界: Security Features
软件安全不是安全软件。此处我们关注的主题包括身份验证、Access Control、机密性、加密和权限管理。
Weak Cryptographic Hash: User-Controlled Algorithm
Abstract
在加密散列中使用用户控制算法可能使攻击者能够指定弱加密散列算法,从而削弱应用程序的数据完整性与安全性。
Explanation
弱加密散列值:用户控制算法问题将在以下情况下出现:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,弱加密散列值:用户控制算法只是通向终端的一个途径,它本身并不是终端。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,这些数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
示例 1:以下代码使用了用户控制算法:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,弱加密散列值:用户控制算法只是通向终端的一个途径,它本身并不是终端。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,这些数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
示例 1:以下代码使用了用户控制算法:
...
string hashname = ConfigurationManager.AppSettings["hash"];
...
HashAlgorithm ha = HashAlgorithm.Create(hashname);
...
Example 1 中的代码将成功运行,但任何有权使用此功能的人将能够通过修改 hash 属性来操纵散列算法。一旦程序发布,撤消与用户控制的算法相关的问题就会非常困难,因为很难知道恶意用户是否确定了特定加密散列的算法参数。References
[1] Xiaoyun Wang MD5 and MD4 Collision Generators
[2] Xiaoyun Wang, Yiqun Lisa Yin, and Hongbo Yu Finding Collisions in the Full SHA-1
[3] Xiaoyun Wang and Hongbo Yu How to Break MD5 and Other Hash Functions
[4] SDL Development Practices Microsoft
[5] Standards Mapping - Common Weakness Enumeration CWE ID 328
[6] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-002450
[7] Standards Mapping - FIPS200 MP
[8] Standards Mapping - General Data Protection Regulation (GDPR) Insufficient Data Protection
[9] Standards Mapping - NIST Special Publication 800-53 Revision 4 AU-10 Non-Repudiation (P2), SC-13 Cryptographic Protection (P1)
[10] Standards Mapping - NIST Special Publication 800-53 Revision 5 AU-10 Non-Repudiation, SC-13 Cryptographic Protection
[11] Standards Mapping - OWASP Application Security Verification Standard 4.0 2.6.3 Look-up Secret Verifier Requirements (L2 L3), 2.8.3 Single or Multi Factor One Time Verifier Requirements (L2 L3), 2.9.3 Cryptographic Software and Devices Verifier Requirements (L2 L3), 6.2.1 Algorithms (L1 L2 L3), 6.2.2 Algorithms (L2 L3), 6.2.3 Algorithms (L2 L3), 6.2.4 Algorithms (L2 L3), 6.2.5 Algorithms (L2 L3), 6.2.6 Algorithms (L2 L3), 6.2.7 Algorithms (L3), 8.3.7 Sensitive Private Data (L2 L3), 9.1.2 Communications Security Requirements (L1 L2 L3), 9.1.3 Communications Security Requirements (L1 L2 L3)
[12] Standards Mapping - OWASP Mobile 2014 M6 Broken Cryptography
[13] Standards Mapping - OWASP Mobile 2024 M10 Insufficient Cryptography
[14] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CRYPTO-1
[15] Standards Mapping - OWASP Top 10 2004 A8 Insecure Storage
[16] Standards Mapping - OWASP Top 10 2007 A8 Insecure Cryptographic Storage
[17] Standards Mapping - OWASP Top 10 2010 A7 Insecure Cryptographic Storage
[18] Standards Mapping - OWASP Top 10 2013 A6 Sensitive Data Exposure
[19] Standards Mapping - OWASP Top 10 2017 A3 Sensitive Data Exposure
[20] Standards Mapping - OWASP Top 10 2021 A02 Cryptographic Failures
[21] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.8
[22] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.3, Requirement 6.5.8
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.3
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.3
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.3
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.3
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.3
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0.1 Requirement 3.3.2, Requirement 3.3.3, Requirement 3.5.1, Requirement 6.2.4
[30] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[33] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3150.1 CAT II
[34] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3150.1 CAT II
[35] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3150.1 CAT II
[36] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3150.1 CAT II
[37] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3150.1 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3150.1 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3150.1 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[46] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[47] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[48] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[49] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[50] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[51] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[52] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[53] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[54] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
desc.dataflow.dotnet.weak_cryptographic_hash_user_controlled_algorithm
Abstract
在加密散列中使用用户控制算法可能使攻击者能够指定弱加密散列算法,从而削弱应用程序的数据完整性与安全性。
Explanation
在以下情况下会发生 Weak Cryptographic Hash:用户控制算法问题将在以下情况下出现:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,Weak Cryptographic Hash:用户控制算法是到达终点的一个途径,其本身并不是终点。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,这些数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
例 1: 下列代码使用了用户控制算法:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,Weak Cryptographic Hash:用户控制算法是到达终点的一个途径,其本身并不是终点。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,这些数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
例 1: 下列代码使用了用户控制算法:
...
