Entries Tagged "hacking"

Page 28 of 78

Marriott Hack Reported as Chinese State-Sponsored

The New York Times and Reuters are reporting that China was behind the recent hack of Marriott Hotels. Note that this is still uncomfirmed, but interesting if it is true.

Reuters:

Private investigators looking into the breach have found hacking tools, techniques and procedures previously used in attacks attributed to Chinese hackers, said three sources who were not authorized to discuss the company’s private probe into the attack.

That suggests that Chinese hackers may have been behind a campaign designed to collect information for use in Beijing’s espionage efforts and not for financial gain, two of the sources said.

While China has emerged as the lead suspect in the case, the sources cautioned it was possible somebody else was behind the hack because other parties had access to the same hacking tools, some of which have previously been posted online.

Identifying the culprit is further complicated by the fact that investigators suspect multiple hacking groups may have simultaneously been inside Starwood’s computer networks since 2014, said one of the sources.

I used to have opinions about whether these attributions are true or not. These days, I tend to wait and see.

Posted on December 13, 2018 at 6:37 AMView Comments

Banks Attacked through Malicious Hardware Connected to the Local Network

Kaspersky is reporting on a series of bank hacks—called DarkVishnya—perpetrated through malicious hardware being surreptitiously installed into the target network:

In 2017-2018, Kaspersky Lab specialists were invited to research a series of cybertheft incidents. Each attack had a common springboard: an unknown device directly connected to the company’s local network. In some cases, it was the central office, in others a regional office, sometimes located in another country. At least eight banks in Eastern Europe were the targets of the attacks (collectively nicknamed DarkVishnya), which caused damage estimated in the tens of millions of dollars.

Each attack can be divided into several identical stages. At the first stage, a cybercriminal entered the organization’s building under the guise of a courier, job seeker, etc., and connected a device to the local network, for example, in one of the meeting rooms. Where possible, the device was hidden or blended into the surroundings, so as not to arouse suspicion.

The devices used in the DarkVishnya attacks varied in accordance with the cybercriminals’ abilities and personal preferences. In the cases we researched, it was one of three tools:

  • netbook or inexpensive laptop
  • Raspberry Pi computer
  • Bash Bunny, a special tool for carrying out USB attacks

Inside the local network, the device appeared as an unknown computer, an external flash drive, or even a keyboard. Combined with the fact that Bash Bunny is comparable in size to a USB flash drive, this seriously complicated the search for the entry point. Remote access to the planted device was via a built-in or USB-connected GPRS/3G/LTE modem.

Slashdot thread.

Posted on December 7, 2018 at 10:50 AMView Comments

That Bloomberg Supply-Chain-Hack Story

Back in October, Bloomberg reported that China has managed to install backdoors into server equipment that ended up in networks belonging to—among others—Apple and Amazon. Pretty much everybody has denied it (including the US DHS and the UK NCSC). Bloomberg has stood by its story—and is still standing by it.

I don’t think it’s real. Yes, it’s plausible. But first of all, if someone actually surreptitiously put malicious chips onto motherboards en masse, we would have seen a photo of the alleged chip already. And second, there are easier, more effective, and less obvious ways of adding backdoors to networking equipment.

EDITED TO ADD (12/17): SuperMicro now denies it.

Posted on November 30, 2018 at 6:28 AMView Comments

More Spectre/Meltdown-Like Attacks

Back in January, we learned about a class of vulnerabilities against microprocessors that leverages various performance and efficiency shortcuts for attack. I wrote that the first two attacks would be just the start:

It shouldn’t be surprising that microprocessor designers have been building insecure hardware for 20 years. What’s surprising is that it took 20 years to discover it. In their rush to make computers faster, they weren’t thinking about security. They didn’t have the expertise to find these vulnerabilities. And those who did were too busy finding normal software vulnerabilities to examine microprocessors. Security researchers are starting to look more closely at these systems, so expect to hear about more vulnerabilities along these lines.

Spectre and Meltdown are pretty catastrophic vulnerabilities, but they only affect the confidentiality of data. Now that they—and the research into the Intel ME vulnerability—have shown researchers where to look, more is coming—and what they’ll find will be worse than either Spectre or Meltdown. There will be vulnerabilities that will allow attackers to manipulate or delete data across processes, potentially fatal in the computers controlling our cars or implanted medical devices. These will be similarly impossible to fix, and the only strategy will be to throw our devices away and buy new ones.

