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# frozen_string_literal: true # # = net/imap.rb # # Copyright (C) 2000 Shugo Maeda <shugo@ruby-lang.org> # # This library is distributed under the terms of the Ruby license. # You can freely distribute/modify this library. # # Documentation: Shugo Maeda, with RDoc conversion and overview by William # Webber. # # See Net::IMAP for documentation. # require "socket" require "monitor" require "digest/md5" require "strscan" begin require "openssl" rescue LoadError end module Net # # Net::IMAP implements Internet Message Access Protocol (IMAP) client # functionality. The protocol is described in [IMAP]. # # == IMAP Overview # # An IMAP client connects to a server, and then authenticates # itself using either #authenticate() or #login(). Having # authenticated itself, there is a range of commands # available to it. Most work with mailboxes, which may be # arranged in an hierarchical namespace, and each of which # contains zero or more messages. How this is implemented on # the server is implementation-dependent; on a UNIX server, it # will frequently be implemented as files in mailbox format # within a hierarchy of directories. # # To work on the messages within a mailbox, the client must # first select that mailbox, using either #select() or (for # read-only access) #examine(). Once the client has successfully # selected a mailbox, they enter _selected_ state, and that # mailbox becomes the _current_ mailbox, on which mail-item # related commands implicitly operate. # # Messages have two sorts of identifiers: message sequence # numbers and UIDs. # # Message sequence numbers number messages within a mailbox # from 1 up to the number of items in the mailbox. If a new # message arrives during a session, it receives a sequence # number equal to the new size of the mailbox. If messages # are expunged from the mailbox, remaining messages have their # sequence numbers "shuffled down" to fill the gaps. # # UIDs, on the other hand, are permanently guaranteed not to # identify another message within the same mailbox, even if # the existing message is deleted. UIDs are required to # be assigned in ascending (but not necessarily sequential) # order within a mailbox; this means that if a non-IMAP client # rearranges the order of mailitems within a mailbox, the # UIDs have to be reassigned. An IMAP client thus cannot # rearrange message orders. # # == Examples of Usage # # === List sender and subject of all recent messages in the default mailbox # # imap = Net::IMAP.new('mail.example.com') # imap.authenticate('LOGIN', 'joe_user', 'joes_password') # imap.examine('INBOX') # imap.search(["RECENT"]).each do |message_id| # envelope = imap.fetch(message_id, "ENVELOPE")[0].attr["ENVELOPE"] # puts "#{envelope.from[0].name}: \t#{envelope.subject}" # end # # === Move all messages from April 2003 from "Mail/sent-mail" to "Mail/sent-apr03" # # imap = Net::IMAP.new('mail.example.com') # imap.authenticate('LOGIN', 'joe_user', 'joes_password') # imap.select('Mail/sent-mail') # if not imap.list('Mail/', 'sent-apr03') # imap.create('Mail/sent-apr03') # end # imap.search(["BEFORE", "30-Apr-2003", "SINCE", "1-Apr-2003"]).each do |message_id| # imap.copy(message_id, "Mail/sent-apr03") # imap.store(message_id, "+FLAGS", [:Deleted]) # end # imap.expunge # # == Thread Safety # # Net::IMAP supports concurrent threads. For example, # # imap = Net::IMAP.new("imap.foo.net", "imap2") # imap.authenticate("cram-md5", "bar", "password") # imap.select("inbox") # fetch_thread = Thread.start { imap.fetch(1..-1, "UID") } # search_result = imap.search(["BODY", "hello"]) # fetch_result = fetch_thread.value # imap.disconnect # # This script invokes the FETCH command and the SEARCH command concurrently. # # == Errors # # An IMAP server can send three different types of responses to indicate # failure: # # NO:: the attempted command could not be successfully completed. For # instance, the username/password used for logging in are incorrect; # the selected mailbox does not exist; etc. # # BAD:: the request from the client does not follow the server's # understanding of the IMAP protocol. This includes attempting # commands from the wrong client state; for instance, attempting # to perform a SEARCH command without having SELECTed a current # mailbox. It can also signal an internal server # failure (such as a disk crash) has occurred. # # BYE:: the server is saying goodbye. This can be part of a normal # logout sequence, and can be used as part of a login sequence # to indicate that the server is (for some reason) unwilling # to accept your connection. As a response to any other command, # it indicates either that the server is shutting down, or that # the server is timing out the client connection due to inactivity. # # These three error response are represented by the errors # Net::IMAP::NoResponseError, Net::IMAP::BadResponseError, and # Net::IMAP::ByeResponseError, all of which are subclasses of # Net::IMAP::ResponseError. Essentially, all methods that involve # sending a request to the server can generate one of these errors. # Only the most pertinent instances have been documented below. # # Because the IMAP class uses Sockets for communication, its methods # are also susceptible to the various errors that can occur when # working with sockets. These are generally represented as # Errno errors. For instance, any method that involves sending a # request to the server and/or receiving a response from it could # raise an Errno::EPIPE error if the network connection unexpectedly # goes down. See the socket(7), ip(7), tcp(7), socket(2), connect(2), # and associated man pages. # # Finally, a Net::IMAP::DataFormatError is thrown if low-level data # is found to be in an incorrect format (for instance, when converting # between UTF-8 and UTF-16), and Net::IMAP::ResponseParseError is # thrown if a server response is non-parseable. # # # == References # # [[IMAP]] # M. Crispin, "INTERNET MESSAGE ACCESS PROTOCOL - VERSION 4rev1", # RFC 2060, December 1996. (Note: since obsoleted by RFC 3501) # # [[LANGUAGE-TAGS]] # Alvestrand, H., "Tags for the Identification of # Languages", RFC 1766, March 1995. # # [[MD5]] # Myers, J., and M. Rose, "The Content-MD5 Header Field", RFC # 1864, October 1995. # # [[MIME-IMB]] # Freed, N., and N. Borenstein, "MIME (Multipurpose Internet # Mail Extensions) Part One: Format of Internet Message Bodies", RFC # 2045, November 1996. # # [[RFC-822]] # Crocker, D., "Standard for the Format of ARPA Internet Text # Messages", STD 11, RFC 822, University of Delaware, August 1982. # # [[RFC-2087]] # Myers, J., "IMAP4 QUOTA extension", RFC 2087, January 1997. # # [[RFC-2086]] # Myers, J., "IMAP4 ACL extension", RFC 2086, January 1997. # # [[RFC-2195]] # Klensin, J., Catoe, R., and Krumviede, P., "IMAP/POP AUTHorize Extension # for Simple Challenge/Response", RFC 2195, September 1997. # # [[SORT-THREAD-EXT]] # Crispin, M., "INTERNET MESSAGE ACCESS PROTOCOL - SORT and THREAD # Extensions", draft-ietf-imapext-sort, May 2003. # # [[OSSL]] # http://www.openssl.org # # [[RSSL]] # http://savannah.gnu.org/projects/rubypki # # [[UTF7]] # Goldsmith, D. and Davis, M., "UTF-7: A Mail-Safe Transformation Format of # Unicode", RFC 2152, May 1997. # class IMAP include MonitorMixin if defined?(OpenSSL::SSL) include OpenSSL include SSL end # Returns an initial greeting response from the server. attr_reader :greeting # Returns recorded untagged responses. For example: # # imap.select("inbox") # p imap.responses["EXISTS"][-1] # #=> 2 # p imap.responses["UIDVALIDITY"][-1] # #=> 968263756 attr_reader :responses # Returns all response handlers. attr_reader :response_handlers # The thread to receive exceptions. attr_accessor :client_thread # Flag indicating a message has been seen. SEEN = :Seen # Flag indicating a message has been answered. ANSWERED = :Answered # Flag indicating a message has been flagged for special or urgent # attention. FLAGGED = :Flagged # Flag indicating a message has been marked for deletion. This # will occur when the mailbox is closed or expunged. DELETED = :Deleted # Flag indicating a message is only a draft or work-in-progress version. DRAFT = :Draft # Flag indicating that the message is "recent," meaning that this # session is the first session in which the client has been notified # of this message. RECENT = :Recent # Flag indicating that a mailbox context name cannot contain # children. NOINFERIORS = :Noinferiors # Flag indicating that a mailbox is not selected. NOSELECT = :Noselect # Flag indicating that a mailbox has been marked "interesting" by # the server; this commonly indicates that the mailbox contains # new messages. MARKED = :Marked # Flag indicating that the mailbox does not contains new messages. UNMARKED = :Unmarked # Returns the debug mode. def self.debug return @@debug end # Sets the debug mode. def self.debug=(val) return @@debug = val end # Returns the max number of flags interned to symbols. def self.max_flag_count return @@max_flag_count end # Sets the max number of flags interned to symbols. def self.max_flag_count=(count) @@max_flag_count = count end # Adds an authenticator for Net::IMAP#authenticate. +auth_type+ # is the type of authentication this authenticator supports # (for instance, "LOGIN"). The +authenticator+ is an object # which defines a process() method to handle authentication with # the server. See Net::IMAP::LoginAuthenticator, # Net::IMAP::CramMD5Authenticator, and Net::IMAP::DigestMD5Authenticator # for examples. # # # If +auth_type+ refers to an existing authenticator, it will be # replaced by the new one. def self.add_authenticator(auth_type, authenticator) @@authenticators[auth_type] = authenticator end # The default port for IMAP connections, port 143 def self.default_port return PORT end # The default port for IMAPS connections, port 993 def self.default_tls_port return SSL_PORT end class << self alias default_imap_port default_port alias default_imaps_port default_tls_port alias default_ssl_port default_tls_port end # Disconnects from the server. def disconnect begin begin # try to call SSL::SSLSocket#io. @sock.io.shutdown rescue NoMethodError # @sock is not an SSL::SSLSocket. @sock.shutdown end rescue Errno::ENOTCONN # ignore `Errno::ENOTCONN: Socket is not connected' on some platforms. rescue Exception => e @receiver_thread.raise(e) end @receiver_thread.join synchronize do unless @sock.closed? @sock.close end end raise e if e end # Returns true if disconnected from the server. def disconnected? return @sock.closed? end # Sends a CAPABILITY command, and returns an array of # capabilities that the server supports. Each capability # is a string. See [IMAP] for a list of possible # capabilities. # # Note that the Net::IMAP class does not modify its # behaviour according to the capabilities of the server; # it is up to the user of the class to ensure that # a certain capability is supported by a server before # using it. def capability synchronize do send_command("CAPABILITY") return @responses.delete("CAPABILITY")[-1] end end # Sends a NOOP command to the server. It does nothing. def noop send_command("NOOP") end # Sends a LOGOUT command to inform the server that the client is # done with the connection. def logout send_command("LOGOUT") end # Sends a STARTTLS command to start TLS session. def starttls(options = {}, verify = true) send_command("STARTTLS") do |resp| if resp.kind_of?