return false, ccdErr
}
if net.ParseIP(route.Mask) == nil {
ccdErr = fmt.Sprintf("CustomRoute.Mask \"%s\" must be a valid IP address", route.Mask)
if *debug {
log.Printf("ERROR: Modify ccd for user %s: %s", ccd.User, ccdErr)
}
return false, ccdErr
}
}
return true, ccdErr
}
func getCcd(username string) Ccd {
ccd := Ccd{}
ccd.User = username
ccd.ClientAddress = "dynamic"
ccd.CustomRoutes = []ccdRoute{}
if fCreate(*ccdDir + "/" + username) {
ccd = parseCcd(username)
}
return ccd
}
func checkStaticAddressIsFree(staticAddress string, username string) bool {
o := runBash(fmt.Sprintf("grep -rl %s %s | grep -vx %s/%s | wc -l", staticAddress, *ccdDir, *ccdDir, username))
if strings.TrimSpace(o) == "0" {
return true
}
return false
}
func validateUsername(username string) bool {
var validUsername = regexp.MustCompile(usernameRegexp)
return validUsername.MatchString(username)
}
func checkUserExist(username string) bool {
for _, u := range indexTxtParser(fRead(*indexTxtPath)) {
if u.DistinguishedName == ("/CN=" + username) {
return true
}
}
return false
}
func usersList() []openvpnClient {
users := []openvpnClient{}
activeClients := mgmtGetActiveClients()
for _, line := range indexTxtParser(fRead(*indexTxtPath)) {
if line.Identity != "server" {
ovpnClient := openvpnClient{Identity: line.Identity, ExpirationDate: indexTxtDateToHumanReadable(line.ExpirationDate)}
switch {
case line.Flag == "V":
ovpnClient.AccountStatus = "Active"
case line.Flag == "R":
ovpnClient.AccountStatus = "Revoked"
ovpnClient.RevocationDate = indexTxtDateToHumanReadable(line.RevocationDate)
case line.Flag == "E":
ovpnClient.AccountStatus = "Expired"
}
if isUserConnected(line.Identity, activeClients) {
ovpnClient.ConnectionStatus = "Connected"
}
users = append(users, ovpnClient)
}
}
return users
}
func userCreate(username string) (bool, string) {
// TODO: add password for user cert . priority=low
if validateUsername(username) == false {
fmt.Printf("Username \"%s\" incorrect, you can use only %s\n", username, usernameRegexp)
return false, fmt.Sprintf("Username \"%s\" incorrect, you can use only %s", username, usernameRegexp)
}
if checkUserExist(username) {
fmt.Printf("User \"%s\" already exists\n", username)
return false, fmt.Sprintf("User \"%s\" already exists", username)
}
o := runBash(fmt.Sprintf("date +%%Y-%%m-%%d\\ %%H:%%M:%%S && cd %s && easyrsa build-client-full %s nopass", *easyrsaDirPath, username))
fmt.Println(o)
return true, fmt.Sprintf("User \"%s\" created", username)
}
func userRevoke(username string) string {
if checkUserExist(username) {
// check certificate valid flag 'V'
o := runBash(fmt.Sprintf("date +%%Y-%%m-%%d\\ %%H:%%M:%%S && cd %s && echo yes | easyrsa revoke %s && easyrsa gen-crl", *easyrsaDirPath, username))
crlFix()
return fmt.Sprintln(o)
}
fmt.Printf("User \"%s\" not found", username)
return fmt.Sprintf("User \"%s\" not found", username)
}
func userUnrevoke(username string) string {
if checkUserExist(username) {
// check certificate revoked flag 'R'
usersFromIndexTxt := indexTxtParser(fRead(*indexTxtPath))
for i := range usersFromIndexTxt {
if usersFromIndexTxt[i].DistinguishedName == ("/CN=" + username) {
if usersFromIndexTxt[i].Flag == "R" {
usersFromIndexTxt[i].Flag = "V"
usersFromIndexTxt[i].RevocationDate = ""
o := runBash(fmt.Sprintf("cd %s && cp pki/revoked/certs_by_serial/%s.crt pki/issued/%s.crt", *easyrsaDirPath, usersFromIndexTxt[i].SerialNumber, username))
fmt.Println(o)
o = runBash(fmt.Sprintf("cd %s && cp pki/revoked/certs_by_serial/%s.crt pki/certs_by_serial/%s.pem", *easyrsaDirPath, usersFromIndexTxt[i].SerialNumber, usersFromIndexTxt[i].SerialNumber))
fmt.Println(o)
o = runBash(fmt.Sprintf("cd %s && cp pki/revoked/private_by_serial/%s.key pki/private/%s.key", *easyrsaDirPath, usersFromIndexTxt[i].SerialNumber, username))
fmt.Println(o)
