By Kyle Klassen Product Manager – Cloud Native Application Security at Trend Micro
Containers provide many great benefits to organizations – they’re lightweight, flexible, add consistency across different environments and scale easily.
One of the characteristics of containers is that they run in dedicated namespaces with isolated resource requirements. General purpose OS’s deployed to run containers might be viewed as overkill since many of their features and interfaces aren’t needed.
A key tenant in the cybersecurity doctrine is to harden platforms by exposing only the fewest number of interfaces and applying the tightest configurations required to run only the required operations.
Developers deploying containers to restricted platforms or “serverless” containers to the likes of AWS Fargate for example, should think about security differently – by looking upward, looking left and also looking all-around your cloud domain for opportunities to properly security your cloud native applications. Oh, and don’t forget to look outside. Let me explain…
Looking Upward
As infrastructure, OS, container orchestration and runtimes become the domain of the cloud provider, the user’s primary responsibility becomes securing the containers and applications themselves. This is where Trend Micro Cloud One, a security services platform for cloud builders, can help Dev and Ops teams better implement build pipeline and runtime security requirements. Cloud One – Application Security embeds a security library within the application itself to provide defense against web application attacks and to detect malicious activity.
One of the greatest benefits of this technology is that once an application is secured in this manner, it can be deployed anywhere and the protection comes along for the ride. Users can be confident their applications are secure whether deployed in a container on traditional hosts, into EKS on AWS Bottlerocket, serverless on AWS Fargate, or even as an AWS Lambda function!
Looking Left
It’s great that cloud providers are taking security seriously and providing increasingly secure environments within which to deploy your containers. But you need to make sure your containers themselves are not introducing security risks. This can be accomplished with container image scanning to identify security issues before these images ever make it to the production environment.
Enter Deep Security Smart Check – Container Image Scanning part of the Cloud One offering. Scans must be able to detect more than just vulnerabilities. Developer reliance on code re-use, public images, and 3rd party contributions mean that malware injection into private images is a real concern. Sensitive objects like secrets, keys and certificates must be found and removed and assurance against regulatory requirements like PCI, HIPAA or NIST should be a requirement before a container image is allowed to run.
Looking All-Around
Imagine taking the effort to ensure your applications, containers and functions are built securely, comply with strict security regulations and are deployed into container optimized cloud environments only to find out that you’ve still become a victim of an attack! How could this be? Well, one common oversight is recognizing the importance of disciplined configuration and management of the cloud resources themselves – you can’t assume they’re secure just because they’re working.
But, making sure your cloud services are secure can be a daunting task – likely comprised of dozens of cloud services, each with as many configuration options – these environments are complex. Cloud One – Conformity is your cloud security companion and gives you assurance that any hidden security issues with your cloud configurations are detected and prioritized. Disabled security options, weak keys, open permissions, encryption options, high-risk exposures and many, many more best practice security rules make it easy to conform to security best practices and get the most from your cloud provider services.
Look Outside
All done? Not quite. You also need to think about how the business workflows of your cloud applications ingest files (or malware?). Cloud storage like S3 Buckets are often used to accept files from external customers and partners. Blindly accepting uploads and pulling them into your workflows is an open door for attack.
Cloud One – File Storage Security incorporates Trend Micro’s best-in-class malware detection technology to identify and remove files infected with malware. As a cloud native application itself, the service deploys easily with deployment templates and runs as a ‘set and forget’ service – automatically scanning new files of any type, any size and automatically removing malware so you can be confident that all of your downstream workflows are protected.
It’s still about Shared Responsibility
Cloud providers will continue to offer security features for deploying cloud native applications – and you should embrace all of this capability. However, you can’t assume your cloud environment is optimally secure without validating your configurations. And once you have a secure environment, you need to secure all of the components within your control – your functions, applications, containers and workflows. With this practical approach, Trend Micro Cloud One perfectly complements your cloud services with Network Security, Workload Security, Application Security, Container Security, File Storage Security and Conformity for cloud posture management, so you can be confident that you’ve got security covered no matter which way you look.
