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Port exploit to aarch64

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- Replace x86_64 shellcode/ELF in shell_elf[] with aarch64 equivalent
  (e_machine=0xb7, MOVZ/SVC instructions, syscall numbers 144/146/159/221).
- Update verify_byte() check at post-write to look for the aarch64 MOVZ
  opcode signature (0x80 0xd2) instead of the x86 (0x31 0xff).
- Update su_marker[] to match the first 8 bytes of the aarch64 shellcode.

Tested on Kali aarch64 6.19.11+kali-arm64; xfrm-ESP leg lands cleanly.
rxrpc leg is x86-only (oopses on aarch64 in flush_dcache_page).
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Zi1chs 2026-05-12 11:23:36 +07:00
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README.md
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# Dirty Frag: Universal Linux LPE
# Dirty Frag (aarch64 port)
<p align="center">
<img src="assets/tux.png" width="400" alt="tux">
</p>
> Port of [V4bel/dirtyfrag](https://github.com/V4bel/dirtyfrag) to 64-bit ARM (aarch64).
> The original vulnerability discovery, write-up, and exploit are by
> **[Hyunwoo Kim (@v4bel)](https://x.com/v4bel)**. This repository only adapts the
> embedded payload and verification logic so the exploit lands on aarch64 Linux.
# Abstract
## Abstract
![tux](assets/demo.gif)
Dirty Frag chains two page-cache write vulnerabilities — `xfrm-ESP Page-Cache Write
(CVE-2026-43284)` and `RxRPC Page-Cache Write (CVE-2026-43500)` — into a universal
local privilege escalation. The upstream PoC ships with an x86_64-only payload
(both the planted ELF and the verification logic). On aarch64 distributions the
underlying kernel bugs are still present and the **xfrm-ESP primitive itself works
unmodified** — only the userspace logic prematurely declares failure because it
checks for x86 byte signatures.
This document describes the Dirty Frag vulnerability class, first discovered and reported by [Hyunwoo Kim (@v4bel)](https://x.com/v4bel), which can obtain root privileges on major Linux distributions by chaining the `xfrm-ESP Page-Cache Write (CVE-2026-43284)` vulnerability and the `RxRPC Page-Cache Write (CVE-2026-43500)` vulnerability.
This port replaces:
Dirty Frag is a case that extends the bug class to which [Dirty Pipe](https://dirtypipe.cm4all.com/) and [Copy Fail](https://copy.fail/) belong. Because it is a deterministic logic bug that does not depend on a timing window, no race condition is required, the kernel does not panic when the exploit fails, and the success rate is very high.
1. the 192-byte embedded x86_64 root-shell ELF with an aarch64 equivalent
(`e_machine = 0xb7`, `MOVZ` / `SVC #0` shellcode, aarch64 syscall numbers
`setgid=144`, `setuid=146`, `setgroups=159`, `execve=221`);
2. the post-write `verify_byte()` check, which previously looked for the x86
prologue `0x31 0xff` at the entry offset — now checks for the aarch64
`MOVZ` opcode bytes `0x80 0xd2` at offsets `0x7a/0x7b`;
3. the `su_marker[]` array used by `su_already_patched()` — now holds the first
eight bytes of the aarch64 shellcode (`00 00 80 d2 08 12 80 d2`).
For detailed technical information and the timeline, [see here](assets/write-up.md).
These are the only three changes against upstream. The kernel-side primitive
(`xfrm-ESP` page-cache write via `splice` + `vmsplice`) is unchanged.
- `xfrm-ESP Page-Cache Write (CVE-2026-43284)` was patched in mainline [f4c50a4034e6](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=f4c50a4034e62ab75f1d5cdd191dd5f9c77fdff4).
- `RxRPC Page-Cache Write (CVE-2026-43500)` was patched in mainline [aa54b1d27fe0](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=aa54b1d27fe0c2b78e664a34fd0fdf7cd1960d71).
