11be35a165
To do so, a few dependencies have been imported: * external/bsd/lutok * external/mit/lua * external/public-domain/sqlite * external/public-domain/xz The Kyua framework is the new generation of ATF (Automated Test Framework), it is composed of: * external/bsd/atf * external/bsd/kyua-atf-compat * external/bsd/kyua-cli * external/bsd/kyua-tester * tests Kyua/ATF being written in C++, it depends on libstdc++ which is provided by GCC. As this is not part of the sources, Kyua is only compiled when the native GCC utils are installed. To install Kyua do the following: * In a cross-build enviromnent, add the following to the build.sh commandline: -V MKBINUTILS=yes -V MKGCCCMDS=yes WARNING: At this point the import is still experimental, and not supported on native builds (a.k.a make build). Change-Id: I26aee23c5bbd2d64adcb7c1beb98fe0d479d7ada
236 lines
8.6 KiB
Text
236 lines
8.6 KiB
Text
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.xz Test Files
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----------------
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0. Introduction
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This directory contains bunch of files to test handling of .xz files
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in .xz decoder implementations. Many of the files have been created
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by hand with a hex editor, thus there is no better "source code" than
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the files themselves. All the test files (*.xz) and this README have
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been put into the public domain.
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1. File Types
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Good files (good-*.xz) must decode successfully without requiring
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a lot of CPU time or RAM.
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Unsupported files (unsupported-*.xz) are good files, but headers
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indicate features not supported by the current file format
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specification.
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Bad files (bad-*.xz) must cause the decoder to give an error. Like
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with the good files, these files must not require a lot of CPU time
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or RAM before they get detected to be broken.
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2. Descriptions of Individual Files
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2.1. Good Files
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good-0-empty.xz has one Stream with no Blocks.
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good-0pad-empty.xz has one Stream with no Blocks followed by
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four-byte Stream Padding.
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good-0cat-empty.xz has two zero-Block Streams concatenated without
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Stream Padding.
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good-0catpad-empty.xz has two zero-Block Streams concatenated with
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four-byte Stream Padding between the Streams.
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good-1-check-none.xz has one Stream with one Block with two
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uncompressed LZMA2 chunks and no integrity check.
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good-1-check-crc32.xz has one Stream with one Block with two
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uncompressed LZMA2 chunks and CRC32 check.
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good-1-check-crc64.xz is like good-1-check-crc32.xz but with CRC64.
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good-1-check-sha256.xz is like good-1-check-crc32.xz but with
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SHA256.
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good-2-lzma2.xz has one Stream with two Blocks with one uncompressed
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LZMA2 chunk in each Block.
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good-1-block_header-1.xz has both Compressed Size and Uncompressed
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Size in the Block Header. This has also four extra bytes of Header
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Padding.
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good-1-block_header-2.xz has known Compressed Size.
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good-1-block_header-3.xz has known Uncompressed Size.
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good-1-delta-lzma2.tiff.xz is an image file that compresses
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better with Delta+LZMA2 than with plain LZMA2.
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good-1-x86-lzma2.xz uses the x86 filter (BCJ) and LZMA2. The
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uncompressed file is compress_prepared_bcj_x86 found from the tests
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directory.
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good-1-sparc-lzma2.xz uses the SPARC filter and LZMA. The
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uncompressed file is compress_prepared_bcj_sparc found from the tests
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directory.
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good-1-lzma2-1.xz has two LZMA2 chunks, of which the second sets
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new properties.
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good-1-lzma2-2.xz has two LZMA2 chunks, of which the second resets
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the state without specifying new properties.
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good-1-lzma2-3.xz has two LZMA2 chunks, of which the first is
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uncompressed and the second is LZMA. The first chunk resets dictionary
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and the second sets new properties.
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good-1-lzma2-4.xz has three LZMA2 chunks: First is LZMA, second is
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uncompressed with dictionary reset, and third is LZMA with new
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properties but without dictionary reset.
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good-1-lzma2-5.xz has an empty LZMA2 stream with only the end of
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payload marker. XZ Utils 5.0.1 and older incorrectly see this file
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as corrupt.
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good-1-3delta-lzma2.xz has three Delta filters and LZMA2.
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2.2. Unsupported Files
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unsupported-check.xz uses Check ID 0x02 which isn't supported by
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the current version of the file format. It is implementation-defined
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how this file handled (it may reject it, or decode it possibly with
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a warning).
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unsupported-block_header.xz has a non-null byte in Header Padding,
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which may indicate presence of a new unsupported field.
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unsupported-filter_flags-1.xz has unsupported Filter ID 0x7F.
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unsupported-filter_flags-2.xz specifies only Delta filter in the
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List of Filter Flags, but Delta isn't allowed as the last filter in
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the chain. It could be a little more correct to detect this file as
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corrupt instead of unsupported, but saying it is unsupported is
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simpler in case of liblzma.
