Creating a file with insufficiently restrictive access permissions may allow an unprivileged user to access that file. Although access permissions are heavily dependent on the file system, many file-creation functions provide mechanisms to set (or at least influence) access permissions. When these functions are used to create files, appropriate access permissions should be specified to prevent unintended access.
When setting access permissions, it is important to make sure that an attacker cannot alter them. (See FIO15-C. Ensure that file operations are performed in a secure directory.)
Noncompliant Code Example (fopen())
The fopen() function does not allow the programmer to explicitly specify file access permissions. In this noncompliant code example, if the call to fopen() creates a new file, the access permissions are implementation-defined:
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char *file_name;
FILE *fp;
/* Initialize file_name */
fp = fopen(file_name, "w");
if (!fp){
/* Handle error */
}
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Implementation Details
On POSIX-compliant systems, the permissions may be restricted by the value of the POSIX umask() function [IEEE Std 1003.1:2013].
The operating system modifies the access permissions by computing the intersection of the inverse of the umask and the permissions requested by the process [Viega 2003]. For example, if the variable requested_permissions contained the permissions passed to the operating system to create a new file, the variable actual_permissions would be the actual permissions that the operating system would use to create the file:
| Code Block |
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requested_permissions = 0666;
actual_permissions = requested_permissions & ~umask();
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For OpenBSD and Linux operating systems, any file created will have mode S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP|S_IROTH|S_IWOTH (0666), as modified by the process's umask value. (See fopen(3) in the OpenBSD Manual Pages [OpenBSD].)
Compliant Solution (fopen_s(), C11 Annex K)
The C11 Annex K function fopen_s() can be used to create a file with restricted permissions [ISO/IEC 9899:2011]:
If the file is being created, and the first character of the mode string is not 'u', to the extent that the underlying system supports it, the file shall have a file permission that prevents other users on the system from accessing the file. If the file is being created and the first character of the mode string is 'u', then by the time the file has been closed, it shall have the system default file access permissions.
The u character can be thought of as standing for "umask," meaning that these are the same permissions that the file would have been created with had it been created by fopen(). In this compliant solution, the u mode character is omitted so that the file is opened with restricted privileges (regardless of the umask):
| Code Block | ||||
|---|---|---|---|---|
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char *file_name;
FILE *fp;
/* Initialize file_name */
errno_t res = fopen_s(&fp, file_name, "wx");
if (res != 0) {
/* Handle error */
}
|
On Windows, fopen_s() will create the file with security permissions based on the user executing the application. For more controlled permission schemes, consider using the CreateFile() function and specifying the SECURITY_ATTRIBUTES parameter.
Noncompliant Code Example (open(), POSIX)
Using the POSIX open() function
Files should be created with appropriate access permissions. Creating a file with insufficient file access permissions may allow unintended access to program-critical files.
Non-compliant Code Example 1
Using the POSIX function open() to create a file but failing to provide access permissions for that file may cause that the file to be created unintended with overly permissive access permissions. This omission has been known to lead to vulnerabilities; for instance—for example, CVE-2006-1174.
| Code Block | ||||
|---|---|---|---|---|
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char *file_name; int fd; /* Initialize file_name */ ... int fd = open(file_name, O_CREAT | O_WRONLY); /* accessAccess permissions arewere missing */ if (fd == -1){ /* Handle Errorerror */ } |
This example also violates EXP37-C.
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Call functions with the correct number and type of arguments.
Compliant
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Solution (open(), POSIX)
Access permissions for the newly created file should be specified in the call third argument to open(). Again, the permissions are modified by the value of umask().
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char *file_name; int file_access_permissions; /* Initialize file_name and file_access_permissions */ ... int fd = open( file_name, O_CREAT | O_WRONLY, file_access_permissions ); if (fd == -1){ /* Handle Errorerror */ } ... |
Non-compliant Code Example 2
The fopen() function does not provide a mechanism to specify file access permissions. In the example below, if the call to fopen() creates a new file, the access permissions for that file will be implementation defined.
| Code Block |
|---|
...
FILE * fptr = fopen(file_name, "w");
if (!fptr){
/* Handle Error */
}
...
|
Compliant Code Solution 2
The fopen_s() function defined in ISO/IEC TR 24731-2006 provides some control over file access permissions. Specifically, the report states: "If the file is being created, and the first character of the mode string is not 'u', to the extent that the underlying system supports it, the file shall have a file permission that prevents other users on the system from accessing the file."
| Code Block |
|---|
...
File *fptr;
errno_t res = fopen_s(&fptr,file_name, "w");
if (res != 0) {
/* Handle Error */
}
...
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References
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John Viega and Matt Messier also provide the following advice [Viega 2003]:
Do not rely on setting the umask to a "secure" value once at the beginning of the program and then calling all file or directory creation functions with overly permissive file modes. Explicitly set the mode of the file at the point of creation. There are two reasons to do this. First, it makes the code clear; your intent concerning permissions is obvious. Second, if an attacker managed to somehow reset the umask between your adjustment of the umask and any of your file creation calls, you could potentially create sensitive files with wide-open permissions.
Risk Assessment
Creating files with weak access permissions may allow unintended access to those files.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
|---|---|---|---|---|---|
FIO06-C | Medium | Probable | High | P4 | L3 |
Automated Detection
Tool | Version | Checker | Description | ||||||
|---|---|---|---|---|---|---|---|---|---|
| CodeSonar |
| (customization) | CodeSonar's custom checking infrastructure allows users to implement checks such as the following.
| ||||||
| Helix QAC |
| C5013 | |||||||
| LDRA tool suite |
| 44 S | Enhanced Enforcement |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
| SEI CERT C++ Coding Standard | VOID FIO06-CPP. Create files with appropriate access permissions |
| CERT Oracle Secure Coding Standard for Java | FIO01-J. Create files with appropriate access permissions |
| ISO/IEC TR 24772:2013 | Missing or Inconsistent Access Control [XZN] |
| MITRE CWE | CWE-276, Insecure default permissions CWE-279, Insecure execution-assigned permissions CWE-732, Incorrect permission assignment for critical resource |
Bibliography
| [CVE] | |
| [Dowd 2006] | Chapter 9, "UNIX 1: Privileges and Files" |
| [IEEE Std 1003.1:2013] | XSH, System Interfaces, openXSH, System Interfaces, umask |
| [ISO/IEC 9899:2011] | Subclause K.3.5.2.1, "The fopen_s Function" |
| [OpenBSD] | |
| [Viega 2003] | Section 2.7, "Restricting Access Permissions for New Files on UNIX" |
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