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Update the Scudo document to align with the standalone version. Add some more verbiage about the various component of the allocator, rework a bit everything. The build instructions have been updated. The options and their default values have been updated, and the `mallopt` ones have been added. Differential Revision: https://reviews.llvm.org/D100230
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339 lines
18 KiB
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========================
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Scudo Hardened Allocator
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========================
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.. contents::
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:local:
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:depth: 2
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Introduction
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============
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The Scudo Hardened Allocator is a user-mode allocator, originally based on LLVM
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Sanitizers'
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`CombinedAllocator <https://github.com/llvm/llvm-project/blob/main/compiler-rt/lib/sanitizer_common/sanitizer_allocator_combined.h>`_.
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It aims at providing additional mitigation against heap based vulnerabilities,
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while maintaining good performance. Scudo is currently the default allocator in
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`Fuchsia <https://fuchsia.dev/>`_, and in `Android <https://www.android.com/>`_
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since Android 11.
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The name "Scudo" comes from the Italian word for
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`shield <https://www.collinsdictionary.com/dictionary/italian-english/scudo>`_
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(and Escudo in Spanish).
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Design
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======
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Allocator
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---------
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Scudo was designed with security in mind, but aims at striking a good balance
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between security and performance. It was designed to be highly tunable and
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configurable, and while we provide some default configurations, we encourage
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consumers to come up with the parameters that will work best for their use
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cases.
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The allocator combines several components that serve distinct purposes:
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- the Primary allocator: fast and efficient, it services smaller allocation
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sizes by carving reserved memory regions into blocks of identical size. There
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are currently two Primary allocators implemented, specific to 32 and 64 bit
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architectures. It is configurable via compile time options.
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- the Secondary allocator: slower, it services larger allocation sizes via the
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memory mapping primitives of the underlying operating system. Secondary backed
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allocations are surrounded by Guard Pages. It is also configurable via compile
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time options.
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- the thread specific data Registry: defines how local caches operate for each
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thread. There are currently two models implemented: the exlusive model where
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each thread holds its own caches (using the ELF TLS); or the shared model
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where threads share a fixed size pool of caches.
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- the Quarantine: offers a way to delay the deallocation operations, preventing
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blocks to be immediately available for reuse. Blocks held will be recycled
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once certain size criteria are reached. This is essentially a delayed freelist
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which can help mitigate some use-after-free situations. This feature is fairly
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costly in terms of performance and memory footprint, is mostly controlled by
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runtime options and is disabled by default.
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Allocations Header
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------------------
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Every chunk of heap memory returned to an application by the allocator will be
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preceded by a header. This has two purposes:
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- being to store various information about the chunk, that can be leveraged to
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ensure consistency of the heap operations;
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- being able to detect potential corruption. For this purpose, the header is
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checksummed and corruption of the header will be detected when said header is
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accessed (note that if the corrupted header is not accessed, the corruption
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will remain undetected).
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The following information is stored in the header:
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- the class ID for that chunk, which identifies the region where the chunk
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resides for Primary backed allocations, or 0 for Secondary backed allocations;
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- the state of the chunk (available, allocated or quarantined);
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- the allocation type (malloc, new, new[] or memalign), to detect potential
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mismatches in the allocation APIs used;
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- the size (Primary) or unused bytes amount (Secondary) for that chunk, which is
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necessary for reallocation or sized-deallocation operations;
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- the offset of the chunk, which is the distance in bytes from the beginning of
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the returned chunk to the beginning of the backend allocation (the "block");
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- the 16-bit checksum;
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This header fits within 8 bytes on all platforms supported, and contributes to a
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small overhead for each allocation.
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The checksum is computed using a CRC32 (made faster with hardware support)
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of the global secret, the chunk pointer itself, and the 8 bytes of header with
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the checksum field zeroed out. It is not intended to be cryptographically
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strong.
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The header is atomically loaded and stored to prevent races. This is important
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as two consecutive chunks could belong to different threads. We work on local
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copies and use compare-exchange primitives to update the headers in the heap
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memory, and avoid any type of double-fetching.
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Randomness
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----------
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Randomness is a critical factor to the additional security provided by the
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allocator. The allocator trusts the memory mapping primitives of the OS to
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provide pages at (mostly) non-predictable locations in memory, as well as the
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binaries to be compiled with ASLR. In the event one of those assumptions is
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incorrect, the security will be greatly reduced. Scudo further randomizes how
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blocks are allocated in the Primary, can randomize how caches are assigned to
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threads.
