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393 lines
18 KiB
393 lines
18 KiB
======================
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Control Flow Integrity
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======================
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.. toctree::
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:hidden:
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ControlFlowIntegrityDesign
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.. contents::
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:local:
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Introduction
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============
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Clang includes an implementation of a number of control flow integrity (CFI)
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schemes, which are designed to abort the program upon detecting certain forms
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of undefined behavior that can potentially allow attackers to subvert the
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program's control flow. These schemes have been optimized for performance,
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allowing developers to enable them in release builds.
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To enable Clang's available CFI schemes, use the flag ``-fsanitize=cfi``.
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You can also enable a subset of available :ref:`schemes <cfi-schemes>`.
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As currently implemented, all schemes rely on link-time optimization (LTO);
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so it is required to specify ``-flto``, and the linker used must support LTO,
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for example via the `gold plugin`_.
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To allow the checks to be implemented efficiently, the program must
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be structured such that certain object files are compiled with CFI
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enabled, and are statically linked into the program. This may preclude
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the use of shared libraries in some cases.
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The compiler will only produce CFI checks for a class if it can infer hidden
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LTO visibility for that class. LTO visibility is a property of a class that
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is inferred from flags and attributes. For more details, see the documentation
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for :doc:`LTO visibility <LTOVisibility>`.
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The ``-fsanitize=cfi-{vcall,nvcall,derived-cast,unrelated-cast}`` flags
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require that a ``-fvisibility=`` flag also be specified. This is because the
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default visibility setting is ``-fvisibility=default``, which would disable
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CFI checks for classes without visibility attributes. Most users will want
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to specify ``-fvisibility=hidden``, which enables CFI checks for such classes.
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Experimental support for :ref:`cross-DSO control flow integrity
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<cfi-cross-dso>` exists that does not require classes to have hidden LTO
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visibility. This cross-DSO support has unstable ABI at this time.
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.. _gold plugin: https://llvm.org/docs/GoldPlugin.html
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.. _cfi-schemes:
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Available schemes
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=================
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Available schemes are:
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- ``-fsanitize=cfi-cast-strict``: Enables :ref:`strict cast checks
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<cfi-strictness>`.
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- ``-fsanitize=cfi-derived-cast``: Base-to-derived cast to the wrong
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dynamic type.
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- ``-fsanitize=cfi-unrelated-cast``: Cast from ``void*`` or another
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unrelated type to the wrong dynamic type.
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- ``-fsanitize=cfi-nvcall``: Non-virtual call via an object whose vptr is of
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the wrong dynamic type.
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- ``-fsanitize=cfi-vcall``: Virtual call via an object whose vptr is of the
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wrong dynamic type.
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- ``-fsanitize=cfi-icall``: Indirect call of a function with wrong dynamic
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type.
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- ``-fsanitize=cfi-mfcall``: Indirect call via a member function pointer with
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wrong dynamic type.
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You can use ``-fsanitize=cfi`` to enable all the schemes and use
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``-fno-sanitize`` flag to narrow down the set of schemes as desired.
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For example, you can build your program with
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``-fsanitize=cfi -fno-sanitize=cfi-nvcall,cfi-icall``
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to use all schemes except for non-virtual member function call and indirect call
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checking.
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Remember that you have to provide ``-flto`` or ``-flto=thin`` if at
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least one CFI scheme is enabled.
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Trapping and Diagnostics
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========================
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By default, CFI will abort the program immediately upon detecting a control
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flow integrity violation. You can use the :ref:`-fno-sanitize-trap=
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<controlling-code-generation>` flag to cause CFI to print a diagnostic
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similar to the one below before the program aborts.
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.. code-block:: console
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bad-cast.cpp:109:7: runtime error: control flow integrity check for type 'B' failed during base-to-derived cast (vtable address 0x000000425a50)
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0x000000425a50: note: vtable is of type 'A'
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00 00 00 00 f0 f1 41 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 20 5a 42 00
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^
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If diagnostics are enabled, you can also configure CFI to continue program
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execution instead of aborting by using the :ref:`-fsanitize-recover=
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<controlling-code-generation>` flag.
