AlkantarClanX12
Current Path : /opt/alt/ruby32/share/ruby/net/http/ |
Current File : //opt/alt/ruby32/share/ruby/net/http/response.rb |
# frozen_string_literal: true # This class is the base class for \Net::HTTP response classes. # # == About the Examples # # :include: doc/net-http/examples.rdoc # # == Returned Responses # # \Method Net::HTTP.get_response returns # an instance of one of the subclasses of \Net::HTTPResponse: # # Net::HTTP.get_response(uri) # # => #<Net::HTTPOK 200 OK readbody=true> # Net::HTTP.get_response(hostname, '/nosuch') # # => #<Net::HTTPNotFound 404 Not Found readbody=true> # # As does method Net::HTTP#request: # # req = Net::HTTP::Get.new(uri) # Net::HTTP.start(hostname) do |http| # http.request(req) # end # => #<Net::HTTPOK 200 OK readbody=true> # # \Class \Net::HTTPResponse includes module Net::HTTPHeader, # which provides access to response header values via (among others): # # - \Hash-like method <tt>[]</tt>. # - Specific reader methods, such as +content_type+. # # Examples: # # res = Net::HTTP.get_response(uri) # => #<Net::HTTPOK 200 OK readbody=true> # res['Content-Type'] # => "text/html; charset=UTF-8" # res.content_type # => "text/html" # # == Response Subclasses # # \Class \Net::HTTPResponse has a subclass for each # {HTTP status code}[https://en.wikipedia.org/wiki/List_of_HTTP_status_codes]. # You can look up the response class for a given code: # # Net::HTTPResponse::CODE_TO_OBJ['200'] # => Net::HTTPOK # Net::HTTPResponse::CODE_TO_OBJ['400'] # => Net::HTTPBadRequest # Net::HTTPResponse::CODE_TO_OBJ['404'] # => Net::HTTPNotFound # # And you can retrieve the status code for a response object: # # Net::HTTP.get_response(uri).code # => "200" # Net::HTTP.get_response(hostname, '/nosuch').code # => "404" # # The response subclasses (indentation shows class hierarchy): # # - Net::HTTPUnknownResponse (for unhandled \HTTP extensions). # # - Net::HTTPInformation: # # - Net::HTTPContinue (100) # - Net::HTTPSwitchProtocol (101) # - Net::HTTPProcessing (102) # - Net::HTTPEarlyHints (103) # # - Net::HTTPSuccess: # # - Net::HTTPOK (200) # - Net::HTTPCreated (201) # - Net::HTTPAccepted (202) # - Net::HTTPNonAuthoritativeInformation (203) # - Net::HTTPNoContent (204) # - Net::HTTPResetContent (205) # - Net::HTTPPartialContent (206) # - Net::HTTPMultiStatus (207) # - Net::HTTPAlreadyReported (208) # - Net::HTTPIMUsed (226) # # - Net::HTTPRedirection: # # - Net::HTTPMultipleChoices (300) # - Net::HTTPMovedPermanently (301) # - Net::HTTPFound (302) # - Net::HTTPSeeOther (303) # - Net::HTTPNotModified (304) # - Net::HTTPUseProxy (305) # - Net::HTTPTemporaryRedirect (307) # - Net::HTTPPermanentRedirect (308) # # - Net::HTTPClientError: # # - Net::HTTPBadRequest (400) # - Net::HTTPUnauthorized (401) # - Net::HTTPPaymentRequired (402) # - Net::HTTPForbidden (403) # - Net::HTTPNotFound (404) # - Net::HTTPMethodNotAllowed (405) # - Net::HTTPNotAcceptable (406) # - Net::HTTPProxyAuthenticationRequired (407) # - Net::HTTPRequestTimeOut (408) # - Net::HTTPConflict (409) # - Net::HTTPGone (410) # - Net::HTTPLengthRequired (411) # - Net::HTTPPreconditionFailed (412) # - Net::HTTPRequestEntityTooLarge (413) # - Net::HTTPRequestURITooLong (414) # - Net::HTTPUnsupportedMediaType (415) # - Net::HTTPRequestedRangeNotSatisfiable (416) # - Net::HTTPExpectationFailed (417) # - Net::HTTPMisdirectedRequest (421) # - Net::HTTPUnprocessableEntity (422) # - Net::HTTPLocked (423) # - Net::HTTPFailedDependency (424) # - Net::HTTPUpgradeRequired (426) # - Net::HTTPPreconditionRequired (428) # - Net::HTTPTooManyRequests (429) # - Net::HTTPRequestHeaderFieldsTooLarge (431) # - Net::HTTPUnavailableForLegalReasons (451) # # - Net::HTTPServerError: # # - Net::HTTPInternalServerError (500) # - Net::HTTPNotImplemented (501) # - Net::HTTPBadGateway (502) # - Net::HTTPServiceUnavailable (503) # - Net::HTTPGatewayTimeOut (504) # - Net::HTTPVersionNotSupported (505) # - Net::HTTPVariantAlsoNegotiates (506) # - Net::HTTPInsufficientStorage (507) # - Net::HTTPLoopDetected (508) # - Net::HTTPNotExtended (510) # - Net::HTTPNetworkAuthenticationRequired (511) # # There is also the Net::HTTPBadResponse exception which is raised when # there is a protocol error. # class Net::HTTPResponse class << self # true if the response has a body. def body_permitted? self::HAS_BODY end def exception_type # :nodoc: internal use only self::EXCEPTION_TYPE end def read_new(sock) #:nodoc: internal use only httpv, code, msg = read_status_line(sock) res = response_class(code).new(httpv, code, msg) each_response_header(sock) do |k,v| res.add_field k, v end res end private def read_status_line(sock) str = sock.readline m = /\AHTTP(?:\/(\d+\.