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ReStructuredText
314 lines
13 KiB
ReStructuredText
==========================
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UndefinedBehaviorSanitizer
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==========================
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.. contents::
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:local:
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Introduction
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============
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UndefinedBehaviorSanitizer (UBSan) is a fast undefined behavior detector.
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UBSan modifies the program at compile-time to catch various kinds of undefined
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behavior during program execution, for example:
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* Using misaligned or null pointer
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* Signed integer overflow
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* Conversion to, from, or between floating-point types which would
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overflow the destination
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See the full list of available :ref:`checks <ubsan-checks>` below.
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UBSan has an optional run-time library which provides better error reporting.
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The checks have small runtime cost and no impact on address space layout or ABI.
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How to build
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============
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Build LLVM/Clang with `CMake <http://llvm.org/docs/CMake.html>`_.
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Usage
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=====
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Use ``clang++`` to compile and link your program with ``-fsanitize=undefined``
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flag. Make sure to use ``clang++`` (not ``ld``) as a linker, so that your
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executable is linked with proper UBSan runtime libraries. You can use ``clang``
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instead of ``clang++`` if you're compiling/linking C code.
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.. code-block:: console
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% cat test.cc
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int main(int argc, char **argv) {
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int k = 0x7fffffff;
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k += argc;
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return 0;
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}
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% clang++ -fsanitize=undefined test.cc
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% ./a.out
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test.cc:3:5: runtime error: signed integer overflow: 2147483647 + 1 cannot be represented in type 'int'
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You can enable only a subset of :ref:`checks <ubsan-checks>` offered by UBSan,
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and define the desired behavior for each kind of check:
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* ``-fsanitize=...``: print a verbose error report and continue execution (default);
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* ``-fno-sanitize-recover=...``: print a verbose error report and exit the program;
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* ``-fsanitize-trap=...``: execute a trap instruction (doesn't require UBSan run-time support).
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For example if you compile/link your program as:
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.. code-block:: console
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% clang++ -fsanitize=signed-integer-overflow,null,alignment -fno-sanitize-recover=null -fsanitize-trap=alignment
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the program will continue execution after signed integer overflows, exit after
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the first invalid use of a null pointer, and trap after the first use of misaligned
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pointer.
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.. _ubsan-checks:
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Available checks
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================
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Available checks are:
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- ``-fsanitize=alignment``: Use of a misaligned pointer or creation
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of a misaligned reference.
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- ``-fsanitize=bool``: Load of a ``bool`` value which is neither
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``true`` nor ``false``.
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- ``-fsanitize=builtin``: Passing invalid values to compiler builtins.
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- ``-fsanitize=bounds``: Out of bounds array indexing, in cases
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where the array bound can be statically determined.
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- ``-fsanitize=enum``: Load of a value of an enumerated type which
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is not in the range of representable values for that enumerated
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type.
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- ``-fsanitize=float-cast-overflow``: Conversion to, from, or
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between floating-point types which would overflow the
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destination.
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- ``-fsanitize=float-divide-by-zero``: Floating point division by
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zero.
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- ``-fsanitize=function``: Indirect call of a function through a
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function pointer of the wrong type (Darwin/Linux, C++ and x86/x86_64
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only).
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- ``-fsanitize=implicit-integer-truncation``: Implicit conversion from
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integer of larger bit width to smaller bit width, if that results in data
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loss. That is, if the demoted value, after casting back to the original
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width, is not equal to the original value before the downcast.
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Issues caught by this sanitizer are not undefined behavior,
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but are often unintentional.
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- ``-fsanitize=integer-divide-by-zero``: Integer division by zero.
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- ``-fsanitize=nonnull-attribute``: Passing null pointer as a function
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parameter which is declared to never be null.
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- ``-fsanitize=null``: Use of a null pointer or creation of a null
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reference.
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- ``-fsanitize=nullability-arg``: Passing null as a function parameter
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which is annotated with ``_Nonnull``.
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- ``-fsanitize=nullability-assign``: Assigning null to an lvalue which
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is annotated with ``_Nonnull``.
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- ``-fsanitize=nullability-return``: Returning null from a function with
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a return type annotated with ``_Nonnull``.
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- ``-fsanitize=object-size``: An attempt to potentially use bytes which
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the optimizer can determine are not part of the object being accessed.
