Megaco Configuration Guide

Perform the First Boot/Initial Setup

Power Connection

Sangoma NSG comes with three types of power supplies

• AC PSU

  • AC Single PSU                                  (Default)

  • AC Dual-Redundant PSU

• DC PSU

  • DC Dual-Redundant PSU

PSU Connection

• Standard 110V or 220V, 50-60Hz connection.

• Optional Dual-Redundant AC 110V or 220V, 50-60Hz connection.

• Optional Dual-Redundant DC -48V

DC PSU Connection

Connecting cables to a power supply depends on the remote power source.

• The PSU has voltage reverse protection.

If the red and black wires are connected the wrong way, the system will not power up. But there will be no damage to the PSU or the system.

Establishing Initial WebGUI Connection

NSG factory settings are not very useful, as the Primary Ethernet port:eth0 is set to a static IP address. Proceed to connect to the NSG Appliance via Laptop’s web browser.

• Connect the Primary Signaling Port: eth0 to a LAN Switch

• Connect Laptop to LAN Switch

• Configure Laptop to IP address: 192.168.168.1/24

• Using Laptop web browser go to URL: http://192.168.168.2:81

• Login via

  • Username: root, Password: sangoma
    
    
    

    Open

    

    
    
    
    
     

    Open

    

Change Password

After successful Login, please proceed to change the default password. Sangoma NSG appliance comes with default password.

For security reasons please change the password.

• Select Password page from side/top System menu

• Enter your new password

• Press update to save

Console SSH Configuration

By default NSG systems come with SSH enabled. To configure ssh service

• Select Services from side/top System Menu

• Enable or disable Secure Shell service
  
  
  

  
  
  

NSG License

Each NSG appliance comes with pre-installed license.

In case of upgrades, of expansions please contact Sangoma Sales.

 To update NSG license

• Select License from side/top Configuration Menu

•  NSG License from Sangoma Support

• Upload the License into the NSG Gateway via the Upload Button The License page offers the detailed license overview.
  
  
  

Network Configuration

Network configuration section only applies to Physical Network Interfaces: eth0 and eth1. It does not apply to VLAN IP and route configuration.

Network Setup

• Physical network interfaces: eth0, eth1 are configured in the section

Configuration-> Settings-> IP Settings.

This section can only be used to modify/configure IP, Host, DNS information for Physical Network interfaces eth0 and eth1.

Default Route/Gateway 

• To configure a system default route through the IP Settings section, the appropriate interface role type to use is “External”. The External interfaces get associated to the default system route.

CAUTION:

• There can only be ONE External network interface.

• There can only be ONE system default route.

Static Routes

• Static routes that apply to physical network interfaces eth0, eth1 should be configured in

Configuration-> Network -> IP Route section.

CAUTION:

• Do not try to configure VLAN routes in this section. .

• route configuration files are only meant to be used for eth0,eth1 interfaces.

Media Ethernet Interface: Transcoding

• NSG comes with optional, media/codec transcoding hardware. The media transcoding hardware network interface is: eth2. The media transcoding network interface comes preconfigured with a 10.x.x.x ip address.

Configuration of the eth2 device should be performed in Configuration->Settings->Media.

CAUTION:

One should take this into account when assigning IP addresses to eth0,eth1 or VLAN interfaces. Confirm that ip address range set does not conflict with eth2 media transcoding network interface.

VLAN Config IP & Routes 

• VLAN’s can be configured in section Configuration-> VLAN

• VLAN can be configured on top of eth0 and eth1 network interface only.

• All VLAN related configuration such as IP address, VLAN ID and VLAN routes must be configured in VLAN configuration section only.

CAUTION:

• Do not use Static IP Route section to create a VLAN routes.

• Static IP Route section is only for physical interfaces eth0 and eth1.

VLAN Default Route

• If a system default route needs to be configured via VLAN interface.

• Configure the system default route in Configuration->  VLAN section.

• Refer to the VLAN section below.

CAUTION:

Make sure that all physical network interfaces in IP Settings section are configured for role “LAN”. No physical network interface eth0, eth1 should be configured for role “External”.  This would result in multiple system default routes.

