56f8f888ec
We have several scripts that help build reproducers, but no documentation for how they should be used. Add some documentation Signed-off-by: Alexander Bulekov <alxndr@bu.edu> Reviewed-by: Darren Kenny <darren.kenny@oracle.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
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ReStructuredText
322 lines
13 KiB
ReStructuredText
========
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Fuzzing
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========
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This document describes the virtual-device fuzzing infrastructure in QEMU and
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how to use it to implement additional fuzzers.
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Basics
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------
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Fuzzing operates by passing inputs to an entry point/target function. The
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fuzzer tracks the code coverage triggered by the input. Based on these
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findings, the fuzzer mutates the input and repeats the fuzzing.
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To fuzz QEMU, we rely on libfuzzer. Unlike other fuzzers such as AFL, libfuzzer
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is an *in-process* fuzzer. For the developer, this means that it is their
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responsibility to ensure that state is reset between fuzzing-runs.
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Building the fuzzers
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--------------------
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*NOTE*: If possible, build a 32-bit binary. When forking, the 32-bit fuzzer is
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much faster, since the page-map has a smaller size. This is due to the fact that
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AddressSanitizer maps ~20TB of memory, as part of its detection. This results
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in a large page-map, and a much slower ``fork()``.
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To build the fuzzers, install a recent version of clang:
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Configure with (substitute the clang binaries with the version you installed).
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Here, enable-sanitizers, is optional but it allows us to reliably detect bugs
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such as out-of-bounds accesses, use-after-frees, double-frees etc.::
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CC=clang-8 CXX=clang++-8 /path/to/configure --enable-fuzzing \
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--enable-sanitizers
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Fuzz targets are built similarly to system targets::
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make qemu-fuzz-i386
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This builds ``./qemu-fuzz-i386``
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The first option to this command is: ``--fuzz-target=FUZZ_NAME``
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To list all of the available fuzzers run ``qemu-fuzz-i386`` with no arguments.
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For example::
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./qemu-fuzz-i386 --fuzz-target=virtio-scsi-fuzz
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Internally, libfuzzer parses all arguments that do not begin with ``"--"``.
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Information about these is available by passing ``-help=1``
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Now the only thing left to do is wait for the fuzzer to trigger potential
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crashes.
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Useful libFuzzer flags
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----------------------
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As mentioned above, libFuzzer accepts some arguments. Passing ``-help=1`` will
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list the available arguments. In particular, these arguments might be helpful:
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* ``CORPUS_DIR/`` : Specify a directory as the last argument to libFuzzer.
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libFuzzer stores each "interesting" input in this corpus directory. The next
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time you run libFuzzer, it will read all of the inputs from the corpus, and
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continue fuzzing from there. You can also specify multiple directories.
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libFuzzer loads existing inputs from all specified directories, but will only
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write new ones to the first one specified.
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* ``-max_len=4096`` : specify the maximum byte-length of the inputs libFuzzer
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will generate.
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* ``-close_fd_mask={1,2,3}`` : close, stderr, or both. Useful for targets that
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trigger many debug/error messages, or create output on the serial console.
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* ``-jobs=4 -workers=4`` : These arguments configure libFuzzer to run 4 fuzzers in
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parallel (4 fuzzing jobs in 4 worker processes). Alternatively, with only
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``-jobs=N``, libFuzzer automatically spawns a number of workers less than or equal
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to half the available CPU cores. Replace 4 with a number appropriate for your
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machine. Make sure to specify a ``CORPUS_DIR``, which will allow the parallel
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fuzzers to share information about the interesting inputs they find.
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* ``-use_value_profile=1`` : For each comparison operation, libFuzzer computes
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``(caller_pc&4095) | (popcnt(Arg1 ^ Arg2) << 12)`` and places this in the
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coverage table. Useful for targets with "magic" constants. If Arg1 came from
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the fuzzer's input and Arg2 is a magic constant, then each time the Hamming
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distance between Arg1 and Arg2 decreases, libFuzzer adds the input to the
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corpus.
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* ``-shrink=1`` : Tries to make elements of the corpus "smaller". Might lead to
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better coverage performance, depending on the target.
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Note that libFuzzer's exact behavior will depend on the version of
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clang and libFuzzer used to build the device fuzzers.
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Generating Coverage Reports
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---------------------------
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Code coverage is a crucial metric for evaluating a fuzzer's performance.
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libFuzzer's output provides a "cov: " column that provides a total number of
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unique blocks/edges covered. To examine coverage on a line-by-line basis we
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can use Clang coverage:
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1. Configure libFuzzer to store a corpus of all interesting inputs (see
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CORPUS_DIR above)
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2. ``./configure`` the QEMU build with ::
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--enable-fuzzing \
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--extra-cflags="-fprofile-instr-generate -fcoverage-mapping"
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3. Re-run the fuzzer. Specify $CORPUS_DIR/* as an argument, telling libfuzzer
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to execute all of the inputs in $CORPUS_DIR and exit. Once the process
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exits, you should find a file, "default.profraw" in the working directory.
