# Switch Configuration Guide — Omada SDN V6 **Version:** 3.0 **Last Updated:** 2026-04-24 **Status:** Production **Author:** Infrastructure Team **Maintainer:** NAP-DMS DevOps **Scope:** LCBP3 Network Infrastructure (SG3210X-M2 + SG2428P) --- ## Table of Contents 1. [Overview](#overview) 2. [VLAN Definitions](#vlan-definitions) 3. [Port Profiles](#port-profiles) 4. [VLAN Mapping](#vlan-mapping) 5. [Network Diagram](#network-diagram) 6. [Configuration Procedure](#configuration-procedure) 7. [Change Log](#change-log) 8. [Quick Reference](#quick-reference--edit-port-values) 9. [Pre-Deployment Checklist](#pre-deployment-checklist) 10. [Testing Guide](#testing-guide--vlan--lacp--stp) 11. [Security & Optimization](#security--optimization-recommended) 12. [Related Documents](#related-documents) --- ## Overview เอกสารนี้กำหนด Port Profile templates และ VLAN mapping configuration สำหรับ LCBP3 network infrastructure โดยใช้ TP-Link Omada SDN V6 Controller (OC200) **Audience:** Network Administrator, DevOps Engineer **Prerequisites:** Omada SDN Controller v6.x, สิทธิ์ Admin บน OC200 **Related ADRs:** ADR-016 (Security), ADR-009 (Database Strategy — ถ้ามี Network DB) ### Network Equipment | Device | Model | Role | |--------|-------|------| | Core Switch | SG3210X-M2 | 10G Core Switch | | Access Switch | SG2428P | PoE Access Switch | | NAS Storage | QNAP / ASUSTOR | Network Attached Storage | | Unmanaged Switch 1 | TL-SG1210P | IP Phone + PC | | Unmanaged Switch 2 | TL-SL1226P | CCTV | | Wireless AP | EAP610 | Wi-Fi Access Points | | Router | ER7206 | Edge Router | ### Configuration Concepts **Port Profile** — Template defining port-level settings (STP Security, Loopback Control, Multicast Fast Leave, Flow Control, EEE, LLDP-MED, PoE). Port Profiles do NOT contain VLAN configuration. **Edit Port** — VLAN assignment step where Native Network (Untagged), Tagged Network, and Voice Network are configured, and a Port Profile is applied. --- ## 🧠 Key Concepts (Before Using This Config) - ใช้ **STP เท่านั้น (เลิก Loop Detection)** — Spanning Tree Protocol สำหรับ loop prevention - **Harden Access Port ด้วย BPDU Guard** — ป้องกันการเสียบ switch โดยไม่ได้รับอนุญาต - **กัน Rogue Switch ด้วย Root Guard** — ป้องกัน switch เถื่อนยึด root bridge - **ทำ Trunk ให้ clean + predictable** — Native VLAN 999 สำหรับทุก trunk port - **เผื่อ future VLAN expansion** — รองรับ VLAN เพิ่มเติมในอนาคต - **VLAN 999 (was 99)** — เปลี่ยนจาก VLAN 99 เป็น 999 เพื่อความปลอดภัย --- ## VLAN Definitions | VLAN ID | Name | Purpose | Subnet | Gateway | DHCP Range | |---------|------|---------|--------|---------|-------------| | 10 | NAS-ADMIN | NAS Storage & Admin Desktop | 192.168.10.0/24 | 192.168.10.1 | 192.168.10.50–199 | | 20 | MGMT | Network Management (OC200) | 192.168.20.0/24 | 192.168.20.1 | 192.168.20.50–199 | | 30 | USERS | User PCs, Printers, Staff WiFi | 192.168.30.0/24 | 192.168.30.1 | 192.168.30.50–199 | | 40 | CCTV | CCTV Cameras, IoT Devices | 192.168.40.0/24 | 192.168.40.1 | 192.168.40.50–199 | | 50 | VOICE | IP Phones | 192.168.50.0/24 | 192.168.50.1 | 192.168.50.50–199 | | 70 | GUEST | Guest WiFi | 192.168.70.0/24 | 192.168.70.1 | 192.168.70.50–199 | | 999 | NATIVE | Trunk Native VLAN (No DHCP) — Hardened | — | — | — | | 60 | UNUSED | Reserved for future use | — | — | — | --- ## Port Profiles ### Profile 1 — 001-CORE-TRUNK-LACP 🔷 **Purpose:** LACP trunk links between Core and Access switches / Router **Applied To:** - SG3210X-M2 Port 1–2 (to SG2428P Port 21–22) - SG3210X-M2 Port 9 (to ER7206) - SG2428P Port 21–22 (to SG3210X-M2 Port 1–2) **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Loop Protect: ENABLE - Root Protect: DISABLE - TC Guard: DISABLE - BPDU Guard: DISABLE - BPDU Filter: DISABLE General: - Flow Control: ON - EEE: OFF - Port Isolation: OFF ``` 📌 **ใช้กับ:** Core ↔ Access, Core ↔ Router --- ### Profile 2 — 002-NAS-LACP 🔷 **Purpose:** LACP links to NAS storage devices (QNAP / ASUSTOR) **Applied To:** - SG3210X-M2 Port 3–4 (to QNAP) - SG3210X-M2 Port 5–6 (to ASUSTOR) **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Loop Protect: ENABLE - Root Protect: DISABLE - BPDU Guard: DISABLE General: - Flow Control: ON - EEE: OFF ``` ⚠️ **เหตุผล:** NAS บางรุ่นส่ง BPDU แปลก ๆ → ห้ามเปิด BPDU Guard --- ### Profile 3 — 003-UNMANAGED-SWITCH 🔷⭐ (สำคัญมาก) **Purpose:** Downstream links to unmanaged switches — ป้องกัน Rogue Switch **Applied To:** - SG2428P Port 25 (to TL-SL1226P — CCTV) - SG2428P Port 26 (to TL-SG1210P — IP Phone + PC) **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Root Protect: ENABLE 🔥 - Loop Protect: ENABLE - BPDU Guard: DISABLE - TC Guard: DISABLE General: - Flow Control: ON - EEE: OFF ``` 📌 **ป้องกัน:** เสียบ switch เถื่อน → ยึด root ไม่ได้ --- ### Profile 4 — 004-AP-TRUNK 🔷 **Purpose:** Trunk links to wireless access points (EAP610) **Applied To:** - SG2428P Port 1–16 (to EAP610) **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Edge Port: ENABLE - BPDU Guard: ENABLE 🔥 (optional แต่แนะนำ) - Loop Protect: DISABLE General: - Flow Control: ON - EEE: OFF ``` 📌 **หมายเหตุ:** AP ไม่ควรส่ง BPDU → เปิด guard ได้ --- ### Profile 5 — 005-VOICE-ONLY 🔷 **Purpose:** Direct connections to IP phones **Applied To:** - SG2428P Port 17–18 (to IP Phone) **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Edge Port: ENABLE - BPDU Guard: ENABLE 🔥 General: - LLDP-MED: ENABLE - Flow Control: ON ``` --- ### Profile 6 — 006-ACCESS-PC 🔷⭐ **Purpose:** Direct connections to PCs and printers — Hardened Access Port **Applied To:** - SG2428P Port 23 (to Printer) - SG3210X-M2 Port 8 (to Admin Desktop) - General PC connections **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Edge Port: ENABLE - BPDU Guard: ENABLE 🔥🔥🔥 (สำคัญสุด) General: - Flow Control: ON - EEE: OFF ``` 📌 **ถ้ามีคนเสียบ switch:** → Port จะ shutdown ทันที --- ### Profile 7 — 007-DEFAULT-MGMT 🔷 **Purpose:** Default configuration for management ports **Applied To:** - Management ports - Ports requiring no special configuration **Configuration:** ```bash Loopback Control: Spanning Tree STP: - Edge Port: ENABLE - BPDU Guard: ENABLE General: - Default ``` --- ## VLAN Mapping 🔶 ### SG3210X-M2 (Core) Port Configuration | Port | Destination | Profile | Native (Untagged) | Tagged | Voice | |------|-------------|---------|-------------------|--------|-------| | 1-2 | SG2428P (LACP) | 001-CORE-TRUNK-LACP | 999 | 10,20,30,40,50,70 | Off | | 3-4 | QNAP (LACP) | 