Physical Network Interface Configuration

 By default the NSG appliance pre-configured with 192.168.168.2/24 address on Primary Port (eth0). The IP address can be changed based as follows

• Select IP Settings from side/top Configuration menu

• Specify Firewall Mode and Hostname

• Select Edit under eth0 and eth1 device and configure

NOTE

• eth2 device is a Sangoma Transcoding device and should be modified.

• eth2 device is configured in Configuration -> Media section of the GUI will configure this device

Appliance Network Interfaces

• eth0

  • Primary Signaling Port

  • By default provisioned as static 192.168.168.2

  • By default allows access to ssh and management http

• eth1

  • Secondary Signaling or Management Port

  • By default provisioned as static no IP address

  • By default allows access to ssh and management http

• eth2

  • Sangoma transcoding DSP board

  • Provisioned using Media page.  Do not modify in this section.

Selecting Default Route

NSG appliance should have a single default route. The default route is used to access Internet.

To configure a default route on eth0

• Set the eth0 interface mode to External.

• Refer to section below.

Network Section

Interface Section

Network Role

When configuring a network interface, the first thing you need to consider is the network role in IP Settings. Will this network card be used to connect to the Internet, for a local network, for a network with just server systems? The following network roles in IP Settings are supported in NSG and are described in further detail in the next sections:

• External - network interface with direct or indirect access to the Internet

• LAN - local area network

• Hot LAN - local area network for untrusted systems

• DMZ - de-militarized zone for a public network
   

Types

Ethernet Options

Setting custom Ethernet options such as disabling auto negotiation is done as part of the IP Settings.

• Select IP Settings from side/top Configuration Menu

Virtual IP’s

NSG supports virtual IPs. To add a virtual IP address, click on the link to configure a virtual IP address and add specify the IP Address and Netmask. You will also need to create advanced firewall rules if the virtual IP is on the Internet

IP Troubleshooting

In most installs, the network cards and IP settings will work straight out of the box. However, getting the network up the first time can be an exercise in frustration in some circumstances. Issues include; 

• Network card compatibility

• Invalid networks settings (username, password, default gateway)

Cable/DSL modems that cache network card hardware information

Static Routes

In some cases a static route must be defined for a specific network interface: eth0 or eth1. The static route support is done via File Editor 

• Select IP Route from side/top Configuration Menu

• Add a custom route command

Save and Apply

Routing Table Status

• Select VLAN Status from side/top Overview Menu

• Second table shows full system routing table.
  
  
  

VLAN

Virtual local area network, virtual LAN or VLAN is a concept of partitioning a physical network, so that distinct broadcast domains are created. NSG mark’s packets through tagging, so that a single interconnect (trunk) may be used to transport data for various VLANs.

 A VLAN has the same attributes as a physical local area network (LAN), but it allows for end stations to be grouped together more easily even if not on the same network switch. VLAN membership can be configured through software instead of physically relocating devices or connections. Most enterprise-level networks today use the concept of virtual LANs(VLAN). Without VLANs, a switch considers all interfaces on the switch to be in the same broadcast domain

VLAN Configuration

Currently NSG only supports VLAN configuration via GUI

• Select VLAN from side/top Configuration Menu

• Copy in the VLAN configuration script below into the file editor

• Save

  • On save the VLAN configuration will be applied

  • Proceed to VLAN Status confirm VLAN configuration
    
    
    
    

Example of sample script that could be copied into the VLAN config startup script:

In the example above, a single VLAN was created

• on top of the Primary Signaling Ethernet Port:eth0 with

• VLAN ID=5 and

• IP =192.168.1.100/24.

VLAN Routes

An optional route can be created to point to a gateway within a VLAN network 

Additional VLAN

If more VLAN’s are needed, proceed to repeat the above steps for all VLANs.

When Save button is pressed

• The VLAN configuration will be applied

• The script above will be executed line by line.

• Status window will pop up with VLAN config status. If one of the lines fails, the pop up will report it.

