9 items found
Weaknesses
Abstract
Debugging messages help attackers learn about the system and plan a form of attack.
Explanation
Android applications can be configured to produce debug binaries. These binaries give detailed debugging messages and should not be used in production environments. The debuggable attribute of the <application> tag defines whether compiled binaries should include debugging information.

The use of debug binaries causes an application to provide as much information about itself as possible to the user. Debug binaries are meant to be used in a development or testing environment and can pose a security risk if they are deployed to production. Attackers may leverage the additional information they gain from debugging output to mount attacks targeted on the framework, database, or other resources used by the application.
References
[1] JavaDoc for Android Android
[2] Standards Mapping - Common Weakness Enumeration CWE ID 11
[3] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001312, CCI-001314, CCI-002420, CCI-003272
[4] Standards Mapping - FIPS200 CM
[5] Standards Mapping - General Data Protection Regulation (GDPR) Indirect Access to Sensitive Data
[6] Standards Mapping - NIST Special Publication 800-53 Revision 4 SA-15 Development Process and Standards and Tools (P2), SC-8 Transmission Confidentiality and Integrity (P1), SI-11 Error Handling (P2)
[7] Standards Mapping - NIST Special Publication 800-53 Revision 5 SA-15 Development Process and Standards and Tools, SC-8 Transmission Confidentiality and Integrity, SI-11 Error Handling
[8] Standards Mapping - OWASP Application Security Verification Standard 4.0 14.1.3 Build (L2 L3)
[9] Standards Mapping - OWASP Mobile 2014 M10 Lack of Binary Protections
[10] Standards Mapping - OWASP Mobile 2024 M8 Security Misconfiguration
[11] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-RESILIENCE-4
[12] Standards Mapping - OWASP Top 10 2004 A10 Insecure Configuration Management
[13] Standards Mapping - OWASP Top 10 2007 A6 Information Leakage and Improper Error Handling
[14] Standards Mapping - OWASP Top 10 2010 A6 Security Misconfiguration
[15] Standards Mapping - OWASP Top 10 2013 A5 Security Misconfiguration
[16] Standards Mapping - OWASP Top 10 2017 A6 Security Misconfiguration
[17] Standards Mapping - OWASP Top 10 2021 A05 Security Misconfiguration
[18] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.10
[19] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.5.6
[20] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.5
[21] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.5
[22] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.5
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.5
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.5
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[26] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 3.6 - Sensitive Data Retention
[27] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 3.6 - Sensitive Data Retention
[28] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 3.6 - Sensitive Data Retention
[29] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3120 CAT II, APP3620 CAT II
[30] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3120 CAT II, APP3620 CAT II
[31] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3120 CAT II, APP3620 CAT II
[32] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3120 CAT II, APP3620 CAT II
[33] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3120 CAT II, APP3620 CAT II
[34] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3120 CAT II, APP3620 CAT II
[35] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3120 CAT II, APP3620 CAT II
[36] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[37] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[46] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[47] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[48] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[49] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[50] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002480 CAT II, APSC-DV-002570 CAT II, APSC-DV-002580 CAT II, APSC-DV-003235 CAT II
[51] Standards Mapping - Web Application Security Consortium Version 2.00 Information Leakage (WASC-13)
[52] Standards Mapping - Web Application Security Consortium 24 + 2 Information Leakage
desc.config.java.android_misconfiguration_debug_information
Abstract
Zip Entry Overwrite Protection is disabled. Zip Entry Overwrite Protection protects against Zip Path Traversal Vulnerabilities by providing validation of zip file entry names.
Explanation
Zip Path Traversal Vulnerabilities occur when a malicious actor can specify Zip file entry names in a given Zip file. When a Zip file entry name is specified maliciously, an attacker can overwrite the contents of key system files when the corresponding Zip file is expanded. Attackers might use such path traversal idioms such as ../ and / to access system files otherwise out of program scope. Android applications that target Android 14 and later can by default throw an exception when idioms such as ../ and / are detected during Zip file extraction. This security feature can be overridden or disabled entirely.

Example 1: The following code disables Zip Entry Overwrite Protection.


