New Credential Phish Masks the Scam Page URL to Thwart Vigilant Users

By Milo Salvia, CofenseTM Phishing Defense CenterTM

This blog has been updated since its first appearance on October 17, 2019 to include information related to the threat origin and bypassed email gateways.

The Cofense Phishing Defense Center (PDC) has observed a phishing campaign that aims to harvest credentials from Stripe, the online payment facilitator handling billions of dollars annually, making it an attractive target for threat actors seeking to use compromised accounts to gain access to payment card information and defraud consumers. The phish prevents email recipients from seeing the destination of an embedded link when they try to hover over the URL. Instead, what they see is a bogus account message. Here’s how the campaign works.

Figure 1: Email Headers

The phishing email originates from a compromised press email account with privileged access to MailChimp. The threat actor used the MailChimp app to launch a “marketing campaign” comprised of phishing emails. Because the emails came from a legitimate marketing platform, they passed basic email security checks like DKIM and SPF. As we can see from the headers in figure 1, the email passed both the DKIM authentication check and SPF.

Figure 2: URL

The threat actor was able to obfuscate the URLs contained in the email by using MailChimp’s redirect services. This method hides the true destination and replaces it with a list manage URL. The threat actor also gains the ability to track whether a link has been clicked by a recipient.

Email Body

The email pretends to be a notification from “Stripe Support,” informing the account administrator that “Details associated with account are invalid.” The administrator needs to take immediate action, otherwise the account will be placed on hold. This is cause for panic among businesses that rely solely on online transactions and payments. Fear and urgency are the most common emotions threat actors play on, spurring otherwise rational people to make irrational decisions.

The email body contains a button with an embedded hyperlink: “Review your details.” When clicked, the recipient is redirected to a phishing page. Usually one can check the destination of the hyperlink by hovering over it with the mouse curser. The true destination of this hyperlink is obscured by adding a simple title to HTML’s <a> tag, which shows the recipient the title “Review your details” when the recipient hovers over the button instead of the URL. Potentially this is a tactic to mask the true destination from a vigilant recipient.

 Figure 3: Email Body

Figure 4: Malicious Button

The phishing page is an imitation of the Stripe customer login page. In fact, it consists of three separate pages. The first one aims to harvest the admin’s email address and password, while the second page asks for the bank account number and phone number associated with the account. Lastly, the recipient is redirected back to the account login page which displays an error massager, “Wrong Password, Enter Again.” This leads the recipient to believe an incorrect password has been entered and redirects back to the legitimate site, so the recipient doesn’t suspect foul play.

Figure 5: Phishing Pages

HOW COFENSE CAN HELP

Cofense Resources

Cofense PhishMeTM offers a simulation template, “Stripe Account Notification,” to educate users on the campaign described in today’s blog.

75% of threats reported to the Cofense Phishing Defense CenterTM are credential phish. Protect the keys to your kingdom—condition end users to be resilient to credential harvesting attacks with Cofense PhishMe.

Over 91% of credential harvesting attacks bypassed secure email gateways. Remove the blind spot—get visibility of attacks with Cofense ReporterTM.

Quickly turn user-reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Attackers do their research. Every SaaS platform you use is an opportunity for attackers to exploit it. Understand what SaaS applications are configured for your domains—do YOUR research with Cofense CloudSeekerTM.

Thanks to our unique perspective, no one knows more about the REAL phishing threats than Cofense. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

New Phishing Sextortion Campaign Using Alternative Crypto Currencies to Evade Detection

By Hunter Johnson, Cofense Professional Services 

Cofense has observed threat actors employing a modified version of a sextortion scam using alternative crypto currencies to bitcoin.

Typical sextortion scams claim to have installed malware on recipients’ systems and recorded their browsing history of adult websites and webcam footage. Ransom is demanded in bitcoin, upon threat of releasing damaging information to family, friends, and co-workers. Because threat actors often get recipients’ emails from password breach lists, they sometimes include passwords to lend authenticity.