To learn more visit Trendmicro.com/CloudOne and join our webinar on cloud native application threats https://resources.trendmicro.com/Cloud-One-Webinar-Series-Cloud-Native-Application-Threats.html
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If the first few months of 2020 have taught us anything, it’s the importance of collaboration and partnership to tackle a common enemy. This is true of efforts to fight the current pandemic, and it’s also true of the fight against cybercrime. That’s why Trend Micro has, over the years, struck partnerships with various organizations that share a common goal of securing our connected world.
So when we heard that one of these partners, the non-profit Shadowserver Foundation, was in urgent need of financial help, we didn’t hesitate to step in. Our new $600,000 commitment over three years will help to support the vital work it does collecting and sharing global threat data for the next three years.
What is Shadowserver?
Founded in 2004, The Shadowserver Foundation is now one of the world’s leading resources for reporting vulnerabilities, threats and malicious activity. Their work has helped to pioneer a more collaborative approach among the international cybersecurity community, from vendors and academia to governments and law enforcement.
Today, its volunteers, 16 full-time staff and global infrastructure of sinkholes, honeypots and honeyclients help run 45 scans across 4 billion IPv4 addresses every single day. It also performs daily sandbox scans on 713,000 unique malware samples, to add to the 12 Petabytes of malware and threat intelligence already stored on its servers. Thousands of network owners, including 109 CSIRTS in 138 countries worldwide, rely on the resulting daily reports — which are available free of charge to help make the digital world a safer place.
A Global Effort
Trend Micro is a long-time partner of The Shadowserver Foundation. We automatically share new malware samples via its malware exchange program, with the end goal of improving protection for both Trend Micro customers and Shadowserver subscribers around the world. Not only that, but we regularly collaborate on global law enforcement-led investigations. Our vision and mission statements of working towards a more secure, connected world couldn’t be more closely aligned.
As COVID-19 has brutally illustrated, protecting one’s own backyard is not enough to tackle a global challenge. Instead, we need to reach out and build alliances to take on the threats and those behind them, wherever they are. These are even more pronounced at a time when remote working has dramatically expanded the corporate attack surface, and offered new opportunities for the black hats to prosper by taking advantage of distracted employees and stretched security teams.
The money Trend Micro has donated over the next three years will help the Shadowserver Foundation migrate to the new data center it urgently needs and support operational costs that combined will exceed $2 million in 2020. We wish the team well with their plans for this year.
It’s no exaggeration to say that our shared digital world is a safer place today because of their efforts, and we hope to continue to collaborate long into the future
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Trend Micro Research has developed a go-to resource for all things related to cybercriminal underground hosting and infrastructure. Today we released the second in this three-part series of reports which detail the what, how, and why of cybercriminal hosting (see the first part here).
As part of this report, we dive into the common life cycle of a compromised server from initial compromise to the different stages of monetization preferred by criminals. It’s also important to note that regardless of whether a company’s server is on-premise or cloud-based, criminals don’t care what kind of server they compromise.
To a criminal, any server that is exposed or vulnerable is fair game.
Cloud vs. On-Premise Servers
Cybercriminals don’t care where servers are located. They can leverage the storage space, computation resources, or steal data no matter what type of server they access. Whatever is most exposed will most likely be abused.
As digital transformation continues and potentially picks up to allow for continued remote working, cloud servers are more likely to be exposed. Many enterprise IT teams, unfortunately, are not arranged to provide the same protection for cloud as on-premise servers.
As a side note, we want to emphasize that this scenario applies only to cloud instances replicating the storage or processing power of an on-premise server. Containers or serverless functions won’t fall victim to this same type of compromise. Additionally, if the attacker compromises the cloud account, as opposed to a single running instance, then there is an entirely different attack life cycle as they can spin up computing resources at will. Although this is possible, however, it is not our focus here.
Attack Red Flags
Many IT and security teams might not look for earlier stages of abuse. Before getting hit by ransomware, however, there are other red flags that could alert teams to the breach.
If a server is compromised and used for cryptocurrency mining (also known as cryptomining), this can be one of the biggest red flags for a security team. The discovery of cryptomining malware running on any server should result in the company taking immediate action and initiating an incident response to lock down that server.
