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authorPaul Moore <paul@paul-moore.com>2021-02-01 19:56:49 -0500
committerPaul Moore <paul@paul-moore.com>2021-09-19 22:37:21 -0400
commitcdc1404a40461faba23c5a5ad40adcc7eecc1580 (patch)
treee98f6f0ae9ee6d72cfbbb6c00e7a89932482a850 /security
parent91a9ab7c942aaa40ac5957eebe71ddae30b2a49c (diff)
lsm,io_uring: add LSM hooks to io_uring
A full expalantion of io_uring is beyond the scope of this commit description, but in summary it is an asynchronous I/O mechanism which allows for I/O requests and the resulting data to be queued in memory mapped "rings" which are shared between the kernel and userspace. Optionally, io_uring offers the ability for applications to spawn kernel threads to dequeue I/O requests from the ring and submit the requests in the kernel, helping to minimize the syscall overhead. Rings are accessed in userspace by memory mapping a file descriptor provided by the io_uring_setup(2), and can be shared between applications as one might do with any open file descriptor. Finally, process credentials can be registered with a given ring and any process with access to that ring can submit I/O requests using any of the registered credentials. While the io_uring functionality is widely recognized as offering a vastly improved, and high performing asynchronous I/O mechanism, its ability to allow processes to submit I/O requests with credentials other than its own presents a challenge to LSMs. When a process creates a new io_uring ring the ring's credentials are inhertied from the calling process; if this ring is shared with another process operating with different credentials there is the potential to bypass the LSMs security policy. Similarly, registering credentials with a given ring allows any process with access to that ring to submit I/O requests with those credentials. In an effort to allow LSMs to apply security policy to io_uring I/O operations, this patch adds two new LSM hooks. These hooks, in conjunction with the LSM anonymous inode support previously submitted, allow an LSM to apply access control policy to the sharing of io_uring rings as well as any io_uring credential changes requested by a process. The new LSM hooks are described below: * int security_uring_override_creds(cred) Controls if the current task, executing an io_uring operation, is allowed to override it's credentials with @cred. In cases where the current task is a user application, the current credentials will be those of the user application. In cases where the current task is a kernel thread servicing io_uring requests the current credentials will be those of the io_uring ring (inherited from the process that created the ring). * int security_uring_sqpoll(void) Controls if the current task is allowed to create an io_uring polling thread (IORING_SETUP_SQPOLL). Without a SQPOLL thread in the kernel processes must submit I/O requests via io_uring_enter(2) which allows us to compare any requested credential changes against the application making the request. With a SQPOLL thread, we can no longer compare requested credential changes against the application making the request, the comparison is made against the ring's credentials. Signed-off-by: Paul Moore <paul@paul-moore.com>
Diffstat (limited to 'security')
-rw-r--r--security/security.c12
1 files changed, 12 insertions, 0 deletions
diff --git a/security/security.c b/security/security.c
index 9ffa9e9c5c55..c49a2c0cc1c1 100644
--- a/security/security.c
+++ b/security/security.c
@@ -2625,3 +2625,15 @@ int security_perf_event_write(struct perf_event *event)
return call_int_hook(perf_event_write, 0, event);
}
#endif /* CONFIG_PERF_EVENTS */
+
+#ifdef CONFIG_IO_URING
+int security_uring_override_creds(const struct cred *new)
+{
+ return call_int_hook(uring_override_creds, 0, new);
+}
+
+int security_uring_sqpoll(void)
+{
+ return call_int_hook(uring_sqpoll, 0);
+}
+#endif /* CONFIG_IO_URING */