Early sextortion scams started with a plain text extortion email threating the recipient and asking for payment. As enterprises began writing detection rules to block those emails, threat actors modified the text by replacing it with an image, which prevented key words from being identified by Secure Email Gateways (SEGs). The bitcoin address was left as a plain text string in the email, so it could be easily copied. As enterprises began checking for bitcoin addresses, threat actors removed text and images and switched to attaching PDF documents containing the threats. Most recently, threat actors began encrypting PDF attachments and including the password in the email body to foil any further SEG detection rules.

This latest sextortion version is using a Litecoin wallet address instead of bitcoin to evade detection. Previous iterations showed a gradual shift away from identifiable patterns and to alternative crypto currencies, in an attempt to foil SEG bitcoin-detection rules. The current emails appear to be crafted to contain very few searchable word patterns. While we could publish the contents of those emails, let’s just say the emails contained adult language admonishing the recipient to be more careful about their browsing and webcam habits.

As this latest twist shows, threat actors can switch to the next crypto currency and attempt to iterate through all the scam’s previous versions. While there are thousands of crypto currencies, only a dozen or so are easily attainable from large exchanges. For the scam to work, the recipient needs an easy way to acquire the requested payment method.

Avoiding this scam is simple with phishing awareness training. Your users can safely ignore the emails—if threat actors actually had such access and data, they would include stronger proof. Also educate users about sites such as haveibeenpwned.com, so they can know if their email address is likely to become a target.

Cofense will also be publishing a rule to detect attacks we’ve seen so far using this new method.

HOW COFENSE CAN HELP

Cofense Resources

Cofense PhishMeTM offers a phishing simulation template, “Fear Driven Phishing Scams Involving Embarrassing Situations,” to educate users on sextortion and similar scams.

Cofense Labs has published a database of 300 million compromised email accounts for use in sextortion campaigns. Find out if your organization’s accounts are at risk.

Reports of sextortion and other ransom scams to the Cofense Phishing Defense CenterTM are increasing. Condition users to be resilient to evolving phishing attacks with Cofense PhishMe and remove the blind spot with Cofense ReporterTM.

Quickly turn user reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Attackers do their research. Every SaaS platform you use is an opportunity for attackers to exploit it. Understand what SaaS applications are configured for your domains – do YOUR research with Cofense CloudSeeker TM.

Thanks to our unique perspective, no one knows more about providing phishing awareness training and REAL phishing threats than Cofense. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

Threat Actors Use Percentage-Based URL Encoding to Bypass Email Gateways

Last week, the Cofense Phishing Defense CenterTM observed phishing threat actors using low-level trickery to avoid detection, by utilizing basic percentage-based URL encoding. This takes advantage of Google’s nifty ability to decode the encoded URL data on the fly. The easiest way to trick a secure email gateway (SEG) is hiding the true destination of the payload.

Here’s how it works:

Figure 1: email body

The phishing email is simple and originates from a compromised email account of a relatively well-known American brand, informing recipients that they have a new invoice awaiting payment. The email body has an embedded hyperlink button, highlighted in yellow, where users can click to view the invoice.

As we can see in Figure 1 above, the true destination of the hyperlink is not immediately obvious to the untrained eye and unfortunately the same is true for many perimeter security devices. We note that the URL’s top-level domain is google.lv which is the home page for Google Latvia.

Figure 2: URL Encoding

If we take a deeper look into the embedded hyperlink, we see that Google is being used to redirect the recipient to a secondary malicious URL. The first part of the URL is benign “hxxps://google.lv/url?q=”, which tells the web browser to use Google to query a specific URL or string.

The second part of the string, highlighted in red (Figure 2), is the payload which is a string that is encoded with basic URL encoding. This is sometimes referred to as percent encoding, which replaces ASCII characters with a “%” followed by two hexadecimal digits. Most web browsers recognize URLs that contain hexadecimal character representations and will automatically decode them back into ASCII on the fly without any user interaction. When users click on the hyperlink within the email, they are redirected through their browsers to Google to query the encoded string. This is recognized as a URL to redirect the user to the final destination of the malicious payload.

