Printer User (lp) Shell Execution
This detection rule addresses multiple vulnerabilities in the CUPS printing system, including CVE-2024-47176, CVE-2024-47076, CVE-2024-47175, and CVE-2024-47177. Specifically, this rule detects shell executions from the foomatic-rip parent process through the default printer user (lp). These flaws impact components like cups-browsed, libcupsfilters, libppd, and foomatic-rip, allowing remote unauthenticated attackers to manipulate IPP URLs or inject malicious data through crafted UDP packets or network spoofing. This can result in arbitrary command execution when a print job is initiated.
Elastic rule (View on GitHub)
1[metadata]
2creation_date = "2024/09/27"
3integration = ["endpoint"]
4maturity = "production"
5updated_date = "2024/10/17"
6
7[rule]
8author = ["Elastic"]
9description = """
10This detection rule addresses multiple vulnerabilities in the CUPS printing system, including CVE-2024-47176,
11CVE-2024-47076, CVE-2024-47175, and CVE-2024-47177. Specifically, this rule detects shell executions from the foomatic-rip
12parent process through the default printer user (lp). These flaws impact components like cups-browsed, libcupsfilters,
13libppd, and foomatic-rip, allowing remote unauthenticated attackers to manipulate IPP URLs or inject malicious data
14through crafted UDP packets or network spoofing. This can result in arbitrary command execution when a print job is
15initiated.
16"""
17from = "now-9m"
18index = ["logs-endpoint.events.*"]
19language = "eql"
20license = "Elastic License v2"
21name = "Printer User (lp) Shell Execution"
22note = """## Triage and analysis
23
24### Investigating Printer User (lp) Shell Execution
25
26This rule identifies potential exploitation attempts of several vulnerabilities in the CUPS printing system (CVE-2024-47176, CVE-2024-47076, CVE-2024-47175, CVE-2024-47177). These vulnerabilities allow attackers to send crafted IPP requests or manipulate UDP packets to execute arbitrary commands or modify printer configurations. Attackers can exploit these flaws to inject malicious data, leading to Remote Code Execution (RCE) on affected systems.
27
28#### Possible Investigation Steps
29
30- Investigate the incoming IPP requests or UDP packets targeting port 631.
31- Examine the printer configurations on the system to determine if any unauthorized printers or URLs have been added.
32- Investigate the process tree to check if any unexpected processes were triggered as a result of IPP activity. Review the executable files for legitimacy.
33- Check for additional alerts related to the compromised system or user within the last 48 hours.
34- Investigate network traffic logs for suspicious outbound connections to unrecognized domains or IP addresses.
35- Check if any of the contacted domains or addresses are newly registered or have a suspicious reputation.
36- Retrieve any scripts or executables dropped by the attack for further analysis in a private sandbox environment:
37- Analyze potential malicious activity, including:
38 - Attempts to communicate with external servers.
39 - File access or creation of unauthorized executables.
40 - Cron jobs, services, or other persistence mechanisms.
41
42### Related Rules
43- Cupsd or Foomatic-rip Shell Execution - 476267ff-e44f-476e-99c1-04c78cb3769d
44- Network Connection by Cups or Foomatic-rip Child - e80ee207-9505-49ab-8ca8-bc57d80e2cab
45- File Creation by Cups or Foomatic-rip Child - b9b14be7-b7f4-4367-9934-81f07d2f63c4
46- Suspicious Execution from Foomatic-rip or Cupsd Parent - 986361cd-3dac-47fe-afa1-5c5dd89f2fb4
47
48### False Positive Analysis
49
50- This activity is rarely legitimate. However, verify the context to rule out non-malicious printer configuration changes or legitimate IPP requests.
51
52### Response and Remediation
53
54- Initiate the incident response process based on the triage outcome.
55- Isolate the compromised host to prevent further exploitation.
56- If the investigation confirms malicious activity, search the environment for additional compromised hosts.
