Spam Email Security is of significant importance for all businesses and individuals. There is an enormous variety of attempts to obtain your personal details or to gain access to your data. These emails are at the least wasting our time and at the most can infect our hard drive, Phish and obtain your bank details or complete identity theft.
Every day at SME Design we are inundated with SME Design we are inundated with phishing emails.
Our own spam folder continues to be filled junk and phishing emails. Just over the past week we have emails supposedly from…
- Apple – Your Apple Pay credit card has expired ( Thats funny we don’t have an Apple account.)
- Bank of Melbourne – Security Code Alert. – Click here to verify. ( I don’t bank with Bank Of Mebourne
- DHL Customer Support – I am not expecting anything.
- FedEx – Chenk on you delivery. – Click this link. – We are not expecting a delivery.
- Various Emails – Requesting funds click on the attachment. Just phishing
- Paypal – Your account is being limited. ( Do not click in the email anything in the email )
The information contained in this post below↓ is provided by The Australian Cyber Security Centre
Socially engineered emails containing malicious attachments and embedded links are routinely used in targeted cyber intrusions against organisations.
This document has been developed to provide mitigation strategies for the security risks posed by these malicious emails.
Not every mitigation strategy within this document will be suitable for all organisations. Organisations should consider their unique business requirements and risk environment when deciding which mitigation strategies to implement. Furthermore, before any mitigation strategy is implemented, comprehensive testing should be undertaken to minimise any unintended disruptions to the organisation’s business.
The mitigation strategies, and implementation considerations, are summarised in Appendix A.
This document uses the terms ‘block’ and ‘quarantine’. In the context of this document, ‘block’ refers to preventing an email reaching the user and being removed from the mail server while ‘quarantine’ refers to preventing an email from reaching the user but safely storing it so it can be accessed if required.
Attachments are a significant security risk associated with emails. Effective attachment filtering reduces the likelihood of malicious content reaching a user’s workstation. Mitigation strategies associated with attachment filtering are discussed below.
Convert attachments to another format
Converting attachments to another format is a highly effective method of removing malicious content or rendering it ineffective, for example, by converting Microsoft Office documents to PDF documents. To decrease the impact to users, but at the expense of an increased security risk, original emails and attachments can be quarantined with a release facility available in case the originals are required for editing purposes.
Allow attachments based on file typing
File typing inspects the content of a file to determine its file type rather than relying on its extension. Only file types that have a legitimate business purpose and an acceptable risk profile for organisations should be allowed. As file extensions can be changed, a mismatch between a file’s type and its stated extension should be treated as suspicious and quarantined.
Block password protected archives and unidentifiable or encrypted attachments
Content within password protected archives can’t be trusted since email content filters can’t decrypt and inspect their contents. Any protected archive or otherwise encrypted attachments should be blocked until such time that they can be deemed safe. Unidentifiable content is less of a security risk if only allowing attachments based on file typing.
Where organisations have corporately approved encrypted email communications, such as S/MIME or PGP, these can be allowed to prevent disruption to legitimate business.
Perform automated dynamic analysis of attachments run in a sandbox
Dynamic analysis uses behaviour-based detection capabilities instead of relying on the use of signatures, enabling organisations to detect malware that has yet to be identified by vendors. Performing automated dynamic analysis of attachments run in a sandbox may detect suspicious behaviour including network traffic, new or modified files, or changes to the Windows registry.
Analysis could be performed in an instrumented sandbox located either in a gateway environment, on a user’s workstation or in the cloud subject to concerns about data sensitivity, privacy and security of the communications channel.
Organisations should block any attachments detected as malicious, paying particular care to do so before they are accessed by users, by using a product that is regularly updated by the vendor to mitigate evolving evasion techniques that challenge the effectiveness of this mitigation strategy.
Sanitise attachments to remove active or potentially harmful content
Active content removal products should scan attachments for undesirable active content based on keywords or heuristics, and rewrite those elements rendering them inert. Complete and comprehensive sanitisation of an attachment is a difficult process.
Disable or control macros in Microsoft Office files
An increase in the use of macros in Microsoft Office files being used as a malware delivery vector has been observed. These macros are written in the Visual Basic for Applications (VBA) programming language, a feature built into Microsoft Office applications.