This is enough to fool basic URL and domain checks by perimeter devices, a simple yet effective way for threat actors to ensure delivery of malicious payloads.

Figure 3: Phishing Page 

The phishing page itself is a simple imitation of the Office 365 login portal and aims to steal corporate users’ credentials. With businesses’ growing reliance on Office365, it’s fast becoming a favorite target amongst phishing threat actors.

Network IOCs
hxxps://gdank[.]com/office[.]o/microsoft/office/ 107[.]180[.]27[.]240

HOW COFENSE CAN HELP

Cofense Resources

Cofense PhishMeTM offers a simulation template, “New Invoice,” to educate employees on the phishing tactic described in today’s blog.

75% of threats reported to the Cofense Phishing Defense Center are credential phish. Protect the keys to your kingdom—condition end users to be resilient to credential harvesting attacks with Cofense PhishMe.

Over 91% of credential harvesting attacks bypassed secure email gateways. Remove the blind spot—get visibility of attacks with Cofense ReporterTM.

Quickly turn user-reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Attackers do their research. Every SaaS platform you use is an opportunity for attackers to exploit it. Understand what SaaS applications are configured for your domains—do YOUR research with Cofense CloudSeekerTM.

Thanks to our unique perspective, no one knows more about the REAL phishing threats than Cofense. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

New Phishing Campaign Uses Captcha to Bypass Email Gateway

By Fabio Rodrigues

Phishing threat actors are using Captcha methods to bypass automated URL analysis. By using Captcha techniques to prove human presence, the phish prevents the secure email gateway (SEG), in this case Mimecast’s gateway, from scanning the URL thereby enabling the threat to get through. Here’s how it works.

Email Body
The phishing email is sent from a compromised account at @avis.ne.jp as if it originated from a voip2mail service. The email alerts the recipient to a new voicemail message. The message is crafted in a simple format, with a preview of the voicemail to entice the recipient to click on the button to listen to the full message.

Figure 1: Email Body

This button is in fact an embedded hyperlink that will redirect the recipient to a page that contains a Captcha code to prove the victim is a human and not an automated analysis tool or, as Google puts it, “a robot.” It’s at this point that the SEG validation would fail. The SEG cannot proceed to and scan the malicious page, only the Captcha code site. This webpage doesn’t contain any malicious items, thus leading the SEG to mark it as safe and allow the user through.

Figure 2: Captcha Page

Once the human verification process is complete, the recipient is redirected to the real phishing page. In this example, it imitates the Microsoft account selector and login page. When unwitting victims login, their credentials are captured.

Figure 3: Phishing Page

As we can see, both the Captcha application page and the main phishing page are hosted on MSFT infrastructure. Both pages are legitimate Microsoft top level domains, so when checking these against domain reputation databases we receive a false negative and the pages come back as safe. SEGs frequently check URLS against reputation databases as part of a layered defense.

Table 1: Network IOCs

hxxp://t[.]mid[.]accor-mail[.]com/r/?id=
hxxps://osnm[.]azurewebsites[.]net/?b=
hxxps://phospate02[.]blob[.]core[.]windows[.]net/vric/112-vml[.]html?sp=r&st=2019-09-03T19:01:36Z&se=2019-09-28T03:01:36Z&spr=hxxps&sv=2018-03-28&sig=q4OWNkGXIlBtE99JknDZ047J94uFFCc%2BoNaZmtHOt2k%3D&sr=
52[.]239[.]224[.]36
66[.]117[.]16[.]17
52[.]173[.]84[.]157

 

HOW COFENSE CAN HELP

Cofense Resources

Cofense PhishMeTM offers a phishing simulation template, “New Voice Message,” to educate users on the attack described in this blog.

