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- <!-- -*- mode: sgml; mode: fold -*- -->
- <!doctype debiandoc PUBLIC "-//DebianDoc//DTD DebianDoc//EN">
- <book>
- <title>APT Cache File Format</title>
- <author>Jason Gunthorpe <email>jgg@debian.org</email></author>
- <version>$Id: cache.sgml,v 1.11 2003/02/12 15:05:44 doogie Exp $</version>
- <abstract>
- This document describes the complete implementation and format of the APT
- Cache file. The APT Cache file is a way for APT to parse and store a
- large number of package files for display in the UI. It's primary design
- goal is to make display of a single package in the tree very fast by
- pre-linking important things like dependencies and provides.
- The specification doubles as documentation for one of the in-memory
- structures used by the package library and the APT GUI.
- </abstract>
- <copyright>
- Copyright © Jason Gunthorpe, 1997-1998.
- <p>
- APT and this document are free software; you can redistribute them and/or
- modify them under the terms of the GNU General Public License as published
- by the Free Software Foundation; either version 2 of the License, or (at your
- option) any later version.
- <p>
- For more details, on Debian GNU/Linux systems, see the file
- /usr/share/common-licenses/GPL for the full license.
- </copyright>
- <toc sect>
- <chapt>Introduction
- <!-- Purpose {{{ -->
- <!-- ===================================================================== -->
- <sect>Purpose
- <p>
- This document describes the implementation of an architecture
- dependent binary cache file. The goal of this cache file is two fold,
- firstly to speed loading and processing of the package file array and
- secondly to reduce memory consumption of the package file array.
- <p>
- The implementation is aimed at an environment with many primary package
- files, for instance someone that has a Package file for their CD-ROM, a
- Package file for the latest version of the distribution on the CD-ROM and a
- package file for the development version. Always present is the information
- contained in the status file which might be considered a separate package
- file.
- <p>
- Please understand, this is designed as a -CACHE FILE- it is not meant to be
- used on any system other than the one it was created for. It is not meant to
- be authoritative either, i.e. if a system crash or software failure occurs it
- must be perfectly acceptable for the cache file to be in an inconsistent
- state. Furthermore at any time the cache file may be erased without losing
- any information.
- <p>
- Also the structures and storage layout is optimized for use by the APT
- GUI and may not be suitable for all purposes. However it should be possible
- to extend it with associate cache files that contain other information.
- <p>
- To keep memory use down the cache file only contains often used fields and
- fields that are inexpensive to store, the Package file has a full list of
- fields. Also the client may assume that all items are perfectly valid and
- need not perform checks against their correctness. Removal of information
- from the cache is possible, but blanks will be left in the file, and
- unused strings will also be present. The recommended implementation is to
- simply rebuild the cache each time any of the data files change. It is
- possible to add a new package file to the cache without any negative side
- effects.
- <sect1>Note on Pointer access
- <p>
- Every item in every structure is stored as the index to that structure.
- What this means is that once the files is mmaped every data access has to
- go through a fixup stage to get a real memory pointer. This is done
- by taking the index, multiplying it by the type size and then adding
- it to the start address of the memory block. This sounds complex, but
- in C it is a single array dereference. Because all items are aligned to
- their size and indexes are stored as multiples of the size of the structure
- the format is immediately portable to all possible architectures - BUT the
- generated files are -NOT-.
- <p>
- This scheme allows code like this to be written:
- <example>
- void *Map = mmap(...);
- Package *PkgList = (Package *)Map;
- Header *Head = (Header *)Map;
- char *Strings = (char *)Map;
- cout << (Strings + PkgList[Head->HashTable[0]]->Name) << endl;
- </example>
- <p>
- Notice the lack of casting or multiplication. The net result is to return
- the name of the first package in the first hash bucket, without error
- checks.
- <p>
- The generator uses allocation pools to group similarly sized structures in
- large blocks to eliminate any alignment overhead. The generator also
- assures that no structures overlap and all indexes are unique. Although
- at first glance it may seem like there is the potential for two structures
- to exist at the same point the generator never allows this to happen.
- (See the discussion of free space pools)
- <!-- }}} -->
- <chapt>Structures
- <!-- Header {{{ -->
- <!-- ===================================================================== -->
- <sect>Header
- <p>
- This is the first item in the file.
