What are the top cyber trends to watch out for in 2019? Here’s what I have been hearing and reading:
First I present a new information security term: Virtual Security = Manufacturers claim that their products are secure. but in reality they are not.
New APT groups, and more regulations around data privacy, 2019 is set to be another big year in the cybersecurity space. Security is hard and getting harder in 2019. Good operational security is non trivial. Next generation dark markets are making cybercrime easier than ever before.
Gartner expects that the security market is expected to grow 8.7% in 2019 and hit $124 billion. Global spending on security products and services closed in 2018 in excess of $114 billion, marking a 12.4% increase from 2017.
A New Year’s Resolution: Security is Broken…Let’s Fix It. There are three strategies that show real promise for defending against tomorrow’s threats: Deploy Deception, Leverage Threat Intelligence, Think Proactively. Plan Now for Emerging Threats. Defending against these threats will require two things. The first is understanding the economic drivers of the criminal community, and the second is to adopt strategies and solutions that address and disrupt those drivers. Getting in front of the cyber-threat paradigm requires organizations to rethink their security strategies in 2019.
Many organizations have learned, it’s no longer a matter of if you’ll face a cyberattack, but when – and when they will finally find the hack has happened. For example it Marriott disclosed a four-year-long breach involving the personal and financial information of 500 million guests. Anytime we see such a colossal intrusion go undetected for so long, the ultimate cause is usually a failure to adopt the most important principle in cybersecurity defense that applies to both corporations and consumers: Assume you are compromised.
In today’s world, attackers intentionally look normal to evade automated defenses. With the rise of ransomware, fileless and non-malware attacks, it’s harder than ever to protect your endpoints with confidence. To prevent this, threat hunting has emerged as an essential process for organizations to preempt destructive attacks. This process is a proactive approach to cybersecurity that identifies gaps in defenses and stops attacks before they go too deep. The adversary is hunting for your security gaps…why aren’t you?
Is it fair to judge an organization’s information security posture simply by looking at its Internet-facing assets for weaknesses commonly sought after and exploited by attackers, such as outdated software or accidentally exposed data and devices? Attackers scan those systems for vulnerabilities actively in 2019. What’s remarkable is how many organizations don’t make an effort to view their public online assets as the rest of the world sees them — until it’s too late. Measure how good is your security. Data protection tools have been developed to measure the maturity of data protection issues in organization.
CEOs should ask the following questions about potential cybersecurity threats:
How could cybersecurity threats affect the different functions of my business, including areas such as supply chain, public relations, finance, and human resources?
What type of critical information could be lost (e.g., trade secrets, customer data, research, personally identifiable information)?
How can my business create long-term resiliency to minimize our cybersecurity risks?
What kind of cyber threat information sharing does my business participate in? With whom does my business exchange this information?
What type of information sharing practices could my business adopt that would help foster community among the different cybersecurity groups where my business is a member?
What can CEOs do to mitigate cybersecurity threats?
How Well Are You Protecting Your Brand from Digital Risk? Having a website is just the baseline for existing in digital world. Companies of all sizes are actively using social media to engage with customers and build loyalty for their brand. The Internet is an essential tool to grow your business, but it also poses digital risks to your brand reputation and integrity. Bad actors can spoof social media profiles of your company or brands. Cyber criminals will register and use web domains extremely similar to your actual domain names. Malicious apps that impersonate brands may use spyware to steal information from users. You might need to develop a brand protection program in 2019. Digital risk from brand exposure can lead to reputation damage, loss of intellectual property and customer trust and, ultimately, loss in revenue. This is what the brand managers need to think about in 2019. Successful hacking campaigns used to be all about keeping under the radar. But, for some, making a big splash is now now more important than lurking in the shadows.
Today, cybersecurity is moving beyond the financial impact to concerns over public safety, national security, and even cyberwarfare. The tech industry is becoming more worried about a cyberwar arms race. Microsoft boss thinks that cyber war cannot be won. High impact cyber attacks often affect the electricity network, water supply, financial markets, hospitals, and military families. Preparations for various cyber attacks in different sectors vary greatly. Energy and finance are the most advanced. We should all keep in mind two things: The proliferation of cyberweapons is already happening and arms control of cyberweapons hasn’t caught up. “Cyber is so wide that states alone cannot be sufficient in providing security” It seems also that authoritarian forces are trying to claw back control and even re-purposing the web in ways that undermine democracy.
It would be good for the company to be able to manage risks, prepare for major disruptions, and plan and practice recovery. Risk management requires the company to detect the attack itself. A large coordinated attack could attack our elections, our press, our telecommunications, our banks, and our military. According to a new report on digital freedom, authoritarian forces are clawing back control and even re-purposing the web in ways that undermine democracy. Tim Cook says that tech firms should prepare for ‘inevitable’ regulation.
We need to build cyber resilience to our networked systems. Getting to cyber resilience means federal agencies must think differently about how they build and implement their systems. “Cybersecurity, infrastructure security, is not a competitive advantage,” Bradford Willke, a top official in DHS’s Cybersecurity and Infrastructure Security Agency. If a good product or company fails because of a breach that could have been thwarted by sharing threat information, “there’s something that we’ve all lost.”
Did you remember to test the security? Every developer team should know how to code securely and how to test security. This kind of basic hygiene with information security creates the basis for genuinely intact applications. The basic thing for the tester in terms of data security is user identification and access, securing stability, encryption, firewalls, intruder detection, anonymization of information. All these things can be tested with different techniques, tools and methods. It is a good idea to ask a security professional if you do not know how to do this.
