module Puppet::Pops module Loader # =ModuleLoaders # A ModuleLoader loads items from a single module. # The ModuleLoaders (ruby) module contains various such loaders. There is currently one concrete # implementation, ModuleLoaders::FileBased that loads content from the file system. # Other implementations can be created - if they are based on name to path mapping where the path # is relative to a root path, they can derive the base behavior from the ModuleLoaders::AbstractPathBasedModuleLoader class. # # Examples of such extensions could be a zip/jar/compressed file base loader. # # Notably, a ModuleLoader does not configure itself - it is given the information it needs (the root, its name etc.) # Logic higher up in the loader hierarchy of things makes decisions based on the "shape of modules", and "available # modules" to determine which module loader to use for each individual module. (There could be differences in # internal layout etc.) # # A module loader is also not aware of the mapping of name to relative paths - this is performed by the # included module PathBasedInstantatorConfig which knows about the map from type/name to # relative path, and the logic that can instantiate what is expected to be found in the content of that path. # # @api private # module ModuleLoaders def self.system_loader_from(parent_loader, loaders) # Puppet system may be installed in a fixed location via RPM, installed as a Gem, via source etc. # The only way to find this across the different ways puppet can be installed is # to search up the path from this source file's __FILE__ location until it finds the base of # puppet. # puppet_lib = File.join(File.dirname(__FILE__), '../../..') ModuleLoaders::FileBased.new(parent_loader, loaders, nil, puppet_lib, # may or may not have a 'lib' above 'puppet' 'puppet_system', [:func_4x] # only load ruby functions from "puppet" ) end def self.environment_loader_from(parent_loader, loaders, env_path) ModuleLoaders::FileBased.new(parent_loader, loaders, ENVIRONMENT, File.join(env_path, 'lib'), ENVIRONMENT ) end def self.module_loader_from(parent_loader, loaders, module_name, module_path) ModuleLoaders::FileBased.new(parent_loader, loaders, module_name, File.join(module_path, 'lib'), module_name ) end def self.pcore_resource_type_loader_from(parent_loader, loaders, environment_path) ModuleLoaders::FileBased.new(parent_loader, loaders, nil, environment_path, 'pcore_resource_types' ) end class AbstractPathBasedModuleLoader < BaseLoader # The name of the module, or nil, if this is a global "component" attr_reader :module_name # The path to the location of the module/component - semantics determined by subclass attr_reader :path # A map of type to smart-paths that help with minimizing the number of paths to scan attr_reader :smart_paths # A Module Loader has a private loader, it is lazily obtained on request to provide the visibility # for entities contained in the module. Since a ModuleLoader also represents an environment and it is # created a different way, this loader can be set explicitly by the loaders bootstrap logic. # # @api private attr_accessor :private_loader # Initialize a kind of ModuleLoader for one module # @param parent_loader [Loader] loader with higher priority # @param loaders [Loaders] the container for this loader # @param module_name [String] the name of the module (non qualified name), may be nil for a global "component" # @param path [String] the path to the root of the module (semantics defined by subclass) # @param loader_name [String] a name that is used for human identification (useful when module_name is nil) # def initialize(parent_loader, loaders, module_name, path, loader_name, loadables) super parent_loader, loader_name @module_name = module_name @path = path @smart_paths = LoaderPaths::SmartPaths.new(self) @loaders = loaders @loadables = loadables unless (loadables - LOADABLE_KINDS).empty? raise ArgumentError, 'given loadables are not of supported loadable kind' end loaders.add_loader_by_name(self) end def loadables @loadables end # Finds typed/named entity in this module # @param typed_name [TypedName] the type/name to find # @return [Loader::NamedEntry, nil found/created entry, or nil if not found # def find(typed_name) # This loader is tailored to only find entries in the current runtime return nil unless typed_name.name_authority == Pcore::RUNTIME_NAME_AUTHORITY # Assume it is a global name, and that all parts of the name should be used when looking up name_parts = typed_name.name_parts # Certain types and names can be disqualified up front if name_parts.size > 1 # The name is in a name space. # Then entity cannot possible be in this module unless the name starts with the module name. # Note: If "module" represents a "global component", the module_name is nil and cannot match which is # ok since such a "module" cannot have namespaced content). # return nil unless name_parts[0] == module_name else # The name is in the global name space. # The only globally name-spaced elements that may be loaded from modules are functions and resource types case typed_name.type when :function when :resource_type when :resource_type_pp when :type else # anything else cannot possibly be in this module # TODO: should not be allowed anyway... may have to revisit this decision return nil end end # Get the paths that actually exist in this module (they are lazily processed once and cached). # The result is an array (that may be empty). # Find the file to instantiate, and instantiate the entity if file is found origin = nil if (smart_path = smart_paths.effective_paths(typed_name.type).find do |sp| origin = sp.effective_path(typed_name, global? ? 