\d+))?\s+(\d\d\d)(?:\s+(.*))?\z/in.match(str) or raise Net::HTTPBadResponse, "wrong status line: #{str.dump}" m.captures end def response_class(code) CODE_TO_OBJ[code] or CODE_CLASS_TO_OBJ[code[0,1]] or Net::HTTPUnknownResponse end def each_response_header(sock) key = value = nil while true line = sock.readuntil("\n", true).sub(/\s+\z/, '') break if line.empty? if line[0] == ?\s or line[0] == ?\t and value value << ' ' unless value.empty? value << line.strip else yield key, value if key key, value = line.strip.split(/\s*:\s*/, 2) raise Net::HTTPBadResponse, 'wrong header line format' if value.nil? end end yield key, value if key end end # next is to fix bug in RDoc, where the private inside class << self # spills out. public include Net::HTTPHeader def initialize(httpv, code, msg) #:nodoc: internal use only @http_version = httpv @code = code @message = msg initialize_http_header nil @body = nil @read = false @uri = nil @decode_content = false @body_encoding = false @ignore_eof = true end # The HTTP version supported by the server. attr_reader :http_version # The HTTP result code string. For example, '302'. You can also # determine the response type by examining which response subclass # the response object is an instance of. attr_reader :code # The HTTP result message sent by the server. For example, 'Not Found'. attr_reader :message alias msg message # :nodoc: obsolete # The URI used to fetch this response. The response URI is only available # if a URI was used to create the request. attr_reader :uri # Set to true automatically when the request did not contain an # Accept-Encoding header from the user. attr_accessor :decode_content # Returns the value set by body_encoding=, or +false+ if none; # see #body_encoding=. attr_reader :body_encoding # Sets the encoding that should be used when reading the body: # # - If the given value is an Encoding object, that encoding will be used. # - Otherwise if the value is a string, the value of # {Encoding#find(value)}[rdoc-ref:Encoding.find] # will be used. # - Otherwise an encoding will be deduced from the body itself. # # Examples: # # http = Net::HTTP.new(hostname) # req = Net::HTTP::Get.new('/') # # http.request(req) do |res| # p res.body.encoding # => #<Encoding:ASCII-8BIT> # end # # http.request(req) do |res| # res.body_encoding = "UTF-8" # p res.body.encoding # => #<Encoding:UTF-8> # end # def body_encoding=(value) value = Encoding.find(value) if value.is_a?(String) @body_encoding = value end # Whether to ignore EOF when reading bodies with a specified Content-Length # header. attr_accessor :ignore_eof def inspect "#<#{self.class} #{@code} #{@message} readbody=#{@read}>" end # # response <-> exception relationship # def code_type #:nodoc: self.class end def error! #:nodoc: message = @code message = "#{message} #{@message.dump}" if @message raise error_type().new(message, self) end def error_type #:nodoc: self.class::EXCEPTION_TYPE end # Raises an HTTP error if the response is not 2xx (success). def value error! unless self.kind_of?(Net::HTTPSuccess) end def uri= uri # :nodoc: @uri = uri.dup if uri end # # header (for backward compatibility only; DO NOT USE) # def response #:nodoc: warn "Net::HTTPResponse#response is obsolete", uplevel: 1 if $VERBOSE self end def header #:nodoc: warn "Net::HTTPResponse#header is obsolete", uplevel: 1 if $VERBOSE self end def read_header #:nodoc: warn "Net::HTTPResponse#read_header is obsolete", uplevel: 1 if $VERBOSE self end # # body # def reading_body(sock, reqmethodallowbody) #:nodoc: internal use only @socket = sock @body_exist = reqmethodallowbody && self.class.body_permitted? begin yield self.body # ensure to read body ensure @socket = nil end end # Gets the entity body returned by the remote HTTP server. # # If a block is given, the body is passed to the block, and # the body is