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Memory reclaiming
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-----------------
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Primary and Secondary allocators have different behaviors with regard to
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reclaiming. While Secondary mapped allocations can be unmapped on deallocation,
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it isn't the case for the Primary, which could lead to a steady growth of the
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RSS of a process. To counteracty this, if the underlying OS allows it, pages
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that are covered by contiguous free memory blocks in the Primary can be
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released: this generally means they won't count towards the RSS of a process and
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be zero filled on subsequent accesses). This is done in the deallocation path,
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and several options exist to tune this behavior.
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Usage
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=====
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Platform
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--------
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If using Fuchsia or an Android version greater than 11, your memory allocations
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are already service by Scudo (note that Android Svelte configurations still use
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jemalloc).
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Library
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-------
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The allocator static library can be built from the LLVM tree thanks to the
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``scudo_standalone`` CMake rule. The associated tests can be exercised thanks to
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the ``check-scudo_standalone`` CMake rule.
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Linking the static library to your project can require the use of the
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``whole-archive`` linker flag (or equivalent), depending on your linker.
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Additional flags might also be necessary.
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Your linked binary should now make use of the Scudo allocation and deallocation
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functions.
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You may also build Scudo like this:
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.. code:: console
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cd $LLVM/compiler-rt/lib
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clang++ -fPIC -std=c++17 -msse4.2 -O2 -pthread -shared \
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-I scudo/standalone/include \
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scudo/standalone/*.cpp \
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-o $HOME/libscudo.so
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and then use it with existing binaries as follows:
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.. code:: console
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LD_PRELOAD=$HOME/libscudo.so ./a.out
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Clang
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-----
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With a recent version of Clang (post rL317337), the "old" version of the
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allocator can be linked with a binary at compilation using the
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``-fsanitize=scudo`` command-line argument, if the target platform is supported.
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Currently, the only other sanitizer Scudo is compatible with is UBSan
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(eg: ``-fsanitize=scudo,undefined``). Compiling with Scudo will also enforce
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PIE for the output binary.
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We will transition this to the standalone Scudo version in the future.
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Options
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-------
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Several aspects of the allocator can be configured on a per process basis
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through the following ways:
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- at compile time, by defining ``SCUDO_DEFAULT_OPTIONS`` to the options string
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you want set by default;
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- by defining a ``__scudo_default_options`` function in one's program that
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returns the options string to be parsed. Said function must have the following
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prototype: ``extern "C" const char* __scudo_default_options(void)``, with a
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default visibility. This will override the compile time define;
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- through the environment variable SCUDO_OPTIONS, containing the options string
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to be parsed. Options defined this way will override any definition made
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through ``__scudo_default_options``.
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- via the standard ``mallopt`` `API <https://man7.org/linux/man-pages/man3/mallopt.3.html>`_,
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using parameters that are Scudo specific.
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When dealing with the options string, it follows a syntax similar to ASan, where
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distinct options can be assigned in the same string, separated by colons.
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For example, using the environment variable:
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.. code:: console
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SCUDO_OPTIONS="delete_size_mismatch=false:release_to_os_interval_ms=-1" ./a.out
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Or using the function:
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.. code:: cpp
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extern "C" const char *__scudo_default_options() {
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return "delete_size_mismatch=false:release_to_os_interval_ms=-1";
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}
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The following "string" options are available:
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| Option | 64-bit default | 32-bit default | Description |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| quarantine_size_kb | 0 | 0 | The size (in Kb) of quarantine used to delay |
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| | | | the actual deallocation of chunks. Lower value |
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| | | | may reduce memory usage but decrease the |
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| | | | effectiveness of the mitigation; a negative |
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| | | | value will fallback to the defaults. Setting |
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| | | | *both* this and thread_local_quarantine_size_kb |
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| | | | to zero will disable the quarantine entirely. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| quarantine_max_chunk_size | 0 | 0 | Size (in bytes) up to which chunks can be |
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| | | | quarantined. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| thread_local_quarantine_size_kb | 0 | 0 | The size (in Kb) of per-thread cache use to |
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| | | | offload the global quarantine. Lower value may |
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| | | | reduce memory usage but might increase |
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| | | | contention on the global quarantine. Setting |
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| | | | *both* this and quarantine_size_kb to zero will |
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| | | | disable the quarantine entirely. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| dealloc_type_mismatch | false | false | Whether or not we report errors on |
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| | | | malloc/delete, new/free, new/delete[], etc. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| delete_size_mismatch | true | true | Whether or not we report errors on mismatch |
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| | | | between sizes of new and delete. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| zero_contents | false | false | Whether or not we zero chunk contents on |
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| | | | allocation. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| pattern_fill_contents | false | false | Whether or not we fill chunk contents with a |
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| | | | byte pattern on allocation. |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| may_return_null | true | true | Whether or not a non-fatal failure can return a |
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| | | | NULL pointer (as opposed to terminating). |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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| release_to_os_interval_ms | 5000 | 5000 | The minimum interval (in ms) at which a release |
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| | | | can be attempted (a negative value disables |
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| | | | reclaiming). |
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+---------------------------------+----------------+----------------+-------------------------------------------------+
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Additional flags can be specified, for example if Scudo if compiled with
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`GWP-ASan <https://llvm.org/docs/GwpAsan.html>`_ support.