002-NAS-LACP | 10 | 20 🔥 | Off | | 5-6 | ASUSTOR (LACP) | 002-NAS-LACP | 10 | 20 🔥 | Off | | 7 | Reserved (future expansion) | 007-DEFAULT-MGMT | 999 | None | Off | | 8 | Admin Desktop | 006-ACCESS-PC | 10 | None | Off | | 9 | ER7206 | 001-CORE-TRUNK-LACP | 999 | 10,20,30,40,50,70 | Off | | 10 | Reserved (future expansion) | 007-DEFAULT-MGMT | 999 | None | Off | 📌 **NAS (Port 3-6) ปรับใหม่:** เพิ่ม Tagged VLAN 20 สำหรับ MGMT redundancy --- ### SG2428P (Access) Port Configuration | Port | Destination | Profile | Native (Untagged) | Tagged | Voice | |------|-------------|---------|-------------------|--------|-------| | 1-16 | EAP610 | 004-AP-TRUNK | 999 | 10,20,30,40,50,70 🔥 allow all | Off | | 17-18 | IP Phone | 005-VOICE-ONLY | 50 | None | Enable (VLAN 50) | | 19-20 | Reserved (future expansion) | 007-DEFAULT-MGMT | 999 | None | Off | | 21-22 | SG3210X-M2 (LACP) | 001-CORE-TRUNK-LACP | 999 | 10,20,30,40,50,70 | Off | | 23 | Printer | 006-ACCESS-PC | 30 | None | Off | | 24 | OC200 | 007-DEFAULT-MGMT | 20 | None | Off | | 25 | TL-SL1226P (CCTV) | 003-UNMANAGED-SWITCH | 40 | None | Off | | 26 | TL-SG1210P (IP Phone + PC) | 003-UNMANAGED-SWITCH | 30 | 50 | Enable (VLAN 50) | | 27-28 | Reserved (future expansion) | 007-DEFAULT-MGMT | 999 | None | Off | 📌 **AP Ports (1-16) ปรับใหม่:** Allow all VLANs สำหรับ future expansion --- ## Network Diagram ``` ┌──────────────┐ │ ER7206 │ │ (Trunk 999) │ └──────┬───────┘ │ ▼ ┌──────────────────────────┐ │ SG3210X-M2 (Core) │ │ [Root Bridge 4096] │ └──────────────────────────┘ LACP 1-2 / | | | | \ Reserved / | | | | \ ▼ ▼ ▼ ▼ ▼ ▼ SG2428P (Access) QNAP ASUSTOR Admin Reserved [Priority 8192] (VLAN10+20) (VLAN10+20) (VLAN10) (AP 1–16 Trunk) Uplink SG3210X‑M2 (1–2) ↔ SG2428P (21–22) WiFi Staff → VLAN 30 WiFi Guest → VLAN 70 CCTV → VLAN 40 IP Phone → VLAN 50 Printer → VLAN 30 Admin Desktop → VLAN 10 NAS → VLAN 10 (+20 MGMT) OC200 → VLAN 20 ``` --- ## Configuration Procedure ### Step 1 — Create Port Profiles 1. Navigate to Omada SDN Controller → Port Profiles 2. Create each profile listed in the Port Profiles section 3. Configure all settings as specified 4. **Do not configure VLANs in Port Profiles** (VLANs are configured in Edit Port) ### Step 2 — Configure Port VLANs 1. Navigate to Omada SDN Controller → Switches → Edit Port 2. For each port, configure: - **Native Network (Untagged)** — The access VLAN for untagged traffic - **Tagged Network** — VLANs allowed on the trunk (comma-separated) - **Voice Network** — Voice VLAN (if applicable) - **Profile** — Select the appropriate Port Profile from Step 1 3. Apply configuration per the VLAN Mapping tables --- ## Change Log | Version | Date | Changes | |---------|------|---------| | 3.0 | 2026-04-24 | **FINAL VERSION** — STP-only (no Loop Detection), BPDU Guard on access ports, Root Guard on unmanaged switch ports, VLAN 99→999, NAS with MGMT redundancy (VLAN 20 tagged), AP allow-all VLANs, Security Hardening section | | 2.0 | 2026-04-24 | Updated port mappings (LACP 21-22), new VLAN scheme (30/40/50/70), consolidated CCTV/IoT to VLAN 40, added DHCP table, renamed PC-ONLY to ACCESS-PC | | 1.0 | 2026-04-23 | Initial version with basic port profiles and VLAN mapping | --- ## Quick