- <example>
- struct Header
- {
- // Signature information
- unsigned long Signature;
- short MajorVersion;
- short MinorVersion;
- bool Dirty;
-
- // Size of structure values
- unsigned short HeaderSz;
- unsigned short PackageSz;
- unsigned short PackageFileSz;
- unsigned short VersionSz;
- unsigned short DependencySz;
- unsigned short ProvidesSz;
- unsigned short VerFileSz;
-
- // Structure counts
- unsigned long PackageCount;
- unsigned long VersionCount;
- unsigned long DependsCount;
- unsigned long PackageFileCount;
-
- // Offsets
- unsigned long FileList; // PackageFile
- unsigned long StringList; // StringItem
- unsigned long VerSysName; // StringTable
- unsigned long Architecture; // StringTable
- unsigned long MaxVerFileSize;
-
- // Allocation pools
- struct
- {
- unsigned long ItemSize;
- unsigned long Start;
- unsigned long Count;
- } Pools[7];
- // Package name lookup
- unsigned long HashTable[2*1024]; // Package
- };
- </example>
- <taglist>
- <tag>Signature<item>
- This must contain the hex value 0x98FE76DC which is designed to verify
- that the system loading the image has the same byte order and byte size as
- the system saving the image
- <tag>MajorVersion
- <tag>MinorVersion<item>
- These contain the version of the cache file, currently 0.2.
- <tag>Dirty<item>
- Dirty is true if the cache file was opened for reading, the client expects
- to have written things to it and have not fully synced it. The file should
- be erased and rebuilt if it is true.
- <tag>HeaderSz
- <tag>PackageSz
- <tag>PackageFileSz
- <tag>VersionSz
- <tag>DependencySz
- <tag>VerFileSz
- <tag>ProvidesSz<item>
- *Sz contains the sizeof() that particular structure. It is used as an
- extra consistency check on the structure of the file.
- If any of the size values do not exactly match what the client expects then
- the client should refuse the load the file.
- <tag>PackageCount
- <tag>VersionCount
- <tag>DependsCount
- <tag>PackageFileCount<item>
- These indicate the number of each structure contained in the cache.
- PackageCount is especially useful for generating user state structures.
- See Package::Id for more info.
- <tag>VerSysName<item>
- String representing the version system used for this cache
- <tag>Architecture<item>
- Architecture the cache was built against.
- <tag>MaxVerFileSize<item>
- The maximum size of a raw entry from the original Package file
- (i.e. VerFile::Size) is stored here.
- <tag>FileList<item>
- This contains the index of the first PackageFile structure. The PackageFile
- structures are singly linked lists that represent all package files that
- have been merged into the cache.
- <tag>StringList<item>
- This contains a list of all the unique strings (string item type strings) in
- the cache. The parser reads this list into memory so it can match strings
- against it.
- <tag>Pools<item>
- The Pool structures manage the allocation pools that the generator uses.
- Start indicates the first byte of the pool, Count is the number of objects
- remaining in the pool and ItemSize is the structure size (alignment factor)
- of the pool. An ItemSize of 0 indicates the pool is empty. There should be
- the same number of pools as there are structure types. The generator
- stores this information so future additions can make use of any unused pool
- blocks.
- <tag>HashTable<item>
- HashTable is a hash table that provides indexing for all of the packages.
- Each package name is inserted into the hash table using the following has
- function:
- <example>
- unsigned long Hash(string Str)
- {
- unsigned long Hash = 0;
- for (const char *I = Str.begin(); I != Str.end(); I++)
- Hash += *I * ((Str.end() - I + 1));
- return Hash % _count(Head.HashTable);
- }
- </example>
- <p>
- By iterating over each entry in the hash table it is possible to iterate over
- the entire list of packages. Hash Collisions are handled with a singly linked
- list of packages based at the hash item. The linked list contains only
- packages that match the hashing function.
- </taglist>
- <!-- }}} -->
- <!-- Package {{{ -->
- <!-- ===================================================================== -->
- <sect>Package
- <p>
- This contains information for a single unique package. There can be any
- number of versions of a given package. Package exists in a singly
- linked list of package records starting at the hash index of the name in
- the Header->HashTable.