This indicator of compromise (IOC) is significant because while cryptomining malware is often seen as less serious compared to other malware types, it is also used as a monetization tactic that can run in the background while server access is being sold for further malicious activity. For example, access could be sold for use as a server for underground hosting. Meanwhile, the data could be exfiltrated and sold as personally identifiable information (PII) or for industrial espionage, or it could be sold for a targeted ransomware attack. It’s possible to think of the presence of cryptomining malware as the proverbial canary in a coal mine: This is the case, at least, for several access-as-a-service (AaaS) criminals who use this as part of their business model.
Attack Life Cycle
Attacks on compromised servers follow a common path:
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The monetization lifecycle of a compromised server
Often, targeted ransomware is the final stage. In most cases, asset categorization reveals data that is valuable to the business but not necessarily valuable for espionage.
A deep understanding of the servers and network allows criminals behind a targeted ransomware attack to hit the company where it hurts the most. These criminals would know the dataset, where they live, whether there are backups of the data, and more. With such a detailed blueprint of the organization in their hands, cybercriminals can lock down critical systems and demand higher ransom, as we saw in our 2020 midyear security roundup report.
In addition, while a ransomware attack would be the visible urgent issue for the defender to solve in such an incident, the same attack could also indicate that something far more serious has likely already taken place: the theft of company data, which should be factored into the company’s response planning. More importantly, it should be noted that once a company finds an IOC for cryptocurrency, stopping the attacker right then and there could save them considerable time and money in the future.
Ultimately, no matter where a company’s data is stored, hybrid cloud security is critical to preventing this life cycle.
The post The Life Cycle of a Compromised (Cloud) Server appeared first on .
Microsoft Corp. is investigating reports that attackers are exploiting two previously unknown vulnerabilities in Exchange Server, a technology many organizations rely on to send and receive email. Microsoft says it is expediting work on software patches to plug the security holes. In the meantime, it is urging a subset of Exchange customers to enable a setting that could help mitigate ongoing attacks.
In customer guidance released Thursday, Microsoft said it is investigating two reported zero-day flaws affecting Microsoft Exchange Server 2013, 2016, and 2019. CVE-2022-41040, is a Server-Side Request Forgery (SSRF) vulnerability that can enable an authenticated attacker to remotely trigger the second zero-day vulnerability — CVE-2022-41082 — which allows remote code execution (RCE) when PowerShell is accessible to the attacker.
Microsoft said Exchange Online has detections and mitigation in place to protect customers. Customers using on-premises Microsoft Exchange servers are urged to review the mitigations suggested in the security advisory, which Microsoft says should block the known attack patterns.
Vietnamese security firm GTSC on Thursday published a writeup on the two Exchange zero-day flaws, saying it first observed the attacks in early August being used to drop “webshells.” These web-based backdoors offer attackers an easy-to-use, password-protected hacking tool that can be accessed over the Internet from any browser.
“We detected webshells, mostly obfuscated, being dropped to Exchange servers,” GTSC wrote. “Using the user-agent, we detected that the attacker uses Antsword, an active Chinese-based opensource cross-platform website administration tool that supports webshell management. We suspect that these come from a Chinese attack group because the webshell codepage is 936, which is a Microsoft character encoding for simplified Chinese.”
GTSC’s advisory includes details about post-compromise activity and related malware, as well as steps it took to help customers respond to active compromises of their Exchange Server environment. But the company said it would withhold more technical details of the vulnerabilities for now.
In March 2021, hundreds of thousands of organizations worldwide had their email stolen and multiple backdoor webshells installed, all thanks to four zero-day vulnerabilities in Exchange Server.
Granted, the zero-day flaws that powered that debacle were far more critical than the two detailed this week, and there are no signs yet that exploit code has been publicly released (that will likely change soon). But part of what made last year’s Exchange Server mass hack so pervasive was that vulnerable organizations had little or no advance notice on what to look for before their Exchange Server environments were completely owned by multiple attackers.
Microsoft is quick to point out that these zero-day flaws require an attacker to have a valid username and password for an Exchange user, but this may not be such a tall order for the hackers behind these latest exploits against Exchange Server.