...
dalvik.system.ZipPathValidator.clearCallback();
...
References
[1] Zip Path Traversal
[2] Standards Mapping - Common Weakness Enumeration CWE ID 22, CWE ID 73
[3] Standards Mapping - Common Weakness Enumeration Top 25 2019 [10] CWE ID 022
[4] Standards Mapping - Common Weakness Enumeration Top 25 2020 [12] CWE ID 022
[5] Standards Mapping - Common Weakness Enumeration Top 25 2021 [8] CWE ID 022
[6] Standards Mapping - Common Weakness Enumeration Top 25 2022 [8] CWE ID 022
[7] Standards Mapping - Common Weakness Enumeration Top 25 2023 [8] CWE ID 022
[8] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-000345, CCI-002754
[9] Standards Mapping - FIPS200 SI
[10] Standards Mapping - General Data Protection Regulation (GDPR) Access Violation
[11] Standards Mapping - NIST Special Publication 800-53 Revision 4 CM-5 Access Restrictions for Change (P1), SI-10 Information Input Validation (P1)
[12] Standards Mapping - NIST Special Publication 800-53 Revision 5 CM-5 Access Restrictions for Change, SI-10 Information Input Validation
[13] Standards Mapping - OWASP Application Security Verification Standard 4.0 12.3.1 File Execution Requirements (L1 L2 L3), 12.3.2 File Execution Requirements (L1 L2 L3)
[14] Standards Mapping - OWASP Mobile 2014 M8 Security Decisions Via Untrusted Inputs
[15] Standards Mapping - OWASP Mobile 2024 M4 Insufficient Input/Output Validation
[16] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CODE-4, MASVS-PLATFORM-1
[17] Standards Mapping - OWASP Top 10 2004 A1 Unvalidated Input
[18] Standards Mapping - OWASP Top 10 2007 A4 Insecure Direct Object Reference
[19] Standards Mapping - OWASP Top 10 2010 A4 Insecure Direct Object References
[20] Standards Mapping - OWASP Top 10 2013 A4 Insecure Direct Object References
[21] Standards Mapping - OWASP Top 10 2017 A5 Broken Access Control
[22] Standards Mapping - OWASP Top 10 2021 A01 Broken Access Control
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.1
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.1, Requirement 6.5.4
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.8
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.8
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.8
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.8
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.8
[30] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection, Control Objective 5.4 - Authentication and Access Control
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective 5.4 - Authentication and Access Control, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[33] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective 5.4 - Authentication and Access Control, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.2.3 - Web Software Access Controls, Control Objective C.3.2 - Web Software Attack Mitigation
[34] Standards Mapping - SANS Top 25 2009 Risky Resource Management - CWE ID 426
[35] Standards Mapping - SANS Top 25 2010 Risky Resource Management - CWE ID 022
[36] Standards Mapping - SANS Top 25 2011 Risky Resource Management - CWE ID 022
[37] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3510 CAT I, APP3600 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3510 CAT I, APP3600 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3510 CAT I, APP3600 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3510 CAT I, APP3600 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3510 CAT I, APP3600 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3510 CAT I, APP3600 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3510 CAT I, APP3600 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002560 CAT I
[45] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002560 CAT I
[46] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002560 CAT I
[47] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002560 CAT I
[48] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002560 CAT I
[49] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002560 CAT I
[50] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002560 CAT I
[51] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002560 CAT I
[52] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002560 CAT I
[53] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002560 CAT I
[54] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002560 CAT I
[55] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002560 CAT I
[56] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002560 CAT I
[57] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II, APSC-DV-002560 CAT I, APSC-DV-002960 CAT II
[58] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II, APSC-DV-002560 CAT I, APSC-DV-002960 CAT II
[59] Standards Mapping - Web Application Security Consortium Version 2.00 Path Traversal (WASC-33)
[60] Standards Mapping - Web Application Security Consortium 24 + 2 Path Traversal
desc.semantic.java.android_misconfiguration_zip_entry_overwrite_protection_disabled
Abstract
This function violates the contract that it must compare its parameter with null.
Explanation
The Java standard requires that implementations of Object.equals(), Comparable.compareTo(), and Comparator.compare() must return a specified value if their parameters are null. Failing to follow this contract may result in unexpected behavior.

