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edgeguard-native/internal/handlers/system.go
Debian ca03e69637 feat: Network/IP-Verwaltung + Mailguard-Design-Übernahme 
Backend:
* Migration 0009_networks: network_interfaces (ethernet|vlan|bond|
  bridge|wireguard, role wan|lan|dmz|mgmt|cluster, parent + vlan_id
  für VLANs) + ip_addresses (interface_id FK, address+prefix, is_vip
  + vip_priority für Cluster-Failover-VIPs).
* Repos services/networkifs + services/ipaddresses + Models +
  Handler /api/v1/network-interfaces (CRUD + /:id/ip-addresses)
  und /api/v1/ip-addresses (CRUD).
* /api/v1/system/interfaces refactored auf Go-natives net.Interfaces()
  statt `ip -j addr show` shell-out — die systemd-Sandbox blockt
  AF_NETLINK auch für Go's runtime, deswegen edgeguard-api.service
  RestrictAddressFamilies um AF_NETLINK ergänzt. Output-Shape
  bleibt identisch (ifindex, ifname, flags[], mtu, link_type,
  address, addr_info[]) — Frontend muss nicht angepasst werden.

Frontend:
* Networks-Page (/networks): "System-discovered Interfaces"
  read-only Tags-Card oben, deklarierte Interfaces unten als
  Tabelle mit Modal-CRUD; Type-Switch zeigt parent+vlan_id-Felder
  bei type=vlan; Role-Tags farbig (wan blau, lan grün, dmz orange,
  mgmt purple, cluster magenta).
* IPAddresses-Page (/ip-addresses): Tabelle pro Interface, VIP-
  Toggle blendet vip_priority-Eingabe ein. Goldenes VIP-Tag in der
  Liste.
* Sidebar erweitert um Networks + IP-Adressen + section-grouping.

Design 1:1 von mail-gateway/management-ui/ übernommen:
* enterprise.css verbatim (Inter-Font via Google CDN statt local
  woff2), Sidebar 240px dunkler Gradient #0B1426→#101D33→#0D1829,
  branding-accent #1677ff für Active-State, abgerundete Cards mit
  shadow-Token, Header weiß mit subtilem backdrop-filter.
* AntD-Theme-Tokens: colorPrimary #0EA5E9, fontSize 13, fontFamily
  'Inter', controlHeight 34, borderRadius 6.
* Layout-Komponenten neu strukturiert: AppLayout/Sidebar/Header
  matchen mailguard-Klassen-Naming (.app-layout, .main-content,
  .sidebar-section, .sidebar-menu-item.active, .header-left, …).
* Sidebar mit 4 Sektionen (Übersicht / Routing / Netzwerk / System)
  + Logo-Header + Versions-Footer.

Live-deployed auf 89.163.205.6: Networks-Endpoint listet eth0
(89.163.205.6/24, MAC bc:24:11:64:29:e8) + lo, frontend zeigt sie
als System-Tags in der Networks-Page.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-09 16:08:44 +02:00

