require 'tempfile' require 'stringio' require 'strscan' module ActionController # CgiRequest and TestRequest provide concrete implementations. class AbstractRequest cattr_accessor :relative_url_root remove_method :relative_url_root # The hash of environment variables for this request, # such as { 'RAILS_ENV' => 'production' }. attr_reader :env # The requested content type, such as :html or :xml. attr_writer :format # The HTTP request method as a lowercase symbol, such as :get. # Note, HEAD is returned as :get since the two are functionally # equivalent from the application's perspective. def method @request_method ||= if @env['REQUEST_METHOD'] == 'POST' && !parameters[:_method].blank? parameters[:_method].to_s.downcase.to_sym else @env['REQUEST_METHOD'].downcase.to_sym end @request_method == :head ? :get : @request_method end # Is this a GET (or HEAD) request? Equivalent to request.method == :get def get? method == :get end # Is this a POST request? Equivalent to request.method == :post def post? method == :post end # Is this a PUT request? Equivalent to request.method == :put def put? method == :put end # Is this a DELETE request? Equivalent to request.method == :delete def delete? method == :delete end # Is this a HEAD request? request.method sees HEAD as :get, so check the # HTTP method directly. def head? @env['REQUEST_METHOD'].downcase.to_sym == :head end def headers @env end def content_length @content_length ||= env['CONTENT_LENGTH'].to_i end # The MIME type of the HTTP request, such as Mime::XML. # # For backward compatibility, the post format is extracted from the # X-Post-Data-Format HTTP header if present. def content_type @content_type ||= content_type_from_legacy_post_data_format_header || Mime::Type.lookup(content_type_without_parameters) end # Returns the accepted MIME type for the request def accepts @accepts ||= if @env['HTTP_ACCEPT'].to_s.strip.empty? [ content_type, Mime::ALL ].compact # make sure content_type being nil is not included else Mime::Type.parse(@env['HTTP_ACCEPT']) end end # Returns the Mime type for the format used in the request. If there is no format available, the first of the # accept types will be used. Examples: # # GET /posts/5.xml | request.format => Mime::XML # GET /posts/5.xhtml | request.format => Mime::HTML # GET /posts/5 | request.format => request.accepts.first (usually Mime::HTML for browsers) def format @format ||= parameters[:format] ? Mime::Type.lookup_by_extension(parameters[:format]) : accepts.first end # Returns true if the request's "X-Requested-With" header contains # "XMLHttpRequest". (The Prototype Javascript library sends this header with # every Ajax request.) def xml_http_request? not /XMLHttpRequest/i.match(@env['HTTP_X_REQUESTED_WITH']).nil? end alias xhr? :xml_http_request? # Determine originating IP address. REMOTE_ADDR is the standard # but will fail if the user is behind a proxy. HTTP_CLIENT_IP and/or # HTTP_X_FORWARDED_FOR are set by proxies so check for these before # falling back to REMOTE_ADDR. HTTP_X_FORWARDED_FOR may be a comma- # delimited list in the case of multiple chained proxies; the first is # the originating IP. def remote_ip return @env['HTTP_CLIENT_IP'] if @env.include? 'HTTP_CLIENT_IP' if @env.include? 'HTTP_X_FORWARDED_FOR' then remote_ips = @env['HTTP_X_FORWARDED_FOR'].split(',').reject do |ip| ip =~ /^unknown$|^(10|172\.(1[6-9]|2[0-9]|30|31)|192\.168)\./i end return remote_ips.first.strip unless remote_ips.empty? end @env['REMOTE_ADDR'] end # Returns the lowercase name of the HTTP server software. def server_software (@env['SERVER_SOFTWARE'] && /^([a-zA-Z]+)/ =~ @env['SERVER_SOFTWARE']) ? $1.downcase : nil end # Returns the complete URL used for this request def url protocol + host_with_port + request_uri end # Return 'https://' if this is an SSL request and 'http://' otherwise. def protocol ssl? ? 