Module 3: VLANs Switching, Routing, and Wireless Essentials v7.0 (SRWE) Cisco Networking Academy Program Switching, Routing, and Wireless Essentials v7.0 (SRWE) Module 3: VLANs Module Objectives •Module Title: Protocols and Models •Module Objective: Explain how network protocols enable devices to access local and remote network resources. • • • Topic Title Topic Objective Overview of VLANs Explain the purpose of VLANs in a switched network. VLANs in a Multi-Switched Environment Explain how a switch forwards frames based on VLAN configuration in a multi-switch environment. VLAN Configuration Configure a switch port to be assigned to a VLAN based on requirements. VLAN Trunks Configure a trunk port on a LAN switch. Dynamic Trunking Protocol Configure Dynamic Trunking Protocol (DTP). 3 – VLANs 3.0 – Introduction 3.0.2 – What will I learn to do in this module? 3.1 Overview of VLANs 3 – VLANs 3.1 – Overview of VLANs VLAN Definitions •VLANs are logical connections with other similar devices. •Placing devices into various VLANs have the following characteristics: •Provides segmentation of the various groups of devices on the same switches •Provide organization that is more manageable •Broadcasts, multicasts and unicasts are isolated in the individual VLAN •Each VLAN will have its own unique range of IP addressing •Smaller broadcast domains 3 – VLANs 3.1 – Overview of VLANs 3.1.1 – VLAN Definitions Benefits of a VLAN Design •Benefits of using VLANs are as follows: Benefits Description Smaller Broadcast Domains Dividing the LAN reduces the number of broadcast domains Improved Security Only users in the same VLAN can communicate together Improved IT Efficiency VLANs can group devices with similar requirements, e.g. faculty vs. students Reduced Cost One switch can support multiple groups or VLANs Better Performance Small broadcast domains reduce traffic, improving bandwidth Simpler Management Similar groups will need similar applications and other network resources 3 – VLANs 3.1 – Overview of VLANs 3.1.2 – Benefits of a VLAN Design Types of VLANs •Default VLAN • VLAN 1 is the following: •The default VLAN •The default Native VLAN •The default Management VLAN •Cannot be deleted or renamed • •Note: While we cannot delete VLAN1 Cisco will recommend that we assign these default features to other VLANs https://www.youtube.com/watch?v=vE5gvbmR8jg 3 – VLANs 3.1 – Overview of VLANs 3.1.3 – Types of VLANs Types of VLANs (Cont.) •Data VLAN •Dedicated to user-generated traffic (email and web traffic). •VLAN 1 is the default data VLAN because all interfaces are assigned to this VLAN. •Native VLAN •This is used for trunk links only. •All frames are tagged on an 802.1Q trunk link except for those on the native VLAN. •Management VLAN •This is used for SSH/Telnet VTY traffic and should not be carried with end user traffic. •Typically, the VLAN that is the SVI for the Layer 2 switch. • • 3 – VLANs 3.1 – Overview of VLANs 3.1.3 – Types of VLANs (Cont.) 1.Komunikace zařízení bez 802.1Q 2.Přenos zpráv protokolů STP, VTP, CDP, LLDP 3.IP telefony Případy použití native VLAN Příklad nativní a nenativní VLANy https://www.youtube.com/watch?v=Fmq1E1Qr2W4 https://www.youtube.com/watch?v=zW_-mf6v3fs Types of VLANs (Cont.) •Voice VLAN •A separate VLAN is required because Voice traffic requires: •Assured bandwidth •High QoS priority •Ability to avoid congestion •Delay less that 150 ms from source to destination •The entire network must be designed to support voice. 3 – VLANs 3.1 – Overview of VLANs 3.1.3 – Types of VLANs (Cont.) •In this Packet Tracer activity, you will do the following: • •Observe Broadcast Traffic in a VLAN Implementation •Complete Review Questions 3 – VLANs 3.1 – Overview of VLANs 3.1.4 – Packet Tracer – Who Hears the Broadcast? 