Failure to specify function prototypes results in a function being implicitly defined. Without a function prototype, the compiler must estimate the correct number of parameters supplied to a function. Calling a function with a different number of arguments then that function expects results in unintended program behavior.
Most compilers will issue a warning when a function is implicitly defined. Although, these warnings should be resolved before proceeding [MSC00-C], they will not prevent the program from compiling.
Non-Compliant Code Example
function(1, 2); ... void function(int one, int two, int three){ printf("args %d %d $d, one, two, three); }
Solution: Use function prototypes at the top of .c file or in a .h file so that a compiler error will occur if an incorrect number of arguments are used.
Compliant Solution
void function(int one, int two, int three); //at top of file or in .h file ... function(1,2) //compiler error
Also using a compiler setting that checks for implicity declared function will prevent accidentally calling a function before it is declared.
gcc 3.4.6 for example will not allow the non compliant code above however below are reports on how the missing parameter problem has caused vulnerabilities.
Examples of vulnerabilities with CVE entry number
CVE-2002-1236, CAN-2003-0422 - CGI crashes when called without any arguments
CVE-2002-1531, CAN-2002-1077 - crash in HTTP request without a Content-Length field
CAN-2002-1358 - empty elements/strings in protocol test suite affect many SSH2 servers/clients
CAN-2003-0477 - FTP server crashes in PORT command without an argument
CVE-2002-0107 - resultant infoleak in web server via GET requests without HTTP/1.0 version string
CAN-2002-0596 - GET reqeust with empty parameter leads to error message infoleak (path disclosure)
Risk Assesment
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
DRAFT |
2 (medium) |
3 (likely) |
2 (medium) |
P12 |
L1 |