Update-Commands: update, major_update, update_check, reboot

Agent:
- update: opnsense-update + pkg upgrade -y, optionaler Reboot
- major_update: opnsense-update -r <version>, optionaler Reboot
- update_check: Prueft Core- und Paket-Updates, liefert Details
- reboot: Shutdown mit konfigurierbarer Verzoegerung

Backend:
- Synchrone API-Endpoints (warten auf Agent-Response)
- Response-Waiter-System im Hub (Command-ID basiert)
- Konfigurierbare Timeouts pro Command-Typ
- POST /agents/{id}/update[-check] und /major-update und /reboot

README mit Update-Beispielen und API-Doku aktualisiert
This commit is contained in:
cynfo3000 2026-02-28 09:01:04 +01:00
parent 68e712b3a3
commit ebc70f17eb
4 changed files with 544 additions and 45 deletions

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@ -124,6 +124,15 @@ daemon -f -p /var/run/rmm-agent.pid -o /usr/local/rmm/rmm-agent.log \
| GET | `/api/v1/agent/ws?agent_id=X&api_key=X` | WebSocket-Verbindung (Agent) | | GET | `/api/v1/agent/ws?agent_id=X&api_key=X` | WebSocket-Verbindung (Agent) |
| GET | `/api/v1/hub/status` | Hub-Status (connected agents, aktive Tunnel) | | GET | `/api/v1/hub/status` | Hub-Status (connected agents, aktive Tunnel) |
### Updates & Reboot
| Methode | Endpoint | Beschreibung |
|---------|----------|-------------|
| POST | `/api/v1/agents/{id}/update-check` | Verfuegbare Updates pruefen |
| POST | `/api/v1/agents/{id}/update` | Normales Update (Core + Packages) |
| POST | `/api/v1/agents/{id}/major-update` | Major-Upgrade auf Zielversion |
| POST | `/api/v1/agents/{id}/reboot` | Reboot ausfuehren |
### Tunnel-Management ### Tunnel-Management
| Methode | Endpoint | Beschreibung | | Methode | Endpoint | Beschreibung |
@ -158,17 +167,55 @@ curl -sk -H "X-API-Key: KEY" -X POST \
# Im Browser: https://backend-ip:10001/ # Im Browser: https://backend-ip:10001/
``` ```
### Update-Beispiele
```bash
# Verfuegbare Updates pruefen
curl -sk -H "X-API-Key: KEY" -X POST \
https://backend:8443/api/v1/agents/AGENT_ID/update-check
# Normales Update (ohne Reboot)
curl -sk -H "X-API-Key: KEY" -X POST \
https://backend:8443/api/v1/agents/AGENT_ID/update
# Normales Update mit Reboot
curl -sk -H "X-API-Key: KEY" -X POST \
https://backend:8443/api/v1/agents/AGENT_ID/update \
-d '{"reboot":true}'
# Major-Upgrade auf Version 26.7
curl -sk -H "X-API-Key: KEY" -X POST \
https://backend:8443/api/v1/agents/AGENT_ID/major-update \
-d '{"version":"26.7","reboot":true}'
# Reboot (5s Verzoegerung default)
curl -sk -H "X-API-Key: KEY" -X POST \
https://backend:8443/api/v1/agents/AGENT_ID/reboot
```
### WebSocket Commands (Backend → Agent) ### WebSocket Commands (Backend → Agent)
```json ```json
// Remote-Befehl ausfuehren // Remote-Befehl ausfuehren
{"type":"command","id":"cmd1","command":"exec","params":{"command":"uptime","timeout":30}} {"type":"command","id":"cmd1","command":"exec","params":{"command":"uptime","timeout":30}}
// Tunnel-Session oeffnen (wird automatisch vom Backend gesendet) // Update-Check
{"type":"command","id":"cmd2","command":"tunnel_connect","params":{"session_id":"xxx","tunnel_id":"xxx","target_host":"127.0.0.1","target_port":22}} {"type":"command","id":"cmd2","command":"update_check"}
// Normales Update
{"type":"command","id":"cmd3","command":"update","params":{"reboot":false}}
// Major-Update
{"type":"command","id":"cmd4","command":"major_update","params":{"version":"26.7","reboot":true}}
// Reboot
{"type":"command","id":"cmd5","command":"reboot","params":{"delay":5}}
