Kingdom: Input Validation and Representation
Input validation and representation problems ares caused by metacharacters, alternate encodings and numeric representations. Security problems result from trusting input. The issues include: "Buffer Overflows," "Cross-Site Scripting" attacks, "SQL Injection," and many others.
NoSQL Injection: DynamoDB
Abstract
Constructing a dynamic DynamoDB query with input from an untrusted source could allow an attacker to modify the statement's meaning.
Explanation
NoSQL injection vulnerabilities in DynamoDB can occur when:
1. Data enters a program from an untrusted source.
2. The data is used to dynamically construct a DynamoDB query.
Example 1: The following code dynamically constructs and executes a DynamoDB query that searches for a user given their email address or username, along with their password.
The query intends to execute the following code:
or
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
The addition of the
1. Data enters a program from an untrusted source.
2. The data is used to dynamically construct a DynamoDB query.
Example 1: The following code dynamically constructs and executes a DynamoDB query that searches for a user given their email address or username, along with their password.
...
// "type" parameter expected to be either: "Email" or "Username"
string type = request["type"];
string value = request["value"];
string password = request["password"];
var ddb = new AmazonDynamoDBClient();
var attrValues = new Dictionary<string,AttributeValue>();
attrValues[":value"] = new AttributeValue(value);
attrValues[":password"] = new AttributeValue(password);
var scanRequest = new ScanRequest();
scanRequest.FilterExpression = type + " = :value AND Password = :password";
scanRequest.TableName = "users";
scanRequest.ExpressionAttributeValues = attrValues;
var scanResponse = await ddb.ScanAsync(scanRequest);
...
The query intends to execute the following code:
Email = :value AND Password = :password
or
Username = :value AND Password = :password
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
type only contains any of the expected values. If an attacker provides a type value such as :value = :value OR :value, then the query becomes the following::value = :value OR :value = :value AND Password = :password
The addition of the
:value = :value condition causes the where clause to always evaluate to true, so the query returns all entries stored in the users collection, regardless of the email owner.References
[1] Testing for NoSQL injection OWASP
[2] Standards Mapping - Common Weakness Enumeration CWE ID 89, CWE ID 943
[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 M7 Client Side Injection
[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.dotnet.nosql_injection_dynamodb
Abstract
Constructing a dynamic DynamoDB query with input from an untrusted source could allow an attacker to modify the statement's meaning.
Explanation
NoSQL injection vulnerabilities in DynamoDB can occur when:
1. Data enters a program from an untrusted source.
2. The data is used to dynamically construct a DynamoDB query.
Example 1: The following code dynamically constructs and executes a DynamoDB query that searches for a user given their email address or username, along with their password.
The query intends to execute the following code:
or
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
The addition of the
1. Data enters a program from an untrusted source.
2. The data is used to dynamically construct a DynamoDB query.
Example 1: The following code dynamically constructs and executes a DynamoDB query that searches for a user given their email address or username, along with their password.
...
// "type" parameter expected to be either: "Email" or "Username"
String type = request.getParameter("type")
String value = request.getParameter("value")
String password = request.getParameter("password")
DynamoDbClient ddb = DynamoDbClient.create();
HashMap<String, AttributeValue> attrValues = new HashMap<String,AttributeValue>();
attrValues.put(":value", AttributeValue.builder().s(value).build());
attrValues.put(":password", AttributeValue.builder().s(password).build());
ScanRequest queryReq = ScanRequest.builder()
.filterExpression(type + " = :value AND Password = :password")
.tableName("users")
.expressionAttributeValues(attrValues)
.build();
ScanResponse response = ddb.scan(queryReq);
...
The query intends to execute the following code:
Email = :value AND Password = :password
or
Username = :value AND Password = :password
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
type only contains any of the expected values. If an attacker provides a type value such as :value = :value OR :value, then the query becomes the following::value = :value OR :value = :value AND Password = :password
The addition of the
:value = :value condition causes the where clause to always evaluate to true, so the query returns all entries stored in the users collection, regardless of the email owner.References
[1] Testing for NoSQL injection OWASP
[2] Standards Mapping - Common Weakness Enumeration CWE ID 89, CWE ID 943
[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 M7 Client Side Injection
[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.nosql_injection_dynamodb