'https://' : 'http://' end # Is this an SSL request? def ssl? @env['HTTPS'] == 'on' || @env['HTTP_X_FORWARDED_PROTO'] == 'https' end # Returns the host for this request, such as example.com. def host end # Returns a host:port string for this request, such as example.com or # example.com:8080. def host_with_port host + port_string end # Returns the port number of this request as an integer. def port @port_as_int ||= @env['SERVER_PORT'].to_i end # Returns the standard port number for this request's protocol def standard_port case protocol when 'https://' then 443 else 80 end end # Returns a port suffix like ":8080" if the port number of this request # is not the default HTTP port 80 or HTTPS port 443. def port_string (port == standard_port) ? '' : ":#{port}" end # Returns the domain part of a host, such as rubyonrails.org in "www.rubyonrails.org". You can specify # a different tld_length, such as 2 to catch rubyonrails.co.uk in "www.rubyonrails.co.uk". def domain(tld_length = 1) return nil if !/\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}/.match(host).nil? or host.nil? host.split('.').last(1 + tld_length).join('.') end # Returns all the subdomains as an array, so ["dev", "www"] would be returned for "dev.www.rubyonrails.org". # You can specify a different tld_length, such as 2 to catch ["www"] instead of ["www", "rubyonrails"] # in "www.rubyonrails.co.uk". def subdomains(tld_length = 1) return [] unless host parts = host.split('.') parts[0..-(tld_length+2)] end # Return the request URI, accounting for server idiosyncracies. # WEBrick includes the full URL. IIS leaves REQUEST_URI blank. def request_uri if uri = @env['REQUEST_URI'] # Remove domain, which webrick puts into the request_uri. (%r{^\w+\://[^/]+(/.*|$)$} =~ uri) ? $1 : uri else # Construct IIS missing REQUEST_URI from SCRIPT_NAME and PATH_INFO. script_filename = @env['SCRIPT_NAME'].to_s.match(%r{[^/]+$}) uri = @env['PATH_INFO'] uri = uri.sub(/#{script_filename}\//, '') unless script_filename.nil? unless (env_qs = @env['QUERY_STRING']).nil? || env_qs.empty? uri << '?' << env_qs end @env['REQUEST_URI'] = uri end end # Returns the interpreted path to requested resource after all the installation directory of this application was taken into account def path path = (uri = request_uri) ? uri.split('?').first.to_s : '' # Cut off the path to the installation directory if given path.sub!(%r/^#{relative_url_root}/, '') path || '' end # Returns the path minus the web server relative installation directory. # This can be set with the environment variable RAILS_RELATIVE_URL_ROOT. # It can be automatically extracted for Apache setups. If the server is not # Apache, this method returns an empty string. def relative_url_root @@relative_url_root ||= case when @env["RAILS_RELATIVE_URL_ROOT"] @env["RAILS_RELATIVE_URL_ROOT"] when server_software == 'apache' @env["SCRIPT_NAME"].to_s.sub(/\/dispatch\.(fcgi|rb|cgi)$/, '') else '' end end # Receive the raw post data. # This is useful for services such as REST, XMLRPC and SOAP # which communicate over HTTP POST but don't use the traditional parameter format. def raw_post @env['RAW_POST_DATA'] ||= body.read end # Returns both GET and POST parameters in a single hash. def parameters @parameters ||= request_parameters.update(query_parameters).update(path_parameters).with_indifferent_access end def path_parameters=(parameters) #:nodoc: @path_parameters = parameters @symbolized_path_parameters = @parameters = nil end # The same as path_parameters with explicitly symbolized keys def symbolized_path_parameters @symbolized_path_parameters ||= path_parameters.symbolize_keys end # Returns a hash with the parameters used to form the path of the request # # Example: # # {:action => 'my_action', :controller => 'my_controller'} def path_parameters @path_parameters ||= {} end #-- # Must be implemented in the concrete request #++ # The request body is an IO input stream. def body end def query_parameters #:nodoc: end def request_parameters #:nodoc: end def cookies #:nodoc: end def session #:nodoc: end def session=(session) #:nodoc: @session = session end def reset_session #:nodoc: end protected # The raw content type string. Use when you need parameters such as # charset or boundary which aren't included in the content_type MIME type. def content_type_with_parameters env['CONTENT_TYPE'].to_s end # The raw content type string with its parameters stripped off. def content_type_without_parameters @content_type_without_parameters ||= self.class.extract_content_type_without_parameters(content_type_with_parameters) end private def content_type_from_legacy_post_data_format_header if x_post_format = @env['HTTP_X_POST_DATA_FORMAT'] case x_post_format.to_s.downcase when 'yaml'; Mime::YAML when 'xml'; Mime::XML end end end class << self def extract_content_type_without_parameters(content_type_with_parameters) $1.strip.downcase if content_type_with_parameters =~ /^([^,\;]*)/ end def parse_formatted_request_parameters(body, content_type_with_parameters, content_length, env = {}) content_length = content_length.to_i return {} if content_length.zero? content_type, boundary = extract_multipart_boundary(content_type_with_parameters.to_s) return {} if content_type.blank? mime_type = Mime::Type.lookup(content_type) strategy = ActionController::Base.param_parsers[mime_type] # Only multipart form parsing expects a stream. if strategy && strategy != :multipart_form data = body.read(content_length) body.rewind if body.respond_to?(:rewind) body = data end case strategy when Proc strategy.call(body) when :url_encoded_form clean_up_ajax_request_body! body parse_query_parameters(body) when :multipart_form parse_multipart_form_parameters(body, boundary, content_length, env) when :xml_simple, :xml_node body.blank? ? {} : Hash.from_xml(body).with_indifferent_access when :yaml YAML.load(body) else {} end rescue Exception => e # YAML, XML or Ruby code block errors raise { "body" => body, "content_type" => content_type_with_parameters, "content_length" => content_length, "exception" => "#{e.message} (#{e.class})", "backtrace" => e.backtrace } end def parse_query_parameters(query_string) return {} if query_string.blank? pairs = query_string.split('&').collect do |chunk| next if chunk.empty? key, value = chunk.split('=', 2) next if key.empty? value = value.nil? ? nil : CGI.unescape(value) [ CGI.unescape(key), value ] end.compact UrlEncodedPairParser.new(pairs).result end def parse_request_parameters(params) parser = UrlEncodedPairParser.new params = params.dup until params.empty? for key, value in params if key.blank? params.delete key elsif !key.include?('[') # much faster to test for the most common case first (GET) # and avoid the call to build_deep_hash parser.result[key] = get_typed_value(value[0]) params.delete key elsif value.is_a?(Array) parser.parse(key, get_typed_value(value.shift)) params.delete key if value.empty? else raise TypeError, "Expected array, found #{value.inspect}" end end end parser.result end def parse_multipart_form_parameters(body, boundary, content_length, env) parse_request_parameters(read_multipart(body, boundary, content_length, env)) end private def get_typed_value(value) case value when String value when NilClass '' when Array value.map { |v| get_typed_value(v) } else # Uploaded file provides content type and filename. if value.respond_to?(:content_type) && !value.content_type.blank? && !value.original_filename.blank? unless value.respond_to?(:full_original_filename) class << value alias_method :full_original_filename, :original_filename # Take the basename of the upload's original filename. # This handles the full Windows paths given by Internet Explorer # (and perhaps other broken user agents) without affecting # those which give the lone filename. # The Windows regexp is adapted from Perl's File::Basename. def original_filename if md = /^(?:.*[:\\\/])?(.*)/m.match(full_original_filename) md.captures.first else File.basename full_original_filename end end end end # Return the same value after overriding original_filename. value # Multipart values may have content type, but no filename. elsif value.respond_to?(:read) result = value.read value.rewind result # Unknown value, neither string nor multipart. else raise "Unknown form value: #{value.inspect}" end end end MULTIPART_BOUNDARY = %r|\Amultipart/form-data.*boundary=\"?([^\";,]+)\"?|n def extract_multipart_boundary(content_type_with_parameters) if content_type_with_parameters =~ MULTIPART_BOUNDARY ['multipart/form-data', $1.dup] else extract_content_type_without_parameters(content_type_with_parameters) end end def clean_up_ajax_request_body!(body) body.chop! if body[-1] == 0 body.gsub!