Control Objective
Ensure that the code satisfies the following high level requirements:
- Malicious activity is handled securely and properly to not affect the rest of the application.
- Does not have time bombs or other time-based attacks.
- Does not “phone home” to malicious or unauthorized destinations.
- Does not have back doors, Easter eggs, salami attacks, rootkits, or unauthorized code that can be controlled by an attacker.
Finding malicious code is proof of the negative, which is impossible to completely validate. Best efforts should be undertaken to ensure that the code has no inherent malicious code or unwanted functionality.
V10.1 Code Integrity Controls
The best defense against malicious code is “trust, but verify”. Introducing unauthorized or malicious code into code is often a criminal offence in many jurisdictions. Policies and procedures should make sanctions regarding malicious code clear.
Lead developers should regularly review code check-ins, particularly those that might access time, I/O, or network functions.
| # | Description | L1 | L2 | L3 | CWE |
| 10.1.1 | Verify that a code analysis tool is in use that can detect potentially malicious code, such as time functions, unsafe file operations and network connections. | ✓ | 749 |
V10.2 Malicious Code Search
Malicious code is extremely rare and is difficult to detect. Manual line by line code review can assist looking for logic bombs, but even the most experienced code reviewer will struggle to find malicious code even if they know it exists.
Complying with this section is not possible without complete access to source code, including third-party libraries.
| # | Description | L1 | L2 | L3 | CWE |
| 10.2.1 | Verify that the application source code and third party libraries do not contain unauthorized phone home or data collection capabilities. Where such functionality exists, obtain the user’s permission for it to operate before collecting any data. | ✓ | ✓ | 359 | |
| 10.2.2 | Verify that the application does not ask for unnecessary or excessive permissions to privacy related features or sensors, such as contacts, cameras, microphones, or location. | ✓ | ✓ | 272 | |
| 10.2.3 | Verify that the application source code and third party libraries do not contain back doors, such as hard-coded or additional undocumented accounts or keys, code obfuscation, undocumented binary blobs, rootkits, or anti-debugging, insecure debugging features, or otherwise out of date, insecure, or hidden functionality that could be used maliciously if discovered. | ✓ | 507 | ||
| 10.2.4 | Verify that the application source code and third party libraries do not contain time bombs by searching for date and time related functions. | ✓ | 511 | ||
| 10.2.5 | Verify that the application source code and third party libraries do not contain malicious code, such as salami attacks, logic bypasses, or logic bombs. | ✓ | 511 | ||
| 10.2.6 | Verify that the application source code and third party libraries do not contain Easter eggs or any other potentially unwanted functionality. | ✓ | 507 |
V10.3 Deployed Application Integrity Controls
Once an application is deployed, malicious code can still be inserted. Applications need to protect themselves against common attacks, such as executing unsigned code from untrusted sources and subdomain takeovers.
Complying with this section is likely to be operational and continuous.
| # | Description | L1 | L2 | L3 | CWE |
| 10.3.1 | Verify that if the application has a client or server auto-update feature, updates should be obtained over secure channels and digitally signed. The update code must validate the digital signature of the update before installing or executing the update. | ✓ | ✓ | ✓ | 16 |
| 10.3.2 | Verify that the application employs integrity protections, such as code signing or subresource integrity. The application must not load or execute code from untrusted sources, such as loading includes, modules, plugins, code, or libraries from untrusted sources or the Internet. | ✓ | ✓ | ✓ | 353 |
| 10.3.3 | Verify that the application has protection from subdomain takeovers if the application relies upon DNS entries or DNS subdomains, such as expired domain names, out of date DNS pointers or CNAMEs, expired projects at public source code repos, or transient cloud APIs, serverless functions, or storage buckets (autogen-bucket-id.cloud.example.com) or similar. Protections can include ensuring that DNS names used by applications are regularly checked for expiry or change. | ✓ | ✓ | ✓ | 350 |
References
What is the ASVS?
The OWASP Application Security Verification Standard (ASVS) Project provides a basis for testing web application technical security controls and also provides developers with a list of requirements for secure development.
The primary aim of the OWASP Application Security Verification Standard (ASVS) Project is to normalize the range in the coverage and level of rigor available in the market when it comes to performing Web application security verification using a commercially-workable open standard. The standard provides a basis for testing application technical security controls, as well as any technical security controls in the environment, that are relied on to protect against vulnerabilities such as Cross-Site Scripting (XSS) and SQL injection. This standard can be used to establish a level of confidence in the security of Web applications. The requirements were developed with the following objectives in mind:
- Use as a metric – Provide application developers and application owners with a yardstick with which to assess the degree of trust that can be placed in their Web applications,
- Use as guidance – Provide guidance to security control developers as to what to build into security controls in order to satisfy application security requirements, and
- Use during procurement – Provide a basis for specifying application security verification requirements in contracts.
Using the OWASP ASVS
OWASP ASVS has two main goals:
- to help organizations develop and maintain secure applications.
- to allow security service vendors, security tools vendors, and consumers to align their requirements and offerings.