We saw several variants over the year. And now researchers have discovered seven more.

Researchers say they’ve discovered the seven new CPU attacks while performing “a sound and extensible systematization of transient execution attacks”—a catch-all term the research team used to describe attacks on the various internal mechanisms that a CPU uses to process data, such as the speculative execution process, the CPU’s internal caches, and other internal execution stages.

The research team says they’ve successfully demonstrated all seven attacks with proof-of-concept code. Experiments to confirm six other Meltdown-attacks did not succeed, according to a graph published by researchers.

Microprocessor designers have spent the year rethinking the security of their architectures. My guess is that they have a lot more rethinking to do.

Posted on November 14, 2018 at 3:30 PMView Comments

How to Punish Cybercriminals

Interesting policy paper by Third Way: “To Catch a Hacker: Toward a comprehensive strategy to identify, pursue, and punish malicious cyber actors“:

In this paper, we argue that the United States currently lacks a comprehensive overarching strategic approach to identify, stop and punish cyberattackers. We show that:

  • There is a burgeoning cybercrime wave: A rising and often unseen crime wave is mushrooming in America. There are approximately 300,000 reported malicious cyber incidents per year, including up to 194,000 that could credibly be called individual or system-wide breaches or attempted breaches. This is likely a vast undercount since many victims don’t report break-ins to begin with. Attacks cost the US economy anywhere from $57 billion to $109 billion annually and these costs are increasing.
  • There is a stunning cyber enforcement gap: Our analysis of publicly available data shows that cybercriminals can operate with near impunity compared to their real-world counterparts. We estimate that cyber enforcement efforts are so scattered that less than 1% of malicious cyber incidents see an enforcement action taken against the attackers.
  • There is no comprehensive US cyber enforcement strategy aimed at the human attacker: Despite the recent release of a National Cyber Strategy, the United States still lacks a comprehensive strategic approach to how it identifies, pursues, and punishes malicious human cyberattackers and the organizations and countries often behind them. We believe that the United States is as far from this human attacker strategy as the nation was toward a strategic approach to countering terrorism in the weeks and months before 9/11.

In order to close the cyber enforcement gap, we argue for a comprehensive enforcement strategy that makes a fundamental rebalance in US cybersecurity policies: from a heavy focus on building better cyber defenses against intrusion to also waging a more robust effort at going after human attackers. We call for ten US policy actions that could form the contours of a comprehensive enforcement strategy to better identify, pursue and bring to justice malicious cyber actors that include building up law enforcement, enhancing diplomatic efforts, and developing a measurable strategic plan to do so.

Posted on November 2, 2018 at 6:01 AMView Comments

China's Hacking of the Border Gateway Protocol

This is a long—and somewhat technical—paper by Chris C. Demchak and Yuval Shavitt about China’s repeated hacking of the Internet Border Gateway Protocol (BGP): “China’s Maxim ­ Leave No Access Point Unexploited: The Hidden Story of China Telecom’s BGP Hijacking.”

BGP hacking is how large intelligence agencies manipulate Internet routing to make certain traffic easier to intercept. The NSA calls it “network shaping” or “traffic shaping.” Here’s a document from the Snowden archives outlining how the technique works with Yemen.

EDITED TO ADD (10/27): Boing Boing post.

Posted on October 24, 2018 at 6:00 AMView Comments

Another Bloomberg Story about Supply-Chain Hardware Attacks from China

Bloomberg has another story about hardware surveillance implants in equipment made in China. This implant is different from the one Bloomberg reported on last week. That story has been denied by pretty much everyone else, but Bloomberg is sticking by its story and its sources. (I linked to other commentary and analysis here.)

Again, I have no idea what’s true. The story is plausible. The denials are about what you’d expect. My lone hesitation to believing this is not seeing a photo of the hardware implant. If these things were in servers all over the US, you’d think someone would have come up with a photograph by now.

EDITED TO ADD (10/12): Three more links worth reading.