- <example>
- struct Pacakge
- {
- // Pointers
- unsigned long Name; // Stringtable
- unsigned long VersionList; // Version
- unsigned long CurrentVer; // Version
- unsigned long Section; // StringTable (StringItem)
-
- // Linked lists
- unsigned long NextPackage; // Package
- unsigned long RevDepends; // Dependency
- unsigned long ProvidesList; // Provides
-
- // Install/Remove/Purge etc
- unsigned char SelectedState; // What
- unsigned char InstState; // Flags
- unsigned char CurrentState; // State
- // Unique ID for this pkg
- unsigned short ID;
- unsigned long Flags;
- };
- </example>
- <taglist>
- <tag>Name<item>
- Name of the package.
- <tag>VersionList<item>
- Base of a singly linked list of version structures. Each structure
- represents a unique version of the package. The version structures
- contain links into PackageFile and the original text file as well as
- detailed information about the size and dependencies of the specific
- package. In this way multiple versions of a package can be cleanly handled
- by the system. Furthermore, this linked list is guaranteed to be sorted
- from Highest version to lowest version with no duplicate entries.
- <tag>CurrentVer<item>
- CurrentVer is an index to the installed version, either can be
- 0.
- <tag>Section<item>
- This indicates the deduced section. It should be "Unknown" or the section
- of the last parsed item.
- <tag>NextPackage<item>
- Next link in this hash item. This linked list is based at Header.HashTable
- and contains only packages with the same hash value.
- <tag>RevDepends<item>
- Reverse Depends is a linked list of all dependencies linked to this package.
- <tag>ProvidesList<item>
- This is a linked list of all provides for this package name.
- <tag>SelectedState
- <tag>InstState
- <tag>CurrentState<item>
- These correspond to the 3 items in the Status field found in the status
- file. See the section on defines for the possible values.
- <p>
- SelectedState is the state that the user wishes the package to be
- in.
- <p>
- InstState is the installation state of the package. This normally
- should be OK, but if the installation had an accident it may be otherwise.
- <p>
- CurrentState indicates if the package is installed, partially installed or
- not installed.
- <tag>ID<item>
- ID is a value from 0 to Header->PackageCount. It is a unique value assigned
- by the generator. This allows clients to create an array of size PackageCount
- and use it to store state information for the package map. For instance the
- status file emitter uses this to track which packages have been emitted
- already.
- <tag>Flags<item>
- Flags are some useful indicators of the package's state.
- </taglist>
- <!-- }}} -->
- <!-- PackageFile {{{ -->
- <!-- ===================================================================== -->
- <sect>PackageFile
- <p>
- This contains information for a single package file. Package files are
- referenced by Version structures. This is a singly linked list based from
- Header.FileList
- <example>
- struct PackageFile
- {
- // Names
- unsigned long FileName; // Stringtable
- unsigned long Archive; // Stringtable
- unsigned long Component; // Stringtable
- unsigned long Version; // Stringtable
- unsigned long Origin; // Stringtable
- unsigned long Label; // Stringtable
- unsigned long Architecture; // Stringtable
- unsigned long Site; // Stringtable
- unsigned long IndexType; // Stringtable
- unsigned long Size;
- // Linked list
- unsigned long NextFile; // PackageFile
- unsigned short ID;
- unsigned long Flags;
- time_t mtime; // Modification time
- };
- </example>
- <taglist>
- <tag>FileName<item>
- Refers the the physical disk file that this PacakgeFile represents.
- <tag>Archive
- <tag>Component
- <tag>Version
- <tag>Origin
- <tag>Label
- <tag>Architecture
- <tag>NotAutomatic<item>
- This is the release information. Please see the files document for a
- description of what the release information means.
- <tag>Site<item>
- The site the index file was fetched from.
- <tag>IndexType<item>
- A string indicating what sort of index file this is.
- <tag>Size<item>
- Size is provided as a simple check to ensure that the package file has not
- been altered.
- <tag>ID<item>
- See Package::ID.
- <tag>Flags<item>
- Provides some flags for the PackageFile, see the section on defines.