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unsupported-filter_flags-3.xz specifies two LZMA2 filters in the
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List of Filter Flags. LZMA2 is allowed only as the last filter in the
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chain. It could be a little more correct to detect this file as
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corrupt instead of unsupported, but saying it is unsupported is
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simpler in case of liblzma.
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2.3. Bad Files
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bad-0pad-empty.xz has one Stream with no Blocks followed by
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five-byte Stream Padding. Stream Padding must be a multiple of four
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bytes, thus this file is corrupt.
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bad-0catpad-empty.xz has two zero-Block Streams concatenated with
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five-byte Stream Padding between the Streams.
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bad-0cat-alone.xz is good-0-empty.xz concatenated with an empty
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LZMA_Alone file.
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bad-0cat-header_magic.xz is good-0cat-empty.xz but with one byte
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wrong in the Header Magic Bytes field of the second Stream. liblzma
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gives LZMA_DATA_ERROR for this. (LZMA_FORMAT_ERROR is used only if
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the first Stream of a file has invalid Header Magic Bytes.)
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bad-0-header_magic.xz is good-0-empty.xz but with one byte wrong
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in the Header Magic Bytes field. liblzma gives LZMA_FORMAT_ERROR for
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this.
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bad-0-footer_magic.xz is good-0-empty.xz but with one byte wrong
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in the Footer Magic Bytes field. liblzma gives LZMA_DATA_ERROR for
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this.
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bad-0-empty-truncated.xz is good-0-empty.xz without the last byte
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of the file.
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bad-0-nonempty_index.xz has no Blocks but Index claims that there is
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one Block.
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bad-0-backward_size.xz has wrong Backward Size in Stream Footer.
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bad-1-stream_flags-1.xz has different Stream Flags in Stream Header
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and Stream Footer.
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bad-1-stream_flags-2.xz has wrong CRC32 in Stream Header.
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bad-1-stream_flags-3.xz has wrong CRC32 in Stream Footer.
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bad-1-vli-1.xz has two-byte variable-length integer in the
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Uncompressed Size field in Block Header while one-byte would be enough
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for that value. It's important that the file gets rejected due to too
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big integer encoding instead of due to Uncompressed Size not matching
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the value stored in the Block Header. That is, the decoder must not
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try to decode the Compressed Data field.
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bad-1-vli-2.xz has ten-byte variable-length integer as Uncompressed
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Size in Block Header. It's important that the file gets rejected due
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to too big integer encoding instead of due to Uncompressed Size not
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matching the value stored in the Block Header. That is, the decoder
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must not try to decode the Compressed Data field.
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bad-1-block_header-1.xz has Block Header that ends in the middle of
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the Filter Flags field.
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bad-1-block_header-2.xz has Block Header that has Compressed Size and
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Uncompressed Size but no List of Filter Flags field.
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bad-1-block_header-3.xz has wrong CRC32 in Block Header.
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bad-1-block_header-4.xz has too big Compressed Size in Block Header
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(2^63 - 1 bytes while maximum is a little less, because the whole
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Block must stay smaller than 2^63). It's important that the file
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gets rejected due to invalid Compressed Size value; the decoder
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must not try decoding the Compressed Data field.
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bad-1-block_header-5.xz has zero as Compressed Size in Block Header.
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bad-2-index-1.xz has wrong Unpadded Sizes in Index.
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bad-2-index-2.xz has wrong Uncompressed Sizes in Index.
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bad-2-index-3.xz has non-null byte in Index Padding.
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bad-2-index-4.xz wrong CRC32 in Index.
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bad-2-index-5.xz has zero as Unpadded Size. It is important that the
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file gets rejected specifically due to Unpadded Size having an invalid
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value.
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bad-2-compressed_data_padding.xz has non-null byte in the padding of
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the Compressed Data field of the first Block.
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bad-1-check-crc32.xz has wrong Check (CRC32).
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bad-1-check-crc64.xz has wrong Check (CRC64).
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bad-1-check-sha256.xz has wrong Check (SHA-256).
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bad-1-lzma2-1.xz has LZMA2 stream whose first chunk (uncompressed)
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doesn't reset the dictionary.
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bad-1-lzma2-2.xz has two LZMA2 chunks, of which the second chunk
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indicates dictionary reset, but the LZMA compressed data tries to
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repeat data from the previous chunk.
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bad-1-lzma2-3.xz sets new invalid properties (lc=8, lp=0, pb=0) in
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the middle of Block.
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bad-1-lzma2-4.xz has two LZMA2 chunks, of which the first is
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uncompressed and the second is LZMA. The first chunk resets dictionary
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as it should, but the second chunk tries to reset state without
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specifying properties for LZMA.
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bad-1-lzma2-5.xz is like bad-1-lzma2-4.xz but doesn't try to reset
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anything in the header of the second chunk.
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bad-1-lzma2-6.xz has reserved LZMA2 control byte value (0x03).
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bad-1-lzma2-7.xz has EOPM at LZMA level.
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bad-1-lzma2-8.xz is like good-1-lzma2-4.xz but doesn't set new
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properties in the third LZMA2 chunk.
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