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This will also detect some types of undefined behavior that may not
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directly access memory, but are provably incorrect given the size of
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the objects involved, such as invalid downcasts and calling methods on
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invalid pointers. These checks are made in terms of
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``__builtin_object_size``, and consequently may be able to detect more
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problems at higher optimization levels.
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- ``-fsanitize=pointer-overflow``: Performing pointer arithmetic which
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overflows.
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- ``-fsanitize=return``: In C++, reaching the end of a
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value-returning function without returning a value.
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- ``-fsanitize=returns-nonnull-attribute``: Returning null pointer
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from a function which is declared to never return null.
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- ``-fsanitize=shift``: Shift operators where the amount shifted is
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greater or equal to the promoted bit-width of the left hand side
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or less than zero, or where the left hand side is negative. For a
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signed left shift, also checks for signed overflow in C, and for
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unsigned overflow in C++. You can use ``-fsanitize=shift-base`` or
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``-fsanitize=shift-exponent`` to check only left-hand side or
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right-hand side of shift operation, respectively.
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- ``-fsanitize=signed-integer-overflow``: Signed integer overflow, where the
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result of a signed integer computation cannot be represented in its type.
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This includes all the checks covered by ``-ftrapv``, as well as checks for
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signed division overflow (``INT_MIN/-1``), but not checks for
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lossy implicit conversions performed before the computation
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(see ``-fsanitize=implicit-conversion``). Both of these two issues are
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handled by ``-fsanitize=implicit-conversion`` group of checks.
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- ``-fsanitize=unreachable``: If control flow reaches an unreachable
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program point.
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- ``-fsanitize=unsigned-integer-overflow``: Unsigned integer overflow, where
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the result of an unsigned integer computation cannot be represented in its
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type. Unlike signed integer overflow, this is not undefined behavior, but
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it is often unintentional. This sanitizer does not check for lossy implicit
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conversions performed before such a computation
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(see ``-fsanitize=implicit-conversion``).
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- ``-fsanitize=vla-bound``: A variable-length array whose bound
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does not evaluate to a positive value.
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- ``-fsanitize=vptr``: Use of an object whose vptr indicates that it is of
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the wrong dynamic type, or that its lifetime has not begun or has ended.
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Incompatible with ``-fno-rtti``. Link must be performed by ``clang++``, not
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``clang``, to make sure C++-specific parts of the runtime library and C++
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standard libraries are present.
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You can also use the following check groups:
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- ``-fsanitize=undefined``: All of the checks listed above other than
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``unsigned-integer-overflow``, ``implicit-conversion`` and the
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``nullability-*`` group of checks.
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- ``-fsanitize=undefined-trap``: Deprecated alias of
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``-fsanitize=undefined``.
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- ``-fsanitize=integer``: Checks for undefined or suspicious integer
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behavior (e.g. unsigned integer overflow).
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Enables ``signed-integer-overflow``, ``unsigned-integer-overflow``,
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``shift``, ``integer-divide-by-zero``, and ``implicit-integer-truncation``.
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- ``-fsanitize=implicit-conversion``: Checks for suspicious behaviours of
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implicit conversions.
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Currently, only ``-fsanitize=implicit-integer-truncation`` is implemented.
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- ``-fsanitize=nullability``: Enables ``nullability-arg``,
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``nullability-assign``, and ``nullability-return``. While violating
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nullability does not have undefined behavior, it is often unintentional,
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so UBSan offers to catch it.
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Volatile
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--------
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The ``null``, ``alignment``, ``object-size``, and ``vptr`` checks do not apply
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to pointers to types with the ``volatile`` qualifier.
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Minimal Runtime
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===============
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There is a minimal UBSan runtime available suitable for use in production
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environments. This runtime has a small attack surface. It only provides very
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basic issue logging and deduplication, and does not support ``-fsanitize=vptr``
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checking.
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To use the minimal runtime, add ``-fsanitize-minimal-runtime`` to the clang
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command line options. For example, if you're used to compiling with
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``-fsanitize=undefined``, you could enable the minimal runtime with
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``-fsanitize=undefined -fsanitize-minimal-runtime``.
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Stack traces and report symbolization
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=====================================
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If you want UBSan to print symbolized stack trace for each error report, you
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will need to:
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#. Compile with ``-g`` and ``-fno-omit-frame-pointer`` to get proper debug
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information in your binary.