57- Implement network segmentation or restrictions to contain the attack.
58- Stop suspicious processes or services tied to CUPS exploitation.
59- Block identified Indicators of Compromise (IoCs), including IP addresses, domains, or hashes of involved files.
60- Review compromised systems for backdoors, such as reverse shells or persistence mechanisms like cron jobs.
61- Investigate potential credential exposure on compromised systems and reset passwords for any affected accounts.
62- Restore the original printer configurations or uninstall unauthorized printer entries.
63- Perform a thorough antimalware scan to identify any lingering threats or artifacts from the attack.
64- Investigate how the attacker gained initial access and address any weaknesses to prevent future exploitation.
65- Use insights from the incident to improve detection and response times in future incidents (MTTD and MTTR).
66"""
67references = [
68 "https://www.elastic.co/security-labs/cups-overflow",
69 "https://www.evilsocket.net/2024/09/26/Attacking-UNIX-systems-via-CUPS-Part-I/",
70 "https://gist.github.com/stong/c8847ef27910ae344a7b5408d9840ee1",
71 "https://github.com/RickdeJager/cupshax/blob/main/cupshax.py",
72]
73risk_score = 73
74rule_id = "f86cd31c-5c7e-4481-99d7-6875a3e31309"
75setup = """## Setup
76
77This rule requires data coming in from Elastic Defend.
78
79### Elastic Defend Integration Setup
80Elastic Defend is integrated into the Elastic Agent using Fleet. Upon configuration, the integration allows the Elastic Agent to monitor events on your host and send data to the Elastic Security app.
81
82#### Prerequisite Requirements:
83- Fleet is required for Elastic Defend.
84- To configure Fleet Server refer to the [documentation](https://www.elastic.co/guide/en/fleet/current/fleet-server.html).
85
86#### The following steps should be executed in order to add the Elastic Defend integration on a Linux System:
87- Go to the Kibana home page and click "Add integrations".
88- In the query bar, search for "Elastic Defend" and select the integration to see more details about it.
89- Click "Add Elastic Defend".
90- Configure the integration name and optionally add a description.
91- Select the type of environment you want to protect, either "Traditional Endpoints" or "Cloud Workloads".
92- Select a configuration preset. Each preset comes with different default settings for Elastic Agent, you can further customize these later by configuring the Elastic Defend integration policy. [Helper guide](https://www.elastic.co/guide/en/security/current/configure-endpoint-integration-policy.html).
93- We suggest selecting "Complete EDR (Endpoint Detection and Response)" as a configuration setting, that provides "All events; all preventions"
94- Enter a name for the agent policy in "New agent policy name". If other agent policies already exist, you can click the "Existing hosts" tab and select an existing policy instead.
95For more details on Elastic Agent configuration settings, refer to the [helper guide](https://www.elastic.co/guide/en/fleet/8.10/agent-policy.html).
96- Click "Save and Continue".
97- To complete the integration, select "Add Elastic Agent to your hosts" and continue to the next section to install the Elastic Agent on your hosts.
98For more details on Elastic Defend refer to the [helper guide](https://www.elastic.co/guide/en/security/current/install-endpoint.html).
