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Direktori : /proc/thread-self/root/opt/alt/ruby19/lib64/ruby/gems/1.9.1/gems/rack-1.6.4/lib/rack/ |
Current File : //proc/thread-self/root/opt/alt/ruby19/lib64/ruby/gems/1.9.1/gems/rack-1.6.4/lib/rack/lint.rb |
require 'rack/utils' require 'forwardable' module Rack # Rack::Lint validates your application and the requests and # responses according to the Rack spec. class Lint def initialize(app) @app = app @content_length = nil end # :stopdoc: class LintError < RuntimeError; end module Assertion def assert(message, &block) unless block.call raise LintError, message end end end include Assertion ## This specification aims to formalize the Rack protocol. You ## can (and should) use Rack::Lint to enforce it. ## ## When you develop middleware, be sure to add a Lint before and ## after to catch all mistakes. ## = Rack applications ## A Rack application is a Ruby object (not a class) that ## responds to +call+. def call(env=nil) dup._call(env) end def _call(env) ## It takes exactly one argument, the *environment* assert("No env given") { env } check_env env env['rack.input'] = InputWrapper.new(env['rack.input']) env['rack.errors'] = ErrorWrapper.new(env['rack.errors']) ## and returns an Array of exactly three values: status, headers, @body = @app.call(env) ## The *status*, check_status status ## the *headers*, check_headers headers check_hijack_response headers, env ## and the *body*. check_content_type status, headers check_content_length status, headers @head_request = env[REQUEST_METHOD] == "HEAD" [status, headers, self] end ## == The Environment def check_env(env) ## The environment must be an instance of Hash that includes ## CGI-like headers. The application is free to modify the ## environment. assert("env #{env.inspect} is not a Hash, but #{env.class}") { env.kind_of? Hash } ## ## The environment is required to include these variables ## (adopted from PEP333), except when they'd be empty, but see ## below. ## <tt>REQUEST_METHOD</tt>:: The HTTP request method, such as ## "GET" or "POST". This cannot ever ## be an empty string, and so is ## always required. ## <tt>SCRIPT_NAME</tt>:: The initial portion of the request ## URL's "path" that corresponds to the ## application object, so that the ## application knows its virtual ## "location". This may be an empty ## string, if the application corresponds ## to the "root" of the server. ## <tt>PATH_INFO</tt>:: The remainder of the request URL's ## "path", designating the virtual ## "location" of the request's target ## within the application. This may be an ## empty string, if the request URL targets ## the application root and does not have a ## trailing slash. This value may be ## percent-encoded when I originating from ## a URL. ## <tt>QUERY_STRING</tt>:: The portion of the request URL that ## follows the <tt>?</tt>, if any. May be ## empty, but is always required! ## <tt>SERVER_NAME</tt>, <tt>SERVER_PORT</tt>:: ## When combined with <tt>SCRIPT_NAME</tt> and ## <tt>PATH_INFO</tt>, these variables can be ## used to complete the URL. Note, however, ## that <tt>HTTP_HOST</tt>, if present, ## should be used in preference to ## <tt>SERVER_NAME</tt> for reconstructing ## the request URL. ## <tt>SERVER_NAME</tt> and <tt>SERVER_PORT</tt> ## can never be empty strings, and so ## are always required. ## <tt>HTTP_</tt> Variables:: Variables corresponding to the ## client-supplied HTTP request ## headers (i.e., variables whose ## names begin with <tt>HTTP_</tt>). The ## presence or absence of these ## variables should correspond with ## the presence or absence of the ## appropriate HTTP header in the ## request. See ## <a href="https://tools.ietf.org/html/rfc3875#section-4.1.18"> ## RFC3875 section 4.1.18</a> for ## specific behavior. ## In addition to this, the Rack environment must include these ## Rack-specific variables: ## <tt>rack.version</tt>:: The Array representing this version of Rack ## See Rack::VERSION, that