You will see many big data beaches also in 2019. Cybersecurity headlines in recent years have been dominated by companies losing money by being hacked and leaking the data of millions of customers. 2018 was again a banner year for breaches, check for example list of Biggest cyber security breaches 2018. In 2018 the mantra became “another day, another data breach.” 2018 has been the year par excellence for data protection, when data leaks, exfiltrations, and abuses have made headlines all over the world. Some companies have worked on improving their security, but overall there has not been so much activity going on that it would considerably change the situation for better in 2019. And against this backdrop of increased awareness about the challenges that working with sensitive data can entail, there is one regulation that has come to the fore: the GDPR (General Data Protection Regulation), which has been mandatory since May 25 this year.
How much are the first fines for GDPR infringement? It remains to be seen in 2019 as sanctions on big 2018 leaks start to appear. Infringement of GDPR regulation can incur fines of up to 4% of a company’s annual global turnover, or up to €20 million. The economic sanctions that we have seen so far in 2018 have clearly relatively conservative compared to the highest possible penalties, but with the recent spate of high profile data leaks – Marriott, British Airways, Quora – it won’t be long before harsher fines start to appear. Remember that by having appropriate protection for the personal data that your company manages, you can avoid sanctions.
IoT malware and email hacks are on the rise again. Blackmail demand claims will continue unfortunately also in 2019 and will become more innovative. In 2018 we first saw blackmail extortion with claims to have nailed you watching porn and the sender infected your computer by hacking your account or placing malware. All sorts of variants exist. There was also Spammed Bomb Threat Hoax that demands Bitcoin.Then there has been a New Extortion Email Threatens to Send a Hitman Unless You Pay $4,000 in bitcoin. As long as ransoms are paid and relatively easy attacks, such as phishing campaigns, are successful, bad actors will continue to use these techniques.
The number of attacks using IoT hardware is increasing in 2019. IoT is still insecure. As the number of IoT devices, such as smart home network monitoring systems, increase, the threat is constantly increasing. According to Nokia report IoT botnet operations accounted for 78 percent of malware detection events in the communications service provider (CSP) networks in 2018.
Many IoT protocols are still implemented without proper security. The CoAP protocol is the next big thing for DDoS attacks. Constrained Application Protocol (CoAP), is about to become one of the most abused protocols in terms of DDoS attack. That is because most of today’s CoAP implementations forgo using hardened security modes for a “NoSec” security mode that keeps the protocol light, but also vulnerable to DDoS abuse.
Mirai botnet has been active since 2016. And several followers to it are still active. Mirai malware has strong records of infecting poorly managing IoT devices and performing DDOS attacks on various platforms. And you will not get rid of the new variations of it in 2019. Latest example is With Mirai Comes Miori: IoT Botnet Delivered via ThinkPHP Remote Code Execution Exploit. Similarly Miori taking advantage of Internet connected device and compromise it by exploiting various vulnerabilities and also it constantly evolving to target the smart devices. Miori is just one of the many Mirai offshoots. There is another very similar variant called Shinoa.
Regulating cyber security features on networked devices seems to be on rise. Germany proposes router security guidelines. It would like to regulate what kind of routers are sold and installed across the country. California became the first state with an Internet of Things cybersecurity law: Starting on January 1st, 2020, any manufacturer of a device that connects “directly or indirectly” to the internet must equip it with “reasonable” security features, designed to prevent unauthorized access, modification, or information disclosure. If it can be accessed outside a local area network with a password, it needs to either come with a unique password for each device, or force users to set their own password the first time they connect. That means less generic default credentials for a hacker to guess. In Finland security label created by FICORA’s Cybersecurity Center promises that will make it easy for consumers to identify a sufficiently secure devices in 2019.
Ransomware attack will continue in 2019. Hospital cybersecurity seems to be a pressing problem in 2019. The healthcare industry’s accelerating adoption of sophisticated networks, connected devices and digital records has revolutionized clinical operations and patient care but has also left modern hospitals acutely vulnerable to cyber attack. Recent high-profile hacks have brought these mounting threats sharply into focus. One in four (27%) employees of healthcare organizations in North America admit to being aware of a ransomware attack targeting their employer over year 2018. There is a number of technological, cultural and regulatory issues that complicate healthcare cybersecurity.
DNS system is still full of “ugly hacks” that keep it running. Malicious actors have found innovative ways to take down the DNS and the landscape growing more problematical. Hopefully it will get robust in 2019. Vendors of DNS software, as well as large public DNS providers, are going to remove certain workarounds on February 1st, 2019, otherwise known as DNS Flag Day. Don’t Let DNS Flag Day Become Your DNS Doomsday. The result of this “line in the sand” means that all domains hosted on these poorly coded DNS servers will fail to resolve correctly across all the recursive resolvers built by and run by the consortium. So your SPF, DKIM, DMARC, most TXT and PTR records will fail. This will be a very bad day for anyone who doesn’t take time to address this issue BEFORE February 1st, 2019.
TLS 1.3 was published as of August 2018. It has been over eight years since the last major encryption protocol update. With the HTTP/2 protocol update in late 2015, and now TLS 1.3 in 2018, encrypted connections are now more secure and faster than ever. With OpenSSL 1.1.1 library many applications can gain many of the benefits of TLSv1.3 simply by dropping in the new OpenSSL version. Since TLSv1.3 works very differently to TLSv1.2 though there are a few caveats that may impact a minority of applications. Add this to list of existing TLS ecosystem woes. Malicious sites will increasingly use SSL certificates to look legitimate.
Remember to update your PHP version early in 2019. PHP 5.6 support and security updates have ended. PHP 5. is still widely used in many web services. FICORA’s Cybersecurity Center recommends giving up the use of old PHP versions, especially for services that are publicly available on the Internet. Currently the latest version is 7.3. Each version is actively developed for two years, after which security updates are offered for one year. Currently the latest PHP version is 7.3. Each version is actively developed for two years, after which security updates are offered for one year. Because the new PHP7 is not fully compatible with the old PHP5, so many sites need also updates to the site PHP code. If you can’t for some reason update PHP version, special attention should be paid to the security of the server and its environment.
