# # Common code for AIX providers. This class implements basic structure for # AIX resources. # Author:: Hector Rivas Gandara # class Puppet::Provider::AixObject < Puppet::Provider desc "Generic AIX resource provider" # The real provider must implement these functions. def lscmd( _value = @resource[:name] ) raise Puppet::Error, "Method not defined #{@resource.class.name} #{@resource.name}: Base AixObject provider doesn't implement lscmd" end def addcmd( _extra_attrs = [] ) raise Puppet::Error, "Method not defined #{@resource.class.name} #{@resource.name}: Base AixObject provider doesn't implement addcmd" end def modifycmd( _attributes_hash = {} ) raise Puppet::Error, "Method not defined #{@resource.class.name} #{@resource.name}: Base AixObject provider doesn't implement modifycmd" end def deletecmd raise Puppet::Error, "Method not defined #{@resource.class.name} #{@resource.name}: Base AixObject provider doesn't implement deletecmd" end # Valid attributes to be managed by this provider. # It is a list of hashes # :aix_attr AIX command attribute name # :puppet_prop Puppet property name # :to Optional. Method name that adapts puppet property to aix command value. # :from Optional. Method to adapt aix command line value to puppet property. Optional class << self attr_accessor :attribute_mapping end # Mapping from Puppet property to AIX attribute. def self.attribute_mapping_to if ! @attribute_mapping_to @attribute_mapping_to = {} attribute_mapping.each { |elem| attribute_mapping_to[elem[:puppet_prop]] = { :key => elem[:aix_attr], :method => elem[:to] } } end @attribute_mapping_to end # Mapping from AIX attribute to Puppet property. def self.attribute_mapping_from if ! @attribute_mapping_from @attribute_mapping_from = {} attribute_mapping.each { |elem| attribute_mapping_from[elem[:aix_attr]] = { :key => elem[:puppet_prop], :method => elem[:from] } } end @attribute_mapping_from end # This functions translates a key and value using the given mapping. # Mapping can be nil (no translation) or a hash with this format # {:key => new_key, :method => translate_method} # It returns a list with the pair [key, value] def translate_attr(key, value, mapping) return [key, value] unless mapping return nil unless mapping[key] if mapping[key][:method] new_value = method(mapping[key][:method]).call(value) else new_value = value end [mapping[key][:key], new_value] end # Loads an AIX attribute (key=value) and stores it in the given hash with # puppet semantics. It translates the pair using the given mapping. # # This operation works with each property one by one, # subclasses must reimplement this if more complex operations are needed def load_attribute(key, value, mapping, objectinfo) if mapping.nil? objectinfo[key] = value elsif mapping[key].nil? # is not present in mapping, ignore it. true elsif mapping[key][:method].nil? objectinfo[mapping[key][:key]] = value else objectinfo[mapping[key][:key]] = method(mapping[key][:method]).call(value) end return objectinfo end # Gets the given command line argument for the given key and value, # using the given mapping to translate key and value. # All the objectinfo hash (@resource or @property_hash) is passed. # # This operation works with each property one by one, # and default behaviour is return the arguments as key=value pairs. # Subclasses must reimplement this if more complex operations/arguments # are needed # def get_arguments(key, value, mapping, objectinfo) if mapping.nil? new_key = key new_value = value elsif mapping[key].nil? # is not present in mapping, ignore it. new_key = nil new_value = nil elsif mapping[key][:method].nil? new_key = mapping[key][:key] new_value = value else new_key = mapping[key][:key] new_value = method(mapping[key][:method]).call(value) end # convert it to string new_value = Array(new_value).join(',') if new_key return [ "#{new_key}=#{new_value}" ] else return [] end end # Convert the provider properties (hash) to AIX command arguments # (list of strings) # This function will translate each value/key and generate the argument using # the get_arguments function. def hash2args(hash, mapping=self.class.attribute_mapping_to) return "" unless hash arg_list = [] hash.each {|key, val| arg_list += self.get_arguments(key, val, mapping, hash) } arg_list end # Parse AIX command attributes from the output of an AIX command, that # which format is a list of space separated of key=value pairs: # "uid=100 groups=a,b,c". # It returns a hash. # # If a mapping is provided, the keys are translated as defined in the # mapping hash. And only values included in mapping will be added # # NOTE: it will ignore the items not including '=' def parse_attr_list(str, mapping=self.class.attribute_mapping_from) properties = {} attrs = [] if str.nil? or (attrs = str.split()).empty? return nil end attrs.each { |i| if i.include? "=" # Ignore if it does not include '=' (key_str, val) = i.split('=') # Check the key if key_str.nil? or key_str.empty? info _("Empty key in string 'i'?") continue end key_str.strip! key = key_str.to_sym val.strip! if val properties = self.load_attribute(key, val, mapping, properties) end } properties.empty? ? nil : properties end # Parse AIX command output in a colon separated list of attributes, # This function is useful to parse the output of commands like lsfs -c: # #MountPoint:Device:Vfs:Nodename:Type:Size:Options:AutoMount:Acct # /:/dev/hd4:jfs2::bootfs:557056:rw:yes:no # /home:/dev/hd1:jfs2:::2129920:rw:yes:no # /usr:/dev/hd2:jfs2::bootfs:9797632:rw:yes:no # # If a mapping is provided, the keys are translated as defined in the # mapping hash. And only values included in mapping will be added def parse_colon_list(str, key_list, mapping=self.class.attribute_mapping_from) properties = {} attrs = [] if str.nil? or (attrs = str.split(':')).empty? return nil end attrs.each { |val| key = key_list.shift.to_sym properties = self.load_attribute(key, val, mapping, properties) } properties.empty? ? nil : properties end # Default parsing function for AIX commands. # It will choose the method depending of the first line. # For the colon separated list it will: # 1. Get keys from first line. # 2. Parse next line. def parse_command_output(output, mapping=self.class.attribute_mapping_from) lines = output.split("\n") # if it begins with #something:... is a colon separated list. if lines[0] =~ /^#.