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239 lines
8.2 KiB
239 lines
8.2 KiB
=================
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DataFlowSanitizer
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=================
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.. toctree::
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:hidden:
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DataFlowSanitizerDesign
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.. contents::
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:local:
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Introduction
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============
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DataFlowSanitizer is a generalised dynamic data flow analysis.
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Unlike other Sanitizer tools, this tool is not designed to detect a
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specific class of bugs on its own. Instead, it provides a generic
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dynamic data flow analysis framework to be used by clients to help
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detect application-specific issues within their own code.
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How to build libc++ with DFSan
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==============================
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DFSan requires either all of your code to be instrumented or for uninstrumented
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functions to be listed as ``uninstrumented`` in the `ABI list`_.
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If you'd like to have instrumented libc++ functions, then you need to build it
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with DFSan instrumentation from source. Here is an example of how to build
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libc++ and the libc++ ABI with data flow sanitizer instrumentation.
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.. code-block:: console
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cd libcxx-build
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# An example using ninja
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cmake -GNinja path/to/llvm-project/llvm \
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-DCMAKE_C_COMPILER=clang \
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-DCMAKE_CXX_COMPILER=clang++ \
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-DLLVM_USE_SANITIZER="DataFlow" \
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-DLLVM_ENABLE_LIBCXX=ON \
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-DLLVM_ENABLE_PROJECTS="libcxx;libcxxabi"
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ninja cxx cxxabi
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Note: Ensure you are building with a sufficiently new version of Clang.
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Usage
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=====
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With no program changes, applying DataFlowSanitizer to a program
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will not alter its behavior. To use DataFlowSanitizer, the program
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uses API functions to apply tags to data to cause it to be tracked, and to
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check the tag of a specific data item. DataFlowSanitizer manages
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the propagation of tags through the program according to its data flow.
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The APIs are defined in the header file ``sanitizer/dfsan_interface.h``.
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For further information about each function, please refer to the header
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file.
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.. _ABI list:
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ABI List
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--------
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DataFlowSanitizer uses a list of functions known as an ABI list to decide
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whether a call to a specific function should use the operating system's native
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ABI or whether it should use a variant of this ABI that also propagates labels
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through function parameters and return values. The ABI list file also controls
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how labels are propagated in the former case. DataFlowSanitizer comes with a
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default ABI list which is intended to eventually cover the glibc library on
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Linux but it may become necessary for users to extend the ABI list in cases
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where a particular library or function cannot be instrumented (e.g. because
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it is implemented in assembly or another language which DataFlowSanitizer does
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not support) or a function is called from a library or function which cannot
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be instrumented.
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DataFlowSanitizer's ABI list file is a :doc:`SanitizerSpecialCaseList`.
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The pass treats every function in the ``uninstrumented`` category in the
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ABI list file as conforming to the native ABI. Unless the ABI list contains
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additional categories for those functions, a call to one of those functions
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will produce a warning message, as the labelling behavior of the function
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is unknown. The other supported categories are ``discard``, ``functional``
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and ``custom``.
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* ``discard`` -- To the extent that this function writes to (user-accessible)
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memory, it also updates labels in shadow memory (this condition is trivially
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satisfied for functions which do not write to user-accessible memory). Its
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return value is unlabelled.
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* ``functional`` -- Like ``discard``, except that the label of its return value
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is the union of the label of its arguments.
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* ``custom`` -- Instead of calling the function, a custom wrapper ``__dfsw_F``
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is called, where ``F`` is the name of the function. This function may wrap
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the original function or provide its own implementation. This category is
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generally used for uninstrumentable functions which write to user-accessible
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memory or which have more complex label propagation behavior. The signature
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of ``__dfsw_F`` is based on that of ``F`` with each argument having a
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label of type ``dfsan_label`` appended to the argument list. If ``F``
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is of non-void return type a final argument of type ``dfsan_label *``
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is appended to which the custom function can store the label for the
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return value. For example:
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.. code-block:: c++
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void f(int x);
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void __dfsw_f(int x, dfsan_label x_label);
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void *memcpy(void *dest, const void *src, size_t n);
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void *__dfsw_memcpy(void *dest, const void *src, size_t n,
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dfsan_label dest_label, dfsan_label src_label,
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dfsan_label n_label, dfsan_label *ret_label);
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If a function defined in the translation unit being compiled belongs to the
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``uninstrumented`` category, it will be compiled so as to conform to the
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native ABI. Its arguments will be assumed to be unlabelled, but it will
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propagate labels in shadow memory.