Properties prop = new Properties();
prop.load(new FileInputStream("config.properties"));
String algorithm = prop.getProperty("hash");
...
MessageDigest messageDigest = MessageDigest.getInstance(algorithm);
messageDigest.update(hashInput.getBytes("UTF-8"));
...
Example 1 中的代码将成功运行,但任何有权使用此功能的人将能够通过修改 hash 属性来操纵散列算法。一旦程序发布,撤消与用户控制的算法相关的问题就会非常困难,因为很难知道恶意用户是否确定了特定加密散列的算法参数。References
[1] Xiaoyun Wang MD5 and MD4 Collision Generators
[2] Xiaoyun Wang, Yiqun Lisa Yin, and Hongbo Yu Finding Collisions in the Full SHA-1
[3] Xiaoyun Wang and Hongbo Yu How to Break MD5 and Other Hash Functions
[4] SDL Development Practices Microsoft
[5] Standards Mapping - Common Weakness Enumeration CWE ID 328
[6] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-002450
[7] Standards Mapping - FIPS200 MP
[8] Standards Mapping - General Data Protection Regulation (GDPR) Insufficient Data Protection
[9] Standards Mapping - NIST Special Publication 800-53 Revision 4 AU-10 Non-Repudiation (P2), SC-13 Cryptographic Protection (P1)
[10] Standards Mapping - NIST Special Publication 800-53 Revision 5 AU-10 Non-Repudiation, SC-13 Cryptographic Protection
[11] Standards Mapping - OWASP Application Security Verification Standard 4.0 2.6.3 Look-up Secret Verifier Requirements (L2 L3), 2.8.3 Single or Multi Factor One Time Verifier Requirements (L2 L3), 2.9.3 Cryptographic Software and Devices Verifier Requirements (L2 L3), 6.2.1 Algorithms (L1 L2 L3), 6.2.2 Algorithms (L2 L3), 6.2.3 Algorithms (L2 L3), 6.2.4 Algorithms (L2 L3), 6.2.5 Algorithms (L2 L3), 6.2.6 Algorithms (L2 L3), 6.2.7 Algorithms (L3), 8.3.7 Sensitive Private Data (L2 L3), 9.1.2 Communications Security Requirements (L1 L2 L3), 9.1.3 Communications Security Requirements (L1 L2 L3)
[12] Standards Mapping - OWASP Mobile 2014 M6 Broken Cryptography
[13] Standards Mapping - OWASP Mobile 2024 M10 Insufficient Cryptography
[14] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CRYPTO-1
[15] Standards Mapping - OWASP Top 10 2004 A8 Insecure Storage
[16] Standards Mapping - OWASP Top 10 2007 A8 Insecure Cryptographic Storage
[17] Standards Mapping - OWASP Top 10 2010 A7 Insecure Cryptographic Storage
[18] Standards Mapping - OWASP Top 10 2013 A6 Sensitive Data Exposure
[19] Standards Mapping - OWASP Top 10 2017 A3 Sensitive Data Exposure
[20] Standards Mapping - OWASP Top 10 2021 A02 Cryptographic Failures
[21] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.8
[22] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.3, Requirement 6.5.8
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.3
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.3
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.3
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.3
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.3
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0.1 Requirement 3.3.2, Requirement 3.3.3, Requirement 3.5.1, Requirement 6.2.4
[30] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[33] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3150.1 CAT II
[34] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3150.1 CAT II
[35] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3150.1 CAT II
[36] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3150.1 CAT II
[37] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3150.1 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3150.1 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3150.1 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[46] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[47] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[48] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[49] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[50] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[51] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[52] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[53] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[54] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
