Tag Archives: PCI

Building Defense Out of Disaster; Learning from the Target Breach

If you’ve ever parented a teen, you might have noticed that the human species sometimes only learns hard lessons after suffering—firsthand—through the negative consequences of an experience. As much as we try to warn our kids of the potential risks of certain decisions (usually based on mistakes we’ve already made ourselves), it seems they occasionally have to get “burned” before learning themselves.

Unfortunately, evangelizing information security (InfoSec) best practices sometimes seems like giving advice to teens. Everyone understands what you are saying, and might even see some logic behind your advice, but still secretly thinks, “That horrible network breach won’t happen to me; I’m fine with just my [insert some legacy defense here].”

Nonetheless, I still sincerely believe we can learn from history if we pay close enough attention to what it tells us. With that in mind, let’s take a closer look at what the industry knows so far about the Target data breach, so we can try to learn from someone else’s painful experience.

In this article, I will describe:

There’s a lot to cover, so I’ll jump right in, but feel free to skip to whatever section most interests you.

Let’s Start with the Facts So Far

Though you’d have to live with an undiscovered, indigenous tribe in Papa New Guinea to not have heard about it, let me share a few facts about the Target breach, as we know them so far.

  • On Dec. 18th, 2013, Brian Krebs reports that sources had informed him Target was investigating a potentially big data breach.
  • Dec. 19th, Target officially confirms and discloses the first real information about the breach, sharing the following:
    • Between Nov. 27 and Dec. 15, unknown attackers breached Target’s network and stole the debit and credit card data of 40 million account holders.
    • The stolen data included the card’s magnetic track information (track 1 and track 2 data), which includes the cardholder’s name, card expiration data, and CVV number (but not CVV2 number).
    • Target also noted that the breach did NOT affect their online shoppers, which suggests it was not due to a web application vulnerability in their e-commerce site.
  • Dec. 20th, Target’s CEO apologizes to customers for the data breach.
  • Dec. 27th, Target warns the attackers also stole the PIN information associated with the cards, contrary to their original report. However, the PINs were scrambled with Triple-DES encryption (and probably salted); thus, likely unrecoverable by the attackers.
  • Jan. 10th, Target disclosed that the attackers had also stolen 70 million other accounts, unrelated to the cardholder data. These accounts contained a lot of personally identifying information (PII), including names, addresses, phone numbers, and email accounts. Though there is likely customer overlap between the 40 million cardholder records and the 70 million account records, the total account loss jumps to 110 million.
  • Jan. 10th, Krebs also reports that Neiman Marcus and three other unnamed small retailers are also investigating a network infiltration and card data breach. Despite the parallel timeline, this breach seems unrelated so far, though similar.
  • Jan. 13th, we learn the first technical detail about the breach. In a video interview with CNBC, Target’s CEO shares that Point-of-Sale (PoS) malware was found on Target PoS register systems (more likely, it was found on the central servers responsible for processing the register transactions)
  • Jan. 15th, Krebs claims that the PoS malware associated with the breach is BlackPoS, a malware variant I talked about early last year.
  • Jan. 16th, iSIGHT Partners claim that the Target malware was not directly BlackPoS, rather a derivative variant called Trojan.POSRAM . They call the attack campaign KAPTOXA. The Wall Street Journal also leaks a 16-page report by iSIGHT and the US government, detailing the malware and some “indicators of compromise,” intended for private distribution to big retailers and security companies.
  • Jan. 17th, a security research firm called Intercrawler allegedly ties the BlackPoS malware to a 17-year-old hacker from Russia, along with another Russian “bad actor.” However, it’s still unclear if these actors are really associated directly with the Target breach, or just created and sold the malware.
  • Jan 20th, Texan authorities arrest two credit card fraudsters that used fraudulent cards allegedly associated with the Target breach, and may (or may not) be associated with the breach.
  • Jan 23th, Neiman Marcus finally shares some details about their breach. They say attackers stole 1.1 million credit cards and that the breach occured between July 16 and Oct. 30.
  • Jan 23thFBI warns retailers to expect more PoS system attacks. Be on the lookout for retail cyber attackers.
  • Jan 25th, Michaels craft stores also report they suffered from a payment system breach. It’s still unclear whether it’s related to the Target breach.
  • Jan 29th, Brian Krebs released a story identifying a popular IT management server product that may have played a role in the target breach.

