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Synergi Nortel Telefoni & Data

Synergi Nortel Telefoni & Data. Asko Hotakainen Senior Sales Engineer. Why did the World Converge Around IP/Ethernet?. Effective – Ethernet and IP did the job as well as any alternative technology at the time

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Synergi Nortel Telefoni & Data

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  1. Synergi Nortel Telefoni & Data Asko Hotakainen Senior Sales Engineer

  2. Why did the World Converge Around IP/Ethernet? • Effective– Ethernet and IP did the job as well as any alternative technology at the time • Simple– Ethernet was much simpler than the alternative technologies. This lead to less complex networks, which in turn drove down costs, fueled growth and increased the pace of innovation. • Cost – A plethora of vendors and wide ranging standards drove choice and reduced interoperability issues. This drove commoditization, further fueling innovation as organizations looked to find and edge and further reduce costs.

  3. Standard LAN designs Common Designs Common Capabilities Common Components Uniform Strategy Uniform Applications Uniform Benefits 5500 Edge 4500 Edge 2500 Edge 5500 SMLT Core 8300 SMLT Core 8600 SMLT Core Large Small Medium

  4. Common Key Benefits Resilient Stackable edge for flexibility in delivering required edge connectivity 10/100 or Gig access ports with PoE, access control and auto configuration Multi-homed interconnects use standard link aggregation for performance, resilience and interoperability Choice of 100-FX, 1G & 10G interconnect options to deliver the required bandwidth Core Switch Clustering with SMLT delivers sub-second fail-over and is fully load-balanced to provide best possible application performance Dual-homed Servers & WAN Routers ensure availability of critical services

  5. Ethernet Edge Switches Voice Data IP Phones Video VLANs Voice VLAN & QoS Core Quality of Service Auto ProvisioningDeploying IP Telephony How do I put all this together and make it work ?

  6. 802.1AB • Uses Link Layer Discovery Protocol (LLDP) • Exchanges capabilities/information of connected devices • Builds topology of connected devices • Can be used for configuration of network devices • Auto Detect Auto Config (ADAC) • Nortel Ethernet Switch feature • Discovers IP phones connected to it • Automatically configures Voice VLAN and QoS • Works in conjunction with 802.1AB • DHCP/TFTP • Provides basic IP configuration information to IP phone • Configuration options for call server, VLAN, etc. • VLAN auto discovery via DHCP site specific option Auto ProvisioningPutting the Pieces Together • Discovery of Ethernet Switch and IP Phone • Topology of Ethernet Switch and IP Phone • Configuration of IP Phone Configuration of Ethernet Switch Configuration of IP Phone

  7. LLDP LLDP SNMP 802.1AB Overview • The IEEE 802.1AB Link Layer Discovery Protocol (May 2005) defines a standard way for Ethernet devices to advertise information about themselves to their network neighbors and store information they discover from other devices Router Switch Network Management Station IP Phone MIB MIB • The devices store information in local MIB databases accessible via SNMP • A network management system retrieves the data stored by each device and builds a network topology map

  8. Organizational TLV’s • Port VLAN ID • Port & Protocol VLAN ID • VLAN Name • Protocol Identity • MAC/PHY Config Status • Power via MDI • Link Aggregation • Maximum Frame Size • Core TLV’s • Chassis ID • Port ID • Time to Live • Port Description • System Name • System Description • System Capabilities • Management Address • End of LLDPDU • MED TLV’s • LLDP/MED Capabilities • Network Policy • Location Identification • Extended Power via MDI • Inventory (HW, FW, SW, Serial Number, Manufacturer Name, Model Name, Asset ID) 802.1AB Overview • The information fields in each frame are contained in a Link Layer Discovery Protocol Data Unit (LLDPDU) as a sequence of short, variable-length, information elements known as TLVs that each include type, length, and value fields • Each LLDPDU includes four mandatory TLVs plus optional TLVs – Optional TLVs may be inserted in any order