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The following "mallopt" options are available (options are defined in
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``include/scudo/interface.h``):
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+---------------------------+-------------------------------------------------------+
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| Option | Description |
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+---------------------------+-------------------------------------------------------+
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| M_DECAY_TIME | Sets the release interval option to the specified |
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| | value (Android only allows 0 or 1 to respectively set |
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| | the interval to the mininum and maximum value as |
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| | specified at compile time). |
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+---------------------------+-------------------------------------------------------+
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| M_PURGE | Forces immediate memory reclaiming (value is unused). |
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+---------------------------+-------------------------------------------------------+
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| M_MEMTAG_TUNING | Tunes the allocator's choice of memory tags to make |
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| | it more likely that a certain class of memory errors |
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| | will be detected. The value argument should be one of |
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| | the enumerators of ``scudo_memtag_tuning``. |
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+---------------------------+-------------------------------------------------------+
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| M_THREAD_DISABLE_MEM_INIT | Tunes the per-thread memory initialization, 0 being |
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| | the normal behavior, 1 disabling the automatic heap |
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| | initialization. |
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+---------------------------+-------------------------------------------------------+
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| M_CACHE_COUNT_MAX | Set the maximum number of entries than can be cached |
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| | in the Secondary cache. |
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+---------------------------+-------------------------------------------------------+
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| M_CACHE_SIZE_MAX | Sets the maximum size of entries that can be cached |
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| | in the Secondary cache. |
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+---------------------------+-------------------------------------------------------+
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| M_TSDS_COUNT_MAX | Increases the maximum number of TSDs that can be used |
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| | up to the limit specified at compile time. |
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+---------------------------+-------------------------------------------------------+
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Error Types
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===========
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The allocator will output an error message, and potentially terminate the
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process, when an unexpected behavior is detected. The output usually starts with
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``"Scudo ERROR:"`` followed by a short summary of the problem that occurred as
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well as the pointer(s) involved. Once again, Scudo is meant to be a mitigation,
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and might not be the most useful of tools to help you root-cause the issue,
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please consider `ASan <https://github.com/google/sanitizers/wiki/AddressSanitizer>`_
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for this purpose.
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Here is a list of the current error messages and their potential cause:
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- ``"corrupted chunk header"``: the checksum verification of the chunk header
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has failed. This is likely due to one of two things: the header was
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overwritten (partially or totally), or the pointer passed to the function is
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not a chunk at all;
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- ``"race on chunk header"``: two different threads are attempting to manipulate
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the same header at the same time. This is usually symptomatic of a
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race-condition or general lack of locking when performing operations on that
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chunk;
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- ``"invalid chunk state"``: the chunk is not in the expected state for a given
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operation, eg: it is not allocated when trying to free it, or it's not
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quarantined when trying to recycle it, etc. A double-free is the typical
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reason this error would occur;
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- ``"misaligned pointer"``: we strongly enforce basic alignment requirements, 8
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bytes on 32-bit platforms, 16 bytes on 64-bit platforms. If a pointer passed
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to our functions does not fit those, something is definitely wrong.
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- ``"allocation type mismatch"``: when the optional deallocation type mismatch
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check is enabled, a deallocation function called on a chunk has to match the
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type of function that was called to allocate it. Security implications of such
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a mismatch are not necessarily obvious but situational at best;
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- ``"invalid sized delete"``: when the C++14 sized delete operator is used, and
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the optional check enabled, this indicates that the size passed when
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deallocating a chunk is not congruent with the one requested when allocating
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it. This is likely to be a `compiler issue <https://software.intel.com/en-us/forums/intel-c-compiler/topic/783942>`_,
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as was the case with Intel C++ Compiler, or some type confusion on the object
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being deallocated;
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- ``"RSS limit exhausted"``: the maximum RSS optionally specified has been
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exceeded;
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Several other error messages relate to parameter checking on the libc allocation
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APIs and are fairly straightforward to understand.
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