forked from xerub/acorn
-
Notifications
You must be signed in to change notification settings - Fork 0
/
README
52 lines (41 loc) · 2.23 KB
/
README
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
Bugs and techniques to achieve untethered+unsandboxed code execution in iOS 11
Credits:
@littlelailo - racoon bug (originally @pod2g)
@S1guza - ASLR bug
@ZecOps - sandbox escape writeup
@_bazad - memory spray
Add iOS racoon executable and dyld_shared_cache_arm64 to device/ and type make. Then collect racoon.conf and stage2.bin. Enjoy!
===
racoon.conf
use 'wins4'/'dns4' to write arbitrary bytes at relative offset, targeting `lcconf`
point `lcconf` at the `_platform_memmove` lazy pointer and smash it
use 'banner' to call `strlcpy` which loads the smashed lazy pointer with controlled data
stage1 sits inside the banner string and must not contain local pointers (runs at unknown address):
1. remap shared cache at known address
2. remap stage2 at known address inside racoon address space (stage2 must be on-disk, and must be accessible from the racoon sandbox)
3. stash the current slide at stage2[0]
4. jump to stage2
stage2 runs inside racoon at fixed address:
1. relocate itself using stage2[0]
2. fix back `_platform_memmove` lazy pointer
3. unmap the secondary shared cache
4. relocate stage3
5. relocate stage4 and write it to disk (stage4 location must be accessible from the racoon sandbox)
6. trigger cfprefsd bug
push stage3 at GUESS_ADDR in a spray thread
trigger cfprefsd bug which will execute stage3 in the faulty thread
stage3 is inside cfprefsd spray thread and must not contain local pointers (runs at unknown address after pivot):
1. copy back itself on the faulty thread stack, because the spray thread will vanish
2. pivot by means of `memmove+4`
3. remap stage4 at known address inside cfprefsd address space
stage4 runs inside cfprefsd at fixed address:
1. run the unsandboxed payload
===
stage2 is split in two parts
a. the auto-reloc code: uses gadgets from the shadow cache
b. the actual code: uses gadgets from the main shared cache
stage2 begins with `rope` and ends with `rope_end`
*rope = stage2[0] = slide
external relocations is an array of offsets, each offset being relative to `rope`
external relocations start with a 0, so it can be parsed backwards
stage3/4 have the same type of external relocations as stage2