  9. IP Phone Voice VLAN ConfigurationLLDP VLAN Name • LLDP VLAN Name (802.1) used to configure the Voice VLAN on the IP Phone • Voice VLAN must be configured on Ethernet switch • Ethernet switch is configured to provide Voice VLAN ID to the IP phone via 802.1tx TLV VLAN Name • IP phone “knows” to listen for Voice VLAN via LLDP LLDP 190 Voice VLAN ID = 190 LLDP with VLAN ID 190 Phone Configures itself to use VLAN ID 190 and continues with it’s configuration process (DHCP)

  10. ERS4500 v5.2802.1AB Enhancements • 802.1AB MED support • Current 802.1AB discovery is via system TLV IP Phone bit • Enable full MED exchange with IP Handset to specify VLAN and QoS • 802.1AB Location TLV • Support location based TLV, essential for E911 support ERS2500 v4.2 ERS4500 v5.2

  11. Auto Detect Auto Config (ADAC)

  12. ADAC – Auto Detection Auto ConfigurationOverview • Enables Nortel Ethernet Switches to automatically detect and configure ports for use with IP phones • Auto Detection of IP phones can be accomplished one of two ways • MAC address of the IP Phone • 802.1AB LLDP • Auto Configuration of the Ethernet switch can include: • Voice VLAN for the IP phone • QoS marking of all voice packets entering the Ethernet switch • The auto configuration of the Ethernet switch is dynamic and requires no user intervention • ADAC can be used in conjunction with 802.1x EAP • ADAC can be used for connections that have an IP phone and PC connected to a single port

  13. Auto ConfigurationQoS on ERS 5500 • Auto Configuration of QoS • Two policies (each w/ one classifier) are used depending on operating mode and port type • All IP Traffic Filter • A policy with a classifier to filter all IPv4 traffic and remark it with DSCP 0x2E and 802.1p priority to 0x06 • This policy is installed on Telephony ports in Untagged mode and on Call Server port • Tagged Voice Traffic Filter • A policy with a classifier to filter the traffic tagged with the Voice VLAN and remark it with DSCP 0x2E and 802.1p priority to 0x06 • This policy is installed on Telephony ports in Tagged mode and on the Uplink ports • The QoS filters are created internally and automatically and therefore cannot be seen or modified when managing the switch

  14. ERS4500 v5.2NT-on-NT QoS Support • Provide a new capability to enable Nortel application prioritisation on Nortel switching platforms • Recognises Nortel application specific DSCP marking of IP packets and provides priority on these applications into appropriate queues • CLI Command Examples:To enable the nt-on-nt mode4548GT(config)#qos agent nt mixedTo disable the nt-on-nt mode4528GT(config)#qos agent nt disable New on ERS4500 v5.2

  15. Nortel Automatic QoS (NAQ) SupportERS 5500 v6.1 • Supports prioritizing traffic marked with recognized Nortel DSCP values • Pure and Mixed modes • Pure: update 802.1p, leave DSCP unchanged • Mixed: update 802.1p, remark DSCP to equivalent “standard” value • NAQ filters augment Trusted/Untrusted/Unrestricted QoS interface processing support • Enabled/disabled through QoS Agent NAQ Enable: qos agent nt-mode [pure | mixed] NAQ Disable: qos agent nt-mode disable

  16. Nortel Automatic QoS (NAQ) Support Traffic Type QoS Classification Nortel Automatic QoS DSCP CoS Standard DSCP VoIP Premium – EF 0x2F (47) 6 0x2E VoIP Signaling Platinum – CS5 0x29 (41) 5 0x28 Video Conf Platinum – AF41 0x23 (35) 5 0x22 Streaming Gold – AF31 0x1B (27) 4 0x1A

  17. CS1000 Configuration for Auto QoS

  18. Autoprovisioning TFTP based ”no touch” install of IP phones

  19. Auto Provisioning Possible to configure via Auto Provisioning All options from Network Configuration menu, as per Expanded DHCP Options Contrast, brightness and backlight from Display menu Node and TN Auto VLAN is still used to provide Voice VLAN ID via DHCP Intent is to add Auto Provisioning capability for Voice VLAN ID subsequently Alternatively use LLDP to provide VLAN information Supported on 11x0, 12x0 and 2007 only Not supported on 2001 / 2002 / 2004 sets – and no intent to add support for same 19