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4. Execute these commands to generate a detailed HTML coverage-report::
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llvm-profdata merge -output=default.profdata default.profraw
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llvm-cov show ./path/to/qemu-fuzz-i386 -instr-profile=default.profdata \
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--format html -output-dir=/path/to/output/report
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Adding a new fuzzer
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-------------------
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Coverage over virtual devices can be improved by adding additional fuzzers.
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Fuzzers are kept in ``tests/qtest/fuzz/`` and should be added to
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``tests/qtest/fuzz/meson.build``
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Fuzzers can rely on both qtest and libqos to communicate with virtual devices.
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1. Create a new source file. For example ``tests/qtest/fuzz/foo-device-fuzz.c``.
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2. Write the fuzzing code using the libqtest/libqos API. See existing fuzzers
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for reference.
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3. Add the fuzzer to ``tests/qtest/fuzz/meson.build``.
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Fuzzers can be more-or-less thought of as special qtest programs which can
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modify the qtest commands and/or qtest command arguments based on inputs
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provided by libfuzzer. Libfuzzer passes a byte array and length. Commonly the
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fuzzer loops over the byte-array interpreting it as a list of qtest commands,
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addresses, or values.
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The Generic Fuzzer
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------------------
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Writing a fuzz target can be a lot of effort (especially if a device driver has
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not be built-out within libqos). Many devices can be fuzzed to some degree,
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without any device-specific code, using the generic-fuzz target.
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The generic-fuzz target is capable of fuzzing devices over their PIO, MMIO,
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and DMA input-spaces. To apply the generic-fuzz to a device, we need to define
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two env-variables, at minimum:
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* ``QEMU_FUZZ_ARGS=`` is the set of QEMU arguments used to configure a machine, with
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the device attached. For example, if we want to fuzz the virtio-net device
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attached to a pc-i440fx machine, we can specify::
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QEMU_FUZZ_ARGS="-M pc -nodefaults -netdev user,id=user0 \
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-device virtio-net,netdev=user0"
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* ``QEMU_FUZZ_OBJECTS=`` is a set of space-delimited strings used to identify
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the MemoryRegions that will be fuzzed. These strings are compared against
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MemoryRegion names and MemoryRegion owner names, to decide whether each
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MemoryRegion should be fuzzed. These strings support globbing. For the
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virtio-net example, we could use one of ::
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QEMU_FUZZ_OBJECTS='virtio-net'
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QEMU_FUZZ_OBJECTS='virtio*'
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QEMU_FUZZ_OBJECTS='virtio* pcspk' # Fuzz the virtio devices and the speaker
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QEMU_FUZZ_OBJECTS='*' # Fuzz the whole machine``
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The ``"info mtree"`` and ``"info qom-tree"`` monitor commands can be especially
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useful for identifying the ``MemoryRegion`` and ``Object`` names used for
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matching.
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As a generic rule-of-thumb, the more ``MemoryRegions``/Devices we match, the
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greater the input-space, and the smaller the probability of finding crashing
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inputs for individual devices. As such, it is usually a good idea to limit the
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fuzzer to only a few ``MemoryRegions``.
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To ensure that these env variables have been configured correctly, we can use::
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./qemu-fuzz-i386 --fuzz-target=generic-fuzz -runs=0
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The output should contain a complete list of matched MemoryRegions.
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OSS-Fuzz
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--------
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QEMU is continuously fuzzed on `OSS-Fuzz` __(https://github.com/google/oss-fuzz).
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By default, the OSS-Fuzz build will try to fuzz every fuzz-target. Since the
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generic-fuzz target requires additional information provided in environment
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variables, we pre-define some generic-fuzz configs in
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``tests/qtest/fuzz/generic_fuzz_configs.h``. Each config must specify:
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- ``.name``: To identify the fuzzer config
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- ``.args`` OR ``.argfunc``: A string or pointer to a function returning a
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string. These strings are used to specify the ``QEMU_FUZZ_ARGS``
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environment variable. ``argfunc`` is useful when the config relies on e.g.
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a dynamically created temp directory, or a free tcp/udp port.
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- ``.objects``: A string that specifies the ``QEMU_FUZZ_OBJECTS`` environment
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variable.
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To fuzz additional devices/device configuration on OSS-Fuzz, send patches for
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either a new device-specific fuzzer or a new generic-fuzz config.