So now you know all that’s publicly disclosed about the attacks so far. However, I think it’s just as important to recognize what we don’t know about this attack yet.

  • We don’t know how  attackers got the PoS malware into Target’s network and onto PoS systems (It could be spear phishing, watering hole attacks, web application flaws, or an insider attack).
  • We don’t know if Target made any sort of security mistake or wrongdoing. In fact, I’d argue that so far it sounds like they are handling this horrible situation pretty responsibly.  Signs point toward them following basic security and encryption best practices so far, and having invested in at least some security (though we still don’t know all the details). At the very least, they had been PCI compliant.

Hey, I Shop at Target! What Should I Do?

Before I move on to what other retailers, businesses, and security practitioners might learn from this breach, let’s first talk about what to do if you are a normal Target shopper yourself.

If you shopped at Target between Nov. 25 and Dec. 15, like my wife did, you likely have already received a letter or email from Target warning you about the breach, and you’re wondering what to do as a consumer. Well, my advice all comes down to remain vigilant!

During the breach, attackers stole two distinctly different types of information, both of which serve different purposes to attackers:

  1. Credit card magnetic stripe data – They can use this to create fake credit cards for physical purchases, or physical ATM withdrawals (if they can decode the PINs, which is unlikely).
  2. Personally Identifying Information (PII) – They have 70 million customer names, numbers, addresses, and emails, which they can start to use for identity theft (though they’d probably have to first get your social security number, too), or they can use the email addresses in future phishing attacks.

As far as the PII is concerned… Frankly things like your name, address, phone number, and email are probably already out there. The additional risk on this info due to the Target breach isn’t zero, but it’s probably relatively negligible.  Furthermore, without other information, like your social security number (or your national ID number if you’re outside the US), attackers don’t have enough info to totally steal your identity. Nonetheless, you should monitor your credit to make sure fraudsters aren’t registering new accounts as you, and be on the lookout for scam emails that seem to come from Target.

The credit card data leak has more severe repercussions though. The good news is most experts believe the attackers do not have enough information to make unattended, online (sometimes called card-not-present) purchases with this stolen card data. For instance, even though a credit card stores a CVV number on its magnetic stripe (magstripe), it doesn’t store the CVV2 number there. The CVV2 is the physically written number on your card, which you use to confirm online purchases. That said, attackers do have enough data to make a clone copy of your card, which they can try to use to make fraudulent, in-person purchases. Finally, if they do crack the supposedly protected PINs, they could also make ATM withdrawals, like in the big $45 million dollar ATM heist of last year.

With that in mind, here are four things you can do to protect yourself from the Target credit card data theft. The tips are in order of importance.

    1. Monitor your credit – Pay attention to your credit card statements regularly and look for unexpected purchases. You should also sign up for Target’s free year of credit monitoring and identity theft protection (details here). The good news here is Target has made a promise of “zero liability,” meaning if you find fraudulent charges on a card due to this breach, Target or your bank will pay for them.

      As an aside, these credit-monitoring agencies will likely ask you for personal information, like your social security number, when you sign up. While it might seem ironic to be sharing such sensitive information again, do know the agencies already have your information (since you have a credit card), they are just asking for it to verify who you are. There really is no additional harm in giving it to them again. Also, you really ought to always monitor your credit, as a general rule, and Lifehacker shares a great article with tips on how you can do so for free.
    2. Change your card’s PIN – Though Target is still fairly adamant that they don’t believe the attackers can decrypt the PIN data they stole; I recommend you change your card’s PIN anyway (for any cards you used at Target during the breach period). Changing a card’s PIN is a relatively easy and painless process, and it’s better to be safe than sorry.
    3. Get a new credit card – So far Target is not actively pushing customers to get replacement credit cards. Their logic is that criminals cannot use this stolen data in online purchases, and that so far fraudulent activity from this theft has been low. However, I worry that they just don’t want to absorb the cost of all the replacements.