## What works / what doesn't on aarch64
> [!NOTE]
> At the time this document was first made public (2026-05-07), the embargo had been broken due to external factors, so no patch or CVE existed yet. After consultation with the maintainers on linux-distros@vs.openwall.org at that time, the Dirty Frag document was published at their request. For the disclosure timeline, refer to the technical details.
| Leg | x86_64 | aarch64 | Notes |
| ----------------------------- | ------ | -------------- | -------------------------------------------------------------------------------------------------------------------------------------------------- |
| `xfrm-ESP` page-cache write | works | **works** | Uses real `struct page*` via `splice` from the target file. Cache-coherency differences do not affect the write path. |
| `RxRPC` page-cache write | works | **kernel oops**| Supplies a fabricated `struct page*` that x86 `flush_dcache_page()` ignores (no-op) but aarch64 dereferences (real cache flush) → translation fault. |
# Exploiting
Because the xfrm-ESP leg succeeds on aarch64, the rxrpc fallback is unnecessary
and the exploit obtains a root shell through the same flow as upstream.
## One-line special
If you only have access to a distribution that blocks unprivileged user-namespace
creation (e.g., Ubuntu under AppArmor), the xfrm-ESP leg will not run. On those
systems the rxrpc fallback is currently not portable to aarch64 — see
*Limitations* below.
## Exploiting
```
git clone https://github.com/V4bel/dirtyfrag.git && cd dirtyfrag && gcc -O0 -Wall -o exp exp.c -lutil && ./exp
git clone https://github.com/<your-user>/dirtyfrag-aarch64.git && \
cd dirtyfrag-aarch64 && \
gcc -O0 -Wall -o exp exp.c -lutil && \
./exp
```
This PoC is provided as accurate information following consultation with linux-distros. Do not use it on systems that you are not authorized to test.
Pass `-v` or set `DIRTYFRAG_VERBOSE=1` to see the patching progress.
This PoC is for authorized testing only. Do not run it on systems you do not
own or are not contracted to test.
## Cleanup
⚠️ **Important:** After running this exploit, the page cache is contaminated. To clear the polluted page cache and ensure system stability, either run:
After running the exploit, the page cache for `/usr/bin/su` is polluted. Either
drop the caches or reboot:
```bash
echo 3 > /proc/sys/vm/drop_caches
```
echo 3 | sudo tee /proc/sys/vm/drop_caches
```
or reboot the system.
The on-disk binary is not modified — only the in-memory page cache is.
# Affected Versions
## Tested
- **CVE-2026-43284**: xfrm-ESP Page-Cache Write vulnerability is in scope from [cac2661c53f3 (2017-01-17)](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=cac2661c53f3) up to [f4c50a4034e6 (2026-05-05)](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=f4c50a4034e62ab75f1d5cdd191dd5f9c77fdff4).
- **CVE-2026-43500**: RxRPC Page-Cache Write vulnerability is in scope from [2dc334f1a63a (2023-06-08)](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=2dc334f1a63a) up to [aa54b1d27fe0 (2026-05-10)](https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=aa54b1d27fe0c2b78e664a34fd0fdf7cd1960d71).
- Kali ARM (Apple Silicon, VMware Fusion), kernel `6.19.11+kali-arm64`, glibc
built for `aarch64-linux-gnu`. Both modules `esp4` and `xfrm_user` autoload
cleanly on first use; unprivileged user namespaces are enabled by default.
In other words, the effective lifetime of the vulnerabilities is about 9 years.
If you test this on additional aarch64 distributions (Raspberry Pi OS, Ubuntu
Server for ARM, openSUSE aarch64, Fedora aarch64, Amazon Linux 2023 aarch64,
Oracle Linux ARM, etc.) please open an issue or PR with the kernel version and
result.
This Dirty Frag has been tested on the following distribution versions.
## Affected versions
- Ubuntu 24.04.4: 6.17.0-23-generic
- RHEL 10.1: 6.12.0-124.49.1.el10_1.x86_64
- openSUSE Tumbleweed: 7.0.2-1-default
- CentOS Stream 10: 6.12.0-224.el10.x86_64
- AlmaLinux 10: 6.12.0-124.52.3.el10_1.x86_64
- Fedora 44: 6.19.14-300.fc44.x86_64
- ...