0 : 1) existing_path(origin) end) value = smart_path.instantiator.create(self, typed_name, origin, get_contents(origin)) # cache the entry and return it set_entry(typed_name, value, origin) else nil end end # Abstract method that subclasses override that checks if it is meaningful to search using a generic smart path. # This optimization is performed to not be tricked into searching an empty directory over and over again. # The implementation may perform a deep search for file content other than directories and cache this in # and index. It is guaranteed that a call to meaningful_to_search? takes place before checking any other # path with relative_path_exists?. # # This optimization exists because many modules have been created from a template and they have # empty directories for functions, types, etc. (It is also the place to create a cached index of the content). # # @param smart_path [String] a path relative to the module's root # @return [Boolean] true if there is content in the directory appointed by the relative path # def meaningful_to_search?(smart_path) raise NotImplementedError.new end # Abstract method that subclasses override to answer if the given relative path exists, and if so returns that path # # @param resolved_path [String] a path resolved by a smart path against the loader's root (if it has one) # @return [Boolean] true if the file exists # def existing_path(resolved_path) raise NotImplementedError.new end # Abstract method that subclasses override to produce the content of the effective path. # It should either succeed and return a String or fail with an exception. # # @param effective_path [String] a path as resolved by a smart path # @return [String] the content of the file # def get_contents(effective_path) raise NotImplementedError.new end # Abstract method that subclasses override to produce a source reference String used to identify the # system resource (resource in the URI sense). # # @param relative_path [String] a path relative to the module's root # @return [String] a reference to the source file (in file system, zip file, or elsewhere). # def get_source_ref(relative_path) raise NotImplementedError.new end # Answers the question if this loader represents a global component (true for resource type loader and environment loader) # # @return [Boolean] `true` if this loader represents a global component # def global? module_name.nil? || module_name == ENVIRONMENT end # Produces the private loader for the module. If this module is not already resolved, this will trigger resolution # def private_loader # The system loader has a nil module_name and it does not have a private_loader as there are no functions # that can only by called by puppet runtime - if so, it acts as the private loader directly. @private_loader ||= (global? ? self : @loaders.private_loader_for_module(module_name)) end end # @api private # class FileBased < AbstractPathBasedModuleLoader attr_reader :smart_paths attr_reader :path_index # Create a kind of ModuleLoader for one module (Puppet Module, or module like) # # @param parent_loader [Loader] typically the loader for the environment or root # @param module_name [String] the name of the module (non qualified name), may be nil for "modules" only containing globals # @param path [String] the path to the root of the module (semantics defined by subclass) # @param loader_name [String] a name that identifies the loader # def initialize(parent_loader, loaders, module_name, path, loader_name, loadables = LOADABLE_KINDS) super @path_index = Set.new() end def existing_path(effective_path) # Optimized, checks index instead of visiting file system @path_index.include?(effective_path) ? effective_path : nil end def meaningful_to_search?(smart_path) ! add_to_index(smart_path).empty? end def to_s() "(ModuleLoader::FileBased '#{loader_name()}' '#{module_name()}')" end def add_to_index(smart_path) found = Dir.glob(File.join(smart_path.generic_path, '**', "*#{smart_path.extension}")) @path_index.merge(found) found end def get_contents(effective_path) Puppet::FileSystem.read(effective_path, :encoding => 'utf-8') end end # Loads from a gem specified as a URI, gem://gemname/optional/path/in/gem, or just a String gemname. # The source reference (shown in errors etc.) is the expanded path of the gem as this is believed to be more # helpful - given the location it should be quite obvious which gem it is, without the location, the user would # need to go on a hunt for where the file actually is located. # # TODO: How does this get instantiated? Does the gemname refelect the name of the module (the namespace) # or is that specified a different way? Can a gem be the container of multiple modules? # # @api private # class GemBased < FileBased include GemSupport attr_reader :gem_ref # Create a kind of ModuleLoader for one module # The parameters are: # * parent_loader - typically the loader for the root # * module_name - the name of the module (non qualified name) # * gem_ref - [URI, String] gem reference to the root of the module (URI, gem://gemname/optional/path/in/gem), or # just the gem's name as a String. # def initialize(parent_loader, loaders, module_name, gem_ref, loader_name, loadables = LOADABLE_KINDS) @gem_ref = gem_ref super parent_loader, loaders, module_name, gem_dir(gem_ref), loader_name, loadables end def to_s() "(ModuleLoader::GemBased '#{loader_name()}' '#{@gem_ref}' [#{module_name()}])" end end end end end