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Forward-Edge CFI for Virtual Calls
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==================================
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This scheme checks that virtual calls take place using a vptr of the correct
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dynamic type; that is, the dynamic type of the called object must be a
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derived class of the static type of the object used to make the call.
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This CFI scheme can be enabled on its own using ``-fsanitize=cfi-vcall``.
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For this scheme to work, all translation units containing the definition
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of a virtual member function (whether inline or not), other than members
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of :ref:`blacklisted <cfi-blacklist>` types or types with public :doc:`LTO
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visibility <LTOVisibility>`, must be compiled with ``-flto`` or ``-flto=thin``
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enabled and be statically linked into the program.
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Performance
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-----------
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A performance overhead of less than 1% has been measured by running the
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Dromaeo benchmark suite against an instrumented version of the Chromium
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web browser. Another good performance benchmark for this mechanism is the
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virtual-call-heavy SPEC 2006 xalancbmk.
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Note that this scheme has not yet been optimized for binary size; an increase
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of up to 15% has been observed for Chromium.
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Bad Cast Checking
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=================
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This scheme checks that pointer casts are made to an object of the correct
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dynamic type; that is, the dynamic type of the object must be a derived class
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of the pointee type of the cast. The checks are currently only introduced
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where the class being casted to is a polymorphic class.
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Bad casts are not in themselves control flow integrity violations, but they
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can also create security vulnerabilities, and the implementation uses many
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of the same mechanisms.
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There are two types of bad cast that may be forbidden: bad casts
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from a base class to a derived class (which can be checked with
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``-fsanitize=cfi-derived-cast``), and bad casts from a pointer of
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type ``void*`` or another unrelated type (which can be checked with
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``-fsanitize=cfi-unrelated-cast``).
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The difference between these two types of casts is that the first is defined
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by the C++ standard to produce an undefined value, while the second is not
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in itself undefined behavior (it is well defined to cast the pointer back
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to its original type) unless the object is uninitialized and the cast is a
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``static_cast`` (see C++14 [basic.life]p5).
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If a program as a matter of policy forbids the second type of cast, that
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restriction can normally be enforced. However it may in some cases be necessary
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for a function to perform a forbidden cast to conform with an external API
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(e.g. the ``allocate`` member function of a standard library allocator). Such
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functions may be :ref:`blacklisted <cfi-blacklist>`.
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For this scheme to work, all translation units containing the definition
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of a virtual member function (whether inline or not), other than members
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of :ref:`blacklisted <cfi-blacklist>` types or types with public :doc:`LTO
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visibility <LTOVisibility>`, must be compiled with ``-flto`` or ``-flto=thin``
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enabled and be statically linked into the program.
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Non-Virtual Member Function Call Checking
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=========================================
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This scheme checks that non-virtual calls take place using an object of
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the correct dynamic type; that is, the dynamic type of the called object
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must be a derived class of the static type of the object used to make the
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call. The checks are currently only introduced where the object is of a
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polymorphic class type. This CFI scheme can be enabled on its own using
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``-fsanitize=cfi-nvcall``.
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For this scheme to work, all translation units containing the definition
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of a virtual member function (whether inline or not), other than members
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of :ref:`blacklisted <cfi-blacklist>` types or types with public :doc:`LTO
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visibility <LTOVisibility>`, must be compiled with ``-flto`` or ``-flto=thin``
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enabled and be statically linked into the program.
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.. _cfi-strictness:
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Strictness
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----------
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If a class has a single non-virtual base and does not introduce or override
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virtual member functions or fields other than an implicitly defined virtual
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destructor, it will have the same layout and virtual function semantics as
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its base. By default, casts to such classes are checked as if they were made
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to the least derived such class.
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Casting an instance of a base class to such a derived class is technically
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undefined behavior, but it is a relatively common hack for introducing
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member functions on class instances with specific properties that works under
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most compilers and should not have security implications, so we allow it by
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default. It can be disabled with ``-fsanitize=cfi-cast-strict``.
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Indirect Function Call Checking
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===============================
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This scheme checks that function calls take place using a function of the
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correct dynamic type; that is, the dynamic type of the function must match
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the static type used at the call. This CFI scheme can be enabled on its own
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using ``-fsanitize=cfi-icall``.
