require 'beaker-hostgenerator/data' require 'beaker-hostgenerator/exceptions' require 'uri' module BeakerHostGenerator # Functions for parsing the raw user input host layout string and turning # them into proper data structures suitable for processing by the Generator. # # The functions mainly perform data type conversions, like splitting the # single input string into a list of strings, each of which will be processed # further by other functions in this module. # # For example, given the raw user input string that defines the host layout, # you would first prepare it for tokenization via `prepare`, then split it # into tokens via `tokenize_layout`, and then for each token you would call # `is_ostype_token?` and/or `parse_node_info_token`. module Parser # Parses a single node definition into the following components: # # * bits Uppercase-only alphanumeric # Examples: 32, 64, POWER, S390X # # * arbitrary_roles Lowercase-only alphabetical & underscores # Examples: myrole, role_a # # * roles Lowercase-only, any combination of: u, a, c, l, d, f, m # Examples: m, mdca # # * host_settings Any character (see `settings_string_to_map` for details) # Examples: {hostname=foo-bar, ip.address=123.4.5.6, foo=[bar,baz]} # # This regex is the main workhorse for parsing input to beaker-hostgenerator. # There is a bit of pre and post parsing that happens before and after this # regex though. # Before we use this regex, we split the input containing multiple node # definitions into individual node definitions to be parsed by this regex # (see `tokenize_layout`). # After we use this regex, we turn the host_settings key-value string into # a proper Hash map (see `settings_string_to_map`). # # See Ruby Regexp class for information on the capture groups used below. # http://ruby-doc.org/core-2.2.0/Regexp.html#class-Regexp-label-Character+Classes # # Examples node specs and their resulting roles # # 64compile_master,zuul,meow.a # * compile_master # * zuul # * meow # * agent # # 32herp.cdma # * herp # * dashboard # * database # * master # * agent # # 64dashboard,master,agent,database. # * dashboard # * master # * agent # * database # NODE_REGEX=/\A(?[A-Z0-9]+|\d+)((?([[:lower:]_]*|\,)*)\.)?(?[uacldfm]*)(?\{[[:print:]]*\})?\Z/ module_function # Prepares the host input string for tokenization, such as URL-decoding. # # @param spec [String] Raw user input; well-formatted string specification # of the hosts to generate. # For example `"aix53-POWERfa%7Bhypervisor=aix%7D"`. # @returns [String] Input string with transformations necessary for # tokenization. def prepare(spec) URI.decode(spec) end # Breaks apart the host input string into chunks suitable for processing # by the generator. Returns an array of substrings of the input spec string. # # The input string is expected to be properly formatted using the dash `-` # character as a delimiter. Dashes may also be used within braces `{...}`, # which are used to define arbitrary key-values on a node. # # @param spec [String] Well-formatted string specification of the hosts to # generate. For example `"centos6-64m-debian8-32a"`. # @returns [Array] Input string split into substrings suitable for # processing by the generator. For example # `["centos6", "64m", "debian8", "32a"]`. def tokenize_layout(layout_spec) # Here we allow dashes in certain parts of the spec string # i.e. "centos6-64m{hostname=foo-bar}-debian8-32" # by first replacing all occurrences of - with | that exist within # the braces {...}. # # So we'd end up with: # "centos6-64m{hostname=foo|bar}-debian8-32" # # Which we can then simply split on - into: # ["centos6", "64m{hostname=foo|bar}", "debian8", "32"] # # And then finally turn the | back into - now that we've # properly decomposed the spec string: # ["centos6", "64m{hostname=foo-bar}", "debian8", "32"] # # NOTE we've specifically chosen to use the pipe character | # due to its unlikely occurrence in the user input string. spec = String.new(layout_spec) # Copy so we can replace characters inline within_braces = false spec.chars.each_with_index do |char, index| case char when '{' within_braces = true when '}' within_braces = false when '-' spec[index] = '|' if within_braces end end tokens = spec.split('-') tokens.map { |t| t.gsub('|', '-') } end # Tests if a string token represents an OS platform (i.e. "centos6" or # "debian8") and not another part of the host specification like the # architecture bit (i.e. "32" or "64"). # # This is used when parsing the host generator input string to determine # if we're introducing a host for a new platform or if we're adding another # host for a current platform. # # @param [String] token A piece of the host generator input that might refer # to an OS platform. For example `"centos6"` or `"debian8"`. # # @param [Integer] bhg_version The version of OS info to use when testing # for whether the token represent an OS platform. def is_ostype_token?