Steven Adair is president of Volexity, the Virginia-based cybersecurity firm that was among the first to sound the alarm about the Exchange zero-days targeted in the 2021 mass hack. Adair said GTSC’s writeup includes an Internet address used by the attackers that Volexity has tied with high confidence to a China-based hacking group that has recently been observed phishing Exchange users for their credentials.
In February 2022, Volexity warned that this same Chinese hacking group was behind the mass exploitation of a zero-day vulnerability in the Zimbra Collaboration Suite, which is a competitor to Microsoft Exchange that many enterprises use to manage email and other forms of messaging.
If your organization runs Exchange Server, please consider reviewing the Microsoft mitigations and the GTSC post-mortem on their investigations.
Denis Emelyantsev, a 36-year-old Russian man accused of running a massive botnet called RSOCKS that stitched malware into millions of devices worldwide, pleaded guilty to two counts of computer crime violations in a California courtroom this week. The plea comes just months after Emelyantsev was extradited from Bulgaria, where he told investigators, “America is looking for me because I have enormous information and they need it.”
A copy of the passport for Denis Emelyantsev, a.k.a. Denis Kloster, as posted to his Vkontakte page in 2019.
First advertised in the cybercrime underground in 2014, RSOCKS was the web-based storefront for hacked computers that were sold as “proxies” to cybercriminals looking for ways to route their Web traffic through someone else’s device.
Customers could pay to rent access to a pool of proxies for a specified period, with costs ranging from $30 per day for access to 2,000 proxies, to $200 daily for up to 90,000 proxies.
Many of the infected systems were Internet of Things (IoT) devices, including industrial control systems, time clocks, routers, audio/video streaming devices, and smart garage door openers. Later in its existence, the RSOCKS botnet expanded into compromising Android devices and conventional computers.
In June 2022, authorities in the United States, Germany, the Netherlands and the United Kingdom announced a joint operation to dismantle the RSOCKS botnet. But that action did not name any defendants.
Inspired by that takedown, KrebsOnSecurity followed clues from the RSOCKS botnet master’s identity on the cybercrime forums to Emelyantsev’s personal blog, where he went by the name Denis Kloster. The blog featured musings on the challenges of running a company that sells “security and anonymity services to customers around the world,” and even included a group photo of RSOCKS employees.
“Thanks to you, we are now developing in the field of information security and anonymity!,” Kloster’s blog enthused. “We make products that are used by thousands of people around the world, and this is very cool! And this is just the beginning!!! We don’t just work together and we’re not just friends, we’re Family.”
But by the time that investigation was published, Emelyantsev had already been captured by Bulgarian authorities responding to an American arrest warrant. At his extradition hearing, Emelyantsev claimed he would prove his innocence in an U.S. courtroom.
“I have hired a lawyer there and I want you to send me as quickly as possible to clear these baseless charges,” Emelyantsev told the Bulgarian court. “I am not a criminal and I will prove it in an American court.”
RSOCKS, circa 2016. At that time, RSOCKS was advertising more than 80,000 proxies. Image: archive.org.
Emelyantsev was far more than just an administrator of a large botnet. Behind the facade of his Internet advertising company based in Omsk, Russia, the RSOCKS botmaster was a major player in the Russian email spam industry for more than a decade.
Some of the top Russian cybercrime forums have been hacked over the years, and leaked private messages from those forums show the RSOCKS administrator claimed ownership of the RUSdot spam forum. RUSdot is the successor forum to Spamdot, a far more secretive and restricted community where most of the world’s top spammers, virus writers and cybercriminals collaborated for years before the forum imploded in 2010.
A Google-translated version of the Rusdot spam forum.
Indeed, the very first mentions of RSOCKS on any Russian-language cybercrime forums refer to the service by its full name as the “RUSdot Socks Server.”
Email spam — and in particular malicious email sent via compromised computers — is still one of the biggest sources of malware infections that lead to data breaches and ransomware attacks. So it stands to reason that as administrator of Russia’s most well-known forum for spammers, Emelyantsev probably knows quite a bit about other top players in the botnet spam and malware community.
It remains unclear whether Emelyantsev made good on his promise to spill that knowledge to American investigators as part of his plea deal. The case is being prosecuted by the U.S. Attorney’s Office for the Southern District of California, which has not responded to a request for comment.