      In the end it’s up to you. Do you think the future chance of fraudulent activity is so low that it’s not worth your time and the hassle of changing your card, or would you rather just change the card now so you don’t have to worry about it at all? Personally, I don’t see the down side to replacing your card, unless you happen to use it for many automatic payments, in which case you’d have to update all those as well. Note: At least one card issuer, Citi, has already decided to replace all their users’ cards on their own.
    4. Close unused accounts – I don’t know about you, but sometimes in the past I’ve opened a credit account I don’t really need, simply to take advantage of some promotion. For instance, you go to a store and learn you can get 30% off on your first purchase if you apply for free, in-store credit. Maybe you open the account for that one time deal, and then never use it again? Perhaps Target’s REDcard was that unused account for you?

      The problem with these unused accounts is you often forget about them. Since you forgot about them, you probably won’t even notice when bad guys use them fraudulently. While this advice doesn’t necessarily pertain directly to the Target breach, I recommend you use this opportunity to review your credit accounts, and close any that you never use (Granted, be aware closing too many accounts can affect your credit score).

If you follow at least the first two or three tips above, the Target breach shouldn’t cost you anything, other than a bit of time.

What Can Businesses and Retailers Learn from the Target Attack?

Now that we know the facts around the breach, let’s get to the true point of this article—trying to figure out what we can learn from Target’s misfortune. Based on what we know about the attack so far, here are some of my take-aways and tips:

    • PoS targeted malware is on the rise; prepare for it – Over the past few years, experts in the Infosec field have noticed the steady increase in malware that specifically targets point-of-sale (PoS) systems, and this Target breach illustrates just how popular it’s become with cyber criminals.

      Since many PoS systems are just Windows or Linux computers, PoS malware looks and acts, for the most part, very much like normal malware… with two distinct differences. First, it’s designed to search the victim computer’s active memory, rather than just searching its file storage system (a technique security folks call RAM scraping). Why, you ask? Well, the bad guys know PCI requires retailers to encrypt sensitive data in motion or at rest. However, no matter how aggressively you encrypt data, there is a split second where the device getting the data has to see and store it in active memory, in the clear. Second, PoS malware is designed specifically to sniff our credit card magstripe data. In other words, it specifically looks for the data PoS systems handle.So, how do you prepare for PoS malware?

      A few basic tips include:

      • Patch PoS systems – You don’t want them suffering from flaws that make it easier to install malware on them.
      • Enforce a separation of duties – If you’re browsing the Internet or checking your email from the same device that you use to run PoS software to take payments, you’re doing it wrong.
      • Educate your cashiers – Sometimes simple vigilance makes the best defense. If your cashiers understand that your PoS systems may be susceptible to malware, they might stay on the lookout for unusual signs of attack or infection.
      • And to the XP folks out there – I suspect many PoS systems (and supposedly 95% of ATMs) are actually running on top of Windows XP systems. Unfortunately, XP is going “End-of-Support” in the next four months or less, which means it will not receive security updates in the future. I recommend you migrate your PoS systems away from XP to ensure the most secure operating environment.

      Some of the other take-aways I share below will also help you protect PoS systems.

    • You need to segment your trusted network – Unfortunately, I think many organizations still have a very myopic view of how they segment their network. As an industry, we have adopted this general trilateral paradigm that includes the external network (the Internet), a demilitarized zone (for semi-public servers), and our trusted network. The problem with this paradigm is our trusted network should not be flat!

      In every organization, there are people or assets that have different levels of privilege or sensitivity than others. For instance, there is no reason that someone in your HR department should have network access to your engineers’ source code repositories. By the same token, there is no reason that the computers your employees use to browse the Internet in the break room should be on the same network as the ones your PoS registers are on (and this doesn’t even get into wireless networks).