(/&_=$/, '') end EOL = "\015\012" def read_multipart(body, boundary, content_length, env) params = Hash.new([]) boundary = "--" + boundary quoted_boundary = Regexp.quote(boundary, "n") buf = "" bufsize = 10 * 1024 boundary_end="" # start multipart/form-data body.binmode if defined? body.binmode boundary_size = boundary.size + EOL.size content_length -= boundary_size status = body.read(boundary_size) if nil == status raise EOFError, "no content body" elsif boundary + EOL != status raise EOFError, "bad content body" end loop do head = nil content = if 10240 < content_length Tempfile.new("CGI") else StringIO.new end content.binmode if defined? content.binmode until head and /#{quoted_boundary}(?:#{EOL}|--)/n.match(buf) if (not head) and /#{EOL}#{EOL}/n.match(buf) buf = buf.sub(/\A((?:.|\n)*?#{EOL})#{EOL}/n) do head = $1.dup "" end next end if head and ( (EOL + boundary + EOL).size < buf.size ) content.print buf[0 ... (buf.size - (EOL + boundary + EOL).size)] buf[0 ... (buf.size - (EOL + boundary + EOL).size)] = "" end c = if bufsize < content_length body.read(bufsize) else body.read(content_length) end if c.nil? || c.empty? raise EOFError, "bad content body" end buf.concat(c) content_length -= c.size end buf = buf.sub(/\A((?:.|\n)*?)(?:[\r\n]{1,2})?#{quoted_boundary}([\r\n]{1,2}|--)/n) do content.print $1 if "--" == $2 content_length = -1 end boundary_end = $2.dup "" end content.rewind /Content-Disposition:.* filename=(?:"((?:\\.|[^\"])*)"|([^;]*))/ni.match(head) filename = ($1 or $2 or "") if /Mac/ni.match(env['HTTP_USER_AGENT']) and /Mozilla/ni.match(env['HTTP_USER_AGENT']) and (not /MSIE/ni.match(env['HTTP_USER_AGENT'])) filename = CGI.unescape(filename) end /Content-Type: (.*)/ni.match(head) content_type = ($1 or "") (class << content; self; end).class_eval do alias local_path path define_method(:original_filename) {filename.dup.taint} define_method(:content_type) {content_type.dup.taint} end /Content-Disposition:.* name="?([^\";]*)"?/ni.match(head) name = $1.dup if params.has_key?(name) params[name].push(content) else params[name] = [content] end break if buf.size == 0 break if content_length == -1 end raise EOFError, "bad boundary end of body part" unless boundary_end=~/--/ params end end end class UrlEncodedPairParser < StringScanner #:nodoc: attr_reader :top, :parent, :result def initialize(pairs = []) super('') @result = {} pairs.each { |key, value| parse(key, value) } end KEY_REGEXP = %r{([^\[\]=&]+)} BRACKETED_KEY_REGEXP = %r{\[([^\[\]=&]+)\]} # Parse the query string def parse(key, value) self.string = key @top, @parent = result, nil # First scan the bare key key = scan(KEY_REGEXP) or return key = post_key_check(key) # Then scan as many nestings as present until eos? r = scan(BRACKETED_KEY_REGEXP) or return key = self[1] key = post_key_check(key) end bind(key, value) end private # After we see a key, we must look ahead to determine our next action. Cases: # # [] follows the key. Then the value must be an array. # = follows the key. (A value comes next) # & or the end of string follows the key. Then the key is a flag. # otherwise, a hash follows the key. def post_key_check(key) if scan(/\[\]/) # a[b][] indicates that b is an array container(key, Array) nil elsif check(/\[[^\]]/) # a[b] indicates that a is a hash container(key, Hash) nil else # End of key? We do nothing. key end end # Add a container to the stack. def container(key, klass) type_conflict! klass, top[key] if top.is_a?(Hash) && top.key?(key) && ! top[key].is_a?(klass) value = bind(key, klass.new) type_conflict! klass, value unless value.is_a?(klass) push(value) end # Push a value onto the 'stack', which is actually only the top 2 items. def push(value) @parent, @top = @top, value end # Bind a key (which may be nil for items in an array) to the provided value. def bind(key, value) if top.is_a? Array if key if top[-1].is_a?(Hash) && ! top[-1].key?(key) top[-1][key] = value else top << {key => value}.with_indifferent_access push top.last end else top << value end elsif top.is_a? Hash key = CGI.unescape(key) parent << (@top = {}) if top.key?(key) && parent.is_a?(Array) return top[key] ||= value else raise ArgumentError, "Don't know what to do: top is #{top.inspect}" end return value end def type_conflict!(klass, value) raise TypeError, "Conflicting types for parameter containers. Expected an instance of #{klass} but found an instance of #{value.class}. This can be caused by colliding Array and Hash parameters like qs[]=value&qs[key]=value." end end end