Emelyantsev pleaded guilty on Monday to two counts, including damage to protected computers and conspiracy to damage protected computers. He faces a maximum of 20 years in prison, and is currently scheduled to be sentenced on April 27, 2023.
In 2020, the United States brought charges against four men accused of building a bulletproof hosting empire that once dominated the Russian cybercrime industry and supported multiple organized cybercrime groups. All four pleaded guilty to conspiracy and racketeering charges. But there is a fascinating and untold backstory behind the two Russian men involved, who co-ran the world’s top spam forum and worked closely with Russia’s most dangerous cybercriminals.
From January 2005 to April 2013, there were two primary administrators of the cybercrime forum Spamdot (a.k.a Spamit), an invite-only community for Russian-speaking people in the businesses of sending spam and building botnets of infected computers to relay said spam. The Spamdot admins went by the nicknames Icamis (a.k.a. Ika), and Salomon (a.k.a. Sal).
Spamdot forum administrator “Ika” a.k.a. “Icamis” responds to a message from “Tarelka,” the botmaster behind the Rustock botnet. Dmsell said: “I’m actually very glad that I switched to legal spam mailing,” prompting Tarelka and Ika to scoff.
As detailed in my 2014 book, Spam Nation, Spamdot was home to crooks controlling some of the world’s nastiest botnets, global malware contagions that went by exotic names like Rustock, Cutwail, Mega-D, Festi, Waledac, and Grum.
Icamis and Sal were in daily communications with these botmasters, via the Spamdot forum and private messages. Collectively in control over millions of spam-spewing zombies, those botmasters also continuously harvested passwords and other data from infected machines.
As we’ll see in a moment, Salomon is now behind bars, in part because he helped to rob dozens of small businesses in the United States using some of those same harvested passwords. He is currently housed in a federal prison in Michigan, serving the final stretch of a 60-month sentence.
But the identity and whereabouts of Icamis have remained a mystery to this author until recently. For years, security experts — and indeed, many top cybercriminals in the Spamit affiliate program — have expressed the belief that Sal and Icamis were likely the same person using two different identities. And there were many good reasons to support this conclusion.
For example, in 2010 Spamdot and its spam affiliate program Spamit were hacked, and its user database shows Sal and Icamis often accessed the forum from the same Internet address — usually from Cherepovets, an industrial town situated approximately 230 miles north of Moscow. Also, it was common for Icamis to reply when Spamdot members communicated a request or complaint to Sal, and vice versa.
Image: maps.google.com
Still, other clues suggested Icamis and Sal were two separate individuals. For starters, they frequently changed the status on their instant messenger clients at different times. Also, they each privately discussed with others having attended different universities.
KrebsOnSecurity began researching Icamis’s real-life identity in 2012, but failed to revisit any of that research until recently. In December 2023, KrebsOnSecurity published new details about the identity of “Rescator,” a Russian cybercriminal who is thought to be closely connected to the 2013 data breach at Target.
That story mentioned Rescator’s real-life identity was exposed by Icamis in April 2013, as part of a lengthy farewell letter Ika wrote to Spamdot members wherein Ika said he was closing the forum and quitting the cybercrime business entirely.
To no one’s shock, Icamis didn’t quit the business: He simply became more quiet and circumspect about his work, which increasingly was focused on helping crime groups siphon funds from U.S. bank accounts. But the Rescator story was a reminder that 10 years worth of research on who Ika/Icamis is in real life had been completely set aside. This post is an attempt to remedy that omission.
The farewell post from Ika (aka Icamis), the administrator of both the BlackSEO forum and Pustota, the successor forum to Spamit/Spamdot.
Icamis and Sal offered a comprehensive package of goods and services that any aspiring or accomplished spammer would need on a day-to-day basis: Virtually unlimited bulletproof domain registration and hosting services, as well as services that helped botmasters evade spam block lists generated by anti-spam groups like Spamhaus.org. Here’s snippet of Icamis’s ad on Spamdot from Aug. 2008, wherein he addresses forum members with the salutation, “Hello Gentlemen Scammers.”
