// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ /* ###################################################################### System - Abstraction for running on different systems. Instances of this class can be thought of as factories or meta-classes for a variety of more specialized classes. Together this class and it's specialized offspring completely define the environment and how to access resources for a specific system. There are several sub areas that are all orthogonal - each system has a unique combination of these sub areas: - Versioning. Different systems have different ideas on versions. Within a system all sub classes must follow the same versioning rules. - Local tool locking to prevent multiple tools from accessing the same database. - Candidate Version selection policy - this is probably almost always managed using a standard APT class - Actual Package installation * Indication of what kind of binary formats are supported - Selection of local 'status' indexes that make up the pkgCache. It is important to note that the handling of index files is not a function of the system. Index files are handled through a separate abstraction - the only requirement is that the index files have the same idea of versioning as the target system. Upon startup each supported system instantiates an instance of the pkgSystem class (using a global constructor) which will make itself available to the main APT init routine. That routine will select the proper system and make it the global default. ##################################################################### */ /*}}}*/ #ifndef PKGLIB_PKGSYSTEM_H #define PKGLIB_PKGSYSTEM_H #include <apt-pkg/pkgcache.h> #include <vector> #ifndef APT_8_CLEANER_HEADERS #include <apt-pkg/depcache.h> #endif class pkgDepCache; class pkgPackageManager; class pkgVersioningSystem; class Configuration; class pkgIndexFile; class pkgSystemPrivate; class pkgSystem { public: // Global list of supported systems static pkgSystem **GlobalList; static unsigned long GlobalListLen; static pkgSystem *GetSystem(const char *Label); const char * const Label; pkgVersioningSystem * const VS; /* Prevent other programs from touching shared data not covered by other locks (cache or state locks) */ virtual bool Lock() = 0; virtual bool UnLock(bool NoErrors = false) = 0; /* Various helper classes to interface with specific bits of this environment */ virtual pkgPackageManager *CreatePM(pkgDepCache *Cache) const = 0; /* Load environment specific configuration and perform any other setup necessary */ virtual bool Initialize(Configuration &/*Cnf*/) {return true;}; /* Type is some kind of Globally Unique way of differentiating archive file types.. */ virtual bool ArchiveSupported(const char *Type) = 0; // Return a list of system index files.. virtual bool AddStatusFiles(std::vector<pkgIndexFile *> &List) = 0; virtual bool FindIndex(pkgCache::PkgFileIterator File, pkgIndexFile *&Found) const = 0; /* Evauluate how 'right' we are for this system based on the filesystem etc.. */ virtual signed Score(Configuration const &/*Cnf*/) { return 0; }; //FIXME: these methods should be virtual /** does this system has support for MultiArch? * * Systems supporting only single arch (not systems which are single arch) * are considered legacy systems and support for it will likely degrade over * time. * * The default implementation returns always \b true. * * @return \b true if the system supports MultiArch, \b false if not. */ bool MultiArchSupported() const; /** architectures supported by this system * * A MultiArch capable system might be configured to use * this capability. * * @return a list of all architectures (native + foreign) configured * for on this system (aka: which can be installed without force) */ std::vector<std::string> ArchitecturesSupported() const; APT_HIDDEN void SetVersionMapping(map_id_t const in, map_id_t const out); APT_HIDDEN map_id_t GetVersionMapping(map_id_t const in) const; pkgSystem(char const * const Label, pkgVersioningSystem * const VS); virtual ~pkgSystem(); /* companions to Lock()/UnLock * * These functions can be called prior to calling dpkg to release an inner * lock without releasing the overall outer lock, so that dpkg can run * correctly but no other APT instance can acquire the system lock. */ bool LockInner(); bool UnLockInner(bool NoErrors = false); /// checks if the system is currently locked bool IsLocked(); private: pkgSystemPrivate * const d; }; // The environment we are operating in. extern pkgSystem *_system; #endif