Cloud security is still a problem for many organizations in 2019. The 2018 Cloud Security Spotlight Report noted that 84% of respondents claim traditional security solutions either don’t work at all or have limited functionality in the cloud. Misconfiguration of the cloud platform took the top spot in this year’s survey as the single biggest threat to cloud security (62%). Lack of staff resources and expertise to manage cloud security seems to be the largest barrier to cloud adoption for many companies. Many clouds are nowadays relatively secure, but Are You Using Them Securely? It’s time to stop obsessing over unsubstantiated cloud security worries and start focusing more on new approaches to cloud control. It is time to better manage your cloud deployments in 2019.
The Cybersecurity Industry Doesn’t Have Artificial Intelligence Right Yet. AI in security will be talked on in 2019. 2018 was The Year Machine Intelligence Arrived in Cybersecurity. “Intelligence” is a word heavily freighted in cybersecurity technology because it covers a wide variety of techniques and product: Expert systems, machine learning, deep learning, and artificial intelligence are all represented in the whole, with each being used and promoted by different vendors and service organizations. Antivirus protection is one of the tasks to which companies are applying intelligence. The vast majority of intelligence being used in security is “machine learning” rather than “artificial intelligence.” The application of artificial intelligence (AI) via the implementation of machine learning (ML) is the fastest growing area of cybersecurity, but it seems Artificial Intelligence in Cybersecurity is Not Delivering on its Promise at least yet. What has been largely missing from this assertion is independent verification that the theoretical benefits promoted by ML vendors translate to actual benefits in use. Also cyber-criminals start to use AI to make better attacks.
Machine learning can reduce the usefulness of CAPTCHA. Machine learning model breaks CAPTCHA systems on 33 highly visited websites very quickly.
Destructive malware has been employed by adversaries for years. Destructive targeted attacks have a critical impact on businesses, causing the loss of data or crippling business operations. NotPetya and Wannacry affected several companies around the world. OlympicDestroyer affected the Olympic Games organization.
Old destructive attacks can persist for a long time. Wannacry is not dead when 2019 starts. Eighteen months after the initial outbreak of the WannaCry Ransomware infection, the malware continues to rear its head on thousands, if not hundreds of thousands, of infected computers. The kill switch has been activates so the ransomware component would not activate, but the infection continues to run silently in the background, while routinely connecting to the kill switch domain to check if it was still live.
Spectre and Meltdown vulnerabilities that were found in 2017 and became public the beginning of 2018 will continue. I have been following this saga since I reported it first in Finland at Uusiteknologia.fi on-line magazine. Spectre-like variations continued to be discovered, just as academics predicted at the start of 2018. Intel and other processor manufacturers have worked on fixed, but there has been numerous new vulnerability variation reported over the year on the same theme, latest published in late 2018. Is Spectre making a comeback? I expect you will not get rid of new variations on this vulnerability theme in 2019. There are still many side channel flaws to be found on modern processors.
USB security is still fundamentally broken in 2019. USB drives are a security threat to process control systems because USB drives can cause serious disruption to process facilities through unsecure or malicious files. USB-borne malware continues to present a major threat to industrial control systems (ICS) nearly a decade after the Stuxnet attacks on Iran’s nuclear infrastructure first highlighted the danger.
The air gap is low-tech but still has value as a barrier against cyber attacks. But air gaps, once a valuable barrier against cyberattacks, are disappearing from industrial control systems. As smart shipping and other network-connected industrial control systems (ICS) grow, the air gap loses value as a barrier against cyber attacks. The use of air gaps has eroded or disappeared altogether, thanks to increasingly intertwined OT (operational technology) and IT (information technology). Also air gaps can’t protect against “an ill-informed person’s actions,” as was the case with the notorious 2010 Stuxnet attack on Iran’s nuclear facilities.
There are still major problems cyber security in industrial system. Major problems in industrial cyber security are inadequate software updates, the following non-upgraded systems, and common usage ids for updating. While the Common Vulnerability Scoring System (CVSS) can be useful for rating vulnerabilities, the scores assigned to flaws affecting industrial control systems (ICS) may be misleading.
Perimeter-less security is hot in 2019. You can’t build anymore well defined perimeters around all of your systems. Welcome to a World of Zero Trust. Zero Trust Privilege approach is based on six fundamental elements: Verify Who, Contextualize the Privileged Access Request, Establish a Secure Admin Environment, Grant Least Privilege, Audit Everything, Apply Adaptive Security Controls.
Can You Mitigate Against Mission Impossible? Most probably you can’t. Focus on the Countless Manageable Vulnerabilities That You Can Control and Protect Against Them. Cybersecurity risks need help from contracts and insurance beyond technologies, policies, and people. Pretending cybersecurity risks aren’t there isn’t on any list of best practices.
Credential abuse is at the core of many hacks in 2019. Usually the easiest way for a cyber-attacker to gain access to sensitive data is by compromising an end user’s identity. Equipped with the right credentials, cyber adversaries and malicious insiders can wreak havoc on an organization’s network, exfiltrate sensitive data, or even siphon off funds — all while concealing their malicious activities from threat detection solutions.
Good database security planning is essential for protecting a company’s most important assets because if attackers can shut companies out of their own data can quickly cripple an organization. Leaked data can also become costly with costs of data leak itself, regulatory costs (including GDPR fines) and bad reputation that can affect revenue for a long time.
Just on the end of 2018 there was reports on SQLite vulnerabilities. Magellan is a number of vulnerabilities that exist in SQLite that were able to successfully implement remote code execution in Chromium browsers (already fidex). This vulnerability can have a wide range of influence in 2019 because SQLite is widely used in all modern mainstream operating systems and software. There is potential that Critical SQLite Flaw Leaves Millions of Apps Vulnerable to Hackers. I expect to see reports against attacks against many different systems and system users failing to secure their systems.
