Category Archives: FortiOS

Call Re-invite messages

SIP Re-INVITE messages can dynamically add and remove media sessions during a call. When new media sessions are added to a call the SIP ALG opens new pinholes and update SIP dialog data. When media sessions are ended, the SIP ALG closes pinholes that are no longer needed and removes SIP dialog data.

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How the SIP ALG performs NAT

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How the SIP ALG performs NAT

In most Network Address Translation (NAT) configurations, multiple hosts in a private network share a single public IP address to access the Internet. For sessions originating on the private network for the Internet, NAT replaces the private IP address of the PC in the private subnet with the public IP address of the NAT device. The NAT device converts the public IP address for responses from the Internet back into the private address before sending the response over the private network to the originator of the session.

Using NAT with SIP is more complex because of the IP addresses and media stream port numbers used in SIP message headers and bodies. When a caller on the private network sends a SIP message to a phone or SIP server on the Internet, the SIP ALG must translate the private network addresses in the SIP message to IP addresses and port numbers that are valid on the Internet. When the response message is sent back to the caller, the SIP ALG must translate these addresses back to valid private network addresses.

In addition, the media streams generated by the SIP session are independent of the SIP message sessions and use varying port numbers that can also change during the media session. The SIP ALG opens pinholes to accept these media sessions, using the information in the SIP messages to determine the pinholes to open. The ALG may also perform port translation on the media sessions.

When an INVITE message is received by the SIP ALG, the FortiGate unit extracts addressing and port number information from the message header and stores it in a SIP dialog table. Similar to an IP session table the data in the dialog table is used to translate addresses in subsequent SIP messages that are part of the same SIP call.

When the SIP ALG receives a response to the INVITE message arrives, (for example, an ACK or 200 OK), the SIP ALG compares the addresses in the message fields against the entries in the SIP dialog table to identify the call context of the message. The SIP ALG then translates addresses in the SIP message before forwarding them to their destination.

The addressing and port number information in SDP fields is used by the ALG to reserve ports for the media session and create a NAT mapping between them and the ports in the SDP fields. Because SDP uses sequential ports for the RTP and RTCP channels, the ALG provides consecutive even-odd ports.

Source address translation

When a SIP call is started by a phone on a private network destined for a phone on the Internet, only source address translation is required. The phone on the private network attempts to contact the actual IP address of the phone on the Internet. However, the source address of the phone on the private network is not routable on the Internet so the SIP ALG must translate all private IP addresses in the SIP message into public IP addresses.

To configure the FortiGate for source address translation you add security policy that accepts sessions from the internal network destined for the Internet. You must enable NAT for the security policy and add a VoIP profile.

When a SIP request is received from the internal to the external network, the SIP ALG replaces the private network IP addresses and port numbers in the SIP message with the IP address of the FortiGate interface connected to the Internet. Depending on the content of the message, the ALG translates addresses in the Via:, Contact:, Route:, and Record-Route: SIP header fields. The message is then forwarded to the destination (either a VoIP phone or a SIP server on the Internet).

The VoIP phone or server in the Internet sends responses to these SIP messages to the external interface of the FortiGate unit. The addresses in the response messages are translated back into private network addresses and the response is forwarded to the originator of the request.

For the RTP communication between the SIP phones, the SIP ALG opens pinholes to allow media through the FortiGate unit on the dynamically assigned ports negotiated based on information in the SDP and the Via:, Contact:, and Record-Route: header fields. The pinholes also allow incoming packets to reach the Contact:, Via:, and Record-Route: IP addresses and ports. When processing return traffic, the SIP ALG inserts the original Contact:, Via:, Route:, and Record-Route: SIP fields back into the packets.

Destination address translation

Incoming calls are directed from a SIP phone on the Internet to the interface of the FortiGate unit connected to the Internet. To receive these calls you must add a security policy to accept SIP sessions from the Internet. The security policy requires a firewall virtual IP. SIP INVITE messages from the Internet connect to the external IP address of the virtual IP. The SIP ALG uses the destination address translation defined in the virtual IP to translated the addresses in the SIP message to addresses on the private network.

