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Sigma rules for Linux and MacOS

TLDR: VT Crowdsourced Sigma rules will now also match suspicious activity for macOS and Linux binaries, in addition to Windows.
We recently discussed how to maximize the value of Sigma rules by easily converting them to YARA Livehunts. Unfortunately, at that time Sigma rules were only matched against Windows binaries.
Since then, our engineering team worked hard to provide a better experience to Sigma lovers, increasing Crowdsourced Sigma rules value by extending matches to macOS and Linux samples.

Welcome macOS and Linux

Although we are still working to implement Sysmon in our Linux and macOS sandboxes, we implemented new features that allow Sigma rule matching by extracting samples’ runtime behavior.
For example, a process created in our sandbox that ends in “/crontab” and contains the “-l” parameter in the command line would match the following Sigma rule:

logsource:

  product: linux

  category: process_creation

detection:

  selection:

    Image|endswith: ‘/crontab’

    CommandLine|contains: ‘ -l’

  condition: selection

We have mapped all the fields used by Sigma rules with the information offered by our sandboxes, which allowed us to map rules for image_load, process_creation and registry_set, among others.
This approach has limitations. However, about 54% of Crowdsourced Sigma rules for Linux and 96% for macOS are related to process creation, meaning we already have enough information to match all these with our sandboxes’ output. The same happens for rules based on file creation.
Let’s look at some examples!

Linux, MacOS and Windows examples

The following shell script sample matches 11 Crowdsourced Sigma Rule matches.

For every rule, it is possible to check what triggered the match by clicking on “View matches”. In the case of Windows binaries, it would show what Sysmon event matched the behavior described in the Sigma rule, as we can see below:

In the case of the shell script mentioned above, it shows the values that are relevant to the logic of the rule as you can see in the following image:

Interestingly, Sigma rules intended for Linux also produce results in macOS environments, and vice versa. In this case, the shell script can be interpreted by both operating systems. Indeed, one of the matching rules for the sample called Indicator Removal on Host – Clear Mac System Logs was specifically created for macOS:

while a second matching rule, Commands to Clear or Remove the Syslog , was created for Linux:

To get more examples of samples with Sigma rules that match sandboxes’ output instead of Sysmon, you can use the following queries:
(have:sigma) and not have:evtx type:mac
(have:sigma) and not have:evtx type:linux
A second interesting example is a dmg matching 8 Sigma rules, 5 of them originally created for Linux OS under the “process_creation” category and 2 rules created for macOS. The last match… is a Sigma rule created for Windows samples!

The new feature matching Sigma rules with Linux and macOS samples helped us identify some rules that are maybe too generic, which is not necessarily a problem as long as this is the intended behavior.
In this case, the Usage Of Web Request Commands And Cmdlets rule was originally created to detect web request using Windows’ command line:

The rule seems a bit too generic since it only checks for a few strings in the command line, although it can be highly effective for generic detection of suspicious behavior.
To understand why our Macintosh Disk Image sample triggered a detection for this rule, we checked the matches:

As we can see, the use of the string “curl” in the command line was enough to match this sample.
This sigma rule had about 9k hits last year only, with more than 300 of the files being Linux or macOS samples. You can obtain the full list using the following query:
sigma_rule:f92451c8957e89bb4e61e68433faeb8d7c1461c3b90d06b3403c8f3d87c728b8 and (type:linux or type:mac)

Creating Livehunt rules from Sysmon EVTX outputs

So far we have mainly focused on samples that do not have Sysmon (EVTX) logs. Now let’s see how it is possible to create a Livehunt rule based on Sysmon logs. For this, we are going to use the “structure” functionality provided in the Livehunt YARA editor, as we explain in this post.
The sample we will use in this example is associated with CobaltStrike and matches multiple Sigma rules that identify certain behaviors. It is important to note that for every Sigma match, we will see in the file “structure” the context that matched but not the full EVTX logs. These can be downloaded from the sample’s VT report behavior section under “Download Artifacts” or using our API (available for public and privately scanned files).
The following image shows the matching raw EVTX generated by our sample:

From the sample’s JSON Structure, Sigma_analysis_results is an array that contains objects with all the relevant information related to the matching Sigma rules, including details about the rule itself and EVTX logs. From the previous image, the first highlighted section is related to process creation and the second one is a registry event (value set).
As explained in our post, by just clicking on the fields that you are interested in you can start building your Livehunt rule, and adjust values accordingly. In this case, our rule will identify files creating registry keys under \\CurrentVersion\\RunOnce\\ with a .bat or .vbs extension:

import
“vt”

rule
sigma_example_registry_keys
{

  meta:

    target_entity
=
“file”

  condition:

    for
any
vt_behaviour_sigma_analysis_results
in
vt.behaviour.sigma_analysis_results:
(

      for
any
vt_behaviour_sigma_analysis_results_match_context
in
vt_behaviour_sigma_analysis_results.match_context:
(

        vt_behaviour_sigma_analysis_results_match_context.values[“TargetObject”]
icontains
“\\CurrentVersion\\RunOnce\\”
and

        (vt_behaviour_sigma_analysis_results_match_context.values[“Details”]
endswith
“.vbs”
or
vt_behaviour_sigma_analysis_results_match_context.values
[“Details”]
endswith
“.bat”)

      )

    )

}

Running this YARA using a Retrohunt finds multiple files: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 you can see some interesting matches:

The next rule focuses on file creation events related to Sysmon (EVID 11) under the “C:\Windows\System32” directory, with a “.dll” extension and having any “cve” tag (flagging potential CVE exploitation). Remember we can always include any additional details related to the samples we want to hunt, such as positives, metadata, tags, engines, … in addition to EVTX fields:

import
“vt”

rule
sigma_rule_evtx_cve
{

  meta:

    target_entity
=
“file”

  condition:

    for
any
vt_behaviour_sigma_analysis_results
in
vt.behaviour.sigma_analysis_results:
(

      for
any
vt_behaviour_sigma_analysis_results_match_context
in
vt_behaviour_sigma_analysis_results.match_context:
(

        vt_behaviour_sigma_analysis_results_match_context.values[“TargetFilename”]
startswith
“C:\\Windows\\System32\\”
and

        vt_behaviour_sigma_analysis_results_match_context.values[“TargetFilename”]
endswith
“.dll”
and

        for
any
vt_metadata_tags
in
vt.metadata.tags:
(

        vt_metadata_tags
icontains
“cve-“

        )

      )

    )

}

Sysmon EVTX fields – overlaps

Some of the details found in Sysmon EVTX fields (found in the VT JSON samples’ structure) can be redundant with details provided in other more traditional fields that you use for your Livehunt rules through the YARA VT module.
For example, instead of:
vt_behaviour_sigma_analysis_results_match_context.values[“TargetFilename”] from vt.behaviour.sigma_analysis_results
you could use: vt.behaviour.files_written to identify file creation events.
When that’s the case, we recommend using traditional fields found in VT samples’ structure for the following reasons:
  • Sysmon information is fully stored/indexed only the part matching the Sigma rule, which will limit any YARA hunting.
  • We mapped most Sysmon fields into YARA VT module for simplicity.
  • Linux and MacOS samples do not have any Sysmon information related to Sigma rules. Similar details about the match can be found under the “behaviour” JSON structure entry.
The new Sysmon-like details offered in the file “structure” also make VT an excellent platform for researchers and Sigma rule creators, allowing them to leverage this information without the need to create their own lab.
The following table helps mapping VT Intelligence queries, YARA VT module fields, Sigma Categories, and Sigma fields:

VT
Intelligence

YARA
VT module field

Sigma
Category

Sigma
Field

behavior_created_processes

vt.behaviour.processes_created

process_creation

Image

CommandLine

ParentCommandLine

ParentImage

OriginalFileName

behavior_files

vt.behaviour.files_attribute_changed

vt.behaviour.files_deleted

vt.behaviour.files_opened

vt.behaviour.files_copied

vt.behaviour.files_copied[x].destination

vt.behaviour.files_copied[x].source

vt.behaviour.files_written

vt.behaviour.files_dropped

vt.behaviour.files_dropped[x].path

vt.behaviour.files_dropped[x].sha256

vt.behaviour.files_dropped[x].type

file_access

file_change

file_delete

file_rename

file_event

TargetFilename

behavior_injected_processes

vt.behaviour.processes_injected

process_access

create_remote_thread

process_creation

CallTrace

GrantedAccess

SourceImage

TargetImage

StartModule

StartFunction

TargetImage

SourceImage

behavior_processes

vt.behaviour.processes_terminated

vt.behaviour.processes_killed

vt.behaviour.processes_created

vt.behaviour.command_executions

vt.behaviour.processes_injected

process_access

create_remote_thread

process_creation

CallTrace

GrantedAccess

SourceImage

TargetImage

StartModule

StartFunction

TargetImage

SourceImage

Image

CommandLine

ParentCommandLine

ParentImage

OriginalFileName

behavior_registry

vt.behaviour.registry_keys_deleted

vt.behaviour.registry_keys_opened

vt.behaviour.registry_keys_set

vt.behaviour.registry_keys_set[x].key

vt.behaviour.registry_keys_set[x].value

registry_add

registry_delete

registry_event

registry_rename

registry_set

EventType

TargetObject

Details

behavior_services

vt.behaviour.services_bound

vt.behaviour.services_created

vt.behaviour.services_opened

vt.behaviour.services_started

vt.behaviour.services_stopped

vt.behaviour.services_deleted

registry_set

process_creation

Image

CommandLine

ParentCommandLine

ParentImage

EventType

TargetObject

Details

behavior_network

vt.behaviour.dns_lookups

vt.behaviour.dns_lookups[x].hostname

vt.behaviour.dns_lookups[x].resolved_ips

vt.behaviour.hosts_file

vt.behaviour.ip_traffic

vt.behaviour.ip_traffic[x].destination_ip

vt.behaviour.ip_traffic[x].destination_port

vt.behaviour.ip_traffic[x].transport_layer_protocol

vt.behaviour.http_conversations

vt.behaviour.http_conversations[x].url

vt.behaviour.http_conversations[x].request_method

vt.behaviour.http_conversations[x].request_headers

vt.behaviour.http_conversations[x].response_headers

vt.behaviour.http_conversations[x].response_status_code

vt.behaviour.http_conversations[x].response_body_filetype

vt.behaviour.smtp_conversations[x].hostname

vt.behaviour.smtp_conversations[x].destination_ip

vt.behaviour.smtp_conversations[x].destination_port

vt.behaviour.smtp_conversations[x].smtp_from

vt.behaviour.smtp_conversations[x].smtp_to

vt.behaviour.smtp_conversations[x].message_from

vt.behaviour.smtp_conversations[x].message_to

vt.behaviour.smtp_conversations[x].message_cc

vt.behaviour.smtp_conversations[x].message_bcc

vt.behaviour.smtp_conversations[x].timestamp

vt.behaviour.smtp_conversations[x].subject

vt.behaviour.smtp_conversations[x].html_body

vt.behaviour.smtp_conversations[x].txt_body

vt.behaviour.smtp_conversations[x].x_mailer

vt.behaviour.tls

network_connection

DestinationHostname

DestinationIp

DestinationIsIpv6

DestinationPort

DestinationPortName

SourceIp

SourceIsIpv6

SourcePort

SourcePortName

behavior (too generic)

vt.behaviour.modules_loaded

image_load

ImageLoaded

Image

OriginalFileName

Wrapping up

At VirusTotal, we believe that the Sigma language is a valuable tool for the community to share information about samples’ behavior. Our objective is to make its use on VT as simple as possible. Our addition of MacOS and Linux is just the start of what we are working on, as we aim to add Sysmon for Linux to obtain more robust results, including the ability to download full generated logs.
Remember that here you have a list of all the Crowdsourced Sigma rules that are currently deployed in VirusTotal and that you can use for threat hunting.
We hope you join our fan club of Sigma and VirusTotal, and as always we are happy to hear your feedback.
Happy Hunting!

Continue reading Sigma rules for Linux and MacOS

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