diff -pruN 5.15.19+dfsg-1/debian/changelog 5.15.19+dfsg2-1/debian/changelog --- 5.15.19+dfsg-1/debian/changelog 2025-07-09 08:25:22.000000000 +0000 +++ 5.15.19+dfsg2-1/debian/changelog 2025-09-20 13:16:17.000000000 +0000 @@ -1,3 +1,23 @@ +qtwebengine-opensource-src (5.15.19+dfsg2-1) unstable; urgency=medium + + * Exclude minizip/src/doc from the tarball (closes: #1115475). + * Update symbols files from buildds’ logs. + + -- Dmitry Shachnev Sat, 20 Sep 2025 16:16:17 +0300 + +qtwebengine-opensource-src (5.15.19+dfsg-3) unstable; urgency=medium + + * Add a patch from Fedora to fix build with GCC 15 (closes: #1097756). + * Update symbols files from buildds’ and the current build logs. + + -- Dmitry Shachnev Wed, 10 Sep 2025 10:33:39 +0300 + +qtwebengine-opensource-src (5.15.19+dfsg-2) unstable; urgency=medium + + * Upload to unstable. + + -- Dmitry Shachnev Mon, 01 Sep 2025 23:05:46 +0300 + qtwebengine-opensource-src (5.15.19+dfsg-1) experimental; urgency=medium * New upstream release. diff -pruN 5.15.19+dfsg-1/debian/copyright 5.15.19+dfsg2-1/debian/copyright --- 5.15.19+dfsg-1/debian/copyright 2025-07-09 08:25:22.000000000 +0000 +++ 5.15.19+dfsg2-1/debian/copyright 2025-09-20 13:16:17.000000000 +0000 @@ -53,6 +53,7 @@ Files-Excluded: src/3rdparty/chromium/bu src/3rdparty/chromium/third_party/lzma_sdk/7zr.exe src/3rdparty/chromium/third_party/lzma_sdk/Executable/7za.exe src/3rdparty/chromium/third_party/mako/doc + src/3rdparty/chromium/third_party/minizip/src/doc src/3rdparty/chromium/third_party/openh264/src/autotest/performanceTest/ios/fruitstrap src/3rdparty/chromium/third_party/openh264/src/autotest/performanceTest/ios/iFileTransfer src/3rdparty/chromium/third_party/pycoverage/coverage/htmlfiles/*.min.js diff -pruN 5.15.19+dfsg-1/debian/libqt5pdf5.symbols 5.15.19+dfsg2-1/debian/libqt5pdf5.symbols --- 5.15.19+dfsg-1/debian/libqt5pdf5.symbols 2025-07-09 08:25:22.000000000 +0000 +++ 5.15.19+dfsg2-1/debian/libqt5pdf5.symbols 2025-09-20 13:16:17.000000000 +0000 @@ -1,4 +1,4 @@ -# SymbolsHelper-Confirmed: 5.15.17 amd64 arm64 armhf i386 mips64el +# SymbolsHelper-Confirmed: 5.15.19 amd64 arm64 armhf i386 mips64el libQt5Pdf.so.5 libqt5pdf5 #MINVER# * Build-Depends-Package: qtpdf5-dev Qt_5@Qt_5 5.15.1 @@ -160,8 +160,10 @@ libQt5Pdf.so.5 libqt5pdf5 #MINVER# _ZNK18QPdfPageNavigation8documentEv@Qt_5 5.15.1 _ZNK18QPdfPageNavigation9pageCountEv@Qt_5 5.15.1 (optional=templinst|subst)_ZNSt11_Deque_baseIjSaIjEE17_M_initialize_mapE{size_t}@Qt_5 5.15.1 + (optional=templinst|subst)_ZNSt5dequeIN11CFX_XMLNode4TypeESaIS1_EE17_M_reallocate_mapE{size_t}b@Qt_5 5.15.19 (optional=templinst|subst)_ZNSt5dequeIjSaIjEE17_M_reallocate_mapE{size_t}b@Qt_5 5.15.1 - (optional=templinst)_ZNSt6vectorI18UnsupportedFeatureSaIS0_EE17_M_realloc_appendIJS0_EEEvDpOT_@Qt_5 5.15.17 + (optional=templinst|subst)_ZNSt5dequeIwSaIwEE17_M_reallocate_mapE{size_t}b@Qt_5 5.15.19 + (optional=templinst|subst)_ZNSt5dequeI{int64_t}SaI{int64_t}EE17_M_reallocate_mapE{size_t}b@Qt_5 5.15.19 (optional=templinst)_ZNSt6vectorISt4pairIiiESaIS1_EE17_M_realloc_appendIJS1_EEEvDpOT_@Qt_5 5.15.17 (optional=templinst|subst)_ZNSt6vectorIbSaIbEE14_M_fill_insertESt13_Bit_iterator{size_t}b@Qt_5 5.15.1 (optional=templinst|subst)_ZNSt6vectorIfSaIfEE17_M_default_appendE{size_t}@Qt_5 5.15.1 @@ -173,15 +175,11 @@ libQt5Pdf.so.5 libqt5pdf5 #MINVER# (optional=templinst|subst)_ZNSt6vectorIjSaIjEE17_M_default_appendE{size_t}@Qt_5 5.15.1 (optional=templinst)_ZNSt6vectorIjSaIjEE17_M_realloc_appendIJRKjEEEvDpOT_@Qt_5 5.15.17 (optional=templinst)_ZNSt6vectorIjSaIjEE17_M_realloc_appendIJjEEEvDpOT_@Qt_5 5.15.17 - (optional=templinst)_ZNSt6vectorIjSaIjEE17_M_realloc_insertIJRKjEEEvN9__gnu_cxx17__normal_iteratorIPjS1_EEDpOT_@Qt_5 5.15.1 - (optional=templinst)_ZNSt6vectorIjSaIjEE17_M_realloc_insertIJjEEEvN9__gnu_cxx17__normal_iteratorIPjS1_EEDpOT_@Qt_5 5.15.1 (optional=templinst|arch=amd64 arm64 mips64el)_ZNSt6vectorIlSaIlEE13_M_insert_auxIlEEvN9__gnu_cxx17__normal_iteratorIPlS1_EEOT_@Qt_5 5.15.15 (optional=templinst|arch=!armhf !i386)_ZNSt6vectorImSaImEE17_M_realloc_appendIJRKmEEEvDpOT_@Qt_5 5.15.17 (optional=templinst|arch=!amd64 !arm64 !mips64el)_ZNSt6vectorIxSaIxEE13_M_insert_auxIxEEvN9__gnu_cxx17__normal_iteratorIPxS1_EEOT_@Qt_5 5.15.1 - (optional=templinst|subst|arch=!amd64 !arm64 !i386 !mips64el !mipsel)_ZNSt6vectorI{int64_t}SaI{int64_t}EE14_M_insert_rvalEN9__gnu_cxx17__normal_iteratorIPK{int64_t}S1_EEO{int64_t}@Qt_5 5.15.1 - (optional=templinst|subst)_ZNSt6vectorI{int64_t}SaI{int64_t}EE17_M_realloc_insertIJRK{int64_t}EEEvN9__gnu_cxx17__normal_iteratorIP{int64_t}S1_EEDpOT_@Qt_5 5.15.1 - (optional=templinst|subst)_ZNSt6vectorI{int64_t}SaI{int64_t}EE17_M_realloc_insertIJ{int64_t}EEEvN9__gnu_cxx17__normal_iteratorIP{int64_t}S1_EEDpOT_@Qt_5 5.15.1 - (optional=templinst|subst|arch=!i386 !mipsel)_ZNSt6vectorI{int64_t}SaI{int64_t}EE6insertEN9__gnu_cxx17__normal_iteratorIPK{int64_t}S1_EERS4_@Qt_5 5.15.1 + (optional=templinst|subst|arch=!armhf)_ZNSt6vectorI{int64_t}SaI{int64_t}EE17_M_realloc_insertIJRK{int64_t}EEEvN9__gnu_cxx17__normal_iteratorIP{int64_t}S1_EEDpOT_@Qt_5 5.15.1 + (optional=templinst|subst|arch=!armhf)_ZNSt6vectorI{int64_t}SaI{int64_t}EE17_M_realloc_insertIJ{int64_t}EEEvN9__gnu_cxx17__normal_iteratorIP{int64_t}S1_EEDpOT_@Qt_5 5.15.1 (optional=templinst|arch=amd64 arm64)_ZNSt8_Rb_treeIPKhS1_St9_IdentityIS1_ESt4lessIS1_ESaIS1_EE16_M_insert_uniqueIRKS1_EESt4pairISt17_Rb_tree_iteratorIS1_EbEOT_@Qt_5 5.15.1 (optional=templinst|arch=!armhf !i386)_ZNSt8_Rb_treeISt4pairIjjES0_IKS1_St6vectorIjSaIjEEESt10_Select1stIS6_ESt4lessIS1_ESaIS6_EE22_M_emplace_hint_uniqueIJRKSt21piecewise_construct_tSt5tupleIJOS1_EESH_IJEEEEESt17_Rb_tree_iteratorIS6_ESt23_Rb_tree_const_iteratorIS6_EDpOT_@Qt_5 5.15.17 (optional=templinst|arch=amd64 arm64 mips64el)_ZNSt8_Rb_treeISt4pairIjjES0_IKS1_St6vectorIjSaIjEEESt10_Select1stIS6_ESt4lessIS1_ESaIS6_EE29_M_get_insert_hint_unique_posESt23_Rb_tree_const_iteratorIS6_ERS2_@Qt_5 5.15.1 diff -pruN 5.15.19+dfsg-1/debian/libqt5webenginecore5.symbols 5.15.19+dfsg2-1/debian/libqt5webenginecore5.symbols --- 5.15.19+dfsg-1/debian/libqt5webenginecore5.symbols 2025-07-09 08:25:22.000000000 +0000 +++ 5.15.19+dfsg2-1/debian/libqt5webenginecore5.symbols 2025-09-20 13:16:17.000000000 +0000 @@ -1,4 +1,4 @@ -# SymbolsHelper-Confirmed: 5.15.18 amd64 arm64 mips64el +# SymbolsHelper-Confirmed: 5.15.19 amd64 arm64 armhf i386 mips64el libQt5WebEngineCore.so.5 libqt5webenginecore5 #MINVER# | libqt5webenginecore5 #MINVER#, qtwebengine-abi-5-15-19 * Build-Depends-Package: qtwebengine5-dev @@ -725,262 +725,219 @@ libQt5WebEngineCore.so.5 libqt5webengine _ZNK32QWebEngineClientCertificateStore12certificatesEv@Qt_5 5.14.1 _ZNK40QWebEngineRegisterProtocolHandlerRequest6originEv@Qt_5 5.11.1 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a/src/3rdparty/chromium/base/task/thread_pool.h ++++ b/src/3rdparty/chromium/base/task/thread_pool.h +@@ -5,6 +5,7 @@ + #ifndef BASE_TASK_THREAD_POOL_H_ + #define BASE_TASK_THREAD_POOL_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/base/trace_event/trace_arguments.h ++++ b/src/3rdparty/chromium/base/trace_event/trace_arguments.h +@@ -9,6 +9,7 @@ + #include + + #include ++#include + #include + #include + +--- a/src/3rdparty/chromium/cc/input/main_thread_scrolling_reason.h ++++ b/src/3rdparty/chromium/cc/input/main_thread_scrolling_reason.h +@@ -5,6 +5,7 @@ + #ifndef CC_INPUT_MAIN_THREAD_SCROLLING_REASON_H_ + #define CC_INPUT_MAIN_THREAD_SCROLLING_REASON_H_ + ++#include + #include + #include + #include "cc/cc_export.h" +--- a/src/3rdparty/chromium/cc/metrics/dropped_frame_counter.h ++++ b/src/3rdparty/chromium/cc/metrics/dropped_frame_counter.h +@@ -7,6 +7,7 @@ + + #include + ++#include + #include + + #include "base/containers/ring_buffer.h" +--- a/src/3rdparty/chromium/gpu/command_buffer/common/skia_utils.h ++++ b/src/3rdparty/chromium/gpu/command_buffer/common/skia_utils.h +@@ -5,6 +5,7 @@ + #ifndef GPU_COMMAND_BUFFER_COMMON_SKIA_UTILS_H_ + #define GPU_COMMAND_BUFFER_COMMON_SKIA_UTILS_H_ + ++#include + #include + + #include "base/optional.h" +--- a/src/3rdparty/chromium/gpu/command_buffer/service/gpu_fence_manager.h ++++ b/src/3rdparty/chromium/gpu/command_buffer/service/gpu_fence_manager.h +@@ -5,6 +5,7 @@ + #ifndef GPU_COMMAND_BUFFER_SERVICE_GPU_FENCE_MANAGER_H_ + #define GPU_COMMAND_BUFFER_SERVICE_GPU_FENCE_MANAGER_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/net/tools/huffman_trie/trie_entry.h ++++ b/src/3rdparty/chromium/net/tools/huffman_trie/trie_entry.h +@@ -5,6 +5,7 @@ + #ifndef NET_TOOLS_HUFFMAN_TRIE_TRIE_ENTRY_H_ + #define NET_TOOLS_HUFFMAN_TRIE_TRIE_ENTRY_H_ + ++#include + #include + #include + #include +--- a/src/3rdparty/chromium/third_party/pdfium/core/fpdfapi/page/cpdf_function.h ++++ b/src/3rdparty/chromium/third_party/pdfium/core/fpdfapi/page/cpdf_function.h +@@ -7,6 +7,7 @@ + #ifndef CORE_FPDFAPI_PAGE_CPDF_FUNCTION_H_ + #define CORE_FPDFAPI_PAGE_CPDF_FUNCTION_H_ + ++#include + #include + #include + #include +--- a/src/3rdparty/chromium/third_party/pdfium/core/fxcodec/jbig2/JBig2_DocumentContext.h ++++ b/src/3rdparty/chromium/third_party/pdfium/core/fxcodec/jbig2/JBig2_DocumentContext.h +@@ -7,6 +7,7 @@ + #ifndef CORE_FXCODEC_JBIG2_JBIG2_DOCUMENTCONTEXT_H_ + #define CORE_FXCODEC_JBIG2_JBIG2_DOCUMENTCONTEXT_H_ + ++#include + #include + #include + #include +--- a/src/3rdparty/chromium/third_party/pdfium/third_party/base/span.h ++++ b/src/3rdparty/chromium/third_party/pdfium/third_party/base/span.h +@@ -9,6 +9,7 @@ + + #include + #include ++#include + #include + #include + #include +--- a/src/3rdparty/chromium/third_party/perfetto/include/perfetto/ext/tracing/core/slice.h ++++ b/src/3rdparty/chromium/third_party/perfetto/include/perfetto/ext/tracing/core/slice.h +@@ -20,6 +20,7 @@ + #include + #include + ++#include + #include + #include + #include +--- a/src/3rdparty/chromium/third_party/perfetto/include/perfetto/tracing/tracing_backend.h ++++ b/src/3rdparty/chromium/third_party/perfetto/include/perfetto/tracing/tracing_backend.h +@@ -17,6 +17,7 @@ + #ifndef INCLUDE_PERFETTO_TRACING_TRACING_BACKEND_H_ + #define INCLUDE_PERFETTO_TRACING_TRACING_BACKEND_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/third_party/perfetto/src/trace_processor/importers/gzip/gzip_utils.cc ++++ b/src/3rdparty/chromium/third_party/perfetto/src/trace_processor/importers/gzip/gzip_utils.cc +@@ -20,6 +20,8 @@ + #include "perfetto/base/build_config.h" + #include "perfetto/base/compiler.h" + ++#include ++ + #if PERFETTO_BUILDFLAG(PERFETTO_ZLIB) + #include + #else +--- a/src/3rdparty/chromium/third_party/perfetto/src/trace_processor/importers/gzip/gzip_utils.h ++++ b/src/3rdparty/chromium/third_party/perfetto/src/trace_processor/importers/gzip/gzip_utils.h +@@ -17,6 +17,7 @@ + #ifndef SRC_TRACE_PROCESSOR_IMPORTERS_GZIP_GZIP_UTILS_H_ + #define SRC_TRACE_PROCESSOR_IMPORTERS_GZIP_GZIP_UTILS_H_ + ++#include + #include + + struct z_stream_s; +--- a/src/3rdparty/chromium/third_party/perfetto/src/tracing/core/trace_packet.cc ++++ b/src/3rdparty/chromium/third_party/perfetto/src/tracing/core/trace_packet.cc +@@ -19,6 +19,8 @@ + #include "perfetto/base/logging.h" + #include "perfetto/protozero/proto_utils.h" + ++#include ++ + namespace perfetto { + + TracePacket::TracePacket() = default; +--- a/src/3rdparty/chromium/third_party/webrtc/api/fec_controller.h ++++ b/src/3rdparty/chromium/third_party/webrtc/api/fec_controller.h +@@ -11,6 +11,7 @@ + #ifndef API_FEC_CONTROLLER_H_ + #define API_FEC_CONTROLLER_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/third_party/webrtc/api/network_state_predictor.h ++++ b/src/3rdparty/chromium/third_party/webrtc/api/network_state_predictor.h +@@ -11,6 +11,7 @@ + #ifndef API_NETWORK_STATE_PREDICTOR_H_ + #define API_NETWORK_STATE_PREDICTOR_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/third_party/webrtc/api/task_queue/task_queue_base.h ++++ b/src/3rdparty/chromium/third_party/webrtc/api/task_queue/task_queue_base.h +@@ -10,6 +10,7 @@ + #ifndef API_TASK_QUEUE_TASK_QUEUE_BASE_H_ + #define API_TASK_QUEUE_TASK_QUEUE_BASE_H_ + ++#include + #include + + #include "api/task_queue/queued_task.h" +--- a/src/3rdparty/chromium/third_party/webrtc/modules/video_coding/timestamp_map.h ++++ b/src/3rdparty/chromium/third_party/webrtc/modules/video_coding/timestamp_map.h +@@ -11,6 +11,7 @@ + #ifndef MODULES_VIDEO_CODING_TIMESTAMP_MAP_H_ + #define MODULES_VIDEO_CODING_TIMESTAMP_MAP_H_ + ++#include + #include + + namespace webrtc { +--- a/src/3rdparty/chromium/third_party/webrtc/video/stats_counter.h ++++ b/src/3rdparty/chromium/third_party/webrtc/video/stats_counter.h +@@ -11,6 +11,7 @@ + #ifndef VIDEO_STATS_COUNTER_H_ + #define VIDEO_STATS_COUNTER_H_ + ++#include + #include + #include + +--- a/src/3rdparty/chromium/third_party/woff2/include/woff2/output.h ++++ b/src/3rdparty/chromium/third_party/woff2/include/woff2/output.h +@@ -10,6 +10,7 @@ + #define WOFF2_WOFF2_OUT_H_ + + #include ++#include + #include + #include + #include diff -pruN 5.15.19+dfsg-1/debian/patches/series 5.15.19+dfsg2-1/debian/patches/series --- 5.15.19+dfsg-1/debian/patches/series 2025-07-09 08:25:22.000000000 +0000 +++ 5.15.19+dfsg2-1/debian/patches/series 2025-09-20 13:16:17.000000000 +0000 @@ -25,3 +25,4 @@ fix-example-pro-files.patch build-with-c++17.patch ninja-1.12.patch mips64el-v8-regexp.patch +gcc-15.patch diff -pruN 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.iz.txt 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.iz.txt --- 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.iz.txt 2025-04-23 16:00:55.000000000 +0000 +++ 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.iz.txt 1970-01-01 00:00:00.000000000 +0000 @@ -1,3686 +0,0 @@ -[Info-ZIP note, 20040528: this file is based on PKWARE's appnote.txt of - 15 February 1996, taking into account PKWARE's revised appnote.txt - version 6.2.0 of 26 April 2004. It has been unofficially corrected - and extended by Info-ZIP without explicit permission by PKWARE. - Although Info-ZIP believes the information to be accurate and complete, - it is provided under a disclaimer similar to the PKWARE disclaimer below, - differing only in the substitution of "Info-ZIP" for "PKWARE". In other - words, use this information at your own risk, but we think it's correct. - - Specification info from PKWARE that was obviously wrong has been corrected - silently (e.g. missing structure fields, wrong numbers). - As of PKZIPW 2.50, two new incompatibilities have been introduced by PKWARE; - they are noted below. Note that the "NTFS tag" conflict is currently not - real; PKZIPW 2.50 actually tags NTFS files as having come from a FAT - file system, too.] - -File: APPNOTE.TXT - .ZIP File Format Specification -Version: 6.2.0 - NOTIFICATION OF CHANGE -Revised: 04/26/2004 [2004-05-28 Info-ZIP] -Copyright (c) 1989 - 2004 PKWARE Inc., All Rights Reserved. - -I. Purpose ----------- - -This specification is intended to define a cross-platform, -interoperable file format. Since its first publication -in 1989, PKWARE has remained committed to ensuring the -interoperability of the .ZIP file format through this -specification. We trust that all .ZIP compatible vendors -and application developers that have adopted this format -will share and support this commitment. - - -II. Disclaimer --------------- - -Although PKWARE will attempt to supply current and accurate -information relating to its file formats, algorithms, and the -subject programs, the possibility of error or omission can not -be eliminated. PKWARE therefore expressly disclaims any warranty -that the information contained in the associated materials relating -to the subject programs and/or the format of the files created or -accessed by the subject programs and/or the algorithms used by -the subject programs, or any other matter, is current, correct or -accurate as delivered. Any risk of damage due to any possible -inaccurate information is assumed by the user of the information. -Furthermore, the information relating to the subject programs -and/or the file formats created or accessed by the subject -programs and/or the algorithms used by the subject programs is -subject to change without notice. - -If the version of this file is marked as a NOTIFICATION OF CHANGE, -the content defines an Early Feature Specification (EFS) change -to the .ZIP file format that may be subject to modification prior -to publication of the Final Feature Specification (FFS). This -document may also contain information on Planned Feature -Specifications (PFS) defining recognized future extensions. - - -III. Change Log ---------------- - -Version Change Description Date -------- ------------------ ---------- -5.2 -Single Password Symmetric Encryption 06/02/2003 - storage - -6.1.0 -Smart Card compatibility 01/20/2004 - -Documentation on certificate storage - -6.2.0 -Introduction of Central Directory 04/26/2004 - Encryption for encrypting metadata - -Added OS/X to Version Made By values - - -IV. General Format of a .ZIP file ---------------------------------- - - Files stored in arbitrary order. Large .ZIP files can span multiple - diskette media or be split into user-defined segment sizes. [The - minimum user-defined segment size for a split .ZIP file is 64K. - (removed by PKWare 2003-06-01)] - - Overall .ZIP file format: - - [local file header 1] - [file data 1] - [data descriptor 1] - . - . - . - [local file header n] - [file data n] - [data descriptor n] - [archive decryption header] (EFS) - [archive extra data record] (EFS) - [central directory] - [zip64 end of central directory record] - [zip64 end of central directory locator] - [end of central directory record] - - - A. Local file header: - - local file header signature 4 bytes (0x04034b50) - version needed to extract 2 bytes - general purpose bit flag 2 bytes - compression method 2 bytes - last mod file time 2 bytes - last mod file date 2 bytes - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - file name length 2 bytes - extra field length 2 bytes - - file name (variable size) - extra field (variable size) - - - B. File data - - Immediately following the local header for a file - is the compressed or stored data for the file. - The series of [local file header][file data][data - descriptor] repeats for each file in the .ZIP archive. - - - C. Data descriptor: - - [Info-ZIP discrepancy: - The Info-ZIP zip program starts the data descriptor with a 4-byte - PK-style signature. Despite the specification, none of the PKWARE - programs supports the data descriptor. PKZIP 4.0 -fix function - (and PKZIPFIX 2.04) ignores the data descriptor info even when bit 3 - of the general purpose bit flag is set. - data descriptor signature 4 bytes (0x08074b50) - ] - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - - This descriptor exists only if bit 3 of the general - purpose bit flag is set (see below). It is byte aligned - and immediately follows the last byte of compressed data. - This descriptor is used only when it was not possible to - seek in the output .ZIP file, e.g., when the output .ZIP file - was standard output or a non seekable device. For Zip64 format - archives, the compressed and uncompressed sizes are 8 bytes each. - - - D. Archive decryption header: (EFS) - - The Archive Decryption Header is introduced in version 6.2 - of the ZIP format specification. This record exists in support - of the Central Directory Encryption Feature implemented as part of - the Strong Encryption Specification as described in this document. - When the Central Directory Structure is encrypted, this decryption - header will precede the encrypted data segment. The encrypted - data segment will consist of the Archive extra data record (if - present) and the encrypted Central Directory Structure data. - The format of this data record is identical to the Decryption - header record preceding compressed file data. If the central - directory structure is encrypted, the location of the start of - this data record is determined using the Start of Central Directory - field in the Zip64 End of Central Directory record. Refer to the - section on the Strong Encryption Specification for information - on the fields used in the Archive Decryption Header record. - - - E. Archive extra data record: (EFS) - - archive extra data signature 4 bytes (0x08064b50) - extra field length 4 bytes - extra field data (variable size) - - The Archive Extra Data Record is introduced in version 6.2 - of the ZIP format specification. This record exists in support - of the Central Directory Encryption Feature implemented as part of - the Strong Encryption Specification as described in this document. - When present, this record immediately precedes the central - directory data structure. The size of this data record will be - included in the Size of the Central Directory field in the - End of Central Directory record. If the central directory structure - is compressed, but not encrypted, the location of the start of - this data record is determined using the Start of Central Directory - field in the Zip64 End of Central Directory record. - - - F. Central directory structure: - - [file header 1] - . - . - . - [file header n] - [digital signature] - - File header: - - central file header signature 4 bytes (0x02014b50) - version made by 2 bytes - version needed to extract 2 bytes - general purpose bit flag 2 bytes - compression method 2 bytes - last mod file time 2 bytes - last mod file date 2 bytes - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - file name length 2 bytes - extra field length 2 bytes - file comment length 2 bytes - disk number start 2 bytes - internal file attributes 2 bytes - external file attributes 4 bytes - relative offset of local header 4 bytes - - file name (variable size) - extra field (variable size) - file comment (variable size) - - Digital signature: - - header signature 4 bytes (0x05054b50) - size of data 2 bytes - signature data (variable size) - - With the introduction of the Central Directory Encryption - feature in version 6.2 of this specification, the Central - Directory Structure may be stored both compressed and encrypted. - Although not required, it is assumed when encrypting the - Central Directory Structure, that it will be compressed - for greater storage efficiency. Information on the - Central Directory Encryption feature can be found in the section - describing the Strong Encryption Specification. The Digital - Signature record will be neither compressed nor encrypted. - - - G. Zip64 end of central directory record - - zip64 end of central dir - signature 4 bytes (0x06064b50) - size of zip64 end of central - directory record 8 bytes - version made by 2 bytes - version needed to extract 2 bytes - number of this disk 4 bytes - number of the disk with the - start of the central directory 4 bytes - total number of entries in the - central directory on this disk 8 bytes - total number of entries in the - central directory 8 bytes - size of the central directory 8 bytes - offset of start of central - directory with respect to - the starting disk number 8 bytes - zip64 extensible data sector (variable size) - - The above record structure defines Version 1 of the - Zip64 end of central directory record. Version 1 was - implemented in versions of this specification preceding - 6.2 in support of the ZIP64(tm) large file feature. The - introduction of the Central Directory Encryption feature - implemented in version 6.2 as part of the Strong Encryption - Specification defines Version 2 of this record structure. - Refer to the section describing the Strong Encryption - Specification for details on the version 2 format for - this record. - - - H. Zip64 end of central directory locator - - zip64 end of central dir locator - signature 4 bytes (0x07064b50) - number of the disk with the - start of the zip64 end of - central directory 4 bytes - relative offset of the zip64 - end of central directory record 8 bytes - total number of disks 4 bytes - - - I. End of central directory record: - - end of central dir signature 4 bytes (0x06054b50) - number of this disk 2 bytes - number of the disk with the - start of the central directory 2 bytes - total number of entries in the - central directory on this disk 2 bytes - total number of entries in - the central directory 2 bytes - size of the central directory 4 bytes - offset of start of central - directory with respect to - the starting disk number 4 bytes - .ZIP file comment length 2 bytes - .ZIP file comment (variable size) - - - J. Explanation of fields: - - version made by (2 bytes) - - [PKWARE describes "OS made by" now (since 1998) as follows: - The upper byte indicates the compatibility of the file - attribute information. If the external file attributes - are compatible with MS-DOS and can be read by PKZIP for - DOS version 2.04g then this value will be zero. If these - attributes are not compatible, then this value will - identify the host system on which the attributes are - compatible.] - The upper byte indicates the host system (OS) for the - file. Software can use this information to determine - the line record format for text files etc. The current - mappings are: - - 0 - FAT file system (DOS, OS/2, NT) + PKWARE 2.50+ VFAT, NTFS - 1 - Amiga - 2 - OpenVMS - 3 - Unix - 4 - VM/CMS - 5 - Atari ST - 6 - HPFS file system (OS/2, NT 3.x) - 7 - Macintosh - 8 - Z-System - 9 - CP/M - --------------------------------------------------------------------- - PKWARE assignment | Info-ZIP assignment - -----------------------------------|--------------------------------- - 10 - Windows NTFS | TOPS-20 - (since PKZIPW 2.50, but | (assigned Oct-1992, - not used by any PKWARE prog) | no longer used) - 11 - MVS | NTFS file system (WinNT) - | (actively used by Info-ZIP's - | Zip for NT since Sep-1993) - 12 - VSE | SMS/QDOS - --------------------------------------------------------------------- - 13 - Acorn RISC OS - 14 - VFAT file system (Win95, NT) [Info-ZIP reservation, unused] - 15 - MVS [PKWARE describes this assignment as "alternate MVS"] - 16 - BeOS (BeBox or PowerMac) - 17 - Tandem - 18 - OS/400 (IBM) | THEOS - 19 - OS/X (Darwin) - 20 thru 29 - unused - 30 - AtheOS/Syllable - 31 thru 255 - unused - - The lower byte indicates the ZIP specification version - (the version of this document) supported by the software - used to encode the file. The value/10 indicates the major - version number, and the value mod 10 is the minor version - number. - - version needed to extract (2 bytes) - - The minimum supported ZIP specification version needed to - extract the file, mapped as above. This value is based on - the specific format features a ZIP program must support to - be able to extract the file. If multiple features are - applied to a file, the minimum version should be set to the - feature having the highest value. New features or feature - changes affecting the published format specification will be - implemented using higher version numbers than the last - published value to avoid conflict. - - Current minimum feature versions are as defined below: - - 1.0 - Default value - 1.1 - File is a volume label - 2.0 - File is a folder (directory) - 2.0 - File is compressed using Deflate compression - 2.0 - File is encrypted using traditional PKWARE encryption - 2.1 - File is compressed using Deflate64(tm) - 2.5 - File is compressed using PKWARE DCL Implode - 2.7 - File is a patch data set - 4.5 - File uses ZIP64 format extensions - 4.6 - File is compressed using BZIP2 compression* - 5.0 - File is encrypted using DES - 5.0 - File is encrypted using 3DES - 5.0 - File is encrypted using original RC2 encryption - 5.0 - File is encrypted using RC4 encryption - 5.1 - File is encrypted using AES encryption - 5.1 - File is encrypted using corrected RC2 encryption** - 5.2 - File is encrypted using corrected RC2-64 encryption** - 6.1 - File is encrypted using non-OAEP key wrapping*** - 6.2 - Central directory encryption - - - * Early 7.x (pre-7.2) versions of PKZIP incorrectly set the - version needed to extract for BZIP2 compression to be 50 - when it should have been 46. - - ** Refer to the section on Strong Encryption Specification - for additional information regarding RC2 corrections. - - *** Certificate encryption using non-OAEP key wrapping is the - intended mode of operation for all versions beginning with 6.1. - Support for OAEP key wrapping should only be used for - backward compatibility when sending ZIP files to be opened by - versions of PKZIP older than 6.1 (5.0 or 6.0). - - When using ZIP64 extensions, the corresponding value in the - Zip64 end of central directory record should also be set. - This field currently supports only the value 45 to indicate - ZIP64 extensions are present. - - general purpose bit flag: (2 bytes) - - Bit 0: If set, indicates that the file is encrypted. - - (For Method 6 - Imploding) - Bit 1: If the compression method used was type 6, - Imploding, then this bit, if set, indicates - an 8K sliding dictionary was used. If clear, - then a 4K sliding dictionary was used. - Bit 2: If the compression method used was type 6, - Imploding, then this bit, if set, indicates - 3 Shannon-Fano trees were used to encode the - sliding dictionary output. If clear, then 2 - Shannon-Fano trees were used. - - (For Methods 8 and 9 - Deflating) - Bit 2 Bit 1 - 0 0 Normal (-en) compression option was used. - 0 1 Maximum (-exx/-ex) compression option was used. - 1 0 Fast (-ef) compression option was used. - 1 1 Super Fast (-es) compression option was used. - - Note: Bits 1 and 2 are undefined if the compression - method is any other. - - Bit 3: If this bit is set, the fields crc-32, compressed - size and uncompressed size are set to zero in the - local header. The correct values are put in the - data descriptor immediately following the compressed - data. (Note: PKZIP version 2.04g for DOS only - recognizes this bit for method 8 compression, newer - versions of PKZIP recognize this bit for any - compression method.) - [Info-ZIP note: This bit was introduced by PKZIP 2.04 for - DOS. In general, this feature can only be reliably used - together with compression methods that allow intrinsic - detection of the "end-of-compressed-data" condition. From - the set of compression methods described in this Zip archive - specification, only "deflate" and "bzip2" fulfill this - requirement. - Especially, the method STORED does not work! - The Info-ZIP tools recognize this bit regardless of the - compression method; but, they rely on correctly set - "compressed size" information in the central directory entry.] - - Bit 4: Reserved for use with method 8, for enhanced - deflating. - - Bit 5: If this bit is set, this indicates that the file is - compressed patched data. (Note: Requires PKZIP - version 2.70 or greater) - - Bit 6: Strong encryption. If this bit is set, you should - set the version needed to extract value to at least - 50 and you must also set bit 0. If AES encryption - is used, the version needed to extract value must - be at least 51. - - Bit 7: Currently unused. - - Bit 8: Currently unused. - - Bit 9: Currently unused. - - Bit 10: Currently unused. - - Bit 11: Currently unused. - - Bit 12: Reserved by PKWARE for enhanced compression. - - Bit 13: Used when encrypting the Central Directory to indicate - selected data values in the Local Header are masked to - hide their actual values. See the section describing - the Strong Encryption Specification for details. - - Bit 14: Reserved by PKWARE. - - Bit 15: Reserved by PKWARE. - - compression method: (2 bytes) - - (see accompanying documentation for algorithm - descriptions) - - 0 - The file is stored (no compression) - 1 - The file is Shrunk - 2 - The file is Reduced with compression factor 1 - 3 - The file is Reduced with compression factor 2 - 4 - The file is Reduced with compression factor 3 - 5 - The file is Reduced with compression factor 4 - 6 - The file is Imploded - 7 - Reserved for Tokenizing compression algorithm - 8 - The file is Deflated - 9 - Enhanced Deflating using Deflate64(tm) - 10 - PKWARE Data Compression Library Imploding - 11 - Reserved by PKWARE - 12 - File is compressed using BZIP2 algorithm - - date and time fields: (2 bytes each) - - The date and time are encoded in standard MS-DOS format. - If input came from standard input, the date and time are - those at which compression was started for this data. - If encrypting the central directory and general purpose bit - flag 13 is set indicating masking, the value stored in the - Local Header will be zero. - - CRC-32: (4 bytes) - - The CRC-32 algorithm was generously contributed by - David Schwaderer and can be found in his excellent - book "C Programmers Guide to NetBIOS" published by - Howard W. Sams & Co. Inc. The 'magic number' for - the CRC is 0xdebb20e3. The proper CRC pre and post - conditioning is used, meaning that the CRC register - is pre-conditioned with all ones (a starting value - of 0xffffffff) and the value is post-conditioned by - taking the one's complement of the CRC residual. - If bit 3 of the general purpose flag is set, this - field is set to zero in the local header and the correct - value is put in the data descriptor and in the central - directory. If encrypting the central directory and general - purpose bit flag 13 is set indicating masking, the value - stored in the Local Header will be zero. - - compressed size: (4 bytes) - uncompressed size: (4 bytes) - - The size of the file compressed and uncompressed, - respectively. If bit 3 of the general purpose bit flag - is set, these fields are set to zero in the local header - and the correct values are put in the data descriptor and - in the central directory. If an archive is in zip64 format - and the value in this field is 0xFFFFFFFF, the size will be - in the corresponding 8 byte zip64 extended information - extra field. If encrypting the central directory and general - purpose bit flag 13 is set indicating masking, the value stored - for the uncompressed size in the Local Header will be zero. - - file name length: (2 bytes) - extra field length: (2 bytes) - file comment length: (2 bytes) - - The length of the file name, extra field, and comment - fields respectively. The combined length of any - directory record and these three fields should not - generally exceed 65,535 bytes. If input came from standard - input, the file name length is set to zero. - - [Info-ZIP note: - This feature is not yet supported by any PKWARE version of ZIP - (at least not in PKZIP for DOS and PKZIP for Windows/WinNT). - The Info-ZIP programs handle standard input differently: - If input came from standard input, the filename is set to "-" - (length one).] - - - disk number start: (2 bytes) - - The number of the disk on which this file begins. If an - archive is in zip64 format and the value in this field is - 0xFFFF, the size will be in the corresponding 4 byte zip64 - extended information extra field. - - internal file attributes: (2 bytes) - - Bits 1 and 2 are reserved for use by PKWARE. - - The lowest bit of this field indicates, if set, that - the file is apparently an ASCII or text file. If not - set, that the file apparently contains binary data. - The remaining bits are unused in version 1.0. - - The 0x0002 bit of this field indicates, if set, that a - 4 byte variable record length control field precedes each - logical record indicating the length of the record. This - flag is independent of text control characters, and if used - in conjunction with text data, includes any control - characters in the total length of the record. This value is - provided for mainframe data transfer support. - - external file attributes: (4 bytes) - - The mapping of the external attributes is - host-system dependent (see 'version made by'). For - MS-DOS, the low order byte is the MS-DOS directory - attribute byte. If input came from standard input, this - field is set to zero. - - relative offset of local header: (4 bytes) - - This is the offset from the start of the first disk on - which this file appears, to where the local header should - be found. If an archive is in zip64 format and the value - in this field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 extended information extra field. - - file name: (Variable) - - The name of the file, with optional relative path. - The path stored should not contain a drive or - device letter, or a leading slash. All slashes - should be forward slashes '/' as opposed to - backwards slashes '\' for compatibility with Amiga - and Unix file systems etc. If input came from standard - input, there is no file name field. If encrypting - the central directory and general purpose bit flag 13 is set - indicating masking, the file name stored in the Local Header - will not be the actual file name. A masking value consisting - of a unique hexadecimal value will be stored. This value will - be sequentially incremented for each file in the archive. See - the section on the Strong Encryption Specification for details - on retrieving the encrypted file name. - [Info-ZIP discrepancy: - If input came from standard input, the file name is set - to "-" (without the quotes). - As far as we know, the PKWARE specification for "input from - stdin" is not supported by PKZIP/PKUNZIP for DOS, OS/2, Windows - Windows NT.] - - extra field: (Variable) - - This is for expansion. If additional information - needs to be stored for special needs or for specific - platforms, it should be stored here. Earlier versions - of the software can then safely skip this file, and - find the next file or header. This field will be 0 - length in version 1.0. - - In order to allow different programs and different types - of information to be stored in the 'extra' field in .ZIP - files, the following structure should be used for all - programs storing data in this field: - - header1+data1 + header2+data2 . . . - - Each header should consist of: - - Header ID - 2 bytes - Data Size - 2 bytes - - Note: all fields stored in Intel low-byte/high-byte order. - - The Header ID field indicates the type of data that is in - the following data block. - - Header ID's of 0 thru 31 are reserved for use by PKWARE. - The remaining ID's can be used by third party vendors for - proprietary usage. - - The current Header ID mappings defined by PKWARE are: - - 0x0001 ZIP64 extended information extra field - 0x0007 AV Info - 0x0008 Reserved for future Unicode file name data (PFS) - 0x0009 OS/2 extended attributes (also Info-ZIP) - 0x000a NTFS (Win9x/WinNT FileTimes) - 0x000c OpenVMS (also Info-ZIP) - 0x000d Unix - 0x000e Reserved for file stream and fork descriptors - 0x000f Patch Descriptor - 0x0014 PKCS#7 Store for X.509 Certificates - 0x0015 X.509 Certificate ID and Signature for - individual file - 0x0016 X.509 Certificate ID for Central Directory - 0x0017 Strong Encryption Header - 0x0018 Record Management Controls - 0x0019 PKCS#7 Encryption Recipient Certificate List - 0x0065 IBM S/390 (Z390), AS/400 (I400) attributes - - uncompressed - 0x0066 Reserved for IBM S/390 (Z390), AS/400 (I400) - attributes - compressed - - The Header ID mappings defined by Info-ZIP and third parties are: - - 0x07c8 Info-ZIP Macintosh (old, J. Lee) - 0x2605 ZipIt Macintosh (first version) - 0x2705 ZipIt Macintosh v 1.3.5 and newer (w/o full filename) - 0x2805 ZipIt Macintosh 1.3.5+ - 0x334d Info-ZIP Macintosh (new, D. Haase's 'Mac3' field) - 0x4154 Tandem NSK - 0x4341 Acorn/SparkFS (David Pilling) - 0x4453 Windows NT security descriptor (binary ACL) - 0x4704 VM/CMS - 0x470f MVS - 0x4854 Theos, old inofficial port - 0x4b46 FWKCS MD5 (see below) - 0x4c41 OS/2 access control list (text ACL) - 0x4d49 Info-ZIP OpenVMS (obsolete) - 0x4d63 Macintosh SmartZIP, by Macro Bambini - 0x4f4c Xceed original location extra field - 0x5356 AOS/VS (binary ACL) - 0x5455 extended timestamp - 0x554e Xceed unicode extra field - 0x5855 Info-ZIP Unix (original; also OS/2, NT, etc.) - 0x6542 BeOS (BeBox, PowerMac, etc.) - 0x6854 Theos - 0x7441 AtheOS (AtheOS/Syllable attributes) - 0x756e ASi Unix - 0x7855 Info-ZIP Unix (new) - 0xfb4a SMS/QDOS - - Detailed descriptions of Extra Fields defined by third - party mappings will be documented as information on - these data structures is made available to PKWARE. - PKWARE does not guarantee the accuracy of any published - third party data. - - The Data Size field indicates the size of the following - data block. Programs can use this value to skip to the - next header block, passing over any data blocks that are - not of interest. - - Note: As stated above, the size of the entire .ZIP file - header, including the file name, comment, and extra - field should not exceed 64K in size. - - In case two different programs should appropriate the same - Header ID value, it is strongly recommended that each - program place a unique signature of at least two bytes in - size (and preferably 4 bytes or bigger) at the start of - each data area. Every program should verify that its - unique signature is present, in addition to the Header ID - value being correct, before assuming that it is a block of - known type. - - In the following descriptions, note that "Short" means two bytes, - "Long" means four bytes, and "Long-Long" means eight bytes, - regardless of their native sizes. Unless specifically noted, all - integer fields should be interpreted as unsigned (non-negative) - numbers. - - - -ZIP64 Extended Information Extra Field (0x0001): - =============================================== - - The following is the layout of the ZIP64 extended - information "extra" block. If one of the size or - offset fields in the Local or Central directory - record is too small to hold the required data, - a ZIP64 extended information record is created. - The order of the fields in the ZIP64 extended - information record is fixed, but the fields will - only appear if the corresponding Local or Central - directory record field is set to 0xFFFF or 0xFFFFFFFF. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (ZIP64) 0x0001 2 bytes Tag for this "extra" block type - Size 2 bytes Size of this "extra" block - Original - Size 8 bytes Original uncompressed file size - Compressed - Size 8 bytes Size of compressed data - Relative Header - Offset 8 bytes Offset of local header record - Disk Start - Number 4 bytes Number of the disk on which - this file starts - - This entry in the Local header must include BOTH original - and compressed file sizes. - - - -OS/2 Extended Attributes Extra Field (0x0009): - ============================================= - - The following is the layout of the OS/2 extended attributes "extra" - block. (Last Revision 19960922) - - Note: all fields stored in Intel low-byte/high-byte order. - - Local-header version: - - Value Size Description - ----- ---- ----------- - (OS/2) 0x0009 Short tag for this extra block type - TSize Short total data size for this block - BSize Long uncompressed EA data size - CType Short compression type - EACRC Long CRC value for uncompressed EA data - (var.) variable compressed EA data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (OS/2) 0x0009 Short tag for this extra block type - TSize Short total data size for this block (4) - BSize Long size of uncompressed local EA data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - - The OS/2 extended attribute structure (FEA2LIST) is - compressed and then stored in its entirety within this - structure. There will only ever be one "block" of data in - the variable-length field. - - - -OS/2 Access Control List Extra Field: - ==================================== - - The following is the layout of the OS/2 ACL extra block. - (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (ACL) 0x4c41 Short tag for this extra block type ("AL") - TSize Short total data size for this block - BSize Long uncompressed ACL data size - CType Short compression type - EACRC Long CRC value for uncompressed ACL data - (var.) variable compressed ACL data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (ACL) 0x4c41 Short tag for this extra block type ("AL") - TSize Short total data size for this block (4) - BSize Long size of uncompressed local ACL data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - - The uncompressed ACL data consist of a text header of the form - "ACL1:%hX,%hd\n", where the first field is the OS/2 ACCINFO acc_attr - member and the second is acc_count, followed by acc_count strings - of the form "%s,%hx\n", where the first field is acl_ugname (user - group name) and the second acl_access. This block type will be - extended for other operating systems as needed. - - - -Windows NT Security Descriptor Extra Field (0x4453): - =================================================== - - The following is the layout of the NT Security Descriptor (another - type of ACL) extra block. (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (SD) 0x4453 Short tag for this extra block type ("SD") - TSize Short total data size for this block - BSize Long uncompressed SD data size - Version Byte version of uncompressed SD data format - CType Short compression type - EACRC Long CRC value for uncompressed SD data - (var.) variable compressed SD data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (SD) 0x4453 Short tag for this extra block type ("SD") - TSize Short total data size for this block (4) - BSize Long size of uncompressed local SD data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - Version specifies how the compressed data are to be interpreted - and allows for future expansion of this extra field type. Currently - only version 0 is defined. - - For version 0, the compressed data are to be interpreted as a single - valid Windows NT SECURITY_DESCRIPTOR data structure, in self-relative - format. - - - -PKWARE Win95/WinNT Extra Field (0x000a): - ======================================= - - The following description covers PKWARE's "NTFS" attributes - "extra" block, introduced with the release of PKZIP 2.50 for - Windows. (Last Revision 20001118) - - (Note: At this time the Mtime, Atime and Ctime values may - be used on any WIN32 system.) - [Info-ZIP note: In the current implementations, this field has - a fixed total data size of 32 bytes and is only stored as local - extra field.] - - Value Size Description - ----- ---- ----------- - (NTFS) 0x000a Short Tag for this "extra" block type - TSize Short Total Data Size for this block - Reserved Long for future use - Tag1 Short NTFS attribute tag value #1 - Size1 Short Size of attribute #1, in bytes - (var.) SubSize1 Attribute #1 data - . - . - . - TagN Short NTFS attribute tag value #N - SizeN Short Size of attribute #N, in bytes - (var.) SubSizeN Attribute #N data - - For NTFS, values for Tag1 through TagN are as follows: - (currently only one set of attributes is defined for NTFS) - - Tag Size Description - ----- ---- ----------- - 0x0001 2 bytes Tag for attribute #1 - Size1 2 bytes Size of attribute #1, in bytes (24) - Mtime 8 bytes 64-bit NTFS file last modification time - Atime 8 bytes 64-bit NTFS file last access time - Ctime 8 bytes 64-bit NTFS file creation time - - The total length for this block is 28 bytes, resulting in a - fixed size value of 32 for the TSize field of the NTFS block. - - The NTFS filetimes are 64-bit unsigned integers, stored in Intel - (least significant byte first) byte order. They determine the - number of 1.0E-07 seconds (1/10th microseconds!) past WinNT "epoch", - which is "01-Jan-1601 00:00:00 UTC". - - - -PKWARE OpenVMS Extra Field (0x000c): - =================================== - - The following is the layout of PKWARE's OpenVMS attributes - "extra" block. (Last Revision 12/17/91) - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (VMS) 0x000c Short Tag for this "extra" block type - TSize Short Total Data Size for this block - CRC Long 32-bit CRC for remainder of the block - Tag1 Short OpenVMS attribute tag value #1 - Size1 Short Size of attribute #1, in bytes - (var.) Size1 Attribute #1 data - . - . - . - TagN Short OpenVMS attribute tage value #N - SizeN Short Size of attribute #N, in bytes - (var.) SizeN Attribute #N data - - Rules: - - 1. There will be one or more of attributes present, which - will each be preceded by the above TagX & SizeX values. - These values are identical to the ATR$C_XXXX and - ATR$S_XXXX constants which are defined in ATR.H under - OpenVMS C. Neither of these values will ever be zero. - - 2. No word alignment or padding is performed. - - 3. A well-behaved PKZIP/OpenVMS program should never produce - more than one sub-block with the same TagX value. Also, - there will never be more than one "extra" block of type - 0x000c in a particular directory record. - - - -Info-ZIP VMS Extra Field: - ======================== - - The following is the layout of Info-ZIP's VMS attributes extra - block for VAX or Alpha AXP. The local-header and central-header - versions are identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (VMS2) 0x4d49 Short tag for this extra block type ("JM") - TSize Short total data size for this block - ID Long block ID - Flags Short info bytes - BSize Short uncompressed block size - Reserved Long (reserved) - (var.) variable compressed VMS file-attributes block - - The block ID is one of the following unterminated strings: - - "VFAB" struct FAB - "VALL" struct XABALL - "VFHC" struct XABFHC - "VDAT" struct XABDAT - "VRDT" struct XABRDT - "VPRO" struct XABPRO - "VKEY" struct XABKEY - "VMSV" version (e.g., "V6.1"; truncated at hyphen) - "VNAM" reserved - - The lower three bits of Flags indicate the compression method. The - currently defined methods are: - - 0 stored (not compressed) - 1 simple "RLE" - 2 deflated - - The "RLE" method simply replaces zero-valued bytes with zero-valued - bits and non-zero-valued bytes with a "1" bit followed by the byte - value. - - The variable-length compressed data contains only the data corre- - sponding to the indicated structure or string. Typically multiple - VMS2 extra fields are present (each with a unique block type). - - - -Info-ZIP Macintosh Extra Field: - ============================== - - The following is the layout of the (old) Info-ZIP resource-fork extra - block for Macintosh. The local-header and central-header versions - are identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (Mac) 0x07c8 Short tag for this extra block type - TSize Short total data size for this block - "JLEE" beLong extra-field signature - FInfo 16 bytes Macintosh FInfo structure - CrDat beLong HParamBlockRec fileParam.ioFlCrDat - MdDat beLong HParamBlockRec fileParam.ioFlMdDat - Flags beLong info bits - DirID beLong HParamBlockRec fileParam.ioDirID - VolName 28 bytes volume name (optional) - - All fields but the first two are in native Macintosh format - (big-endian Motorola order, not little-endian Intel). The least - significant bit of Flags is 1 if the file is a data fork, 0 other- - wise. In addition, if this extra field is present, the filename - has an extra 'd' or 'r' appended to indicate data fork or resource - fork. The 28-byte VolName field may be omitted. - - - -ZipIt Macintosh Extra Field (long): - ================================== - - The following is the layout of the ZipIt extra block for Macintosh. - The local-header and central-header versions are identical. - (Last Revision 19970130) - - Value Size Description - ----- ---- ----------- - (Mac2) 0x2605 Short tag for this extra block type - TSize Short total data size for this block - "ZPIT" beLong extra-field signature - FnLen Byte length of FileName - FileName variable full Macintosh filename - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - - - -ZipIt Macintosh Extra Field (short, for files): - ============================================== - - The following is the layout of a shortened variant of the - ZipIt extra block for Macintosh (without "full name" entry). - This variant is used by ZipIt 1.3.5 and newer for entries of - files (not directories) that do not have a MacBinary encoded - file. The local-header and central-header versions are identical. - (Last Revision 20030602) - - Value Size Description - ----- ---- ----------- - (Mac2b) 0x2705 Short tag for this extra block type - TSize Short total data size for this block (min. 12) - "ZPIT" beLong extra-field signature - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - fdFlags beShort attributes from FInfo.frFlags, - may be omitted - 0x0000 beShort reserved, may be omitted - - - -ZipIt Macintosh Extra Field (short, for directories): - ==================================================== - - The following is the layout of a shortened variant of the - ZipIt extra block for Macintosh used only for directory - entries. This variant is used by ZipIt 1.3.5 and newer to - save some optional Mac-specific information about directories. - The local-header and central-header versions are identical. - - Value Size Description - ----- ---- ----------- - (Mac2c) 0x2805 Short tag for this extra block type - TSize Short total data size for this block (12) - "ZPIT" beLong extra-field signature - frFlags beShort attributes from DInfo.frFlags, may - be omitted - View beShort ZipIt view flag, may be omitted - - - The View field specifies ZipIt-internal settings as follows: - - Bits of the Flags: - bit 0 if set, the folder is shown expanded (open) - when the archive contents are viewed in ZipIt. - bits 1-15 reserved, zero; - - - -Info-ZIP Macintosh Extra Field (new): - ==================================== - - The following is the layout of the (new) Info-ZIP extra - block for Macintosh, designed by Dirk Haase. - All values are in little-endian. - (Last Revision 19981005) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Mac3) 0x334d Short tag for this extra block type ("M3") - TSize Short total data size for this block - BSize Long uncompressed finder attribute data size - Flags Short info bits - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - (CType) Short compression type - (CRC) Long CRC value for uncompressed MacOS data - Attribs variable finder attribute data (see below) - - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Mac3) 0x334d Short tag for this extra block type ("M3") - TSize Short total data size for this block - BSize Long uncompressed finder attribute data size - Flags Short info bits - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - - The third bit of Flags in both headers indicates whether - the LOCAL extra field is uncompressed (and therefore whether CType - and CRC are omitted): - - Bits of the Flags: - bit 0 if set, file is a data fork; otherwise unset - bit 1 if set, filename will be not changed - bit 2 if set, Attribs is uncompressed (no CType, CRC) - bit 3 if set, date and times are in 64 bit - if zero date and times are in 32 bit. - bit 4 if set, timezone offsets fields for the native - Mac times are omitted (UTC support deactivated) - bits 5-15 reserved; - - - Attributes: - - Attribs is a Mac-specific block of data in little-endian format with - the following structure (if compressed, uncompress it first): - - Value Size Description - ----- ---- ----------- - fdFlags Short Finder Flags - fdLocation.v Short Finder Icon Location - fdLocation.h Short Finder Icon Location - fdFldr Short Folder containing file - - FXInfo 16 bytes Macintosh FXInfo structure - FXInfo-Structure: - fdIconID Short - fdUnused[3] Short unused but reserved 6 bytes - fdScript Byte Script flag and number - fdXFlags Byte More flag bits - fdComment Short Comment ID - fdPutAway Long Home Dir ID - - FVersNum Byte file version number - may be not used by MacOS - ACUser Byte directory access rights - - FlCrDat ULong date and time of creation - FlMdDat ULong date and time of last modification - FlBkDat ULong date and time of last backup - These time numbers are original Mac FileTime values (local time!). - Currently, date-time width is 32-bit, but future version may - support be 64-bit times (see flags) - - CrGMTOffs Long(signed!) difference "local Creat. time - UTC" - MdGMTOffs Long(signed!) difference "local Modif. time - UTC" - BkGMTOffs Long(signed!) difference "local Backup time - UTC" - These "local time - UTC" differences (stored in seconds) may be - used to support timestamp adjustment after inter-timezone transfer. - These fields are optional; bit 4 of the flags word controls their - presence. - - Charset Short TextEncodingBase (Charset) - valid for the following two fields - - FullPath variable Path of the current file. - Zero terminated string (C-String) - Currently coded in the native Charset. - - Comment variable Finder Comment of the current file. - Zero terminated string (C-String) - Currently coded in the native Charset. - - - -SmartZIP Macintosh Extra Field: - ==================================== - - The following is the layout of the SmartZIP extra - block for Macintosh, designed by Marco Bambini. - - Local-header version: - - Value Size Description - ----- ---- ----------- - 0x4d63 Short tag for this extra block type ("cM") - TSize Short total data size for this block (64) - "dZip" beLong extra-field signature - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - fdFlags beShort Finder Flags - fdLocation.v beShort Finder Icon Location - fdLocation.h beShort Finder Icon Location - fdFldr beShort Folder containing file - CrDat beLong HParamBlockRec fileParam.ioFlCrDat - MdDat beLong HParamBlockRec fileParam.ioFlMdDat - frScroll.v Byte vertical pos. of folder's scroll bar - fdScript Byte Script flag and number - frScroll.h Byte horizontal pos. of folder's scroll bar - fdXFlags Byte More flag bits - FileName Byte[32] full Macintosh filename (pascal string) - - All fields but the first two are in native Macintosh format - (big-endian Motorola order, not little-endian Intel). - The extra field size is fixed to 64 bytes. - The local-header and central-header versions are identical. - - - -Acorn SparkFS Extra Field: - ========================= - - The following is the layout of David Pilling's SparkFS extra block - for Acorn RISC OS. The local-header and central-header versions are - identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (Acorn) 0x4341 Short tag for this extra block type ("AC") - TSize Short total data size for this block (20) - "ARC0" Long extra-field signature - LoadAddr Long load address or file type - ExecAddr Long exec address - Attr Long file permissions - Zero Long reserved; always zero - - The following bits of Attr are associated with the given file - permissions: - - bit 0 user-writable ('W') - bit 1 user-readable ('R') - bit 2 reserved - bit 3 locked ('L') - bit 4 publicly writable ('w') - bit 5 publicly readable ('r') - bit 6 reserved - bit 7 reserved - - - -VM/CMS Extra Field: - ================== - - The following is the layout of the file-attributes extra block for - VM/CMS. The local-header and central-header versions are - identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (VM/CMS) 0x4704 Short tag for this extra block type - TSize Short total data size for this block - flData variable file attributes data - - flData is an uncompressed fldata_t struct. - - - -MVS Extra Field: - =============== - - The following is the layout of the file-attributes extra block for - MVS. The local-header and central-header versions are identical. - (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (MVS) 0x470f Short tag for this extra block type - TSize Short total data size for this block - flData variable file attributes data - - flData is an uncompressed fldata_t struct. - - - -PKWARE Unix Extra Field (0x000d): - ================================ - - The following is the layout of PKWARE's Unix "extra" block. - It was introduced with the release of PKZIP for Unix 2.50. - Note: all fields are stored in Intel low-byte/high-byte order. - (Last Revision 19980901) - - This field has a minimum data size of 12 bytes and is only stored - as local extra field. - - Value Size Description - ----- ---- ----------- - (Unix0) 0x000d Short Tag for this "extra" block type - TSize Short Total Data Size for this block - AcTime Long time of last access (UTC/GMT) - ModTime Long time of last modification (UTC/GMT) - UID Short Unix user ID - GID Short Unix group ID - (var) variable Variable length data field - - The variable length data field will contain file type - specific data. Currently the only values allowed are - the original "linked to" file names for hard or symbolic - links, and the major and minor device node numbers for - character and block device nodes. Since device nodes - cannot be either symbolic or hard links, only one set of - variable length data is stored. Link files will have the - name of the original file stored. This name is NOT NULL - terminated. Its size can be determined by checking TSize - - 12. Device entries will have eight bytes stored as two 4 - byte entries (in little-endian format). The first entry - will be the major device number, and the second the minor - device number. - - [Info-ZIP note: The fixed part of this field has the same layout as - Info-ZIP's abandoned "Unix1 timestamps & owner ID info" extra field; - only the two tag bytes are different.] - - - -PATCH Descriptor Extra Field (0x000f): - ===================================== - - The following is the layout of the Patch Descriptor "extra" - block. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (Patch) 0x000f Short Tag for this "extra" block type - TSize Short Size of the total "extra" block - Version Short Version of the descriptor - Flags Long Actions and reactions (see below) - OldSize Long Size of the file about to be patched - OldCRC Long 32-bit CRC of the file about to be patched - NewSize Long Size of the resulting file - NewCRC Long 32-bit CRC of the resulting file - - - Actions and reactions - - Bits Description - ---- ---------------- - 0 Use for auto detection - 1 Treat as a self-patch - 2-3 RESERVED - 4-5 Action (see below) - 6-7 RESERVED - 8-9 Reaction (see below) to absent file - 10-11 Reaction (see below) to newer file - 12-13 Reaction (see below) to unknown file - 14-15 RESERVED - 16-31 RESERVED - - Actions - - Action Value - ------ ----- - none 0 - add 1 - delete 2 - patch 3 - - Reactions - - Reaction Value - -------- ----- - ask 0 - skip 1 - ignore 2 - fail 3 - - Patch support is provided by PKPatchMaker(tm) technology and is - covered under U.S. Patents and Patents Pending. - - - -PKCS#7 Store for X.509 Certificates (0x0014): - ============================================ - - This field contains information about each of the certificates - files may be signed with. When the Central Directory Encryption - feature is enabled for a ZIP file, this record will appear in - the Archive Extra Data Record, otherwise it will appear in the - first central directory record and will be ignored in any - other record. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (Store) 0x0014 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the store data - SData TSize Data about the store - - SData - Value Size Description - ----- ---- ----------- - Version 2 bytes Version number, 0x0001 for now - StoreD (variable) Actual store data - - The StoreD member is suitable for passing as the pbData - member of a CRYPT_DATA_BLOB to the CertOpenStore() function - in Microsoft's CryptoAPI. The SSize member above will be - cbData + 6, where cbData is the cbData member of the same - CRYPT_DATA_BLOB. The encoding type to pass to - CertOpenStore() should be - PKCS_7_ANS_ENCODING | X509_ASN_ENCODING. - - - -X.509 Certificate ID and Signature for individual file (0x0015): - =============================================================== - - This field contains the information about which certificate in - the PKCS#7 store was used to sign a particular file. It also - contains the signature data. This field can appear multiple - times, but can only appear once per certificate. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (CID) 0x0015 2 bytes Tag for this "extra" block type - CSize 2 bytes Size of Method - Method (variable) - - Method - Value Size Description - ----- ---- ----------- - Version 2 bytes Version number, for now 0x0001 - AlgID 2 bytes Algorithm ID used for signing - IDSize 2 bytes Size of Certificate ID data - CertID (variable) Certificate ID data - SigSize 2 bytes Size of Signature data - Sig (variable) Signature data - - CertID - Value Size Description - ----- ---- ----------- - Size1 4 bytes Size of CertID, should be (IDSize - 4) - Size1 4 bytes A bug in version one causes this value - to appear twice. - IssSize 4 bytes Issuer data size - Issuer (variable) Issuer data - SerSize 4 bytes Serial Number size - Serial (variable) Serial Number data - - The Issuer and IssSize members are suitable for creating a - CRYPT_DATA_BLOB to be the Issuer member of a CERT_INFO - struct. The Serial and SerSize members would be the - SerialNumber member of the same CERT_INFO struct. This - struct would be used to find the certificate in the store - the file was signed with. Those structures are from the MS - CryptoAPI. - - Sig and SigSize are the actual signature data and size - generated by signing the file with the MS CryptoAPI using a - hash created with the given AlgID. - - - -X.509 Certificate ID and Signature for central directory (0x0016): - ================================================================= - - This field contains the information about which certificate in - the PKCS#7 store was used to sign the central directory structure. - When the Central Directory Encryption feature is enabled for a - ZIP file, this record will appear in the Archive Extra Data Record, - otherwise it will appear in the first central directory record, - along with the store. The data structure is the - same as the CID, except that SigSize will be 0, and there - will be no Sig member. - - This field is also kept after the last central directory - record, as the signature data (ID 0x05054b50, it looks like - a central directory record of a different type). This - second copy of the data is the Signature Data member of the - record, and will have a SigSize that is non-zero, and will - have Sig data. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (CDID) 0x0016 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of data that follows - TData TSize Data - - - -Strong Encryption Header (0x0017) (EFS): - =============================== - - Value Size Description - ----- ---- ----------- - 0x0017 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of data that follows - Format 2 bytes Format definition for this record - AlgID 2 bytes Encryption algorithm identifier - Bitlen 2 bytes Bit length of encryption key - Flags 2 bytes Processing flags - CertData TSize-8 Certificate decryption extra field data - (refer to the explanation for CertData - in the section describing the - Certificate Processing Method under - the Strong Encryption Specification) - - - -Record Management Controls (0x0018): - =================================== - - Value Size Description - ----- ---- ----------- -(Rec-CTL) 0x0018 2 bytes Tag for this "extra" block type - CSize 2 bytes Size of total extra block data - Tag1 2 bytes Record control attribute 1 - Size1 2 bytes Size of attribute 1, in bytes - Data1 Size1 Attribute 1 data - . - . - . - TagN 2 bytes Record control attribute N - SizeN 2 bytes Size of attribute N, in bytes - DataN SizeN Attribute N data - - - -PKCS#7 Encryption Recipient Certificate List (0x0019): (EFS) - ===================================================== - - This field contains the information about each of the certificates - that files may be encrypted with. This field should only appear - in the archive extra data record. This field is not required and - serves only to aide archive modifications by preserving public - encryption data. Individual security requirements may dictate - that this data be omitted to deter information exposure. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (CStore) 0x0019 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the store data - TData TSize Data about the store - - TData: - - Value Size Description - ----- ---- ----------- - Version 2 bytes Format version number - must 0x0001 at this time - CStore (var) PKCS#7 data blob - - - -MVS Extra Field (PKWARE, 0x0065): - ================================ - - The following is the layout of the MVS "extra" block. - Note: Some fields are stored in Big Endian format. - All text is in EBCDIC format unless otherwise specified. - - Value Size Description - ----- ---- ----------- - (MVS) 0x0065 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - ID 4 bytes EBCDIC "Z390" 0xE9F3F9F0 or - "T4MV" for TargetFour - (var) TSize-4 Attribute data - - - -OS/400 Extra Field (0x0065): - =========================== - - The following is the layout of the OS/400 "extra" block. - Note: Some fields are stored in Big Endian format. - All text is in EBCDIC format unless otherwise specified. - - Value Size Description - ----- ---- ----------- - (OS400) 0x0065 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - ID 4 bytes EBCDIC "I400" 0xC9F4F0F0 or - "T4MV" for TargetFour - (var) TSize-4 Attribute data - - - -Extended Timestamp Extra Field: - ============================== - - The following is the layout of the extended-timestamp extra block. - (Last Revision 19970118) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (time) 0x5455 Short tag for this extra block type ("UT") - TSize Short total data size for this block - Flags Byte info bits - (ModTime) Long time of last modification (UTC/GMT) - (AcTime) Long time of last access (UTC/GMT) - (CrTime) Long time of original creation (UTC/GMT) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (time) 0x5455 Short tag for this extra block type ("UT") - TSize Short total data size for this block - Flags Byte info bits (refers to local header!) - (ModTime) Long time of last modification (UTC/GMT) - - The central-header extra field contains the modification time only, - or no timestamp at all. TSize is used to flag its presence or - absence. But note: - - If "Flags" indicates that Modtime is present in the local header - field, it MUST be present in the central header field, too! - This correspondence is required because the modification time - value may be used to support trans-timezone freshening and - updating operations with zip archives. - - The time values are in standard Unix signed-long format, indicating - the number of seconds since 1 January 1970 00:00:00. The times - are relative to Coordinated Universal Time (UTC), also sometimes - referred to as Greenwich Mean Time (GMT). To convert to local time, - the software must know the local timezone offset from UTC/GMT. - - The lower three bits of Flags in both headers indicate which time- - stamps are present in the LOCAL extra field: - - bit 0 if set, modification time is present - bit 1 if set, access time is present - bit 2 if set, creation time is present - bits 3-7 reserved for additional timestamps; not set - - Those times that are present will appear in the order indicated, but - any combination of times may be omitted. (Creation time may be - present without access time, for example.) TSize should equal - (1 + 4*(number of set bits in Flags)), as the block is currently - defined. Other timestamps may be added in the future. - - - -Info-ZIP Unix Extra Field (type 1): - ================================== - - The following is the layout of the old Info-ZIP extra block for - Unix. It has been replaced by the extended-timestamp extra block - (0x5455) and the Unix type 2 extra block (0x7855). - (Last Revision 19970118) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Unix1) 0x5855 Short tag for this extra block type ("UX") - TSize Short total data size for this block - AcTime Long time of last access (UTC/GMT) - ModTime Long time of last modification (UTC/GMT) - UID Short Unix user ID (optional) - GID Short Unix group ID (optional) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Unix1) 0x5855 Short tag for this extra block type ("UX") - TSize Short total data size for this block - AcTime Long time of last access (GMT/UTC) - ModTime Long time of last modification (GMT/UTC) - - The file access and modification times are in standard Unix signed- - long format, indicating the number of seconds since 1 January 1970 - 00:00:00. The times are relative to Coordinated Universal Time - (UTC), also sometimes referred to as Greenwich Mean Time (GMT). To - convert to local time, the software must know the local timezone - offset from UTC/GMT. The modification time may be used by non-Unix - systems to support inter-timezone freshening and updating of zip - archives. - - The local-header extra block may optionally contain UID and GID - info for the file. The local-header TSize value is the only - indication of this. Note that Unix UIDs and GIDs are usually - specific to a particular machine, and they generally require root - access to restore. - - This extra field type is obsolete, but it has been in use since - mid-1994. Therefore future archiving software should continue to - support it. Some guidelines: - - An archive member should either contain the old "Unix1" - extra field block or the new extra field types "time" and/or - "Unix2". - - If both the old "Unix1" block type and one or both of the new - block types "time" and "Unix2" are found, the "Unix1" block - should be considered invalid and ignored. - - Unarchiving software should recognize both old and new extra - field block types, but the info from new types overrides the - old "Unix1" field. - - Archiving software should recognize "Unix1" extra fields for - timestamp comparison but never create it for updated, freshened - or new archive members. When copying existing members to a new - archive, any "Unix1" extra field blocks should be converted to - the new "time" and/or "Unix2" types. - - - -Info-ZIP Unix Extra Field (type 2): - ================================== - - The following is the layout of the new Info-ZIP extra block for - Unix. (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Unix2) 0x7855 Short tag for this extra block type ("Ux") - TSize Short total data size for this block (4) - UID Short Unix user ID - GID Short Unix group ID - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Unix2) 0x7855 Short tag for this extra block type ("Ux") - TSize Short total data size for this block (0) - - The data size of the central-header version is zero; it is used - solely as a flag that UID/GID info is present in the local-header - extra field. If additional fields are ever added to the local - version, the central version may be extended to indicate this. - - Note that Unix UIDs and GIDs are usually specific to a particular - machine, and they generally require root access to restore. - - - -ASi Unix Extra Field: - ==================== - - The following is the layout of the ASi extra block for Unix. The - local-header and central-header versions are identical. - (Last Revision 19960916) - - Value Size Description - ----- ---- ----------- - (Unix3) 0x756e Short tag for this extra block type ("nu") - TSize Short total data size for this block - CRC Long CRC-32 of the remaining data - Mode Short file permissions - SizDev Long symlink'd size OR major/minor dev num - UID Short user ID - GID Short group ID - (var.) variable symbolic link filename - - Mode is the standard Unix st_mode field from struct stat, containing - user/group/other permissions, setuid/setgid and symlink info, etc. - - If Mode indicates that this file is a symbolic link, SizDev is the - size of the file to which the link points. Otherwise, if the file - is a device, SizDev contains the standard Unix st_rdev field from - struct stat (includes the major and minor numbers of the device). - SizDev is undefined in other cases. - - If Mode indicates that the file is a symbolic link, the final field - will be the name of the file to which the link points. The file- - name length can be inferred from TSize. - - [Note that TSize may incorrectly refer to the data size not counting - the CRC; i.e., it may be four bytes too small.] - - - -BeOS Extra Field: - ================ - - The following is the layout of the file-attributes extra block for - BeOS. (Last Revision 19970531) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (BeOS) 0x6542 Short tag for this extra block type ("Be") - TSize Short total data size for this block - BSize Long uncompressed file attribute data size - Flags Byte info bits - (CType) Short compression type - (CRC) Long CRC value for uncompressed file attribs - Attribs variable file attribute data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (BeOS) 0x6542 Short tag for this extra block type ("Be") - TSize Short total data size for this block (5) - BSize Long size of uncompr. local EF block data - Flags Byte info bits - - The least significant bit of Flags in both headers indicates whether - the LOCAL extra field is uncompressed (and therefore whether CType - and CRC are omitted): - - bit 0 if set, Attribs is uncompressed (no CType, CRC) - bits 1-7 reserved; if set, assume error or unknown data - - Currently the only supported compression types are deflated (type 8) - and stored (type 0); the latter is not used by Info-ZIP's Zip but is - supported by UnZip. - - Attribs is a BeOS-specific block of data in big-endian format with - the following structure (if compressed, uncompress it first): - - Value Size Description - ----- ---- ----------- - Name variable attribute name (null-terminated string) - Type Long attribute type (32-bit unsigned integer) - Size Long Long data size for this sub-block (64 bits) - Data variable attribute data - - The attribute structure is repeated for every attribute. The Data - field may contain anything--text, flags, bitmaps, etc. - - - -AtheOS Extra Field: - ================== - - The following is the layout of the file-attributes extra block for - AtheOS. This field is a very close spin-off from the BeOS e.f. - The only differences are: - - a new extra field signature - - numeric field in the attributes data are stored in little-endian - format ("i386" was initial hardware for AtheOS) - (Last Revision 20040908) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (AtheOS) 0x7441 Short tag for this extra block type ("At") - TSize Short total data size for this block - BSize Long uncompressed file attribute data size - Flags Byte info bits - (CType) Short compression type - (CRC) Long CRC value for uncompressed file attribs - Attribs variable file attribute data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (AtheOS) 0x7441 Short tag for this extra block type ("At") - TSize Short total data size for this block (5) - BSize Long size of uncompr. local EF block data - Flags Byte info bits - - The least significant bit of Flags in both headers indicates whether - the LOCAL extra field is uncompressed (and therefore whether CType - and CRC are omitted): - - bit 0 if set, Attribs is uncompressed (no CType, CRC) - bits 1-7 reserved; if set, assume error or unknown data - - Currently the only supported compression types are deflated (type 8) - and stored (type 0); the latter is not used by Info-ZIP's Zip but is - supported by UnZip. - - Attribs is a AtheOS-specific block of data in little-endian format - with the following structure (if compressed, uncompress it first): - - Value Size Description - ----- ---- ----------- - Name variable attribute name (null-terminated string) - Type Long attribute type (32-bit unsigned integer) - Size Long Long data size for this sub-block (64 bits) - Data variable attribute data - - The attribute structure is repeated for every attribute. The Data - field may contain anything--text, flags, bitmaps, etc. - - - -SMS/QDOS Extra Field: - ==================== - - The following is the layout of the file-attributes extra block for - SMS/QDOS. The local-header and central-header versions are identical. - (Last Revision 19960929) - - Value Size Description - ----- ---- ----------- - (QDOS) 0xfb4a Short tag for this extra block type - TSize Short total data size for this block - LongID Long extra-field signature - (ExtraID) Long additional signature/flag bytes - QDirect 64 bytes qdirect structure - - LongID may be "QZHD" or "QDOS". In the latter case, ExtraID will - be present. Its first three bytes are "02\0"; the last byte is - currently undefined. - - QDirect contains the file's uncompressed directory info (qdirect - struct). Its elements are in native (big-endian) format: - - d_length beLong file length - d_access byte file access type - d_type byte file type - d_datalen beLong data length - d_reserved beLong unused - d_szname beShort size of filename - d_name 36 bytes filename - d_update beLong time of last update - d_refdate beLong file version number - d_backup beLong time of last backup (archive date) - - - -AOS/VS Extra Field: - ================== - - The following is the layout of the extra block for Data General - AOS/VS. The local-header and central-header versions are identical. - (Last Revision 19961125) - - Value Size Description - ----- ---- ----------- - (AOSVS) 0x5356 Short tag for this extra block type ("VS") - TSize Short total data size for this block - "FCI\0" Long extra-field signature - Version Byte version of AOS/VS extra block (10 = 1.0) - Fstat variable fstat packet - AclBuf variable raw ACL data ($MXACL bytes) - - Fstat contains the file's uncompressed fstat packet, which is one of - the following: - - normal fstat packet (P_FSTAT struct) - DIR/CPD fstat packet (P_FSTAT_DIR struct) - unit (device) fstat packet (P_FSTAT_UNIT struct) - IPC file fstat packet (P_FSTAT_IPC struct) - - AclBuf contains the raw ACL data; its length is $MXACL. - - - -Tandem NSK Extra Field: - ====================== - - The following is the layout of the file-attributes extra block for - Tandem NSK. The local-header and central-header versions are - identical. (Last Revision 19981221) - - Value Size Description - ----- ---- ----------- - (TA) 0x4154 Short tag for this extra block type ("TA") - TSize Short total data size for this block (20) - NSKattrs 20 Bytes NSK attributes - - - -THEOS Extra Field: - ================= - - The following is the layout of the file-attributes extra block for - Theos. The local-header and central-header versions are identical. - (Last Revision 19990206) - - Value Size Description - ----- ---- ----------- - (Theos) 0x6854 Short 'Th' signature - size Short size of extra block - flags Byte reserved for future use - filesize Long file size - fileorg Byte type of file (see below) - keylen Short key length for indexed and keyed files, - data segment size for 16 bits programs - reclen Short record length for indexed,keyed and direct, - text segment size for 16 bits programs - filegrow Byte growing factor for indexed,keyed and direct - protect Byte protections (see below) - reserved Short reserved for future use - - File types - ========== - - 0x80 library (keyed access list of files) - 0x40 directory - 0x10 stream file - 0x08 direct file - 0x04 keyed file - 0x02 indexed file - 0x0e reserved - 0x01 16 bits real mode program (obsolete) - 0x21 16 bits protected mode program - 0x41 32 bits protected mode program - - Protection codes - ================ - - User protection - --------------- - 0x01 non readable - 0x02 non writable - 0x04 non executable - 0x08 non erasable - - Other protection - ---------------- - 0x10 non readable - 0x20 non writable - 0x40 non executable Theos before 4.0 - 0x40 modified Theos 4.x - 0x80 not hidden - - - -THEOS old inofficial Extra Field: - ================================ - - The following is the layout of an inoffical former version of a - Theos file-attributes extra blocks. This layout was never published - and is no longer created. However, UnZip can optionally support it - when compiling with the option flag OLD_THEOS_EXTRA defined. - Both the local-header and central-header versions are identical. - (Last Revision 19990206) - - Value Size Description - ----- ---- ----------- - (THS0) 0x4854 Short 'TH' signature - size Short size of extra block - flags Short reserved for future use - filesize Long file size - reclen Short record length for indexed,keyed and direct, - text segment size for 16 bits programs - keylen Short key length for indexed and keyed files, - data segment size for 16 bits programs - filegrow Byte growing factor for indexed,keyed and direct - reserved 3 Bytes reserved for future use - - - -FWKCS MD5 Extra Field (0x4b46): - ============================== - - The FWKCS Contents_Signature System, used in automatically - identifying files independent of filename, optionally adds - and uses an extra field to support the rapid creation of - an enhanced contents_signature. - There is no local-header version; the following applies - only to the central header. (Last Revision 19961207) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (MD5) 0x4b46 Short tag for this extra block type ("FK") - TSize Short total data size for this block (19) - "MD5" 3 bytes extra-field signature - MD5hash 16 bytes 128-bit MD5 hash of uncompressed data - (low byte first) - - When FWKCS revises a .ZIP file central directory to add - this extra field for a file, it also replaces the - central directory entry for that file's uncompressed - file length with a measured value. - - FWKCS provides an option to strip this extra field, if - present, from a .ZIP file central directory. In adding - this extra field, FWKCS preserves .ZIP file Authenticity - Verification; if stripping this extra field, FWKCS - preserves all versions of AV through PKZIP version 2.04g. - - FWKCS, and FWKCS Contents_Signature System, are - trademarks of Frederick W. Kantor. - - (1) R. Rivest, RFC1321.TXT, MIT Laboratory for Computer - Science and RSA Data Security, Inc., April 1992. - ll.76-77: "The MD5 algorithm is being placed in the - public domain for review and possible adoption as a - standard." - - - file comment: (Variable) - - The comment for this file. - - number of this disk: (2 bytes) - - The number of this disk, which contains central - directory end record. If an archive is in zip64 format - and the value in this field is 0xFFFF, the size will - be in the corresponding 4 byte zip64 end of central - directory field. - - number of the disk with the start of the central directory: (2 bytes) - - The number of the disk on which the central - directory starts. If an archive is in zip64 format - and the value in this field is 0xFFFF, the size will - be in the corresponding 4 byte zip64 end of central - directory field. - - total number of entries in the central dir on this disk: (2 bytes) - - The number of central directory entries on this disk. - If an archive is in zip64 format and the value in - this field is 0xFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - total number of entries in the central dir: (2 bytes) - - The total number of files in the .ZIP file. If an - archive is in zip64 format and the value in this field - is 0xFFFF, the size will be in the corresponding 8 byte - zip64 end of central directory field. - - size of the central directory: (4 bytes) - - The size (in bytes) of the entire central directory. - If an archive is in zip64 format and the value in - this field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - offset of start of central directory with respect to - the starting disk number: (4 bytes) - - Offset of the start of the central directory on the - disk on which the central directory starts. If an - archive is in zip64 format and the value in this - field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - .ZIP file comment length: (2 bytes) - - The length of the comment for this .ZIP file. - - .ZIP file comment: (Variable) - - The comment for this .ZIP file. ZIP file comment data - is stored unsecured. No encryption or data authentication - is applied to this area at this time. Confidential information - should not be stored in this section. - - zip64 extensible data sector (variable size) - - (currently reserved for use by PKWARE) - - - K. General notes: - - 1) All fields unless otherwise noted are unsigned and stored - in Intel low-byte:high-byte, low-word:high-word order. - - 2) String fields are not null terminated, since the - length is given explicitly. - - 3) Local headers should not span disk boundaries. Also, even - though the central directory