# # Author:: Adam Jacob () # Copyright:: Copyright 2008-2018, Chef Software Inc. # License:: Apache License, Version 2.0 # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # require_relative "../mixin/shell_out" require_relative "../mixin/subclass_directive" require_relative "../log" require_relative "../file_cache" require_relative "../platform" require_relative "../decorator/lazy_array" require "shellwords" unless defined?(Shellwords) class Chef class Provider class Package < Chef::Provider include Chef::Mixin::ShellOut extend Chef::Mixin::SubclassDirective # subclasses declare this if they want all their arguments as arrays of packages and names subclass_directive :use_multipackage_api # subclasses declare this if they want sources (filenames) pulled from their package names subclass_directive :use_package_name_for_source # keeps package_names_for_targets and versions_for_targets indexed the same as package_name at # the cost of having the subclass needing to deal with nils subclass_directive :allow_nils # # Hook that subclasses use to populate the candidate_version(s) # # @return [Array, String] candidate_version(s) may be a string or array attr_accessor :candidate_version def initialize(new_resource, run_context) super @candidate_version = nil end def options new_resource.options end def check_resource_semantics! # FIXME: this is not universally true and subclasses are needing to override this and no-ops it. It should be turned into # another "subclass_directive" and the apt and yum providers should declare that they need this behavior. if new_resource.package_name.is_a?(Array) && !new_resource.source.nil? raise Chef::Exceptions::InvalidResourceSpecification, "You may not specify both multipackage and source" end end def load_current_resource; end def define_resource_requirements # XXX: upgrade with a specific version doesn't make a whole lot of sense, but why don't we throw this anyway if it happens? # if not, shouldn't we raise to tell the user to use install instead of upgrade if they want to pin a version? requirements.assert(:install) do |a| a.assertion { candidates_exist_for_all_forced_changes? } a.failure_message(Chef::Exceptions::Package, "No version specified, and no candidate version available for #{forced_packages_missing_candidates.join(", ")}") a.whyrun("Assuming a repository that offers #{forced_packages_missing_candidates.join(", ")} would have been configured") end # XXX: Does it make sense to pass in a source with :upgrade? Probably # not, but as with the above comment, we don't yet enforce such a thing, # so we'll just leave things as-is for now. requirements.assert(:upgrade, :install) do |a| a.assertion { candidates_exist_for_all_uninstalled? || new_resource.source } a.failure_message(Chef::Exceptions::Package, "No candidate version available for #{packages_missing_candidates.join(", ")}") a.whyrun("Assuming a repository that offers #{packages_missing_candidates.join(", ")} would have been configured") end end action :install do unless target_version_array.any? logger.trace("#{new_resource} is already installed - nothing to do") return end prepare_for_installation converge_by(install_description) do multipackage_api_adapter(package_names_for_targets, versions_for_targets) do |name, version| install_package(name, version) end logger.info("#{new_resource} installed #{package_names_for_targets} at #{versions_for_targets}") end end def install_description description = [] target_version_array.each_with_index do |target_version, i| next if target_version.nil? package_name = package_name_array[i] description << "install version #{target_version} of package #{package_name}" end description end private :install_description action :upgrade do unless target_version_array.any? logger.trace("#{new_resource} no versions to upgrade - nothing to do") return end converge_by(upgrade_description) do multipackage_api_adapter(package_names_for_targets, versions_for_targets) do |name, version| upgrade_package(name, version) end log_allow_downgrade = allow_downgrade ? "(allow_downgrade)" : "" logger.info("#{new_resource} upgraded#{log_allow_downgrade} #{package_names_for_targets} to #{versions_for_targets}") end end def upgrade_description log_allow_downgrade = allow_downgrade ? "(allow_downgrade)" : "" description = [] target_version_array.each_with_index do |target_version, i| next if target_version.nil? package_name = package_name_array[i] candidate_version = candidate_version_array[i] current_version = current_version_array[i] || "uninstalled" description << "upgrade#{log_allow_downgrade} package #{package_name} from #{current_version} to #{candidate_version}" end description end private :upgrade_description action :remove do if removing_package? description = new_resource.version ? "version #{new_resource.version} of " : "" converge_by("remove #{description}package #{current_resource.package_name}") do multipackage_api_adapter(current_resource.package_name, new_resource.version) do |name, version| remove_package(name, version) end logger.info("#{new_resource} removed") end else logger.trace("#{new_resource} package does not exist - nothing to do") end end def have_any_matching_version? f = [] new_version_array.each_with_index