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/*! \page pkgformat Package format This document describes the RPM file format version 3.0, which is used by RPM versions 2.1 and greater. The format is subject to change, and you should not assume that this document is kept up to date with the latest RPM code. That said, the 3.0 format should not change for quite a while, and when it does, it will not be 3.0 anymore :-). \warning In any case, THE PROPER WAY TO ACCESS THESE STRUCTURES IS THROUGH THE RPM LIBRARY!! The RPM file format covers both source and binary packages. An RPM package file is divided in 4 logical sections: \verbatim . Lead -- 96 bytes of "magic" and other info . Signature -- collection of "digital signatures" . Header -- holding area for all the package information (aka "metadata") . Payload -- compressed archive of the file(s) in the package (aka "payload") \endverbatim All 2 and 4 byte "integer" quantities (int16 and int32) are stored in network byte order. When data is presented, the first number is the byte number, or address, in hex, followed by the byte values in hex, followed by character "translations" (where appropriate). \section pkgformat_lead Lead The Lead is basically for file(1). All the information contained in the Lead is duplicated or superceded by information in the Header. Much of the info in the Lead was used in old versions of RPM but is now ignored. The Lead is stored as a C structure: \code struct rpmlead { unsigned char magic[4]; unsigned char major, minor; short type; short archnum; char name[66]; short osnum; short signature_type; char reserved[16]; }; \endcode and is illustrated with one pulled from the rpm-2.1.2-1.i386.rpm package: \verbatim 00000000: ed ab ee db 03 00 00 00 \endverbatim The first 4 bytes (0-3) are "magic" used to uniquely identify an RPM package. It is used by RPM and file(1). The next two bytes (4, 5) are int8 quantities denoting the "major" and "minor" RPM file format version. This package is in 3.0 format. The following 2 bytes (6-7) form an int16 which indicates the package type. As of this writing there are only two types: 0 == binary, 1 == source. \verbatim 00000008: 00 01 72 70 6d 2d 32 2e ..rpm-2. \endverbatim The next two bytes (8-9) form an int16 that indicates the architecture the package was built for. While this is used by file(1), the true architecture is stored as a string in the Header. See, lib/misc.c for a list of architecture->int16 translations. In this case, 1 == i386. Starting with byte 10 and extending to byte 75, are 65 characters and a null byte which contain the familiar "name-version-release" of the package, padded with null (0) bytes. \verbatim 00000010: 31 2e 32 2d 31 00 00 00 1.2-1... 00000018: 00 00 00 00 00 00 00 00 ........ 00000020: 00 00 00 00 00 00 00 00 ........ 00000028: 00 00 00 00 00 00 00 00 ........ 00000030: 00 00 00 00 00 00 00 00 ........ 00000038: 00 00 00 00 00 00 00 00 ........ 00000040: 00 00 00 00 00 00 00 00 ........ 00000048: 00 00 00 00 00 01 00 05 ........ \endverbatim Bytes 76-77 ("00 01" above) form an int16 that indicates the OS the package was built for. In this case, 1 == Linux. The next 2 bytes (78-79) form an int16 that indicates the signature type. This tells RPM what to expect in the Signature. For version 3.0 packages, this is 5, which indicates the new "Header-style" signatures. \verbatim 00000050: 04 00 00 00 68 e6 ff bf ........ 00000058: ab ad 00 08 3c eb ff bf ........ \endverbatim The remaining 16 bytes (80-95) are currently unused and are reserved for future expansion. \section pkgformat_signature Signature A 3.0 format signature (denoted by signature type 5 in the Lead), uses the same structure as the Header. For historical reasons, this structure is called a "header structure", which can be confusing since it is used for both the Header and the Signature. The details of the header structure are given below, and you'll want to read them so the rest of this makes sense. The tags for the Signature are defined in lib/signature.h. The Signature can contain multiple signatures, of different types. There are currently only three types, each with its own tag in the header structure: \verbatim Name Tag Header Type ---- ---- ----------- SIZE 1000 INT_32 MD5 1001 BIN PGP 1002 BIN \endverbatim The MD5 signature is 16 bytes, and the PGP signature varies with the size of the PGP key used to sign the package. As of RPM 2.1, all packages carry at least SIZE and MD5 signatures, and the Signature section is padded to a multiple of 8 bytes. \section pkgformat_header Header The Header contains all the information about a package: name, version, file list, etc. It uses the same "header structure" as the Signature, which is described in detail below. A complete list of the tags for the Header would take too much space to list here, and the list grows fairly frequently. For the complete list see lib/rpmlib.h in the RPM sources. \section pkgformat_payload Payload The Payload is currently a gzipped cpio archive. The cpio archive type used is SVR4 with a CRC checksum. \section