Example 1: The following implementation of the equals() method does not compare its parameter with null.


public boolean equals(Object object)
{
return (toString().equals(object.toString()));
}
References
[1] MET10-J. Follow the general contract when implementing the compareTo() method CERT
[2] MET08-J. Preserve the equality contract when overriding the equals() method CERT
[3] Standards Mapping - Common Weakness Enumeration CWE ID 398
[4] Standards Mapping - General Data Protection Regulation (GDPR) Indirect Access to Sensitive Data
desc.controlflow.java.missing_check_for_null_parameter
Abstract
Mishandling private information, such as customer passwords or social security numbers, can compromise user privacy and is often illegal.
Explanation
Privacy violations occur when:

1. Private user information enters the program.

2. The data is written to an external location, such as the console, file system, or network.
Example 1: The following code contains a logging statement that tracks the records added to a database by storing the contents in a log file.


pass = getPassword();
...
dbmsLog.println(id+":"+pass+":"+type+":"+tstamp);


The code in Example 1 logs a plain text password to the file system. Although many developers trust the file system as a safe storage location for data, it should not be trusted implicitly, particularly when privacy is a concern.

Privacy is one of the biggest concerns in the mobile world for a couple of reasons. One of them is a much higher chance of device loss. The other has to do with inter-process communication between mobile applications. With mobile platforms, applications are downloaded from various sources and are run alongside each other on the same device. The likelihood of running a piece of malware next to a banking application is high, which is why application authors need to be careful about what information they include in messages addressed to other applications running on the device. Sensitive information should never be part of inter-process communication between mobile applications.

Example 2: The following code reads username and password for a given site from an Android WebView store and broadcasts them to all the registered receivers.

...
webview.setWebViewClient(new WebViewClient() {
public void onReceivedHttpAuthRequest(WebView view,
HttpAuthHandler handler, String host, String realm) {
String[] credentials = view.getHttpAuthUsernamePassword(host, realm);
String username = credentials[0];
String password = credentials[1];
Intent i = new Intent();
i.setAction("SEND_CREDENTIALS");
i.putExtra("username", username);
i.putExtra("password", password);
view.getContext().sendBroadcast(i);
}
});
...


This example demonstrates several problems. First of all, by default, WebView credentials are stored in plain text and are not hashed. If a user has a rooted device (or uses an emulator), they can read stored passwords for given sites. Second, plain text credentials are broadcast to all the registered receivers, which means that any receiver registered to listen to intents with the SEND_CREDENTIALS action will receive the message. The broadcast is not even protected with a permission to limit the number of recipients, although in this case we do not recommend using permissions as a fix.

Private data can enter a program in a variety of ways:

- Directly from the user in the form of a password or personal information

- Accessed from a database or other data store by the application

- Indirectly from a partner or other third party

Typically, in the context of the mobile environment, this private information includes (along with passwords, SSNs, and other general personal information):

- Location

- Cell phone number

- Serial numbers and device IDs

- Network Operator information

- Voicemail information


Sometimes data that is not labeled as private can have a privacy implication in a different context. For example, student identification numbers are usually not considered private because there is no explicit and publicly-available mapping to an individual student's personal information. However, if a school generates identification numbers based on student social security numbers, then the identification numbers should be considered private.

Security and privacy concerns often seem to compete with each other. From a security perspective, you should record all important operations so that any anomalous activity can later be identified. However, when private data is involved, this practice can create risk.

Although there are many ways in which private data can be handled unsafely, a common risk stems from misplaced trust. Programmers often trust the operating environment in which a program runs, and therefore believe that it is acceptable to store private information on the file system, in the registry, or in other locally-controlled resources. However, even if access to certain resources is restricted, this does not guarantee that the individuals who do have access can be trusted. For example, in 2004, an unscrupulous employee at AOL sold approximately 92 million private customer email addresses to a spammer marketing an offshore gambling web site [1].

In response to such high-profile exploits, the collection and management of private data is becoming increasingly regulated. Depending on its location, the type of business it conducts, and the nature of any private data it handles, an organization may be required to comply with one or more of the following federal and state regulations:

- Safe Harbor Privacy Framework [3]

- Gramm-Leach Bliley Act (GLBA) [4]

- Health Insurance Portability and Accountability Act (HIPAA) [5]

- California SB-1386 [6]