      The good news is many security appliances– be they legacy firewalls, Unified Threat Management (UTM) devices or Next Generation Firewalls (NGFW) – have many physical interfaces, and even VLAN tagging capabilities, which allow you to segment your internal, trusted network more granularly, based on the roles difference users and assets play in your organization. This additional network segmentation allows you to have a “roadblock” where you can enforce explicit policies for what is and isn’t allowed. If you place your PoS systems on a separate network, you can create policies that only allow the specific PoS traffic to these systems. This means any PoS malware trying to exfiltrate data from your network will have more hurdles to get the data out. For instance, in the Target attack the hackers used good old FTP, which you may decide to block on your PoS network.

      The only downside to more granular internal segmentation is that it will require a bit more work on the front end. In many cases, the devices within different trust groups will still need to communicate in certain ways with one another. The downside to this is that you will have to explicitly write a policy allowing that communication, which may entail some research on how different proprietary systems “talk,” and may generate a few help desk calls until you have properly allowed all business-critical communication. Of course, the upside is you have total control of what communication is and isn’t allowed.

      In any case, we can no longer leave our trusted networks flat, as it makes it much too easy for attackers to perform lateral movement (e.g. turning the infection of one low-value employee into the full compromise of an important internal server). By the way, none of this is to say Target is or isn’t segmenting their internal network. Since we don’t yet know how the malware got on their systems, we don’t know whether or not lack of network segmentation contributed to the attack. Nonetheless, I think it is an important security tip retailers should follow when considering the sensitivity of their critical PoS systems.
    • You need more proactive malware detection – Unfortunately, antivirus (AV) technology still relies very heavily on reactive, signature-based detection. This means that it can’t find and block new malware until after it’s first analyzed, which is typically not until after it’s infected at least one victim.

      Cyber criminals have long known techniques that allow them to take evil programs, and change them on a binary level so that signature-based solutions “see” it as something new (even though it really isn’t).  They often call this packing and crypting, and you can learn more about it in one of my old botnet videos.

      Over time, AV vendors have started implementing more proactive detection technologies, which use techniques like behavior analysis or code emulation to help detect new malware without signatures. However, since most AV primarily runs on the endpoint, it often has limited resources to work with, so AV vendors cannot always adopt “whole-hog” sandboxing solutions.

      Recently, however, newer malware detection controls have surfaced that use something called virtual execution to run unknown binaries in a fully virtualized Windows environment, in real-time. These solutions are much better at proactively finding previously undiscovered malware by monitoring for suspicious behaviors. If you’re concerned with advanced attacks, like the one Target just went through, you should consider these types of advanced malware detection solutions in the future (and keep an eye on WatchGuard this year).
    • Focus your defenses on data – In a presentation I gave at Gartner’s ITxpo Symposium last year, I talked about how most of our preventative security controls are focused on protecting machines and devices, and not necessarily on protecting data directly. While we do need to protect the container of data, I also believe we need to spend a bit more time monitoring and protecting our data directly.

      In this blog post, I offer five tips to doing that, one being investing in data loss prevention (DLP) technologies that can see sensitive data as it passes your borders. For instance, the DLP service WatchGuard offers can monitor for credit card numbers and magnetic stripe information. In fact, we specifically monitor for this type of data when sent over FTP, which happens to be how Target’s attackers got their loot out the door. DLP is not fool proof—smart attackers might encrypt things to get it past sensors—but it does pose another roadblock, making things harder for the attacker. Be sure to check out my blog post and video for more tips on protecting data.
    • Focus more on detection and response – Preventative controls are a must for any organization, and they are probably the best bang for your buck, as far as ROI. However, I’m afraid many organizations have focused too singularly on prevention, and have forgotten to consider two other very important aspects of network security—detection and response!