We are glad to present you our services!
Many are already aware (and are our clients), but publicity is never superfluous.Domains.
– all major gtlds (com, net, org, info, biz)
– many interesting and uninteresting cctlds
– options for any topic
– processing of any quantities
– guarantees
– exceptionally low prices for domains for white and gray schemes (including any SEO and affiliate spam )
– control panel with balances and auto-registration
– all services under the Ikamis brand, proven over the years;)Servers.
– long-term partnerships with several [data centers] in several parts of the world for any topic
– your own data center (no longer in Russia ;)) for gray and white topics
– any configuration and any hardware
– your own IP networks (PI, not PA) and full legal support
– realtime backups to neutral sites
– guarantees and full responsibility for the services provided
– non-standard equipment on request
– our own admins to resolve any technical issues (services are free for clients)
– hosting (shared and vps) is also possibleNon-standard and related services.
– ssl certificates signed by geotrust and thawte
– old domains (any year, any quantity)
– beautiful domains (keyword, short, etc.)
– domains with indicators (any, for SEO, etc.)
– making unstable gtld domains stable
– interception and hijacking of custom domains (expensive)
– full domain posting via web.archive.org with restoration of native content (preliminary applications)
– any updates to our panels to suit your needs upon request (our own coders)All orders for the “Domains” sections and “Servers” are carried out during the day (depending on our workload).
For non-standard and related services, a preliminary application is required 30 days in advance (except for ssl certificates – within 24 hours).
Icamis and Sal frequently claimed that their service kept Spamhaus and other anti-spam groups several steps behind their operations. But it’s clear that those anti-spam operations had a real and painful impact on spam revenues, and Salomon was obsessed with striking back at anti-spam groups, particularly Spamhaus.
In 2007, Salomon collected more than $3,000 from botmasters affiliated with competing spam affiliate programs that wanted to see Spamhaus suffer, and the money was used to fund a week-long distributed denial-of-service (DDoS) attack against Spamhaus and its online infrastructure. But rather than divert their spam botnets from their normal activity and thereby decrease sales, the botmasters voted to create a new DDoS botnet by purchasing installations of DDoS malware on thousands of already-hacked PCs (at a rate of $25 per 1,000 installs).
As an affiliate of Spamdot, Salomon used the email address ad1@safe-mail.net, and the password 19871987gr. The breach tracking service Constella Intelligence found the password 19871987gr was used by the email address grichishkin@gmail.com. Multiple accounts are registered to that email address under the name Alexander Valerievich Grichishkin, from Cherepovets.
In 2020, Grichishkin was arrested outside of Russia on a warrant for providing bulletproof hosting services to cybercriminal gangs. The U.S. government said Grichishkin and three others set up the infrastructure used by cybercriminals between 2009 to 2015 to distribute malware and attack financial institutions and victims throughout the United States.
Those clients included crooks using malware like Zeus, SpyEye, Citadel and the Blackhole exploit kit to build botnets and steal banking credentials.
“The Organization and its members helped their clients to access computers without authorization, steal financial information (including banking credentials), and initiate unauthorized wire transfers from victims’ financial accounts,” the government’s complaint stated.
Grichishkin pleaded guilty to conspiracy charges and was sentenced to four years in prison. He is 36 years old, has a wife and kids in Thailand, and is slated for release on February 8, 2024.
The identity of Icamis came into view when KrebsOnSecurity began focusing on clues that might connect Icamis to Cherepovets (Ika’s apparent hometown based on the Internet addresses he regularly used to access Spamdot).
Historic domain ownership records from DomainTools.com reveal that many of the email addresses and domains connected to Icamis invoke the name “Andrew Artz,” including icamis[.]ws, icamis[.]ru, and icamis[.]biz. Icamis promoted his services in 2003 — such as bulk-domains[.]info — using the email address icamis@4host.info. From one of his ads in 2005:
Domains For Projects Advertised By Spam
I can register bulletproof domains for sites and projects advertised by spam(of course they must be legal). I can not provide DNS for u, only domains. The price will be:
65$ for domain[if u will buy less than 5 domains]
50$ for domain[more than 5 domains]
45$ for domain[more than 10 domains]
These prices are for domains in the .net & .com zones.