pkgformat_header_structure The Header Structure The header structure is a little complicated, but actually performs a very simple function. It acts almost like a small database in that it allows you to store and retrieve arbitrary data with a key called a "tag". When a header structure is written to disk, the data is written in network byte order, and when it is read from disk, is is converted to host byte order. Along with the tag and the data, a data "type" is stored, which indicates, obviously, the type of the data associated with the tag. There are currently 9 types: \verbatim Type Number ---- ------ NULL 0 CHAR 1 INT8 2 INT16 3 INT32 4 INT64 5 STRING 6 BIN 7 STRING_ARRAY 8 I18NSTRING_TYPE 9 \endverbatim One final piece of information is a "count" which is stored with each tag, and indicates the number of items of the associated type that are stored. As a special case, the STRING type is not allowed to have a count greater than 1. To store more than one string you must use a STRING_ARRAY. Altogether, the tag, type, count, and data are called an "Entry" or "Header Entry". \verbatim 00000000: 8e ad e8 01 00 00 00 00 ........ \endverbatim A header begins with 3 bytes of magic "8e ad e8" and a single byte to indicate the header version. The next four bytes (4-7) are reserved. \verbatim 00000008: 00 00 00 20 00 00 07 77 ........ \endverbatim The next four bytes (8-11) form an int32 that is a count of the number of entries stored (in this case, 32). Bytes 12-15 form an int32 that is a count of the number of bytes of data stored (that is, the number of bytes made up by the data portion of each entry). In this case it is 1911 bytes. \verbatim 00000010: 00 00 03 e8 00 00 00 06 00 00 00 00 00 00 00 01 ................ \endverbatim Following the first 16 bytes is the part of the header called the "index". The index is made of up "index entries", one for each entry in the header. Each index entry contains four int32 quantities. In order, they are: tag, type, offset, count. In the above example, we have tag=1000, type=6, offset=0, count=1. By looking up the the tag in lib/rpmlib.h we can see that this entry is for the package name. The type of the entry is a STRING. The offset is an offset from the start of the data part of the header to the data associated with this entry. The count indicates that there is only one string associated with the entry (which we really already knew since STRING types are not allowed to have a count greater than 1). In our example there would be 32 such 16-byte index entries, followed by the data section: \verbatim 00000210: 72 70 6d 00 32 2e 31 2e 32 00 31 00 52 65 64 20 rpm.2.1.2.1.Red 00000220: 48 61 74 20 50 61 63 6b 61 67 65 20 4d 61 6e 61 Hat Package Mana 00000230: 67 65 72 00 31 e7 cb b4 73 63 68 72 6f 65 64 65 ger.1...schroede 00000240: 72 2e 72 65 64 68 61 74 2e 63 6f 6d 00 00 00 00 r.redhat.com.... ... 00000970: 6c 69 62 63 2e 73 6f 2e 35 00 6c 69 62 64 62 2e libc.so.5.libdb. 00000980: 73 6f 2e 32 00 00 so.2.. \endverbatim The data section begins at byte 528 (4 magic, 4 reserved, 4 index entry count, 4 data byte count, 16 * 32 index entries). At offset 0, bytes 528-531 are "rpm" plus a null byte, which is the data for the first index entry (the package name). Following is is the data for each of the other entries. Each string is null terminated, the strings in a STRING_ARRAY are also null terminated and are place one after another. The integer types are aligned to appropriate byte boundaries, so that the data of INT64 type starts on an 8 byte boundary, INT32 type starts on a 4 byte boundary, and an INT16 type starts on a 2 byte boundary. For example: \verbatim 00000060: 00 00 03 ef 00 00 00 06 00 00 00 28 00 00 00 01 ................ 00000070: 00 00 03 f1 00 00 00 04 00 00 00 40 00 00 00 01 ................ ... 00000240: 72 2e 72 65 64 68 61 74 2e 63 6f 6d 00 00 00 00 r.redhat.com.... 00000250: 00 09 9b 31 52 65 64 20 48 61 74 20 4c 69 6e 75 ....Red Hat Linu \endverbatim Index entry number 6 is the BUILDHOST, of type STRING. Index entry number 7 is the SIZE, of type INT32. The corresponding data for entry 6 end at byte 588 with "....redhat.com\0". The next piece of data could start at byte 589, byte that is an improper boundary for an INT32. As a result, 3 null bytes are inserted and the date for the SIZE actually starts at byte 592: "00 09 9b 31", which is 629553). \section pkgformat_tools Tools The tools directory in the RPM sources contains a number of small programs that use the RPM library to pick apart packages. These tools are mostly used for debugging, but can also be used to help you understand the internals of the RPM package format. \verbatim rpmlead - extracts the Lead from a package rpmsignature - extracts the Signature from a package rpmheader - extracts the Header from a package rpmarchive - extracts the Archive from a package dump - displays a header structure in readable format \endverbatim Given a package foo.rpm you might try: \verbatim rpmlead foo.rpm | od -x rpmsignature foo.rpm | dump rpmheader foo.rpm | dump rpmarchive foo.rpm | zcat | cpio --list \endverbatim */