(TaggedResponse) && resp.name == "OK" begin # for backward compatibility certs = options.to_str options = create_ssl_params(certs, verify) rescue NoMethodError end start_tls_session(options) end end end # Sends an AUTHENTICATE command to authenticate the client. # The +auth_type+ parameter is a string that represents # the authentication mechanism to be used. Currently Net::IMAP # supports the authentication mechanisms: # # LOGIN:: login using cleartext user and password. # CRAM-MD5:: login with cleartext user and encrypted password # (see [RFC-2195] for a full description). This # mechanism requires that the server have the user's # password stored in clear-text password. # # For both of these mechanisms, there should be two +args+: username # and (cleartext) password. A server may not support one or the other # of these mechanisms; check #capability() for a capability of # the form "AUTH=LOGIN" or "AUTH=CRAM-MD5". # # Authentication is done using the appropriate authenticator object: # see @@authenticators for more information on plugging in your own # authenticator. # # For example: # # imap.authenticate('LOGIN', user, password) # # A Net::IMAP::NoResponseError is raised if authentication fails. def authenticate(auth_type, *args) auth_type = auth_type.upcase unless @@authenticators.has_key?(auth_type) raise ArgumentError, format('unknown auth type - "%s"', auth_type) end authenticator = @@authenticators[auth_type].new(*args) send_command("AUTHENTICATE", auth_type) do |resp| if resp.instance_of?(ContinuationRequest) data = authenticator.process(resp.data.text.unpack("m")[0]) s = [data].pack("m").gsub(/\n/, "") send_string_data(s) put_string(CRLF) end end end # Sends a LOGIN command to identify the client and carries # the plaintext +password+ authenticating this +user+. Note # that, unlike calling #authenticate() with an +auth_type+ # of "LOGIN", #login() does *not* use the login authenticator. # # A Net::IMAP::NoResponseError is raised if authentication fails. def login(user, password) send_command("LOGIN", user, password) end # Sends a SELECT command to select a +mailbox+ so that messages # in the +mailbox+ can be accessed. # # After you have selected a mailbox, you may retrieve the # number of items in that mailbox from @responses["EXISTS"][-1], # and the number of recent messages from @responses["RECENT"][-1]. # Note that these values can change if new messages arrive # during a session; see #add_response_handler() for a way of # detecting this event. # # A Net::IMAP::NoResponseError is raised if the mailbox does not # exist or is for some reason non-selectable. def select(mailbox) synchronize do @responses.clear send_command("SELECT", mailbox) end end # Sends a EXAMINE command to select a +mailbox+ so that messages # in the +mailbox+ can be accessed. Behaves the same as #select(), # except that the selected +mailbox+ is identified as read-only. # # A Net::IMAP::NoResponseError is raised if the mailbox does not # exist or is for some reason non-examinable. def examine(mailbox) synchronize do @responses.clear send_command("EXAMINE", mailbox) end end # Sends a CREATE command to create a new +mailbox+. # # A Net::IMAP::NoResponseError is raised if a mailbox with that name # cannot be created. def create(mailbox) send_command("CREATE", mailbox) end # Sends a DELETE command to remove the +mailbox+. # # A Net::IMAP::NoResponseError is raised if a mailbox with that name # cannot be deleted, either because it does not exist or because the # client does not have permission to delete it. def delete(mailbox) send_command("DELETE", mailbox) end # Sends a RENAME command to change the name of the +mailbox+ to # +newname+. # # A Net::IMAP::NoResponseError is raised if a mailbox with the # name +mailbox+ cannot be renamed to +newname+ for whatever # reason; for instance, because +mailbox+ does not exist, or # because there is already a mailbox with the name +newname+. def rename(mailbox, newname) send_command("RENAME", mailbox, newname) end # Sends a SUBSCRIBE command to add the specified +mailbox+ name to # the server's set of "active" or "subscribed" mailboxes as returned # by #lsub(). # # A Net::IMAP::NoResponseError is raised if +mailbox+ cannot be # subscribed to; for instance, because it does not exist. def subscribe(mailbox) send_command("SUBSCRIBE", mailbox) end # Sends a UNSUBSCRIBE command to remove the specified +mailbox+ name # from the server's set of "active" or "subscribed" mailboxes. # # A Net::IMAP::NoResponseError is raised if +mailbox+ cannot be # unsubscribed from; for instance, because the client is not currently # subscribed to it. def unsubscribe(mailbox) send_command("UNSUBSCRIBE", mailbox) end # Sends a LIST command, and returns a subset of names from # the complete set of all names available to the client. # +refname+ provides a context (for instance, a base directory # in a directory-based mailbox hierarchy). +mailbox+ specifies # a mailbox or (via wildcards) mailboxes under that context. # Two wildcards may be used in +mailbox+: '*', which matches # all characters *including* the hierarchy delimiter (for instance, # '/' on a UNIX-hosted directory-based mailbox hierarchy); and '%', # which matches all characters *except* the hierarchy delimiter. # # If +refname+ is empty, +mailbox+ is used directly to determine # which mailboxes to match. If +mailbox+ is empty, the root # name of +refname+ and the hierarchy delimiter are returned. # # The return value is an array of +Net::IMAP::MailboxList+. For example: # # imap.create("foo/bar") # imap.create("foo/baz") # p imap.list("", "foo/%") # #=> [#<Net::IMAP::MailboxList attr=[:Noselect], delim="/", name="foo/">, \\ # #<Net::IMAP::MailboxList attr=[:Noinferiors, :Marked], delim="/", name="foo/bar">, \\ # #<Net::IMAP::MailboxList attr=[:Noinferiors], delim="/", name="foo/baz">] def list(refname, mailbox) synchronize do send_command("LIST", refname, mailbox) return @responses.delete("LIST") end end # Sends a XLIST command, and returns a subset of names from # the complete set of all names available to the client. # +refname+ provides a context (for instance, a base directory # in a directory-based mailbox hierarchy). +mailbox+ specifies # a mailbox or (via wildcards) mailboxes under that context. # Two wildcards may be used in +mailbox+: '*', which matches # all characters *including* the hierarchy delimiter (for instance, # '/' on a UNIX-hosted directory-based mailbox hierarchy); and '%', # which matches all characters *except* the hierarchy delimiter. # # If +refname+ is empty, +mailbox+ is used directly to determine # which mailboxes to match. If +mailbox+ is empty, the root # name of +refname+ and the hierarchy delimiter are returned. # # The XLIST command is like the LIST command except that the flags # returned refer to the function of the folder/mailbox, e.g. :Sent # # The return value is an array of +Net::IMAP::MailboxList+. For example: # # imap.create("foo/bar") # imap.create("foo/baz") # p imap.xlist("", "foo/%") # #=> [#<Net::IMAP::MailboxList attr=[:Noselect], delim="/", name="foo/">, \\ # #<Net::IMAP::MailboxList attr=[:Noinferiors, :Marked], delim="/", name="foo/bar">, \\ # #<Net::IMAP::MailboxList attr=[:Noinferiors], delim="/", name="foo/baz">] def xlist(refname, mailbox) synchronize do send_command("XLIST", refname, mailbox) return @responses.delete("XLIST") end end # Sends the GETQUOTAROOT command along with the specified +mailbox+. # This command is generally available to both admin and user. # If this mailbox exists, it returns an array containing objects of type # Net::IMAP::MailboxQuotaRoot and Net::IMAP::MailboxQuota. def getquotaroot(mailbox) synchronize do send_command("GETQUOTAROOT", mailbox) result = [] result.concat(@responses.delete("QUOTAROOT")) result.concat(@responses.delete("QUOTA")) return result end end # Sends the GETQUOTA command along with specified +mailbox+. # If this mailbox exists, then an array containing a # Net::IMAP::MailboxQuota object is returned. This # command is generally only available to server admin. def getquota(mailbox) synchronize do send_command("GETQUOTA", mailbox) return @responses.delete("QUOTA") end end # Sends a SETQUOTA command along with the specified +mailbox+ and # +quota+. If +quota+ is nil, then +quota+ will be unset for that # mailbox. Typically one needs to be logged in as a server admin # for this to work. The IMAP quota commands are described in # [RFC-2087]. def setquota(mailbox, quota) if quota.nil? data = '()' else data = '(STORAGE ' + quota.to_s + ')' end send_command("SETQUOTA", mailbox, RawData.new(data)) end # Sends the SETACL command along with +mailbox+, +user+ and the # +rights+ that user is to have on that mailbox. If +rights+ is nil, # then that user will be stripped of any rights to that mailbox. # The IMAP ACL commands are described in [RFC-2086]. def setacl(mailbox, user, rights) if rights.nil? send_command("SETACL", mailbox, user, "") else send_command("SETACL", mailbox, user, rights) end end # Send the GETACL command along with a specified +mailbox+. # If this mailbox exists, an array containing objects of # Net::IMAP::MailboxACLItem will be returned. def getacl(mailbox) synchronize do send_command("GETACL", mailbox) return @responses.delete("ACL")[-1] end end # Sends a LSUB command, and returns a subset of names from the set # of names that the user has declared as being "active" or # "subscribed." +refname+ and +mailbox+ are interpreted as # for #list(). # The return value is an array of +Net::IMAP::MailboxList+. def lsub(refname, mailbox) synchronize do send_command("LSUB", refname, mailbox) return @responses.delete("LSUB") end end # Sends a STATUS command, and returns the status of the indicated # +mailbox+. +attr+ is a list of one or more attributes whose # statuses are to be requested. Supported attributes include: # # MESSAGES:: the number of messages in the mailbox. # RECENT:: the number of recent messages in the mailbox. # UNSEEN:: the number of unseen messages in the mailbox. # # The return value is a hash of attributes. For example: # # p imap.status("inbox", ["MESSAGES", "RECENT"]) # #=> {"RECENT"=>0, "MESSAGES"=>44} # # A Net::IMAP::NoResponseError is raised if status values # for +mailbox+ cannot be returned; for instance, because it # does not exist. def status(mailbox, attr) synchronize do send_command("STATUS", mailbox, attr) return @responses.delete("STATUS")[-1].attr end end # Sends a APPEND command to append the +message+ to the end of # the +mailbox+. The optional +flags+ argument is an array of # flags initially passed to the new message. The optional # +date_time+ argument specifies the creation time to assign to the # new message; it defaults to the current time. # For example: # # imap.append("inbox", <<EOF.gsub(/\n/, "\r\n"), [:Seen], Time.now) # Subject: hello # From: shugo@ruby-lang.org # To: shugo@ruby-lang.org # # hello world # EOF # # A Net::IMAP::NoResponseError is raised if the mailbox does # not exist (it is not created automatically), or if the flags, # date_time, or message arguments contain errors. def append(mailbox, message, flags = nil, date_time = nil) args = [] if flags args.push(flags) end args.push(date_time) if date_time args.push(Literal.new(message)) send_command("APPEND", mailbox, *args) end # Sends a CHECK command to request a checkpoint of the currently # selected mailbox. This performs implementation-specific # housekeeping; for instance, reconciling the mailbox's # in-memory and on-disk state. def check send_command("CHECK") end # Sends a CLOSE command to close the currently selected mailbox. # The CLOSE command permanently removes from the mailbox all # messages that have the \Deleted flag set. def close send_command("CLOSE") end # Sends a EXPUNGE command to permanently remove from the currently # selected mailbox all messages that have the \Deleted flag set. def expunge synchronize do send_command("EXPUNGE") return @responses.delete("EXPUNGE") end end # Sends a SEARCH command to search the mailbox for messages that # match the given searching criteria, and returns message sequence # numbers. +keys+ can either be a string holding the entire # search string, or a single-dimension array of search keywords and # arguments. The following are some common search criteria; # see [IMAP] section 6.4.4 for a full list. # # <message set>:: a set of message sequence numbers. ',' indicates # an interval, ':' indicates a range. For instance, # '2,10:12,15' means "2,10,11,12,15". # # BEFORE <date>:: messages with an internal date strictly before # <date>. The date argument has a format similar # to 8-Aug-2002. # # BODY <string>:: messages that contain <string> within their body. # # CC <string>:: messages containing <string> in their CC field. # # FROM <string>:: messages that contain <string> in their FROM field. # # NEW:: messages with the \Recent, but not the \Seen, flag set. # # NOT <search-key>:: negate the following search key. # # OR <search-key> <search-key>:: "or" two search keys together. # # ON <date>:: messages with an internal date exactly equal to <date>, # which has a format similar to 8-Aug-2002. # # SINCE <date>:: messages with an internal date on or after <date>. # # SUBJECT <string>:: messages with <string> in their subject. # # TO <string>:: messages with <string> in their TO field. # # For example: # # p imap.search(["SUBJECT", "hello", "NOT", "NEW"]) # #=> [1, 6, 7, 8] def search(keys, charset = nil) return search_internal("SEARCH", keys, charset) end # Similar to #search(), but returns unique identifiers. def uid_search(keys, charset = nil) return search_internal("UID SEARCH", keys, charset) end # Sends a FETCH command to retrieve data associated with a message # in the mailbox. # # The +set+ parameter is a number or a range between two numbers, # or an array of those. The number is a message sequence number, # where -1 represents a '*' for use in range notation like 100..-1 # being interpreted as '100:*'. Beware that the +exclude_end?+ # property of a Range object is ignored, and the contents of a # range are independent of the order of the range endpoints as per # the protocol specification, so 1...5, 5..1 and 5...1 are all # equivalent to 1..5. # # +attr+ is a list of attributes to fetch; see the documentation # for Net::IMAP::FetchData for a list of valid attributes. # # The return value is an array of Net::IMAP::FetchData or nil # (instead of an empty array) if there is no matching message. # # For example: # # p imap.fetch(6..8, "UID") # #=> [#<Net::IMAP::FetchData seqno=6, attr={"UID"=>98}>, \\ # #<Net::IMAP::FetchData seqno=7, attr={"UID"=>99}>, \\ # #<Net::IMAP::FetchData seqno=8, attr={"UID"=>100}>] # p imap.fetch(6, "BODY[HEADER.FIELDS (SUBJECT)]") # #=> [#<Net::IMAP::FetchData seqno=6, attr={"BODY[HEADER.FIELDS (SUBJECT)]"=>"Subject: test\r\n\r\n"}>] # data = imap.uid_fetch(98, ["RFC822.SIZE", "INTERNALDATE"])[0] # p data.seqno # #=> 6 # p data.attr["RFC822.SIZE"] # #=> 611 # p data.attr["INTERNALDATE"] # #=> "12-Oct-2000 22:40:59 +0900" # p data.attr["UID"] # #=> 98 def fetch(set, attr) return fetch_internal("FETCH", set, attr) end # Similar to #fetch(), but +set+ contains unique identifiers. def uid_fetch(set, attr) return fetch_internal("UID FETCH", set, attr) end # Sends a STORE command to alter data associated with messages # in the mailbox, in particular their flags. The +set+ parameter # is a number, an array of numbers, or a Range object. Each number # is a message sequence number. +attr+ is the name of a data item # to store: 'FLAGS' will replace the message's flag list # with the provided one, '+FLAGS' will add the provided flags, # and '-FLAGS' will remove them. +flags+ is a list of flags. # # The return value is an array of Net::IMAP::FetchData. For example: # # p imap.store(6..8, "+FLAGS", [:Deleted]) # #=> [#<Net::IMAP::FetchData seqno=6, attr={"FLAGS"=>[:Seen, :Deleted]}>, \\ # #<Net::IMAP::FetchData seqno=7, attr={"FLAGS"=>[:Seen, :Deleted]}>, \\ # #<Net::IMAP::FetchData seqno=8, attr={"FLAGS"=>[:Seen, :Deleted]}>] def store(set, attr, flags) return store_internal("STORE", set, attr, flags) end # Similar to #store(), but +set+ contains unique identifiers. def uid_store(set, attr, flags) return store_internal("UID STORE", set, attr, flags) end # Sends a COPY command to copy the specified message(s) to the end # of the specified destination +mailbox+. The +set+ parameter is # a number, an array of numbers, or a Range object. The number is # a message sequence number. def copy(set, mailbox) copy_internal("COPY", set, mailbox) end # Similar to #copy(), but +set+ contains unique identifiers. def uid_copy(set, mailbox) copy_internal("UID COPY", set, mailbox) end # Sends a MOVE command to move the specified message(s) to the end # of the specified destination +mailbox+. The +set+ parameter is # a number, an array of numbers, or a Range object. The number is # a message sequence number. # The IMAP MOVE extension is described in [RFC-6851]. def move(set, mailbox) copy_internal("MOVE", set, mailbox) end # Similar to #move(), but +set+ contains unique identifiers. def uid_move(set, mailbox) copy_internal("UID MOVE", set, mailbox) end # Sends a SORT command to sort messages in the mailbox. # Returns an array of message sequence numbers. For example: # # p imap.sort(["FROM"], ["ALL"], "US-ASCII") # #=> [1, 2, 3, 5, 6, 7, 8, 4, 9] # p imap.sort(["DATE"], ["SUBJECT", "hello"], "US-ASCII") # #=> [6, 7, 8, 1] # # See [SORT-THREAD-EXT] for more details. def sort(sort_keys, search_keys, charset) return sort_internal("SORT", sort_keys, search_keys, charset) end # Similar to #sort(), but returns an array of unique identifiers. def uid_sort(sort_keys, search_keys, charset) return sort_internal("UID SORT", sort_keys, search_keys, charset) end # Adds a response handler. For example, to detect when # the server sends a new EXISTS response (which normally # indicates new messages being added to the mailbox), # add the following handler after selecting the # mailbox: # # imap.add_response_handler { |resp| # if resp.kind_of?(Net::IMAP::UntaggedResponse) and resp.name == "EXISTS" # puts "Mailbox now has #{resp.data} messages" # end # } # def add_response_handler(handler = Proc.new) @response_handlers.push(handler) end # Removes the response handler. def remove_response_handler(handler) @response_handlers.delete(handler) end # Similar to #search(), but returns message sequence numbers in threaded # format, as a Net::IMAP::ThreadMember tree. The supported algorithms # are: # # ORDEREDSUBJECT:: split into single-level threads according to subject, # ordered by date. # REFERENCES:: split into threads by parent/child relationships determined # by which message is a reply to which. # # Unlike #search(), +charset+ is a required argument. US-ASCII # and UTF-8 are sample values. # # See [SORT-THREAD-EXT] for more details. def thread(algorithm, search_keys, charset) return thread_internal("THREAD", algorithm, search_keys, charset) end # Similar to #thread(), but returns unique identifiers instead of # message sequence numbers. def uid_thread(algorithm, search_keys, charset) return thread_internal("UID THREAD", algorithm, search_keys, charset) end # Sends an IDLE command that waits for notifications of new or expunged # messages. Yields responses from the server during the IDLE. # # Use #idle_done() to leave IDLE. # # If +timeout+ is given, this method returns after +timeout+ seconds passed. # +timeout+ can be used for keep-alive. For example, the following code # checks the connection for each 60 seconds. # # loop do # imap.idle(60) do |res| # ... # end # end def idle(timeout = nil, &response_handler) raise LocalJumpError, "no block given" unless response_handler response = nil synchronize do tag = Thread.current[:net_imap_tag] = generate_tag put_string("#{tag} IDLE#{CRLF}") begin add_response_handler(response_handler) @idle_done_cond = new_cond @idle_done_cond.wait(timeout) @idle_done_cond = nil if @receiver_thread_terminating raise Net::IMAP::Error, "connection closed" end ensure unless @receiver_thread_terminating remove_response_handler(response_handler) put_string("DONE#{CRLF}") response = get_tagged_response(tag, "IDLE") end end end return response end # Leaves IDLE. def idle_done synchronize do if @idle_done_cond.nil? raise Net::IMAP::Error, "not during IDLE" end @idle_done_cond.signal end end # Decode a string from modified UTF-7 format to UTF-8. # # UTF-7 is a 7-bit encoding of Unicode [UTF7]. IMAP uses a # slightly modified version of this to encode mailbox names # containing non-ASCII characters; see [IMAP] section 5.1.3. # # Net::IMAP does _not_ automatically encode and decode # mailbox names to and from UTF-7. def self.decode_utf7(s) return s.gsub(/&([^-]+)?