do |item, index| f << (item == current_version_array[index]) end f.any? end def removing_package? if !current_version_array.any? # ! any? means it's all nil's, which means nothing is installed false elsif !new_version_array.any? true # remove any version of all packages elsif have_any_matching_version? true # remove the version we have else false # we don't have the version we want to remove end end action :purge do if removing_package? description = new_resource.version ? "version #{new_resource.version} of" : "" converge_by("purge #{description} package #{current_resource.package_name}") do multipackage_api_adapter(current_resource.package_name, new_resource.version) do |name, version| purge_package(name, version) end logger.info("#{new_resource} purged") end end end def action_lock packages_locked = if respond_to?(:packages_all_locked?, true) packages_all_locked?(Array(new_resource.package_name), Array(new_resource.version)) else package_locked(new_resource.package_name, new_resource.version) end unless packages_locked description = new_resource.version ? "version #{new_resource.version} of " : "" converge_by("lock #{description}package #{current_resource.package_name}") do multipackage_api_adapter(current_resource.package_name, new_resource.version) do |name, version| lock_package(name, version) logger.info("#{new_resource} locked") end end else logger.trace("#{new_resource} is already locked") end end def action_unlock packages_unlocked = if respond_to?(:packages_all_unlocked?, true) packages_all_unlocked?(Array(new_resource.package_name), Array(new_resource.version)) else !package_locked(new_resource.package_name, new_resource.version) end unless packages_unlocked description = new_resource.version ? "version #{new_resource.version} of " : "" converge_by("unlock #{description}package #{current_resource.package_name}") do multipackage_api_adapter(current_resource.package_name, new_resource.version) do |name, version| unlock_package(name, version) logger.info("#{new_resource} unlocked") end end else logger.trace("#{new_resource} is already unlocked") end end # for multipackage just implement packages_all_[un]locked? properly and omit implementing this API def package_locked(name, version) raise Chef::Exceptions::UnsupportedAction, "#{self} has no way to detect if package is locked" end # Subclasses will override this to a method and provide a preseed file path def prepare_for_installation; end # @todo use composition rather than inheritance def multipackage_api_adapter(name, version) if use_multipackage_api? yield [name].flatten, [version].flatten else yield name, version end end def install_package(name, version) raise Chef::Exceptions::UnsupportedAction, "#{self} does not support :install" end def upgrade_package(name, version) raise Chef::Exceptions::UnsupportedAction, "#{self} does not support :upgrade" end def remove_package(name, version) raise Chef::Exceptions::UnsupportedAction, "#{self} does not support :remove" end def purge_package(name, version) raise Chef::Exceptions::UnsupportedAction, "#{self} does not support :purge" end def preseed_package(file) raise Chef::Exceptions::UnsupportedAction, "#{self} does not support pre-seeding package install/upgrade instructions" end def reconfig_package(name) raise( Chef::Exceptions::UnsupportedAction, "#{self} does not support :reconfig" ) end def lock_package(name, version) raise( Chef::Exceptions::UnsupportedAction, "#{self} does not support :lock" ) end def unlock_package(name, version) raise( Chef::Exceptions::UnsupportedAction, "#{self} does not support :unlock" ) end # used by subclasses. deprecated. use #a_to_s instead. def expand_options(options) # its deprecated but still work to do to deprecate it fully # Chef.deprecated(:package_misc, "expand_options is deprecated, use shell_out instead") if options " #{options.is_a?(Array) ? Shellwords.join(options) : options}" else "" end end # Check the current_version against either the candidate_version or the new_version # # For some reason the windows provider subclasses this (to implement passing Arrays to # versions for some reason other than multipackage stuff, which is mildly terrifying). # # This MUST have 'equality' semantics -- the exact thing matches the exact thing. # # The name is not just bad, but i find it completely misleading, consider: # # target_version_already_installed?(current_version, new_version) # target_version_already_installed?(current_version, candidate_version) # # Which of those is the 'target_version'? I'd say the new_version and I'm confused when # i see it called with the candidate_version. # # `version_equals?(v1, v2)` would be a better name. # # Note that most likely we need a spaceship operator on versions that subclasses can implement # and we should have `version_compare(v1, v2)` that returns `v1 <=> v2`. # This method performs a strict equality check between two strings representing version numbers # # This function will eventually be deprecated in favour of the below version_equals function. def target_version_already_installed?(current_version, target_version) version_equals?