- <tag>mtime<item>
- Modification time for the file at time of cache generation.
- </taglist>
- <!-- }}} -->
- <!-- Version {{{ -->
- <!-- ===================================================================== -->
- <sect>Version
- <p>
- This contains the information for a single version of a package. This is a
- single linked list based from Package.Versionlist.
- <p>
- The version list is always sorted from highest version to lowest version by
- the generator. Also there may not be any duplicate entries in the list (same
- VerStr).
- <example>
- struct Version
- {
- unsigned long VerStr; // Stringtable
- unsigned long Section; // StringTable (StringItem)
- unsigned long Arch; // StringTable
-
- // Lists
- unsigned long FileList; // VerFile
- unsigned long NextVer; // Version
- unsigned long DependsList; // Dependency
- unsigned long ParentPkg; // Package
- unsigned long ProvidesList; // Provides
-
- unsigned long Size;
- unsigned long InstalledSize;
- unsigned long Hash;
- unsigned short ID;
- unsigned char Priority;
- };
- </example>
- <taglist>
- <tag>VerStr<item>
- This is the complete version string.
- <tag>FileList<item>
- References the all the PackageFile's that this version came out of. FileList
- can be used to determine what distribution(s) the Version applies to. If
- FileList is 0 then this is a blank version. The structure should also have
- a 0 in all other fields excluding VerStr and Possibly NextVer.
- <tag>Section<item>
- This string indicates which section it is part of. The string should be
- contained in the StringItem list.
- <tag>Arch<item>
- Architecture the package was compiled for.
- <tag>NextVer<item>
- Next step in the linked list.
- <tag>DependsList<item>
- This is the base of the dependency list.
- <tag>ParentPkg<item>
- This links the version to the owning package, allowing reverse dependencies
- to determine the package.
- <tag>ProvidesList<item>
- Head of the linked list of Provides::NextPkgProv, forward provides.
- <tag>Size
- <tag>InstalledSize<item>
- The archive size for this version. For Debian this is the size of the .deb
- file. Installed size is the uncompressed size for this version
- <tag>Hash<item>
- This is a characteristic value representing this package. No two packages
- in existence should have the same VerStr and Hash with different contents.
- <tag>ID<item>
- See Package::ID.
- <tag>Priority<item>
- This is the parsed priority value of the package.
- </taglist>
- <!-- }}} -->
- <!-- Dependency {{{ -->
- <!-- ===================================================================== -->
- <sect>Dependency
- <p>
- Dependency contains the information for a single dependency record. The records
- are split up like this to ease processing by the client. The base of list
- linked list is Version.DependsList. All forms of dependencies are recorded
- here including Conflicts, Suggests and Recommends.
- <p>
- Multiple depends on the same package must be grouped together in
- the Dependency lists. Clients should assume this is always true.
- <example>
- struct Dependency
- {
- unsigned long Version; // Stringtable
- unsigned long Package; // Package
- unsigned long NextDepends; // Dependency
- unsigned long NextRevDepends; // Reverse dependency linking
- unsigned long ParentVer; // Upwards parent version link
-
- // Specific types of depends
- unsigned char Type;
- unsigned char CompareOp;
- unsigned short ID;
- };
- </example>
- <taglist>
- <tag>Version<item>
- The string form of the version that the dependency is applied against.
- <tag>Package<item>
- The index of the package file this depends applies to. If the package file
- does not already exist when the dependency is inserted a blank one (no
- version records) should be created.
- <tag>NextDepends<item>
- Linked list based off a Version structure of all the dependencies in that
- version.
- <tag>NextRevDepends<item>
- Reverse dependency linking, based off a Package structure. This linked list
- is a list of all packages that have a depends line for a given package.
- <tag>ParentVer<item>
- Parent version linking, allows the reverse dependency list to link
- back to the version and package that the dependency are for.
- <tag>Type<item>
- Describes weather it is depends, predepends, recommends, suggests, etc.
- <tag>CompareOp<item>
- Describes the comparison operator specified on the depends line. If the high
- bit is set then it is a logical or with the previous record.
- <tag>ID<item>
- See Package::ID.