• Proceed to Overview -> VLAN status below to confirm VLAN and Route configuration

VLAN Status

• Select VLAN Status from side/top Overview Menu

• This page shows

  • All configured VLANs

  • System Routing table

  • Individual VLAN configuration

  • Individual VLAN IP information
    
    

Date & Time Service Config

The Date/Time configuration tool allows you to:

• Select your time zone

• Synchronize your clock with network time servers

• Enable/disable a local time server for your network

 Note that you need to configure your IP address and default route in order to be able to use a default time server that is located on the internet.

To configure

• Select Date from side/top System menu

• Refer below to all available options

Megaco/H.248 Media Gateway Configuration

Overview

H.248 or Megaco or Gateway Control Protocol is a recommendation from ITU which defines protocols that are used between elements of a physically decomposed multimedia gateway. It is an implementation of the Media Gateway Control Protocol Architecture (RFC 2805). H.248 is also called Megaco or in IETF domain. It is now known as Gateway Control Protocol.

H.248/Megaco is standard protocol for controlling the elements of a physically decomposed multimedia gateway, which enables separation of call control from media conversion. H.248/Megaco is a master/slave protocol used to separate the call control logic from the media processing logic in a gateway.

The H.248/Megaco model describes a connection model that contains the logical entities, or objects, within the Media Gateways (MGs) that can be controlled by the Media Gateway Controller. The main entities are Contexts and Terminations.

The H.248/Megaco model describes a connection model that contains the logical entities, or objects, within the Media Gateways (MGs) that can be controlled by the Media Gateway Controller. The main entities are Contexts and Terminations.

Terminations

These source or sink one or more media streams or control streams. Terminations may be physical or ephemeral.

Physical Terminations represent physical entities that have a semi-permanent existence. For example, a Termination representing ports on the gateway, such as TDM channel or DS0 might exist for as long as it is provisioned in the gateway. Ephemeral Terminations represent Connections or data flows, such as RTP streams, or MP3 streams, and usually exist only for the duration of their use in a particular Context.

Terminations have properties, such as the maximum size of a jitter buffer, which can be inspected and modified by the MGC. A termination is given a name, or Termination ID, by the MG

Context

These are star connections created by associating multiple terminations. A Context is a logical entity on an MG that is an association between a collection of Terminations. A NULL context contains all non-associated terminations. A Context is a logical entity on an MG that is an association between a collection of Terminations. A ContextID identifies a Context.

The normal, "active" context might have a physical termination (say, one DS0 in a DS3) and one ephemeral one (the RTP stream connecting the gateway to the network). Contexts are created and released by the MG under command of the MGC. A context is created by adding the first termination, and it is released by removing (subtracting) the last termination.

A termination may have more than one stream, and therefore a context may be a multistream context. Audio, video, and data streams may exist in a context among several terminations.

Commands

The commands defined by megaco are very simple, since they can be heavily extended using packages.

Sent from controller to gateway

Add

• Used to add a termination to a context Modify

• Used to modify an existing termination Substract:

• Used to remove a termination from a context Move:

  • used to move a termination to another context (call-waiting is achieved by moving it to the NULL context, which keeps it opened).

AuditValue

• Returns the current values of properties, signals and statistics AuditCapabilities:

  • Returns metadata on the current termination (the possible values for all elements)

8.2.2     Sent from gateway to controller

Notify

• Carries an event defined in one of the packages [P1] ServiceChange:

  • Notifies the controller that the gateway is going out of service / back in service. [P1]

 A MEGACO-configured NSG starts by sending a Service Change command to its MGC. When an MGC accepts the NSG registration, the session can start. Subsequently, the NSG responds to MGC commands. Event notifications are sent only if the MGC requests them specifically.

 Packages

Additional features are provided in packages, which define additional properties, events and signals that are included in the descriptors used in the protocol’s commands. Packages follow an inheritance model similar to object oriented programming, with some of those defined as “to be extended only” providing only an indicative structure for proprietary implementation.

Some properties are read-only and others are read-write, for more information refer to H.248.1 Appendix E.

Create MG Profile

Media gateway profile will contains all the required configuration parameters to bring up the Media gateway stack.

• Select MG from the side/top Configuration menu

• Select Add New Profile

o Use default profile name, or specify one

Select Create Media Gateway Profile

• Configure the MG Profile based on information received from our provider.