can span disk boundaries, no - single record in the central directory should be split - across disks. - - 4) The entries in the central directory may not necessarily - be in the same order that files appear in the .ZIP file. - - 5) Spanned/Split archives created using PKZIP for Windows - (V2.50 or greater), PKZIP Command Line (V2.50 or greater), - or PKZIP Explorer will include a special spanning - signature as the first 4 bytes of the first segment of - the archive. This signature (0x08074b50) will be - followed immediately by the local header signature for - the first file in the archive. A special spanning - marker may also appear in spanned/split archives if the - spanning or splitting process starts but only requires - one segment. In this case the 0x08074b50 signature - will be replaced with the temporary spanning marker - signature of 0x30304b50. Spanned/split archives - created with this special signature are compatible with - all versions of PKZIP from PKWARE. Split archives can - only be uncompressed by other versions of PKZIP that - know how to create a split archive. - - 6) If one of the fields in the end of central directory - record is too small to hold required data, the field - should be set to -1 (0xFFFF or 0xFFFFFFFF) and the - Zip64 format record should be created. - - 7) The end of central directory record and the - Zip64 end of central directory locator record must - reside on the same disk when splitting or spanning - an archive. - -V. UnShrinking - Method 1 -------------------------- - -Shrinking is a Dynamic Ziv-Lempel-Welch compression algorithm -with partial clearing. The initial code size is 9 bits, and -the maximum code size is 13 bits. Shrinking differs from -conventional Dynamic Ziv-Lempel-Welch implementations in several -respects: - -1) The code size is controlled by the compressor, and is not - automatically increased when codes larger than the current - code size are created (but not necessarily used). When - the decompressor encounters the code sequence 256 - (decimal) followed by 1, it should increase the code size - read from the input stream to the next bit size. No - blocking of the codes is performed, so the next code at - the increased size should be read from the input stream - immediately after where the previous code at the smaller - bit size was read. Again, the decompressor should not - increase the code size used until the sequence 256,1 is - encountered. - -2) When the table becomes full, total clearing is not - performed. Rather, when the compressor emits the code - sequence 256,2 (decimal), the decompressor should clear - all leaf nodes from the Ziv-Lempel tree, and continue to - use the current code size. The nodes that are cleared - from the Ziv-Lempel tree are then re-used, with the lowest - code value re-used first, and the highest code value - re-used last. The compressor can emit the sequence 256,2 - at any time. - - -VI. Expanding - Methods 2-5 ---------------------------- - -The Reducing algorithm is actually a combination of two -distinct algorithms. The first algorithm compresses repeated -byte sequences, and the second algorithm takes the compressed -stream from the first algorithm and applies a probabilistic -compression method. - -The probabilistic compression stores an array of 'follower -sets' S(j), for j=0 to 255, corresponding to each possible -ASCII character. Each set contains between 0 and 32 -characters, to be denoted as S(j)[0],...,S(j)[m], where m<32. -The sets are stored at the beginning of the data area for a -Reduced file, in reverse order, with S(255) first, and S(0) -last. - -The sets are encoded as { N(j), S(j)[0],...,S(j)[N(j)-1] }, -where N(j) is the size of set S(j). N(j) can be 0, in which -case the follower set for S(j) is empty. Each N(j) value is -encoded in 6 bits, followed by N(j) eight bit character values -corresponding to S(j)[0] to S(j)[N(j)-1] respectively. If -N(j) is 0, then no values for S(j) are stored, and the value -for N(j-1) immediately follows. - -Immediately after the follower sets, is the compressed data -stream. The compressed data stream can be interpreted for the -probabilistic decompression as follows: - - -let Last-Character <- 0. -loop until done - if the follower set S(Last-Character) is empty then - read 8 bits from the input stream, and copy this - value to the output stream. - otherwise if the follower set S(Last-Character) is non-empty then - read 1 bit from the input stream. - if this bit is not zero then - read 8 bits from the input stream, and copy this - value to the output stream. - otherwise if this bit is zero then - read B(N(Last-Character)) bits from the input - stream, and assign this value to I. - Copy the value of S(Last-Character)[I] to the - output stream. - - assign the last value placed on the output stream to - Last-Character. -end loop - - -B(N(j)) is defined as the minimal number of bits required to -encode the value N(j)-1. - - -The decompressed stream from above can then be expanded to -re-create the original file as follows: - - -let State <- 0. - -loop until done - read 8 bits from the input stream into C. - case State of - 0: if C is not equal to DLE (144 decimal) then - copy C to the output stream. - otherwise if C is equal to DLE then - let State <- 1. - - 1: if C is non-zero then - let V <- C. - let Len <- L(V) - let State <- F(Len). - otherwise if C is zero then - copy the value 144 (decimal) to the output stream. - let State <- 0 - - 2: let Len <- Len + C - let State <- 3. - - 3: move backwards D(V,C) bytes in the output stream - (if this position is before the start of the output - stream, then assume that all the data before the - start of the output stream is filled with zeros). - copy Len+3 bytes from this position to the output stream. - let State <- 0. - end case -end loop - - -The functions F,L, and D are dependent on the 'compression -factor', 1 through 4, and are defined as follows: - -For compression factor 1: - L(X) equals the lower 7 bits of X. - F(X) equals 2 if X equals 127 otherwise F(X) equals 3. - D(X,Y) equals the (upper 1 bit of X) * 256 + Y + 1. -For compression factor 2: - L(X) equals the lower 6 bits of X. - F(X) equals 2 if X equals 63 otherwise F(X) equals 3. - D(X,Y) equals the (upper 2 bits of X) * 256 + Y + 1. -For compression factor 3: - L(X) equals the lower 5 bits of X. - F(X) equals 2 if X equals 31 otherwise F(X) equals 3. - D(X,Y) equals the (upper 3 bits of X) * 256 + Y + 1. -For compression factor 4: - L(X) equals the lower 4 bits of X. - F(X) equals 2 if X equals 15 otherwise F(X) equals 3. - D(X,Y) equals the (upper 4 bits of X) * 256 + Y + 1. - - -VII. Imploding - Method 6 -------------------------- - -The Imploding algorithm is actually a combination of two distinct -algorithms. The first algorithm compresses repeated byte -sequences using a sliding dictionary. The second algorithm is -used to compress the encoding of the sliding dictionary output, -using multiple Shannon-Fano trees. - -The Imploding algorithm can use a 4K or 8K sliding dictionary -size. The dictionary size used can be determined by bit 1 in the -general purpose flag word; a 0 bit indicates a 4K dictionary -while a 1 bit indicates an 8K dictionary. - -The Shannon-Fano trees are stored at the start of the compressed -file. The number of trees stored is defined by bit 2 in the -general purpose flag word; a 0 bit indicates two trees stored, a -1 bit indicates three trees are stored. If 3 trees are stored, -the first Shannon-Fano tree represents the encoding of the -Literal characters, the second tree represents the encoding of -the Length information, the third represents the encoding of the -Distance information. When 2 Shannon-Fano trees are stored, the -Length tree is stored first, followed by the Distance tree. - -The Literal Shannon-Fano tree, if present is used to represent -the entire ASCII character set, and contains 256 values. This -tree is used to compress any data not compressed by the sliding -dictionary algorithm. When this tree is present, the Minimum -Match Length for the sliding dictionary is 3. If this tree is -not present, the Minimum Match Length is 2. - -The Length Shannon-Fano tree is used to compress the Length part -of the (length,distance) pairs from the sliding dictionary -output. The Length tree contains 64 values, ranging from the -Minimum Match Length, to 63 plus the Minimum Match Length. - -The Distance Shannon-Fano tree is used to compress the Distance -part of the (length,distance) pairs from the sliding dictionary -output. The Distance tree contains 64 values, ranging from 0 to -63, representing the upper 6 bits of the distance value. The -distance values themselves will be between 0 and the sliding -dictionary size, either 4K or 8K. - -The Shannon-Fano trees themselves are stored in a compressed -format. The first byte of the tree data represents the number of -bytes of data representing the (compressed) Shannon-Fano tree -minus 1. The remaining bytes represent the Shannon-Fano tree -data encoded as: - - High 4 bits: Number of values at this bit length + 1. (1 - 16) - Low 4 bits: Bit Length needed to represent value + 1. (1 - 16) - -The Shannon-Fano codes can be constructed from the bit lengths -using the following algorithm: - -1) Sort the Bit Lengths in ascending order, while retaining the - order of the original lengths stored in the file. - -2) Generate the Shannon-Fano trees: - - Code <- 0 - CodeIncrement <- 0 - LastBitLength <- 0 - i <- number of Shannon-Fano codes - 1 (either 255 or 63) - - loop while i >= 0 - Code = Code + CodeIncrement - if BitLength(i) <> LastBitLength then - LastBitLength=BitLength(i) - CodeIncrement = 1 shifted left (16 - LastBitLength) - ShannonCode(i) = Code - i <- i - 1 - end loop - - -3) Reverse the order of all the bits in the above ShannonCode() - vector, so that the most significant bit becomes the least - significant bit. For example, the value 0x1234 (hex) would - become 0x2C48 (hex). - -4) Restore the order of Shannon-Fano codes as originally stored - within the file. - -Example: - - This example will show the encoding of a Shannon-Fano tree - of size 8. Notice that the actual Shannon-Fano trees used - for Imploding are either 64 or 256 entries in size. - -Example: 0x02, 0x42, 0x01, 0x13 - - The first byte indicates 3 values in this table. Decoding the - bytes: - 0x42 = 5 codes of 3 bits long - 0x01 = 1 code of 2 bits long - 0x13 = 2 codes of 4 bits long - - This would generate the original bit length array of: - (3, 3, 3, 3, 3, 2, 4, 4) - - There are 8 codes in this table for the values 0 thru 7. Using - the algorithm to obtain the Shannon-Fano codes produces: - - Reversed Order Original -Val Sorted Constructed Code Value Restored Length ---- ------ ----------------- -------- -------- ------ -0: 2 1100000000000000 11 101 3 -1: 3 1010000000000000 101 001 3 -2: 3 1000000000000000 001 110 3 -3: 3 0110000000000000 110 010 3 -4: 3 0100000000000000 010 100 3 -5: 3 0010000000000000 100 11 2 -6: 4 0001000000000000 1000 1000 4 -7: 4 0000000000000000 0000 0000 4 - - -The values in the Val, Order Restored and Original Length columns -now represent the Shannon-Fano encoding tree that can be used for -decoding the Shannon-Fano encoded data. How to parse the -variable length Shannon-Fano values from the data stream is beyond -the scope of this document. (See the references listed at the end of -this document for more information.) However, traditional decoding -schemes used for Huffman variable length decoding, such as the -Greenlaw algorithm, can be successfully applied. - -The compressed data stream begins immediately after the -compressed Shannon-Fano data. The compressed data stream can be -interpreted as follows: - -loop until done - read 1 bit from input stream. - - if this bit is non-zero then (encoded data is literal data) - if Literal Shannon-Fano tree is present - read and decode character using Literal Shannon-Fano tree. - otherwise - read 8 bits from input stream. - copy character to the output stream. - otherwise (encoded data is sliding dictionary match) - if 8K dictionary size - read 7 bits for offset Distance (lower 7 bits of offset). - otherwise - read 6 bits for offset Distance (lower 6 bits of offset). - - using the Distance Shannon-Fano tree, read and decode the - upper 6 bits of the Distance value. - - using the Length Shannon-Fano tree, read and decode - the Length value. - - Length <- Length + Minimum Match Length - - if Length = 63 + Minimum Match Length - read 8 bits from the input stream, - add this value to Length. - - move backwards Distance+1 bytes in the output stream, and - copy Length characters from this position to the output - stream. (if this position is before the start of the output - stream, then assume that all the data before the start of - the output stream is filled with zeros). -end loop - -VIII. Tokenizing - Method 7 ---------------------------- - -This method is not used by PKZIP. - -IX. Deflating - Method 8 ------------------------- - -The Deflate algorithm is similar to the Implode algorithm using -a sliding dictionary of up to 32K with secondary compression -from Huffman/Shannon-Fano codes. - -The compressed data is stored in blocks with a header describing -the block and the Huffman codes used in the data block. The header -format is as follows: - - Bit 0: Last Block bit This bit is set to 1 if this is the last - compressed block in the data. - Bits 1-2: Block type - 00 (0) - Block is stored - All stored data is byte aligned. - Skip bits until next byte, then next word = block - length, followed by the ones compliment of the block - length word. Remaining data in block is the stored - data. - - 01 (1) - Use fixed Huffman codes for literal and distance codes. - Lit Code Bits Dist Code Bits - --------- ---- --------- ---- - 0 - 143 8 0 - 31 5 - 144 - 255 9 - 256 - 279 7 - 280 - 287 8 - - Literal codes 286-287 and distance codes 30-31 are - never used but participate in the huffman construction. - - 10 (2) - Dynamic Huffman codes. (See expanding Huffman codes) - - 11 (3) - Reserved - Flag a "Error in compressed data" if seen. - -Expanding Huffman Codes ------------------------ -If the data block is stored with dynamic Huffman codes, the Huffman -codes are sent in the following compressed format: - - 5 Bits: # of Literal codes sent - 257 (257 - 286) - All other codes are never sent. - 5 Bits: # of Dist codes - 1 (1 - 32) - 4 Bits: # of Bit Length codes - 4 (4 - 19) - -The Huffman codes are sent as bit lengths and the codes are built as -described in the implode algorithm. The bit lengths themselves are -compressed with Huffman codes. There are 19 bit length codes: - - 0 - 15: Represent bit lengths of 0 - 15 - 16: Copy the previous bit length 3 - 6 times. - The next 2 bits indicate repeat length (0 = 3, ... ,3 = 6) - Example: Codes 8, 16 (+2 bits 11), 16 (+2 bits 10) will - expand to 12 bit lengths of 8 (1 + 6 + 5) - 17: Repeat a bit length of 0 for 3 - 10 times. (3 bits of length) - 18: Repeat a bit length of 0 for 11 - 138 times (7 bits of length) - -The lengths of the bit length codes are sent packed 3 bits per value -(0 - 7) in the following order: - - 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15 - -The Huffman codes should be built as described in the Implode algorithm -except codes are assigned starting at the shortest bit length, i.e. the -shortest code should be all 0's rather than all 1's. Also, codes with -a bit length of zero do not participate in the tree construction. The -codes are then used to decode the bit lengths for the literal and -distance tables. - -The bit lengths for the literal tables are sent first with the number -of entries sent described by the 5 bits sent earlier. There are up -to 286 literal characters; the first 256 represent the respective 8 -bit character, code 256 represents the End-Of-Block code, the remaining -29 codes represent copy lengths of 3 thru 258. There are up to 30 -distance codes representing distances from 1 thru 32k as described -below. - - Length Codes - ------------ - Extra Extra Extra Extra - Code Bits Length Code Bits Lengths Code Bits Lengths Code Bits Length(s) - ---- ---- ------ ---- ---- ------- ---- ---- ------- ---- ---- --------- - 257 0 3 265 1 11,12 273 3 35-42 281 5 131-162 - 258 0 4 266 1 13,14 274 3 43-50 282 5 163-194 - 259 0 5 267 1 15,16 275 3 51-58 283 5 195-226 - 260 0 6 268 1 17,18 276 3 59-66 284 5 227-258 - 261 0 7 269 2 19-22 277 4 67-82 285 0 258 - 262 0 8 270 2 23-26 278 4 83-98 - 263 0 9 271 2 27-30 279 4 99-114 - 264 0 10 272 2 31-34 280 4 115-130 - - Distance Codes - -------------- - Extra Extra Extra Extra - Code Bits Dist Code Bits Dist Code Bits Distance Code Bits Distance - ---- ---- ---- ---- ---- ------ ---- ---- -------- ---- ---- -------- - 0 0 1 8 3 17-24 16 7 257-384 24 11 4097-6144 - 1 0 2 9 3 25-32 17 7 385-512 25 11 6145-8192 - 2 0 3 10 4 33-48 18 8 513-768 26 12 8193-12288 - 3 0 4 11 4 49-64 19 8 769-1024 27 12 12289-16384 - 4 1 5,6 12 5 65-96 20 9 1025-1536 28 13 16385-24576 - 5 1 7,8 13 5 97-128 21 9 1537-2048 29 13 24577-32768 - 6 2 9-12 14 6 129-192 22 10 2049-3072 - 7 2 13-16 15 6 193-256 23 10 3073-4096 - -The compressed data stream begins immediately after the -compressed header data. The compressed data stream can be -interpreted as follows: - -do - read header from input stream. - - if stored block - skip bits until byte aligned - read count and 1's compliment of count - copy count bytes data block - otherwise - loop until end of block code sent - decode literal character from input stream - if literal < 256 - copy character to the output stream - otherwise - if literal = end of block - break from loop - otherwise - decode distance from input stream - - move backwards distance bytes in the output stream, and - copy length characters from this position to the output - stream. - end loop -while not last block - -if data descriptor exists - skip bits until byte aligned - check data descriptor signature - read crc and sizes -endif - -X. Enhanced Deflating - Method 9 --------------------------------- - -The Enhanced Deflating algorithm is similar to Deflate but -uses a sliding dictionary of up to 64K. Deflate64(tm) is supported -by the Deflate extractor. - -[This description is inofficial. It has been deduced by Info-ZIP from -close inspection of PKZIP 4.x Deflate64(tm) compressed output.] - -The Deflate64 algorithm is almost identical to the normal Deflate algorithm. -Differences are: - -- The sliding window size is 64k. - -- The previously unused distance codes 30 and 31 are now used to describe - match distances from 32k-48k and 48k-64k. - Extra - Code Bits Distance - ---- ---- ----------- - .. .. ... - 29 13 24577-32768 - 30 14 32769-49152 - 31 14 49153-65536 - -- The semantics of the "maximum match length" code #258 has been changed to - allow the specification of arbitrary large match lengths (up to 64k). - Extra - Code Bits Lengths - ---- ---- ------ - ... .. ... - 284 5 227-258 - 285 16 3-65538 - -Whereas the first two modifications fit into the framework of Deflate, -this last change breaks compatibility with Deflate method 8. Thus, a -Deflate64 decompressor cannot decode normal deflated data. - -XI. BZIP2 - Method 12 ---------------------- - -BZIP2 is an open-source data compression algorithm developed by -Julian Seward. Information and source code for this algorithm -can be found on the internet. - - -XII. Traditional PKWARE Encryption ----------------------------------- - -The following information discusses the decryption steps -required to support traditional PKWARE encryption. This -form of encryption is considered weak by today's standards -and its use is recommended only for situations with -low security needs or for compatibility with older .ZIP -applications. - -XIII. Decryption ----------------- - -The encryption used in PKZIP was generously supplied by Roger -Schlafly. PKWARE is grateful to Mr. Schlafly for his expert -help and advice in the field of data encryption. - -PKZIP encrypts the compressed data stream. Encrypted files must -be decrypted before they can be extracted. - -Each encrypted file has an extra 12 bytes stored at the start of -the data area defining the encryption header for that file. The -encryption header is originally set to random values, and then -itself encrypted, using three, 32-bit keys. The key values are -initialized using the supplied encryption password. After each byte -is encrypted, the keys are then updated using pseudo-random number -generation techniques in combination with the same CRC-32 algorithm -used in PKZIP and described elsewhere in this document. - -The following is the basic steps required to decrypt a file: - -1) Initialize the three 32-bit keys with the password. -2) Read and decrypt the 12-byte encryption header, further - initializing the encryption keys. -3) Read and decrypt the compressed data stream using the - encryption keys. - - -Step 1 - Initializing the encryption keys ------------------------------------------ - -Key(0) <- 305419896 -Key(1) <- 591751049 -Key(2) <- 878082192 - -loop for i <- 0 to length(password)-1 - update_keys(password(i)) -end loop - - -Where update_keys() is defined as: - - -update_keys(char): - Key(0) <- crc32(key(0),char) - Key(1) <- Key(1) + (Key(0) & 000000ffH) - Key(1) <- Key(1) * 134775813 + 1 - Key(2) <- crc32(key(2),key(1) >> 24) -end update_keys - - -Where crc32(old_crc,char) is a routine that given a CRC value and a -character, returns an updated CRC value after applying the CRC-32 -algorithm described elsewhere in this document. - - -Step 2 - Decrypting the encryption header ------------------------------------------ - -The purpose of this step is to further initialize the encryption -keys, based on random data, to render a plaintext attack on the -data ineffective. - - -Read the 12-byte encryption header into Buffer, in locations -Buffer(0) thru Buffer(11). - -loop for i <- 0 to 11 - C <- buffer(i) ^ decrypt_byte() - update_keys(C) - buffer(i) <- C -end loop - - -Where decrypt_byte() is defined as: - - -unsigned char decrypt_byte() - local unsigned short temp - temp <- Key(2) | 2 - decrypt_byte <- (temp * (temp ^ 1)) >> 8 -end decrypt_byte - - -After the header is decrypted, the last 1 or 2 bytes in Buffer -should be the high-order word/byte of the CRC for the file being -decrypted, stored in Intel low-byte/high-byte order, or the high-order -byte of the file time if bit 3 of the general purpose bit flag is set. -Versions of PKZIP prior to 2.0 used a 2 byte CRC check; a 1 byte CRC check is -used on versions after 2.0. This can be used to test if the password -supplied is correct or not. - - -Step 3 - Decrypting the compressed data stream ----------------------------------------------- - -The compressed data stream can be decrypted as follows: - - -loop until done - read a character into C - Temp <- C ^ decrypt_byte() - update_keys(temp) - output Temp -end loop - - -XIV. Strong Encryption Specification (EFS) ------------------------------------------- - -Version 5.x of this specification introduced support for strong -encryption algorithms. These algorithms can be used with either -a password or an X.509v3 digital certificate to encrypt each file. -This format specification supports either password or certificate -based encryption to meet the security needs of today, to enable -interoperability between users within both PKI and non-PKI -environments, and to ensure interoperability between different -computing platforms that are running a ZIP program. - -Password based encryption is the most common form of encryption -people are familiar with. However, inherent weaknesses with -passwords (e.g. susceptibility to dictionary/brute force attack) -as well as password management and support issues make certificate -based encryption a more secure and scalable option. Industry -efforts and support are defining and moving towards more advanced -security solutions built around X.509v3 digital certificates and -Public Key Infrastructures(PKI) because of the greater scalability, -administrative options, and more robust security over traditional -password-based encryption. - -Most standard encryption algorithms are supported with this -specification. Reference implementations for many of these -algorithms are available from either commercial or open source -distributors. Readily available cryptographic toolkits make -implementation of the encryption features straight-forward. -This document is not intended to provide a treatise on data -encryption principles or theory. Its purpose is to document the -data structures required for implementing interoperable data -encryption within the .ZIP format. It is strongly recommended that -you have a good understanding of data encryption before reading -further. - -The algorithms introduced in Version 5.0 of this specification -include: - - RC2 40 bit, 64 bit, and 128 bit - RC4 40 bit, 64 bit, and 128 bit - DES - 3DES 112 bit and 168 bit - -Version 5.1 adds support for the following: - - AES 128 bit, 192 bit, and 256 bit - -Version 6.1 introduces encryption data changes to support -interoperability with SmartCard and USB Token certificate storage -methods which do not support the OAEP strengthening standard. - -Version 6.2 introduces support for encrypting metadata by compressing -and encrypting the central directory data structure to reduce information -leakage. Information leakage can occur in legacy ZIP applications -through exposure of information about a file even though that file is -stored encrypted. The information exposed consists of file -characteristics stored within the records and fields defined by this -specification. This includes data such as a files name, its original -size, timestamp and CRC32 value. - -Central Directory Encryption provides greater protection against -information leakage by encrypting the Central Directory structure and -by masking key values that are replicated in the unencrypted Local -Header. ZIP compatible programs that cannot interpret an encrypted -Central Directory structure cannot rely on the data in the corresponding -Local Header for decompression information. - -Extra Field records that may contain information about a file that should -not be exposed should not be stored in the Local Header and should only -be written to the Central Directory where they can be encrypted. This -design currently does not support streaming. Information in the End of -Central Directory record, the ZIP64 End of Central Directory Locator, -and the ZIP64 End of Central Directory record are not encrypted. Access -to view data on files within a ZIP file with an encrypted Central Directory -requires the appropriate password or private key for decryption prior to -viewing any files, or any information about the files, in the archive. - -Older ZIP compatible programs not familiar with the Central Directory -Encryption feature will no longer be able to recognize the Central -Directory and may assume the ZIP file is corrupt. Programs that -attempt streaming access using Local Headers will see invalid -information for each file. Central Directory Encryption need not be -used for every ZIP file. Its use is recommended for greater security. -ZIP files not using Central Directory Encryption should operate as -in the past. - -The details of the strong encryption specification for certificates -remain under development as design and testing issues are worked out -for the range of algorithms, encryption methods, certificate processing -and cross-platform support necessary to meet the advanced security needs -of .ZIP file users today and in the future. - -This feature specification is intended to support basic encryption needs -of today, such as password support. However this specification is also -designed to lay the foundation for future advanced security needs. - -Encryption provides data confidentiality and privacy. It is -recommended that you combine X.509 digital signing with encryption -to add authentication and non-repudiation. - - -Single Password Symmetric Encryption Method: -------------------------------------------- - -The Single Password Symmetric Encryption Method using strong -encryption algorithms operates similarly to the traditional -PKWARE encryption defined in this format. Additional data -structures are added to support the processing needs of the -strong algorithms. - -The Strong Encryption data structures are: - -1. General Purpose Bits - Bits 0 and 6 of the General Purpose bit -flag in both local and central header records. Both bits set -indicates strong encryption. Bit 13, when set indicates the Central -Directory is encrypted and that selected fields in the Local Header -are masked to hide their actual value. - - -2. Extra Field 0x0017 in central header only. - - Fields to consider in this record are: - - Format - the data format identifier for this record. The only - value allowed at this time is the integer value 2. - - AlgId - integer identifier of the encryption algorithm from the - following range - - 0x6601 - DES - 0x6602 - RC2 (version needed to extract < 5.2) - 0x6603 - 3DES 168 - 0x6609 - 3DES 112 - 0x660E - AES 128 - 0x660F - AES 192 - 0x6610 - AES 256 - 0x6702 - RC2 (version needed to extract >= 5.2) - 0x6801 - RC4 - 0xFFFF - Unknown algorithm - - Bitlen - Explicit bit length of key - - 40 - 56 - 64 - 112 - 128 - 168 - 192 - 256 - - Flags - Processing flags needed for decryption - - 0x0001 - Password is required to decrypt - 0x0002 - Certificates only - 0x0003 - Password or certificate required to decrypt - - Values > 0x0003 reserved for certificate processing - - -3. Decryption header record preceeding compressed file data. - - -Decryption Header: - - Value Size Description - ----- ---- ----------- - IVSize 2 bytes Size of initialization vector (IV) - IVData IVSize Initialization vector for this file - Size 4 bytes Size of remaining decryption header data - Format 2 bytes Format definition for this record - AlgID 2 bytes Encryption algorithm identifier - Bitlen 2 bytes Bit length of encryption key - Flags 2 bytes Processing flags - ErdSize 2 bytes Size of Encrypted Random Data - ErdData ErdSize Encrypted Random Data - Reserved1 4 bytes Reserved certificate processing data - Reserved2 (var) Reserved for certificate processing data - VSize 2 bytes Size of password validation data - VData VSize-4 Password validation data - VCRC32 4 bytes Standard ZIP CRC32 of password validation data - - IVData - The size of the IV should match the algorithm block size. - The IVData can be completely random data. If the size of - the randomly generated data does not match the block size - it should be complemented with zero's or truncated as - necessary. If IVSize is 0, then IV = CRC32 + Uncompressed - File Size (as a 64 bit little-endian, unsigned integer value). - - Format - the data format identifier for this record. The only - value allowed at this time is the integer value 3. - - AlgId - integer identifier of the encryption algorithm from the - following range - - 0x6601 - DES - 0x6602 - RC2 (version needed to extract < 5.2) - 0x6603 - 3DES 168 - 0x6609 - 3DES 112 - 0x660E - AES 128 - 0x660F - AES 192 - 0x6610 - AES 256 - 0x6702 - RC2 (version needed to extract >= 5.2) - 0x6801 - RC4 - 0xFFFF - Unknown algorithm - - Bitlen - Explicit bit length of key - - 40 - 56 - 64 - 112 - 128 - 168 - 192 - 256 - - Flags - Processing flags needed for decryption - - 0x0001 - Password is required to decrypt - 0x0002 - Certificates only - 0x0003 - Password or certificate required to decrypt - - Values > 0x0003 reserved for certificate processing - - ErdData - Encrypted random data is used to generate a file - session key for encrypting each file. SHA1 is - used to calculate hash data used to derive keys. - File session keys are derived from a master session - key generated from the user-supplied password. - If the Flags field in the decryption header contains - the value 0x4000, then the ErdData field must be - decrypted using 3DES. - - Reserved1 - Reserved for certificate processing, if value is - zero, then Reserved2 data is absent. See the explanation - under the Certificate Processing Method for details on - this data structure. - - Reserved2 - If present, the size of the Reserved2 data structure - is located by skipping the first 4 bytes of this field - and using the next 2 bytes as the remaining size. See - the explanation under the Certificate Processing Method - for details on this data structure. - - VSize - This size value will always include the 4 bytes of the - VCRC32 data and will be greater than 4 bytes. - - VData - Random data for password validation. This data is VSize - in length and VSize must be a multiple of the encryption - block size. VCRC32 is a checksum value of VData. - VData and VCRC32 are stored encrypted and start the - stream of encrypted data for a file. - -4. Single Password Central Directory Encryption - -Central Directory Encryption is achieved within the .ZIP format by -encrypting the Central Directory structure. This encapsulates the metadata -most often used for processing .ZIP files. Additional metadata is stored for -redundancy in the Local Header for each file. The process of concealing -metadata by encrypting the Central Directory does not protect the data within -the Local Header. To avoid information leakage from the exposed metadata -in the Local Header, the fields containing information about a file are masked. - -Local Header: - -Masking replaces the true content of the fields for a file in the Local -Header with false information. When masked, the Local Header is not -suitable for streaming access and the options for data recovery of damaged -archives is reduced. Extra Data fields that may contain confidential -data should not be stored within the Local Header. The value set into -the Version needed to extract field should be the correct value needed to -extract the file without regard to Central Directory Encryption. The fields -within the Local Header targeted for masking when the Central Directory is -encrypted are: - - Field Name Mask Value - ------------------ --------------------------- - compression method 0 - last mod file time 0 - last mod file date 0 - crc-32 0 - compressed size 0 - uncompressed size 0 - file name (variable size) Base 16 value from the - range 1 - FFFFFFFFFFFFFFFF - represented as a string whose - size will be set into the - file name length field - -The Base 16 value assigned as a masked file name is simply a sequentially -incremented value for each file starting with 1 for the first file. -Modifications to a ZIP file may cause different values to be stored for -each file. For compatibility, the file name field in the Local Header -should never be left blank. As of Version 6.2 of this specification, -the Compression Method and Compressed Size fields are not yet masked. - -Encrypting the Central Directory: - -Encryption of the Central Directory does not include encryption of the -Central Directory Signature data, the ZIP64 End of Central Directory -record, the ZIP64 End of Central Directory Locator, or the End -of Central Directory record. The ZIP file comment data is never -encrypted. - -Before encrypting the Central Directory, it may optionally be compressed. -Compression is not required, but for storage efficiency it is assumed -this structure will be compressed before encrypting. Similarly, this -specification supports compressing the Central Directory without -requiring that it also be encrypted. Early implementations of this -feature will assume the encryption method applied to files matches the -encryption applied to the Central Directory. - -Encryption of the Central Directory is done in a manner similar to -that of file encryption. The encrypted data is preceded by a -decryption header. The decryption header is known as the Archive -Decryption Header. The fields of this record are identical to -the decryption header preceding each encrypted file. The location -of the Archive Decryption Header is determined by the value in the -Start of the Central Directory field in the ZIP64 End of Central -Directory record. When the Central Directory is encrypted, the -ZIP64 End of Central Directory record will always be present. - -The layout of the ZIP64 End of Central Directory record for all -versions starting with 6.2 of this specification will follow the -Version 2 format. The Version 2 format is as follows: - -The first 48 bytes will remain identical to that of Version 1. -The record signature for both Version 1 and Version 2 will be -0x06064b50. Immediately following the 48th byte, which identifies -the end of the field known as the Offset of Start of Central -Directory With Respect to the Starting Disk Number will begin the -new fields defining Version 2 of this record. - -New fields for Version 2: - -Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - Compression Method 2 bytes Method used to compress the - Central Directory - Compressed Size 8 bytes Size of the compressed data - Original Size 8 bytes Original uncompressed size - AlgId 2 bytes Encryption algorithm ID - BitLen 2 bytes Encryption key length - Flags 2 bytes Encryption flags - HashID 2 bytes Hash algorithm identifier - Hash Length 2 bytes Length of hash data - Hash Data (variable) Hash data - -The Compression Method accepts the same range of values as the -corresponding field in the Central Header. - -The Compressed Size and Original Size values will not include the -data of the Central Directory Signature which is compressed or -encrypted. - -The AlgId, BitLen, and Flags fields accept the same range of values -the corresponding fields within the 0x0017 record. - -Hash ID identifies the algorithm used to hash the Central Directory -data. This data does not have to be hashed, in which case the -values for both the HashID and Hash Length will be 0. Possible -values for HashID are: - - Value Algorithm - ------ --------- - 0x0000 none - 0x0001 CRC32 - 0x8003 MD5 - 0x8004 SHA1 - -When the Central Directory data is signed, the same hash algorithm -used to hash the Central Directory for signing should be used. -This is recommended for processing efficiency, however, it is -permissible for any of the above algorithms to be used independent -of the signing process. - -The Hash Data will contain the hash data for the Central Directory. -The length of this data will vary depending on the algorithm used. - -The Version Needed to Extract should be set to 62. - -The value for the Total Number of Entries on the Current Disk will -be 0. These records will no longer support random access when -encrypting the Central Directory. - -When the Central Directory is compressed and/or encrypted, the -End of Central Directory record will store the value 0xFFFFFFFF -as the value for the Total Number of Entries in the Central -Directory. The value stored in the Total Number of Entries in -the Central Directory on this Disk field will be 0. The actual -values will be stored in the equivalent fields of the ZIP64 -End of Central Directory record. - -Decrypting and decompressing the Central Directory is accomplished -in the same manner as decrypting and decompressing a file. - - -5. Useful Tips - -Strong Encryption is always applied to a file after compression. The -block oriented algorithms all operate in Cypher Block Chaining (CBC) -mode. The block size used for AES encryption is 16. All other block -algorithms use a block size of 8. Two ID's are defined for RC2 to -account for a discrepancy found in the implementation of the RC2 -algorithm in the cryptographic library on Windows XP SP1 and all -earlier versions of Windows. - -A pseudo-code representation of the encryption process is as follows: - -Password = GetUserPassword() -RD = Random() -ERD = Encrypt(RD,DeriveKey(SHA1(Password))) -For Each File - IV = Random() - VData = Random() - FileSessionKey = DeriveKey(SHA1(IV + RD)) - Encrypt(VData + VCRC32 + FileData,FileSessionKey) -Done - -The function names and parameter requirements will depend on -the choice of the cryptographic toolkit selected. Almost any -toolkit supporting the reference implementations for each -algorithm can be used. The RSA BSAFE(r), OpenSSL, and Microsoft -CryptoAPI libraries are all known to work well. - - -Certificate Processing Method: ------------------------------ - -The Certificate Processing Method for ZIP file encryption remains -under development. The information provided here serves as a guide -to those interested in certificate-based data decryption. This -information may be subject to change in future versions of this -specification and is subject to change without notice. - -OAEP Processing with Certificate-based Encryption: - -Versions of PKZIP available during this development phase of the -certificate processing method may set a value of 61 into the -version needed to extract field for a file. This indicates that -non-OAEP key wrapping is used. This affects certificate encryption -only, and password encryption functions should not be affected by -this value. This means values of 61 may be found on files encrypted -with certificates only, or on files encrypted with both password -encryption and certificate encryption. Files encrypted with both -methods can safely be decrypted using the password methods documented. - -OAEP stands for Optimal Asymmetric Encryption Padding. It is a -strengthening technique used for small encoded items such as decryption -keys. This is commonly applied in cryptographic key-wrapping techniques -and is supported by PKCS #1. Versions 5.0 and 6.0 of this specification -were designed to support OAEP key-wrapping for certificate-based -decryption keys for additional security. - -Support for private keys stored on Smart Cards or Tokens introduced -a conflict with this OAEP logic. Most card and token products do -not support the additional strengthening applied to OAEP key-wrapped -data. In order to resolve this conflict, versions 6.1 and above of this -specification will no longer support OAEP when encrypting using -digital certificates. - -Certificate Processing Data Fields: - -The Certificate Processing Method of this specification defines the -following additional data fields: - - -1. Certificate Flag Values - -Additional processing flags that can be present in the Flags field of both -the 0x0017 field of the central directory Extra Field and the Decryption -header record preceding compressed file data are: - - 0x0007 - reserved for future use - 0x000F - reserved for future use - 0x0100 - Indicates non-OAEP key wrapping was used. If this - this field is set, the version needed to extract must - be at least 61. This means OAEP key wrapping is not - used when generating a Master Session Key using - ErdData. - 0x4000 - ErdData must be decrypted using 3DES-168, otherwise use the - same algorithm used for encrypting the file contents. - 0x8000 - reserved for future use - - -2. CertData - Extra Field 0x0017 record certificate data structure - -The data structure used to store certificate data within the section -of the Extra Field defined by the CertData field of the 0x0017 -record are as shown: - - Value Size Description - ----- ---- ----------- - RCount 4 bytes Number of recipients. - HashAlg 2 bytes Hash algorithm identifier - HSize 2 bytes Hash size - SRList (var) Simple list of recipients hashed public keys - - - RCount This defines the number intended recipients whose - public keys were used for encryption. This identifies - the number of elements in the SRList. - - HashAlg This defines the hash algorithm used to calculate - the public key hash of each public key used - for encryption. This field currently supports - only the following value for SHA-1 - - 0x8004 - SHA1 - - HSize This defines the size of a hashed public key. - - SRList This is a variable length list of the hashed - public keys for each intended recipient. Each - element in this list is HSize. The total size of - SRList is determined using RCount * HSize. - - -3. Reserved1 - Certificate Decryption Header Reserved1 Data: - - Value Size Description - ----- ---- ----------- - RCount 4 bytes Number of recipients. - - RCount This defines the number intended recipients whose - public keys were used for encryption. This defines - the number of elements in the REList field defined below. - - -4. Reserved2 - Certificate Decryption Header Reserved2 Data Structures: - - - Value Size Description - ----- ---- ----------- - HashAlg 2 bytes Hash algorithm identifier - HSize 2 bytes Hash size - REList (var) List of recipient data elements - - - HashAlg This defines the hash algorithm used to calculate - the public key hash of each public key used - for encryption. This field currently supports - only the following value for SHA-1 - - 0x8004 - SHA1 - - HSize This defines the size of a hashed public key - defined in REHData. - - REList This is a variable length of list of recipient data. - Each element in this list consists of a Recipient - Element data structure as follows: - - - Recipient Element (REList) Data Structure: - - Value Size Description - ----- ---- ----------- - RESize 2 bytes Size of REHData + REKData - REHData HSize Hash of recipients public key - REKData (var) Simple key blob - - - RESize This defines the size of an individual REList - element. This value is the combined size of the - REHData field + REKData field. REHData is defined by - HSize. REKData is variable and can be calculated - for each REList element using RESize and HSize. - - REHData Hashed public key for this recipient. - - REKData Simple Key Blob. The format of this data structure - is identical to that defined in the Microsoft - CryptoAPI and generated using the CryptExportKey() - function. The version of the Simple Key Blob - supported at this time is 0x02 as defined by - Microsoft. - -5. Certificate Processing - Central Directory Encryption: - -Central Directory Encryption using Digital Certificates will -operate in a manner similar to that of Single Password Central -Directory Encryption. This record will only be present when there -is data to place into it. Currently, data is placed into this -record when digital certificates are used for either encrypting -or signing the files within a ZIP file. When only password -encryption is used with no certificate encryption or digital -signing, this record is not currently needed. When present, this -record will appear before the start of the actual Central Directory -data structure and will be located immediately after the Archive -Decryption Header if the Central Directory is encrypted. - -The Archive Extra Data record will be used to store the following -information. Additional data may be added in future versions. - -Extra Data Fields: - -0x0014 - PKCS#7 Store for X.509 Certificates -0x0016 - X.509 Certificate ID and Signature for central directory -0x0019 - PKCS#7 Encryption Recipient Certificate List - -The 0x0014 and 0x0016 Extra Data records that otherwise would be -located in the first record of the Central Directory for digital -certificate processing. When encrypting or compressing the Central -Directory, the 0x0014 and 0x0016 records must be located in the -Archive Extra Data record and they should not remain in the first -Central Directory record. The Archive Extra Data record will also -be used to store the 0x0019 data. - -When present, the size of the Archive Extra Data record will be -included in the size of the Central Directory. The data of the -Archive Extra Data record will also be compressed and encrypted -along with the Central Directory data structure. - -6. Certificate Processing Differences: - -The Certificate Processing Method of encryption differs from the -Single Password Symmetric Encryption Method as follows. Instead -of using a user-defined password to generate a master session key, -cryptographically random data is used. The key material is then -wrapped using standard key-wrapping techniques. This key material -is wrapped using the public key of each recipient that will need -to decrypt the file using their corresponding private key. - -This specification currently assumes digital certificates will follow -the X.509 V3 format for 1024 bit and higher RSA format digital -certificates. Implementation of this Certificate Processing Method -requires supporting logic for key access and management. This logic -is outside the scope of this specification. - - -License Agreement: ------------------ - -The features set forth in this Section XIV (the "Strong Encryption -Specification") are covered by a pending patent application. Portions of -this Strong Encryption technology are available for use at no charge -under the following terms and conditions. - -1. License Grant. - - a. NOTICE TO USER. PLEASE READ THIS ENTIRE SECTION XIV OF THE - APPNOTE (THE "AGREEMENT") CAREFULLY. BY USING ALL OR ANY PORTION OF THE - LICENSED TECHNOLOGY, YOU ACCEPT ALL THE TERMS AND CONDITIONS OF THIS - AGREEMENT AND YOU AGREE THAT THIS AGREEMENT IS ENFORCEABLE LIKE ANY - WRITTEN NEGOTIATED AGREEMENT SIGNED BY YOU. IF YOU DO NOT AGREE, DO NOT - USE THE LICENSED TECHNOLOGY. - - b. Definitions. - - i. "Licensed Technology" shall mean that proprietary technology now or - hereafter owned or controlled by PKWare, Inc. ("PKWARE") or any - subsidiary or affiliate that covers or is necessary to be used to give - software the ability to a) extract and decrypt data from zip files - encrypted using any methods of data encryption and key processing which - are published in this APPNOTE or any prior APPNOTE, as supplemented by - any Additional Compatibility Information; and b) encrypt file contents - as part of .ZIP file processing using only the Single Password Symmetric - Encryption Method as published in this APPNOTE or any prior APPNOTE, as - supplemented by any Additional Compatibility Information. For purposes - of this AGREEMENT, "Additional Compatibility Information" means, with - regard to any method of data encryption and key processing published in - this or any prior APPNOTE, any corrections, additions, or clarifications - to the information in such APPNOTE that are required in order to give - software the ability to successfully extract and decrypt zip files (or, - but solely in the case of the Single Password Symmetric Encryption Method, - to successfully encrypt zip files) in a manner interoperable with the - actual implementation of such method in any PKWARE product that is - documented or publicly described by PKWARE as being able to create, or - to extract and decrypt, zip files using that method. - - ii. "Licensed Products" shall mean any products you produce that - incorporate the Licensed Technology. - - c. 