Avaya Data Ports List for Products
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Avaya Port Matrix:
Integrated Management 4.0
Issue 1
Compas ID 126659 March 2007
ALL INFORMATION IS BELIEVED TO BE CORRECT AT THE TIME OF PUBLICATION AND IS PROVIDED "AS IS". AVAYA INC. DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING THE WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND FURTHERMORE, AVAYA INC. MAKES NO REPRESENTATIONS OR WARRANTIES THAT THE INFORMATION PROVIDED HEREIN WILL ELIMINATE SECURITY THREATS TO CUSTOMERS’ SYSTEMS. AVAYA INC., ITS RELATED COMPANIES, DIRECTORS, EMPLOYEES, REPRESENTATIVES, SUPPLIERS OR AGENTS MAY NOT, UNDER ANY CIRCUMSTANCES BE HELD LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, PUNITIVE, EXEMPLARY, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OF THE INFORMATION PROVIDED HEREIN. THIS INCLUDES, BUT IS NOT LIMITED TO, THE LOSS OF DATA OR LOSS OF PROFIT, EVEN IF AVAYA WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. YOUR USE OF THIS INFORMATION CONSTITUTES ACCEPTANCE OF THESE TERMS.
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Avaya Port Matrix for Integrated Management 4.0
Defining TCP/IP Ports
What are ports and how are they used?
TCP and UDP use ports (defined at ) to route traffic arriving at a particular IP device to the correct upper layer application. These ports are logical descriptors (numbers) that help devices multiplex and de-multiplex information streams. Consider your desktop PC. Multiple applications may be simultaneously receiving information. In this example, email may use destination TCP port 25, a browser may use destination TCP port 80 and a telnet session may use destination TCP port 23. These logical ports allow the PC to de-multiplex a single incoming serial data packet stream into three mini-streams inside the PC. Furthermore, each of the mini-streams is directed to the correct high-level application because the port numbers identify which application each data mini-stream belongs. Every IP device has incoming (Ingress) and outgoing (Egress) data streams.
Ports are used in TCP and UDP to name the ends of logical connections which carry data flows. TCP and UDP streams have an IP address and port number for both source and destination IP devices. The pairing of an IP address and a port number is called a socket (discussed later). Therefore, each data stream is uniquely identified with two sockets. Source and destination sockets must be known by the source before a data stream can be sent to the destination. Some destination ports are “open” to receive data streams and are called “listening” ports. Listening ports actively wait for a source (client) to make contact to a destination (server) using a specific port that has a known protocol associate with that port number. HTTPS, as an example, is assigned port number 443. When a destination IP device is contacted by a source device using port 443, the destination uses the HTTPS protocol for that data stream conversation.
2 Port Type Ranges
Port numbers are divided into three ranges: Well Known Ports, Registered Ports, and Dynamic Ports (sometimes called Private Ports).
Well Known Ports are those numbered from 0 through 1023.
Registered Ports are those numbered from 1024 through 49151
Dynamic Ports are those numbered from 49152 through 65535
The Well Known and Registered ports are assigned by IANA (Internet Assigned Numbers Authority) and are found here: .
Well Known Ports
For the purpose of providing services to unknown clients, a service listen port is defined. This port is used by the server process as its listen port. Common services often use listen ports in the well known port range. A well known port is normally active meaning that it is “listening” for any traffic destined for a specific application. For example, well known port 23 on a server is actively waiting for a data source to contact the server IP address using this port number to establish a Telnet session. Well known port 25 is waiting for an email session, etc. These ports are tied to a well understood application and range from 0 to 1023.
In UNIX and Linux operating systems, only root may open or close a well-known port. Well Known Ports are also commonly referred to as “privileged ports”.
Registered Ports
Unlike well known ports, these ports are not restricted to the root user. Less common services register ports in this range. Avaya uses ports in this range for call control. Some, but not all, ports used by Avaya in this range include: 1719/1720 for H.323, 5060/5061 for SIP, 2944 for H.248 and others. The registered port range is 1024 – 49151. Even though a port is registered with an application name, industry often uses these ports for different applications. Conflicts can occur in an enterprise when a port with one meaning is used by two servers with different meanings.