247 lines
6.7 KiB
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package handlers
import (
"log/slog"
"net"
"net/http"
"os"
"os/exec"
"regexp"
"strings"
"syscall"
"github.com/gin-gonic/gin"
"git.netcell-it.de/projekte/edgeguard-native/internal/handlers/response"
)
// SystemHandler covers /system/health, /system/package-versions and
// /system/upgrade. Wired from day 1 because the management UI carries
// an update banner that polls package-versions.
type SystemHandler struct {
Version string
}
func NewSystemHandler(version string) *SystemHandler {
return &SystemHandler{Version: version}
}
func (h *SystemHandler) Register(rg *gin.RouterGroup) {
g := rg.Group("/system")
g.GET("/health", h.Health)
g.GET("/package-versions", h.PackageVersions)
g.POST("/upgrade", h.Upgrade)
g.GET("/interfaces", h.Interfaces)
}
func (h *SystemHandler) Health(c *gin.Context) {
response.OK(c, gin.H{
"status": "ok",
"version": h.Version,
})
}
// PackageVersions reports installed and available versions for the
// edgeguard-* APT packages. Called by the UI's update banner — it
// polls every few minutes and lights up when available > installed.
//
// `apt-get update -qq` is fired first (best-effort, no error if it
// fails — we'd still return the cached candidate). Then `apt-cache
// policy` is parsed for each package.
func (h *SystemHandler) PackageVersions(c *gin.Context) {
_ = exec.Command("apt-get", "update", "-qq").Run()
out := map[string]string{}
for _, pkg := range []string{"edgeguard-api", "edgeguard-ui", "edgeguard"} {
raw, err := exec.Command("apt-cache", "policy", pkg).CombinedOutput()
if err != nil {
out[pkg+"_installed"] = ""
out[pkg+"_available"] = ""
continue
}
installed, candidate := parseAptPolicy(string(raw))
out[pkg+"_installed"] = installed
out[pkg+"_available"] = candidate
}
response.OK(c, out)
}
// Upgrade runs the apt upgrade detached via systemd-run so the API
// can reply BEFORE the package replaces it. Pattern from netcell-
// webpanel/management-agent/internal/handlers/update.go (see
// architecture.md §11). Without --collect on a transient service
// unit, the apt-get child dies when systemd-cleans up the scope as
// the API exits — leaves the box half-upgraded.
func (h *SystemHandler) Upgrade(c *gin.Context) {
slog.Info("starting package upgrade (detached)")
const script = `#!/bin/bash
set -e
sleep 2
export DEBIAN_FRONTEND=noninteractive
echo "[upgrade] dpkg --configure -a"
dpkg --configure -a || true
echo "[upgrade] apt-get update"
apt-get update -qq
echo "[upgrade] apt-get install -y edgeguard-api edgeguard-ui edgeguard"
apt-get install -y -qq -o Dpkg::Options::=--force-confold edgeguard-api edgeguard-ui edgeguard
echo "[upgrade] complete"
rm -f /tmp/edgeguard-upgrade.sh
`
if err := os.WriteFile("/tmp/edgeguard-upgrade.sh", []byte(script), 0o755); err != nil {
response.Internal(c, err)
return
}
const unitName = "edgeguard-upgrade.service"
_ = exec.Command("systemctl", "reset-failed", unitName).Run()
cmd := exec.Command("systemd-run",
"--unit="+unitName,
"--description=EdgeGuard self-upgrade",
"--collect",
"bash", "/tmp/edgeguard-upgrade.sh")
if err := cmd.Run(); err != nil {
// systemd-run unavailable (dev env) — fall back to setsid
fallback := exec.Command("setsid", "bash", "/tmp/edgeguard-upgrade.sh")
fallback.SysProcAttr = &syscall.SysProcAttr{Setpgid: true}
if err2 := fallback.Start(); err2 != nil {
response.Internal(c, err2)
return
}
_ = fallback.Process.Release()
}
c.JSON(http.StatusAccepted, response.Envelope{
Data: gin.H{"status": "upgrading", "unit": unitName},
Error: nil,
Message: "Upgrade gestartet",
})
}
// addrInfo + interfaceInfo mirror the relevant subset of `ip -j addr
// show` so the frontend keeps its existing parsing code.
type addrInfo struct {
Family string `json:"family"` // "inet" | "inet6"
Local string `json:"local"`
PrefixLen int `json:"prefixlen"`
}
type interfaceInfo struct {
IfIndex int `json:"ifindex"`
IfName string `json:"ifname"`
Flags []string `json:"flags"`
MTU int `json:"mtu"`
LinkType string `json:"link_type,omitempty"`
Address string `json:"address,omitempty"`
AddrInfo []addrInfo `json:"addr_info"`
}
// Interfaces enumerates the kernel-side network interfaces using
// Go's net.Interfaces() — no shell-out, no AF_NETLINK exception
// in the systemd hardening required (the original `ip -j addr`
// approach was blocked by RestrictAddressFamilies).
//
// Output shape mirrors `ip -j addr show` enough for the UI's
// Networks "system-discovered" card.
func (h *SystemHandler) Interfaces(c *gin.Context) {
ifaces, err := net.Interfaces()
if err != nil {
slog.Warn("system/interfaces: net.Interfaces failed", "error", err)
response.OK(c, gin.H{"interfaces": []interfaceInfo{}})
return
}
out := make([]interfaceInfo, 0, len(ifaces))
for _, ifc := range ifaces {
info := interfaceInfo{
IfIndex: ifc.Index,
IfName: ifc.Name,
MTU: ifc.MTU,
Address: ifc.HardwareAddr.String(),
LinkType: classifyLinkType(ifc),
Flags: flagsToList(ifc.Flags),
AddrInfo: []addrInfo{},
}
addrs, err := ifc.Addrs()
if err != nil {
out = append(out, info)
continue
}
for _, a := range addrs {
ipnet, ok := a.(*net.IPNet)
if !ok {
continue
}
family := "inet"
if ipnet.IP.To4() == nil {
family = "inet6"
}
ones, _ := ipnet.Mask.Size()
info.AddrInfo = append(info.AddrInfo, addrInfo{
Family: family,
Local: ipnet.IP.String(),
PrefixLen: ones,
})
}
out = append(out, info)
}
response.OK(c, gin.H{"interfaces": out})
}
func classifyLinkType(ifc net.Interface) string {
if ifc.Flags&net.FlagLoopback != 0 {
return "loopback"
}
if len(ifc.HardwareAddr) > 0 {
return "ether"
}
return ""
}
func flagsToList(f net.Flags) []string {
var out []string
if f&net.FlagUp != 0 {
out = append(out, "UP")
}
if f&net.FlagBroadcast != 0 {
out = append(out, "BROADCAST")
}
if f&net.FlagLoopback != 0 {
out = append(out, "LOOPBACK")
}
if f&net.FlagPointToPoint != 0 {
out = append(out, "POINTOPOINT")
}
if f&net.FlagMulticast != 0 {
out = append(out, "MULTICAST")
}
if f&net.FlagRunning != 0 {
out = append(out, "LOWER_UP")
}
return out
}
// parseAptPolicy extracts "Installed: x" and "Candidate: y" from
// apt-cache policy output. Both can be "(none)"; we normalise that to
// empty string.
var aptPolicyLine = regexp.MustCompile(`^\s+(Installed|Candidate):\s+(.+)\s*$`)
func parseAptPolicy(out string) (installed, candidate string) {
for _, line := range strings.Split(out, "\n") {
m := aptPolicyLine.FindStringSubmatch(line)
if m == nil {
continue
}
val := m[2]
if val == "(none)" {
val = ""
}
switch m[1] {
case "Installed":
installed = val
case "Candidate":
candidate = val
}
}
return installed, candidate
}
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