• Select Update Media Gateway Profile to save
  
  

Followings are the fields, that need to be configured.

Create MG Peer Profile

Each Media gateway profile will associate with one or multiple peers. NOTE: As of now NSG supports only “one peer per MG profile”.

• Select Add Peer in MG Section

• Fill in the peer information

• Select Update to Save

Followings are the fields which need to be configured.

• Once the Media Peer is configured the Megaco configuration section is complete.

• Proceed to TDM Termination for Media Gateway

TDM Termination for Media Gateway

• Select TDM from side/top Configuration menu

• The TDM section will display all installed TDM Spans/Ports

Identify

• In order to determine which physical T1/E1 port is: Port 1 Card 1

• Select Identify button for Port 1 Card 1

• The LED light will start flashing on a rear RJ45 T1/E1 port: rear panel.

• Look at the rear panel of the appliance and plug in RJ45 cable to the blinking RJ45 T1/E1 port.

• Once the Port 1 Card 1 is identified, the subsequent ports for that board are labeled.

• Or alternatively keep using the Identify feature for each port.

Edit T1/E1 Config

• Once the port has been identified and plugged into the T1/E1 network.

• Select Edit button for Port 1 Card 1 to configure the physical T1/E1 parameters.

• Select the port configuration type: T1 or E1

  • T1: North American Market and Japan

  • E1: Europe and the world

• Fill in Physical Configuration T1 or E1 parameters

• Fill in the T1/E1 parameters based on the provider provision document

Standard T1/E1 Parameters 

• In case advanced parameters are not necessary proceed

• Apply to Port

  • Applies the configuration for a single T1/E1 port

  • (The one that is currently being edited)

• Apply to all Ports

  • Apply to all T1/E1 ports on a board.

  • Bulk config feature

  • (This feature saves time as T1/E1 ports are usually provisioned the same)

Advanced T1/E1 Parameters

Span Link Type

When configuring TDM Terminations for Megaco Media Gateway there are two possibilities

• Voice Mode

  • All TDM channels are used for Voice 64kbs G.711

  • Example: All channels 1-31 on an E1 line are used for voice

  • Link Type = Voice Only

• Mix Mode

  • Voice 64kbs G.711 channels and SS7 signaling channels.

  • Example: Channel 16 is used for SS7 signaling, 1-15,17-31 are used for voice.

  • Link Type = Signaling Gateway (M2UA)

• If configuring for Voice Mode select No Signaling Link

• If configuring for Mixed Mode select Signaling Gateway (M2UA)

Signaling Gateway Overview

NSG supports Signaling Gateway operation mode.

In Signaling gateway mode, NSG will bridge T1/E1 SS7 signaling link to IP and pass it transparently to the MGC/Softswitch, via M2UA protocol. Looking at the diagram below, NSG Signaling Gateway will configure: 

• MTP1 & MTP2 protocols over the TDM port

• M2UA/SCTP protocol over IP network

• NIF (Network interworking function) to bridge the two
   

MTP1/2 Link Configuration

• Specify MTP1/2 information based on provider provision document

• Step1: Identify which channel on T1/E1 line will carry signaling

• Step2: Specify MTP2 signaling information based on provision document

• Step3: Specify M2UA Interface ID based on provision document

• Apply to Port to save configuration

M2UA Interface

This section provides in-depth overview on how the M2UA interface is constructed. It should help the user better understand the WebUI configuration objects for M2UA protocol.

WebUI for M2UA contains 3 sections:  Cluster, Peer and SCTP

• SCTP interfaces are standalone objects on which a peer bind to (regardless of its cluster).

  • 1 SCTP binds to 1 or more peers

  • 1 peer binds to 1 SCTP

  • Thus SCTP are shared across all peers

  • SCTP cannot be deleted if used by any peer (even from another cluster).

  • Deleting a peer or a cluster does not delete SCTP.

• Peers are bound to cluster.

  • 1 peer binds to 1 cluster

  • 1 cluster binds to 1 or more peer

  • Deleting a cluster will delete peers.