Dynamic Ports
Dynamic ports, sometimes called “private ports”, are available to use for any general purpose. This means there are no meanings associated with these ports (similar to RFC 1918 IP Address Usage). These are the safest ports to use because no application types are linked to these ports. The dynamic port range is 49152 – 65535.
Sockets
A socket is the pairing of an IP address with a port number. An example would be 192.168.5.17:3009, where 3009 is the socket number associated with the IP address. A data flow, or conversation, requires two sockets – one at the source device and one at the destination device. The data flow then has two sockets with a total of four logical elements. Each data flow must be unique. If one of the four elements is unique, the data flow is unique. The following three data flows are uniquely identified by socket number and/or IP address.
Data Flow 1: 172.16.16.14:1234 - 10.1.2.3:2345
Data Flow 2: 172.16.16.14.1235 - 10.1.2.3:2345
Data Flow 3: 172.16.16.14:1234 - 10.1.2.4:2345
Data flow 1 has two different port numbers and two different IP addresses and is a valid and typical socket pair.
Data flow 2 has the same IP addresses and the same port number on the second IP address as data flow 1, but since the port number on the first socket differs, the data flow is unique.
Therefore, if one IP address octet changes, or one port number changes, the data flow is unique.
Below is an example showing ingress and egress data flows from a PC to a web server.
[pic]
Notice the client egress stream includes the client’s source IP and socket (1369) and the destination IP and socket (80). The ingress stream has the source and destination information reversed because the ingress is coming from the server.
Avaya Server and Sockets
Data flows and their sockets may be directed by a server but for the purposes of firewall configuration, these sockets are NOT sourced from the server. The source will be another network element such as a CLAN circuit pack, a gateway VoIP engine or other elements. Therefore, the following port matrix will list these Avaya elements as the source and not the server.
Understanding Firewall Types and Policy Creation
1 Firewall Types
There are three basic firewall types:
• Packet Filtering
• Application Level Gateways (Proxy Servers)
• Hybrid (Stateful Inspection)
Packet Filtering is the most basic form of the firewalls. Each packet that arrives or leaves the network has its header fields examined against criterion to either drop the packet or let it through. Routers configured with Access Control Lists (ACL) use packet filtering. An example of packet filtering is preventing any source device on the Engineering subnet to telnet into any device in the Accounting subnet.
Application level gateways (ALG) act as a proxy, preventing a direct connection between the foreign device and the internal destination device. ALGs filter each individual packet rather than blindly copying bytes. ALGs can also send alerts via email, alarms or other methods and keep log files to track significant events.
Hybrid firewalls are dynamic systems, tracking each connection traversing all interfaces of the firewall and making sure they are valid. In addition to looking at headers, the contents of the packet, up through the application layer, is examined. A stateful inspection firewall also monitors the state of the connection and compiles the information in a state table. Stateful inspection firewalls close off ports until the connection to the specific port is requested. This is an enhancement to security against port scanning[1].
Firewall Policies
The goals of firewall policies are to monitor, authorize and log data flows and events. They also restrict access using IP addresses, port numbers and application types and sub-types.
This paper is focused with identifying the port numbers used by Avaya products so effective firewall policies can be created without disrupting business communications or opening unnecessary access into the network.
Knowing that the source column in the following matrices is the socket initiator is key in building some types of firewall policies. Some firewalls can be configured to automatically create a return path through the firewall if the initiating source is allowed through. This option removes the need to enter two firewall rules, one for each stream direction, but can also raise security concerns.
Another feature of some firewalls is to create an umbrella policy that allows access for many independent data flows using a common higher layer attribute. One example would be creating a policy to allow any H.323 data flows through the firewall. This umbrella policy would allow H.225, H.245, H.248, RTCP and RTP streams to flow through the firewall without specifying specific port ranges for each of these protocols.
Finally, many firewall policies can be avoided by placing endpoints and the servers that serve those endpoints in the same firewall zone.
Matrix Headings Defined
Source Initiator: The device or application initiating a data flow.
Source Port(s): This is the default port(s) used by the source device or application. Valid values include: 0 – 65535.
Destination Receiver: The device or application receiving a data flow from a source.
Destination Port(s): This is the default port(s) used at the device or application responding to an initiator. Valid values include: 0 – 65535.
Network / Application Protocol: Labels of the network and application protocols used.
