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Date: Thu, 2 Feb 2023 16:27:10 -0800
From: Eric Biggers <ebiggers@...nel.org>
To: stable@...r.kernel.org
Cc: Harshit Mogalapalli <harshit.m.mogalapalli@...cle.com>,
Kees Cook <keescook@...omium.org>,
SeongJae Park <sj@...nel.org>,
Seth Jenkins <sethjenkins@...gle.com>,
Jann Horn <jannh@...gle.com>,
"Eric W . Biederman" <ebiederm@...ssion.com>,
linux-hardening@...r.kernel.org, linux-kernel@...r.kernel.org,
Luis Chamberlain <mcgrof@...nel.org>
Subject: [PATCH 4.19 v2 08/15] exit: Put an upper limit on how often we can oops
From: Jann Horn <jannh@...gle.com>
commit d4ccd54d28d3c8598e2354acc13e28c060961dbb upstream.
Many Linux systems are configured to not panic on oops; but allowing an
attacker to oops the system **really** often can make even bugs that look
completely unexploitable exploitable (like NULL dereferences and such) if
each crash elevates a refcount by one or a lock is taken in read mode, and
this causes a counter to eventually overflow.
The most interesting counters for this are 32 bits wide (like open-coded
refcounts that don't use refcount_t). (The ldsem reader count on 32-bit
platforms is just 16 bits, but probably nobody cares about 32-bit platforms
that much nowadays.)
So let's panic the system if the kernel is constantly oopsing.
The speed of oopsing 2^32 times probably depends on several factors, like
how long the stack trace is and which unwinder you're using; an empirically
important one is whether your console is showing a graphical environment or
a text console that oopses will be printed to.
In a quick single-threaded benchmark, it looks like oopsing in a vfork()
child with a very short stack trace only takes ~510 microseconds per run
when a graphical console is active; but switching to a text console that
oopses are printed to slows it down around 87x, to ~45 milliseconds per
run.
(Adding more threads makes this faster, but the actual oops printing
happens under &die_lock on x86, so you can maybe speed this up by a factor
of around 2 and then any further improvement gets eaten up by lock
contention.)
It looks like it would take around 8-12 days to overflow a 32-bit counter
with repeated oopsing on a multi-core X86 system running a graphical
environment; both me (in an X86 VM) and Seth (with a distro kernel on
normal hardware in a standard configuration) got numbers in that ballpark.
12 days aren't *that* short on a desktop system, and you'd likely need much
longer on a typical server system (assuming that people don't run graphical
desktop environments on their servers), and this is a *very* noisy and
violent approach to exploiting the kernel; and it also seems to take orders
of magnitude longer on some machines, probably because stuff like EFI
pstore will slow it down a ton if that's active.
Signed-off-by: Jann Horn <jannh@...gle.com>
Link: https://lore.kernel.org/r/20221107201317.324457-1-jannh@google.com
Reviewed-by: Luis Chamberlain <mcgrof@...nel.org>
Signed-off-by: Kees Cook <keescook@...omium.org>
Link: https://lore.kernel.org/r/20221117234328.594699-2-keescook@chromium.org
Signed-off-by: Eric Biggers <ebiggers@...gle.com>
---
Documentation/sysctl/kernel.txt | 9 +++++++
kernel/exit.c | 43 +++++++++++++++++++++++++++++++++
2 files changed, 52 insertions(+)
diff --git a/Documentation/sysctl/kernel.txt b/Documentation/sysctl/kernel.txt
index db1676525ca35..fd65f4e651d55 100644
--- a/Documentation/sysctl/kernel.txt
+++ b/Documentation/sysctl/kernel.txt
@@ -51,6 +51,7 @@ show up in /proc/sys/kernel:
- msgmnb
- msgmni
- nmi_watchdog
+- oops_limit
- osrelease
- ostype
- overflowgid
@@ -555,6 +556,14 @@ scanned for a given scan.
==============================================================
+oops_limit:
+
+Number of kernel oopses after which the kernel should panic when
+``panic_on_oops`` is not set. Setting this to 0 or 1 has the same effect
+as setting ``panic_on_oops=1``.
+
+==============================================================
+
osrelease, ostype & version:
# cat osrelease
diff --git a/kernel/exit.c b/kernel/exit.c
index 2147bbc2c7c32..fa3004ff33362 100644
--- a/kernel/exit.c
+++ b/kernel/exit.c
@@ -68,6 +68,33 @@
#include <asm/pgtable.h>
#include <asm/mmu_context.h>
+/*
+ * The default value should be high enough to not crash a system that randomly
+ * crashes its kernel from time to time, but low enough to at least not permit
+ * overflowing 32-bit refcounts or the ldsem writer count.
+ */
+static unsigned int oops_limit = 10000;
+
+#ifdef CONFIG_SYSCTL
+static struct ctl_table kern_exit_table[] = {
+ {
+ .procname = "oops_limit",
+ .data = &oops_limit,
+ .maxlen = sizeof(oops_limit),
+ .mode = 0644,
+ .proc_handler = proc_douintvec,
+ },
+ { }
+};
+
+static __init int kernel_exit_sysctls_init(void)
+{
+ register_sysctl_init("kernel", kern_exit_table);
+ return 0;
+}
+late_initcall(kernel_exit_sysctls_init);
+#endif
+
static void __unhash_process(struct task_struct *p, bool group_dead)
{
nr_threads--;
@@ -924,10 +951,26 @@ EXPORT_SYMBOL_GPL(do_exit);
void __noreturn make_task_dead(int signr)
{
+ static atomic_t oops_count = ATOMIC_INIT(0);
+
/*
* Take the task off the cpu after something catastrophic has
* happened.
*/
+
+ /*
+ * Every time the system oopses, if the oops happens while a reference
+ * to an object was held, the reference leaks.
+ * If the oops doesn't also leak memory, repeated oopsing can cause
+ * reference counters to wrap around (if they're not using refcount_t).
+ * This means that repeated oopsing can make unexploitable-looking bugs
+ * exploitable through repeated oopsing.
+ * To make sure this can't happen, place an upper bound on how often the
+ * kernel may oops without panic().
+ */
+ if (atomic_inc_return(&oops_count) >= READ_ONCE(oops_limit))
+ panic("Oopsed too often (kernel.oops_limit is %d)", oops_limit);
+
do_exit(signr);
}
--
2.39.1
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