75% of threats reported to the Cofense Phishing Defense CenterTM are credential phish. Protect the keys to your kingdom—condition end users to be resilient to credential harvesting attacks with Cofense PhishMe.

Over 91% of credential harvesting attacks bypassed secure email gateways. Remove the blind spot—get visibility of attacks with Cofense ReporterTM.

Quickly turn user-reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Attackers do their research. Every SaaS platform you use is an opportunity for attackers to exploit it. Understand what SaaS applications are configured for your domains—do YOUR research with Cofense CloudSeekerTM.

Thanks to our unique perspective, no one knows more about providing phishing awareness training and REAL phishing threats than Cofense. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

Phishing Emails Are Using SharePoint to Slip Past Symantec’s Gateway and Attack Banks

Hiding in plain sight by using trusted enterprise technologies almost guarantees delivery of a phishing URL. Case in point: a phishing campaign that delivered a legitimate Sharepoint URL to bypass the email gateway, in this case Symantec’s. Here’s how this increasingly popular phishing tactic works.

Email Body

The phishing email is sent from a compromised account at a third-party vendor asking the recipient to review a proposal document. The recipient is urged to click on an embedded URL. As seen below in figure 1, the URL has been wrapped by Symantec’s Click-time URL Protection and redirects the recipient to a compromised SharePoint account. SharePoint, the initial delivery mechanism, then delivers a secondary malicious URL, allowing the threat actor to circumvent just about any email perimeter technology.

Figure 1: email body

The embedded URL in the email body delivers the recipient to a compromised SharePoint site where a malicious OneNote document is served. The document is illegible and invites the recipient to download it by clicking on yet another embedded URL, which leads to the main credential phishing page.

Figure 2: Malicious OneNote Document

Phishing Page

The phishing page is a cheap imitation of the OneDrive for Business login portal. There, the recipient is given two options to authenticate, with their O365 Login credentials or by choosing to login with any other email provider. We see this tactic quite often as it increases the chances that the recipient will log in.

Figure 3: Phishing Pages

When we download the files from the compromised server, we can see that the credentials from the phishing form are posted by login.php. Login.php posts the harvested credentials to a Gmail account.

Figure 4: Login.php

Other files harvested from the compromised server shed light on the origin of this attack. Below is a readme file that instructs the operator on how to configure and install the phishing page onto a compromised webserver. We have also identified that this phishing exploit kit is part of a series of “Hacking tools” built and sold by BlackShop Tools.

Figure 5: readme.txt

IOCs:

Malicious URL(s):

hxxps://botleighgrange-my[.]sharepoint[.]com/:o:/p/maintenance/EngTNCs22_REkaJY4gVf9lwBqkwYFtDSmJJ7L2H-AnoDQg?e=tgtauL
hxxps://alblatool[.]com/xxx/one/
hxxps://alblatool[.]com/xxx/one/office365/index[.]php

Associated IP(s):

13[.]107[.]136[.]9
198[.]54[.]126[.]160

 

HOW COFENSE CAN HELP

To defend against the attack described in today’s blog, Cofense offers:

 

75% of threats reported to the Cofense Phishing Defense CenterTM are credential phish. Protect the keys to your kingdom—condition end users to be resilient to credential harvesting attacks with Cofense PhishMe.

Over 91% of credential harvesting attacks bypassed secure email gateways. Remove the blind spot—get visibility of attacks with Cofense ReporterTM.

Quickly turn user-reported emails into actionable intelligence with Cofense Triage. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Attackers do their research. Every SaaS platform you use is an opportunity for attackers to exploit it. Understand what SaaS applications are configured for your domains—do YOUR research with Cofense CloudSeekerTM.