// Tunnel-Session oeffnen (automatisch vom Backend gesendet)
{"type":"command","id":"cmd6","command":"tunnel_connect","params":{"session_id":"xxx","tunnel_id":"xxx","target_host":"127.0.0.1","target_port":22}}
// Tunnel-Session schliessen // Tunnel-Session schliessen
{"type":"command","id":"cmd3","command":"tunnel_disconnect","params":{"session_id":"xxx"}} {"type":"command","id":"cmd7","command":"tunnel_disconnect","params":{"session_id":"xxx"}}
``` ```
### Binary WebSocket Messages (Tunnel-Daten) ### Binary WebSocket Messages (Tunnel-Daten)

View File

@ -6,6 +6,7 @@ import (
"log" "log"
"os/exec" "os/exec"
"strconv" "strconv"
"strings"
"time" "time"
) )
@ -27,17 +28,23 @@ func (h *Handler) HandleCommand(msg Message) {
switch msg.Command { switch msg.Command {
case "exec": case "exec":
response = h.handleExec(msg) response = h.handleExec(msg)
case "tunnel_open": case "update":
// Legacy: wird nicht mehr verwendet, aber fuer Kompatibilitaet response = h.handleUpdate(msg)
response.Status = "ok" case "major_update":
response.Data = map[string]interface{}{"message": "tunnel_open deprecated, use tunnel_connect"} response = h.handleMajorUpdate(msg)
case "update_check":
response = h.handleUpdateCheck(msg)
case "reboot":
response = h.handleReboot(msg)
case "tunnel_connect": case "tunnel_connect":
response = h.handleTunnelConnect(msg) response = h.handleTunnelConnect(msg)
case "tunnel_disconnect": case "tunnel_disconnect":
h.handleTunnelDisconnect(msg) h.handleTunnelDisconnect(msg)
return // Keine Response noetig return
case "tunnel_open":
response.Status = "ok"
response.Data = map[string]interface{}{"message": "tunnel_open deprecated, use tunnel_connect"}
case "tunnel_close": case "tunnel_close":
// Legacy: alle Sessions fuer diesen Tunnel schliessen
response.Status = "ok" response.Status = "ok"
default: default:
response.Status = "error" response.Status = "error"
@ -49,11 +56,9 @@ func (h *Handler) HandleCommand(msg Message) {
} }
} }
// handleExec fuehrt einen beliebigen Befehl aus
func (h *Handler) handleExec(msg Message) Message { func (h *Handler) handleExec(msg Message) Message {
response := Message{ response := Message{Type: "response", ID: msg.ID}
Type: "response",
ID: msg.ID,
}
command, ok := msg.Params["command"].(string) command, ok := msg.Params["command"].(string)
if !ok || command == "" { if !ok || command == "" {
@ -73,34 +78,269 @@ func (h *Handler) handleExec(msg Message) Message {
} }
} }
ctx, cancel := context.WithTimeout(context.Background(), time.Duration(timeoutSec)*time.Second) output, err := h.runCommand(command, timeoutSec)
defer cancel()
cmd := exec.CommandContext(ctx, "/bin/sh", "-c", command)
output, err := cmd.CombinedOutput()
if err != nil { if err != nil {
response.Status = "error" response.Status = "error"
response.Error = err.Error() response.Error = err.Error()
response.Data = map[string]interface{}{ response.Data = map[string]interface{}{"output": output}
"output": string(output),
}
} else { } else {
response.Status = "ok" response.Status = "ok"
response.Data = map[string]interface{}{ response.Data = map[string]interface{}{"output": output}
"output": string(output),
}
} }
return response return response
} }
func (h *Handler) handleTunnelConnect(msg Message) Message { // handleUpdateCheck prueft ob Updates verfuegbar sind
response := Message{ func (h *Handler) handleUpdateCheck(msg Message) Message {
Type: "response", response := Message{Type: "response", ID: msg.ID}
ID: msg.ID, log.Println("Update-Check gestartet...")