Despite these regulations, privacy violations continue to occur with alarming frequency.
References
[1] J. Oates AOL man pleads guilty to selling 92m email addies The Register
[2] Privacy Initiatives U.S. Federal Trade Commission
[3] Safe Harbor Privacy Framework U.S. Department of Commerce
[4] Financial Privacy: The Gramm-Leach Bliley Act (GLBA) Federal Trade Commission
[5] Health Insurance Portability and Accountability Act (HIPAA) U.S. Department of Human Services
[6] California SB-1386 Government of the State of California
[7] M. Howard, D. LeBlanc Writing Secure Code, Second Edition Microsoft Press
[8] SQLCipher.
[9] FUNDAMENTALS-4: Establish trust boundaries Oracle
[10] CONFIDENTIAL-2: Do not log highly sensitive information Oracle
[11] Standards Mapping - Common Weakness Enumeration CWE ID 359
[12] Standards Mapping - Common Weakness Enumeration Top 25 2019 [4] CWE ID 200
[13] Standards Mapping - Common Weakness Enumeration Top 25 2020 [7] CWE ID 200
[14] Standards Mapping - Common Weakness Enumeration Top 25 2021 [20] CWE ID 200
[15] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-000169
[16] Standards Mapping - General Data Protection Regulation (GDPR) Access Violation
[17] Standards Mapping - NIST Special Publication 800-53 Revision 4 AC-4 Information Flow Enforcement (P1), AU-12 Audit Generation (P1)
[18] Standards Mapping - NIST Special Publication 800-53 Revision 5 AC-4 Information Flow Enforcement, AU-12 Audit Record Generation
[19] Standards Mapping - OWASP API 2023 API3 Broken Object Property Level Authorization
[20] Standards Mapping - OWASP Application Security Verification Standard 4.0 8.2.2 Client-side Data Protection (L1 L2 L3), 8.3.4 Sensitive Private Data (L1 L2 L3), 10.2.1 Malicious Code Search (L2 L3)
[21] Standards Mapping - OWASP Mobile 2014 M2 Insecure Data Storage
[22] Standards Mapping - OWASP Mobile 2024 M6 Inadequate Privacy Controls
[23] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-STORAGE-1
[24] Standards Mapping - OWASP Top 10 2007 A6 Information Leakage and Improper Error Handling
[25] Standards Mapping - OWASP Top 10 2021 A01 Broken Access Control
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 3.2, Requirement 3.4, Requirement 4.2, Requirement 8.4
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 3.2, Requirement 3.4, Requirement 4.2, Requirement 6.5.6, Requirement 8.4
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 3.2, Requirement 3.4, Requirement 6.5.5, Requirement 8.4
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 3.2, Requirement 3.4, Requirement 8.2.1
[30] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 3.2, Requirement 3.4, Requirement 8.2.1
[31] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 3.2, Requirement 3.4, Requirement 8.2.1
[32] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 3.2, Requirement 3.4, Requirement 8.2.1
[33] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 3.3.1, Requirement 3.5.1, Requirement 8.3.1
[34] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 3.3 - Sensitive Data Retention, Control Objective 6.1 - Sensitive Data Protection, Control Objective 7 - Use of Cryptography
[35] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 3.3 - Sensitive Data Retention, Control Objective 6.1 - Sensitive Data Protection, Control Objective 7 - Use of Cryptography, Control Objective B.2.5 - Terminal Software Design
[36] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 3.3 - Sensitive Data Retention, Control Objective 6.1 - Sensitive Data Protection, Control Objective 7 - Use of Cryptography, Control Objective B.2.5 - Terminal Software Design
[37] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3210.1 CAT II, APP3310 CAT I, APP3340 CAT I
[38] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3210.1 CAT II, APP3340 CAT I
[39] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3210.1 CAT II, APP3340 CAT I
[40] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3210.1 CAT II, APP3340 CAT I
[41] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3210.1 CAT II, APP3340 CAT I
[42] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3210.1 CAT II, APP3340 CAT I
[43] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3210.1 CAT II, APP3340 CAT I
[44] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-000650 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-000650 CAT II
[46] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-000650 CAT II
[47] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-000650 CAT II
[48] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-000650 CAT II
[49] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-000650 CAT II
[50] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-000650 CAT II
[51] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-000650 CAT II
[52] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-000650 CAT II
[53] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-000650 CAT II
[54] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-000650 CAT II
[55] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-000650 CAT II
[56] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-000650 CAT II
[57] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-000650 CAT II
[58] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-000650 CAT II
[59] Standards Mapping - Web Application Security Consortium Version 2.00 Information Leakage (WASC-13)
[60] Standards Mapping - Web Application Security Consortium 24 + 2 Information Leakage
desc.dataflow.java.pci_privacy_violation
Abstract
Constructing a SimpleDB select statement that contains user input can allow an attacker to view unauthorized records.
Explanation
Query string injection vulnerabilities occur when:
1. Data enters a program from an untrusted source.



