Network Security
system security Linux network
system security Linux network The romanticized image of the digital nomad – a laptop on a sun-drenched balcony – rarely accounts for the actual friction of maintaining a professional development environment on the move. . The friction is amplified with Linux. We are looking for a setup that respects our kernel configurations, handles volatile network handovers, and maintains a strict security posture without the hand-holding of a consumer-grade OS – so, put simply, more than just a laptop and a sunny deck. The hardware is...
May 26, 2026
Server Securityopen-source Linux administration
open-source Linux administration Cron has existed in Unix and Linux environments for decades, handling backups, cleanup scripts, patching jobs, log rotation, monitoring tasks, and other maintenance work that administrators do not want to run manually. Most Linux servers rely on it constantly, which is exactly why attackers continue abusing it for persistence after a system has already been compromised. . Persistence through cron is not complicated. Attackers do not need a rootkit or advanced malware framework to maintain...
May 25, 2026
Vendors/Productssecurity breach linux
security breach linux A major internal repository breach at GitHub has exposed a critical and overlooked blind spot in Linux supply chain security. Kernel exploits, exposed SSH services, weak firewall rules, and vulnerable daemons dominated the Linux threat model for years, and in many environments, they still matter. But recent supply-chain incidents involving GitHub ecosystems, npm packages, and malicious developer tooling point somewhere else entirely: the developer workstation. . The breach matters because...
May 21, 2026
Security Trends access control multi-tenant
access control multi-tenant Linux administrators often face an ugly choice in the cloud: prioritize convenience and cost-efficiency by sharing infrastructure, or sacrifice those benefits for the sake of total isolation. Most modern Linux workloads don't live on their own private servers anymore. They live in shared environments like Kubernetes clusters, where multiple teams and services run side-by-side. It sounds efficient, and it usually is. . But cloud isolation isn't as ironclad as it looks on the diagram. If you...
May 21, 2026
Vendors/Productsincident response cloud security
incident response cloud security Managed Extended Detection and Response (MXDR) has become one of the most sought-after security services in the enterprise market — and with good reason. It promises the holy grail: broad visibility across endpoints, network, cloud, email, and identity, combined with the 24/7 human expertise most organizations simply cannot build in-house. . However, the rapid growth of the market has produced a wide range of providers whose capabilities vary considerably beneath the surface. Choosing the...
May 19, 2026
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dns securitynetwork safetyinternet encryptionAfilias: Implementing DNSSEC for .info and Various Other Domains
Afilias, which operates .info and more than a dozen other Web site extensions, will announce on Monday plans to deploy an emerging standard known as DNSSEC that adds a layer of encryption to the Internet's Domain Name System. Will security worries propel DNS into the cloud?. Afilias will deploy DNS Security Extensions (DNSSEC) on 13 of the domains it operates -- including .info, India's .in and the Hong Kong-based .asia -- by the end of the year. DNSSEC prevents spoofing attacks by allowing Web sites to verify their domain names and corresponding IP addresses using digital signatures and public-key encryption. The link for this article located at Network World is no longer available. . Afilias is set to deploy DNSSEC across 13 different domains, bolstering online security through advanced encryption protocols.. DNS Security, DNSSEC Implementation, Internet Encryption. . LinuxSecurity.com Team
Aug 24, 2010
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Server Security
74
remote accesssecure accessvirtual private networkBenefits Of VPN Technologies For Enhanced Remote Security
Virtual Private Networks, or VPNs, extend the reach of local-area networks without requiring owned or leased private lines. Businesses can use VPNs to give remote and mobile users network access, connect geographically separated branches into a unified network and enable the remote use of applications that rely on internal servers. VPNs can use one or both of two mechanisms. One is to use private circuits leased from a trusted communications provider: alone, this is called a trusted VPN. The other is to send encrypted traffic over the public Internet: alone, this is called a secure VPN. Using a secure VPN over a trusted VPN is called a hybrid VPN. Combining two kinds of secure VPN into one gateway, for instance IPsec and SSL, is also called a hybrid VPN. . The link for this article located at ComputerWorld is no longer available. . Uncover key aspects of VPN solutions to enhance your privacy and elevate your internet connectivity.. VPN Technologies, Secure Access, Remote Networking, Secure Connectivity. . Benjamin D. Thomas
Aug 09, 2006
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Network Security
67
data protectionecommerce securityinternet encryptionExploring Internet Encryption's Role In E-Commerce Security
For more than 15 years, we have been deluged with the idea that Internet encryption, SSL in particular, is sine qua non--an absolutely indispensable component of enterprise and e-commerce security. The argument goes like this: Because the Internet uses packet switching . . . . For more than 15 years, we have been deluged with the idea that Internet encryption, SSL in particular, is sine qua non--an absolutely indispensable component of enterprise and e-commerce security. The argument goes like this: Because the Internet uses packet switching rather than circuit switching, our traffic is part of giant party lines--easily sniffed (eavesdropped, snooped, wiretapped) by almost anyone with a packet sniffer and a little ambition. Because most of us in the infosecurity community regard Internet encryption as a given, we, in turn, pester partners, end users and anyone else who will listen to make sure their browsers are in secure mode whenever transmitting sensitive information (address, credit card number, etc.). On a more technical level, security geeks constantly remind us that the paltry 40-bit encryption in default browsers can easily be broken with an old desktop PC in one day. We should really use 56-, 64- or 128-bit encryption, they argue, because it would take a week of 1,000 computers (56 bit) or a century of all the computers on the planet (128 bit) to break. Yes, data encryption is a fundamental concept in security, and I'd be a fool to say it's not important for many applications and in many environments. But all this brouhaha about Internet transaction encryption misses a much larger point: The risk of having your credit card number sniffed on the public 'Net is next to nothing. I'm not talking about sniffing on slow network segments or on a corporate subnet--where the risk is real--but rather on the public Internet. . For more than 15 years, we have been deluged with the idea that Internet encryption, SSL in particul. years, deluged, internet, encryption, particul. . LinuxSecurity.comTeam
May 16, 2001
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Cryptography
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