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For example:
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.. code-block:: none
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# main is called by the C runtime using the native ABI.
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fun:main=uninstrumented
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fun:main=discard
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# malloc only writes to its internal data structures, not user-accessible memory.
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fun:malloc=uninstrumented
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fun:malloc=discard
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# tolower is a pure function.
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fun:tolower=uninstrumented
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fun:tolower=functional
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# memcpy needs to copy the shadow from the source to the destination region.
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# This is done in a custom function.
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fun:memcpy=uninstrumented
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fun:memcpy=custom
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Example
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=======
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The following program demonstrates label propagation by checking that
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the correct labels are propagated.
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.. code-block:: c++
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#include <sanitizer/dfsan_interface.h>
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#include <assert.h>
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int main(void) {
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int i = 1;
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dfsan_label i_label = dfsan_create_label("i", 0);
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dfsan_set_label(i_label, &i, sizeof(i));
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int j = 2;
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dfsan_label j_label = dfsan_create_label("j", 0);
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dfsan_set_label(j_label, &j, sizeof(j));
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int k = 3;
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dfsan_label k_label = dfsan_create_label("k", 0);
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dfsan_set_label(k_label, &k, sizeof(k));
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dfsan_label ij_label = dfsan_get_label(i + j);
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assert(dfsan_has_label(ij_label, i_label));
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assert(dfsan_has_label(ij_label, j_label));
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assert(!dfsan_has_label(ij_label, k_label));
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dfsan_label ijk_label = dfsan_get_label(i + j + k);
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assert(dfsan_has_label(ijk_label, i_label));
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assert(dfsan_has_label(ijk_label, j_label));
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assert(dfsan_has_label(ijk_label, k_label));
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return 0;
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}
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fast16labels mode
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=================
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If you need 16 or fewer labels, you can use fast16labels instrumentation for
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less CPU and code size overhead. To use fast16labels instrumentation, you'll
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need to specify `-fsanitize=dataflow -mllvm -dfsan-fast-16-labels` in your
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compile and link commands and use a modified API for creating and managing
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labels.
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In fast16labels mode, base labels are simply 16-bit unsigned integers that are
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powers of 2 (i.e. 1, 2, 4, 8, ..., 32768), and union labels are created by ORing
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base labels. In this mode DFSan does not manage any label metadata, so the
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functions `dfsan_create_label`, `dfsan_union`, `dfsan_get_label_info`,
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`dfsan_has_label`, `dfsan_has_label_with_desc`, `dfsan_get_label_count`, and
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`dfsan_dump_labels` are unsupported. Instead of using them, the user should
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maintain any necessary metadata about base labels themselves.
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For example:
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.. code-block:: c++
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#include <sanitizer/dfsan_interface.h>
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#include <assert.h>
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int main(void) {
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int i = 100;
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int j = 200;
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int k = 300;
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dfsan_label i_label = 1;
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dfsan_label j_label = 2;
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dfsan_label k_label = 4;
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dfsan_set_label(i_label, &i, sizeof(i));
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dfsan_set_label(j_label, &j, sizeof(j));
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dfsan_set_label(k_label, &k, sizeof(k));
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dfsan_label ij_label = dfsan_get_label(i + j);
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assert(ij_label & i_label); // ij_label has i_label
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assert(ij_label & j_label); // ij_label has j_label
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assert(!(ij_label & k_label)); // ij_label doesn't have k_label
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assert(ij_label == 3); // Verifies all of the above
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dfsan_label ijk_label = dfsan_get_label(i + j + k);
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assert(ijk_label & i_label); // ijk_label has i_label
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assert(ijk_label & j_label); // ijk_label has j_label
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assert(ijk_label & k_label); // ijk_label has k_label
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assert(ijk_label == 7); // Verifies all of the above
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return 0;
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}
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Current status
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==============
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DataFlowSanitizer is a work in progress, currently under development for
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x86\_64 Linux.
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Design
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======
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Please refer to the :doc:`design document<DataFlowSanitizerDesign>`.
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