Tech advances like the cloud, mobile technology, and the app-based software model have changed the way today’s modern business operates.
They’ve also changed the way criminals attack and steal from businesses. Criminals strive to be agile in much the same way that companies do. Spreading malware is a favorite technique among attackers. According to the 2019 Data Breach Investigations Report, 28% of data breaches included malware.¹
While malware’s pervasiveness may not come as a surprise to many people, what’s not always so well understood is that automating app attacks—by means of malicious bots —is the most common way cybercriminals commit their crimes and spread malware. It helps them achieve scale.
Published By: BehavioSec
Published Date: Oct 04, 2019
A Global 2000 bank was evaluating new methods of
authentication for their digital clients to protect accounts
under constant attack by malware and fraudsters. In evaluating
behavior biometric vendors, they selected BehavioSec, for its
enterprise grade capabilities to be deployed on-premise and
integrate with existing legacy risk management systems.
As Italy’s businesses grew increasingly vulnerable to the threat of ransomware, data breaches, and other malicious malware attacks, service provider Telecom Italia sought an innovative solution to effectively and efficiently protect the network and data of its business users.
In this case study, you’ll read about how Italy’s largest service provider partnered with Cisco Umbrella to increase value for customers and accelerate their revenues with cloud security.
"Global professional services firm, Arup, moved from Cisco Cloud Web Security (CWS) to Cisco Umbrella. By implementing a secure internet gateway in conjunction with next-gen endpoint security, Arup secured access to the internet wherever users go, reduced its exposure to malware and improved the ability to detect, respond and remediate when necessary.
-Substantially reduced administrative time
-Accelerated response and remediation process
-Increased performance of cloud applications
-Reduced time to investigate"
Today’s security appliances and agents must wait until malware reaches the perimeter or endpoint before they can detect or prevent it. OpenDNS arrests attacks earlier in the kill chain. Enforcing security at the DNS layer prevents a malicious IP connection from ever being established or a malicious file from ever being downloaded. This same DNS layer of network security can contain malware and any compromised system from exfiltrating data. Command & control (C2) callbacks to the attacker’s botnet infrastructure are blocked over any port or protocol. Unlike appliances, the cloud service protects devices both on and off the corporate network. Unlike agents, the DNS layer protects every device connected to the network — even IoT. It is the easiest and fastest layer of security to deploy everywhere.
"We live and surf in a cyber world where attacks like APT, DDOS, Trojans and Ransomware are common and easy to execute. Domain names are an integral part of any business today and apparently an integral part of an attacker's plan too.
Domain names are carriers of malwares, they act as Command and Control servers and malware's ex-filtrate data too. In today's threat landscape - predicting threats, spotting threats and mitigating them is super crucial.. This is called Visibility and Analytics.
Watch this on demand session with our Cisco cloud security experts Shyam Ramaswamy and Fernando Ferrari as they talk about how Cisco Umbrella and The Umbrella Research team detect anomalies, block threats and identify compromised hosts. The experts also discuss how effectively Cisco spot, react, filter out IOC, block the network communications of a malware; identify and stop a phishing campaign (unknown ones too).
Users are working off-hours, off-network, and off-VPN. Are you up on all the ways DNS can be used to secure them? If not, maybe it’s time to brush up. More than 91% of malware uses DNS to gain command and control, exfiltrate data, or redirect web traffic. Because DNS is a protocol used by all devices that connect to the internet, security at the DNS layer is critical for achieving the visibility and protection you need for any users accessing the internet. Learn how DNS-layer security can help you block threats before they reach your network or endpoints.
A well-planned cyberattack or an accidental download of
malware can mean the difference between a productive
day and all work grinding to a halt. As hackers get more
sophisticated, organizations concerned about their
bottom line and security of their customer, employee or
student data must stay on top of security.
ealthcare workers understand the complexity of fighting infections better than most. As medications are developed, germs evolve and become resistant to those medications. Over time, germs become incredibly complex and difficult to treat as they continue to evolve and adapt.
Unfortunately, computer viruses seem to be following a similar pattern—and the healthcare industry is struggling to catch up.
Published By: Cisco EMEA
Published Date: Mar 08, 2019
And then imagine processing power strong
enough to make sense of all this data in every
language and in every dimension. Unless
you’ve achieved that digital data nirvana (and
you haven’t told the rest of us), you’re going
to have some unknowns in your world.
In the world of security, unknown threats exist
outside the enterprise in the form of malicious
actors, state-sponsored attacks and malware
that moves fast and destroys everything
it touches. The unknown exists inside the
enterprise in the form of insider threat from
rogue employees or careless contractors –
which was deemed by 24% of our survey
respondents to pose the most serious risk to
their organizations. The unknown exists in the
form of new devices, new cloud applications,
and new data. The unknown is what keeps
CISOs, what keeps you, up at night – and we
know because we asked you.
