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* Furthered the "lazy caching" to force the pkgcache to read nothing (INFRQ_NONE) by default. Anything requiring package data should now check the infolevel of each package and attempt to update it. This could be ironed out a bit more later (by using the front-end get_info function * Switched to libfetch. Drastic changes to the download code and the callback progress bar functions. Also fixed the return value of _alpm_downloadfiles_forreal. Downloading now supports http, ftp, https, and files urls, along with 'mtime's and numerous other fancy features from libfetch. |
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========================================================================== README: Overview and internals of the ALPM library and the PACMAN frontend. This document describes the state of the implementation before its CVS import. At this stage, the code is in pre-alpha state, but the design should not change that much. There's still need for some work to get the current code properly working. The tag "ORE" was added in various places in the code, each time a point remains unclear or is not yet implemented. ========================================================================== ALPM library overview & internals ================================= Here is a list of the main objects and files from the ALPM (i.e. Arch Linux Package Management) library. This document, whilst not exhaustive, also indicates some limitations (on purpose, or sometimes due to its poor design) of the library at the present time. Note: there is one special file ("alpm.h") which is the public interface that should be distributed and installed on systems with the library. Only structures, data and functions declared within this file are made available to the frontend. Lots of structures are of an opaque type and their fields are only accessible in read-only mode, through some clearly defined functions. Note: several structures and functions have been renamed compared to pacman 2.9 code. This was done at first for the sake of naming scheme consistency, and then primarily because of potential namespace conflicts between library and frontend spaces. Indeed, it is not possible to have two different functions with the same name declared in both spaces. To avoid such conflicts, some function names have been prepended with "_alpm_". In a general manner, public library functions are named "alpm_<type>_<action>" (examples: alpm_trans_commit(), alpm_lib_release(), alpm_pkg_getinfo(), ...). Internal (and thus private) functions should be named "_alpm_XXX" for instance (examples: _alpm_needbackup(), _alpm_runscriplet(), ...). As of now, this scheme is only applied to most sensitive functions (mainly the ones from util.c), which have generic names, and thus, which are likely to be redefined in the frontend. One can consider that the frontend should have the priority in function names choice, and that it is up to the library to hide its symbols to avoid conflicts with the frontend ones. Finally, functions defined and used inside a single file should be defined as "static". [HANDLE] (see handle.c) The "handle" object is the heart of the library. It is a global structure available from almost all other objects (althought some very low level objects should not be aware of the handle object, like chained list, package or groups structures. There is only one instance, created by the frontend upon "alpm_lib_init()" call, and destroyed upon "alpm_lib_release()" call. alpm_lib_init() is used to initialize library internals and to create the handle object (handle != NULL). Before its call, the library can't be used. alpm_lib_release() just does the opposite (memory used by the library is freed, and handle is set to NULL). After its call, the library is no more available. The aim of the handle is to provide a central placeholder for essential library parameters (filesystem root, pointers to database objects, configuration parameters, ...) The handle also allows to register a log callback usable by the frontend to catch all sort of notifications from the library. The frontend can choose the level of verbosity (i.e. the mask), or can simply choose to not use the log callback. A friendly frontend should care at least for WARNING and ERROR notifications. Other notifications can safely be ignored and are mainly available for troubleshooting purpose. Last, but not least, the handle holds a _unique_ transaction object. [TRANSACTION] (see trans.c, and also alpm.c) The transaction sturcture permits easy manipulations of several packages at a time (i.e. adding, upgrade and removal operations). A transaction can be initiatied with a type (ADD, UPGRADE or REMOVE), and some flags (NODEPS, FORCE, CASCADE, ...). Note: there can only be one type at a time: a transaction is either created to add packages to the system, or either created to remove packages. The frontend can't request for mixed operations: it has to run several transactions, one at a time, in such a case. The flags allow to tweak the library behaviour during its resolution. Note, that some options of the handle can also modify the behavior of a transaction (NOUPGRADE, IGNOREPKG, ...). Note: once a transaction has been initiated, it is not possible anymore to modify its type or its flags. One can also add some targets to a transaction (alpm_trans_addtarget()). These targets represent the list of packages to be handled. Then, a transaction needs to be prepared (alpm_trans_prepare()). It means that the various targets added, will be inspected and challenged against the set of alreayd installed packages (dependency checkings, Last, a callback is associated with each transaction. During the transaction resolution, each time a new step is started or done (i.e dependency or conflict checkings, package adding or removal, ...), the callback is called, allowing the frontend to be aware of the progress of the resolution. Can