99"""
100severity = "high"
101tags = [
102 "Domain: Endpoint",
103 "OS: Linux",
104 "Use Case: Threat Detection",
105 "Use Case: Vulnerability",
106 "Tactic: Execution",
107 "Data Source: Elastic Defend",
108]
109timestamp_override = "event.ingested"
110type = "eql"
111query = '''
112process where host.os.type == "linux" and event.type == "start" and event.action == "exec" and user.name == "lp" and
113process.parent.name in ("cupsd", "foomatic-rip", "bash", "dash", "sh", "tcsh", "csh", "zsh", "ksh", "fish") and
114process.name in ("bash", "dash", "sh", "tcsh", "csh", "zsh", "ksh", "fish") and not (
115 process.command_line like (
116 "*/tmp/foomatic-*", "*-sDEVICE=ps2write*", "*printf*", "/bin/sh -e -c cat", "/bin/bash -c cat",
117 "/bin/bash -e -c cat"
118 ) or
119 process.args like "gs*"
120)
121'''
122
123[[rule.threat]]
124framework = "MITRE ATT&CK"
125
126[[rule.threat.technique]]
127id = "T1203"
128name = "Exploitation for Client Execution"
129reference = "https://attack.mitre.org/techniques/T1203/"
130
131[rule.threat.tactic]
132id = "TA0002"
133name = "Execution"
134reference = "https://attack.mitre.org/tactics/TA0002/"
Triage and analysis
Investigating Printer User (lp) Shell Execution
This rule identifies potential exploitation attempts of several vulnerabilities in the CUPS printing system (CVE-2024-47176, CVE-2024-47076, CVE-2024-47175, CVE-2024-47177). These vulnerabilities allow attackers to send crafted IPP requests or manipulate UDP packets to execute arbitrary commands or modify printer configurations. Attackers can exploit these flaws to inject malicious data, leading to Remote Code Execution (RCE) on affected systems.
Possible Investigation Steps
- Investigate the incoming IPP requests or UDP packets targeting port 631.
- Examine the printer configurations on the system to determine if any unauthorized printers or URLs have been added.
- Investigate the process tree to check if any unexpected processes were triggered as a result of IPP activity. Review the executable files for legitimacy.
- Check for additional alerts related to the compromised system or user within the last 48 hours.
- Investigate network traffic logs for suspicious outbound connections to unrecognized domains or IP addresses.
- Check if any of the contacted domains or addresses are newly registered or have a suspicious reputation.
- Retrieve any scripts or executables dropped by the attack for further analysis in a private sandbox environment:
- Analyze potential malicious activity, including:
- Attempts to communicate with external servers.
- File access or creation of unauthorized executables.
- Cron jobs, services, or other persistence mechanisms.
Related Rules
- Cupsd or Foomatic-rip Shell Execution - 476267ff-e44f-476e-99c1-04c78cb3769d
- Network Connection by Cups or Foomatic-rip Child - e80ee207-9505-49ab-8ca8-bc57d80e2cab
- File Creation by Cups or Foomatic-rip Child - b9b14be7-b7f4-4367-9934-81f07d2f63c4
- Suspicious Execution from Foomatic-rip or Cupsd Parent - 986361cd-3dac-47fe-afa1-5c5dd89f2fb4
False Positive Analysis
- This activity is rarely legitimate. However, verify the context to rule out non-malicious printer configuration changes or legitimate IPP requests.
Response and Remediation
- Initiate the incident response process based on the triage outcome.
- Isolate the compromised host to prevent further exploitation.
- If the investigation confirms malicious activity, search the environment for additional compromised hosts.
- Implement network segmentation or restrictions to contain the attack.
- Stop suspicious processes or services tied to CUPS exploitation.
- Block identified Indicators of Compromise (IoCs), including IP addresses, domains, or hashes of involved files.
- Review compromised systems for backdoors, such as reverse shells or persistence mechanisms like cron jobs.
- Investigate potential credential exposure on compromised systems and reset passwords for any affected accounts.
- Restore the original printer configurations or uninstall unauthorized printer entries.
- Perform a thorough antimalware scan to identify any lingering threats or artifacts from the attack.
- Investigate how the attacker gained initial access and address any weaknesses to prevent future exploitation.
- Use insights from the incident to improve detection and response times in future incidents (MTTD and MTTR).
References
Related rules
- Cupsd or Foomatic-rip Shell Execution
- Potential curl CVE-2023-38545 Exploitation
- Suspicious Execution from Foomatic-rip or Cupsd Parent
- File Creation by Cups or Foomatic-rip Child
- Potential JAVA/JNDI Exploitation Attempt