require 'uri'
require 'stringio'
require 'time'
module Kernel
private
alias open_uri_original_open open # :nodoc:
# makes possible to open various resources including URIs.
# If the first argument respond to `open' method,
# the method is called with the rest arguments.
#
# If the first argument is a string which begins with xxx://,
# it is parsed by URI.parse. If the parsed object respond to `open' method,
# the method is called with the rest arguments.
#
# Otherwise original open is called.
#
# Since open-uri.rb provides URI::HTTP#open, URI::HTTPS#open and
# URI::FTP#open,
# Kernel[#.]open can accepts such URIs and strings which begins with
# http://, https:// and ftp://.
# In these case, the opened file object is extended by OpenURI::Meta.
def open(name, *rest, &block) # :doc:
if name.respond_to?(:open)
name.open(*rest, &block)
elsif name.respond_to?(:to_str) &&
%r{\A[A-Za-z][A-Za-z0-9+\-\.]*://} =~ name &&
(uri = URI.parse(name)).respond_to?(:open)
uri.open(*rest, &block)
else
open_uri_original_open(name, *rest, &block)
end
end
module_function :open
end
# OpenURI is an easy-to-use wrapper for net/http, net/https and net/ftp.
#
#== Example
#
# It is possible to open http/https/ftp URL as usual like opening a file:
#
# open("http://www.ruby-lang.org/") {|f|
# f.each_line {|line| p line}
# }
#
# The opened file has several methods for meta information as follows since
# it is extended by OpenURI::Meta.
#
# open("http://www.ruby-lang.org/en") {|f|
# f.each_line {|line| p line}
# p f.base_uri #
# p f.content_type # "text/html"
# p f.charset # "iso-8859-1"
# p f.content_encoding # []
# p f.last_modified # Thu Dec 05 02:45:02 UTC 2002
# }
#
# Additional header fields can be specified by an optional hash argument.
#
# open("http://www.ruby-lang.org/en/",
# "User-Agent" => "Ruby/#{RUBY_VERSION}",
# "From" => "foo@bar.invalid",
# "Referer" => "http://www.ruby-lang.org/") {|f|
# # ...
# }
#
# The environment variables such as http_proxy, https_proxy and ftp_proxy
# are in effect by default. :proxy => nil disables proxy.
#
# open("http://www.ruby-lang.org/en/raa.html", :proxy => nil) {|f|
# # ...
# }
#
# URI objects can be opened in a similar way.
#
# uri = URI.parse("http://www.ruby-lang.org/en/")
# uri.open {|f|
# # ...
# }
#
# URI objects can be read directly. The returned string is also extended by
# OpenURI::Meta.
#
# str = uri.read
# p str.base_uri
#
# Author:: Tanaka Akira
module OpenURI
Options = {
:proxy => true,
:progress_proc => true,
:content_length_proc => true,
:http_basic_authentication => true,
}
def OpenURI.check_options(options) # :nodoc:
options.each {|k, v|
next unless Symbol === k
unless Options.include? k
raise ArgumentError, "unrecognized option: #{k}"
end
}
end
def OpenURI.scan_open_optional_arguments(*rest) # :nodoc:
if !rest.empty? && (String === rest.first || Integer === rest.first)
mode = rest.shift
if !rest.empty? && Integer === rest.first
perm = rest.shift
end
end
return mode, perm, rest
end
def OpenURI.open_uri(name, *rest) # :nodoc:
uri = URI::Generic === name ? name : URI.parse(name)
mode, perm, rest = OpenURI.scan_open_optional_arguments(*rest)
options = rest.shift if !rest.empty? && Hash === rest.first
raise ArgumentError.new("extra arguments") if !rest.empty?
options ||= {}
OpenURI.check_options(options)
unless mode == nil ||
mode == 'r' || mode == 'rb' ||
mode == File::RDONLY
raise ArgumentError.new("invalid access mode #{mode} (#{uri.class} resource is read only.)")
end
io = open_loop(uri, options)
if block_given?