Destination Configurable: “Yes” means the destination port is configurable. “No” means the destination port is not configurable. Valid values include: Yes or No.
Range If populated, this field lists the range of ports that can be used by the destination. The range may or may not be configurable. Valid values include: 0 – 65535.
Source Configurable: “Yes” means the source port is configurable. “No” means the source port is not configurable. Valid values include: Yes or No
Range: If populated, this field lists the range of ports that can be used by the source. The range may or may not be configurable. Valid values include: 0 – 65535.
Traffic Purpose: Describes the purpose of the data flow.
Comments: Important comments.
Avaya Product - Integrated Management 4.0
Software Release/Version: 4.0
Hardware Release/Version: N/A
| |Source |Destination |Network/ | |Destination Configurable? |
| | | |Application | |Range |
| | | |Protocol | | |
|Ingress | | | | | |
|1 |21 |TCP / FTP |Yes |Open | |
|2 |22 |TCP / SSH |Yes |Open | |
|3 |23 |TCP / Telnet |Yes |Open | |
|4 |80 |TCP / HTTP |Yes |Open | |
|5 |161 |UDP / SNMP |Yes |Open | |
|6 |162 |UDP / SNMP |Yes |Open | |
|7 |443 |TCP / HTTPS |Yes |Open | |
|8 | | | | | |
|9 | | | | | |
|10 | | | | | |
|Egress | | | | | |
|1 |20 |TCP / FTP |Yes |Open | |
|2 |21 |TCP / FTP |Yes |Open | |
|3 |22 |TCP / SSH |Yes |Open | |
|4 |23 |TCP / Telnet |Yes |Open | |
|5 |25 |TCP / SMTP |Yes |Open | |
|6 |161 |UDP / SNMP |Yes |Open | |
|7 |162 |UDP / SNMP |Yes |Open | |
|8 |389 |TCP / LDAP |Yes |Open | |
|9 |636 |TCP / LDAPS |Yes |Open | |
|10 | | | | | |
The port numbers are assigned by IANA (Internet Assigned Numbers Authority) and are found here:
IP Protocol Summary:
IP Protocol Number: This is the layer-3 or layer- protocol number. Valid values include: 0 – 255.
IP Protocol Name: This is the name associated with the layer-3 protocol or layer-4 port number. Examples are ICMP, TCP, UDP, IGMP, etc.
Optionally Enabled / Disabled: This field indicates whether customers can enable or disable a layer-3 protocol from its default setting. Valid values are: Yes or No.
No means the default protocol state cannot be changed (e.g. enable or disabled).
Yes means the default protocol state can be changed and that the protocol can either be enabled or disabled.
Default Protocol State: A protocol is open, closed or filtered. Open will respond to queries whereas filtered is open, but will not respond. Valid values include: Open, Close or Filtered. For brevity, closed protocols are not listed unless they can be optionally enabled.
Open protocols will respond to queries
Closed protocols may or may not respond to queries and are only listed when they can be optionally enabled.
Filtered protocols can be open or closed.
Avaya IP Protocol Summary
| |IP Protocol |IP Protocol |Optionally |Default |Column Description |
| |Number |Name |Enabled/ |Protocol State | |
| | | |Disabled? | |IP Protocol Number – Logical number at OSI layer-3 or layer-4. |
| | | | | |Valid values include: 0 – 255 |
| | | | | | |
| | | | | |IP Protocol Name – OSI layer 3 & 4. i.e. ICMP, TCP, UDP, IGMP |
| | | | | | |
| | | | | |Optionally Enabled/Disabled – indicates whether customers can enable or disable a layer-3 or |
| | | | | |layer-4 protocol changing its default protocol setting. |
| | | | | | |
| | | | | |Default Protocol State: |
| | | | | |Valid Values include: Open, Closed or Filtered |
|1 |6 |TCP |No |Open | |
|2 |17 |UDP |No |Open | |
|3 | | | | | |
|4 | | | | | |
|5 | | | | | |
|6 | | | | | |
|7 | | | | | |
|8 | | | | | |
|9 | | | | | |
|10 | | | | | |
The protocol numbers are assigned by IANA (Internet Assigned Numbers Authority) and are found here:
Additional Information:
This paper additionally provides information on what the Integrated Management software configures on the customer-provided Windows Server. It covers the following:
o Installed Files, Default Directory Locations and Registry Entries
This paper attempts to provide the customer with relevant information about the Integrated Management Windows-based applications in order for customers to make an assessment of the necessary protocols and services needed to run on their Windows server.