DevSecOps is having a positive impact on security, but the state of security still has a long way to go as over 13 percent of applications contain at least one critical vulnerability. According to Veracode’s State of Software Security (SOSS) report, 87.5 percent of Java applications, 92 percent of C++ applications, and 85.7 percent of .NET application contain at least one vulnerability. Even with a stronger focus on security in 2019, most software will still riddled with security vulnerabilities.
Misconfigured server infrastructure is often considered one of the most significant causes of data breaches within the IT industry. This human error phenomenon is usually unintentional, but it can have catastrophic consequences regarding the exposure of sensitive personal information as well as potentially damaging the reputation of your business.Misconfiguration of the cloud platform took the top spot in this year’s survey as the single biggest threat to cloud security.
4 mobile security threats that companies must fight in 2019: Cryptojacking, Data breaches, Insecure networks and Social engineering attacks. Also Mobile Spear phishing campaigns will form the cornerstone for targeted attacks on organizations. The Wi-Fi attack vector isn’t going away any time soon, despite 5G hype. I don’t expect the assault on mobile to slow down as according to Gartner’s Market Guide to Mobile Threat Defense, 42 million mobile malware attacks take place each year.
Google says that Android 9 Brings Significant Security Advancements. Google has focused on aspects such as platform hardening, anti-exploitation, hardware-backed security. There are also new protections for the Application Sandbox.
Ultrasonic Tracking are Beacons on the Rise. It is an inaudible sound with encoded data that can be used on a listening device with suitable application to receive information that could be just about anything. There are numerous scenarios in which ultrasonic tracking beacons can be surreptitiously used and misused.
PUAs are being weaponized. PUA is the acronym for “Potentially Unwanted Application.” This is a general category used by all vendors to tag particular applications that can be misused by malicious people. Recently, an active campaign was spotted in the well-known Emotet Banking Trojan, which makes use of Freeware system tools but with an obscure purpose.
Microsoft has officially announced ‘Windows Sandbox’ for running applications in isolation. Microsoft’s coming ‘Windows Sandbox’ feature is a lightweight virtual machine that allow users to run potentially suspicious software in isolation. Windows 10 19H1 Build 18305 adds support for a new sandbox feature for isolating potentially suspicious apps, plus several other new security fixes.
It seems that Security Teams Need to Maintain Packet-level Visibility Into All Traffic Flowing Across Their Networks. The most destructive disaster is the one you do not see coming. While there is no evacuating cyberspace to avoid a storm of hackers, prior warning gives security teams a chance to stop cybercriminals before they can wreak havoc and make off with sensitive customer data or company secrets. There is an all too common adage that it is not a question of if a company will be hacked, but when they will find the hack. The realities of the cyberspace make it too difficult to reliably keep hackers out of corporate networks. That is not to say security teams should give up, but rather that they need to shift their goals.
Is 5G Technology a Blessing or a Curse for Security? Depends Who You Ask. It is best to Prepare for the Coming 5G Security Threats. But do we understand the 5G security threats to come? Most probably not, because it seems that the general understanding of 5G is pretty shallow for very many organizations. Many countries are not comfortable with the Chinese building its 5G network.
Somewhat quietly over the past couple of years there has been a flurry of breakthroughs in biometric technology (especially face and fingerprint recognition). New Boom in Facial Recognition Tech Prompts Privacy Alarms. Tech advances are accelerating the use of facial recognition as a reliable and ubiquitous mass surveillance tool, privacy advocates warn. Now facial recognition appears to be on the verge of blossoming commercially. There is potential risk that Surveillance Inhibits Freedom of Expression.
Old outdated encryption technologies refuse to die. MD5 and SHA-1 are still used in 2018 and their use does not seen to end in 2019. The current state of cryptanalysis against MD5 and SHA-1 allows for collisions, but not for pre-images. Still, it’s really bad form to accept these algorithms for any purpose.
Law is trying to weaken encryption in some countries. A newly enacted law rushed through Australia’s parliament will compel technology companies such as Apple, Facebook and Google to disable encryption protections so police can better pursue terrorists and other criminals. “I think it’s detrimental to Australian and world security,” said Bruce Schneier, a tech security expert affiliated with Harvard University and IBM. It could be a be a boon to the criminal underworld by undermining the technical integrity of the internet, hurting digital security and user privacy. We need good encryption in 2019 to keep Internet safe.
The payment card industry is thinking about security standards such as EMV 3D Secure and emerging technologies such as contactless payments.
The use of bug bounty programs to find security vulnerabilities in software and services is increasing.In January, the EU starts running Bug Bounties on Free and Open Source Software where European Commission to start offering bug bounties on 14 Free Software projects like Notepad++ and VLC that the EU institutions rely on. Going into 2019, the cybersecurity community will continue to learn about the world of threat hunting and how organizations can implement an effective threat hunting program.
You might need a password manager in 2019 more than you needed it now. If you thought passwords will soon be dead, think again. They’re here to stay — for now. Passwords are cumbersome and hard to remember and sometimes are easily hackable. Nobody likes passwords but they’re a fact of life. How do you make them better? You need a password manager. Some examples for proposed alternatives to passwords include biometric identification, disposable passwords, certificate-based systems and FIDO2 USB sticks.
You might also need two-factor authentication can save you from hackers. If you find passwords annoying, you might not like two-factor authentication much. But security experts say it’s one of the best ways to protect your online accounts and it usually (when implemented well) only adds a few extra seconds to your day.
Two factor authentication has been considered as best practice for some time, but even that alone might not be enough in 2019. Assuming you have your strong passwords in place and your two-factor authentication set up, you think your accounts are now safe? Think again. There’s much more to be done.
Two factor authentication can be hacked. Phishing Attempts That Bypass 2FA are here to stay. As we try to up our security game, the bad guys up their tactics too. Amnesty.org shared an interesting write up about phishing attacks that are bypassing 2FA. If you’re an at risk user, that extra two-factor security code sent to your phone may not be enough to protect your email account as Hackers Bypass Gmail 2FA at Scale. Although 2FA is generally a good idea, hackers can still phish certain forms of 2FA, such as those that send a code or token over text message. Some users likely need to switch to a more robust methods.