begin
yield io
ensure
io.close
end
else
io
end
end
def OpenURI.open_loop(uri, options) # :nodoc:
case opt_proxy = options.fetch(:proxy, true)
when true
find_proxy = lambda {|u| u.find_proxy}
when nil, false
find_proxy = lambda {|u| nil}
when String
opt_proxy = URI.parse(opt_proxy)
find_proxy = lambda {|u| opt_proxy}
when URI::Generic
find_proxy = lambda {|u| opt_proxy}
else
raise ArgumentError.new("Invalid proxy option: #{opt_proxy}")
end
uri_set = {}
buf = nil
while true
redirect = catch(:open_uri_redirect) {
buf = Buffer.new
uri.buffer_open(buf, find_proxy.call(uri), options)
nil
}
if redirect
if redirect.relative?
# Although it violates RFC2616, Location: field may have relative
# URI. It is converted to absolute URI using uri as a base URI.
redirect = uri + redirect
end
unless OpenURI.redirectable?(uri, redirect)
raise "redirection forbidden: #{uri} -> #{redirect}"
end
if options.include? :http_basic_authentication
# send authentication only for the URI directly specified.
options = options.dup
options.delete :http_basic_authentication
end
uri = redirect
raise "HTTP redirection loop: #{uri}" if uri_set.include? uri.to_s
uri_set[uri.to_s] = true
else
break
end
end
io = buf.io
io.base_uri = uri
io
end
def OpenURI.redirectable?(uri1, uri2) # :nodoc:
# This test is intended to forbid a redirection from http://... to
# file:///etc/passwd.
# However this is ad hoc. It should be extensible/configurable.
uri1.scheme.downcase == uri2.scheme.downcase ||
(/\A(?:http|ftp)\z/i =~ uri1.scheme && /\A(?:http|ftp)\z/i =~ uri2.scheme)
end
def OpenURI.open_http(buf, target, proxy, options) # :nodoc:
if proxy
raise "Non-HTTP proxy URI: #{proxy}" if proxy.class != URI::HTTP
end
if target.userinfo && "1.9.0" <= RUBY_VERSION
# don't raise for 1.8 because compatibility.
raise ArgumentError, "userinfo not supported. [RFC3986]"
end
require 'net/http'
klass = Net::HTTP
if URI::HTTP === target
# HTTP or HTTPS
if proxy
klass = Net::HTTP::Proxy(proxy.host, proxy.port)
end
target_host = target.host
target_port = target.port
request_uri = target.request_uri
else
# FTP over HTTP proxy
target_host = proxy.host
target_port = proxy.port
request_uri = target.to_s
end
http = klass.new(target_host, target_port)
if target.class == URI::HTTPS
require 'net/https'
http.use_ssl = true
http.verify_mode = OpenSSL::SSL::VERIFY_PEER
store = OpenSSL::X509::Store.new
store.set_default_paths
http.cert_store = store
end
header = {}
options.each {|k, v| header[k] = v if String === k }
resp = nil
http.start {
req = Net::HTTP::Get.new(request_uri, header)
if options.include? :http_basic_authentication
user, pass = options[:http_basic_authentication]
req.basic_auth user, pass
end
http.request(req) {|response|
resp = response
if options[:content_length_proc] && Net::HTTPSuccess === resp
if resp.key?('Content-Length')
options[:content_length_proc].call(resp['Content-Length'].to_i)
else
options[:content_length_proc].call(nil)
end
end
resp.read_body {|str|
buf << str
if options[:progress_proc] && Net::HTTPSuccess === resp
options[:progress_proc].call(buf.size)
end
}
}
}
io = buf.io
io.rewind
io.status = [resp.code, resp.message]
resp.each {|name,value| buf.io.meta_add_field name, value }
case resp
when Net::HTTPSuccess
when Net::HTTPMovedPermanently, # 301
Net::HTTPFound, # 302
Net::HTTPSeeOther, # 303
Net::HTTPTemporaryRedirect # 307
throw :open_uri_redirect, URI.parse(resp['location'])
else
raise OpenURI::HTTPError.new(io.status.join(' '), io)
end
end
class HTTPError < StandardError
def initialize(message, io)
super(message)
@io = io
end
attr_reader :io
end
class Buffer # :nodoc:
def initialize
@io = StringIO.new
@size = 0
end
attr_reader :size
StringMax = 10240
def <<(str)
@io << str
@size += str.length
if StringIO === @io && StringMax < @size
require 'tempfile'
io = Tempfile.new('open-uri')
