Security News
Microsoft says Microsoft Edge users will notice improved performance and a smaller disk footprint because the web browser now automatically compresses disk caches. "Beginning with Microsoft Edge 102 on Windows, Microsoft Edge automatically compresses disk caches on devices that meet eligibility checks, to ensure the compression will be beneficial without degrading performance," the Microsoft Edge Team said Wednesday.
The cache-based targeted de-anonymization attack is a cross-site leak that involves the adversary leveraging a service such as Google Drive, Dropbox, or YouTube to privately share a resource with the target, followed by embedding the shared resource into the attack website. The attack, in a nutshell, aims to unmask the users of a website under the attacker's control by connecting the list of accounts tied to those individuals with their social media accounts or email addresses through a piece of shared content.
Researchers have demonstrated yet another variant of the SAD DNS cache poisoning attack that leaves about 38% of the domain name resolvers vulnerable, enabling attackers to redirect traffic originally destined to legitimate websites to a server under their control. From Kaminsky Attack to SAD DNS. DNS cache poisoning, also called DNS spoofing, is a technique in which corrupt data is introduced into a DNS resolver's cache, so that DNS queries return an incorrect response for a trusted domain and users are directed to malicious websites.
Targeting the specific sub-class of side-channel attacks against cache carried out by shared software, TimeCache is claimed to offer perfect protection with a tiny performance impact, while keeping all of the lovely benefits of sharing things in the first place. "Our defence against timing side channels through shared software retains the benefits of allowing processes to utilise the entire cache capacity of a shared cache," the pair explained in a paper presented at the ACM/IEEE 48th Annual International Symposium on Computer Architecture.
Researchers at Israel-based boutique cybersecurity consultancy JSOF this week disclosed the details of seven potentially serious DNS-related vulnerabilities that could expose millions of devices to various types of attacks. Its DNS subsystem "Provides a local DNS server for the network, with forwarding of all query types to upstream recursive DNS servers and caching of common record types."
Seven vulnerabilities affecting Dnsmasq, a caching DNS and DHCP server used in a variety of networking devices and Linux distributions, could be leveraged to mount DNS cache poisoning attack and/or to compromise vulnerable devices. "Some of the bigger users of Dnsmasq are Android/Google, Comcast, Cisco, Red Hat, Netgear, and Ubiquiti, but there are many more. All major Linux distributions offer Dnsmasq as a package, but some use it more than others, e.g., in OpenWRT it is used a lot, Red Hat use it as part of their virtualization platforms, Google uses it for Android hotspots, while, for example Ubuntu just has it as an optional package," Shlomi Oberman, CEO and researcher at JSOF, told Help Net Security.
Google is experimenting with increased storage for the browser cache to reduce the performance hit caused by the recently added partitioned cache feature. To prevent these side-channel attacks, Google added a new feature to Chrome 85 that partitions the browser's disk cache so that each site utilizes its own cache that cannot be read by other sites.
Microsoft issued guidance on how to mitigate a DNS cache poisoning vulnerability reported by security researchers from the University of California and Tsinghua University. Successfully exploiting the vulnerability could allow attackers to use modified DNS records to redirect a target to a malicious website under their control as part of DNS spoofing attacks.
Jack Wallen walks you through the process of putting in place a temporary fix against SAD DNS for your Linux servers and desktops. There's a new DNS cache poisoning threat in town and it goes by the name of Side-channel AttackeD DNS. This new attack works like so: SAD DNS makes it possible for hackers to reroute traffic destined to a specific domain to a server under their control.
A group of academics from the University of California and Tsinghua University has uncovered a series of critical security flaws that could lead to a revival of DNS cache poisoning attacks. The effectiveness of such attacks has taken a hit in part due to protocols such as DNSSEC that creates a secure domain name system by adding cryptographic signatures to existing DNS records and randomization-based defenses that allow the DNS resolver to use a different source port and transaction ID for every query.