Uncover the riskiest 1% of threats you’ve been missing. In hours. Not days or months. Nearly all endpoint security solutions claim to block 99% of malware. But what about the 1% of threats they miss? The most dangerous 1% of threats will wreak havoc on your network. If you rely solely on traditional point-in-time technologies, such as antivirus, those threats can go undetected for 200 days on average. For months on end, they can be creeping in and moving laterally across your network causing damage through stealthy malware campaigns without you even knowing it—until it’s too late.
Published By: Cisco EMEA
Published Date: Nov 13, 2017
In the not so distant past, the way we worked looked very different. Most work was done in an office, on desktops that were always connected to the corporate network. The applications and infrastructure that we used sat behind a firewall. Branch offices would backhaul traffic to headquarters, so they would get the same security protection. The focus from a security perspective was to secure the network perimeter. Today, that picture has changed a great deal.
Published By: Cisco EMEA
Published Date: Mar 26, 2019
Imagine if you could see deep into the future. And way back into the past, both at the same time. Imagine having visibility of everything that had ever happened and everything that was ever going to happen, everywhere, all at once.
And then imagine processing power strong enough to make sense of all this data in every language and in every dimension. Unless you’ve achieved that digital data nirvana (and you haven’t told the rest of us), you’re going to have some unknowns in your world.
In the world of security, unknown threats exist outside the enterprise in the form of malicious actors, state-sponsored attacks and malware that moves fast and destroys everything it touches. The unknown exists inside the enterprise in the form of insider threat from rogue employees or careless contractors – which was deemed by 24% of our survey respondents to pose the most serious risk to their organizations. The unknown exists in the form of new devices, new cloud applications, and new data. The unk
This white paper can help you confirm that your small business or distributed enterprise needs to invest in an effective next-generation firewalls (NGFW) solution. For small businesses, the
NGFW should provide an affordable and manageable entrée to advanced threat protection. In branch offices and the distributed enterprise, NGFWs should provide a detection and enforcement point, analyzing real-time threats and network traffic at scale and benefiting from an integrated and holistic view of the network of which it is a part. In both use scenarios, the NGFW should help your organization defend against targeted and persistent malware attacks, including emerging threats.
When evaluating a next-generation firewall (NGFW) to determine whether the solution can give you comprehensive protection for your entire enterprise, you need to look for seven must-have capabilities.
The NGFW should:
1. Integrate security functions tightly to provide effective threat and advanced malware protection
2. Provide complete and unified management
3. Provide actionable indications of compromise to identify malicious activity across networks and endpoints
4. Offer comprehensive network visibility
5. Help reduce complexity and costs
6. Integrate and interface with third-party security solutions
7. Provide investment protection
This white paper explains this checklist in depth and provides examples of the benefits a truly effective NGFW solution can deliver.
What You Will Learn:
This document will identify the essential capabilities you need in an advanced malware protection solution, the key questions you should ask your vendor, and shows you how Cisco combats today’s advanced malware attacks using a combination of four techniques:
• Advanced analytics
• Collective global security threat intelligence
• Enforcement across multiple form factors (networks, endpoints, mobile devices, secure gateways, and virtual systems)
• Continuous analysis and retrospective security
What You Will Learn:
Over the years we’ve all heard claims of simple, seemingly magical solutions to solve security problems, including the use of sandboxing technology alone to fight advanced malware and targeted threats.
This paper explores:
• Where sandboxing technology stands today
• Why it fails to meet the needs of organizations
• What’s needed for effective malware analysis
join Robb, Jimmy Ray, and their panel of guest experts as they show you how to protect your network with advanced threat defense across the entire attack continuum by combining Cisco’s proven ASA firewall skills with industry-leading Sourcefire next-generation IPS and advanced malware protection.
The Cisco® 2016 Midyear Cybersecurity Report—which presents research, insights, and perspectives from Cisco Security Research—updates security professionals on the trends covered in our previous security report while also examining developments that may affect the security landscape later this year.
While many organizations are guarding the front door with yesterday’s signature-based antivirus (AV) solutions, today’s unknown malware walks out the back door with all their data. What’s the answer? A new white paper, “The Rise of Machine Learning in Cybersecurity,” explains machine learning (ML) technology —what it is, how it works and why it offers better protection against the sophisticated attacks that bypass standard security measures. You’ll also learn about CrowdStrike’s exclusive ML technology and how, as part of the Falcon platform’s next-gen AV solution,it dramatically increases your ability to detect attacks that use unknown malware.