2. The data is used to dynamically construct a SimpleDB query string.

Example 1: The following code dynamically constructs and executes a SimpleDB select() query that searches for invoices that match a user-specified product category. The user can also specify the column by which the results are sorted. Assume that the application has already properly authenticated and set the value of customerID prior to this code segment.


...
String customerID = getAuthenticatedCustomerID(customerName, customerCredentials);
...
AmazonSimpleDBClient sdbc = new AmazonSimpleDBClient(appAWSCredentials);
String query = "select * from invoices where productCategory = '"
+ productCategory + "' and customerID = '"
+ customerID + "' order by '"
+ sortColumn + "' asc";
SelectResult sdbResult = sdbc.select(new SelectRequest(query));
...


The query that this code intends to execute looks like:


select * from invoices
where productCategory = 'Fax Machines'
and customerID = '12345678'
order by 'price' asc


However, because the query is constructed dynamically by concatenating a constant base query string and a user input string, the query only behaves correctly if productCategory and price do not contain single-quote characters. If, however, an attacker provides the string "Fax Machines' or productCategory = \"" for productCategory, and the string "\" order by 'price" for sortColumn, then the query becomes the following:


select * from invoices
where productCategory = 'Fax Machines' or productCategory = "'
and customerID = '12345678'
order by '" order by 'price' asc


or, in a more human-readable form,


select * from invoices
where productCategory = 'Fax Machines'
or productCategory = "' and customerID = '12345678' order by '"
order by 'price' asc


These inputs allow an attacker to bypass the required authentication for customerID, and allows the attacker to view invoice records matching 'Fax Machines' for all customers.
References
[1] Secure Use of Cloud Storage
[2] Standards Mapping - Common Weakness Enumeration CWE ID 89
[3] Standards Mapping - Common Weakness Enumeration Top 25 2019 [6] CWE ID 089
[4] Standards Mapping - Common Weakness Enumeration Top 25 2020 [6] CWE ID 089
[5] Standards Mapping - Common Weakness Enumeration Top 25 2021 [6] CWE ID 089
[6] Standards Mapping - Common Weakness Enumeration Top 25 2022 [3] CWE ID 089
[7] Standards Mapping - Common Weakness Enumeration Top 25 2023 [3] CWE ID 089
[8] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001310, CCI-002754
[9] Standards Mapping - FIPS200 SI
[10] Standards Mapping - General Data Protection Regulation (GDPR) Indirect Access to Sensitive Data
[11] Standards Mapping - NIST Special Publication 800-53 Revision 4 SI-10 Information Input Validation (P1)
[12] Standards Mapping - NIST Special Publication 800-53 Revision 5 SI-10 Information Input Validation
[13] Standards Mapping - OWASP Application Security Verification Standard 4.0 5.3.4 Output Encoding and Injection Prevention Requirements (L1 L2 L3), 5.3.5 Output Encoding and Injection Prevention Requirements (L1 L2 L3)
[14] Standards Mapping - OWASP Mobile 2014 M1 Weak Server Side Controls
[15] Standards Mapping - OWASP Mobile 2024 M4 Insufficient Input/Output Validation
[16] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CODE-4
[17] Standards Mapping - OWASP Top 10 2004 A6 Injection Flaws
[18] Standards Mapping - OWASP Top 10 2007 A2 Injection Flaws
[19] Standards Mapping - OWASP Top 10 2010 A1 Injection
[20] Standards Mapping - OWASP Top 10 2013 A1 Injection
[21] Standards Mapping - OWASP Top 10 2017 A1 Injection
[22] Standards Mapping - OWASP Top 10 2021 A03 Injection
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.6
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.1, Requirement 6.5.2
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.1
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.1
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.1
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.1
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.1
[30] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[33] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.3.2 - Web Software Attack Mitigation
[34] Standards Mapping - SANS Top 25 2009 Insecure Interaction - CWE ID 089
[35] Standards Mapping - SANS Top 25 2010 Insecure Interaction - CWE ID 089
[36] Standards Mapping - SANS Top 25 2011 Insecure Interaction - CWE ID 089
[37] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[45] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[46] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[47] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[48] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[49] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[50] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[51] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[52] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[53] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[54] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[55] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[56] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[57] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[58] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[59] Standards Mapping - Web Application Security Consortium Version 2.00 SQL Injection (WASC-19)
[60] Standards Mapping - Web Application Security Consortium 24 + 2 SQL Injection
desc.dataflow.java.query_string_injection_amazon_web_services
Abstract
Constructing a SQLite query statement that contains user input can allow an attacker to view unauthorized records.
Explanation
Query string injection vulnerabilities occur when:
1. Data enters a program from an untrusted source.