- </taglist>
- <!-- }}} -->
- <!-- Provides {{{ -->
- <!-- ===================================================================== -->
- <sect>Provides
- <p>
- Provides handles virtual packages. When a Provides: line is encountered
- a new provides record is added associating the package with a virtual
- package name. The provides structures are linked off the package structures.
- This simplifies the analysis of dependencies and other aspects A provides
- refers to a specific version of a specific package, not all versions need to
- provide that provides.
- <p>
- There is a linked list of provided package names started from each
- version that provides packages. This is the forwards provides mechanism.
- <example>
- struct Provides
- {
- unsigned long ParentPkg; // Package
- unsigned long Version; // Version
- unsigned long ProvideVersion; // Stringtable
- unsigned long NextProvides; // Provides
- unsigned long NextPkgProv; // Provides
- };
- </example>
- <taglist>
- <tag>ParentPkg<item>
- The index of the package that head of this linked list is in. ParentPkg->Name
- is the name of the provides.
- <tag>Version<item>
- The index of the version this provide line applies to.
- <tag>ProvideVersion<item>
- Each provides can specify a version in the provides line. This version allows
- dependencies to depend on specific versions of a Provides, as well as allowing
- Provides to override existing packages. This is experimental.
- <tag>NextProvides<item>
- Next link in the singly linked list of provides (based off package)
- <tag>NextPkgProv<item>
- Next link in the singly linked list of provides for 'Version'.
- </taglist>
- <!-- }}} -->
- <!-- VerFile {{{ -->
- <!-- ===================================================================== -->
- <sect>VerFile
- <p>
- VerFile associates a version with a PackageFile, this allows a full
- description of all Versions in all files (and hence all sources) under
- consideration.
- <example>
- struct pkgCache::VerFile
- {
- unsigned long File; // PackageFile
- unsigned long NextFile; // PkgVerFile
- unsigned long Offset;
- unsigned short Size;
- }
- </example>
- <taglist>
- <tag>File<item>
- The index of the package file that this version was found in.
- <tag>NextFile<item>
- The next step in the linked list.
- <tag>Offset
- <tag>Size<item>
- These describe the exact position in the package file for the section from
- this version.
- </taglist>
- <!-- }}} -->
- <!-- StringItem {{{ -->
- <!-- ===================================================================== -->
- <sect>StringItem
- <p>
- StringItem is used for generating single instances of strings. Some things
- like Section Name are are useful to have as unique tags. It is part of
- a linked list based at Header::StringList.
- <example>
- struct StringItem
- {
- unsigned long String; // Stringtable
- unsigned long NextItem; // StringItem
- };
- </example>
- <taglist>
- <tag>String<item>
- The string this refers to.
- <tag>NextItem<item>
- Next link in the chain.
- </taglist>
- <!-- }}} -->
- <!-- StringTable {{{ -->
- <!-- ===================================================================== -->
- <sect>StringTable
- <p>
- All strings are simply inlined any place in the file that is natural for the
- writer. The client should make no assumptions about the positioning of
- strings. All stringtable values point to a byte offset from the start of the
- file that a null terminated string will begin.
- <!-- }}} -->
- <!-- Defines {{{ -->
- <!-- ===================================================================== -->
- <sect>Defines
- <p>
- Several structures use variables to indicate things. Here is a list of all
- of them.
- <sect1>Definitions for Dependency::Type
- <p>
- <example>
- #define pkgDEP_Depends 1
- #define pkgDEP_PreDepends 2
- #define pkgDEP_Suggests 3
- #define pkgDEP_Recommends 4
- #define pkgDEP_Conflicts 5
- #define pkgDEP_Replaces 6
- </example>
- </sect1>
- <sect1>Definitions for Dependency::CompareOp
- <p>
- <example>
- #define pkgOP_OR 0x10
- #define pkgOP_LESSEQ 0x1
- #define pkgOP_GREATEREQ 0x2
- #define pkgOP_LESS 0x3
- #define pkgOP_GREATER 0x4
- #define pkgOP_EQUALS 0x5
- </example>
- The lower 4 bits are used to indicate what operator is being specified and
- the upper 4 bits are flags. pkgOP_OR indicates that the next package is
- or'd with the current package.