Keep in mind that your phone number can be a key for a hacker to many of your services. You might think your Social Security or bank account numbers are the most sensitive digits in your life. Nowadays, hackers can do far more damage with little effort using just your cell phone number. Whether you’re an AT&T, Verizon, Sprint or T-Mobile customer, every cell phone number can be a target for hackers. And it takes remarkably little effort to wreak havoc to your online life.
810 Comments
Tomi Engdahl says:
EFF has published a comprehensible and very readable “deep dive” into the technologies of corporate surveillance, both on the Internet and off.
https://www.eff.org/wp/behind-the-one-way-mirror
Tomi Engdahl says:
Breaking Down: MD5 Algorithm
https://pentestmag.com/breaking-down-md5-algorithm/
Breaking Down: SHA-1 Algorithm
Looking under the hood and understanding how it works?
https://medium.com/bugbountywriteup/breaking-down-sha-1-algorithm-c152ed353de2
Tomi Engdahl says:
Ranked: The World’s Top 100 Worst Passwords
https://www.forbes.com/sites/daveywinder/2019/12/14/ranked-the-worlds-100-worst-passwords/
Tomi Engdahl says:
Seven Toxic Information Security Personalities
https://businessinsights.bitdefender.com/seven-toxic-information-security-personalities
There are many challenges to getting a cybersecurity program right. The right technology must be deployed, managed, and tuned just right, CISOs and security managers must be able to get the necessary executive support and budget to execute on their plans, and their plans have to be well crafted. Not to forget that nearly everyone in the organization has to be security conscious and savvy, or nearly any organization is one phishing-attack click away from compromise.
Security managers (and entire team for that matter), don’t need to make enemies of themselves.
The Road-blocker: This is the security manager that has turned the CISO office into the “Office of No.”
The Fear-monger: This security manager has never heard a threat he/she couldn’t help but warn executives and business users about. Every new virus, worm, and breach headline is e-mailed out as a warning.
The Money-Thrower: There’s no problem money can’t solve. Effective security is about throwing as much technology and people at the problem as possible.
The Whiner: If only the security budget was bigger. If only the end users weren’t so naive. If only the executives understood security.
The Button-pusher: To this security manager, there’s not a security challenge a new technology can’t solve. Need better application security, deploy a WAF. Need better network security, install the latest firewall. Want secure mobile devices, buy licenses for mobile anti-malware. While new technologies are necessary, they shouldn’t be the default position, and the dependence on technology defenses alone shouldn’t be too high.
The Jargon Speaker: Business leaders aren’t persuaded by security lingo and couldn’t care less about the different between SQL-injection attacks and privilege escalation. What they do care about: the database is at risk and needs to be mitigated to protect customer data and maintain regulatory compliance.
The Isolationist: This is the security manager who doesn’t listen to the actual business side of discussions. He/she doesn’t try to learn the unique challenges of operations teams and business managers. Secure is secure. Period.
Tomi Engdahl says:
A Paranoid Guide to Fighting the ‘Bugging Epidemic’
https://www.nytimes.com/2019/11/15/technology/surveillance-bugging-protection.html?mc=aud_dev&ad_name={{ad.name}}&adset_name={{adset.name}}&campaign_id={{campaign.id}}&ad-keywords=auddevgate&subid1=TAFI&dclid=CJTYvrCQ0eYCFQWOGAodhPcLYQ
With surveillance gear cheaper and easier to use, security experts say checking your environment for cameras and microphones is not a crazy idea.
People worry that Big Brother and Big Tech are invading their privacy. But a more immediate concern may be the guy next door or a shifty co-worker.
A growing array of so-called smart surveillance products have made it easy to secretly live-stream or record what other people are saying or doing. Consumer spending on surveillance cameras in the United States will reach $4 billion in 2023, up from $2.1 billion in 2018, according to the technology market research firm Strategy Analytics. Unit sales of consumer surveillance devices are expected to more than double from last year.
The problem is all that gear is not necessarily being used to fight burglars or keep an eye on the dog while she’s home alone. Tiny cameras have been found in places where they shouldn’t be, like Airbnb rentals, public bathrooms and gym locker rooms. So often, in fact, that security experts warn that we are in the throes of a “bugging epidemic.”
It is not paranoid to take precautions. A lot of spy gear is detectable if you know what to look for
Tomi Engdahl says:
Software applications are complex and can be vulnerable to a wide variety of security issues. These issues can be solved if you include security directly in development and deployment. This approach is called SecDevOps. Find out how it works and what makes it important in this guest article.
What is SecDevOps and Why Is It So Important?
https://www.altexsoft.com/blog/what-is-secdevops/?utm_source=facebookads&utm_medium=cpc&utm_campaign=Remarketing
Software applications are complex and can be vulnerable to a wide variety of security issues. Possible issues range from bad code and security misconfigurations to authorization failure.
To solve these issues, every team member should consider the security implications of what they are working on. SecDevOps is a new movement for just that purpose.
What is SecDevOps?
DevOps offers a ton of benefits on its own – it’s fast, it’s tough, and it’s automated. However, the limitation is in integrating security because with faster deployment comes smaller windows of opportunity to find and fix security vulnerabilities.
When you build applications with the goal of quick deployment (the DevOps approach), you’re potentially leaving them vulnerable to massive security holes if you cannot integrate security into the build and release process. That’s where SecDevOps (or DevSecOps or DevOpsSec) enters the picture.
As the name suggests, this is the process of integrating security right into the development and deployment workflows. Also known as rugged DevOps, SecDevOps is a set of best practices used to insert secure coding deep inside the DevOps development and deployment processes.