      As much as we don’t like it, cyber security is a continuous arms race, and you will never have the perfect defense. The technology that protects us today will eventually get bypassed tomorrow, and we’ll have to think up something new. Furthermore, even if we had the perfect technological solution, there’s still a human element to the security problem, and criminals would still prey on our social weaknesses to infiltrate our networks. If a motivated, persistent, and well-financed attacker wants into your network, he or she will probably find a way over time.

      That’s why you should focus some of your security efforts on security visibility and analytics solutions this year. They can help you quickly identify anomalies or security events on your network, so that your incident response team can immediately research them, and hopefully cut off any attacks in progress, before the thieves make off with the keys to your kingdom.

      WatchGuard believes so strongly that detection and response is a key component of your security strategy that we have released a fantastic new tool to help our customers achieve better visibility of their networks, called WatchGuard Dimension™. As more businesses start adopting better security visibility tools, and they monitor those tools more regularly, we expect to see them discover network breaches much faster, and perhaps nip them in the bud before the bad guys exfiltrate important data.
    • The US must update its credit and debit card standards – In his video interview, Target’s CEO mentioned an industry-wide problem that I think might be the crux of many of the US’s credit and debit card fraud issues; our continued use of magstripe cards as opposed to the newer, and more secure EMV or “chip and pin” cards.

      Without going into all the technical details, most of the data stored on magstripe cards are stored in clear text, and you can easily recover or clone the data with a cheap reader. EMV cards actually have small microprocessors on them. They include cryptographic keys that prove the card is the original, and follow a dynamic authentication process that confirms the validity of both the card and the card reader. In short, EMV makes it much harder for attackers to clone cards and use them for in-person, fraudulent purchases.

      That said, EMV cards are not perfect. Researchers have found flaws in some implementations, and have developed new techniques for fraud. Nonetheless, EMV makes things much harder for hackers. Sounds good, right! The sad thing is, EMV has been out for over a decade. Europe uses EMV cards almost exclusively (so much so, US travelers sometimes have problems using their old magstripe cards overseas). Yet, the US has not yet fully adopted it.

      Why not? Well, it’s expensive and it takes a village. To reap the benefit of EMV’s additional security, retailers, payment processors, and everyone that takes cards will have to update their infrastructure to use these new cards. The good news is, over the past year the US seems to have started this migration. You have probably already noticed many of your cards getting chips, and some of your retailers offering tap to pay (PaypPass) readers. However, these cards still have their magstripes to fall back on. Until the entire industry makes the jump, no one will realize the benefits of EMV. If you’re a retailer, and you haven’t started the move towards EMV, I recommend you look into it as it will save you money from fraud in the long run.

So far, we’ve only scratched the surface of what we may eventually know about the Target breach, and how the attackers infiltrated what many think was a relatively well-protected network. Yet already, there’s a lot we can learn from this unfortunate incident, if we’re willing to look closer.

As an industry, I feel like security professionals are often quick to lambast the victims of network breaches. We’re always looking for that one big mistake some company made that allowed an attacker in… “See, I told you so!”

However, in my opinion, Target has actually handled this breach quite responsibly so far. They have apologized, been as transparent about the incident as they can, and even taken accountability, offering zero liability to their customers. It also looks like they had many industry-approved security practices and controls in place. Perhaps I’m naive, but I believe Target is sincere in their promise to find the culprit and improve their security.

The truth is, any one of us can suffer a breach like Target did. Even if you do all the right things, and implement all the right defenses, everyone is human. A simple mistake can be the hole that lets that persistent advanced attacker in. Rather than blame the victim, we need to find and prosecute the attackers, but also learn from these unfortunate events so that we can make it a little harder for the criminals to succeed next time. Consider implementing some of my tips and take-aways above, and perhaps you can avoid the next big credit card data breach.

— Corey Nachreiner, CISSP (@SecAdept)

Huge Sony PSN Data Breach; What Should I Do?