*:/ self.parse_colon_list(lines[1], lines[0][1..-1].split(':'), mapping) else self.parse_attr_list(lines[0], mapping) end end # Retrieve all the information of an existing resource. # It will execute 'lscmd' command and parse the output, using the mapping # 'attribute_mapping_from' to translate the keys and values. def getinfo(refresh = false) if @objectinfo.nil? or refresh == true # Execute lsuser, split all attributes and add them to a dict. begin output = execute(self.lscmd) @objectinfo = self.parse_command_output(output) # All attributes without translation @objectosinfo = self.parse_command_output(output, nil) rescue Puppet::ExecutionFailure => detail # Print error if needed. FIXME: Do not check the user here. Puppet.debug "aix.getinfo(): Could not find #{@resource.class.name} #{@resource.name}: #{detail}" end end @objectinfo end # Like getinfo, but it will not use the mapping to translate the keys and values. # It might be useful to retrieve some raw information. def getosinfo(refresh = false) if @objectosinfo.nil? or refresh == true getinfo(refresh) end @objectosinfo || Hash.new end # List all elements of given type. It works for colon separated commands and # list commands. # It returns a list of names. def self.list_all names = [] begin output = execute([self.command(:list), 'ALL']) output = output.split("\n").select{ |line| line != /^#/ } output.each do |line| name = line.split(/[ :]/)[0] names << name if not name.empty? end rescue Puppet::ExecutionFailure => detail # Print error if needed Puppet.debug "aix.list_all(): Could not get all resources of type #{@resource.class.name}: #{detail}" end names end #------------- # Provider API # ------------ # Clear out the cached values. def flush @property_hash.clear if @property_hash @objectinfo.clear if @objectinfo end # Check that the user exists def exists? !!getinfo(true) # !! => converts to bool end # Return all existing instances # The method for returning a list of provider instances. Note that it returns # providers, preferably with values already filled in, not resources. def self.instances objects=[] list_all.each { |entry| objects << new(:name => entry, :ensure => :present) } objects end #- **ensure** # The basic state that the object should be in. Valid values are # `present`, `absent`, `role`. # From ensurable: exists?, create, delete def ensure if exists? :present else :absent end end # Create a new instance of the resource def create if exists? info _("already exists") # The object already exists return nil end begin execute(self.addcmd) rescue Puppet::ExecutionFailure => detail raise Puppet::Error, _("Could not create %{resource} %{name}: %{detail}") % { resource: @resource.class.name, name: @resource.name, detail: detail }, detail.backtrace end end # Delete this instance of the resource def delete unless exists? info _("already absent") # the object already doesn't exist return nil end begin execute(self.deletecmd) rescue Puppet::ExecutionFailure => detail raise Puppet::Error, _("Could not delete %{resource} %{name}: %{detail}") % { resource: @resource.class.name, name: @resource.name, detail: detail }, detail.backtrace end end #-------------------------------- # Call this method when the object is initialized. # It creates getter/setter methods for each property our resource type supports. # If setter or getter already defined it will not be overwritten def self.mk_resource_methods [resource_type.validproperties, resource_type.parameters].flatten.each do |prop| next if prop == :ensure define_method(prop) { get(prop) || :absent} unless public_method_defined?(prop) define_method(prop.to_s + "=") { |*vals| set(prop, *vals) } unless public_method_defined?(prop.to_s + "=") end end # Define the needed getters and setters as soon as we know the resource type def self.resource_type=(resource_type) super mk_resource_methods end # Retrieve a specific value by name. def get(param) (hash = getinfo(false)) ? hash[param] : nil end # Set a property. def set(param, value) @property_hash[param.intern] = value if getinfo().nil? # This is weird... raise Puppet::Error, _("Trying to update parameter '%{param}' to '%{value}' for a resource that does not exists %{resource} %{name}: %{detail}") % { param: param, value: value, resource: @resource.class.name, name: @resource.name, detail: detail } end if value == getinfo()[param.to_sym] return end #self.class.validate(param, value) if cmd = modifycmd({param =>value}) begin execute(cmd) rescue Puppet::ExecutionFailure => detail raise Puppet::Error, _("Could not set %{param} on %{resource}[%{name}]: %{detail}") % { param: param, resource: @resource.class.name, name: @resource.name, detail: detail }, detail.backtrace end end # Refresh de info. getinfo(true) end def initialize(resource) super @objectinfo = nil @objectosinfo = nil end end