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With respect to any Licensed Product that is distributed by you either - in source code form or in the form of an object code library of externally - callable functions that has been designed by you for incorporation into third - party products, you agree to include, in the source code, or in the case of - an object code library, in accompanying documentation, a notice using the - words "patent pending" until a patent is issued to PKWARE covering any - portion of the Licensed Technology or PKWARE provides notice, by means - chosen by PKWARE in its unfettered discretion, that it no longer has any - patent pending covering any portion of the Licensed Technology. With respect - to any Licensed Product, upon your becoming aware that at least one patent has - been granted covering the Licensed Technology, you agree to include in any - revisions made by you to the documentation (or any source code distributed - by you) the words "Pat. No.", or "Patent Number" and the patent number or - numbers of the applicable patent or patents. PKWARE shall, from time to time, - inform you of the patent number or numbers of the patents covering the - Licensed Technology, by means chosen by PKWARE in its unfettered discretion, - including a notice on its web site. It shall be a violation of the terms of - this AGREEMENT for you to sell Licensed Products without complying with the - foregoing marking provisions. - - ii. You acknowledge that the terms of this AGREEMENT do not grant you any - license or other right to use any PKWARE trademark in connection with the sale, - offering for sale, distribution and delivery of the Licensed Products, or in - connection with the advertising, promotion and offering of the Licensed Products. - You acknowledge PKWARE's ownership of the PKZIP trademark and all other marks - owned by PKWARE. - - e. Covenant of Compliance and Remedies. - - To the extent that you have elected to implement portions of the Licensed - Technology, you agree to use reasonable diligence to comply with those portions - of this Section XIV, as modified or supplemented by Additional Compatibility - Information available to you, describing the portions of the Licensed Technology - that you have elected to implement. Upon reasonable request by PKWARE, you will - provide written notice to PKWARE identifying which version of this APPNOTE you - have relied upon for your implementation of any specified Licensed Product. - - If any substantial non-compliance with the terms of this AGREEMENT is determined - to exist, you will make such changes as necessary to bring your Licensed Products - into substantial compliance with the terms of this AGREEMENT. If, within sixty - days of receipt of notice that a Licensed Product fails to comply with the terms - of this AGREEMENT, you fail to make such changes as necessary to bring your - Licensed Products into compliance with the terms of this AGREEMENT, PKWARE may - terminate your rights under this AGREEMENT. PKWARE does not waive and expressly - reserves the right to pursue any and all additional remedies that are or may - become available to PKWARE. - - f. Warranty and Indemnification Regarding Exportation. - - You realize and acknowledge that, as between yourself and PKWARE, you are fully - responsible for compliance with the import and export laws and regulations of - any country in or to which you import or export any Licensed Products, and you - agree to hold PKWARE harmless from any claim of violation of any such import - or export laws. - - g. Patent Infringement. - - You agree that you will not bring or threaten to bring any action against PKWARE - for infringement of the claims of any patent owned or controlled by you solely - as a result of PKWARE's own implementation of the Licensed Technology. As its - exclusive remedy for your breach of the foregoing agreement, PKWARE reserves - the right to suspend or terminate all rights granted under the terms of this - AGREEMENT if you bring or threaten to bring any such action against PKWARE, - effective immediately upon delivery of written notice of suspension or - termination to you. - - h. Governing Law. - - The license granted in this AGREEMENT shall be governed by and construed under - the laws of the State of Wisconsin and the United States. - - i. Revisions and Notice. - - The license granted in this APPNOTE is irrevocable, except as expressly set - forth above. You agree and understand that any changes which PKWARE determines - to make to this APPNOTE shall be posted at the same location as the current - APPNOTE or at a location which will be identified by means chosen by PKWARE, - including a notice on its web site, and shall be available for adoption by you - immediately upon such posting, or at such other time as PKWARE shall determine. - Any changes to the terms of the license published in a subsequent version of - this AGREEMENT shall be binding upon you only with respect to your products - that (i) incorporate any Licensed Technology (as defined in the subsequent - AGREEMENT) that is not otherwise included in the definition of Licensed - Technology under this AGREEMENT, or (ii) that you expressly identify are to - be licensed under the subsequent AGREEMENT, which identification shall be by - written notice with reference to the APPNOTE (version and release date or other - unique identifier) in which the subsequent AGREEMENT is published. PKWARE - agrees to identify each change to this APPNOTE by using a unique version and - release date identifier or other unique identifier. - - j. Warranty by PKWARE - - PKWare, Inc. warrants that it has the right to grant the license hereunder. - -XV. Change Process ------------------- - -In order for the .ZIP file format to remain a viable definition, this -specification should be considered as open for periodic review and -revision. Although this format was originally designed with a -certain level of extensibility, not all changes in technology -(present or future) were or will be necessarily considered in its -design. If your application requires new definitions to the -extensible sections in this format, or if you would like to -submit new data structures, please forward your request to -zipformat@pkware.com. All submissions will be reviewed by the -ZIP File Specification Committee for possible inclusion into -future versions of this specification. Periodic revisions -to this specification will be published to ensure interoperability. -We encourage comments and feedback that may help improve clarity -or content. - - -XVI. Acknowledgements ---------------------- - -In addition to the above mentioned contributors to PKZIP and PKUNZIP, -I would like to extend special thanks to Robert Mahoney for suggesting -the extension .ZIP for this software. - - -XVII. References ----------------- - - Fiala, Edward R., and Greene, Daniel H., "Data compression with - finite windows", Communications of the ACM, Volume 32, Number 4, - April 1989, pages 490-505. - - Held, Gilbert, "Data Compression, Techniques and Applications, - Hardware and Software Considerations", John Wiley & Sons, 1987. - - Huffman, D.A., "A method for the construction of minimum-redundancy - codes", Proceedings of the IRE, Volume 40, Number 9, September 1952, - pages 1098-1101. - - Nelson, Mark, "LZW Data Compression", Dr. Dobbs Journal, Volume 14, - Number 10, October 1989, pages 29-37. - - Nelson, Mark, "The Data Compression Book", M&T Books, 1991. - - Storer, James A., "Data Compression, Methods and Theory", - Computer Science Press, 1988 - - Welch, Terry, "A Technique for High-Performance Data Compression", - IEEE Computer, Volume 17, Number 6, June 1984, pages 8-19. - - Ziv, J. and Lempel, A., "A universal algorithm for sequential data - compression", Communications of the ACM, Volume 30, Number 6, - June 1987, pages 520-540. - - Ziv, J. and Lempel, A., "Compression of individual sequences via - variable-rate coding", IEEE Transactions on Information Theory, - Volume 24, Number 5, September 1978, pages 530-536. diff -pruN 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.txt 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.txt --- 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.txt 2025-04-23 16:00:55.000000000 +0000 +++ 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/appnote.txt 1970-01-01 00:00:00.000000000 +0000 @@ -1,3497 +0,0 @@ -File: APPNOTE.TXT - .ZIP File Format Specification -Version: 6.3.4 -Status: Final - replaces version 6.3.3 -Revised: October 1, 2014 -Copyright (c) 1989 - 2014 PKWARE Inc., All Rights Reserved. - -1.0 Introduction ---------------- - -1.1 Purpose ------------ - - 1.1.1 This specification is intended to define a cross-platform, - interoperable file storage and transfer format. Since its - first publication in 1989, PKWARE, Inc. ("PKWARE") has remained - committed to ensuring the interoperability of the .ZIP file - format through periodic publication and maintenance of this - specification. We trust that all .ZIP compatible vendors and - application developers that use and benefit from this format - will share and support this commitment to interoperability. - -1.2 Scope ---------- - - 1.2.1 ZIP is one of the most widely used compressed file formats. It is - universally used to aggregate, compress, and encrypt files into a single - interoperable container. No specific use or application need is - defined by this format and no specific implementation guidance is - provided. This document provides details on the storage format for - creating ZIP files. Information is provided on the records and - fields that describe what a ZIP file is. - -1.3 Trademarks --------------- - - 1.3.1 PKWARE, PKZIP, SecureZIP, and PKSFX are registered trademarks of - PKWARE, Inc. in the United States and elsewhere. PKPatchMaker, - Deflate64, and ZIP64 are trademarks of PKWARE, Inc. Other marks - referenced within this document appear for identification - purposes only and are the property of their respective owners. - - -1.4 Permitted Use ------------------ - - 1.4.1 This document, "APPNOTE.TXT - .ZIP File Format Specification" is the - exclusive property of PKWARE. Use of the information contained in this - document is permitted solely for the purpose of creating products, - programs and processes that read and write files in the ZIP format - subject to the terms and conditions herein. - - 1.4.2 Use of the content of this document within other publications is - permitted only through reference to this document. Any reproduction - or distribution of this document in whole or in part without prior - written permission from PKWARE is strictly prohibited. - - 1.4.3 Certain technological components provided in this document are the - patented proprietary technology of PKWARE and as such require a - separate, executed license agreement from PKWARE. Applicable - components are marked with the following, or similar, statement: - 'Refer to the section in this document entitled "Incorporating - PKWARE Proprietary Technology into Your Product" for more information'. - -1.5 Contacting PKWARE ---------------------- - - 1.5.1 If you have questions on this format, its use, or licensing, or if you - wish to report defects, request changes or additions, please contact: - - PKWARE, Inc. - 201 E. Pittsburgh Avenue, Suite 400 - Milwaukee, WI 53204 - +1-414-289-9788 - +1-414-289-9789 FAX - zipformat@pkware.com - - 1.5.2 Information about this format and copies of this document are publicly - available at: - - http://www.pkware.com/appnote - -1.6 Disclaimer --------------- - - 1.6.1 Although PKWARE will attempt to supply current and accurate - information relating to its file formats, algorithms, and the - subject programs, the possibility of error or omission cannot - be eliminated. PKWARE therefore expressly disclaims any warranty - that the information contained in the associated materials relating - to the subject programs and/or the format of the files created or - accessed by the subject programs and/or the algorithms used by - the subject programs, or any other matter, is current, correct or - accurate as delivered. Any risk of damage due to any possible - inaccurate information is assumed by the user of the information. - Furthermore, the information relating to the subject programs - and/or the file formats created or accessed by the subject - programs and/or the algorithms used by the subject programs is - subject to change without notice. - -2.0 Revisions --------------- - -2.1 Document Status --------------------- - - 2.1.1 If the STATUS of this file is marked as DRAFT, the content - defines proposed revisions to this specification which may consist - of changes to the ZIP format itself, or that may consist of other - content changes to this document. Versions of this document and - the format in DRAFT form may be subject to modification prior to - publication STATUS of FINAL. DRAFT versions are published periodically - to provide notification to the ZIP community of pending changes and to - provide opportunity for review and comment. - - 2.1.2 Versions of this document having a STATUS of FINAL are - considered to be in the final form for that version of the document - and are not subject to further change until a new, higher version - numbered document is published. Newer versions of this format - specification are intended to remain interoperable with with all prior - versions whenever technically possible. - -2.2 Change Log --------------- - - Version Change Description Date - ------- ------------------ ---------- - 5.2 -Single Password Symmetric Encryption 07/16/2003 - storage - - 6.1.0 -Smartcard compatibility 01/20/2004 - -Documentation on certificate storage - - 6.2.0 -Introduction of Central Directory 04/26/2004 - Encryption for encrypting metadata - -Added OS X to Version Made By values - - 6.2.1 -Added Extra Field placeholder for 04/01/2005 - POSZIP using ID 0x4690 - - -Clarified size field on - "zip64 end of central directory record" - - 6.2.2 -Documented Final Feature Specification 01/06/2006 - for Strong Encryption - - -Clarifications and typographical - corrections - - 6.3.0 -Added tape positioning storage 09/29/2006 - parameters - - -Expanded list of supported hash algorithms - - -Expanded list of supported compression - algorithms - - -Expanded list of supported encryption - algorithms - - -Added option for Unicode filename - storage - - -Clarifications for consistent use - of Data Descriptor records - - -Added additional "Extra Field" - definitions - - 6.3.1 -Corrected standard hash values for 04/11/2007 - SHA-256/384/512 - - 6.3.2 -Added compression method 97 09/28/2007 - - -Documented InfoZIP "Extra Field" - values for UTF-8 file name and - file comment storage - - 6.3.3 -Formatting changes to support 09/01/2012 - easier referencing of this APPNOTE - from other documents and standards - - 6.3.4 -Address change 10/01/2014 - - -3.0 Notations -------------- - - 3.1 Use of the term MUST or SHALL indicates a required element. - - 3.2 MAY NOT or SHALL NOT indicates an element is prohibited from use. - - 3.3 SHOULD indicates a RECOMMENDED element. - - 3.4 SHOULD NOT indicates an element NOT RECOMMENDED for use. - - 3.5 MAY indicates an OPTIONAL element. - - -4.0 ZIP Files -------------- - -4.1 What is a ZIP file ----------------------- - - 4.1.1 ZIP files MAY be identified by the standard .ZIP file extension - although use of a file extension is not required. Use of the - extension .ZIPX is also recognized and MAY be used for ZIP files. - Other common file extensions using the ZIP format include .JAR, .WAR, - .DOCX, .XLXS, .PPTX, .ODT, .ODS, .ODP and others. Programs reading or - writing ZIP files SHOULD rely on internal record signatures described - in this document to identify files in this format. - - 4.1.2 ZIP files SHOULD contain at least one file and MAY contain - multiple files. - - 4.1.3 Data compression MAY be used to reduce the size of files - placed into a ZIP file, but is not required. This format supports the - use of multiple data compression algorithms. When compression is used, - one of the documented compression algorithms MUST be used. Implementors - are advised to experiment with their data to determine which of the - available algorithms provides the best compression for their needs. - Compression method 8 (Deflate) is the method used by default by most - ZIP compatible application programs. - - - 4.1.4 Data encryption MAY be used to protect files within a ZIP file. - Keying methods supported for encryption within this format include - passwords and public/private keys. Either MAY be used individually - or in combination. Encryption MAY be applied to individual files. - Additional security MAY be used through the encryption of ZIP file - metadata stored within the Central Directory. See the section on the - Strong Encryption Specification for information. Refer to the section - in this document entitled "Incorporating PKWARE Proprietary Technology - into Your Product" for more information. - - 4.1.5 Data integrity MUST be provided for each file using CRC32. - - 4.1.6 Additional data integrity MAY be included through the use of - digital signatures. Individual files MAY be signed with one or more - digital signatures. The Central Directory, if signed, MUST use a - single signature. - - 4.1.7 Files MAY be placed within a ZIP file uncompressed or stored. - The term "stored" as used in the context of this document means the file - is copied into the ZIP file uncompressed. - - 4.1.8 Each data file placed into a ZIP file MAY be compressed, stored, - encrypted or digitally signed independent of how other data files in the - same ZIP file are archived. - - 4.1.9 ZIP files MAY be streamed, split into segments (on fixed or on - removable media) or "self-extracting". Self-extracting ZIP - files MUST include extraction code for a target platform within - the ZIP file. - - 4.1.10 Extensibility is provided for platform or application specific - needs through extra data fields that MAY be defined for custom - purposes. Extra data definitions MUST NOT conflict with existing - documented record definitions. - - 4.1.11 Common uses for ZIP MAY also include the use of manifest files. - Manifest files store application specific information within a file stored - within the ZIP file. This manifest file SHOULD be the first file in the - ZIP file. This specification does not provide any information or guidance on - the use of manifest files within ZIP files. Refer to the application developer - for information on using manifest files and for any additional profile - information on using ZIP within an application. - - 4.1.12 ZIP files MAY be placed within other ZIP files. - -4.2 ZIP Metadata ----------------- - - 4.2.1 ZIP files are identified by metadata consisting of defined record types - containing the storage information necessary for maintaining the files - placed into a ZIP file. Each record type MUST be identified using a header - signature that identifies the record type. Signature values begin with the - two byte constant marker of 0x4b50, representing the characters "PK". - - -4.3 General Format of a .ZIP file ---------------------------------- - - 4.3.1 A ZIP file MUST contain an "end of central directory record". A ZIP - file containing only an "end of central directory record" is considered an - empty ZIP file. Files may be added or replaced within a ZIP file, or deleted. - A ZIP file MUST have only one "end of central directory record". Other - records defined in this specification MAY be used as needed to support - storage requirements for individual ZIP files. - - 4.3.2 Each file placed into a ZIP file MUST be preceeded by a "local - file header" record for that file. Each "local file header" MUST be - accompanied by a corresponding "central directory header" record within - the central directory section of the ZIP file. - - 4.3.3 Files MAY be stored in arbitrary order within a ZIP file. A ZIP - file MAY span multiple volumes or it MAY be split into user-defined - segment sizes. All values MUST be stored in little-endian byte order unless - otherwise specified in this document for a specific data element. - - 4.3.4 Compression MUST NOT be applied to a "local file header", an "encryption - header", or an "end of central directory record". Individual "central - directory records" must not be compressed, but the aggregate of all central - directory records MAY be compressed. - - 4.3.5 File data MAY be followed by a "data descriptor" for the file. Data - descriptors are used to facilitate ZIP file streaming. - - - 4.3.6 Overall .ZIP file format: - - [local file header 1] - [encryption header 1] - [file data 1] - [data descriptor 1] - . - . - . - [local file header n] - [encryption header n] - [file data n] - [data descriptor n] - [archive decryption header] - [archive extra data record] - [central directory header 1] - . - . - . - [central directory header n] - [zip64 end of central directory record] - [zip64 end of central directory locator] - [end of central directory record] - - - 4.3.7 Local file header: - - local file header signature 4 bytes (0x04034b50) - version needed to extract 2 bytes - general purpose bit flag 2 bytes - compression method 2 bytes - last mod file time 2 bytes - last mod file date 2 bytes - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - file name length 2 bytes - extra field length 2 bytes - - file name (variable size) - extra field (variable size) - - 4.3.8 File data - - Immediately following the local header for a file - SHOULD be placed the compressed or stored data for the file. - If the file is encrypted, the encryption header for the file - SHOULD be placed after the local header and before the file - data. The series of [local file header][encryption header] - [file data][data descriptor] repeats for each file in the - .ZIP archive. - - Zero-byte files, directories, and other file types that - contain no content MUST not include file data. - - 4.3.9 Data descriptor: - - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - - 4.3.9.1 This descriptor MUST exist if bit 3 of the general - purpose bit flag is set (see below). It is byte aligned - and immediately follows the last byte of compressed data. - This descriptor SHOULD be used only when it was not possible to - seek in the output .ZIP file, e.g., when the output .ZIP file - was standard output or a non-seekable device. For ZIP64(tm) format - archives, the compressed and uncompressed sizes are 8 bytes each. - - 4.3.9.2 When compressing files, compressed and uncompressed sizes - should be stored in ZIP64 format (as 8 byte values) when a - file's size exceeds 0xFFFFFFFF. However ZIP64 format may be - used regardless of the size of a file. When extracting, if - the zip64 extended information extra field is present for - the file the compressed and uncompressed sizes will be 8 - byte values. - - 4.3.9.3 Although not originally assigned a signature, the value - 0x08074b50 has commonly been adopted as a signature value - for the data descriptor record. Implementers should be - aware that ZIP files may be encountered with or without this - signature marking data descriptors and SHOULD account for - either case when reading ZIP files to ensure compatibility. - - 4.3.9.4 When writing ZIP files, implementors SHOULD include the - signature value marking the data descriptor record. When - the signature is used, the fields currently defined for - the data descriptor record will immediately follow the - signature. - - 4.3.9.5 An extensible data descriptor will be released in a - future version of this APPNOTE. This new record is intended to - resolve conflicts with the use of this record going forward, - and to provide better support for streamed file processing. - - 4.3.9.6 When the Central Directory Encryption method is used, - the data descriptor record is not required, but MAY be used. - If present, and bit 3 of the general purpose bit field is set to - indicate its presence, the values in fields of the data descriptor - record MUST be set to binary zeros. See the section on the Strong - Encryption Specification for information. Refer to the section in - this document entitled "Incorporating PKWARE Proprietary Technology - into Your Product" for more information. - - - 4.3.10 Archive decryption header: - - 4.3.10.1 The Archive Decryption Header is introduced in version 6.2 - of the ZIP format specification. This record exists in support - of the Central Directory Encryption Feature implemented as part of - the Strong Encryption Specification as described in this document. - When the Central Directory Structure is encrypted, this decryption - header MUST precede the encrypted data segment. - - 4.3.10.2 The encrypted data segment SHALL consist of the Archive - extra data record (if present) and the encrypted Central Directory - Structure data. The format of this data record is identical to the - Decryption header record preceding compressed file data. If the - central directory structure is encrypted, the location of the start of - this data record is determined using the Start of Central Directory - field in the Zip64 End of Central Directory record. See the - section on the Strong Encryption Specification for information - on the fields used in the Archive Decryption Header record. - Refer to the section in this document entitled "Incorporating - PKWARE Proprietary Technology into Your Product" for more information. - - - 4.3.11 Archive extra data record: - - archive extra data signature 4 bytes (0x08064b50) - extra field length 4 bytes - extra field data (variable size) - - 4.3.11.1 The Archive Extra Data Record is introduced in version 6.2 - of the ZIP format specification. This record MAY be used in support - of the Central Directory Encryption Feature implemented as part of - the Strong Encryption Specification as described in this document. - When present, this record MUST immediately precede the central - directory data structure. - - 4.3.11.2 The size of this data record SHALL be included in the - Size of the Central Directory field in the End of Central - Directory record. If the central directory structure is compressed, - but not encrypted, the location of the start of this data record is - determined using the Start of Central Directory field in the Zip64 - End of Central Directory record. Refer to the section in this document - entitled "Incorporating PKWARE Proprietary Technology into Your - Product" for more information. - - 4.3.12 Central directory structure: - - [central directory header 1] - . - . - . - [central directory header n] - [digital signature] - - File header: - - central file header signature 4 bytes (0x02014b50) - version made by 2 bytes - version needed to extract 2 bytes - general purpose bit flag 2 bytes - compression method 2 bytes - last mod file time 2 bytes - last mod file date 2 bytes - crc-32 4 bytes - compressed size 4 bytes - uncompressed size 4 bytes - file name length 2 bytes - extra field length 2 bytes - file comment length 2 bytes - disk number start 2 bytes - internal file attributes 2 bytes - external file attributes 4 bytes - relative offset of local header 4 bytes - - file name (variable size) - extra field (variable size) - file comment (variable size) - - 4.3.13 Digital signature: - - header signature 4 bytes (0x05054b50) - size of data 2 bytes - signature data (variable size) - - With the introduction of the Central Directory Encryption - feature in version 6.2 of this specification, the Central - Directory Structure MAY be stored both compressed and encrypted. - Although not required, it is assumed when encrypting the - Central Directory Structure, that it will be compressed - for greater storage efficiency. Information on the - Central Directory Encryption feature can be found in the section - describing the Strong Encryption Specification. The Digital - Signature record will be neither compressed nor encrypted. - - 4.3.14 Zip64 end of central directory record - - zip64 end of central dir - signature 4 bytes (0x06064b50) - size of zip64 end of central - directory record 8 bytes - version made by 2 bytes - version needed to extract 2 bytes - number of this disk 4 bytes - number of the disk with the - start of the central directory 4 bytes - total number of entries in the - central directory on this disk 8 bytes - total number of entries in the - central directory 8 bytes - size of the central directory 8 bytes - offset of start of central - directory with respect to - the starting disk number 8 bytes - zip64 extensible data sector (variable size) - - 4.3.14.1 The value stored into the "size of zip64 end of central - directory record" should be the size of the remaining - record and should not include the leading 12 bytes. - - Size = SizeOfFixedFields + SizeOfVariableData - 12. - - 4.3.14.2 The above record structure defines Version 1 of the - zip64 end of central directory record. Version 1 was - implemented in versions of this specification preceding - 6.2 in support of the ZIP64 large file feature. The - introduction of the Central Directory Encryption feature - implemented in version 6.2 as part of the Strong Encryption - Specification defines Version 2 of this record structure. - Refer to the section describing the Strong Encryption - Specification for details on the version 2 format for - this record. Refer to the section in this document entitled - "Incorporating PKWARE Proprietary Technology into Your Product" - for more information applicable to use of Version 2 of this - record. - - 4.3.14.3 Special purpose data MAY reside in the zip64 extensible - data sector field following either a V1 or V2 version of this - record. To ensure identification of this special purpose data - it must include an identifying header block consisting of the - following: - - Header ID - 2 bytes - Data Size - 4 bytes - - The Header ID field indicates the type of data that is in the - data block that follows. - - Data Size identifies the number of bytes that follow for this - data block type. - - 4.3.14.4 Multiple special purpose data blocks MAY be present. - Each MUST be preceded by a Header ID and Data Size field. Current - mappings of Header ID values supported in this field are as - defined in APPENDIX C. - - 4.3.15 Zip64 end of central directory locator - - zip64 end of central dir locator - signature 4 bytes (0x07064b50) - number of the disk with the - start of the zip64 end of - central directory 4 bytes - relative offset of the zip64 - end of central directory record 8 bytes - total number of disks 4 bytes - - 4.3.16 End of central directory record: - - end of central dir signature 4 bytes (0x06054b50) - number of this disk 2 bytes - number of the disk with the - start of the central directory 2 bytes - total number of entries in the - central directory on this disk 2 bytes - total number of entries in - the central directory 2 bytes - size of the central directory 4 bytes - offset of start of central - directory with respect to - the starting disk number 4 bytes - .ZIP file comment length 2 bytes - .ZIP file comment (variable size) - -4.4 Explanation of fields --------------------------- - - 4.4.1 General notes on fields - - 4.4.1.1 All fields unless otherwise noted are unsigned and stored - in Intel low-byte:high-byte, low-word:high-word order. - - 4.4.1.2 String fields are not null terminated, since the length - is given explicitly. - - 4.4.1.3 The entries in the central directory may not necessarily - be in the same order that files appear in the .ZIP file. - - 4.4.1.4 If one of the fields in the end of central directory - record is too small to hold required data, the field should be - set to -1 (0xFFFF or 0xFFFFFFFF) and the ZIP64 format record - should be created. - - 4.4.1.5 The end of central directory record and the Zip64 end - of central directory locator record MUST reside on the same - disk when splitting or spanning an archive. - - 4.4.2 version made by (2 bytes) - - 4.4.2.1 The upper byte indicates the compatibility of the file - attribute information. If the external file attributes - are compatible with MS-DOS and can be read by PKZIP for - DOS version 2.04g then this value will be zero. If these - attributes are not compatible, then this value will - identify the host system on which the attributes are - compatible. Software can use this information to determine - the line record format for text files etc. - - 4.4.2.2 The current mappings are: - - 0 - MS-DOS and OS/2 (FAT / VFAT / FAT32 file systems) - 1 - Amiga 2 - OpenVMS - 3 - UNIX 4 - VM/CMS - 5 - Atari ST 6 - OS/2 H.P.F.S. - 7 - Macintosh 8 - Z-System - 9 - CP/M 10 - Windows NTFS - 11 - MVS (OS/390 - Z/OS) 12 - VSE - 13 - Acorn Risc 14 - VFAT - 15 - alternate MVS 16 - BeOS - 17 - Tandem 18 - OS/400 - 19 - OS X (Darwin) 20 thru 255 - unused - - 4.4.2.3 The lower byte indicates the ZIP specification version - (the version of this document) supported by the software - used to encode the file. The value/10 indicates the major - version number, and the value mod 10 is the minor version - number. - - 4.4.3 version needed to extract (2 bytes) - - 4.4.3.1 The minimum supported ZIP specification version needed - to extract the file, mapped as above. This value is based on - the specific format features a ZIP program MUST support to - be able to extract the file. If multiple features are - applied to a file, the minimum version MUST be set to the - feature having the highest value. New features or feature - changes affecting the published format specification will be - implemented using higher version numbers than the last - published value to avoid conflict. - - 4.4.3.2 Current minimum feature versions are as defined below: - - 1.0 - Default value - 1.1 - File is a volume label - 2.0 - File is a folder (directory) - 2.0 - File is compressed using Deflate compression - 2.0 - File is encrypted using traditional PKWARE encryption - 2.1 - File is compressed using Deflate64(tm) - 2.5 - File is compressed using PKWARE DCL Implode - 2.7 - File is a patch data set - 4.5 - File uses ZIP64 format extensions - 4.6 - File is compressed using BZIP2 compression* - 5.0 - File is encrypted using DES - 5.0 - File is encrypted using 3DES - 5.0 - File is encrypted using original RC2 encryption - 5.0 - File is encrypted using RC4 encryption - 5.1 - File is encrypted using AES encryption - 5.1 - File is encrypted using corrected RC2 encryption** - 5.2 - File is encrypted using corrected RC2-64 encryption** - 6.1 - File is encrypted using non-OAEP key wrapping*** - 6.2 - Central directory encryption - 6.3 - File is compressed using LZMA - 6.3 - File is compressed using PPMd+ - 6.3 - File is encrypted using Blowfish - 6.3 - File is encrypted using Twofish - - 4.4.3.3 Notes on version needed to extract - - * Early 7.x (pre-7.2) versions of PKZIP incorrectly set the - version needed to extract for BZIP2 compression to be 50 - when it should have been 46. - - ** Refer to the section on Strong Encryption Specification - for additional information regarding RC2 corrections. - - *** Certificate encryption using non-OAEP key wrapping is the - intended mode of operation for all versions beginning with 6.1. - Support for OAEP key wrapping MUST only be used for - backward compatibility when sending ZIP files to be opened by - versions of PKZIP older than 6.1 (5.0 or 6.0). - - + Files compressed using PPMd MUST set the version - needed to extract field to 6.3, however, not all ZIP - programs enforce this and may be unable to decompress - data files compressed using PPMd if this value is set. - - When using ZIP64 extensions, the corresponding value in the - zip64 end of central directory record MUST also be set. - This field should be set appropriately to indicate whether - Version 1 or Version 2 format is in use. - - - 4.4.4 general purpose bit flag: (2 bytes) - - Bit 0: If set, indicates that the file is encrypted. - - (For Method 6 - Imploding) - Bit 1: If the compression method used was type 6, - Imploding, then this bit, if set, indicates - an 8K sliding dictionary was used. If clear, - then a 4K sliding dictionary was used. - - Bit 2: If the compression method used was type 6, - Imploding, then this bit, if set, indicates - 3 Shannon-Fano trees were used to encode the - sliding dictionary output. If clear, then 2 - Shannon-Fano trees were used. - - (For Methods 8 and 9 - Deflating) - Bit 2 Bit 1 - 0 0 Normal (-en) compression option was used. - 0 1 Maximum (-exx/-ex) compression option was used. - 1 0 Fast (-ef) compression option was used. - 1 1 Super Fast (-es) compression option was used. - - (For Method 14 - LZMA) - Bit 1: If the compression method used was type 14, - LZMA, then this bit, if set, indicates - an end-of-stream (EOS) marker is used to - mark the end of the compressed data stream. - If clear, then an EOS marker is not present - and the compressed data size must be known - to extract. - - Note: Bits 1 and 2 are undefined if the compression - method is any other. - - Bit 3: If this bit is set, the fields crc-32, compressed - size and uncompressed size are set to zero in the - local header. The correct values are put in the - data descriptor immediately following the compressed - data. (Note: PKZIP version 2.04g for DOS only - recognizes this bit for method 8 compression, newer - versions of PKZIP recognize this bit for any - compression method.) - - Bit 4: Reserved for use with method 8, for enhanced - deflating. - - Bit 5: If this bit is set, this indicates that the file is - compressed patched data. (Note: Requires PKZIP - version 2.70 or greater) - - Bit 6: Strong encryption. If this bit is set, you MUST - set the version needed to extract value to at least - 50 and you MUST also set bit 0. If AES encryption - is used, the version needed to extract value MUST - be at least 51. See the section describing the Strong - Encryption Specification for details. Refer to the - section in this document entitled "Incorporating PKWARE - Proprietary Technology into Your Product" for more - information. - - Bit 7: Currently unused. - - Bit 8: Currently unused. - - Bit 9: Currently unused. - - Bit 10: Currently unused. - - Bit 11: Language encoding flag (EFS). If this bit is set, - the filename and comment fields for this file - MUST be encoded using UTF-8. (see APPENDIX D) - - Bit 12: Reserved by PKWARE for enhanced compression. - - Bit 13: Set when encrypting the Central Directory to indicate - selected data values in the Local Header are masked to - hide their actual values. See the section describing - the Strong Encryption Specification for details. Refer - to the section in this document entitled "Incorporating - PKWARE Proprietary Technology into Your Product" for - more information. - - Bit 14: Reserved by PKWARE. - - Bit 15: Reserved by PKWARE. - - 4.4.5 compression method: (2 bytes) - - 0 - The file is stored (no compression) - 1 - The file is Shrunk - 2 - The file is Reduced with compression factor 1 - 3 - The file is Reduced with compression factor 2 - 4 - The file is Reduced with compression factor 3 - 5 - The file is Reduced with compression factor 4 - 6 - The file is Imploded - 7 - Reserved for Tokenizing compression algorithm - 8 - The file is Deflated - 9 - Enhanced Deflating using Deflate64(tm) - 10 - PKWARE Data Compression Library Imploding (old IBM TERSE) - 11 - Reserved by PKWARE - 12 - File is compressed using BZIP2 algorithm - 13 - Reserved by PKWARE - 14 - LZMA (EFS) - 15 - Reserved by PKWARE - 16 - Reserved by PKWARE - 17 - Reserved by PKWARE - 18 - File is compressed using IBM TERSE (new) - 19 - IBM LZ77 z Architecture (PFS) - 97 - WavPack compressed data - 98 - PPMd version I, Rev 1 - - - 4.4.6 date and time fields: (2 bytes each) - - The date and time are encoded in standard MS-DOS format. - If input came from standard input, the date and time are - those at which compression was started for this data. - If encrypting the central directory and general purpose bit - flag 13 is set indicating masking, the value stored in the - Local Header will be zero. - - 4.4.7 CRC-32: (4 bytes) - - The CRC-32 algorithm was generously contributed by - David Schwaderer and can be found in his excellent - book "C Programmers Guide to NetBIOS" published by - Howard W. Sams & Co. Inc. The 'magic number' for - the CRC is 0xdebb20e3. The proper CRC pre and post - conditioning is used, meaning that the CRC register - is pre-conditioned with all ones (a starting value - of 0xffffffff) and the value is post-conditioned by - taking the one's complement of the CRC residual. - If bit 3 of the general purpose flag is set, this - field is set to zero in the local header and the correct - value is put in the data descriptor and in the central - directory. When encrypting the central directory, if the - local header is not in ZIP64 format and general purpose - bit flag 13 is set indicating masking, the value stored - in the Local Header will be zero. - - 4.4.8 compressed size: (4 bytes) - 4.4.9 uncompressed size: (4 bytes) - - The size of the file compressed (4.4.8) and uncompressed, - (4.4.9) respectively. When a decryption header is present it - will be placed in front of the file data and the value of the - compressed file size will include the bytes of the decryption - header. If bit 3 of the general purpose bit flag is set, - these fields are set to zero in the local header and the - correct values are put in the data descriptor and - in the central directory. If an archive is in ZIP64 format - and the value in this field is 0xFFFFFFFF, the size will be - in the corresponding 8 byte ZIP64 extended information - extra field. When encrypting the central directory, if the - local header is not in ZIP64 format and general purpose bit - flag 13 is set indicating masking, the value stored for the - uncompressed size in the Local Header will be zero. - - 4.4.10 file name length: (2 bytes) - 4.4.11 extra field length: (2 bytes) - 4.4.12 file comment length: (2 bytes) - - The length of the file name, extra field, and comment - fields respectively. The combined length of any - directory record and these three fields should not - generally exceed 65,535 bytes. If input came from standard - input, the file name length is set to zero. - - - 4.4.13 disk number start: (2 bytes) - - The number of the disk on which this file begins. If an - archive is in ZIP64 format and the value in this field is - 0xFFFF, the size will be in the corresponding 4 byte zip64 - extended information extra field. - - 4.4.14 internal file attributes: (2 bytes) - - Bits 1 and 2 are reserved for use by PKWARE. - - 4.4.14.1 The lowest bit of this field indicates, if set, - that the file is apparently an ASCII or text file. If not - set, that the file apparently contains binary data. - The remaining bits are unused in version 1.0. - - 4.4.14.2 The 0x0002 bit of this field indicates, if set, that - a 4 byte variable record length control field precedes each - logical record indicating the length of the record. The - record length control field is stored in little-endian byte - order. This flag is independent of text control characters, - and if used in conjunction with text data, includes any - control characters in the total length of the record. This - value is provided for mainframe data transfer support. - - 4.4.15 external file attributes: (4 bytes) - - The mapping of the external attributes is - host-system dependent (see 'version made by'). For - MS-DOS, the low order byte is the MS-DOS directory - attribute byte. If input came from standard input, this - field is set to zero. - - 4.4.16 relative offset of local header: (4 bytes) - - This is the offset from the start of the first disk on - which this file appears, to where the local header should - be found. If an archive is in ZIP64 format and the value - in this field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 extended information extra field. - - 4.4.17 file name: (Variable) - - 4.4.17.1 The name of the file, with optional relative path. - The path stored MUST not contain a drive or - device letter, or a leading slash. All slashes - MUST be forward slashes '/' as opposed to - backwards slashes '\' for compatibility with Amiga - and UNIX file systems etc. If input came from standard - input, there is no file name field. - - 4.4.17.2 If using the Central Directory Encryption Feature and - general purpose bit flag 13 is set indicating masking, the file - name stored in the Local Header will not be the actual file name. - A masking value consisting of a unique hexadecimal value will - be stored. This value will be sequentially incremented for each - file in the archive. See the section on the Strong Encryption - Specification for details on retrieving the encrypted file name. - Refer to the section in this document entitled "Incorporating PKWARE - Proprietary Technology into Your Product" for more information. - - - 4.4.18 file comment: (Variable) - - The comment for this file. - - 4.4.19 number of this disk: (2 bytes) - - The number of this disk, which contains central - directory end record. If an archive is in ZIP64 format - and the value in this field is 0xFFFF, the size will - be in the corresponding 4 byte zip64 end of central - directory field. - - - 4.4.20 number of the disk with the start of the central - directory: (2 bytes) - - The number of the disk on which the central - directory starts. If an archive is in ZIP64 format - and the value in this field is 0xFFFF, the size will - be in the corresponding 4 byte zip64 end of central - directory field. - - 4.4.21 total number of entries in the central dir on - this disk: (2 bytes) - - The number of central directory entries on this disk. - If an archive is in ZIP64 format and the value in - this field is 0xFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - 4.4.22 total number of entries in the central dir: (2 bytes) - - The total number of files in the .ZIP file. If an - archive is in ZIP64 format and the value in this field - is 0xFFFF, the size will be in the corresponding 8 byte - zip64 end of central directory field. - - 4.4.23 size of the central directory: (4 bytes) - - The size (in bytes) of the entire central directory. - If an archive is in ZIP64 format and the value in - this field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - 4.4.24 offset of start of central directory with respect to - the starting disk number: (4 bytes) - - Offset of the start of the central directory on the - disk on which the central directory starts. If an - archive is in ZIP64 format and the value in this - field is 0xFFFFFFFF, the size will be in the - corresponding 8 byte zip64 end of central - directory field. - - 4.4.25 .ZIP file comment length: (2 bytes) - - The length of the comment for this .ZIP file. - - 4.4.26 .ZIP file comment: (Variable) - - The comment for this .ZIP file. ZIP file comment data - is stored unsecured. No encryption or data authentication - is applied to this area at this time. Confidential information - should not be stored in this section. - - 4.4.27 zip64 extensible data sector (variable size) - - (currently reserved for use by PKWARE) - - - 4.4.28 extra field: (Variable) - - This SHOULD be used for storage expansion. If additional - information needs to be stored within a ZIP file for special - application or platform needs, it SHOULD be stored here. - Programs supporting earlier versions of this specification can - then safely skip the file, and find the next file or header. - This field will be 0 length in version 1.0. - - Existing extra fields are defined in the section - Extensible data fields that follows. - -4.5 Extensible data fields --------------------------- - - 4.5.1 In order to allow different programs and different types - of information to be stored in the 'extra' field in .ZIP - files, the following structure MUST be used for all - programs storing data in this field: - - header1+data1 + header2+data2 . . . - - Each header should consist of: - - Header ID - 2 bytes - Data Size - 2 bytes - - Note: all fields stored in Intel low-byte/high-byte order. - - The Header ID field indicates the type of data that is in - the following data block. - - Header IDs of 0 thru 31 are reserved for use by PKWARE. - The remaining IDs can be used by third party vendors for - proprietary usage. - - 4.5.2 The current Header ID mappings defined by PKWARE are: - - 0x0001 Zip64 extended information extra field - 0x0007 AV Info - 0x0008 Reserved for extended language encoding data (PFS) - (see APPENDIX D) - 0x0009 OS/2 - 0x000a NTFS - 0x000c OpenVMS - 0x000d UNIX - 0x000e Reserved for file stream and fork descriptors - 0x000f Patch Descriptor - 0x0014 PKCS#7 Store for X.509 Certificates - 0x0015 X.509 Certificate ID and Signature for - individual file - 0x0016 X.509 Certificate ID for Central Directory - 0x0017 Strong Encryption Header - 0x0018 Record Management Controls - 0x0019 PKCS#7 Encryption Recipient Certificate List - 0x0065 IBM S/390 (Z390), AS/400 (I400) attributes - - uncompressed - 0x0066 Reserved for IBM S/390 (Z390), AS/400 (I400) - attributes - compressed - 0x4690 POSZIP 4690 (reserved) - - - 4.5.3 -Zip64 Extended Information Extra Field (0x0001): - - The following is the layout of the zip64 extended - information "extra" block. If one of the size or - offset fields in the Local or Central directory - record is too small to hold the required data, - a Zip64 extended information record is created. - The order of the fields in the zip64 extended - information record is fixed, but the fields MUST - only appear if the corresponding Local or Central - directory record field is set to 0xFFFF or 0xFFFFFFFF. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(ZIP64) 0x0001 2 bytes Tag for this "extra" block type - Size 2 bytes Size of this "extra" block - Original - Size 8 bytes Original uncompressed file size - Compressed - Size 8 bytes Size of compressed data - Relative Header - Offset 8 bytes Offset of local header record - Disk Start - Number 4 bytes Number of the disk on which - this file starts - - This entry in the Local header MUST include BOTH original - and compressed file size fields. If encrypting the - central directory and bit 13 of the general purpose bit - flag is set indicating masking, the value stored in the - Local Header for the original file size will be zero. - - - 4.5.4 -OS/2 Extra Field (0x0009): - - The following is the layout of the OS/2 attributes "extra" - block. (Last Revision 09/05/95) - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(OS/2) 0x0009 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - BSize 4 bytes Uncompressed Block Size - CType 2 bytes Compression type - EACRC 4 bytes CRC value for uncompress block - (var) variable Compressed block - - The OS/2 extended attribute structure (FEA2LIST) is - compressed and then stored in its entirety within this - structure. There will only ever be one "block" of data in - VarFields[]. - - 4.5.5 -NTFS Extra Field (0x000a): - - The following is the layout of the NTFS attributes - "extra" block. (Note: At this time the Mtime, Atime - and Ctime values MAY be used on any WIN32 system.) - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(NTFS) 0x000a 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the total "extra" block - Reserved 4 bytes Reserved for future use - Tag1 2 bytes NTFS attribute tag value #1 - Size1 2 bytes Size of attribute #1, in bytes - (var) Size1 Attribute #1 data - . - . - . - TagN 2 bytes NTFS attribute tag value #N - SizeN 2 bytes Size of attribute #N, in bytes - (var) SizeN Attribute #N data - - For NTFS, values for Tag1 through TagN are as follows: - (currently only one set of attributes is defined for NTFS) - - Tag Size Description - ----- ---- ----------- - 0x0001 2 bytes Tag for attribute #1 - Size1 2 bytes Size of attribute #1, in bytes - Mtime 8 bytes File last modification time - Atime 8 bytes File last access time - Ctime 8 bytes File creation time - - 4.5.6 -OpenVMS Extra Field (0x000c): - - The following is the layout of the OpenVMS attributes - "extra" block. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (VMS) 0x000c 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the total "extra" block - CRC 4 bytes 32-bit CRC for remainder of the block - Tag1 2 bytes OpenVMS attribute tag value #1 - Size1 2 bytes Size of attribute #1, in bytes - (var) Size1 Attribute #1 data - . - . - . - TagN 2 bytes OpenVMS attribute tag value #N - SizeN 2 bytes Size of attribute #N, in bytes - (var) SizeN Attribute #N data - - OpenVMS Extra Field Rules: - - 4.5.6.1. There will be one or more attributes present, which - will each be preceded by the above TagX & SizeX values. - These values are identical to the ATR$C_XXXX and ATR$S_XXXX - constants which are defined in ATR.H under OpenVMS C. Neither - of these values will ever be zero. - - 4.5.6.2. No word alignment or padding is performed. - - 4.5.6.3. A well-behaved PKZIP/OpenVMS program should never produce - more than one sub-block with the same TagX value. Also, there will - never be more than one "extra" block of type 0x000c in a particular - directory record. - - 4.5.7 -UNIX Extra Field (0x000d): - - The following is the layout of the UNIX "extra" block. - Note: all fields are stored in Intel low-byte/high-byte - order. - - Value Size Description - ----- ---- ----------- -(UNIX) 0x000d 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - Atime 4 bytes File last access time - Mtime 4 bytes File last modification time - Uid 2 bytes File user ID - Gid 2 bytes File group ID - (var) variable Variable length data field - - The variable length data field will contain file type - specific data. Currently the only values allowed are - the original "linked to" file names for hard or symbolic - links, and the major and minor device node numbers for - character and block device nodes. Since device nodes - cannot be either symbolic or hard links, only one set of - variable length data is stored. Link files will have the - name of the original file stored. This name is NOT NULL - terminated. Its size can be determined by checking TSize - - 12. Device entries will have eight bytes stored as two 4 - byte entries (in little endian format). The first entry - will be the major device number, and the second the minor - device number. - - 4.5.8 -PATCH Descriptor Extra Field (0x000f): - - 4.5.8.1 The following is the layout of the Patch Descriptor - "extra" block. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(Patch) 0x000f 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the total "extra" block - Version 2 bytes Version of the descriptor - Flags 4 bytes Actions and reactions (see below) - OldSize 4 bytes Size of the file about to be patched - OldCRC 4 bytes 32-bit CRC of the file to be patched - NewSize 4 bytes Size of the resulting file - NewCRC 4 bytes 32-bit CRC of the resulting file - - 4.5.8.2 Actions and reactions - - Bits Description - ---- ---------------- - 0 Use for auto detection - 1 Treat as a self-patch - 2-3 RESERVED - 4-5 Action (see below) - 6-7 RESERVED - 8-9 Reaction (see below) to absent file - 10-11 Reaction (see below) to newer file - 12-13 Reaction (see below) to unknown file - 14-15 RESERVED - 16-31 RESERVED - - 4.5.8.2.1 Actions - - Action Value - ------ ----- - none 0 - add 1 - delete 2 - patch 3 - - 4.5.8.2.2 Reactions - - Reaction Value - -------- ----- - ask 0 - skip 1 - ignore 2 - fail 3 - - 4.5.8.3 Patch support is provided by PKPatchMaker(tm) technology - and is covered under U.S. Patents and Patents Pending. The use or - implementation in a product of certain technological aspects set - forth in the current APPNOTE, including those with regard to - strong encryption or patching requires a license from PKWARE. - Refer to the section in this document entitled "Incorporating - PKWARE Proprietary Technology into Your Product" for more - information. - - 4.5.9 -PKCS#7 Store for X.509 Certificates (0x0014): - - This field MUST contain information about each of the certificates - files may be signed with. When the Central Directory Encryption - feature is enabled for a ZIP file, this record will appear in - the Archive Extra Data Record, otherwise it will appear in the - first central directory record and will be ignored in any - other record. - - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(Store) 0x0014 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the store data - TData TSize Data about the store - - - 4.5.10 -X.509 Certificate ID and Signature for individual file (0x0015): - - This field contains the information about which certificate in - the PKCS#7 store was used to sign a particular file. It also - contains the signature data. This field can appear multiple - times, but can only appear once per certificate. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(CID) 0x0015 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of data that follows - TData TSize Signature Data - - 4.5.11 -X.509 Certificate ID and Signature for central directory (0x0016): - - This field contains the information about which certificate in - the PKCS#7 store was used to sign the central directory structure. - When the Central Directory Encryption feature is enabled for a - ZIP file, this record will appear in the Archive Extra Data Record, - otherwise it will appear in the first central directory record. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(CDID) 0x0016 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of data that follows - TData TSize Data - - 4.5.12 -Strong Encryption Header (0x0017): - - Value Size Description - ----- ---- ----------- - 0x0017 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of data that follows - Format 2 bytes Format definition for this record - AlgID 2 bytes Encryption algorithm identifier - Bitlen 2 bytes Bit length of encryption key - Flags 2 bytes Processing flags - CertData TSize-8 Certificate decryption extra field data - (refer to the explanation for CertData - in the section describing the - Certificate Processing Method under - the Strong Encryption Specification) - - See the section describing the Strong Encryption Specification - for details. Refer to the section in this document entitled - "Incorporating PKWARE Proprietary Technology into Your Product" - for more information. - - 4.5.13 -Record Management Controls (0x0018): - - Value Size Description - ----- ---- ----------- -(Rec-CTL) 0x0018 2 bytes Tag for this "extra" block type - CSize 2 bytes Size of total extra block data - Tag1 2 bytes Record control attribute 1 - Size1 2 bytes Size of attribute 1, in bytes - Data1 Size1 Attribute 1 data - . - . - . - TagN 2 bytes Record control attribute N - SizeN 2 bytes Size of attribute N, in bytes - DataN SizeN Attribute N data - - - 4.5.14 -PKCS#7 Encryption Recipient Certificate List (0x0019): - - This field MAY contain information about each of the certificates - used in encryption processing and it can be used to identify who is - allowed to decrypt encrypted files. This field should only appear - in the archive extra data record. This field is not required and - serves only to aid archive modifications by preserving public - encryption key data. Individual security requirements may dictate - that this data be omitted to deter information exposure. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- -(CStore) 0x0019 2 bytes Tag for this "extra" block type - TSize 2 bytes Size of the store data - TData TSize Data about the store - - TData: - - Value Size Description - ----- ---- ----------- - Version 2 bytes Format version number - must 0x0001 at this time - CStore (var) PKCS#7 data blob - - See the section describing the Strong Encryption Specification - for details. Refer to the section in this document entitled - "Incorporating PKWARE Proprietary Technology into Your Product" - for more information. - - 4.5.15 -MVS Extra Field (0x0065): - - The following is the layout of the MVS "extra" block. - Note: Some fields are stored in Big Endian format. - All text is in EBCDIC format unless otherwise specified. - - Value Size Description - ----- ---- ----------- -(MVS) 0x0065 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - ID 4 bytes EBCDIC "Z390" 0xE9F3F9F0 or - "T4MV" for TargetFour - (var) TSize-4 Attribute data (see APPENDIX B) - - - 4.5.16 -OS/400 Extra Field (0x0065): - - The following is the layout of the OS/400 "extra" block. - Note: Some fields are stored in Big Endian format. - All text is in EBCDIC format unless otherwise specified. - - Value Size Description - ----- ---- ----------- -(OS400) 0x0065 2 bytes Tag for this "extra" block type - TSize 2 bytes Size for the following data block - ID 4 bytes EBCDIC "I400" 0xC9F4F0F0 or - "T4MV" for TargetFour - (var) TSize-4 Attribute data (see APPENDIX A) - -4.6 Third Party Mappings ------------------------- - - 4.6.1 Third party mappings commonly used are: - - 0x07c8 Macintosh - 0x2605 ZipIt Macintosh - 0x2705 ZipIt Macintosh 1.3.5+ - 0x2805 ZipIt Macintosh 1.3.5+ - 0x334d Info-ZIP Macintosh - 0x4341 Acorn/SparkFS - 0x4453 Windows NT security descriptor (binary ACL) - 0x4704 VM/CMS - 0x470f MVS - 0x4b46 FWKCS MD5 (see below) - 0x4c41 OS/2 access control list (text ACL) - 0x4d49 Info-ZIP OpenVMS - 0x4f4c Xceed original location extra field - 0x5356 AOS/VS (ACL) - 0x5455 extended timestamp - 0x554e Xceed unicode extra field - 0x5855 Info-ZIP UNIX (original, also OS/2, NT, etc) - 0x6375 Info-ZIP Unicode Comment Extra Field - 0x6542 BeOS/BeBox - 0x7075 Info-ZIP Unicode Path Extra Field - 0x756e ASi UNIX - 0x7855 Info-ZIP UNIX (new) - 0xa220 Microsoft Open Packaging Growth Hint - 0xfd4a SMS/QDOS - - Detailed descriptions of Extra Fields defined by third - party mappings will be documented as information on - these data structures is made available to PKWARE. - PKWARE does not guarantee the accuracy of any published - third party data. - - 4.6.2 Third-party Extra Fields must include a Header ID using - the format defined in the section of this document - titled Extensible Data Fields (section 4.5). - - The Data Size field indicates the size of the following - data block. Programs can use this value to skip to the - next header block, passing over any data blocks that are - not of interest. - - Note: As stated above, the size of the entire .ZIP file - header, including the file name, comment, and extra - field should not exceed 64K in size. - - 4.6.3 In case two different programs should appropriate the same - Header ID value, it is strongly recommended that each - program SHOULD place a unique signature of at least two bytes in - size (and preferably 4 bytes or bigger) at the start of - each data area. Every program SHOULD verify that its - unique signature is present, in addition to the Header ID - value being correct, before assuming that it is a block of - known type. - - Third-party Mappings: - - 4.6.4 -ZipIt Macintosh Extra Field (long) (0x2605): - - The following is the layout of the ZipIt extra block - for Macintosh. The local-header and central-header versions - are identical. This block must be present if the file is - stored MacBinary-encoded and it should not be used if the file - is not stored MacBinary-encoded. - - Value Size Description - ----- ---- ----------- - (Mac2) 0x2605 Short tag for this extra block type - TSize Short total data size for this block - "ZPIT" beLong extra-field signature - FnLen Byte length of FileName - FileName variable full Macintosh filename - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - - - 4.6.5 -ZipIt Macintosh Extra Field (short, for files) (0x2705): - - The following is the layout of a shortened variant of the - ZipIt extra block for Macintosh (without "full name" entry). - This variant is used by ZipIt 1.3.5 and newer for entries of - files (not directories) that do not have a MacBinary encoded - file. The local-header and central-header versions are identical. - - Value Size Description - ----- ---- ----------- - (Mac2b) 0x2705 Short tag for this extra block type - TSize Short total data size for this block (12) - "ZPIT" beLong extra-field signature - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - fdFlags beShort attributes from FInfo.frFlags, - may be omitted - 0x0000 beShort reserved, may be omitted - - - 4.6.6 -ZipIt Macintosh Extra Field (short, for directories) (0x2805): - - The following is the layout of a shortened variant of the - ZipIt extra block for Macintosh used only for directory - entries. This variant is used by ZipIt 1.3.5 and newer to - save some optional Mac-specific information about directories. - The local-header and central-header versions are identical. - - Value Size Description - ----- ---- ----------- - (Mac2c) 0x2805 Short tag for this extra block type - TSize Short total data size for this block (12) - "ZPIT" beLong extra-field signature - frFlags beShort attributes from DInfo.frFlags, may - be omitted - View beShort ZipIt view flag, may be omitted - - - The View field specifies ZipIt-internal settings as follows: - - Bits of the Flags: - bit 0 if set, the folder is shown expanded (open) - when the archive contents are viewed in ZipIt. - bits 1-15 reserved, zero; - - - 4.6.7 -FWKCS MD5 Extra Field (0x4b46): - - The FWKCS Contents_Signature System, used in - automatically identifying files independent of file name, - optionally adds and uses an extra field to support the - rapid creation of an enhanced contents_signature: - - Header ID = 0x4b46 - Data Size = 0x0013 - Preface = 'M','D','5' - followed by 16 bytes containing the uncompressed file's - 128_bit MD5 hash(1), low byte first. - - When FWKCS revises a .ZIP file central directory to add - this extra field for a file, it also replaces the - central directory entry for that file's uncompressed - file length with a measured value. - - FWKCS provides an option to strip this extra field, if - present, from a .ZIP file central directory. In adding - this extra field, FWKCS preserves .ZIP file Authenticity - Verification; if stripping this extra field, FWKCS - preserves all versions of AV through PKZIP version 2.04g. - - FWKCS, and FWKCS Contents_Signature System, are - trademarks of Frederick W. Kantor. - - (1) R. Rivest, RFC1321.TXT, MIT Laboratory for Computer - Science and RSA Data Security, Inc., April 1992. - ll.76-77: "The MD5 algorithm is being placed in the - public domain for review and possible adoption as a - standard." - - - 4.6.8 -Info-ZIP Unicode Comment Extra Field (0x6375): - - Stores the UTF-8 version of the file comment as stored in the - central directory header. (Last Revision 20070912) - - Value Size Description - ----- ---- ----------- - (UCom) 0x6375 Short tag for this extra block type ("uc") - TSize Short total data size for this block - Version 1 byte version of this extra field, currently 1 - ComCRC32 4 bytes Comment Field CRC32 Checksum - UnicodeCom Variable UTF-8 version of the entry comment - - Currently Version is set to the number 1. If there is a need - to change this field, the version will be incremented. Changes - may not be backward compatible so this extra field should not be - used if the version is not recognized. - - The ComCRC32 is the standard zip CRC32 checksum of the File Comment - field in the central directory header. This is used to verify that - the comment field has not changed since the Unicode Comment extra field - was created. This can happen if a utility changes the File Comment - field but does not update the UTF-8 Comment extra field. If the CRC - check fails, this Unicode Comment extra field should be ignored and - the File Comment field in the header should be used instead. - - The UnicodeCom field is the UTF-8 version of the File Comment field - in the header. As UnicodeCom is defined to be UTF-8, no UTF-8 byte - order mark (BOM) is used. The length of this field is determined by - subtracting the size of the previous fields from TSize. If both the - File Name and Comment fields are UTF-8, the new General Purpose Bit - Flag, bit 11 (Language encoding flag (EFS)), can be used to indicate - both the header File Name and Comment fields are UTF-8 and, in this - case, the Unicode Path and Unicode Comment extra fields are not - needed and should not be created. Note that, for backward - compatibility, bit 11 should only be used if the native character set - of the paths and comments being zipped up are already in UTF-8. It is - expected that the same file comment storage method, either general - purpose bit 11 or extra fields, be used in both the Local and Central - Directory Header for a file. - - - 4.6.9 -Info-ZIP Unicode Path Extra Field (0x7075): - - Stores the UTF-8 version of the file name field as stored in the - local header and central directory header. (Last Revision 20070912) - - Value Size Description - ----- ---- ----------- - (UPath) 0x7075 Short tag for this extra block type ("up") - TSize Short total data size for this block - Version 1 byte version of this extra field, currently 1 - NameCRC32 4 bytes File Name Field CRC32 Checksum - UnicodeName Variable UTF-8 version of the entry File Name - - Currently Version is set to the number 1. If there is a need - to change this field, the version will be incremented. Changes - may not be backward compatible so this extra field should not be - used if the version is not recognized. - - The NameCRC32 is the standard zip CRC32 checksum of the File Name - field in the header. This is used to verify that the header - File Name field has not changed since the Unicode Path extra field - was created. This can happen if a utility renames the File Name but - does not update the UTF-8 path extra field. If the CRC check fails, - this UTF-8 Path Extra Field should be ignored and the File Name field - in the header should be used instead. - - The UnicodeName is the UTF-8 version of the contents of the File Name - field in the header. As UnicodeName is defined to be UTF-8, no UTF-8 - byte order mark (BOM) is used. The length of this field is determined - by subtracting the size of the previous fields from TSize. If both - the File Name and Comment fields are UTF-8, the new General Purpose - Bit Flag, bit 11 (Language encoding flag (EFS)), can be used to - indicate that both the header File Name and Comment fields are UTF-8 - and, in this case, the Unicode Path and Unicode Comment extra fields - are not needed and should not be created. Note that, for backward - compatibility, bit 11 should only be used if the native character set - of the paths and comments being zipped up are already in UTF-8. It is - expected that the same file name storage method, either general - purpose bit 11 or extra fields, be used in both the Local and Central - Directory Header for a file. - - - 4.6.10 -Microsoft Open Packaging Growth Hint (0xa220): - - Value Size Description - ----- ---- ----------- - 0xa220 Short tag for this extra block type - TSize Short size of Sig + PadVal + Padding - Sig Short verification signature (A028) - PadVal Short Initial padding value - Padding variable filled with NULL characters - -4.7 Manifest Files ------------------- - - 4.7.1 Applications using ZIP files may have a need for additional - information that must be included with the files placed into - a ZIP file. Application specific information that cannot be - stored using the defined ZIP storage records SHOULD be stored - using the extensible Extra Field convention defined in this - document. However, some applications may use a manifest - file as a means for storing additional information. One - example is the META-INF/MANIFEST.MF file used in ZIP formatted - files having the .JAR extension (JAR files). - - 4.7.2 A manifest file is a file created for the application process - that requires this information. A manifest file MAY be of any - file type required by the defining application process. It is - placed within the same ZIP file as files to which this information - applies. By convention, this file is typically the first file placed - into the ZIP file and it may include a defined directory path. - - 4.7.3 Manifest files may be compressed or encrypted as needed for - application processing of the files inside the ZIP files. - - Manifest files are outside of the scope of this specification. - - -5.0 Explanation of compression methods --------------------------------------- - - -5.1 UnShrinking - Method 1 --------------------------- - - 5.1.1 Shrinking is a Dynamic Ziv-Lempel-Welch compression algorithm - with partial clearing. The initial code size is 9 bits, and the - maximum code size is 13 bits. Shrinking differs from conventional - Dynamic Ziv-Lempel-Welch implementations in several respects: - - 5.1.2 The code size is controlled by the compressor, and is - not automatically increased when codes larger than the current - code size are created (but not necessarily used). When - the decompressor encounters the code sequence 256 - (decimal) followed by 1, it should increase the code size - read from the input stream to the next bit size. No - blocking of the codes is performed, so the next code at - the increased size should be read from the input stream - immediately after where the previous code at the smaller - bit size was read. Again, the decompressor should not - increase the code size used until the sequence 256,1 is - encountered. - - 5.1.3 When the table becomes full, total clearing is not - performed. Rather, when the compressor emits the code - sequence 256,2 (decimal), the decompressor should clear - all leaf nodes from the Ziv-Lempel tree, and continue to - use the current code size. The nodes that are cleared - from the Ziv-Lempel tree are then re-used, with the lowest - code value re-used first, and the highest code value - re-used last. The compressor can emit the sequence 256,2 - at any time. - -5.2 Expanding - Methods 2-5 ---------------------------- - - 5.2.1 The Reducing algorithm is actually a combination of two - distinct algorithms. The first algorithm compresses repeated - byte sequences, and the second algorithm takes the compressed - stream from the first algorithm and applies a probabilistic - compression method. - - 5.2.2 The probabilistic compression stores an array of 'follower - sets' S(j), for j=0 to 255, corresponding to each possible - ASCII character. Each set contains between 0 and 32 - characters, to be denoted as S(j)[0],...,S(j)[m], where m<32. - The sets are stored at the beginning of the data area for a - Reduced file, in reverse order, with S(255) first, and S(0) - last. - - 5.2.3 The sets are encoded as { N(j), S(j)[0],...,S(j)[N(j)-1] }, - where N(j) is the size of set S(j). N(j) can be 0, in which - case the follower set for S(j) is empty. Each N(j) value is - encoded in 6 bits, followed by N(j) eight bit character values - corresponding to S(j)[0] to S(j)[N(j)-1] respectively. If - N(j) is 0, then no values for S(j) are stored, and the value - for N(j-1) immediately follows. - - 5.2.4 Immediately after the follower sets, is the compressed data - stream. The compressed data stream can be interpreted for the - probabilistic decompression as follows: - - let Last-Character <- 0. - loop until done - if the follower set S(Last-Character) is empty then - read 8 bits from the input stream, and copy this - value to the output stream. - otherwise if the follower set S(Last-Character) is non-empty then - read 1 bit from the input stream. - if this bit is not zero then - read 8 bits from the input stream, and copy this - value to the output stream. - otherwise if this bit is zero then - read B(N(Last-Character)) bits from the input - stream, and assign this value to I. - Copy the value of S(Last-Character)[I] to the - output stream. - - assign the last value placed on the output stream to - Last-Character. - end loop - - B(N(j)) is defined as the minimal number of bits required to - encode the value N(j)-1. - - 5.2.5 The decompressed stream from above can then be expanded to - re-create the original file as follows: - - let State <- 0. - - loop until done - read 8 bits from the input stream into C. - case State of - 0: if C is not equal to DLE (144 decimal) then - copy C to the output stream. - otherwise if C is equal to DLE then - let State <- 1. - - 1: if C is non-zero then - let V <- C. - let Len <- L(V) - let State <- F(Len). - otherwise if C is zero then - copy the value 144 (decimal) to the output stream. - let State <- 0 - - 2: let Len <- Len + C - let State <- 3. - - 3: move backwards D(V,C) bytes in the output stream - (if this position is before the start of the output - stream, then assume that all the data before the - start of the output stream is filled with zeros). - copy Len+3 bytes from this position to the output stream. - let State <- 0. - end case - end loop - - The functions F,L, and D are dependent on the 'compression - factor', 1 through 4, and are defined as follows: - - For compression factor 1: - L(X) equals the lower 7 bits of X. - F(X) equals 2 if X equals 127 otherwise F(X) equals 3. - D(X,Y) equals the (upper 1 bit of X) * 256 + Y + 1. - For compression factor 2: - L(X) equals the lower 6 bits of X. - F(X) equals 2 if X equals 63 otherwise F(X) equals 3. - D(X,Y) equals the (upper 2 bits of X) * 256 + Y + 1. - For compression factor 3: - L(X) equals the lower 5 bits of X. - F(X) equals 2 if X equals 31 otherwise F(X) equals 3. - D(X,Y) equals the (upper 3 bits of X) * 256 + Y + 1. - For compression factor 4: - L(X) equals the lower 4 bits of X. - F(X) equals 2 if X equals 15 otherwise F(X) equals 3. - D(X,Y) equals the (upper 4 bits of X) * 256 + Y + 1. - -5.3 Imploding - Method 6 ------------------------- - - 5.3.1 The Imploding algorithm is actually a combination of two - distinct algorithms. The first algorithm compresses repeated byte - sequences using a sliding dictionary. The second algorithm is - used to compress the encoding of the sliding dictionary output, - using multiple Shannon-Fano trees. - - 5.3.2 The Imploding algorithm can use a 4K or 8K sliding dictionary - size. The dictionary size used can be determined by bit 1 in the - general purpose flag word; a 0 bit indicates a 4K dictionary - while a 1 bit indicates an 8K dictionary. - - 5.3.3 The Shannon-Fano trees are stored at the start of the - compressed file. The number of trees stored is defined by bit 2 in - the general purpose flag word; a 0 bit indicates two trees stored, - a 1 bit indicates three trees are stored. If 3 trees are stored, - the first Shannon-Fano tree represents the encoding of the - Literal characters, the second tree represents the encoding of - the Length information, the third represents the encoding of the - Distance information. When 2 Shannon-Fano trees are stored, the - Length tree is stored first, followed by the Distance tree. - - 5.3.4 The Literal Shannon-Fano tree, if present is used to represent - the entire ASCII character set, and contains 256 values. This - tree is used to compress any data not compressed by the sliding - dictionary algorithm. When this tree is present, the Minimum - Match Length for the sliding dictionary is 3. If this tree is - not present, the Minimum Match Length is 2. - - 5.3.5 The Length Shannon-Fano tree is used to compress the Length - part of the (length,distance) pairs from the sliding dictionary - output. The Length tree contains 64 values, ranging from the - Minimum Match Length, to 63 plus the Minimum Match Length. - - 5.3.6 The Distance Shannon-Fano tree is used to compress the Distance - part of the (length,distance) pairs from the sliding dictionary - output. The Distance tree contains 64 values, ranging from 0 to - 63, representing the upper 6 bits of the distance value. The - distance values themselves will be between 0 and the sliding - dictionary size, either 4K or 8K. - - 5.3.7 The Shannon-Fano trees themselves are stored in a compressed - format. The first byte of the tree data represents the number of - bytes of data representing the (compressed) Shannon-Fano tree - minus 1. The remaining bytes represent the Shannon-Fano tree - data encoded as: - - High 4 bits: Number of values at this bit length + 1. (1 - 16) - Low 4 bits: Bit Length needed to represent value + 1. (1 - 16) - - 5.3.8 The Shannon-Fano codes can be constructed from the bit lengths - using the following algorithm: - - 1) Sort the Bit Lengths in ascending order, while retaining the - order of the original lengths stored in the file. - - 2) Generate the Shannon-Fano trees: - - Code <- 0 - CodeIncrement <- 0 - LastBitLength <- 0 - i <- number of Shannon-Fano codes - 1 (either 255 or 63) - - loop while i >= 0 - Code = Code + CodeIncrement - if BitLength(i) <> LastBitLength then - LastBitLength=BitLength(i) - CodeIncrement = 1 shifted left (16 - LastBitLength) - ShannonCode(i) = Code - i <- i - 1 - end loop - - 3) Reverse the order of all the bits in the above ShannonCode() - vector, so that the most significant bit becomes the least - significant bit. For example, the value 0x1234 (hex) would - become 0x2C48 (hex). - - 4) Restore the order of Shannon-Fano codes as originally stored - within the file. - - Example: - - This example will show the encoding of a Shannon-Fano tree - of size 8. Notice that the actual Shannon-Fano trees used - for Imploding are either 64 or 256 entries in size. - - Example: 0x02, 0x42, 0x01, 0x13 - - The first byte indicates 3 values in this table. Decoding the - bytes: - 0x42 = 5 codes of 3 bits long - 0x01 = 1 code of 2 bits long - 0x13 = 2 codes of 4 bits long - - This would generate the original bit length array of: - (3, 3, 3, 3, 3, 2, 4, 4) - - There are 8 codes in this table for the values 0 thru 7. Using - the algorithm to obtain the Shannon-Fano codes produces: - - Reversed Order Original - Val Sorted Constructed Code Value Restored Length - --- ------ ----------------- -------- -------- ------ - 0: 2 1100000000000000 11 101 3 - 1: 3 1010000000000000 101 001 3 - 2: 3 1000000000000000 001 110 3 - 3: 3 0110000000000000 110 010 3 - 4: 3 0100000000000000 010 100 3 - 5: 3 0010000000000000 100 11 2 - 6: 4 0001000000000000 1000 1000 4 - 7: 4 0000000000000000 0000 0000 4 - - The values in the Val, Order Restored and Original Length columns - now represent the Shannon-Fano encoding tree that can be used for - decoding the Shannon-Fano encoded data. How to parse the - variable length Shannon-Fano values from the data stream is beyond - the scope of this document. (See the references listed at the end of - this document for more information.) However, traditional decoding - schemes used for Huffman variable length decoding, such as the - Greenlaw algorithm, can be successfully applied. - - 5.3.9 The compressed data stream begins immediately after the - compressed Shannon-Fano data. The compressed data stream can be - interpreted as follows: - - loop until done - read 1 bit from input stream. - - if this bit is non-zero then (encoded data is literal data) - if Literal Shannon-Fano tree is present - read and decode character using Literal Shannon-Fano tree. - otherwise - read 8 bits from input stream. - copy character to the output stream. - otherwise (encoded data is sliding dictionary match) - if 8K dictionary size - read 7 bits for offset Distance (lower 7 bits of offset). - otherwise - read 6 bits for offset Distance (lower 6 bits of offset). - - using the Distance Shannon-Fano tree, read and decode the - upper 6 bits of the Distance value. - - using the Length Shannon-Fano tree, read and decode - the Length value. - - Length <- Length + Minimum Match Length - - if Length = 63 + Minimum Match Length - read 8 bits from the input stream, - add this value to Length. - - move backwards Distance+1 bytes in the output stream, and - copy Length characters from this position to the output - stream. (if this position is before the start of the output - stream, then assume that all the data before the start of - the output stream is filled with zeros). - end loop - -5.4 Tokenizing - Method 7 -------------------------- - - 5.4.1 This method is not used by PKZIP. - -5.5 Deflating - Method 8 ------------------------- - - 5.5.1 The Deflate algorithm is similar to the Implode algorithm using - a sliding dictionary of up to 32K with secondary compression - from Huffman/Shannon-Fano codes. - - 5.5.2 The compressed data is stored in blocks with a header describing - the block and the Huffman codes used in the data block. The header - format is as follows: - - Bit 0: Last Block bit This bit is set to 1 if this is the last - compressed block in the data. - Bits 1-2: Block type - 00 (0) - Block is stored - All stored data is byte aligned. - Skip bits until next byte, then next word = block - length, followed by the ones compliment of the block - length word. Remaining data in block is the stored - data. - - 01 (1) - Use fixed Huffman codes for literal and distance codes. - Lit Code Bits Dist Code Bits - --------- ---- --------- ---- - 0 - 143 8 0 - 31 5 - 144 - 255 9 - 256 - 279 7 - 280 - 287 8 - - Literal codes 286-287 and distance codes 30-31 are - never used but participate in the huffman construction. - - 10 (2) - Dynamic Huffman codes. (See expanding Huffman codes) - - 11 (3) - Reserved - Flag a "Error in compressed data" if seen. - - 5.5.3 Expanding Huffman Codes - - If the data block is stored with dynamic Huffman codes, the Huffman - codes are sent in the following compressed format: - - 5 Bits: # of Literal codes sent - 256 (256 - 286) - All other codes are never sent. - 5 Bits: # of Dist codes - 1 (1 - 32) - 4 Bits: # of Bit Length codes - 3 (3 - 19) - - The Huffman codes are sent as bit lengths and the codes are built as - described in the implode algorithm. The bit lengths themselves are - compressed with Huffman codes. There are 19 bit length codes: - - 0 - 15: Represent bit lengths of 0 - 15 - 16: Copy the previous bit length 3 - 6 times. - The next 2 bits indicate repeat length (0 = 3, ... ,3 = 6) - Example: Codes 8, 16 (+2 bits 11), 16 (+2 bits 10) will - expand to 12 bit lengths of 8 (1 + 6 + 5) - 17: Repeat a bit length of 0 for 3 - 10 times. (3 bits of length) - 18: Repeat a bit length of 0 for 11 - 138 times (7 bits of length) - - The lengths of the bit length codes are sent packed 3 bits per value - (0 - 7) in the following order: - - 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15 - - The Huffman codes should be built as described in the Implode algorithm - except codes are assigned starting at the shortest bit length, i.e. the - shortest code should be all 0's rather than all 1's. Also, codes with - a bit length of zero do not participate in the tree construction. The - codes are then used to decode the bit lengths for the literal and - distance tables. - - The bit lengths for the literal tables are sent first with the number - of entries sent described by the 5 bits sent earlier. There are up - to 286 literal characters; the first 256 represent the respective 8 - bit character, code 256 represents the End-Of-Block code, the remaining - 29 codes represent copy lengths of 3 thru 258. There are up to 30 - distance codes representing distances from 1 thru 32k as described - below. - - Length Codes - ------------ - Extra Extra Extra Extra - Code Bits Length Code Bits Lengths Code Bits Lengths Code Bits Length(s) - ---- ---- ------ ---- ---- ------- ---- ---- ------- ---- ---- --------- - 257 0 3 265 1 11,12 273 3 35-42 281 5 131-162 - 258 0 4 266 1 13,14 274 3 43-50 282 5 163-194 - 259 0 5 267 1 15,16 275 3 51-58 283 5 195-226 - 260 0 6 268 1 17,18 276 3 59-66 284 5 227-257 - 261 0 7 269 2 19-22 277 4 67-82 285 0 258 - 262 0 8 270 2 23-26 278 4 83-98 - 263 0 9 271 2 27-30 279 4 99-114 - 264 0 10 272 2 31-34 280 4 115-130 - - Distance Codes - -------------- - Extra Extra Extra Extra - Code Bits Dist Code Bits Dist Code Bits Distance Code Bits Distance - ---- ---- ---- ---- ---- ------ ---- ---- -------- ---- ---- -------- - 0 0 1 8 3 17-24 16 7 257-384 24 11 4097-6144 - 1 0 2 9 3 25-32 17 7 385-512 25 11 6145-8192 - 2 0 3 10 4 33-48 18 8 513-768 26 12 8193-12288 - 3 0 4 11 4 49-64 19 8 769-1024 27 12 12289-16384 - 4 1 5,6 12 5 65-96 20 9 1025-1536 28 13 16385-24576 - 5 1 7,8 13 5 97-128 21 9 1537-2048 29 13 24577-32768 - 6 2 9-12 14 6 129-192 22 10 2049-3072 - 7 2 13-16 15 6 193-256 23 10 3073-4096 - - 5.5.4 The compressed data stream begins immediately after the - compressed header data. The compressed data stream can be - interpreted as follows: - - do - read header from input stream. - - if stored block - skip bits until byte aligned - read count and 1's compliment of count - copy count bytes data block - otherwise - loop until end of block code sent - decode literal character from input stream - if literal < 256 - copy character to the output stream - otherwise - if literal = end of block - break from loop - otherwise - decode distance from input stream - - move backwards distance bytes in the output stream, and - copy length characters from this position to the output - stream. - end loop - while not last block - - if data descriptor exists - skip bits until byte aligned - read crc and sizes - endif - -5.6 Enhanced Deflating - Method 9 ---------------------------------- - - 5.6.1 The Enhanced Deflating algorithm is similar to Deflate but uses - a sliding dictionary of up to 64K. Deflate64(tm) is supported - by the Deflate extractor. - -5.7 BZIP2 - Method 12 ---------------------- - - 5.7.1 BZIP2 is an open-source data compression algorithm developed by - Julian Seward. Information and source code for this algorithm - can be found on the internet. - -5.8 LZMA - Method 14 ---------------------- - - 5.8.1 LZMA is a block-oriented, general purpose data compression - algorithm developed and maintained by Igor Pavlov. It is a derivative - of LZ77 that utilizes Markov chains and a range coder. Information and - source code for this algorithm can be found on the internet. Consult - with the author of this algorithm for information on terms or - restrictions on use. - - Support for LZMA within the ZIP format is defined as follows: - - 5.8.2 The Compression method field within the ZIP Local and Central - Header records will be set to the value 14 to indicate data was - compressed using LZMA. - - 5.8.3 The Version needed to extract field within the ZIP Local and - Central Header records will be set to 6.3 to indicate the minimum - ZIP format version supporting this feature. - - 5.8.4 File data compressed using the LZMA algorithm must be placed - immediately following the Local Header for the file. If a standard - ZIP encryption header is required, it will follow the Local Header - and will precede the LZMA compressed file data segment. The location - of LZMA compressed data segment within the ZIP format will be as shown: - - [local header file 1] - [encryption header file 1] - [LZMA compressed data segment for file 1] - [data descriptor 1] - [local header file 2] - - 5.8.5 The encryption header and data descriptor records may - be conditionally present. The LZMA Compressed Data Segment - will consist of an LZMA Properties Header followed by the - LZMA Compressed Data as shown: - - [LZMA properties header for file 1] - [LZMA compressed data for file 1] - - 5.8.6 The LZMA Compressed Data will be stored as provided by the - LZMA compression library. Compressed size, uncompressed size and - other file characteristics about the file being compressed must be - stored in standard ZIP storage format. - - 5.8.7 The LZMA Properties Header will store specific data required - to decompress the LZMA compressed Data. This data is set by the - LZMA compression engine using the function WriteCoderProperties() - as documented within the LZMA SDK. - - 5.8.8 Storage fields for the property information within the LZMA - Properties Header are as follows: - - LZMA Version Information 2 bytes - LZMA Properties Size 2 bytes - LZMA Properties Data variable, defined by "LZMA Properties Size" - - 5.8.8.1 LZMA Version Information - this field identifies which version - of the LZMA SDK was used to compress a file. The first byte will - store the major version number of the LZMA SDK and the second - byte will store the minor number. - - 5.8.8.2 LZMA Properties Size - this field defines the size of the - remaining property data. Typically this size should be determined by - the version of the SDK. This size field is included as a convenience - and to help avoid any ambiguity should it arise in the future due - to changes in this compression algorithm. - - 5.8.8.3 LZMA Property Data - this variable sized field records the - required values for the decompressor as defined by the LZMA SDK. - The data stored in this field should be obtained using the - WriteCoderProperties() in the version of the SDK defined by - the "LZMA Version Information" field. - - 5.8.8.4 The layout of the "LZMA Properties Data" field is a function of - the LZMA compression algorithm. It is possible that this layout may be - changed by the author over time. The data layout in version 4.3 of the - LZMA SDK defines a 5 byte array that uses 4 bytes to store the dictionary - size in little-endian order. This is preceded by a single packed byte as - the first element of the array that contains the following fields: - - PosStateBits - LiteralPosStateBits - LiteralContextBits - - Refer to the LZMA documentation for a more detailed explanation of - these fields. - - 5.8.9 Data compressed with method 14, LZMA, may include an end-of-stream - (EOS) marker ending the compressed data stream. This marker is not - required, but its use is highly recommended to facilitate processing - and implementers should include the EOS marker whenever possible. - When the EOS marker is used, general purpose bit 1 must be set. If - general purpose bit 1 is not set, the EOS marker is not present. - -5.9 WavPack - Method 97 ------------------------ - - 5.9.1 Information describing the use of compression method 97 is - provided by WinZIP International, LLC. This method relies on the - open source WavPack audio compression utility developed by David Bryant. - Information on WavPack is available at www.wavpack.com. Please consult - with the author of this algorithm for information on terms and - restrictions on use. - - 5.9.2 WavPack data for a file begins immediately after the end of the - local header data. This data is the output from WavPack compression - routines. Within the ZIP file, the use of WavPack compression is - indicated by setting the compression method field to a value of 97 - in both the local header and the central directory header. The Version - needed to extract and version made by fields use the same values as are - used for data compressed using the Deflate algorithm. - - 5.9.3 An implementation note for storing digital sample data when using - WavPack compression within ZIP files is that all of the bytes of - the sample data should be compressed. This includes any unused - bits up to the byte boundary. An example is a 2 byte sample that - uses only 12 bits for the sample data with 4 unused bits. If only - 12 bits are passed as the sample size to the WavPack routines, the 4 - unused bits will be set to 0 on extraction regardless of their original - state. To avoid this, the full 16 bits of the sample data size - should be provided. - -5.10 PPMd - Method 98 ---------------------- - - 5.10.1 PPMd is a data compression algorithm developed by Dmitry Shkarin - which includes a carryless rangecoder developed by Dmitry Subbotin. - This algorithm is based on predictive phrase matching on multiple - order contexts. Information and source code for this algorithm - can be found on the internet. Consult with the author of this - algorithm for information on terms or restrictions on use. - - 5.10.2 Support for PPMd within the ZIP format currently is provided only - for version I, revision 1 of the algorithm. Storage requirements - for using this algorithm are as follows: - - 5.10.3 Parameters needed to control the algorithm are stored in the two - bytes immediately preceding the compressed data. These bytes are - used to store the following fields: - - Model order - sets the maximum model order, default is 8, possible - values are from 2 to 16 inclusive - - Sub-allocator size - sets the size of sub-allocator in MB, default is 50, - possible values are from 1MB to 256MB inclusive - - Model restoration method - sets the method used to restart context - model at memory insufficiency, values are: - - 0 - restarts model from scratch - default - 1 - cut off model - decreases performance by as much as 2x - 2 - freeze context tree - not recommended - - 5.10.4 An example for packing these fields into the 2 byte storage field is - illustrated below. These values are stored in Intel low-byte/high-byte - order. - - wPPMd = (Model order - 1) + - ((Sub-allocator size - 1) << 4) + - (Model restoration method << 12) - - -6.0 Traditional PKWARE Encryption ----------------------------------- - - 6.0.1 The following information discusses the decryption steps - required to support traditional PKWARE encryption. This - form of encryption is considered weak by today's standards - and its use is recommended only for situations with - low security needs or for compatibility with older .ZIP - applications. - -6.1 Traditional PKWARE Decryption ---------------------------------- - - 6.1.1 PKWARE is grateful to Mr. Roger Schlafly for his expert - contribution towards the development of PKWARE's traditional - encryption. - - 6.1.2 PKZIP encrypts the compressed data stream. Encrypted files - must be decrypted before they can be extracted to their original - form. - - 6.1.3 Each encrypted file has an extra 12 bytes stored at the start - of the data area defining the encryption header for that file. The - encryption header is originally set to random values, and then - itself encrypted, using three, 32-bit keys. The key values are - initialized using the supplied encryption password. After each byte - is encrypted, the keys are then updated using pseudo-random number - generation techniques in combination with the same CRC-32 algorithm - used in PKZIP and described elsewhere in this document. - - 6.1.4 The following are the basic steps required to decrypt a file: - - 1) Initialize the three 32-bit keys with the password. - 2) Read and decrypt the 12-byte encryption header, further - initializing the encryption keys. - 3) Read and decrypt the compressed data stream using the - encryption keys. - - 6.1.5 Initializing the encryption keys - - Key(0) <- 305419896 - Key(1) <- 591751049 - Key(2) <- 878082192 - - loop for i <- 0 to length(password)-1 - update_keys(password(i)) - end loop - - Where update_keys() is defined as: - - update_keys(char): - Key(0) <- crc32(key(0),char) - Key(1) <- Key(1) + (Key(0) & 000000ffH) - Key(1) <- Key(1) * 134775813 + 1 - Key(2) <- crc32(key(2),key(1) >> 24) - end update_keys - - Where crc32(old_crc,char) is a routine that given a CRC value and a - character, returns an updated CRC value after applying the CRC-32 - algorithm described elsewhere in this document. - - 6.1.6 Decrypting the encryption header - - The purpose of this step is to further initialize the encryption - keys, based on random data, to render a plaintext attack on the - data ineffective. - - Read the 12-byte encryption header into Buffer, in locations - Buffer(0) thru Buffer(11). - - loop for i <- 0 to 11 - C <- buffer(i) ^ decrypt_byte() - update_keys(C) - buffer(i) <- C - end loop - - Where decrypt_byte() is defined as: - - unsigned char decrypt_byte() - local unsigned short temp - temp <- Key(2) | 2 - decrypt_byte <- (temp * (temp ^ 1)) >> 8 - end decrypt_byte - - After the header is decrypted, the last 1 or 2 bytes in Buffer - should be the high-order word/byte of the CRC for the file being - decrypted, stored in Intel low-byte/high-byte order. Versions of - PKZIP prior to 2.0 used a 2 byte CRC check; a 1 byte CRC check is - used on versions after 2.0. This can be used to test if the password - supplied is correct or not. - - 6.1.7 Decrypting the compressed data stream - - The compressed data stream can be decrypted as follows: - - loop until done - read a character into C - Temp <- C ^ decrypt_byte() - update_keys(temp) - output Temp - end loop - - -7.0 Strong Encryption Specification ------------------------------------ - - 7.0.1 Portions of the Strong Encryption technology defined in this - specification are covered under patents and pending patent applications. - Refer to the section in this document entitled "Incorporating - PKWARE Proprietary Technology into Your Product" for more information. - -7.1 Strong Encryption Overview ------------------------------- - - 7.1.1 Version 5.x of this specification introduced support for strong - encryption algorithms. These algorithms can be used with either - a password or an X.509v3 digital certificate to encrypt each file. - This format specification supports either password or certificate - based encryption to meet the security needs of today, to enable - interoperability between users within both PKI and non-PKI - environments, and to ensure interoperability between different - computing platforms that are running a ZIP program. - - 7.1.2 Password based encryption is the most common form of encryption - people are familiar with. However, inherent weaknesses with - passwords (e.g. susceptibility to dictionary/brute force attack) - as well as password management and support issues make certificate - based encryption a more secure and scalable option. Industry - efforts and support are defining and moving towards more advanced - security solutions built around X.509v3 digital certificates and - Public Key Infrastructures(PKI) because of the greater scalability, - administrative options, and more robust security over traditional - password based encryption. - - 7.1.3 Most standard encryption algorithms are supported with this - specification. Reference implementations for many of these - algorithms are available from either commercial or open source - distributors. Readily available cryptographic toolkits make - implementation of the encryption features straight-forward. - This document is not intended to provide a treatise on data - encryption principles or theory. Its purpose is to document the - data structures required for implementing interoperable data - encryption within the .ZIP format. It is strongly recommended that - you have a good understanding of data encryption before reading - further. - - 7.1.4 The algorithms introduced in Version 5.0 of this specification - include: - - RC2 40 bit, 64 bit, and 128 bit - RC4 40 bit, 64 bit, and 128 bit - DES - 3DES 112 bit and 168 bit - - Version 5.1 adds support for the following: - - AES 128 bit, 192 bit, and 256 bit - - - 7.1.5 Version 6.1 introduces encryption data changes to support - interoperability with Smartcard and USB Token certificate storage - methods which do not support the OAEP strengthening standard. - - 7.1.6 Version 6.2 introduces support for encrypting metadata by compressing - and encrypting the central directory data structure to reduce information - leakage. Information leakage can occur in legacy ZIP applications - through exposure of information about a file even though that file is - stored encrypted. The information exposed consists of file - characteristics stored within the records and fields defined by this - specification. This includes data such as a file's name, its original - size, timestamp and CRC32 value. - - 7.1.7 Version 6.3 introduces support for encrypting data using the Blowfish - and Twofish algorithms. These are symmetric block ciphers developed - by Bruce Schneier. Blowfish supports using a variable length key from - 32 to 448 bits. Block size is 64 bits. Implementations should use 16 - rounds and the only mode supported within ZIP files is CBC. Twofish - supports key sizes 128, 192 and 256 bits. Block size is 128 bits. - Implementations should use 16 rounds and the only mode supported within - ZIP files is CBC. Information and source code for both Blowfish and - Twofish algorithms can be found on the internet. Consult with the author - of these algorithms for information on terms or restrictions on use. - - 7.1.8 Central Directory Encryption provides greater protection against - information leakage by encrypting the Central Directory structure and - by masking key values that are replicated in the unencrypted Local - Header. ZIP compatible programs that cannot interpret an encrypted - Central Directory structure cannot rely on the data in the corresponding - Local Header for decompression information. - - 7.1.9 Extra Field records that may contain information about a file that should - not be exposed should not be stored in the Local Header and should only - be written to the Central Directory where they can be encrypted. This - design currently does not support streaming. Information in the End of - Central Directory record, the Zip64 End of Central Directory Locator, - and the Zip64 End of Central Directory records are not encrypted. Access - to view data on files within a ZIP file with an encrypted Central Directory - requires the appropriate password or private key for decryption prior to - viewing any files, or any information about the files, in the archive. - - 7.1.10 Older ZIP compatible programs not familiar with the Central Directory - Encryption feature will no longer be able to recognize the Central - Directory and may assume the ZIP file is corrupt. Programs that - attempt streaming access using Local Headers will see invalid - information for each file. Central Directory Encryption need not be - used for every ZIP file. Its use is recommended for greater security. - ZIP files not using Central Directory Encryption should operate as - in the past. - - 7.1.11 This strong encryption feature specification is intended to provide for - scalable, cross-platform encryption needs ranging from simple password - encryption to authenticated public/private key encryption. - - 7.1.12 Encryption provides data confidentiality and privacy. It is - recommended that you combine X.509 digital signing with encryption - to add authentication and non-repudiation. - - -7.2 Single Password Symmetric Encryption Method ------------------------------------------------ - - 7.2.1 The Single Password Symmetric Encryption Method using strong - encryption algorithms operates similarly to the traditional - PKWARE encryption defined in this format. Additional data - structures are added to support the processing needs of the - strong algorithms. - - The Strong Encryption data structures are: - - 7.2.2 General Purpose Bits - Bits 0 and 6 of the General Purpose bit - flag in both local and central header records. Both bits set - indicates strong encryption. Bit 13, when set indicates the Central - Directory is encrypted and that selected fields in the Local Header - are masked to hide their actual value. - - - 7.2.3 Extra Field 0x0017 in central header only. - - Fields to consider in this record are: - - 7.2.3.1 Format - the data format identifier for this record. The only - value allowed at this time is the integer value 2. - - 7.2.3.2 AlgId - integer identifier of the encryption algorithm from the - following range - - 0x6601 - DES - 0x6602 - RC2 (version needed to extract < 5.2) - 0x6603 - 3DES 168 - 0x6609 - 3DES 112 - 0x660E - AES 128 - 0x660F - AES 192 - 0x6610 - AES 256 - 0x6702 - RC2 (version needed to extract >= 5.2) - 0x6720 - Blowfish - 0x6721 - Twofish - 0x6801 - RC4 - 0xFFFF - Unknown algorithm - - 7.2.3.3 Bitlen - Explicit bit length of key - - 32 - 448 bits - - 7.2.3.4 Flags - Processing flags needed for decryption - - 0x0001 - Password is required to decrypt - 0x0002 - Certificates only - 0x0003 - Password or certificate required to decrypt - - Values > 0x0003 reserved for certificate processing - - - 7.2.4 Decryption header record preceding compressed file data. - - -Decryption Header: - - Value Size Description - ----- ---- ----------- - IVSize 2 bytes Size of initialization vector (IV) - IVData IVSize Initialization vector for this file - Size 4 bytes Size of remaining decryption header data - Format 2 bytes Format definition for this record - AlgID 2 bytes Encryption algorithm identifier - Bitlen 2 bytes Bit length of encryption key - Flags 2 bytes Processing flags - ErdSize 2 bytes Size of Encrypted Random Data - ErdData ErdSize Encrypted Random Data - Reserved1 4 bytes Reserved certificate processing data - Reserved2 (var) Reserved for certificate processing data - VSize 2 bytes Size of password validation data - VData VSize-4 Password validation data - VCRC32 4 bytes Standard ZIP CRC32 of password validation data - - 7.2.4.1 IVData - The size of the IV should match the algorithm block size. - The IVData can be completely random data. If the size of - the randomly generated data does not match the block size - it should be complemented with zero's or truncated as - necessary. If IVSize is 0,then IV = CRC32 + Uncompressed - File Size (as a 64 bit little-endian, unsigned integer value). - - 7.2.4.2 Format - the data format identifier for this record. The only - value allowed at this time is the integer value 3. - - 7.2.4.3 AlgId - integer identifier of the encryption algorithm from the - following range - - 0x6601 - DES - 0x6602 - RC2 (version needed to extract < 5.2) - 0x6603 - 3DES 168 - 0x6609 - 3DES 112 - 0x660E - AES 128 - 0x660F - AES 192 - 0x6610 - AES 256 - 0x6702 - RC2 (version needed to extract >= 5.2) - 0x6720 - Blowfish - 0x6721 - Twofish - 0x6801 - RC4 - 0xFFFF - Unknown algorithm - - 7.2.4.4 Bitlen - Explicit bit length of key - - 32 - 448 bits - - 7.2.4.5 Flags - Processing flags needed for decryption - - 0x0001 - Password is required to decrypt - 0x0002 - Certificates only - 0x0003 - Password or certificate required to decrypt - - Values > 0x0003 reserved for certificate processing - - 7.2.4.6 ErdData - Encrypted random data is used to store random data that - is used to generate a file session key for encrypting - each file. SHA1 is used to calculate hash data used to - derive keys. File session keys are derived from a master - session key generated from the user-supplied password. - If the Flags field in the decryption header contains - the value 0x4000, then the ErdData field must be - decrypted using 3DES. If the value 0x4000 is not set, - then the ErdData field must be decrypted using AlgId. - - - 7.2.4.7 Reserved1 - Reserved for certificate processing, if value is - zero, then Reserved2 data is absent. See the explanation - under the Certificate Processing Method for details on - this data structure. - - 7.2.4.8 Reserved2 - If present, the size of the Reserved2 data structure - is located by skipping the first 4 bytes of this field - and using the next 2 bytes as the remaining size. See - the explanation under the Certificate Processing Method - for details on this data structure. - - 7.2.4.9 VSize - This size value will always include the 4 bytes of the - VCRC32 data and will be greater than 4 bytes. - - 7.2.4.10 VData - Random data for password validation. This data is VSize - in length and VSize must be a multiple of the encryption - block size. VCRC32 is a checksum value of VData. - VData and VCRC32 are stored encrypted and start the - stream of encrypted data for a file. - - - 7.2.5 Useful Tips - - 7.2.5.1 Strong Encryption is always applied to a file after compression. The - block oriented algorithms all operate in Cypher Block Chaining (CBC) - mode. The block size used for AES encryption is 16. All other block - algorithms use a block size of 8. Two IDs are defined for RC2 to - account for a discrepancy found in the implementation of the RC2 - algorithm in the cryptographic library on Windows XP SP1 and all - earlier versions of Windows. It is recommended that zero length files - not be encrypted, however programs should be prepared to extract them - if they are found within a ZIP file. - - 7.2.5.2 A pseudo-code representation of the encryption process is as follows: - - Password = GetUserPassword() - MasterSessionKey = DeriveKey(SHA1(Password)) - RD = CryptographicStrengthRandomData() - For Each File - IV = CryptographicStrengthRandomData() - VData = CryptographicStrengthRandomData() - VCRC32 = CRC32(VData) - FileSessionKey = DeriveKey(SHA1(IV + RD) - ErdData = Encrypt(RD,MasterSessionKey,IV) - Encrypt(VData + VCRC32 + FileData, FileSessionKey,IV) - Done - - 7.2.5.3 The function names and parameter requirements will depend on - the choice of the cryptographic toolkit selected. Almost any - toolkit supporting the reference implementations for each - algorithm can be used. The RSA BSAFE(r), OpenSSL, and Microsoft - CryptoAPI libraries are all known to work well. - - - 7.3 Single Password - Central Directory Encryption - -------------------------------------------------- - - 7.3.1 Central Directory Encryption is achieved within the .ZIP format by - encrypting the Central Directory structure. This encapsulates the metadata - most often used for processing .ZIP files. Additional metadata is stored for - redundancy in the Local Header for each file. The process of concealing - metadata by encrypting the Central Directory does not protect the data within - the Local Header. To avoid information leakage from the exposed metadata - in the Local Header, the fields containing information about a file are masked. - - 7.3.2 Local Header - - Masking replaces the true content of the fields for a file in the Local - Header with false information. When masked, the Local Header is not - suitable for streaming access and the options for data recovery of damaged - archives is reduced. Extra Data fields that may contain confidential - data should not be stored within the Local Header. The value set into - the Version needed to extract field should be the correct value needed to - extract the file without regard to Central Directory Encryption. The fields - within the Local Header targeted for masking when the Central Directory is - encrypted are: - - Field Name Mask Value - ------------------ --------------------------- - compression method 0 - last mod file time 0 - last mod file date 0 - crc-32 0 - compressed size 0 - uncompressed size 0 - file name (variable size) Base 16 value from the - range 1 - 0xFFFFFFFFFFFFFFFF - represented as a string whose - size will be set into the - file name length field - - The Base 16 value assigned as a masked file name is simply a sequentially - incremented value for each file starting with 1 for the first file. - Modifications to a ZIP file may cause different values to be stored for - each file. For compatibility, the file name field in the Local Header - should never be left blank. As of Version 6.2 of this specification, - the Compression Method and Compressed Size fields are not yet masked. - Fields having a value of 0xFFFF or 0xFFFFFFFF for the ZIP64 format - should not be masked. - - 7.3.3 Encrypting the Central Directory - - Encryption of the Central Directory does not include encryption of the - Central Directory Signature data, the Zip64 End of Central Directory - record, the Zip64 End of Central Directory Locator, or the End - of Central Directory record. The ZIP file comment data is never - encrypted. - - Before encrypting the Central Directory, it may optionally be compressed. - Compression is not required, but for storage efficiency it is assumed - this structure will be compressed before encrypting. Similarly, this - specification supports compressing the Central Directory without - requiring that it also be encrypted. Early implementations of this - feature will assume the encryption method applied to files matches the - encryption applied to the Central Directory. - - Encryption of the Central Directory is done in a manner similar to - that of file encryption. The encrypted data is preceded by a - decryption header. The decryption header is known as the Archive - Decryption Header. The fields of this record are identical to - the decryption header preceding each encrypted file. The location - of the Archive Decryption Header is determined by the value in the - Start of the Central Directory field in the Zip64 End of Central - Directory record. When the Central Directory is encrypted, the - Zip64 End of Central Directory record will always be present. - - The layout of the Zip64 End of Central Directory record for all - versions starting with 6.2 of this specification will follow the - Version 2 format. The Version 2 format is as follows: - - The leading fixed size fields within the Version 1 format for this - record remain unchanged. The record signature for both Version 1 - and Version 2 will be 0x06064b50. Immediately following the last - byte of the field known as the Offset of Start of Central - Directory With Respect to the Starting Disk Number will begin the - new fields defining Version 2 of this record. - - 7.3.4 New fields for Version 2 - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - Compression Method 2 bytes Method used to compress the - Central Directory - Compressed Size 8 bytes Size of the compressed data - Original Size 8 bytes Original uncompressed size - AlgId 2 bytes Encryption algorithm ID - BitLen 2 bytes Encryption key length - Flags 2 bytes Encryption flags - HashID 2 bytes Hash algorithm identifier - Hash Length 2 bytes Length of hash data - Hash Data (variable) Hash data - - The Compression Method accepts the same range of values as the - corresponding field in the Central Header. - - The Compressed Size and Original Size values will not include the - data of the Central Directory Signature which is compressed or - encrypted. - - The AlgId, BitLen, and Flags fields accept the same range of values - the corresponding fields within the 0x0017 record. - - Hash ID identifies the algorithm used to hash the Central Directory - data. This data does not have to be hashed, in which case the - values for both the HashID and Hash Length will be 0. Possible - values for HashID are: - - Value Algorithm - ------ --------- - 0x0000 none - 0x0001 CRC32 - 0x8003 MD5 - 0x8004 SHA1 - 0x8007 RIPEMD160 - 0x800C SHA256 - 0x800D SHA384 - 0x800E SHA512 - - 7.3.5 When the Central Directory data is signed, the same hash algorithm - used to hash the Central Directory for signing should be used. - This is recommended for processing efficiency, however, it is - permissible for any of the above algorithms to be used independent - of the signing process. - - The Hash Data will contain the hash data for the Central Directory. - The length of this data will vary depending on the algorithm used. - - The Version Needed to Extract should be set to 62. - - The value for the Total Number of Entries on the Current Disk will - be 0. These records will no longer support random access when - encrypting the Central Directory. - - 7.3.6 When the Central Directory is compressed and/or encrypted, the - End of Central Directory record will store the value 0xFFFFFFFF - as the value for the Total Number of Entries in the Central - Directory. The value stored in the Total Number of Entries in - the Central Directory on this Disk field will be 0. The actual - values will be stored in the equivalent fields of the Zip64 - End of Central Directory record. - - 7.3.7 Decrypting and decompressing the Central Directory is accomplished - in the same manner as decrypting and decompressing a file. - - 7.4 Certificate Processing Method - --------------------------------- - - The Certificate Processing Method for ZIP file encryption - defines the following additional data fields: - - 7.4.1 Certificate Flag Values - - Additional processing flags that can be present in the Flags field of both - the 0x0017 field of the central directory Extra Field and the Decryption - header record preceding compressed file data are: - - 0x0007 - reserved for future use - 0x000F - reserved for future use - 0x0100 - Indicates non-OAEP key wrapping was used. If this - this field is set, the version needed to extract must - be at least 61. This means OAEP key wrapping is not - used when generating a Master Session Key using - ErdData. - 0x4000 - ErdData must be decrypted using 3DES-168, otherwise use the - same algorithm used for encrypting the file contents. - 0x8000 - reserved for future use - - - 7.4.2 CertData - Extra Field 0x0017 record certificate data structure - - The data structure used to store certificate data within the section - of the Extra Field defined by the CertData field of the 0x0017 - record are as shown: - - Value Size Description - ----- ---- ----------- - RCount 4 bytes Number of recipients. - HashAlg 2 bytes Hash algorithm identifier - HSize 2 bytes Hash size - SRList (var) Simple list of recipients hashed public keys - - - RCount This defines the number intended recipients whose - public keys were used for encryption. This identifies - the number of elements in the SRList. - - HashAlg This defines the hash algorithm used to calculate - the public key hash of each public key used - for encryption. This field currently supports - only the following value for SHA-1 - - 0x8004 - SHA1 - - HSize This defines the size of a hashed public key. - - SRList This is a variable length list of the hashed - public keys for each intended recipient. Each - element in this list is HSize. The total size of - SRList is determined using RCount * HSize. - - - 7.4.3 Reserved1 - Certificate Decryption Header Reserved1 Data - - Value Size Description - ----- ---- ----------- - RCount 4 bytes Number of recipients. - - RCount This defines the number intended recipients whose - public keys were used for encryption. This defines - the number of elements in the REList field defined below. - - - 7.4.4 Reserved2 - Certificate Decryption Header Reserved2 Data Structures - - - Value Size Description - ----- ---- ----------- - HashAlg 2 bytes Hash algorithm identifier - HSize 2 bytes Hash size - REList (var) List of recipient data elements - - - HashAlg This defines the hash algorithm used to calculate - the public key hash of each public key used - for encryption. This field currently supports - only the following value for SHA-1 - - 0x8004 - SHA1 - - HSize This defines the size of a hashed public key - defined in REHData. - - REList This is a variable length of list of recipient data. - Each element in this list consists of a Recipient - Element data structure as follows: - - - Recipient Element (REList) Data Structure: - - Value Size Description - ----- ---- ----------- - RESize 2 bytes Size of REHData + REKData - REHData HSize Hash of recipients public key - REKData (var) Simple key blob - - - RESize This defines the size of an individual REList - element. This value is the combined size of the - REHData field + REKData field. REHData is defined by - HSize. REKData is variable and can be calculated - for each REList element using RESize and HSize. - - REHData Hashed public key for this recipient. - - REKData Simple Key Blob. The format of this data structure - is identical to that defined in the Microsoft - CryptoAPI and generated using the CryptExportKey() - function. The version of the Simple Key Blob - supported at this time is 0x02 as defined by - Microsoft. - -7.5 Certificate Processing - Central Directory Encryption ---------------------------------------------------------- - - 7.5.1 Central Directory Encryption using Digital Certificates will - operate in a manner similar to that of Single Password Central - Directory Encryption. This record will only be present when there - is data to place into it. Currently, data is placed into this - record when digital certificates are used for either encrypting - or signing the files within a ZIP file. When only password - encryption is used with no certificate encryption or digital - signing, this record is not currently needed. When present, this - record will appear before the start of the actual Central Directory - data structure and will be located immediately after the Archive - Decryption Header if the Central Directory is encrypted. - - 7.5.2 The Archive Extra Data record will be used to store the following - information. Additional data may be added in future versions. - - Extra Data Fields: - - 0x0014 - PKCS#7 Store for X.509 Certificates - 0x0016 - X.509 Certificate ID and Signature for central directory - 0x0019 - PKCS#7 Encryption Recipient Certificate List - - The 0x0014 and 0x0016 Extra Data records that otherwise would be - located in the first record of the Central Directory for digital - certificate processing. When encrypting or compressing the Central - Directory, the 0x0014 and 0x0016 records must be located in the - Archive Extra Data record and they should not remain in the first - Central Directory record. The Archive Extra Data record will also - be used to store the 0x0019 data. - - 7.5.3 When present, the size of the Archive Extra Data record will be - included in the size of the Central Directory. The data of the - Archive Extra Data record will also be compressed and encrypted - along with the Central Directory data structure. - -7.6 Certificate Processing Differences --------------------------------------- - - 7.6.1 The Certificate Processing Method of encryption differs from the - Single Password Symmetric Encryption Method as follows. Instead - of using a user-defined password to generate a master session key, - cryptographically random data is used. The key material is then - wrapped using standard key-wrapping techniques. This key material - is wrapped using the public key of each recipient that will need - to decrypt the file using their corresponding private key. - - 7.6.2 This specification currently assumes digital certificates will follow - the X.509 V3 format for 1024 bit and higher RSA format digital - certificates. Implementation of this Certificate Processing Method - requires supporting logic for key access and management. This logic - is outside the scope of this specification. - -7.7 OAEP Processing with Certificate-based Encryption ------------------------------------------------------ - - 7.7.1 OAEP stands for Optimal Asymmetric Encryption Padding. It is a - strengthening technique used for small encoded items such as decryption - keys. This is commonly applied in cryptographic key-wrapping techniques - and is supported by PKCS #1. Versions 5.0 and 6.0 of this specification - were designed to support OAEP key-wrapping for certificate-based - decryption keys for additional security. - - 7.7.2 Support for private keys stored on Smartcards or Tokens introduced - a conflict with this OAEP logic. Most card and token products do - not support the additional strengthening applied to OAEP key-wrapped - data. In order to resolve this conflict, versions 6.1 and above of this - specification will no longer support OAEP when encrypting using - digital certificates. - - 7.7.3 Versions of PKZIP available during initial development of the - certificate processing method set a value of 61 into the - version needed to extract field for a file. This indicates that - non-OAEP key wrapping is used. This affects certificate encryption - only, and password encryption functions should not be affected by - this value. This means values of 61 may be found on files encrypted - with certificates only, or on files encrypted with both password - encryption and certificate encryption. Files encrypted with both - methods can safely be decrypted using the password methods documented. - -8.0 Splitting and Spanning ZIP files -------------------------------------- - - 8.1 Spanned ZIP files - - 8.1.1 Spanning is the process of segmenting a ZIP file across - multiple removable media. This support has typically only - been provided for DOS formatted floppy diskettes. - - 8.2 Split ZIP files - - 8.2.1 File splitting is a newer derivation of spanning. - Splitting follows the same segmentation process as - spanning, however, it does not require writing each - segment to a unique removable medium and instead supports - placing all pieces onto local or non-removable locations - such as file systems, local drives, folders, etc. - - 8.3 File Naming Differences - - 8.3.1 A key difference between spanned and split ZIP files is - that all pieces of a spanned ZIP file have the same name. - Since each piece is written to a separate volume, no name - collisions occur and each segment can reuse the original - .ZIP file name given to the archive. - - 8.3.2 Sequence ordering for DOS spanned archives uses the DOS - volume label to determine segment numbers. Volume labels - for each segment are written using the form PKBACK#xxx, - where xxx is the segment number written as a decimal - value from 001 - nnn. - - 8.3.3 Split ZIP files are typically written to the same location - and are subject to name collisions if the spanned name - format is used since each segment will reside on the same - drive. To avoid name collisions, split archives are named - as follows. - - Segment 1 = filename.z01 - Segment n-1 = filename.z(n-1) - Segment n = filename.zip - - 8.3.4 The .ZIP extension is used on the last segment to support - quickly reading the central directory. The segment number - n should be a decimal value. - - 8.4 Spanned Self-extracting ZIP Files - - 8.4.1 Spanned ZIP files may be PKSFX Self-extracting ZIP files. - PKSFX files may also be split, however, in this case - the first segment must be named filename.exe. The first - segment of a split PKSFX archive must be large enough to - include the entire executable program. - - 8.5 Capacities and Markers - - 8.5.1 Capacities for split archives are as follows: - - Maximum number of segments = 4,294,967,295 - 1 - Maximum .ZIP segment size = 4,294,967,295 bytes - Minimum segment size = 64K - Maximum PKSFX segment size = 2,147,483,647 bytes - - 8.5.2 Segment sizes may be different however by convention, all - segment sizes should be the same with the exception of the - last, which may be smaller. Local and central directory - header records must never be split across a segment boundary. - When writing a header record, if the number of bytes remaining - within a segment is less than the size of the header record, - end the current segment and write the header at the start - of the next segment. The central directory may span segment - boundaries, but no single record in the central directory - should be split across segments. - - 8.5.3 Spanned/Split archives created using PKZIP for Windows - (V2.50 or greater), PKZIP Command Line (V2.50 or greater), - or PKZIP Explorer will include a special spanning - signature as the first 4 bytes of the first segment of - the archive. This signature (0x08074b50) will be - followed immediately by the local header signature for - the first file in the archive. - - 8.5.4 A special spanning marker may also appear in spanned/split - archives if the spanning or splitting process starts but - only requires one segment. In this case the 0x08074b50 - signature will be replaced with the temporary spanning - marker signature of 0x30304b50. Split archives can - only be uncompressed by other versions of PKZIP that - know how to create a split archive. - - 8.5.5 The signature value 0x08074b50 is also used by some - ZIP implementations as a marker for the Data Descriptor - record. Conflict in this alternate assignment can be - avoided by ensuring the position of the signature - within the ZIP file to determine the use for which it - is intended. - -9.0 Change Process ------------------- - - 9.1 In order for the .ZIP file format to remain a viable technology, this - specification should be considered as open for periodic review and - revision. Although this format was originally designed with a - certain level of extensibility, not all changes in technology - (present or future) were or will be necessarily considered in its - design. - - 9.2 If your application requires new definitions to the - extensible sections in this format, or if you would like to - submit new data structures or new capabilities, please forward - your request to zipformat@pkware.com. All submissions will be - reviewed by the ZIP File Specification Committee for possible - inclusion into future versions of this specification. - - 9.3 Periodic revisions to this specification will be published as - DRAFT or as FINAL status to ensure interoperability. We encourage - comments and feedback that may help improve clarity or content. - - -10.0 Incorporating PKWARE Proprietary Technology into Your Product ------------------------------------------------------------------- - - 10.1 The Use or Implementation in a product of APPNOTE technological - components pertaining to either strong encryption or patching requires - a separate, executed license agreement from PKWARE. Please contact - PKWARE at zipformat@pkware.com or +1-414-289-9788 with regard to - acquiring such a license. - - 10.2 Additional information regarding PKWARE proprietray technology is - available at http://www.pkware.com/appnote. - -11.0 Acknowledgements ---------------------- - - In addition to the above mentioned contributors to PKZIP and PKUNZIP, - PKWARE would like to extend special thanks to Robert Mahoney for - suggesting the extension .ZIP for this software. - -12.0 References ---------------- - - Fiala, Edward R., and Greene, Daniel H., "Data compression with - finite windows", Communications of the ACM, Volume 32, Number 4, - April 1989, pages 490-505. - - Held, Gilbert, "Data Compression, Techniques and Applications, - Hardware and Software Considerations", John Wiley & Sons, 1987. - - Huffman, D.A., "A method for the construction of minimum-redundancy - codes", Proceedings of the IRE, Volume 40, Number 9, September 1952, - pages 1098-1101. - - Nelson, Mark, "LZW Data Compression", Dr. Dobbs Journal, Volume 14, - Number 10, October 1989, pages 29-37. - - Nelson, Mark, "The Data Compression Book", M&T Books, 1991. - - Storer, James A., "Data Compression, Methods and Theory", - Computer Science Press, 1988 - - Welch, Terry, "A Technique for High-Performance Data Compression", - IEEE Computer, Volume 17, Number 6, June 1984, pages 8-19. - - Ziv, J. and Lempel, A., "A universal algorithm for sequential data - compression", Communications of the ACM, Volume 30, Number 6, - June 1987, pages 520-540. - - Ziv, J. and Lempel, A., "Compression of individual sequences via - variable-rate coding", IEEE Transactions on Information Theory, - Volume 24, Number 5, September 1978, pages 530-536. - - -APPENDIX A - AS/400 Extra Field (0x0065) Attribute Definitions --------------------------------------------------------------- - -A.1 Field Definition Structure: - - a. field length including length 2 bytes - b. field code 2 bytes - c. data x bytes - -A.2 Field Code Description - - 4001 Source type i.e. CLP etc - 4002 The text description of the library - 4003 The text description of the file - 4004 The text description of the member - 4005 x'F0' or 0 is PF-DTA, x'F1' or 1 is PF_SRC - 4007 Database Type Code 1 byte - 4008 Database file and fields definition - 4009 GZIP file type 2 bytes - 400B IFS code page 2 bytes - 400C IFS Creation Time 4 bytes - 400D IFS Access Time 4 bytes - 400E IFS Modification time 4 bytes - 005C Length of the records in the file 2 bytes - 0068 GZIP two words 8 bytes - -APPENDIX B - z/OS Extra Field (0x0065) Attribute Definitions ------------------------------------------------------------- - -B.1 Field Definition Structure: - - a. field length including length 2 bytes - b. field code 2 bytes - c. data x bytes - -B.2 Field Code Description - - 0001 File Type 2 bytes - 0002 NonVSAM Record Format 1 byte - 0003 Reserved - 0004 NonVSAM Block Size 2 bytes Big Endian - 0005 Primary Space Allocation 3 bytes Big Endian - 0006 Secondary Space Allocation 3 bytes Big Endian - 0007 Space Allocation Type1 byte flag - 0008 Modification Date Retired with PKZIP 5.0 + - 0009 Expiration Date Retired with PKZIP 5.0 + - 000A PDS Directory Block Allocation 3 bytes Big Endian binary value - 000B NonVSAM Volume List variable - 000C UNIT Reference Retired with PKZIP 5.0 + - 000D DF/SMS Management Class 8 bytes EBCDIC Text Value - 000E DF/SMS Storage Class 8 bytes EBCDIC Text Value - 000F DF/SMS Data Class 8 bytes EBCDIC Text Value - 0010 PDS/PDSE Member Info. 30 bytes - 0011 VSAM sub-filetype 2 bytes - 0012 VSAM LRECL 13 bytes EBCDIC "(num_avg num_max)" - 0013 VSAM Cluster Name Retired with PKZIP 5.0 + - 0014 VSAM KSDS Key Information 13 bytes EBCDIC "(num_length num_position)" - 0015 VSAM Average LRECL 5 bytes EBCDIC num_value padded with blanks - 0016 VSAM Maximum LRECL 5 bytes EBCDIC num_value padded with blanks - 0017 VSAM KSDS Key Length 5 bytes EBCDIC num_value padded with blanks - 0018 VSAM KSDS Key Position 5 bytes EBCDIC num_value padded with blanks - 0019 VSAM Data Name 1-44 bytes EBCDIC text string - 001A VSAM KSDS Index Name 1-44 bytes EBCDIC text string - 001B VSAM Catalog Name 1-44 bytes EBCDIC text string - 001C VSAM Data Space Type 9 bytes EBCDIC text string - 001D VSAM Data Space Primary 9 bytes EBCDIC num_value left-justified - 001E VSAM Data Space Secondary 9 bytes EBCDIC num_value left-justified - 001F VSAM Data Volume List variable EBCDIC text list of 6-character Volume IDs - 0020 VSAM Data Buffer Space 8 bytes EBCDIC num_value left-justified - 0021 VSAM Data CISIZE 5 bytes EBCDIC num_value left-justified - 0022 VSAM Erase Flag 1 byte flag - 0023 VSAM Free CI % 3 bytes EBCDIC num_value left-justified - 0024 VSAM Free CA % 3 bytes EBCDIC num_value left-justified - 0025 VSAM Index Volume List variable EBCDIC text list of 6-character Volume IDs - 0026 VSAM Ordered Flag 1 byte flag - 0027 VSAM REUSE Flag 1 byte flag - 0028 VSAM SPANNED Flag 1 byte flag - 0029 VSAM Recovery Flag 1 byte flag - 002A VSAM WRITECHK Flag 1 byte flag - 002B VSAM Cluster/Data SHROPTS 3 bytes EBCDIC "n,y" - 002C VSAM Index SHROPTS 3 bytes EBCDIC "n,y" - 002D VSAM Index Space Type 9 bytes EBCDIC text string - 002E VSAM Index Space Primary 9 bytes EBCDIC num_value left-justified - 002F VSAM Index Space Secondary 9 bytes EBCDIC num_value left-justified - 0030 VSAM Index CISIZE 5 bytes EBCDIC num_value left-justified - 0031 VSAM Index IMBED 1 byte flag - 0032 VSAM Index Ordered Flag 1 byte flag - 0033 VSAM REPLICATE Flag 1 byte flag - 0034 VSAM Index REUSE Flag 1 byte flag - 0035 VSAM Index WRITECHK Flag 1 byte flag Retired with PKZIP 5.0 + - 0036 VSAM Owner 8 bytes EBCDIC text string - 0037 VSAM Index Owner 8 bytes EBCDIC text string - 0038 Reserved - 0039 Reserved - 003A Reserved - 003B Reserved - 003C Reserved - 003D Reserved - 003E Reserved - 003F Reserved - 0040 Reserved - 0041 Reserved - 0042 Reserved - 0043 Reserved - 0044 Reserved - 0045 Reserved - 0046 Reserved - 0047 Reserved - 0048 Reserved - 0049 Reserved - 004A Reserved - 004B Reserved - 004C Reserved - 004D Reserved - 004E Reserved - 004F Reserved - 0050 Reserved - 0051 Reserved - 0052 Reserved - 0053 Reserved - 0054 Reserved - 0055 Reserved - 0056 Reserved - 0057 Reserved - 0058 PDS/PDSE Member TTR Info. 6 bytes Big Endian - 0059 PDS 1st LMOD Text TTR 3 bytes Big Endian - 005A PDS LMOD EP Rec # 4 bytes Big Endian - 005B Reserved - 005C Max Length of records 2 bytes Big Endian - 005D PDSE Flag 1 byte flag - 005E Reserved - 005F Reserved - 0060 Reserved - 0061 Reserved - 0062 Reserved - 0063 Reserved - 0064 Reserved - 0065 Last Date Referenced 4 bytes Packed Hex "yyyymmdd" - 0066 Date Created 4 bytes Packed Hex "yyyymmdd" - 0068 GZIP two words 8 bytes - 0071 Extended NOTE Location 12 bytes Big Endian - 0072 Archive device UNIT 6 bytes EBCDIC - 0073 Archive 1st Volume 6 bytes EBCDIC - 0074 Archive 1st VOL File Seq# 2 bytes Binary - -APPENDIX C - Zip64 Extensible Data Sector Mappings ---------------------------------------------------- - - -Z390 Extra Field: - - The following is the general layout of the attributes for the - ZIP 64 "extra" block for extended tape operations. - - Note: some fields stored in Big Endian format. All text is - in EBCDIC format unless otherwise specified. - - Value Size Description - ----- ---- ----------- - (Z390) 0x0065 2 bytes Tag for this "extra" block type - Size 4 bytes Size for the following data block - Tag 4 bytes EBCDIC "Z390" - Length71 2 bytes Big Endian - Subcode71 2 bytes Enote type code - FMEPos 1 byte - Length72 2 bytes Big Endian - Subcode72 2 bytes Unit type code - Unit 1 byte Unit - Length73 2 bytes Big Endian - Subcode73 2 bytes Volume1 type code - FirstVol 1 byte Volume - Length74 2 bytes Big Endian - Subcode74 2 bytes FirstVol file sequence - FileSeq 2 bytes Sequence - -APPENDIX D - Language Encoding (EFS) ------------------------------------- - -D.1 The ZIP format has historically supported only the original IBM PC character -encoding set, commonly referred to as IBM Code Page 437. This limits storing -file name characters to only those within the original MS-DOS range of values -and does not properly support file names in other character encodings, or -languages. To address this limitation, this specification will support the -following change. - -D.2 If general purpose bit 11 is unset, the file name and comment should conform -to the original ZIP character encoding. If general purpose bit 11 is set, the -filename and comment must support The Unicode Standard, Version 4.1.0 or -greater using the character encoding form defined by the UTF-8 storage -specification. The Unicode Standard is published by the The Unicode -Consortium (www.unicode.org). UTF-8 encoded data stored within ZIP files -is expected to not include a byte order mark (BOM). - -D.3 Applications may choose to supplement this file name storage through the use -of the 0x0008 Extra Field. Storage for this optional field is currently -undefined, however it will be used to allow storing extended information -on source or target encoding that may further assist applications with file -name, or file content encoding tasks. Please contact PKWARE with any -requirements on how this field should be used. - -D.4 The 0x0008 Extra Field storage may be used with either setting for general -purpose bit 11. Examples of the intended usage for this field is to store -whether "modified-UTF-8" (JAVA) is used, or UTF-8-MAC. Similarly, other -commonly used character encoding (code page) designations can be indicated -through this field. Formalized values for use of the 0x0008 record remain -undefined at this time. The definition for the layout of the 0x0008 field -will be published when available. Use of the 0x0008 Extra Field provides -for storing data within a ZIP file in an encoding other than IBM Code -Page 437 or UTF-8. - -D.5 General purpose bit 11 will not imply any encoding of file content or -password. Values defining character encoding for file content or -password must be stored within the 0x0008 Extended Language Encoding -Extra Field. - -D.6 Ed Gordon of the Info-ZIP group has defined a pair of "extra field" records -that can be used to store UTF-8 file name and file comment fields. These -records can be used for cases when the general purpose bit 11 method -for storing UTF-8 data in the standard file name and comment fields is -not desirable. A common case for this alternate method is if backward -compatibility with older programs is required. - -D.7 Definitions for the record structure of these fields are included above -in the section on 3rd party mappings for "extra field" records. These -records are identified by Header ID's 0x6375 (Info-ZIP Unicode Comment -Extra Field) and 0x7075 (Info-ZIP Unicode Path Extra Field). - -D.8 The choice of which storage method to use when writing a ZIP file is left -to the implementation. Developers should expect that a ZIP file may -contain either method and should provide support for reading data in -either format. Use of general purpose bit 11 reduces storage requirements -for file name data by not requiring additional "extra field" data for -each file, but can result in older ZIP programs not being able to extract -files. Use of the 0x6375 and 0x7075 records will result in a ZIP file -that should always be readable by older ZIP programs, but requires more -storage per file to write file name and/or file comment fields. diff -pruN 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/extra.fld.txt 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/extra.fld.txt --- 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/extra.fld.txt 2025-04-23 16:00:55.000000000 +0000 +++ 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/extra.fld.txt 1970-01-01 00:00:00.000000000 +0000 @@ -1,1243 +0,0 @@ -The following are the known types of zipfile extra fields as of this -writing. Extra fields are documented in PKWARE's appnote.txt and are -intended to allow for backward- and forward-compatible extensions to -the zipfile format. Multiple extra-field types may be chained together, -provided that the total length of all extra-field data is less than 64KB. -(In fact, PKWARE requires that the total length of the entire file header, -including timestamp, file attributes, filename, comment, extra field, etc., -be no more than 64KB.) - -Each extra-field type (or subblock) must contain a four-byte header con- -sisting of a two-byte header ID and a two-byte length (little-endian) for -the remaining data in the subblock. If there are additional subblocks -within the extra field, the header for each one will appear immediately -following the data for the previous subblock (i.e., with no padding for -alignment). - -All integer fields in the descriptions below are in little-endian (Intel) -format unless otherwise specified. Note that "Short" means two bytes, -"Long" means four bytes, and "Long-Long" means eight bytes, regardless -of their native sizes. Unless specifically noted, all integer fields should -be interpreted as unsigned (non-negative) numbers. - -Christian Spieler, 20010517 - - ------------------------- - - Header ID's of 0 thru 31 are reserved for use by PKWARE. - The remaining ID's can be used by third party vendors for - proprietary usage. - - The current Header ID mappings defined by PKWARE are: - - 0x0001 ZIP64 extended information extra field - 0x0007 AV Info - 0x0009 OS/2 extended attributes (also Info-ZIP) - 0x000a NTFS (Win9x/WinNT FileTimes) - 0x000c OpenVMS (also Info-ZIP) - 0x000d Unix - 0x000f Patch Descriptor - 0x0014 PKCS#7 Store for X.509 Certificates - 0x0015 X.509 Certificate ID and Signature for - individual file - 0x0016 X.509 Certificate ID for Central Directory - - The Header ID mappings defined by Info-ZIP and third parties are: - - 0x0065 IBM S/390 attributes - uncompressed - 0x0066 IBM S/390 attributes - compressed - 0x07c8 Info-ZIP Macintosh (old, J. Lee) - 0x2605 ZipIt Macintosh (first version) - 0x2705 ZipIt Macintosh v 1.3.5 and newer (w/o full filename) - 0x334d Info-ZIP Macintosh (new, D. Haase's 'Mac3' field ) - 0x4154 Tandem NSK - 0x4341 Acorn/SparkFS (David Pilling) - 0x4453 Windows NT security descriptor (binary ACL) - 0x4704 VM/CMS - 0x470f MVS - 0x4854 Theos, old inofficial port - 0x4b46 FWKCS MD5 (see below) - 0x4c41 OS/2 access control list (text ACL) - 0x4d49 Info-ZIP OpenVMS (obsolete) - 0x4d63 Macintosh SmartZIP, by Macro Bambini - 0x4f4c Xceed original location extra field - 0x5356 AOS/VS (binary ACL) - 0x5455 extended timestamp - 0x5855 Info-ZIP Unix (original; also OS/2, NT, etc.) - 0x554e Xceed unicode extra field - 0x6542 BeOS (BeBox, PowerMac, etc.) - 0x6854 Theos - 0x756e ASi Unix - 0x7855 Info-ZIP Unix (new) - 0xfb4a SMS/QDOS - -The following are detailed descriptions of the known extra-field block types: - - -OS/2 Extended Attributes Extra Field: - ==================================== - - The following is the layout of the OS/2 extended attributes "extra" - block. (Last Revision 19960922) - - Note: all fields stored in Intel low-byte/high-byte order. - - Local-header version: - - Value Size Description - ----- ---- ----------- - (OS/2) 0x0009 Short tag for this extra block type - TSize Short total data size for this block - BSize Long uncompressed EA data size - CType Short compression type - EACRC Long CRC value for uncompressed EA data - (var.) variable compressed EA data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (OS/2) 0x0009 Short tag for this extra block type - TSize Short total data size for this block (4) - BSize Long size of uncompressed local EA data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - - The OS/2 extended attribute structure (FEA2LIST) is compressed and - then stored in its entirety within this structure. There will only - ever be one block of data in the variable-length field. - - - -OS/2 Access Control List Extra Field: - ==================================== - - The following is the layout of the OS/2 ACL extra block. - (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (ACL) 0x4c41 Short tag for this extra block type ("AL") - TSize Short total data size for this block - BSize Long uncompressed ACL data size - CType Short compression type - EACRC Long CRC value for uncompressed ACL data - (var.) variable compressed ACL data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (ACL) 0x4c41 Short tag for this extra block type ("AL") - TSize Short total data size for this block (4) - BSize Long size of uncompressed local ACL data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - - The uncompressed ACL data consist of a text header of the form - "ACL1:%hX,%hd\n", where the first field is the OS/2 ACCINFO acc_attr - member and the second is acc_count, followed by acc_count strings - of the form "%s,%hx\n", where the first field is acl_ugname (user - group name) and the second acl_access. This block type will be - extended for other operating systems as needed. - - - -Windows NT Security Descriptor Extra Field: - ========================================== - - The following is the layout of the NT Security Descriptor (another - type of ACL) extra block. (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (SD) 0x4453 Short tag for this extra block type ("SD") - TSize Short total data size for this block - BSize Long uncompressed SD data size - Version Byte version of uncompressed SD data format - CType Short compression type - EACRC Long CRC value for uncompressed SD data - (var.) variable compressed SD data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (SD) 0x4453 Short tag for this extra block type ("SD") - TSize Short total data size for this block (4) - BSize Long size of uncompressed local SD data - - The value of CType is interpreted according to the "compression - method" section above; i.e., 0 for stored, 8 for deflated, etc. - Version specifies how the compressed data are to be interpreted - and allows for future expansion of this extra field type. Currently - only version 0 is defined. - - For version 0, the compressed data are to be interpreted as a single - valid Windows NT SECURITY_DESCRIPTOR data structure, in self-relative - format. - - - -PKWARE Win95/WinNT Extra Field: - ============================== - - The following description covers PKWARE's "NTFS" attributes - "extra" block, introduced with the release of PKZIP 2.50 for - Windows. (Last Revision 20001118) - - (Note: At this time the Mtime, Atime and Ctime values may - be used on any WIN32 system.) - [Info-ZIP note: In the current implementations, this field has - a fixed total data size of 32 bytes and is only stored as local - extra field.] - - Value Size Description - ----- ---- ----------- - (NTFS) 0x000a Short Tag for this "extra" block type - TSize Short Total Data Size for this block - Reserved Long for future use - Tag1 Short NTFS attribute tag value #1 - Size1 Short Size of attribute #1, in bytes - (var.) SubSize1 Attribute #1 data - . - . - . - TagN Short NTFS attribute tag value #N - SizeN Short Size of attribute #N, in bytes - (var.) SubSize1 Attribute #N data - - For NTFS, values for Tag1 through TagN are as follows: - (currently only one set of attributes is defined for NTFS) - - Tag Size Description - ----- ---- ----------- - 0x0001 2 bytes Tag for attribute #1 - Size1 2 bytes Size of attribute #1, in bytes (24) - Mtime 8 bytes 64-bit NTFS file last modification time - Atime 8 bytes 64-bit NTFS file last access time - Ctime 8 bytes 64-bit NTFS file creation time - - The total length for this block is 28 bytes, resulting in a - fixed size value of 32 for the TSize field of the NTFS block. - - The NTFS filetimes are 64-bit unsigned integers, stored in Intel - (least significant byte first) byte order. They determine the - number of 1.0E-07 seconds (1/10th microseconds!) past WinNT "epoch", - which is "01-Jan-1601 00:00:00 UTC". - - - -PKWARE OpenVMS Extra Field: - ========================== - - The following is the layout of PKWARE's OpenVMS attributes "extra" - block. (Last Revision 12/17/91) - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (VMS) 0x000c Short Tag for this "extra" block type - TSize Short Total Data Size for this block - CRC Long 32-bit CRC for remainder of the block - Tag1 Short OpenVMS attribute tag value #1 - Size1 Short Size of attribute #1, in bytes - (var.) Size1 Attribute #1 data - . - . - . - TagN Short OpenVMS attribute tage value #N - SizeN Short Size of attribute #N, in bytes - (var.) SizeN Attribute #N data - - Rules: - - 1. There will be one or more of attributes present, which - will each be preceded by the above TagX & SizeX values. - These values are identical to the ATR$C_XXXX and - ATR$S_XXXX constants which are defined in ATR.H under - OpenVMS C. Neither of these values will ever be zero. - - 2. No word alignment or padding is performed. - - 3. A well-behaved PKZIP/OpenVMS program should never produce - more than one sub-block with the same TagX value. Also, - there will never be more than one "extra" block of type - 0x000c in a particular directory record. - - - -Info-ZIP VMS Extra Field: - ======================== - - The following is the layout of Info-ZIP's VMS attributes extra - block for VAX or Alpha AXP. The local-header and central-header - versions are identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (VMS2) 0x4d49 Short tag for this extra block type ("JM") - TSize Short total data size for this block - ID Long block ID - Flags Short info bytes - BSize Short uncompressed block size - Reserved Long (reserved) - (var.) variable compressed VMS file-attributes block - - The block ID is one of the following unterminated strings: - - "VFAB" struct FAB - "VALL" struct XABALL - "VFHC" struct XABFHC - "VDAT" struct XABDAT - "VRDT" struct XABRDT - "VPRO" struct XABPRO - "VKEY" struct XABKEY - "VMSV" version (e.g., "V6.1"; truncated at hyphen) - "VNAM" reserved - - The lower three bits of Flags indicate the compression method. The - currently defined methods are: - - 0 stored (not compressed) - 1 simple "RLE" - 2 deflated - - The "RLE" method simply replaces zero-valued bytes with zero-valued - bits and non-zero-valued bytes with a "1" bit followed by the byte - value. - - The variable-length compressed data contains only the data corre- - sponding to the indicated structure or string. Typically multiple - VMS2 extra fields are present (each with a unique block type). - - - -Info-ZIP Macintosh Extra Field: - ============================== - - The following is the layout of the (old) Info-ZIP resource-fork extra - block for Macintosh. The local-header and central-header versions - are identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (Mac) 0x07c8 Short tag for this extra block type - TSize Short total data size for this block - "JLEE" beLong extra-field signature - FInfo 16 bytes Macintosh FInfo structure - CrDat beLong HParamBlockRec fileParam.ioFlCrDat - MdDat beLong HParamBlockRec fileParam.ioFlMdDat - Flags beLong info bits - DirID beLong HParamBlockRec fileParam.ioDirID - VolName 28 bytes volume name (optional) - - All fields but the first two are in native Macintosh format - (big-endian Motorola order, not little-endian Intel). The least - significant bit of Flags is 1 if the file is a data fork, 0 other- - wise. In addition, if this extra field is present, the filename - has an extra 'd' or 'r' appended to indicate data fork or resource - fork. The 28-byte VolName field may be omitted. - - - -ZipIt Macintosh Extra Field (long): - ================================== - - The following is the layout of the ZipIt extra block for Macintosh. - The local-header and central-header versions are identical. - (Last Revision 19970130) - - Value Size Description - ----- ---- ----------- - (Mac2) 0x2605 Short tag for this extra block type - TSize Short total data size for this block - "ZPIT" beLong extra-field signature - FnLen Byte length of FileName - FileName variable full Macintosh filename - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - - - -ZipIt Macintosh Extra Field (short): - =================================== - - The following is the layout of a shortened variant of the - ZipIt extra block for Macintosh (without "full name" entry). - This variant is used by ZipIt 1.3.5 and newer for entries that - do not need a "full Mac filename" record. - The local-header and central-header versions are identical. - (Last Revision 19980903) - - Value Size Description - ----- ---- ----------- - (Mac2b) 0x2705 Short tag for this extra block type - TSize Short total data size for this block (12) - "ZPIT" beLong extra-field signature - FileType Byte[4] four-byte Mac file type string - Creator Byte[4] four-byte Mac creator string - - - -Info-ZIP Macintosh Extra Field (new): - ==================================== - - The following is the layout of the (new) Info-ZIP extra - block for Macintosh, designed by Dirk Haase. - All values are in little-endian. - (Last Revision 19981005) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Mac3) 0x334d Short tag for this extra block type ("M3") - TSize Short total data size for this block - BSize Long uncompressed finder attribute data size - Flags Short info bits - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - (CType) Short compression type - (CRC) Long CRC value for uncompressed MacOS data - Attribs variable finder attribute data (see below) - - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Mac3) 0x334d Short tag for this extra block type ("M3") - TSize Short total data size for this block - BSize Long uncompressed finder attribute data size - Flags Short info bits - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - - The third bit of Flags in both headers indicates whether - the LOCAL extra field is uncompressed (and therefore whether CType - and CRC are omitted): - - Bits of the Flags: - bit 0 if set, file is a data fork; otherwise unset - bit 1 if set, filename will be not changed - bit 2 if set, Attribs is uncompressed (no CType, CRC) - bit 3 if set, date and times are in 64 bit - if zero date and times are in 32 bit. - bit 4 if set, timezone offsets fields for the native - Mac times are omitted (UTC support deactivated) - bits 5-15 reserved; - - - Attributes: - - Attribs is a Mac-specific block of data in little-endian format with - the following structure (if compressed, uncompress it first): - - Value Size Description - ----- ---- ----------- - fdFlags Short Finder Flags - fdLocation.v Short Finder Icon Location - fdLocation.h Short Finder Icon Location - fdFldr Short Folder containing file - - FXInfo 16 bytes Macintosh FXInfo structure - FXInfo-Structure: - fdIconID Short - fdUnused[3] Short unused but reserved 6 bytes - fdScript Byte Script flag and number - fdXFlags Byte More flag bits - fdComment Short Comment ID - fdPutAway Long Home Dir ID - - FVersNum Byte file version number - may be not used by MacOS - ACUser Byte directory access rights - - FlCrDat ULong date and time of creation - FlMdDat ULong date and time of last modification - FlBkDat ULong date and time of last backup - These time numbers are original Mac FileTime values (local time!). - Currently, date-time width is 32-bit, but future version may - support be 64-bit times (see flags) - - CrGMTOffs Long(signed!) difference "local Creat. time - UTC" - MdGMTOffs Long(signed!) difference "local Modif. time - UTC" - BkGMTOffs Long(signed!) difference "local Backup time - UTC" - These "local time - UTC" differences (stored in seconds) may be - used to support timestamp adjustment after inter-timezone transfer. - These fields are optional; bit 4 of the flags word controls their - presence. - - Charset Short TextEncodingBase (Charset) - valid for the following two fields - - FullPath variable Path of the current file. - Zero terminated string (C-String) - Currently coded in the native Charset. - - Comment variable Finder Comment of the current file. - Zero terminated string (C-String) - Currently coded in the native Charset. - - - -SmartZIP Macintosh Extra Field: - ==================================== - - The following is the layout of the SmartZIP extra - block for Macintosh, designed by Marco Bambini. - - Local-header version: - - Value Size Description - ----- ---- ----------- - 0x4d63 Short tag for this extra block type ("cM") - TSize Short total data size for this block (64) - "dZip" beLong extra-field signature - fdType Byte[4] Type of the File (4-byte string) - fdCreator Byte[4] Creator of the File (4-byte string) - fdFlags beShort Finder Flags - fdLocation.v beShort Finder Icon Location - fdLocation.h beShort Finder Icon Location - fdFldr beShort Folder containing file - CrDat beLong HParamBlockRec fileParam.ioFlCrDat - MdDat beLong HParamBlockRec fileParam.ioFlMdDat - frScroll.v Byte vertical pos. of folder's scroll bar - fdScript Byte Script flag and number - frScroll.h Byte horizontal pos. of folder's scroll bar - fdXFlags Byte More flag bits - FileName Byte[32] full Macintosh filename (pascal string) - - All fields but the first two are in native Macintosh format - (big-endian Motorola order, not little-endian Intel). - The extra field size is fixed to 64 bytes. - The local-header and central-header versions are identical. - - - -Acorn SparkFS Extra Field: - ========================= - - The following is the layout of David Pilling's SparkFS extra block - for Acorn RISC OS. The local-header and central-header versions are - identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (Acorn) 0x4341 Short tag for this extra block type ("AC") - TSize Short total data size for this block (20) - "ARC0" Long extra-field signature - LoadAddr Long load address or file type - ExecAddr Long exec address - Attr Long file permissions - Zero Long reserved; always zero - - The following bits of Attr are associated with the given file - permissions: - - bit 0 user-writable ('W') - bit 1 user-readable ('R') - bit 2 reserved - bit 3 locked ('L') - bit 4 publicly writable ('w') - bit 5 publicly readable ('r') - bit 6 reserved - bit 7 reserved - - - -VM/CMS Extra Field: - ================== - - The following is the layout of the file-attributes extra block for - VM/CMS. The local-header and central-header versions are - identical. (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (VM/CMS) 0x4704 Short tag for this extra block type - TSize Short total data size for this block - flData variable file attributes data - - flData is an uncompressed fldata_t struct. - - - -MVS Extra Field: - =============== - - The following is the layout of the file-attributes extra block for - MVS. The local-header and central-header versions are identical. - (Last Revision 19960922) - - Value Size Description - ----- ---- ----------- - (MVS) 0x470f Short tag for this extra block type - TSize Short total data size for this block - flData variable file attributes data - - flData is an uncompressed fldata_t struct. - - - -PKWARE Unix Extra Field: - ======================== - - The following is the layout of PKWARE's Unix "extra" block. - It was introduced with the release of PKZIP for Unix 2.50. - Note: all fields are stored in Intel low-byte/high-byte order. - (Last Revision 19980901) - - This field has a minimum data size of 12 bytes and is only stored - as local extra field. - - Value Size Description - ----- ---- ----------- - (Unix0) 0x000d Short Tag for this "extra" block type - TSize Short Total Data Size for this block - AcTime Long time of last access (UTC/GMT) - ModTime Long time of last modification (UTC/GMT) - UID Short Unix user ID - GID Short Unix group ID - (var) variable Variable length data field - - The variable length data field will contain file type - specific data. Currently the only values allowed are - the original "linked to" file names for hard or symbolic - links, and the major and minor device node numbers for - character and block device nodes. Since device nodes - cannot be either symbolic or hard links, only one set of - variable length data is stored. Link files will have the - name of the original file stored. This name is NOT NULL - terminated. Its size can be determined by checking TSize - - 12. Device entries will have eight bytes stored as two 4 - byte entries (in little-endian format). The first entry - will be the major device number, and the second the minor - device number. - - [Info-ZIP note: The fixed part of this field has the same layout as - Info-ZIP's abandoned "Unix1 timestamps & owner ID info" extra field; - only the two tag bytes are different.] - - - -PATCH Descriptor Extra Field: - ============================ - - The following is the layout of the Patch Descriptor "extra" - block. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (Patch) 0x000f Short Tag for this "extra" block type - TSize Short Size of the total "extra" block - Version Short Version of the descriptor - Flags Long Actions and reactions (see below) - OldSize Long Size of the file about to be patched - OldCRC Long 32-bit CRC of the file about to be patched - NewSize Long Size of the resulting file - NewCRC Long 32-bit CRC of the resulting file - - - Actions and reactions - - Bits Description - ---- ---------------- - 0 Use for autodetection - 1 Treat as selfpatch - 2-3 RESERVED - 4-5 Action (see below) - 6-7 RESERVED - 8-9 Reaction (see below) to absent file - 10-11 Reaction (see below) to newer file - 12-13 Reaction (see below) to unknown file - 14-15 RESERVED - 16-31 RESERVED - - Actions - - Action Value - ------ ----- - none 0 - add 1 - delete 2 - patch 3 - - Reactions - - Reaction Value - -------- ----- - ask 0 - skip 1 - ignore 2 - fail 3 - - - -PKCS#7 Store for X.509 Certificates: - =================================== - - This field is contains the information about each - certificate a file is signed with. This field should only - appear in the first central directory record, and will be - ignored in any other record. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (Store) 0x0014 2 bytes Tag for this "extra" block type - SSize 2 bytes Size of the store data - SData (variable) Data about the store - - SData - Value Size Description - ----- ---- ----------- - Version 2 bytes Version number, 0x0001 for now - StoreD (variable) Actual store data - - The StoreD member is suitable for passing as the pbData - member of a CRYPT_DATA_BLOB to the CertOpenStore() function - in Microsoft's CryptoAPI. The SSize member above will be - cbData + 6, where cbData is the cbData member of the same - CRYPT_DATA_BLOB. The encoding type to pass to - CertOpenStore() should be - PKCS_7_ANS_ENCODING | X509_ASN_ENCODING. - - - -X.509 Certificate ID and Signature for individual file: - ====================================================== - - This field contains the information about which certificate - in the PKCS#7 Store was used to sign the particular file. - It also contains the signature data. This field can appear - multiple times, but can only appear once per certificate. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (CID) 0x0015 2 bytes Tag for this "extra" block type - CSize 2 bytes Size of Method - Method (variable) - - Method - Value Size Description - ----- ---- ----------- - Version 2 bytes Version number, for now 0x0001 - AlgID 2 bytes Algorithm ID used for signing - IDSize 2 bytes Size of Certificate ID data - CertID (variable) Certificate ID data - SigSize 2 bytes Size of Signature data - Sig (variable) Signature data - - CertID - Value Size Description - ----- ---- ----------- - Size1 4 bytes Size of CertID, should be (IDSize - 4) - Size1 4 bytes A bug in version one causes this value - to appear twice. - IssSize 4 bytes Issuer data size - Issuer (variable) Issuer data - SerSize 4 bytes Serial Number size - Serial (variable) Serial Number data - - The Issuer and IssSize members are suitable for creating a - CRYPT_DATA_BLOB to be the Issuer member of a CERT_INFO - struct. The Serial and SerSize members would be the - SerialNumber member of the same CERT_INFO struct. This - struct would be used to find the certificate in the store - the file was signed with. Those structures are from the MS - CryptoAPI. - - Sig and SigSize are the actual signature data and size - generated by signing the file with the MS CryptoAPI using a - hash created with the given AlgID. - - - -X.509 Certificate ID and Signature for central directory: - ======================================================== - - This field contains the information about which certificate - in the PKCS#7 Store was used to sign the central directory. - It should only appear with the first central directory - record, along with the store. The data structure is the - same as the CID, except that SigSize will be 0, and there - will be no Sig member. - - This field is also kept after the last central directory - record, as the signature data (ID 0x05054b50, it looks like - a central directory record of a different type). This - second copy of the data is the Signature Data member of the - record, and will have a SigSize that is non-zero, and will - have Sig data. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (CDID) 0x0016 2 bytes Tag for this "extra" block type - CSize 2 bytes Size of Method - Method (variable) - - - -ZIP64 Extended Information Extra Field: - ====================================== - - The following is the layout of the ZIP64 extended - information "extra" block. If one of the size or - offset fields in the Local or Central directory - record is too small to hold the required data, - a ZIP64 extended information record is created. - The order of the fields in the ZIP64 extended - information record is fixed, but the fields will - only appear if the corresponding Local or Central - directory record field is set to 0xFFFF or 0xFFFFFFFF. - - Note: all fields stored in Intel low-byte/high-byte order. - - Value Size Description - ----- ---- ----------- - (ZIP64) 0x0001 2 bytes Tag for this "extra" block type - Size 2 bytes Size of this "extra" block - Original - Size 8 bytes Original uncompresseed file size - Compressed - Size 8 bytes Size of compressed data - Relative Header - Offset 8 bytes Offset of local header record - Disk Start - Number 4 bytes Number of the disk on which - this file starts - - This entry in the Local header must include BOTH original - and compressed file sizes. - - - -Extended Timestamp Extra Field: - ============================== - - The following is the layout of the extended-timestamp extra block. - (Last Revision 19970118) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (time) 0x5455 Short tag for this extra block type ("UT") - TSize Short total data size for this block - Flags Byte info bits - (ModTime) Long time of last modification (UTC/GMT) - (AcTime) Long time of last access (UTC/GMT) - (CrTime) Long time of original creation (UTC/GMT) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (time) 0x5455 Short tag for this extra block type ("UT") - TSize Short total data size for this block - Flags Byte info bits (refers to local header!) - (ModTime) Long time of last modification (UTC/GMT) - - The central-header extra field contains the modification time only, - or no timestamp at all. TSize is used to flag its presence or - absence. But note: - - If "Flags" indicates that Modtime is present in the local header - field, it MUST be present in the central header field, too! - This correspondence is required because the modification time - value may be used to support trans-timezone freshening and - updating operations with zip archives. - - The time values are in standard Unix signed-long format, indicating - the number of seconds since 1 January 1970 00:00:00. The times - are relative to Coordinated Universal Time (UTC), also sometimes - referred to as Greenwich Mean Time (GMT). To convert to local time, - the software must know the local timezone offset from UTC/GMT. - - The lower three bits of Flags in both headers indicate which time- - stamps are present in the LOCAL extra field: - - bit 0 if set, modification time is present - bit 1 if set, access time is present - bit 2 if set, creation time is present - bits 3-7 reserved for additional timestamps; not set - - Those times that are present will appear in the order indicated, but - any combination of times may be omitted. (Creation time may be - present without access time, for example.) TSize should equal - (1 + 4*(number of set bits in Flags)), as the block is currently - defined. Other timestamps may be added in the future. - - - -Info-ZIP Unix Extra Field (type 1): - ================================== - - The following is the layout of the old Info-ZIP extra block for - Unix. It has been replaced by the extended-timestamp extra block - (0x5455) and the Unix type 2 extra block (0x7855). - (Last Revision 19970118) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Unix1) 0x5855 Short tag for this extra block type ("UX") - TSize Short total data size for this block - AcTime Long time of last access (UTC/GMT) - ModTime Long time of last modification (UTC/GMT) - UID Short Unix user ID (optional) - GID Short Unix group ID (optional) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Unix1) 0x5855 Short tag for this extra block type ("UX") - TSize Short total data size for this block - AcTime Long time of last access (GMT/UTC) - ModTime Long time of last modification (GMT/UTC) - - The file access and modification times are in standard Unix signed- - long format, indicating the number of seconds since 1 January 1970 - 00:00:00. The times are relative to Coordinated Universal Time - (UTC), also sometimes referred to as Greenwich Mean Time (GMT). To - convert to local time, the software must know the local timezone - offset from UTC/GMT. The modification time may be used by non-Unix - systems to support inter-timezone freshening and updating of zip - archives. - - The local-header extra block may optionally contain UID and GID - info for the file. The local-header TSize value is the only - indication of this. Note that Unix UIDs and GIDs are usually - specific to a particular machine, and they generally require root - access to restore. - - This extra field type is obsolete, but it has been in use since - mid-1994. Therefore future archiving software should continue to - support it. Some guidelines: - - An archive member should either contain the old "Unix1" - extra field block or the new extra field types "time" and/or - "Unix2". - - If both the old "Unix1" block type and one or both of the new - block types "time" and "Unix2" are found, the "Unix1" block - should be considered invalid and ignored. - - Unarchiving software should recognize both old and new extra - field block types, but the info from new types overrides the - old "Unix1" field. - - Archiving software should recognize "Unix1" extra fields for - timestamp comparison but never create it for updated, freshened - or new archive members. When copying existing members to a new - archive, any "Unix1" extra field blocks should be converted to - the new "time" and/or "Unix2" types. - - - -Info-ZIP Unix Extra Field (type 2): - ================================== - - The following is the layout of the new Info-ZIP extra block for - Unix. (Last Revision 19960922) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (Unix2) 0x7855 Short tag for this extra block type ("Ux") - TSize Short total data size for this block (4) - UID Short Unix user ID - GID Short Unix group ID - - Central-header version: - - Value Size Description - ----- ---- ----------- - (Unix2) 0x7855 Short tag for this extra block type ("Ux") - TSize Short total data size for this block (0) - - The data size of the central-header version is zero; it is used - solely as a flag that UID/GID info is present in the local-header - extra field. If additional fields are ever added to the local - version, the central version may be extended to indicate this. - - Note that Unix UIDs and GIDs are usually specific to a particular - machine, and they generally require root access to restore. - - - -ASi Unix Extra Field: - ==================== - - The following is the layout of the ASi extra block for Unix. The - local-header and central-header versions are identical. - (Last Revision 19960916) - - Value Size Description - ----- ---- ----------- - (Unix3) 0x756e Short tag for this extra block type ("nu") - TSize Short total data size for this block - CRC Long CRC-32 of the remaining data - Mode Short file permissions - SizDev Long symlink'd size OR major/minor dev num - UID Short user ID - GID Short group ID - (var.) variable symbolic link filename - - Mode is the standard Unix st_mode field from struct stat, containing - user/group/other permissions, setuid/setgid and symlink info, etc. - - If Mode indicates that this file is a symbolic link, SizDev is the - size of the file to which the link points. Otherwise, if the file - is a device, SizDev contains the standard Unix st_rdev field from - struct stat (includes the major and minor numbers of the device). - SizDev is undefined in other cases. - - If Mode indicates that the file is a symbolic link, the final field - will be the name of the file to which the link points. The file- - name length can be inferred from TSize. - - [Note that TSize may incorrectly refer to the data size not counting - the CRC; i.e., it may be four bytes too small.] - - - -BeOS Extra Field: - ================ - - The following is the layout of the file-attributes extra block for - BeOS. (Last Revision 19970531) - - Local-header version: - - Value Size Description - ----- ---- ----------- - (BeOS) 0x6542 Short tag for this extra block type ("Be") - TSize Short total data size for this block - BSize Long uncompressed file attribute data size - Flags Byte info bits - (CType) Short compression type - (CRC) Long CRC value for uncompressed file attribs - Attribs variable file attribute data - - Central-header version: - - Value Size Description - ----- ---- ----------- - (BeOS) 0x6542 Short tag for this extra block type ("Be") - TSize Short total data size for this block (5) - BSize Long size of uncompr. local EF block data - Flags Byte info bits - - The least significant bit of Flags in both headers indicates whether - the LOCAL extra field is uncompressed (and therefore whether CType - and CRC are omitted): - - bit 0 if set, Attribs is uncompressed (no CType, CRC) - bits 1-7 reserved; if set, assume error or unknown data - - Currently the only supported compression types are deflated (type 8) - and stored (type 0); the latter is not used by Info-ZIP's Zip but is - supported by UnZip. - - Attribs is a BeOS-specific block of data in big-endian format with - the following structure (if compressed, uncompress it first): - - Value Size Description - ----- ---- ----------- - Name variable attribute name (null-terminated string) - Type Long attribute type (32-bit unsigned integer) - Size Long Long data size for this sub-block (64 bits) - Data variable attribute data - - The attribute structure is repeated for every attribute. The Data - field may contain anything--text, flags, bitmaps, etc. - - - -SMS/QDOS Extra Field: - ==================== - - The following is the layout of the file-attributes extra block for - SMS/QDOS. The local-header and central-header versions are identical. - (Last Revision 19960929) - - Value Size Description - ----- ---- ----------- - (QDOS) 0xfb4a Short tag for this extra block type - TSize Short total data size for this block - LongID Long extra-field signature - (ExtraID) Long additional signature/flag bytes - QDirect 64 bytes qdirect structure - - LongID may be "QZHD" or "QDOS". In the latter case, ExtraID will - be present. Its first three bytes are "02\0"; the last byte is - currently undefined. - - QDirect contains the file's uncompressed directory info (qdirect - struct). Its elements are in native (big-endian) format: - - d_length beLong file length - d_access byte file access type - d_type byte file type - d_datalen beLong data length - d_reserved beLong unused - d_szname beShort size of filename - d_name 36 bytes filename - d_update beLong time of last update - d_refdate beLong file version number - d_backup beLong time of last backup (archive date) - - - -AOS/VS Extra Field: - ================== - - The following is the layout of the extra block for Data General - AOS/VS. The local-header and central-header versions are identical. - (Last Revision 19961125) - - Value Size Description - ----- ---- ----------- - (AOSVS) 0x5356 Short tag for this extra block type ("VS") - TSize Short total data size for this block - "FCI\0" Long extra-field signature - Version Byte version of AOS/VS extra block (10 = 1.0) - Fstat variable fstat packet - AclBuf variable raw ACL data ($MXACL bytes) - - Fstat contains the file's uncompressed fstat packet, which is one of - the following: - - normal fstat packet (P_FSTAT struct) - DIR/CPD fstat packet (P_FSTAT_DIR struct) - unit (device) fstat packet (P_FSTAT_UNIT struct) - IPC file fstat packet (P_FSTAT_IPC struct) - - AclBuf contains the raw ACL data; its length is $MXACL. - - - -Tandem NSK Extra Field: - ====================== - - The following is the layout of the file-attributes extra block for - Tandem NSK. The local-header and central-header versions are - identical. (Last Revision 19981221) - - Value Size Description - ----- ---- ----------- - (TA) 0x4154 Short tag for this extra block type ("TA") - TSize Short total data size for this block (20) - NSKattrs 20 Bytes NSK attributes - - - -THEOS Extra Field: - ================= - - The following is the layout of the file-attributes extra block for - Theos. The local-header and central-header versions are identical. - (Last Revision 19990206) - - Value Size Description - ----- ---- ----------- - (Theos) 0x6854 Short 'Th' signature - size Short size of extra block - flags Byte reserved for future use - filesize Long file size - fileorg Byte type of file (see below) - keylen Short key length for indexed and keyed files, - data segment size for 16 bits programs - reclen Short record length for indexed,keyed and direct, - text segment size for 16 bits programs - filegrow Byte growing factor for indexed,keyed and direct - protect Byte protections (see below) - reserved Short reserved for future use - - File types - ========== - - 0x80 library (keyed access list of files) - 0x40 directory - 0x10 stream file - 0x08 direct file - 0x04 keyed file - 0x02 indexed file - 0x0e reserved - 0x01 16 bits real mode program (obsolete) - 0x21 16 bits protected mode program - 0x41 32 bits protected mode program - - Protection codes - ================ - - User protection - --------------- - 0x01 non readable - 0x02 non writable - 0x04 non executable - 0x08 non erasable - - Other protection - ---------------- - 0x10 non readable - 0x20 non writable - 0x40 non executable Theos before 4.0 - 0x40 modified Theos 4.x - 0x80 not hidden - - - -THEOS old inofficial Extra Field: - ================================ - - The following is the layout of an inoffical former version of a - Theos file-attributes extra blocks. This layout was never published - and is no longer created. However, UnZip can optionally support it - when compiling with the option flag OLD_THEOS_EXTRA defined. - Both the local-header and central-header versions are identical. - (Last Revision 19990206) - - Value Size Description - ----- ---- ----------- - (THS0) 0x4854 Short 'TH' signature - size Short size of extra block - flags Short reserved for future use - filesize Long file size - reclen Short record length for indexed,keyed and direct, - text segment size for 16 bits programs - keylen Short key length for indexed and keyed files, - data segment size for 16 bits programs - filegrow Byte growing factor for indexed,keyed and direct - reserved 3 Bytes reserved for future use - - - -FWKCS MD5 Extra Field: - ===================== - - The FWKCS Contents_Signature System, used in automatically - identifying files independent of filename, optionally adds - and uses an extra field to support the rapid creation of - an enhanced contents_signature. - There is no local-header version; the following applies - only to the central header. (Last Revision 19961207) - - Central-header version: - - Value Size Description - ----- ---- ----------- - (MD5) 0x4b46 Short tag for this extra block type ("FK") - TSize Short total data size for this block (19) - "MD5" 3 bytes extra-field signature - MD5hash 16 bytes 128-bit MD5 hash of uncompressed data - (low byte first) - - When FWKCS revises a .ZIP file central directory to add - this extra field for a file, it also replaces the - central directory entry for that file's uncompressed - file length with a measured value. - - FWKCS provides an option to strip this extra field, if - present, from a .ZIP file central directory. In adding - this extra field, FWKCS preserves .ZIP file Authenticity - Verification; if stripping this extra field, FWKCS - preserves all versions of AV through PKZIP version 2.04g. - - FWKCS, and FWKCS Contents_Signature System, are - trademarks of Frederick W. Kantor. - - (1) R. Rivest, RFC1321.TXT, MIT Laboratory for Computer - Science and RSA Data Security, Inc., April 1992. - ll.76-77: "The MD5 algorithm is being placed in the - public domain for review and possible adoption as a - standard." diff -pruN 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/winzip_aes.md 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/winzip_aes.md --- 5.15.19+dfsg-1/src/3rdparty/chromium/third_party/minizip/src/doc/winzip_aes.md 2025-04-23 16:00:55.000000000 +0000 +++ 5.15.19+dfsg2-1/src/3rdparty/chromium/third_party/minizip/src/doc/winzip_aes.md 1970-01-01 00:00:00.000000000 +0000 @@ -1,261 +0,0 @@ - -# AES Encryption Information: -Encryption Specification AE-1 and AE-2 - -**Document version: 1.04 -Last modified: January 30, 2009** - -**NOTE: WinZip® users do not need to read or understand the information contained on this page. It is intended for developers of Zip file utilities.** - -Changes since the original version of this document are summarized in the [Change History](https://www.winzip.com/aes_info.htm#changes) section below. - -This document describes the file format that WinZip uses to create [AES-encrypted Zip files](https://www.winzip.com/learn/aes-encryption.html). The AE-1 encryption specification was introduced in WinZip 9.0 Beta 1, released in May 2003. The AE-2 encryption specification, a minor variant of the original AE-1 specification differing only in how the CRC is handled, was introduced in WinZip 9.0 Beta 3, released in January, 2004. Note that as of WinZip 11, WinZip itself encrypts most files using the AE-1 format and encrypts others using the AE-2 format. - -From time to time we may update the information provided here, for example to document any changes to the file formats, or to add additional notes or implementation tips. If you would like to receive e-mail announcements of any substantive changes we make to this document, you can [sign up below](https://www.winzip.com/aes_info.htm#mailing-list)for our Developer Information mailing list. - -Without compromising the basic Zip file format, WinZip Computing has extended the format specification to support AES encryption, and this document fully describes the format extension. Additionally, we are providing information about a no-cost third-party source for the actual AES encryption code--the same code that is used by WinZip. We believe that use of the free encryption code and of this specification will make it easy for all developers to add compatible advanced encryption to their Zip file utilities. - -This document is not a tutorial on encryption or Zip file structure. While we have attempted to provide the necessary details of the current WinZip AES encryption format, developers and other interested third parties will need to have or obtain an understanding of basic encryption concepts, Zip file format, etc. - -Developers should also review [AES Coding Tips](https://www.winzip.com/aes_tips.html) page. - -WinZip Computing makes no warranties regarding the information provided in this document. In particular, WinZip Computing does not represent or warrant that the information provided here is free from errors or is suitable for any particular use, or that the file formats described here will be supported in future versions of WinZip. You should test and validate all code and techniques in accordance with good programming practice. - ----------- - -**I. Encryption services** - -To perform AES encryption and decryption, WinZip uses AES functions written by Dr. Brian Gladman. The source code for these functions is available in C/C++ and Pentium family assembler for anyone to use under an open source BSD or GPL license from [the AES project page](https://www.winzip.com/gladman.cgi) on Dr. Gladman's web site. The [AES Coding Tips](https://www.winzip.com/aes_tips.html) page also has some information on the use of these functions. WinZip Computing thanks Dr. Gladman for making his AES functions available to anyone under liberal license terms. - -Dr. Gladman's encryption functions are portable to a number of operating systems and can be static linked into your applications, so there are no operating system version or library dependencies. In particular, the functions do not require Microsoft's Cryptography API. - -General information on the AES standard and the encryption algorithm (also known as _Rijndael_) is readily available on the Internet. A good place to start is [http://www.nist.gov/public_affairs/releases/g00-176.htm](http://www.nist.gov/public_affairs/releases/g00-176.htm). - -**II. Zip file format** - -1. Base format reference - - AES-encrypted files are stored within the guidelines of the standard Zip file format using only a new "extra data" field, a new compression method code, and a value in the CRC field dependant on the encryption version, AE-1 or AE-2. The basic Zip file format is otherwise unchanged. - - WinZip sets the version needed to extract and version made by fields in the local and central headers to the same values it would use if the file were not encrypted. - - The basic Zip file format specification used by WinZip is available via FTP from the Info-ZIP group at [ftp://ftp.info-zip.org/pub/infozip/doc/appnote-iz-latest.zip](ftp://ftp.info-zip.org/pub/infozip/doc/appnote-iz-latest.zip). - -2. Compression method and encryption flag - - As for any encrypted file, bit 0 of the "general purpose bit flags" field must be set to 1 in each AES-encrypted file's local header and central directory entry. - - Additionally, the presence of an AES-encrypted file in a Zip file is indicated by a new compression method code (decimal 99) in the file's local header and central directory entry, used along with the AES extra data field described below. There is no change in either the _version made by_ or _version needed to extract_ codes. - - The code for the actual compression method is stored in the AES extra data field (see below). - -3. CRC value - - For files encrypted using the AE-2 method, the standard Zip CRC value is _not_ used, and a 0 must be stored in this field. Corruption of encrypted data within a Zip file is instead detected via the [authentication code](https://www.winzip.com/aes_info.htm#authentication-code) field. - - Files encrypted using the AE-1 method _do_ include the standard Zip CRC value. This, along with the fact that the vendor version stored in the AES extra data field is 0x0001 for AE-1 and 0x0002 for AE-2, is the only difference between the AE-1 and AE-2 formats. - - **NOTE:** Zip utilities that support the AE-2 format are required to be able to read files that were created in the AE-1 format, and during decryption/extraction of files in AE-1 format should verify that the file's CRC matches the value stored in the CRC field. - -4. AES extra data field - 1. A file encrypted with AES encryption will have a special "extra data" field associated with it. This extra data field is stored in both the local header and central directory entry for the file. - - Note: see the Zip file format document referenced above for general information on the format and use of extra data fields. - - 2. The extra data header ID for AES encryption is 0x9901. The fields are all stored in Intel low-byte/high-byte order. The extra data field currently has a length of 11: seven data bytes plus two bytes for the header ID and two bytes for the data size. Therefore, the extra data overhead for each file in the archive is 22 bytes (11 bytes in the central header plus 11 bytes in the local header). - 3. The format of the data in the AES extra data field is as follows. See the notes below for additional information. - - |**Offset**|**Size(bytes)**|**Content**| - |:-|:-|:-| - |0|2|Extra field header ID (0x9901)| - |2|2|Data size (currently 7, but subject to possible increase in the future)| - |4|2|Integer version number specific to the zip vendor| - |6|2|2-character vendor ID| - |8|1|Integer mode value indicating AES encryption strength| - |9|2|The actual compression method used to compress the file| - - 4. Notes - - **Data size**: this value is currently 7, but because it is possible that this specification will be modified in the future to store additional data in this extra field, vendors should not assume that it will always remain 7. - - **Vendor ID**: the vendor ID field should always be set to the two ASCII characters "AE". - - **Vendor version**: the vendor version for AE-1 is 0x0001. The vendor version for AE-2 is 0x0002. - - Zip utilities that support AE-2 must also be able to process files that are encrypted in AE-1 format. The handling of the [CRC value](https://www.winzip.com/aes_info.htm#CRC) is the only difference between the AE-1 and AE-2 formats. - - - **Encryption strength**: the mode values (encryption strength) for AE-1 and AE-2 are: - - |**Value**|**Strength**| - |-|-| - |0x01|128-bit encryption key| - |0x02|192-bit encryption key| - |0x03|256-bit encryption key| - - The encryption specification supports _only_ 128-, 192-, and 256-bit encryption keys. No other key lengths are permitted. - - (Note: the current version of WinZip does not support encrypting files using 192-bit keys. This specification, however, does provide for the use of 192-bit keys, and WinZip is able to decrypt such files.) - - - **Compression method**: the compression method is the one that would otherwise have been stored in the local and central headers for the file. For example, if the file is imploded, this field will contain the compression code 6. This is needed because a compression method of 99 is used to indicate the presence of an AES-encrypted file (see [above](https://www.winzip.com/aes_info.htm#comp-method)). - -**III. Encrypted file storage format** - -1. File format - - Additional overhead data required for decryption is stored with the encrypted file itself (i.e., not in the headers). The actual format of the stored file is as follows; additional information about these fields is below. All fields are byte-aligned. - - |**Size (bytes)**|**Content**| - |:-|:-| - |Variable|Salt value| - |2|Password verification value| - |Variable|Encrypted file data| - |10|Authentication code| - - Note that the value in the "compressed size" fields of the local file header and the central directory entry is the total size of all the items listed above. In other words, it is the total size of the salt value, password verification value, encrypted data, and authentication code. - -2. Salt value - - The "salt" or "salt value" is a random or pseudo-random sequence of bytes that is combined with the encryption password to create encryption and authentication keys. The salt is generated by the encrypting application and is stored unencrypted with the file data. The addition of salt values to passwords provides a number of security benefits and makes dictionary attacks based on precomputed keys much more difficult. - - Good cryptographic practice requires that a different salt value be used for each of multiple files encrypted with the same password. If two files are encrypted with the same password and salt, they can leak information about each other. For example, it is possible to determine whether two files encrypted with the same password and salt are identical, and an attacker who somehow already knows the contents of one of two files encrypted with the same password and salt can determine some or all of the contents of the other file. Therefore, you should make every effort to use a unique salt value for each file. - - The size of the salt value depends on the length of the encryption key, as follows: - - |**Key size**|**Salt size**| - |:-|:-| - |128 bits|8 bytes| - |192 bits|12 bytes| - |256 bits|16 bytes| - -3. Password verification value - - This two-byte value is produced as part of the process that derives the encryption and decryption keys from the password. When encrypting, a verification value is derived from the encryption password and stored with the encrypted file. Before decrypting, a verification value can be derived from the decryption password and compared to the value stored with the file, serving as a quick check that will detect _most_, but not all, incorrect passwords. There is a 1 in 65,536 chance that an incorrect password will yield a matching verification value; therefore, a matching verification value cannot be absolutely relied on to indicate a correct password. - - Information on how to obtain the password verification value from Dr. Gladman's encryption library can be found on the [coding tips](https://www.winzip.com/aes_tips.html) page. - - This value is stored unencrypted. - -4. Encrypted file data - - Encryption is applied only to the content of files. It is performed after compression, and not to any other associated data. The file data is encrypted byte-for-byte using the AES encryption algorithm operating in "CTR" mode, which means that the lengths of the compressed data and the compressed, encrypted data are the same. - - It is important for implementors to note that, although the data is encrypted byte-for-byte, it is presented to the encryption and decryption functions in blocks. The block size used for encryption and decryption must be the same. To be compatible with the encryption specification, this block size must be 16 bytes (although the last block may be smaller). - -5. Authentication code - - Authentication provides a high quality check that the contents of an encrypted file have not been inadvertently changed or deliberately tampered with since they were first encrypted. In effect, this is a super-CRC check on the data in the file _after_ compression and encryption. (Additionally, authentication is essential when using CTR mode encryption because this mode is vulnerable to several trivial attacks in its absence.) - - The authentication code is derived from the output of the encryption process. [Dr. Gladman's AES code](https://www.winzip.com/aes_info.htm#encryption) provides this service, and information about how to obtain it is in the [coding tips](https://www.winzip.com/aes_tips.html). - - The authentication code is stored unencrypted. It is byte-aligned and immediately follows the last byte of encrypted data. - - For more discussion about authentication, see the [authentication code FAQ](https://www.winzip.com/aes_info.htm#auth-faq) below. - - -**IV. Changes in WinZip 11** - -Beginning with WinZip 11, WinZip makes a change in its use of the AE-1 and AE-2 file formats. The file formats themselves have not changed, and AES-encrypted files created by WinZip 11 are completely compatible with version 1.02 the WinZip AES encryption specification, which was published in January 2004. - -[WinZip 9.0](https://www.winzip.com/win/en/winzip-9.html) and [WinZip 10.0](https://www.winzip.com/win/en/winzip-10.html) stored all AES-encrypted files using the AE-2 file format, which does not store the encrypted file's CRC. WinZip 11 instead uses the AE-1 file format, which does store the CRC, for most files. This provides an extra integrity check against the possibility of hardware or software errors that occur during the actual process of [file compression/encryption](https://www.winzip.com/win/en/features/data-protection.html) or decryption/decompression. For more information on this point, see the discussion of the [CRC](https://www.winzip.com/aes_info.htm#crc-faq) below. - -Because for some very small files the CRC can be used to determine the exact contents of a file, regardless of the encryption method used, WinZip 11 continues to use the AE-2 file format, with no CRC stored, for files with an uncompressed size of less than 20 bytes. WinZip 11 also uses the AE-2 file format for files compressed in BZIP2 format, because the BZIP2 format contains its own integrity checks equivalent to those provided by the Zip format's CRC. - -Other vendors who support WinZip's AES encryption specification may want to consider making a similar change to their own implementations of the specification, to get the benefit of the extra integrity check that it provides. - -Note that the January 2004 version of the WinZip AE-2 specification, version 1.0.2, already required that all utilities that implemented the AE-2 format also be able to process files in AE-1 format, and should check on decryption/extraction of those files that the CRC was correct. - -**V. Notes** - -1. Non-files and zero-length files - - To reduce Zip file size, it is recommended that non-file entries such as folder/directory entries not be encrypted. This, however, is only a recommendation; it is permissible to encrypt or not encrypt these entries, as you prefer. - - On the other hand, it is recommended that you _do_ encrypt zero-length files. The presence of both encrypted and unencrypted files in a Zip file may trigger user warnings in some Zip file utilities, so the user experience may be improved if all files (including zero-length files) are encrypted. - - If zero-length files are encrypted, the encrypted data portion of the file storage (see [above](https://www.winzip.com/aes_info.htm#encrypted-data)) will be empty, but the remainder of the encryption overhead data must be present, both in the file storage area and in the local and central headers. - -2. "Mixed" Zip files - - There is no requirement that all files in a Zip file be encrypted or that all files that _are_ encrypted use the same encryption method or the same password. - - A Zip file can contain any combination of unencrypted files and files encrypted with any of the four currently defined encryption methods (Zip 2.0, AES-128, AES-192, AES-256). Encrypted files may use the same password or different passwords. - -3. Key Generation - - Key derivation, as used by AE-1 and AE-2 and as implemented in Dr. Gladman's library, is done according to the PBKDF2 algorithm, which is described in the [RFC2898](http://www.faqs.org/rfcs/rfc2898.html) guidelines. An iteration count of 1000 is used. An appropriate number of bits from the resulting hash value are used to compose three output values: an encryption key, an authentication key, and a password verification value. The first _n_ bits become the encryption key, the next _m_ bits become the authentication key, and the last 16 bits (two bytes) become the password verification value. - - As part of the process outlined in RFC 2898 a pseudo-random function must be called; AE-2 uses the HMAC-SHA1 function, since it is a well-respected algorithm that has been in wide use for this purpose for several years. - - Note that, when used in connection with 192- or 256-bit AES encryption, the fact that HMAC-SHA1 produces a 160-bit result means that, regardless of the password that you specify, the search space for the encryption key is unlikely to reach the theoretical 192- or 256-bit maximum, and cannot be guaranteed to exceed 160 bits. This is discussed in section B.1.1 of the [RFC2898 specification](http://www.faqs.org/rfcs/rfc2898.html). - - -**VI. FAQs** - -- **Why is the compression method field used to indicate AES encryption?** - - As opposed to using new _version made by_ and _version needed to extract_ values to signal AES encryption for a file, the new compression method is more likely to be handled gracefully by older versions of existing Zip file utilities. Zip file utilities typically do not attempt to extract files compressed with unknown methods, presumably notifying the user with an appropriate message. - -- **How can I guarantee that the salt value is unique?** - - In principle, the value of the salt should be different whenever the same password is used more than once, for the reasons described [above](https://www.winzip.com/aes_info.htm#salt), but this is difficult to guarantee. - - In practice, the number of bytes in the salt (as specified by AE-1 and AE-2) is such that using a pseudo-random value will ensure that the probability of duplicated salt values is very low and can be safely ignored. - - There is one exception to this: With the 8-byte salt values used with WinZip's 128-bit encryption it is likely that, if approximately 4 billion files are encrypted with the same password, two of the files will have the same salt, so it is advisable to stay well below this limit. Because of this, when using the same password to encrypt very large numbers of files in WinZip's AES encryption format (that is, files totalling in the millions, for example 2000 Zip files, each containing 1000 encrypted files), we recommend the use of 192-bit or 256-bit AES keys, with their 12- and 16-byte salt values, rather than 128-bit AES keys, with their 8-byte salt values. - - Although salt values do not need to be truly random, it is important that they be generated in a way that the probability of duplicated salt values is not significantly higher than that which would be expected if truly random values were being used. - - One technique for generating salt values is presented in the [coding tips](https://www.winzip.com/aes_tips.html#prng) page. - -- **Why is there an authentication code?** - - The purpose of the authentication code is to insure that, once a file's data has been compressed and encrypted, any accidental corruption of the encrypted data, and any deliberate attempts to modify the encrypted data by an attacker who does not know the password, can be detected. - - The current consensus in the cryptographic community is that associating a message authentication code (or MAC) with encrypted data has strong security value because it makes a number of attacks more difficult to engineer. For AES CTR mode encryption in particular, a MAC is especially important because a number of trivial attacks are possible in its absence. The MAC used with WinZip's AES encryption is based on[HMAC-SHA1-80](http://www.faqs.org/rfcs/rfc2104.html), a mature and widely respected authentication algorithm. - - The MAC is calculated after the file data has been compressed and encrypted. This order of calculation is referred to as Encrypt-then-MAC, and is preferred by many cryptographers to the alternative order of MAC-then-Encrypt because Encrypt-then-MAC is immune to some known attacks on MAC-then-Encrypt. - -- **What is the role of the CRC in WinZip 11?** - - Within the Zip format, the primary use of the CRC value is to detect accidental corruption of data that has been stored in the Zip file. With files encrypted according to the Zip 2.0 encryption specification, it also functions to some extent as a method of detecting deliberate attempts to modify the encrypted data, but not one that can be considered cryptographically strong. The CRC is not needed for these purposes with the WinZip AES encryption specification, where the HMAC-SHA1-based authentication code instead serves these roles. - - The CRC has a drawback in that for very small files, such as files with four or fewer bytes, the CRC can be used, independent of the encryption algorithm, to determine the unencrypted contents of the file. And, in general, it is preferable to store as little information as possible about the encrypted file in the unencrypted Zip headers. - - The CRC does serve one purpose that the authentication code does not. The CRC is computed based on the original uncompressed, unencrypted contents of the file, and it is checked after the file has been decrypted and decompressed. In contrast, the authentication code used with WinZip AES encryption is computed after compression/encryption and it is checked before decryption/decompression. In the very rare event of a hardware or software error that corrupts data during compression and encryption, or during decryption and decompression, the CRC will catch the error, but the authentication code will not. - - WinZip 9.0 and WinZip 10.0 used AE-2 for all files that they created, and did not store the CRC. As of WinZip 11, WinZip instead uses AE-1 for most files, storing the CRC as an additional integrity check against hardware or software errors occurring during the actual compression/encryption or decryption/decompression processes. WinZip 11 will continue to use AE-2, with no CRC, for very small files of less than 20 bytes. It will also use AE-2 for files compressed in BZIP2 format, because this format has internal integrity checks equivalent to a CRC check built in. - - Note that the AES-encrypted files created by WinZip 11 are fully compatible with January 2004's version 1.0.2 of the WinZip AES encryption specification, in which both the AE-1 and AE-2 variants of the file format were already defined. - - -**VII. Change history** - -**Changes made in document version 1.04, January, 2009:** Minor clarification regarding the algorithm used to generate the authentication code. - -**Changes made in document version 1.03, November, 2006:** Minor editorial and clarifying changes have been made throughout the document. The following substantive technical changes have been made: - -1. WinZip 11 Usage of AE-1 and AE-2 - - WinZip's AES encryption specification defines two formats, known as AE-1 and AE-2, which differ in whether the CRC of the encrypted file is stored in the Zip headers. While the file formats themselves remain unchanged, WinZip's usage of them is changing. Beginning with [WinZip 11](https://www.winzip.com/aes_info.htm#winzip11), WinZip uses the AE-1 format, which includes the CRC of the encrypted file, for many encrypted files, in order to provide an additional integrity check against hardware or software errors occurring during the compression/encryption or decryption/decompression processes. Note that AES-encrypted files created by WinZip 11 are completely compatible with the previous version of the WinZip encryption specification, January 2004's version 1.0.2. - -2. The discussion of [salt values](https://www.winzip.com/aes_info.htm#salt) mentions a limitation that applies to the uniqueness of salt values when very large numbers of files are encrypted with 128-bit encryption. -3. Older versions of this specification suggested that other vendors might want to use their own vendor IDs to create their own unique encryption formats. We no longer suggest that vendor-specific alternative encryption methods be created in this way. - -**Changes made in document version 1.02, January, 2004:** The introductory text at the start of the document has been rewritten, and minor editorial and clarifying changes have been made throughout the document. Two substantive technical changes have been made: - -1. AE-2 Specification - - Standard Zip files store the CRC of each file's unencrypted data. This value is used to help detect damage or other alterations to Zip files. However, storing the CRC value has a drawback in that, for a very small file, such as a file of four or fewer bytes, the CRC value can be used, independent of the encryption algorithm, to help determine the unencrypted contents of the file. - - Because of this, files encrypted with the new AE-2 method store a 0 in the CRC field of the Zip header, and use the [authentication code](https://www.winzip.com/aes_info.htm#authentication-code) instead of the CRC value to verify that encrypted data within the Zip file has not been corrupted. - - The only differences between the AE-1 and AE-2 methods are the storage in AE-2 of 0 instead of the CRC in the Zip file header,and the use in the AES extra data field of 0x0002 for AE-2 instead of 0x0001 for AE-1 as the vendor version. - - Zip utilities that support the AE-2 format are required to be able to read files that were created in the AE-1 format, and during decryption/extraction of files in AE-1 format should verify that the file's CRC matches the value stored in the CRC field. - -2. Key Generation and HMAC-SHA1 - - The description of the [key generation](https://www.winzip.com/aes_info.htm#key-generation) mechanism has been updated to point out a limitation arising from its use of HMAC-SHA1 as the pseudo-random function: When used in connection with 192- or 256-bit AES encryption, the fact that HMAC-SHA1 produces a 160-bit result means that, regardless of the password that you specify, the search space for the encryption key is unlikely to reach the theoretical 192- or 256-bit maximum, and cannot be guaranteed to exceed 160 bits. This is discussed in section B.1.1 of the [RFC2898 specification](http://www.faqs.org/rfcs/rfc2898.html). - -Document version: 1.04 -Last modified: January 30, 2009 - -Copyright© 2003-2018 Corel Corporation. -All Rights Reserved \ No newline at end of file