Hi Roberto,
On Fri, 2021-07-30 at 07:16 +0000, Roberto Sassu wrote:
From: Mimi Zohar [mailto:zohar@linux.ibm.com] Sent: Thursday, July 29, 2021 11:21 PM
On Mon, 2021-07-26 at 18:36 +0200, Roberto Sassu wrote:
/*
- digest_list_read: read and parse the digest list from the path
- */
+static ssize_t digest_list_read(char *path, enum ops op) +{
void *data = NULL;
char *datap;
size_t size;
u8 actions = 0;
struct file *file;
char event_name[NAME_MAX + 9 + 1];
u8 digest[IMA_MAX_DIGEST_SIZE] = { 0 };
enum hash_algo algo;
int rc, pathlen = strlen(path);
/* Remove \n. */
datap = path;
strsep(&datap, "\n");
file = filp_open(path, O_RDONLY, 0);
if (IS_ERR(file)) {
pr_err("unable to open file: %s (%ld)", path, PTR_ERR(file));
return PTR_ERR(file);
}
rc = kernel_read_file(file, 0, &data, INT_MAX, NULL,
READING_DIGEST_LIST);
if (rc < 0) {
pr_err("unable to read file: %s (%d)", path, rc);
goto out;
}
size = rc;
snprintf(event_name, sizeof(event_name), "%s_file_%s",
op == DIGEST_LIST_ADD ? "add" : "del",
file_dentry(file)->d_name.name);
rc = ima_measure_critical_data("diglim", event_name, data, size, false,
digest, sizeof(digest));
if (rc < 0 && rc != -EEXIST)
goto out_vfree;
The digest lists could easily be measured while reading the digest list file above in kernel_read_file(). What makes it "critical-data"? In the SELinux case, the in memory SELinux policy is being measured and re-measured to make sure it hasn't been modified. Is the digest list file data being measured more than once?
Hi Mimi
yes, the digest lists can be measured with kernel_read_file(). I didn't send the change yet, but I added a DIGEST_LIST_CHECK hook mapped to READING_DIGEST_LIST, so that digest lists can be easily measured or appraised.
The point was that the digest of the digest list must be always calculated, as it is added to the hash table. Instead of duplicating the code, I preferred to use ima_measure_critical_data().
The advantage is also that, if the use case is to just measure digest lists, ima_measure_critical_data() could do both at the same time.
Digest lists can be seen as "critical data" in the sense that they can affect the security decision on whether to grant access to a file or not, assuming that an appropriate rule is added in the IMA policy.
Of course the integrity of files containing the digest lists is important, but that doesn't make them "critical data". If the integrity of these files is important, then the digest lists not only need to be measured, but they need to be signed and the resulting signature verified. Without signature verification, there is no basis on which to trust the digest lists data.
Adding the kernel_read_file() "READING_DIGEST_LIST" support in IMA does not seem to be optional. IMA would then be calculating the digest list file hash twice, once in kernel_read_file() and then, again, in ima_measure_critical_data().
I understand that with your changes to ima_measure_critical_data(), which are now in next-integrity-testing branch, allow IMA to calculate the file data hash.
Yes, correct. But actually there is another useful use case. If digest lists are not in the format supported by the kernel, the user space parser has to convert them before uploading them to the kernel.
ima_measure_critical_data() would in this case measure the converted digest list (it is written directly, without sending the file path). It is easier to attest the result, instead of determining whether the user space parser produced the expected result (by checking the files it read).
The application to properly convert the digest list file data into the appropriate format would need to be trusted. I'm concerned that not requiring the converted data to be signed and the signature verified is introducing a new integrity gap. Perhaps between an LSM policy, limiting which files may be read by the application, and an IMA policy, requiring all files read by this application to be measured and the signature verified, this integrity gap could be averted.
"critical data", in this context, should probably be used for verifying the in memory file digests and other state information haven't been compromised.
thanks,
Mimi