-/n) { if $1 ($1.tr(",", "/") + "===").unpack("m")[0].encode(Encoding::UTF_8, Encoding::UTF_16BE) else "&" end } end # Encode a string from UTF-8 format to modified UTF-7. def self.encode_utf7(s) return s.gsub(/(&)|[^\x20-\x7e]+/) { if $1 "&-" else base64 = [$&.encode(Encoding::UTF_16BE)].pack("m") "&" + base64.delete("=\n").tr("/", ",") + "-" end }.force_encoding("ASCII-8BIT") end # Formats +time+ as an IMAP-style date. def self.format_date(time) return time.strftime('%d-%b-%Y') end # Formats +time+ as an IMAP-style date-time. def self.format_datetime(time) return time.strftime('%d-%b-%Y %H:%M %z') end private CRLF = "\r\n" # :nodoc: PORT = 143 # :nodoc: SSL_PORT = 993 # :nodoc: @@debug = false @@authenticators = {} @@max_flag_count = 10000 # :call-seq: # Net::IMAP.new(host, options = {}) # # Creates a new Net::IMAP object and connects it to the specified # +host+. # # +options+ is an option hash, each key of which is a symbol. # # The available options are: # # port:: Port number (default value is 143 for imap, or 993 for imaps) # ssl:: If options[:ssl] is true, then an attempt will be made # to use SSL (now TLS) to connect to the server. For this to work # OpenSSL [OSSL] and the Ruby OpenSSL [RSSL] extensions need to # be installed. # If options[:ssl] is a hash, it's passed to # OpenSSL::SSL::SSLContext#set_params as parameters. # # The most common errors are: # # Errno::ECONNREFUSED:: Connection refused by +host+ or an intervening # firewall. # Errno::ETIMEDOUT:: Connection timed out (possibly due to packets # being dropped by an intervening firewall). # Errno::ENETUNREACH:: There is no route to that network. # SocketError:: Hostname not known or other socket error. # Net::IMAP::ByeResponseError:: The connected to the host was successful, but # it immediately said goodbye. def initialize(host, port_or_options = {}, usessl = false, certs = nil, verify = true) super() @host = host begin options = port_or_options.to_hash rescue NoMethodError # for backward compatibility options = {} options[:port] = port_or_options if usessl options[:ssl] = create_ssl_params(certs, verify) end end @port = options[:port] || (options[:ssl] ? SSL_PORT : PORT) @tag_prefix = "RUBY" @tagno = 0 @parser = ResponseParser.new @sock = TCPSocket.open(@host, @port) begin if options[:ssl] start_tls_session(options[:ssl]) @usessl = true else @usessl = false end @responses = Hash.new([].freeze) @tagged_responses = {} @response_handlers = [] @tagged_response_arrival = new_cond @continuation_request_arrival = new_cond @idle_done_cond = nil @logout_command_tag = nil @debug_output_bol = true @exception = nil @greeting = get_response if @greeting.nil? raise Error, "connection closed" end if @greeting.name == "BYE" raise ByeResponseError, @greeting end @client_thread = Thread.current @receiver_thread = Thread.start { begin receive_responses rescue Exception end } @receiver_thread_terminating = false rescue Exception @sock.close raise end end def receive_responses connection_closed = false until connection_closed synchronize do @exception = nil end begin resp = get_response rescue Exception => e synchronize do @sock.close @exception = e end break end unless resp synchronize do @exception = EOFError.new("end of file reached") end break end begin synchronize do case resp when TaggedResponse @tagged_responses[resp.tag] = resp @tagged_response_arrival.broadcast if resp.tag == @logout_command_tag return end when UntaggedResponse record_response(resp.name, resp.data) if resp.data.instance_of?(ResponseText) && (code = resp.data.code) record_response(code.name, code.data) end if resp.name == "BYE" && @logout_command_tag.nil? @sock.close @exception = ByeResponseError.new(resp) connection_closed = true end when ContinuationRequest @continuation_request_arrival.signal end @response_handlers.each do |handler| handler.call(resp) end end rescue Exception => e @exception = e synchronize do @tagged_response_arrival.broadcast @continuation_request_arrival.broadcast end end end synchronize do @receiver_thread_terminating = true @tagged_response_arrival.broadcast @continuation_request_arrival.broadcast if @idle_done_cond @idle_done_cond.signal end end end def get_tagged_response(tag, cmd) until @tagged_responses.key?(tag) raise @exception if @exception @tagged_response_arrival.wait end resp = @tagged_responses.delete(tag) case resp.name when /\A(?:NO)\z/ni raise NoResponseError, resp when /\A(?:BAD)\z/ni raise BadResponseError, resp else return resp end end def get_response buff = String.new while true s = @sock.gets(CRLF) break unless s buff.concat(s) if /\{(\d+)\}\r\n/n =~ s s = @sock.read($1.to_i) buff.concat(s) else break end end return nil if buff.length == 0 if @@debug $stderr.print(buff.gsub(/^/n, "S: ")) end return @parser.parse(buff) end def record_response(name, data) unless @responses.has_key?(name) @responses[name] = [] end @responses[name].push(data) end def send_command(cmd, *args, &block) synchronize do args.each do |i| validate_data(i) end tag = generate_tag put_string(tag + " " + cmd) args.each do |i| put_string(" ") send_data(i) end put_string(CRLF) if cmd == "LOGOUT" @logout_command_tag = tag end if block add_response_handler(block) end begin return get_tagged_response(tag, cmd) ensure if block remove_response_handler(block) end end end end def generate_tag @tagno += 1 return format("%s%04d", @tag_prefix, @tagno) end def put_string(str) @sock.print(str) if @@debug if @debug_output_bol $stderr.print("C: ") end $stderr.print(str.gsub(/\n(?!\z)/n, "\nC: ")) if /\r\n\z/n.match(str) @debug_output_bol = true else @debug_output_bol = false end end end def validate_data(data) case data when nil when String when Integer NumValidator.ensure_number(data) when Array data.each do |i| validate_data(i) end when Time when Symbol else data.validate end end def send_data(data) case data when nil put_string("NIL") when String send_string_data(data) when Integer send_number_data(data) when Array send_list_data(data) when Time send_time_data(data) when Symbol send_symbol_data(data) else data.send_data(self) end end def send_string_data(str) case str when "" put_string('""') when /[\x80-\xff\r\n]/n # literal send_literal(str) when /[(){ \x00-\x1f\x7f%*"\\]/n # quoted string send_quoted_string(str) else put_string(str) end end def send_quoted_string(str) put_string('"' + str.gsub(/["\\]/n, "\\\\\\&") + '"') end def send_literal(str) put_string("{" + str.bytesize.to_s + "}" + CRLF) @continuation_request_arrival.wait raise @exception if @exception put_string(str) end def send_number_data(num) put_string(num.to_s) end def send_list_data(list) put_string("(") first = true list.each do |i| if first first = false else put_string(" ") end send_data(i) end put_string(")") end DATE_MONTH = %w(Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec) def send_time_data(time) t = time.dup.gmtime s = format('"%2d-%3s-%4d %02d:%02d:%02d +0000"', t.day, DATE_MONTH[t.month - 1], t.year, t.hour, t.min, t.sec) put_string(s) end def send_symbol_data(symbol) put_string("\\" + symbol.to_s) end def search_internal(cmd, keys, charset) if keys.instance_of?(String) keys = [RawData.new(keys)] else normalize_searching_criteria(keys) end synchronize do if charset send_command(cmd, "CHARSET", charset, *keys) else send_command(cmd, *keys) end return @responses.delete("SEARCH")[-1] end end def fetch_internal(cmd, set, attr) case attr when String then attr = RawData.new(attr) when Array then attr = attr.map { |arg| arg.is_a?(String) ? RawData.new(arg) : arg } end synchronize do @responses.delete("FETCH") send_command(cmd, MessageSet.new(set), attr) return @responses.delete("FETCH") end end def store_internal(cmd, set, attr, flags) if attr.instance_of?(String) attr = RawData.new(attr) end synchronize do @responses.delete("FETCH") send_command(cmd, MessageSet.new(set), attr, flags) return @responses.delete("FETCH") end end def copy_internal(cmd, set, mailbox) send_command(cmd, MessageSet.new(set), mailbox) end def sort_internal(cmd, sort_keys, search_keys, charset) if search_keys.instance_of?(String) search_keys = [RawData.new(search_keys)] else normalize_searching_criteria(search_keys) end normalize_searching_criteria(search_keys) synchronize do send_command(cmd, sort_keys, charset, *search_keys) return @responses.delete("SORT")[-1] end end def thread_internal(cmd, algorithm, search_keys, charset) if search_keys.instance_of?(String) search_keys = [RawData.new(search_keys)] else normalize_searching_criteria(search_keys) end normalize_searching_criteria(search_keys) send_command(cmd, algorithm, charset, *search_keys) return @responses.delete("THREAD")[-1] end def normalize_searching_criteria(keys) keys.collect! do |i| case i when -1, Range, Array MessageSet.new(i) else i end end end def create_ssl_params(certs = nil, verify = true) params = {} if certs if File.file?(certs) params[:ca_file] = certs elsif File.directory?(certs) params[:ca_path] = certs end end if verify params[:verify_mode] = VERIFY_PEER else params[:verify_mode] = VERIFY_NONE end return params end def start_tls_session(params = {}) unless defined?(OpenSSL::SSL) raise "SSL extension not installed" end if @sock.kind_of?(OpenSSL::SSL::SSLSocket) raise RuntimeError, "already using SSL" end begin params = params.to_hash rescue NoMethodError params = {} end context = SSLContext.new context.set_params(params) if defined?