- </sect1>
- <sect1>Definitions for Package::SelectedState
- <p>
- <example>
- #define pkgSTATE_Unkown 0
- #define pkgSTATE_Install 1
- #define pkgSTATE_Hold 2
- #define pkgSTATE_DeInstall 3
- #define pkgSTATE_Purge 4
- </example>
- </sect1>
- <sect1>Definitions for Package::InstState
- <p>
- <example>
- #define pkgSTATE_Ok 0
- #define pkgSTATE_ReInstReq 1
- #define pkgSTATE_Hold 2
- #define pkgSTATE_HoldReInstReq 3
- </example>
- </sect1>
- <sect1>Definitions for Package::CurrentState
- <p>
- <example>
- #define pkgSTATE_NotInstalled 0
- #define pkgSTATE_UnPacked 1
- #define pkgSTATE_HalfConfigured 2
- #define pkgSTATE_UnInstalled 3
- #define pkgSTATE_HalfInstalled 4
- #define pkgSTATE_ConfigFiles 5
- #define pkgSTATE_Installed 6
- </example>
- </sect1>
- <sect1>Definitions for Package::Flags
- <p>
- <example>
- #define pkgFLAG_Auto (1 << 0)
- #define pkgFLAG_New (1 << 1)
- #define pkgFLAG_Obsolete (1 << 2)
- #define pkgFLAG_Essential (1 << 3)
- #define pkgFLAG_ImmediateConf (1 << 4)
- </example>
- </sect1>
- <sect1>Definitions for Version::Priority
- <p>
- Zero is used for unparsable or absent Priority fields.
- <example>
- #define pkgPRIO_Important 1
- #define pkgPRIO_Required 2
- #define pkgPRIO_Standard 3
- #define pkgPRIO_Optional 4
- #define pkgPRIO_Extra 5
- </example>
- </sect1>
- <sect1>Definitions for PackageFile::Flags
- <p>
- <example>
- #define pkgFLAG_NotSource (1 << 0)
- #define pkgFLAG_NotAutomatic (1 << 1)
- </example>
- </sect1>
- <!-- }}} -->
- <chapt>Notes on the Generator
- <!-- Notes on the Generator {{{ -->
- <!-- ===================================================================== -->
- <p>
- The pkgCache::MergePackageFile function is currently the only generator of
- the cache file. It implements a conversion from the normal textual package
- file into the cache file.
- <p>
- The generator assumes any package declaration with a
- Status: line is a 'Status of the package' type of package declaration.
- A Package with a Target-Version field should also really have a status field.
- The processing of a Target-Version field can create a place-holder Version
- structure that is empty to refer to the specified version (See Version
- for info on what a empty Version looks like). The Target-Version syntax
- allows the specification of a specific version and a target distribution.
- <p>
- Different section names on different versions is supported, but I
- do not expect to use it. To simplify the GUI it will merely use the section
- in the Package structure. This should be okay as I hope sections do not change
- much.
- <p>
- The generator goes through a number of post processing steps after producing
- a disk file. It sorts all of the version lists to be in descending order
- and then generates the reverse dependency lists for all of the packages.
- ID numbers and count values are also generated in the post processing step.
- <p>
- It is possible to extend many of the structures in the cache with extra data.
- This is done by using the ID member. ID will be a unique number from 0 to
- Header->??Count. For example
- <example>
- struct MyPkgData;
- MyPkgData *Data = new MyPkgData[Header->PackageCount];
- Data[Package->ID]->Item = 0;
- </example>
- This provides a one way reference between package structures and user data. To
- get a two way reference would require a member inside the MyPkgData structure.
- <p>
- The generators use of free space pools tend to make the package file quite
- large, and quite full of blank space. This could be fixed with sparse files.
- <!-- }}} -->
- <chapt>Future Directions
- <!-- Future Directions {{{ -->
- <!-- ===================================================================== -->
- <p>
- Some good directions to take the cache file is into a cache directory that
- contains many associated caches that cache other important bits of
- information. (/var/cache/apt, FHS2)
- <p>
- Caching of the info/*.list is an excellent place to start, by generating all
- the list files into a tree structure and reverse linking them to the package
- structures in the main cache file major speed gains in dpkg might be achieved.
- <!-- }}} -->
- </book>
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