corresponds to ## the version of this SPEC. ## <tt>rack.url_scheme</tt>:: +http+ or +https+, depending on the ## request URL. ## <tt>rack.input</tt>:: See below, the input stream. ## <tt>rack.errors</tt>:: See below, the error stream. ## <tt>rack.multithread</tt>:: true if the application object may be ## simultaneously invoked by another thread ## in the same process, false otherwise. ## <tt>rack.multiprocess</tt>:: true if an equivalent application object ## may be simultaneously invoked by another ## process, false otherwise. ## <tt>rack.run_once</tt>:: true if the server expects ## (but does not guarantee!) that the ## application will only be invoked this one ## time during the life of its containing ## process. Normally, this will only be true ## for a server based on CGI ## (or something similar). ## <tt>rack.hijack?</tt>:: present and true if the server supports ## connection hijacking. See below, hijacking. ## <tt>rack.hijack</tt>:: an object responding to #call that must be ## called at least once before using ## rack.hijack_io. ## It is recommended #call return rack.hijack_io ## as well as setting it in env if necessary. ## <tt>rack.hijack_io</tt>:: if rack.hijack? is true, and rack.hijack ## has received #call, this will contain ## an object resembling an IO. See hijacking. ## Additional environment specifications have approved to ## standardized middleware APIs. None of these are required to ## be implemented by the server. ## <tt>rack.session</tt>:: A hash like interface for storing ## request session data. ## The store must implement: if session = env['rack.session'] ## store(key, value) (aliased as []=); assert("session #{session.inspect} must respond to store and []=") { session.respond_to?(:store) && session.respond_to?(:[]=) } ## fetch(key, default = nil) (aliased as []); assert("session #{session.inspect} must respond to fetch and []") { session.respond_to?(:fetch) && session.respond_to?(:[]) } ## delete(key); assert("session #{session.inspect} must respond to delete") { session.respond_to?(:delete) } ## clear; assert("session #{session.inspect} must respond to clear") { session.respond_to?(:clear) } end ## <tt>rack.logger</tt>:: A common object interface for logging messages. ## The object must implement: if logger = env['rack.logger'] ## info(message, &block) assert("logger #{logger.inspect} must respond to info") { logger.respond_to?(:info) } ## debug(message, &block) assert("logger #{logger.inspect} must respond to debug") { logger.respond_to?(:debug) } ## warn(message, &block) assert("logger #{logger.inspect} must respond to warn") { logger.respond_to?(:warn) } ## error(message, &block) assert("logger #{logger.inspect} must respond to error") { logger.respond_to?(:error) } ## fatal(message, &block) assert("logger #{logger.inspect} must respond to fatal") { logger.respond_to?(:fatal) } end ## <tt>rack.multipart.buffer_size</tt>:: An Integer hint to the multipart parser as to what chunk size to use for reads and writes. if bufsize = env['rack.multipart.buffer_size'] assert("rack.multipart.buffer_size must be an Integer > 0 if specified") { bufsize.is_a?(Integer) && bufsize > 0 } end ## <tt>rack.multipart.tempfile_factory</tt>:: An object responding to #call with two arguments, the filename and content_type given for the multipart form field, and returning an IO-like object that responds to #<< and optionally #rewind. This factory will be used to instantiate the tempfile for each multipart form file upload field, rather than the default class of Tempfile. if tempfile_factory = env['rack.multipart.tempfile_factory'] assert("rack.multipart.tempfile_factory must respond to #call") { tempfile_factory.respond_to?(:call) } env['rack.multipart.tempfile_factory'] = lambda do |filename, content_type| io = tempfile_factory.call(filename, content_type) assert("rack.multipart.tempfile_factory return value must respond to #<<") { io.respond_to?