(VerifyCallbackProc) context.verify_callback = VerifyCallbackProc end @sock = SSLSocket.new(@sock, context) @sock.sync_close = true @sock.connect if context.verify_mode != VERIFY_NONE @sock.post_connection_check(@host) end end class RawData # :nodoc: def send_data(imap) imap.send(:put_string, @data) end def validate end private def initialize(data) @data = data end end class Atom # :nodoc: def send_data(imap) imap.send(:put_string, @data) end def validate end private def initialize(data) @data = data end end class QuotedString # :nodoc: def send_data(imap) imap.send(:send_quoted_string, @data) end def validate end private def initialize(data) @data = data end end class Literal # :nodoc: def send_data(imap) imap.send(:send_literal, @data) end def validate end private def initialize(data) @data = data end end class MessageSet # :nodoc: def send_data(imap) imap.send(:put_string, format_internal(@data)) end def validate validate_internal(@data) end private def initialize(data) @data = data end def format_internal(data) case data when "*" return data when Integer if data == -1 return "*" else return data.to_s end when Range return format_internal(data.first) + ":" + format_internal(data.last) when Array return data.collect {|i| format_internal(i)}.join(",") when ThreadMember return data.seqno.to_s + ":" + data.children.collect {|i| format_internal(i).join(",")} end end def validate_internal(data) case data when "*" when Integer NumValidator.ensure_nz_number(data) when Range when Array data.each do |i| validate_internal(i) end when ThreadMember data.children.each do |i| validate_internal(i) end else raise DataFormatError, data.inspect end end end # Common validators of number and nz_number types module NumValidator # :nodoc class << self # Check is passed argument valid 'number' in RFC 3501 terminology def valid_number?(num) # [RFC 3501] # number = 1*DIGIT # ; Unsigned 32-bit integer # ; (0 <= n < 4,294,967,296) num >= 0 && num < 4294967296 end # Check is passed argument valid 'nz_number' in RFC 3501 terminology def valid_nz_number?(num) # [RFC 3501] # nz-number = digit-nz *DIGIT # ; Non-zero unsigned 32-bit integer # ; (0 < n < 4,294,967,296) num != 0 && valid_number?(num) end # Ensure argument is 'number' or raise DataFormatError def ensure_number(num) return if valid_number?(num) msg = "number must be unsigned 32-bit integer: #{num}" raise DataFormatError, msg end # Ensure argument is 'nz_number' or raise DataFormatError def ensure_nz_number(num) return if valid_nz_number?(num) msg = "nz_number must be non-zero unsigned 32-bit integer: #{num}" raise DataFormatError, msg end end end # Net::IMAP::ContinuationRequest represents command continuation requests. # # The command continuation request response is indicated by a "+" token # instead of a tag. This form of response indicates that the server is # ready to accept the continuation of a command from the client. The # remainder of this response is a line of text. # # continue_req ::= "+" SPACE (resp_text / base64) # # ==== Fields: # # data:: Returns the data (Net::IMAP::ResponseText). # # raw_data:: Returns the raw data string. ContinuationRequest = Struct.new(:data, :raw_data) # Net::IMAP::UntaggedResponse represents untagged responses. # # Data transmitted by the server to the client and status responses # that do not indicate command completion are prefixed with the token # "*", and are called untagged responses. # # response_data ::= "*" SPACE (resp_cond_state / resp_cond_bye / # mailbox_data / message_data / capability_data) # # ==== Fields: # # name:: Returns the name, such as "FLAGS", "LIST", or "FETCH". # # data:: Returns the data such as an array of flag symbols, # a ((<Net::IMAP::MailboxList>)) object. # # raw_data:: Returns the raw data string. UntaggedResponse = Struct.new(:name, :data, :raw_data) # Net::IMAP::TaggedResponse represents tagged responses. # # The server completion result response indicates the success or # failure of the operation. It is tagged with the same tag as the # client command which began the operation. # # response_tagged ::= tag SPACE resp_cond_state CRLF # # tag ::= 1*<any ATOM_CHAR except "+"> # # resp_cond_state ::= ("OK" / "NO" / "BAD") SPACE resp_text # # ==== Fields: # # tag:: Returns the tag. # # name:: Returns the name, one of "OK", "NO", or "BAD". # # data:: Returns the data. See ((<Net::IMAP::ResponseText>)). # # raw_data:: Returns the raw data string. # TaggedResponse = Struct.new(:tag, :name, :data, :raw_data) # Net::IMAP::ResponseText represents texts of responses. # The text may be prefixed by the response code. # # resp_text ::= ["[" resp_text_code "]" SPACE] (text_mime2 / text) # ;; text SHOULD NOT begin with "[" or "=" # # ==== Fields: # # code:: Returns the response code. See ((<Net::IMAP::ResponseCode>)). # # text:: Returns the text. # ResponseText = Struct.new(:code, :text) # Net::IMAP::ResponseCode represents response codes. # # resp_text_code ::= "ALERT" / "PARSE" / # "PERMANENTFLAGS" SPACE "(" #(flag / "\*") ")" / # "READ-ONLY" / "READ-WRITE" / "TRYCREATE" / # "UIDVALIDITY" SPACE nz_number / # "UNSEEN" SPACE nz_number / # atom [SPACE 1*<any TEXT_CHAR except "]">] # # ==== Fields: # # name:: Returns the name, such as "ALERT", "PERMANENTFLAGS", or "UIDVALIDITY". # # data:: Returns the data, if it exists. # ResponseCode = Struct.new(:name, :data) # Net::IMAP::MailboxList represents contents of the LIST response. # # mailbox_list ::= "(" #("\Marked" / "\Noinferiors" / # "\Noselect" / "\Unmarked" / flag_extension) ")" # SPACE (<"> QUOTED_CHAR <"> / nil) SPACE mailbox # # ==== Fields: # # attr:: Returns the name attributes. Each name attribute is a symbol # capitalized by String#capitalize, such as :Noselect (not :NoSelect). # # delim:: Returns the hierarchy delimiter. # # name:: Returns the mailbox name. # MailboxList = Struct.new(:attr, :delim, :name) # Net::IMAP::MailboxQuota represents contents of GETQUOTA response. # This object can also be a response to GETQUOTAROOT. In the syntax # specification below, the delimiter used with the "#" construct is a # single space (SPACE). # # quota_list ::= "(" #quota_resource ")" # # quota_resource ::= atom SPACE number SPACE number # # quota_response ::= "QUOTA" SPACE astring SPACE quota_list # # ==== Fields: # # mailbox:: The mailbox with the associated quota. # # usage:: Current storage usage of the mailbox. # # quota:: Quota limit imposed on the mailbox. # MailboxQuota = Struct.new(:mailbox, :usage, :quota) # Net::IMAP::MailboxQuotaRoot represents part of the GETQUOTAROOT # response. (GETQUOTAROOT can also return Net::IMAP::MailboxQuota.) # # quotaroot_response ::= "QUOTAROOT" SPACE astring *(SPACE astring) # # ==== Fields: # # mailbox:: The mailbox with the associated quota. # # quotaroots:: Zero or more quotaroots that affect the quota on the # specified mailbox. # MailboxQuotaRoot = Struct.new(:mailbox, :quotaroots) # Net::IMAP::MailboxACLItem represents the response from GETACL. # # acl_data ::= "ACL" SPACE mailbox *(SPACE identifier SPACE rights) # # identifier ::= astring # # rights ::= astring # # ==== Fields: # # user:: Login name that has certain rights to the mailbox # that was specified with the getacl command. # # rights:: The access rights the indicated user has to the # mailbox. # MailboxACLItem = Struct.new(:user, :rights, :mailbox) # Net::IMAP::StatusData represents the contents of the STATUS response. # # ==== Fields: # # mailbox:: Returns the mailbox name. # # attr:: Returns a hash. Each key is one of "MESSAGES", "RECENT", "UIDNEXT", # "UIDVALIDITY", "UNSEEN". Each value is a number. # StatusData = Struct.new(:mailbox, :attr) # Net::IMAP::FetchData represents the contents of the FETCH response. # # ==== Fields: # # seqno:: Returns the message sequence number. # (Note: not the unique identifier, even for the UID command response.) # # attr:: Returns a hash. Each key is a data item name, and each value is # its value. # # The current data items are: # # [BODY] # A form of BODYSTRUCTURE without extension data. # [BODY[<section>]<<origin_octet>>] # A string expressing the body contents of the specified section. # [BODYSTRUCTURE] # An object that describes the [MIME-IMB] body structure of a message. # See Net::IMAP::BodyTypeBasic, Net::IMAP::BodyTypeText, # Net::IMAP::BodyTypeMessage, Net::IMAP::BodyTypeMultipart. # [ENVELOPE] # A Net::IMAP::Envelope object that describes the envelope # structure of a message. # [FLAGS] # A array of flag symbols that are set for this message. Flag symbols # are capitalized by String#capitalize. # [INTERNALDATE] # A string representing the internal date of the message. # [RFC822] # Equivalent to BODY[]. # [RFC822.HEADER] # Equivalent to BODY.PEEK[HEADER]. # [RFC822.SIZE] # A number expressing the [RFC-822] size of the message. # [RFC822.TEXT] # Equivalent to BODY[TEXT]. # [UID] # A number expressing the unique identifier of the message. # FetchData = Struct.new(:seqno, :attr) # Net::IMAP::Envelope represents envelope structures of messages. # # ==== Fields: # # date:: Returns a string that represents the date. # # subject:: Returns a string that represents the subject. # # from:: Returns an array of Net::IMAP::Address that represents the from. # # sender:: Returns an array of Net::IMAP::Address that represents the sender. # # reply_to:: Returns an array of Net::IMAP::Address that represents the reply-to. # # to:: Returns an array of Net::IMAP::Address that represents the to. # # cc:: Returns an array of Net::IMAP::Address that represents the cc. # # bcc:: Returns an array of Net::IMAP::Address that represents the bcc. # # in_reply_to:: Returns a string that represents the in-reply-to. # # message_id:: Returns a string that represents the message-id. # Envelope = Struct.new(:date, :subject, :from, :sender, :reply_to, :to, :cc, :bcc, :in_reply_to, :message_id) # # Net::IMAP::Address represents electronic mail addresses. # # ==== Fields: # # name:: Returns the phrase from [RFC-822] mailbox. # # route:: Returns the route from [RFC-822] route-addr. # # mailbox:: nil indicates end of [RFC-822] group. # If non-nil and host is nil, returns [RFC-822] group name. # Otherwise, returns [RFC-822] local-part. # # host:: nil indicates [RFC-822] group syntax. # Otherwise, returns [RFC-822] domain name. # Address = Struct.new(:name, :route, :mailbox, :host) # # Net::IMAP::ContentDisposition represents Content-Disposition fields. # # ==== Fields: # # dsp_type:: Returns the disposition type. # # param:: Returns a hash that represents parameters of the Content-Disposition # field. # ContentDisposition = Struct.new(:dsp_type, :param) # Net::IMAP::ThreadMember represents a thread-node returned # by Net::IMAP#thread. # # ==== Fields: # # seqno:: The sequence number of this message. # # children:: An array of Net::IMAP::ThreadMember objects for mail # items that are children of this in the thread. # ThreadMember = Struct.new(:seqno, :children) # Net::IMAP::BodyTypeBasic represents basic body structures of messages. # # ==== Fields: # # media_type:: Returns the content media type name as defined in [MIME-IMB]. # # subtype:: Returns the content subtype name as defined in [MIME-IMB]. # # param:: Returns a hash that represents parameters as defined in [MIME-IMB]. # # content_id:: Returns a string giving the content id as defined in [MIME-IMB]. # # description:: Returns a string giving the content description as defined in # [MIME-IMB]. # # encoding:: Returns a string giving the content transfer encoding as defined in # [MIME-IMB]. # # size:: Returns a number giving the size of the body in octets. # # md5:: Returns a string giving the body MD5 value as defined in [MD5]. # # disposition:: Returns a Net::IMAP::ContentDisposition object giving # the content disposition. # # language:: Returns a string or an array of strings giving the body # language value as defined in [LANGUAGE-TAGS]. # # extension:: Returns extension data. # # multipart?:: Returns false. # class BodyTypeBasic < Struct.new(:media_type, :subtype, :param, :content_id, :description, :encoding, :size, :md5, :disposition, :language, :extension) def multipart? return false end # Obsolete: use +subtype+ instead. Calling this will # generate a warning message to +stderr+, then return # the value of +subtype+. def media_subtype $stderr.printf("warning: media_subtype is obsolete.