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From what I understand, a typical buffer overflow attack occurs when an attack overflows a buffer of memory on the stack, thus allowing the attacker to inject malicious code and rewrite the return address on the stack to point to that code.

This is a common concern when using functions (such as sscanf) that blindly copy data from one area to another, checking one for a termination byte:

char str[8];                               /* holds up to 8 bytes of data */
char *buf = "lots and lots of foobars";    /* way more than 8 bytes of data */
sscanf(buf, "%s", str);                    /* buffer overflow occurs here! */

I noticed some sysfs_ops store functions in the Linux kernel are implemented with the Linux kernel's version of the sscanf function:

static char str[8];    /* global string */
static ssize_t my_store(struct device *dev,
                        struct device_attribute *attr,
                        const char *buf, size_t size)
        sscanf(buf, "%s", str);    /* buf holds more than 8 bytes! */
        return size;

Suppose this store callback function is set to a writable sysfs attribute. Would a malicious user be able to intentionally overflow the buffer via a write call?

Normally, I would expect guards against buffer overflow attacks -- such as limiting the number of bytes read -- but I see none in a good number of functions (for example in drivers/scsi/scsi_sysfs.c).

Does the implementation of the Linux kernel version of sscanf protect against buffer overflow attacks; or is there another reason -- perhaps buffer overflow attacks are impossible given how the Linux kernel works under the hood?

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Software security means understanding what you are protecting and who you are protecting it from. What is your worry? That a loadable kernel module may cause a buffer overflow elsewhere in the kernel? A rogue device? sscanf() is not insecure in itself, it is only insecure if the attacker can pass it the wrong arguments. –  Pascal Cuoq May 1 '13 at 19:13
@PascalCuoq Forgive me, I'm still new to sysfs. If an attribute is writable, couldn't a malicious user intentionally overflow the buffer with a write call to the attribute file? –  Vilhelm Gray May 1 '13 at 19:19
I don't know sysfs either, I just think your question is a better question with this comment you just wrote. –  Pascal Cuoq May 1 '13 at 19:21
+1 : Much nicer than portability questions. –  artless noise May 2 '13 at 0:52

1 Answer 1

up vote 1 down vote accepted

The Linux sscanf() is vulnerable to buffer overflows; inspection of the source shows this. You can use width specifiers to limit the amount a %s is allowed to write. At some point your str must have had copy_from_user() run on it as well. It is possible the the user space to pass some garbage pointer to the kernel.

In the version of Linux you cited, the scsi_sysfs.c does have a buffer overflow. The latest version does not. The committed fix should fix the issue you see.

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How would the user space pass an invalid pointer to the kernel? –  Vilhelm Gray May 2 '13 at 14:19
Nevermind, I realized that the character buffer pointer is passed through a system call such as read or write -- thus the user could theoretically pass an invalid pointer, such as one pointing to a kernel space address. –  Vilhelm Gray May 2 '13 at 15:11
Why is it then that the function pointers in the sysfs_ops structure don't apply __user macro to the buffer pointer? For example, why is it not: ssize_t (*show)(struct kobject *, struct attribute *,char __user *); –  Vilhelm Gray May 2 '13 at 15:14
__user is defined in compiler.h. You can see it does nothing unless __CHECKER__ is defined. The make C=1 will use the __user annotations. See Sparse wiki. So functionally, it does nothing for compiled code. It just means they will not be checked by the checker, if you are correct and they do come from user space. Sorry, I didn't check ;-) –  artless noise May 2 '13 at 16:37
Sorry, I was a little confusing. I don't know that the sysfs is using user space buffers or not. I just meant when using sscanf() in general. For instance from an ioctl() or something (in the spirit of Pascal's comment); sysfs is a pseudo file system and data may already be transferred from user space by the time it gets to the callbacks. –  artless noise May 2 '13 at 16:49

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