3.1.5 – Check Your Understanding – Overview of VLANs 3.2 VLANs in a Multi-Switched Environment 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment Defining VLAN Trunks •A trunk is a point-to-point link between two network devices. •Cisco trunk functions: •Allow more than one VLAN •Extend the VLAN across the entire network •By default, supports all VLANs •Supports 802.1Q trunking 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.1 – Defining VLAN Trunks Networks without VLANs •Without VLANs, all devices connected to the switches will receive all unicast, multicast, and broadcast traffic. 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.2 – Networks without VLANs Networks with VLANs •With VLANs, unicast, multicast, and broadcast traffic is confined to a VLAN. Without a Layer 3 device to connect the VLANs, devices in different VLANs cannot communicate. 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.3 – Networks with VLANs VLAN Identification with a Tag •The IEEE 802.1Q header is 4 Bytes •When the tag is created the FCS must be recalculated. •When sent to end devices, this tag must be removed and the FCS recalculated back to its original number. • 802.1Q VLAN Tag Field Function Type •2-Byte field with hexadecimal 0x8100 •This is referred to as Tag Protocol ID (TPID) User Priority •3-bit value that supports Canonical Format Identifier (CFI) •1-bit value that can support token ring frames on Ethernet VLAN ID (VID) •12-bit VLAN identifier that can support up to 4096 VLANs 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.4 – VLAN Identification with a Tag Tag a priorita – není rámec jako rámec Výřez obrazovky ‹#› © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential •https://help.sonicwall.com/help/sw/eng/7110/26/2/4/content/Firewall_Managing_QoS.088.3.html Nahlédnutí ke konkurenci Kdo určuje prioritu? Dopovězte! Virtuální LANy (převzato z překladu CCNP CORE) •Přidání routeru mezi segmenty LAN pomáhá zmenšit velikost kolizních domén. •Virtuální sítě LAN (VLANS) poskytují logickou segmentaci vytvořením více vysílacích domén na stejném síťovém přepínači. VLAN poskytují vyšší využití portů přepínače, protože port může být přidružen k potřebné vysílací doméně a více vysílacích domén může být umístěno na stejném přepínači. •VLANS jsou definovány ve standardu IEEE 802.1Q, který stanoví, že 32 bitů je přidáno do hlavičky paketu s následujícími poli: identifikátor protokolu protokolu (TPID – Tag Protocol Identifier), prioritní kódový bod (PCP – Priority Code Point), indikátor způsobilého poklesu (DEI - Drop Eligible Indicator, dříve CFI), a identifikátor VLAN (VLAN ID). Obsah obrázku stůl Popis byl vytvořen automaticky •Identifikátor, který říká v jakém pořadí je přenášen rámec. Může se přenášet •kanonickým tvarem (little endian), který se používá v Ethernetu, •nebo nekanonickým (big endian), který se používá v Token Ringu a FDDI. •A ty už se nepoužívají, takže je zbytečný •A používá se Drop Eligible Indicator. Canonical Format Indicator (CFI) Native VLANs and 802.1Q Tagging •802.1Q trunk basics: •Tagging is typically done on all VLANs. •The use of a native VLAN was designed for legacy use, like the hub in the example. •Unless changed, VLAN1 is the native VLAN. •Both ends of a trunk link must be configured with the same native VLAN. •Each trunk is configured separately, so it is possible to have a different native VLANs on separate trunks. 