What is signaling in telecommunication? - SecurityGen/secgen GitHub Wiki

Index: In this blog, we have discussed various signaling in telecommunication channels, signaling firewalls, and various types of signaling protocols that exist for telecommunication.

Signaling and channel controlling- Signaling is the use of signals to control communications in telecommunications. This could be an information exchange about establishing and controlling a telecommunication circuit and network management. In-band signaling in public switched telephone networks (PSTN) refers to the exchange of call control information over the same physical channel or frequency band the telephone call uses. Dual-tone multi-frequency signaling (DTMF), for example, is used on most telephone lines to customer premises. Out-of-band signaling is telecommunication signaling that occurs on a separate channel from the one used for the phone call. Out-of-band signaling has been used since the preface of Signaling System No. 6 (SS6) in the 1970s and Signaling System No. 7 (SS7) in 1980, which has since become the standard for signaling among exchanges. Line signaling is concerned with conveying information about the state of a line or channel, such as on-hook, off-hook (answer and disconnect supervision, referred to collectively as supervision), ringing, and hook flash. Register signaling is concerned with communicating and addressing information, such as the calling and/or dialed phone number. In the early days of telephony, with the operator handling calls, the addressing building is by voice as "Operator, connect me to Mr. Xplease."

A signaling channel dedicated to a specific bearer channel is used in channel-associated signaling (CAS).CCS employs a signaling channel that conveys signaling information about multiple bearer channels. As a result, these bearer channels share a signaling channel. Compelled signaling is signaling in which each signal received from an originating register must be explicitly acknowledged before the next signal can be sent.

What is a Signalling firewall? The SS7 firewall is a "signaling firewall" that protects mobile operators from SS7 attacks. The SS7 firewall safeguards legacy networks (based on SS7) against potential attacks, unauthorized senders, malformed messages, stolen mobile identities, and other threats. The SS7 Firewall adheres to the FS.11 GSMA guidelines for SS7 signaling firewalls.

The SS7 firewall is a single-engine software solution that supports multiple signaling protocols, including Diameter, HTTP/2, SS7, and others. A threat to one domain is considered a threat to all domains by Secgen. As a result, the signaling firewall offers service providers a path to gradual migration and centralized security architecture across Diameter, SS7, and HTTP/2 - all of which are required for 5G signaling operations. Because of the technical flaw discovered in SS7 - one of the largest infrastructure loopholes in the telecom web that has become a source of fear and paranoia - the SS7 firewall is gaining traction in the telecom and service provider industries. It demonstrates that the traditional approach to signaling security per access technology (and protocol) is no longer adequate. Security products are frequently designed assuming that securing a single protocol technology is adequate. Never before have mobile networks been so vulnerable to cyber-attacks from the connected world, making 5G security a critical component of your 5G Transition and, by extension, Mobile Solutions.

What is SS7 protocol in telecom? The Signaling System 7 (SS7) protocol standard specifies how network elements in public switched telephone network (PSTN) exchange information and control signals. Signaling cusps are nodes in an SS7 network. The system governs how phone calls are routed and billed and enables advanced calling features and Short Message Service (SMS). It is also known as Signaling System No. 7, or Common Channel Signaling System 7, in the US. SS7 was first adopted as an international standard in 1988, with the most recent revision occurring in 1993. It is still the current telephone standard and is used for landline and mobile phone service up to and including 5G. Before digital encryption and authentication were widely used, the telecommunications (telecom) industry developed Signaling System 7. This means that SS7 messages and services can be easily intercepted and forged. The SS7 network's primary security feature is that it is a closed system; only telecom operators have access. Most end users and hackers cannot access the entire system.

What are SS7 and SIGTRAN? SS7 and SIGTRAN are protocols designed to transport voice call signaling information. To make a call, signaling information must be transmitted over the network alongside the audio for the telephone conversation to reach its recipient, whether a carrier or a receiver endpoint. As a result, the SS7 and SIGTRAN protocols were developed to allow this data to be transmitted without contending for space or vacant voice channels. In other words, an "additional path" was established to transport the call signaling data. SS7 (Signaling System 7) is an international communication standard that transfers PTSN traffic congestion to a digital wireline or wireless broadband network. It has high-speed circuit switches and digital signaling points exchange information between SS7-capable nodes. SMS messages will be delivered faster, with little lead time when receiving or sending them. It also reduces the need for additional resources, making it a more cost-effective method for message termination.

SIGTRAN, or Signaling Transport, is another IT protocol that extends the SS7 family. It is distinct in that it employs a specific IP transport, the Stream Control Transmission Protocol (SCTP). It transmits SS7 signals over the internet using the SIGTRAN SS7 Gateway. SIGTRAN Gateway uses the internet as a resource for quick global delivery. It extends the reach of SMS messaging by utilizing the internet for global high-speed delivery and ensures that more text messages are sent simultaneously. Sigtran, like other protocols, has a protocol stack. The IP layer is the bottom layer, and any ss7 application layer can be on top (e.g., INAP, CAP, MAP). There are Sigtran layers in the Sigtran stack (M3UA, M2PA, M2UA, etc.). Each layer offers services to the upper layer and employs SCTP for network transport.

The Internet and ways to secure the network system- The Internet is another network that has grown rapidly over time. Hardware growth ranged from metal cables to fiber optics. This enabled the fast transfer of IP packets, but it still lacked other requirements to be useful for telecom. TCP, or Transmission Control Protocol, was the only connection-oriented protocol to establish a virtual circuit over an IP network. It is dependable, but it is not suitable for telecom due to the following shortcomings. In such alarming times, the biggest security company, SECGEN, has deployed the most skilled engineers to make the signaling more secure and strong. Complex methods are being indulged in saving the network from hackers.