provided in fragments, as it is read in from the socket. # # If +dest+ argument is given, response is read into that variable, # with <code>dest#<<</code> method (it could be String or IO, or any # other object responding to <code><<</code>). # # Calling this method a second or subsequent time for the same # HTTPResponse object will return the value already read. # # http.request_get('/index.html') {|res| # puts res.read_body # } # # http.request_get('/index.html') {|res| # p res.read_body.object_id # 538149362 # p res.read_body.object_id # 538149362 # } # # # using iterator # http.request_get('/index.html') {|res| # res.read_body do |segment| # print segment # end # } # def read_body(dest = nil, &block) if @read raise IOError, "#{self.class}\#read_body called twice" if dest or block return @body end to = procdest(dest, block) stream_check if @body_exist read_body_0 to @body = to else @body = nil end @read = true return if @body.nil? case enc = @body_encoding when Encoding, false, nil # Encoding: force given encoding # false/nil: do not force encoding else # other value: detect encoding from body enc = detect_encoding(@body) end @body.force_encoding(enc) if enc @body end # Returns the string response body; # note that repeated calls for the unmodified body return a cached string: # # path = '/todos/1' # Net::HTTP.start(hostname) do |http| # res = http.get(path) # p res.body # p http.head(path).body # No body. # end # # Output: # # "{\n \"userId\": 1,\n \"id\": 1,\n \"title\": \"delectus aut autem\",\n \"completed\": false\n}" # nil # def body read_body() end # Sets the body of the response to the given value. def body=(value) @body = value end alias entity body #:nodoc: obsolete private # :nodoc: def detect_encoding(str, encoding=nil) if encoding elsif encoding = type_params['charset'] elsif encoding = check_bom(str) else encoding = case content_type&.downcase when %r{text/x(?:ht)?ml|application/(?:[^+]+\+)?xml} /\A<xml[ \t\r\n]+ version[ \t\r\n]*=[ \t\r\n]*(?:"[0-9.]+"|'[0-9.]*')[ \t\r\n]+ encoding[ \t\r\n]*=[ \t\r\n]* (?:"([A-Za-z][\-A-Za-z0-9._]*)"|'([A-Za-z][\-A-Za-z0-9._]*)')/x =~ str encoding = $1 || $2 || Encoding::UTF_8 when %r{text/html.*} sniff_encoding(str) end end return encoding end # :nodoc: def sniff_encoding(str, encoding=nil) # the encoding sniffing algorithm # http://www.w3.org/TR/html5/parsing.html#determining-the-character-encoding if enc = scanning_meta(str) enc # 6. last visited page or something # 7. frequency elsif str.ascii_only? Encoding::US_ASCII elsif str.dup.force_encoding(Encoding::UTF_8).valid_encoding? Encoding::UTF_8 end # 8. implementation-defined or user-specified end # :nodoc: def check_bom(str) case str.byteslice(0, 2) when "\xFE\xFF" return Encoding::UTF_16BE when "\xFF\xFE" return Encoding::UTF_16LE end if "\xEF\xBB\xBF" == str.byteslice(0, 3) return Encoding::UTF_8 end nil end # :nodoc: def scanning_meta(str) require 'strscan' ss = StringScanner.new(str) if ss.scan_until(/<meta[\t\n\f\r ]*/) attrs = {} # attribute_list got_pragma = false need_pragma = nil charset = nil # step: Attributes while attr = get_attribute(ss) name, value = *attr next if attrs[name] attrs[name] = true case name when 'http-equiv' got_pragma = true if value == 'content-type' when 'content' encoding = extracting_encodings_from_meta_elements(value) unless charset charset = encoding end need_pragma = true when 'charset' need_pragma = false charset = value end end # step: Processing return if need_pragma.nil? return if need_pragma && !got_pragma charset = Encoding.find(charset) rescue nil return unless charset charset = Encoding::UTF_8 if charset == Encoding::UTF_16 return charset # tentative end nil end def get_attribute(ss) ss.scan(/[\t\n\f\r \/]*/) if ss.peek(1) == '>' ss.getch return nil end name = ss.scan(/[^=\t\n\f\r \/>]*/) name.downcase! raise if name.empty? ss.skip(/[\t\n\f\r ]*/) if ss.getch != '=' value = '' return [name, value] end ss.skip(/[\t\n\f\r ]*/) case ss.peek(1) when '"' ss.getch value = ss.scan(/[^"]+/) value.downcase! ss.getch when "'" ss.getch value = ss.scan(/[^']+/) value.downcase! ss.getch when '>' value = '' else value = ss.scan(/[^\t\n\f\r >]+/) value.downcase! end [name, value] end def