io.binmode
Meta.init io, @io if @io.respond_to? :meta
io << @io.string
@io = io
end
end
def io
Meta.init @io unless @io.respond_to? :meta
@io
end
end
# Mixin for holding meta-information.
module Meta
def Meta.init(obj, src=nil) # :nodoc:
obj.extend Meta
obj.instance_eval {
@base_uri = nil
@meta = {}
}
if src
obj.status = src.status
obj.base_uri = src.base_uri
src.meta.each {|name, value|
obj.meta_add_field(name, value)
}
end
end
# returns an Array which consists status code and message.
attr_accessor :status
# returns a URI which is base of relative URIs in the data.
# It may differ from the URI supplied by a user because redirection.
attr_accessor :base_uri
# returns a Hash which represents header fields.
# The Hash keys are downcased for canonicalization.
attr_reader :meta
def meta_add_field(name, value) # :nodoc:
@meta[name.downcase] = value
end
# returns a Time which represents Last-Modified field.
def last_modified
if v = @meta['last-modified']
Time.httpdate(v)
else
nil
end
end
RE_LWS = /[\r\n\t ]+/n
RE_TOKEN = %r{[^\x00- ()<>@,;:\\"/\[\]?={}\x7f]+}n
RE_QUOTED_STRING = %r{"(?:[\r\n\t !#-\[\]-~\x80-\xff]|\\[\x00-\x7f])*"}n
RE_PARAMETERS = %r{(?:;#{RE_LWS}?#{RE_TOKEN}#{RE_LWS}?=#{RE_LWS}?(?:#{RE_TOKEN}|#{RE_QUOTED_STRING})#{RE_LWS}?)*}n
def content_type_parse # :nodoc:
v = @meta['content-type']
# The last (?:;#{RE_LWS}?)? matches extra ";" which violates RFC2045.
if v && %r{\A#{RE_LWS}?(#{RE_TOKEN})#{RE_LWS}?/(#{RE_TOKEN})#{RE_LWS}?(#{RE_PARAMETERS})(?:;#{RE_LWS}?)?\z}no =~ v
type = $1.downcase
subtype = $2.downcase
parameters = []
$3.scan(/;#{RE_LWS}?(#{RE_TOKEN})#{RE_LWS}?=#{RE_LWS}?(?:(#{RE_TOKEN})|(#{RE_QUOTED_STRING}))/no) {|att, val, qval|
val = qval.gsub(/[\r\n\t !#-\[\]-~\x80-\xff]+|(\\[\x00-\x7f])/) { $1 ? $1[1,1] : $& } if qval
parameters << [att.downcase, val]
}
["#{type}/#{subtype}", *parameters]
else
nil
end
end
# returns "type/subtype" which is MIME Content-Type.
# It is downcased for canonicalization.
# Content-Type parameters are stripped.
def content_type
type, *parameters = content_type_parse
type || 'application/octet-stream'
end
# returns a charset parameter in Content-Type field.
# It is downcased for canonicalization.
#
# If charset parameter is not given but a block is given,
# the block is called and its result is returned.
# It can be used to guess charset.
#
# If charset parameter and block is not given,
# nil is returned except text type in HTTP.
# In that case, "iso-8859-1" is returned as defined by RFC2616 3.7.1.
def charset
type, *parameters = content_type_parse
if pair = parameters.assoc('charset')
pair.last.downcase
elsif block_given?
