Vulnerabilities: Difference between revisions

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== Game savedata exploits ==
== Game savedata exploits ==
=== PS1 games savedata exploits ===
See [https://www.psdevwiki.com/ps4/Vulnerabilities#PS1_games_savedata_exploits PS4 Dev Wiki].


=== PS2 game savedata exploits ===
=== PS2 game savedata exploits ===


See [https://www.psdevwiki.com/ps4/Vulnerabilities#PS2_games_savedata_exploits PS4 Dev Wiki].
See [https://www.psdevwiki.com/ps4/Vulnerabilities#PS2_games_savedata_exploits PS4 Dev Wiki].
=== PSP games savedata exploits ===
See [https://www.psdevwiki.com/ps4/Vulnerabilities#PSP_games_savedata_exploits PS4 Dev Wiki].


=== PS4/PS5 PS2emu sandbox escape (mast1c0re) ===
=== PS4/PS5 PS2emu sandbox escape (mast1c0re) ===

Revision as of 21:51, 22 September 2024

Usermode

BD-J exploits

FW <= 7.61 - BD-JB2 - Path traversal sandbox escape by TheFloW

See [1].

Patched

Yes on PS5 FW 8.00.

FW <= 4.51 - BD-JB - Five vulnerabilities chained by TheFloW

See [2].

Implementations

Patched

Yes partially on PS5 FWs > 4.50 (need to test). Probably unpatched on FW 4.51 and patched on FW 5.00.

WebKit exploits

WebKit exploits are harder to make and do not even give arbitrary RW because of PS5 memory protections.

Modal Browser HTTPS Bypass

  • It is possible to bypass HTTPS in the modal browser, if you reply to the HTTPS CONNECT with a standard HTTP 1.1 response, instead of attempting to create a tunnel. The browser will just display that response. The downside to this is you have no idea what the contents of even the HTTP REQUEST would have been, but it is useful for directing the web browser to any website you want.

Patched

No as of PS5 FW 5.10.

FW 6.00-9.60 - Unknown heap and string overflow (no CVE) leading to crash

See also [3].

Patched

Yes on PS4 FW 12.00 and PS5 FW 10.00.

Tested

Tested and working on PS4 FWs 10.00-11.52 and PS5 FWs 6.00-9.60.

FW 6.00-8.60 - JSC DFG Abstract Intepreter clobberWorld Type Confusion (no CVE) leading to arbitrary RW

See also [4].

Patched

Yes on PS4 FW 11.50 and PS5 FW 9.00.

Tested

Tested and working on PS4 FWs 10.00-11.02 and PS5 FWs 6.00-8.60.

FW <= 5.50 - FrameLoader::loadInSameDocument() UaF (CVE-2022-22620) leading to arbitrary RW

See also [5].

Patched

Yes on PS4 FW 10.00 and PS5 FW 6.00.

Tested

Tested and working on PS4 FWs 6.00-9.60 and PS5 FWs 1.00-5.50.

FW 3.00-4.51 - WebCore::CSSFontFaceSet vulnerabilities leading to usermode ROP code execution

Contrarly to PS4, on PS5 this exploit does not allow arbitrary usermode memory RW because of PS5 memory protections. However thanks to tricks it is possible to get usermode ROP code execution from this exploit.

See also [6].

Implementations

Patched

No as of PS5 FW 4.51 (need to test on PS5 FWs >=5.00).

Tested

Tested and working on PS4 FWs 9.00-9.04 and PS5 FWs 3.00-4.51. Untested: PS5 FWs 2.10-2.50 and >=5.00.

Game savedata exploits

PS1 games savedata exploits

See PS4 Dev Wiki.

PS2 game savedata exploits

See PS4 Dev Wiki.

PSP games savedata exploits

See PS4 Dev Wiki.

PS4/PS5 PS2emu sandbox escape (mast1c0re)

See PS4 Dev Wiki.

PS4/PS5 game savedata LUA exploit

See PS4 Dev Wiki.

PS4 emulator exploits

Nothing yet.

Usermode securities

See also PS4 usermode securities.