Reference — Edit Port Values ### SG3210X-M2 | Port | Native | Tagged | Profile | Voice | |------|--------|--------|---------|-------| | 1-2 | 999 | 10,20,30,40,50,70 | 001-CORE-TRUNK-LACP | Off | | 3-4 | 10 | 20 | 002-NAS-LACP | Off | | 5-6 | 10 | 20 | 002-NAS-LACP | Off | | 7 | 999 | — | 007-DEFAULT-MGMT | Off | | 8 | 10 | — | 006-ACCESS-PC | Off | | 9 | 999 | 10,20,30,40,50,70 | 001-CORE-TRUNK-LACP | Off | | 10 | 999 | — | 007-DEFAULT-MGMT | Off | ### SG2428P | Port | Native | Tagged | Profile | Voice | |------|--------|--------|---------|-------| | 1-16 | 999 | 10,20,30,40,50,70 | 004-AP-TRUNK | Off | | 17-18 | 50 | — | 005-VOICE-ONLY | 50 | | 19-20 | 999 | — | 007-DEFAULT-MGMT | Off | | 21-22 | 999 | 10,20,30,40,50,70 | 001-CORE-TRUNK-LACP | Off | | 23 | 30 | — | 006-ACCESS-PC | Off | | 24 | 20 | — | 007-DEFAULT-MGMT | Off | | 25 | 40 | — | 003-UNMANAGED-SWITCH | Off | | 26 | 30 | 50 | 003-UNMANAGED-SWITCH | 50 | | 27-28 | 999 | — | 007-DEFAULT-MGMT | Off | --- ## Pre-Deployment Checklist ก่อน Apply ค่า Configuration: - [ ] สร้าง VLANs 10, 20, 30, 40, 50, 70, 999 ใน Omada Controller (VLAN 999 = Hardened Native) - [ ] สร้าง Port Profiles 001–007 ครบถ้วน (STP Mode — ไม่ใช้ Loop Detection) - [ ] ตรวจสอบ LACP Group Configuration (Port 1-2 ↔ Port 21-22) - [ ] ตั้งค่า DHCP Server ตามตาราง VLAN Definitions - [ ] ตรวจสอบว่า OC200 อยู่บน VLAN 20 และมี IP 192.168.20.x - [ ] ตรวจสอบ Voice VLAN Enable บน Port 17-18 และ 26 - [ ] กำหนด STP Priority: Core=4096, Access=8192 - [ ] สำรอง Configuration ปัจจุบันก่อน Apply --- # Testing Guide — VLAN + LACP + STP การทดสอบทีละ Layer โดยไม่ต้องใช้เครื่องมือพิเศษ — ใช้แค่ PC + ping + OC200 UI --- ## PART 1 — Testing VLAN (Step-by-Step) ### Goal - ตรวจสอบว่าแต่ละพอร์ตอยู่ VLAN ถูกต้อง - ตรวจสอบว่า Tagged/Untagged ทำงาน - ตรวจสอบว่า DHCP แจก IP ถูก subnet - ตรวจสอบว่า WiFi → VLAN ถูกต้อง --- ### STEP 1 — Test VLAN 10 (NAS-ADMIN) **Test Equipment:** - Admin Desktop (Port 8 SG3210X-M2) - QNAP / ASUSTOR **Procedure:** 1. Connect Admin Desktop → Port 8 2. Open Command Prompt 3. Type: ``` ipconfig ``` 4. Expected IP range: ``` 192.168.10.x ``` **Ping Tests:** ``` ping 192.168.10.1 ← Gateway ping ping ``` **Expected Result:** - All pings successful - Should NOT ping to VLAN 30/40/50/70 (if ACL configured) --- ### STEP 2 — Test VLAN 30 (USERS) **Test Equipment:** - General PC - Printer - Staff WiFi (SSID: Staff) **Procedure:** 1. Connect PC → Port 23 or Port 26 (via TL-SG1210P) 2. Type: ``` ipconfig ``` 3. Expected IP: ``` 192.168.30.x ``` **Ping Tests:** ``` ping 192.168.30.1 ping ``` **WiFi Staff Test:** 1. Connect to SSID Staff 2. Type: ``` ipconfig ``` 3. Expected IP: 192.168.30.x --- ### STEP 3 — Test VLAN 40 (CCTV/IoT) **Test Equipment:** - CCTV Camera (via TL-SL1226P Port 25) **Procedure:** 1. Open OC200 → Clients 2. Camera must show as VLAN 40 3. Test ping from Admin Desktop: ``` ping ``` **Expected Result:** - Ping successful - DHCP must assign IP 192.168.40.x --- ### STEP 4 — Test VLAN 50 (VOICE) **Test Equipment:** - IP Phone (Port 17–18 SG2428P) **Procedure:** 1. IP Phone boots up 2. Expected IP: ``` 192.168.50.x ``` 3. In OC200 → Clients, must see Voice VLAN 50 **LLDP-MED Test:** In OC200 → Switch → Port 17–18, must