Hard coding sensitive information, such as passwords or encryption keys can expose the information to attackers. Anyone who has access to the executable or dynamic library files can examine them for strings or other critical data, revealing the sensitive information. Leaking data protected by International Traffic in Arms Regulations (ITAR) or the Health Insurance Portability and Accountability Act (HIPAA) can also have legal consequences. Consequently, programs must not hard code sensitive information.
Hard coding sensitive information also increases the need to manage and accommodate changes to the code. For example, changing a hard-coded password in a deployed program may require distribution of a patch [Chess 2007].
Noncompliant Code Example (Hard-Coded Database Password)
This noncompliant code example must authenticate to a remote service with a code, using the authenticate() function declared below. It passes the authentication code to this function as a string literal.
/* Returns nonzero if authenticated */
int authenticate(const char* code);
int main() {
if (!authenticate("correct code")) {
printf("Authentication error\n");
return -1;
}
printf("Authentication successful\n");
// ...Work with system...
return 0;
}
The authentication code exists in the program's binary executable and can be easily discovered.
Implementation Details (Unix)
Many Unix platforms provide a strings utility that prints out all of the ASCII strings in a binary file. Here is the output of running strings on this program, on an Ubuntu 16.04 platform:
% strings a.out ... AUATL []A\A]A^A_ correct code Authentication error Authentication successful ... %
Compliant Solution
This compliant solution requires the user to supply the authentication code, and securely erases it when done, using the memset_s() function, provided by C11.
/* Returns nonzero if authenticated */
int authenticate(const char* code);
int main() {
#define CODE_LEN 50
char code[CODE_LEN];
printf("Please enter your authentication code:\n");
fgets(code, sizeof(code), stdin);
int flag = authenticate(code);
memset_s(code, 0, sizeof(code));
if (!flag) {
printf("Access denied\n");
return -1;
}
printf("Access granted\n");
// ...Work with system...
return 0;
}
Alternatively, the program could read the authentication code from a file, letting file system security protect the file and the code from untrusted users.
Risk Assessment
Hard coding sensitive information exposes that information to attackers. The severity of this rule can vary depending on the kind of information that is disclosed. Frequently, the information disclosed is password or key information, which can lead to remote exploitation. Consequently, a high severity rating is given but may be adjusted downwards according to the nature of the sensitive data.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
|---|---|---|---|---|---|
MSC41-C | High | Probable | Medium | P12 | L1 |
Automated Detection
| Tool | Version | Checker | Description |
|---|---|---|---|
| CodeSonar | 8.1p0 | HARDCODED.AUTH HARDCODED.DNS HARDCODED.KEY HARDCODED.SALT | Hardcoded Authentication Hardcoded DNS Name Hardcoded Crypto Key Hardcoded Crypto Salt |
| Parasoft C/C++test | 2023.1 | CERT_C-MSC41-a | Do not hard code string literals |
| Polyspace Bug Finder | R2024a | CERT C: Rule MSC41-C | Checks for hard coded sensitive data (rule partially covered) |
Related Guidelines
| SEI CERT Oracle Coding Standard for Java | MSC03-J. Never hard code sensitive information |
Hard-coded Password [XYP] | |
CWE-259, Use of Hard-Coded Password |
Bibliography
Section 11.2, "Outbound Passwords: Keep Passwords out of Source Code" | |
"Unsafe Mobile Code: Database Access" |
MSC40-C. Do not violate constraints Rule 48. Miscellaneous (MSC) Rule 50. POSIX (POS)