Macros are commonly used for task automation; however, adversaries are also using macros to perform a variety of malicious activities including the download and execution of malware on the host computer.
Organisations should configure Microsoft Office to disable all macros by default and only run macros vetted as trustworthy and placed in ‘trusted locations’ which typical low-privileged users can’t write to.
Controlled inspection of archive files
Archive files can be used to bypass poorly configured email content filters. By placing a malicious file in an archive file and sending it to the target, the archive file might bypass content filtering checks.
To mitigate this, the contents of archive files should be subjected to the same level of inspection as un-archived attachments. The archive files should be decompressed and the files within inspected.
A directory listing of the files inside an archive file is not always an accurate representation of the files actually in the archive file since file attributes, such as file name, could be stored in two places for each file.
Archived content should be inspected in a controlled manner to avoid exploits associated with archive files, such as directory traversal and denial of service via recursion. For example, a text file which is 1GB in size and consists only of spaces, could compress to 1MB but consume significant computing resources when it is processed by an email content filter.
As another example, a zip file containing 16 zip files, each of which contain 16 zip files, each of which contain 16 zip files etc. to a depth of 5, could cause an email content filter to process over one million files.
To mitigate this, quotas and timeout values can be used on CPUs, memory and disks so that decompression is blocked or failed if it takes longer than the specified time or uses excessive computing resources.
Archive files decompress starting from the end of the file, stopping when all the files have been extracted.
As a result of this an archive file can be appended to the end of a legitimate image file and still be a valid archive from which files can be extracted. In this case, depending on the file type checking, the file could pass file type checks as an image. This behaviour can be exploited by adversaries to avoid controlled inspection of archive files.
To mitigate this, organisations should attempt to decompress all attachments, with all decompressed files submitted to the security controls for attachments and the original attachment blocked if any decompressed files fail.
Allow attachments based on file extension
Allowing attachments based on file extension is less robust than file typing as the extension can be trivially changed to disguise the true nature of the file, for example, by renaming readme.exe to readme.doc. Only file extensions with a legitimate business purpose should be allowed.
Block attachments based on file typing
Blocking attachments based on file typing is less proactive and thorough than allowing attachments based on file typing or file extension, and the overhead of maintaining a list of all known bad file types is far greater than maintaining a list of all known good file types.
Scan attachments using antivirus software
Attachments should be scanned using vendor supported antivirus software with up-to-date signatures, reputation ratings and other heuristic detection capabilities. To maximise the chance of detecting malicious content, antivirus software from a different vendor to that used for user workstations should be used.
Block attachments based on file extension
Blocking attachments based on file extension is less proactive and thorough than allowing attachments based on file typing or file extension. Blocking attachments based on file extension is less robust than file typing as the extension can be trivially changed to disguise the true nature of the file, for example, by renaming readme.exe to readme.doc.
Email body filtering
Email content filtering performed on the body of an email helps provide a defence-in-depth approach to email content filtering.
The possible attack surface presented by the body of an email is less than attachments; however, content in an email body can still introduce malicious content to a network. Mitigation strategies associated with filtering the body of an email are discussed below.
Replace active web addresses in an email’s body with non-active versions
An active web address allows users to click on a hyperlink in the body of an email and be taken to a specified website. Active web addresses can appear to be safe but can actually direct users to a malicious website.
Hovering over the address may reveal the actual website.
Active web addresses should be replaced with non-active versions so that users must copy and paste the web address into their web browser – hopefully in doing so noticing it is a malicious web address.
Remove active content in an email’s body
Being able to verify the authenticity and integrity of an email can stop organisations from receiving some forms of malicious emails. Particular care should be taken when implementing sender verification because of the potential to impact legitimate email traffic.
Mitigation strategies for sender verification are discussed below.
Implement DMARC to enhance SPF and/or DKIM
Domain-based Message Authentication, Reporting and Conformance (DMARC) enables a domain owner to specify a policy stating what action the recipient’s email server should take if it has failed a Sender Policy Framework (SPF) check and/or Domain Keys Identified Mail (DKIM) check.