  20. Auto Provisioning Hierarchy Since multiple modes of configuration information now exist, a hierarchy must be employed for configuration information Hierarchy as follows in order of precedence Manual Configuration Prov Server – device specific Prov Server – zone specific Prov Server – model/type specific TFTP – system specific LLDP-Med DHCP (Nortel-i2004-B) ** DHCP (Nortel-i2004-A) ** UNIStim(for some specific device / network paramaters only) Last value received Factory default • ** DHCP could be used to provide the provisioning server info, at which point the set would then query the provisioning server for the relevant files. Nortel options (S1, S2 etc.) would not need to be added to the DHCP scope and would anyway be overwritten by the auto provisioning process. 20

  21. Auto Provisioning Each phone can be configured via a combination of different files from the provisioning server Phone boots and attaches to the network (runs through 802.1x, 802.1ab, DHCP as applicable) Receives the provisioning server address via DHCP Option 66 (or via manual configuration) System level, zone level, phone type level and device level files can be on provisioning server – one, some or all of these Provisioning server is supplied by customer or channel partner, i.e. not part of the Nortel solution User will not be required to enter any information Assuming an entry exists for the user’s MAC address in one of the files above 21

  22. Provisioning Files System level file SYSTEM.PRV System specific provisioning information “file” parameter indicates which other files (if any) are to be downloaded via TFTP – line below indicates phone type (t), device (d) and zone (z) files should all be pulled via TFTP file=tdz; Model level file TTTT.PRV Phone type specific provisioning information For example – to turn on/off Bluetooth on all 1140E sets TTTT replaced by phone model, e.g. 1140e.prv 1110,1120E,1140E,1150E,2007,1210,1220,1230 as valid options 22

  23. Provisioning Files Zone level file ZZZZZ.PRV Zone specific provisioning information, where ZZZZZ is the one to eight character Zone ID Zone ID can be set manually, via DHCP or via “zone” parameter in SYSTEM.PRV Device level file XXXXXXXXXXXXXXXX.PRV Device specific provisioning information, where XX… is the MAC address of the device Can also “mix and match” – e.g. can have a number of MAC address / node / TN mappings in the system level file for example, rather than multiple device level files 23

  24. Provisioning Files The files used depend on the level of granularity required by the customer Customer might only have a SYSTEM.PRV file and include some generic information therein (e.g. enable LLDP for all devices), along with all MAC / node / TN mapping … Customer might have a SYSTEM.PRV file, an1140E.PRV file to enable Bluetooth, a zone based file to modify contrast for an area with very bright lighting, as well as individual DEVICE.PRV files per set Changing some parameters (e.g. LLDP) automatically causes a reset of the IP set when it downloads the updated value 24

  25. Provisioning Files Below is an example of the MAC / node / TN mapping in a SYSTEM.PRV file The first line defines the relevant Call Server IP address The second line is the registration information for one particular set, which contains MAC address, Call Server type (only CS1K supported at this time), S1 (valid values of S1 or S2 or S1S2), Node ID and TN s1ip=47.165.164.32; reg= 001365FEF3E2 CS1K S1 21 96-0-4-5; 25

  26. Autoprovisioning config file example s1ip=47.11.62.20; /* Primary server IP address */ p1=4100; /* Primary server port number */ a1=1; /* Primary server action code */ r1=10; /* Primary server retry count */ s2ip=47.11.62.21; /* Secondary server IP address */ p2=4100; /* Secondary server port number */ a2=1; /* Secondary server action code */ r2=10; /* Secondary server retry count */ xip=47.11.62.147; /* XAS server IP address */ xp=5000; /* XAS server port number */ xa=g; /* XAS server action code */ unid=Main-tower; /* Unique network identification */ menulock=p; /* Menu lock mode */

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