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.5 – Native VLANs and 802.1Q Tagging Voice VLAN Tagging •The VoIP phone is a three port switch: •The switch will use CDP to inform the phone of the Voice VLAN. •The phone will tag its own traffic (Voice) and can set Cost of Service (CoS). CoS is QoS for layer 2. •The phone may or may not tag frames from the PC. • Traffic Tagging Function Voice VLAN tagged with an appropriate Layer 2 class of service (CoS) priority value Access VLAN can also be tagged with a Layer 2 CoS priority value Access VLAN is not tagged (no Layer 2 CoS priority value) 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.6 – Voice VLAN Tagging Voice VLAN Verification Example •The show interfaces fa0/18 switchport command can show us both data and voice VLANs assigned to the interface. • 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.7 – Voice VLAN Verification Example •1. Switch spoofing – Síťový útočník nakonfiguruje systém, aby se jevil emulací signalizace ISL nebo 802.1q a DTP jako přepínač. Díky tomu se útočník zdá být přepínačem s hlavním portem, a proto členem všech sítí VLAN. • •2. Double tagging – Většina přepínačů dnes provádí pouze jednu úroveň dekapsulace. Když tedy první přepínač uvidí rámec se dvěma značkami, odstraní první značku z rámce a poté pošle s vnitřní značkou 802.1q na všechny porty přepínačů ve VLAN útočníka i na všechny hlavní porty. Druhý přepínač přeposílá paket na základě ID VLAN ve druhé hlavičce 802.1q. Tento typ útoku funguje, i když jsou trunk porty vypnuty. Útoky typu VLAN hopping Double tagging ‹#› © 2016 Cisco and/or its affiliates. All rights reserved. Cisco Confidential •SW1# •interface FastEthernet0/11 • switchport mode access • •interface FastEthernet0/24 • switchport trunk encapsulation dot1q • switchport mode trunk • switchport nonegotiate •SW2# •interface FastEthernet0/2 • switchport access vlan 20 • switchport mode access • •interface FastEthernet0/24 • switchport trunk encapsulation dot1q • switchport mode trunk • •>>> sendp(Ether(dst='ff:ff:ff:ff:ff:ff', src='00:17:5a:ed:7a:f0')/Dot1Q(vlan=1)/Dot1Q(vlan=20)/ IP(dst='255.255.255.255', src='192.168.1.1')/ICMP(), iface='eth2') Double tags pomocí Scapy §Zakažte všechny nepoužívané porty a umístěte je do nepoužívané VLANy. §Vždy používejte vyhrazené (dedikované) ID VLAN pro všechny porty trunku. §Vypnutím DTP nastavte všechny uživatelské porty na režim non-trunking. V režimu konfigurace rozhraní použijte příkaz switchport mode access. §U páteřních (backbone) připojení typu switch-to-switch explicitně (výslovně) nakonfigurujte truning. §Nepoužívejte nativní VLAN uživatele jako nativní VLAN trunk port. §Nepoužívejte VLAN 1 pro management. Prevence Konkrétně rady: Nedávejte žádného hosta do VLAN 1 (defaultní VLANy). Na každý access port dejte „sběrnou VLANu!: Switch (config-if)# switchport access vlan 2 Změňte nativní VLANu na všech access portech na nepoužívaný VLAN ID. Switch (config-if)# switchport trunk native vlan 999 Můžete také všude uvést, že dot1q je nativní VLANa. Switch(config)# vlan dot1q tag native •In this Packet Tracer activity, you will: •Part 1: Observe Broadcast Traffic in a VLAN Implementation •Part 2: Observe Broadcast Traffic without VLANs •Rozdíly mi řeknete zítra. • 3 – VLANs 3.2 – VLANs in a Multi-Switched Environment 3.2.8 – Packet Tracer – Investigate a VLAN Implementation 3.2.9 – Check Your Understanding – VLANs in a Multi-Switch Environment 3.3 VLAN Configuration 3 – VLANs 3.3 – VLAN Configuration VLAN ranges on Catalyst Switches •Catalyst switches 2960 and 3650 support over 4000 (4096) VLANs. • • • • • • Normal Range VLAN 1 – 1005 Extended Range VLAN 1006 - 4095 Used in Small to Medium sized businesses Used by Service Providers 1002–1005 are reserved for legacy VLANs Are in Running-Config 1, 1002–1005 are auto created and cannot be deleted Supports fewer VLAN features Stored in the vlan.dat file in flash Requires VTP