yield
elsif type && %r{\Atext/} =~ type &&
@base_uri && /\Ahttp\z/i =~ @base_uri.scheme
"iso-8859-1" # RFC2616 3.7.1
else
nil
end
end
# returns a list of encodings in Content-Encoding field
# as an Array of String.
# The encodings are downcased for canonicalization.
def content_encoding
v = @meta['content-encoding']
if v && %r{\A#{RE_LWS}?#{RE_TOKEN}#{RE_LWS}?(?:,#{RE_LWS}?#{RE_TOKEN}#{RE_LWS}?)*}o =~ v
v.scan(RE_TOKEN).map {|content_coding| content_coding.downcase}
else
[]
end
end
end
# Mixin for HTTP and FTP URIs.
module OpenRead
# OpenURI::OpenRead#open provides `open' for URI::HTTP and URI::FTP.
#
# OpenURI::OpenRead#open takes optional 3 arguments as:
# OpenURI::OpenRead#open([mode [, perm]] [, options]) [{|io| ... }]
#
# `mode', `perm' is same as Kernel#open.
#
# However, `mode' must be read mode because OpenURI::OpenRead#open doesn't
# support write mode (yet).
# Also `perm' is just ignored because it is meaningful only for file
# creation.
#
# `options' must be a hash.
#
# Each pairs which key is a string in the hash specify a extra header
# field for HTTP.
# I.e. it is ignored for FTP without HTTP proxy.
#
# The hash may include other options which key is a symbol:
#
# [:proxy]
# Synopsis:
# :proxy => "http://proxy.foo.com:8000/"
# :proxy => URI.parse("http://proxy.foo.com:8000/")
# :proxy => true
# :proxy => false
# :proxy => nil
#
# If :proxy option is specified, the value should be String, URI,
# boolean or nil.
# When String or URI is given, it is treated as proxy URI.
# When true is given or the option itself is not specified,
# environment variable `scheme_proxy' is examined.
# `scheme' is replaced by `http', `https' or `ftp'.
# When false or nil is given, the environment variables are ignored and
# connection will be made to a server directly.
#
# [:http_basic_authentication]
# Synopsis:
# :http_basic_authentication=>[user, password]
#
# If :http_basic_authentication is specified,
# the value should be an array which contains 2 strings:
# username and password.
# It is used for HTTP Basic authentication defined by RFC 2617.
#
# [:content_length_proc]
# Synopsis:
# :content_length_proc => lambda {|content_length| ... }
#
# If :content_length_proc option is specified, the option value procedure
# is called before actual transfer is started.
# It takes one argument which is expected content length in bytes.
#
# If two or more transfer is done by HTTP redirection, the procedure
# is called only one for a last transfer.
#
# When expected content length is unknown, the procedure is called with
# nil.
# It is happen when HTTP response has no Content-Length header.
#
# [:progress_proc]
# Synopsis:
# :progress_proc => lambda {|size| ...}
#
# If :progress_proc option is specified, the proc is called with one
# argument each time when `open' gets content fragment from network.
# The argument `size' `size' is a accumulated transfered size in bytes.
#
# If two or more transfer is done by HTTP redirection, the procedure
# is called only one for a last transfer.
#
# :progress_proc and :content_length_proc are intended to be used for
# progress bar.
# For example, it can be implemented as follows using Ruby/ProgressBar.
#
# pbar = nil
# open("http://...",
# :content_length_proc => lambda {|t|
# if t && 0 < t
# pbar = ProgressBar.new("...", t)
# pbar.file_transfer_mode
# end
# },
# :progress_proc => lambda {|s|
# pbar.set s if pbar
# }) {|f| ... }
#
# OpenURI::OpenRead#open returns an IO like object if block is not given.
# Otherwise it yields the IO object and return the value of the block.
# The IO object is extended with OpenURI::Meta.
def open(*rest, &block)
OpenURI.open_uri(self, *rest, &block)
end
# OpenURI::OpenRead#read([options]) reads a content referenced by self and
# returns the content as string.
# The string is extended with OpenURI::Meta.
# The argument `options' is same as OpenURI::OpenRead#open.
def read(options={})
self.open(options) {|f|
str = f.read
Meta.init str, f
str
}
end
end
end
module URI
class Generic
# returns a proxy URI.
# The proxy URI is obtained from environment variables such as http_proxy,
# ftp_proxy, no_proxy, etc.
# If there is no proper proxy, nil is returned.
#
# Note that capitalized variables (HTTP_PROXY, FTP_PROXY, NO_PROXY, etc.)
# are examined too.
#
# But http_proxy and HTTP_PROXY is treated specially under CGI environment.
# It's because HTTP_PROXY may be set by Proxy: header.
# So HTTP_PROXY is not used.
# http_proxy is not used too if the variable is case insensitive.
# CGI_HTTP_PROXY can be used instead.
def find_proxy
name = self.scheme.downcase + '_proxy'
proxy_uri = nil
if name == 'http_proxy' && ENV.include?('REQUEST_METHOD') # CGI?