o = runBash(fmt.Sprintf("cd %s && cp pki/revoked/reqs_by_serial/%s.req pki/reqs/%s.req", *easyrsaDirPath, usersFromIndexTxt[i].SerialNumber, username))
fmt.Println(o)
fWrite(*indexTxtPath, renderIndexTxt(usersFromIndexTxt))
fmt.Print(renderIndexTxt(usersFromIndexTxt))
o = runBash(fmt.Sprintf("cd %s && easyrsa gen-crl", *easyrsaDirPath))
fmt.Println(o)
crlFix()
break
}
}
}
fWrite(*indexTxtPath, renderIndexTxt(usersFromIndexTxt))
fmt.Print(renderIndexTxt(usersFromIndexTxt))
crlFix()
return fmt.Sprintf("{\"msg\":\"User %s successfully unrevoked\"}", username)
}
return fmt.Sprintf("{\"msg\":\"User \"%s\" not found\"}", username)
}
// TODO: add ability to change password for user cert . priority=low
// func userChangePassword(username string, newPassword string) bool {
//
// return false
// }
func ovpnMgmtRead(conn net.Conn) string {
buf := make([]byte, 32768)
len, _ := conn.Read(buf)
s := string(buf[:len])
return s
}
func mgmtConnectedUsersParser(text string) []clientStatus {
u := []clientStatus{}
isClientList := false
isRouteTable := false
scanner := bufio.NewScanner(strings.NewReader(text))
for scanner.Scan() {
txt := scanner.Text()
if regexp.MustCompile(`^Common Name,Real Address,Bytes Received,Bytes Sent,Connected Since$`).MatchString(txt) {
isClientList = true
continue
}
if regexp.MustCompile(`^ROUTING TABLE$`).MatchString(txt) {
isClientList = false
continue
}
if regexp.MustCompile(`^Virtual Address,Common Name,Real Address,Last Ref$`).MatchString(txt) {
isRouteTable = true
continue
}
if regexp.MustCompile(`^GLOBAL STATS$`).MatchString(txt) {
// isRouteTable = false // ineffectual assignment to isRouteTable (ineffassign)
break
}
if isClientList {
user := strings.Split(txt, ",")
u = append(u, clientStatus{CommonName: user[0], RealAddress: user[1], BytesReceived: user[2], BytesSent: user[3], ConnectedSince: user[4]})
}
if isRouteTable {
user := strings.Split(txt, ",")
for i := range u {
if u[i].CommonName == user[1] {
u[i].VirtualAddress = user[0]
u[i].LastRef = user[3]
break
}
}
}
}
return u
}
func mgmtKillUserConnection(username string) {
conn, _ := net.Dial("tcp", *mgmtListenHost+":"+*mgmtListenPort)
ovpnMgmtRead(conn) // read welcome message
conn.Write([]byte(fmt.Sprintf("kill %s\n", username)))
fmt.Printf("%v", ovpnMgmtRead(conn))
conn.Close()
}
func mgmtGetActiveClients() []clientStatus {
conn, _ := net.Dial("tcp", *mgmtListenHost+":"+*mgmtListenPort)
ovpnMgmtRead(conn) // read welcome message
conn.Write([]byte("status\n"))
activeClients := mgmtConnectedUsersParser(ovpnMgmtRead(conn))
conn.Close()
return activeClients
}
func isUserConnected(username string, connectedUsers []clientStatus) bool {
for _, connectedUser := range connectedUsers {
if connectedUser.CommonName == username {
return true
}
}
return false
}
func indexTxtDateToHumanReadable(datetime string) string {
layout := "060102150405Z"
t, err := time.Parse(layout, datetime)
if err != nil {
fmt.Println(err)
}
return t.Format("2006-01-02 15:04:05")
}
func runBash(script string) string {
fmt.Println(script)
cmd := exec.Command("bash", "-c", script)
stdout, err := cmd.CombinedOutput()
if err != nil {
return (fmt.Sprint(err) + " : " + string(stdout))
}
return string(stdout)
}
// https://community.openvpn.net/openvpn/ticket/623
func crlFix() {
os.Chmod(*easyrsaDirPath + "/pki", 0755)
err := os.Chmod(*easyrsaDirPath + "/pki/crl.pem", 0640)
if err != nil {
log.Println(err)
}
}
func fRead(path string) string {
content, err := ioutil.ReadFile(path)
if err != nil {
log.Fatal(err)
}
return string(content)
}
func fCreate(path string) bool {
var _, err = os.Stat(path)
if os.IsNotExist(err) {
var file, err = os.Create(path)
if err != nil {
log.Println(err)
return false
}
defer file.Close()
}
return true
}
func fWrite(path, content string) {
err := ioutil.WriteFile(path, []byte(content), 0644)
if err != nil {
log.Fatal(err)
}
}