1 Notation, Terminology And Acronyms
The following table gives meanings for most of the terms and acronyms used in this document.
|Term |Meaning |
|API |Application Programming Interface |
|ASA |Avaya Site Administration |
|CLAN |Control-LAN, a Communication Manager IP interface circuit pack |
|FIFO |First In First Out |
|FTP |File Transfer Protocol |
|GUI |Graphical User Interface |
|HKCU |HKey Current User |
|HKLM |HKey Local Machine |
|HTML |HyperText Markup Language |
|HTTP |HyperText Transfer Protocol |
|HTTPS |HyperText Transfer Protocol Secure |
|IP |Internet Protocol |
|NM |Network Management |
|NMSI |Network Management System Integration |
|NNM |Network Node Manager |
|OV |HP OpenView |
|PIM |Provisioning and Installation Manager |
|PPP |Point-to-Point Protocol |
|RMATS |Remote Maintenance and Test System |
|RMI |Remote Method Invocation |
|SAT |System Access Terminal |
|SMTP |Simple Mail Transfer Protocol |
|SNMP |Simple Network Management Protocol |
|SSH |Secure Shell |
|T&M |Time and Materials |
|TCP |Transmission Control Protocol |
|TSC |Technical Service Center |
|UDP |User Datagram Protocol |
|VAM |Voice Announcement Manager |
|VMM |VoIP Monitoring Manager |
|VNC |Virtual Network Computing - software that makes it possible to view and fully-interact with one |
| |computer from any other computer or mobile device anywhere on the Internet |
|VPN |Virtual Private Network |
Integrated Management Relevant Directories:
This section lists the directories used and created by various Integrated Management applications. The directories are the locations on the Windows server where the Integrated Management files are installed.
1 Integrated Management Common Components:
Default Directories:
C:\Program Files\Avaya\Required Components contains Integrated Management Client and
Server Configuration GUI files, launchApp,
and *.vl files
C:\Program Files\Avaya\JRE contains the Java Runtime Environment
needed by various applications
C:\Program Files\Avaya\Third Party Installed contains copies of all the third party
installers used for IM install
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
HKLM\SOFTWARE\Avaya\JRE 1.5.0_08\
HKLM\SOFTWARE\Avaya\JRE 1.5.0_08\AppsInstalled\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
PROP_PATH
2 Integrated Management Launch Page:
Default Directories:
C:\Program Files\Avaya\Home Page\html contains Integrated Management Launch
Page HTML files
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
AIM_VERSION AIM_FPM
AIM_CCS AIM_GMS
AIM_EPI AIM_IMD
AIM_EPI_PORT AIM_MSA
AIM_PATH AIM_MSG
AIM_SERVER AIM_NSM
AVAYA_ROOT AIM_PA
ASA_FLAG AIM_VOIP
VAM_FLAG AIM_VMSC
MM_FLAG AIM_IEM
AIM_MM
3 Avaya Site Administration:
Default Directories:
C:\Program Files\Avaya\Site Administration\bin program executable files and *.dll files
C:\Program Files\Avaya\Site Administration\data data files; such as bitmaps, defaults and list files
C:\Documents and Settings\\ location of persist.dat, template data, button
Application Data\Avaya\Site Administration\user label print data, etc… Also default directory
for reports and import/export tasks
C:\Documents and Settings\\ Backup of persist.dat, template data, button
Application Data\Avaya\Site Administration\ label print data, etc…
user\Backup
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Avaya Site Administration\
HKLM\SOFTWARE\Avaya\Avaya Site Administration\
HKLM\SOFTWARE\Avaya\Avaya Site Administration\SASL Library\
HKLM\SOFTWARE\Avaya\Avaya Site Administration \System\
HKCU\SOFTWARE\Avaya\Avaya Site Administration\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
AIM_PATH
AIM_SERVER
SA_PATH
DSA_PATH
4 Voice Announcement Manager:
Default Directories:
C:\Program Files\Avaya\Voice Announcement contains program executable Jar files
Manager\bin
C:\Program Files\Avaya\Voice Announcement contains sample CSV files and backup
Manager\data policy files
C:\Program Files\Avaya\Voice Announcement contains JPEG, GIF and bitmap image files