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For this scheme to work, each indirect function call in the program, other
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than calls in :ref:`blacklisted <cfi-blacklist>` functions, must call a
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function which was either compiled with ``-fsanitize=cfi-icall`` enabled,
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or whose address was taken by a function in a translation unit compiled with
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``-fsanitize=cfi-icall``.
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If a function in a translation unit compiled with ``-fsanitize=cfi-icall``
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takes the address of a function not compiled with ``-fsanitize=cfi-icall``,
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that address may differ from the address taken by a function in a translation
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unit not compiled with ``-fsanitize=cfi-icall``. This is technically a
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violation of the C and C++ standards, but it should not affect most programs.
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Each translation unit compiled with ``-fsanitize=cfi-icall`` must be
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statically linked into the program or shared library, and calls across
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shared library boundaries are handled as if the callee was not compiled with
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``-fsanitize=cfi-icall``.
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This scheme is currently supported on a limited set of targets: x86,
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x86_64, arm, arch64 and wasm.
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``-fsanitize-cfi-icall-generalize-pointers``
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--------------------------------------------
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Mismatched pointer types are a common cause of cfi-icall check failures.
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Translation units compiled with the ``-fsanitize-cfi-icall-generalize-pointers``
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flag relax pointer type checking for call sites in that translation unit,
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applied across all functions compiled with ``-fsanitize=cfi-icall``.
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Specifically, pointers in return and argument types are treated as equivalent as
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long as the qualifiers for the type they point to match. For example, ``char*``,
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``char**``, and ``int*`` are considered equivalent types. However, ``char*`` and
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``const char*`` are considered separate types.
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``-fsanitize-cfi-icall-generalize-pointers`` is not compatible with
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``-fsanitize-cfi-cross-dso``.
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.. _cfi-canonical-jump-tables:
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``-fsanitize-cfi-canonical-jump-tables``
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----------------------------------------
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The default behavior of Clang's indirect function call checker will replace
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the address of each CFI-checked function in the output file's symbol table
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with the address of a jump table entry which will pass CFI checks. We refer
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to this as making the jump table `canonical`. This property allows code that
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was not compiled with ``-fsanitize=cfi-icall`` to take a CFI-valid address
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of a function, but it comes with a couple of caveats that are especially
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relevant for users of cross-DSO CFI:
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- There is a performance and code size overhead associated with each
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exported function, because each such function must have an associated
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jump table entry, which must be emitted even in the common case where the
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function is never address-taken anywhere in the program, and must be used
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even for direct calls between DSOs, in addition to the PLT overhead.
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- There is no good way to take a CFI-valid address of a function written in
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assembly or a language not supported by Clang. The reason is that the code
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generator would need to insert a jump table in order to form a CFI-valid
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address for assembly functions, but there is no way in general for the
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code generator to determine the language of the function. This may be
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possible with LTO in the intra-DSO case, but in the cross-DSO case the only
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information available is the function declaration. One possible solution
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is to add a C wrapper for each assembly function, but these wrappers can
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present a significant maintenance burden for heavy users of assembly in
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addition to adding runtime overhead.
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For these reasons, we provide the option of making the jump table non-canonical
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with the flag ``-fno-sanitize-cfi-canonical-jump-tables``. When the jump
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table is made non-canonical, symbol table entries point directly to the
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function body. Any instances of a function's address being taken in C will
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be replaced with a jump table address.
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This scheme does have its own caveats, however. It does end up breaking
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function address equality more aggressively than the default behavior,
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especially in cross-DSO mode which normally preserves function address
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equality entirely.
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Furthermore, it is occasionally necessary for code not compiled with
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``-fsanitize=cfi-icall`` to take a function address that is valid
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for CFI. For example, this is necessary when a function's address
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is taken by assembly code and then called by CFI-checking C code. The
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``__attribute__((cfi_canonical_jump_table))`` attribute may be used to make
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the jump table entry of a specific function canonical so that the external
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code will end up taking a address for the function that will pass CFI checks.
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``-fsanitize=cfi-icall`` and ``-fsanitize=function``
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----------------------------------------------------
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This tool is similar to ``-fsanitize=function`` in that both tools check
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the types of function calls. However, the two tools occupy different points
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on the design space; ``-fsanitize=function`` is a developer tool designed
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to find bugs in local development builds, whereas ``-fsanitize=cfi-icall``
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is a security hardening mechanism designed to be deployed in release builds.