In this case Fortify Static Code Analyzer could not determine that the source of the data is trusted.

2. The data is used to dynamically construct a SQLite query.

The SQLite query string injection allows malicious users to view unauthorized records, but does not allow them to alter the state of the database in any way.

Example 1: The following code dynamically constructs and executes a SQLite query that searches for invoices associated with a customer and a user-specified product category. The user can also specify the column by which the results should be sorted. Assume that the program has already properly authenticated and set the value of customerID prior to this code segment.


...
productCategory = this.getIntent().getExtras().getString("productCategory");
sortColumn = this.getIntent().getExtras().getString("sortColumn");
customerID = getAuthenticatedCustomerID(customerName, customerCredentials);
c = invoicesDB.query(Uri.parse(invoices), columns, "productCategory = '" + productCategory + "' and customerID = '" + customerID + "'", null, null, null, "'" + sortColumn + "'asc", null);
...


The query that this code intends to execute looks like:


select * from invoices
where productCategory = 'Fax Machines'
and customerID = '12345678'
order by 'price' asc


However, the query is constructed dynamically by concatenating a constant base query string and a user input string productCategory. So the query behaves correctly only if productCategory and sortColumn do not contain single-quote characters. If an attacker provides the string "Fax Machines' or productCategory = \"" for productCategory, and the string "\" order by 'price" for sortColumn, then the query becomes:


select * from invoices
where productCategory = 'Fax Machines' or productCategory = "'
and customerID = '12345678'
order by '" order by 'price' asc


or, in a more readable form,


select * from invoices
where productCategory = 'Fax Machines'
or productCategory = "' and customerID = '12345678' order by '"
order by 'price' asc


These inputs allow an attacker to bypass the required authentication for customerID and allows the attacker to view invoice records matching 'Fax Machines' for all customers.
References
[1] Android Developers-Reference: SQLite Database
[2] SQL as Understood by SQLite
[3] Standards Mapping - Common Weakness Enumeration CWE ID 89
[4] Standards Mapping - Common Weakness Enumeration Top 25 2019 [6] CWE ID 089
[5] Standards Mapping - Common Weakness Enumeration Top 25 2020 [6] CWE ID 089
[6] Standards Mapping - Common Weakness Enumeration Top 25 2021 [6] CWE ID 089
[7] Standards Mapping - Common Weakness Enumeration Top 25 2022 [3] CWE ID 089
[8] Standards Mapping - Common Weakness Enumeration Top 25 2023 [3] CWE ID 089
[9] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001310, CCI-002754
[10] Standards Mapping - FIPS200 SI
[11] Standards Mapping - General Data Protection Regulation (GDPR) Indirect Access to Sensitive Data
[12] Standards Mapping - NIST Special Publication 800-53 Revision 4 SI-10 Information Input Validation (P1)
[13] Standards Mapping - NIST Special Publication 800-53 Revision 5 SI-10 Information Input Validation
[14] Standards Mapping - OWASP Application Security Verification Standard 4.0 5.3.4 Output Encoding and Injection Prevention Requirements (L1 L2 L3), 5.3.5 Output Encoding and Injection Prevention Requirements (L1 L2 L3)
[15] Standards Mapping - OWASP Mobile 2014 M7 Client Side Injection
[16] Standards Mapping - OWASP Mobile 2024 M4 Insufficient Input/Output Validation
[17] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CODE-4
[18] Standards Mapping - OWASP Top 10 2004 A6 Injection Flaws
[19] Standards Mapping - OWASP Top 10 2007 A2 Injection Flaws
[20] Standards Mapping - OWASP Top 10 2010 A1 Injection
[21] Standards Mapping - OWASP Top 10 2013 A1 Injection
[22] Standards Mapping - OWASP Top 10 2017 A1 Injection
[23] Standards Mapping - OWASP Top 10 2021 A03 Injection
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.6
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.1, Requirement 6.5.2
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.1
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.1
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.1
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.1
[30] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.1
[31] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection
[33] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[34] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.3.2 - Web Software Attack Mitigation
[35] Standards Mapping - SANS Top 25 2009 Insecure Interaction - CWE ID 089
[36] Standards Mapping - SANS Top 25 2010 Insecure Interaction - CWE ID 089
[37] Standards Mapping - SANS Top 25 2011 Insecure Interaction - CWE ID 089
[38] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3510 CAT I, APP3540.1 CAT I, APP3540.3 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[46] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[47] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[48] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[49] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[50] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[51] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[52] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[53] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[54] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[55] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[56] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[57] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[58] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[59] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[60] Standards Mapping - Web Application Security Consortium Version 2.00 SQL Injection (WASC-19)
[61] Standards Mapping - Web Application Security Consortium 24 + 2 SQL Injection
desc.semantic.java.query_string_injection_android_provider
Abstract
Insufficient validation of user input can enable an attacker to gain unauthorized access to sensitive information stored in a NoSQL database.
Explanation
MongoDB is a type of NoSQL database that supports JSON-oriented document storage format. An injection vulnerability occurs when:
1. PHP objects are passed in with HTTP GET and HTTP POST requests and are not inherently sanitized
2. No datatype checks are performed against the GET and POST parameters
3. A simple variable can be converted into array object by passing it as an array reference
Example 1: The following code finds all users with username passed through the request parameter.
$collection->find(array("username" => $_GET['username']))