The domain owner can specify the action the recipient email server should take to include ‘reject’ (rejection of the email by the email recipient’s email server), ‘quarantine’ (mark email as spam) or ‘none’ (no specific action to be taken). DMARC also provides a reporting feature which enables a domain owner to receive reports on the DMARC actions taken by receiving email servers.
While this feature does not mitigate malicious emails sent to the domain owner’s organisation, it can give the domain owner some visibility of attempts by adversaries to spoof their organisation’s domain.
Organisations should configure a DMARC record specifying that emails from the organisation’s domain and sub-domains be rejected if they fail SPF and/or DKIM checking. Organisations that currently only have a SPF record published are still able to implement DMARC without having to implement DKIM. In this situation, a SPF fail on its own will still result in a DMARC fail.
Block email on SPF ‘hard fail’
Checking SPF will verify if emails originate from the domain they claim to originate from and allow organisations to block them if checks fail.
An SPF ‘hard fail’ occurs when an email is received which has been verified as not originating from the domain it claims to originate from. SPF ‘hard fails’ should be blocked and investigated.
An SPF ‘hard fail’ can indicate a phishing attempt, especially if the failed email is spoofed to appear to come from a legitimate domain.
When implementing SPF checks, organisations should ensure they publish SPF records for their own domain, and ensure that SPF checks are conducted on emails purporting to be sent from their domain.
This will prevent adversaries sending emails to organisations and spoofing the sender to appear as though it originated from the organisation the email is being sent to, a tactic common in many cyber-enabled fraud cases.
Block email on DKIM fail
DKIM is a method of verifying the sender’s domain of an email using the signatures provided by the sending domain. When an email fails DKIM verification, the email should be blocked and investigated.
This should also be logged and potentially reported to the organisation that the email was claiming to originate from.
Block known spam email senders
Known spam email senders and addresses should be blocked without the email being examined.
Quarantine email on SPF ‘soft fail’
Checking SPF will verify if emails originate from the domain they claim to originate from and allow organisations to block them if checks fail. An SPF ‘soft fail’ occurs when an SPF enabled domain can’t guarantee that an email was sent from an authorised server of that domain.
When an SPF ‘soft fail’ is encountered, the email should be quarantined rather than blocked allowing users to retrieve it if it was considered a legitimate email.
Flag email on SPF ‘soft fail’
Checking SPF will verify if emails originate from the domain they claim to originate from and allow organisations to block or quarantine them if checks fail. An SPF ‘soft fail’ occurs when an SPF enabled domain can’t guarantee that an email was sent from an authorised server of that domain.
Instead of blocking or quarantining the email, the email should be marked as potentially malicious before being sent to users to inform users of the security risks and allow them to make a risk-based decision as to whether to accept the email. For example, the subject line of an email could be modified to highlight and identify to the user that the email is from an unverified or unconfirmed sender.
Mark external emails
Emails received from external organisations should be marked with an additional header to encourage recipients to exercise additional caution when acting on links or attachments associated with the email.
Other mitigation strategies
Block non-authorised third party email services
Given the ability, many users would like to be able to access third party email accounts from a corporate network. This access can include adding third party services to corporate email clients or accessing personal webmail accounts.
As these are third party service providers, organisations have no control over the data going in and out of these services. Blocking access to non-approved third party email services can assist in the prevention of malicious content entering networks through a third party service, prevent corporate data leaving network through a non-corporate service and maintain records of official correspondence by ensuring the use of the corporate email service.
Log and audit email related actions and events
Logging of actions and events from the email content filter and email servers should be implemented, with these logs audited on a regular basis. Effective logging and auditing will help in the event of a current or past cyber security incident.
Implement additional email content filter functionality
While this document focuses on providing mitigation strategies to reduce the security risk of workstations, networks and associated sensitive information being compromised by malicious emails, the following additional mitigation strategies will improve the effectiveness of an email content filter and simplify its management.
Minimise overhead for a system administrator to release quarantined emails
Minimising the overhead for a system administrator to assess and release an email for a user when that email has been quarantined can be achieved by providing them with easy and ready access to a secure environment to examine quarantined emails.