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``-fsanitize=function`` has a higher space and time overhead due to a more
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complex type check at indirect call sites, as well as a need for run-time
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type information (RTTI), which may make it unsuitable for deployment. Because
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of the need for RTTI, ``-fsanitize=function`` can only be used with C++
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programs, whereas ``-fsanitize=cfi-icall`` can protect both C and C++ programs.
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On the other hand, ``-fsanitize=function`` conforms more closely with the C++
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standard and user expectations around interaction with shared libraries;
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the identity of function pointers is maintained, and calls across shared
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library boundaries are no different from calls within a single program or
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shared library.
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Member Function Pointer Call Checking
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=====================================
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This scheme checks that indirect calls via a member function pointer
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take place using an object of the correct dynamic type. Specifically, we
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check that the dynamic type of the member function referenced by the member
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function pointer matches the "function pointer" part of the member function
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pointer, and that the member function's class type is related to the base
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type of the member function. This CFI scheme can be enabled on its own using
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``-fsanitize=cfi-mfcall``.
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The compiler will only emit a full CFI check if the member function pointer's
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base type is complete. This is because the complete definition of the base
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type contains information that is necessary to correctly compile the CFI
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check. To ensure that the compiler always emits a full CFI check, it is
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recommended to also pass the flag ``-fcomplete-member-pointers``, which
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enables a non-conforming language extension that requires member pointer
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base types to be complete if they may be used for a call.
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For this scheme to work, all translation units containing the definition
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of a virtual member function (whether inline or not), other than members
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of :ref:`blacklisted <cfi-blacklist>` types or types with public :doc:`LTO
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visibility <LTOVisibility>`, must be compiled with ``-flto`` or ``-flto=thin``
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enabled and be statically linked into the program.
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This scheme is currently not compatible with cross-DSO CFI or the
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Microsoft ABI.
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.. _cfi-blacklist:
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Blacklist
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=========
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A :doc:`SanitizerSpecialCaseList` can be used to relax CFI checks for certain
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source files, functions and types using the ``src``, ``fun`` and ``type``
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entity types. Specific CFI modes can be be specified using ``[section]``
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headers.
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.. code-block:: bash
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# Suppress all CFI checking for code in a file.
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src:bad_file.cpp
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src:bad_header.h
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# Ignore all functions with names containing MyFooBar.
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fun:*MyFooBar*
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# Ignore all types in the standard library.
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type:std::*
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# Disable only unrelated cast checks for this function
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[cfi-unrelated-cast]
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fun:*UnrelatedCast*
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# Disable CFI call checks for this function without affecting cast checks
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[cfi-vcall|cfi-nvcall|cfi-icall]
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fun:*BadCall*
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.. _cfi-cross-dso:
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Shared library support
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======================
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Use **-f[no-]sanitize-cfi-cross-dso** to enable the cross-DSO control
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flow integrity mode, which allows all CFI schemes listed above to
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apply across DSO boundaries. As in the regular CFI, each DSO must be
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built with ``-flto`` or ``-flto=thin``.
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Normally, CFI checks will only be performed for classes that have hidden LTO
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visibility. With this flag enabled, the compiler will emit cross-DSO CFI
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checks for all classes, except for those which appear in the CFI blacklist
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or which use a ``no_sanitize`` attribute.
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Design
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======
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Please refer to the :doc:`design document<ControlFlowIntegrityDesign>`.
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Publications
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============
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`Control-Flow Integrity: Principles, Implementations, and Applications <https://research.microsoft.com/pubs/64250/ccs05.pdf>`_.
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Martin Abadi, Mihai Budiu, Úlfar Erlingsson, Jay Ligatti.
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`Enforcing Forward-Edge Control-Flow Integrity in GCC & LLVM <http://www.pcc.me.uk/~peter/acad/usenix14.pdf>`_.
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Caroline Tice, Tom Roeder, Peter Collingbourne, Stephen Checkoway,
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Úlfar Erlingsson, Luis Lozano, Geoff Pike.
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