\n") $stderr.printf(" use subtype instead.\n") return subtype end end # Net::IMAP::BodyTypeText represents TEXT body structures of messages. # # ==== Fields: # # lines:: Returns the size of the body in text lines. # # And Net::IMAP::BodyTypeText has all fields of Net::IMAP::BodyTypeBasic. # class BodyTypeText < Struct.new(:media_type, :subtype, :param, :content_id, :description, :encoding, :size, :lines, :md5, :disposition, :language, :extension) def multipart? return false end # Obsolete: use +subtype+ instead. Calling this will # generate a warning message to +stderr+, then return # the value of +subtype+. def media_subtype $stderr.printf("warning: media_subtype is obsolete.\n") $stderr.printf(" use subtype instead.\n") return subtype end end # Net::IMAP::BodyTypeMessage represents MESSAGE/RFC822 body structures of messages. # # ==== Fields: # # envelope:: Returns a Net::IMAP::Envelope giving the envelope structure. # # body:: Returns an object giving the body structure. # # And Net::IMAP::BodyTypeMessage has all methods of Net::IMAP::BodyTypeText. # class BodyTypeMessage < Struct.new(:media_type, :subtype, :param, :content_id, :description, :encoding, :size, :envelope, :body, :lines, :md5, :disposition, :language, :extension) def multipart? return false end # Obsolete: use +subtype+ instead. Calling this will # generate a warning message to +stderr+, then return # the value of +subtype+. def media_subtype $stderr.printf("warning: media_subtype is obsolete.\n") $stderr.printf(" use subtype instead.\n") return subtype end end # Net::IMAP::BodyTypeAttachment represents attachment body structures # of messages. # # ==== Fields: # # media_type:: Returns the content media type name. # # subtype:: Returns +nil+. # # param:: Returns a hash that represents parameters. # # multipart?:: Returns false. # class BodyTypeAttachment < Struct.new(:media_type, :subtype, :param) def multipart? return false end end # Net::IMAP::BodyTypeMultipart represents multipart body structures # of messages. # # ==== Fields: # # media_type:: Returns the content media type name as defined in [MIME-IMB]. # # subtype:: Returns the content subtype name as defined in [MIME-IMB]. # # parts:: Returns multiple parts. # # param:: Returns a hash that represents parameters as defined in [MIME-IMB]. # # disposition:: Returns a Net::IMAP::ContentDisposition object giving # the content disposition. # # language:: Returns a string or an array of strings giving the body # language value as defined in [LANGUAGE-TAGS]. # # extension:: Returns extension data. # # multipart?:: Returns true. # class BodyTypeMultipart < Struct.new(:media_type, :subtype, :parts, :param, :disposition, :language, :extension) def multipart? return true end # Obsolete: use +subtype+ instead. Calling this will # generate a warning message to +stderr+, then return # the value of +subtype+. def media_subtype $stderr.printf("warning: media_subtype is obsolete.\n") $stderr.printf(" use subtype instead.\n") return subtype end end class BodyTypeExtension < Struct.new(:media_type, :subtype, :params, :content_id, :description, :encoding, :size) def multipart? return false end end class ResponseParser # :nodoc: def initialize @str = nil @pos = nil @lex_state = nil @token = nil @flag_symbols = {} end def parse(str) @str = str @pos = 0 @lex_state = EXPR_BEG @token = nil return response end private EXPR_BEG = :EXPR_BEG EXPR_DATA = :EXPR_DATA EXPR_TEXT = :EXPR_TEXT EXPR_RTEXT = :EXPR_RTEXT EXPR_CTEXT = :EXPR_CTEXT T_SPACE = :SPACE T_NIL = :NIL T_NUMBER = :NUMBER T_ATOM = :ATOM T_QUOTED = :QUOTED T_LPAR = :LPAR T_RPAR = :RPAR T_BSLASH = :BSLASH T_STAR = :STAR T_LBRA = :LBRA T_RBRA = :RBRA T_LITERAL = :LITERAL T_PLUS = :PLUS T_PERCENT = :PERCENT T_CRLF = :CRLF T_EOF = :EOF T_TEXT = :TEXT BEG_REGEXP = /\G(?:\ (?# 1: SPACE )( +)|\ (?# 2: NIL )(NIL)(?=[\x80-\xff(){ \x00-\x1f\x7f%*"\\\[\]+])|\ (?# 3: NUMBER )(\d+)(?=[\x80-\xff(){ \x00-\x1f\x7f%*"\\\[\]+])|\ (?# 4: ATOM )([^\x80-\xff(){ \x00-\x1f\x7f%*"\\\[\]+]+)|\ (?# 5: QUOTED )"((?:[^\x00\r\n"\\]|\\["\\])*)"|\ (?# 6: LPAR )(\()|\ (?# 7: RPAR )(\))|\ (?# 8: BSLASH )(\\)|\ (?# 9: STAR )(\*)|\ (?# 10: LBRA )(\[)|\ (?# 11: RBRA )(\])|\ (?# 12: LITERAL )\{(\d+)\}\r\n|\ (?# 13: PLUS )(\+)|\ (?# 14: PERCENT )(%)|\ (?# 15: CRLF )(\r\n)|\ (?# 16: EOF )(\z))/ni DATA_REGEXP = /\G(?:\ (?# 1: SPACE )( )|\ (?# 2: NIL )(NIL)|\ (?# 3: NUMBER )(\d+)|\ (?# 4: QUOTED )"((?:[^\x00\r\n"\\]|\\["\\])*)"|\ (?# 5: LITERAL )\{(\d+)\}\r\n|\ (?# 6: LPAR )(\()|\ (?# 7: RPAR )(\)))/ni TEXT_REGEXP = /\G(?:\ (?# 1: TEXT )([^\x00\r\n]*))/ni RTEXT_REGEXP = /\G(?:\ (?# 1: LBRA )(\[)|\ (?# 2: TEXT )([^\x00\r\n]*))/ni CTEXT_REGEXP = /\G(?:\ (?# 1: TEXT )([^\x00\r\n\]]*))/ni Token = Struct.new(:symbol, :value) def response token = lookahead case token.symbol when T_PLUS result = continue_req when T_STAR result = response_untagged else result = response_tagged end while lookahead.symbol == T_SPACE # Ignore trailing space for Microsoft Exchange Server shift_token end match(T_CRLF) match(T_EOF) return result end def continue_req match(T_PLUS) match(T_SPACE) return ContinuationRequest.new(resp_text, @str) end def response_untagged match(T_STAR) match(T_SPACE) token = lookahead if token.symbol == T_NUMBER return numeric_response elsif token.symbol == T_ATOM case token.value when /\A(?:OK|NO|BAD|BYE|PREAUTH)\z/ni return response_cond when /\A(?:FLAGS)\z/ni return flags_response when /\A(?:LIST|LSUB|XLIST)\z/ni return list_response when /\A(?:QUOTA)\z/ni return getquota_response when /\A(?:QUOTAROOT)\z/ni return getquotaroot_response when /\A(?:ACL)\z/ni return getacl_response when /\A(?:SEARCH|SORT)\z/ni return search_response when /\A(?:THREAD)\z/ni return thread_response when /\A(?:STATUS)\z/ni return status_response when /\A(?:CAPABILITY)\z/ni return capability_response else return text_response end else parse_error("unexpected token %s", token.symbol) end end def response_tagged tag = atom match(T_SPACE) token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return TaggedResponse.new(tag, name, resp_text, @str) end def response_cond token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return UntaggedResponse.new(name, resp_text, @str) end def numeric_response n = number match(T_SPACE) token = match(T_ATOM) name = token.value.upcase case name when "EXISTS", "RECENT", "EXPUNGE" return UntaggedResponse.new(name, n, @str) when "FETCH" shift_token match(T_SPACE) data = FetchData.new(n, msg_att(n)) return UntaggedResponse.new(name, data, @str) end end def msg_att(n) match(T_LPAR) attr = {} while true token = lookahead case token.symbol when T_RPAR shift_token break when T_SPACE shift_token next end case token.value when /\A(?:ENVELOPE)\z/ni name, val = envelope_data when /\A(?:FLAGS)\z/ni name, val = flags_data when /\A(?:INTERNALDATE)\z/ni name, val = internaldate_data when /\A(?:RFC822(?:\.HEADER|\.TEXT)?)\z/ni name, val = rfc822_text when /\A(?:RFC822\.SIZE)\z/ni name, val = rfc822_size when /\A(?:BODY(?:STRUCTURE)?)\z/ni name, val = body_data when /\A(?:UID)\z/ni name, val = uid_data else parse_error("unknown attribute `%s' for {%d}", token.value, n) end attr[name] = val end return attr end def envelope_data token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return name, envelope end def envelope @lex_state = EXPR_DATA token = lookahead if token.symbol == T_NIL shift_token result = nil else match(T_LPAR) date = nstring match(T_SPACE) subject = nstring match(T_SPACE) from = address_list match(T_SPACE) sender = address_list match(T_SPACE) reply_to = address_list match(T_SPACE) to = address_list match(T_SPACE) cc = address_list match(T_SPACE) bcc = address_list match(T_SPACE) in_reply_to = nstring match(T_SPACE) message_id = nstring match(T_RPAR) result = Envelope.new(date, subject, from, sender, reply_to, to, cc, bcc, in_reply_to, message_id) end @lex_state = EXPR_BEG return result end def flags_data token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return name, flag_list end def internaldate_data token = match(T_ATOM) name = token.value.upcase match(T_SPACE) token = match(T_QUOTED) return name, token.value end def rfc822_text token = match(T_ATOM) name = token.value.upcase token = lookahead if token.symbol == T_LBRA shift_token match(T_RBRA) end match(T_SPACE) return name, nstring end def rfc822_size token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return name, number end def body_data token = match(T_ATOM) name = token.value.upcase token = lookahead if token.symbol == T_SPACE shift_token return name, body end name.concat(section) token = lookahead if token.symbol == T_ATOM name.concat(token.value) shift_token end match(T_SPACE) data = nstring return name, data end def body @lex_state = EXPR_DATA token = lookahead if token.symbol == T_NIL shift_token result = nil else match(T_LPAR) token = lookahead if token.symbol == T_LPAR result = body_type_mpart else result = body_type_1part end match(T_RPAR) end @lex_state = EXPR_BEG return result end def body_type_1part token = lookahead case token.value when /\A(?:TEXT)\z/ni return body_type_text when /\A(?:MESSAGE)\z/ni return body_type_msg when /\A(?:ATTACHMENT)\z/ni return body_type_attachment when /\A(?:MIXED)\z/ni return body_type_mixed else return body_type_basic end end def body_type_basic mtype, msubtype = media_type token = lookahead if token.symbol == T_RPAR return BodyTypeBasic.new(mtype, msubtype) end match(T_SPACE) param, content_id, desc, enc, size = body_fields md5, disposition, language, extension = body_ext_1part return BodyTypeBasic.new(mtype, msubtype, param, content_id, desc, enc, size, md5, disposition, language, extension) end def body_type_text mtype, msubtype = media_type match(T_SPACE) param, content_id, desc, enc, size = body_fields match(T_SPACE) lines = number md5, disposition, language, extension = body_ext_1part return