configurations VTP can synchronize between switches 3 – VLANs 3.3 – VLAN Configuration 3.3.1 – VLAN Ranges on Catalyst Switches VLAN Creation Commands •VLAN details are stored in the vlan.dat file. You create VLANs in the global configuration mode. Task IOS Command Enter global configuration mode. Switch# configure terminal Create a VLAN with a valid ID number. Switch(config)# vlan vlan-id Specify a unique name to identify the VLAN. Switch(config-vlan)# name vlan-name Return to the privileged EXEC mode. Switch(config-vlan)# end Enter global configuration mode. Switch# configure terminal 3 – VLANs 3.3 – VLAN Configuration 3.3.2 – VLAN Creation Commands VLAN Creation Example •If the Student PC is going to be in VLAN 20, we will create the VLAN first and then name it. •If you do not name it, the Cisco IOS will give it a default name of vlan and the four digit number of the VLAN. E.g. vlan0020 for VLAN 20. Prompt Command S1# Configure terminal S1(config)# vlan 20 S1(config-vlan)# name student S1(config-vlan)# end 3 – VLANs 3.3 – VLAN Configuration 3.3.3 – VLAN Creation Example VLAN Port Assignment Commands •Once the VLAN is created, we can then assign it to the correct interfaces. • Task Command Enter global configuration mode. Switch# configure terminal Enter interface configuration mode. Switch(config)# interface interface-id Set the port to access mode. Switch(config-if)# switchport mode access Assign the port to a VLAN. Switch(config-if)# switchport access vlan vlan-id Return to the privileged EXEC mode. Switch(config-if)# end 3 – VLANs 3.3 – VLAN Configuration 3.3.4 – VLAN Port Assignment Commands VLAN Port Assignment Example •We can assign the VLAN to the port interface. •Once the device is assigned the VLAN, then the end device will need the IP address information for that VLAN •Here, Student PC receives 172.17.20.22 Prompt Command S1# Configure terminal S1(config)# Interface fa0/18 S1(config-if)# Switchport mode access S1(config-if)# Switchport access vlan 20 S1(config-if)# end 3 – VLANs 3.3 – VLAN Configuration 3.3.5 – VLAN Port Assignment Example Data and Voice VLANs •An access port may only be assigned to one data VLAN. However it may also be assigned to one Voice VLAN for when a phone and an end device are off of the same switchport. • 3 – VLANs 3.3 – VLAN Configuration 3.3.6 – Data and Voice VLANs Data and Voice VLAN Example •We will want to create and name both Voice and Data VLANs. •In addition to assigning the data VLAN, we will also assign the Voice VLAN and turn on QoS for the voice traffic to the interface. •The newer catalyst switch will automatically create the VLAN, if it does not already exist, when it is assigned to an interface. •Note: QoS is beyond the scope of this course. Here we do show the use of the command. mls qos trust [cos | device cisco-phone | dscp | ip-precedence] dscp – Differentiated Services Codepoint 3 – VLANs 3.3 – VLAN Configuration 3.3.7 – Data and Voice VLAN Example CoS a IP preference mají stejné hodnoty Verify VLAN Information •Use the show vlan command. The complete syntax is: •show vlan [brief | id vlan-id | name vlan-name | summary] Task Command Option Display VLAN name, status, and its ports one VLAN per line. brief Display information about the identified VLAN ID number. id vlan-id Display information about the identified VLAN name. The vlan-name is an ASCII string from 1 to 32 characters. name vlan-name Display VLAN summary information. summary 3 – VLANs 3.3 – VLAN Configuration 3.3.8 – Verify VLAN Information Change VLAN Port Membership •There are a number of ways to change VLAN membership: •re-enter switchport access vlan vlan-id command •use the no switchport access vlan to place interface back in VLAN 1 •Use the show vlan brief or the show interface fa0/18 switchport commands to verify the correct VLAN association. 