result := map[string]interface{}{}
// 1. OPNsense Core Update pruefen
coreOutput, coreErr := h.runCommand("/usr/local/sbin/opnsense-update -c", 60)
if coreErr != nil {
// Exit 1 = Update verfuegbar
result["core_update_available"] = true
result["core_update_info"] = strings.TrimSpace(coreOutput)
} else {
result["core_update_available"] = false
result["core_update_info"] = "Kein Core-Update verfuegbar"
} }
// 2. Paket-Updates pruefen
pkgOutput, _ := h.runCommand("/usr/sbin/pkg upgrade -n", 60)
pendingPackages := h.parsePkgUpgrade(pkgOutput)
result["package_update_available"] = len(pendingPackages) > 0
result["pending_packages"] = pendingPackages
result["pending_count"] = len(pendingPackages)
response.Status = "ok"
response.Data = result
log.Printf("Update-Check abgeschlossen: Core=%v, Packages=%d",
result["core_update_available"], len(pendingPackages))
return response
}
// handleUpdate fuehrt ein normales Update durch (Core + Packages)
func (h *Handler) handleUpdate(msg Message) Message {
response := Message{Type: "response", ID: msg.ID}
log.Println("Normales Update gestartet...")
reboot := false
if r, ok := msg.Params["reboot"].(bool); ok {
reboot = r
}
result := map[string]interface{}{
"steps": []map[string]interface{}{},
}
var steps []map[string]interface{}
// Schritt 1: opnsense-update (Core + Firmware)
log.Println("Update Schritt 1: opnsense-update")
coreOutput, coreErr := h.runCommand("/usr/local/sbin/opnsense-update", 600)
step1 := map[string]interface{}{
"step": "opnsense-update",
"output": coreOutput,
"ok": coreErr == nil,
}
if coreErr != nil {
step1["error"] = coreErr.Error()
}
steps = append(steps, step1)
// Schritt 2: pkg upgrade -y (Paket-Updates)
log.Println("Update Schritt 2: pkg upgrade -y")
pkgOutput, pkgErr := h.runCommand("/usr/sbin/pkg upgrade -y", 600)
step2 := map[string]interface{}{
"step": "pkg upgrade",
"output": pkgOutput,
"ok": pkgErr == nil,
}
if pkgErr != nil {
step2["error"] = pkgErr.Error()
}
steps = append(steps, step2)
// Schritt 3: opnsense-update -c (Nachpruefung)
log.Println("Update Schritt 3: Nachpruefung")
checkOutput, checkErr := h.runCommand("/usr/local/sbin/opnsense-update -c", 60)
stillPending := checkErr != nil
step3 := map[string]interface{}{
"step": "verify",
"output": checkOutput,
"updates_pending": stillPending,
}
steps = append(steps, step3)
result["steps"] = steps
result["reboot_requested"] = reboot
// Gesamtstatus
if coreErr == nil && pkgErr == nil {
response.Status = "ok"
result["message"] = "Update erfolgreich abgeschlossen"
} else {
response.Status = "ok" // Nicht "error" — teilweise Updates sind OK
result["message"] = "Update mit Warnungen abgeschlossen"
}
// Reboot wenn gewuenscht
if reboot {
log.Println("Reboot nach Update angefordert...")
result["reboot"] = "Reboot in 5 Sekunden..."
response.Data = result
// Response erst senden, dann rebooten
go func() {
time.Sleep(5 * time.Second)
log.Println("Reboot wird ausgefuehrt...")