>=8.00 - Syscalls and libkernel blocked from main usermode applications

Since PS5 System Software version 8.00, in order to make the PS5 less vulnerable to kernel escalation from usermode after TheFloW's disclose of BD-JB2, Sony blocked syscall and libkernel access from the main contenders such as BD JAVA, WebKit, PS2emu and probably more else all usermode applications.

Kernel

Physical memory readable by kernel (Meme Dumper)

Credits

Discovered by cheburek3000. Released on 2023-02-07 by cheburek3000.

Bug Description

Steps:

1. Find kernel_pmap_store offset in kernel data segment. You can guess its location by specific signature (see guess_kernel_pmap_store_offset code). Luckily kernel_pmap_store has physical and virtual addresses for PML4.

2. Through physical and virtual addresses for PML4, you can find physical memory mapped directly to the kernel memory (DMAP). See PADDR_TO_DMAP macro and vmparam.h from FreeBSD for reference.

3. Use page tables to convert any kernel virtual address to physical address (see vaddr_to_paddr code).

4. Access data by physical address through DMAP.

Exploit Implementation

Patched

No in PS5 FW 4.51.


FW <= 7.61 - umtx UaF (yielding arbitrary kernel R/W) (CVE-2024-43102)

Credits

  • [email protected] for discovering the vulnerability, keeping it secret (2020-12) then sharing a writeup (2024-09-06)
  • Rebecca Cran for discovering the bug in umtx (2023-05-07)
  • Synacktiv for finding and disclosing publicly the vulnerability (2024-09-04)
  • Olivier Certner for fixing the bug (2024-09-04), kib for reviewing the bug fix (2024-09-04), Ed Maste for approving the bug fix commit (2024-09-04)
  • Shuffle from Fail0verflow for the FreeBSD 11 and PS5 PoC in C++ (2024-09-14)
  • Flatz for writing a PS5 exploit chain with TheFloW's BD-JB2 (2024-09-14)

Analysis

Bug Description

The _umtx_op(2) system call provides support for the implementation of synchronization primitives between threads, and is used by the 1:1 Threading Library (libthr, -lthr) to implement IEEE Std 1003.1-2001 (POSIX.1-2001) pthread locks, like mutexes, condition variables and so on. In particular, its UMTX_OP_SHM operation provides support for anonymous shared memory associated to a particular physical address, which is used to implement process-shared mutexes (PTHREAD_PROCESS_SHARED).

Concurrent removals of such a mapping by using the UMTX_SHM_DESTROY sub-request of UMTX_OP_SHM can lead to decreasing the reference count of the object representing the mapping too many times, causing it to be freed too early.

umtx_shm_unref_reg_locked() would unconditionally drop the "registry" reference, tied to USHMF_LINKED.

This is not a problem for caller umtx_shm_object_terminated(), which operates under the 'umtx_shm_lock' lock end-to-end, but it is for indirect caller umtx_shm(), which drops the lock between umtx_shm_find_reg() and the call to umtx_shm_unref_reg(true) that deregisters the umtx shared region (from 'umtx_shm_registry'; umtx_shm_find_reg() only finds registered shared mutexes).

Thus, two concurrent user-space callers of _umtx_op() with UMTX_OP_SHM and flags UMTX_SHM_DESTROY, both progressing past umtx_shm_find_reg() but before umtx_shm_unref_reg(true), would then decrease twice the reference count for the single reference standing for the shared mutex's registration.

A malicious code exercizing the UMTX_SHM_DESTROY sub-request in parallel can panic the kernel or enable further Use-After-Free attacks, potentially including code execution or Capsicum sandbox escape.

Exploit Implementation

Patched

Yes in PS5 FW 8.00.


FW <= 8.20 - Remote vulnerabilities in spp (yielding kernel panic) (CVE-2006-4304 and no-CVE)

See the PS4 wiki.

Note that kernel ASLR defeat is currently not working on PS5 and there are protections remaining before being able to

Patched

Yes in PS5 FW 8.40.


FW <= ?3.21? - PPPoE driver remote buffer overflow (CVE-2022-29867)

See the PS4 wiki.

Note that PS5 is maybe not affected even though PS4 is.