When a 200 OK response message arrives from the private network, the SIP ALG translates the addresses in the message to Internet addresses and opens pinholes for media sessions from the private network to the Internet.

When the ACK message is received for the 200 OK, it is also intercepted by the SIP ALG. If the ACK message contains SDP information, the SIP ALG checks to determine if the IP addresses and port numbers are not changed from the previous INVITE. If they are, the SIP ALG deletes pinholes and creates new ones as required. The ALG also monitors the Via:, Contact:, and Record-Route: SIP fields and opens new pinholes as required.

Accepting SIP register responses

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Accepting SIP register responses

You can enable the VoIP profile open-via-pinhole options to accept a SIP Register response message from a SIP server even if the source port of the Register response message is different from the destination port.

Most SIP servers use 5060 as the source port in the SIP register response. Some SIP servers, however, may use a different source port. If your SIP server uses a different source port, you can enable open-via-pinhole and the SIP ALG will create a temporary pinhole when the Register request from a SIP client includes a different source port. The FortiGate unit will accept a SIP Register response with any source port number from the SIP server.

Enter the following command to enable accepting any source port from a SIP server:

config voip profile edit VoIP_Pro_1

config sip

set open-via-pinhole enable end

end

Opening and closing SIP register, contact, via and record-route pinholes

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Opening and closing SIP register, contact, via and record-route pinholes

You can use the open-register-pinhole, open-contact-pinhole, open-via-port, and open- record-route-pinhole VoIP profile CLI options to control whether the FortiGate unit opens various pinholes.

If open-register-pinhole is enabled (the default setting) the FortiGate unit opens pinholes for SIP Register request messages. You can disable open-register-pinhole so that the FortiGate unit does not open pinholes for SIP Register request messages.

If open-contact-pinhole is enabled (the default setting) the FortiGate unit opens pinholes for non-Register SIP request messages. You can disable open-contact-pinhole so that the FortiGate unit does not open pinholes for non-register requests. Non-register pinholes are usually opened for SIP INVITE requests.

If open-via-pinhole is disabled (the default setting) the FortiGate unit does not open pinholes for Via messages. You can enable open-via-pinhole so that the FortiGate unit opens pinholes for Via messages.

If open-record-route-pinhole is enabled (the default setting) the FortiGate unit opens pinholes for Record-Route messages. You can disable open-record-route-pinhole so that the FortiGate unit does not open pinholes for Record-Route messages.

Usually you would want to open these pinholes. Keeping them closed may prevent SIP from functioning properly through the FortiGate unit. They can be disabled, however, for interconnect scenarios (where all SIP traffic is between proxies and traveling over a single session). In some cases these settings can also be disabled in access scenarios if it is known that all users will be registering regularly so that their contact information can be learned from the register request.

You might want to prevent pinholes from being opened to avoid creating a pinhole for every register or non- register request. Each pinhole uses additional system memory, which can affect system performance if there are hundreds or thousands of users, and requires refreshing which can take a relatively long amount of time if there are thousands of active calls.

To configure a VoIP profile to prevent opening register and non-register pinholes:

config voip profile edit VoIP_Pro_1

config sip

end

set open-register-pinhole disable set open-contact-pinhole disable

end

In some cases you may not want to open pinholes for the port numbers specified in SIP Contact headers. For example, in an interconnect scenario when a FortiGate unit is installed between two SIP servers and the only SIP traffic through the FortiGate unit is between these SIP servers pinholes may not need to be opened for the port numbers specified in the Contact header lines.

If you disable open-register-pinhole then pinholes are not opened for ports in Contact header lines in SIP Register messages. If you disable open-contact-pinhole then pinholes are not opened for ports in Contact header lines in all SIP messages except SIP Register messages.

RTP enable/disable (RTP bypass)

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RTP enable/disable (RTP bypass)

You can configure the SIP ALG to stop from opening RTP pinholes. Called RTP bypass, this configuration can be used when you want to apply SIP ALG features to SIP signalling messages but do not want the RTP media streams to pass through the FortiGate unit. The FortiGate unit only acts as a signalling firewall and RTP media session bypass the FortiGate unit and no pinholes need to be created.