exec.Command("/sbin/shutdown", "-r", "now").Run()
}()
return response
}
response.Data = result
log.Println("Update abgeschlossen")
return response
}
// handleMajorUpdate fuehrt ein Major-Upgrade durch
func (h *Handler) handleMajorUpdate(msg Message) Message {
response := Message{Type: "response", ID: msg.ID}
targetVersion, ok := msg.Params["version"].(string)
if !ok || targetVersion == "" {
response.Status = "error"
response.Error = "Parameter 'version' erforderlich (z.B. '26.7')"
return response
}
reboot := false
if r, ok := msg.Params["reboot"].(bool); ok {
reboot = r
}
log.Printf("Major-Update auf Version %s gestartet...", targetVersion)
result := map[string]interface{}{
"target_version": targetVersion,
}
var steps []map[string]interface{}
// Schritt 1: opnsense-update -r <version> (Release wechseln)
log.Printf("Major-Update Schritt 1: opnsense-update -r %s", targetVersion)
releaseCmd := fmt.Sprintf("/usr/local/sbin/opnsense-update -r %s", targetVersion)
releaseOutput, releaseErr := h.runCommand(releaseCmd, 300)
step1 := map[string]interface{}{
"step": fmt.Sprintf("opnsense-update -r %s", targetVersion),
"output": releaseOutput,
"ok": releaseErr == nil,
}
if releaseErr != nil {
step1["error"] = releaseErr.Error()
steps = append(steps, step1)
// Bei Fehler im Release-Wechsel abbrechen
result["steps"] = steps
result["message"] = "Release-Wechsel fehlgeschlagen"
response.Status = "error"
response.Error = "Release-Wechsel fehlgeschlagen"
response.Data = result
return response
}
steps = append(steps, step1)
// Schritt 2: opnsense-update (eigentliches Update laden)
log.Println("Major-Update Schritt 2: opnsense-update")
updateOutput, updateErr := h.runCommand("/usr/local/sbin/opnsense-update", 900)
step2 := map[string]interface{}{
"step": "opnsense-update",
"output": updateOutput,
"ok": updateErr == nil,
}
if updateErr != nil {
step2["error"] = updateErr.Error()
}
steps = append(steps, step2)
// Schritt 3: pkg upgrade -y
log.Println("Major-Update Schritt 3: pkg upgrade -y")
pkgOutput, pkgErr := h.runCommand("/usr/sbin/pkg upgrade -y", 600)
step3 := map[string]interface{}{
"step": "pkg upgrade",
"output": pkgOutput,
"ok": pkgErr == nil,
}
if pkgErr != nil {
step3["error"] = pkgErr.Error()
}
steps = append(steps, step3)
result["steps"] = steps
result["reboot_requested"] = reboot
if updateErr == nil {
result["message"] = fmt.Sprintf("Major-Update auf %s abgeschlossen", targetVersion)
} else {
result["message"] = fmt.Sprintf("Major-Update auf %s mit Warnungen", targetVersion)
}
response.Status = "ok"
if reboot {
log.Println("Reboot nach Major-Update angefordert...")
result["reboot"] = "Reboot in 5 Sekunden..."
response.Data = result
go func() {
time.Sleep(5 * time.Second)
log.Println("Reboot wird ausgefuehrt...")
exec.Command("/sbin/shutdown", "-r", "now").Run()
}()
return response
}
response.Data = result
log.Printf("Major-Update auf %s abgeschlossen", targetVersion)
return response
}
// handleReboot fuehrt einen Reboot durch
func (h *Handler) handleReboot(msg Message) Message {
response := Message{Type: "response", ID: msg.ID}
delaySec := 5
if d, ok := msg.Params["delay"].(float64); ok && d > 0 {
delaySec = int(d)
}
log.Printf("Reboot angefordert (Verzoegerung: %ds)", delaySec)
response.Status = "ok"
response.Data = map[string]interface{}{
"message": fmt.Sprintf("Reboot in %d Sekunden", delaySec),
}
go func() {
time.Sleep(time.Duration(delaySec) * time.Second)
log.Println("Reboot wird ausgefuehrt...")
