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C

C static code analysis

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

  • All rules 315
  • Vulnerability13
  • Bug76
  • Security Hotspot19
  • Code Smell207

  • Quick Fix 19
Filtered: 59 rules found
cwe
    Impact
      Clean code attribute
        1. Function-like macros should not be invoked without all of their arguments

           Bug
        2. Function exit paths should have appropriate return values

           Bug
        3. The number of arguments passed to a function should match the number of parameters

           Bug
        4. Non-empty statements should change control flow or have at least one side-effect

           Bug
        5. Bitwise operators should not be applied to signed operands

           Bug
        6. Limited dependence should be placed on operator precedence

           Code Smell
        7. Variables should be initialized before use

           Bug
        8. Hard-coded secrets are security-sensitive

           Security Hotspot
        9. "sprintf" should not be used

           Security Hotspot
        10. Changing working directories without verifying the success is security-sensitive

           Security Hotspot
        11. Setting capabilities is security-sensitive

           Security Hotspot
        12. Accessing files should not introduce TOCTOU vulnerabilities

           Vulnerability
        13. Account validity should be verified when authenticating users with PAM

           Vulnerability
        14. Using "tmpnam", "tmpnam_s" or "tmpnam_r" is security-sensitive

           Security Hotspot
        15. Using "strncpy" or "wcsncpy" is security-sensitive

           Security Hotspot
        16. Using "strncat" or "wcsncat" is security-sensitive

           Security Hotspot
        17. Using "strcat" or "wcscat" is security-sensitive

           Security Hotspot
        18. Using "strlen" or "wcslen" is security-sensitive

           Security Hotspot
        19. Changing directories improperly when using "chroot" is security-sensitive

           Security Hotspot
        20. Using "strcpy" or "wcscpy" is security-sensitive

           Security Hotspot
        21. "memset" should not be used to delete sensitive data

           Vulnerability
        22. POSIX functions should not be called with arguments that trigger buffer overflows

           Vulnerability
        23. Cipher algorithms should be robust

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

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

           Vulnerability
        26. "pthread_mutex_t" should not be locked when already locked, or unlocked when already unlocked

           Bug
        27. Using publicly writable directories is security-sensitive

           Security Hotspot
        28. Using clear-text protocols is security-sensitive

           Security Hotspot
        29. Blocking functions should not be called inside critical sections

           Code Smell
        30. Expanding archive files without controlling resource consumption is security-sensitive

           Security Hotspot
        31. Server certificates should be verified during SSL/TLS connections

           Vulnerability
        32. Using weak hashing algorithms is security-sensitive

           Security Hotspot
        33. Cryptographic keys should be robust

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

           Vulnerability
        35. Dynamically allocated memory should be released

           Bug
        36. Freed memory should not be used

           Bug
        37. Memory locations should not be released more than once

           Bug
        38. Memory access should be explicitly bounded to prevent buffer overflows

           Bug
        39. Zero should not be a possible denominator

           Bug
        40. "sizeof" should not be called on pointers

           Bug
        41. XML parsers should not be vulnerable to XXE attacks

           Vulnerability
        42. Multiline blocks should be enclosed in curly braces

           Code Smell
        43. "nonnull" parameters and return values of "returns_nonnull" functions should not be null

           Bug
        44. Setting loose POSIX file permissions is security-sensitive

           Security Hotspot
        45. Conditionally executed code should be reachable

           Bug
        46. Null pointers should not be dereferenced

           Bug
        47. Using pseudorandom number generators (PRNGs) is security-sensitive

           Security Hotspot
        48. Resources should be closed

           Bug
        49. Hard-coded passwords are security-sensitive

           Security Hotspot
        50. Code annotated as deprecated should not be used

           Code Smell
        51. Unused assignments should be removed

           Code Smell
        52. All code should be reachable

           Bug
        53. "switch" statements should have "default" clauses

           Code Smell
        54. Switch cases should end with an unconditional "break" statement

           Code Smell
        55. Track uses of "TODO" tags

           Code Smell
        56. Track uses of "FIXME" tags

           Code Smell
        57. Assignments should not be made from within conditions

           Code Smell
        58. Insecure functions should not be used

           Vulnerability
        59. "scanf()" and "fscanf()" format strings should specify a field width for the "%s" string placeholder

           Vulnerability

        Using publicly writable directories is security-sensitive

        intentionality - complete
        security
        Security Hotspot
        • cwe
        • symbolic-execution

        Operating systems have global directories where any user has write access. Those folders are mostly used as temporary storage areas like /tmp in Linux based systems. An application manipulating files from these folders is exposed to race conditions on filenames: a malicious user can try to create a file with a predictable name before the application does. A successful attack can result in other files being accessed, modified, corrupted or deleted. This risk is even higher if the application runs with elevated permissions.

        In the past, it has led to the following vulnerabilities:

        • CVE-2012-2451
        • CVE-2015-1838

        This rule raises an issue whenever it detects a hard-coded path to a publicly writable directory like /tmp (see examples bellow). It also detects access to environment variables that point to publicly writable directories, e.g., TMP and TMPDIR.

        • /tmp
        • /var/tmp
        • /usr/tmp
        • /dev/shm
        • /dev/mqueue
        • /run/lock
        • /var/run/lock
        • /Library/Caches
        • /Users/Shared
        • /private/tmp
        • /private/var/tmp
        • \Windows\Temp
        • \Temp
        • \TMP

        Ask Yourself Whether

        • Files are read from or written into a publicly writable folder
        • The application creates files with predictable names into a publicly writable folder

        There is a risk if you answered yes to any of those questions.

        Recommended Secure Coding Practices

        • Use a dedicated sub-folder with tightly controlled permissions
        • Use secure-by-design APIs to create temporary files. Such API will make sure:
          • The generated filename is unpredictable
          • The file is readable and writable only by the creating user ID
          • The file descriptor is not inherited by child processes
          • The file will be destroyed as soon as it is closed

        Sensitive Code Example

        #include <cstdio>
        // ...
        
        void f() {
          FILE * fp = fopen("/tmp/temporary_file", "r"); // Sensitive
        }
        
        #include <cstdio>
        #include <cstdlib>
        #include <sstream>
        // ...
        
        void f() {
          std::stringstream ss;
          ss << getenv("TMPDIR") << "/temporary_file"; // Sensitive
          FILE * fp = fopen(ss.str().c_str(), "w");
        }
        

        Compliant Solution

        #include <cstdio>
        #include <cstdlib>
        // ...
        
        void f() {
          FILE * fp = tmpfile(); // Compliant
        }
        

        See

        • OWASP - Top 10 2021 Category A1 - Broken Access Control
        • OWASP - Top 10 2017 Category A5 - Broken Access Control
        • OWASP - Top 10 2017 Category A3 - Sensitive Data Exposure
        • CWE - CWE-377 - Insecure Temporary File
        • CWE - CWE-379 - Creation of Temporary File in Directory with Incorrect Permissions
        • OWASP, Insecure Temporary File
        • STIG Viewer - Application Security and Development: V-222567 - The application must not be vulnerable to race conditions.
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