(:<<) } io end end ## The server or the application can store their own data in the ## environment, too. The keys must contain at least one dot, ## and should be prefixed uniquely. The prefix <tt>rack.</tt> ## is reserved for use with the Rack core distribution and other ## accepted specifications and must not be used otherwise. ## %w[REQUEST_METHOD SERVER_NAME SERVER_PORT QUERY_STRING rack.version rack.input rack.errors rack.multithread rack.multiprocess rack.run_once].each { |header| assert("env missing required key #{header}") { env.include? header } } ## The environment must not contain the keys ## <tt>HTTP_CONTENT_TYPE</tt> or <tt>HTTP_CONTENT_LENGTH</tt> ## (use the versions without <tt>HTTP_</tt>). %w[HTTP_CONTENT_TYPE HTTP_CONTENT_LENGTH].each { |header| assert("env contains #{header}, must use #{header[5,-1]}") { not env.include? header } } ## The CGI keys (named without a period) must have String values. env.each { |key, value| next if key.include? "." # Skip extensions assert("env variable #{key} has non-string value #{value.inspect}") { value.kind_of? String } } ## There are the following restrictions: ## * <tt>rack.version</tt> must be an array of Integers. assert("rack.version must be an Array, was #{env["rack.version"].class}") { env["rack.version"].kind_of? Array } ## * <tt>rack.url_scheme</tt> must either be +http+ or +https+. assert("rack.url_scheme unknown: #{env["rack.url_scheme"].inspect}") { %w[http https].include? env["rack.url_scheme"] } ## * There must be a valid input stream in <tt>rack.input</tt>. check_input env["rack.input"] ## * There must be a valid error stream in <tt>rack.errors</tt>. check_error env["rack.errors"] ## * There may be a valid hijack stream in <tt>rack.hijack_io</tt> check_hijack env ## * The <tt>REQUEST_METHOD</tt> must be a valid token. assert("REQUEST_METHOD unknown: #{env[REQUEST_METHOD]}") { env["REQUEST_METHOD"] =~ /\A[0-9A-Za-z!\#$%&'*+.^_`|~-]+\z/ } ## * The <tt>SCRIPT_NAME</tt>, if non-empty, must start with <tt>/</tt> assert("SCRIPT_NAME must start with /") { !env.include?("SCRIPT_NAME") || env["SCRIPT_NAME"] == "" || env["SCRIPT_NAME"] =~ /\A\// } ## * The <tt>PATH_INFO</tt>, if non-empty, must start with <tt>/</tt> assert("PATH_INFO must start with /") { !env.include?("PATH_INFO") || env["PATH_INFO"] == "" || env["PATH_INFO"] =~ /\A\// } ## * The <tt>CONTENT_LENGTH</tt>, if given, must consist of digits only. assert("Invalid CONTENT_LENGTH: #{env["CONTENT_LENGTH"]}") { !env.include?("CONTENT_LENGTH") || env["CONTENT_LENGTH"] =~ /\A\d+\z/ } ## * One of <tt>SCRIPT_NAME</tt> or <tt>PATH_INFO</tt> must be ## set. <tt>PATH_INFO</tt> should be <tt>/</tt> if ## <tt>SCRIPT_NAME</tt> is empty. assert("One of SCRIPT_NAME or PATH_INFO must be set (make PATH_INFO '/' if SCRIPT_NAME is empty)") { env["SCRIPT_NAME"] || env["PATH_INFO"] } ## <tt>SCRIPT_NAME</tt> never should be <tt>/</tt>, but instead be empty. assert("SCRIPT_NAME cannot be '/', make it '' and PATH_INFO '/'") { env["SCRIPT_NAME"] != "/" } end ## === The Input Stream ## ## The input stream is an IO-like object which contains the raw HTTP ## POST data. def check_input(input) ## When applicable, its external encoding must be "ASCII-8BIT" and it ## must be opened in binary mode, for Ruby 1.9 compatibility. assert("rack.input #{input} does not have ASCII-8BIT as its external encoding") { input.external_encoding.name == "ASCII-8BIT" } if input.respond_to?(:external_encoding) assert("rack.input #{input} is not opened in binary mode") { input.binmode? } if input.respond_to?