Download this white paper to learn:?How different types of ML are applied in various industries and why it’s such an effective tool against unknown malware?Why ML technologies differ and what factors can increase the accuracy and effectiveness of ML ?How CrowdStrike’s ML-based technology works as part of the Falcon platform’s next-generation AV
Published By: Carbonite
Published Date: Apr 09, 2018
Malware that encrypts a victim’s data until the
extortionist’s demands are met is one of the
most common forms of cybercrime. And the
prevalence of ransomware attacks continues
to increase. Cybercriminals are now using
more than 50 different forms of ransomware
to target and extort money from unsuspecting
individuals and businesses.
Ransomware attacks are pervasive. More than
4,000 ransomware attacks happen every day,
and the volume of attacks is increasing at a
rate of 300 percent annually.1 According to an
IDT911 study, 84 percent of small and midsize
businesses will not meet or report ransomware
No one is safe from ransomware, as it attacks
enterprises and SMBs, government agencies,
and individuals indiscriminately. While
ransomware demands more than doubled in
2016 to $679 from $294 in 2015, the cost of
remediating the damage and lost productivity
is many multiples higher.3 Ransomware is the
equivalent of catastrophic data loss, except
I sistemi di backup tradizionali non sono in grado di
rispondere alle esigenze delle organizzazioni moderne
perché si concentrano sul backup e non sul ripristino.
Trattano i database come file generici da copiare anziché
carichi di lavoro transazionali con requisiti specifici di integrità
dei dati, coerenza, prestazioni e disponibilità.
Inoltre, i settori altamente regolati, come i servizi finanziari,
sono soggetti a obblighi normativi sempre crescenti che
richiedono una protezione rigorosa dalle violazioni dei dati,
la perdita di dati, il malware, il ramsomware e altri rischi.
Questi rischi richiedono un recupero dati fiduciario per eliminare
l’esposizione della perdita di dati garantendone integrità
Questo libro spiega le sfide per la protezione dei moderni
database e il recovery (Capitolo 1), gli aspetti importanti di
una soluzione di protezione e del ripristino dei database
(Capitolo 2), le soluzioni di protezione e recupero dei database
di Oracle (Capitolo 3), e le r
raditional backup systems fail to meet the needs of
modern organizations by focusing on backup, not
recovery. They treat databases as generic files to be
copied, rather than as transactional workloads with
specific data integrity, consistency, performance, and
Additionally, highly regulated industries, such as financial
services, are subject to ever?increasing regulatory
mandates that require stringent protection against data
breaches, data loss, malware, ransomware, and other
risks. These risks require fiduciary?class data recovery
to eliminate data loss exposure and ensure data integrity
This book explains modern database protection and
recovery challenges (Chapter 1), the important aspects
of a database protection and recovery solution
(Chapter 2), Oracle’s database protection and recovery
solutions (Chapter 3), and key reasons to choose
Oracle for your database protection and recovery
needs (Chapter 4).
The purpose of IT backup and recovery systems is to avoid data loss and recover
quickly, thereby minimizing downtime costs. Traditional storage-centric data protection
architectures such as Purpose Built Backup Appliances (PBBAs), and the conventional
backup and restore processing supporting them, are prone to failure on recovery. This
is because the processes, both automated and manual, are too numerous, too complex,
and too difficult to test adequately. In turn this leads to unacceptable levels of failure for
today’s mission critical applications, and a poor foundation for digital transformation
Governments are taking notice. Heightened regulatory compliance requirements have
implications for data recovery processes and are an unwelcome but timely catalyst for
companies to get their recovery houses in order. Onerous malware, such as
ransomware and other cyber attacks increase the imperative for organizations to have
highly granular recovery mechanisms in place that allow
Published By: Preempt
Published Date: Nov 02, 2018
Attackers and malware are increasingly relying on a common set of tools to compromise identities and spread within a network. Tools like Mimikatz accompanied with common administrator tools like PsExec and WMI have become a standard part of an attacker’s arsenal to turn a single machine compromise into a full network breach. In this webinar we will take a look at why some of these tools are traditionally difficult to control, and introduce new countermeasures that let you fight back. In this webinar we will cover:
- An analysis of recent malware and attacks and the tools they used to spread through the network.
- A closer look at the underlying protocols supporting these tools, and the traditional challenges to controlling them.
- Introduce new controls that allow organizations to control NTLM in real-time, block pass-the-hash techniques, and adaptively control the use of NTLM in the network.
- How to gain visibility into PsExec, WMI, and RPC in general and how to create controls t