It gets developers to think more about security principles and standards as they build their applications. Security processes and checks enter the lifecycle at a very early stage to keep up with the rapid DevOps release approach.
There are two distinct parts in SecDevOps:
Security as Code (SaC) – This is when you build security into the tools and practices in the DevOps pipeline. This means developed applications are automatically scanned by static application security testing (SAST) and dynamic application security testing (DAST) tools.
Infrastructure as Code (IaC) – This refers to the set of DevOps tools used for setting up and updating infrastructure components to ensure a hardened and controlled deployment environment. This often includes the use of tools like Puppet, Ansible, and Chef.Rather than making manual configuration changes or making adjustments using one-off scripts, IaC involves using the same code development rules to manage operations infrastructure. As such, a problem in the system means deploying a configuration controlled server rather than trying to patch and update deployed servers.
SecDevOps uses continuous and automated security testing even before the application goes into production.
Tomi Engdahl says:
[Whoopsie Series] A series of very interesting writeups from the GitHub Security Team
1. Chaining accidental features of Ubuntu’s crash reporter to get LPE:
Link: https://securitylab.github.com/research/ubuntu-whoopsie-daisy-overview
2. Ubuntu apport TOCTOU vulnerability (CVE-2019-7307):
Link: https://securitylab.github.com/research/ubuntu-apport-CVE-2019-7307
3. Ubuntu apport PID recycling vulnerability (CVE-2019-15790):
Link: https://securitylab.github.com/research/ubuntu-apport-CVE-2019-15790
4. Whoopsie integer overflow vulnerability (CVE-2019-11484):
Link: https://securitylab.github.com/research/ubuntu-whoopsie-CVE-2019-11484
Tomi Engdahl says:
Wifi deauthentication attacks and home security
Dec. 26th, 2019 06:47 pm
https://mjg59.dreamwidth.org/53968.html
neighbours installed a Ring wireless doorbell. By default these are motion activated (and the process for disabling motion detection is far from obvious), and if the owner subscribes to an appropriate plan these recordings are stored in the cloud. I’m not super enthusiastic about the idea of having my conversations recorded while I’m walking past someone’s door, so I decided to look into the security of these devices.
One visit to Amazon later and I had a refurbished Ring Video Doorbell 2™ sitting on my desk. Tearing it down revealed it uses a TI SoC that’s optimised for this sort of application, linked to a DSP that presumably does stuff like motion detection. The device spends most of its time in a sleep state where it generates no network activity, so on any wakeup it has to reassociate with the wireless network and start streaming data.
So we have a device that’s silent and undetectable until it starts recording you, which isn’t a great place to start from. But fortunately wifi has a few, uh, interesting design choices that mean we can still do something. The first is that even on an encrypted network, the packet headers are unencrypted and contain the address of the access point and whichever device is communicating.
The most interesting one here is the deauthentication frame that access points can use to tell clients that they’re no longer welcome. These can be sent for a variety of reasons, including resource exhaustion or authentication failure. And, by default, they’re entirely unprotected. Anyone can inject such a frame into your network and cause clients to believe they’re no longer authorised to use the network, at which point they’ll have to go through a new authentication cycle – and while they’re doing that, they’re not able to send any other packets.
So, the attack is to simply monitor the network for any devices that fall into the address range you want to target, and then immediately start shooting deauthentication frames at them once you see one.
There’s a couple of ways to avoid this attack. The first is to use 802.11w which protects management frames. A lot of hardware supports this, but it’s generally disabled by default. The second is to just ignore deauthentication frames in the first place, which is a spec violation but also you’re already building a device that exists to record strangers engaging in a range of legal activities so paying attention to social norms is clearly not a priority in any case.
Finally, none of this is even slightly new. A presentation from Def Con in 2016 covered this, demonstrating that Nest cameras could be blocked in the same way. The industry doesn’t seem to have learned from this.
Tomi Engdahl says:
As a result, the IT department is left unable to answer critical questions about fugitive data:
Where is the data physically?
Who has access to it? Equally important: Who had access to it?
What data is stored in these spreadsheets?
Where have the spreadsheets gone?
Where have their host devices been and who has had access?
Where has that data passed in transit?
https://www.forbes.com/sites/alexwood/2019/12/24/green-revolution-deepfakes-and-special-relationships-forbes-europe-trends-for-2020/
Tomi Engdahl says:
Are spreadsheets the silent killer of data security for large enterprises?
https://www.anaplan.com/blog/are-spreadsheets-silent-killer-data-security-large-enterprises/
Tomi Engdahl says:
https://www.nytimes.com/2019/11/15/technology/surveillance-bugging-protection.html
Tomi Engdahl says:
The Uncommon Becomes Ordinary: 4 Trends That Defined Data Breaches in 2019
https://securityintelligence.com/articles/the-uncommon-becomes-ordinary-4-trends-that-defined-data-breaches-in-2019/
1. Big Breaches Get Bigger
It wasn’t long ago when mega-breaches were big news. Today, such incidents are commonplace.
Risk Based Security reported this summer that 2019 was on track to be the worst year on record for breach activity, with 4.1 billion records compromised in the first six months alone. At least 10 data breaches in 2019 involved the theft or exposure of databases containing at least 100 million records, including several instances where data was left exposed on unsecured servers.
2. Sometimes, the Enemy Is Us
Cloud platforms can support world-class protection against attacks on their infrastructure — too bad the same can’t always be said for their customers. Misconfigured cloud storage instances, unpatched applications and lax access controls were frequent culprits in cases of unintentional exposure of sensitive data this year.
In many cases, sensitive data was left out in the open for anyone to access, and the guilty parties included some of the largest hyperscale companies. Often, the culprits in these instances weren’t infrastructure-as-a-service (IaaS) providers, but rather customers who didn’t understand the standard shared responsibility model, under which cloud providers secure their infrastructure but customers are responsible for applications and data.