Instead of passing a username string, an attacker could manipulate the query by requesting http://www.example.com?username[$ne]=foo. This allows the attacker to manipulate the query as below:
$collection->find(array("username" => array('$ne' => "foo")))

The lack of user input validation can allow the attacker to enumerate the list of all the authorized users in the system.
References
[1] Standards Mapping - Common Weakness Enumeration CWE ID 89
[2] Standards Mapping - Common Weakness Enumeration Top 25 2019 [6] CWE ID 089
[3] Standards Mapping - Common Weakness Enumeration Top 25 2020 [6] CWE ID 089
[4] Standards Mapping - Common Weakness Enumeration Top 25 2021 [6] CWE ID 089
[5] Standards Mapping - Common Weakness Enumeration Top 25 2022 [3] CWE ID 089
[6] Standards Mapping - Common Weakness Enumeration Top 25 2023 [3] CWE ID 089
[7] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001310, CCI-002754
[8] Standards Mapping - FIPS200 SI
[9] Standards Mapping - General Data Protection Regulation (GDPR) Indirect Access to Sensitive Data
[10] Standards Mapping - NIST Special Publication 800-53 Revision 4 SI-10 Information Input Validation (P1)
[11] Standards Mapping - NIST Special Publication 800-53 Revision 5 SI-10 Information Input Validation
[12] Standards Mapping - OWASP Application Security Verification Standard 4.0 5.3.4 Output Encoding and Injection Prevention Requirements (L1 L2 L3), 5.3.5 Output Encoding and Injection Prevention Requirements (L1 L2 L3)
[13] Standards Mapping - OWASP Mobile 2014 M1 Weak Server Side Controls
[14] Standards Mapping - OWASP Mobile 2024 M4 Insufficient Input/Output Validation
[15] Standards Mapping - OWASP Top 10 2004 A6 Injection Flaws
[16] Standards Mapping - OWASP Top 10 2007 A2 Injection Flaws
[17] Standards Mapping - OWASP Top 10 2010 A1 Injection
[18] Standards Mapping - OWASP Top 10 2013 A1 Injection
[19] Standards Mapping - OWASP Top 10 2017 A1 Injection
[20] Standards Mapping - OWASP Top 10 2021 A03 Injection
[21] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.6
[22] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.1, Requirement 6.5.2
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.1
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.1
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.1
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.1
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.1
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[29] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection
[30] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.3.2 - Web Software Attack Mitigation
[32] Standards Mapping - SANS Top 25 2009 Risky Resource Management - CWE ID 094
[33] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3510 CAT I, APP3570 CAT I
[34] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3510 CAT I, APP3570 CAT I
[35] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3510 CAT I, APP3570 CAT I
[36] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3510 CAT I, APP3570 CAT I
[37] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3510 CAT I, APP3570 CAT I
[38] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[39] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[40] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[41] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[42] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[43] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[44] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[45] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[46] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[47] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[48] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[49] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[50] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[51] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[52] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II, APSC-DV-002540 CAT I, APSC-DV-002560 CAT I
[53] Standards Mapping - Web Application Security Consortium Version 2.00 SQL Injection (WASC-19)
desc.dynamic.php.query_string_injection_mongodb
Abstract
The program accesses a variable in an ambiguous way, which can leave it open to attack.
Explanation
The HttpRequest class provides programmatic access to variables from the QueryString, Form, Cookies or ServerVariables collections in the form of an array access (e.g. Request["myParam"]). When more than one variable exists with the same name, the .NET framework returns the value of the variable that appears first when the collections are searched in the following order: QueryString, Form, Cookies then ServerVariables. Since QueryString comes first in the search order, it is possible for QueryString parameters to supersede values from forms, cookies, and server variables. Similarly, form values can supersede variables in the Cookies and ServerVariables collections and variables from the Cookies collection can supersede those from ServerVariables.
Example 1: Imagine a banking application temporarily stores a user's email address in a cookie and reads this value when it wants to contact the user. The following code reads the cookie value and sends an account balance to the specified email address.