see: ``` LLDP-MED: Active Voice VLAN: 50 ``` --- ### STEP 5 — Test VLAN 70 (Guest WiFi) **Procedure:** 1. Connect to SSID Guest 2. Type: ``` ipconfig ``` 3. Expected IP: ``` 192.168.70.x ``` **Isolation Test:** ``` ping 192.168.30.1 ← Must NOT pass ping 192.168.10.1 ← Must NOT pass ``` --- ## PART 2 — Testing LACP (Step-by-Step) ### Goal - ตรวจสอบว่า LACP ระหว่าง SG3210X-M2 ↔ SG2428P ทำงาน - ตรวจสอบว่า QNAP/ASUSTOR LACP ทำงาน - ตรวจสอบว่าไม่มี Mis-config --- ### STEP 1 — Check LACP Status in OC200 **Path:** Insight → Switch → LAG Status Expected status: **SG3210X-M2:** - LAG1 (Port 1–2) → **Up** - LAG2 (Port 3–4) → **Up** - LAG3 (Port 5–6) → **Up** **SG2428P:** - LAG1 (Port 21–22) → **Up** --- ### STEP 2 — Test Load Balancing **Procedure:** 1. Open QNAP → File Station 2. Copy large file (10–20GB) to Admin Desktop 3. Open Task Manager → Performance → Ethernet 4. Must see traffic on both links (Port 3–4 or 5–6) **Uplink Test:** 1. Run Speedtest between PC VLAN 30 → NAS VLAN 10 2. Must achieve > 1Gbps (if 2Gbps LACP) --- ### STEP 3 — Test Failover **Procedure:** 1. Disconnect cable from **Port 1** of SG3210X-M2 2. LACP must remain **Up** (using Port 2) 3. Disconnect Port 2 → LACP must go Down Repeat test with QNAP/ASUSTOR --- ## PART 3 — Testing STP (Step-by-Step) ### Goal - ตรวจสอบว่าไม่มี Loop - ตรวจสอบว่า Root Bridge ถูกต้อง - ตรวจสอบว่า STP Security ทำงาน --- ### STEP 1 — Check Root Bridge **Path:** Devices → SG3210X-M2 → Ports → STP Expected: ``` SG3210X-M2 = Root Bridge ``` If not, adjust Priority: ``` SG3210X-M2 Priority = 4096 SG2428P Priority = 8192 ``` --- ### STEP 2 — Test Loop Detection **Safe Test Method:** 1. Go to TL-SG1210P (Port 26 SG2428P) 2. Create loop with LAN cable (Port 1 ↔ Port 2) 3. Check OC200 → Alerts Expected alert: ``` Loop Detected on Port 26 Port Shutdown (BPDU Protect) ``` Port must auto-shutdown --- ### STEP 3 — Test STP Blocking **Procedure:** 1. Connect cable from SG2428P Port 19 → SG2428P Port 20 2. Check OC200 → Switch → Ports Expected: ``` STP State: Blocking ``` --- ### STEP 4 — Test Topology Change (TC Guard) **Procedure:** 1. Power cycle AP (Port 1–16) 2. Check OC200 → Logs Expected: **NO** message: ``` Topology Change Detected ``` Because TC Guard is enabled --- ## PART 4 — Testing Checklist (SOP) ### VLAN Tests - [ ] VLAN 10 gets IP 192.168.10.x - [ ] VLAN 30 gets IP 192.168.30.x - [ ] VLAN 40 gets IP 192.168.40.x - [ ] VLAN 50 gets IP 192.168.50.x - [ ] VLAN 70 gets IP 192.168.70.x ### WiFi Tests - [ ] Staff WiFi → VLAN 30 - [ ] Guest WiFi → VLAN 70 ### Device Tests - [ ] CCTV → VLAN 40 - [ ] IP Phone → VLAN 50 - [ ] Printer → VLAN 30 - [ ] Admin Desktop → VLAN 10 - [ ] NAS → VLAN 10 - [ ] OC200 → VLAN 20 ### LACP Tests - [ ] LACP SG3210X-M2 ↔ SG2428P = Up - [ ] LACP QNAP = Up - [ ] LACP ASUSTOR = Up - [ ] Load balancing works (2Gbps) - [ ] Failover works (single link failure) ### STP Tests - [ ] Root Bridge = SG3210X-M2 (Priority 4096) - [ ] BPDU Guard shutdown test (เสียบ switch ที่ port PC → port ต้อง shutdown) - [ ] Root Guard works (003-UNMANAGED-SWITCH) - [ ] STP Blocking works - [ ] TC Guard works (no topology change on AP reboot) --- # 🔐 Security Hardening (ต้องทำเพิ่ม) Required security configurations