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Build details:
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- The Dockerfile that sets up the environment for building QEMU's
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fuzzers on OSS-Fuzz can be fund in the OSS-Fuzz repository
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__(https://github.com/google/oss-fuzz/blob/master/projects/qemu/Dockerfile)
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- The script responsible for building the fuzzers can be found in the
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QEMU source tree at ``scripts/oss-fuzz/build.sh``
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Building Crash Reproducers
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-----------------------------------------
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When we find a crash, we should try to create an independent reproducer, that
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can be used on a non-fuzzer build of QEMU. This filters out any potential
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false-positives, and improves the debugging experience for developers.
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Here are the steps for building a reproducer for a crash found by the
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generic-fuzz target.
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- Ensure the crash reproduces::
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qemu-fuzz-i386 --fuzz-target... ./crash-...
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- Gather the QTest output for the crash::
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QEMU_FUZZ_TIMEOUT=0 QTEST_LOG=1 FUZZ_SERIALIZE_QTEST=1 \
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qemu-fuzz-i386 --fuzz-target... ./crash-... &> /tmp/trace
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- Reorder and clean-up the resulting trace::
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scripts/oss-fuzz/reorder_fuzzer_qtest_trace.py /tmp/trace > /tmp/reproducer
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- Get the arguments needed to start qemu, and provide a path to qemu::
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less /tmp/trace # The args should be logged at the top of this file
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export QEMU_ARGS="-machine ..."
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export QEMU_PATH="path/to/qemu-system"
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- Ensure the crash reproduces in qemu-system::
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$QEMU_PATH $QEMU_ARGS -qtest stdio < /tmp/reproducer
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- From the crash output, obtain some string that identifies the crash. This
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can be a line in the stack-trace, for example::
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export CRASH_TOKEN="hw/usb/hcd-xhci.c:1865"
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- Minimize the reproducer::
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scripts/oss-fuzz/minimize_qtest_trace.py -M1 -M2 \
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/tmp/reproducer /tmp/reproducer-minimized
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- Confirm that the minimized reproducer still crashes::
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$QEMU_PATH $QEMU_ARGS -qtest stdio < /tmp/reproducer-minimized
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- Create a one-liner reproducer that can be sent over email::
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./scripts/oss-fuzz/output_reproducer.py -bash /tmp/reproducer-minimized
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- Output the C source code for a test case that will reproduce the bug::
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./scripts/oss-fuzz/output_reproducer.py -owner "John Smith <john@smith.com>"\
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-name "test_function_name" /tmp/reproducer-minimized
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- Report the bug and send a patch with the C reproducer upstream
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Implementation Details / Fuzzer Lifecycle
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-----------------------------------------
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The fuzzer has two entrypoints that libfuzzer calls. libfuzzer provides it's
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own ``main()``, which performs some setup, and calls the entrypoints:
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``LLVMFuzzerInitialize``: called prior to fuzzing. Used to initialize all of the
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necessary state
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``LLVMFuzzerTestOneInput``: called for each fuzzing run. Processes the input and
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resets the state at the end of each run.
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In more detail:
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``LLVMFuzzerInitialize`` parses the arguments to the fuzzer (must start with two
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dashes, so they are ignored by libfuzzer ``main()``). Currently, the arguments
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select the fuzz target. Then, the qtest client is initialized. If the target
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requires qos, qgraph is set up and the QOM/LIBQOS modules are initialized.
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Then the QGraph is walked and the QEMU cmd_line is determined and saved.
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After this, the ``vl.c:qemu_main`` is called to set up the guest. There are
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target-specific hooks that can be called before and after qemu_main, for
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additional setup(e.g. PCI setup, or VM snapshotting).
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``LLVMFuzzerTestOneInput``: Uses qtest/qos functions to act based on the fuzz
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input. It is also responsible for manually calling ``main_loop_wait`` to ensure
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that bottom halves are executed and any cleanup required before the next input.
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Since the same process is reused for many fuzzing runs, QEMU state needs to
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be reset at the end of each run. There are currently two implemented
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options for resetting state:
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- Reboot the guest between runs.
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- *Pros*: Straightforward and fast for simple fuzz targets.
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- *Cons*: Depending on the device, does not reset all device state. If the
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device requires some initialization prior to being ready for fuzzing (common
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for QOS-based targets), this initialization needs to be done after each
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reboot.
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- *Example target*: ``i440fx-qtest-reboot-fuzz``
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- Run each test case in a separate forked process and copy the coverage
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information back to the parent. This is fairly similar to AFL's "deferred"
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fork-server mode [3]
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- *Pros*: Relatively fast. Devices only need to be initialized once. No need to
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do slow reboots or vmloads.
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- *Cons*: Not officially supported by libfuzzer. Does not work well for
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devices that rely on dedicated threads.
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- *Example target*: ``virtio-net-fork-fuzz``
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