Patched

Probably in PS5 FW 4.00.


FW 3.00-4.51 - IPV6_2292PKTOPTIONS UaF (yielding arbitrary kernel R/W) (CVE-2020-7457)

See the PS4 wiki.

Credits

  • Discovered for PS4 and ported to PS5 by TheFloW.

Exploit Implementation

Patched

Yes in PS5 FW 5.00. Invulnerable in PS5 FW 2.50 and below.


FW <= 4.03 - exFAT driver heap-based buffer overflow

See the PS4 wiki.

Credits

Discovered by TheFloW. Disclosed by ChendoChap.

Exploit Implementation

Not yet because even though there is ChendoChap's method to execute usermode code in WebKit, there is no PS5 kernel dump to build a kernel ROP chain. Exploiting this kernel vulnerability blind is almost impossible because once the USB device is inserted it corrupts the kernel heap memory and if the offsets in the kernel ROP chain are bad it creates a kernel panic.

Patched

Yes in PS5 FW 4.50.


SMAP bypass (CVE-2021-29628)

See also [8].

Credits

  • Discovered and disclosed publicly by m00nbsd. Disclosed to SIE on 2020-12-01.

Analysis

Bug Description

A SMAP bypass has been found by m00nbsd while working on FreeBSD 12. It is named CVE-2021-29628 and affects FreeBSD 12.2 and later (til it was patched). It does not work on PS4 because PS4 kernel is based on FreeBSD 9 which did not contain the vulnerability and because PS4 SMAP does not come from FreeBSD but is custom from Sony. It used to work on PS5 before it was disclosed and patched.

Patched

Yes in PS5 FW 2.30 or later according to dates.


Secure Kernel

Untested: Partial SAMU KeyRings bruteforce by missing HMAC length check in secure kernel

See [9].

Potentially vulnerable on PS5 FWs <= 4.03.

Secure Loader

Symmetric PS5 root keys dump by software exploit by Fail0verflow

See Fail0verflow's announcement on Twitter (2021-11-08)

Fail0verflow either has a bootrom execution exploit or an AMD/ARM PSP hack.

It is speculated that this exploit is a derivative of the ZenBleed CVE-2023-20593 exploit, as the PS5 APU is a custom ZEN 2 Ryzen chip.

This allows to decrypt on PC most parts of the PS5 System Software files including:

  • PUP
  • secure loader (?AMD? ARM Platform Security Processor module) of Oberon

And by derivation, mostly like on PS Vita:

  • secure modules
  • kernel boot loader / BIOS
  • non-secure kernel
  • usermode system modules

Potentially unpatched.

Hypervisor

<=2.50 - Hypervisor integrated as part of the kernel binary

  • Discovered by Specter (2023-07-01) and Flatz (before 2023-07-27).
  • This makes Hypervisor exploitation easier as it can be triggered by usermode directly without the need of a kernel exploit.
  • Patched since PS5 FW 3.00.

Platform Secure Processor

<=2.50 - PSP dump via Hypervisor exploit

  • Thanks to this software exploit, flatz got access to most PS5 decryption keys.
  • Vulnerable on PS5 FWs <= 2.50 and potentially patched since 3.00.

Unclassified

TheFloW's neither usermode nor kernel exploit

  • On 2024-08-29, TheFloW received 10.000$ from Sony for disclosing privately on Sony's HackerOne bug bounty program a vulnerability.
  • According to Flatz, this vulnerability affects neither usermode nor kernel, so it might be either about hardware or more likely about Hypervisor.
  • This vulnerability probably got patched in PS5 FW 10.00 or in PS5 FW 9.60, or if it is not patchable by software, is patched in new hardware revisions of the PS5.

Hardware

Untested: ZenBleed (CVE-2023-20593) leak register contents directly from the CPU.

This is a well documented CPU vulnerability in AMD Processors with the Zen 2 microarchitecture. There is no proof of concept specifically for the PS5, however we do know the PS5 uses a custom Zen 2 chip. This is a hardware bug that uses software to exploit the system. AMD has since patched this with software, but we are unsure of the status for the latest PS5 firmware (assumed to be patched). For more information see PS-Chi.