3 – VLANs 3.3 – VLAN Configuration 3.3.9 – Change VLAN Port Membership Delete VLANs •Delete VLANs with the no vlan vlan-id command. •Caution: Before deleting a VLAN, reassign all member ports to a different VLAN. •Delete all VLANs with the delete flash:vlan.dat or delete vlan.dat commands. •Reload the switch when deleting all VLANs. •Note: To restore to factory default – unplug all data cables, erase the startup-configuration and delete the vlan.dat file, then reload the device. 3 – VLANs 3.3 – VLAN Configuration 3.3.10 – Delete VLANs 3.3.11 – Syntax Checker – VLAN Configuration •In this Packet Tracer activity, you will perform the following: •Verify the Default VLAN Configuration •Configure VLANs •Assign VLANs to Ports 3 – VLANs 3.3 – VLAN Configuration 3.3.12 – Packet Tracer – VLAN Configuration 3.4 VLAN Trunks 3 – VLANs 3.4 – VLAN Trunks Trunk Configuration Commands •Configure and verify VLAN trunks. Trunks are layer 2 and carry traffic for all VLANs. Task IOS Command Enter global configuration mode. Switch# configure terminal Enter interface configuration mode. Switch(config)# interface interface-id Set the port to permanent trunking mode. Switch(config-if)# switchport mode trunk Sets the native VLAN to something other than VLAN 1. Switch(config-if)# switchport trunk native vlan vlan-id Specify the list of VLANs to be allowed on the trunk link. Switch(config-if)# switchport trunk allowed vlan vlan-list Return to the privileged EXEC mode. Switch(config-if)# end 3 – VLANs 3.4 – VLAN Trunks 3.4.1 – Trunk Configuration Commands Trunk Configuration Example •The subnets associated with each VLAN are: •VLAN 10 - Faculty/Staff - 172.17.10.0/24 •VLAN 20 - Students - 172.17.20.0/24 •VLAN 30 - Guests - 172.17.30.0/24 •VLAN 99 - Native - 172.17.99.0/24 F0/1 port on S1 is configured as a trunk port. Note: This assumes a 2960 switch using 802.1q tagging. Layer 3 switches require the encapsulation to be configured before the trunk mode. Prompt Command S1(config)# Interface fa0/1 S1(config-if)# Switchport mode trunk S1(config-if)# Switchport trunk native vlan 99 S1(config-if)# Switchport trunk allowed vlan 10,20,30,99 S1(config-if)# end 3 – VLANs 3.4 – VLAN Trunks 3.4.2 – Trunk Configuration Example Verify Trunk Configuration •Set the trunk mode and native vlan. •Notice sh int fa0/1 switchport command: •Is set to trunk administratively •Is set as trunk operationally (functioning) •Encapsulation is dot1q •Native VLAN set to VLAN 99 •All VLANs created on the switch will pass traffic on this trunk 3 – VLANs 3.4 – VLAN Trunks 3.4.3 – Verify Trunk Configuration Reset the Trunk to the Default State •Reset the default trunk settings with the no command. •All VLANs allowed to pass traffic •Native VLAN = VLAN 1 •Verify the default settings with a sh int fa0/1 switchport command. • 3 – VLANs 3.4 – VLAN Trunks 3.4.4 – Reset the Trunk to the Default State Reset the Trunk to the Default State (Cont.) •Reset the trunk to an access mode with the switchport mode access command: •Is set to an access interface administratively •Is set as an access interface operationally (functioning) • • 3 – VLANs 3.4 – VLAN Trunks 3.4.4 – Reset the Trunk to the Default State (Cont.) •In this Packet Tracer activity, you will perform the following: •Verify VLANs •Configure Trunks 3 – VLANs 3.4 – VLAN Trunks 3.4.5 – Packet Tracer – Configure Trunks Lab – Configure VLANs and Trunks •In this lab, you will perform the following: •Build the Network and Configure Basic Device Settings •Create VLANs and Assign Switch Ports •Maintain VLAN Port Assignments and the VLAN