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Java

Java static code analysis

Unique rules to find Bugs, Vulnerabilities, Security Hotspots, and Code Smells in your JAVA code

  • All rules 733
  • Vulnerability60
  • Bug175
  • Security Hotspot40
  • Code Smell458

  • Quick Fix 65
 
Tags
    Impact
      Clean code attribute
        1. Sensitive information should not be logged in production builds

           Vulnerability
        2. WebViews should not be vulnerable to cross-app scripting attacks

           Vulnerability
        3. Privileged prompts should not be vulnerable to injection attacks

           Vulnerability
        4. Server-side requests should not be vulnerable to traversing attacks

           Vulnerability
        5. Accessing files should not lead to filesystem oracle attacks

           Vulnerability
        6. Environment variables should not be defined from untrusted input

           Vulnerability
        7. Credentials should not be hard-coded

           Vulnerability
        8. Counter Mode initialization vectors should not be reused

           Vulnerability
        9. XML operations should not be vulnerable to injection attacks

           Vulnerability
        10. JSON operations should not be vulnerable to injection attacks

           Vulnerability
        11. Thread suspensions should not be vulnerable to Denial of Service attacks

           Vulnerability
        12. Components should not be vulnerable to intent redirection

           Vulnerability
        13. XML signatures should be validated securely

           Vulnerability
        14. XML parsers should not be vulnerable to Denial of Service attacks

           Vulnerability
        15. XML parsers should not load external schemas

           Vulnerability
        16. XML parsers should not allow inclusion of arbitrary files

           Vulnerability
        17. Mobile database encryption keys should not be disclosed

           Vulnerability
        18. Applications should not create session cookies from untrusted input

           Vulnerability
        19. Reflection should not be vulnerable to injection attacks

           Vulnerability
        20. Extracting archives should not lead to zip slip vulnerabilities

           Vulnerability
        21. OS commands should not be vulnerable to argument injection attacks

           Vulnerability
        22. A new session should be created during user authentication

           Vulnerability
        23. Authorizations should be based on strong decisions

           Vulnerability
        24. OpenSAML2 should be configured to prevent authentication bypass

           Vulnerability
        25. JWT should be signed and verified with strong cipher algorithms

           Vulnerability
        26. Cipher algorithms should be robust

           Vulnerability
        27. Encryption algorithms should be used with secure mode and padding scheme

           Vulnerability
        28. Server hostnames should be verified during SSL/TLS connections

           Vulnerability
        29. Server-side templates should not be vulnerable to injection attacks

           Vulnerability
        30. Insecure temporary file creation methods should not be used

           Vulnerability
        31. Passwords should not be stored in plaintext or with a fast hashing algorithm

           Vulnerability
        32. Dynamic code execution should not be vulnerable to injection attacks

           Vulnerability
        33. "ActiveMQConnectionFactory" should not be vulnerable to malicious code deserialization

           Vulnerability
        34. NoSQL operations should not be vulnerable to injection attacks

           Vulnerability
        35. HTTP request redirections should not be open to forging attacks

           Vulnerability
        36. Logging should not be vulnerable to injection attacks

           Vulnerability
        37. Server-side requests should not be vulnerable to forging attacks

           Vulnerability
        38. Deserialization should not be vulnerable to injection attacks

           Vulnerability
        39. Endpoints should not be vulnerable to reflected cross-site scripting (XSS) attacks

           Vulnerability
        40. Server certificates should be verified during SSL/TLS connections

           Vulnerability
        41. Persistent entities should not be used as arguments of "@RequestMapping" methods

           Vulnerability
        42. "HttpSecurity" URL patterns should be correctly ordered

           Vulnerability
        43. LDAP connections should be authenticated

           Vulnerability
        44. Cryptographic keys should be robust

           Vulnerability
        45. Weak SSL/TLS protocols should not be used

           Vulnerability
        46. Secure random number generators should not output predictable values

           Vulnerability
        47. Database queries should not be vulnerable to injection attacks

           Vulnerability
        48. Cipher Block Chaining IVs should be unpredictable

           Vulnerability
        49. XML parsers should not be vulnerable to XXE attacks

           Vulnerability
        50. Classes should not be loaded dynamically

           Vulnerability
        51. Basic authentication should not be used

           Vulnerability
        52. Regular expressions should not be vulnerable to Denial of Service attacks

           Vulnerability
        53. "HttpServletRequest.getRequestedSessionId()" should not be used

           Vulnerability
        54. A secure password should be used when connecting to a database

           Vulnerability
        55. XPath expressions should not be vulnerable to injection attacks

           Vulnerability
        56. I/O function calls should not be vulnerable to path injection attacks

           Vulnerability
        57. LDAP queries should not be vulnerable to injection attacks

           Vulnerability
        58. OS commands should not be vulnerable to command injection attacks

           Vulnerability
        59. Password hashing functions should use an unpredictable salt

           Vulnerability
        60. Exceptions should not be thrown from servlet methods

           Vulnerability

        "HttpSecurity" URL patterns should be correctly ordered

        consistency - conventional
        security
        Vulnerability
        • spring

        Spring Framework, and, more precisely, the Spring Security component, allows setting up access control checks at the URI level. This is done by adding request matchers to the security configuration, each authorizing access to some resources depending on the incoming request entitlement.

        Similarly to firewall filtering rules, the order in which those matchers are defined is security relevant.

        Why is this an issue?

        How can I fix it?

        More Info

        Configured URL matchers are considered in the order they are declared. Especially, for a given resource, if a looser filter is defined before a stricter one, only the less secure configuration will apply. No request will ever reach the stricter rule.

        This rule raises an issue when:

        • A URL pattern ending with ** precedes another one having the same prefix. E.g. /admin/** is defined before /admin/example/**
        • A pattern without wildcard characters is preceded by another one that matches it. E.g.: /page-index/db is defined after /page*/**

        What is the potential impact?

        Access control rules that have been defined but cannot be applied generally indicate an error in the filtering process. In most cases, this will have consequences on the application’s authorization and authentication mechanisms.

        Authentication bypass

        When the ignored access control rule is supposed to enforce the authentication on a resource, the consequence is a bypass of the authentication for that resource. Depending on the scope of the ignored rule, a single feature or whole sections of the application can be left unprotected.

        Attackers could take advantage of such an issue to access the affected features without prior authentication, which may impact the confidentiality or integrity of sensitive, business, or personal data.

        Privilege escalation

        When the ignored access control rule is supposed to verify the role of an authenticated user, the consequence is a privilege escalation or authorization bypass. An authenticated user with low privileges on the application will be able to access more critical features or sections of the application.

        This could have financial consequences if the accessed features are normally accessed by paying users. It could also impact the confidentiality or integrity of sensitive, business, or personal data, depending on the features.

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