exec.Command("/sbin/shutdown", "-r", "now").Run()
}()
return response
}
// --- Tunnel Handlers ---
func (h *Handler) handleTunnelConnect(msg Message) Message {
response := Message{Type: "response", ID: msg.ID}
sessionID, _ := msg.Params["session_id"].(string) sessionID, _ := msg.Params["session_id"].(string)
tunnelID, _ := msg.Params["tunnel_id"].(string) tunnelID, _ := msg.Params["tunnel_id"].(string)
targetHost, _ := msg.Params["target_host"].(string) targetHost, _ := msg.Params["target_host"].(string)
@ -120,23 +360,71 @@ func (h *Handler) handleTunnelConnect(msg Message) Message {
} }
response.Status = "ok" response.Status = "ok"
response.Data = map[string]interface{}{ response.Data = map[string]interface{}{"session_id": sessionID}
"session_id": sessionID,
}
return response return response
} }
func (h *Handler) handleTunnelDisconnect(msg Message) { func (h *Handler) handleTunnelDisconnect(msg Message) {
sessionID, _ := msg.Params["session_id"].(string) sessionID, _ := msg.Params["session_id"].(string)
if sessionID == "" { if sessionID != "" {
return h.client.tunnelManager.DisconnectSession(sessionID)
} }
h.client.tunnelManager.DisconnectSession(sessionID)
} }
// SendSessionData schickt Daten als Binary-Message zurueck zum Backend // --- Helper ---
// runCommand fuehrt einen Shell-Befehl mit Timeout aus
func (h *Handler) runCommand(command string, timeoutSec int) (string, error) {
ctx, cancel := context.WithTimeout(context.Background(), time.Duration(timeoutSec)*time.Second)
defer cancel()
cmd := exec.CommandContext(ctx, "/bin/sh", "-c", command)
output, err := cmd.CombinedOutput()
return string(output), err
}
// parsePkgUpgrade parst die Ausgabe von "pkg upgrade -n"
func (h *Handler) parsePkgUpgrade(output string) []map[string]string {
var packages []map[string]string
inUpgradeBlock := false
for _, line := range strings.Split(output, "\n") {
trimmed := strings.TrimSpace(line)
if strings.Contains(trimmed, "packages to be UPGRADED") ||
strings.Contains(trimmed, "will be affected") {
inUpgradeBlock = true
continue
}
if inUpgradeBlock && strings.Contains(trimmed, "->") {
parts := strings.SplitN(trimmed, ":", 2)
if len(parts) == 2 {
pkg := strings.TrimSpace(parts[0])
versions := strings.TrimSpace(parts[1])
arrowParts := strings.SplitN(versions, "->", 2)
if len(arrowParts) == 2 {
packages = append(packages, map[string]string{
"package": pkg,
"current_version": strings.TrimSpace(arrowParts[0]),
"new_version": strings.TrimSpace(arrowParts[1]),
})
}
}
}
if inUpgradeBlock && (trimmed == "" || strings.HasPrefix(trimmed, "Number of")) {
if !strings.HasPrefix(trimmed, "Number of") {
inUpgradeBlock = false
}
}
}
return packages
}
// SendSessionData schickt Tunnel-Daten als Binary-Message zurueck zum Backend
func (h *Handler) SendSessionData(sessionID string, data []byte) error { func (h *Handler) SendSessionData(sessionID string, data []byte) error {
idBytes := []byte(sessionID) idBytes := []byte(sessionID)
if len(idBytes) > 255 { if len(idBytes) > 255 {

View File

@ -12,6 +12,10 @@ import (
func (h *Handler) setupTunnelRoutes(mux *http.ServeMux, hub *ws.Hub) { func (h *Handler) setupTunnelRoutes(mux *http.ServeMux, hub *ws.Hub) {
// Command-Endpoints // Command-Endpoints
mux.HandleFunc("POST /api/v1/agents/{id}/exec", h.executeCommand(hub)) mux.HandleFunc("POST /api/v1/agents/{id}/exec", h.executeCommand(hub))