Application Security Verification Levels
The Application Security Verification Standard defines three security verification levels, with each level increasing in depth.
- ASVS Level 1 is for low assurance levels, and is completely penetration testable
- ASVS Level 2 is for applications that contain sensitive data, which requires protection and is the recommended level for most apps
- ASVS Level 3 is for the most critical applications – applications that perform high value transactions, contain sensitive medical data, or any application that requires the highest level of trust.
Each ASVS level contains a list of security requirements. Each of these requirements can also be mapped to security-specific features and capabilities that must be built into software by developers.
Level 1 is the only level that is completely penetration testable using humans. All others require access to documentation, source code, configuration, and the people involved in the development process. However, even if L1 allows “black box” (no documentation and no source) testing to occur, it is not an effective assurance activity and should be actively discouraged. Malicious attackers have a great deal of time, most penetration tests are over within a couple of weeks. Defenders need to build in security controls, protect, find and resolve all weaknesses, and detect and respond to malicious actors in a reasonable time. Malicious actors have essentially infinite time and only require a single porous defense, a single weakness, or missing detection to succeed. Black box testing, often performed at the end of development, quickly, or not at all, is completely unable to cope with that asymmetry.
Over the last 30+ years, black box testing has proven over and over again to miss critical security issues that led directly to ever more massive breaches. We strongly encourage the use of a wide range of security assurance and verification, including replacing penetration tests with source code led (hybrid) penetration tests at Level 1, with full access to developers and documentation throughout the development process. Financial regulators do not tolerate external financial audits with no access to the books, sample transactions, or the people performing the controls. Industry and governments must demand the same standard of transparency in the software engineering field.
We strongly encourage the use of security tools within the development process itself. DAST and SAST tools can be used continuously by the build pipeline to find easy to find security issues that should never be present.
Automated tools and online scans are unable to complete more than half of the ASVS without human assistance. If comprehensive test automation for each build is required, then a combination of custom unit and integration tests, along with build initiated online scans are used. Business logic flaws and access control testing is only possible using human assistance. These should be turned into unit and integration tests.
How to use this standard
One of the best ways to use the Application Security Verification Standard is to use it as a blueprint to create a Secure Coding Checklist specific to your application, platform or organization. Tailoring the ASVS to your use cases will increase the focus on the security requirements that are most important to your projects and environments.
Level 1 – First steps, automated, or whole of portfolio view
An application achieves ASVS Level 1 if it adequately defends against application security vulnerabilities that are easy to discover, and included in the OWASP Top 10 and other similar checklists.
Level 1 is the bare minimum that all applications should strive for. It is also useful as a first step in a multi-phase effort or when applications do not store or handle sensitive data and therefore do not need the more rigorous controls of Level 2 or 3. Level 1 controls can be checked either automatically by tools or simply manually without access to source code. We consider Level 1 the minimum required for all applications.
Threats to the application will most likely be from attackers who are using simple and low effort techniques to identify easy-to-find and easy-to-exploit vulnerabilities. This is in contrast to a determined attacker who will spend focused energy to specifically target the application. If data processed by your application has high value, you would rarely want to stop at a Level 1 review.
Level 2 – Most applications
An application achieves ASVS Level 2 (or Standard) if it adequately defends against most of the risks associated with software today.
Level 2 ensures that security controls are in place, effective, and used within the application. Level 2 is typically appropriate for applications that handle significant business-to-business transactions, including those that process healthcare information, implement business-critical or sensitive functions, or process other sensitive assets, or industries where integrity is a critical facet to protect their business, such as the game industry to thwart cheaters and game hacks.
Threats to Level 2 applications will typically be skilled and motivated attackers focusing on specific targets using tools and techniques that are highly practiced and effective at discovering and exploiting weaknesses within applications.
Level 3 – High value, high assurance, or high safety
ASVS Level 3 is the highest level of verification within the ASVS. This level is typically reserved for applications that require significant levels of security verification, such as those that may be found within areas of military, health and safety, critical infrastructure, etc.
Organizations may require ASVS Level 3 for applications that perform critical functions, where failure could significantly impact the organization’s operations, and even its survivability. Example guidance on the application of ASVS Level 3 is provided below. An application achieves ASVS Level 3 (or Advanced) if it adequately defends against advanced application security vulnerabilities and also demonstrates principles of good security design.
An application at ASVS Level 3 requires more in depth analysis of architecture, coding, and testing than all the other levels. A secure application is modularized in a meaningful way (to facilitate resiliency, scalability, and most of all, layers of security), and each module (separated by network connection and/or physical instance) takes care of its own security responsibilities (defense in depth), that need to be properly documented. Responsibilities include controls for ensuring confidentiality (e.g. encryption), integrity (e.g. transactions, input validation), availability (e.g. handling load gracefully), authentication (including between systems), non-repudiation, authorization, and auditing (logging).
Source: https://owasp.org/www-project-application-security-verification-standard/
Note: The OWASP ASVS, related copyright and trademarks belong to its owner OWASP. This guide is for educational purposes only and will be expanded beyond the original version provided by OWASP.