On Tuesday, Sony officially disclosed a humongous data breach against the Playstation Network or PSN (recently renamed to Qriocity), which allowed external attackers to get their hands on the Personally Identifiable Information (PII) of around 77 million gamers. Worse yet, they may have even stolen their credit card information, too.

If you read security news, or follow me (@SecAdept) on Twitter, you’ll know this incident has been brewing for around a week now. It first started last Wednesday, when PSN went down for all Playstation 3 users. At the time, I’d imagine that most customers assumed the outage was some sort of routine maintenance. However, with Sony recently coming out of a DDoS battle with “Anonymous” over the Geohot Playstation hacking lawsuit, paranoid security professionals like me suspected this outage might be related to more “Anonymous” hijinks. Unfortunately, we have since learned that that wasn’t the case (I wish it was).

Over the next few days, the story continued to slowly unfold, mostly on security and gaming sites. Sony blog posts (some which were later removed) eventually admitted that the issue may be related to an “external intrusion.” However, Sony was not quick to confirm the details, or share what the attackers got. If you are interested in how the story slowly unfolded, PCWorld has a great timeline of the incident. In any case,  Sony finally sent an email to all its PSN subscribers Tuesday night, sharing exactly what the bad guys stole — and unfortunately the cretins hit pay dirt.

If you’d like to read Sony’s email in full, check out this forum post, but I’ll quickly highlight what it claims the attackers stole from all PSN subscribers:

  • Your name,
  •  address (city, state, zip),
  • country,
  • email address,
  •  birthdate,
  • PSN password and login
  • PSN online ID and handle
  • purchase history,
  • billing address (may be different than normal one),
  • security answers,
  • and possibly even your credit card information (excluding security code)

Unfortunately, this is a huge repository of valuable information for identity thieves and attackers wishing to target your other online accounts. On the surface, the biggest concern is whether or not attackers gained access to credit card (CC) numbers.  Sony is not very clear on this count. They claim they have no evidence to suggest so. However, they immediately backpedal, saying they cannot rule out the possibility. A more recent Sony Blog update has at least shared that the CC date was encrypted, and that they didn’t store any security code info for CCs. Well, at least that’s semi-good news.

So what’s a PSN subscriber to do?

Being one myself, I immediately asked myself that very question. Here’s what I’ve come up with:

  1. Do you follow best password handling practices? If not, change your passwords. One well known, but often ignored, password security practice is that you should NOT use the same password everywhere. Unfortunately, many people, including security professionals, don’t follow this practice. If you are one of those people, the first thing you need to do is go to all the important sites you visit and change your password. If someone has your email address and a password, that will get them into many popular sites you may frequent.
  2. Cancel/change your credit card. This one really sucks. It can be a pain to get new credit cards, mostly when you don’t know for sure whether it is entirely necessary. Unfortunately, I have to lean towards being safe and not sorry. If you shared your CC with PSN (it’s possible you may not have), you should probably get new cards. Granted, Sony does say the CC data was encrypted. So ultimately, it is up to you if you want to take the chance.
  3. Watch your credit information. There’s really nothing you can do about that fact that a lot of your PII data is out there. This is the same data bad guys use to setup fraudulent accounts in your name. Luckily, attackers didn’t get one crucial (at least in the US) piece of data; your social security number. Without this, they probably can’t setup financial accounts in your name. Nonetheless, you should still monitor your credit via your country’s credit agencies. You may even considering submitting a fraud alert or credit freeze, which will make it harder for attackers to create new accounts in your name.
  4. Remain vigilant for follow-up attacks. Since the attackers didn’t get Social Security numbers, they don’t have all they need to totally steal your identity. However, they often follow up these sorts of attacks with other attacks (email phishing), trying to gather any additional info they need. Furthermore, they can often leverage the information they’ve already stolen to help trick you into trusting them. So remain vigilant against phishing and social engineering attacks, asking you for private info.