# HTTP_PROXY conflicts with *_proxy for proxy settings and
# HTTP_* for header information in CGI.
# So it should be careful to use it.
pairs = ENV.reject {|k, v| /\Ahttp_proxy\z/i !~ k }
case pairs.length
when 0 # no proxy setting anyway.
proxy_uri = nil
when 1
k, v = pairs.shift
if k == 'http_proxy' && ENV[k.upcase] == nil
# http_proxy is safe to use because ENV is case sensitive.
proxy_uri = ENV[name]
else
proxy_uri = nil
end
else # http_proxy is safe to use because ENV is case sensitive.
proxy_uri = ENV.to_hash[name]
end
if !proxy_uri
# Use CGI_HTTP_PROXY. cf. libwww-perl.
proxy_uri = ENV["CGI_#{name.upcase}"]
end
elsif name == 'http_proxy'
unless proxy_uri = ENV[name]
if proxy_uri = ENV[name.upcase]
warn 'The environment variable HTTP_PROXY is discouraged. Use http_proxy.'
end
end
else
proxy_uri = ENV[name] || ENV[name.upcase]
end
if proxy_uri && self.host
require 'socket'
begin
addr = IPSocket.getaddress(self.host)
proxy_uri = nil if /\A127\.|\A::1\z/ =~ addr
rescue SocketError
end
end
if proxy_uri
proxy_uri = URI.parse(proxy_uri)
name = 'no_proxy'
if no_proxy = ENV[name] || ENV[name.upcase]
no_proxy.scan(/([^:,]*)(?::(\d+))?/) {|host, port|
if /(\A|\.)#{Regexp.quote host}\z/i =~ self.host &&
(!port || self.port == port.to_i)
proxy_uri = nil
break
end
}
end
proxy_uri
else
nil
end
end
end
class HTTP
def buffer_open(buf, proxy, options) # :nodoc:
OpenURI.open_http(buf, self, proxy, options)
end
include OpenURI::OpenRead
end
class FTP
def buffer_open(buf, proxy, options) # :nodoc:
if proxy
OpenURI.open_http(buf, self, proxy, options)
return
end
require 'net/ftp'
directories = self.path.split(%r{/}, -1)
directories.shift if directories[0] == '' # strip a field before leading slash
directories.each {|d|
d.gsub!(/%([0-9A-Fa-f][0-9A-Fa-f])/) { [$1].pack("H2") }
}
unless filename = directories.pop
raise ArgumentError, "no filename: #{self.inspect}"
end
directories.each {|d|
if /[\r\n]/ =~ d
raise ArgumentError, "invalid directory: #{d.inspect}"
end
}
if /[\r\n]/ =~ filename
raise ArgumentError, "invalid filename: #{filename.inspect}"
end
typecode = self.typecode
if typecode && /\A[aid]\z/ !~ typecode
raise ArgumentError, "invalid typecode: #{typecode.inspect}"
end
# The access sequence is defined by RFC 1738
ftp = Net::FTP.open(self.host)
# todo: extract user/passwd from .netrc.
user = 'anonymous'
passwd = nil
user, passwd = self.userinfo.split(/:/) if self.userinfo
ftp.login(user, passwd)
directories.each {|cwd|
ftp.voidcmd("CWD #{cwd}")
}
if typecode
# xxx: typecode D is not handled.
ftp.voidcmd("TYPE #{typecode.upcase}")
end
if options[:content_length_proc]
options[:content_length_proc].call(ftp.size(filename))
end
ftp.retrbinary("RETR #{filename}", 4096) { |str|
buf << str
options[:progress_proc].call(buf.size) if options[:progress_proc]
}
ftp.close
buf.io.rewind
end
include OpenURI::OpenRead
end
end