for Enterprise-grade network protection. --- ## DHCP Snooping 🔥 ```bash Global: ENABLE Trusted Ports: - Uplink ไป Router (ER7206) - Core Trunk (Port 1-2, 9) ``` **Path:** Settings → Wired Networks → Switch → DHCP Snooping 1. Enable **DHCP Snooping** globally 2. Mark **Trusted Ports**: - SG3210X-M2 Port 9 (to ER7206) - SG3210X-M2 Port 1-2 (Core Trunk) - SG2428P Port 21-22 (Uplink to Core) 3. **Untrusted:** ทุก access port (จะถูก block ถ้าส่ง DHCP Offer) --- ## Storm Control (AP Ports) 🔥 ```bash Broadcast: 1% Multicast: 2% Unknown: 2% ``` **Path:** Settings → Wired Networks → Switch → Port Profile → 004-AP-TRUNK 1. Navigate to **Bandwidth Control / Storm Control** 2. Configure: - Broadcast: 1% (หรือ 1000 pps) - Multicast: 2% (หรือ 2000 pps) - Unknown Unicast: 2% (หรือ 2000 pps) 3. Save 📌 **หมายเหตุ:** ใช้ percentage หรือ pps ตามความเหมาะสมกับ traffic --- ## STP Priority (Root Bridge Election) 🔥 ```bash SG3210X-M2 (Core): 4096 SG2428P (Access): 8192 ``` **Path:** Devices → Switch → Config → STP → Priority 1. **SG3210X-M2:** Set Priority = **4096** (Root Bridge) 2. **SG2428P:** Set Priority = **8192** (Backup Root) 3. Save and verify: ``` OC200 → Topology → Root Bridge = SG3210X-M2 ``` 📌 **สำคัญ:** Core ต้องเป็น Root Bridge เสมอ --- ## Jumbo Frame 🔥 ```bash MTU: 9000 (ต้องตั้งทุก device ให้เท่ากัน) ``` ### SG3210X-M2 **Path:** Devices → SG3210X-M2 → Config → Switch Settings ``` Jumbo Frame: Enable MTU: 9000 ``` ### QNAP **Path:** Control Panel → Network & Virtual Switch → Interfaces ``` MTU: 9000 ``` ### ASUSTOR **Path:** Settings → Network → Interface → Advanced ``` Jumbo Frame: 9000 ``` ⚠️ **คำเตือน:** ถ้าตั้งไม่เท่ากันทุก device → จะมีปัญหา fragmentation หรือ packet drop --- ## 💥 Final Validation Checklist ### Connectivity Tests - [ ] LACP = UP ทุกเส้น (Core↔Access, NAS) - [ ] Root Bridge = Core Switch (SG3210X-M2 Priority 4096) - [ ] เสียบ switch ที่ port PC → port ต้อง shutdown (BPDU Guard) - [ ] WiFi ได้ VLAN ถูกต้อง (Staff=30, Guest=70) - [ ] NAS เข้าถึงได้ทั้ง VLAN 10 และ 20 - [ ] Guest VLAN เข้า LAN ไม่ได้ (isolation) ### Security Tests - [ ] DHCP Snooping blocks rogue DHCP - [ ] Storm Control limits broadcast - [ ] BPDU Guard shuts down unauthorized switches - [ ] Root Guard prevents rogue root bridge ### Performance Tests - [ ] Jumbo Frame works (MTU 9000 end-to-end) - [ ] LACP load balancing (2Gbps aggregate) - [ ] Failover works (single link failure) --- ## Related Documents - Network Architecture Design — `specs/02-architecture/02-03-network-design.md` - VLAN Scheme — See [VLAN Definitions](#vlan-definitions) section - IP Addressing Scheme — See DHCP table in [VLAN Definitions](#vlan-definitions) section - Security Guidelines — `specs/06-Decision-Records/ADR-016-security-authentication.md` - Release Policy — `specs/04-Infrastructure-OPS/04-08-release-management-policy.md` (สำหรับ network changes) --- ## Document Metadata | Property | Value | |----------|-------| | **Type** | Infrastructure Specification | | **Language** | Thai (explanations), English (technical terms) | | **Standards** | AGENTS.md v1.8.9 | | **Review Cycle** | Per release or on equipment change | | **Approval Required** | Yes — Infrastructure Lead + Security Review |