Thanks to our unique perspective, no one knows more about providing phishing awareness training and REAL phishing threats than Cofense. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

Updated Sep. 12

Trickbot Is Using Google Docs to Trick Proofpoint’s Gateway

By Tej Tulachan

The Cofense Phishing Defense Center (PDC) has detected a phishing campaign that delivers Trickbot embedded in a Google Docs link. Trickbot has been making the rounds for a long time now and is still considered one of the biggest malware threats targeting business today. Threat actors frequently utilize legitimate applications or trusted file sharing sites like Google Docs to bypass the email gateway and lure users to click on the link to deliver malware. In this case, the email made it through Proofpoint’s gateway utilized by our PDC customer.

Email Body

The email attempts to lure curious users to click on the link: “Have you already received documentation I’ve directed you recently? I am sending them over again.” This is a legitimately generated email by Google Docs when a file is shared by one of its subscribers. Unknowingly, the recipient is directed to a document hosted on Google that contains a malicious URL.

Fig 1. Email body

When the recipient clicks on the link it directs to a genuine Google Docs page as shown below, which contains a fake 404 error message and another embedded link. The threat actor baits the recipient into downloading the document: “Downloading the document manually via the link”. This link hxxps://docs[.]google[.]com/uc?id=112QLCdDtd4y-mAzr8hobCs0TP5mQmKfL downloads the malicious payload.

Fig 2. Google doc page

Once the URL links to a file hosted on Google drive, it downloads a Review_Rep.19.PDF.exe which has been disguised as PDF file. Many recipients will not see the .exe file extension. It’s something that you need to specifically enable in Windows. So, to them it looks like a legitimate PDF file since the attacker uses the icon for a PDF.

Fig 3. Pdf Icon

If we look at the file in a hex editor, we see that in fact it’s an executable file and not a PDF.

Take a look below in the editor, indicated by the magic bytes MZ which denotes a windows executable.

Fig 4. Magic Number

Once the payload is executed it creates a copy of itself (egолаСывЯыФЙ) in C:\ProgramData, where it  undertakes control over execution of the malware.

Fig 5. egолаСывЯыФЙ.exe

Furthermore, it creates another copy in “C:\Users\REM\AppData\Roaming\speedLan” that also includes the config file for Trickbot (settings.ini) (The directory depends on the Trickbot version.)

Fig 6. speedlan

If we look inside the settings.ini we see a lot of the “obfuscated” text.

Fig 7. Obfuscated text

Additionally, if we open up the Task Scheduler, we can see it also sets a task that starts the malicious file from the “Speedlan” folder.

Fig 8. Start Task Scheduler

Looking at the Triggers tab, we can see it has been set to repeat itself every 11 minutes for 596843 minutes (414 days) for this particular version of Trickbot. The scheduled task checks to see if the binary is running in memory every 11 minutes over a 1-year period. This means that the binary will stay persistent on the system if the process is terminated. The 414 day counter just insures that the scheduled task stays running for as long as the system is online (generally, people will reboot their computer at least once a year).

 

 

 

 

 

 

 

 

 

Fig 9. Trigger

This then hollows out Svchost, injects its malicious code, and launches it. It keeps launching more and more Svchost’s if you let it run. Each of these are typically responsible for a module of Trickbot.

Fig 10. Hollows Svchost

Indicators of Compromise (IOCs):

Malicious File(s):

 

Filename: Review_ Rep.19.PDF.exe

MD5: ab2a8fc10e8c1a39ae816734db9480de

SHA-256: 20328b1f169b1edeef38853dafbbacfdac53c66f7f1dd62f387091bedebfd497

File Size: 404,320 Bytes

Extension: exe

 

Malicious URL(s):

 

hxxps://docs[.]google[.]com/document/d/1fgSfd4DwReVKbcLI3ISO2jhX1Yn8WOqbXnmU_bg00_A/edit?usp=sharing_eip&ts=5d5accb1
hxxps://docs[.]google[.]com/uc?id=112QLCdDtd4y-mAzr8hobCs0TP5mQmKfL
hxxps://jaquetas01[.]cordenadorltda[.]org
hxxps://services[.]halapar[.]org