Database •Configure an 802.1Q Trunk between the Switches •Delete the VLAN Database 3 – VLANs 3.4 – VLAN Trunks 3.4.6 – Lab – Configure VLANs and Trunks 3.5 Dynamic Trunking Protocol 3 – VLANs 3.5 – Dynamic Trunking Protocol Introduction to DTP •Dynamic Trunking Protocol (DTP) is a proprietary Cisco protocol. •DTP characteristics are as follows: •On by default on Catalyst 2960 and 2950 switches •Dynamic-auto is default on the 2960 and 2950 switches •May be turned off with the nonegotiate command •May be turned back on by setting the interface to dynamic-auto •Setting a switch to a static trunk or static access will avoid negotiation issues with the switchport mode trunk or the switchport mode access commands. • • 3 – VLANs 3.5 – Dynamic Trunking Protocol 3.5.1 – Introduction to DTP Negotiated Interface Modes •The switchport mode command has additional options. •Use the switchport nonegotiate interface configuration command to stop DTP negotiation. • • Option Description access Permanent access mode and negotiates to convert the neighboring link into an access link dynamic auto Will becomes a trunk interface if the neighboring interface is set to trunk or desirable mode dynamic desirable Actively seeks to become a trunk by negotiating with other auto or desirable interfaces trunk Permanent trunking mode and negotiates to convert the neighboring link into a trunk link 3 – VLANs 3.5 – Dynamic Trunking Protocol 3.5.2 – Negotiated Interface Modes Results of a DTP Configuration •DTP configuration options are as follows: Dynamic Auto Dynamic Desirable Trunk Access Dynamic Auto Access Trunk Trunk Access Dynamic Desirable Trunk Trunk Trunk Access Trunk Trunk Trunk Trunk Limited connectivity Access Access Access Limited connectivity Access 3 – VLANs 3.5 – Dynamic Trunking Protocol 3.5.3 – Results of a DTP Configuration Verify DTP Mode •The default DTP configuration is dependent on the Cisco IOS version and platform. §Use the show dtp interface command to determine the current DTP mode. §Best practice recommends that the interfaces be set to access or trunk and to turnoff DTP 3 – VLANs 3.5 – Dynamic Trunking Protocol 3.5.4 – Verify DTP Mode •In this Packet Tracer activity, you will perform the following: •Configure static trunking •Configure and verify DTP • 3 – VLANs 3.5 – Dynamic Trunking Protocol 3.5.5 – Packet Tracer – Configure DTP 3.5.6 – Check Your Understanding – Dynamic Trunking Protocol If both switch's interface are configured with "dynamic auto" mode, they will never generate Dynamic Trunking Protocol (DTP) messages and the link will be an access link. https://www.omnisecu.com/cisco-certified-network-associate-ccna/difference-between-dtp-dynamic-desi rable-and-dynamic-auto-modes.php Both sides are "dynamic desirable" One side is "dynamic desirable" and other side is "dynamic auto" One side is "trunk" and other side is "dynamic desirable" Switch Spoofing §Uvažujme situaci, kdy útočník je připojen na interface switche konfigurované v módech "dynamic desirable", "dynamic auto" nebo "trunk". Pokud je útočník schopen ze svého počítače generovat zprávy DTP, mezi počítačem a switchem se vytvoří trunkové spojení. §Jinou metodou Switch Spoofing je propojení falešného switche s rozhraním konfigurovaným jako "dynamic desirable", "dynamic auto" nebo "trunk". •http://www.jay-miah.co.uk/vlan-hopping-concept-attack-example-and-prevention/ Konkrétní útok pomocí yersinie 3.6 Module Practice and Quiz 3 – VLANs 3.6 – Module Practice and Quiz Packet Tracer – Implement VLANs and Trunking •In this Packet Tracer activity, you will perform the following: •Configure VLANs •Assign Ports to VLANs •Configure Static Trunking •Configure Dynamic Trunking 3 – VLANs 3.6 – Module