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mch2022-hack-me-if-you-can

Exploit for the MCH2022 CTF badge challenge ("Hack Me If You Can"). A full walkthrough can be found at wallaby3.com/posts/mch2022-badge-challenge/.

Steps to exploitation:

  1. Observe behaviour
    • Experiment with inputs.
    • Observe output via TCP and debug console.
    • Identify likely buffer overflow at inputs >48 bytes.
  2. Analyze binary
    • Use Ghidra with an open source Xtensa module for disassembly.
    • Determine that flag is read from non-volatile storage and copied to a fixed address.
  3. Map execution flow
    • Observe that certain buffer sizes >48 bytes will trigger a gdbstub register dump to the debug console due to a corrupted return address.
    • Use the register dump to follow execution flow in Ghidra. Determine that the callee at the time our corrupted return address gets loaded is the innermost call to do_echo_recursive(). The caller is the second innermost call.
    • Identify the offsets needed to set the return address (a0) and stack pointer (a1) of the callee's register window, and the registers a10 and a11 of the caller's register window.
  4. Identify ROP gadget
    • Use Ghidra to identify a call8 instruction to lwip_write(int socket, void* data, size_t size). We can use this function to send data back to our client. Note we can do this without any setup because a TCP connection already exists at the time we hijack execution flow.
  5. Determine ROP gadget arguments
    • Use the register dump to observe that the socket descriptor (register a2 in the caller's register window) is always the same (0x37) and likely deterministic. Set a10 (socket argument) to 0x37.
    • Set a11 (*data argument) to the flag location we found earlier.
    • Observe that register a12 (size argument) is reliably set to a large value and does not need to be modified.
  6. Create malicious buffer and run exploit

Usage

./exploit.py target port

Proof

proof

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Exploit for the MCH2022 CTF badge challenge ("Hack Me If You Can")

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