...
String toAddress = Request["email"]; //Expects cookie value
Double balance = GetBalance(userID);
SendAccountBalance(toAddress, balance);
...

Assume the code in Example 1 is executed when visiting http://www.example.com/GetBalance.aspx. If an attacker can cause an authenticated user to click a link that requests http://www.example.com/GetBalance.aspx?email=evil%40evil.com, an email with the user's account balance will be sent to evil@evil.com.
References
[1] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001310
[2] Standards Mapping - NIST Special Publication 800-53 Revision 4 SI-10 Information Input Validation (P1)
[3] Standards Mapping - NIST Special Publication 800-53 Revision 5 SI-10 Information Input Validation
[4] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.6
[5] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.6
[6] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.6
[7] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.6
[8] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[9] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection
[10] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[11] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.3.2 - Web Software Attack Mitigation
[12] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II
[13] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II
desc.semantic.dotnet.value_shadowing
Abstract
The program accesses a server variable in an ambiguous way, which can leave it open to attack.
Explanation
The HttpRequest class provides programmatic access to variables from the QueryString, Form, Cookies or ServerVariables collections in the form of an array access (e.g. Request["myParam"]). When more than one variable exists with the same name, the .NET framework returns the value of the variable that appears first when the collections are searched in the following order: QueryString, Form, Cookies then ServerVariables. Since QueryString comes first in the search order, it is possible for QueryString parameters to supersede values from forms, cookies, and server variables. Similarly, form values can supersede variables in the Cookies and ServerVariables collections and variables from the Cookies collection can supersede those from ServerVariables.
Example 1: The following code checks the HTTP Referer header server variable to see if the request came from www.example.com before serving content.

...
if (Request["HTTP_REFERER"].StartsWith("http://www.example.com"))
ServeContent();
else
Response.Redirect("http://www.example.com/");
...


Assume the code in Example 1 is executed when visiting http://www.example.com/ProtectedImages.aspx. If an attacker makes a direct request to the URL, the appropriate referer header will not be set and the request will fail. However, if the attacker submits an artificial HTTP_REFERER parameter with the necessary value, such as http://www.example.com/ProtectedImages.aspx?HTTP_REFERER=http%3a%2f%2fwww.example.com, then the lookup will return the value from QueryString instead of ServerVariables and the check will succeed.
References
[1] Microsoft IIS Server Variables
[2] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-001310
[3] Standards Mapping - NIST Special Publication 800-53 Revision 4 SI-10 Information Input Validation (P1)
[4] Standards Mapping - NIST Special Publication 800-53 Revision 5 SI-10 Information Input Validation
[5] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.6
[6] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.6
[7] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.6
[8] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.6
[9] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[10] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 4.2 - Critical Asset Protection
[11] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation
[12] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 4.2 - Critical Asset Protection, Control Objective B.3.1 - Terminal Software Attack Mitigation, Control Objective B.3.1.1 - Terminal Software Attack Mitigation, Control Objective C.3.2 - Web Software Attack Mitigation
[13] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-002530 CAT II
[14] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-002530 CAT II
desc.semantic.dotnet.value_shadowing_server_variable