(current_version, target_version) end # Note that most likely we need a spaceship operator on versions that subclasses can implement # and we should have `version_compare(v1, v2)` that returns `v1 <=> v2`. # This method performs a strict equality check between two strings representing version numbers # def version_equals?(v1, v2) return false unless v1 && v2 v1 == v2 end # This function compares two version numbers and returns 'spaceship operator' style results, ie: # if v1 < v2 then return -1 # if v1 = v2 then return 0 # if v1 > v2 then return 1 # if v1 and v2 are not comparable then return nil # # By default, this function will use Gem::Version comparison. Subclasses can reimplement this method # for package-management system specific versions. # # (In other words, pull requests to introduce domain specific mangling of versions into this method # will be closed -- that logic must go into the subclass -- we understand that this is far from perfect # but it is a better default than outright buggy things like v1.to_f <=> v2.to_f) # def version_compare(v1, v2) gem_v1 = Gem::Version.new(v1.gsub(/\A\s*(#{Gem::Version::VERSION_PATTERN}).*/, '\1')) gem_v2 = Gem::Version.new(v2.gsub(/\A\s*(#{Gem::Version::VERSION_PATTERN}).*/, '\1')) gem_v1 <=> gem_v2 end # Check the current_version against the new_resource.version, possibly using fuzzy # matching criteria. # # Subclasses MAY override this to provide fuzzy matching on the resource ('>=' and '~>' stuff) # # `version_satisfied_by?(version, constraint)` might be a better name to make this generic. # def version_requirement_satisfied?(current_version, new_version) target_version_already_installed?(current_version, new_version) end # helper method used by subclasses # def as_array(thing) [ thing ].flatten end private # Returns the package names which need to be modified. If the resource was called with an array of packages # then this will return an array of packages to update (may have 0 or 1 entries). If the resource was called # with a non-array package_name to manage then this will return a string rather than an Array. The output # of this is meant to be fed into subclass interfaces to install/upgrade packages and not all of them are # Array-aware. # # @return [String, Array] package_name(s) to actually update/install def package_names_for_targets package_names_for_targets = [] target_version_array.each_with_index do |target_version, i| if !target_version.nil? package_name = package_name_array[i] package_names_for_targets.push(package_name) else package_names_for_targets.push(nil) if allow_nils? end end multipackage? ? package_names_for_targets : package_names_for_targets[0] end # Returns the package versions which need to be modified. If the resource was called with an array of packages # then this will return an array of versions to update (may have 0 or 1 entries). If the resource was called # with a non-array package_name to manage then this will return a string rather than an Array. The output # of this is meant to be fed into subclass interfaces to install/upgrade packages and not all of them are # Array-aware. # # @return [String, Array] package version(s) to actually update/install def versions_for_targets versions_for_targets = [] target_version_array.each_with_index do |target_version, i| if !target_version.nil? versions_for_targets.push(target_version) else versions_for_targets.push(nil) if allow_nils? end end multipackage? ? versions_for_targets : versions_for_targets[0] end # Return an array indexed the same as *_version_array which contains either the target version to install/upgrade to # or else nil if the package is not being modified. # # @return [Array] array of package versions which need to be upgraded (nil = not being upgraded) def target_version_array @target_version_array ||= begin target_version_array = [] each_package do |package_name, new_version, current_version, candidate_version| case action when :upgrade if version_equals?(current_version, new_version) # this is an odd use case logger.trace("#{new_resource} #{package_name} #{new_version} is already installed -- you are equality pinning with an :upgrade action, this may be deprecated in the future") target_version_array.push(nil) elsif version_equals?(current_version, candidate_version) logger.trace("#{new_resource} #{package_name} #{candidate_version} is already installed") target_version_array.push(nil) elsif candidate_version.nil? logger.trace("#{new_resource} #{package_name} has no candidate_version to upgrade to") target_version_array.push(nil) elsif current_version.nil? logger.trace("#{new_resource} has no existing installed version. Installing install #{candidate_version}") target_version_array.push(candidate_version) elsif !allow_downgrade && version_compare(current_version, candidate_version) == 1 logger.trace("#{new_resource} #{package_name} has installed version #{current_version}, which is newer than available version #{candidate_version}. Skipping...)") target_version_array.push(nil) else logger.trace("#{new_resource} #{package_name} is out of date, will upgrade to #{candidate_version}") target_version_array.push(candidate_version) end when :install if new_version if version_requirement_satisfied?