Same scope as upstream — these are kernel bugs, not architecture-specific:
# Mitigation
- **CVE-2026-43284** (xfrm-ESP): `cac2661c53f3` (2017-01-17) → `f4c50a4034e6` (2026-05-05)
- **CVE-2026-43500** (RxRPC): `2dc334f1a63a` (2023-06-08) → `aa54b1d27fe0` (2026-05-10)
1. Use the following command to remove the modules in which the vulnerabilities occur and clear the page cache.
```bash
sh -c "printf 'install esp4 /bin/false\ninstall esp6 /bin/false\ninstall rxrpc /bin/false\n' > /etc/modprobe.d/dirtyfrag.conf; rmmod esp4 esp6 rxrpc 2>/dev/null; echo 3 > /proc/sys/vm/drop_caches; true"
Kernels built before those fix commits are vulnerable. As of this port's
publication the patches are in mainline but have not yet been backported to
every aarch64 distribution.
## Mitigation
Same as upstream:
```
sudo sh -c "printf 'install esp4 /bin/false\ninstall esp6 /bin/false\ninstall rxrpc /bin/false\n' \
> /etc/modprobe.d/dirtyfrag.conf; rmmod esp4 esp6 rxrpc 2>/dev/null; \
echo 3 > /proc/sys/vm/drop_caches; true"
```
2. Once each distribution backports a patch, update accordingly.
Update to a kernel that includes both fix commits as soon as your distribution
ships the backport.
# FAQ
## Limitations
## Why did you chain two vulnerabilities?
- **rxrpc fallback is not ported.** On aarch64 the rxrpc primitive faults the
kernel in `flush_dcache_page` because of how the bug constructs a fake
`struct page*`. Making that leg work would require a different page-supply
technique (real backing page that aliases the target file's page cache),
which is a research problem, not a code change.
- **Only `/usr/bin/su` is patched.** The `/etc/passwd` backdoor path used by
the rxrpc leg is unavailable on aarch64 for the reason above. If your target
distribution restricts unprivileged userns and you cannot use the xfrm-ESP
leg either, this port will not give you root.
xfrm-ESP Page-Cache Write provides a powerful arbitrary 4-byte STORE primitive like Copy Fail, and is included on most distributions, but it requires the privilege to create a namespace.
## Credit
Ubuntu sometimes blocks unprivileged user namespace creation through AppArmor policy. In such an environment, xfrm-ESP Page-Cache Write cannot be triggered. RxRPC Page-Cache Write does not require the privilege to create a namespace, but the `rxrpc.ko` module itself is not included in most distributions. However, on Ubuntu, the `rxrpc.ko` module is loaded by default.
- Original vulnerability discovery, write-up, and exploit: **Hyunwoo Kim
([@v4bel](https://x.com/v4bel))** — see upstream repo
[V4bel/dirtyfrag](https://github.com/V4bel/dirtyfrag) and the technical
write-up linked from there.
- aarch64 port (this repo): payload + verification adapted to aarch64 only;
all kernel-exploitation logic is upstream's.
Chaining the two variants makes the blind spots cover each other, allowing root privileges to be obtained on every major distribution. For details, refer to the technical details document.
## License
## Another "branded" "Dirty" series?
Yeah, yeah, I know. However, this vulnerability is a descendant of "Dirty Pipe", and it is a bug class that "dirties" the `frag` member of `struct sk_buff`, so this name is the most appropriate.
## What is its relationship with the "Copy Fail" vulnerability?
Copy Fail was the motivation for starting this research. In particular, xfrm-ESP Page-Cache Write in the Dirty Frag vulnerability chain shares the same sink as Copy Fail. However, it is triggered regardless of whether the algif_aead module is available. In other words, even on systems where the publicly known Copy Fail mitigation (algif_aead blacklist) is applied, your Linux is still vulnerable to Dirty Frag.
## So, how do I fix my Linux?
Refer to the Mitigation section above.
The upstream repository does not ship an explicit license file. This fork
preserves attribution and is published for security-research purposes only.
If the upstream author requests removal or relicensing, please open an issue
and the repository will be updated accordingly.