If u want to order domains write me to: icamis@4host.info
In 2009, an “Andrew Artz” registered at the hosting service FirstVDS.com using the email address icamis@4host.info, with a notation saying the company name attached to the account was “WMPay.” Likewise, the bulletproof domain service icamis[.]ws was registered to an Andrew Artz.
The domain wmpay.ru is registered to the phonetically similar name “Andrew Hertz,” at andrew@wmpay.ru. A search on “icamis.ru” in Google brings up a 2003 post by him on a discussion forum designed by and for students of Amtek, a secondary school in Cherepovets (Icamis was commenting from an Internet address in Cherepovets).
The website amtek-foreva-narod.ru is still online, and it links to several yearbooks for Amtek graduates. It states that the yearbook for the Amtek class of 2004 is hosted at 41.wmpay[.]com.
The yearbook photos for the Amtek class of 2004 are not indexed in the Wayback Machine at archive.org, but the names and nicknames of 16 students remain. However, it appears that the entry for one student — the Wmpay[.]com site administrator — was removed at some point.
In 2004, the administrator of the Amtek discussion forum — a 2003 graduate who used the handle “Grand” — observed that there were three people named Andrey who graduated from Amtek in 2004, but one of them was conspicuously absent from the yearbook at wmpay[.]ru: Andrey Skvortsov.
To bring this full circle, Icamis was Andrey Skvortsov, the other Russian man charged alongside Grichiskin (the two others who pleaded guilty to conspiracy charges were from Estonia and Lithuania). All of the defendants in that case pleaded guilty to conspiracy to engage in a Racketeer Influenced Corrupt Organization (RICO).
[Author’s note: No doubt government prosecutors had their own reasons for omitting the nicknames of the defendants in their press releases, but that information sure would have saved me a lot of time and effort].
Skvortsov was sentenced to time served, and presumably deported. His current whereabouts are unknown and he was not reachable for comment via his known contact addresses.
The government says Ika and Sal’s bulletproof hosting empire provided extensive support for a highly damaging cybercrime group known as the JabberZeus Crew, which worked closely with the author of the Zeus Trojan — Evgeniy Mikhailovich Bogachev — to develop a then-advanced strain of the Zeus malware that was designed to defeat one-time codes for authentication. Bogachev is a top Russian cybercriminal with a standing $3 million bounty on his head from the FBI.
The JabberZeus Crew stole money by constantly recruiting money mules, people in the United States and in Europe who could be enticed or tricked into forwarding money stolen from cybercrime victims. Interestingly, Icamis’s various email addresses are connected to websites for a vast network of phony technology companies that claimed they needed people with bank accounts to help pay their overseas employees.
Icamis used the email address tech@safe-mail.net on Spamdot, and this email address is tied to the registration records for multiple phony technology companies that were set up to recruit money mules.
One such site — sun-technology[.]net — advertised itself as a Hong Kong-based electronics firm that was looking for “honest, responsible and motivated people in UK, USA, AU and NZ to be Sales Representatives in your particular region and receive payments from our clients. Agent commission is 5 percent of total amount received to the personal bank account. You may use your existing bank account or open a new one for these purposes.”
In January 2010, KrebsOnSecurity broke the news that the JabberZeus crew had just used money mules to steal $500,000 from tiny Duanesburg Central School District in upstate New York. As part of his sentence, Skvortsov was ordered to pay $497,200 in restitution to the Duanesburg Central School District.
The JabberZeus Crew operated mainly out of the eastern Ukraine city of Donetsk, which was always pro-Russia and is now occupied by Russian forces. But when Russia invaded Ukraine in February 2022, the alleged leader of the notorious cybercrime gang — Vyacheslav Igoravich Andreev (a.ka. Penchukov) — fled his mandatory military service orders and was arrested in Geneva, Switzerland. He is currently in federal custody awaiting trial, and is slated to be arraigned in U.S. federal court tomorrow (Jan. 9, 2024). A copy of the indictment against Andreev is here (PDF).
Andreev, aka “Tank,” seen here performing as a DJ in Ukraine in an undated photo from social media.