(:binmode?) ## The input stream must respond to +gets+, +each+, +read+ and +rewind+. [:gets, :each, :read, :rewind].each { |method| assert("rack.input #{input} does not respond to ##{method}") { input.respond_to? method } } end class InputWrapper include Assertion def initialize(input) @input = input end ## * +gets+ must be called without arguments and return a string, ## or +nil+ on EOF. def gets(*args) assert("rack.input#gets called with arguments") { args.size == 0 } v = @input.gets assert("rack.input#gets didn't return a String") { v.nil? or v.kind_of? String } v end ## * +read+ behaves like IO#read. ## Its signature is <tt>read([length, [buffer]])</tt>. ## ## If given, +length+ must be a non-negative Integer (>= 0) or +nil+, ## and +buffer+ must be a String and may not be nil. ## ## If +length+ is given and not nil, then this method reads at most ## +length+ bytes from the input stream. ## ## If +length+ is not given or nil, then this method reads ## all data until EOF. ## ## When EOF is reached, this method returns nil if +length+ is given ## and not nil, or "" if +length+ is not given or is nil. ## ## If +buffer+ is given, then the read data will be placed ## into +buffer+ instead of a newly created String object. def read(*args) assert("rack.input#read called with too many arguments") { args.size <= 2 } if args.size >= 1 assert("rack.input#read called with non-integer and non-nil length") { args.first.kind_of?(Integer) || args.first.nil? } assert("rack.input#read called with a negative length") { args.first.nil? || args.first >= 0 } end if args.size >= 2 assert("rack.input#read called with non-String buffer") { args[1].kind_of?(String) } end v = @input.read(*args) assert("rack.input#read didn't return nil or a String") { v.nil? or v.kind_of? String } if args[0].nil? assert("rack.input#read(nil) returned nil on EOF") { !v.nil? } end v end ## * +each+ must be called without arguments and only yield Strings. def each(*args) assert("rack.input#each called with arguments") { args.size == 0 } @input.each { |line| assert("rack.input#each didn't yield a String") { line.kind_of? String } yield line } end ## * +rewind+ must be called without arguments. It rewinds the input ## stream back to the beginning. It must not raise Errno::ESPIPE: ## that is, it may not be a pipe or a socket. Therefore, handler ## developers must buffer the input data into some rewindable object ## if the underlying input stream is not rewindable. def rewind(*args) assert("rack.input#rewind called with arguments") { args.size == 0 } assert("rack.input#rewind raised Errno::ESPIPE") { begin @input.rewind true rescue Errno::ESPIPE false end } end ## * +close+ must never be called on the input stream. def close(*args) assert("rack.input#close must not be called") { false } end end ## === The Error Stream def check_error(error) ## The error stream must respond to +puts+, +write+ and +flush+. [:puts, :write, :flush].each { |method| assert("rack.error #{error} does not respond to ##{method}") { error.respond_to? method } } end class ErrorWrapper include Assertion def initialize(error) @error = error end ## * +puts+ must be called with a single argument that responds to +to_s+. def puts(str) @error.puts str end ## * +write+ must be called with a single argument that is a String. def write(str) assert("rack.errors#write not called with a String") { str.kind_of? String } @error.write str end ## * +flush+ must be called without arguments and must be called ## in order to make the error appear for sure. def flush @error.flush end ## * +close+ must never be called on the error stream. def close(*args) assert("rack.errors#close must not be called") { false } end end class HijackWrapper include Assertion extend Forwardable REQUIRED_METHODS = [ :read, :write, :read_nonblock, :write_nonblock, :flush, :close, :close_read, :close_write, :closed? ] def_delegators :@io, *REQUIRED_METHODS def initialize(io) @io = io REQUIRED_METHODS.each do |meth| assert("rack.hijack_io must respond to #{meth}") { io.respond_to? meth } end end end ## === Hijacking # # AUTHORS: n.b. The trailing whitespace between paragraphs is important and # should not be removed. The whitespace creates paragraphs in the RDoc # output. # ## ==== Request (before status) def check_hijack(env) if env['rack.hijack?'] ## If rack.hijack? is true then rack.hijack must respond to #call. original_hijack = env['rack.hijack'] assert("rack.hijack must respond to call") { original_hijack.respond_to?