- siren 2 longer angle building 3 - Flaw exposes cities’ emergency alert sirens to hackers

An attacker, with the right equipment, could activate vulnerable “at least tens of miles away.” (Image: supplied)

A vulnerability in a popular emergency system, widely used across towns and , exposes sirens to hijack, allowing hackers to trigger false alarms.

Security researchers at Bastille, a security firm with a focus on finding radio frequency vulnerabilities, found that the vulnerability in emergency alert systems supplied by Boston-based ATI Systems can be exploited by sending a malicious activation message over the radio airwaves.

Because the radio protocol that ATI uses isn’t encrypted, activation messages can be forged.

This put cities like San Francisco and other major landmarks and installations at risk of , including One World Trade Center in New York, West Point Military Academy, and the Indian Point nuclear power station — all of which are ATI customers.

Read more: Dallas’ emergency sirens were hacked with a rogue radio signal | Emergency Alert System open to more ‘zombie’ hackers after accidental SSH key disclosure | New LTE attacks can snoop on messages, track locations and spoof emergency alerts | CNET: What you need to know about emergency cellphone alerts | Hawaii senator says feds should handle alerts

The vulnerability, dubbed “SirenJack,” might take some flak for becoming the latest in a long list of branded vulnerabilities with a name, a logo, and a website.

But the impact of the flaw could be serious if exploited

These emergency systems are found across the US, primarily used to warn against natural disasters and terrorist attacks, but also inbound threats from hostile nation states. The systems are far from perfect. Almost exactly a year ago, an unknown hacker replayed a radio signal used during regular scheduled tests of the system to maliciously trigger Dallas’ emergency alert system in the middle of the night.

Although the hack was more of an annoyance to Dallas residents, Bastille researchers say that this kind of attack could cause widespread panic.

Earlier this year, Hawaii officials mistakenly sent an emergency alert to mobile users in the state to warn of an incoming ballistic missile. The alert sent panic and confusion across the islands during the height of North Korea’s escalating nuclear missile testing.

Balint Seeber, director of threat research at Bastille, told ZDNet how the vulnerability works.

“ATI’s systems employ a custom digital radio protocol, using a well-known physical layer, designed to work over standard analog radio equipment (even $30 handheld radios),” he said.

He said that a replay attack — like what was used in Dallas — would not work because the protocol employs elements that change from week to week, but “do so in an easily discernible manner.” Regardless, the core payload used to activate the sirens remains the same each week.

“I collected recordings of each week’s test, decoded the transmissions, and built up a corpus of packets in which I was able to recognize the relevant patterns, thereby becoming certain that malicious activation payloads could be constructed by using the known activation payload and adding the correct additional bits adhering to the observed pattern,” he explained.

An attacker would have to be within radio range of the targeted city, he said.

But, in many emergency alert system setups, repeaters are used to amplify weaker signals and rebroadcast them over a wider area. With the right equipment, Seeber said, an attacker could be successful from “at least tens of miles away.”

Since their private disclosure in January, the researchers have confirmed that San Francisco, where Bastille first discovered the vulnerability, patched its systems in March. News of the firmware upgrade was first reported by StateScoop last week.

Bastille was asked not to test the since-patched systems, and was unable to verify the efficacy of the patch.

Seeber said that from passive observation that new transmissions in San Francisco appear to now be encrypted.

Though not all ATI systems have been patched, Bastille realeased some details of the vulnerability in line with its industry-standard, 90-day responsible disclosure policy.

But despite the coordinated disclosure schedule and press releases, A spokesperson for ATI sent a statement (which we have uploaded) just an hour before publication, claiming that Bastille’s work was “against the law.”

“Their recent activity was done by recording the communication protocol, which appears to be in violation of the FCC rules,” the statement said.

The statement appeared to backtrack an earlier statement that the company issued alongside Bastille’s statement.

In an earlier statement, ATI said it has “created a patch which adds additional security features to the command packets sent over the radio,” adding that the patches are undergoing testing and will be rolled out “shortly.”

But ATI’s new statement downplayed Bastille’s findings.

“The vulnerability is largely theoretical and has not yet been seen in the field,” the new statement read.

ATI also said it can “add additional encryption to make the commands as secure as possible if the client is concerned and can generate funding to finance the changes.”

The spokesperson said that, despite its claims, ATI has not launched legal action against Bastille.

Bastille also confirmed that systems in Sedgwick County, Kan., were vulnerable, along with several major university campuses and other military facilities in Arizona, Massachusetts, and South Carolina.

It’s not known if county officials will pay to secure their systems. Local officials did not respond to a request for comment.

Bastille researchers were not immediately available for comment at the time of publication.

Once we know more, we will update.


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Zack Whittaker can be reached securely on Signal and WhatsApp at 646-755–8849, and his PGP fingerprint for email is: 4D0E 92F2 E36A EC51 DAAE 5D97 CB8C 15FA EB6C EEA5.

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