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#. Run your program with environment variable
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``UBSAN_OPTIONS=print_stacktrace=1``.
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#. Make sure ``llvm-symbolizer`` binary is in ``PATH``.
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Silencing Unsigned Integer Overflow
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===================================
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To silence reports from unsigned integer overflow, you can set
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``UBSAN_OPTIONS=silence_unsigned_overflow=1``. This feature, combined with
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``-fsanitize-recover=unsigned-integer-overflow``, is particularly useful for
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providing fuzzing signal without blowing up logs.
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Issue Suppression
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=================
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UndefinedBehaviorSanitizer is not expected to produce false positives.
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If you see one, look again; most likely it is a true positive!
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Disabling Instrumentation with ``__attribute__((no_sanitize("undefined")))``
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----------------------------------------------------------------------------
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You disable UBSan checks for particular functions with
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``__attribute__((no_sanitize("undefined")))``. You can use all values of
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``-fsanitize=`` flag in this attribute, e.g. if your function deliberately
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contains possible signed integer overflow, you can use
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``__attribute__((no_sanitize("signed-integer-overflow")))``.
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This attribute may not be
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supported by other compilers, so consider using it together with
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``#if defined(__clang__)``.
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Suppressing Errors in Recompiled Code (Blacklist)
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-------------------------------------------------
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UndefinedBehaviorSanitizer supports ``src`` and ``fun`` entity types in
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:doc:`SanitizerSpecialCaseList`, that can be used to suppress error reports
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in the specified source files or functions.
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Runtime suppressions
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--------------------
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Sometimes you can suppress UBSan error reports for specific files, functions,
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or libraries without recompiling the code. You need to pass a path to
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suppression file in a ``UBSAN_OPTIONS`` environment variable.
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.. code-block:: bash
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UBSAN_OPTIONS=suppressions=MyUBSan.supp
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You need to specify a :ref:`check <ubsan-checks>` you are suppressing and the
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bug location. For example:
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.. code-block:: bash
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signed-integer-overflow:file-with-known-overflow.cpp
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alignment:function_doing_unaligned_access
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vptr:shared_object_with_vptr_failures.so
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There are several limitations:
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* Sometimes your binary must have enough debug info and/or symbol table, so
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that the runtime could figure out source file or function name to match
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against the suppression.
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* It is only possible to suppress recoverable checks. For the example above,
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you can additionally pass
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``-fsanitize-recover=signed-integer-overflow,alignment,vptr``, although
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most of UBSan checks are recoverable by default.
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* Check groups (like ``undefined``) can't be used in suppressions file, only
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fine-grained checks are supported.
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Supported Platforms
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===================
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UndefinedBehaviorSanitizer is supported on the following OS:
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* Android
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* Linux
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* NetBSD
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* FreeBSD
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* OpenBSD
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* OS X 10.6 onwards
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Current Status
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==============
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UndefinedBehaviorSanitizer is available on selected platforms starting from LLVM
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3.3. The test suite is integrated into the CMake build and can be run with
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``check-ubsan`` command.
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Additional Configuration
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========================
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UndefinedBehaviorSanitizer adds static check data for each check unless it is
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in trap mode. This check data includes the full file name. The option
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``-fsanitize-undefined-strip-path-components=N`` can be used to trim this
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information. If ``N`` is positive, file information emitted by
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UndefinedBehaviorSanitizer will drop the first ``N`` components from the file
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path. If ``N`` is negative, the last ``N`` components will be kept.
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Example
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-------
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For a file called ``/code/library/file.cpp``, here is what would be emitted:
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* Default (No flag, or ``-fsanitize-undefined-strip-path-components=0``): ``/code/library/file.cpp``
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* ``-fsanitize-undefined-strip-path-components=1``: ``code/library/file.cpp``
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* ``-fsanitize-undefined-strip-path-components=2``: ``library/file.cpp``
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* ``-fsanitize-undefined-strip-path-components=-1``: ``file.cpp``
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* ``-fsanitize-undefined-strip-path-components=-2``: ``library/file.cpp``
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More Information
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================
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* From LLVM project blog:
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`What Every C Programmer Should Know About Undefined Behavior
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<http://blog.llvm.org/2011/05/what-every-c-programmer-should-know.html>`_
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* From John Regehr's *Embedded in Academia* blog:
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`A Guide to Undefined Behavior in C and C++
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<http://blog.regehr.org/archives/213>`_
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