(current_version, new_version) logger.trace("#{new_resource} #{package_name} #{current_version} satisifies #{new_version} requirement") target_version_array.push(nil) elsif current_version && !allow_downgrade && version_compare(current_version, new_version) == 1 logger.warn("#{new_resource} #{package_name} has installed version #{current_version}, which is newer than available version #{new_version}. Skipping...)") target_version_array.push(nil) else logger.trace("#{new_resource} #{package_name} #{current_version} needs updating to #{new_version}") target_version_array.push(new_version) end elsif current_version.nil? logger.trace("#{new_resource} #{package_name} not installed, installing #{candidate_version}") target_version_array.push(candidate_version) else logger.trace("#{new_resource} #{package_name} #{current_version} already installed") target_version_array.push(nil) end else # in specs please test the public interface provider.run_action(:install) instead of provider.action_install raise "internal error - target_version_array in package provider does not understand this action" end end target_version_array end end # Check the list of current_version_array and candidate_version_array. For any of the # packages if both versions are missing (uninstalled and no candidate) this will be an # unsolvable error. # # @return [Boolean] valid candidates exist for all uninstalled packages def candidates_exist_for_all_uninstalled? packages_missing_candidates.empty? end # Returns array of all packages which are missing candidate versions. # # @return [Array] names of packages missing candidates def packages_missing_candidates @packages_missing_candidates ||= begin missing = [] each_package do |package_name, new_version, current_version, candidate_version| missing.push(package_name) if current_version.nil? && candidate_version.nil? end missing end end # This looks for packages which have a new_version and a current_version, and they are # different (a "forced change") and for which there is no candidate. This is an edge # condition that candidates_exist_for_all_uninstalled? does not catch since in this case # it is not uninstalled but must be installed anyway and no version exists. # # @return [Boolean] valid candidates exist for all uninstalled packages def candidates_exist_for_all_forced_changes? forced_packages_missing_candidates.empty? end # Returns an array of all forced packages which are missing candidate versions # # @return [Array] names of packages missing candidates def forced_packages_missing_candidates @forced_packages_missing_candidates ||= begin missing = [] each_package do |package_name, new_version, current_version, candidate_version| next if new_version.nil? || current_version.nil? if !version_requirement_satisfied?(current_version, new_version) && candidate_version.nil? missing.push(package_name) end end missing end end # Helper to iterate over all the indexed *_array's in sync # # @yield [package_name, new_version, current_version, candidate_version] Description of block def each_package package_name_array.each_with_index do |package_name, i| candidate_version = candidate_version_array[i] current_version = current_version_array[i] new_version = new_version_array[i] yield package_name, new_version, current_version, candidate_version end end # @return [Boolean] if we're doing a multipackage install or not def multipackage? @multipackage_bool ||= new_resource.package_name.is_a?(Array) end # @return [Array] package_name(s) as an array def package_name_array @package_name_array ||= [ new_resource.package_name ].flatten end # @return [Array] candidate_version(s) as an array def candidate_version_array # NOTE: even with use_multipackage_api candidate_version may be a bare nil and need wrapping # ( looking at you, dpkg provider... ) Chef::Decorator::LazyArray.new { [ candidate_version ].flatten } end # @return [Array] current_version(s) as an array def current_version_array @current_version_array ||= [ current_resource.version ].flatten end # @return [Array] new_version(s) as an array def new_version_array @new_version_array ||= [ new_resource.version ].flatten.map { |v| v.to_s.empty? ? nil : v } end # TIP: less error prone to simply always call resolved_source_array, even if you # don't think that you need to. # # @return [Array] new_resource.source as an array def source_array @source_array ||= begin if new_resource.source.nil? package_name_array.map { nil } else [ new_resource.source ].flatten end end end # Helper to handle use_package_name_for_source to convert names into local packages to install. # # @return [Array] Array of sources with package_names converted to sources def resolved_source_array @resolved_source_array ||= begin source_array.each_with_index.map do |source, i| package_name = package_name_array[i] # we require at least one '/' in the package_name to avoid [XXX_]package 'foo' breaking due to a random 'foo' file in cwd if use_package_name_for_source? && source.nil? && package_name.match(/#{::File::SEPARATOR}/) && ::File.exist?(package_name) logger.trace("No package source specified, but #{package_name} exists on filesystem, using #{package_name} as source.") package_name else source end end end end def allow_downgrade if new_resource.respond_to?("allow_downgrade") new_resource.allow_downgrade else true end end end end end