Manager\images
C:\Program Files\Avaya\Voice Announcement contains OSSI mapping files
Manager\ossidoc
C:\Program Files\Avaya\Voice Announcement contains property files for all supported
Manager\resources languages; only default file and English US
file is present
C:\Documents and Settings\\ contains data files; such as property files,
Application Data\Avaya\Voice Announcement error logs, status logs, etc… Also default
Manager\user location for storage of announcement files
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Administration Tools\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
AIM_PATH
AIM_SERVER
VAL_PATH
JRE2_BIN
5 VoIP Monitoring Manager:
Default Directories:
C:\Program Files\Avaya\VoIP Monitoring contains program executable Jar files under
Manager the jars subdirectory
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management VoIP Monitoring Manager\
HKLM\SOFTWARE\Avaya\VoIP Monitoring Manager\
HKLM\SOFTWARE\Avaya\VoIP Monitoring Manager\RtcpMon\
HKLM\SYSTEM\CurrentControlSet\Services\VoIP Monitoring Manager Server
HKLM\SYSTEM\CurrentControlSet\Services\VoIP Monitoring Manager Server\Parameters
HKLM\SYSTEM\CurrentControlSet\Services\VoIP Monitoring Manager Server\Security
HKLM\SYSTEM\CurrentControlSet\Services\VoIP Monitoring Manager Server\Enum
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
AIM_PATH
AIM_SERVER
VMON_PATH
JRE2_BIN
AIM_VOIP
1 WebLM:
Default Directories:
C:\Program Files\Apache Group\Tomcat 4.1\ contains expanded war file, once WebLM is
webapps\WebLM started
Registry Entries:
None
Environment Variables:
The following entries are made in the environment registry HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
WEBLM_IP
WEBLM_PORT
CATALINA_HOME
JAVA_HOME
2 MSDE:
Default Directories:
C:\Program Files\Microsoft SQL Server contains program executable files
Registry Entries:
HKLM\SOFTWARE\Microsoft\MSSQLSERVER\
SQL Logins Created:
sa (user defines password during installation)
VmmUser
6 Network Management:
Default Directories:
C:\Program Files\Avaya\Network contains program executable Jar files
Management
C:\Program Files\Avaya\Network contains program executable Jar files
Management\CVS\Jboss3.2.5
Registry Entries:
HKLM\SOFTWARE\Avaya\Avaya Integrated Management\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Network Management\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Network Management 3.1\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Network Management 3.1\ Components\
HKLM\SOFTWARE\Avaya\Avaya Integrated Management Network Management 3.1\ Versions\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
AIM_VERSION AIM_FPM
AIM_CCS AIM_GMS
AIM_EPI AIM_IMD
AIM_EPI_PORT AIM_MSA
AIM_PATH AIM_MSG
AIM_SERVER AIM_NSM
NM_PATH AIM_PA
NM_INSTALLED AIM_VOIP
JRE2_BIN AIM_VMSC
AVAYA_ROOT AIM_IEM
CYGWIN AIM_MM
SCP_PATH ASA_FLAG
CV_PATH VAM_FLAG
CVS_HOME MM_FLAG
LUL_HOME
7 Tomcat Servlet Container
The tomcat web server installs into the standard Tomcat Windows installation locations including the following directories:
Default Directories:
C:\Program Files\Apache Group\Tomcat 4.1 contains executable files
Registry Entries:
HKLM\SOFTWARE\Apache Group\Tomcat\
8 Apache Web Server
The apache web server installs into the standard Apache Windows installation locations including the following directories:
Default Directories:
C:\Program Files\Apache Group\Apache2 contains executable files
Registry Entries:
HKLM\SOFTWARE\Apache Group\Apache\
9 SCP/SSH
OpenSSH for Windows used for SCP
Default Directories:
C:\Program Files\OpenSSH\
C:\Program Files\OpenSSH\bin\ contains executable files
Registry Entries:
HKLM\SOFTWARE\Cygnus Solutions\ Cygwin\
Environment Variables:
The following entries are made in the environment registry at HKLM\SYSTEM\CurrentControlSet\Control\Session Manager\Environment\:
CYGWIN
SCP_PATH
-----------------------
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