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============================
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Control-Flow Integrity (CFI)
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============================
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This document describes the current control-flow integrity (CFI) mechanism in
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QEMU. How it can be enabled, its benefits and deficiencies, and how it affects
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new and existing code in QEMU
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Basics
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------
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CFI is a hardening technique that focusing on guaranteeing that indirect
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function calls have not been altered by an attacker.
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The type used in QEMU is a forward-edge control-flow integrity that ensures
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function calls performed through function pointers, always call a "compatible"
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function. A compatible function is a function with the same signature of the
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function pointer declared in the source code.
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This type of CFI is entirely compiler-based and relies on the compiler knowing
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the signature of every function and every function pointer used in the code.
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As of now, the only compiler that provides support for CFI is Clang.
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CFI is best used on production binaries, to protect against unknown attack
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vectors.
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In case of a CFI violation (i.e. call to a non-compatible function) QEMU will
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terminate abruptly, to stop the possible attack.
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Building with CFI
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-----------------
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NOTE: CFI requires the use of link-time optimization. Therefore, when CFI is
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selected, LTO will be automatically enabled.
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To build with CFI, the minimum requirement is Clang 6+. If you
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are planning to also enable fuzzing, then Clang 11+ is needed (more on this
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later).
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Given the use of LTO, a version of AR that supports LLVM IR is required.
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The easies way of doing this is by selecting the AR provided by LLVM::
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AR=llvm-ar-9 CC=clang-9 CXX=clang++-9 /path/to/configure --enable-cfi
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CFI is enabled on every binary produced.
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If desired, an additional flag to increase the verbosity of the output in case
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of a CFI violation is offered (``--enable-debug-cfi``).
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Using QEMU built with CFI
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-------------------------
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A binary with CFI will work exactly like a standard binary. In case of a CFI
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violation, the binary will terminate with an illegal instruction signal.
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Incompatible code with CFI
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--------------------------
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As mentioned above, CFI is entirely compiler-based and therefore relies on
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compile-time knowledge of the code. This means that, while generally supported
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for most code, some specific use pattern can break CFI compatibility, and
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create false-positives. The two main patterns that can cause issues are:
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* Just-in-time compiled code: since such code is created at runtime, the jump
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to the buffer containing JIT code will fail.
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* Libraries loaded dynamically, e.g. with dlopen/dlsym, since the library was
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not known at compile time.
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Current areas of QEMU that are not entirely compatible with CFI are:
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1. TCG, since the idea of TCG is to pre-compile groups of instructions at
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runtime to speed-up interpretation, quite similarly to a JIT compiler
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2. TCI, where the interpreter has to interpret the generic *call* operation
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3. Plugins, since a plugin is implemented as an external library
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4. Modules, since they are implemented as an external library
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5. Directly calling signal handlers from the QEMU source code, since the
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signal handler may have been provided by an external library or even plugged
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at runtime.
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Disabling CFI for a specific function
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-------------------------------------
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If you are working on function that is performing a call using an
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incompatible way, as described before, you can selectively disable CFI checks
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for such function by using the decorator ``QEMU_DISABLE_CFI`` at function
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definition, and add an explanation on why the function is not compatible
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with CFI. An example of the use of ``QEMU_DISABLE_CFI`` is provided here::
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/*
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* Disable CFI checks.
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* TCG creates binary blobs at runtime, with the transformed code.
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* A TB is a blob of binary code, created at runtime and called with an
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* indirect function call. Since such function did not exist at compile time,
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* the CFI runtime has no way to verify its signature and would fail.
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* TCG is not considered a security-sensitive part of QEMU so this does not
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* affect the impact of CFI in environment with high security requirements
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*/
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QEMU_DISABLE_CFI
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static inline tcg_target_ulong cpu_tb_exec(CPUState *cpu, TranslationBlock *itb)
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NOTE: CFI needs to be disabled at the **caller** function, (i.e. a compatible
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cfi function that calls a non-compatible one), since the check is performed
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when the function call is performed.
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CFI and fuzzing
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---------------
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There is generally no advantage of using CFI and fuzzing together, because
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they target different environments (production for CFI, debug for fuzzing).
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CFI could be used in conjunction with fuzzing to identify a broader set of
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bugs that may not end immediately in a segmentation fault or triggering
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an assertion. However, other sanitizers such as address and ub sanitizers
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can identify such bugs in a more precise way than CFI.
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There is, however, an interesting use case in using CFI in conjunction with
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fuzzing, that is to make sure that CFI is not triggering any false positive
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in remote-but-possible parts of the code.
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CFI can be enabled with fuzzing, but with some caveats:
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1. Fuzzing relies on the linker performing function wrapping at link-time.
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The standard BFD linker does not support function wrapping when LTO is
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also enabled. The workaround is to use LLVM's lld linker.
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2. Fuzzing also relies on a custom linker script, which is only supported by
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lld with version 11+.
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In other words, to compile with fuzzing and CFI, clang 11+ is required, and
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lld needs to be used as a linker::
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AR=llvm-ar-11 CC=clang-11 CXX=clang++-11 /path/to/configure --enable-cfi \
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-enable-fuzzing --extra-ldflags="-fuse-ld=lld"
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and then, compile the fuzzers as usual.
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