Abnormal Process ID or Lock File Created

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Identifies the creation of a Process ID (PID), lock or reboot file created in temporary file storage paradigm (tmpfs) directory /var/run. On Linux, the PID files typically hold the process ID to track previous copies running and manage other tasks. Certain Linux malware use the /var/run directory for holding data, executables and other tasks, disguising itself or these files as legitimate PID files.

Rule type: eql

Rule indices:

  • logs-endpoint.events.*

Severity: medium

Risk score: 47

Runs every: 5 minutes

Searches indices from: now-9m (Date Math format, see also Additional look-back time)

Maximum alerts per execution: 100

References:

Tags:

  • Elastic
  • Host
  • Linux
  • Threat Detection
  • Execution
  • BPFDoor

Version: 101 (version history)

Added (Elastic Stack release): 8.3.0

Last modified (Elastic Stack release): 8.5.0

Rule authors: Elastic

Rule license: Elastic License v2

Potential false positives

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False-Positives (FP) can appear if the PID file is legitimate and holding a process ID as intended. To differentiate, if the PID file is an executable or larger than 10 bytes, it should be ruled suspicious.

Investigation guide

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## Triage and analysis

### Investigating Abnormal Process ID or Lock File Created

Linux applications may need to save their process identification number (PID) for various purposes: from signaling that
a program is running to serving as a signal that a previous instance of an application didn't exit successfully. PID
files contain its creator process PID in an integer value.

Linux lock files are used to coordinate operations in files so that conflicts and race conditions are prevented.

This rule identifies the creation of PID, lock, or reboot files in the /var/run/ directory. Attackers can masquerade
malware, payloads, staged data for exfiltration, and more as legitimate PID files.

#### Possible investigation steps

- Retrieve the file and determine if it is malicious:
    - Check the contents of the PID files. They should only contain integer strings.
    - Check the file type of the lock and PID files to determine if they are executables. This is only observed in
    malicious files.
    - Check the size of the subject file. Legitimate PID files should be under 10 bytes.
    - Check if the lock or PID file has high entropy. This typically indicates an encrypted payload.
        - Analysts can use tools like `ent` to measure entropy.
    - Examine the reputation of the SHA-256 hash in the PID file. Use a database like VirusTotal to identify additional
    pivots and artifacts for investigation.
- Trace the file's creation to ensure it came from a legitimate or authorized process.
- Investigate other alerts associated with the user/host during the past 48 hours.
- Investigate any abnormal account behavior, such as command executions, file creations or modifications, and network
connections.
- Investigate any abnormal behavior by the subject process such as network connections, file modifications, and any
spawned child processes.

### False positive analysis

- False positives can appear if the PID file is legitimate and holding a process ID as intended. If the PID file is
an executable or has a file size that's larger than 10 bytes, it should be ruled suspicious.
- If this activity is expected and noisy in your environment, consider adding exceptions — preferably with a combination
of file name and process executable conditions.

### Response and remediation

- Initiate the incident response process based on the outcome of the triage.
- Isolate the involved host to prevent further post-compromise behavior.
- Investigate credential exposure on systems compromised or used by the attacker to ensure all compromised accounts are
identified. Reset passwords for these accounts and other potentially compromised credentials, such as email, business
systems, and web services.
- Block the identified indicators of compromise (IoCs).
- Take actions to terminate processes and connections used by the attacker.
- Run a full antimalware scan. This may reveal additional artifacts left in the system, persistence mechanisms, and
malware components.
- Determine the initial vector abused by the attacker and take action to prevent reinfection through the same vector.
- Using the incident response data, update logging and audit policies to improve the mean time to detect (MTTD) and the
mean time to respond (MTTR).

Rule query

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/* add file size filters when data is available */ file where
event.type == "creation" and user.id == "0" and file.path regex~
"""/var/run/\w+\.(pid|lock|reboot)""" and file.extension in
("pid","lock","reboot") and /* handle common legitimate files */
not file.name in ( "auditd.pid", "python*", "apport.pid",
"apport.lock", "kworker*", "gdm3.pid", "sshd.pid",
"acpid.pid", "unattended-upgrades.lock", "unattended-
upgrades.pid", "cmd.pid", "cron*.pid", "yum.pid",
"netconfig.pid", "docker.pid", "atd.pid", "lfd.pid",
"atop.pid", "nginx.pid", "dhclient.pid", "smtpd.pid",
"stunnel.pid" )

Threat mapping

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Framework: MITRE ATT&CKTM

Rule version history

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Version 101 (8.5.0 release)
  • Updated query, changed from:

    /* add file size filters when data is available */ file where
    event.type == "creation" and user.id == "0" and file.path regex~
    """/var/run/\w+\.(pid|lock|reboot)""" and file.extension in
    ("pid","lock","reboot") and /* handle common legitimate files */
    not file.name in ( "auditd.pid", "python*", "apport.pid",
    "apport.lock", "kworker*", "gdm3.pid", "sshd.pid",
    "acpid.pid", "unattended-upgrades.lock", "unattended-
    upgrades.pid", "cmd.pid", "cron*.pid" )
Version 2 (8.4.0 release)
  • Formatting only