The last question that I’m sure is one everyone’s mind, is how did Sony actually get hacked. The short answer is, we don’t know yet. Sony’s not sharing. There has been a number of rumors, though:

  • Geohot did it. This is the guy that hacked the Playstation 3’s DRM and copy protection. Sony sued him for it, and he settled the case (saying he’d leave Sony stuff alone). This guy’s smart enough to breach networks, but I’m pretty sure he didn’t go after PSN, mostly after settling with Sony. So I doubt this is the case.
  • “Anonymous” did it. Anonymous is that random group of hackers that went after HBGary. They also sided with Geohot during the PS3 hacking case, and likely launched DDoS attacks against Sony in early April. However, they claim they had nothing to do with this breach. I tend to believe it as Anonymous tends to stick more with headline grabbing stunts, than these highly illegal, malicious breaches. That said, some solo-Anonymous hackers may have acted alone.
  • The attack is the result of a custom PS3 firmware (called Rebirth). When Geohot hacked the PS3 DRM, he made it possible for homebrew coders (and pirates) to load their own modified firmware onto the PS3. These modification could allow playstation users to do all sorts of cool things that Sony didn’t originally intend the PS3 to do. However, some of the latest custom firmwares coming out of the PS3 “scene” included modifications that would allow hacked PS3 to regain access to PSN, or worse, the PSN developer network. One of those firmwares was called Rebirth. Due to the timing of Rebirth’s release, and some of it’s features, some people suspect it has something to do with how the PSN attackers were able to breach Sony’s PSN  network. In fact, it seems very likely that the modified firmware was at least used to fraudulently download PSN games without valid CCs. Of the rumors presented, this one seems most possible to me. That said, the creators of Rebirth have claimed they weren’t responsible either. However, they admit users have found interesting ways to use their firmware.

Besides those rumors, other experts have shared their own guesses about how this breach might have happened. For instance, one mentioned that it could have been a spear-phishing email, that got malware on an administrator’s computer. That guess is as good as any. After all, that’s basically how the Aurora attackers got into Google — it’s certainly possible.  Yet, it’s still just a guess. Until Sony, or someone else, shares the real story, all we can do is wonder.

Not  knowing exactly how the breach happened makes it harder to give you a specific defense that can help prevent this from happening to you, but that’s where good ‘ole “Best Practices” come in (something we also learned during the HBGary incident). Two things come to mind for me:

  1. Defense-in-Depth. Security guys hear this so often that it stops feeling relevant. It still is. It’s simple math. The more defensive layers you build up — things like Firewalls, IPS, AV, application control, cloud reputation, etc. — the better statistical chance you have of detecting and blocking an attack. That is why WatchGuard created our XTM appliance. We want to make it as easy as possible to incorporate as many defenses as possible, in one easy to manage appliance, and to have a platform that allows you to evolve your defenses in the future. That said, when most people think “Defense-in-Depth,” they only think about the hard, preventive technology measures, such as the ones I’ve mentioned above. They don’t think as much about the softer security measures, such as visibility tools that may also help you recognize unusual incidents, like security breaches. When you are building your layers of defense, don’t forget to include products that offer visibility tools as well (we have great visibility tools, and plan to make them even better).
  2. Focus your perimeter on your data center! One of my predictions for this year was that your perimeter will not go away. It will just shrink, harden, and focus on your data center. The huge increase in mobile workforce and technologies, has caused the security industry to largely focus on mobile security technologies — for good reason. However, just because you need mobile defenses, doesn’t mean you can tear down the walls around your castle. Instead, the huge increase in big data breaches, like this PSN incident, has shown that we need strong, evolving perimeter defenses around our data centers, today more than ever. Your perimeter shouldn’t only protect your data center from the world, but also from your own workforce. Based on what Sony’s doing to improve their PSN security, it sounds like they now agree with my prediction.

This PSN data breach will surely have resounding affects on network security for years to come. I wouldn’t be surprised to see it cause PCI changes, trigger politicians to suggest new laws, and result in new business regulations. I will continue to follow the story and post any interesting new details I find. —  Corey Nachreiner, CISSP. (@SecAdept)

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