• Cluster are bound to MTP2 through M2UA binding and nif interface

  • 1 cluster binds to 1 or many MTP2 (through M2UA->NIF relationship)

  • 1 MTP2 binds to 1 cluster through NIF interface binding

M2UA Cluster Creation

M2UA Cluster is a group of peers to which M2UA SG will communicate

• Select Create Cluster

• Leave the Cluster values default unless the provider specifies otherwise.

• Select Save to Continue

M2UA Cluster Peers

M2UA Peers will be configured under the M2UA clusters

• Select Add under Cluster Peers Profile

• Select Create Cluster Peer Profile

• Specify the Cluster Peer parameters based on provider provision document

SCTP Interface

• Select Add SCTP Interface

• Select Create SCTP Interface

• Specify SCTP Information based on provider provision document

Binding all components

• All components have been created

  • M2UA Cluster

  • M2UA Peer

  • SCTP Interface

• Next step is to Bind / Connect them together

  • SCTP interface into M2UA Peer

  • M2UA peer into M2UA Cluster

Mixed Mode Configuration

• Signaling is bridged by M2UA to the MGC/Soft switch

• Voice is controlled by Megaco/H.248

• Specify that Voice is part of this TDM Span

Bind Megaco to TDM

The last step of the configuration is to bind the TDM voice channels to Megaco Profile

TDM Termination Complete

• A span has been configured and bound to a Megaco Profile.

• Configuration for this span is done

  • Confirmed in WebUI by a green checkmark.

• Next step is to repeat the process for the rest of the spans.

• In typical configurations there is one or two spans (T1/E1 ports) that contain signaling channels. The rest of the spans are usually voice only.

• In voice only config, there is no Signaling Gateway configuration.

  • The configuration jumps directly to “Bind TDM to Megaco” section of the WebUI.

Media Transcoding Configuration

NSG will enable ALL Media Codec’s by default.  There is no extra configuration needed.

Use this configuration page in case you want to limit which codecs should be enabled, or disable media codec support.

To access NSG Media Transcoding Configuration

• Select Media from side/top Configuration Menu

• Select any or all supported/listed codecs

• Once done press Save

Media Hardware 

Once Codec selection has been made, proceed to Advanced Options section of the Media page.

• Select SCAN

o This step will auto-detect all NSG transcoding resources

• Confirm that GUI detected exact number of transcoding resources as installed.

• User has an option of changing the assigned Local IP address of the Media device.

Applying Configuration

The changes made in the Configuration section of the WebUI are only stored one the scratch disk. User MUST proceed to Apply page in the Management Section to save new configuration.

• Select Apply from side/top Configuration Menu

• Visually confirm the warnings

  • License warning need to be resolved with Sales

• Select Generate Config to apply the configuration to file/disk.

• Generate Config will generate all necessary NSG SS7 VoIP Gateway configuration files needed to successful start the NSG gateway

Starting the Gateway

After successful initial configuration, the NSG gateway needs to be started. The Control Panel is used to start, stop, restart the complete NSG gateway. One can also control on the fly configuration in the Profile Panel once the gateway has been started.

• Select Control Panel from side/top Overview Menu

• Confirm that warnings are clear

• Start the Media Processing First

  • Media Processing will start the Transcoding resources.

  • Note that Media Processing is optional

• Start the Media Gateway Second.

  • Media Gatway will start

  • TDM Hardware Spans (T1/E1 ports)

  • Netborder SS7 to VoIP Gateway Software

• Confirm that the boot button is selected.

  • This will confirm that gateway starts on reboot.

• When the Gateway starts successfully the green status bar will appear.

• System is now running.

Configure Additional MG profiles and spans

Profile Panel is used for on the fly configuration without disrupting gateway service. The NSG Gateway has to be started in order to use the Profile Panel.

While the NSG Gateway is running, one can

• Add a new TDM Voice span to existing MG Profile

• Add a new TDM Voice + M2UA SG span to existing MG Profile

• Add a new MG Profile and new TDM Spans and M2UA SG

Each MG Profile is grouped with the TDM Spans associated with it.

• Sync/Stop actions will only affect the selected MG Profile and Spans that are not in Sync.

• Adjacent MG Profiles will not be affected.

Configuration

• Select Profile Panel from side/top Overview Menu

• Select Sync Button to apply and start new configuration.