Practice and Quiz 3.6.1 – Packet Tracer – Implement VLANs and Trunking Lab – Implement VLANs and Trunking •In this lab, you will perform the following: •Build the Network and Configure Basic Device Settings •Create VLANs and Assign Switch Ports •Configure an 802.1Q Trunk between the Switches 3 – VLANs 3.6 – Module Practice and Quiz 3.6.2 – Lab – Implement VLANs and Trunking §VLAN jsou založeny na logických a nikoli na fyzických připojeních. §VLAN mohou segmentovat sítě podle funkce, týmu nebo aplikace. §Každá VLAN je považována za samostatnou logickou síť. §Trunk je spojení typu point-to-point, které nese více než jednu VLAN. §Pole VLAN tag zahrnuje typ, prioritu uživatele, CFI a VID. §Pro podporu VoIP je vyžadována samostatná hlasová VLAN. §Konfigurace VLAN s normálním rozsahem jsou uloženy v souboru vlan.dat ve formátu flash. §Přístupový port může patřit pouze k jedné datové VLAN, ale může mít také Voice VLAN. Co jsme se naučili (1/2) §Trunk je spojení vrstvy 2 mezi dvěma přepínači, které přenáší provoz pro všechny VLANy. §Trunky budou potřebovat označení (tagging) pro různé VLANy, obvykle 802.1q. §Značení (tagging) IEEE 802.1q umožňuje jednu nativní VLAN, která zůstane neoznačená. §Rozhraní lze nastavit na trunking nebo nontrunking (access). §Trunk negotiation (vyjednávání) je řízeno protokolem Dynamic Trunking Protocol (DTP). §DTP je proprietární protokol společnosti Cisco, který spravuje vyjednávání o nastavení trunku. Co jsme se naučili (2/2) What did I learn in this module? •VLANs are based on logical instead of physical connections. •VLANs can segment networks based on function, team, or application. •Each VLAN is considered a separate logical network. •A trunk is a point-to-point link that carries more than one VLAN. •VLAN tag fields include the type, user priority, CFI and VID. •A separate voice VLAN is required to support VoIP. •Normal range VLAN configurations are stored in the vlan.dat file in flash. •An access port can belong to one data VLAN at a time, but may also have a Voice VLAN. 3 – VLANs 3.6 – Module Practice and Quiz 3.6.3 – What did I learn in this module? What did I learn in this module? (Cont.) •A trunk is a Layer 2 link between two switches that carries traffic for all VLANs. •Trunks will need tagging for the various VLANs, typically 802.1q . •IEEE 802.1q tagging makes provision for one native VLAN that will remain untagged. •An interface can be set to trunking or nontrunking. •Trunk negotiation is managed by the Dynamic Trunking Protocol (DTP). •DTP is a Cisco proprietary protocol that manages trunk negotiations. 3 – VLANs 3.6 – Module Practice and Quiz 3.6.3 – What did I learn in this module? (Cont.) 3.6.4 – Module Quiz – Protocols and Models New Terms and Commands •VLAN •Logical broadcast domain •Data VLAN •Default VLAN •Native VLAN •Management VLAN •show vlan brief •Voice VLAN •VLAN Trunk •VLAN Segmentation •IEEE 802.1Q •VLAN Tagging •Canonical Format Identifier (CFI) •User Priority •VLAN ID •Type •show interfaces int switchport • New Terms and Commands Module Practice and Quiz New Terms and Commands •Normal Range VLANs •Extended Range VLANs •vlan vlan-id •name vlan-name •switchport mode access •switchport access vlan vlan-id •interface range •no switchport access vlan vlan-id •no vlan vlan-id •delete flash:vlan.dat •delete vlan.dat •show vlan •show interfaces •show vlan summary •show interfaces vlan vlan_id •switchport mode trunk •switchport trunk allowed vlan vlan_list •switchport trunk native vlan vlan_id •no switchport trunk allowed vlan •no switchport trunk native vlan •show interfaces switchport •no switchport access vlan vlan_id •show interfaces trunk •show interfaces int_id trunk New Terms and Commands