be useful to implement a progress bar. [CONFIGURATION/OPTIONS] (see handle.c) The library does not use any configuration file. The handle holds a number of configuration options instead (IGNOREPKG, SYSLOG usage, log file name, registered databases, ...). It is up to the frontend to set the options of the library. Options can be manipulated using calls to alpm_set_option()/alpm_get_option(). Note: the file system root is a special option which can only be defined when calling alpm_lib_init(). It can't be modified afterwards. [CACHE] (see cache.c) Compared to pacman 2.9, there is now one cache object connected to each database object. There are both a package and a group cache. The cache is loaded only on demand (i.e the cache is loaded the first time data from it should be used). Note: the cache of a database is always updated by the library after an operation changing the database content (adding and/or removal of packages). Beware frontends ;) [PACKAGE] (see package.c, and also db.c) The package structure is using three new fields, namely: origin, data, infolevel. The purpose of these fields is to know some extra info about data stored in package structures. For instance, where is the package coming from (i.e origin)? Was it loaded from a file or loaded from the cache? If it's coming from a file, then the field data holds the full path and name of the file, and infolevel is set to the highest possible value (all package fields are reputed to be known). Otherwise, if the package comes from a database, data is a pointer to the database structure hosting the package, and infolevel is set according to the db_read() infolevel parameter (it is possible using db_read() to only read a part of the package datas). Indeed, to reduce database access, all packages data requested by the frontend are comming from the cache. As a consequence, the library needs to know exactly the level of information about packages it holds, and then decide if more data needs to be fetched from the database. In file alpm.c, have a look at alpm_pkg_getinfo() function to get an overview. [ERRORS] (error.c) The library provides a global variable pm_errno. It aims at being to the library what errno is for C system calls. Almost all public library functions are returning an integer value: 0 indicating success, whereas -1 would indicate a failure. If -1 is returned, the variable pm_errno is set to a meaningful value (not always yet, but it should improve ;). Wise frontends should always care for these returned values. Note: the helper function alpm_strerror() can also be used to translate the error code into a more friendly sentence. [LIST] (see list.c, and especially list wrappers in alpm.c) It is a double chained list structure, use only for the internal needs of the library. A frontend should be free to use its own data structures to manipulate packages. For instance, consider a graphical frontend using the gtk toolkit (and as a consequence the glib library). The frontend will make use of the glib chained lists or trees. As a consequence, the library only provides a simple and very small interface to retrieve pointers to its internal data (see functions alpm_list_first(), alpm_list_next() and alpm_list_getdata()), giving to the frontend the responsibility to copy and store the data retrieved from the library in its own data structures. PACMAN frontend overview & internals ==================================== Here are some words about the frontend responsibilities. The library can operate only a small set of well defined operations and dumy operations. High level features are left to the frontend ;) For instance, during a sysupgrade, the library returns the whole list of packages to be upgraded, without any care for its content. The frontend can inspect the list and perhaps notice that "pacman" itself has to be upgraded. In such a case, the frontend can choose to perform a special action. [MAIN] (see pacman.c) Calls for alpm_lib_init(), and alpm_lib_release(). Read the configuration file, and parse command line arguments. Based on the action requested, it initiates the appropriate transactions (see pacman_add(), pacman_remove(), pacman_sync() in files add.c, remove.c and sync.c). [CONFIGURATION] (see conf.c) The frontend is using a configuration file, usually "/etc/pacman.conf". Part of these options are only usefull for the frontend only (mainly, the download stuffs, and some options like HOLDPKG). The rest is used to configure the library. [ADD/UPGRADE/REMOVE/SYNC] Nothing new here, excepted some reorganization. The file pacman.c has been divided into several smaller files, namely add.c, remove.c, sync.c and query.c, to hold the big parts: pacman_add, pacman_remove, pacman_sync. These 3 functions have been splitted too to ease the code reading. [DONWLOAD] (see download.c) The library is not providing download facilities. As a consequence, it is up the the frontend to retrieve packages from Arch Linux servers. To do so, pacman is linked against an improved version of libftp supporting both http and ftp donwloads. As a consequence, the frontend is repsonsible for the directory /var/cache/pacman/pkgs. One can consider that this cache is a facility provided by pacman. Note: other frontends have to download packages by themselves too, although the cache directory can be shared by several frontends. [LIST] (see list.c) Single chained list. A minimalistic chained list implementation to store options from the configuration file, and targets passed to pacman on the command line. LIMITATIONS/BEHAVIOR CHANGES COMPARED TO PACMAN 2.9 =================================================== Excepted missing features still needing to be implemented, one can notice the following limitations: - If pacman is out of date, the frontend displays a warning and recommends to give up the on-going transanction. The frontend does not allow to upgrade pacman itself on-the-fly, and thus it should be restarted with only "pacman" as a target. - ...