mux.HandleFunc("POST /api/v1/agents/{id}/update", h.agentUpdate(hub))
mux.HandleFunc("POST /api/v1/agents/{id}/major-update", h.agentMajorUpdate(hub))
mux.HandleFunc("POST /api/v1/agents/{id}/update-check", h.agentUpdateCheck(hub))
mux.HandleFunc("POST /api/v1/agents/{id}/reboot", h.agentReboot(hub))
mux.HandleFunc("POST /api/v1/agents/{id}/tunnel", h.openTunnel(hub)) mux.HandleFunc("POST /api/v1/agents/{id}/tunnel", h.openTunnel(hub))
mux.HandleFunc("DELETE /api/v1/agents/{id}/tunnel/{tunnel_id}", h.closeTunnel(hub)) mux.HandleFunc("DELETE /api/v1/agents/{id}/tunnel/{tunnel_id}", h.closeTunnel(hub))
mux.HandleFunc("GET /api/v1/agents/{id}/tunnels", h.listTunnels(hub)) mux.HandleFunc("GET /api/v1/agents/{id}/tunnels", h.listTunnels(hub))
@ -178,6 +182,117 @@ func (h *Handler) httpProxy(hub *ws.Hub) http.HandlerFunc {
} }
} }
// --- Update Commands ---
func (h *Handler) agentUpdateCheck(hub *ws.Hub) http.HandlerFunc {
return h.sendAgentCommand(hub, "update_check", nil, 120)
}
func (h *Handler) agentUpdate(hub *ws.Hub) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
agentID := r.PathValue("id")
var req struct {
Reboot bool `json:"reboot"`
}
json.NewDecoder(r.Body).Decode(&req)
params := map[string]interface{}{
"reboot": req.Reboot,
}
h.sendCommandAndWait(hub, agentID, "update", params, 900, w)
}
}
func (h *Handler) agentMajorUpdate(hub *ws.Hub) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
agentID := r.PathValue("id")
var req struct {
Version string `json:"version"`
Reboot bool `json:"reboot"`
}
if err := json.NewDecoder(r.Body).Decode(&req); err != nil || req.Version == "" {
writeError(w, http.StatusBadRequest, "Parameter 'version' erforderlich (z.B. '26.7')")
return
}
params := map[string]interface{}{
"version": req.Version,
"reboot": req.Reboot,
}
h.sendCommandAndWait(hub, agentID, "major_update", params, 1200, w)
}
}
func (h *Handler) agentReboot(hub *ws.Hub) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
agentID := r.PathValue("id")
var req struct {
Delay int `json:"delay"`
}
json.NewDecoder(r.Body).Decode(&req)
params := map[string]interface{}{}
if req.Delay > 0 {
params["delay"] = req.Delay
}
h.sendCommandAndWait(hub, agentID, "reboot", params, 30, w)
}
}
// sendAgentCommand erstellt einen einfachen Command-Handler ohne Request-Body
func (h *Handler) sendAgentCommand(hub *ws.Hub, command string, params map[string]interface{}, timeoutSec int) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
agentID := r.PathValue("id")
h.sendCommandAndWait(hub, agentID, command, params, timeoutSec, w)
}
}
// sendCommandAndWait schickt ein Command an den Agent und wartet auf Response
func (h *Handler) sendCommandAndWait(hub *ws.Hub, agentID, command string, params map[string]interface{}, timeoutSec int, w http.ResponseWriter) {
if !hub.IsAgentConnected(agentID) {
writeError(w, http.StatusServiceUnavailable, "Agent nicht verbunden")
return
}
cmdID := generateID()
cmd := map[string]interface{}{
"type": "command",
"id": cmdID,
"command": command,
}
if params != nil {
cmd["params"] = params
}
// Response-Channel registrieren
responseCh := hub.RegisterResponseWaiter(cmdID)
defer hub.UnregisterResponseWaiter(cmdID)
cmdJSON, _ := json.Marshal(cmd)
if err := hub.SendToAgent(agentID, cmdJSON); err != nil {
log.Printf("Command '%s' senden fehlgeschlagen: %v", command, err)