Enter the following command to enable RTP bypass in a VoIP profile by disabling opening RTP pinholes:

config voip profile edit VoIP_Pro_1

config sip

set rtp disable end

end

Configuration example: SIP in Transparent Mode

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Configuration example: SIP in Transparent Mode

The figure below hows an example SIP network consisting of a FortiGate unit operating in Transparent mode between two SIP phones. Since the FortiGate unit is operating in Transparent mode both phones are on the same network and the FortiGate unit and the SIP ALG does not perform NAT. Even though the SIP ALG is not performing NAT you can use this configuration to apply SIP security features to the SIP traffic.

The FortiGate unit requires two security policies that accept SIP packets. One to allow SIP Phone A to start a session with SIP Phone B and one to allow SIP Phone B to start a session with SIP Phone A.

SIP network with FortiGate unit in Transparent mode

Po Port2

SIP Phone A (PhoneA@10.31.101.20)

rt1 P

FortiGate unit in Transparent mode SIP Phone B (PhoneB@10.31.101.30)

General configuration steps

The following general configuration steps are required for this SIP configuration. This example uses the default VoIP profile. The example also includes security policies that specifically allow SIP sessions using UDP port 5060 from Phone A to Phone B and from Phone B to Phone A. In most cases you would have more than two phones so would use more general security policies. Also, you can set the security service to ANY to allow traffic other than SIP on UDP port 5060.

1. Add firewall addresses for Phone A and Phone B.

2. Add a security policy that accepts SIP sessions initiated by Phone A and includes the default VoIP profile.

3. Add a security policy that accepts SIP sessions initiated by Phone B and includes the default VoIP profile.

Configuration steps – web-based manage

Before you begin this procedure you may have to go to System > Feature Select and turn on VoIP.

To add firewall addresses for the SIP phones

1. Go to Policy & Objects > Addresses.

2. Add the following addresses for Phone A and Phone B:

Category Address

Name Phone_A

Type IP/Netmask

Subnet / IP Range 10.31.101.20/255.255.255.255

Interface port1

Category Address

Name Phone_B

Type IP/Netmask

Subnet / IP Range 10.31.101.30/255.255.255.255

Interface port2

To add security policies to apply the SIP ALG to SIP sessions

1. Go to Policy & Objects > IPv4 Policy.

2. Add a security policy to allow Phone A to send SIP request messages to Phone B:

Incoming Interface port1

Outgoing Interface port2

Source Phone_A

Destination Address Phone_B

Schedule always

Service SIP

Action ACCEPT

3. Turn on VoIP and select the default VoIP profile.

4. Select OK.

5. Add a security policy to allow Phone B to send SIP request messages to Phone A:

Incoming Interface port2

Outgoing Interface port1

Source Phone_B

Destination Address Phone_A

Schedule always

Service SIP

Action ACCEPT

6. Turn on VoIP and select the default VoIP profile.

7. Select OK.

Configuration steps – CLI

To add firewall addresses for Phone A and Phone B and security policies to apply the SIP ALG to SIP

sessions

1. Enter the following command to add firewall addresses for Phone A and Phone B.

config firewall address edit Phone_A

set associated-interface port1 set type ipmask

set subnet 10.31.101.20 255.255.255.255 next

edit Phone_B

set associated-interface port2 set type ipmask

set subnet 10.31.101.30 255.255.255.255 end

2. Enter the following command to add security policies to allow Phone A to send SIP request messages to Phone B

and Phone B to send SIP request messages to Phone A.

config firewall policy edit 0

set srcintf port1 set dstintf port2 set srcaddr Phone_A set dstaddr Phone_B set action accept set schedule always set service SIP

set utm-status enable

set voip-profile default next

edit 0

set srcintf port2 set dstintf port1 set srcaddr Phone_B set dstaddr Phone_A set action accept set schedule always set service SIP

set utm-status enable

set voip-profile default

end

How the SIP ALG creates RTP pinholes

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How the SIP ALG creates RTP pinholes

The SIP ALG requires the following information to create a pinhole. The SIP ALG finds this information in SIP messages and some is provided by the SIP ALG:

Protocol UDP (Extracted from SIP messages by the SIP ALG.)