Posted on October 11, 2018 at 6:29 AMView Comments

New Variants of Cold-Boot Attack

If someone has physical access to your locked—but still running—computer, they can probably break the hard drive’s encryption. This is a “cold boot” attack, and one we thought solved. We have not:

To carry out the attack, the F-Secure researchers first sought a way to defeat the the industry-standard cold boot mitigation. The protection works by creating a simple check between an operating system and a computer’s firmware, the fundamental code that coordinates hardware and software for things like initiating booting. The operating system sets a sort of flag or marker indicating that it has secret data stored in its memory, and when the computer boots up, its firmware checks for the flag. If the computer shuts down normally, the operating system wipes the data and the flag with it. But if the firmware detects the flag during the boot process, it takes over the responsibility of wiping the memory before anything else can happen.

Looking at this arrangement, the researchers realized a problem. If they physically opened a computer and directly connected to the chip that runs the firmware and the flag, they could interact with it and clear the flag. This would make the computer think it shut down correctly and that the operating system wiped the memory, because the flag was gone, when actually potentially sensitive data was still there.

So the researchers designed a relatively simple microcontroller and program that can connect to the chip the firmware is on and manipulate the flag. From there, an attacker could move ahead with a standard cold boot attack. Though any number of things could be stored in memory when a computer is idle, Segerdahl notes that an attacker can be sure the device’s decryption keys will be among them if she is staring down a computer’s login screen, which is waiting to check any inputs against the correct ones.

Posted on September 24, 2018 at 6:52 AMView Comments

Security Risks of Government Hacking

Some of us—myself included—have proposed lawful government hacking as an alternative to backdoors. A new report from the Center of Internet and Society looks at the security risks of allowing government hacking. They include:

  • Disincentive for vulnerability disclosure
  • Cultivation of a market for surveillance tools
  • Attackers co-opt hacking tools over which governments have lost control
  • Attackers learn of vulnerabilities through government use of malware
  • Government incentives to push for less-secure software and standards
  • Government malware affects innocent users.

These risks are real, but I think they’re much less than mandating backdoors for everyone. From the report’s conclusion:

Government hacking is often lauded as a solution to the “going dark” problem. It is too dangerous to mandate encryption backdoors, but targeted hacking of endpoints could ensure investigators access to same or similar necessary data with less risk. Vulnerabilities will never affect everyone, contingent as they are on software, network configuration, and patch management. Backdoors, however, mean everybody is vulnerable and a security failure fails catastrophically. In addition, backdoors are often secret, while eventually, vulnerabilities will typically be disclosed and patched.

The key to minimizing the risks is to ensure that law enforcement (or whoever) report all vulnerabilities discovered through the normal process, and use them for lawful hacking during the period between reporting and patching. Yes, that’s a big ask, but the alternatives are worse.

This is the canonical lawful hacking paper.

Posted on September 13, 2018 at 9:08 AMView Comments

Using Hacked IoT Devices to Disrupt the Power Grid

This is really interesting research: “BlackIoT: IoT Botnet of High Wattage Devices Can Disrupt the Power Grid“:

Abstract: We demonstrate that an Internet of Things (IoT) botnet of high wattage devices—such as air conditioners and heaters—gives a unique ability to adversaries to launch large-scale coordinated attacks on the power grid. In particular, we reveal a new class of potential attacks on power grids called the Manipulation of demand via IoT (MadIoT) attacks that can leverage such a botnet in order to manipulate the power demand in the grid. We study five variations of the MadIoT attacks and evaluate their effectiveness via state-of-the-art simulators on real-world power grid models. These simulation results demonstrate that the MadIoT attacks can result in local power outages and in the worst cases, large-scale blackouts. Moreover, we show that these attacks can rather be used to increase the operating cost of the grid to benefit a few utilities in the electricity market. This work sheds light upon the interdependency between the vulnerability of the IoT and that of the other networks such as the power grid whose security requires attention from both the systems security and power engineering communities.

I have been collecting examples of surprising vulnerabilities that result when we connect things to each other. This is a good example of that.

Wired article.

Posted on September 11, 2018 at 6:25 AMView Comments

1 26 27 28 29 30 78

Sidebar photo of Bruce Schneier by Joe MacInnis.