package modules import ( "fmt" "os" "sort" "strconv" "time" "github.com/bettercap/bettercap/network" "github.com/dustin/go-humanize" "github.com/evilsocket/islazy/tui" ) func (w *WiFiModule) isApSelected() bool { return w.ap != nil } func (w *WiFiModule) getRow(station *network.Station) ([]string, bool) { include := false sinceStarted := time.Since(w.Session.StartedAt) sinceFirstSeen := time.Since(station.FirstSeen) bssid := station.HwAddress if sinceStarted > (justJoinedTimeInterval*2) && sinceFirstSeen <= justJoinedTimeInterval { // if endpoint was first seen in the last 10 seconds bssid = tui.Bold(bssid) } seen := station.LastSeen.Format("15:04:05") sinceLastSeen := time.Since(station.LastSeen) if sinceStarted > aliveTimeInterval && sinceLastSeen <= aliveTimeInterval { // if endpoint seen in the last 10 seconds seen = tui.Bold(seen) } else if sinceLastSeen > presentTimeInterval { // if endpoint not seen in the last 60 seconds seen = tui.Dim(seen) } ssid := station.ESSID() if ssid == "" { ssid = tui.Dim(ssid) } encryption := station.Encryption if len(station.Cipher) > 0 { encryption = fmt.Sprintf("%s (%s, %s)", station.Encryption, station.Cipher, station.Authentication) } if encryption == "OPEN" || encryption == "" { encryption = tui.Green("OPEN") ssid = tui.Green(ssid) bssid = tui.Green(bssid) } sent := "" if station.Sent > 0 { sent = humanize.Bytes(station.Sent) } recvd := "" if station.Received > 0 { recvd = humanize.Bytes(station.Received) } if w.source == "" { for _, frequencies := range w.frequencies { if frequencies == station.Frequency { include = true break } } } else { include = true } if w.isApSelected() { return []string{ fmt.Sprintf("%d dBm", station.RSSI), bssid, /* station.Vendor, */ strconv.Itoa(station.Channel()), sent, recvd, seen, }, include } else { // this is ugly, but necessary in order to have this // method handle both access point and clients // transparently clients := "" if ap, found := w.Session.WiFi.Get(station.HwAddress); found { if ap.NumClients() > 0 { clients = strconv.Itoa(ap.NumClients()) } } return []string{ fmt.Sprintf("%d dBm", station.RSSI), bssid, ssid, /* station.Vendor, */ encryption, strconv.Itoa(station.Channel()), clients, sent, recvd, seen, }, include } } func (w *WiFiModule) doFilter(station *network.Station) bool { if w.selector.Expression == nil { return true } return w.selector.Expression.MatchString(station.BSSID()) || w.selector.Expression.MatchString(station.ESSID()) || w.selector.Expression.MatchString(station.Alias) || w.selector.Expression.MatchString(station.Vendor) || w.selector.Expression.MatchString(station.Encryption) } func (w *WiFiModule) doSelection() (err error, stations []*network.Station) { if err = w.selector.Update(); err != nil { return } apSelected := w.isApSelected() if apSelected { if ap, found := w.Session.WiFi.Get(w.ap.HwAddress); found { stations = ap.Clients() } else { err = fmt.Errorf("Could not find station %s", w.ap.HwAddress) return } } else { stations = w.Session.WiFi.Stations() } filtered := []*network.Station{} for _, station := range stations { if w.doFilter(station) { filtered = append(filtered, station) } } stations = filtered switch w.selector.SortBy { case "seen": sort.Sort(ByWiFiSeenSorter(stations)) case "essid": sort.Sort(ByEssidSorter(stations)) case "bssid": sort.Sort(ByBssidSorter(stations)) case "channel": sort.Sort(ByChannelSorter(stations)) case "clients": sort.Sort(ByClientsSorter(stations)) case "encryption": sort.Sort(ByEncryptionSorter(stations)) case "sent": sort.Sort(ByWiFiSentSorter(stations)) case "rcvd": sort.Sort(ByWiFiRcvdSorter(stations)) case "rssi": default: sort.Sort(ByRSSISorter(stations)) } // default is asc if w.selector.Sort == "desc" { // from https://github.com/golang/go/wiki/SliceTricks for i := len(stations)/2 - 1; i >= 0; i-- { opp := len(stations) - 1 - i stations[i], stations[opp] = stations[opp], stations[i] } } if w.selector.Limit > 0 { limit := w.selector.Limit max := len(stations) if limit > max { limit = max } stations = stations[0:limit] } return } func (w *WiFiModule) Show() (err error) { var stations []*network.Station if err, stations = w.doSelection(); err != nil { return } rows := make([][]string, 0) for _, s := range stations { if row, include := w.getRow(s); include { rows = append(rows, row) } } nrows := len(rows) columns := []string{"RSSI", "BSSID", "SSID" /* "Vendor", */, "Encryption", "Channel", "Clients", "Sent", "Recvd", "Last Seen"} if w.isApSelected() { // these are clients columns = []string{"RSSI", "MAC" /* "Vendor", */, "Channel", "Sent", "Received", "Last Seen"} if nrows == 0 { fmt.Printf("\nNo authenticated clients detected for %s.\n", w.ap.HwAddress) } else { fmt.Printf("\n%s clients:\n", w.ap.HwAddress) } } if nrows > 0 { tui.Table(os.Stdout, columns, rows) } w.Session.Queue.Stats.RLock() fmt.Printf("\n%s (ch. %d) / %s %s / %s %s / %d pkts / %d errs\n\n", w.Session.Interface.Name(), network.GetInterfaceChannel(w.Session.Interface.Name()), tui.Red("↑"), humanize.Bytes(w.Session.Queue.Stats.Sent), tui.Green("↓"), humanize.Bytes(w.Session.Queue.Stats.Received), w.Session.Queue.Stats.PktReceived, w.Session.Queue.Stats.Errors) w.Session.Queue.Stats.RUnlock() w.Session.Refresh() return nil }