 

Associated IP(s):

200[.]119[.]45[.]140

107[.]181[.]175[.]122

79[.]143[.]31[.]94

198[.]27[.]74[.]146

186[.]47[.]40[.]234

181[.]129[.]93[.]226

190[.]152[.]4[.]210

 

HOW COFENSE CAN HELP

89% of phishing threats delivering malware payloads analyzed by the Cofense Phishing Defense CenterTM bypassed email gateways. Condition users to be resilient to evolving phishing attacks with Cofense PhishMeTM and remove the blind spot with Cofense ReporterTM. Cofense PhishMe offers a phishing scenario, “Shared Google Doc – TrickBot,” to help users identify the attack described in today’s blog.

Quickly turn user reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Easily consume phishing-specific threat intelligence to proactively defend your organisation against evolving threats with Cofense IntelligenceTM.

Thanks to our unique perspective, no one knows more about REAL phishing threats than Cofense™. To understand them better, read the 2019 Phishing Threat & Malware Review.

 

All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations. Subsequent updates or different configurations may be effective at stopping these or similar threats.

New Phishing Campaign Bypasses Microsoft 365 ATP to Deliver Adwind to Utilities Industry

The Cofense Phishing Defense CenterTM has observed a new phishing campaign that spoofs a PDF attachment to deliver the notorious Adwind malware. This campaign was found explicitly in national grid utilities infrastructure. Adwind, aka JRAT or SockRat, is sold as a malware-as-a-service where users can purchase access to the software for a small subscription-based fee.

The malware boasts the following features:

  • Takes screen shots
  • Harvests credentials from Chrome, IE and Edge
  • Accesses the webcam, record video and take photos
  • Records audio from the microphone
  • Transfers files
  • Collects general system and user information
  • Steals VPN certificates
  • Serves as a Key Logger

Email Body

Fig1. Email Body

This email comes from a hijacked account at Friary Shoes. Also note the web address for Fletcher Specs, whose domain threat actors are abusing to host the malware.

The email body is simple and to the point: “Attached is a copy of our remittance advice which you are required to sign and return.” At the top of the email is an embedded image which is meant to look like a PDF file attachment, however, is in fact a jpg file with an embedded hyperlink. When victims click on the attachment, they are brought to the infection URL hxxps://fletcherspecs[.]co[.]uk/ where the initial payload is downloaded.

Fig 2. Payload 

The initial payload is in the form of a .JAR file named: “Scan050819.pdf_obf.jar.” Note that the attacker has attempted to make the file appear as if it were a PDF by attempting to obfuscate the file true extension.

Fig 3. Running processes

Once executed, we can see that two java.exe processes are created which load two separate .class files. JRAT then beacons out to its command and control server: hxxp://ns1648[.]ztomy[.]com

Fig 4. C2 Traffic

Adwind installs its dependencies and harvested information in: C:\Users\Byte\AppData\Local\Temp\. Here we can see the two class files the jave.exe process has loaded along with a registry key entries and several .dlls:

Fig5. Additional dependencies and artifacts 

The malware also attempts to circumvent analysis and avoid detection by using taskkill.exe to disable popular analysis tools and antivirus software. If we take a closer look at the registry entries file we see that the malware looks for popular antivirus and malware analysis tools.

Fig 6. Anti-Analysis

Indicators of Compromise (IOCs):

Malicious File(s):

File Name: Scan050819.pdf_obf.jar

MD5: 6b94046ac3ade886488881521bfce90f

SHA256: b9cb86ae6a0691859a921e093b4d3349a3d8f452f5776b250b6ee938f4a8cba2

File size: 634,529 bytes (619K)

File Name: _0.116187311888071087770622558430261020.class

MD5: 781fb531354d6f291f1ccab48da6d39f

SHA256: 97d585b6aff62fb4e43e7e6a5f816dcd7a14be11a88b109a9ba9e8cd4c456eb9

File size: 247,088 bytes (241K)    