Source IP Any

Source port Any

Destination IP

The SIP ALG extracts the destination IP address from the c= line in the SDP profile. The c= line can appear in either the session or media part of the SDP profile. The SIP ALG uses the IP address in the c= line of the media part of the SDP profile first. If the media part does not contain a c= line, the SIP ALG checks the c= line in the session part of the SDP profile. If the session part of the profile doesn’t contain a c= line the packet is dropped. Pinholes for RTP and RTCP sessions share the same destination IP address.

Destination port The SIP ALG extracts the destination port number for RTP from the m= field and adds 1 to this number to get the RTCP port number.

Lifetime The length of time during which the pinhole will be open. When the lifetime ends, the SIP ALG removes the pinhole.

The SIP ALG keeps RTP pinholes open as long as the SIP session is alive. When the associated SIP session is terminated by the SIP ALG or the SIP phones or servers participating in the call, the RTP pinhole is closed.

The figure below shows a simplified call setup sequence that shows how the SIP ALG opens pinholes. Phone A and Phone B are installed on either side of a FortiGate unit operating in Transparent mode. Phone A and Phone B are on the same subnet. The FortiGate unit includes a security policy that accepts SIP sessions from port1 to port2 and from port2 to port1. The FortiGate unit does not require an RTP security policy, just the SIP policy.

You can see from this diagram that the SDP profile in the INVITE request from Phone A indicates that Phone A is expecting to receive a media stream sent to its IP address using port 4000 for RTP and port 4001 for RTCP. The SIP ALG creates pinhole 1 to allow this media traffic to pass through the FortiGate unit. Pinhole 1 is opened on the Port2 interface and will accept media traffic sent from Phone B to Phone A.

When Phone B receives the INVITE request from Phone A, Phone B will know to send media streams to Phone A using destination IP address 10.31.101.20 and ports 4000 and 4001. The 200 OK response sent from Phone B indicates that Phone B is expecting to receive a media stream sent to its IP address using ports 8000 and 8001. The SIP ALG creates pinhole 2 to allow this media traffic to pass through the FortiGate unit. Pinhole 2 is opened on the Port1 interface and will accept media traffic sent from Phone A to Phone B.

SIP call setup with a FortiGate unit in Transparent mode

ort1 Po

FortiGate unit

P t Port2

SIP Phone A (PhoneA@10.31.101.20)

in Transparent mode

SIP Phone B (PhoneB@10.31.101.30)

Phone A sends an INVITE request to Phone B (SDP 10.31.101.20:4000)

SIP ALG creates Pinhole 1. Accepts traffic on Port2 with destination address:port numbers 10.31.101.20:4000 and 4001

The SIP ALG forwards the INVITE request Phone B.

Phone B sends a 200 OK response to Phone A (SDP: 10.31.101.30:8000)

SIP ALG creates Pinhole 2. Accepts traffic on Port1 with destination address:port numbers 10.31.101.30:8000 and 8001

Phone B sends RTP and RTCP media sessions to Phone A through pinhole 1. Destination address:port number 172.20.120.20:4000 and 4001 Pinhole 1

Phone A sends RTP and RTCP media sessions to Phone B through pinhole 2. Destination address:port number 172.20.120.30:8000 and 8001 Pinhole 2

SIP and RTP/RTCP

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SIP and RTP/RTCP

FortiGate units support the Real Time Protocol (RTP) application layer protocol for the VoIP call audio stream. RTP uses dynamically assigned port numbers that can change during a call. SIP control messages that start a call and that are sent during the call inform callers of the port number to use and of port number changes during the call.

During a call, each RTP session will usually have a corresponding Real Time Control Protocol (RTCP) session. By default, the RTCP session port number is one higher than the RTP port number.

The RTP port number is included in the m= part of the SDP profile. In the example above, the SIP INVITE message includes RTP port number is 49170 so the RTCP port number would be 49171. In the SIP response message the RTP port number is 3456 so the RTCP port number would be 3457.