BodyTypeText.new(mtype, msubtype, param, content_id, desc, enc, size, lines, md5, disposition, language, extension) end def body_type_msg mtype, msubtype = media_type match(T_SPACE) param, content_id, desc, enc, size = body_fields token = lookahead if token.symbol == T_RPAR # If this is not message/rfc822, we shouldn't apply the RFC822 # spec to it. We should handle anything other than # message/rfc822 using multipart extension data [rfc3501] (i.e. # the data itself won't be returned, we would have to retrieve it # with BODYSTRUCTURE instead of with BODY # Also, sometimes a message/rfc822 is included as a large # attachment instead of having all of the other details # (e.g. attaching a .eml file to an email) if msubtype == "RFC822" return BodyTypeMessage.new(mtype, msubtype, param, content_id, desc, enc, size, nil, nil, nil, nil, nil, nil, nil) else return BodyTypeExtension.new(mtype, msubtype, param, content_id, desc, enc, size) end end match(T_SPACE) env = envelope match(T_SPACE) b = body match(T_SPACE) lines = number md5, disposition, language, extension = body_ext_1part return BodyTypeMessage.new(mtype, msubtype, param, content_id, desc, enc, size, env, b, lines, md5, disposition, language, extension) end def body_type_attachment mtype = case_insensitive_string match(T_SPACE) param = body_fld_param return BodyTypeAttachment.new(mtype, nil, param) end def body_type_mixed mtype = "MULTIPART" msubtype = case_insensitive_string param, disposition, language, extension = body_ext_mpart return BodyTypeBasic.new(mtype, msubtype, param, nil, nil, nil, nil, nil, disposition, language, extension) end def body_type_mpart parts = [] while true token = lookahead if token.symbol == T_SPACE shift_token break end parts.push(body) end mtype = "MULTIPART" msubtype = case_insensitive_string param, disposition, language, extension = body_ext_mpart return BodyTypeMultipart.new(mtype, msubtype, parts, param, disposition, language, extension) end def media_type mtype = case_insensitive_string token = lookahead if token.symbol != T_SPACE return mtype, nil end match(T_SPACE) msubtype = case_insensitive_string return mtype, msubtype end def body_fields param = body_fld_param match(T_SPACE) content_id = nstring match(T_SPACE) desc = nstring match(T_SPACE) enc = case_insensitive_string match(T_SPACE) size = number return param, content_id, desc, enc, size end def body_fld_param token = lookahead if token.symbol == T_NIL shift_token return nil end match(T_LPAR) param = {} while true token = lookahead case token.symbol when T_RPAR shift_token break when T_SPACE shift_token end name = case_insensitive_string match(T_SPACE) val = string param[name] = val end return param end def body_ext_1part token = lookahead if token.symbol == T_SPACE shift_token else return nil end md5 = nstring token = lookahead if token.symbol == T_SPACE shift_token else return md5 end disposition = body_fld_dsp token = lookahead if token.symbol == T_SPACE shift_token else return md5, disposition end language = body_fld_lang token = lookahead if token.symbol == T_SPACE shift_token else return md5, disposition, language end extension = body_extensions return md5, disposition, language, extension end def body_ext_mpart token = lookahead if token.symbol == T_SPACE shift_token else return nil end param = body_fld_param token = lookahead if token.symbol == T_SPACE shift_token else return param end disposition = body_fld_dsp token = lookahead if token.symbol == T_SPACE shift_token else return param, disposition end language = body_fld_lang token = lookahead if token.symbol == T_SPACE shift_token else return param, disposition, language end extension = body_extensions return param, disposition, language, extension end def body_fld_dsp token = lookahead if token.symbol == T_NIL shift_token return nil end match(T_LPAR) dsp_type = case_insensitive_string match(T_SPACE) param = body_fld_param match(T_RPAR) return ContentDisposition.new(dsp_type, param) end def body_fld_lang token = lookahead if token.symbol == T_LPAR shift_token result = [] while true token = lookahead case token.symbol when T_RPAR shift_token return result when T_SPACE shift_token end result.push(case_insensitive_string) end else lang = nstring if lang return lang.upcase else return lang end end end def body_extensions result = [] while true token = lookahead case token.symbol when T_RPAR return result when T_SPACE shift_token end result.push(body_extension) end end def body_extension token = lookahead case token.symbol when T_LPAR shift_token result = body_extensions match(T_RPAR) return result when T_NUMBER return number else return nstring end end def section str = String.new token = match(T_LBRA) str.concat(token.value) token = match(T_ATOM, T_NUMBER, T_RBRA) if token.symbol == T_RBRA str.concat(token.value) return str end str.concat(token.value) token = lookahead if token.symbol == T_SPACE shift_token str.concat(token.value) token = match(T_LPAR) str.concat(token.value) while true token = lookahead case token.symbol when T_RPAR str.concat(token.value) shift_token break when T_SPACE shift_token str.concat(token.value) end str.concat(format_string(astring)) end end token = match(T_RBRA) str.concat(token.value) return str end def format_string(str) case str when "" return '""' when /[\x80-\xff\r\n]/n # literal return "{" + str.bytesize.to_s + "}" + CRLF + str when /[(){ \x00-\x1f\x7f%*"\\]/n # quoted string return '"' + str.gsub(/["\\]/n, "\\\\\\&") + '"' else # atom return str end end def uid_data token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return name, number end def text_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) @lex_state = EXPR_TEXT token = match(T_TEXT) @lex_state = EXPR_BEG return UntaggedResponse.new(name, token.value) end def flags_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return UntaggedResponse.new(name, flag_list, @str) end def list_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) return UntaggedResponse.new(name, mailbox_list, @str) end def mailbox_list attr = flag_list match(T_SPACE) token = match(T_QUOTED, T_NIL) if token.symbol == T_NIL delim = nil else delim = token.value end match(T_SPACE) name = astring return MailboxList.new(attr, delim, name) end def getquota_response # If quota never established, get back # `NO Quota root does not exist'. # If quota removed, get `()' after the # folder spec with no mention of `STORAGE'. token = match(T_ATOM) name = token.value.upcase match(T_SPACE) mailbox = astring match(T_SPACE) match(T_LPAR) token = lookahead case token.symbol when T_RPAR shift_token data = MailboxQuota.new(mailbox, nil, nil) return UntaggedResponse.new(name, data, @str) when T_ATOM shift_token match(T_SPACE) token = match(T_NUMBER) usage = token.value match(T_SPACE) token = match(T_NUMBER) quota = token.value match(T_RPAR) data = MailboxQuota.new(mailbox, usage, quota) return UntaggedResponse.new(name, data, @str) else parse_error("unexpected token %s", token.symbol) end end def getquotaroot_response # Similar to getquota, but only admin can use getquota. token = match(T_ATOM) name = token.value.upcase match(T_SPACE) mailbox = astring quotaroots = [] while true token = lookahead break unless token.symbol == T_SPACE shift_token quotaroots.push(astring) end data = MailboxQuotaRoot.new(mailbox, quotaroots) return UntaggedResponse.new(name, data, @str) end def getacl_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) mailbox = astring data = [] token = lookahead if token.symbol == T_SPACE shift_token while true token = lookahead case token.symbol when T_CRLF break when T_SPACE shift_token end user = astring match(T_SPACE) rights = astring data.push(MailboxACLItem.new(user, rights, mailbox)) end end return UntaggedResponse.new(name, data, @str) end def search_response token = match(T_ATOM) name = token.value.upcase token = lookahead if token.symbol == T_SPACE shift_token data = [] while true token = lookahead case token.symbol when T_CRLF break when T_SPACE shift_token when T_NUMBER data.push(number) when T_LPAR # TODO: include the MODSEQ value in a response shift_token match(T_ATOM) match(T_SPACE) match(T_NUMBER) match(T_RPAR) end end else data = [] end return UntaggedResponse.new(name, data, @str) end def thread_response token = match(T_ATOM) name = token.value.upcase token = lookahead if token.symbol == T_SPACE threads = [] while true shift_token token = lookahead case token.symbol when T_LPAR threads << thread_branch(token) when T_CRLF break end end else # no member threads = [] end return UntaggedResponse.new(name, threads, @str) end def thread_branch(token) rootmember = nil lastmember = nil while true shift_token # ignore first T_LPAR token = lookahead case token.symbol when T_NUMBER # new member newmember = ThreadMember.new(number, []) if rootmember.nil? rootmember = newmember else lastmember.children << newmember end lastmember = newmember when T_SPACE # do nothing when T_LPAR if rootmember.nil? # dummy member lastmember = rootmember = ThreadMember.new(nil, []) end lastmember.children << thread_branch(token) when T_RPAR break end end return rootmember end def status_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) mailbox = astring match(T_SPACE) match(T_LPAR) attr = {} while true token = lookahead case token.symbol when T_RPAR shift_token break when T_SPACE shift_token end token = match(T_ATOM) key = token.value.upcase match(T_SPACE) val = number attr[key] = val end data = StatusData.new(mailbox, attr) return UntaggedResponse.new(name, data, @str) end def capability_response token = match(T_ATOM) name = token.value.upcase match(T_SPACE) data = [] while true token = lookahead case token.symbol when T_CRLF break when T_SPACE shift_token next end data.push(atom.upcase) end return UntaggedResponse.new(name, data, @str) end def resp_text @lex_state = EXPR_RTEXT token = lookahead if token.symbol == T_LBRA code = resp_text_code else code = nil end token = match(T_TEXT) @lex_state = EXPR_BEG return ResponseText.new(code, token.value) end def resp_text_code @lex_state = EXPR_BEG match(T_LBRA) token = match(T_ATOM) name = token.value.upcase case name when /\A(?:ALERT|PARSE|READ-ONLY|READ-WRITE|TRYCREATE|NOMODSEQ)\z/n result = ResponseCode.new(name, nil) when /\A(?:PERMANENTFLAGS)\z/n match(T_SPACE) result = ResponseCode.new(name, flag_list) when /\A(?:UIDVALIDITY|UIDNEXT|UNSEEN)\z/n match(T_SPACE) result = ResponseCode.new(name, number) else token = lookahead if token.symbol == T_SPACE shift_token @lex_state = EXPR_CTEXT token = match(T_TEXT) @lex_state = EXPR_BEG result = ResponseCode.new(name, token.value) else result = ResponseCode.new(name, nil) end end match(T_RBRA) @lex_state = EXPR_RTEXT return result end def address_list token = lookahead if token.symbol == T_NIL shift_token return nil else result = [] match(T_LPAR) while true token = lookahead case token.symbol when T_RPAR shift_token break when T_SPACE shift_token end result.push(address) end return result end end ADDRESS_REGEXP = /\G\ (?