desc.dataflow.java.weak_cryptographic_hash_user_controlled_algorithm
Abstract
在加密散列中使用用户控制算法可能使攻击者能够指定弱加密散列算法,从而削弱应用程序的数据完整性与安全性。
Explanation
在以下情况下会发生 Weak Cryptographic Hash:用户控制算法问题将在以下情况下出现:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,Weak Cryptographic Hash:用户控制算法是到达终点的一个途径,其本身并不是终点。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,该数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
例 1: 下列代码使用了用户控制算法:
1. 数据通过一个不可信赖的数据源进入程序
2. 用户控制的数据用于指定加密散列算法。
如同许多软件安全漏洞一样,Weak Cryptographic Hash:用户控制算法是到达终点的一个途径,其本身并不是终点。从本质上看,这些漏洞是显而易见的:攻击者可将恶意数据传递到应用程序,该数据随后用于指定加密散列算法。攻击者可以指定一个存在已知缺陷的散列算法(比如 MD5),以破坏应用程序数据的完整性和安全性。
例 1: 下列代码使用了用户控制算法:
require 'openssl'
require 'csv'
...
CSV.read(my_file).each do |row|
...
hash = row[4]
...
digest = OpenSSL::Digest.new(hash, data)
...
end
Example 1 中的代码将成功运行,但任何有权使用此功能的人将能够通过修改 CSV 文件中的 hash 来操纵散列算法。一旦程序发布,撤消与用户控制的算法相关的问题就会非常困难,因为很难知道恶意用户是否确定了特定加密散列的算法参数。References
[1] Xiaoyun Wang MD5 and MD4 Collision Generators
[2] Xiaoyun Wang, Yiqun Lisa Yin, and Hongbo Yu Finding Collisions in the Full SHA-1
[3] Xiaoyun Wang and Hongbo Yu How to Break MD5 and Other Hash Functions
[4] SDL Development Practices Microsoft
[5] Standards Mapping - Common Weakness Enumeration CWE ID 328
[6] Standards Mapping - DISA Control Correlation Identifier Version 2 CCI-002450
[7] Standards Mapping - FIPS200 MP
[8] Standards Mapping - General Data Protection Regulation (GDPR) Insufficient Data Protection
[9] Standards Mapping - NIST Special Publication 800-53 Revision 4 AU-10 Non-Repudiation (P2), SC-13 Cryptographic Protection (P1)
[10] Standards Mapping - NIST Special Publication 800-53 Revision 5 AU-10 Non-Repudiation, SC-13 Cryptographic Protection
[11] Standards Mapping - OWASP Application Security Verification Standard 4.0 2.6.3 Look-up Secret Verifier Requirements (L2 L3), 2.8.3 Single or Multi Factor One Time Verifier Requirements (L2 L3), 2.9.3 Cryptographic Software and Devices Verifier Requirements (L2 L3), 6.2.1 Algorithms (L1 L2 L3), 6.2.2 Algorithms (L2 L3), 6.2.3 Algorithms (L2 L3), 6.2.4 Algorithms (L2 L3), 6.2.5 Algorithms (L2 L3), 6.2.6 Algorithms (L2 L3), 6.2.7 Algorithms (L3), 8.3.7 Sensitive Private Data (L2 L3), 9.1.2 Communications Security Requirements (L1 L2 L3), 9.1.3 Communications Security Requirements (L1 L2 L3)
[12] Standards Mapping - OWASP Mobile 2014 M6 Broken Cryptography
[13] Standards Mapping - OWASP Mobile 2024 M10 Insufficient Cryptography
[14] Standards Mapping - OWASP Mobile Application Security Verification Standard 2.0 MASVS-CRYPTO-1
[15] Standards Mapping - OWASP Top 10 2004 A8 Insecure Storage
[16] Standards Mapping - OWASP Top 10 2007 A8 Insecure Cryptographic Storage
[17] Standards Mapping - OWASP Top 10 2010 A7 Insecure Cryptographic Storage
[18] Standards Mapping - OWASP Top 10 2013 A6 Sensitive Data Exposure
[19] Standards Mapping - OWASP Top 10 2017 A3 Sensitive Data Exposure
[20] Standards Mapping - OWASP Top 10 2021 A02 Cryptographic Failures
[21] Standards Mapping - Payment Card Industry Data Security Standard Version 1.1 Requirement 6.5.8
[22] Standards Mapping - Payment Card Industry Data Security Standard Version 1.2 Requirement 6.3.1.3, Requirement 6.5.8
[23] Standards Mapping - Payment Card Industry Data Security Standard Version 2.0 Requirement 6.5.3
[24] Standards Mapping - Payment Card Industry Data Security Standard Version 3.0 Requirement 6.5.3