(token, bhg_version) BeakerHostGenerator::Data.get_platforms(bhg_version).each do |platform| ostype = platform.split('-')[0] if ostype == token return true end end return false end # Converts a string token that represents a node (and not an OS type) into # a proper hash map with keys representing the various regex capture groups # in `NODE_REGEX` and values being the captured text. # # Throws an exception if the token is not in the expected formatted, as # determined by `NODE_REGEX.match`. # # It is expected that the `Generator` will have initimate knowledge about # the keys and values in the returned map, as it may be adjusted and given # to the hypervisors or other abstractions for processing. # # @param token [String] The portion of the user input layout specifiction # that describes the node (and not the OS platform). # For example `"64myrole.mdca"`. # # @returns [Hash{String=>Object}] A map containing the regex capture groups # suitable for processing by the Generator # and hypervisors. def parse_node_info_token(token) node_info = NODE_REGEX.match(token) if node_info node_info = Hash[ node_info.names.zip( node_info.captures ) ] else raise BeakerHostGenerator::Exceptions::InvalidNodeSpecError.new, "Invalid node_info token: #{token}" end if node_info['arbitrary_roles'] node_info['arbitrary_roles'] = node_info['arbitrary_roles'].split(',') || '' else # Default to empty list to avoid having to check for nil elsewhere node_info['arbitrary_roles'] = [] end if node_info['host_settings'] node_info['host_settings'] = settings_string_to_map(node_info['host_settings']) else node_info['host_settings'] = {} end return node_info end # Transforms the arbitrary host settings map from a string representation # to a proper hash map data structure for merging into the host # configuration. Supports arbitrary nested hashes and arrays. # # The string is expected to be of the form "{key1=value1,key2=[v2,v3],...}". # Nesting looks like "{key1={nested_key=nested_value},list=[[list1, list2]]}". # Whitespace is expected to be properly quoted as it will not be treated # any different than non-whitespace characters. # # Throws an exception of the string is malformed in any way. # # @param host_settings [String] Non-nil user input string that defines host # specific settings. # # @returns [Hash{String=>String|Array|Hash}] The host_settings string as a map. def settings_string_to_map(host_settings) stringscan = StringScanner.new(host_settings) object = nil object_depth = [] current_depth = 0 # This loop scans until the next delimiter character is found. When # the next delimiter is recognized, there is enough context in the # substring to determine a course of action to modify the primary # object. The `object_depth` object tracks which current object is # being modified, and pops it off the end of the array when that # data structure is completed. # # This algorithm would also support a base array, but since there # is no need for that functionality, we just assume the string is # always a representation of a hash. loop do blob = stringscan.scan_until(/\[|{|}|\]|,/) break if blob.nil? if stringscan.pos() == 1 object = {} object_depth.push(object) next end current_type = object_depth[current_depth].class current_object = object_depth[current_depth] if blob == '[' current_object.push([]) object_depth.push(current_object.last) current_depth = current_depth.next next end if blob.start_with?('{') current_object.push({}) object_depth.push(current_object.last) current_depth = current_depth.next next end if blob == ']' or blob == '}' object_depth.pop current_depth = current_depth.pred next end # When there is assignment happening, we need to create a new # corresponding data structure, add it to the object depth, and # then change the current depth if blob[-2] == '=' raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError unless blob.end_with?('{','[') if blob[-1] == '{' current_object[blob[0..-3]] = {} else current_object[blob[0..-3]] = [] end object_depth.push(current_object[blob[0..-3]]) current_depth = current_depth.next next end if blob[-1] == '}' raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError if blob.count('=') != 1 key_pair = blob[0..-2].split('=') raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError if key_pair.size != 2 key_pair.each do |element| raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError if element.empty? end current_object[key_pair[0]] = key_pair[1] object_depth.pop current_depth = current_depth.pred next end if blob == ',' next end if blob[-1] == ',' if current_type == Hash key_pair = blob[0..-2].split('=') raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError if key_pair.size != 2 key_pair.each do |element| raise Beaker::HostGenerator::Exceptions::InvalidNodeSpecError if element.empty? end current_object[key_pair[0]] = key_pair[1] next elsif current_type == Array current_object.push(blob[0..-2]) next end end if blob[-1] == ']' current_object.push(blob[0..-2]) object_depth.pop current_depth = current_depth.pred next end end object rescue Exception => e raise BeakerHostGenerator::Exceptions::InvalidNodeSpecError, "Malformed host settings: #{host_settings}" end end end