extracting_encodings_from_meta_elements(value) # http://dev.w3.org/html5/spec/fetching-resources.html#algorithm-for-extracting-an-encoding-from-a-meta-element if /charset[\t\n\f\r ]*=(?:"([^"]*)"|'([^']*)'|["']|\z|([^\t\n\f\r ;]+))/i =~ value return $1 || $2 || $3 end return nil end ## # Checks for a supported Content-Encoding header and yields an Inflate # wrapper for this response's socket when zlib is present. If the # Content-Encoding is not supported or zlib is missing, the plain socket is # yielded. # # If a Content-Range header is present, a plain socket is yielded as the # bytes in the range may not be a complete deflate block. def inflater # :nodoc: return yield @socket unless Net::HTTP::HAVE_ZLIB return yield @socket unless @decode_content return yield @socket if self['content-range'] v = self['content-encoding'] case v&.downcase when 'deflate', 'gzip', 'x-gzip' then self.delete 'content-encoding' inflate_body_io = Inflater.new(@socket) begin yield inflate_body_io success = true ensure begin inflate_body_io.finish if self['content-length'] self['content-length'] = inflate_body_io.bytes_inflated.to_s end rescue => err # Ignore #finish's error if there is an exception from yield raise err if success end end when 'none', 'identity' then self.delete 'content-encoding' yield @socket else yield @socket end end def read_body_0(dest) inflater do |inflate_body_io| if chunked? read_chunked dest, inflate_body_io return end @socket = inflate_body_io clen = content_length() if clen @socket.read clen, dest, @ignore_eof return end clen = range_length() if clen @socket.read clen, dest return end @socket.read_all dest end end ## # read_chunked reads from +@socket+ for chunk-size, chunk-extension, CRLF, # etc. and +chunk_data_io+ for chunk-data which may be deflate or gzip # encoded. # # See RFC 2616 section 3.6.1 for definitions def read_chunked(dest, chunk_data_io) # :nodoc: total = 0 while true line = @socket.readline hexlen = line.slice(/[0-9a-fA-F]+/) or raise Net::HTTPBadResponse, "wrong chunk size line: #{line}" len = hexlen.hex break if len == 0 begin chunk_data_io.read len, dest ensure total += len @socket.read 2 # \r\n end end until @socket.readline.empty? # none end end def stream_check raise IOError, 'attempt to read body out of block' if @socket.nil? || @socket.closed? end def procdest(dest, block) raise ArgumentError, 'both arg and block given for HTTP method' if dest and block if block Net::ReadAdapter.new(block) else dest || +'' end end ## # Inflater is a wrapper around Net::BufferedIO that transparently inflates # zlib and gzip streams. class Inflater # :nodoc: ## # Creates a new Inflater wrapping +socket+ def initialize socket @socket = socket # zlib with automatic gzip detection @inflate = Zlib::Inflate.new(32 + Zlib::MAX_WBITS) end ## # Finishes the inflate stream. def finish return if @inflate.total_in == 0 @inflate.finish end ## # The number of bytes inflated, used to update the Content-Length of # the response. def bytes_inflated @inflate.total_out end ## # Returns a Net::ReadAdapter that inflates each read chunk into +dest+. # # This allows a large response body to be inflated without storing the # entire body in memory. def inflate_adapter(dest) if dest.respond_to?(:set_encoding) dest.set_encoding(Encoding::ASCII_8BIT) elsif dest.respond_to?(:force_encoding) dest.force_encoding(Encoding::ASCII_8BIT) end block = proc do |compressed_chunk| @inflate.inflate(compressed_chunk) do |chunk| compressed_chunk.clear dest << chunk end end Net::ReadAdapter.new(block) end ## # Reads +clen+ bytes from the socket, inflates them, then writes them to # +dest+. +ignore_eof+ is passed down to Net::BufferedIO#read # # Unlike Net::BufferedIO#read, this method returns more than +clen+ bytes. # At this time there is no way for a user of Net::HTTPResponse to read a # specific number of bytes from the HTTP response body, so this internal # API does not return the same number of bytes as were requested. # # See https://bugs.ruby-lang.org/issues/6492 for further discussion. def read clen, dest, ignore_eof = false temp_dest = inflate_adapter(dest) @socket.read clen, temp_dest, ignore_eof end ## # Reads the rest of the socket, inflates it, then writes it to +dest+. def read_all dest temp_dest = inflate_adapter(dest) @socket.read_all temp_dest end end end