(:call) } env['rack.hijack'] = proc do ## rack.hijack must return the io that will also be assigned (or is ## already present, in rack.hijack_io. io = original_hijack.call HijackWrapper.new(io) ## ## rack.hijack_io must respond to: ## <tt>read, write, read_nonblock, write_nonblock, flush, close, ## close_read, close_write, closed?</tt> ## ## The semantics of these IO methods must be a best effort match to ## those of a normal ruby IO or Socket object, using standard ## arguments and raising standard exceptions. Servers are encouraged ## to simply pass on real IO objects, although it is recognized that ## this approach is not directly compatible with SPDY and HTTP 2.0. ## ## IO provided in rack.hijack_io should preference the ## IO::WaitReadable and IO::WaitWritable APIs wherever supported. ## ## There is a deliberate lack of full specification around ## rack.hijack_io, as semantics will change from server to server. ## Users are encouraged to utilize this API with a knowledge of their ## server choice, and servers may extend the functionality of ## hijack_io to provide additional features to users. The purpose of ## rack.hijack is for Rack to "get out of the way", as such, Rack only ## provides the minimum of specification and support. env['rack.hijack_io'] = HijackWrapper.new(env['rack.hijack_io']) io end else ## ## If rack.hijack? is false, then rack.hijack should not be set. assert("rack.hijack? is false, but rack.hijack is present") { env['rack.hijack'].nil? } ## ## If rack.hijack? is false, then rack.hijack_io should not be set. assert("rack.hijack? is false, but rack.hijack_io is present") { env['rack.hijack_io'].nil? } end end ## ==== Response (after headers) ## It is also possible to hijack a response after the status and headers ## have been sent. def check_hijack_response(headers, env) # this check uses headers like a hash, but the spec only requires # headers respond to #each headers = Rack::Utils::HeaderHash.new(headers) ## In order to do this, an application may set the special header ## <tt>rack.hijack</tt> to an object that responds to <tt>call</tt> ## accepting an argument that conforms to the <tt>rack.hijack_io</tt> ## protocol. ## ## After the headers have been sent, and this hijack callback has been ## called, the application is now responsible for the remaining lifecycle ## of the IO. The application is also responsible for maintaining HTTP ## semantics. Of specific note, in almost all cases in the current SPEC, ## applications will have wanted to specify the header Connection:close in ## HTTP/1.1, and not Connection:keep-alive, as there is no protocol for ## returning hijacked sockets to the web server. For that purpose, use the ## body streaming API instead (progressively yielding strings via each). ## ## Servers must ignore the <tt>body</tt> part of the response tuple when ## the <tt>rack.hijack</tt> response API is in use. if env['rack.hijack?'] && headers['rack.hijack'] assert('rack.hijack header must respond to #call') { headers['rack.hijack'].respond_to? :call } original_hijack = headers['rack.hijack'] headers['rack.hijack'] = proc do |io| original_hijack.call HijackWrapper.new(io) end else ## ## The special response header <tt>rack.hijack</tt> must only be set ## if the request env has <tt>rack.hijack?</tt> <tt>true</tt>. assert('rack.hijack header must not be present if server does not support hijacking') { headers['rack.hijack'].nil? } end end ## ==== Conventions ## * Middleware should not use hijack unless it is handling the whole ## response. ## * Middleware may wrap the IO object for the response pattern. ## * Middleware should not wrap the IO object for the request pattern. The ## request pattern is intended to provide the hijacker with "raw tcp". ## == The Response ## === The Status def check_status(status) ## This is an HTTP status. When parsed as integer (+to_i+), it must be ## greater than or equal to 100. assert("Status must be >=100 seen as integer") { status.to_i >= 100 } end ## === The Headers def check_headers(header) ## The header must respond to +each+, and yield values of key and value. assert("headers object should respond to #each, but doesn't (got #{header.class} as headers)") { header.respond_to? :each } header.each { |key, value| ## Special headers starting "rack." are for communicating with the ## server, and must not be sent back to the client. next if key =~ /^rack\..