[25] Standards Mapping - Payment Card Industry Data Security Standard Version 3.1 Requirement 6.5.3
[26] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2 Requirement 6.5.3
[27] Standards Mapping - Payment Card Industry Data Security Standard Version 3.2.1 Requirement 6.5.3
[28] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0 Requirement 6.2.4
[29] Standards Mapping - Payment Card Industry Data Security Standard Version 4.0.1 Requirement 3.3.2, Requirement 3.3.3, Requirement 3.5.1, Requirement 6.2.4
[30] Standards Mapping - Payment Card Industry Software Security Framework 1.0 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography
[31] Standards Mapping - Payment Card Industry Software Security Framework 1.1 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[32] Standards Mapping - Payment Card Industry Software Security Framework 1.2 Control Objective 7.1 - Use of Cryptography, Control Objective 7.4 - Use of Cryptography, Control Objective B.2.3 - Terminal Software Design
[33] Standards Mapping - Security Technical Implementation Guide Version 3.1 APP3150.1 CAT II
[34] Standards Mapping - Security Technical Implementation Guide Version 3.4 APP3150.1 CAT II
[35] Standards Mapping - Security Technical Implementation Guide Version 3.5 APP3150.1 CAT II
[36] Standards Mapping - Security Technical Implementation Guide Version 3.6 APP3150.1 CAT II
[37] Standards Mapping - Security Technical Implementation Guide Version 3.7 APP3150.1 CAT II
[38] Standards Mapping - Security Technical Implementation Guide Version 3.9 APP3150.1 CAT II
[39] Standards Mapping - Security Technical Implementation Guide Version 3.10 APP3150.1 CAT II
[40] Standards Mapping - Security Technical Implementation Guide Version 4.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[41] Standards Mapping - Security Technical Implementation Guide Version 4.3 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[42] Standards Mapping - Security Technical Implementation Guide Version 4.4 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[43] Standards Mapping - Security Technical Implementation Guide Version 4.5 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[44] Standards Mapping - Security Technical Implementation Guide Version 4.6 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[45] Standards Mapping - Security Technical Implementation Guide Version 4.7 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[46] Standards Mapping - Security Technical Implementation Guide Version 4.8 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[47] Standards Mapping - Security Technical Implementation Guide Version 4.9 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[48] Standards Mapping - Security Technical Implementation Guide Version 4.10 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[49] Standards Mapping - Security Technical Implementation Guide Version 4.11 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[50] Standards Mapping - Security Technical Implementation Guide Version 4.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[51] Standards Mapping - Security Technical Implementation Guide Version 5.1 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[52] Standards Mapping - Security Technical Implementation Guide Version 5.2 APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[53] Standards Mapping - Security Technical Implementation Guide Version 5.3 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
[54] Standards Mapping - Security Technical Implementation Guide Version 6.1 APSC-DV-000590 CAT II, APSC-DV-002010 CAT II, APSC-DV-002020 CAT II, APSC-DV-002030 CAT II
desc.dataflow.ruby.weak_cryptographic_hash_user_controlled_algorithm