3. Ransomware Gets Smarter
The volume of ransomware attacks had been declining for nearly two years, but that may be because criminals are focusing more strategically on their targets.
IBM X-Force Incident Response and Intelligence Services (IRIS) reported a 200 percent increase in destructive attacks over the first half of this year compared to 2018, with organized criminals taking over from nation-states as the principal growth drivers
4. Cryptocurrencies Struggle for Legitimacy
This should have been cryptocurrencies’ year to shine. Big name financial institutions finally bought into the allure of lower costs and faster transactions based on the blockchain protocol, led by JP Morgan’s launch of JPM Coin for institutional clients and a $63 million investment in the utility settlement coin project by a consortium of big banks.
Tomi Engdahl says:
There are several different SSH Honey Pots out there which offer a variety of different features. These can be split in to low and high interactivity Honey Pots.
-https://github.com/desaster/kippo
-https://github.com/micheloosterhof/cowrie
-You can graph interesting metrics in relation to the attackers sessions using the KippoGraph Web UI: https://bruteforce.gr/kippo-graph
-The most widely used high interactivity Honey Pot is HonSSH: https://github.com/tnich/honssh
https://web.archive.org/web/20200104032004/https://www.robertputt.co.uk/learn-from-your-attackers-ssh-honeypot/
Tomi Engdahl says:
New USB Cable Kills Your Linux Laptop if Stolen in a Public Place
https://it.slashdot.org/story/20/01/03/123235/new-usb-cable-kills-your-linux-laptop-if-stolen-in-a-public-place
A software engineer has designed a so-called USB “kill cable” that works as a dead man’s switch to shut down or wipe a Linux laptop when the device is stolen off your table or from your lap in public spaces like parks, malls, and internet cafes.
New USB cable kills your Linux laptop if stolen in a public place
Building your own BusKill cable costs between $20 and $45.
https://www.zdnet.com/article/new-usb-cable-kills-your-linux-laptop-if-stolen-in-a-public-place/
The idea is to connect the BusKill cable to your Linux laptop on one end, and to your belt, on the other end. When someone yanks your laptop from your lap or table, the USB cable disconnects from the laptop and triggers a udev script [1, 2, 3] that executes a series of preset operations.
Tomi Engdahl says:
Forget Nuclear Weapons, Cutting Undersea Cables Could Decisively End A War
https://nationalinterest.org/blog/buzz/forget-nuclear-weapons-cutting-undersea-cables-could-decisively-end-war-108651
Our modern economy could collapse.
Our world’s reliance on the internet has only grown with time.
When a July 2015 undersea tremor triggered a rockslide between the islands of Saipan and Tinian in the Northern Marianas Islands, it cut the only fiber-optic cable connecting the archipelago to the global network. Air traffic control grounded flights, automated teller machines shut down, web and phone connections broke.
One of America’s greatest techno-spy capers of the Cold War involved tapping Soviet Navy communications via a submarine cable in the 1970s and 1980s. Before IVY BELLS ended with its unmasking by Soviet spy Ronald Pelton, its clandestine aquanauts, spy sub and nuclear-powered “bug” made espionage history.
Cut up undersea hydrophone networks and you deafen your adversary. Cut Internet cables and you have the ultimate denial-of-service cyber weapon.
Tomi Engdahl says:
Introducing BusKill: A Kill Cord for your Laptop
https://tech.michaelaltfield.net/2020/01/02/buskill-laptop-kill-cord-dead-man-switch/
This post will introduce a simple udev rule and ~$20 in USB hardware that effectively implements a kill cord Dead Man Switch to trigger your machine to self-destruct in the event that you’re kicked out of the helm position.
Tomi Engdahl says:
36C3 – All wireless communication stacks are equally broken
https://www.youtube.com/watch?v=AzLjN_WEKLI
Tomi Engdahl says:
https://pentestmag.com/what_is_the_domain_name_system/
Tomi Engdahl says:
Smart lock’s security issues leave open doors for attackers
https://news.cision.com/f-secure/r/smart-lock-s-security-issues-leave-open-doors-for-attackers,c2987851
Tomi Engdahl says:
Buffer Over Flow Explained and Simplified [ 108 ] – Theory
https://www.youtube.com/watch?v=y4YtQ0pwURE
Tomi Engdahl says:
Nessus Map
https://pentestmag.com/nessus-map/
50 Essential Nmap Commands for System Admins
https://www.ubuntupit.com/essential-nmap-commands-for-system-admins/
Tomi Engdahl says:
Non-functional Requirements: Examples, Types, How to Approach
https://www.altexsoft.com/blog/non-functional-requirements/
Tomi Engdahl says:
HASH CALCULATOR
Compute a hash value of a hexadecimal string or a file using one of the following functions: MD2, MD4, MD5, SHA1, SHA256, RIMEMD.
http://extranet.cryptomathic.com/hashcalc/index
Tomi Engdahl says:
MD5, SHA1, SHA224, SHA256, SHA384, SHA512 and RIPEMD160 hash generator
https://www.mobilefish.com/services/hash_generator/hash_generator.php
Tomi Engdahl says:
How the GCHQ Used the Top Secret “ANTICRISIS GIRL” Program to Spy on Users — An Analysis
https://medium.com/@danchodanchev/how-the-gchq-used-the-top-secret-anticrisis-girl-program-to-spy-on-users-an-analysis-83a979543c1e
Tomi Engdahl says:
Encoding your WiFi access point password into a QR code
https://feeding.cloud.geek.nz/posts/encoding-wifi-access-point-passwords-qr-code/
Up until recently, it was a pain to defend againt WPA2 brute-force attacks by using a random 63-character password (the maximum in WPA-Personal) mode). Thanks to Android 10 and iOS 11 supporting reading WiFi passwords from a QR code, this is finally a practical defense.