# 1: NAME )(?:NIL|"((?:[^\x80-\xff\x00\r\n"\\]|\\["\\])*)") \ (?# 2: ROUTE )(?:NIL|"((?:[^\x80-\xff\x00\r\n"\\]|\\["\\])*)") \ (?# 3: MAILBOX )(?:NIL|"((?:[^\x80-\xff\x00\r\n"\\]|\\["\\])*)") \ (?# 4: HOST )(?:NIL|"((?:[^\x80-\xff\x00\r\n"\\]|\\["\\])*)")\ \)/ni def address match(T_LPAR) if @str.index(ADDRESS_REGEXP, @pos) # address does not include literal. @pos = $~.end(0) name = $1 route = $2 mailbox = $3 host = $4 for s in [name, route, mailbox, host] if s s.gsub!(/\\(["\\])/n, "\\1") end end else name = nstring match(T_SPACE) route = nstring match(T_SPACE) mailbox = nstring match(T_SPACE) host = nstring match(T_RPAR) end return Address.new(name, route, mailbox, host) end FLAG_REGEXP = /\ (?# FLAG )\\([^\x80-\xff(){ \x00-\x1f\x7f%"\\]+)|\ (?# ATOM )([^\x80-\xff(){ \x00-\x1f\x7f%*"\\]+)/n def flag_list if @str.index(/\(([^)]*)\)/ni, @pos) @pos = $~.end(0) return $1.scan(FLAG_REGEXP).collect { |flag, atom| if atom atom else symbol = flag.capitalize.untaint.intern @flag_symbols[symbol] = true if @flag_symbols.length > IMAP.max_flag_count raise FlagCountError, "number of flag symbols exceeded" end symbol end } else parse_error("invalid flag list") end end def nstring token = lookahead if token.symbol == T_NIL shift_token return nil else return string end end def astring token = lookahead if string_token?(token) return string else return atom end end def string token = lookahead if token.symbol == T_NIL shift_token return nil end token = match(T_QUOTED, T_LITERAL) return token.value end STRING_TOKENS = [T_QUOTED, T_LITERAL, T_NIL] def string_token?(token) return STRING_TOKENS.include?(token.symbol) end def case_insensitive_string token = lookahead if token.symbol == T_NIL shift_token return nil end token = match(T_QUOTED, T_LITERAL) return token.value.upcase end def atom result = String.new while true token = lookahead if atom_token?(token) result.concat(token.value) shift_token else if result.empty? parse_error("unexpected token %s", token.symbol) else return result end end end end ATOM_TOKENS = [ T_ATOM, T_NUMBER, T_NIL, T_LBRA, T_RBRA, T_PLUS ] def atom_token?(token) return ATOM_TOKENS.include?(token.symbol) end def number token = lookahead if token.symbol == T_NIL shift_token return nil end token = match(T_NUMBER) return token.value.to_i end def nil_atom match(T_NIL) return nil end def match(*args) token = lookahead unless args.include?(token.symbol) parse_error('unexpected token %s (expected %s)', token.symbol.id2name, args.collect {|i| i.id2name}.join(" or ")) end shift_token return token end def lookahead unless @token @token = next_token end return @token end def shift_token @token = nil end def next_token case @lex_state when EXPR_BEG if @str.index(BEG_REGEXP, @pos) @pos = $~.end(0) if $1 return Token.new(T_SPACE, $+) elsif $2 return Token.new(T_NIL, $+) elsif $3 return Token.new(T_NUMBER, $+) elsif $4 return Token.new(T_ATOM, $+) elsif $5 return Token.new(T_QUOTED, $+.gsub(/\\(["\\])/n, "\\1")) elsif $6 return Token.new(T_LPAR, $+) elsif $7 return Token.new(T_RPAR, $+) elsif $8 return Token.new(T_BSLASH, $+) elsif $9 return Token.new(T_STAR, $+) elsif $10 return Token.new(T_LBRA, $+) elsif $11 return Token.new(T_RBRA, $+) elsif $12 len = $+.to_i val = @str[@pos, len] @pos += len return Token.new(T_LITERAL, val) elsif $13 return Token.new(T_PLUS, $+) elsif $14 return Token.new(T_PERCENT, $+) elsif $15 return Token.new(T_CRLF, $+) elsif $16 return Token.new(T_EOF, $+) else parse_error("[Net::IMAP BUG] BEG_REGEXP is invalid") end else @str.index(/\S*/n, @pos) parse_error("unknown token - %s", $&.dump) end when EXPR_DATA if @str.index(DATA_REGEXP, @pos) @pos = $~.end(0) if $1 return Token.new(T_SPACE, $+) elsif $2 return Token.new(T_NIL, $+) elsif $3 return Token.new(T_NUMBER, $+) elsif $4 return Token.new(T_QUOTED, $+.gsub(/\\(["\\])/n, "\\1")) elsif $5 len = $+.to_i val = @str[@pos, len] @pos += len return Token.new(T_LITERAL, val) elsif $6 return Token.new(T_LPAR, $+) elsif $7 return Token.new(T_RPAR, $+) else parse_error("[Net::IMAP BUG] DATA_REGEXP is invalid") end else @str.index(/\S*/n, @pos) parse_error("unknown token - %s", $&.dump) end when EXPR_TEXT if @str.index(TEXT_REGEXP, @pos) @pos = $~.end(0) if $1 return Token.new(T_TEXT, $+) else parse_error("[Net::IMAP BUG] TEXT_REGEXP is invalid") end else @str.index(/\S*/n, @pos) parse_error("unknown token - %s", $&.dump) end when EXPR_RTEXT if @str.index(RTEXT_REGEXP, @pos) @pos = $~.end(0) if $1 return Token.new(T_LBRA, $+) elsif $2 return Token.new(T_TEXT, $+) else parse_error("[Net::IMAP BUG] RTEXT_REGEXP is invalid") end else @str.index(/\S*/n, @pos) parse_error("unknown token - %s", $&.dump) end when EXPR_CTEXT if @str.index(CTEXT_REGEXP, @pos) @pos = $~.end(0) if $1 return Token.new(T_TEXT, $+) else parse_error("[Net::IMAP BUG] CTEXT_REGEXP is invalid") end else @str.index(/\S*/n, @pos) #/ parse_error("unknown token - %s", $&.dump) end else parse_error("invalid @lex_state - %s", @lex_state.inspect) end end def parse_error(fmt, *args) if IMAP.debug $stderr.printf("@str: %s\n", @str.dump) $stderr.printf("@pos: %d\n", @pos) $stderr.printf("@lex_state: %s\n", @lex_state) if @token $stderr.printf("@token.symbol: %s\n", @token.symbol) $stderr.printf("@token.value: %s\n", @token.value.inspect) end end raise ResponseParseError, format(fmt, *args) end end # Authenticator for the "LOGIN" authentication type. See # #authenticate(). class LoginAuthenticator def process(data) case @state when STATE_USER @state = STATE_PASSWORD return @user when STATE_PASSWORD return @password end end private STATE_USER = :USER STATE_PASSWORD = :PASSWORD def initialize(user, password) @user = user @password = password @state = STATE_USER end end add_authenticator "LOGIN", LoginAuthenticator # Authenticator for the "PLAIN" authentication type. See # #authenticate(). class PlainAuthenticator def process(data) return "\0#{@user}\0#{@password}" end private def initialize(user, password) @user = user @password = password end end add_authenticator "PLAIN", PlainAuthenticator # Authenticator for the "CRAM-MD5" authentication type. See # #authenticate(). class CramMD5Authenticator def process(challenge) digest = hmac_md5(challenge, @password) return @user + " " + digest end private def initialize(user, password) @user = user @password = password end def hmac_md5(text, key) if key.length > 64 key = Digest::MD5.digest(key) end k_ipad = key + "\0" * (64 - key.length) k_opad = key + "\0" * (64 - key.length) for i in 0..63 k_ipad[i] = (k_ipad[i].ord ^ 0x36).chr k_opad[i] = (k_opad[i].ord ^ 0x5c).chr end digest = Digest::MD5.digest(k_ipad + text) return Digest::MD5.hexdigest(k_opad + digest) end end add_authenticator "CRAM-MD5", CramMD5Authenticator # Authenticator for the "DIGEST-MD5" authentication type. See # #authenticate(). class DigestMD5Authenticator def process(challenge) case @stage when STAGE_ONE @stage = STAGE_TWO sparams = {} c = StringScanner.new(challenge) while c.scan(/(?:\s*,)?\s*(\w+)=("(?:[^\\"]+|\\.)*"|[^,]+)\s*/) k, v = c[1], c[2] if v =~ /^"(.*)"$/ v = $1 if v =~ /,/ v = v.split(',') end end sparams[k] = v end raise DataFormatError, "Bad Challenge: '#{challenge}'" unless c.rest.size == 0 raise Error, "Server does not support auth (qop = #{sparams['qop'].join(',')})" unless sparams['qop'].include?("auth") response = { :nonce => sparams['nonce'], :username => @user, :realm => sparams['realm'], :cnonce => Digest::MD5.hexdigest("%.15f:%.15f:%d" % [Time.now.to_f, rand, Process.pid.to_s]), :'digest-uri' => 'imap/' + sparams['realm'], :qop => 'auth', :maxbuf => 65535, :nc => "%08d" % nc(sparams['nonce']), :charset => sparams['charset'], } response[:authzid] = @authname unless @authname.nil? # now, the real thing a0 = Digest::MD5.digest( [ response.values_at(:username, :realm), @password ].join(':') ) a1 = [ a0, response.values_at(:nonce,:cnonce) ].join(':') a1 << ':' + response[:authzid] unless response[:authzid].nil? a2 = "AUTHENTICATE:" + response[:'digest-uri'] a2 << ":00000000000000000000000000000000" if response[:qop] and response[:qop] =~ /^auth-(?:conf|int)$/ response[:response] = Digest::MD5.hexdigest( [ Digest::MD5.hexdigest(a1), response.values_at(:nonce, :nc, :cnonce, :qop), Digest::MD5.hexdigest(a2) ].join(':') ) return response.keys.map {|key| qdval(key.to_s, response[key]) }.join(',') when STAGE_TWO @stage = nil # if at the second stage, return an empty string if challenge =~ /rspauth=/ return '' else raise ResponseParseError, challenge end else raise ResponseParseError, challenge end end def initialize(user, password, authname = nil) @user, @password, @authname = user, password, authname @nc, @stage = {}, STAGE_ONE end private STAGE_ONE = :stage_one STAGE_TWO = :stage_two def nc(nonce) if @nc.has_key? nonce @nc[nonce] = @nc[nonce] + 1 else @nc[nonce] = 1 end return @nc[nonce] end # some responses need quoting def qdval(k, v) return if k.nil? or v.nil? if %w"username authzid realm nonce cnonce digest-uri qop".include? k v.gsub!(/([\\"])/, "\\\1") return '%s="%s"' % [k, v] else return '%s=%s' % [k, v] end end end add_authenticator "DIGEST-MD5", DigestMD5Authenticator # Superclass of IMAP errors. class Error < StandardError end # Error raised when data is in the incorrect format. class DataFormatError < Error end # Error raised when a response from the server is non-parseable. class ResponseParseError < Error end # Superclass of all errors used to encapsulate "fail" responses # from the server. class ResponseError < Error # The response that caused this error attr_accessor :response def initialize(response) @response = response super @response.data.text end end # Error raised upon a "NO" response from the server, indicating # that the client command could not be completed successfully. class NoResponseError < ResponseError end # Error raised upon a "BAD" response from the server, indicating # that the client command violated the IMAP protocol, or an internal # server failure has occurred. class BadResponseError < ResponseError end # Error raised upon a "BYE" response from the server, indicating # that the client is not being allowed to login, or has been timed # out due to inactivity. class ByeResponseError < ResponseError end # Error raised when too many flags are interned to symbols. class FlagCountError < Error end end end