File Name: _0.40308597817769314486921725080498503.class

MD5: 781fb531354d6f291f1ccab48da6d39f

SHA256: 97d585b6aff62fb4e43e7e6a5f816dcd7a14be11a88b109a9ba9e8cd4c456eb9

File size: 247,088 bytes (241K)

File Name: gCMmWntWwp7328181049172078943.reg

MD5: 7f97f5f336944d427c03cc730c636b8f

SHA256: 9613caed306e9a267c62c56506985ef99ea2bee6e11afc185b8133dda37cbc57

File size: 27,926 bytes (27K)

File Name: Windows3382130663692717257.dll

MD5: 0b7b52302c8c5df59d960dd97e3abdaf

SHA256: a6be5be2d16a24430c795faa7ab7cc7826ed24d6d4bc74ad33da5c2ed0c793d0

File size: 46,592 bytes (45K)

File Name: sqlite-3.8.11.2-fd78b49b-d887-492e-8419-acb9dd4e311c-sqlitejdbc.dll

MD5: a4e510d903f05892d77741c5f4d95b5d

SHA256: a3fbdf4fbdf56ac6a2ebeb4c131c5682f2e2eadabc758cfe645989c311648506

File size: 695,808 bytes (679K)

File Name: Windows8838144181261500314.dll

MD5: c17b03d5a1f0dc6581344fd3d67d7be1

SHA256: 1afb6ab4b5be19d0197bcb76c3b150153955ae569cfe18b8e40b74b97ccd9c3d

File size: 39,424 bytes (38K)

 

Malicious URL(s):

hxxps://fletcherspecs[.]co[.]uk/

hxxp://ns1648[.]ztomy[.]com

 

Associated IP(s):

109[.]203[.]124[.]231

194[.]5[.]97[.]28

 

HOW COFENSE CAN HELP

89% of phishing threats delivering malware payloads analysed by the Cofense Phishing Defense Center bypassed secure email gateways. Condition users to be resilient to evolving phishing attacks with Cofense PhishMeTM.It offers a phishing simulation, “Remittance Advice – Adwind,” to educate users on the attack described in today’s blog.

Remove the blind spot with Cofense ReporterTM—give users a one-click tool to report suspicious messages, alerting security teams to potential threats.

Quickly turn user reported emails into actionable intelligence with Cofense TriageTM. Reduce exposure time by rapidly quarantining threats with Cofense VisionTM.

Easily consume phishing-specific threat intelligence to proactively defend your organisation against evolving threats with Cofense IntelligenceTM.

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All third-party trademarks referenced by Cofense whether in logo form, name form or product form, or otherwise, remain the property of their respective holders, and use of these trademarks in no way indicates any relationship between Cofense and the holders of the trademarks. Any observations contained in this blog regarding circumvention of end point protections are based on observations at a point in time based on a specific set of system configurations.  Subsequent updates or different configurations may be effective at stopping these or similar threats.

Remote Access Trojan Uses Sendgrid to Slip through Proofpoint

The CofenseTM Phishing Defense CenterTM observed a malware campaign masquerading as an email complaint from the Better Business Bureau to deliver the notorious Orcus RAT, part of the free DNS domain ChickenKiller which we blogged about in 2015. Here’s how it works:

Phishing Campaigns Imitating CEOs Bypass Microsoft Gateway to Target Energy Sector

Cofense IntelligenceTM has identified a highly customized credential phishing campaign using Google Drive to target a company within the energy sector. This phishing campaign is crafted to look like the CEO of the targeted company has shared an important message with the recipient via Google Drive. The email is legitimately sent by Google Drive to employees and appears to be shared on behalf of the CEO by an email address that does not fit the email naming convention of the targeted company. By using an authentic service, this phishing campaign was able to bypass the email security stack, in particular Microsoft Exchange Online Protection, and make its way to the end user.