Many file-related security vulnerabilities result from a program accessing an unintended file object because file names are only loosely bound to underlying file objects. File names provide no information regarding the nature of the file object itself. Furthermore, the binding of a file name to a file object is reasserted every time the file name is used in an operation. File descriptors and FILE
pointers are bound to underlying file objects by the operating system. (See FIO03-C. Do not make assumptions about fopen() and file creation.)
Accessing files via file descriptors or FILE
pointers rather than file names provides a greater degree of certainty as to which object is actually acted upon. It is recommended that files be accessed through file descriptors or FILE
pointers where possible.
The following C functions rely solely on file names for file identification:
remove()
rename()
fopen()
freopen()
Use these functions with caution. See FIO10-C. Take care when using the rename() function, and FIO08-C. Take care when calling remove() on an open file.
In this noncompliant code example, the file identified by file_name
is opened, processed, closed, and removed. However, it is possible that the file object identified by file_name
in the call to remove()
is not the same file object identified by file_name
in the call to fopen()
.
char *file_name; FILE *f_ptr; /* Initialize file_name */ f_ptr = fopen(file_name, "w"); if (f_ptr == NULL) { /* Handle error */ } /*... Process file ...*/ if (fclose(f_ptr) != 0) { /* Handle error */ } if (remove(file_name) != 0) { /* Handle error */ } |
Not much can be done programmatically to ensure the file removed is the same file that was opened, processed, and closed except to make sure that the file is opened in a secure directory with privileges that would prevent the file from being manipulated by an untrusted user. (See FIO15-C. Ensure that file operations are performed in a secure directory.)
In this noncompliant code example, the function chmod()
is called to set the permissions of a file. However, it is not clear whether the file object referred to by file_name
refers to the same object in the call to fopen()
and in the call to chmod()
.
char *file_name; FILE *f_ptr; /* Initialize file_name */ f_ptr = fopen(file_name, "w"); if (f_ptr == NULL) { /* Handle error */ } /* ... */ if (chmod(file_name, S_IRUSR) == -1) { /* Handle error */ } |
This compliant solution uses the POSIX fchmod()
and open()
functions [IEEE Std 1003.1:2013]. Using these functions guarantees that the file opened is the same file that is operated on.
char *file_name; int fd; /* Initialize file_name */ fd = open( file_name, O_WRONLY | O_CREAT | O_EXCL, S_IRWXU ); if (fd == -1) { /* Handle error */ } /* ... */ if (fchmod(fd, S_IRUSR) == -1) { /* Handle error */ } |
Many file-related race conditions can be eliminated by using
fchown()
rather than chown()
fstat()
rather than stat()
fchmod()
rather than chmod()
or simply by ensuring the security of the working directory per FIO15-C. Ensure that file operations are performed in a secure directory.
POSIX functions that have no file descriptor counterpart should be used with caution:
link()
and unlink()
mkdir()
and rmdir()
mount()
and unmount()
lstat()
mknod()
symlink()
utime()
Many file-related vulnerabilities, such as time-of-check, time-of-use (TOCTOU) race conditions, can be exploited to cause a program to access an unintended file. Using FILE
pointers or file descriptors to identify files instead of file names reduces the chance of accessing an unintended file. Remediation costs are medium because, although insecure functions can be easily identified, simple drop-in replacements are not always available.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
FIO01-C | Medium | Likely | Medium | P12 | L1 |
Tool | Version | Checker | Description |
---|---|---|---|
CodeSonar | IO.RACE IO.TAINT.FNAME BADFUNC.TEMP.* BADFUNC.TMPFILE_S BADFUNC.TMPNAM_S | File System Race Condition Tainted Filename A collection of warning classes that report uses of library functions associated with temporary file vulnerabilities (including name issues). Use of tmpfile_s Use of tmpnam_s | |
Compass/ROSE | Can detect some violations of this recommendation. In particular, it warns when | ||
Coverity | 6.5 | TOCTOU | Fully implemented |
Helix QAC | C5011 | ||
Klocwork | SV.TOCTOU.FILE_ACCESS | ||
LDRA tool suite | 592 S | Fully implemented | |
Parasoft C/C++test | CERT_C-FIO01-a | Don't use chmod(), chown(), chgrp() |
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
SEI CERT C++ Coding Standard | VOID FIO01-CPP. Be careful using functions that use file names for identification |
MITRE CWE | CWE-73, External control of file name or path CWE-367, Time-of-check, time-of-use race condition CWE-676, Use of potentially dangerous function |
[Apple Secure Coding Guide] | "Avoiding Race Conditions and Insecure File Operations" |
[Drepper 2006] | Section 2.2.1 "Identification when Opening" |
[IEEE Std 1003.1:2013] | XSH, System Interfaces, fchmod XSH, System Interfaces, open |
[Seacord 2013] | Chapter 8, "File I/O" |