+$/ ## The header keys must be Strings. assert("header key must be a string, was #{key.class}") { key.kind_of? String } ## The header must not contain a +Status+ key. assert("header must not contain Status") { key.downcase != "status" } ## The header must conform to RFC7230 token specification, i.e. cannot ## contain non-printable ASCII, DQUOTE or "(),/:;<=>?@[\]{}". assert("invalid header name: #{key}") { key !~ /[\(\),\/:;<=>\?@\[\\\]{}[:cntrl:]]/ } ## The values of the header must be Strings, assert("a header value must be a String, but the value of " + "'#{key}' is a #{value.class}") { value.kind_of? String } ## consisting of lines (for multiple header values, e.g. multiple ## <tt>Set-Cookie</tt> values) separated by "\\n". value.split("\n").each { |item| ## The lines must not contain characters below 037. assert("invalid header value #{key}: #{item.inspect}") { item !~ /[\000-\037]/ } } } end ## === The Content-Type def check_content_type(status, headers) headers.each { |key, value| ## There must not be a <tt>Content-Type</tt>, when the +Status+ is 1xx, ## 204, 205 or 304. if key.downcase == "content-type" assert("Content-Type header found in #{status} response, not allowed") { not Rack::Utils::STATUS_WITH_NO_ENTITY_BODY.include? status.to_i } return end } end ## === The Content-Length def check_content_length(status, headers) headers.each { |key, value| if key.downcase == 'content-length' ## There must not be a <tt>Content-Length</tt> header when the ## +Status+ is 1xx, 204, 205 or 304. assert("Content-Length header found in #{status} response, not allowed") { not Rack::Utils::STATUS_WITH_NO_ENTITY_BODY.include? status.to_i } @content_length = value end } end def verify_content_length(bytes) if @head_request assert("Response body was given for HEAD request, but should be empty") { bytes == 0 } elsif @content_length assert("Content-Length header was #{@content_length}, but should be #{bytes}") { @content_length == bytes.to_s } end end ## === The Body def each @closed = false bytes = 0 ## The Body must respond to +each+ assert("Response body must respond to each") do @body.respond_to?(:each) end @body.each { |part| ## and must only yield String values. assert("Body yielded non-string value #{part.inspect}") { part.kind_of? String } bytes += Rack::Utils.bytesize(part) yield part } verify_content_length(bytes) ## ## The Body itself should not be an instance of String, as this will ## break in Ruby 1.9. ## ## If the Body responds to +close+, it will be called after iteration. If ## the body is replaced by a middleware after action, the original body ## must be closed first, if it responds to close. # XXX howto: assert("Body has not been closed") { @closed } ## ## If the Body responds to +to_path+, it must return a String ## identifying the location of a file whose contents are identical ## to that produced by calling +each+; this may be used by the ## server as an alternative, possibly more efficient way to ## transport the response. if @body.respond_to?(:to_path) assert("The file identified by body.to_path does not exist") { ::File.exist? @body.to_path } end ## ## The Body commonly is an Array of Strings, the application ## instance itself, or a File-like object. end def close @closed = true @body.close if @body.respond_to?(:close) end # :startdoc: end end ## == Thanks ## Some parts of this specification are adopted from PEP333: Python ## Web Server Gateway Interface ## v1.0 (http://www.python.org/dev/peps/pep-0333/). I'd like to thank ## everyone involved in that effort.