writeError(w, http.StatusInternalServerError, "Command senden fehlgeschlagen")
return
}
log.Printf("Command '%s' (ID: %s) an Agent %s gesendet, warte auf Response...", command, cmdID, agentID)
// Auf Response warten
select {
case resp := <-responseCh:
writeJSON(w, http.StatusOK, resp)
case <-time.After(time.Duration(timeoutSec) * time.Second):
writeError(w, http.StatusGatewayTimeout, "Timeout: Agent hat nicht rechtzeitig geantwortet")
}
}
func (h *Handler) hubStatus(hub *ws.Hub) http.HandlerFunc { func (h *Handler) hubStatus(hub *ws.Hub) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) { return func(w http.ResponseWriter, r *http.Request) {
stats := hub.GetAgentStats() stats := hub.GetAgentStats()

View File

@ -22,14 +22,19 @@ type Hub struct {
broadcast chan []byte broadcast chan []byte
tunnelManager *TunnelManager tunnelManager *TunnelManager
// Response-Waiters: Command-ID -> Response-Channel
responseWaiters map[string]chan map[string]interface{}
waitersMux sync.RWMutex
} }
func NewHub() *Hub { func NewHub() *Hub {
hub := &Hub{ hub := &Hub{
agents: make(map[string]*AgentConnection), agents: make(map[string]*AgentConnection),
register: make(chan *AgentConnection), register: make(chan *AgentConnection),
unregister: make(chan *AgentConnection), unregister: make(chan *AgentConnection),
broadcast: make(chan []byte, 256), broadcast: make(chan []byte, 256),
responseWaiters: make(map[string]chan map[string]interface{}),
} }
hub.tunnelManager = NewTunnelManager(hub) hub.tunnelManager = NewTunnelManager(hub)
@ -193,6 +198,22 @@ func (h *Hub) cleanupInactiveAgents() {
} }
} }
// RegisterResponseWaiter registriert einen Channel fuer eine Command-Response
func (h *Hub) RegisterResponseWaiter(cmdID string) chan map[string]interface{} {
ch := make(chan map[string]interface{}, 1)
h.waitersMux.Lock()
h.responseWaiters[cmdID] = ch
h.waitersMux.Unlock()
return ch
}
// UnregisterResponseWaiter entfernt einen Response-Waiter
func (h *Hub) UnregisterResponseWaiter(cmdID string) {
h.waitersMux.Lock()
delete(h.responseWaiters, cmdID)
h.waitersMux.Unlock()
}
// GetTunnelManager gibt den TunnelManager zurück (für API-Handler) // GetTunnelManager gibt den TunnelManager zurück (für API-Handler)
func (h *Hub) GetTunnelManager() *TunnelManager { func (h *Hub) GetTunnelManager() *TunnelManager {
return h.tunnelManager return h.tunnelManager
@ -245,10 +266,38 @@ func (h *Hub) ProcessAgentMessage(agentID string, messageType int, data []byte)
return nil // Ignorieren wenn nicht parsebar return nil // Ignorieren wenn nicht parsebar
} }
// Tunnel-Connect Responses verarbeiten if msg.Type == "response" {
if msg.Type == "response" && msg.Status == "ok" && msg.Data != nil { // Tunnel-Connect Responses verarbeiten
if sessionID, ok := msg.Data["session_id"].(string); ok { if msg.Status == "ok" && msg.Data != nil {
h.tunnelManager.ConfirmSession(sessionID) if sessionID, ok := msg.Data["session_id"].(string); ok {
h.tunnelManager.ConfirmSession(sessionID)
}
}
// Response an wartende API-Handler weiterleiten
if msg.ID != "" {
h.waitersMux.RLock()
ch, exists := h.responseWaiters[msg.ID]
h.waitersMux.RUnlock()
if exists {
resp := map[string]interface{}{
"status": msg.Status,
"data": msg.Data,
}
if msg.Status == "error" {
var errMsg struct {
Error string `json:"error"`
}
json.Unmarshal(data, &errMsg)
resp["error"] = errMsg.Error
}
select {
case ch <- resp:
default:
}
}
} }
} }