Implement self-release of quarantined emails (based on quarantine reason)
Allowing users to self-release a quarantined email without needing to go through a system administrator can be made available for selected quarantined emails based on email content filter triggers considered to be a lesser security risk.
Even so, all email self-releases should still be logged for auditing purposes.
The Australian Government Information Security Manual (ISM) assists in the protection of information that is processed, stored or communicated by organisations’ systems. It can be found at https://www.cyber.gov.au/ism.
The Strategies to Mitigate Cyber Security Incidents complements the advice in the ISM. The complete list of strategies can be found at https://www.cyber.gov.au/publications/strategies-to-mitigate-cyber-security-incidents.
For further information on implementing SPF, DKIM and DMARC, see the How to Combat Fake Emails publication at https://www.cyber.gov.au/publications/how-to-combat-fake-emails.
For further information on securing the use of Microsoft Office macros within organisations, see the Microsoft Office Macro Security publication at https://www.cyber.gov.au/publications/microsoft-office-macro-security.
Organisations or individuals with questions regarding this advice can email email@example.com or call 1300 CYBER1 (1300 292 371).
Appendix A: Malicious email mitigation strategies
|Mitigation Strategy||Security Effectiveness||User Resistance||Upfront Cost (Staff, Equipment, Complexity)||Maintenance Cost (Staff)||Prevent or Detect a Targeted Cyber Intrusion||Helps Mitigate Code Execution||Helps Mitigate Network Propagation||Helps Mitigate Data Exfiltration|
|Convert attachments to another format||Excellent||High 1||Medium||Medium 1||Prevent||Yes||No||No|
|Allow attachments based on file typing||Excellent||Medium||Medium||Low||Prevent||Yes||No||Yes 2|
|Block password protected archives and unidentifiable or encrypted attachments||Excellent||Medium||Medium||Low||Prevent||Yes||No||Yes|
|Perform automated dynamic analysis of attachments run in a sandbox||Excellent||Low||Medium||Low||Prevent||Yes||No||No|
|Sanitise attachments to remove active or potentially harmful content||Excellent||Medium 1||High||Medium 1||Prevent||Yes||No||No|
|Disable or control macros in Microsoft Office files||Excellent||Medium 1||High||Low 1||Prevent||Yes||No||No|
|Controlled inspection of archive files||Good||Low||Medium||Low||Prevent & Detect||Yes||No||Yes|
|Allow attachments based on file extension||Average||Medium||Low||Low||Prevent||Yes 3||No||Yes 2|
|Block attachments based on file typing||Minimal||Low||Low||Medium||Prevent||Yes||No||Yes 2|
|Scan attachments using antivirus software||Minimal||Low||Low||Low||Prevent & Detect||Yes||No||No|
|Block attachments based on file extension||Minimal||Low||Low||Medium||Prevent||Yes 3||No||Yes 2|
|Email body filtering|
|Replace active web addresses in an email’s body with non-active versions||Good||Low||Medium||Low||Prevent||Yes||No||No|
|Remove active content in an email’s body||Average||Low||Medium||Low||Prevent||Yes||No||No|
|Implement DMARC to enhance SPF and/or DKIM||Good||Low||Low||Low||Prevent||Yes||No||No|
|Block email on SPF ‘hard fail’||Average||Low||Low||Low||Prevent||Yes||No||No|
|Block email on DKIM fail||Average||Low||Low||Low||Prevent||Yes||No||No|
|Block known spam email senders||Minimal||Low||Low||Low||Prevent & Detect 4||Yes||No||No|
|Quarantine email on SPF ‘soft fail’||Minimal||Medium||Low||Low||Prevent||Yes||No||No|
|Flag email on SPF ‘soft fail’||Poor||Low||Low||Low||Prevent||Yes||No||No|
|Mark external emails||Poor||Low||Low||Low||Prevent||Yes||No||No|
- Potentially lower if document release is easy.
- Provided adversaries are attempting to exfiltrate a file type that is blocked.
- Provided adversaries are sending a file with the blocked extension.
- If the mitigation strategy is applied to both incoming and outgoing emails, then this is ‘Prevent & Detect’, otherwise just ‘Prevent’.Spam Email Advice