Tomi Engdahl says:
10 ways North Korea uses technology to keep its citizens in the dark about the outside world
https://www.businessinsider.com/10-ways-north-korea-uses-tech-to-keep-its-population-ignorant-2019-12
Tomi Engdahl says:
What I taught NASA employees about cybersecurity
By Kim Komando
https://www.foxnews.com/tech/3-things-i-taught-nasa-employees-about-cybersecurity
Tomi Engdahl says:
Top 20 Most Popular Hacking Tools in 2019
https://www.kitploit.com/2019/12/top-20-most-popular-hacking-tools-in.html?m=1
Tomi Engdahl says:
In a decade of cybersecurity alarms, these are the breaches that actually mattered
https://www.cnbc.com/2019/12/23/stuxnet-target-equifax-worst-breaches-of-2010s.html
Tomi Engdahl says:
Planting Tiny Spy Chips in Hardware Can Cost as Little as $200
A new proof-of-concept hardware implant shows how easy it may be to hide malicious chips inside IT equipment.
https://www.wired.com/story/plant-spy-chips-hardware-supermicro-cheap-proof-of-concept/
Tomi Engdahl says:
WannaCry Virus Was the Most Common Crypto Ransomware Attack in 2019
https://www.precisesecurity.com/articles/wannacry-virus-was-the-most-common-crypto-ransomware-attack-in-2019/
As one of the biggest malware threats, ransomware continues to disturb
the business operations and daily lives of internet users all over the
world. According to PreciseSecurity.com research, 23.56 % of all
encryption ransomware attacks during 2019 had encountered the WannaCry
virus, making it the most ordinary type of hack in the last year.. The
2019 data show that phishing scams were the most common cause of
ransomware infection globally during the last year. More than 67% of
MSP users reported ransomware attacks caused by spam and phishing
emails
Tomi Engdahl says:
SHA-1 chosen prefix collisions and DNSSEC
https://www.dns.cam.ac.uk/news/2020-01-09-sha-mbles.html
On the 7th January, a new more flexible and efficient collision attack
against SHA-1 was announced: SHA-1 is a shambles. SHA-1 is deprecated
but still used in DNSSEC, and this collision attack means that some
attacks against DNSSEC are now merely logistically challenging rather
than being cryptographically infeasible.
Tomi Engdahl says:
It is estimated that ransomware has cost the United States more than $7.5 billion last year. Let’s take look at the six true costs of a ransomware attack. To read more: https://www.sentinelone.com/blog/what-is-the-true-cost-of-a-ransomware-attack-6-factors-to-consider/
Tomi Engdahl says:
Catalin Cimpanu / ZDNet:
Chainalysis: in 2019, hackers successfully breached 11 major cryptocurrency exchanges, including Binance, and stole more than $283M worth of cryptocurrency
2019 saw more cryptocurrency hacks than any other year
https://www.zdnet.com/article/2019-saw-more-cryptocurrency-hacks-than-any-other-year/
Hackers launched more attacks against cryptocurrency exchanges in 2019, but stole fewer funds.
The 11 hacks represent the highest number of security breaches at cryptocurrency exchange portals recorded in a single year in the last decade, up from six incidents recorded in the previous year, in 2018.
https://www.zdnet.com/article/cryptocurrency-101-what-every-business-needs-to-know/
Tomi Engdahl says:
https://newsupdatesnepal.blogspot.com/2019/11/top-hacking-tool-for-hackers-2019.html
Tomi Engdahl says:
https://pentestmag.com/dagon-advanced-hash-cracking-manipulation-system/
Tomi Engdahl says:
Cameradar – Hack RTSP Video Surveillance CCTV Cameras
https://www.darknet.org.uk/2020/01/cameradar-hack-rtsp-video-surveillance-cctv-cameras/
Tomi Engdahl says:
SQL Injection to RCE
https://pentestmag.com/sql-injection-to-rce/
Tomi Engdahl says:
https://null-byte.wonderhowto.com/how-to/hack-wi-fi-networks-with-bettercap-0194422/
Tomi Engdahl says:
Understanding TCP Sequence and Acknowledgment Numbers
https://packetlife.net/blog/2010/jun/7/understanding-tcp-sequence-acknowledgment-numbers/
Tomi Engdahl says:
https://pentestmag.com/holy-book-x86/
Tomi Engdahl says:
https://pentestmag.com/zeus-scanner-advanced-dork-searching/
Tomi Engdahl says:
Exploiting blind SQL injections in ‘UPDATE’ and ‘INSERT’ statements without stacked queries by Sina Yazdanmehr
https://pentestmag.com/exploiting-blind-sql-injections-update-insert-statements-without-stacked-queries-sina-yazdanmehr/
Tomi Engdahl says:
Xerosploit – Efficient and Advanced Man-In-The-Middle Framework
https://hakin9.org/xerosploit-efficient-and-advanced-man-in-the-middle-framework/
Tomi Engdahl says:
Network Basics for Hackers: Server Message Block (SMB) and Samba
https://www.hackers-arise.com/single-post/2019/03/04/Network-Basics-for-Hackers-Server-Message-Block-SMB
Tomi Engdahl says:
How to clean out golden tickets after a succesful attack on your active directory
https://www.peerlyst.com/posts/how-to-clean-out-golden-tickets-after-a-succesful-attack-on-your-active-directory-guurhart
If an attack made it into your active directory environment and got a golden ticket, there is a specific set of steps you need to take to make sure you’ve cleaned out the adversary:
Tomi Engdahl says:
eXploit X : “Give Me Root” – Computerphile
https://www.youtube.com/watch?v=3vCpYgaZpiw
One line of code can get root access on many Linux systems. Dr Steve Bagley demos the exploit.
Tomi Engdahl says:
How to build a TCP proxy #4: Fake Certificate Authority
https://robertheaton.com/2018/08/31/how-to-build-a-tcp-proxy-4/
Tomi Engdahl says:
Stitch – a Python written cross platform RAT
https://pentestmag.com/stitch-python-written-cross-platform-rat/